def test_04_last_run(self):
task1_id = set_periodic_task("task one", "*/5 * * * *", ["pinode1", "pinode2"], "some.task.module", 3, {
"key1": 1,
"key2": False
})
self.assertEqual(len(PeriodicTask.query.all()), 1)
task1_entry = PeriodicTask.query.filter_by(id=task1_id).one()
# We have no initial last runs
self.assertEqual(len(list(task1_entry.last_runs)), 0)
set_periodic_task_last_run(task1_id, "pinode1", parse_timestamp("2018-06-26 08:00+02:00"))
set_periodic_task_last_run(task1_id, "pinode1", parse_timestamp("2018-06-26 08:05+02:00"))
task1 = get_periodic_tasks("task one")[0]
self.assertEqual(len(list(task1_entry.last_runs)), 1)
self.assertEqual(task1_entry.last_runs[0].timestamp,
parse_timestamp("2018-06-26 06:05"))
self.assertEqual(task1["last_runs"]["pinode1"],
parse_timestamp("2018-06-26 06:05 UTC"))
set_periodic_task_last_run(task1_id, "pinode2", parse_timestamp("2018-06-26 08:10+01:00"))
set_periodic_task_last_run(task1_id, "pinode3", parse_timestamp("2018-06-26 08:10-08:00"))
task1 = get_periodic_tasks("task one")[0]
self.assertEqual(task1["last_runs"]["pinode1"],
parse_timestamp("2018-06-26 06:05 UTC"))
self.assertEqual(task1["last_runs"]["pinode2"],
parse_timestamp("2018-06-26 07:10 UTC"))
self.assertEqual(task1["last_runs"]["pinode3"],
parse_timestamp("2018-06-26 16:10 UTC"))
delete_periodic_task(task1_id)
def delete_periodic_task_api(ptaskid):
"""
Delete a certain periodic task.
:param ptaskid: ID of the periodic task
:return: ID of the periodic task
"""
result = delete_periodic_task(int(ptaskid))
g.audit_object.log({"success": True, "info": result})
return send_result(result)
def delete_periodic_task_api(ptaskid):
"""
Delete a certain periodic task.
:param ptaskid: ID of the periodic task
:return: ID of the periodic task
"""
result = delete_periodic_task(int(ptaskid))
g.audit_object.log({"success": True, "info": result})
return send_result(result)
def test_04_last_run(self):
task1_id = set_periodic_task("task one", "*/5 * * * *",
["pinode1", "pinode2"],
"some.task.module", 3, {
"key1": 1,
"key2": False
})
self.assertEqual(len(PeriodicTask.query.all()), 1)
task1_entry = PeriodicTask.query.filter_by(id=task1_id).one()
# We have no initial last runs
self.assertEqual(len(list(task1_entry.last_runs)), 0)
set_periodic_task_last_run(task1_id, "pinode1",
parse_timestamp("2018-06-26 08:00+02:00"))
set_periodic_task_last_run(task1_id, "pinode1",
parse_timestamp("2018-06-26 08:05+02:00"))
task1 = get_periodic_tasks("task one")[0]
self.assertEqual(len(list(task1_entry.last_runs)), 1)
self.assertEqual(task1_entry.last_runs[0].timestamp,
parse_timestamp("2018-06-26 06:05"))
self.assertEqual(task1["last_runs"]["pinode1"],
parse_timestamp("2018-06-26 06:05 UTC"))
set_periodic_task_last_run(task1_id, "pinode2",
parse_timestamp("2018-06-26 08:10+01:00"))
set_periodic_task_last_run(task1_id, "pinode3",
parse_timestamp("2018-06-26 08:10-08:00"))
task1 = get_periodic_tasks("task one")[0]
self.assertEqual(task1["last_runs"]["pinode1"],
parse_timestamp("2018-06-26 06:05 UTC"))
self.assertEqual(task1["last_runs"]["pinode2"],
parse_timestamp("2018-06-26 07:10 UTC"))
self.assertEqual(task1["last_runs"]["pinode3"],
parse_timestamp("2018-06-26 16:10 UTC"))
delete_periodic_task(task1_id)
def test_05_scheduling(self):
# this unit test operates in russian time
tzinfo = gettz("Europe/Moscow")
# at midnight on each 1st
task1 = set_periodic_task("task one", "0 0 1 * *", ["pinode1"], "some.task.module", 3, {
"key1": 1,
"key2": False
})
# at 08:00 on wednesdays
current_utc_time = parse_timestamp("2018-05-31 05:08:00")
with mock.patch('privacyidea.models.datetime') as mock_dt:
mock_dt.utcnow.return_value = current_utc_time
task2 = set_periodic_task("task two", "0 8 * * WED", ["pinode2", "pinode3"], "some.task.module", 1, {
"key1": "value",
"key2": "foo"
}, active=False)
self.assertEqual(get_periodic_task_by_id(task2)["last_update"],
parse_timestamp("2018-05-31 08:08:00+03:00"))
self.assertEqual(get_periodic_task_by_id(task2)["last_runs"], {})
# every 30 minutes, on Tuesdays
task3 = set_periodic_task("task three", "*/30 * * * 2", ["pinode1", "pinode2"], "some.task.module", 2, {
"key1": 1234,
"key2": 5678,
})
# on each 1st of august at midnight
task4 = set_periodic_task("task four", "0 0 1 8 *", ["pinode2"], "some.task.module", 0)
# we need some last runs
set_periodic_task_last_run(task1, "pinode1", parse_timestamp("2018-06-01 00:00:05+03:00"))
