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# Copyright 2015, 2016 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 unittest.mock import Mock
from twisted.internet import defer
from synapse.appservice import ApplicationServiceState
from synapse.appservice.scheduler import (
_Recoverer,
_ServiceQueuer,
_TransactionController,
)
from synapse.logging.context import make_deferred_yieldable
from tests import unittest
from tests.test_utils import make_awaitable
from ..utils import MockClock
class ApplicationServiceSchedulerTransactionCtrlTestCase(unittest.TestCase):
def setUp(self):
self.clock = MockClock()
self.store = Mock()
self.as_api = Mock()
self.recoverer = Mock()
self.recoverer_fn = Mock(return_value=self.recoverer)
self.txnctrl = _TransactionController(
clock=self.clock, store=self.store, as_api=self.as_api
)
self.txnctrl.RECOVERER_CLASS = self.recoverer_fn
def test_single_service_up_txn_sent(self):
# Test: The AS is up and the txn is successfully sent.
service = Mock()
events = [Mock(), Mock()]
txn_id = "foobar"
txn = Mock(id=txn_id, service=service, events=events)
# mock methods
self.store.get_appservice_state = Mock(
return_value=defer.succeed(ApplicationServiceState.UP)
)
txn.send = Mock(return_value=make_awaitable(True))
self.store.create_appservice_txn = Mock(return_value=defer.succeed(txn))
# actual call
self.successResultOf(defer.ensureDeferred(self.txnctrl.send(service, events)))
self.store.create_appservice_txn.assert_called_once_with(
service=service, events=events, ephemeral=[] # txn made and saved
)
self.assertEquals(0, len(self.txnctrl.recoverers)) # no recoverer made
txn.complete.assert_called_once_with(self.store) # txn completed
def test_single_service_down(self):
# Test: The AS is down so it shouldn't push; Recoverers will do it.
# It should still make a transaction though.
service = Mock()
events = [Mock(), Mock()]
txn = Mock(id="idhere", service=service, events=events)
self.store.get_appservice_state = Mock(
return_value=defer.succeed(ApplicationServiceState.DOWN)
)
self.store.create_appservice_txn = Mock(return_value=defer.succeed(txn))
# actual call
self.successResultOf(defer.ensureDeferred(self.txnctrl.send(service, events)))
self.store.create_appservice_txn.assert_called_once_with(
service=service, events=events, ephemeral=[] # txn made and saved
)
self.assertEquals(0, txn.send.call_count) # txn not sent though
self.assertEquals(0, txn.complete.call_count) # or completed
def test_single_service_up_txn_not_sent(self):
# Test: The AS is up and the txn is not sent. A Recoverer is made and
# started.
service = Mock()
events = [Mock(), Mock()]
txn_id = "foobar"
txn = Mock(id=txn_id, service=service, events=events)
# mock methods
self.store.get_appservice_state = Mock(
return_value=defer.succeed(ApplicationServiceState.UP)
)
self.store.set_appservice_state = Mock(return_value=defer.succeed(True))
txn.send = Mock(return_value=make_awaitable(False)) # fails to send
self.store.create_appservice_txn = Mock(return_value=defer.succeed(txn))
# actual call
self.successResultOf(defer.ensureDeferred(self.txnctrl.send(service, events)))
self.store.create_appservice_txn.assert_called_once_with(
service=service, events=events, ephemeral=[]
)
self.assertEquals(1, self.recoverer_fn.call_count) # recoverer made
self.assertEquals(1, self.recoverer.recover.call_count) # and invoked
self.assertEquals(1, len(self.txnctrl.recoverers)) # and stored
self.assertEquals(0, txn.complete.call_count) # txn not completed
self.store.set_appservice_state.assert_called_once_with(
service, ApplicationServiceState.DOWN # service marked as down
)
class ApplicationServiceSchedulerRecovererTestCase(unittest.TestCase):
