def test_get_groundtrack(self):
"""JRPC test: services.simulation.groundtrack.get
Tests the generation of the GroundTracks for registered spacecraft.
"""
gt = simulation_jrpc.get_groundtrack(self.__sc_1_id)
if self.__verbose_testing:
misc.print_list(gt)
print('gt.length = ' + str(len(gt)))
def test_normalize_complex_2(self):
"""UNIT test: services.common.slots.normalize_slots (complex case #2)
Case COMPLEX#2 for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE COMPLEX#2: continuous ABC')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(), misc.get_today_utc() + timedelta(hours=1))
t = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=4))
u = (misc.get_today_utc() + timedelta(hours=3),
misc.get_today_utc() + timedelta(hours=5))
v = (misc.get_today_utc() + timedelta(hours=4),
misc.get_today_utc() + timedelta(hours=4, minutes=10))
expected_s = [s, (t[0], u[1])]
actual_s = slots.normalize_slots([s, t, u, v])
if self.__verbose_testing:
misc.print_list([s, t, u, v], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s,
'CASE COMPLEX#1: Wrong result!')
def test_normalize_complex_1(self):
"""UNIT test: services.common.slots.normalize_slots (complex case #1)
Case COMPLEX#1 for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE COMPLEX#1: ABC')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(),
misc.get_today_utc() + timedelta(hours=1))
t = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=4))
u = (misc.get_today_utc() + timedelta(hours=5),
misc.get_today_utc() + timedelta(hours=7))
v = (misc.get_today_utc() + timedelta(hours=6),
misc.get_today_utc() + timedelta(hours=9))
w = (misc.get_today_utc() + timedelta(hours=10),
misc.get_today_utc() + timedelta(hours=15))
x = (misc.get_today_utc() + timedelta(hours=11),
misc.get_today_utc() + timedelta(hours=14))
expected_s = [s, t, (u[0], v[1]), w]
actual_s = slots.normalize_slots([s, t, u, v, w, x])
if self.__verbose_testing:
misc.print_list([s, t, u, v, w, x], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(
expected_s, actual_s, 'CASE COMPLEX#1: Wrong result!'
)
def test_normalize_complex_2(self):
"""UNIT test: services.common.slots.normalize_slots (complex case #2)
Case COMPLEX#2 for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE COMPLEX#2: continuous ABC')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(),
misc.get_today_utc() + timedelta(hours=1))
t = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=4))
u = (misc.get_today_utc() + timedelta(hours=3),
misc.get_today_utc() + timedelta(hours=5))
v = (misc.get_today_utc() + timedelta(hours=4),
misc.get_today_utc() + timedelta(hours=4, minutes=10))
expected_s = [s, (t[0], u[1])]
actual_s = slots.normalize_slots([s, t, u, v])
if self.__verbose_testing:
misc.print_list([s, t, u, v], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(
expected_s, actual_s, 'CASE COMPLEX#1: Wrong result!'
)
def test_normalize_complex_1(self):
"""UNIT test: services.common.slots.normalize_slots (complex case #1)
Case COMPLEX#1 for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE COMPLEX#1: ABC')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(), misc.get_today_utc() + timedelta(hours=1))
t = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=4))
u = (misc.get_today_utc() + timedelta(hours=5),
misc.get_today_utc() + timedelta(hours=7))
v = (misc.get_today_utc() + timedelta(hours=6),
misc.get_today_utc() + timedelta(hours=9))
w = (misc.get_today_utc() + timedelta(hours=10),
misc.get_today_utc() + timedelta(hours=15))
x = (misc.get_today_utc() + timedelta(hours=11),
misc.get_today_utc() + timedelta(hours=14))
expected_s = [s, t, (u[0], v[1]), w]
actual_s = slots.normalize_slots([s, t, u, v, w, x])
if self.__verbose_testing:
misc.print_list([s, t, u, v, w, x], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s,
'CASE COMPLEX#1: Wrong result!')
def test_add_once_rule(self):
"""JRPC test: (O) cfg.gs.channel.addRule, cfg.gs.channel.removeRule
Should correctly add a ONCE rule to the system.
