+++ /dev/null
-#!/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=no-member
-# pylint: disable=too-many-public-methods
-
-import os
-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
-
-
-# pylint: disable=too-few-public-methods
-class UuidServices:
- def __init__(self):
- # pylint: disable=invalid-name
- self.pm = None
- self.odu = None
- self.dsr = None
-
-
-class TransportPCEtesting(unittest.TestCase):
-
- processes = []
- WAITING = 20 # nominal value is 300
- NODE_VERSION = '2.2.1'
- uuid_services = UuidServices()
-
- cr_serv_sample_data = {
- "input": {
- "end-point": [
- {
- "layer-protocol-name": "PHOTONIC_MEDIA",
- "service-interface-point": {
- "service-interface-point-uuid": "b1a0d883-32b8-3b0b-93d6-7ed074f6f107"
- },
- "administrative-state": "UNLOCKED",
- "operational-state": "ENABLED",
- "direction": "BIDIRECTIONAL",
- "role": "SYMMETRIC",
- "protection-role": "WORK",
- "local-id": "SPDR-SA1-XPDR1",
- "name": [
- {
- "value-name": "OpenROADM node id",
- "value": "SPDR-SA1-XPDR1"
- }
- ]
- },
- {
- "layer-protocol-name": "PHOTONIC_MEDIA",
- "service-interface-point": {
- "service-interface-point-uuid": "d1d6305e-179b-346f-b02d-8260aebe1ce8"
- },
- "administrative-state": "UNLOCKED",
- "operational-state": "ENABLED",
- "direction": "BIDIRECTIONAL",
- "role": "SYMMETRIC",
- "protection-role": "WORK",
- "local-id": "SPDR-SC1-XPDR1",
- "name": [
- {
- "value-name": "OpenROADM node id",
- "value": "SPDR-SC1-XPDR1"
- }
- ]
- }
- ],
- "connectivity-constraint": {
- "service-layer": "PHOTONIC_MEDIA",
- "service-type": "POINT_TO_POINT_CONNECTIVITY",
- "service-level": "Some service-level",
- "requested-capacity": {
- "total-size": {
- "value": "100",
- "unit": "GB"
- }
- }
- },
- "state": "Some state"}}
-
- @classmethod
- def setUpClass(cls):
- # pylint: disable=unsubscriptable-object
- cls.init_failed = False
- os.environ['JAVA_MIN_MEM'] = '1024M'
- os.environ['JAVA_MAX_MEM'] = '4096M'
- cls.processes = test_utils.start_tpce()
- # TAPI feature is not installed by default in Karaf
- if "USE_LIGHTY" not in os.environ or os.environ['USE_LIGHTY'] != 'True':
- print("installing tapi feature...")
- result = test_utils.install_karaf_feature("odl-transportpce-tapi")
- if result.returncode != 0:
- cls.init_failed = True
- print("Restarting OpenDaylight...")
- test_utils.shutdown_process(cls.processes[0])
- cls.processes[0] = test_utils.start_karaf()
- test_utils.process_list[0] = cls.processes[0]
- cls.init_failed = not test_utils.wait_until_log_contains(
- test_utils.KARAF_LOG, test_utils.KARAF_OK_START_MSG, time_to_wait=60)
- if cls.init_failed:
- print("tapi installation feature failed...")
- test_utils.shutdown_process(cls.processes[0])
- sys.exit(2)
- cls.processes = test_utils.start_sims([('spdra', cls.NODE_VERSION),
- ('roadma', cls.NODE_VERSION),
- ('roadmc', cls.NODE_VERSION),
- ('spdrc', 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):
- time.sleep(5)
-
- def test_01_connect_spdrA(self):
- print("Connecting SPDRA")
- response = test_utils.mount_tapi_device("SPDR-SA1", ('spdra', self.NODE_VERSION))
- self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
-
- def test_02_connect_spdrC(self):
- print("Connecting SPDRC")
- response = test_utils.mount_tapi_device("SPDR-SC1", ('spdrc', self.NODE_VERSION))
- self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
-
- def test_03_connect_rdmA(self):
- print("Connecting ROADMA")
- response = test_utils.mount_tapi_device("ROADM-A1", ('roadma', self.NODE_VERSION))
- self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
- time.sleep(2)
-
- def test_04_connect_rdmC(self):
- print("Connecting ROADMC")
- response = test_utils.mount_tapi_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_sprdA_1_N1_to_roadmA_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SA1", "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_06_connect_roadmA_PP1_to_spdrA_1_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SA1", "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_07_connect_sprdC_1_N1_to_roadmC_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SC1", "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_08_connect_roadmC_PP1_to_spdrC_1_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SC1", "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)
-
- 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)
- time.sleep(2)
-
- 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)
- time.sleep(2)
-
- 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, 6, 'There should be 6 otn nodes')
- self.assertNotIn('ietf-network-topology:link', res['network'][0])
- time.sleep(2)
-
- def test_12_check_openroadm_topology(self):
- response = test_utils.get_ordm_topo_request("")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- nbNode = len(res['network'][0]['node'])
- nbLink = len(res['network'][0]['ietf-network-topology:link'])