# no last run for pinode3 here!
set_periodic_task_last_run(task2, "pinode2", parse_timestamp("2018-06-20 08:00:05+03:00"))
set_periodic_task_last_run(task3, "pinode1", parse_timestamp("2018-06-26 11:36:37+03:00"))
set_periodic_task_last_run(task3, "pinode2", parse_timestamp("2018-06-26 11:30:33+03:00"))
set_periodic_task_last_run(task4, "pinode2", parse_timestamp("2017-08-01 00:00:43+03:00"))
self.assertEqual([task["name"] for task in get_periodic_tasks()],
["task four", "task two", "task three", "task one"])
# Invalid timestamp
with self.assertRaises(ParameterError):
get_scheduled_periodic_tasks("pinode1", parse_timestamp("2017-08-01 00:00:00"), tzinfo)
# On pinode1:
# task1 at midnight on each 1st
# task3 every 30 minutes on tuesdays
# On pinode2:
# task2 on 08:00 on wednesdays, but it is inactive
# task3 every 30 minutes on tuesdays
# task4 on each 1st August at midnight
# 26th June (Tuesday), 11:59
# No tasks on both nodes
current_timestamp = parse_timestamp("2018-06-26 11:59+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo)
self.assertEqual(scheduled, [])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo)
self.assertEqual(scheduled, [])
# 26th June (Tuesday), 12:00
# Run task3 on both nodes
current_timestamp = parse_timestamp("2018-06-26 12:00+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task three"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task three"])
# 1th August (Wednesday), 13:57
# Assume task3 has been run successfully on 30th July (Tuesday)
set_periodic_task_last_run(task3, "pinode1", parse_timestamp("2018-08-01 00:00+03:00"))
set_periodic_task_last_run(task3, "pinode2", parse_timestamp("2018-08-01 00:00+03:00"))
# On pinode1, run task1
# On pinode2, run task4
current_timestamp = parse_timestamp("2018-08-01 11:59+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task one"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task four"])
# Enable task2, now we also have to run it on pinode2 and pinode3
with mock.patch('privacyidea.models.datetime') as mock_dt:
mock_dt.utcnow.return_value = current_utc_time
enable_periodic_task(task2)
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task one"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task four", "task two"])
scheduled = get_scheduled_periodic_tasks("pinode3", current_timestamp, tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task two"])
# Simulate runs
set_periodic_task_last_run(task1, "pinode1", current_timestamp)
set_periodic_task_last_run(task2, "pinode2", current_timestamp)
set_periodic_task_last_run(task2, "pinode3", current_timestamp)
set_periodic_task_last_run(task4, "pinode2", current_timestamp)
# Now, we don't have to run anything
current_timestamp += timedelta(seconds=1)
self.assertEqual(get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo), [])
self.assertEqual(get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo), [])
delete_periodic_task(task1)
delete_periodic_task(task2)
delete_periodic_task(task3)
delete_periodic_task(task4)
def test_03_crud(self):
task1 = set_periodic_task("task one", "0 0 1 * *", ["pinode1"], "some.task.module", 3, {
"key1": 1,
"key2": False
})
task2 = set_periodic_task("task two", "0 0 * * WED", ["pinode2"], "some.task.module", 1, {
"key1": "value",
"key2": "foo"
}, active=False)
task3 = set_periodic_task("task three", "30 * * * *", ["pinode1", "pinode2"], "some.task.module", 2, {
"key1": 1234,
"key2": 5678,
})
with self.assertRaises(ParameterError):
set_periodic_task("task four", "61 * * * *", ["pinode1", "pinode2"], "some.task.module", 1, {
"key1": 1234,
"key2": 5678,
})
with self.assertRaises(ParameterError):
set_periodic_task("task four", "1 * * * *", ["pinode1", "pinode2"], "some.task.module", -3, {
"key1": 1234,
"key2": 5678,
})
task1_last_update = get_periodic_task_by_id(task1)["last_update"]
self.assertEqual(get_periodic_task_by_name("task three")["id"], task3)
