def test_dayweek_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = "T1"
t.resolve_daterange(t.dateranges, "tuesday 2 16:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "T next", t_next
self.assert_(t_next == "Tue Jul 13 16:30:00 2010")
# Now we add this timeperiod an exception
t2 = Timeperiod()
t2.timeperiod_name = "T2"
t2.resolve_daterange(t2.dateranges, "tuesday 00:00-23:58")
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 58 + 1second :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
print "T next raw", t_next
t_next = time.asctime(time.localtime(t_next))
print "TOTO T next", t_next
self.assert_(t_next == "Tue Jul 13 23:58:01 2010")
def test_dayweek_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = 'T1'
t.resolve_daterange(t.dateranges, 'tuesday 2 16:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "T next", t_next
self.assert_(t_next == "Tue Jul 13 16:30:00 2010")
# Now we add this timeperiod an exception
t2 = Timeperiod()
t2.timeperiod_name = 'T2'
t2.resolve_daterange(t2.dateranges, 'tuesday 00:00-23:58')
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 58 + 1second :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
print "T next raw", t_next
t_next = time.asctime(time.localtime(t_next))
print "TOTO T next", t_next
self.assert_(t_next == 'Tue Jul 13 23:58:01 2010')
def test_funky_mondayweek_timeperiod_with_exclude_and_multiple_daterange(
self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", 'tuesday -1 - monday 1 16:30-24:00'
t = Timeperiod()
t.timeperiod_name = 'T1'
t.resolve_daterange(t.dateranges, 'tuesday -1 - monday 1 16:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 27 is nw not possible? So what next? Add a month!
# But maybe it's not enoutgth? :)
# The withoutthe 2nd exclude, it's the Tues Aug 31, btu it's inside
# saturday -1 - monday 1 because saturday -1 is the 28 august, so no.
# in september saturday -1 is the 25, and tuesday -1 is 28, so still no
# A month again! So now tuesday -1 is 26 and saturday -1 is 30. So ok
# for this one! that was quite long isn't it? And funky! :)
t2 = Timeperiod()
t2.timeperiod_name = 'T2'
t2.resolve_daterange(t2.dateranges, 'april 1 - august 16 00:00-24:00')
# Oups, I add a inner daterange ;)
t2.resolve_daterange(t2.dateranges,
'saturday -1 - monday 1 16:00-24:00')
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
#print "Check from", time.asctime(time.localtime(july_the_12))
#t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
#print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == 'Tue Oct 26 16:30:00 2010')
print "Finish this Funky test :)"
def test_next_invalid_day(self):
self.print_header()
# Get the 13 of july 2010 at 15:00, tuesday
july_the_13 = time.mktime(time.strptime("13 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
print july_the_13
t = Timeperiod()
t.timeperiod_name = 'test_next_invalid_day'
t.resolve_daterange(t.dateranges, 'tuesday 00:00-24:00')
t.exclude = []
t_next_invalid = t.get_next_invalid_time_from_t(july_the_13)
t_next_invalid = time.asctime(time.localtime(t_next_invalid))
print "T next invalid", t_next_invalid
self.assert_(t_next_invalid == "Wed Jul 14 00:00:01 2010")
def test_next_invalid_day(self):
self.print_header()
# Get the 13 of july 2010 at 15:00, tuesday
july_the_13 = time.mktime(time.strptime("13 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
print july_the_13
t = Timeperiod()
t.timeperiod_name = 'test_next_invalid_day'
t.resolve_daterange(t.dateranges, 'tuesday 00:00-24:00')
t.exclude = []
t_next_invalid = t.get_next_invalid_time_from_t(july_the_13)
t_next_invalid = time.asctime(time.localtime(t_next_invalid))
print "T next invalid", t_next_invalid
self.assert_(t_next_invalid == "Wed Jul 14 00:00:01 2010")
def test_funky_mondayweek_timeperiod_with_exclude_and_multiple_daterange(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", "tuesday -1 - monday 1 16:30-24:00"
t = Timeperiod()
t.timeperiod_name = "T1"
t.resolve_daterange(t.dateranges, "tuesday -1 - monday 1 16:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 27 is nw not possible? So what next? Add a month!
