#!/usr/bin/env python ############################################################################## # Copyright (c) 2021 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=invalid-name # pylint: disable=no-member # pylint: disable=too-many-public-methods # pylint: disable=too-many-lines import base64 import unittest import time import requests # pylint: disable=wrong-import-order import sys sys.path.append('transportpce_tests/common/') # pylint: disable=wrong-import-position # pylint: disable=import-error import test_utils # nopep8 class TransportPCEtesting(unittest.TestCase): processes = None WAITING = 20 # nominal value is 300 NODE_VERSION_221 = '2.2.1' NODE_VERSION_71 = '7.1' cr_serv_sample_data = {"input": { "sdnc-request-header": { "request-id": "request-1", "rpc-action": "service-create", "request-system-id": "appname" }, "service-name": "service1-OTUC4", "common-id": "commonId", "connection-type": "infrastructure", "service-a-end": { "service-rate": "400", "node-id": "XPDR-A2", "service-format": "OTU", "otu-service-rate": "org-openroadm-otn-common-types:OTUCn", "clli": "NodeSA", "subrate-eth-sla": { "subrate-eth-sla": { "committed-info-rate": "100000", "committed-burst-size": "64" } }, "tx-direction": { "port": { "port-device-name": "XPDR-A2-XPDR2", "port-type": "fixed", "port-name": "XPDR2-NETWORK1", "port-rack": "000000.00", "port-shelf": "Chassis#1" }, "lgx": { "lgx-device-name": "Some lgx-device-name", "lgx-port-name": "Some lgx-port-name", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" } }, "rx-direction": { "port": { "port-device-name": "XPDR-A2-XPDR2", "port-type": "fixed", "port-name": "XPDR2-NETWORK1", "port-rack": "000000.00", "port-shelf": "Chassis#1" }, "lgx": { "lgx-device-name": "Some lgx-device-name", "lgx-port-name": "Some lgx-port-name", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" } }, "optic-type": "gray" }, "service-z-end": { "service-rate": "400", "node-id": "XPDR-C2", "service-format": "OTU", "otu-service-rate": "org-openroadm-otn-common-types:OTUCn", "clli": "NodeSC", "subrate-eth-sla": { "subrate-eth-sla": { "committed-info-rate": "100000", "committed-burst-size": "64" } }, "tx-direction": { "port": { "port-device-name": "XPDR-C2-XPDR2", "port-type": "fixed", "port-name": "XPDR2-NETWORK1", "port-rack": "000000.00", "port-shelf": "Chassis#1" }, "lgx": { "lgx-device-name": "Some lgx-device-name", "lgx-port-name": "Some lgx-port-name", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" } }, "rx-direction": { "port": { "port-device-name": "XPDR-C2-XPDR2", "port-type": "fixed", "port-name": "XPDR2-NETWORK1", "port-rack": "000000.00", "port-shelf": "Chassis#1" }, "lgx": { "lgx-device-name": "Some lgx-device-name", "lgx-port-name": "Some lgx-port-name", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" } }, "optic-type": "gray" }, "due-date": "2018-06-15T00:00:01Z", "operator-contact": "pw1234" } } @classmethod def setUpClass(cls): cls.processes = test_utils.start_tpce() cls.processes = test_utils.start_sims([('xpdra2', cls.NODE_VERSION_71), ('roadma', cls.NODE_VERSION_221), ('roadmc', cls.NODE_VERSION_221), ('xpdrc2', cls.NODE_VERSION_71)]) @classmethod def tearDownClass(cls): # pylint: disable=not-an-iterable for process in cls.processes: test_utils.shutdown_process(process) print("all processes killed") def setUp(self): time.sleep(5) def test_01_connect_xpdra2(self): response = test_utils.mount_device("XPDR-A2", ('xpdra2', self.NODE_VERSION_71)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_02_connect_xpdrc2(self): response = test_utils.mount_device("XPDR-C2", ('xpdrc2', self.NODE_VERSION_71)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_03_connect_rdma(self): response = test_utils.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION_221)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_04_connect_rdmc(self): response = test_utils.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION_221)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_05_connect_xprda2_2_N1_to_roadma_PP2(self): response = test_utils.connect_xpdr_to_rdm_request("XPDR-A2", "2", "1", "ROADM-A1", "1", "SRG1-PP2-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Xponder Roadm Link created successfully', res["output"]["result"]) time.sleep(2) def test_06_connect_roadma_PP2_to_xpdra2_2_N1(self): response = test_utils.connect_rdm_to_xpdr_request("XPDR-A2", "2", "1", "ROADM-A1", "1", "SRG1-PP2-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Roadm Xponder links created successfully', res["output"]["result"]) time.sleep(2) def test_07_connect_xprdc2_2_N1_to_roadmc_PP2(self): response = test_utils.connect_xpdr_to_rdm_request("XPDR-C2", "2", "1", "ROADM-C1", "1", "SRG1-PP2-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Xponder Roadm Link created successfully', res["output"]["result"]) time.sleep(2) def test_08_connect_roadmc_PP2_to_xpdrc2_2_N1(self): response = test_utils.connect_rdm_to_xpdr_request("XPDR-C2", "2", "1", "ROADM-C1", "1", "SRG1-PP2-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Roadm Xponder links created successfully', res["output"]["result"]) time.sleep(2) def test_09_add_omsAttributes_roadma_roadmc(self): # Config ROADMA-ROADMC oms-attributes data = {"span": { "auto-spanloss": "true", "spanloss-base": 11.4, "spanloss-current": 12, "engineered-spanloss": 12.2, "link-concatenation": [{ "SRLG-Id": 0, "fiber-type": "smf", "SRLG-length": 100000, "pmd": 0.5}]}} response = test_utils.add_oms_attr_request( "ROADM-A1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG1-DEG1-TTP-TXRX", data) self.assertEqual(response.status_code, requests.codes.created) def test_10_add_omsAttributes_roadmc_roadma(self): # Config ROADMC-ROADMA oms-attributes data = {"span": { "auto-spanloss": "true", "spanloss-base": 11.4, "spanloss-current": 12, "engineered-spanloss": 12.2, "link-concatenation": [{ "SRLG-Id": 0, "fiber-type": "smf", "SRLG-length": 100000, "pmd": 0.5}]}} response = test_utils.add_oms_attr_request( "ROADM-C1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG2-DEG2-TTP-TXRX", data) self.assertEqual(response.status_code, requests.codes.created) # test service-create for OCH-OTU4 service from xpdra2 to xpdrc2 def test_11_check_otn_topology(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nbNode = len(res['network'][0]['node']) self.assertEqual(nbNode, 4, 'There should be 4 nodes') self.assertNotIn('ietf-network-topology:link', res['network'][0]) def test_12_create_OTUC4_service(self): response = test_utils.service_create_request(self.cr_serv_sample_data) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('PCE calculation in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_13_get_OTUC4_service1(self): response = test_utils.get_service_list_request( "services/service1-OTUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['services'][0]['administrative-state'], 'inService') self.assertEqual( res['services'][0]['service-name'], 'service1-OTUC4') self.assertEqual( res['services'][0]['connection-type'], 'infrastructure') self.assertEqual( res['services'][0]['lifecycle-state'], 'planned') self.assertEqual( res['services'][0]['service-layer'], 'wdm') self.assertEqual( res['services'][0]['service-a-end']['service-rate'], 400) self.assertEqual( res['services'][0]['service-a-end']['otu-service-rate'], 'org-openroadm-otn-common-types:OTUCn') time.sleep(2) self.assertEqual( res['services'][0]['service-z-end']['otu-service-rate'], 'org-openroadm-otn-common-types:OTUCn') time.sleep(2) # Check correct configuration of devices def test_14_check_interface_och_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-755:768") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-755:768', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'type': 'org-openroadm-interfaces:otsi', 'supporting-port': 'L1' }, **res['interface'][0]), res['interface'][0]) self.assertDictEqual( dict({'frequency': 196.0812, 'otsi-rate': 'org-openroadm-common-optical-channel-types:R400G-otsi', 'transmit-power': -5, 'modulation-format': 'dp-qam16'}, **res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']), res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']) def test_15_check_interface_OTSI_GROUP_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-OTSI-GROUP") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-OTUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-755:768', 'type': 'org-openroadm-interfaces:otsi-group', 'supporting-port': 'L1' } input_dict_2 = {"group-id": 1, "group-rate": "org-openroadm-common-optical-channel-types:R400G-otsi" } self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0] ['org-openroadm-otsi-group-interfaces:otsi-group']), res['interface'][0] ['org-openroadm-otsi-group-interfaces:otsi-group']) def test_16_check_interface_OTUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-OTUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-OTSI-GROUP', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-OTSI-GROUP', 'type': 'org-openroadm-interfaces:otnOtu', 'supporting-port': 'L1' } input_dict_2 = {'tx-sapi': 'LY9PxYJqUbw=', 'expected-dapi': 'LY9PxYJqUbw=', 'rate': 'org-openroadm-otn-common-types:OTUCn', 'degthr-percentage': 100, 'degm-intervals': 2, 'otucn-n-rate': 4 } self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-otu-interfaces:otu']), res['interface'][0] ['org-openroadm-otn-otu-interfaces:otu']) def test_17_check_interface_och_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-NETWORK1-755:768") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-755:768', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'type': 'org-openroadm-interfaces:otsi', 'supporting-port': 'L1' }, **res['interface'][0]), res['interface'][0]) self.assertDictEqual( dict({'frequency': 196.0812, 'otsi-rate': 'org-openroadm-common-optical-channel-types:R400G-otsi', 'transmit-power': -5, 'modulation-format': 'dp-qam16'}, **res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']), res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']) def test_18_check_interface_OTSI_GROUP_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-NETWORK1-OTSI-GROUP") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-OTSI-GROUP', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-755:768', 'type': 'org-openroadm-interfaces:otsi-group', 'supporting-port': 'L1' } input_dict_2 = {"group-id": 1, "group-rate": "org-openroadm-common-optical-channel-types:R400G-otsi" } self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0] ['org-openroadm-otsi-group-interfaces:otsi-group']), res['interface'][0] ['org-openroadm-otsi-group-interfaces:otsi-group']) def test_19_check_interface_OTUC4_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-NETWORK1-OTUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-OTUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-OTSI-GROUP', 'type': 'org-openroadm-interfaces:otnOtu', 'supporting-port': 'L1' } input_dict_2 = {'tx-dapi': 'LY9PxYJqUbw=', 'expected-sapi': 'LY9PxYJqUbw=', 'tx-sapi': 'Nmbu2MNHvc4=', 'expected-dapi': 'Nmbu2MNHvc4=', 'rate': 'org-openroadm-otn-common-types:OTUCn', 'degthr-percentage': 100, 'degm-intervals': 2, 'otucn-n-rate': 4 } self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-otu-interfaces:otu']), res['interface'][0] ['org-openroadm-otn-otu-interfaces:otu']) def test_20_check_no_interface_ODUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.conflict) res = response.json() self.assertIn( {"error-type": "application", "error-tag": "data-missing", "error-message": "Request