rq/tests/test_scheduler.py

372 lines
16 KiB
Python

import os
from datetime import datetime, timedelta, timezone
from multiprocessing import Process
import mock
from rq import Queue
from rq.compat import PY2
from rq.exceptions import NoSuchJobError
from rq.job import Job, Retry
from rq.registry import FinishedJobRegistry, ScheduledJobRegistry
from rq.scheduler import RQScheduler
from rq.serializers import JSONSerializer
from rq.utils import current_timestamp
from rq.worker import Worker
from tests import RQTestCase, find_empty_redis_database, ssl_test
from .fixtures import kill_worker, say_hello
class TestScheduledJobRegistry(RQTestCase):
def test_get_jobs_to_enqueue(self):
"""Getting job ids to enqueue from ScheduledJobRegistry."""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
timestamp = current_timestamp()
self.testconn.zadd(registry.key, {'foo': 1})
self.testconn.zadd(registry.key, {'bar': timestamp + 10})
self.testconn.zadd(registry.key, {'baz': timestamp + 30})
self.assertEqual(registry.get_jobs_to_enqueue(), ['foo'])
self.assertEqual(registry.get_jobs_to_enqueue(timestamp + 20),
['foo', 'bar'])
def test_get_jobs_to_schedule_with_chunk_size(self):
"""Max amount of jobs returns by get_jobs_to_schedule() equal to chunk_size"""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
timestamp = current_timestamp()
chunk_size = 5
for index in range(0, chunk_size * 2):
self.testconn.zadd(registry.key, {'foo_{}'.format(index): 1})
self.assertEqual(len(registry.get_jobs_to_schedule(timestamp, chunk_size)),
chunk_size)
self.assertEqual(len(registry.get_jobs_to_schedule(timestamp, chunk_size * 2)),
chunk_size * 2)
def test_get_scheduled_time(self):
"""get_scheduled_time() returns job's scheduled datetime"""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
job = Job.create('myfunc', connection=self.testconn)
job.save()
dt = datetime(2019, 1, 1, tzinfo=timezone.utc)
registry.schedule(job, datetime(2019, 1, 1, tzinfo=timezone.utc))
self.assertEqual(registry.get_scheduled_time(job), dt)
# get_scheduled_time() should also work with job ID
self.assertEqual(registry.get_scheduled_time(job.id), dt)
# registry.get_scheduled_time() raises NoSuchJobError if
# job.id is not found
self.assertRaises(NoSuchJobError, registry.get_scheduled_time, '123')
def test_schedule(self):
"""Adding job with the correct score to ScheduledJobRegistry"""
queue = Queue(connection=self.testconn)
job = Job.create('myfunc', connection=self.testconn)
job.save()
registry = ScheduledJobRegistry(queue=queue)
from datetime import timezone
# If we pass in a datetime with no timezone, `schedule()`
# assumes local timezone so depending on your local timezone,
# the timestamp maybe different
#
# we need to account for the difference between a timezone
# with DST active and without DST active. The time.timezone
# property isn't accurate when time.daylight is non-zero,
# we'll test both.
#
# first, time.daylight == 0 (not in DST).
# mock the sitatuoin for American/New_York not in DST (UTC - 5)
# time.timezone = 18000
# time.daylight = 0
# time.altzone = 14400
mock_day = mock.patch('time.daylight', 0)
mock_tz = mock.patch('time.timezone', 18000)
mock_atz = mock.patch('time.altzone', 14400)
with mock_tz, mock_day, mock_atz:
registry.schedule(job, datetime(2019, 1, 1))
self.assertEqual(self.testconn.zscore(registry.key, job.id),
1546300800 + 18000) # 2019-01-01 UTC in Unix timestamp
# second, time.daylight != 0 (in DST)
# mock the sitatuoin for American/New_York not in DST (UTC - 4)
# time.timezone = 18000
# time.daylight = 1
# time.altzone = 14400
mock_day = mock.patch('time.daylight', 1)
mock_tz = mock.patch('time.timezone', 18000)
mock_atz = mock.patch('time.altzone', 14400)
with mock_tz, mock_day, mock_atz:
registry.schedule(job, datetime(2019, 1, 1))
self.assertEqual(self.testconn.zscore(registry.key, job.id),
1546300800 + 14400) # 2019-01-01 UTC in Unix timestamp
# Score is always stored in UTC even if datetime is in a different tz
tz = timezone(timedelta(hours=7))
job = Job.create('myfunc', connection=self.testconn)
job.save()
registry.schedule(job, datetime(2019, 1, 1, 7, tzinfo=tz))
self.assertEqual(self.testconn.zscore(registry.key, job.id),
1546300800) # 2019-01-01 UTC in Unix timestamp
class TestScheduler(RQTestCase):
def test_init(self):
"""Scheduler can be instantiated with queues or queue names"""
foo_queue = Queue('foo', connection=self.testconn)
scheduler = RQScheduler([foo_queue, 'bar'], connection=self.testconn)
