Merge branch 'develop' of github.com:matrix-org/synapse into develop

This commit is contained in:
David Baker 2014-08-29 13:24:08 +01:00
commit 3e6a19cf09
11 changed files with 422 additions and 205 deletions

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@ -9,7 +9,9 @@ TODO(Introduction) : Matthew
Architecture
============
- Sending a message from A to B
Clients transmit data to other clients through home servers (HSes). Clients do not communicate with each
other directly.
::
@ -26,39 +28,42 @@ Architecture
| |<--------( HTTP )-----------| |
+------------------+ Federation +------------------+
- Client is an end-user (web app, mobile app) which uses C-S APIs to talk to the home server.
A given client is typically responsible for a single user.
- A single user is represented by a User ID, scoped to the home server which allocated the account.
User IDs MUST have @ prefix; looks like @foo:domain - domain indicates the user's home
server.
- Home server provides C-S APIs and has the ability to federate with other HSes.
Typically responsible for N clients.
- Federation's purpose is to share content between interested HSes; no SPOF.
- Events are actions within the system. Typically each action (e.g. sending a message)
correlates with exactly one event. Each event has a ``type`` string.
- ``type`` values SHOULD be namespaced according to standard Java package naming conventions,
with a ``.`` delimiter e.g. ``com.example.myapp.event``
- Events are typically send in the context of a room.
A "Client" is an end-user, typically a human using a web application or mobile app. Clients use the
"Client-to-Server" (C-S) API to communicate with their home server. A single Client is usually
responsible for a single user account. A user account is represented by their "User ID". This ID is
namespaced to the home server which allocated the account and looks like::
@localpart:domain
The ``localpart`` of a user ID may be a user name, or an opaque ID identifying this user.
A "Home Server" is a server which provides C-S APIs and has the ability to federate with other HSes.
It is typically responsible for multiple clients. "Federation" is the term used to describe the
sharing of data between two or more home servers.
Data in Matrix is encapsulated in an "Event". An event is an action within the system. Typically each
action (e.g. sending a message) correlates with exactly one event. Each event has a ``type`` which is
used to differentiate different kinds of data. ``type`` values SHOULD be namespaced according to standard
Java package naming conventions, e.g. ``com.example.myapp.event``. Events are usually sent in the context
of a "Room".
Room structure
--------------
A room is a conceptual place where users can send and receive messages. Rooms
can be created, joined and left. Messages are sent to a room, and all
participants in that room will receive the message. Rooms are uniquely
identified via a room ID. There is exactly one room ID for each room. Each
room can also have an alias. Each room can have many aliases.
A room is a conceptual place where users can send and receive events. Rooms
can be created, joined and left. Events are sent to a room, and all
participants in that room will receive the event. Rooms are uniquely
identified via a "Room ID", which look like::
- Room IDs MUST have ! prefix; looks like !foo:domain - domain is simply for namespacing,
the room does NOT reside on any one domain. NOT human readable.
!opaque_id:domain
- Room Aliases MUST have # prefix; looks like #foo:domain - domain indicates where this
alias can be mapped to a room ID. Key point: human readable / friendly.
There is exactly one room ID for each room. Whilst the room ID does contain a
domain, it is simply for namespacing room IDs. The room does NOT reside on the
domain specified. Room IDs are not meant to be human readable.
- Aliases can be queried on the domain they specify, which will return a room ID if a
mapping exists. These mappings can change.
::
The following diagram shows an ``m.room.message`` event being sent in the room
``!qporfwt:matrix.org``::
{ @alice:matrix.org } { @bob:domain.com }
| ^
@ -73,7 +78,7 @@ room can also have an alias. Each room can have many aliases.
| matrix.org |<-------Federation------->| domain.com |
+------------------+ +------------------+
| ................................. |
|______| Shared State |_______|
|______| Partially Shared State |_______|
| Room ID: !qporfwt:matrix.org |
| Servers: matrix.org, domain.com |
| Members: |
@ -81,10 +86,40 @@ room can also have an alias. Each room can have many aliases.
| - @bob:domain.com |
|.................................|
- Federation's goal is to maintain the shared state. Don't need FULL state in order
to be a part of a room.
- Introduce the DAG.
- Events are wrapped in PDUs.
Federation maintains shared state between multiple home servers, such that when an event is
sent to a room, the home server knows where to forward the event on to, and how to process
the event. Home servers do not need to have completely shared state in order to participate
in a room. State is scoped to a single room, and federation ensures that all home servers
have the information they need, even if that means the home server has to request more
information from another home server before processing the event.
Room Aliases
------------
Each room can also have multiple "Room Aliases", which looks like::
#room_alias:domain
A room alias "points" to a room ID. The room ID the alias is pointing to can be obtained
by visiting the domain specified. Room aliases are designed to be human readable strings
which can be used to publicise rooms. Note that the mapping from a room alias to a
room ID is not fixed, and may change over time to point to a different room ID. For this
reason, Clients SHOULD resolve the room alias to a room ID once and then use that ID on
subsequent requests.
::
GET
#matrix:domain.com !aaabaa:matrix.org
| ^
| |
_______V____________________|____
| domain.com |
| Mappings: |
| #matrix >> !aaabaa:matrix.org |
| #golf >> !wfeiofh:sport.com |
| #bike >> !4rguxf:matrix.org |
|________________________________|
Identity