could not be completed because the relevant data model content does not exist"}, res['errors']['error']) def test_21_check_openroadm_topo_xpdra2(self): response = test_utils.get_ordm_topo_request("node/XPDR-A2-XPDR2") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() ele = res['node'][0]['ietf-network-topology:termination-point'][0] self.assertEqual('XPDR2-NETWORK1', ele['tp-id']) self.assertEqual({'frequency': 196.08125, 'width': 75}, ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']) time.sleep(3) def test_22_check_otn_topo_OTUC4_links(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nb_links = len(res['network'][0]['ietf-network-topology:link']) self.assertEqual(nb_links, 2) listLinkId = ['OTUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'OTUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1'] for link in res['network'][0]['ietf-network-topology:link']: self.assertIn(link['link-id'], listLinkId) self.assertEqual( link['transportpce-topology:otn-link-type'], 'OTUC4') self.assertEqual( link['org-openroadm-common-network:link-type'], 'OTN-LINK') self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 400000) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 0) self.assertIn( link['org-openroadm-common-network:opposite-link'], listLinkId) # test service-create for ODU4 service from xpdra2 to xpdrc2 def test_23_create_ODUC4_service(self): self.cr_serv_sample_data["input"]["service-name"] = "service1-ODUC4" self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "ODU" del self.cr_serv_sample_data["input"]["service-a-end"]["otu-service-rate"] self.cr_serv_sample_data["input"]["service-a-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODUCn" self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "ODU" del self.cr_serv_sample_data["input"]["service-z-end"]["otu-service-rate"] self.cr_serv_sample_data["input"]["service-z-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODUCn" response = test_utils.service_create_request(self.cr_serv_sample_data) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('PCE calculation in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_24_get_ODUC4_service1(self): response = test_utils.get_service_list_request( "services/service1-ODUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['services'][0]['administrative-state'], 'inService') self.assertEqual( res['services'][0]['service-name'], 'service1-ODUC4') self.assertEqual( res['services'][0]['connection-type'], 'infrastructure') self.assertEqual( res['services'][0]['lifecycle-state'], 'planned') self.assertEqual( res['services'][0]['service-layer'], 'wdm') self.assertEqual( res['services'][0]['service-a-end']['service-rate'], 400) self.assertEqual( res['services'][0]['service-a-end']['odu-service-rate'], 'org-openroadm-otn-common-types:ODUCn') self.assertEqual( res['services'][0]['service-z-end']['odu-service-rate'], 'org-openroadm-otn-common-types:ODUCn') time.sleep(2) def test_25_check_interface_ODUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-ODUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-OTUC4', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'L1'} # SAPI/DAPI are added in the Otu4 renderer input_dict_2 = {'odu-function': 'org-openroadm-otn-common-types:ODU-TTP', 'rate': 'org-openroadm-otn-common-types:ODUCn', 'expected-dapi': 'Nmbu2MNHvc4=', 'expected-sapi': 'Nmbu2MNHvc4=', 'tx-dapi': 'Nmbu2MNHvc4=', 'tx-sapi': 'LY9PxYJqUbw='} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual( {'payload-type': '22', 'exp-payload-type': '22'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_26_check_interface_ODUC4_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-ODUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-OTUC4', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'L1'} # SAPI/DAPI are added in the Otu4 renderer input_dict_2 = {'odu-function': 'org-openroadm-otn-common-types:ODU-TTP', 'rate': 'org-openroadm-otn-common-types:ODUCn', 'tx-sapi': 'Nmbu2MNHvc4=', 'tx-dapi': 'LY9PxYJqUbw=', 'expected-sapi': 'LY9PxYJqUbw=', 'expected-dapi': 'LY9PxYJqUbw=' } self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual( {'payload-type': '22', 'exp-payload-type': '22'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_27_check_otn_topo_links(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nb_links = len(res['network'][0]['ietf-network-topology:link']) self.assertEqual(nb_links, 4) for link in res['network'][0]['ietf-network-topology:link']: linkId = link['link-id'] if (linkId in ('OTUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'OTUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1')): self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 0) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 400000) elif (linkId in ('ODUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'ODUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1')): self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 400000) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 0) self.assertEqual( link['transportpce-topology:otn-link-type'], 'ODUC4') self.assertEqual( link['org-openroadm-common-network:link-type'], 'OTN-LINK') self.assertIn(link['org-openroadm-common-network:opposite-link'], ['ODUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'ODUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1']) else: self.fail("this link should not exist") def test_28_check_otn_topo_tp(self): response = test_utils.get_otn_topo_request() res = response.json() for node in res['network'][0]['node']: if node['node-id'] == 'XPDR-A2-XPDR2' or 'XPDR-C2-XPDR2': tpList = node['ietf-network-topology:termination-point'] for tp in tpList: if tp['tp-id'] == 