self.assertEqual(scheduler._queue_names, {'foo', 'bar'})
self.assertEqual(scheduler.status, RQScheduler.Status.STOPPED)
def test_should_reacquire_locks(self):
"""scheduler.should_reacquire_locks works properly"""
queue = Queue(connection=self.testconn)
scheduler = RQScheduler([queue], connection=self.testconn)
self.assertTrue(scheduler.should_reacquire_locks)
scheduler.acquire_locks()
self.assertIsNotNone(scheduler.lock_acquisition_time)
# scheduler.should_reacquire_locks always returns False if
# scheduler.acquired_locks and scheduler._queue_names are the same
self.assertFalse(scheduler.should_reacquire_locks)
scheduler.lock_acquisition_time = datetime.now() - timedelta(minutes=16)
self.assertFalse(scheduler.should_reacquire_locks)
scheduler._queue_names = set(['default', 'foo'])
self.assertTrue(scheduler.should_reacquire_locks)
scheduler.acquire_locks()
self.assertFalse(scheduler.should_reacquire_locks)
def test_lock_acquisition(self):
"""Test lock acquisition"""
name_1 = 'lock-test-1'
name_2 = 'lock-test-2'
name_3 = 'lock-test-3'
scheduler = RQScheduler([name_1], self.testconn)
self.assertEqual(scheduler.acquire_locks(), {name_1})
self.assertEqual(scheduler._acquired_locks, {name_1})
self.assertEqual(scheduler.acquire_locks(), set([]))
# Only name_2 is returned since name_1 is already locked
scheduler = RQScheduler([name_1, name_2], self.testconn)
self.assertEqual(scheduler.acquire_locks(), {name_2})
self.assertEqual(scheduler._acquired_locks, {name_2})
# When a new lock is successfully acquired, _acquired_locks is added
scheduler._queue_names.add(name_3)
self.assertEqual(scheduler.acquire_locks(), {name_3})
self.assertEqual(scheduler._acquired_locks, {name_2, name_3})
def test_lock_acquisition_with_auto_start(self):
"""Test lock acquisition with auto_start=True"""
scheduler = RQScheduler(['auto-start'], self.testconn)
with mock.patch.object(scheduler, 'start') as mocked:
scheduler.acquire_locks(auto_start=True)
self.assertEqual(mocked.call_count, 1)
# If process has started, scheduler.start() won't be called
scheduler = RQScheduler(['auto-start2'], self.testconn)
scheduler._process = 1
with mock.patch.object(scheduler, 'start') as mocked:
scheduler.acquire_locks(auto_start=True)
self.assertEqual(mocked.call_count, 0)
def test_heartbeat(self):
"""Test that heartbeat updates locking keys TTL"""
name_1 = 'lock-test-1'
name_2 = 'lock-test-2'
scheduler = RQScheduler([name_1, name_2], self.testconn)
scheduler.acquire_locks()
locking_key_1 = RQScheduler.get_locking_key(name_1)
locking_key_2 = RQScheduler.get_locking_key(name_2)
with self.testconn.pipeline() as pipeline:
pipeline.expire(locking_key_1, 1000)
pipeline.expire(locking_key_2, 1000)
scheduler.heartbeat()
self.assertEqual(self.testconn.ttl(locking_key_1), 6)
self.assertEqual(self.testconn.ttl(locking_key_1), 6)
# scheduler.stop() releases locks and sets status to STOPPED
scheduler._status = scheduler.Status.WORKING
scheduler.stop()
self.assertFalse(self.testconn.exists(locking_key_1))
self.assertFalse(self.testconn.exists(locking_key_2))
self.assertEqual(scheduler.status, scheduler.Status.STOPPED)
# Heartbeat also works properly for schedulers with a single queue
scheduler = RQScheduler([name_1], self.testconn)
scheduler.acquire_locks()
self.testconn.expire(locking_key_1, 1000)
scheduler.heartbeat()
self.assertEqual(self.testconn.ttl(locking_key_1), 6)
def test_enqueue_scheduled_jobs(self):
"""Scheduler can enqueue scheduled jobs"""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
job = Job.create('myfunc', connection=self.testconn)
job.save()
registry.schedule(job, datetime(2019, 1, 1, tzinfo=timezone.utc))
scheduler = RQScheduler([queue], connection=self.testconn)
scheduler.acquire_locks()
scheduler.enqueue_scheduled_jobs()
self.assertEqual(len(queue), 1)
# After job is scheduled, registry should be empty
self.assertEqual(len(registry), 0)
# Jobs scheduled in the far future should not be affected
registry.schedule(job, datetime(2100, 1, 1, tzinfo=timezone.utc))
scheduler.enqueue_scheduled_jobs()
self.assertEqual(len(queue), 1)
def test_prepare_registries(self):
"""prepare_registries() creates self._scheduled_job_registries"""
foo_queue = Queue('foo', connection=self.testconn)
bar_queue = Queue('bar', connection=self.testconn)
scheduler = RQScheduler([foo_queue, bar_queue], connection=self.testconn)
self.assertEqual(scheduler._scheduled_job_registries, [])