"""
if self.__verbose_testing:
print('>>> TEST (test_gs_channel_add_rule)')
# 1) add new rule to the database
starting_time = misc.get_next_midnight() - datetime.timedelta(hours=12)
ending_time = starting_time + datetime.timedelta(hours=4)
rule_cfg = db_tools.create_jrpc_once_rule(
starting_time=starting_time,
ending_time=ending_time
)
rule_id_1 = jrpc_rules.add_rule(self.__gs_1_id, rule_cfg)
# 2) get the rule back through the JRPC interface
rules_g1c1 = jrpc_rules.list_channel_rules(self.__gs_1_id)
expected_r = {
jrpc_serial.RULE_PK_K: rule_id_1,
jrpc_serial.RULE_PERIODICITY: jrpc_serial.RULE_PERIODICITY_ONCE,
jrpc_serial.RULE_OP: jrpc_serial.RULE_OP_ADD,
jrpc_serial.RULE_DATES: {
jrpc_serial.RULE_ONCE_S_TIME: starting_time.isoformat(),
jrpc_serial.RULE_ONCE_E_TIME: ending_time.isoformat()
}
}
if self.__verbose_testing:
misc.print_list(rules_g1c1, name='DATABASE')
misc.print_dictionary(expected_r)
self.assertEqual(rules_g1c1[0], expected_r)
jrpc_rules.remove_rule(self.__gs_1_id, rule_id_1)
self.__verbose_testing = False
def test_merge_case_complex_3(self):
"""UNIT test: services.common.slots.merge_slots (complex case #3)
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING MERGE, COMPLEX CASE #3')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
p = (misc.get_today_utc() + timedelta(hours=0),
misc.get_today_utc() + timedelta(hours=1))
q = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=3))
r = (misc.get_today_utc() + timedelta(hours=2),
misc.get_today_utc() + timedelta(hours=4))
s = (misc.get_today_utc() + timedelta(hours=3),
misc.get_today_utc() + timedelta(hours=5))
t = (misc.get_today_utc() + timedelta(hours=6),
misc.get_today_utc() + timedelta(hours=7))
u = (misc.get_today_utc() + timedelta(hours=8),
misc.get_today_utc() + timedelta(hours=9))
v = (misc.get_today_utc() + timedelta(hours=10),
misc.get_today_utc() + timedelta(hours=11))
m = (misc.get_today_utc() + timedelta(hours=0),
misc.get_today_utc() + timedelta(hours=3))
n = (misc.get_today_utc() + timedelta(hours=3, minutes=30),
misc.get_today_utc() + timedelta(hours=4))
expected_s = [(m[1], n[0]), (s[0], n[0]), (n[1], s[1]), t, u, v]
actual_s = slots.merge_slots([p, q, r, s, t, u, v], [m, n])
if self.__verbose_testing:
misc.print_list([p, q, r, s], name='(+) slots')
misc.print_list([m, n], name='(-) slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s,
'COMPLEX CASE #1: Wrong result!')
def test_merge_case_c(self):
"""UNIT test: services.common.slots.merge_slots (case C)
Case C for merging slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING MERGE, CASE C')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
p = (misc.get_today_utc(), misc.get_today_utc() + timedelta(hours=5))
m = (misc.get_today_utc() + timedelta(hours=1),
misc.get_today_utc() + timedelta(hours=4))
expected_s = [(p[0], m[0]), (m[1], p[1])]
actual_s = slots.merge_slots([p], [m])
if self.__verbose_testing:
misc.print_list(p, name='(+) slots')
misc.print_list(m, name='(-) slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s, 'CASE C: Wrong result!')
def test_normalize_c(self):
"""UNIT test: services.common.slots.normalize_slots (case C)
Case C for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE C')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(), misc.get_today_utc() + timedelta(hours=5))
t = (misc.get_today_utc() + timedelta(hours=1),
misc.get_today_utc() + timedelta(hours=4))
expected_s = [s]
actual_s = slots.normalize_slots([s, t])
if self.__verbose_testing:
misc.print_list([s, t], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s, 'CASE C: Wrong result!')
def test_normalize_c(self):
"""UNIT test: services.common.slots.normalize_slots (case C)
Case C for normalizing slots.
"""
if self.__verbose_testing:
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
print('TESTING NORMALIZE, CASE C')
print('$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$')
s = (misc.get_today_utc(),
misc.get_today_utc() + timedelta(hours=5))
t = (misc.get_today_utc() + timedelta(hours=1),
misc.get_today_utc() + timedelta(hours=4))
expected_s = [s]
actual_s = slots.normalize_slots([s, t])
if self.__verbose_testing:
misc.print_list([s, t], name='RAW slots')
misc.print_list(actual_s, name='(A) slots')
misc.print_list(expected_s, name='(EXPECTED) slots')
self.assertCountEqual(expected_s, actual_s, 'CASE C: Wrong result!')
def test_utc_database(self):
"""UNIT test: UTC database datetimes
This test validates whether the date/time information saved in the
database is converted to UTC or not.
"""
if self.__verbose_testing:
print('>>> test_utc_database:')
local_dt = datetime.datetime.now(pytz.timezone('US/Pacific')).replace(
hour=0, minute=0, second=0, microsecond=0)
utc_dt = datetime.datetime.now(pytz.timezone('UTC')).replace(
hour=0, minute=0, second=0, microsecond=0)
if self.__verbose_testing:
print('>> local_dt = ' + str(local_dt))
print('>> local_dt.iso() = ' + str(local_dt.isoformat()))
print('>> local_dt.date() = ' + str(local_dt.date()))
print('>> local_dt.time() = ' + str(local_dt.time()))
print('>> local_dt.time().iso() = ' +
str(local_dt.time().isoformat()))
print('>> local_dt.timetz() = ' + str(local_dt.timetz()))
print('>> local_dt.tzname() = ' + str(local_dt.tzname()))
print('>> local_dt.utcoffset() = ' + str(local_dt.utcoffset()))
print('>> utc_dt = ' + str(utc_dt))
print('>> utc_dt.iso() = ' + str(utc_dt.isoformat()))
print('>> utc_dt.date() = ' + str(utc_dt.date()))
print('>> utc_dt.time() = ' + str(utc_dt.time()))
print('>> utc_dt.timetz() = ' + str(utc_dt.timetz()))
print('>> utc_dt.tzname() = ' + str(utc_dt.tzname()))
# 1) adds a single UTC rule to the database
utc_i_date = utc_dt + datetime.timedelta(days=1)
utc_e_date = utc_dt + datetime.timedelta(days=366)
utc_s_time = utc_dt - datetime.timedelta(minutes=15)
utc_e_time = utc_dt + datetime.timedelta(minutes=15)
jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(date_i=utc_i_date,
date_f=utc_e_date,
starting_time=utc_s_time,
ending_time=utc_e_time))
actual = [str(r) for r in rules.AvailabilityRule.objects.all()]
expected = [
'+(D):' + utc_i_date.isoformat().split('T')[0] + '>>' +
utc_e_date.isoformat().split('T')[0] + '_T_' +
utc_s_time.isoformat() + '>>' + utc_e_time.isoformat()
]
self.assertEqual(actual, expected)