'XPDR2-NETWORK1': xpdrTpPortConAt = tp['org-openroadm-otn-network-topology:xpdr-tp-port-connection-attributes'] self.assertEqual(len(xpdrTpPortConAt['ts-pool']), 80) self.assertEqual( len(xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']), 4) self.assertEqual(xpdrTpPortConAt['odtu-tpn-pool'][0]['odtu-type'], 'org-openroadm-otn-common-types:ODTU4.ts-Allocated') # test service-create for 100GE service 1 from xpdra2 to xpdrc2 def test_29_create_100GE_service_1(self): self.cr_serv_sample_data["input"]["service-name"] = "service-100GE" self.cr_serv_sample_data["input"]["connection-type"] = "service" self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "100" self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "Ethernet" del self.cr_serv_sample_data["input"]["service-a-end"]["odu-service-rate"] self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"]["port"]["port-name"] = "XPDR2-CLIENT1" self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"]["port"]["port-name"] = "XPDR2-CLIENT1" self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "100" self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "Ethernet" del self.cr_serv_sample_data["input"]["service-z-end"]["odu-service-rate"] self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"]["port"]["port-name"] = "XPDR2-CLIENT1" self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"]["port"]["port-name"] = "XPDR2-CLIENT1" response = test_utils.service_create_request(self.cr_serv_sample_data) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('PCE calculation in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_30_get_100GE_service_1(self): response = test_utils.get_service_list_request( "services/service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['services'][0]['administrative-state'], 'inService') self.assertEqual( res['services'][0]['service-name'], 'service-100GE') self.assertEqual( res['services'][0]['connection-type'], 'service') self.assertEqual( res['services'][0]['lifecycle-state'], 'planned') time.sleep(2) def test_31_check_interface_100GE_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-CLIENT1-ETHERNET100G") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-CLIENT1-ETHERNET100G', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/1/1-PLUG-CLIENT', 'type': 'org-openroadm-interfaces:ethernetCsmacd', 'supporting-port': 'C1' } input_dict_2 = {'speed': 100000} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']), res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']) def test_32_check_interface_ODU4_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-CLIENT1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-CLIENT1-ODU4-service-100GE', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/1/1-PLUG-CLIENT', 'supporting-interface-list': 'XPDR2-CLIENT1-ETHERNET100G', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'C1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-TTP-CTP', 'rate': 'org-openroadm-otn-common-types:ODU4', 'monitoring-mode': 'terminated'} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual( {'payload-type': '07', 'exp-payload-type': '07'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_33_check_interface_ODU4_NETWORK_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4-service-100GE', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-ODUC4', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'L1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-CTP', 'rate': 'org-openroadm-otn-common-types:ODU4', 'monitoring-mode': 'not-terminated'} input_dict_3 = {'trib-port-number': 1} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual(dict(input_dict_3, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']) self.assertIn('1.1', res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'] ['opucn-trib-slots']) self.assertIn('1.20', res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'] ['opucn-trib-slots']) def test_34_check_ODU4_connection_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "odu-connection/XPDR2-CLIENT1-ODU4-service-100GE-x-XPDR2-NETWORK1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = { 'connection-name': 'XPDR2-CLIENT1-ODU4-service-100GE-x-XPDR2-NETWORK1-ODU4-service-100GE', 'direction': 'bidirectional' } self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]), res['odu-connection'][0]) self.assertDictEqual({'dst-if': 'XPDR2-NETWORK1-ODU4-service-100GE'}, res['odu-connection'][0]['destination']) self.assertDictEqual({'src-if': 'XPDR2-CLIENT1-ODU4-service-100GE'}, res['odu-connection'][0]['source']) def test_35_check_interface_100GE_CLIENT_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-CLIENT1-ETHERNET100G") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-CLIENT1-ETHERNET100G', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/1/1-PLUG-CLIENT', 'type': 'org-openroadm-interfaces:ethernetCsmacd', 'supporting-port': 'C1' } input_dict_2 = {'speed': 100000} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']), res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']) def test_36_check_interface_ODU4_CLIENT_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-CLIENT1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-CLIENT1-ODU4-service-100GE', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/1/1-PLUG-CLIENT', 'supporting-interface-list': 'XPDR2-CLIENT1-ETHERNET100G', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'C1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-TTP-CTP', 'rate': 'org-openroadm-otn-common-types:ODU4', 'monitoring-mode': 'terminated'} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual( {'payload-type': '07', 