#!/usr/bin/env python ############################################################################## # Copyright (c) 2017 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 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 TransportPCEFulltesting(unittest.TestCase): processes = None cr_serv_input_data = { "sdnc-request-header": { "request-id": "e3028bae-a90f-4ddd-a83f-cf224eba0e58", "rpc-action": "service-create", "request-system-id": "appname", "notification-url": "http://localhost:8585/NotificationServer/notify" }, "service-name": "service1", "common-id": "ASATT1234567", "connection-type": "service", "service-a-end": { "service-rate": "100", "node-id": "XPDR-A1", "service-format": "Ethernet", "clli": "NodeA", "tx-direction": [{ "port": { "port-device-name": "XPDR-A1-XPDR1", "port-type": "fixed", "port-name": "1/0/2-PLUG-CLIENT", "port-rack": "000000.00", "port-shelf": "00" }, "lgx": { "lgx-device-name": "LGX Panel_SNJSCAMCJP8_000000.00_00", "lgx-port-name": "LGX Back.3", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" }, "index": 0 }], "rx-direction": [{ "port": { "port-device-name": "XPDR-A1-XPDR1", "port-type": "fixed", "port-name": "1/0/2-PLUG-CLIENT", "port-rack": "000000.00", "port-shelf": "00" }, "lgx": { "lgx-device-name": "LGX Panel_SNJSCAMCJP8_000000.00_00", "lgx-port-name": "LGX Back.4", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" }, "index": 0 }], "optic-type": "gray" }, "service-z-end": { "service-rate": "100", "node-id": "XPDR-C1", "service-format": "Ethernet", "clli": "NodeC", "tx-direction": [{ "port": { "port-device-name": "XPDR-C1-XPDR2", "port-type": "router", "port-name": "1/0/2-PLUG-CLIENT", "port-rack": "000000.00", "port-shelf": "00" }, "lgx": { "lgx-device-name": "LGX Panel_SNJSCAMCJT4_000000.00_00", "lgx-port-name": "LGX Back.29", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" }, "index": 0 }], "rx-direction": [{ "port": { "port-device-name": "XPDR-C1-XPDR2", "port-type": "router", "port-name": "1/0/2-PLUG-CLIENT", "port-rack": "000000.00", "port-shelf": "00" }, "lgx": { "lgx-device-name": "LGX Panel_SNJSCAMCJT4_000000.00_00", "lgx-port-name": "LGX Back.29", "lgx-port-rack": "000000.00", "lgx-port-shelf": "00" }, "index": 0 }], "optic-type": "gray" }, "due-date": "2016-11-28T00:00:01Z", "operator-contact": "pw1234" } del_serv_input_data = { "sdnc-request-header": { "request-id": "e3028bae-a90f-4ddd-a83f-cf224eba0e58", "rpc-action": "service-delete", "request-system-id": "appname", "notification-url": "http://localhost:8585/NotificationServer/notify"}, "service-delete-req-info": { "service-name": "TBD", "tail-retention": "no"} } WAITING = 20 # nominal value is 300 NODE_VERSION = '2.2.1' @classmethod def setUpClass(cls): cls.processes = test_utils.start_tpce() cls.processes = test_utils.start_sims([('xpdra', cls.NODE_VERSION), ('roadma', cls.NODE_VERSION), ('roadmc', cls.NODE_VERSION), ('xpdrc', cls.NODE_VERSION)]) @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): # instruction executed before each test method # pylint: disable=consider-using-f-string print("execution of {}".format(self.id().split(".")[-1])) def test_01_connect_xpdrA(self): response = test_utils.mount_device("XPDR-A1", ('xpdra', self.NODE_VERSION)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_02_connect_xpdrC(self): response = test_utils.mount_device("XPDR-C1", ('xpdrc', self.NODE_VERSION)) 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)) 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)) self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201) def test_05_connect_xpdrA_N1_to_roadmA_PP1(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-xpdr-rdm-links', {'links-input': {'xpdr-node': 'XPDR-A1', 'xpdr-num': '1', 'network-num': '1', 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP1-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"]) time.sleep(2) def test_06_connect_roadmA_PP1_to_xpdrA_N1(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-rdm-xpdr-links', {'links-input': {'xpdr-node': 'XPDR-A1', 'xpdr-num': '1', 'network-num': '1', 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP1-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Roadm Xponder links created successfully', response["output"]["result"]) time.sleep(2) def test_07_connect_xpdrC_xpdr1_N1_to_roadmC_PP1(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-xpdr-rdm-links', {'links-input': {'xpdr-node': 'XPDR-C1', 'xpdr-num': '1', 'network-num': '1', 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP1-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"]) time.sleep(2) def test_08_connect_roadmC_PP1_to_xpdrC_xpdr1_N1(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-rdm-xpdr-links', {'links-input': {'xpdr-node': 'XPDR-C1', 'xpdr-num': '1', 'network-num': '1', 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP1-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Roadm Xponder links created successfully', response["output"]["result"]) time.sleep(2) def