def setUp(self): super(TestSubnet, self).setUp() if TestSubnet.subnet_192_168_100 is None: TestSubnet.subnet_192_168_100 = "subnet-192168100" Subnet.delete({'name': TestSubnet.subnet_192_168_100}) Subnet.create_minimal(TestSubnet.subnet_192_168_100)
def test_positive_delete_1(self): """@Test: Check if Subnet can be deleted @Feature: Subnet - Delete @Assert: Subnet is deleted """ for name in valid_data_list(): with self.subTest(name): subnet = make_subnet({'name': name}) Subnet.delete({'id': subnet['id']}) with self.assertRaises(CLIReturnCodeError): Subnet.info({'id': subnet['id']})
def test_positive_delete_by_id(self): """Check if Subnet can be deleted @id: ad269df8-4bb2-46a5-9c82-010a80087408 @Assert: Subnet is deleted """ for name in valid_data_list(): with self.subTest(name): subnet = make_subnet({"name": name}) Subnet.delete({"id": subnet["id"]}) with self.assertRaises(CLIReturnCodeError): Subnet.info({"id": subnet["id"]})
def test_positive_delete_by_id(self): """Check if Subnet can be deleted @id: ad269df8-4bb2-46a5-9c82-010a80087408 @Assert: Subnet is deleted """ for name in valid_data_list(): with self.subTest(name): subnet = make_subnet({'name': name}) Subnet.delete({'id': subnet['id']}) with self.assertRaises(CLIReturnCodeError): Subnet.info({'id': subnet['id']})
def test_positive_delete_by_id(self): """Check if Subnet can be deleted @Feature: Subnet - Delete @Assert: Subnet is deleted """ for name in valid_data_list(): with self.subTest(name): subnet = make_subnet({'name': name}) Subnet.delete({'id': subnet['id']}) with self.assertRaises(CLIReturnCodeError): Subnet.info({'id': subnet['id']})
def test_positive_delete_by_id(self): """Check if Subnet can be deleted :id: ad269df8-4bb2-46a5-9c82-010a80087408 :expectedresults: Subnet is deleted :CaseImportance: Critical """ for name in valid_data_list(): with self.subTest(name): subnet = make_subnet({'name': name}) Subnet.delete({'id': subnet['id']}) with self.assertRaises(CLIReturnCodeError): Subnet.info({'id': subnet['id']})
def test_positive_delete_1(self, test_name): """@Test: Check if Subnet can be deleted @Feature: Subnet - Delete @Assert: Subnet is deleted """ try: new_subnet = make_subnet({'name': test_name}) except CLIFactoryError as err: self.fail(err) # Fetch it result = Subnet.info({'id': new_subnet['id']}) self.assertEqual(result.return_code, 0, "Subnet was not found") self.assertEqual(len(result.stderr), 0, "No error was expected") # Delete it result = Subnet.delete({'id': result.stdout['id']}) self.assertEqual(result.return_code, 0, "Subnet was not deleted") self.assertEqual(len(result.stderr), 0, "No error was expected") # Fetch it again result = Subnet.info({'id': new_subnet['id']}) self.assertGreater(result.return_code, 0, "Subnet should not be found") self.assertGreater(len(result.stderr), 0, "No error was expected")
def test_positive_delete_1(self, test_name): """ @Test: Check if Subnet can be deleted @Feature: Subnet - Delete @Assert: Subnet is deleted """ new_subnet = make_subnet({'name': test_name['name']}) # Fetch it result = Subnet.info({'id': new_subnet['id']}) self.assertEqual( result.return_code, 0, "Subnet was not found") self.assertEqual( len(result.stderr), 0, "No error was expected") # Delete it result = Subnet.delete({'id': result.stdout['id']}) self.assertEqual( result.return_code, 0, "Subnet was not deleted") self.assertEqual( len(result.stderr), 0, "No error was expected") # Fetch it again result = Subnet.info({'id': new_subnet['id']}) self.assertGreater( result.return_code, 0, "Subnet should not be found") self.assertGreater( len(result.stderr), 0, "No error was expected")