'exp-payload-type': '07'}, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_37_check_interface_ODU4_NETWORK_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "interface/XPDR2-NETWORK1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4-service-100GE', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/2/2-PLUG-NET', 'supporting-interface-list': 'XPDR2-NETWORK1-ODUC4', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'C1'} input_dict_2 = { 'odu-function': 'org-openroadm-otn-common-types:ODU-CTP', 'rate': 'org-openroadm-otn-common-types:ODU4', 'monitoring-mode': 'not-terminated'} input_dict_3 = {'trib-port-number': 1} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual(dict(input_dict_3, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']) self.assertIn('1.1', res['interface'][0][ 'org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']['opucn-trib-slots']) self.assertIn('1.20', res['interface'][0][ 'org-openroadm-otn-odu-interfaces:odu'][ 'parent-odu-allocation']['opucn-trib-slots']) def test_38_check_ODU4_connection_xpdrc2(self): response = test_utils.check_netconf_node_request( "XPDR-C2", "odu-connection/XPDR2-CLIENT1-ODU4-service-100GE-x-XPDR2-NETWORK1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = { 'connection-name': 'XPDR2-CLIENT1-ODU4-service-100GE-x-XPDR2-NETWORK1-ODU4-service-100GE', 'direction': 'bidirectional' } self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]), res['odu-connection'][0]) self.assertDictEqual({'dst-if': 'XPDR2-NETWORK1-ODU4-service-100GE'}, res['odu-connection'][0]['destination']) self.assertDictEqual({'src-if': 'XPDR2-CLIENT1-ODU4-service-100GE'}, res['odu-connection'][0]['source']) def test_39_check_otn_topo_links(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nb_links = len(res['network'][0]['ietf-network-topology:link']) self.assertEqual(nb_links, 4) for link in res['network'][0]['ietf-network-topology:link']: linkId = link['link-id'] if (linkId in ('ODUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'ODUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1')): self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 300000) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 100000) def test_40_check_otn_topo_tp(self): response = test_utils.get_otn_topo_request() res = response.json() for node in res['network'][0]['node']: if node['node-id'] == 'XPDR-A2-XPDR2' or 'XPDR-C2-XPDR2': tpList = node['ietf-network-topology:termination-point'] for tp in tpList: if tp['tp-id'] == 'XPDR2-NETWORK1': xpdrTpPortConAt = tp['org-openroadm-otn-network-topology:xpdr-tp-port-connection-attributes'] self.assertEqual(len(xpdrTpPortConAt['ts-pool']), 60) tsPoolList = list(range(1, 20)) self.assertNotIn( tsPoolList, xpdrTpPortConAt['ts-pool']) self.assertEqual( len(xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']), 3) self.assertNotIn( 1, xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']) # test service-create for 100GE service 2 from xpdra2 to xpdrc2 def test_41_create_100GE_service_2(self): self.cr_serv_sample_data["input"]["service-name"] = "service-100GE2" self.cr_serv_sample_data["input"]["connection-type"] = "service" self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "100" self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "Ethernet" self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"]["port"]["port-name"] = "XPDR2-CLIENT2" self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"]["port"]["port-name"] = "XPDR2-CLIENT2" self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "100" self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "Ethernet" self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"]["port"]["port-name"] = "XPDR2-CLIENT2" self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"]["port"]["port-name"] = "XPDR2-CLIENT2" response = test_utils.service_create_request(self.cr_serv_sample_data) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('PCE calculation in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_42_get_100GE_service_2(self): response = test_utils.get_service_list_request( "services/service-100GE2") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['services'][0]['administrative-state'], 'inService') self.assertEqual( res['services'][0]['service-name'], 'service-100GE2') self.assertEqual( res['services'][0]['connection-type'], 'service') self.assertEqual( res['services'][0]['lifecycle-state'], 'planned') time.sleep(2) def test_43_check_service_list(self): response = test_utils.get_service_list_request("") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual(len(res['service-list']['services']), 4) time.sleep(2) def test_44_check_otn_topo_links(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nb_links = len(res['network'][0]['ietf-network-topology:link']) self.assertEqual(nb_links, 4) for link in res['network'][0]['ietf-network-topology:link']: linkId = link['link-id'] if (linkId in ('ODUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'ODUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1')): self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 200000) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 200000) def test_45_check_otn_topo_tp(self): response = test_utils.get_otn_topo_request() res = response.json() for node in res['network'][0]['node']: if node['node-id'] == 'XPDR-A2-XPDR2' or 'XPDR-C2-XPDR2': tpList = node['ietf-network-topology:termination-point'] for tp in tpList: if tp['tp-id'] == 'XPDR2-NETWORK1': xpdrTpPortConAt = tp['org-openroadm-otn-network-topology:xpdr-tp-port-connection-attributes'] self.assertEqual(len(xpdrTpPortConAt['ts-pool']), 40) tsPoolList = list(range(1, 40)) self.assertNotIn( tsPoolList, xpdrTpPortConAt['ts-pool']) self.assertEqual( len(xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']), 2) self.assertNotIn( 2, xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']) def test_46_delete_100GE_service_2(self): response = test_utils.service_delete_request("service-100GE2") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Renderer service delete in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_47_delete_100GE_service_1(self): response = test_utils.service_delete_request("service-100GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Renderer service delete in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_48_check_service_list(self): response = test_utils.get_service_list_request("") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual(len(res['service-list']['services']), 2) time.sleep(2) def test_49_check_no_ODU4_connection_xpdra2(self): response = test_utils.check_netconf_node_request("XPDR-A2", "") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertNotIn(['odu-connection'][0], res['org-openroadm-device']) time.sleep(1) def test_50_check_no_interface_ODU4_NETWORK_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.conflict) def test_51_check_no_interface_ODU4_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-CLIENT1-ODU4-service-100GE") self.assertEqual(response.status_code, requests.codes.conflict) def test_52_check_no_interface_100GE_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-CLIENT1-ETHERNET100G") self.assertEqual(response.status_code, requests.codes.conflict) def test_53_check_otn_topo_links(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() nb_links = len(res['network'][0]['ietf-network-topology:link']) self.assertEqual(nb_links, 4) for link in res['network'][0]['ietf-network-topology:link']: linkId = link['link-id'] if (linkId in ('ODUC4-XPDR-A2-XPDR2-XPDR2-NETWORK1toXPDR-C2-XPDR2-XPDR2-NETWORK1', 'ODUC4-XPDR-C2-XPDR2-XPDR2-NETWORK1toXPDR-A2-XPDR2-XPDR2-NETWORK1')): self.assertEqual( link['org-openroadm-otn-network-topology:available-bandwidth'], 400000) self.assertEqual( link['org-openroadm-otn-network-topology:used-bandwidth'], 0) def test_54_check_otn_topo_tp(self): response = test_utils.get_otn_topo_request() res = response.json() for node in res['network'][0]['node']: if (node['node-id'] == 'XPDR-A2-XPDR2' or 'XPDR-C2-XPDR2'): tpList = node['ietf-network-topology:termination-point'] for tp in tpList: if tp['tp-id'] == 'XPDR2-NETWORK1': xpdrTpPortConAt = tp['org-openroadm-otn-network-topology:xpdr-tp-port-connection-attributes'] self.assertEqual(len(xpdrTpPortConAt['ts-pool']), 80) self.assertEqual( len(xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']), 4) def test_55_delete_ODUC4_service(self): response = test_utils.service_delete_request("service1-ODUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Renderer service delete in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_56_check_service_list(self): response = test_utils.get_service_list_request("") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual(len(res['service-list']['services']), 1) time.sleep(2) def test_57_check_no_interface_ODU4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.conflict) def test_58_check_otn_topo_links(self): self.test_22_check_otn_topo_OTUC4_links() def test_59_check_otn_topo_tp(self): response = test_utils.get_otn_topo_request() res = response.json() for node in res['network'][0]['node']: if node['node-id'] == 'XPDR-A2-XPDR2' or 'XPDR-C2-XPDR2': tpList = node['ietf-network-topology:termination-point'] for tp in tpList: if tp['tp-id'] == 'XPDR2-NETWORK1': self.assertNotIn('org-openroadm-otn-network-topology:xpdr-tp-port-connection-attributes', dict.keys(tp)) def test_60_delete_OTUC4_service(self): response = test_utils.service_delete_request("service1-OTUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Renderer service delete in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_61_get_no_service(self): response = test_utils.get_service_list_request("") self.assertEqual(response.status_code, requests.codes.conflict) res = response.json() self.assertIn( {"error-type": "application", "error-tag": "data-missing", "error-message": "Request could not be completed because the relevant data model content does not exist"}, res['errors']['error']) time.sleep(1) def test_62_check_no_interface_OTUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-OTUC4") self.assertEqual(response.status_code, requests.codes.conflict) def test_63_check_no_interface_OCH_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-755:768") self.assertEqual(response.status_code, requests.codes.conflict) def test_64_check_no_interface_OTSI_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR2-NETWORK1-OTSI-GROUP") self.assertEqual(response.status_code, requests.codes.conflict) def test_65_getLinks_OtnTopology(self): response = test_utils.get_otn_topo_request() self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertNotIn('ietf-network-topology:link', res['network'][0]) def test_66_check_openroadm_topo_xpdra2(self): response = test_utils.get_ordm_topo_request("node/XPDR-A2-XPDR2") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() tp = res['node'][0]['ietf-network-topology:termination-point'][0] self.assertEqual('XPDR2-NETWORK1', tp['tp-id']) self.assertNotIn('wavelength', dict.keys( tp['org-openroadm-network-topology:xpdr-network-attributes'])) time.sleep(3) def test_67_check_openroadm_topology(self): response = test_utils.get_ordm_topo_request("") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() links = res['network'][0]['ietf-network-topology:link'] self.assertEqual(22, len(links), 'Topology should contain 22 links') def test_68_connect_xprda2_2_N1_to_roadma_PP2(self): response = test_utils.connect_xpdr_to_rdm_request("XPDR-A2", "1", "1", "ROADM-A1", "1", "SRG1-PP1-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Xponder