def test_iterable_eviction(self):
clock = MockClock()
cache = ExpiringCache("test", clock, max_len=5, iterable=True)
cache["key"] = [1]
cache["key2"] = [2, 3]
cache["key3"] = [4, 5]
self.assertEquals(cache.get("key"), [1])
self.assertEquals(cache.get("key2"), [2, 3])
self.assertEquals(cache.get("key3"), [4, 5])
cache["key4"] = [6, 7]
self.assertEquals(cache.get("key"), None)
self.assertEquals(cache.get("key2"), None)
self.assertEquals(cache.get("key3"), [4, 5])
self.assertEquals(cache.get("key4"), [6, 7])
def setUp(self):
self.mock_http_client = Mock(spec=[])
self.mock_http_client.put_json = DeferredMockCallable()
self.mock_federation_resource = MockHttpResource()
db_pool = SQLiteMemoryDbPool()
yield db_pool.prepare()
self.mock_config = NonCallableMock()
self.mock_config.signing_key = [MockKey()]
hs = HomeServer(
"test",
clock=MockClock(),
db_pool=db_pool,
handlers=None,
resource_for_client=Mock(),
resource_for_federation=self.mock_federation_resource,
http_client=self.mock_http_client,
config=self.mock_config,
keyring=Mock(),
)
hs.handlers = JustPresenceHandlers(hs)
self.store = hs.get_datastore()
# Some local users to test with
self.u_apple = hs.parse_userid("@apple:test")
self.u_banana = hs.parse_userid("@banana:test")
yield self.store.create_presence(self.u_apple.localpart)
yield self.store.create_presence(self.u_banana.localpart)
# ID of a local user that does not exist
self.u_durian = hs.parse_userid("@durian:test")
# A remote user
self.u_cabbage = hs.parse_userid("@cabbage:elsewhere")
self.handler = hs.get_handlers().presence_handler
self.mock_start = Mock()
self.mock_stop = Mock()
self.handler.start_polling_presence = self.mock_start
self.handler.stop_polling_presence = self.mock_stop
def test_time_eviction(self):
clock = MockClock()
cache = ExpiringCache("test", clock, expiry_ms=1000)
cache["key"] = 1
clock.advance_time(0.5)
cache["key2"] = 2
self.assertEqual(cache.get("key"), 1)
self.assertEqual(cache.get("key2"), 2)
clock.advance_time(0.9)
self.assertEqual(cache.get("key"), None)
self.assertEqual(cache.get("key2"), 2)
clock.advance_time(1)
self.assertEqual(cache.get("key"), None)
self.assertEqual(cache.get("key2"), None)
def test_from_cache(self):
clock = MockClock()
dns_client_mock = Mock(spec_set=["lookupService"])
dns_client_mock.lookupService = Mock(spec_set=[])
service_name = b"test_service.example.com"
entry = Mock(spec_set=["expires"])
entry.expires = 999999999
cache = {service_name: [entry]}
resolver = SrvResolver(dns_client=dns_client_mock,
cache=cache,
get_time=clock.time)
servers = yield resolver.resolve_service(service_name)
self.assertFalse(dns_client_mock.lookupService.called)
self.assertEquals(len(servers), 1)
self.assertEquals(servers, cache[service_name])
def test_from_cache(self):
clock = MockClock()
dns_client_mock = Mock(spec_set=['lookupService'])
dns_client_mock.lookupService = Mock(spec_set=[])
service_name = "test_service.examle.com"
entry = Mock(spec_set=["expires"])
entry.expires = 999999999
cache = {
service_name: [entry]
}
servers = yield resolve_service(
service_name, dns_client=dns_client_mock, cache=cache, clock=clock,
)
self.assertFalse(dns_client_mock.lookupService.called)
self.assertEquals(len(servers), 1)
self.assertEquals(servers, cache[service_name])
def test_from_cache(self):
clock = MockClock()
dns_client_mock = Mock(spec_set=["lookupService"])
dns_client_mock.lookupService = Mock(spec_set=[])
service_name = b"test_service.example.com"
entry = Mock(spec_set=["expires", "priority", "weight"])
entry.expires = 999999999
entry.priority = 0
entry.weight = 0
cache = {service_name: [entry]}
resolver = SrvResolver(
dns_client=dns_client_mock, cache=cache, get_time=clock.time
)
servers = yield defer.ensureDeferred(resolver.resolve_service(service_name))
self.assertFalse(dns_client_mock.lookupService.called)
self.assertEqual(len(servers), 1)
self.assertEqual(servers, cache[service_name])
def setUp(self):
self.clock = MockClock()
def setUp(self):
self.clock = MockClock()
self.cache = HttpTransactionCache(self.clock)
self.mock_http_response = (200, "GOOD JOB!")