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@ -543,6 +543,8 @@ class _TransactionQueue(object):
def eb(failure):
if not deferred.called:
deferred.errback(failure)
else:
logger.exception("Failed to send edu", failure)
self._attempt_new_transaction(destination).addErrback(eb)
return deferred

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@ -16,6 +16,7 @@
from twisted.internet import defer
from synapse.api.events import SynapseEvent
from synapse.util.logutils import log_function
from ._base import BaseHandler
@ -44,6 +45,7 @@ class EventStreamHandler(BaseHandler):
self.notifier = hs.get_notifier()
@defer.inlineCallbacks
@log_function
def get_stream(self, auth_user_id, pagin_config, timeout=0):
auth_user = self.hs.parse_userid(auth_user_id)
@ -90,13 +92,15 @@ class EventStreamHandler(BaseHandler):
# 10 seconds of grace to allow the client to reconnect again
# before we think they're gone
def _later():
logger.debug("_later stopped_user_eventstream %s", auth_user)
self.distributor.fire(
"stopped_user_eventstream", auth_user
)
del self._stop_timer_per_user[auth_user]
logger.debug("Scheduling _later: for %s", auth_user)
self._stop_timer_per_user[auth_user] = (
self.clock.call_later(5, _later)
self.clock.call_later(30, _later)
)