Roadm Link created successfully', res["output"]["result"]) time.sleep(2) def test_69_connect_roadma_PP2_to_xpdra2_2_N1(self): response = test_utils.connect_rdm_to_xpdr_request("XPDR-A2", "1", "1", "ROADM-A1", "1", "SRG1-PP1-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Roadm Xponder links created successfully', res["output"]["result"]) time.sleep(2) def test_70_connect_xprdc2_2_N1_to_roadmc_PP2(self): response = test_utils.connect_xpdr_to_rdm_request("XPDR-C2", "1", "1", "ROADM-C1", "1", "SRG1-PP1-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Xponder Roadm Link created successfully', res["output"]["result"]) time.sleep(2) def test_71_connect_roadmc_PP2_to_xpdrc2_2_N1(self): response = test_utils.connect_rdm_to_xpdr_request("XPDR-C2", "1", "1", "ROADM-C1", "1", "SRG1-PP1-TXRX") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Roadm Xponder links created successfully', res["output"]["result"]) time.sleep(2) # test service-create for 400GE service from xpdra2 to xpdrc2 def test_72_create_400GE_service(self): self.cr_serv_sample_data["input"]["service-name"] = "service-400GE" self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "400" self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"]["port"]["port-name"] = "XPDR1-CLIENT1" self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"]["port"]["port-name"] = "XPDR1-CLIENT1" self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "400" self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"]["port"]["port-name"] = "XPDR1-CLIENT1" self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"]["port"]["port-name"] = "XPDR1-CLIENT1" response = test_utils.service_create_request(self.cr_serv_sample_data) self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('PCE calculation in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_73_get_400GE_service(self): response = test_utils.get_service_list_request( "services/service-400GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertEqual( res['services'][0]['administrative-state'], 'inService') self.assertEqual( res['services'][0]['service-name'], 'service-400GE') self.assertEqual( res['services'][0]['connection-type'], 'service') self.assertEqual( res['services'][0]['lifecycle-state'], 'planned') time.sleep(2) def test_74_check_xc1_roadma(self): response = test_utils.check_netconf_node_request( "ROADM-A1", "roadm-connections/SRG1-PP1-TXRX-DEG2-TTP-TXRX-755:768") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() # the following statement replaces self.assertDictContainsSubset deprecated in python 3.2 self.assertDictEqual( dict({ 'connection-name': 'SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768', 'opticalControlMode': 'gainLoss', 'target-output-power': -3.0 }, **res['roadm-connections'][0]), res['roadm-connections'][0] ) self.assertDictEqual( {'src-if': 'SRG1-PP1-TXRX-nmc-755:768'}, res['roadm-connections'][0]['source']) self.assertDictEqual( {'dst-if': 'DEG2-TTP-TXRX-nmc-755:768'}, res['roadm-connections'][0]['destination']) time.sleep(5) def test_75_check_topo_xpdra2(self): response = test_utils.get_ordm_topo_request("node/XPDR-A2-XPDR1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() liste_tp = res['node'][0]['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] == 'XPDR1-NETWORK1': self.assertEqual({'frequency': 196.08125, 'width': 75}, ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']) if ele['tp-id'] == 'XPDR1-CLIENT1': self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele)) time.sleep(3) def test_76_check_topo_roadma_SRG1(self): response = test_utils.get_ordm_topo_request("node/ROADM-A1-SRG1") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() freq_map = base64.b64decode( res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 0, "Index 1 should not be available") liste_tp = res['node'][0]['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] == 'SRG1-PP1-TXRX': freq_map = base64.b64decode( ele['org-openroadm-network-topology:pp-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 0, "Index 1 should not be available") if ele['tp-id'] == 'SRG1-PP2-TXRX': self.assertNotIn('avail-freq-maps', dict.keys(ele)) time.sleep(3) def test_77_check_topo_roadma_DEG1(self): response = test_utils.get_ordm_topo_request("node/ROADM-A1-DEG2") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() freq_map = base64.b64decode( res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 0, "Index 1 should not be available") liste_tp = res['node'][0]['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] == 'DEG2-CTP-TXRX': freq_map = base64.b64decode( ele['org-openroadm-network-topology:ctp-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 0, "Index 1 should not be available") if ele['tp-id'] == 'DEG2-TTP-TXRX': freq_map = base64.b64decode( ele['org-openroadm-network-topology:tx-ttp-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 0, "Index 1 should not be available") time.sleep(3) def test_78_check_interface_100GE_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-CLIENT1-ETHERNET") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-CLIENT1-ETHERNET', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/1/1-PLUG-CLIENT', 'type': 'org-openroadm-interfaces:ethernetCsmacd', 'supporting-port': 'C1' } input_dict_2 = {'speed': 400000} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']), res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']) def test_79_check_interface_OTSI_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-755:768") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-755:768', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/1/2-PLUG-NET', 'type': 'org-openroadm-interfaces:otsi', 'supporting-port': 