def test_clone(self):
interval = Interval(seconds=5) #rand_int(30, 50))
start_time = datetime.utcnow()
def callback():
pass
def on_max_repeats_reached_cb():
pass
job = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, interval,
start_time)
job.callback = callback
job.on_max_repeats_reached_cb = on_max_repeats_reached_cb
clone = job.clone()
sleep(0.1)
for name in 'name', 'interval', 'cb_kwargs', 'max_repeats', 'is_active':
expected = getattr(job, name)
given = getattr(clone, name)
self.assertEquals(expected, given,
'{} != {} ({})'.format(expected, given, name))
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(job.callback, clone.callback)
self.assertIs(job.on_max_repeats_reached_cb,
clone.on_max_repeats_reached_cb)
def test_delete(self):
test_wait_time = 0.5
job_sleep_time = 10
job_max_repeats = 30
job1 = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(), 'b', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job2.wait_sleep_time = job_sleep_time
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
scheduler.create(job1)
scheduler.create(job2)
scheduler.run()
scheduler.unschedule(job1)
self.assertIn(job2, scheduler.jobs)
self.assertNotIn(job1, scheduler.jobs)
self.assertFalse(job1.keep_running)
# run - 1
# create - 2
# delete - 1
# on_max_repeats_reached - 0 (because of how long it takes to run job_max_repeats with test_wait_time)
# 1+2+1 = 4
self.assertEquals(scheduler.lock.called, 4)
def test_clone(self):
interval = Interval(seconds=5)#rand_int(30, 50))
start_time = datetime.utcnow()
def callback():
pass
def on_max_repeats_reached_cb():
pass
job = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, interval, start_time)
job.callback = callback
job.on_max_repeats_reached_cb = on_max_repeats_reached_cb
clone = job.clone()
sleep(0.1)
for name in 'name', 'interval', 'cb_kwargs', 'max_repeats', 'is_active':
expected = getattr(job, name)
given = getattr(clone, name)
self.assertEquals(expected, given, '{} != {} ({})'.format(expected, given, name))
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(job.callback, clone.callback)
self.assertIs(job.on_max_repeats_reached_cb, clone.on_max_repeats_reached_cb)
def test_on_job_executed_cb(self):
data = {'runs':[], 'ctx':[]}
def get_context():
ctx = {'name': rand_string(), 'type':SCHEDULER.JOB_TYPE.INTERVAL_BASED}
data['ctx'].append(ctx)
return ctx
def on_job_executed_cb(ctx):
data['runs'].append(ctx)
test_wait_time = 0.5
job_sleep_time = 0.1
job_max_repeats = 10
job = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job.wait_sleep_time = job_sleep_time
job.get_context = get_context
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
scheduler.on_job_executed_cb = on_job_executed_cb
scheduler.create(job, spawn=False)
scheduler.run()
self.assertEquals(len(data['runs']), len(data['ctx']))
for idx, item in enumerate(data['runs']):
self.assertEquals(data['ctx'][idx], item)
def test_get_sleep_time(self):
now = parse('2015-11-27 19:13:37.274')
job1 = Job(1, 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=5), now)
self.assertEquals(job1.get_sleep_time(now), 5)
job2 = Job(2, 'b', SCHEDULER.JOB_TYPE.CRON_STYLE, CronTab(DEFAULT_CRON_DEFINITION), now)
self.assertEquals(job2.get_sleep_time(now), 22.726)
def test_run(self):
test_wait_time = 0.3
sched_sleep_time = 0.1
data = {'sleep': [], 'jobs': set()}
def _sleep(value):
data['sleep'].append(value)
def spawn_job(job):
data['jobs'].add(job)
def job_run(self):
pass
job1, job2, job3 = [get_job(str(x)) for x in range(3)]
# Already run out of max_repeats and should not be started
job4 = Job(rand_int(),
rand_string(),
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
start_time=parse('1997-12-23 21:24:27'),
interval=Interval(seconds=5),
max_repeats=3)
job1.run = job_run
job2.run = job_run
job3.run = job_run
job4.run = job_run
scheduler = Scheduler(dummy_callback)
scheduler.spawn_job = spawn_job
scheduler.lock = RLock()
scheduler.sleep = _sleep
scheduler.sleep_time = sched_sleep_time
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