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@ -18,6 +18,8 @@ from twisted.internet import defer
from synapse.api.errors import SynapseError, AuthError
from synapse.api.constants import PresenceState
from synapse.util.logutils import log_function
from ._base import BaseHandler
import logging
@ -141,6 +143,10 @@ class PresenceHandler(BaseHandler):
@defer.inlineCallbacks
def is_presence_visible(self, observer_user, observed_user):
defer.returnValue(True)
# return
# FIXME (erikj): This code path absolutely kills the database.
assert(observed_user.is_mine)
if observer_user == observed_user:
@ -184,7 +190,12 @@ class PresenceHandler(BaseHandler):
defer.returnValue(state)
@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 target_user.is_mine:
raise SynapseError(400, "User is not hosted on this Home Server")
@ -237,33 +248,42 @@ class PresenceHandler(BaseHandler):
self.push_presence(user, statuscache=statuscache)
@log_function
def started_user_eventstream(self, user):
# TODO(paul): Use "last online" state
self.set_state(user, user, {"state": PresenceState.ONLINE})
@log_function
def stopped_user_eventstream(self, user):
# TODO(paul): Save current state as "last online" state
self.set_state(user, user, {"state": PresenceState.OFFLINE})
@defer.inlineCallbacks
def user_joined_room(self, user, room_id):
localusers = set()
remotedomains = set()
rm_handler = self.homeserver.get_handlers().room_member_handler
yield rm_handler.fetch_room_distributions_into(room_id,
localusers=localusers, remotedomains=remotedomains,
ignore_user=user)
if user.is_mine:
yield self._send_presence_to_distribution(srcuser=user,
localusers=localusers, remotedomains=remotedomains,
self.push_update_to_local_and_remote(
observed_user=user,
room_ids=[room_id],
statuscache=self._get_or_offline_usercache(user),
)
for srcuser in localusers:
yield self._send_presence(srcuser=srcuser, destuser=user,
statuscache=self._get_or_offline_usercache(srcuser),
else:
self.push_update_to_clients(
observed_user=user,
room_ids=[room_id],
statuscache=self._get_or_offline_usercache(user),
)
# We also want to tell them about current presence of people.
rm_handler = self.homeserver.get_handlers().room_member_handler
curr_users = yield rm_handler.get_room_members(room_id)
for local_user in [c for c in curr_users if c.is_mine]:
self.push_update_to_local_and_remote(
observed_user=local_user,
users_to_push=[user],
statuscache=self._get_or_offline_usercache(local_user),
)
@defer.inlineCallbacks
@ -374,11 +394,13 @@ class PresenceHandler(BaseHandler):
defer.returnValue(presence)
@defer.inlineCallbacks
@log_function
def start_polling_presence(self, user, target_user=None, state=None):
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
@ -392,23 +414,37 @@ class PresenceHandler(BaseHandler):
rm_handler = self.homeserver.get_handlers().room_member_handler
room_ids = yield rm_handler.get_rooms_for_user(user)
for room_id in room_ids:
for member in (yield rm_handler.get_room_members(room_id)):
target_users.add(member)
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
localusers, remoteusers = partitionbool(
target_users,
lambda u: u.is_mine
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 localusers:
for target_user in target_users:
if target_user.is_mine:
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(
observed_user=target_user,
users_to_push=[user],
statuscache=self._get_or_offline_usercache(target_user),
)
deferreds = []
remoteusers_by_domain = partition(remoteusers, lambda u: u.domain)
remote_users = [u for u in target_users if not u.is_mine]
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]
@ -430,12 +466,6 @@ class PresenceHandler(BaseHandler):
self._local_pushmap[target_localpart].add(user)
self.push_update_to_clients(
observer_user=user,
observed_user=target_user,
statuscache=self._get_or_offline_usercache(target_user),
)
def _start_polling_remote(self, user, domain, remoteusers):
to_poll = set()
@ -455,6 +485,7 @@ class PresenceHandler(BaseHandler):
content={"poll": [u.to_string() for u in to_poll]}
)
@log_function
def stop_polling_presence(self, user, target_user=None):
logger.debug("Stop polling for presence from %s", user)
@ -494,6 +525,7 @@ class PresenceHandler(BaseHandler):
if not self._local_pushmap[localpart]:
del self._local_pushmap[localpart]
@log_function
def _stop_polling_remote(self, user, domain, remoteusers):
to_unpoll = set()
@ -514,6 +546,7 @@ class PresenceHandler(BaseHandler):
)
@defer.inlineCallbacks
@log_function
def push_presence(self, user, statuscache):
assert(user.is_mine)
@ -529,53 +562,17 @@ class PresenceHandler(BaseHandler):
rm_handler = self.homeserver.get_handlers().room_member_handler
room_ids = yield rm_handler.get_rooms_for_user(user)
for room_id in room_ids:
yield rm_handler.fetch_room_distributions_into(
room_id, localusers=localusers, remotedomains=remotedomains,
ignore_user=user,
)
if not localusers and not remotedomains:
if not localusers and not room_ids:
defer.returnValue(None)
yield self._send_presence_to_distribution(user,
localusers=localusers, remotedomains=remotedomains,
statuscache=statuscache
)
def _send_presence(self, srcuser, destuser, statuscache):
if destuser.is_mine:
self.push_update_to_clients(
observer_user=destuser,
observed_user=srcuser,
statuscache=statuscache)
return defer.succeed(None)
else:
return self._push_presence_remote(srcuser, destuser.domain,
state=statuscache.get_state()
)
@defer.inlineCallbacks
def _send_presence_to_distribution(self, srcuser, localusers=set(),
remotedomains=set(), statuscache=None):
for u in localusers:
logger.debug(" | push to local user %s", u)
self.push_update_to_clients(
observer_user=u,
observed_user=srcuser,
yield self.push_update_to_local_and_remote(
observed_user=user,
users_to_push=localusers,
remote_domains=remotedomains,
room_ids=room_ids,
statuscache=statuscache,
)
deferreds = []
for domain in remotedomains:
logger.debug(" | push to remote domain %s", domain)
deferreds.append(self._push_presence_remote(srcuser, domain,
state=statuscache.get_state())
)
yield defer.DeferredList(deferreds)
@defer.inlineCallbacks
def _push_presence_remote(self, user, destination, state=None):
if state is None:
@ -591,12 +588,17 @@ class PresenceHandler(BaseHandler):
self.clock.time_msec() - state.pop("mtime")
)
user_state = {
"user_id": user.to_string(),
}
user_state.update(**state)
yield self.federation.send_edu(
destination=destination,
edu_type="m.presence",
content={
"push": [
dict(user_id=user.to_string(), **state),
user_state,
],
}
)
@ -615,12 +617,7 @@ class PresenceHandler(BaseHandler):
rm_handler = self.homeserver.get_handlers().room_member_handler
room_ids = yield rm_handler.get_rooms_for_user(user)
for room_id in room_ids:
yield rm_handler.fetch_room_distributions_into(
room_id, localusers=observers, ignore_user=user
)
if not observers:
if not observers and not room_ids:
break
state = dict(push)
@ -636,10 +633,10 @@ class PresenceHandler(BaseHandler):
self._user_cachemap_latest_serial += 1
statuscache.update(state, serial=self._user_cachemap_latest_serial)
for observer_user in observers:
self.push_update_to_clients(
observer_user=observer_user,
observed_user=user,
users_to_push=observers,
room_ids=room_ids,
statuscache=statuscache,
)
@ -675,12 +672,53 @@ class PresenceHandler(BaseHandler):
yield defer.DeferredList(deferreds)
def push_update_to_clients(self, observer_user, observed_user,
statuscache):
statuscache.make_event(user=observed_user, clock=self.clock)
@defer.inlineCallbacks
def push_update_to_local_and_remote(self, observed_user,
users_to_push=[], room_ids=[],
remote_domains=[],
statuscache=None):
localusers, remoteusers = partitionbool(
users_to_push,
lambda u: u.is_mine
)
localusers = set(localusers)
self.push_update_to_clients(
observed_user=observed_user,
users_to_push=localusers,
room_ids=room_ids,
statuscache=statuscache,
)
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)
defer.returnValue((localusers, remote_domains))
def push_update_to_clients(self, observed_user, users_to_push=[],
room_ids=[], statuscache=None):
self.notifier.on_new_user_event(
[observer_user],
users_to_push,
room_ids,
)