# 2) adds a single PacificTime rule to the database (should be
# converted into a UTC one).
local_i_date = local_dt
local_e_date = local_dt + datetime.timedelta(days=365)
local_s_time = local_dt.replace(
hour=0, minute=0, second=0,
microsecond=0) + datetime.timedelta(hours=12)
local_e_time = local_s_time + datetime.timedelta(minutes=30)
jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(date_i=local_i_date,
date_f=local_e_date,
starting_time=local_s_time,
ending_time=local_e_time))
if self.__verbose_testing:
print('>>> window = ' +
str(simulation.OrbitalSimulator.get_simulation_window()))
misc.print_list(rules.AvailabilityRule.objects.all(), name='RULES')
actual = [str(r) for r in rules.AvailabilityRule.objects.all()]
expected.append('+(D):' + local_i_date.isoformat().split('T')[0] +
'>>' + local_e_date.isoformat().split('T')[0] + '_T_' +
local_s_time.astimezone(pytz.utc).isoformat() + '>>' +
local_e_time.astimezone(pytz.utc).isoformat())
self.assertEqual(actual, expected)
if self.__verbose_testing:
misc.print_list(availability.AvailabilitySlot.objects.all(),
name='Availability Slots')
def _test_4_get_availability_slots(self):
"""INTR test: services.scheduling - availability slot generation (4)
Validates the method that gathers the AvailabilitySlots that are
applicable within a defined interval.
"""
if self.__verbose_testing:
print('##### test_get_availability_slots:')
# 0) Stability with None...
self.assertEqual(
availability.AvailabilitySlot.objects.get_applicable(None), [],
'[] should be the result!'
)
# 1) Stability with []...
self.assertEqual(
availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
), [],
'[] should be the result!'
)
# 2) Single daily rule, adds availability slots...
jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=self.__utc_s_date,
date_f=self.__utc_e_date,
starting_time=self.__utc_s_time,
ending_time=self.__utc_e_time
)
)
a_slots = list(
availability.AvailabilitySlot.objects.values_list(
'start', 'end'
)
)
# ### the identifier is included as it is obtained from the actual
# ### execution of the method
x_slots = [
(
self.__rule_s_time,
self.__rule_e_time
),
(
self.__rule_s_time + datetime.timedelta(days=1),
self.__rule_e_time + datetime.timedelta(days=1)
),
(
self.__rule_s_time + datetime.timedelta(days=2),
self.__rule_e_time + datetime.timedelta(days=2)
)
]
if self.__verbose_testing:
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@1'
)
misc.print_list(a_slots, name='AVAILABLE@1')
self.assertEqual(a_slots, x_slots)
# 3) Period ending in the middle of an AvailabilitySlot, should
# return the applicable half of that slot...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time,
end=self.__rule_s_time + datetime.timedelta(hours=3)
)
x_slots = [
(
self.__rule_s_time,
self.__rule_s_time + datetime.timedelta(hours=3),
a_slots[0][2]
)
]
if self.__verbose_testing:
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(x_slots, name='XSLOTS@2')
misc.print_list(a_slots, name='AVAILABLE@2')
self.assertEqual(a_slots, x_slots)
# 4) Period starting in the middle of an AvailabilitySlot, should
# return the applicable half of that slot...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time + datetime.timedelta(hours=2),
end=self.__rule_s_time + datetime.timedelta(hours=8)
)
x_slots = [(
(
self.__rule_s_time + datetime.timedelta(hours=2),
self.__rule_s_time + datetime.timedelta(hours=5),
a_slots[0][2]
)
)]
self.assertEqual(a_slots, x_slots)
# 5) Period starting after an AvailabilitySlot, should not return any
# slot at all...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time + datetime.timedelta(hours=8),
end=self.__rule_s_time + datetime.timedelta(hours=10)
)
self.assertEqual(a_slots, [])
# 6) Period starting JUST after an AvailabilitySlot, should not return
# any slot at all...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time + datetime.timedelta(hours=5),
end=self.__rule_s_time + datetime.timedelta(hours=8)
)
self.assertEqual(a_slots, [])
# 7) Period starting after an AvailabilitySlot, should not return any
# slot at all...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time + datetime.timedelta(hours=7),
end=self.__rule_s_time + datetime.timedelta(hours=8)
)
self.assertEqual(a_slots, [])
# 8) Period starting JUST before an AvailabilitySlot, should not return
# any slot at all...
a_slots = availability.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs,
start=self.__rule_s_time - datetime.timedelta(hours=2),
end=self.__rule_s_time - datetime.timedelta(hours=1)
)
self.assertEqual(a_slots, [])
def _test_3_generate_slots_several_rules_1(self):
"""INTR test: services.scheduling - add slots with several rules (3)
This method tests the addition of new availability slots when there
are several availability rules in the database.