scheduler.create(job1, spawn=False)
scheduler.create(job2, spawn=False)
scheduler.create(job3, spawn=False)
scheduler.create(job4, spawn=False)
scheduler.run()
self.assertEquals(3, len(data['jobs']))
self.assertTrue(scheduler.lock.called)
for item in data['sleep']:
self.assertEquals(sched_sleep_time, item)
for job in job1, job2, job3:
self.assertIn(job, data['jobs'])
self.assertNotIn(job4, data['jobs'])
def test_job_greenlets(self):
data = {'spawned':[], 'stopped': []}
class FakeGreenlet(object):
def __init__(self, run):
self.run = self._run = run
def kill(self, *args, **kwargs):
data['stopped'].append([self, args, kwargs])
def spawn(job):
g = FakeGreenlet(job)
data['spawned'].append(g)
return g
with patch('gevent.spawn', spawn):
test_wait_time = 0.5
job_sleep_time = 10
job_max_repeats = 30
job1 = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(), 'b', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job2.wait_sleep_time = job_sleep_time
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
scheduler.create(job1, spawn=False)
scheduler.create(job2, spawn=False)
scheduler.run()
self.assertEquals(scheduler.job_greenlets[job1.name]._run, job1.run)
self.assertEquals(scheduler.job_greenlets[job2.name]._run, job2.run)
self.assertTrue(job1.keep_running)
self.assertTrue(job2.keep_running)
scheduler.unschedule(job1)
self.assertFalse(job1.keep_running)
self.assertTrue(job2.keep_running)
self.assertNotIn(job1.name, scheduler.job_greenlets)
self.assertEquals(scheduler.job_greenlets[job2.name]._run, job2.run)
self.assertEquals(len(data['stopped']), 1)
g, args, kwargs = data['stopped'][0]
self.assertIs(g.run.im_func, job1.run.im_func) # That's how we know it was job1 deleted not job2
self.assertIs(args, ())
self.assertDictEqual(kwargs, {'timeout':2.0})
def test_run(self):
test_wait_time = 0.3
sched_sleep_time = 0.1
data = {'sleep': [], 'jobs':set()}
def _sleep(value):
data['sleep'].append(value)
def spawn_job(job):
data['jobs'].add(job)
def job_run(self):
pass
job1, job2, job3 = [get_job(str(x)) for x in range(3)]
# Already run out of max_repeats and should not be started
job4 = Job(rand_int(), rand_string(), SCHEDULER.JOB_TYPE.INTERVAL_BASED, start_time=parse('1997-12-23 21:24:27'),
interval=Interval(seconds=5), max_repeats=3)
job1.run = job_run
job2.run = job_run
job3.run = job_run
job4.run = job_run
scheduler = Scheduler(dummy_callback)
scheduler.spawn_job = spawn_job
scheduler.lock = RLock()
scheduler.sleep = _sleep
scheduler.sleep_time = sched_sleep_time
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
scheduler.create(job1, spawn=False)
scheduler.create(job2, spawn=False)
scheduler.create(job3, spawn=False)
scheduler.create(job4, spawn=False)
scheduler.run()
self.assertEquals(3, len(data['jobs']))
self.assertTrue(scheduler.lock.called)
for item in data['sleep']:
self.assertEquals(sched_sleep_time, item)
for job in job1, job2, job3:
self.assertIn(job, data['jobs'])
self.assertNotIn(job4, data['jobs'])
def test_on_max_repeats_reached(self):
test_wait_time = 0.5
job_sleep_time = 0.02
job_max_repeats = 3
data = {'job': None, 'called': 0}
job = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job.wait_sleep_time = job_sleep_time
# Just to make sure it's inactive by default.
self.assertTrue(job.is_active)
scheduler = Scheduler(dummy_callback)
data['old_on_max_repeats_reached'] = scheduler.on_max_repeats_reached
def on_max_repeats_reached(job):
data['job'] = job
data['called'] += 1
data['old_on_max_repeats_reached'](job)
scheduler.on_max_repeats_reached = on_max_repeats_reached
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
scheduler.create(job)
scheduler.run()
now = datetime.utcnow()
# Now the job should have reached the max_repeats limit within the now - test_wait_time period.
self.assertIs(job, data['job'])
self.assertEquals(1, data['called'])
self.assertTrue(job.max_repeats_reached)
self.assertFalse(job.keep_running)
self.assertTrue(job.max_repeats_reached_at < now)
self.assertTrue(job.max_repeats_reached_at >= now +
timedelta(seconds=-test_wait_time))