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@ -119,6 +119,7 @@ class Notifier(object):
)
@defer.inlineCallbacks
@log_function
def on_new_user_event(self, users=[], rooms=[]):
""" Used to inform listeners that something has happend
presence/user event wise.

View File

@ -81,4 +81,4 @@ class PaginationConfig(object):
return (
"<PaginationConfig from_tok=%s, to_tok=%s, "
"direction=%s, limit=%s>"
) % (self.from_tok, self.to_tok, self.direction, self.limit)
) % (self.from_token, self.to_token, self.direction, self.limit)

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@ -18,6 +18,8 @@ from inspect import getcallargs
from functools import wraps
import logging
import inspect
import traceback
def log_function(f):
@ -65,4 +67,55 @@ def log_function(f):
return f(*args, **kwargs)
wrapped.__name__ = func_name
return wrapped
def trace_function(f):
func_name = f.__name__
linenum = f.func_code.co_firstlineno
pathname = f.func_code.co_filename
def wrapped(*args, **kwargs):
name = f.__module__
logger = logging.getLogger(name)
level = logging.DEBUG
s = inspect.currentframe().f_back
to_print = [
"\t%s:%s %s. Args: args=%s, kwargs=%s" % (
pathname, linenum, func_name, args, kwargs
)
]
while s:
if True or s.f_globals["__name__"].startswith("synapse"):
filename, lineno, function, _, _ = inspect.getframeinfo(s)
args_string = inspect.formatargvalues(*inspect.getargvalues(s))
to_print.append(
"\t%s:%d %s. Args: %s" % (
filename, lineno, function, args_string
)
)
s = s.f_back
msg = "\nTraceback for %s:\n" % (func_name,) + "\n".join(to_print)
record = logging.LogRecord(
name=name,
level=level,
pathname=pathname,
lineno=lineno,
msg=msg,
args=None,
exc_info=None
)
logger.handle(record)
return f(*args, **kwargs)
wrapped.__name__ = func_name
return wrapped

