def test_remove_not_running(self):
not_running = None
for pid in range(1000, 20000):
if not EnforceSingleTask.check_pid(pid):
not_running = pid
break
self.assertIsNotNone(not_running)
##
# Create an entry 'owned' by PID of 'not_running'
##
task_id = "test_remove_not_running_task_id"
entry = SingleTaskInfo(task_id=task_id, owner_pid=not_running)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_not_running(task_id)
self.assertIsNotNone(retval)
# verify it has been removed
self.assertEquals(0, SingleTaskInfo.objects(task_id=task_id).count())
##
# Create an entry 'owned' by running PID, verify it is not removed
##
entry = SingleTaskInfo(task_id=task_id, owner_pid=os.getpid())
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_not_running(task_id)
# verify it has _not_ been removed
self.assertIsNone(retval)
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
def test_release_from_diff_pid(self):
# Create an entry from a dummy pid
task_id = "test_release_from_diff_pid_task_id"
pid = os.getpid() + 1
entry = SingleTaskInfo(task_id=task_id, owner_pid=pid)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
self.assertIsNone(EnforceSingleTask.release(task_id))
# Verify the remove did nothing because our 'pid' didn't match the entrie's pid
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
def lock(cls, task_id, seconds_expire):
# Rationale:
# It is possible that this task may run and clean an expired task yet not be able to 'obtain a lock',
# as another process may be able to write the entry first. This is fine. Our concern is simply to allow
# only 1 to form the lock.
cls.remove_not_running(task_id)
cls.remove_expired(task_id, seconds_expire)
obj = SingleTaskInfo(task_id=task_id, owner_pid=os.getpid())
try:
obj.save()
except NotUniqueError, e:
return False
def test_remove_by_owner(self):
task_id = "test_remove_by_owner_task_id"
pid = os.getpid()
entry = SingleTaskInfo(task_id=task_id, owner_pid=pid)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_by_owner(task_id, pid)
self.assertIsNotNone(retval)
self.assertEquals(0, SingleTaskInfo.objects(task_id=task_id).count())
##
# Simulate how another process that used there own pid wouldn't
# delete the entry
##
pid = os.getpid() + 1
entry = SingleTaskInfo(task_id=task_id, owner_pid=pid)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_by_owner(task_id, os.getpid())
self.assertIsNone(retval)
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
def test_remove_expired(self):
# Create an 'expired' entry
threshold=5
task_id = "test_remove_expored_task_id"
created = datetime.now(tzutc()) - timedelta(seconds=threshold+1)
entry = SingleTaskInfo(task_id=task_id, owner_pid=os.getpid(), created=created)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_expired(task_id, seconds_expire=threshold)
# Verify it is removed
self.assertIsNotNone(retval)
self.assertEquals(0, SingleTaskInfo.objects(task_id=task_id).count())
##
# Create an entry that is not expired
##
created = datetime.now(tzutc())
entry = SingleTaskInfo(task_id=task_id, owner_pid=os.getpid(), created=created)
entry.save()
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
retval = EnforceSingleTask.remove_expired(task_id, seconds_expire=threshold)
# Verify it is _not_ removed
self.assertIsNone(retval)
self.assertEquals(1, SingleTaskInfo.objects(task_id=task_id).count())