# Having run out of max_repeats it should not be active now.
self.assertFalse(job.is_active)
def check_get_start_time(self, start_time, now, expected):
start_time = parse(start_time)
self.now = parse(now)
expected = parse(expected)
interval = 1 # Days
data = {'start_time': [], 'now': []}
def wait_iter_cb(start_time, now, *ignored):
data['start_time'].append(start_time)
data['now'].append(now)
with patch('zato.common.scheduler.datetime', self._datetime):
interval = Interval(days=interval)
job = Job(rand_int(),
rand_string(),
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
start_time=start_time,
interval=interval)
job.wait_iter_cb = wait_iter_cb
job.wait_sleep_time = 0.1
self.assertEquals(job.start_time, expected)
self.assertTrue(job.keep_running)
self.assertFalse(job.max_repeats_reached)
self.assertIs(job.max_repeats_reached_at, None)
spawn(job.run)
sleep(0.2)
len_start_time = len(data['start_time'])
len_now = len(data['now'])
self.assertNotEquals(len_start_time, 0)
self.assertNotEquals(len_now, 0)
for item in data['start_time']:
self.assertEquals(expected, item)
for item in data['now']:
self.assertEquals(self.now, item)
def test_on_job_executed_cb(self):
data = {'runs': [], 'ctx': []}
def get_context():
ctx = {
'name': rand_string(),
'type': SCHEDULER.JOB_TYPE.INTERVAL_BASED
}
data['ctx'].append(ctx)
return ctx
def on_job_executed_cb(ctx):
data['runs'].append(ctx)
test_wait_time = 0.5
job_sleep_time = 0.1
job_max_repeats = 10
job = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job.wait_sleep_time = job_sleep_time
job.get_context = get_context
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
scheduler.on_job_executed_cb = on_job_executed_cb
scheduler.create(job, spawn=False)
scheduler.run()
self.assertEquals(len(data['runs']), len(data['ctx']))
for idx, item in enumerate(data['runs']):
self.assertEquals(data['ctx'][idx], item)
def test_on_max_repeats_reached(self):
test_wait_time = 0.5
job_sleep_time = 0.02
job_max_repeats = 3
data = {'job':None, 'called':0}
job = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=0.1), max_repeats=job_max_repeats)
job.wait_sleep_time = job_sleep_time
# Just to make sure it's inactive by default.
self.assertTrue(job.is_active)
scheduler = Scheduler(dummy_callback)
data['old_on_max_repeats_reached'] = scheduler.on_max_repeats_reached
def on_max_repeats_reached(job):
data['job'] = job
data['called'] += 1
data['old_on_max_repeats_reached'](job)
scheduler.on_max_repeats_reached = on_max_repeats_reached
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
scheduler.create(job)
scheduler.run()
now = datetime.utcnow()
# Now the job should have reached the max_repeats limit within the now - test_wait_time period.
self.assertIs(job, data['job'])
self.assertEquals(1, data['called'])
self.assertTrue(job.max_repeats_reached)
self.assertFalse(job.keep_running)
self.assertTrue(job.max_repeats_reached_at < now)
self.assertTrue(job.max_repeats_reached_at >= now + timedelta(seconds=-test_wait_time))