def test_delete(self): """ @Feature: Subnet - Delete @Test: Check if Subnet can be deleted @Assert: Subnet is deleted """ name = generate_name() options = {} options['name'] = name result = Subnet.create_minimal(name) self.assertTrue(result.return_code == 0, "Subnet create - exit code %d" % result.return_code) result = Subnet.delete(options) self.assertTrue(result.return_code == 0, "Subnet delete - exit code %d" % result.return_code)
def test_positive_delete_1(self, test_name): """@Test: Check if Subnet can be deleted @Feature: Subnet - Delete @Assert: Subnet is deleted """ try: subnet = make_subnet({'name': test_name}) except CLIFactoryError as err: self.fail(err) # Delete it result = Subnet.delete({'id': subnet['id']}) self.assertEqual(result.return_code, 0) self.assertEqual(len(result.stderr), 0) # Fetch it again result = Subnet.info({'id': subnet['id']}) self.assertGreater(result.return_code, 0) self.assertGreater(len(result.stderr), 0)
def _cleanup(): if Subnet.exists(search=('name', subnet['name'])): Subnet.delete(options={'id': subnet['id']})
def test_positive_CRUD(self): """Create, update and delete subnet :id: d74a52a7-df56-44ef-89a3-081c14e81e43 :expectedresults: Subnet is created, updated and deleted :CaseImportance: Critical """ name = valid_data_list()[0] pool = sorted(valid_addr_pools()[0]) mask = '255.255.255.0' # generate pool range from network address network = gen_ipaddr() from_ip = re.sub(r'\d+$', str(pool[0]), network) to_ip = re.sub(r'\d+$', str(pool[1]), network) domains_amount = random.randint(3, 5) domains = [make_domain() for _ in range(domains_amount)] gateway = gen_ipaddr(ip3=True) ipam_type = SUBNET_IPAM_TYPES['dhcp'] subnet = make_subnet( { 'name': name, 'from': from_ip, 'mask': mask, 'network': network, 'to': to_ip, 'domain-ids': [domain['id'] for domain in domains], 'gateway': gateway, 'ipam': ipam_type, } ) # Check if Subnet can be listed subnets_ids = [subnet_['id'] for subnet_ in Subnet.list()] self.assertIn(subnet['id'], subnets_ids) self.assertEqual(subnet['name'], name) self.assertEqual(subnet['start-of-ip-range'], from_ip) self.assertEqual(subnet['end-of-ip-range'], to_ip) self.assertEqual(len(subnet['domains']), domains_amount) for domain in domains: self.assertIn(domain['name'], subnet['domains']) self.assertIn(gateway, subnet['gateway-addr']) self.assertIn(ipam_type, subnet['ipam']) # update subnet new_name = valid_data_list()[0] pool = sorted(valid_addr_pools()[0]) # generate pool range from network address new_network = gen_ipaddr() new_mask = '255.255.192.0' ip_from = re.sub(r'\d+$', str(pool[0]), new_network) ip_to = re.sub(r'\d+$', str(pool[1]), new_network) ipam_type = SUBNET_IPAM_TYPES['internal'] Subnet.update( { 'new-name': new_name, 'from': ip_from, 'id': subnet['id'], 'to': ip_to, 'mask': new_mask, 'network': new_network, 'ipam': ipam_type, 'domain-ids': "", # delete domains needed for subnet delete } ) subnet = Subnet.info({'id': subnet['id']}) self.assertEqual(subnet['name'], new_name) self.assertEqual(subnet['start-of-ip-range'], ip_from) self.assertEqual(subnet['end-of-ip-range'], ip_to) self.assertEqual(subnet['network-addr'], new_network) self.assertEqual(subnet['network-mask'], new_mask) self.assertIn(ipam_type, subnet['ipam']) # delete subnet Subnet.delete({'id': subnet['id']}) with self.assertRaises(CLIReturnCodeError): Subnet.info({'id': subnet['id']})