with self.assertRaises(ResourceNotFoundError):
get_periodic_task_by_name("task does not exist")
self.assertEqual(get_periodic_task_by_id(task3)["name"], "task three")
with self.assertRaises(ResourceNotFoundError):
get_periodic_task_by_id(1337)
self.assertEqual(len(PeriodicTask.query.all()), 3)
# Updating an nonexistent task fails
with self.assertRaises(ResourceNotFoundError):
set_periodic_task("some task", "0 0 1 * *", ["pinode1"], "some.task.module", 5, {}, id=123456)
task1_modified = set_periodic_task("every month", "0 0 1 * *", ["pinode1"], "some.task.module", 3, {
"key1": 123,
"key3": True,
}, id=task1)
self.assertEqual(len(PeriodicTask.query.all()), 3)
self.assertEqual(task1, task1_modified)
# we have updated the task definition
self.assertGreater(get_periodic_task_by_id(task1)["last_update"], task1_last_update)
self.assertEqual(get_periodic_tasks(name="every month")[0]["options"],
{"key1": "123", "key3": "True"})
all_tasks = get_periodic_tasks()
self.assertEqual(len(all_tasks), 3)
# ordered by ordering
self.assertEqual([task["name"] for task in all_tasks], ["task two", "task three", "every month"])
active_tasks = get_periodic_tasks(active=True)
self.assertEqual(len(active_tasks), 2)
self.assertEqual([task["name"] for task in active_tasks], ["task three", "every month"])
active_tasks_on_pinode2 = get_periodic_tasks(active=True, node="pinode2")
self.assertEqual(len(active_tasks_on_pinode2), 1)
self.assertEqual(active_tasks_on_pinode2[0]["name"], "task three")
enable_periodic_task(task2)
active_tasks_on_pinode2 = get_periodic_tasks(active=True, node="pinode2")
self.assertEqual(len(active_tasks_on_pinode2), 2)
self.assertEqual([task["name"] for task in active_tasks_on_pinode2],
["task two", "task three"])
active_tasks_on_pinode1 = get_periodic_tasks(active=True, node="pinode1")
self.assertEqual(len(active_tasks_on_pinode1), 2)
self.assertEqual([task["name"] for task in active_tasks_on_pinode1],
["task three", "every month"])
active_tasks_on_pinode3 = get_periodic_tasks(active=True, node="pinode3")
self.assertEqual(active_tasks_on_pinode3, [])
enable_periodic_task(task1, False)
delete_periodic_task(task3)
with self.assertRaises(ResourceNotFoundError):
enable_periodic_task(task3)
active_tasks_on_pinode1 = get_periodic_tasks(active=True, node="pinode1")
self.assertEqual(active_tasks_on_pinode1, [])
tasks_on_pinode1 = get_periodic_tasks(node="pinode1")
self.assertEqual(len(tasks_on_pinode1), 1)
self.assertEqual(tasks_on_pinode1[0]["name"], "every month")
delete_periodic_task(task1)
delete_periodic_task(task2)
with self.assertRaises(ResourceNotFoundError):
delete_periodic_task(task2)
self.assertEqual(get_periodic_tasks(), [])
def test_05_scheduling(self):
# this unit test operates in russian time
tzinfo = gettz("Europe/Moscow")
# at midnight on each 1st
task1 = set_periodic_task("task one", "0 0 1 * *", ["pinode1"],
"some.task.module", 3, {
"key1": 1,
"key2": False
})
# at 08:00 on wednesdays
current_utc_time = parse_timestamp("2018-05-31 05:08:00")
with mock.patch('privacyidea.models.datetime') as mock_dt:
mock_dt.utcnow.return_value = current_utc_time
task2 = set_periodic_task("task two",
"0 8 * * WED", ["pinode2", "pinode3"],
"some.task.module",
1, {
"key1": "value",
"key2": "foo"
},
active=False)
self.assertEqual(
get_periodic_task_by_id(task2)["last_update"],
parse_timestamp("2018-05-31 08:08:00+03:00"))
self.assertEqual(get_periodic_task_by_id(task2)["last_runs"], {})
# every 30 minutes, on Tuesdays
task3 = set_periodic_task("task three", "*/30 * * * 2",
["pinode1", "pinode2"], "some.task.module",
2, {
"key1": 1234,
"key2": 5678,
})
# on each 1st of august at midnight
task4 = set_periodic_task("task four", "0 0 1 8 *", ["pinode2"],
"some.task.module", 0)
# we need some last runs
set_periodic_task_last_run(
task1, "pinode1", parse_timestamp("2018-06-01 00:00:05+03:00"))
