#!/usr/bin/env python ############################################################################## # Copyright (c) 2020 Orange, Inc. and others. All rights reserved. # # All rights reserved. This program and the accompanying materials # are made available under the terms of the Apache License, Version 2.0 # which accompanies this distribution, and is available at # http://www.apache.org/licenses/LICENSE-2.0 ############################################################################## # pylint: disable=no-member # pylint: disable=too-many-public-methods import unittest import time import requests from common import test_utils class TransportPCEtesting(unittest.TestCase): processes = None @classmethod def setUpClass(cls): cls.processes = test_utils.start_tpce() cls.processes = test_utils.start_sims(['spdra']) @classmethod def tearDownClass(cls): for process in cls.processes: test_utils.shutdown_process(process) print("all processes killed") def setUp(self): time.sleep(5) def test_01_connect_SPDR_SA1(self): response = test_utils.mount_device("SPDR-SA1", 'spdra') self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) time.sleep(10) response = test_utils.get_netconf_oper_request("SPDR-SA1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['node'][0]['netconf-node-topology:connection-status'], 'connected') def test_02_get_portmapping_CLIENT4(self): response = test_utils.portmapping_request("SPDR-SA1/mapping/XPDR1-CLIENT4") self.assertEqual(response.status_code, requests.codes.ok) res_mapping = (response.json())['mapping'][0] self.assertEqual('CP1-SFP4-P1', res_mapping['supporting-port']) self.assertEqual('CP1-SFP4', res_mapping['supporting-circuit-pack-name']) self.assertEqual('XPDR1-CLIENT4', res_mapping['logical-connection-point']) self.assertEqual('bidirectional', res_mapping['port-direction']) self.assertEqual('xpdr-client', res_mapping['port-qual']) self.assertEqual('FqlcrxV7p3g=', res_mapping['lcp-hash-val']) self.assertIn('org-openroadm-port-types:if-10GE-ODU2e', res_mapping['supported-interface-capability']) self.assertIn('org-openroadm-port-types:if-10GE-ODU2', res_mapping['supported-interface-capability']) self.assertIn('org-openroadm-port-types:if-10GE', res_mapping['supported-interface-capability']) def test_03_get_portmapping_NETWORK1(self): response = test_utils.portmapping_request("SPDR-SA1/mapping/XPDR1-NETWORK1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn( {"logical-connection-point": "XPDR1-NETWORK1", "supporting-port": "CP1-CFP0-P1", "supported-interface-capability": [ "org-openroadm-port-types:if-OCH-OTU4-ODU4" ], "port-direction": "bidirectional", "port-qual": "xpdr-network", "supporting-circuit-pack-name": "CP1-CFP0", "xponder-type": "mpdr", 'lcp-hash-val': 'Swfw02qXGyI='}, res['mapping']) def test_04_service_path_create_OCH_OTU4(self): response = test_utils.service_path_request("create", "service_OCH_OTU4", "1", [{"node-id": "SPDR-SA1", "dest-tp": "XPDR1-NETWORK1"}]) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Roadm-connection successfully created for nodes: ', res["output"]["result"]) self.assertTrue(res["output"]["success"]) self.assertIn( {'node-id': 'SPDR-SA1', 'otu-interface-id': ['XPDR1-NETWORK1-OTU'], 'och-interface-id': ['XPDR1-NETWORK1-1']}, res["output"]['node-interface']) def test_05_get_portmapping_NETWORK1(self): response = test_utils.portmapping_request("SPDR-SA1/mapping/XPDR1-NETWORK1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn( {"logical-connection-point": "XPDR1-NETWORK1", "supporting-port": "CP1-CFP0-P1", "supported-interface-capability": [ "org-openroadm-port-types:if-OCH-OTU4-ODU4" ], "port-direction": "bidirectional", "port-qual": "xpdr-network", "supporting-circuit-pack-name": "CP1-CFP0", "xponder-type": "mpdr", "lcp-hash-val": "Swfw02qXGyI="}, res['mapping']) def test_06_check_interface_och(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertDictEqual(dict(res['interface'][0], **{'name': 'XPDR1-NETWORK1-1', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-CFP0', 'type': 'org-openroadm-interfaces:opticalChannel', 'supporting-port': 'CP1-CFP0-P1' }), res['interface'][0]) self.assertDictEqual( {u'frequency': 196.1, u'rate': u'org-openroadm-common-types:R100G', u'transmit-power': -5, u'modulation-format': 'dp-qpsk'}, res['interface'][0]['org-openroadm-optical-channel-interfaces:och']) def