self.mock_key = "foo"
def make_homeserver(self, reactor: MemoryReactor, clock: Clock) -> HomeServer:
# We need to be able to test advancing time in the homeserver, so we
# replace the test homeserver's default clock with a MockClock, which
# supports advancing time.
return self.setup_test_homeserver(clock=MockClock())
def setup_test_homeserver(
cleanup_func,
name="test",
config=None,
reactor=None,
homeserver_to_use: Type[HomeServer] = TestHomeServer,
**kwargs,
):
"""
Setup a homeserver suitable for running tests against. Keyword arguments
are passed to the Homeserver constructor.
If no datastore is supplied, one is created and given to the homeserver.
Args:
cleanup_func : The function used to register a cleanup routine for
after the test.
Calling this method directly is deprecated: you should instead derive from
HomeserverTestCase.
"""
if reactor is None:
from twisted.internet import reactor
if config is None:
config = default_config(name, parse=True)
config.ldap_enabled = False
if "clock" not in kwargs:
kwargs["clock"] = MockClock()
if USE_POSTGRES_FOR_TESTS:
test_db = "synapse_test_%s" % uuid.uuid4().hex
database_config = {
"name": "psycopg2",
"args": {
"database": test_db,
"host": POSTGRES_HOST,
"password": POSTGRES_PASSWORD,
"user": POSTGRES_USER,
"cp_min": 1,
"cp_max": 5,
},
}
else:
if SQLITE_PERSIST_DB:
# The current working directory is in _trial_temp, so this gets created within that directory.
test_db_location = os.path.abspath("test.db")
logger.debug("Will persist db to %s", test_db_location)
# Ensure each test gets a clean database.
try:
os.remove(test_db_location)
except FileNotFoundError:
pass
else:
logger.debug("Removed existing DB at %s", test_db_location)
else:
test_db_location = ":memory:"
database_config = {
"name": "sqlite3",
"args": {
"database": test_db_location,
"cp_min": 1,
"cp_max": 1
},
}
if "db_txn_limit" in kwargs:
database_config["txn_limit"] = kwargs["db_txn_limit"]
database = DatabaseConnectionConfig("master", database_config)
config.database.databases = [database]
db_engine = create_engine(database.config)
# Create the database before we actually try and connect to it, based off
# the template database we generate in setupdb()
if isinstance(db_engine, PostgresEngine):
db_conn = db_engine.module.connect(
database=POSTGRES_BASE_DB,
user=POSTGRES_USER,
host=POSTGRES_HOST,
password=POSTGRES_PASSWORD,
)
db_conn.autocommit = True
cur = db_conn.cursor()
cur.execute("DROP DATABASE IF EXISTS %s;" % (test_db, ))
cur.execute("CREATE DATABASE %s WITH TEMPLATE %s;" %
(test_db, POSTGRES_BASE_DB))
cur.close()
db_conn.close()
hs = homeserver_to_use(
name,
config=config,
version_string="Synapse/tests",
reactor=reactor,
)
# Install @cache_in_self attributes
for key, val in kwargs.items():
setattr(hs, "_" + key, val)
# Mock TLS
hs.tls_server_context_factory = Mock()
hs.tls_client_options_factory = Mock()
hs.setup()
if homeserver_to_use == TestHomeServer:
hs.setup_background_tasks()
if isinstance(db_engine, PostgresEngine):
database = hs.get_datastores().databases[0]
# We need to do cleanup on PostgreSQL
def cleanup():
import psycopg2
# Close all the db pools
database._db_pool.close()
dropped = False
# Drop the test database
db_conn = db_engine.module.connect(
database=POSTGRES_BASE_DB,
user=POSTGRES_USER,
host=POSTGRES_HOST,
password=POSTGRES_PASSWORD,
)
db_conn.autocommit = True
cur = db_conn.cursor()
