#!/usr/bin/env python ############################################################################## # Copyright (c) 2019 Orange, Inc. and others. All rights reserved. # # All rights reserved. This program and the accompanying materials # are made available under the terms of the Apache License, Version 2.0 # which accompanies this distribution, and is available at # http://www.apache.org/licenses/LICENSE-2.0 ############################################################################## # pylint: disable=no-member # pylint: disable=too-many-public-methods import unittest import time import requests # 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_rfc8040 # nopep8 class TransportPCEPortMappingTesting(unittest.TestCase): processes = None NODE_VERSION = '2.2.1' @classmethod def setUpClass(cls): cls.processes = test_utils_rfc8040.start_tpce() cls.processes = test_utils_rfc8040.start_sims([('xpdra', cls.NODE_VERSION), ('roadma', cls.NODE_VERSION), ('spdra', cls.NODE_VERSION)]) @classmethod def tearDownClass(cls): # pylint: disable=not-an-iterable for process in cls.processes: test_utils_rfc8040.shutdown_process(process) print("all processes killed") def setUp(self): # pylint: disable=consider-using-f-string print("execution of {}".format(self.id().split(".")[-1])) time.sleep(1) def test_01_rdm_device_connection(self): response = test_utils_rfc8040.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION)) self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201) def test_02_rdm_device_connected(self): response = test_utils_rfc8040.check_device_connection("ROADM-A1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['connection-status'], 'connected') def test_03_rdm_portmapping_info(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "node-info", None) self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual( {'node-type': 'rdm', 'node-ip-address': '127.0.0.11', 'node-clli': 'NodeA', 'openroadm-version': '2.2.1', 'node-vendor': 'vendorA', 'node-model': 'model2'}, response['node-info']) def test_04_rdm_portmapping_DEG1_TTP_TXRX(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "mapping", "DEG1-TTP-TXRX") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supporting-port': 'L1', 'supporting-circuit-pack-name': '1/0', 'logical-connection-point': 'DEG1-TTP-TXRX', 'port-direction': 'bidirectional', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_05_rdm_portmapping_DEG2_TTP_TXRX_with_ots_oms(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "mapping", "DEG2-TTP-TXRX") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supporting-port': 'L1', 'supporting-circuit-pack-name': '2/0', 'logical-connection-point': 'DEG2-TTP-TXRX', 'supporting-oms': 'OMS-DEG2-TTP-TXRX', 'supporting-ots': 'OTS-DEG2-TTP-TXRX', 'port-direction': 'bidirectional', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_06_rdm_portmapping_SRG1_PP3_TXRX(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "mapping", "SRG1-PP3-TXRX") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supporting-port': 'C3', 'supporting-circuit-pack-name': '3/0', 'logical-connection-point': 'SRG1-PP3-TXRX', 'port-direction': 'bidirectional', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_07_rdm_portmapping_SRG3_PP1_TXRX(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "mapping", "SRG3-PP1-TXRX") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supporting-port': 'C1', 'supporting-circuit-pack-name': '5/0', 'logical-connection-point': 'SRG3-PP1-TXRX', 'port-direction': 'bidirectional', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_08_xpdr_device_connection(self): response = test_utils_rfc8040.mount_device("XPDR-A1", ('xpdra', self.NODE_VERSION)) self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201) def test_09_xpdr_device_connected(self): response = test_utils_rfc8040.check_device_connection("XPDR-A1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['connection-status'], 'connected') def test_10_xpdr_portmapping_info(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "node-info", None) self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual( {'node-type': 