test_07_check_interface_OTU(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-OTU") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-OTU', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-CFP0', 'supporting-interface': 'XPDR1-NETWORK1-1', 'type': 'org-openroadm-interfaces:otnOtu', 'supporting-port': 'CP1-CFP0-P1' } input_dict_2 = {'tx-dapi': 'Swfw02qXGyI=', 'expected-sapi': 'Swfw02qXGyI=', 'tx-sapi': 'Swfw02qXGyI=', 'expected-dapi': 'Swfw02qXGyI=', 'rate': 'org-openroadm-otn-common-types:OTU4', 'fec': 'scfec' } self.assertDictEqual(dict(res['interface'][0], **input_dict_1), res['interface'][0]) self.assertDictEqual(input_dict_2, res['interface'][0]['org-openroadm-otn-otu-interfaces:otu']) def test_08_otn_service_path_create_ODU4(self): response = test_utils.otn_service_path_request("create", "service_ODU4", "100G", "ODU", [{"node-id": "SPDR-SA1", "network-tp": "XPDR1-NETWORK1"}]) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Otn Service path was set up successfully for node :SPDR-SA1', res["output"]["result"]) self.assertTrue(res["output"]["success"]) self.assertIn( {'node-id': 'SPDR-SA1', 'odu-interface-id': ['XPDR1-NETWORK1-ODU4']}, res["output"]['node-interface']) def test_09_get_portmapping_NETWORK1(self): response = test_utils.portmapping_request("SPDR-SA1/mapping/XPDR1-NETWORK1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn( {"logical-connection-point": "XPDR1-NETWORK1", "supporting-port": "CP1-CFP0-P1", "supported-interface-capability": [ "org-openroadm-port-types:if-OCH-OTU4-ODU4" ], "port-direction": "bidirectional", "port-qual": "xpdr-network", "supporting-circuit-pack-name": "CP1-CFP0", "xponder-type": "mpdr", "supporting-odu4": "XPDR1-NETWORK1-ODU4", "lcp-hash-val": "Swfw02qXGyI=" }, res['mapping']) def test_10_check_interface_ODU4(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-CFP0', 'supporting-interface': 'XPDR1-NETWORK1-OTU', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'CP1-CFP0-P1'} input_dict_2 = {'odu-function': 'org-openroadm-otn-common-types:ODU-TTP', 'rate': 'org-openroadm-otn-common-types:ODU4', 'expected-dapi': 'Swfw02qXGyI=', 'expected-sapi': 'Swfw02qXGyI=', 'tx-dapi': 'Swfw02qXGyI=', 'tx-sapi': 'Swfw02qXGyI='} self.assertDictEqual(dict(res['interface'][0], **input_dict_1), res['interface'][0]) self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'], **input_dict_2 ), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'] ) self.assertDictEqual( {u'payload-type': u'21', u'exp-payload-type': u'21'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_11_otn_service_path_create_10GE(self): response = test_utils.otn_service_path_request("create", "service1", "10G", "Ethernet", [{"node-id": "SPDR-SA1", "client-tp": "XPDR1-CLIENT4", "network-tp": "XPDR1-NETWORK1"}], {"ethernet-encoding": "eth encode", "trib-slot": ["1"], "trib-port-number": "1"}) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Otn Service path was set up successfully for node :SPDR-SA1', res["output"]["result"]) self.assertTrue(res["output"]["success"]) self.assertEqual('SPDR-SA1', res["output"]['node-interface'][0]['node-id']) self.assertIn('XPDR1-CLIENT4-ODU2e-service1-x-XPDR1-NETWORK1-ODU2e-service1', res["output"]['node-interface'][0]['connection-id']) self.assertIn('XPDR1-CLIENT4-ETHERNET10G', res["output"]['node-interface'][0]['eth-interface-id']) self.assertIn('XPDR1-NETWORK1-ODU2e-service1', res["output"]['node-interface'][0]['odu-interface-id']) self.assertIn('XPDR1-CLIENT4-ODU2e-service1', res["output"]['node-interface'][0]['odu-interface-id']) def test_12_check_interface_10GE_CLIENT(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-CLIENT4-ETHERNET10G") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict = {'name': 'XPDR1-CLIENT4-ETHERNET10G', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-SFP4', 'type': 'org-openroadm-interfaces:ethernetCsmacd', 'supporting-port': 'CP1-SFP4-P1' } self.assertDictEqual(dict(res['interface'][0], **input_dict), res['interface'][0]) self.assertDictEqual( {u'speed': 10000}, res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']) def test_13_check_interface_ODU2E_CLIENT(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-CLIENT4-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-CLIENT4-ODU2e-service1', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-SFP4', 'supporting-interface': 'XPDR1-CLIENT4-ETHERNET10G', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'CP1-SFP4-P1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-TTP-CTP', 'rate': 'org-openroadm-otn-common-types:ODU2e', 