- self.assertEqual(nbNode, 13, 'There should be 13 openroadm nodes')
- self.assertEqual(nbLink, 22, 'There should be 22 openroadm links')
- time.sleep(2)
-
- def test_13_get_tapi_topology_details(self):
- response = test_utils.tapi_get_topology_details_request(
- "T0 - Full Multi-layer topology")
- time.sleep(2)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- nbNode = len(res['output']['topology']['node'])
- nbLink = len(res['output']['topology']['link'])
- self.assertEqual(nbNode, 14, 'There should be 14 TAPI nodes')
- self.assertEqual(nbLink, 15, 'There should be 15 TAPI links')
- time.sleep(2)
-
- def test_14_check_sip_details(self):
- response = test_utils.tapi_get_sip_details_request()
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- nbSip = len(res['output']['sip'])
- self.assertEqual(nbSip, 60, 'There should be 60 service interface point')
- time.sleep(2)
-
-# test create connectivity service from spdrA to spdrC for Photonic_media
- def test_15_create_connectivity_service_PhotonicMedia(self):
- response = test_utils.tapi_create_connectivity_request(self.cr_serv_sample_data)
- time.sleep(self.WAITING)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.uuid_services.pm = res['output']['service']['uuid']
- # pylint: disable=consider-using-f-string
- print("photonic media service uuid : {}".format(self.uuid_services.pm))
-
- input_dict_1 = {'administrative-state': 'LOCKED',
- 'lifecycle-state': 'PLANNED',
- 'operational-state': 'DISABLED',
- 'service-type': 'POINT_TO_POINT_CONNECTIVITY',
- 'service-layer': 'PHOTONIC_MEDIA',
- 'connectivity-direction': 'BIDIRECTIONAL'
- }
- input_dict_2 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SC1-XPDR1'}
- input_dict_3 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SA1-XPDR1'}
-
- self.assertDictEqual(dict(input_dict_1, **res['output']['service']),
- res['output']['service'])
- self.assertDictEqual(dict(input_dict_2, **res['output']['service']['end-point'][0]['name'][0]),
- res['output']['service']['end-point'][0]['name'][0])
- self.assertDictEqual(dict(input_dict_3, **res['output']['service']['end-point'][1]['name'][0]),
- res['output']['service']['end-point'][1]['name'][0])
- # If the gate fails is because of the waiting time not being enough
- time.sleep(self.WAITING)
-
- def test_16_get_service_PhotonicMedia(self):
- response = test_utils.get_service_list_request(
- "services/" + str(self.uuid_services.pm))
- 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'], self.uuid_services.pm)
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
-
-# test create connectivity service from spdrA to spdrC for odu
- def test_17_create_connectivity_service_ODU(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["end-point"][0]["layer-protocol-name"] = "ODU"
- self.cr_serv_sample_data["input"]["end-point"][0]["service-interface-point"]["service-interface-point-uuid"] = "5efda776-f8de-3e0b-9bbd-2c702e210946"
- self.cr_serv_sample_data["input"]["end-point"][1]["layer-protocol-name"] = "ODU"
- self.cr_serv_sample_data["input"]["end-point"][1]["service-interface-point"]["service-interface-point-uuid"] = "8116d0af-39fa-3df5-bed2-dd2cd5e8217d"
- self.cr_serv_sample_data["input"]["connectivity-constraint"]["service-layer"] = "ODU"
-
- response = test_utils.tapi_create_connectivity_request(self.cr_serv_sample_data)
- time.sleep(self.WAITING)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.uuid_services.odu = res['output']['service']['uuid']
- # pylint: disable=consider-using-f-string
- print("odu service uuid : {}".format(self.uuid_services.odu))
-
- input_dict_1 = {'administrative-state': 'LOCKED',
- 'lifecycle-state': 'PLANNED',
- 'operational-state': 'DISABLED',
- 'service-type': 'POINT_TO_POINT_CONNECTIVITY',
- 'service-layer': 'ODU',
- 'connectivity-direction': 'BIDIRECTIONAL'
- }
- input_dict_2 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SC1-XPDR1'}
- input_dict_3 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SA1-XPDR1'}
-
- self.assertDictEqual(dict(input_dict_1, **res['output']['service']),
- res['output']['service'])
- self.assertDictEqual(dict(input_dict_2, **res['output']['service']['end-point'][0]['name'][0]),
- res['output']['service']['end-point'][0]['name'][0])
- self.assertDictEqual(dict(input_dict_3, **res['output']['service']['end-point'][1]['name'][0]),
- res['output']['service']['end-point'][1]['name'][0])
- # If the gate fails is because of the waiting time not being enough
- time.sleep(self.WAITING)
-
- def test_18_get_service_ODU(self):
- response = test_utils.get_service_list_request(
- "services/" + str(self.uuid_services.odu))
- 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'], self.uuid_services.odu)
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
-
-# test create connectivity service from spdrA to spdrC for dsr