# Having run out of max_repeats it should not be active now.
self.assertFalse(job.is_active)
def test_get_context(self):
id = rand_int()
name = rand_string()
start_time = rand_date_utc()
interval_in_seconds = rand_int()
max_repeats_reached = rand_bool()
current_run, max_repeats = rand_int(count=2)
cb_kwargs = {rand_string(): rand_string()}
for job_type in SCHEDULER.JOB_TYPE.INTERVAL_BASED, SCHEDULER.JOB_TYPE.CRON_STYLE:
interval=Interval(in_seconds=interval_in_seconds) if \
job_type == SCHEDULER.JOB_TYPE.INTERVAL_BASED else CronTab(DEFAULT_CRON_DEFINITION)
job = Job(id,
name,
job_type,
cb_kwargs=cb_kwargs,
interval=interval)
job.start_time = start_time
job.current_run = current_run
job.max_repeats = max_repeats
job.max_repeats_reached = max_repeats_reached
if job_type == SCHEDULER.JOB_TYPE.CRON_STYLE:
job.cron_definition = DEFAULT_CRON_DEFINITION
ctx = job.get_context()
cid = ctx.pop('cid')
self.assertTrue(is_like_cid(cid))
expected = {
'current_run': current_run,
'id': id,
'name': name,
'start_time': start_time.isoformat(),
'max_repeats': max_repeats,
'max_repeats_reached': max_repeats_reached,
'cb_kwargs': cb_kwargs,
'type': job_type,
}
if job_type == SCHEDULER.JOB_TYPE.CRON_STYLE:
expected['cron_definition'] = job.cron_definition
else:
expected['interval_in_seconds'] = job.interval.in_seconds
self.assertDictEqual(ctx, expected)
def check_get_start_time(self, start_time, now, expected):
start_time = parse(start_time)
self.now = parse(now)
expected = parse(expected)
interval = 1 # Days
data = {'start_time':[], 'now':[]}
def wait_iter_cb(start_time, now, *ignored):
data['start_time'].append(start_time)
data['now'].append(now)
with patch('zato.common.scheduler.datetime', self._datetime):
interval = Interval(days=interval)
job = Job(rand_int(), rand_string(), SCHEDULER.JOB_TYPE.INTERVAL_BASED, start_time=start_time, interval=interval)
job.wait_iter_cb = wait_iter_cb
job.wait_sleep_time = 0.1
self.assertEquals(job.start_time, expected)
self.assertTrue(job.keep_running)
self.assertFalse(job.max_repeats_reached)
self.assertIs(job.max_repeats_reached_at, None)
spawn(job.run)
sleep(0.2)
len_start_time = len(data['start_time'])
len_now = len(data['now'])
self.assertNotEquals(len_start_time, 0)
self.assertNotEquals(len_now, 0)
for item in data['start_time']:
self.assertEquals(expected, item)
for item in data['now']:
self.assertEquals(self.now, item)
def test_get_sleep_time(self):
now = parse('2015-11-27 19:13:37.274')
job1 = Job(1, 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=5), now)
self.assertEquals(job1.get_sleep_time(now), 5)
job2 = Job(2, 'b', SCHEDULER.JOB_TYPE.CRON_STYLE,
CronTab(DEFAULT_CRON_DEFINITION), now)
self.assertEquals(job2.get_sleep_time(now), 22.726)
def get_job(name=None,
interval_in_seconds=None,
start_time=None,
max_repeats=None,
callback=None):
name = name or rand_string()
interval_in_seconds = interval_in_seconds or rand_int()
start_time = start_time or rand_date_utc()
callback = callback or dummy_callback
return Job(rand_int(),
name,
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(in_seconds=interval_in_seconds),
start_time,
callback,
max_repeats=max_repeats)
def test_get_context(self):
id = rand_int()
name = rand_string()
start_time = rand_date_utc()
interval_in_seconds = rand_int()
max_repeats_reached = rand_bool()
current_run, max_repeats = rand_int(count=2)
cb_kwargs = {rand_string():rand_string()}
for job_type in SCHEDULER.JOB_TYPE.INTERVAL_BASED, SCHEDULER.JOB_TYPE.CRON_STYLE:
interval=Interval(in_seconds=interval_in_seconds) if \
job_type == SCHEDULER.JOB_TYPE.INTERVAL_BASED else CronTab(DEFAULT_CRON_DEFINITION)
job = Job(id, name, job_type, cb_kwargs=cb_kwargs, interval=interval)
job.start_time = start_time
job.current_run = current_run
job.max_repeats = max_repeats
job.max_repeats_reached = max_repeats_reached
if job_type == SCHEDULER.JOB_TYPE.CRON_STYLE:
job.cron_definition = DEFAULT_CRON_DEFINITION
ctx = job.get_context()
cid = ctx.pop('cid')
self.assertTrue(is_like_cid(cid))
expected = {
'current_run': current_run,
'id': id,
'name': name,
'start_time': start_time.isoformat(),
'max_repeats': max_repeats,
'max_repeats_reached': max_repeats_reached,
'cb_kwargs': cb_kwargs,
'type': job_type,
}
if job_type == SCHEDULER.JOB_TYPE.CRON_STYLE:
expected['cron_definition'] = job.cron_definition
else:
expected['interval_in_seconds'] = job.interval.in_seconds
self.assertDictEqual(ctx, expected)
def test_get_start_time_last_run_in_past_next_run_in_past(self):
start_time = parse('2017-03-20 19:11:23')
self.now = parse('2019-05-13 05:19:37')
expected = parse('2017-04-04 19:11:23')
with patch('zato.common.scheduler.datetime', self._datetime):
interval = Interval(days=3)
job = Job(rand_int(),
rand_string(),
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
start_time=start_time,
interval=interval,
max_repeats=5)
self.assertFalse(job.keep_running)
self.assertTrue(job.max_repeats_reached)
self.assertEquals(job.max_repeats_reached_at, expected)
self.assertFalse(job.start_time)
def create_edit_job(self, id, name, start_time, job_type, service, is_create=True, max_repeats=1, days=0, hours=0,
minutes=0, seconds=0, extra=None, cron_definition=None, **kwargs):
""" A base method for scheduling of jobs.