View File

@ -193,6 +193,8 @@ class PresenceStateTestCase(unittest.TestCase):
SynapseError
)
test_get_disallowed_state.skip = "Presence permissions are disabled"
@defer.inlineCallbacks
def test_set_my_state(self):
mocked_set = self.datastore.set_presence_state
@ -497,6 +499,7 @@ class PresencePushTestCase(unittest.TestCase):
db_pool=None,
datastore=Mock(spec=[
"set_presence_state",
"get_joined_hosts_for_room",
# Bits that Federation needs
"prep_send_transaction",
@ -511,8 +514,12 @@ class PresencePushTestCase(unittest.TestCase):
)
hs.handlers = JustPresenceHandlers(hs)
def update(*args,**kwargs):
# print "mock_update_client: Args=%s, kwargs=%s" %(args, kwargs,)
return defer.succeed(None)
self.mock_update_client = Mock()
self.mock_update_client.return_value = defer.succeed(None)
self.mock_update_client.side_effect = update
self.datastore = hs.get_datastore()
@ -546,6 +553,14 @@ class PresencePushTestCase(unittest.TestCase):
return defer.succeed([])
self.room_member_handler.get_room_members = get_room_members
def get_room_hosts(room_id):
if room_id == "a-room":
hosts = set([u.domain for u in self.room_members])
return defer.succeed(hosts)
else:
return defer.succeed([])
self.datastore.get_joined_hosts_for_room = get_room_hosts
@defer.inlineCallbacks
def fetch_room_distributions_into(room_id, localusers=None,
remotedomains=None, ignore_user=None):
@ -611,18 +626,10 @@ class PresencePushTestCase(unittest.TestCase):
{"state": ONLINE})
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
call(users_to_push=set([self.u_apple, self.u_banana, self.u_clementine]),
room_ids=["a-room"],
observed_user=self.u_apple,
statuscache=ANY), # self-reflection
call(observer_user=self.u_banana,
observed_user=self.u_apple,
statuscache=ANY),
call(observer_user=self.u_clementine,
observed_user=self.u_apple,
statuscache=ANY),
call(observer_user=self.u_elderberry,
observed_user=self.u_apple,
statuscache=ANY),
], any_order=True)
self.mock_update_client.reset_mock()
@ -651,7 +658,8 @@ class PresencePushTestCase(unittest.TestCase):
], presence)
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_banana,
call(users_to_push=set([self.u_banana]),
room_ids=[],
observed_user=self.u_banana,
statuscache=ANY), # self-reflection
]) # and no others...
@ -659,21 +667,21 @@ class PresencePushTestCase(unittest.TestCase):
@defer.inlineCallbacks
def test_push_remote(self):
put_json = self.mock_http_client.put_json
put_json.expect_call_and_return(
call("remote",
path=ANY, # Can't guarantee which txn ID will be which
data=_expect_edu("remote", "m.presence",
content={
"push": [
{"user_id": "@apple:test",
"state": "online",
"mtime_age": 0},
],
}
)
),
defer.succeed((200, "OK"))
)
# put_json.expect_call_and_return(
# call("remote",
# path=ANY, # Can't guarantee which txn ID will be which
# data=_expect_edu("remote", "m.presence",
# content={
# "push": [
# {"user_id": "@apple:test",
# "state": "online",
# "mtime_age": 0},
# ],
# }
# )
# ),
# defer.succeed((200, "OK"))
# )
put_json.expect_call_and_return(
call("farm",
path=ANY, # Can't guarantee which txn ID will be which
@ -681,7 +689,7 @@ class PresencePushTestCase(unittest.TestCase):
content={
"push": [
{"user_id": "@apple:test",
"state": "online",
"state": u"online",
"mtime_age": 0},
],
}
@ -730,10 +738,8 @@ class PresencePushTestCase(unittest.TestCase):
)
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
observed_user=self.u_potato,
statuscache=ANY),
call(observer_user=self.u_banana,
call(users_to_push=set([self.u_apple]),
room_ids=["a-room"],
observed_user=self.u_potato,
statuscache=ANY),
], any_order=True)
@ -753,19 +759,17 @@ class PresencePushTestCase(unittest.TestCase):
)
self.mock_update_client.assert_has_calls([
# Apple and Elderberry see each other
call(observer_user=self.u_apple,
call(room_ids=["a-room"],
observed_user=self.u_elderberry,
users_to_push=set(),
statuscache=ANY),
call(observer_user=self.u_elderberry,
call(users_to_push=set([self.u_elderberry]),
