sys.path.append('transportpce_tests/common/')
# pylint: disable=wrong-import-position
# pylint: disable=import-error
-import test_utils # nopep8
+import test_utils_rfc8040 # nopep8
class TransportPCEFulltesting(unittest.TestCase):
- cr_serv_sample_data = {"input": {
+ cr_serv_input_data = {
"sdnc-request-header": {
"request-id": "e3028bae-a90f-4ddd-a83f-cf224eba0e58",
"rpc-action": "service-create",
"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"}
}
processes = None
WAITING = 20
@classmethod
def setUpClass(cls):
- cls.processes = test_utils.start_tpce()
- cls.processes = test_utils.start_sims([('xpdra', cls.NODE_VERSION),
- ('roadma-full', cls.NODE_VERSION),
- ('roadmc-full', cls.NODE_VERSION),
- ('xpdrc', cls.NODE_VERSION)])
+ cls.processes = test_utils_rfc8040.start_tpce()
+ cls.processes = test_utils_rfc8040.start_sims([('xpdra', cls.NODE_VERSION),
+ ('roadma-full', cls.NODE_VERSION),
+ ('roadmc-full', 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)
+ test_utils_rfc8040.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]))
- # connect netconf devices
+ # connect netconf devices
def test_01_connect_xpdrA(self):
- response = test_utils.mount_device("XPDRA01", ('xpdra', self.NODE_VERSION))
- self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ response = test_utils_rfc8040.mount_device("XPDRA01", ('xpdra', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_02_connect_xpdrC(self):
- response = test_utils.mount_device("XPDRC01", ('xpdrc', self.NODE_VERSION))
- self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ response = test_utils_rfc8040.mount_device("XPDRC01", ('xpdrc', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_03_connect_rdmA(self):
- response = test_utils.mount_device("ROADMA01", ('roadma-full', self.NODE_VERSION))
- self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ response = test_utils_rfc8040.mount_device("ROADMA01", ('roadma-full', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_04_connect_rdmC(self):
- response = test_utils.mount_device("ROADMC01", ('roadmc-full', self.NODE_VERSION))
- self.assertEqual(response.status_code, requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ response = test_utils_rfc8040.mount_device("ROADMC01", ('roadmc-full', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_05_connect_xprdA_N1_to_roadmA_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDRA01", "1", "1",
- "ROADMA01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'XPDRA01', 'xpdr-num': '1', 'network-num': '1',
+ 'rdm-node': 'ROADMA01', '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.connect_rdm_to_xpdr_request("XPDRA01", "1", "1",
- "ROADMA01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'XPDRA01', 'xpdr-num': '1', 'network-num': '1',
+ 'rdm-node': 'ROADMA01', '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_xprdC_N1_to_roadmC_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDRC01", "1", "1",
- "ROADMC01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'XPDRC01', 'xpdr-num': '1', 'network-num': '1',
+ 'rdm-node': 'ROADMC01', '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_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("XPDRC01", "1", "1",
- "ROADMC01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'XPDRC01', 'xpdr-num': '1', 'network-num': '1',
+ 'rdm-node': 'ROADMC01', '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_add_omsAttributes_ROADMA_ROADMC(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request("ROADMA01-DEG1-DEG1-TTP-TXRXtoROADMC01-DEG2-DEG2-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADMA01-DEG1-DEG1-TTP-TXRXtoROADMC01-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_10_add_omsAttributes_ROADMC_ROADMA(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request("ROADMC01-DEG2-DEG2-TTP-TXRXtoROADMA01-DEG1-DEG1-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADMC01-DEG2-DEG2-TTP-TXRXtoROADMA01-DEG1-DEG1-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
# test service-create for Eth service from xpdr to xpdr
+
def test_11_create_eth_service1(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service1"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_12_get_eth_service1(self):
- response = test_utils.get_service_list_request("services/service1")
- 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')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.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_13_check_xc1_ROADMA(self):
- response = test_utils.check_netconf_node_request(
- "ROADMA01", "roadm-connections/SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMA01", "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-number': 'SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768',
'wavelength-number': 1,
- 'opticalControlMode': 'gainLoss',
- 'target-output-power': -3.0
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG1-TTP-TXRX-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(5)
+ 'opticalControlMode': 'gainLoss'
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-761:768'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'DEG1-TTP-TXRX-761:768'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_14_check_xc1_ROADMC(self):
- response = test_utils.check_netconf_node_request(
- "ROADMC01", "roadm-connections/SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMC01", "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-number': 'SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768',
'wavelength-number': 1,
- 'opticalControlMode': 'gainLoss',
- 'target-output-power': 2.0
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG2-TTP-TXRX-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(5)
+ 'opticalControlMode': 'gainLoss'
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-761:768'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'DEG2-TTP-TXRX-761:768'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_15_check_topo_XPDRA(self):