"""
cb_kwargs = {
'service': service,
'extra': extra,
}
if job_type == SCHEDULER.JOB_TYPE.CRON_STYLE:
interval = CronTab(cron_definition)
else:
interval = Interval(days=days, hours=hours, minutes=minutes, seconds=seconds)
job = Job(id, name, job_type, interval, start_time, cb_kwargs=cb_kwargs, max_repeats=max_repeats,
cron_definition=cron_definition)
func = self.sched.create if is_create else self.sched.edit
func(job, **kwargs)
def test_delete(self):
test_wait_time = 0.5
job_sleep_time = 10
job_max_repeats = 30
job1 = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(),
'b',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job2.wait_sleep_time = job_sleep_time
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
scheduler.create(job1)
scheduler.create(job2)
scheduler.run()
scheduler.unschedule(job1)
self.assertIn(job2, scheduler.jobs)
self.assertNotIn(job1, scheduler.jobs)
self.assertFalse(job1.keep_running)
# run - 1
# create - 2
# delete - 1
# on_max_repeats_reached - 0 (because of how long it takes to run job_max_repeats with test_wait_time)
# 1+2+1 = 4
self.assertEquals(scheduler.lock.called, 4)
def test_edit(self):
def callback():
pass
def on_max_repeats_reached_cb():
pass
start_time = datetime.utcnow()
test_wait_time = 0.5
job_interval1, job_interval2 = 2, 3
job_sleep_time = 10
job_max_repeats1, job_max_repeats2 = 20, 30
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
def check(scheduler, job, label):
self.assertIn(job.name, scheduler.job_greenlets)
self.assertIn(job, scheduler.jobs)
self.assertEquals(1, len(scheduler.job_greenlets))
self.assertEquals(1, len(scheduler.jobs))
self.assertIs(job.run.im_func,
scheduler.job_greenlets.values()[0]._run.im_func)
clone = list(scheduler.jobs)[0]
for name in 'name', 'interval', 'cb_kwargs', 'max_repeats', 'is_active':
expected = getattr(job, name)
given = getattr(clone, name)
self.assertEquals(
expected, given,
'{} != {} ({})'.format(expected, given, name))
job_cb = job.callback
clone_cb = clone.callback
job_on_max_cb = job.on_max_repeats_reached_cb
clone_on_max_cb = clone.on_max_repeats_reached_cb
if label == 'first':
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(job_cb.im_func, clone_cb.im_func)
self.assertIs(job_on_max_cb.im_func, clone_on_max_cb.im_func)
else:
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(clone_cb.im_func,
scheduler.on_job_executed.im_func)
self.assertIs(clone_on_max_cb.im_func,
scheduler.on_max_repeats_reached.im_func)
job1 = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=job_interval1),
start_time,
max_repeats=job_max_repeats1)
job1.callback = callback
job1.on_max_repeats_reached_cb = on_max_repeats_reached_cb
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=job_interval2),
start_time,
max_repeats=job_max_repeats2)
job2.callback = callback
job2.on_max_repeats_reached_cb = on_max_repeats_reached_cb
job2.wait_sleep_time = job_sleep_time
scheduler.run()
scheduler.create(job1)
sleep(test_wait_time)
# We have only job1 at this point
check(scheduler, job1, 'first')
# Removes job1 along the way ..
scheduler.edit(job2)