observed_user=self.u_apple,
room_ids=[],
statuscache=ANY),
# Banana and Elderberry see each other
call(observer_user=self.u_banana,
observed_user=self.u_elderberry,
statuscache=ANY),
call(observer_user=self.u_elderberry,
call(users_to_push=set([self.u_elderberry]),
observed_user=self.u_banana,
room_ids=[],
statuscache=ANY),
], any_order=True)
@ -887,7 +891,12 @@ class PresencePollingTestCase(unittest.TestCase):
self.datastore.get_received_txn_response = get_received_txn_response
self.mock_update_client = Mock()
self.mock_update_client.return_value = defer.succeed(None)
def update(*args,**kwargs):
# print "mock_update_client: Args=%s, kwargs=%s" %(args, kwargs,)
return defer.succeed(None)
self.mock_update_client.side_effect = update
self.handler = hs.get_handlers().presence_handler
self.handler.push_update_to_clients = self.mock_update_client
@ -951,10 +960,10 @@ class PresencePollingTestCase(unittest.TestCase):
# apple should see both banana and clementine currently offline
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
call(users_to_push=[self.u_apple],
observed_user=self.u_banana,
statuscache=ANY),
call(observer_user=self.u_apple,
call(users_to_push=[self.u_apple],
observed_user=self.u_clementine,
statuscache=ANY),
], any_order=True)
@ -974,10 +983,11 @@ class PresencePollingTestCase(unittest.TestCase):
# apple and banana should now both see each other online
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
call(users_to_push=set([self.u_apple]),
observed_user=self.u_banana,
room_ids=[],
statuscache=ANY),
call(observer_user=self.u_banana,
call(users_to_push=[self.u_banana],
observed_user=self.u_apple,
statuscache=ANY),
], any_order=True)
@ -994,8 +1004,9 @@ class PresencePollingTestCase(unittest.TestCase):
# banana should now be told apple is offline
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_banana,
call(users_to_push=set([self.u_banana, self.u_apple]),
observed_user=self.u_apple,
room_ids=[],
statuscache=ANY),
], any_order=True)
@ -1008,7 +1019,7 @@ class PresencePollingTestCase(unittest.TestCase):
put_json = self.mock_http_client.put_json
put_json.expect_call_and_return(
call("remote",
path="/matrix/federation/v1/send/1000000/",
path=ANY,
data=_expect_edu("remote", "m.presence",
content={
"poll": [ "@potato:remote" ],
@ -1018,6 +1029,18 @@ class PresencePollingTestCase(unittest.TestCase):
defer.succeed((200, "OK"))
)
put_json.expect_call_and_return(
call("remote",
path=ANY,
data=_expect_edu("remote", "m.presence",
content={
"push": [ {"user_id": "@clementine:test" }],
},
),
),
defer.succeed((200, "OK"))
)
# clementine goes online
yield self.handler.set_state(
target_user=self.u_clementine, auth_user=self.u_clementine,
@ -1032,15 +1055,28 @@ class PresencePollingTestCase(unittest.TestCase):
self.assertTrue(self.u_clementine in
self.handler._remote_recvmap[self.u_potato])
put_json.expect_call_and_return(
call("remote",
path=ANY,
data=_expect_edu("remote", "m.presence",
content={
"push": [ {"user_id": "@fig:test" }],
},
),
),
defer.succeed((200, "OK"))
)
# fig goes online; shouldn't send a second poll
yield self.handler.set_state(
target_user=self.u_fig, auth_user=self.u_fig,
state={"state": ONLINE}
)
reactor.iterate(delay=0)
# reactor.iterate(delay=0)
put_json.assert_had_no_calls()
yield put_json.await_calls()
# fig goes offline
yield self.handler.set_state(
@ -1054,7 +1090,7 @@ class PresencePollingTestCase(unittest.TestCase):
put_json.expect_call_and_return(
call("remote",
path="/matrix/federation/v1/send/1000001/",
path=ANY,
data=_expect_edu("remote", "m.presence",
content={
"unpoll": [ "@potato:remote" ],
@ -1069,7 +1105,7 @@ class PresencePollingTestCase(unittest.TestCase):
target_user=self.u_clementine, auth_user=self.u_clementine,
state={"state": OFFLINE})
put_json.await_calls()
yield put_json.await_calls()
self.assertFalse(self.u_potato in self.handler._remote_recvmap,
msg="expected potato not to be in _remote_recvmap"