"""
if self.__verbose_testing:
print('##### test_add_slots: several rules (1)')
# R1) ADD+ONCE (+1 slot)
rule_1_id = jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_once_rule(
starting_time=self.__rule_s_time, ending_time=self.__rule_e_time
)
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
self.assertEqual(
len(a_slots), 1, 'Only 1 slot expected, got = ' + str(len(a_slots))
)
av_slots = availability.AvailabilitySlot.objects.all()
self.assertEqual(
len(av_slots), 1, '1 slot expected, got = ' + str(len(av_slots))
)
if self.__verbose_testing:
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@1'
)
misc.print_list(av_slots, name='AVAILABLE@1')
# R2) ADD+DAILY (+2 slots)
rule_2_id = jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=self.__utc_s_date,
date_f=self.__utc_e_date,
starting_time=self.__utc_s_time,
ending_time=self.__utc_e_time
)
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
av_slots = availability.AvailabilitySlot.objects.all()
if self.__verbose_testing:
print('>>> today_utc = ' + str(misc.get_today_utc()))
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@2'
)
misc.print_list(av_slots, name='AVAILABLE@2')
expected_slots = 3
self.assertEqual(len(a_slots), expected_slots)
self.assertEqual(len(av_slots), expected_slots)
# R3) ADD-ONCE (-1 slot)
rule_3_id = jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_once_rule(
operation=jrpc_serial.RULE_OP_REMOVE,
starting_time=self.__rule_s_time, ending_time=self.__rule_e_time
)
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
av_slots = availability.AvailabilitySlot.objects.all()
if self.__verbose_testing:
print('>>> today_utc = ' + str(misc.get_today_utc()))
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@3'
)
misc.print_list(av_slots, name='AVAILABLE@3')
expected_slots = 2
self.assertEqual(len(a_slots), expected_slots)
self.assertEqual(len(av_slots), expected_slots)
# R4) ADD-DAILY (-7 slots)
rule_4_id = jrpc_rules_if.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
operation=jrpc_serial.RULE_OP_REMOVE,
date_i=self.__utc_s_date,
date_f=self.__utc_e_date,
starting_time=self.__utc_s_time,
ending_time=self.__utc_e_time
)
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
av_slots = availability.AvailabilitySlot.objects.all()
if self.__verbose_testing:
print('>>> today_utc = ' + str(misc.get_today_utc()))
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@4'
)
misc.print_list(av_slots, name='AVAILABLE@4')
expected = 0
self.assertEqual(len(a_slots), expected)
self.assertEqual(len(av_slots), expected)
# REMOVE R#4 (+6 slots)
jrpc_rules_if.remove_rule(
groundstation_id=self.__gs_1_id,
rule_id=rule_4_id
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
av_slots = availability.AvailabilitySlot.objects.all()
if self.__verbose_testing:
print('>>> today_utc = ' + str(misc.get_today_utc()))
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@5'
)
misc.print_list(av_slots, name='AVAILABLE@5')
expected = 2
self.assertEqual(len(a_slots), expected)
self.assertEqual(len(av_slots), expected)
# REMOVE R#3 (+1 slot)
jrpc_rules_if.remove_rule(
groundstation_id=self.__gs_1_id,
rule_id=rule_3_id
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
av_slots = availability.AvailabilitySlot.objects.all()
if self.__verbose_testing:
print('>>> today_utc = ' + str(misc.get_today_utc()))
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@6'
)
misc.print_list(av_slots, name='AVAILABLE@6')
expected = 3
self.assertEqual(len(a_slots), expected)
self.assertEqual(len(av_slots), expected)
# REMOVE R#2 (-7 slots)
jrpc_rules_if.remove_rule(
groundstation_id=self.__gs_1_id,
rule_id=rule_2_id
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
self.assertEqual(len(a_slots), 1)
av_slots = availability.AvailabilitySlot.objects.all()
self.assertEqual(len(av_slots), 1)
if self.__verbose_testing:
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@7'
)
misc.print_list(av_slots, name='AVAILABLE@7')
# REMOVE R#1 (-1 slot)
jrpc_rules_if.remove_rule(
groundstation_id=self.__gs_1_id,
rule_id=rule_1_id
)
a_slots = rule_models.AvailabilityRule.objects.get_availability_slots(
self.__gs
)
self.assertEqual(len(a_slots), 0)
av_slots = availability.AvailabilitySlot.objects.all()
self.assertEqual(len(av_slots), 0)
if self.__verbose_testing:
misc.print_list(
rule_models.AvailabilityRule.objects.all(), name='RULES@8'
)
misc.print_list(av_slots, name='AVAILABLE@8')
self.__verbose_testing = False
def test_sc_get_changes(self):
"""JRPC test: services.scheduling.sc.getChanges
Validates the JRPC method <sc_get_changes>.
"""
if self.__verbose_testing:
print('##### test_gs_get_operational_slots')
self.maxDiff = None
operational_models.OperationalSlot.objects.reset_ids_counter()
# ### channels required for the tests
self.assertTrue(
jrpc_sc_chs.sc_channel_create(
spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id,
configuration=self.__sc_1_ch_1_cfg
),
'Channel should have been created!'
)
self.assertTrue(
jrpc_gs_chs.gs_channel_create(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id,
configuration=self.__gs_1_ch_1_cfg
),
'Channel should have been created!'
