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371 lines
12 KiB
Python
371 lines
12 KiB
Python
# -*- coding: utf-8 -*-
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# Import Python libs
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from __future__ import absolute_import
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import copy
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import datetime
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import logging
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import os
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import random
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import dateutil.parser as dateutil_parser
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# Import Salt Testing libs
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from tests.support.case import ModuleCase
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from tests.support.mixins import SaltReturnAssertsMixin
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# Import Salt Testing Libs
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from tests.support.mock import MagicMock, patch
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from tests.support.unit import skipIf
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import tests.integration as integration
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# Import Salt libs
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import salt.utils.schedule
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from salt.modules.test import ping as ping
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try:
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import croniter # pylint: disable=W0611
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HAS_CRONITER = True
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except ImportError:
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HAS_CRONITER = False
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log = logging.getLogger(__name__)
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ROOT_DIR = os.path.join(integration.TMP, 'schedule-unit-tests')
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SOCK_DIR = os.path.join(ROOT_DIR, 'test-socks')
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DEFAULT_CONFIG = salt.config.minion_config(None)
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DEFAULT_CONFIG['conf_dir'] = ROOT_DIR
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DEFAULT_CONFIG['root_dir'] = ROOT_DIR
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DEFAULT_CONFIG['sock_dir'] = SOCK_DIR
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DEFAULT_CONFIG['pki_dir'] = os.path.join(ROOT_DIR, 'pki')
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DEFAULT_CONFIG['cachedir'] = os.path.join(ROOT_DIR, 'cache')
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class SchedulerEvalTest(ModuleCase, SaltReturnAssertsMixin):
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'''
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Validate the pkg module
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'''
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def setUp(self):
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with patch('salt.utils.schedule.clean_proc_dir', MagicMock(return_value=None)):
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functions = {'test.ping': ping}
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self.schedule = salt.utils.schedule.Schedule(copy.deepcopy(DEFAULT_CONFIG), functions, returners={})
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self.schedule.opts['loop_interval'] = 1
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def tearDown(self):
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self.schedule.reset()
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def test_eval(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'when': '11/29/2017 4:00pm',
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}
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}
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}
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run_time2 = dateutil_parser.parse('11/29/2017 4:00pm')
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run_time1 = run_time2 - datetime.timedelta(seconds=1)
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate 1 second before the run time
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self.schedule.eval(now=run_time1)
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ret = self.schedule.job_status('job1')
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self.assertNotIn('_last_run', ret)
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# Evaluate 1 second at the run time
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self.schedule.eval(now=run_time2)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time2)
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def test_eval_multiple_whens(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'when': [
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'11/29/2017 4:00pm',
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'11/29/2017 5:00pm',
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]
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}
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}
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}
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run_time1 = dateutil_parser.parse('11/29/2017 4:00pm')
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run_time2 = dateutil_parser.parse('11/29/2017 5:00pm')
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate run time1
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self.schedule.eval(now=run_time1)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time1)
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# Evaluate run time2
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self.schedule.eval(now=run_time2)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time2)
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def test_eval_loop_interval(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'when': '11/29/2017 4:00pm',
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}
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}
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}
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# 30 second loop interval
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LOOP_INTERVAL = random.randint(30, 59)
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self.schedule.opts['loop_interval'] = LOOP_INTERVAL
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run_time2 = dateutil_parser.parse('11/29/2017 4:00pm')
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate 1 second at the run time
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self.schedule.eval(now=run_time2 + datetime.timedelta(seconds=LOOP_INTERVAL))
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time2 + datetime.timedelta(seconds=LOOP_INTERVAL))
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def test_eval_multiple_whens_loop_interval(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'when': [
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'11/29/2017 4:00pm',
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'11/29/2017 5:00pm',
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]
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}
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}
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}
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# 30 second loop interval
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LOOP_INTERVAL = random.randint(30, 59)
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self.schedule.opts['loop_interval'] = LOOP_INTERVAL
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run_time1 = dateutil_parser.parse('11/29/2017 4:00pm') + datetime.timedelta(seconds=LOOP_INTERVAL)
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run_time2 = dateutil_parser.parse('11/29/2017 5:00pm') + datetime.timedelta(seconds=LOOP_INTERVAL)
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate 1 second at the run time
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self.schedule.eval(now=run_time1)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time1)
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# Evaluate 1 second at the run time
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self.schedule.eval(now=run_time2)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time2)
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def test_eval_once(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'once': '2017-12-13T13:00:00',
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}
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}
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}
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run_time = dateutil_parser.parse('12/13/2017 1:00pm')