# But maybe it's not enoutgth? :)
# The withoutthe 2nd exclude, it's the Tues Aug 31, btu it's inside
# saturday -1 - monday 1 because saturday -1 is the 28 august, so no.
# in september saturday -1 is the 25, and tuesday -1 is 28, so still no
# A month again! So now tuesday -1 is 26 and saturday -1 is 30. So ok
# for this one! that was quite long isn't it? And funky! :)
t2 = Timeperiod()
t2.timeperiod_name = "T2"
t2.resolve_daterange(t2.dateranges, "april 1 - august 16 00:00-24:00")
# Oups, I add a inner daterange ;)
t2.resolve_daterange(t2.dateranges, "saturday -1 - monday 1 16:00-24:00")
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
# print "Check from", time.asctime(time.localtime(july_the_12))
# t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
# print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Oct 26 16:30:00 2010")
print "Finish this Funky test :)"
def test_monweekday_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", 'tuesday -1 july - monday 1 august 16:30-24:00'
t = Timeperiod()
t.timeperiod_name = 'T1'
t.resolve_daterange(
t.dateranges, 'tuesday -1 july - monday 1 september 16:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# and from april (before) to august monday 3 (monday 16 august),
# so Jul 17 is no more possible. So just after it, Tue 17
t2 = Timeperiod()
t2.timeperiod_name = 'T2'
t2.resolve_daterange(t2.dateranges,
'thursday 1 april - monday 3 august 00:00-24:00')
print t2.dateranges[0].__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
#print "Check from", time.asctime(time.localtime(july_the_12))
#t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
#print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == 'Tue Aug 17 16:30:00 2010')
def test_mondayweek_timeperiod_with_exclude_bis(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", 'tuesday -1 - monday 1 16:30-24:00'
t = Timeperiod()
t.timeperiod_name = 'T1'
t.resolve_daterange(t.dateranges, 'tuesday -1 - monday 1 16:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 27 is nw not possible? So what next? Add a month!
# last tuesday of august, the 31 :)
t2 = Timeperiod()
t2.timeperiod_name = 'T2'
t2.resolve_daterange(t2.dateranges, 'april 1 - august 16 00:00-24:00')
#print t2.__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
#print "Check from", time.asctime(time.localtime(july_the_12))
#t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
#print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw JEAN2", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == 'Tue Aug 31 16:30:00 2010')
def test_mondayweek_timeperiod_with_exclude_bis(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", "tuesday -1 - monday 1 16:30-24:00"
t = Timeperiod()
t.timeperiod_name = "T1"
t.resolve_daterange(t.dateranges, "tuesday -1 - monday 1 16:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 27 is nw not possible? So what next? Add a month!
# last tuesday of august, the 31 :)
t2 = Timeperiod()
t2.timeperiod_name = "T2"
t2.resolve_daterange(t2.dateranges, "april 1 - august 16 00:00-24:00")
# print t2.__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
# print "Check from", time.asctime(time.localtime(july_the_12))
# t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
# print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw JEAN2", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Aug 31 16:30:00 2010")
def test_mondayweek_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = 'T1'
t.resolve_daterange(t.dateranges, 'tuesday 2 16:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Jul 13 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 17 is a tuesday, but the 3 of august, so the next 2 tuesday is
# ..... the Tue Sep 14 :) Yes, we should wait quite a lot :)
t2 = Timeperiod()
t2.timeperiod_name = 'T2'
t2.resolve_daterange(t2.dateranges, 'april 1 - august 16 00:00-24:00')
#print t2.__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
#print "Check from", time.asctime(time.localtime(july_the_12))
#t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
#print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw JEAN", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == 'Tue Sep 14 16:30:00 2010')
def test_monweekday_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a funny daterange
print "Testing daterange", "tuesday -1 july - monday 1 august 16:30-24:00"
t = Timeperiod()
t.timeperiod_name = "T1"
t.resolve_daterange(t.dateranges, "tuesday -1 july - monday 1 september 16:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next without exclude", t_next
self.assert_(t_next == "Tue Jul 27 16:30:00 2010")
# Now we add this timeperiod an exception
# and from april (before) to august monday 3 (monday 16 august),
# so Jul 17 is no more possible. So just after it, Tue 17
t2 = Timeperiod()
t2.timeperiod_name = "T2"
t2.resolve_daterange(t2.dateranges, "thursday 1 april - monday 3 august 00:00-24:00")
print t2.dateranges[0].__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
# print "Check from", time.asctime(time.localtime(july_the_12))
# t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
# print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Aug 17 16:30:00 2010")
def test_mondayweek_timeperiod_with_exclude(self):
self.print_header()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = "T1"
t.resolve_daterange(t.dateranges, "tuesday 2 16:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Jul 13 16:30:00 2010")