def setUp(self):
self.clock = MockClock()
self.as_api = Mock()
self.store = Mock()
self.service = Mock()
self.callback = Mock()
self.recoverer = _Recoverer(
clock=self.clock,
as_api=self.as_api,
store=self.store,
service=self.service,
callback=self.callback,
)
def test_recover_single_txn(self):
txn = Mock()
# return one txn to send, then no more old txns
txns = [txn, None]
def take_txn(*args, **kwargs):
return defer.succeed(txns.pop(0))
self.store.get_oldest_unsent_txn = Mock(side_effect=take_txn)
self.recoverer.recover()
# shouldn't have called anything prior to waiting for exp backoff
self.assertEquals(0, self.store.get_oldest_unsent_txn.call_count)
txn.send = Mock(return_value=make_awaitable(True))
txn.complete.return_value = make_awaitable(None)
# wait for exp backoff
self.clock.advance_time(2)
self.assertEquals(1, txn.send.call_count)
self.assertEquals(1, txn.complete.call_count)
# 2 because it needs to get None to know there are no more txns
self.assertEquals(2, self.store.get_oldest_unsent_txn.call_count)
self.callback.assert_called_once_with(self.recoverer)
self.assertEquals(self.recoverer.service, self.service)
def test_recover_retry_txn(self):
txn = Mock()
txns = [txn, None]
pop_txn = False
def take_txn(*args, **kwargs):
if pop_txn:
return defer.succeed(txns.pop(0))
else:
return defer.succeed(txn)
self.store.get_oldest_unsent_txn = Mock(side_effect=take_txn)
self.recoverer.recover()
self.assertEquals(0, self.store.get_oldest_unsent_txn.call_count)
txn.send = Mock(return_value=make_awaitable(False))
txn.complete.return_value = make_awaitable(None)
self.clock.advance_time(2)
self.assertEquals(1, txn.send.call_count)
self.assertEquals(0, txn.complete.call_count)
self.assertEquals(0, self.callback.call_count)
self.clock.advance_time(4)
self.assertEquals(2, txn.send.call_count)
self.assertEquals(0, txn.complete.call_count)
self.assertEquals(0, self.callback.call_count)
self.clock.advance_time(8)
self.assertEquals(3, txn.send.call_count)
self.assertEquals(0, txn.complete.call_count)
self.assertEquals(0, self.callback.call_count)
txn.send = Mock(return_value=make_awaitable(True)) # successfully send the txn
pop_txn = True # returns the txn the first time, then no more.
self.clock.advance_time(16)
self.assertEquals(1, txn.send.call_count) # new mock reset call count
self.assertEquals(1, txn.complete.call_count)
self.callback.assert_called_once_with(self.recoverer)
class ApplicationServiceSchedulerQueuerTestCase(unittest.TestCase):
def setUp(self):
self.txn_ctrl = Mock()
self.queuer = _ServiceQueuer(self.txn_ctrl, MockClock())
def test_send_single_event_no_queue(self):
# Expect the event to be sent immediately.
service = Mock(id=4)
event = Mock()
self.queuer.enqueue_event(service, event)
self.txn_ctrl.send.assert_called_once_with(service, [event], [])
def test_send_single_event_with_queue(self):
d = defer.Deferred()
self.txn_ctrl.send = Mock(
side_effect=lambda x, y, z: make_deferred_yieldable(d)
)
service = Mock(id=4)
event = Mock(event_id="first")
event2 = Mock(event_id="second")
event3 = Mock(event_id="third")
# Send an event and don't resolve it just yet.
self.queuer.enqueue_event(service, event)
# Send more events: expect send() to NOT be called multiple times.
self.queuer.enqueue_event(service, event2)
self.queuer.enqueue_event(service, event3)
self.txn_ctrl.send.assert_called_with(service, [event], [])
self.assertEquals(1, self.txn_ctrl.send.call_count)
# Resolve the send event: expect the queued events to be sent
d.callback(service)
self.txn_ctrl.send.assert_called_with(service, [event2, event3], [])
self.assertEquals(2, self.txn_ctrl.send.call_count)
def test_multiple_service_queues(self):
