MatrixSynapse/tests/util/test_task_scheduler.py

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# Copyright 2023 The Matrix.org Foundation C.I.C.
#
# 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 typing import Optional, Tuple
from twisted.internet.task import deferLater
from twisted.test.proto_helpers import MemoryReactor
from synapse.server import HomeServer
from synapse.types import JsonMapping, ScheduledTask, TaskStatus
from synapse.util import Clock
from synapse.util.task_scheduler import TaskScheduler
from tests.replication._base import BaseMultiWorkerStreamTestCase
from tests.unittest import HomeserverTestCase, override_config
class TestTaskScheduler(HomeserverTestCase):
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
self.task_scheduler = hs.get_task_scheduler()
self.task_scheduler.register_action(self._test_task, "_test_task")
self.task_scheduler.register_action(self._sleeping_task, "_sleeping_task")
self.task_scheduler.register_action(self._raising_task, "_raising_task")
self.task_scheduler.register_action(self._resumable_task, "_resumable_task")
async def _test_task(
self, task: ScheduledTask
) -> Tuple[TaskStatus, Optional[JsonMapping], Optional[str]]:
# This test task will copy the parameters to the result
result = None
if task.params:
result = task.params
return (TaskStatus.COMPLETE, result, None)
def test_schedule_task(self) -> None:
"""Schedule a task in the future with some parameters to be copied as a result and check it executed correctly.
Also check that it get removed after `KEEP_TASKS_FOR_MS`."""
timestamp = self.clock.time_msec() + 30 * 1000
task_id = self.get_success(
self.task_scheduler.schedule_task(
"_test_task",
timestamp=timestamp,
params={"val": 1},
)
)
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.SCHEDULED)
self.assertIsNone(task.result)
# The timestamp being 30s after now the task should been executed
# after the first scheduling loop is run
self.reactor.advance(TaskScheduler.SCHEDULE_INTERVAL_MS / 1000)
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.COMPLETE)
assert task.result is not None
# The passed parameter should have been copied to the result
self.assertTrue(task.result.get("val") == 1)
# Let's wait for the complete task to be deleted and hence unavailable
self.reactor.advance((TaskScheduler.KEEP_TASKS_FOR_MS / 1000) + 1)
task = self.get_success(self.task_scheduler.get_task(task_id))
self.assertIsNone(task)
async def _sleeping_task(
self, task: ScheduledTask
) -> Tuple[TaskStatus, Optional[JsonMapping], Optional[str]]:
# Sleep for a second
await deferLater(self.reactor, 1, lambda: None)
return TaskStatus.COMPLETE, None, None
def test_schedule_lot_of_tasks(self) -> None:
"""Schedule more than `TaskScheduler.MAX_CONCURRENT_RUNNING_TASKS` tasks and check the behavior."""
task_ids = []
for i in range(TaskScheduler.MAX_CONCURRENT_RUNNING_TASKS + 1):
task_ids.append(
self.get_success(
self.task_scheduler.schedule_task(
"_sleeping_task",
params={"val": i},
)
)
)
# This is to give the time to the active tasks to finish
self.reactor.advance(1)
# Check that only MAX_CONCURRENT_RUNNING_TASKS tasks has run and that one
# is still scheduled.
tasks = [
self.get_success(self.task_scheduler.get_task(task_id))
for task_id in task_ids
]
self.assertEquals(
len(
[t for t in tasks if t is not None and t.status == TaskStatus.COMPLETE]
),
TaskScheduler.MAX_CONCURRENT_RUNNING_TASKS,
)
scheduled_tasks = [
t for t in tasks if t is not None and t.status == TaskStatus.ACTIVE
]
self.assertEquals(len(scheduled_tasks), 1)
# We need to wait for the next run of the scheduler loop
self.reactor.advance((TaskScheduler.SCHEDULE_INTERVAL_MS / 1000))
self.reactor.advance(1)
# Check that the last task has been properly executed after the next scheduler loop run
prev_scheduled_task = self.get_success(
self.task_scheduler.get_task(scheduled_tasks[0].id)
)
assert prev_scheduled_task is not None
self.assertEquals(
prev_scheduled_task.status,
TaskStatus.COMPLETE,
)
async def _raising_task(
self, task: ScheduledTask
) -> Tuple[TaskStatus, Optional[JsonMapping], Optional[str]]:
raise Exception("raising")
def test_schedule_raising_task(self) -> None:
"""Schedule a task raising an exception and check it runs to failure and report exception content."""
task_id = self.get_success(self.task_scheduler.schedule_task("_raising_task"))
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.FAILED)
self.assertEqual(task.error, "raising")
async def _resumable_task(
self, task: ScheduledTask
) -> Tuple[TaskStatus, Optional[JsonMapping], Optional[str]]:
if task.result and "in_progress" in task.result:
return TaskStatus.COMPLETE, {"success": True}, None
else:
await self.task_scheduler.update_task(task.id, result={"in_progress": True})
# Await forever to simulate an aborted task because of a restart
await deferLater(self.reactor, 2**16, lambda: None)
# This should never been called
return TaskStatus.ACTIVE, None, None
def test_schedule_resumable_task(self) -> None:
"""Schedule a resumable task and check that it gets properly resumed and complete after simulating a synapse restart."""
task_id = self.get_success(self.task_scheduler.schedule_task("_resumable_task"))
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.ACTIVE)
# Simulate a synapse restart by emptying the list of running tasks
self.task_scheduler._running_tasks = set()
self.reactor.advance((TaskScheduler.SCHEDULE_INTERVAL_MS / 1000))
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.COMPLETE)
assert task.result is not None
self.assertTrue(task.result.get("success"))
class TestTaskSchedulerWithBackgroundWorker(BaseMultiWorkerStreamTestCase):
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
self.task_scheduler = hs.get_task_scheduler()
self.task_scheduler.register_action(self._test_task, "_test_task")
async def _test_task(
self, task: ScheduledTask
) -> Tuple[TaskStatus, Optional[JsonMapping], Optional[str]]:
return (TaskStatus.COMPLETE, None, None)
@override_config({"run_background_tasks_on": "worker1"})
def test_schedule_task(self) -> None:
"""Check that a task scheduled to run now is launch right away on the background worker."""
bg_worker_hs = self.make_worker_hs(
"synapse.app.generic_worker",
extra_config={"worker_name": "worker1"},
)
bg_worker_hs.get_task_scheduler().register_action(self._test_task, "_test_task")
task_id = self.get_success(
self.task_scheduler.schedule_task(
"_test_task",
)
)
task = self.get_success(self.task_scheduler.get_task(task_id))
assert task is not None
self.assertEqual(task.status, TaskStatus.COMPLETE)