# Try a few times to drop the DB. Some things may hold on to the
# database for a few more seconds due to flakiness, preventing
# us from dropping it when the test is over. If we can't drop
# it, warn and move on.
for _ in range(5):
try:
cur.execute("DROP DATABASE IF EXISTS %s;" % (test_db, ))
db_conn.commit()
dropped = True
except psycopg2.OperationalError as e:
warnings.warn("Couldn't drop old db: " + str(e),
category=UserWarning)
time.sleep(0.5)
cur.close()
db_conn.close()
if not dropped:
warnings.warn("Failed to drop old DB.", category=UserWarning)
if not LEAVE_DB:
# Register the cleanup hook
cleanup_func(cleanup)
# bcrypt is far too slow to be doing in unit tests
# Need to let the HS build an auth handler and then mess with it
# because AuthHandler's constructor requires the HS, so we can't make one
# beforehand and pass it in to the HS's constructor (chicken / egg)
async def hash(p):
return hashlib.md5(p.encode("utf8")).hexdigest()
hs.get_auth_handler().hash = hash
async def validate_hash(p, h):
return hashlib.md5(p.encode("utf8")).hexdigest() == h
hs.get_auth_handler().validate_hash = validate_hash
# Make the threadpool and database transactions synchronous for testing.
_make_test_homeserver_synchronous(hs)
return hs
def setUp(self):
self.mock_http_client = Mock(spec=[])
self.mock_http_client.put_json = DeferredMockCallable()
self.mock_federation_resource = MockHttpResource()
hs = HomeServer(
"test",
clock=MockClock(),
db_pool=None,
datastore=Mock(spec=[
# Bits that Federation needs
"prep_send_transaction",
"delivered_txn",
"get_received_txn_response",
"set_received_txn_response",
]),
handlers=None,
resource_for_client=Mock(),
resource_for_federation=self.mock_federation_resource,
http_client=self.mock_http_client,
)
hs.handlers = JustPresenceHandlers(hs)
self.datastore = hs.get_datastore()
def get_received_txn_response(*args):
return defer.succeed(None)
self.datastore.get_received_txn_response = get_received_txn_response
self.mock_update_client = Mock()
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
hs.handlers.room_member_handler = Mock(spec=[
"get_rooms_for_user",
])
# For this test no users are ever in rooms
def get_rooms_for_user(user):
return defer.succeed([])
hs.handlers.room_member_handler.get_rooms_for_user = get_rooms_for_user
# Mocked database state
# Local users always start offline
self.current_user_state = {
"apple": OFFLINE,
"banana": OFFLINE,
"clementine": OFFLINE,
"fig": OFFLINE,
}
def get_presence_state(user_localpart):
return defer.succeed({
"state":
self.current_user_state[user_localpart],
"status_msg":
None,
"mtime":
123456000
})
self.datastore.get_presence_state = get_presence_state
def set_presence_state(user_localpart, new_state):
was = self.current_user_state[user_localpart]
self.current_user_state[user_localpart] = new_state["state"]
return defer.succeed({"state": was})
self.datastore.set_presence_state = set_presence_state
def get_presence_list(user_localpart, accepted):
return defer.succeed([{
"observed_user_id": u
} for u in self.PRESENCE_LIST[user_localpart]])
self.datastore.get_presence_list = get_presence_list
def is_presence_visible(observed_localpart, observer_userid):
return True
self.datastore.is_presence_visible = is_presence_visible
# Local users
self.u_apple = hs.parse_userid("@apple:test")
self.u_banana = hs.parse_userid("@banana:test")
self.u_clementine = hs.parse_userid("@clementine:test")
self.u_fig = hs.parse_userid("@fig:test")
# Remote users
self.u_potato = hs.parse_userid("@potato:remote")
def setUp(self):
db_pool = SQLiteMemoryDbPool()
yield db_pool.prepare()
hs = HomeServer(
"test",
clock=MockClock(),
db_pool=db_pool,
handlers=None,
resource_for_federation=Mock(),
http_client=None,
)
hs.handlers = JustPresenceHandlers(hs)
self.store = hs.get_datastore()
# Mock the RoomMemberHandler
room_member_handler = Mock(spec=[])
hs.handlers.room_member_handler = room_member_handler
# Some local users to test with
self.u_apple = hs.parse_userid("@apple:test")
self.u_banana = hs.parse_userid("@banana:test")
self.u_clementine = hs.parse_userid("@clementine:test")
yield self.store.create_presence(self.u_apple.localpart)