)
# 3) we add some slots and they should be retrieved as 'changed' only
# once.
date_i = misc.get_today_utc() + datetime.timedelta(days=1)
date_f = misc.get_today_utc() + datetime.timedelta(days=366)
s_time = misc.get_next_midnight() - datetime.timedelta(hours=23)
e_time = s_time + datetime.timedelta(hours=20)
jrpc_rules.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=date_i,
date_f=date_f,
starting_time=s_time,
ending_time=e_time
)
)
if self.__verbose_testing:
misc.print_list(operational_models.OperationalSlot.objects.all())
self.assertGreater(
len(operational_models.OperationalSlot.objects.all()),
0,
'Wrong slots number!'
)
# 5) we add some slots and they should be retrieved as 'changed' only
# once.
date_i = misc.get_today_utc() + datetime.timedelta(days=1)
date_f = misc.get_today_utc() + datetime.timedelta(days=366)
s_time = misc.get_next_midnight() - datetime.timedelta(hours=23)
e_time = s_time + datetime.timedelta(hours=20)
jrpc_rules.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=date_i,
date_f=date_f,
starting_time=s_time,
ending_time=e_time
)
)
self.assertGreater(
len(operational_models.OperationalSlot.objects.all()),
0,
'Wrong slots number!'
)
# ### clean up sc/gs
self.assertTrue(
jrpc_gs_chs.gs_channel_delete(
groundstation_id=self.__gs_1_id, channel_id=self.__gs_1_ch_1_id
),
'Could not delete GroundStationChannel = ' + str(
self.__gs_1_ch_1_id
)
)
self.assertEquals(
len(operational_models.OperationalSlot.objects.all()),
0,
'Expected operational slots to be available'
)
self.assertTrue(
jrpc_sc_chs.sc_channel_delete(
spacecraft_id=self.__sc_1_id, channel_id=self.__sc_1_ch_1_id
),
'Could not delete SpacecraftChannel = ' + str(self.__sc_1_ch_1_id)
)
self.assertEquals(
len(operational_models.OperationalSlot.objects.all()),
0,
'Expected operational slots to be available'
)
def test_gs_get_operational_slots(self):
"""JRPC test: services.scheduling.gs.getOperationalSlots
Validates the JRPC method <gs_get_operational_slots>
"""
if self.__verbose_testing:
print('##### test_gs_get_operational_slots')
self.maxDiff = None
operational_models.OperationalSlot.objects.reset_ids_counter()
if self.__verbose_testing:
print('######### CHECK #1')
misc.print_list(availability_models.AvailabilitySlot.objects.all(),
name='availability')
misc.print_list(
compatibility_models.ChannelCompatibility.objects.all(),
name='compatibility')
misc.print_list(pass_models.PassSlots.objects.all(), name='passes')
misc.print_list(operational_models.OperationalSlot.objects.all(),
name='operational')
# 1) non-existant GroundStation
self.assertRaises(models.ObjectDoesNotExist,
jrpc_gs_scheduling.get_operational_slots, 0)
# 2) basic test, should not generate slots until the GS is added,
# raising an exception to confirm it
self.assertTrue(
jrpc_gs_ch_if.gs_channel_create(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id,
configuration=self.__gs_1_ch_1_cfg),
'Channel should have been created!')
self.assertRaises(Exception, jrpc_gs_scheduling.get_operational_slots,
self.__gs_1_ch_1_id)
# 3) basic test, should generate 2 FREE slots
self.assertTrue(
jrpc_sc_ch_if.sc_channel_create(
spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id,
configuration=self.__sc_1_ch_1_cfg),
'Channel should have been created!')
date_i = misc.get_today_utc() + datetime.timedelta(days=1)
date_f = misc.get_today_utc() + datetime.timedelta(days=366)
s_time = misc.get_next_midnight() - datetime.timedelta(hours=20)
e_time = s_time + datetime.timedelta(hours=12)
jrpc_rules.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(date_i=date_i,
date_f=date_f,
starting_time=s_time,
ending_time=e_time))
if self.__verbose_testing:
print('######### CHECK #2')
misc.print_list(availability_models.AvailabilitySlot.objects.all(),
name='availability')
misc.print_list(
compatibility_models.ChannelCompatibility.objects.all(),
name='compatibility')
misc.print_list(pass_models.PassSlots.objects.all(), name='passes')
misc.print_list(operational_models.OperationalSlot.objects.all(),
name='operational')
self.assertGreater(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0)
# ### clean up sc/gs
self.assertTrue(
jrpc_gs_ch_if.gs_channel_delete(groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id),
'Could not delete GroundStationChannel = ' +
str(self.__gs_1_ch_1_id))
self.assertEquals(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0)
self.assertTrue(
jrpc_sc_ch_if.sc_channel_delete(spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id))
self.assertEquals(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0)
def test_bug_1(self):
"""INTR test: services.scheduling - operational slot generation
"""
self.__gs_1_id = 'gs-vigo'
self.__gs_1_ch_1_id = 'chan-cas-1'
self.__sc_1_id = 'sc-serpens'
self.__sc_1_ch_1_id = 'xatco-fm-1'
self.__sc_1_ch_1_f = 437500000
self.__band = db_tools.create_band()
self.__user_profile = db_tools.create_user_profile()
# 1) create vigo gs
self.__gs = db_tools.create_gs(
user_profile=self.__user_profile, identifier=self.__gs_1_id
)
# CHECK A: NO ADDITIONAL pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_0 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id
)
self.assertEqual(len(p_slots_0), 0)
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0
)
self.assertEqual(len(o_slots_0), 0)
# 2) serpens spacecraft
self.__sc = db_tools.create_sc(
user_profile=self.__user_profile, identifier=self.__sc_1_id
)
# CHECK B: MORE pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_1 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id
)
self.assertGreater(len(p_slots_1), len(p_slots_0))
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0
)
self.assertEqual(len(o_slots_0), 0)
# 3) we add channels and, therefore, compatibility matches
# without availability rules, no operational slots
self.__sc_1_ch_1 = db_tools.sc_add_channel(
self.__sc, self.__sc_1_ch_1_f, self.__sc_1_ch_1_id
)
self.__gs_1_ch_1 = db_tools.gs_add_channel(
self.__gs, self.__band, self.__gs_1_ch_1_id
)
# CHECK C: SAME pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_2 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id
)
self.assertEqual(len(p_slots_2), len(p_slots_1))
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0
)
self.assertEqual(len(o_slots_0), 0)