'xpdr', 'node-ip-address': '1.2.3.4', 'node-clli': 'NodeA', 'openroadm-version': '2.2.1', 'node-vendor': 'vendorA', 'node-model': 'model2'}, response['node-info']) def test_11_xpdr_portmapping_NETWORK1(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "mapping", "XPDR1-NETWORK1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supported-interface-capability': ['org-openroadm-port-types:if-OCH'], 'supporting-port': '1', 'supporting-circuit-pack-name': '1/0/1-PLUG-NET', 'logical-connection-point': 'XPDR1-NETWORK1', 'port-qual': 'xpdr-network', 'port-direction': 'bidirectional', 'connection-map-lcp': 'XPDR1-CLIENT1', 'lcp-hash-val': 'AMkDwQ7xTmRI', 'xponder-type': 'tpdr', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_12_xpdr_portmapping_XPDR2_NETWORK1(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "mapping", "XPDR1-NETWORK2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supported-interface-capability': ['org-openroadm-port-types:if-OCH'], 'supporting-port': '1', 'supporting-circuit-pack-name': '1/0/2-PLUG-NET', 'logical-connection-point': 'XPDR1-NETWORK2', 'port-direction': 'bidirectional', 'connection-map-lcp': 'XPDR1-CLIENT2', 'port-qual': 'xpdr-network', 'lcp-hash-val': 'AMkDwQ7xTmRL', 'xponder-type': 'tpdr', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_13_xpdr_portmapping_XPDR1_CLIENT1(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "mapping", "XPDR1-CLIENT1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supported-interface-capability': ['org-openroadm-port-types:if-100GE'], 'supporting-port': 'C1', 'supporting-circuit-pack-name': '1/0/1-PLUG-CLIENT', 'logical-connection-point': 'XPDR1-CLIENT1', 'port-direction': 'bidirectional', 'connection-map-lcp': 'XPDR1-NETWORK1', 'port-qual': 'xpdr-client', 'lcp-hash-val': 'AJUUr6I5fALj', 'xponder-type': 'tpdr', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_14_xpdr_portmapping_XPDR1_CLIENT2(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "mapping", "XPDR1-CLIENT2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {'supported-interface-capability': ['org-openroadm-port-types:if-100GE'], 'supporting-port': 'C1', 'supporting-circuit-pack-name': '1/0/2-PLUG-CLIENT', 'logical-connection-point': 'XPDR1-CLIENT2', 'port-direction': 'bidirectional', 'connection-map-lcp': 'XPDR1-NETWORK2', 'port-qual': 'xpdr-client', 'lcp-hash-val': 'AJUUr6I5fALg', 'xponder-type': 'tpdr', 'port-admin-state': 'InService', 'port-oper-state': 'InService'}, response['mapping']) def test_15_spdr_device_connection(self): response = test_utils_rfc8040.mount_device("SPDR-SA1", ('spdra', self.NODE_VERSION)) self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201) def test_16_spdr_device_connected(self): response = test_utils_rfc8040.check_device_connection("SPDR-SA1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(response['connection-status'], 'connected') def test_17_spdr_portmapping_info(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "node-info", None) self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual( {'node-type': 'xpdr', 'node-ip-address': '1.2.3.4', 'node-clli': 'NodeSA', 'openroadm-version': '2.2.1', 'node-vendor': 'vendorA', 'node-model': 'universal-switchponder'}, response['node-info']) def test_18_spdr_switching_pool_1(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "switching-pool-lcp", "1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual("blocking", response['switching-pool-lcp'][0]['switching-pool-type']) self.assertEqual(4, len(response['switching-pool-lcp'][0]['non-blocking-list'])) self.assertIn( {'nbl-number': 11, 'lcp-list': ['XPDR1-CLIENT1', 'XPDR1-NETWORK1'], 'interconnect-bandwidth-unit': 1000000000, 'interconnect-bandwidth': 0}, response['switching-pool-lcp'][0]['non-blocking-list']) def test_19_spdr_switching_pool_2(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "switching-pool-lcp", "2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual("non-blocking", response['switching-pool-lcp'][0]['switching-pool-type']) self.assertEqual(1, len(response['switching-pool-lcp'][0]['non-blocking-list'])) self.assertIn( {'nbl-number': 