- response = test_utils.get_ordm_topo_request("node/XPDRA01-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'XPDRA01-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({'frequency': 196.1,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ 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-CLIENT2', 'XPDR1-CLIENT1'):
self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele))
elif ele['tp-id'] == 'XPDR1-NETWORK2':
self.assertNotIn('org-openroadm-network-topology:xpdr-network-attributes', dict.keys(ele))
- time.sleep(3)
+ time.sleep(1)
def test_16_check_topo_ROADMA_SRG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
self.assertEqual(freq_map_array[95], 0, "Lambda 1 should not be available")
elif ele['tp-id'] == 'SRG1-PP2-TXRX':
self.assertNotIn('avail-freq-maps', dict.keys(ele))
- time.sleep(3)
+ time.sleep(1)
def test_17_check_topo_ROADMA_DEG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-DEG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-DEG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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: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")
- time.sleep(3)
+ time.sleep(1)
def test_18_connect_xprdA_N2_to_roadmA_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDRA01", "1", "2",
- "ROADMA01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'XPDRA01', 'xpdr-num': '1', 'network-num': '2',
+ 'rdm-node': 'ROADMA01', '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_19_connect_roadmA_PP2_to_xpdrA_N2(self):
- response = test_utils.connect_rdm_to_xpdr_request("XPDRA01", "1", "2",
- "ROADMA01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'XPDRA01', 'xpdr-num': '1', 'network-num': '2',
+ 'rdm-node': 'ROADMA01', '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_20_connect_xprdC_N2_to_roadmC_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDRC01", "1", "2",
- "ROADMC01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'XPDRC01', 'xpdr-num': '1', 'network-num': '2',
+ 'rdm-node': 'ROADMC01', '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_21_connect_roadmC_PP2_to_xpdrC_N2(self):
- response = test_utils.connect_rdm_to_xpdr_request("XPDRC01", "1", "2",
- "ROADMC01", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'XPDRC01', 'xpdr-num': '1', 'network-num': '2',
+ 'rdm-node': 'ROADMC01', '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_22_create_eth_service2(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service2"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_23_get_eth_service2(self):
- response = test_utils.get_service_list_request("services/service2")
- 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'], 'service2')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
+ response = test_utils_rfc8040.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_24_check_xc2_ROADMA(self):
- response = test_utils.check_netconf_node_request(
- "ROADMA01", "roadm-connections/DEG1-TTP-TXRX-SRG1-PP2-TXRX-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMA01", "roadm-connections", "DEG1-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-number': 'DEG1-TTP-TXRX-SRG1-PP2-TXRX-753:760',
'wavelength-number': 2,
'opticalControlMode': 'power'
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'DEG1-TTP-TXRX-753:760'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'SRG1-PP2-TXRX-753:760'},
- res['roadm-connections'][0]['destination'])
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'DEG1-TTP-TXRX-753:760'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'SRG1-PP2-TXRX-753:760'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_25_check_topo_XPDRA(self):
- response = test_utils.get_ordm_topo_request("node/XPDRA01-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'XPDRA01-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({'frequency': 196.1,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ 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'] == 'XPDR1-NETWORK2':
- self.assertEqual({'frequency': 196.05,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ 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', 'XPDR1-CLIENT2'):
self.assertNotIn('org-openroadm-network-topology:xpdr-client-attributes', dict.keys(ele))
- time.sleep(10)
+ time.sleep(1)
def test_26_check_topo_ROADMA_SRG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
def test_27_check_topo_ROADMA_DEG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-DEG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-DEG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
# creation service test on a non-available resource
def test_28_create_eth_service3(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service3"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service3"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- self.assertIn('200', res['output']['configuration-response-common'][
- 'response-code'])
+ 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):
- response = test_utils.service_delete_request("service3")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service3"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- self.assertIn('500', res['output']['configuration-response-common'][
- 'response-code'])
- time.sleep(20)
+ 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):
- response = test_utils.service_delete_request("service1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_31_delete_eth_service2(self):
- response = test_utils.service_delete_request("service2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_32_check_no_xc_ROADMA(self):
- response = test_utils.check_netconf_node_request("ROADMA01", "")
- res = response.json()
- self.assertEqual(response.status_code, requests.codes.ok)
+ response = test_utils_rfc8040.check_node_request("ROADMA01")
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertNotIn('roadm-connections',
- dict.keys(res['org-openroadm-device']))
+ dict.keys(response['org-openroadm-device']))
time.sleep(2)
def test_33_check_topo_XPDRA(self):
- response = test_utils.get_ordm_topo_request("node/XPDRA01-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'XPDRA01-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'