# Now we add this timeperiod an exception
# And a good one: from april (so before so agust (after), and full time.
# But the 17 is a tuesday, but the 3 of august, so the next 2 tuesday is
# ..... the Tue Sep 14 :) Yes, we should wait quite a lot :)
t2 = Timeperiod()
t2.timeperiod_name = "T2"
t2.resolve_daterange(t2.dateranges, "april 1 - august 16 00:00-24:00")
# print t2.__dict__
t.exclude = [t2]
# We are a bad boy: first time period want a tuesday
# but exclude do not want it until 23:58. So next is 59 :)
t.cache = {}
t_next = t.get_next_valid_time_from_t(july_the_12)
# print "Check from", time.asctime(time.localtime(july_the_12))
# t_exclude = t2.get_next_valid_time_from_t(july_the_12)
t_exclude_inv = t2.get_next_invalid_time_from_t(july_the_12)
# print "T2 next valid", time.asctime(time.localtime(t_exclude))
print "Next invalid T2", time.asctime(time.localtime(t_exclude_inv))
print "T next raw JEAN", t_next
print "T next?", time.asctime(time.localtime(t_next))
t_next = time.asctime(time.localtime(t_next))
self.assert_(t_next == "Tue Sep 14 16:30:00 2010")
def test_maintenance_period_check_overlap(self):
hst2 = self.sched.hosts.find_by_name("test_host_2")
svc22 = self.sched.services.find_srv_by_name_and_hostname("test_host_2", "test_service_2")
# be sure we have some time before a new minute begins.
# otherwise we get a race condition and a failed test here.
now = time.time()
x = time.gmtime(now)
while x.tm_sec < 50:
time.sleep(1)
now = time.time()
x = time.gmtime(now)
now = time.time()
start_tuple = time.localtime(now + 60)
nowday = time.strftime("%A", start_tuple).lower()
soonstart = time.strftime("%H:%M", start_tuple)
end_tuple = time.localtime(now + 180)
soonend = time.strftime("%H:%M", end_tuple)
dt_range = "%s %s-%s" % (nowday, soonstart, soonend)
t = Timeperiod()
t.timeperiod_name = ""
t.resolve_daterange(t.dateranges, dt_range)
t_start = t.get_next_valid_time_from_t(now)
t_end = t.get_next_invalid_time_from_t(t_start + 1) - 1
hst2.maintenance_period = t
svc22.maintenance_period = t
self.assertIsNone(hst2.in_maintenance)
self.assertIsNone(svc22.in_maintenance)
# Run maintenance check (out of production)
self.scheduler_loop(1, [
{
"item": hst2,
"exit_status": 0,
"output": "UP test_host_2"
},
{
"item": svc22,
"exit_status": 0,
"output": "OK test_host_2/test_service_2"
},
{
"item": hst2,
"exit_status": 2,
"output": "MAINTENANCE test_host_2",
"check_variant": "maintenance"
},
{
"item": svc22,
"exit_status": 2,
"output": "MAINTENANCE test_host_2/test_service_2",
"check_variant": "maintenance"
},
])
# Downtimes are created because of maintenance check result
self.check_object_status(hst2, True, False)
self.check_object_status(svc22, True, False)
self.assertEqual(len(self.sched.downtimes), 2)
self.assertIn(hst2.downtimes[0], self.sched.downtimes.values())
self.assertIn(svc22.downtimes[0], self.sched.downtimes.values())
hst2_dt_id = hst2.downtimes[0].id