2, 'lcp-list': ['XPDR2-NETWORK2', 'XPDR2-NETWORK3', 'XPDR2-CLIENT1', 'XPDR2-CLIENT2', 'XPDR2-NETWORK1', 'XPDR2-CLIENT3', 'XPDR2-CLIENT4', 'XPDR2-NETWORK4'], 'interconnect-bandwidth-unit': 1000000000, 'interconnect-bandwidth': 0}, response['switching-pool-lcp'][0]['non-blocking-list']) def test_20_spdr_switching_pool_3(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "switching-pool-lcp", "3") self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual("blocking", response['switching-pool-lcp'][0]['switching-pool-type']) self.assertEqual(4, len(response['switching-pool-lcp'][0]['non-blocking-list'])) self.assertIn( {'nbl-number': 83, 'interconnect-bandwidth': 0, 'interconnect-bandwidth-unit': 1000000000, 'lcp-list': ['XPDR3-NETWORK1', 'XPDR3-CLIENT3']}, response['switching-pool-lcp'][0]['non-blocking-list']) def test_21_spdr_portmapping_mappings(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", None, None) self.assertEqual(response['status_code'], requests.codes.ok) self.assertEqual(18, len(response['nodes'][0]['mapping'])) def test_22_spdr_portmapping_XPDR1_CLIENT1(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR1-CLIENT1") self.assertEqual(response['status_code'], requests.codes.ok) expected_subset_response = { "logical-connection-point": "XPDR1-CLIENT1", "supporting-circuit-pack-name": "CP1-SFP1", "supporting-port": "CP1-SFP1-P1", "lcp-hash-val": "FqlcrxV7p30=", "port-direction": "bidirectional", "port-admin-state": "InService", "xponder-type": "mpdr", "port-qual": "xpdr-client", "port-oper-state": "InService"} expected_sorted_list = ["org-openroadm-port-types:if-10GE-ODU2", "org-openroadm-port-types:if-10GE-ODU2e"] subset = {k: v for k, v in response['mapping'][0].items() if k in expected_subset_response} self.assertDictEqual(subset, expected_subset_response) self.assertEqual(sorted(response['mapping'][0]['supported-interface-capability']), expected_sorted_list) def test_23_spdr_portmapping_XPDR1_NETWORK1(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR1-NETWORK1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {"logical-connection-point": "XPDR1-NETWORK1", "supporting-circuit-pack-name": "CP1-CFP0", "supported-interface-capability": ["org-openroadm-port-types:if-OCH-OTU4-ODU4"], "supporting-port": "CP1-CFP0-P1", "lcp-hash-val": "Swfw02qXGyI=", "port-direction": "bidirectional", "port-admin-state": "InService", "xponder-type": "mpdr", "port-qual": "xpdr-network", "port-oper-state": "InService"}, response['mapping']) def test_24_spdr_portmapping_XPDR2_CLIENT2(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR2-CLIENT2") self.assertEqual(response['status_code'], requests.codes.ok) expected_subset_response = { 'logical-connection-point': 'XPDR2-CLIENT2', 'supporting-port': 'CP2-QSFP2-P1', 'lcp-hash-val': 'AN/WSSRXne3t', 'port-direction': 'bidirectional', 'xponder-type': 'switch', 'port-qual': 'switch-client', 'supporting-circuit-pack-name': 'CP2-QSFP2', 'port-admin-state': 'InService', 'port-oper-state': 'InService'} expected_sorted_list = ['org-openroadm-port-types:if-100GE', 'org-openroadm-port-types:if-100GE-ODU4'] subset = {k: v for k, v in response['mapping'][0].items() if k in expected_subset_response} self.assertDictEqual(subset, expected_subset_response) self.assertEqual(sorted(response['mapping'][0]['supported-interface-capability']), expected_sorted_list) def test_25_spdr_portmapping_XPDR2_NETWORK2(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR2-NETWORK2") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {"logical-connection-point": "XPDR2-NETWORK2", "supporting-circuit-pack-name": "CP6-CFP", "supported-interface-capability": ["org-openroadm-port-types:if-OCH-OTU4-ODU4"], "supporting-port": "CP6-CFP-P1", "lcp-hash-val": "exT821pFtOQ=", "port-direction": "bidirectional", "port-admin-state": "InService", "xponder-type": "switch", "port-qual": "switch-network", "port-oper-state": "InService"}, response['mapping']) def