'monitoring-mode': 'terminated'} self.assertDictEqual(dict(res['interface'][0], **input_dict_1), res['interface'][0]) self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'], **input_dict_2), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual( {u'payload-type': u'03', u'exp-payload-type': u'03'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_14_check_interface_ODU2E_NETWORK(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU2e-service1', 'administrative-state': 'inService', 'supporting-circuit-pack-name': 'CP1-CFP0', 'supporting-interface': 'XPDR1-NETWORK1-ODU4', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'CP1-CFP0-P1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-CTP', 'rate': 'org-openroadm-otn-common-types:ODU2e', 'monitoring-mode': 'monitored'} input_dict_3 = {'trib-port-number': 1} self.assertDictEqual(dict(res['interface'][0], **input_dict_1), res['interface'][0]) self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'], **input_dict_2), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation'], **input_dict_3 ), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']) self.assertIn(1, res['interface'][0][ 'org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']['trib-slots']) def test_15_check_ODU2E_connection(self): response = test_utils.check_netconf_node_request( "SPDR-SA1", "odu-connection/XPDR1-CLIENT4-ODU2e-service1-x-XPDR1-NETWORK1-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = { 'connection-name': 'XPDR1-CLIENT4-ODU2e-service1-x-XPDR1-NETWORK1-ODU2e-service1', 'direction': 'bidirectional' } self.assertDictEqual(dict(res['odu-connection'][0], **input_dict_1), res['odu-connection'][0]) self.assertDictEqual({u'dst-if': u'XPDR1-NETWORK1-ODU2e-service1'}, res['odu-connection'][0]['destination']) self.assertDictEqual({u'src-if': u'XPDR1-CLIENT4-ODU2e-service1'}, res['odu-connection'][0]['source']) def test_16_otn_service_path_delete_10GE(self): response = test_utils.otn_service_path_request("delete", "service1", "10G", "Ethernet", [{"node-id": "SPDR-SA1", "client-tp": "XPDR1-CLIENT4", "network-tp": "XPDR1-NETWORK1"}], {"ethernet-encoding": "eth encode", "trib-slot": ["1"], "trib-port-number": "1"}) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Request processed', res["output"]["result"]) self.assertTrue(res["output"]["success"]) def test_17_check_no_ODU2E_connection(self): response = test_utils.check_netconf_node_request( "SPDR-SA1", "odu-connection/XPDR1-CLIENT4-ODU2e-service1-x-XPDR1-NETWORK1-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.conflict) def test_18_check_no_interface_ODU2E_NETWORK(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.conflict) def test_19_check_no_interface_ODU2E_CLIENT(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-CLIENT4-ODU2e-service1") self.assertEqual(response.status_code, requests.codes.conflict) def test_20_check_no_interface_10GE_CLIENT(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-CLIENT4-ETHERNET10G") self.assertEqual(response.status_code, requests.codes.conflict) def test_21_otn_service_path_delete_ODU4(self): response = test_utils.otn_service_path_request("delete", "service_ODU4", "100G", "ODU", [{"node-id": "SPDR-SA1", "network-tp": "XPDR1-NETWORK1"}]) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Request processed', res["output"]["result"]) self.assertTrue(res["output"]["success"]) def test_22_check_no_interface_ODU4(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4") self.assertEqual(response.status_code, requests.codes.conflict) def test_23_service_path_delete_OCH_OTU4(self): response = test_utils.service_path_request("delete", "service_OCH_OTU4", "1", [{"node-id": "SPDR-SA1", "dest-tp": "XPDR1-NETWORK1"}]) time.sleep(3) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Request processed', res["output"]["result"]) self.assertTrue(res["output"]["success"]) def test_24_check_no_interface_OTU4(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-OTU") self.assertEqual(response.status_code, requests.codes.conflict) def test_25_check_no_interface_OCH(self): response = test_utils.check_netconf_node_request("SPDR-SA1", "interface/XPDR1-NETWORK1-1") self.assertEqual(response.status_code, requests.codes.conflict) def test_26_disconnect_SPDR_SA1(self): response = test_utils.unmount_device("SPDR-SA1") self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200) if __name__ == "__main__": unittest.main(verbosity=2)