test_09_connect_xpdrA_N2_to_roadmA_PP2(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-xpdr-rdm-links', {'links-input': {'xpdr-node': 'XPDR-A1', 'xpdr-num': '1', 'network-num': '2', 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP2-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"]) time.sleep(2) def test_10_connect_roadmA_PP2_to_xpdrA_N2(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-rdm-xpdr-links', {'links-input': {'xpdr-node': 'XPDR-A1', 'xpdr-num': '1', 'network-num': '2', 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP2-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Roadm Xponder links created successfully', response["output"]["result"]) time.sleep(2) def test_11_connect_xpdrC_xpdr2_N1_to_roadmC_PP2(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-xpdr-rdm-links', {'links-input': {'xpdr-node': 'XPDR-C1', 'xpdr-num': '2', 'network-num': '1', 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP2-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"]) time.sleep(2) def test_12_connect_roadmC_PP2_to_xpdrC_xpdr2_N1(self): response = test_utils.transportpce_api_rpc_request( 'transportpce-networkutils', 'init-rdm-xpdr-links', {'links-input': {'xpdr-node': 'XPDR-C1', 'xpdr-num': '2', 'network-num': '1', 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP2-TXRX'}}) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Roadm Xponder links created successfully', response["output"]["result"]) time.sleep(2) def test_13_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_14_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 Eth service from xpdr to xpdr def test_15_create_eth_service2(self): self.cr_serv_input_data["service-name"] = "service2" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-create', self.cr_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('PCE calculation in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_16_get_eth_service2(self): response = test_utils.get_ordm_serv_list_attr_request("services", "service2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['services'][0]['administrative-state'], 'inService') self.assertEqual(response['services'][0]['service-name'], 'service2') self.assertEqual(response['services'][0]['connection-type'], 'service') self.assertEqual(response['services'][0]['lifecycle-state'], 'planned') time.sleep(1) def test_17_check_xc1_ROADMA(self): response = test_utils.check_node_attribute_request( "ROADM-A1", "roadm-connections", "SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768") self.assertEqual(response['status_code'], requests.codes.ok) # 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 }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-nmc-761:768'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'DEG2-TTP-TXRX-nmc-761:768'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_18_check_xc1_ROADMC(self): response = test_utils.check_node_attribute_request( "ROADM-C1", "roadm-connections", "SRG1-PP2-TXRX-DEG1-TTP-TXRX-761:768") self.assertEqual(response['status_code'], requests.codes.ok) # the following statement replaces self.assertDictContainsSubset deprecated in python 3.2 self.assertDictEqual( dict({ 'connection-name': 'SRG1-PP2-TXRX-DEG1-TTP-TXRX-761:768', 'opticalControlMode': 'gainLoss', 'target-output-power': -3.0 }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'SRG1-PP2-TXRX-nmc-761:768'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'DEG1-TTP-TXRX-nmc-761:768'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_19_check_topo_XPDRA(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'XPDR-A1-XPDR1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) liste_tp = response['node']['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] == 'XPDR1-NETWORK1': self.assertEqual( 196.1, float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['frequency'])) self.assertEqual( 40.0, float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['width'])) elif ele['tp-id'] in ('XPDR1-CLIENT1', 'XPDR1-CLIENT2'): self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele)) elif ele['tp-id'] == 'XPDR1-NETWORK2': self.assertIn('org-openroadm-network-topology:xpdr-network-attributes', dict.keys(ele)) time.sleep(1) def test_20_check_topo_ROADMA_SRG1(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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, "Lambda 1 should not be available") liste_tp = response['node']['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") elif ele['tp-id'] == 'SRG1-PP2-TXRX': self.assertNotIn('avail-freq-maps', dict.keys(ele)) time.sleep(1) def test_21_check_topo_ROADMA_DEG2(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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, "Lambda 1 should not be available") liste_tp = response['node']['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") elif 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(1) def test_22_create_eth_service1(self): self.cr_serv_input_data["service-name"] = "service1" del