# no last run for pinode3 here!
set_periodic_task_last_run(
task2, "pinode2", parse_timestamp("2018-06-20 08:00:05+03:00"))
set_periodic_task_last_run(
task3, "pinode1", parse_timestamp("2018-06-26 11:36:37+03:00"))
set_periodic_task_last_run(
task3, "pinode2", parse_timestamp("2018-06-26 11:30:33+03:00"))
set_periodic_task_last_run(
task4, "pinode2", parse_timestamp("2017-08-01 00:00:43+03:00"))
self.assertEqual([task["name"] for task in get_periodic_tasks()],
["task four", "task two", "task three", "task one"])
# Invalid timestamp
with self.assertRaises(ParameterError):
get_scheduled_periodic_tasks(
"pinode1", parse_timestamp("2017-08-01 00:00:00"), tzinfo)
# On pinode1:
# task1 at midnight on each 1st
# task3 every 30 minutes on tuesdays
# On pinode2:
# task2 on 08:00 on wednesdays, but it is inactive
# task3 every 30 minutes on tuesdays
# task4 on each 1st August at midnight
# 26th June (Tuesday), 11:59
# No tasks on both nodes
current_timestamp = parse_timestamp("2018-06-26 11:59+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp,
tzinfo)
self.assertEqual(scheduled, [])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp,
tzinfo)
self.assertEqual(scheduled, [])
# 26th June (Tuesday), 12:00
# Run task3 on both nodes
current_timestamp = parse_timestamp("2018-06-26 12:00+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task three"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task three"])
# 1th August (Wednesday), 13:57
# Assume task3 has been run successfully on 30th July (Tuesday)
set_periodic_task_last_run(task3, "pinode1",
parse_timestamp("2018-08-01 00:00+03:00"))
set_periodic_task_last_run(task3, "pinode2",
parse_timestamp("2018-08-01 00:00+03:00"))
# On pinode1, run task1
# On pinode2, run task4
current_timestamp = parse_timestamp("2018-08-01 11:59+03:00")
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task one"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task four"])
# Enable task2, now we also have to run it on pinode2 and pinode3
with mock.patch('privacyidea.models.datetime') as mock_dt:
mock_dt.utcnow.return_value = current_utc_time
enable_periodic_task(task2)
scheduled = get_scheduled_periodic_tasks("pinode1", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task one"])
scheduled = get_scheduled_periodic_tasks("pinode2", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled],
["task four", "task two"])
scheduled = get_scheduled_periodic_tasks("pinode3", current_timestamp,
tzinfo)
self.assertEqual([task["name"] for task in scheduled], ["task two"])
# Simulate runs
set_periodic_task_last_run(task1, "pinode1", current_timestamp)
set_periodic_task_last_run(task2, "pinode2", current_timestamp)
set_periodic_task_last_run(task2, "pinode3", current_timestamp)
set_periodic_task_last_run(task4, "pinode2", current_timestamp)
# Now, we don't have to run anything
current_timestamp += timedelta(seconds=1)
self.assertEqual(
get_scheduled_periodic_tasks("pinode1", current_timestamp, tzinfo),
[])
self.assertEqual(
get_scheduled_periodic_tasks("pinode2", current_timestamp, tzinfo),
[])
delete_periodic_task(task1)
delete_periodic_task(task2)
delete_periodic_task(task3)
delete_periodic_task(task4)
def test_03_crud(self):
task1 = set_periodic_task("task one",
"0 0 1 * *", ["pinode1"],
"some.task.module",
3, {
"key1": 1,
"key2": False
},
retry_if_failed=False)
task2 = set_periodic_task("task two",