# .. so now job2 is the now removed job1.
check(scheduler, job2, 'second')
def test_edit(self):
def callback():
pass
def on_max_repeats_reached_cb():
pass
start_time = datetime.utcnow()
test_wait_time = 0.5
job_interval1, job_interval2 = 2, 3
job_sleep_time = 10
job_max_repeats1, job_max_repeats2 = 20, 30
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() + timedelta(seconds=test_wait_time))
def check(scheduler, job, label):
self.assertIn(job.name, scheduler.job_greenlets)
self.assertIn(job, scheduler.jobs)
self.assertEquals(1, len(scheduler.job_greenlets))
self.assertEquals(1, len(scheduler.jobs))
self.assertIs(job.run.im_func, scheduler.job_greenlets.values()[0]._run.im_func)
clone = list(scheduler.jobs)[0]
for name in 'name', 'interval', 'cb_kwargs', 'max_repeats', 'is_active':
expected = getattr(job, name)
given = getattr(clone, name)
self.assertEquals(expected, given, '{} != {} ({})'.format(expected, given, name))
job_cb = job.callback
clone_cb = clone.callback
job_on_max_cb = job.on_max_repeats_reached_cb
clone_on_max_cb = clone.on_max_repeats_reached_cb
if label == 'first':
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(job_cb.im_func, clone_cb.im_func)
self.assertIs(job_on_max_cb.im_func, clone_on_max_cb.im_func)
else:
self.assertEquals(job.start_time, clone.start_time)
self.assertIs(clone_cb.im_func, scheduler.on_job_executed.im_func)
self.assertIs(clone_on_max_cb.im_func, scheduler.on_max_repeats_reached.im_func)
job1 = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=job_interval1), start_time, max_repeats=job_max_repeats1)
job1.callback = callback
job1.on_max_repeats_reached_cb = on_max_repeats_reached_cb
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(), 'a', SCHEDULER.JOB_TYPE.INTERVAL_BASED, Interval(seconds=job_interval2), start_time, max_repeats=job_max_repeats2)
job2.callback = callback
job2.on_max_repeats_reached_cb = on_max_repeats_reached_cb
job2.wait_sleep_time = job_sleep_time
scheduler.run()
scheduler.create(job1)
sleep(test_wait_time)
# We have only job1 at this point
check(scheduler, job1, 'first')
# Removes job1 along the way ..
scheduler.edit(job2)
# .. so now job2 is the now removed job1.
check(scheduler, job2, 'second')
def test_main_loop_sleep_spawn_called(self):
wait_time = 0.2
sleep_time = rand_int()
now_values = [
parse('2019-12-23 22:19:03'),
parse('2021-05-13 17:35:48')
]
sleep_history = []
spawn_history = []
sleep_time_history = []
def sleep(value):
if value != wait_time:
sleep_history.append(value)
def spawn(*args, **kwargs):
spawn_history.append([args, kwargs])
def get_sleep_time(*args, **kwargs):
sleep_time_history.append(args[1])
return sleep_time
with patch('gevent.sleep', sleep):
with patch('gevent.spawn', spawn):
with patch('zato.common.scheduler.Job.get_sleep_time',
get_sleep_time):
for now in now_values:
self.now = now
with patch('zato.common.scheduler.datetime',
self._datetime):
for job_type in SCHEDULER.JOB_TYPE.CRON_STYLE, SCHEDULER.JOB_TYPE.INTERVAL_BASED:
max_repeats = choice(range(2, 5))
cb_kwargs = {
rand_string(): rand_string(),
rand_string(): rand_string()
}
interval = Interval(seconds=sleep_time) if job_type == SCHEDULER.JOB_TYPE.INTERVAL_BASED \
else CronTab(DEFAULT_CRON_DEFINITION)
job = Job(rand_int(),
rand_string(),
job_type,
interval,
max_repeats=max_repeats)
if job.type == SCHEDULER.JOB_TYPE.CRON_STYLE:
job.cron_definition = DEFAULT_CRON_DEFINITION
job.cb_kwargs = cb_kwargs
job.start_time = datetime.utcnow()
job.callback = dummy_callback
self.assertTrue(job.main_loop())
sleep(0.2)
self.assertEquals(max_repeats,
len(sleep_history))
self.assertEquals(max_repeats,
len(spawn_history))
for item in sleep_history:
self.assertEquals(sleep_time, item)
for idx, (callback, ctx_dict) in enumerate(
spawn_history, 1):
self.assertEquals(1, len(callback))