yield self.store.set_presence_state(self.u_apple.localpart, {
"state": ONLINE,
"status_msg": "Online"
})
self.handler = hs.get_handlers().presence_handler
self.room_members = []
def get_rooms_for_user(user):
if user in self.room_members:
return defer.succeed(["a-room"])
else:
return defer.succeed([])
room_member_handler.get_rooms_for_user = get_rooms_for_user
def get_room_members(room_id):
if room_id == "a-room":
return defer.succeed(self.room_members)
else:
return defer.succeed([])
room_member_handler.get_room_members = get_room_members
def user_rooms_intersect(userlist):
room_member_ids = map(lambda u: u.to_string(), self.room_members)
shared = all(map(lambda i: i in room_member_ids, userlist))
return defer.succeed(shared)
self.store.user_rooms_intersect = user_rooms_intersect
self.mock_start = Mock()
self.mock_stop = Mock()
self.handler.start_polling_presence = self.mock_start
self.handler.stop_polling_presence = self.mock_stop
def setUp(self):
self.clock = MockClock()
self.mock_http_client = Mock(spec=[])
self.mock_http_client.put_json = DeferredMockCallable()
self.mock_federation_resource = MockHttpResource()
hs = HomeServer(
"test",
clock=self.clock,
db_pool=None,
datastore=Mock(spec=[
"set_presence_state",
"get_joined_hosts_for_room",
# Bits that Federation needs
"prep_send_transaction",
"delivered_txn",
"get_received_txn_response",
"set_received_txn_response",
]),
handlers=None,
resource_for_client=Mock(),
resource_for_federation=self.mock_federation_resource,
http_client=self.mock_http_client,
)
hs.handlers = JustPresenceHandlers(hs)
self.datastore = hs.get_datastore()
def get_received_txn_response(*args):
return defer.succeed(None)
self.datastore.get_received_txn_response = get_received_txn_response
self.handler = hs.get_handlers().presence_handler
self.event_source = hs.get_event_sources().sources["presence"]
# Mock the RoomMemberHandler
hs.handlers.room_member_handler = Mock(spec=[
"get_rooms_for_user",
"get_room_members",
])
self.room_member_handler = hs.handlers.room_member_handler
self.room_members = []
def get_rooms_for_user(user):
if user in self.room_members:
return defer.succeed(["a-room"])
else:
return defer.succeed([])
self.room_member_handler.get_rooms_for_user = get_rooms_for_user
def get_room_members(room_id):
if room_id == "a-room":
return defer.succeed(self.room_members)
else:
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
def user_rooms_intersect(userlist):
room_member_ids = map(lambda u: u.to_string(), self.room_members)
shared = all(map(lambda i: i in room_member_ids, userlist))
return defer.succeed(shared)
self.datastore.user_rooms_intersect = user_rooms_intersect
@defer.inlineCallbacks
def fetch_room_distributions_into(room_id,
localusers=None,
remotedomains=None,
ignore_user=None):
members = yield get_room_members(room_id)
for member in members:
if ignore_user is not None and member == ignore_user:
continue
if member.is_mine:
if localusers is not None:
localusers.add(member)
else:
if remotedomains is not None:
remotedomains.add(member.domain)
self.room_member_handler.fetch_room_distributions_into = (
fetch_room_distributions_into)
def get_presence_list(user_localpart, accepted=None):
if user_localpart == "apple":
return defer.succeed([
{
"observed_user_id": "@banana:test"
},
{
"observed_user_id": "@clementine:test"
},
])
else:
return defer.succeed([])
self.datastore.get_presence_list = get_presence_list
def is_presence_visible(observer_userid, observed_localpart):
if (observed_localpart == "clementine"
and observer_userid == "@banana:test"):
return False
return False
self.datastore.is_presence_visible = is_presence_visible
self.distributor = hs.get_distributor()
self.distributor.declare("user_joined_room")
# Some local users to test with
self.u_apple = hs.parse_userid("@apple:test")
self.u_banana = hs.parse_userid("@banana:test")
self.u_clementine = hs.parse_userid("@clementine:test")
self.u_durian = hs.parse_userid("@durian:test")
self.u_elderberry = hs.parse_userid("@elderberry:test")
# Remote user
self.u_onion = hs.parse_userid("@onion:farm")
self.u_potato = hs.parse_userid("@potato:remote")