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate 1 second at the run time
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time)
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def test_eval_once_loop_interval(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'once': '2017-12-13T13:00:00',
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}
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}
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}
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# Randomn second loop interval
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LOOP_INTERVAL = random.randint(0, 59)
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self.schedule.opts['loop_interval'] = LOOP_INTERVAL
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# Run the job at the right plus LOOP_INTERVAL
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run_time = dateutil_parser.parse('12/13/2017 1:00pm') + datetime.timedelta(seconds=LOOP_INTERVAL)
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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# Evaluate at the run time
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time)
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@skipIf(not HAS_CRONITER, 'Cannot find croniter python module')
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def test_eval_cron(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'cron': '0 16 29 11 *'
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}
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}
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}
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# Add the job to the scheduler
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self.schedule.opts['schedule'] = {}
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self.schedule.opts.update(job)
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run_time = dateutil_parser.parse('11/29/2017 4:00pm')
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with patch('croniter.croniter.get_next', MagicMock(return_value=run_time)):
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time)
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@skipIf(not HAS_CRONITER, 'Cannot find croniter python module')
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def test_eval_cron_loop_interval(self):
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'''
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verify that scheduled job runs
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'cron': '0 16 29 11 *'
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}
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}
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}
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# Randomn second loop interval
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LOOP_INTERVAL = random.randint(0, 59)
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self.schedule.opts['loop_interval'] = LOOP_INTERVAL
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# Add the job to the scheduler
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self.schedule.opts.update(job)
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run_time = dateutil_parser.parse('11/29/2017 4:00pm')
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with patch('croniter.croniter.get_next', MagicMock(return_value=run_time)):
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time)
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def test_eval_until(self):
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'''
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verify that scheduled job is skipped once the current
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time reaches the specified until time
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'''
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job = {
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'schedule': {
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'job_eval_after': {
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'function': 'test.ping',
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'hours': '1',
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'until': '11/29/2017 5:00pm'
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}
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}
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}
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# Add job to schedule
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self.schedule.opts.update(job)
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# eval at 2:00pm to prime, simulate minion start up.
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run_time = dateutil_parser.parse('11/29/2017 2:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job_eval_after')
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# eval at 3:00pm, will run.
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run_time = dateutil_parser.parse('11/29/2017 3:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job_eval_after')
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self.assertEqual(ret['_last_run'], run_time)
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# eval at 4:00pm, will run.
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run_time = dateutil_parser.parse('11/29/2017 4:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job_eval_after')
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self.assertEqual(ret['_last_run'], run_time)
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# eval at 5:00pm, will not run
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run_time = dateutil_parser.parse('11/29/2017 5:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job_eval_after')
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self.assertEqual(ret['_skip_reason'], 'until_passed')
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self.assertEqual(ret['_skipped_time'], run_time)
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def test_eval_after(self):
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'''
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verify that scheduled job is skipped until after the specified
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time has been reached.
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'''
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job = {
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'schedule': {
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'job1': {
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'function': 'test.ping',
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'hours': '1',
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'after': '11/29/2017 5:00pm'
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}
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}
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}
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# Add job to schedule
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self.schedule.opts.update(job)
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# eval at 2:00pm to prime, simulate minion start up.
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run_time = dateutil_parser.parse('11/29/2017 2:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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# eval at 3:00pm, will not run.
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run_time = dateutil_parser.parse('11/29/2017 3:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_skip_reason'], 'after_not_passed')
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self.assertEqual(ret['_skipped_time'], run_time)
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# eval at 4:00pm, will not run.
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run_time = dateutil_parser.parse('11/29/2017 4:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_skip_reason'], 'after_not_passed')
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self.assertEqual(ret['_skipped_time'], run_time)
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# eval at 5:00pm, will not run
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run_time = dateutil_parser.parse('11/29/2017 5:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_skip_reason'], 'after_not_passed')
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self.assertEqual(ret['_skipped_time'], run_time)
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# eval at 6:00pm, will run
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run_time = dateutil_parser.parse('11/29/2017 6:00pm')
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self.schedule.eval(now=run_time)
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ret = self.schedule.job_status('job1')
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self.assertEqual(ret['_last_run'], run_time)
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