- def test_19_create_connectivity_service_DSR(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["end-point"][0]["layer-protocol-name"] = "DSR"
- self.cr_serv_sample_data["input"]["end-point"][0]["service-interface-point"]["service-interface-point-uuid"] = "c14797a0-adcc-3875-a1fe-df8949d1a2d7"
- self.cr_serv_sample_data["input"]["end-point"][1]["layer-protocol-name"] = "DSR"
- self.cr_serv_sample_data["input"]["end-point"][1]["service-interface-point"]["service-interface-point-uuid"] = "25812ef2-625d-3bf8-af55-5e93946d1c22"
- self.cr_serv_sample_data["input"]["connectivity-constraint"]["service-layer"] = "DSR"
- self.cr_serv_sample_data["input"]["connectivity-constraint"]["requested-capacity"]["total-size"]["value"] = "10"
-
- response = test_utils.tapi_create_connectivity_request(self.cr_serv_sample_data)
- time.sleep(self.WAITING)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.uuid_services.dsr = res['output']['service']['uuid']
- # pylint: disable=consider-using-f-string
- print("dsr service uuid : {}".format(self.uuid_services.dsr))
-
- input_dict_1 = {'administrative-state': 'LOCKED',
- 'lifecycle-state': 'PLANNED',
- 'operational-state': 'DISABLED',
- 'service-type': 'POINT_TO_POINT_CONNECTIVITY',
- 'service-layer': 'DSR',
- 'connectivity-direction': 'BIDIRECTIONAL'
- }
- input_dict_2 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SC1-XPDR1'}
- input_dict_3 = {'value-name': 'OpenROADM node id',
- 'value': 'SPDR-SA1-XPDR1'}
-
- self.assertDictEqual(dict(input_dict_1,
- **res['output']['service']),
- res['output']['service'])
- self.assertDictEqual(dict(input_dict_2,
- **res['output']['service']['end-point'][0]['name'][0]),
- res['output']['service']['end-point'][0]['name'][0])
- self.assertDictEqual(dict(input_dict_3,
- **res['output']['service']['end-point'][1]['name'][0]),
- res['output']['service']['end-point'][1]['name'][0])
- # The sleep here is okey as the DSR service creation is very fast
- time.sleep(self.WAITING)
-
- def test_20_get_service_DSR(self):
- response = test_utils.get_service_list_request(
- "services/" + str(self.uuid_services.dsr))
- 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'], self.uuid_services.dsr)
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
-
- def test_21_get_connectivity_service_list(self):
- response = test_utils.tapi_get_service_list_request()
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_service = res['output']['service']
- for ele in liste_service:
- if ele['uuid'] == self.uuid_services.pm:
- self.assertEqual(ele['operational-state'], 'ENABLED')
- self.assertEqual(ele['service-layer'], 'PHOTONIC_MEDIA')
- nbconnection = len(ele['connection'])
- self.assertEqual(nbconnection, 3, 'There should be 3 connections')
- elif ele['uuid'] == self.uuid_services.odu:
- self.assertEqual(ele['operational-state'], 'ENABLED')
- self.assertEqual(ele['service-layer'], 'ODU')
- nbconnection = len(ele['connection'])
- self.assertEqual(nbconnection, 1, 'There should be 1 connections')
- elif ele['uuid'] == self.uuid_services.dsr:
- self.assertEqual(ele['operational-state'], 'ENABLED')
- self.assertEqual(ele['service-layer'], 'DSR')
- nbconnection = len(ele['connection'])
- self.assertEqual(nbconnection, 2, 'There should be 2 connections')
- else:
- self.fail("get connectivity service failed")
- time.sleep(2)
-
- def test_22_delete_connectivity_service_DSR(self):
- response = test_utils.tapi_delete_connectivity_request(self.uuid_services.dsr)
- self.assertEqual(response.status_code, requests.codes.no_content)
- time.sleep(self.WAITING)
-
- def test_23_delete_connectivity_service_ODU(self):
- response = test_utils.tapi_delete_connectivity_request(self.uuid_services.odu)
- self.assertEqual(response.status_code, requests.codes.no_content)
- time.sleep(self.WAITING)
-
- def test_24_delete_connectivity_service_PhotonicMedia(self):
- response = test_utils.tapi_delete_connectivity_request(self.uuid_services.pm)
- self.assertEqual(response.status_code, requests.codes.no_content)
- time.sleep(self.WAITING)
-
- def test_25_get_no_tapi_services(self):
- response = test_utils.tapi_get_service_list_request()
- res = response.json()
- self.assertIn(
- {"error-type": "rpc", "error-tag": "operation-failed",
- "error-message": "No services exist in datastore",
- "error-info": "<severity>error</severity>"},
- res['errors']['error'])
- time.sleep(2)
-
- def test_26_get_no_openroadm_services(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(2)
-
- def test_27_disconnect_spdrA(self):
- response = test_utils.unmount_device("SPDR-SA1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
-
- def test_28_disconnect_spdrC(self):
- response = test_utils.unmount_device("SPDR-SC1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
-
- def test_29_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_30_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)