self.assertEqual(hst2_dt_id, hst2.in_maintenance)
svc22_dt_id = svc22.downtimes[0].id
self.assertEqual(svc22_dt_id, svc22.in_maintenance)
self.assertLess(hst2.downtimes[0].end_time, t_end)
self.assertLess(svc22.downtimes[0].end_time, t_end)
# now let the scheduler run and wait until the maintenance period begins
# it is now 10 seconds before the full minute. run for 30 seconds
# in 1-second-intervals. this should be enough to trigger the downtime
# in 10 seconds from now the downtime starts
self.scheduler_loop(30, [
{
"item": hst2,
"exit_status": 0,
"output": "UP test_host_2"
},
{
"item": svc22,
"exit_status": 0,
"output": "OK test_host_2/test_service_2"
},
{
"item": hst2,
"exit_status": 2,
"output": "MAINTENANCE test_host_2",
"check_variant": "maintenance"
},
{
"item": svc22,
"exit_status": 2,
"output": "MAINTENANCE test_host_2/test_service_2",
"check_variant": "maintenance"
},
], do_sleep=True, sleep_time=1)
# Downtimes are set from maintenance period, which has precedence
self.check_object_status(hst2, True, False)
self.check_object_status(svc22,True, False)
self.assertEqual(len(self.sched.downtimes), 2)
self.assertIn(hst2.downtimes[0], self.sched.downtimes.values())
self.assertIn(svc22.downtimes[0], self.sched.downtimes.values())
self.assertEqual(hst2_dt_id, hst2.in_maintenance)
self.assertEqual(svc22_dt_id, svc22.in_maintenance)
self.assertEqual(hst2.downtimes[0].end_time, t_end)
self.assertEqual(svc22.downtimes[0].end_time, t_end)
#time.sleep(180)
self.scheduler_loop(180, [
{
"item": hst2,
"exit_status": 0,
"output": "UP test_host_2"
},
{
"item": svc22,
"exit_status": 0,
"output": "OK test_host_2/test_service_2"
},
{
"item": hst2,
"exit_status": 2,
"output": "MAINTENANCE test_host_2",
"check_variant": "maintenance"
},
{
"item": svc22,
"exit_status": 2,
"output": "MAINTENANCE test_host_2/test_service_2",
"check_variant": "maintenance"
},
], do_sleep=True, sleep_time=1)
# Maintenace period has expired, downtimes are extended because of
# maintenance check result
self.check_object_status(hst2, True, False)
self.check_object_status(svc22, True, False)
self.assertEqual(len(self.sched.downtimes), 2)
self.assertIn(hst2.downtimes[0], self.sched.downtimes.values())
self.assertIn(svc22.downtimes[0], self.sched.downtimes.values())
self.assertEqual(hst2_dt_id, hst2.in_maintenance)
self.assertEqual(svc22_dt_id, svc22.in_maintenance)
self.assertGreater(hst2.downtimes[0].end_time, t_end)
self.assertGreater(svc22.downtimes[0].end_time, t_end)
def test_check_enter_downtime(self):
test_router_0 = self.sched.hosts.find_by_name("test_router_0")
test_host_0 = self.sched.hosts.find_by_name("test_host_0")
test_nobody = self.sched.hosts.find_by_name("test_nobody")
svc1 = self.sched.services.find_srv_by_name_and_hostname("test_host_0", "test_ok_0")
svc2 = self.sched.services.find_srv_by_name_and_hostname("test_router_0", "test_ok_0")
svc3 = self.sched.services.find_srv_by_name_and_hostname("test_nobody", "test_ok_0")