self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] del self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] del self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] del self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] del self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] del self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] del self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] del self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-create', self.cr_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('PCE calculation in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_23_get_eth_service1(self): response = test_utils.get_ordm_serv_list_attr_request("services", "service1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['services'][0]['administrative-state'], 'inService') self.assertEqual(response['services'][0]['service-name'], 'service1') self.assertEqual(response['services'][0]['connection-type'], 'service') self.assertEqual(response['services'][0]['lifecycle-state'], 'planned') time.sleep(1) def test_24_check_xc1_ROADMA(self): response = test_utils.check_node_attribute_request( "ROADM-A1", "roadm-connections", "DEG2-TTP-TXRX-SRG1-PP2-TXRX-753:760") self.assertEqual(response['status_code'], requests.codes.ok) # the following statement replaces self.assertDictContainsSubset deprecated in python 3.2 self.assertDictEqual( dict({ 'connection-name': 'DEG2-TTP-TXRX-SRG1-PP2-TXRX-753:760', 'opticalControlMode': 'power' }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'DEG2-TTP-TXRX-nmc-753:760'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'SRG1-PP2-TXRX-nmc-753:760'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_25_check_topo_XPDRA(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'XPDR-A1-XPDR1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) liste_tp = response['node']['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] == 'XPDR1-NETWORK2': self.assertEqual( 196.05, float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['frequency'])) self.assertEqual( 40.0, float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['width'])) elif ele['tp-id'] in ('XPDR1-CLIENT1'): self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele)) time.sleep(1) def test_26_check_topo_ROADMA_SRG1(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") liste_tp = response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available") elif ele['tp-id'] == 'SRG1-PP2-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], 255, "Lambda 1 should be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") elif ele['tp-id'] == 'SRG1-PP3-TXRX': self.assertNotIn('org-openroadm-network-topology:pp-attributes', dict.keys(ele)) time.sleep(1) def test_27_check_topo_ROADMA_DEG2(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") liste_tp = response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") elif 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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") time.sleep(1) # creation service test on a non-available resource def test_28_create_eth_service3(self): self.cr_serv_input_data["service-name"] = "service3" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-create', self.cr_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('PCE calculation in progress', response['output']['configuration-response-common']['response-message']) self.assertIn('200', response['output']['configuration-response-common']['response-code']) time.sleep(self.WAITING) # add a test that check the openroadm-service-list still only contains 2 elements def test_29_delete_eth_service3(self): self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service3" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Service \'service3\' does not exist in datastore', response['output']['configuration-response-common']['response-message']) self.assertIn('500', response['output']['configuration-response-common']['response-code']) time.sleep(3) def test_30_delete_eth_service1(self): self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Renderer service delete in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_31_delete_eth_service2(self): self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Renderer service delete in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_32_check_no_xc_ROADMA(self): response = test_utils.check_node_request("ROADM-A1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertNotIn('roadm-connections', dict.keys(response['org-openroadm-device'])) time.sleep(2) def test_33_check_topo_XPDRA(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'XPDR-A1-XPDR1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) liste_tp = response['node']['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['org-openroadm-common-network:tp-type'] == 'XPONDER-CLIENT': self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele)) elif ele['org-openroadm-common-network:tp-type'] == 