# 4) we add a daily rule 12 hours, 00:00:01am to 11:59:59pm UTC
# all pass slots should became operational slots.
self.__rule_1 = rules_jrpc.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=sn_misc.get_today_utc(),
date_f=sn_misc.get_today_utc() + datetime.timedelta(days=50),
starting_time=sn_misc.get_next_midnight() + datetime.timedelta(
seconds=1
),
ending_time=sn_misc.get_next_midnight() + datetime.timedelta(
hours=23, minutes=59, seconds=59
)
)
)
# CHECK D: 3 availability slots (1 per day, almost 24 hours)
# should transform all pass slots into operational slots
a_slots = availability_models.AvailabilitySlot.objects.values_list(
'start', 'end'
)
x_slots = [
(
sn_misc.get_today_utc() + datetime.timedelta(
seconds=1
),
sn_misc.get_today_utc() + datetime.timedelta(
hours=23, minutes=59, seconds=59
)
),
(
sn_misc.get_today_utc() + datetime.timedelta(
days=1, seconds=1
),
sn_misc.get_today_utc() + datetime.timedelta(
days=1, hours=23, minutes=59, seconds=59
)
),
(
sn_misc.get_today_utc() + datetime.timedelta(
days=2, seconds=1
),
sn_misc.get_today_utc() + datetime.timedelta(
days=2, hours=23, minutes=59, seconds=59
)
)
]
self.assertCountEqual(a_slots, x_slots)
p_slots_applicable_objs = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id,
start__gte=sn_misc.get_now_utc()
)
p_slots_applicable = p_slots_applicable_objs.values_list(
'start', 'end'
)
self.assertGreaterEqual(len(p_slots_2), len(p_slots_applicable))
o_slots_1 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_applicable_objs,
state=operational_models.STATE_FREE
).values_list('start', 'end')
self.assertCountEqual(p_slots_applicable, o_slots_1)
# CHECK E: RPC interface should return an equivalent set of slots:
o_slots_gs = gs_ops_rpc.get_operational_slots(self.__gs_1_id)
self.assertEqual(len(o_slots_gs[self.__sc_1_id]), len(o_slots_1))
if self.__verbose_testing:
sn_misc.print_list(o_slots_1, name='o_slots_1')
sn_misc.print_list(
o_slots_gs[self.__sc_1_id], name='o_slots-' + self.__gs_1_id
)
def test_bug_1(self):
"""INTR test: services.scheduling - operational slot generation
"""
self.__gs_1_id = 'gs-vigo'
self.__gs_1_ch_1_id = 'chan-cas-1'
self.__sc_1_id = 'sc-serpens'
self.__sc_1_ch_1_id = 'xatco-fm-1'
self.__sc_1_ch_1_f = 437500000
self.__band = db_tools.create_band()
self.__user_profile = db_tools.create_user_profile()
# 1) create vigo gs
self.__gs = db_tools.create_gs(user_profile=self.__user_profile,
identifier=self.__gs_1_id)
# CHECK A: NO ADDITIONAL pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_0 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id)
self.assertEqual(len(p_slots_0), 0)
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0)
self.assertEqual(len(o_slots_0), 0)
# 2) serpens spacecraft
self.__sc = db_tools.create_sc(user_profile=self.__user_profile,
identifier=self.__sc_1_id)
# CHECK B: MORE pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_1 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id)
self.assertGreater(len(p_slots_1), len(p_slots_0))
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0)
self.assertEqual(len(o_slots_0), 0)
# 3) we add channels and, therefore, compatibility matches
# without availability rules, no operational slots
self.__sc_1_ch_1 = db_tools.sc_add_channel(self.__sc,
self.__sc_1_ch_1_f,
self.__sc_1_ch_1_id)
self.__gs_1_ch_1 = db_tools.gs_add_channel(self.__gs, self.__band,
self.__gs_1_ch_1_id)
# CHECK C: SAME pass slots, no operational slots
# ### There are pass slots for the already-propagated spacecraft
p_slots_2 = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id)
self.assertEqual(len(p_slots_2), len(p_slots_1))
o_slots_0 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_0)
self.assertEqual(len(o_slots_0), 0)