scheduler.prepare_registries([foo_queue.name])
self.assertEqual(scheduler._scheduled_job_registries, [ScheduledJobRegistry(queue=foo_queue)])
scheduler.prepare_registries([foo_queue.name, bar_queue.name])
self.assertEqual(
scheduler._scheduled_job_registries,
[ScheduledJobRegistry(queue=foo_queue), ScheduledJobRegistry(queue=bar_queue)]
)
class TestWorker(RQTestCase):
def test_work_burst(self):
"""worker.work() with scheduler enabled works properly"""
queue = Queue(connection=self.testconn)
worker = Worker(queues=[queue], connection=self.testconn)
worker.work(burst=True, with_scheduler=False)
self.assertIsNone(worker.scheduler)
worker = Worker(queues=[queue], connection=self.testconn)
worker.work(burst=True, with_scheduler=True)
self.assertIsNotNone(worker.scheduler)
self.assertIsNone(self.testconn.get(worker.scheduler.get_locking_key('default')))
@mock.patch.object(RQScheduler, 'acquire_locks')
def test_run_maintenance_tasks(self, mocked):
"""scheduler.acquire_locks() is called only when scheduled is enabled"""
queue = Queue(connection=self.testconn)
worker = Worker(queues=[queue], connection=self.testconn)
worker.run_maintenance_tasks()
self.assertEqual(mocked.call_count, 0)
worker.last_cleaned_at = None
worker.scheduler = RQScheduler([queue], connection=self.testconn)
worker.run_maintenance_tasks()
self.assertEqual(mocked.call_count, 0)
worker.last_cleaned_at = datetime.now()
worker.run_maintenance_tasks()
self.assertEqual(mocked.call_count, 1)
def test_work(self):
queue = Queue(connection=self.testconn)
worker = Worker(queues=[queue], connection=self.testconn)
p = Process(target=kill_worker, args=(os.getpid(), False, 5))
p.start()
queue.enqueue_at(datetime(2019, 1, 1, tzinfo=timezone.utc), say_hello)
worker.work(burst=False, with_scheduler=True)
p.join(1)
self.assertIsNotNone(worker.scheduler)
registry = FinishedJobRegistry(queue=queue)
self.assertEqual(len(registry), 1)
@ssl_test
def test_work_with_ssl(self):
connection = find_empty_redis_database(ssl=True)
queue = Queue(connection=connection)
worker = Worker(queues=[queue], connection=connection)
p = Process(target=kill_worker, args=(os.getpid(), False, 5))
p.start()
queue.enqueue_at(datetime(2019, 1, 1, tzinfo=timezone.utc), say_hello)
worker.work(burst=False, with_scheduler=True)
p.join(1)
self.assertIsNotNone(worker.scheduler)
registry = FinishedJobRegistry(queue=queue)
self.assertEqual(len(registry), 1)
def test_work_with_serializer(self):
queue = Queue(connection=self.testconn, serializer=JSONSerializer)
worker = Worker(queues=[queue], connection=self.testconn, serializer=JSONSerializer)
p = Process(target=kill_worker, args=(os.getpid(), False, 5))
p.start()
queue.enqueue_at(
datetime(2019, 1, 1, tzinfo=timezone.utc),
say_hello, meta={'foo': 'bar'}
)
worker.work(burst=False, with_scheduler=True)
p.join(1)
self.assertIsNotNone(worker.scheduler)
registry = FinishedJobRegistry(queue=queue)
self.assertEqual(len(registry), 1)
class TestQueue(RQTestCase):
def test_enqueue_at(self):
"""queue.enqueue_at() puts job in the scheduled"""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
scheduler = RQScheduler([queue], connection=self.testconn)
scheduler.acquire_locks()
# Jobs created using enqueue_at is put in the ScheduledJobRegistry
job = queue.enqueue_at(datetime(2019, 1, 1, tzinfo=timezone.utc), say_hello)
self.assertEqual(len(queue), 0)
self.assertEqual(len(registry), 1)
# enqueue_at set job status to "scheduled"
self.assertTrue(job.get_status() == 'scheduled')
# After enqueue_scheduled_jobs() is called, the registry is empty
# and job is enqueued
scheduler.enqueue_scheduled_jobs()
self.assertEqual(len(queue), 1)
self.assertEqual(len(registry), 0)
def test_enqueue_in(self):
"""queue.enqueue_in() schedules job correctly"""
queue = Queue(connection=self.testconn)
registry = ScheduledJobRegistry(queue=queue)
job = queue.enqueue_in(timedelta(seconds=30), say_hello)
now = datetime.now(timezone.utc)
scheduled_time = registry.get_scheduled_time(job)
# Ensure that job is scheduled roughly 30 seconds from now
self.assertTrue(
now + timedelta(seconds=28) < scheduled_time < now + timedelta(seconds=32)
)
def test_enqueue_in_with_retry(self):
""" Ensure that the retry parameter is passed
to the enqueue_at function from enqueue_in.
"""
queue = Queue(connection=self.testconn)
job = queue.enqueue_in(timedelta(seconds=30), say_hello, retry=Retry(3, [2]))
self.assertEqual(job.retries_left, 3)
self.assertEqual(job.retry_intervals, [2])