# we want to focus on only one maintenance
test_router_0.maintenance_period = None
test_host_0.maintenance_period = None
test_nobody.maintenance_period = None
svc1.maintenance_period = None
svc2.maintenance_period = None
# be sure we have some time before a new minute begins.
# otherwise we get a race condition and a failed test here.
now = time.time()
x = time.gmtime(now)
while x.tm_sec < 50:
time.sleep(1)
now = time.time()
x = time.gmtime(now)
now = time.time()
print "now it is", time.asctime(time.localtime(now))
nowday = time.strftime("%A", time.localtime(now + 60)).lower()
soonstart = time.strftime("%H:%M", time.localtime(now + 60))
soonend = time.strftime("%H:%M", time.localtime(now + 180))
range = "%s %s-%s" % (nowday, soonstart, soonend)
print "range is ", range
t = Timeperiod()
t.timeperiod_name = ''
t.resolve_daterange(t.dateranges, range)
t_next = t.get_next_valid_time_from_t(now)
print "planned start", time.asctime(time.localtime(t_next))
t_next = t.get_next_invalid_time_from_t(t_next + 1)
print "planned stop ", time.asctime(time.localtime(t_next))
svc3.maintenance_period = t
self.assertFalse(svc3.in_maintenance)
#
# now let the scheduler run and wait until the maintenance period begins
# it is now 10 seconds before the full minute. run for 30 seconds
# in 1-second-intervals. this should be enough to trigger the downtime
# in 10 seconds from now the downtime starts
print "scheduler_loop start", time.asctime()
self.scheduler_loop(30, [[svc3, 0, 'OK']], do_sleep=True, sleep_time=1)
print "scheduler_loop end ", time.asctime()
self.assertTrue(hasattr(svc3, 'in_maintenance'))
self.assertEqual(1, len(self.sched.downtimes))
try:
print "........................................."
print self.sched.downtimes[1]
print "downtime starts", time.asctime(self.sched.downtimes[1].start_time)
print "downtime ends ", time.asctime(self.sched.downtimes[1].end_time)
except Exception:
print "looks like there is no downtime"
pass
self.assertEqual(1, len(svc3.downtimes))
self.assertIn(svc3.downtimes[0], self.sched.downtimes.values())
self.assertTrue(svc3.in_scheduled_downtime)
self.assertTrue(svc3.downtimes[0].fixed)
self.assertTrue(svc3.downtimes[0].is_in_effect)
self.assertFalse(svc3.downtimes[0].can_be_deleted)
self.assertEqual(svc3.downtimes[0].id, svc3.in_maintenance)
#
# now the downtime should expire...
# we already have 20 seconds (after 10 seconds of startup).
# the downtime is 120 seconds long.
# run the remaining 100 seconds plus 5 seconds just to be sure
self.scheduler_loop(105, [[svc3, 0, 'OK']], do_sleep=True, sleep_time=1)
self.assertEqual(0, len(self.sched.downtimes))
self.assertEqual(0, len(svc3.downtimes))
self.assertFalse(svc3.in_scheduled_downtime)
self.assertIs(None, svc3.in_maintenance)
def test_simple_with_multiple_time_mutltiple_days(self):
self.print_header()
t = Timeperiod()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
print july_the_12
# First a false test, no results
t = Timeperiod()
t.timeperiod_name = ""
t.resolve_daterange(t.dateranges, "1999-01-28 00:00-07:00,21:30-24:00")
t_next = t.get_next_valid_time_from_t(now)
self.assert_(t_next is None)
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = ""
# monday 00:00-07:00,21:30-24:00
# tuesday 00:00-07:00,21:30-24:00
print "Cheking validity for", time.asctime(time.localtime(july_the_12))
t.resolve_daterange(t.dateranges, "monday 00:00-07:00,21:30-24:00")
t.resolve_daterange(t.dateranges, "tuesday 00:00-07:00,21:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "RES:", t_next
self.assert_(t_next == "Mon Jul 12 21:30:00 2010")
# what about the next invalid?
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv
self.assert_(t_next_inv == "Mon Jul 12 15:00:00 2010")
# what about a valid time and ask next invalid? Like at 22:00h?
print "GO" * 10
july_the_12 = time.mktime(time.strptime("12 Jul 2010 22:00:00", "%d %b %Y %H:%M:%S"))
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv # , t.is_time_valid(july_the_12)
self.assert_(t_next_inv == "Tue Jul 13 07:01:00 2010")