# 4) we add a daily rule 12 hours, 00:00:01am to 11:59:59pm UTC
# all pass slots should became operational slots.
self.__rule_1 = rules_jrpc.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=sn_misc.get_today_utc(),
date_f=sn_misc.get_today_utc() + datetime.timedelta(days=50),
starting_time=sn_misc.get_next_midnight() +
datetime.timedelta(seconds=1),
ending_time=sn_misc.get_next_midnight() +
datetime.timedelta(hours=23, minutes=59, seconds=59)))
# CHECK D: 3 availability slots (1 per day, almost 24 hours)
# should transform all pass slots into operational slots
a_slots = availability_models.AvailabilitySlot.objects.values_list(
'start', 'end')
x_slots = [
(sn_misc.get_today_utc() + datetime.timedelta(seconds=1),
sn_misc.get_today_utc() +
datetime.timedelta(hours=23, minutes=59, seconds=59)),
(sn_misc.get_today_utc() + datetime.timedelta(days=1, seconds=1),
sn_misc.get_today_utc() +
datetime.timedelta(days=1, hours=23, minutes=59, seconds=59)),
(sn_misc.get_today_utc() + datetime.timedelta(days=2, seconds=1),
sn_misc.get_today_utc() +
datetime.timedelta(days=2, hours=23, minutes=59, seconds=59))
]
self.assertCountEqual(a_slots, x_slots)
p_slots_applicable_objs = pass_models.PassSlots.objects.filter(
groundstation__identifier=self.__gs_1_id,
spacecraft__identifier=self.__sc_1_id,
start__gte=sn_misc.get_now_utc())
p_slots_applicable = p_slots_applicable_objs.values_list(
'start', 'end')
self.assertGreaterEqual(len(p_slots_2), len(p_slots_applicable))
o_slots_1 = operational_models.OperationalSlot.objects.filter(
pass_slot__in=p_slots_applicable_objs,
state=operational_models.STATE_FREE).values_list('start', 'end')
self.assertCountEqual(p_slots_applicable, o_slots_1)
# CHECK E: RPC interface should return an equivalent set of slots:
o_slots_gs = gs_ops_rpc.get_operational_slots(self.__gs_1_id)
self.assertEqual(len(o_slots_gs[self.__sc_1_id]), len(o_slots_1))
if self.__verbose_testing:
sn_misc.print_list(o_slots_1, name='o_slots_1')
sn_misc.print_list(o_slots_gs[self.__sc_1_id],
name='o_slots-' + self.__gs_1_id)
def test_1_compatibility_sc_channel_added_deleted(self):
"""INTR test: compatibility changed generates operational slots
1) +GS_CH
2) +RULE
3) +SC_CH
4) -SC_CH
5) -RULE
6) -GS_CH
OperationalSlots should be available only in bewteen steps 3 and 4.
"""
if self.__verbose_testing:
print('##### test_add_slots: no rules')
self.__sc_1 = db_tools.create_sc(
user_profile=self.__user_profile,
identifier=self.__sc_1_id,
tle_id=self.__sc_1_tle_id,
)
self.assertTrue(
jrpc_gs_ch_if.gs_channel_create(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id,
configuration=self.__gs_1_ch_1_cfg),
'Channel should have been created!')
r_1_id = jrpc_rules_if.add_rule(self.__gs_1_id, self.__rule_1_cfg)
self.assertIsNot(r_1_id, 0, 'Rule should have been added!')
self.assertTrue(
jrpc_sc_ch_if.sc_channel_create(
spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id,
configuration=self.__sc_1_ch_1_cfg),
'Channel should have been created!')
a_slots = availability_models.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs_1)
if self.__verbose_testing:
misc.print_list(a_slots, 'AvailabilitySlots')
misc.print_list(operational_models.OperationalSlot.objects.all(),
'OperationalSlots')
self.assertGreaterEqual(
len(operational_models.OperationalSlot.objects.all()), 2)
self.assertTrue(
jrpc_sc_ch_if.sc_channel_delete(spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id))
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE).values_list('state'))
if self.__verbose_testing:
print('>>> window = ' +
str(simulation.OrbitalSimulator.get_simulation_window()))
misc.print_list(rule_models.AvailabilityRule.objects.all())
misc.print_list(availability_models.AvailabilitySlot.objects.all())
misc.print_list(operational_models.OperationalSlot.objects.all())
misc.print_list(actual)
misc.print_list(expected)
self.assertEqual(actual, expected)
self.assertTrue(jrpc_rules_if.remove_rule(self.__gs_1_id, r_1_id),
'Rule should have been removed!')
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE).values_list('state'))
self.assertEqual(actual, expected)
self.assertTrue(
jrpc_gs_ch_if.gs_channel_delete(groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id),
'Could not delete GroundStationChannel = ' +
str(self.__gs_1_ch_1_id))
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE).values_list('state'))
self.assertEqual(actual, expected)
def test_1_compatibility_sc_channel_added_deleted(self):
"""INTR test: compatibility changed generates operational slots
1) +GS_CH
2) +RULE
3) +SC_CH
4) -SC_CH
5) -RULE
6) -GS_CH
OperationalSlots should be available only in bewteen steps 3 and 4.
"""
if self.__verbose_testing:
print('##### test_add_slots: no rules')
self.__sc_1 = db_tools.create_sc(
user_profile=self.__user_profile,
identifier=self.__sc_1_id,
tle_id=self.__sc_1_tle_id,
)
self.assertTrue(
jrpc_gs_ch_if.gs_channel_create(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id,
configuration=self.__gs_1_ch_1_cfg
),
'Channel should have been created!'