'L1'} input_dict_2 = { "frequency": 196.0812, "otsi-rate": "org-openroadm-common-optical-channel-types:R400G-otsi", "fec": "org-openroadm-common-types:ofec", "transmit-power": -5, "provision-mode": "explicit", "modulation-format": "dp-qam16"} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']), res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']) self.assertDictEqual({"foic-type": "org-openroadm-common-optical-channel-types:foic4.8", "iid": [1, 2, 3, 4]}, res['interface'][0]['org-openroadm-optical-tributary-signal-interfaces:otsi']['flexo']) def test_80_check_interface_OTSI_GROUP_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-OTSI-GROUP") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-CLIENT1-ODU2e-service1-10GE', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/1/2-PLUG-NET', ['supporting-interface-list'][0]: 'XPDR1-NETWORK1-755:768', 'type': 'org-openroadm-interfaces:otsi-group', 'supporting-port': 'L1'} input_dict_2 = {"group-id": 1, "group-rate": "org-openroadm-common-optical-channel-types:R400G-otsi"} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otsi-group-interfaces:otsi-group']), res['interface'][0]['org-openroadm-otsi-group-interfaces:otsi-group']) def test_81_check_interface_OTUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-OTUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-OTUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/1/2-PLUG-NET', ['supporting-interface-list'][0]: 'XPDR1-NETWORK1-OTSI-GROUP', 'type': 'org-openroadm-interfaces:otnOtu', 'supporting-port': 'L1'} input_dict_2 = {"tx-sapi": "AIGiVAQ4gDil", "rate": "org-openroadm-otn-common-types:OTUCn", "degthr-percentage": 100, "tim-detect-mode": "Disabled", "otucn-n-rate": 4, "degm-intervals": 2, "expected-dapi": "AIGiVAQ4gDil"} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-otu-interfaces:otu']), res['interface'][0]['org-openroadm-otn-otu-interfaces:otu']) def test_82_check_interface_ODUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() input_dict_1 = {'name': 'XPDR1-NETWORK1-ODUC4', 'administrative-state': 'inService', 'supporting-circuit-pack-name': '1/1/2-PLUG-NET', ['supporting-interface-list'][0]: 'XPDR1-NETWORK1-OTSI-GROUP', 'type': 'org-openroadm-interfaces:otnOdu', 'supporting-port': 'L1'} input_dict_2 = {"odu-function": "org-openroadm-otn-common-types:ODU-TTP", "tim-detect-mode": "Disabled", "degm-intervals": 2, "degthr-percentage": 100, "monitoring-mode": "terminated", "rate": "org-openroadm-otn-common-types:ODUCn", "oducn-n-rate": 4} input_dict_3 = {"exp-payload-type": "22", "payload-type": "22"} self.assertDictEqual(dict(input_dict_1, **res['interface'][0]), res['interface'][0]) self.assertDictEqual(dict(input_dict_2, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']) self.assertDictEqual(dict(input_dict_3, **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']), res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu']) def test_83_delete_400GE_service(self): response = test_utils.service_delete_request("service-400GE") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() self.assertIn('Renderer service delete in progress', res['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_84_get_no_service(self): response = test_utils.get_service_list_request("") self.assertEqual(response.status_code, requests.codes.conflict) res = response.json() self.assertIn( {"error-type": "application", "error-tag": "data-missing", "error-message": "Request could not be completed because the relevant data model content does not exist"}, res['errors']['error']) time.sleep(1) def test_85_check_no_interface_ODUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-ODUC4") self.assertEqual(response.status_code, requests.codes.conflict) def test_86_check_no_interface_OTUC4_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-OTUC4") self.assertEqual(response.status_code, requests.codes.conflict) def test_87_check_no_interface_OTSI_GROUP_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-OTSI-GROUP") self.assertEqual(response.status_code, requests.codes.conflict) def test_88_check_no_interface_OTSI_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-NETWORK1-755:768") self.assertEqual(response.status_code, requests.codes.conflict) def test_89_check_no_interface_400GE_CLIENT_xpdra2(self): response = test_utils.check_netconf_node_request( "XPDR-A2", "interface/XPDR1-CLIENT1-ETHERNET") self.assertEqual(response.status_code, requests.codes.conflict) def test_90_disconnect_xponders_from_roadm(self): url = "{}/config/ietf-network:networks/network/openroadm-topology/ietf-network-topology:link/" response = test_utils.get_ordm_topo_request("") self.assertEqual(response.status_code, requests.codes.ok) res = response.json() links = res['network'][0]['ietf-network-topology:link'] for link in links: if (link["org-openroadm-common-network:link-type"] == "XPONDER-OUTPUT" or link["org-openroadm-common-network:link-type"] == "XPONDER-INPUT"): link_name = link["link-id"] response = test_utils.delete_request(url+link_name) self.assertEqual(response.status_code, requests.codes.ok) def test_91_disconnect_xpdra2(self): response = test_utils.unmount_device("XPDR-A2") self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200) def test_92_disconnect_xpdrc2(self): response = test_utils.unmount_device("XPDR-C2") self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200) def test_93_disconnect_roadmA(self): response = test_utils.unmount_device("ROADM-A1") self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200) def test_94_disconnect_roadmC(self): response = test_utils.unmount_device("ROADM-C1") self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200) if __name__ == "__main__": unittest.main(verbosity=2)