# Now ask about at 00:00 time?
july_the_12 = time.mktime(time.strptime("12 Jul 2010 00:00:00", "%d %b %Y %H:%M:%S"))
print "Cheking validity for", time.asctime(time.localtime(july_the_12))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = ""
t.resolve_daterange(t.dateranges, "monday 00:00-07:00,21:30-24:00")
t.resolve_daterange(t.dateranges, "tuesday 00:00-07:00,21:30-24:00")
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next?", t_next
self.assert_(t_next == "Mon Jul 12 00:00:00 2010")
# Now look for the never case
print "24x7" * 10
t = self.conf.timeperiods.find_by_name("24x7")
self.assert_(t is not None)
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv # , t.is_time_valid(july_the_12)
self.assert_(t_next_inv == "Wed Jul 13 00:01:00 2011")
def test_check_enter_downtime(self):
test_router_0 = self.sched.hosts.find_by_name("test_router_0")
test_host_0 = self.sched.hosts.find_by_name("test_host_0")
test_nobody = self.sched.hosts.find_by_name("test_nobody")
svc1 = self.sched.services.find_srv_by_name_and_hostname("test_host_0", "test_ok_0")
svc2 = self.sched.services.find_srv_by_name_and_hostname("test_router_0", "test_ok_0")
svc3 = self.sched.services.find_srv_by_name_and_hostname("test_nobody", "test_ok_0")
# we want to focus on only one maintenance
test_router_0.maintenance_period = None
test_host_0.maintenance_period = None
test_nobody.maintenance_period = None
svc1.maintenance_period = None
svc2.maintenance_period = None
# be sure we have some time before a new minute begins.
# otherwise we get a race condition and a failed test here.
now = time.time()
x = time.gmtime(now)
while x.tm_sec < 50:
time.sleep(1)
now = time.time()
x = time.gmtime(now)
now = time.time()
print "now it is", time.asctime(time.localtime(now))
nowday = time.strftime("%A", time.localtime(now + 60)).lower()
soonstart = time.strftime("%H:%M", time.localtime(now + 60))
soonend = time.strftime("%H:%M", time.localtime(now + 180))
range = "%s %s-%s" % (nowday, soonstart, soonend)
print "range is ", range
t = Timeperiod()
t.timeperiod_name = ""
t.resolve_daterange(t.dateranges, range)
t_next = t.get_next_valid_time_from_t(now)
print "planned start", time.asctime(time.localtime(t_next))
t_next = t.get_next_invalid_time_from_t(t_next + 1)
print "planned stop ", time.asctime(time.localtime(t_next))
svc3.maintenance_period = t
self.assert_(not hasattr(svc3, "in_maintenance"))
#
# now let the scheduler run and wait until the maintenance period begins
# it is now 10 seconds before the full minute. run for 30 seconds
# in 1-second-intervals. this should be enough to trigger the downtime
# in 10 seconds from now the downtime starts
print "scheduler_loop start", time.asctime()
self.scheduler_loop(30, [[svc3, 0, "OK"]], do_sleep=True, sleep_time=1)
print "scheduler_loop end ", time.asctime()
self.assert_(hasattr(svc3, "in_maintenance"))
self.assert_(len(self.sched.downtimes) == 1)
try:
print "........................................."
print self.sched.downtimes[1]
print "downtime starts", time.asctime(self.sched.downtimes[1].start_time)
print "downtime ends ", time.asctime(self.sched.downtimes[1].end_time)
except:
print "looks like there is no downtime"
pass
self.assert_(len(svc3.downtimes) == 1)
self.assert_(svc3.downtimes[0] in self.sched.downtimes.values())
self.assert_(svc3.in_scheduled_downtime)
self.assert_(svc3.downtimes[0].fixed)
self.assert_(svc3.downtimes[0].is_in_effect)
self.assert_(not svc3.downtimes[0].can_be_deleted)
self.assert_(svc3.in_maintenance == svc3.downtimes[0].id)