callback = callback[0]
self.check_ctx(ctx_dict['ctx'], job,
sleep_time, max_repeats,
idx, cb_kwargs,
len(spawn_history),
job_type)
self.assertIs(callback, dummy_callback)
del sleep_history[:]
del spawn_history[:]
for item in sleep_time_history:
self.assertEquals(item, now)
del sleep_time_history[:]
def test_job_greenlets(self):
data = {'spawned': [], 'stopped': []}
class FakeGreenlet(object):
def __init__(self, run):
self.run = self._run = run
def kill(self, *args, **kwargs):
data['stopped'].append([self, args, kwargs])
def spawn(job):
g = FakeGreenlet(job)
data['spawned'].append(g)
return g
with patch('gevent.spawn', spawn):
test_wait_time = 0.5
job_sleep_time = 10
job_max_repeats = 30
job1 = Job(rand_int(),
'a',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job1.wait_sleep_time = job_sleep_time
job2 = Job(rand_int(),
'b',
SCHEDULER.JOB_TYPE.INTERVAL_BASED,
Interval(seconds=0.1),
max_repeats=job_max_repeats)
job2.wait_sleep_time = job_sleep_time
scheduler = Scheduler(dummy_callback)
scheduler.lock = RLock()
scheduler.iter_cb = iter_cb
scheduler.iter_cb_args = (scheduler, datetime.utcnow() +
timedelta(seconds=test_wait_time))
scheduler.create(job1, spawn=False)
scheduler.create(job2, spawn=False)
scheduler.run()
self.assertEquals(scheduler.job_greenlets[job1.name]._run,
job1.run)
self.assertEquals(scheduler.job_greenlets[job2.name]._run,
job2.run)
self.assertTrue(job1.keep_running)
self.assertTrue(job2.keep_running)
scheduler.unschedule(job1)
self.assertFalse(job1.keep_running)
self.assertTrue(job2.keep_running)
self.assertNotIn(job1.name, scheduler.job_greenlets)
self.assertEquals(scheduler.job_greenlets[job2.name]._run,
job2.run)
self.assertEquals(len(data['stopped']), 1)
g, args, kwargs = data['stopped'][0]
self.assertIs(g.run.im_func, job1.run.im_func
) # That's how we know it was job1 deleted not job2
self.assertIs(args, ())
self.assertDictEqual(kwargs, {'timeout': 2.0})
def test_main_loop_sleep_spawn_called(self):
wait_time = 0.2
sleep_time = rand_int()
now_values = [parse('2019-12-23 22:19:03'), parse('2021-05-13 17:35:48')]
sleep_history = []
spawn_history = []
sleep_time_history = []
def sleep(value):
if value != wait_time:
sleep_history.append(value)
def spawn(*args, **kwargs):
spawn_history.append([args, kwargs])
def get_sleep_time(*args, **kwargs):
sleep_time_history.append(args[1])
return sleep_time
with patch('gevent.sleep', sleep):
with patch('gevent.spawn', spawn):
with patch('zato.common.scheduler.Job.get_sleep_time', get_sleep_time):
for now in now_values:
self.now = now
with patch('zato.common.scheduler.datetime', self._datetime):
for job_type in SCHEDULER.JOB_TYPE.CRON_STYLE, SCHEDULER.JOB_TYPE.INTERVAL_BASED:
max_repeats = choice(range(2, 5))
cb_kwargs = {
rand_string():rand_string(),
rand_string():rand_string()
}
interval = Interval(seconds=sleep_time) if job_type == SCHEDULER.JOB_TYPE.INTERVAL_BASED \
else CronTab(DEFAULT_CRON_DEFINITION)
job = Job(rand_int(), rand_string(), job_type, interval, max_repeats=max_repeats)
if job.type == SCHEDULER.JOB_TYPE.CRON_STYLE:
job.cron_definition = DEFAULT_CRON_DEFINITION
job.cb_kwargs = cb_kwargs
job.start_time = datetime.utcnow()
job.callback = dummy_callback
self.assertTrue(job.main_loop())
sleep(0.2)
self.assertEquals(max_repeats, len(sleep_history))
self.assertEquals(max_repeats, len(spawn_history))
for item in sleep_history:
self.assertEquals(sleep_time, item)
for idx, (callback, ctx_dict) in enumerate(spawn_history, 1):
self.assertEquals(1, len(callback))
callback = callback[0]
self.check_ctx(
ctx_dict['ctx'], job, sleep_time, max_repeats, idx, cb_kwargs, len(spawn_history), job_type)
self.assertIs(callback, dummy_callback)
del sleep_history[:]
del spawn_history[:]
for item in sleep_time_history:
self.assertEquals(item, now)
del sleep_time_history[:]
