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_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_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_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)