#
# now the downtime should expire...
# we already have 20 seconds (after 10 seconds of startup).
# the downtime is 120 seconds long.
# run the remaining 100 seconds plus 5 seconds just to be sure
self.scheduler_loop(105, [[svc3, 0, "OK"]], do_sleep=True, sleep_time=1)
self.assert_(len(self.sched.downtimes) == 0)
self.assert_(len(svc3.downtimes) == 0)
self.assert_(not svc3.in_scheduled_downtime)
self.assert_(svc3.in_maintenance == False)
def test_check_enter_downtime(self):
test_router_0 = self.sched.hosts.find_by_name("test_router_0")
test_host_0 = self.sched.hosts.find_by_name("test_host_0")
test_nobody = self.sched.hosts.find_by_name("test_nobody")
svc1 = self.sched.services.find_srv_by_name_and_hostname(
"test_host_0", "test_ok_0")
svc2 = self.sched.services.find_srv_by_name_and_hostname(
"test_router_0", "test_ok_0")
svc3 = self.sched.services.find_srv_by_name_and_hostname(
"test_nobody", "test_ok_0")
# we want to focus on only one maintenance
test_router_0.maintenance_period = None
test_host_0.maintenance_period = None
test_nobody.maintenance_period = None
svc1.maintenance_period = None
svc2.maintenance_period = None
# be sure we have some time before a new minute begins.
# otherwise we get a race condition and a failed test here.
x = time.gmtime()
while x.tm_sec < 50:
time.sleep(1)
x = time.gmtime()
now = time.time()
print "now it is", time.asctime(time.localtime(now))
nowday = time.strftime("%A", time.localtime(now + 60)).lower()
soonstart = time.strftime("%H:%M", time.localtime(now + 60))
soonend = time.strftime("%H:%M", time.localtime(now + 180))
range = "%s %s-%s" % (nowday, soonstart, soonend)
print "range is ", range
t = Timeperiod()
t.timeperiod_name = ''
t.resolve_daterange(t.dateranges, range)
t_next = t.get_next_valid_time_from_t(now)
print "planned start", time.asctime(time.localtime(t_next))
t_next = t.get_next_invalid_time_from_t(t_next + 1)
print "planned stop ", time.asctime(time.localtime(t_next))
svc3.maintenance_period = t
self.assert_(not hasattr(svc3, 'in_maintenance'))
#
# now let the scheduler run and wait until the maintenance period begins
#
self.scheduler_loop(3, [[svc3, 0, 'OK']], do_sleep=True)
self.assert_(hasattr(svc3, 'in_maintenance'))
self.assert_(len(self.sched.downtimes) == 1)
self.assert_(len(svc3.downtimes) == 1)
self.assert_(svc3.downtimes[0] in self.sched.downtimes.values())
self.assert_(svc3.in_scheduled_downtime)
self.assert_(svc3.downtimes[0].fixed)
self.assert_(svc3.downtimes[0].is_in_effect)
self.assert_(not svc3.downtimes[0].can_be_deleted)
self.assert_(svc3.in_maintenance == svc3.downtimes[0].id)
#
# now the downtime should expire...
#
self.scheduler_loop(3, [[svc3, 0, 'OK']], do_sleep=True)
self.assert_(len(self.sched.downtimes) == 0)
self.assert_(len(svc3.downtimes) == 0)
self.assert_(not svc3.in_scheduled_downtime)
self.assert_(svc3.in_maintenance == False)
def test_simple_with_multiple_time_mutltiple_days(self):
self.print_header()
t = Timeperiod()
now = time.time()
# Get the 12 of july 2010 at 15:00, monday
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 15:00:00", "%d %b %Y %H:%M:%S"))
print july_the_12
# First a false test, no results
t = Timeperiod()
t.timeperiod_name = ''
t.resolve_daterange(t.dateranges,
'1999-01-28 00:00-07:00,21:30-24:00')
t_next = t.get_next_valid_time_from_t(now)
self.assert_(t_next is None)
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = ''
# monday 00:00-07:00,21:30-24:00
# tuesday 00:00-07:00,21:30-24:00
print "Cheking validity for", time.asctime(time.localtime(july_the_12))
t.resolve_daterange(t.dateranges, 'monday 00:00-07:00,21:30-24:00')
t.resolve_daterange(t.dateranges, 'tuesday 00:00-07:00,21:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "RES:", t_next
self.assert_(t_next == "Mon Jul 12 21:30:00 2010")