test_26_spdr_portmapping_XPDR3_CLIENT3(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR3-CLIENT3") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {"logical-connection-point": "XPDR3-CLIENT3", "supporting-circuit-pack-name": "CP3-SFP3", "supported-interface-capability": ["org-openroadm-port-types:if-1GE-ODU0"], "supporting-port": "CP3-SFP3-P1", "lcp-hash-val": "AKsQ/HRQdtdN", "port-direction": "bidirectional", "port-admin-state": "InService", "xponder-type": "mpdr", "port-qual": "xpdr-client", "port-oper-state": "InService"}, response['mapping']) def test_27_spdr_portmapping_XPDR3_NETWORK1(self): response = test_utils_rfc8040.get_portmapping_node_attr("SPDR-SA1", "mapping", "XPDR3-NETWORK1") self.assertEqual(response['status_code'], requests.codes.ok) self.assertIn( {"logical-connection-point": "XPDR3-NETWORK1", "supporting-circuit-pack-name": "CP3-CFP0", "supported-interface-capability": ["org-openroadm-port-types:if-OCH-OTU4-ODU4"], "supporting-port": "CP3-CFP0-P1", "lcp-hash-val": "ANnxoi7K8q30", "port-direction": "bidirectional", "port-admin-state": "InService", "xponder-type": "mpdr", "port-qual": "xpdr-network", "port-oper-state": "InService"}, response['mapping']) def test_28_spdr_device_disconnection(self): response = test_utils_rfc8040.unmount_device("SPDR-SA1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_29_xpdr_device_disconnected(self): response = test_utils_rfc8040.check_device_connection("SPDR-SA1") self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['connection-status']['error-type'], ('protocol', 'application')) self.assertEqual(response['connection-status']['error-tag'], 'data-missing') self.assertEqual(response['connection-status']['error-message'], 'Request could not be completed because the relevant data model content does not exist') def test_30_xpdr_device_disconnection(self): response = test_utils_rfc8040.unmount_device("XPDR-A1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_31_xpdr_device_disconnected(self): response = test_utils_rfc8040.check_device_connection("XPDR-A1") self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['connection-status']['error-type'], ('protocol', 'application')) self.assertEqual(response['connection-status']['error-tag'], 'data-missing') self.assertEqual(response['connection-status']['error-message'], 'Request could not be completed because the relevant data model content does not exist') def test_32_xpdr_device_not_connected(self): response = test_utils_rfc8040.get_portmapping_node_attr("XPDR-A1", "node-info", None) self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['node-info']['error-type'], ('protocol', 'application')) self.assertEqual(response['node-info']['error-tag'], 'data-missing') self.assertEqual(response['node-info']['error-message'], 'Request could not be completed because the relevant data model content does not exist') def test_33_rdm_device_disconnection(self): response = test_utils_rfc8040.unmount_device("ROADM-A1") self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content)) def test_34_rdm_device_disconnected(self): response = test_utils_rfc8040.check_device_connection("ROADM-A1") self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['connection-status']['error-type'], ('protocol', 'application')) self.assertEqual(response['connection-status']['error-tag'], 'data-missing') self.assertEqual(response['connection-status']['error-message'], 'Request could not be completed because the relevant data model content does not exist') def test_35_rdm_device_not_connected(self): response = test_utils_rfc8040.get_portmapping_node_attr("ROADM-A1", "node-info", None) self.assertEqual(response['status_code'], requests.codes.conflict) self.assertIn(response['node-info']['error-type'], ('protocol', 'application')) self.assertEqual(response['node-info']['error-tag'], 'data-missing') self.assertEqual(response['node-info']['error-message'], 'Request could not be completed because the relevant data model content does not exist') if __name__ == "__main__": unittest.main(verbosity=2)