'XPONDER-NETWORK': self.assertIn('tail-equipment-id', dict.keys(ele['org-openroadm-network-topology:xpdr-network-attributes'])) self.assertNotIn('wavelength', dict.keys(ele['org-openroadm-network-topology:xpdr-network-attributes'])) time.sleep(1) def test_34_check_topo_ROADMA_SRG1(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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], 255, "Index 1 should be available") self.assertEqual(freq_map_array[94], 255, "Index 2 should be available") liste_tp = response['node']['ietf-network-topology:termination-point'] for ele in liste_tp: if ele['tp-id'] in ('SRG1-PP1-TXRX', 'SRG1-PP2-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], 255, "Index 1 should be available") self.assertEqual(freq_map_array[94], 255, "Index 2 should be available") elif ele['tp-id'] == 'SRG1-CP-TXRX': freq_map = base64.b64decode( ele['org-openroadm-network-topology:cp-attributes']['avail-freq-maps'][0]['freq-map']) freq_map_array = [int(x) for x in freq_map] self.assertEqual(freq_map_array[95], 255, "Index 1 should be available") self.assertEqual(freq_map_array[94], 255, "Index 2 should be available") else: self.assertNotIn('org-openroadm-network-topology:pp-attributes', dict.keys(ele)) time.sleep(1) def test_35_check_topo_ROADMA_DEG2(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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], 255, "Lambda 1 should be available") self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available") liste_tp = response['node']['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], 255, "Lambda 1 should be available") self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available") elif 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], 255, "Lambda 1 should be available") self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available") time.sleep(1) # test service-create for Optical Channel (OC) service from srg-pp to srg-pp def test_36_create_oc_service1(self): self.cr_serv_input_data["service-name"] = "service1" self.cr_serv_input_data["connection-type"] = "roadm-line" self.cr_serv_input_data["service-a-end"]["node-id"] = "ROADM-A1" self.cr_serv_input_data["service-a-end"]["service-format"] = "OC" self.cr_serv_input_data["service-z-end"]["node-id"] = "ROADM-C1" self.cr_serv_input_data["service-z-end"]["service-format"] = "OC" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-create', self.cr_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('PCE calculation in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_37_get_oc_service1(self): response = test_utils.get_ordm_serv_list_attr_request("services", "service1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['services'][0]['administrative-state'], 'inService') self.assertEqual(response['services'][0]['service-name'], 'service1') self.assertEqual(response['services'][0]['connection-type'], 'roadm-line') self.assertEqual(response['services'][0]['lifecycle-state'], 'planned') time.sleep(1) def test_38_check_xc1_ROADMA(self): response = test_utils.check_node_attribute_request( "ROADM-A1", "roadm-connections", "SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768") self.assertEqual(response['status_code'], requests.codes.ok) # 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 }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-nmc-761:768'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'DEG2-TTP-TXRX-nmc-761:768'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_39_check_xc1_ROADMC(self): response = test_utils.check_node_attribute_request( "ROADM-C1", "roadm-connections", "SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768") self.assertEqual(response['status_code'], requests.codes.ok) # the following statement replaces self.assertDictContainsSubset deprecated in python 3.2 self.assertDictEqual( dict({ 'connection-name': 'SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768', 'opticalControlMode': 'gainLoss', 'target-output-power': -3.0 }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-nmc-761:768'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'DEG1-TTP-TXRX-nmc-761:768'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_40_create_oc_service2(self): self.cr_serv_input_data["service-name"] = "service2" self.cr_serv_input_data["connection-type"] = "roadm-line" self.cr_serv_input_data["service-a-end"]["node-id"] = "ROADM-A1" self.cr_serv_input_data["service-a-end"]["service-format"] = "OC" self.cr_serv_input_data["service-z-end"]["node-id"] = "ROADM-C1" self.cr_serv_input_data["service-z-end"]["service-format"] = "OC" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-create', self.cr_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('PCE calculation in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_41_get_oc_service2(self): response = test_utils.get_ordm_serv_list_attr_request("services", "service2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['services'][0]['administrative-state'], 'inService') self.assertEqual(response['services'][0]['service-name'], 