# what about the next invalid?
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv
self.assert_(t_next_inv == "Mon Jul 12 15:00:00 2010")
# what about a valid time and ask next invalid? Like at 22:00h?
print "GO" * 10
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 22:00:00", "%d %b %Y %H:%M:%S"))
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv #, t.is_time_valid(july_the_12)
self.assert_(t_next_inv == "Tue Jul 13 07:01:00 2010")
# Now ask about at 00:00 time?
july_the_12 = time.mktime(
time.strptime("12 Jul 2010 00:00:00", "%d %b %Y %H:%M:%S"))
print "Cheking validity for", time.asctime(time.localtime(july_the_12))
# Then a simple same day
t = Timeperiod()
t.timeperiod_name = ''
t.resolve_daterange(t.dateranges, 'monday 00:00-07:00,21:30-24:00')
t.resolve_daterange(t.dateranges, 'tuesday 00:00-07:00,21:30-24:00')
t_next = t.get_next_valid_time_from_t(july_the_12)
t_next = time.asctime(time.localtime(t_next))
print "Next?", t_next
self.assert_(t_next == "Mon Jul 12 00:00:00 2010")
# Now look for the never case
print "24x7" * 10
t = self.conf.timeperiods.find_by_name('24x7')
self.assert_(t is not None)
t_next_inv = t.get_next_invalid_time_from_t(july_the_12)
t_next_inv = time.asctime(time.localtime(t_next_inv))
print "RES:", t_next_inv #, t.is_time_valid(july_the_12)
self.assert_(t_next_inv == 'Wed Jul 13 00:01:00 2011')
def test_check_enter_downtime(self):
test_router_0 = self.sched.hosts.find_by_name("test_router_0")
test_host_0 = self.sched.hosts.find_by_name("test_host_0")
test_nobody = self.sched.hosts.find_by_name("test_nobody")
svc1 = self.sched.services.find_srv_by_name_and_hostname("test_host_0", "test_ok_0")
svc2 = self.sched.services.find_srv_by_name_and_hostname("test_router_0", "test_ok_0")
svc3 = self.sched.services.find_srv_by_name_and_hostname("test_nobody", "test_ok_0")
# we want to focus on only one maintenance
test_router_0.maintenance_period = None
test_host_0.maintenance_period = None
test_nobody.maintenance_period = None
svc1.maintenance_period = None
svc2.maintenance_period = None
# be sure we have some time before a new minute begins.
# otherwise we get a race condition and a failed test here.
x = time.gmtime()
while x.tm_sec < 50:
time.sleep(1)
x = time.gmtime()
now = time.time()
print "now it is", time.asctime(time.localtime(now))
nowday = time.strftime("%A", time.localtime(now + 60)).lower()
soonstart = time.strftime("%H:%M", time.localtime(now + 60))
soonend = time.strftime("%H:%M", time.localtime(now + 180))
range = "%s %s-%s" % (nowday, soonstart, soonend)
print "range is ", range
t = Timeperiod()
t.timeperiod_name = ''
t.resolve_daterange(t.dateranges, range)
t_next = t.get_next_valid_time_from_t(now)
print "planned start", time.asctime(time.localtime(t_next))
t_next = t.get_next_invalid_time_from_t(t_next + 1)
print "planned stop ", time.asctime(time.localtime(t_next))
svc3.maintenance_period = t
self.assert_(not hasattr(svc3, 'in_maintenance'))
#
# now let the scheduler run and wait until the maintenance period begins
#
self.scheduler_loop(3, [[svc3, 0, 'OK']], do_sleep=True)
self.assert_(hasattr(svc3, 'in_maintenance'))
self.assert_(len(self.sched.downtimes) == 1)
self.assert_(len(svc3.downtimes) == 1)
self.assert_(svc3.downtimes[0] in self.sched.downtimes.values())
self.assert_(svc3.in_scheduled_downtime)
self.assert_(svc3.downtimes[0].fixed)
self.assert_(svc3.downtimes[0].is_in_effect)
self.assert_(not svc3.downtimes[0].can_be_deleted)
self.assert_(svc3.in_maintenance == svc3.downtimes[0].id)
#
# now the downtime should expire...
#
self.scheduler_loop(3, [[svc3, 0, 'OK']], do_sleep=True)
self.assert_(len(self.sched.downtimes) == 0)
self.assert_(len(svc3.downtimes) == 0)
self.assert_(not svc3.in_scheduled_downtime)
self.assert_(svc3.in_maintenance == False)