# Tests that each service has its own queue, and that they don't block
# on each other.
srv1 = Mock(id=4)
srv_1_defer = defer.Deferred()
srv_1_event = Mock(event_id="srv1a")
srv_1_event2 = Mock(event_id="srv1b")
srv2 = Mock(id=6)
srv_2_defer = defer.Deferred()
srv_2_event = Mock(event_id="srv2a")
srv_2_event2 = Mock(event_id="srv2b")
send_return_list = [srv_1_defer, srv_2_defer]
def do_send(x, y, z):
return make_deferred_yieldable(send_return_list.pop(0))
self.txn_ctrl.send = Mock(side_effect=do_send)
# send events for different ASes and make sure they are sent
self.queuer.enqueue_event(srv1, srv_1_event)
self.queuer.enqueue_event(srv1, srv_1_event2)
self.txn_ctrl.send.assert_called_with(srv1, [srv_1_event], [])
self.queuer.enqueue_event(srv2, srv_2_event)
self.queuer.enqueue_event(srv2, srv_2_event2)
self.txn_ctrl.send.assert_called_with(srv2, [srv_2_event], [])
# make sure callbacks for a service only send queued events for THAT
# service
srv_2_defer.callback(srv2)
self.txn_ctrl.send.assert_called_with(srv2, [srv_2_event2], [])
self.assertEquals(3, self.txn_ctrl.send.call_count)
def test_send_large_txns(self):
srv_1_defer = defer.Deferred()
srv_2_defer = defer.Deferred()
send_return_list = [srv_1_defer, srv_2_defer]
def do_send(x, y, z):
return make_deferred_yieldable(send_return_list.pop(0))
self.txn_ctrl.send = Mock(side_effect=do_send)
service = Mock(id=4, name="service")
event_list = [Mock(name="event%i" % (i + 1)) for i in range(200)]
for event in event_list:
self.queuer.enqueue_event(service, event)
# Expect the first event to be sent immediately.
self.txn_ctrl.send.assert_called_with(service, [event_list[0]], [])
srv_1_defer.callback(service)
# Then send the next 100 events
self.txn_ctrl.send.assert_called_with(service, event_list[1:101], [])
srv_2_defer.callback(service)
# Then the final 99 events
self.txn_ctrl.send.assert_called_with(service, event_list[101:], [])
self.assertEquals(3, self.txn_ctrl.send.call_count)
def test_send_single_ephemeral_no_queue(self):
# Expect the event to be sent immediately.
service = Mock(id=4, name="service")
event_list = [Mock(name="event")]
self.queuer.enqueue_ephemeral(service, event_list)
self.txn_ctrl.send.assert_called_once_with(service, [], event_list)
def test_send_multiple_ephemeral_no_queue(self):
# Expect the event to be sent immediately.
service = Mock(id=4, name="service")
event_list = [Mock(name="event1"), Mock(name="event2"), Mock(name="event3")]
self.queuer.enqueue_ephemeral(service, event_list)
self.txn_ctrl.send.assert_called_once_with(service, [], event_list)
def test_send_single_ephemeral_with_queue(self):
d = defer.Deferred()
self.txn_ctrl.send = Mock(
side_effect=lambda x, y, z: make_deferred_yieldable(d)
)
service = Mock(id=4)
event_list_1 = [Mock(event_id="event1"), Mock(event_id="event2")]
event_list_2 = [Mock(event_id="event3"), Mock(event_id="event4")]
event_list_3 = [Mock(event_id="event5"), Mock(event_id="event6")]
# Send an event and don't resolve it just yet.
self.queuer.enqueue_ephemeral(service, event_list_1)
# Send more events: expect send() to NOT be called multiple times.
self.queuer.enqueue_ephemeral(service, event_list_2)
self.queuer.enqueue_ephemeral(service, event_list_3)
self.txn_ctrl.send.assert_called_with(service, [], event_list_1)
self.assertEquals(1, self.txn_ctrl.send.call_count)
# Resolve txn_ctrl.send
d.callback(service)
# Expect the queued events to be sent
self.txn_ctrl.send.assert_called_with(service, [], event_list_2 + event_list_3)
self.assertEquals(2, self.txn_ctrl.send.call_count)
def test_send_large_txns_ephemeral(self):
d = defer.Deferred()
self.txn_ctrl.send = Mock(
side_effect=lambda x, y, z: make_deferred_yieldable(d)
)
# Expect the event to be sent immediately.
service = Mock(id=4, name="service")
first_chunk = [Mock(name="event%i" % (i + 1)) for i in range(100)]
second_chunk = [Mock(name="event%i" % (i + 101)) for i in range(50)]
event_list = first_chunk + second_chunk
self.queuer.enqueue_ephemeral(service, event_list)
self.txn_ctrl.send.assert_called_once_with(service, [], first_chunk)
d.callback(service)
self.txn_ctrl.send.assert_called_with(service, [], second_chunk)
self.assertEquals(2, self.txn_ctrl.send.call_count)
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