'service2') self.assertEqual(response['services'][0]['connection-type'], 'roadm-line') self.assertEqual(response['services'][0]['lifecycle-state'], 'planned') time.sleep(1) def test_42_check_xc2_ROADMA(self): response = test_utils.check_node_attribute_request( "ROADM-A1", "roadm-connections", "SRG1-PP2-TXRX-DEG2-TTP-TXRX-753:760") self.assertEqual(response['status_code'], requests.codes.ok) # the following statement replaces self.assertDictContainsSubset deprecated in python 3.2 self.assertDictEqual( dict({ 'connection-name': 'SRG1-PP2-TXRX-DEG2-TTP-TXRX-753:760', 'opticalControlMode': 'gainLoss', 'target-output-power': -3.0 }, **response['roadm-connections'][0]), response['roadm-connections'][0]) self.assertDictEqual({'src-if': 'SRG1-PP2-TXRX-nmc-753:760'}, response['roadm-connections'][0]['source']) self.assertDictEqual({'dst-if': 'DEG2-TTP-TXRX-nmc-753:760'}, response['roadm-connections'][0]['destination']) time.sleep(1) def test_43_check_topo_ROADMA(self): response = test_utils.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config') self.assertEqual(response['status_code'], requests.codes.ok) freq_map = base64.b64decode( response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") liste_tp = response['node']['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, "Lambda 1 should not be available") self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available") elif ele['tp-id'] == 'SRG1-PP2-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], 255, "Lambda 1 should be available") self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available") elif ele['tp-id'] == 'SRG1-PP3-TXRX': self.assertNotIn('org-openroadm-network-topology:pp-attributes', dict.keys(ele)) time.sleep(1) self.test_27_check_topo_ROADMA_DEG2() time.sleep(1) def test_44_delete_oc_service1(self): self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Renderer service delete in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_45_delete_oc_service2(self): self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn('Renderer service delete in progress', response['output']['configuration-response-common']['response-message']) time.sleep(self.WAITING) def test_46_get_no_oc_services(self): response = test_utils.get_ordm_serv_list_request() self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['service-list'], ( { "error-type": "protocol", "error-tag": "data-missing", "error-message": "Request could not be completed because the relevant data " "model content does not exist" }, { "error-type": "application", "error-tag": "data-missing", "error-message": "Request could not be completed because the relevant data " "model content does not exist" })) time.sleep(1) def test_47_get_no_xc_ROADMA(self): response = test_utils.check_node_request("ROADM-A1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertNotIn('roadm-connections', dict.keys(response['org-openroadm-device'])) time.sleep(1) def test_48_check_topo_ROADMA(self): self.test_34_check_topo_ROADMA_SRG1() self.test_35_check_topo_ROADMA_DEG2() def test_49_loop_create_oc_service(self): for i in range(1, 3): # pylint: disable=consider-using-f-string print("iteration number {}".format(i)) print("oc service creation") self.test_36_create_oc_service1() print("check xc in ROADM-A1") self.test_38_check_xc1_ROADMA() print("check xc in ROADM-C1") self.test_39_check_xc1_ROADMC() print("oc service deletion\n") self.test_44_delete_oc_service1() def test_50_loop_create_eth_service(self): response = test_utils.get_ordm_serv_list_attr_request("services", "service1") if response['status_code'] != 404: self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1" response = test_utils.transportpce_api_rpc_request( 'org-openroadm-service', 'service-delete', self.del_serv_input_data) time.sleep(5) self.cr_serv_input_data["connection-type"] = "service" self.cr_serv_input_data["service-a-end"]["node-id"] = "XPDR-A1" self.cr_serv_input_data["service-a-end"]["service-format"] = "Ethernet" self.cr_serv_input_data["service-z-end"]["node-id"] = "XPDR-C1" self.cr_serv_input_data["service-z-end"]["service-format"] = "Ethernet" for i in range(1, 3): # pylint: disable=consider-using-f-string print("iteration number {}".format(i)) print("eth service creation") self.test_15_create_eth_service2() print("check xc in ROADM-A1") self.test_17_check_xc1_ROADMA() print("eth service deletion\n") self.test_31_delete_eth_service2() def test_51_disconnect_XPDRA(self): response = test_utils.unmount_device("XPDR-A1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_52_disconnect_XPDRC(self): response = test_utils.unmount_device("XPDR-C1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_53_disconnect_ROADMA(self): response = test_utils.unmount_device("ROADM-A1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_54_disconnect_ROADMC(self): response = test_utils.unmount_device("ROADM-C1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) if __name__ == "__main__": unittest.main(verbosity=2)