)
r_1_id = jrpc_rules_if.add_rule(self.__gs_1_id, self.__rule_1_cfg)
self.assertIsNot(r_1_id, 0, 'Rule should have been added!')
self.assertTrue(
jrpc_sc_ch_if.sc_channel_create(
spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id,
configuration=self.__sc_1_ch_1_cfg
), 'Channel should have been created!'
)
a_slots = availability_models.AvailabilitySlot.objects.get_applicable(
groundstation=self.__gs_1
)
if self.__verbose_testing:
misc.print_list(a_slots, 'AvailabilitySlots')
misc.print_list(
operational_models.OperationalSlot.objects.all(),
'OperationalSlots'
)
self.assertGreaterEqual(
len(operational_models.OperationalSlot.objects.all()), 2
)
self.assertTrue(
jrpc_sc_ch_if.sc_channel_delete(
spacecraft_id=self.__sc_1_id, channel_id=self.__sc_1_ch_1_id
)
)
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE
).values_list('state')
)
if self.__verbose_testing:
print('>>> window = ' + str(
simulation.OrbitalSimulator.get_simulation_window()
))
misc.print_list(rule_models.AvailabilityRule.objects.all())
misc.print_list(availability_models.AvailabilitySlot.objects.all())
misc.print_list(operational_models.OperationalSlot.objects.all())
misc.print_list(actual)
misc.print_list(expected)
self.assertEqual(actual, expected)
self.assertTrue(
jrpc_rules_if.remove_rule(self.__gs_1_id, r_1_id),
'Rule should have been removed!'
)
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE
).values_list('state')
)
self.assertEqual(actual, expected)
self.assertTrue(
jrpc_gs_ch_if.gs_channel_delete(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id
),
'Could not delete GroundStationChannel = ' + str(
self.__gs_1_ch_1_id
)
)
expected = []
actual = list(
operational_models.OperationalSlot.objects.filter(
state=operational_models.STATE_FREE
).values_list('state')
)
self.assertEqual(actual, expected)
def test_gs_get_operational_slots(self):
"""JRPC test: services.scheduling.gs.getOperationalSlots
Validates the JRPC method <gs_get_operational_slots>
"""
if self.__verbose_testing:
print('##### test_gs_get_operational_slots')
self.maxDiff = None
operational_models.OperationalSlot.objects.reset_ids_counter()
if self.__verbose_testing:
print('######### CHECK #1')
misc.print_list(
availability_models.AvailabilitySlot.objects.all(),
name='availability'
)
misc.print_list(
compatibility_models.ChannelCompatibility.objects.all(),
name='compatibility'
)
misc.print_list(
pass_models.PassSlots.objects.all(),
name='passes'
)
misc.print_list(
operational_models.OperationalSlot.objects.all(),
name='operational'
)
# 1) non-existant GroundStation
self.assertRaises(
models.ObjectDoesNotExist,
jrpc_gs_scheduling.get_operational_slots,
0
)
# 2) basic test, should not generate slots until the GS is added,
# raising an exception to confirm it
self.assertTrue(
jrpc_gs_ch_if.gs_channel_create(
groundstation_id=self.__gs_1_id,
channel_id=self.__gs_1_ch_1_id,
configuration=self.__gs_1_ch_1_cfg
),
'Channel should have been created!'
)
self.assertRaises(
Exception,
jrpc_gs_scheduling.get_operational_slots,
self.__gs_1_ch_1_id
)
# 3) basic test, should generate 2 FREE slots
self.assertTrue(
jrpc_sc_ch_if.sc_channel_create(
spacecraft_id=self.__sc_1_id,
channel_id=self.__sc_1_ch_1_id,
configuration=self.__sc_1_ch_1_cfg
),
'Channel should have been created!'
)
date_i = misc.get_today_utc() + datetime.timedelta(days=1)
date_f = misc.get_today_utc() + datetime.timedelta(days=366)
s_time = misc.get_next_midnight() - datetime.timedelta(hours=20)
e_time = s_time + datetime.timedelta(hours=12)
jrpc_rules.add_rule(
self.__gs_1_id,
db_tools.create_jrpc_daily_rule(
date_i=date_i,
date_f=date_f,
starting_time=s_time,
ending_time=e_time
)
)
if self.__verbose_testing:
print('######### CHECK #2')
misc.print_list(
availability_models.AvailabilitySlot.objects.all(),
name='availability'
)
misc.print_list(
compatibility_models.ChannelCompatibility.objects.all(),
name='compatibility'
)
misc.print_list(
pass_models.PassSlots.objects.all(),
name='passes'
)
misc.print_list(
operational_models.OperationalSlot.objects.all(),
name='operational'
)
self.assertGreater(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0
)
# ### clean up sc/gs
self.assertTrue(
jrpc_gs_ch_if.gs_channel_delete(
groundstation_id=self.__gs_1_id, channel_id=self.__gs_1_ch_1_id
),
'Could not delete GroundStationChannel = ' + str(
self.__gs_1_ch_1_id
)
)
self.assertEquals(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0
)
self.assertTrue(
jrpc_sc_ch_if.sc_channel_delete(
spacecraft_id=self.__sc_1_id, channel_id=self.__sc_1_ch_1_id
)
)
self.assertEquals(
len(jrpc_gs_scheduling.get_operational_slots(self.__gs_1_id)), 0
)