"0 0 * * WED", ["pinode2"],
"some.task.module",
1, {
"key1": "value",
"key2": "foo"
},
active=False,
retry_if_failed=True)
task3 = set_periodic_task("task three", "30 * * * *",
["pinode1", "pinode2"], "some.task.module",
2, {
"key1": 1234,
"key2": 5678,
})
with self.assertRaises(ParameterError):
set_periodic_task("task four", "61 * * * *",
["pinode1", "pinode2"], "some.task.module", 1, {
"key1": 1234,
"key2": 5678,
})
with self.assertRaises(ParameterError):
set_periodic_task("task four", "1 * * * *", ["pinode1", "pinode2"],
"some.task.module", -3, {
"key1": 1234,
"key2": 5678,
})
task1_last_update = get_periodic_task_by_id(task1)["last_update"]
self.assertEqual(get_periodic_task_by_name("task three")["id"], task3)
with self.assertRaises(ResourceNotFoundError):
get_periodic_task_by_name("task does not exist")
self.assertEqual(get_periodic_task_by_id(task3)["name"], "task three")
with self.assertRaises(ResourceNotFoundError):
get_periodic_task_by_id(1337)
self.assertEqual(len(PeriodicTask.query.all()), 3)
# Updating an nonexistent task fails
with self.assertRaises(ResourceNotFoundError):
set_periodic_task("some task",
"0 0 1 * *", ["pinode1"],
"some.task.module",
5, {},
id=123456)
task1_modified = set_periodic_task("every month",
"0 0 1 * *", ["pinode1"],
"some.task.module",
3, {
"key1": 123,
"key3": True,
},
id=task1)
self.assertEqual(len(PeriodicTask.query.all()), 3)
self.assertEqual(task1, task1_modified)
# we have updated the task definition
self.assertGreater(
get_periodic_task_by_id(task1)["last_update"], task1_last_update)
self.assertEqual(
get_periodic_tasks(name="every month")[0]["options"], {
"key1": "123",
"key3": "True"
})
all_tasks = get_periodic_tasks()
self.assertEqual(len(all_tasks), 3)
# ordered by ordering
self.assertEqual([task["name"] for task in all_tasks],
["task two", "task three", "every month"])
active_tasks = get_periodic_tasks(active=True)
self.assertEqual(len(active_tasks), 2)
self.assertEqual([task["name"] for task in active_tasks],
["task three", "every month"])
active_tasks_on_pinode2 = get_periodic_tasks(active=True,
node="pinode2")
self.assertEqual(len(active_tasks_on_pinode2), 1)
self.assertEqual(active_tasks_on_pinode2[0]["name"], "task three")
enable_periodic_task(task2)
active_tasks_on_pinode2 = get_periodic_tasks(active=True,
node="pinode2")
self.assertEqual(len(active_tasks_on_pinode2), 2)
self.assertEqual([task["name"] for task in active_tasks_on_pinode2],
["task two", "task three"])
active_tasks_on_pinode1 = get_periodic_tasks(active=True,
node="pinode1")
self.assertEqual(len(active_tasks_on_pinode1), 2)
self.assertEqual([task["name"] for task in active_tasks_on_pinode1],
["task three", "every month"])
active_tasks_on_pinode3 = get_periodic_tasks(active=True,
node="pinode3")
self.assertEqual(active_tasks_on_pinode3, [])
enable_periodic_task(task1, False)
delete_periodic_task(task3)
with self.assertRaises(ResourceNotFoundError):
enable_periodic_task(task3)
active_tasks_on_pinode1 = get_periodic_tasks(active=True,
node="pinode1")
self.assertEqual(active_tasks_on_pinode1, [])
tasks_on_pinode1 = get_periodic_tasks(node="pinode1")
self.assertEqual(len(tasks_on_pinode1), 1)
self.assertEqual(tasks_on_pinode1[0]["name"], "every month")
delete_periodic_task(task1)
delete_periodic_task(task2)
with self.assertRaises(ResourceNotFoundError):
delete_periodic_task(task2)
self.assertEqual(get_periodic_tasks(), [])