View File

@ -81,7 +81,11 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
self.replication = hs.get_replication_layer()
self.replication.send_edu = Mock()
self.replication.send_edu.return_value = defer.succeed((200, "OK"))
def send_edu(*args, **kwargs):
# print "send_edu: %s, %s" % (args, kwargs)
return defer.succeed((200, "OK"))
self.replication.send_edu.side_effect = send_edu
def get_profile_displayname(user_localpart):
return defer.succeed("Frank")
@ -95,11 +99,12 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
return defer.succeed("http://foo")
self.datastore.get_profile_avatar_url = get_profile_avatar_url
def get_presence_list(user_localpart, accepted=None):
return defer.succeed([
self.presence_list = [
{"observed_user_id": "@banana:test"},
{"observed_user_id": "@clementine:test"},
])
]
def get_presence_list(user_localpart, accepted=None):
return defer.succeed(self.presence_list)
self.datastore.get_presence_list = get_presence_list
def do_users_share_a_room(userlist):
@ -109,7 +114,10 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
self.handlers = hs.get_handlers()
self.mock_update_client = Mock()
self.mock_update_client.return_value = defer.succeed(None)
def update(*args, **kwargs):
# print "mock_update_client: %s, %s" %(args, kwargs)
return defer.succeed(None)
self.mock_update_client.side_effect = update
self.handlers.presence_handler.push_update_to_clients = (
self.mock_update_client)
@ -130,6 +138,11 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
@defer.inlineCallbacks
def test_set_my_state(self):
self.presence_list = [
{"observed_user_id": "@banana:test"},
{"observed_user_id": "@clementine:test"},
]
mocked_set = self.datastore.set_presence_state
mocked_set.return_value = defer.succeed({"state": OFFLINE})
@ -142,6 +155,11 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
@defer.inlineCallbacks
def test_push_local(self):
self.presence_list = [
{"observed_user_id": "@banana:test"},
{"observed_user_id": "@clementine:test"},
]
self.datastore.set_presence_state.return_value = defer.succeed(
{"state": ONLINE})
@ -173,12 +191,10 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
presence)
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
call(users_to_push=set([self.u_apple, self.u_banana, self.u_clementine]),
room_ids=[],
observed_user=self.u_apple,
statuscache=ANY), # self-reflection
call(observer_user=self.u_banana,
observed_user=self.u_apple,
statuscache=ANY),
], any_order=True)
statuscache = self.mock_update_client.call_args[1]["statuscache"]
@ -198,12 +214,10 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
self.u_apple, "I am an Apple")
self.mock_update_client.assert_has_calls([
call(observer_user=self.u_apple,
call(users_to_push=set([self.u_apple, self.u_banana, self.u_clementine]),
room_ids=[],
observed_user=self.u_apple,
statuscache=ANY), # self-reflection
call(observer_user=self.u_banana,
observed_user=self.u_apple,
statuscache=ANY),
], any_order=True)
statuscache = self.mock_update_client.call_args[1]["statuscache"]
@ -217,6 +231,10 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
@defer.inlineCallbacks
def test_push_remote(self):
self.presence_list = [
{"observed_user_id": "@potato:remote"},
]
self.datastore.set_presence_state.return_value = defer.succeed(
{"state": ONLINE})
@ -247,6 +265,11 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
@defer.inlineCallbacks
def test_recv_remote(self):
self.presence_list = [
{"observed_user_id": "@banana:test"},
{"observed_user_id": "@clementine:test"},
]
# TODO(paul): Gut-wrenching
potato_set = self.handlers.presence_handler._remote_recvmap.setdefault(
self.u_potato, set())
@ -264,7 +287,8 @@ class PresenceProfilelikeDataTestCase(unittest.TestCase):
)
self.mock_update_client.assert_called_with(
observer_user=self.u_apple,
users_to_push=set([self.u_apple]),
room_ids=[],
observed_user=self.u_potato,
statuscache=ANY)

View File

@ -21,7 +21,7 @@ from synapse.api.events.room import (
RoomMemberEvent, MessageEvent
)
from twisted.internet import defer
from twisted.internet import defer, reactor
from collections import namedtuple
from mock import patch, Mock
@ -263,18 +263,43 @@ class DeferredMockCallable(object):
d.callback(None)
return result
raise AssertionError("Was not expecting call(%s)" %
failure = AssertionError("Was not expecting call(%s)" %
_format_call(args, kwargs)
)
for _, _, d in self.expectations:
try:
d.errback(failure)
except:
pass
raise failure
def expect_call_and_return(self, call, result):
self.expectations.append((call, result, defer.Deferred()))
@defer.inlineCallbacks
def await_calls(self):
while self.expectations:
(_, _, d) = self.expectations.pop(0)
yield d
def await_calls(self, timeout=1000):
deferred = defer.DeferredList(
[d for _, _, d in self.expectations],
fireOnOneErrback=True
)
timer = reactor.callLater(
timeout/1000,
deferred.errback,
AssertionError(
"%d pending calls left: %s"% (
len([e for e in self.expectations if not e[2].called]),
[e for e in self.expectations if not e[2].called]
)
)
)
yield deferred
timer.cancel()
self.calls = []
def assert_had_no_calls(self):

View File

@ -15,8 +15,8 @@ limitations under the License.
*/
angular.module('RoomController', ['ngSanitize', 'mFileInput'])
.controller('RoomController', ['$scope', '$timeout', '$routeParams', '$location', '$rootScope', 'matrixService', 'eventHandlerService', 'mFileUpload', 'matrixPhoneService', 'MatrixCall',
function($scope, $timeout, $routeParams, $location, $rootScope, matrixService, eventHandlerService, mFileUpload, matrixPhoneService, MatrixCall) {
.controller('RoomController', ['$scope', '$timeout', '$routeParams', '$location', '$rootScope', 'matrixService', 'eventHandlerService', 'mFileUpload', 'mPresence', 'matrixPhoneService', 'MatrixCall',
function($scope, $timeout, $routeParams, $location, $rootScope, matrixService, eventHandlerService, mFileUpload, mPresence, matrixPhoneService, MatrixCall) {
'use strict';
var MESSAGES_PER_PAGINATION = 30;
var THUMBNAIL_SIZE = 320;
@ -57,15 +57,14 @@ angular.module('RoomController', ['ngSanitize', 'mFileInput'])
scrollToBottom();
if (window.Notification) {
// FIXME: we should also notify based on a timer or other heuristics
// rather than the window being minimised
if (document.hidden) {
// Show notification when the user is idle
if (matrixService.presence.offline === mPresence.getState()) {
var notification = new window.Notification(
($scope.members[event.user_id].displayname || event.user_id) +
" (" + ($scope.room_alias || $scope.room_id) + ")", // FIXME: don't leak room_ids here
{
"body": event.content.body,
"icon": $scope.members[event.user_id].avatar_url,
"icon": $scope.members[event.user_id].avatar_url
});
$timeout(function() {
notification.close();
@ -230,7 +229,7 @@ angular.module('RoomController', ['ngSanitize', 'mFileInput'])
var member = $scope.members[target_user_id];
member.content.membership = chunk.content.membership;
}
}
};
var updatePresence = function(chunk) {
if (!(chunk.content.user_id in $scope.members)) {
@ -257,10 +256,10 @@ angular.module('RoomController', ['ngSanitize', 'mFileInput'])
if ("avatar_url" in chunk.content) {
member.avatar_url = chunk.content.avatar_url;
}
}
};
$scope.send = function() {
if ($scope.textInput == "") {
if ($scope.textInput === "") {
return;
}
@ -269,7 +268,7 @@ angular.module('RoomController', ['ngSanitize', 'mFileInput'])
// Send the text message
var promise;
// FIXME: handle other commands too
if ($scope.textInput.indexOf("/me") == 0) {
if ($scope.textInput.indexOf("/me") === 0) {
promise = matrixService.sendEmoteMessage($scope.room_id, $scope.textInput.substr(4));
}
else {