and ele['tp-id'] in ('XPDR1-CLIENT1', 'XPDR1-CLIENT3')):
self.assertNotIn('wavelength', dict.keys(
ele['org-openroadm-network-topology:'
'xpdr-network-attributes']))
- time.sleep(10)
+ time.sleep(1)
def test_34_check_topo_ROADMA_SRG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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, "Lambda 1 should be available")
self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ liste_tp = response['node']['ietf-network-topology:termination-point']
for ele in liste_tp:
if ele['tp-id'] == 'SRG1-PP1-TXRX' or ele['tp-id'] == 'SRG1-PP2-TXRX':
freq_map = base64.b64decode(
self.assertEqual(freq_map_array[94], 255, "Lambda 2 should be available")
else:
self.assertNotIn('org-openroadm-network-topology:pp-attributes', dict.keys(ele))
- time.sleep(10)
+ time.sleep(1)
def test_35_check_topo_ROADMA_DEG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADMA01-DEG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADMA01-DEG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ 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_sample_data["input"]["service-name"] = "service1"
- self.cr_serv_sample_data["input"]["connection-type"] = "roadm-line"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "ROADMA01"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "OC"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "ROADMC01"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "OC"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ 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"] = "ROADMA01"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "OC"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "ROADMC01"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "OC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_37_get_oc_service1(self):
- response = test_utils.get_service_list_request("services/service1")
- 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')
- self.assertEqual(
- res['services'][0]['connection-type'], 'roadm-line')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
+ response = test_utils_rfc8040.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_netconf_node_request(
- "ROADMA01", "roadm-connections/SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMA01", "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({
'wavelength-number': 1,
'opticalControlMode': 'gainLoss',
'target-output-power': -3.0
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG1-TTP-TXRX-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(7)
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-761:768'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'DEG1-TTP-TXRX-761:768'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_39_check_xc1_ROADMC(self):
- response = test_utils.check_netconf_node_request(
- "ROADMC01", "roadm-connections/SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMC01", "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({
'wavelength-number': 1,
'opticalControlMode': 'gainLoss',
'target-output-power': 2.0
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG2-TTP-TXRX-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(7)
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'SRG1-PP1-TXRX-761:768'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'DEG2-TTP-TXRX-761:768'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_40_create_oc_service2(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service2"
- self.cr_serv_sample_data["input"]["connection-type"] = "roadm-line"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "ROADMA01"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "OC"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "ROADMC01"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "OC"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ 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"] = "ROADMA01"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "OC"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "ROADMC01"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "OC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_41_get_oc_service2(self):
- response = test_utils.get_service_list_request("services/service2")
- 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'], 'service2')
- self.assertEqual(
- res['services'][0]['connection-type'], 'roadm-line')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
+ response = test_utils_rfc8040.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(2)
def test_42_check_xc2_ROADMA(self):
- response = test_utils.check_netconf_node_request(
- "ROADMA01", "roadm-connections/SRG1-PP2-TXRX-DEG1-TTP-TXRX-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ "ROADMA01", "roadm-connections", "SRG1-PP2-TXRX-DEG1-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({
'wavelength-number': 2,
'opticalControlMode': 'gainLoss',
'target-output-power': -3.0
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP2-TXRX-753:760'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG1-TTP-TXRX-753:760'},
- res['roadm-connections'][0]['destination'])
- time.sleep(2)
+ }, **response['roadm-connections'][0]), response['roadm-connections'][0])
+ self.assertDictEqual({'src-if': 'SRG1-PP2-TXRX-753:760'}, response['roadm-connections'][0]['source'])
+ self.assertDictEqual({'dst-if': 'DEG1-TTP-TXRX-753:760'}, response['roadm-connections'][0]['destination'])
+ time.sleep(1)
def test_43_check_topo_ROADMA(self):
self.test_26_check_topo_ROADMA_SRG1()
self.test_27_check_topo_ROADMA_DEG1()
- time.sleep(3)
+ time.sleep(1)
def test_44_delete_oc_service1(self):
- response = test_utils.service_delete_request("service1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_45_delete_oc_service2(self):
- response = test_utils.service_delete_request("service2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common'][
- 'response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_46_get_no_oc_services(self):
- print("start test")
- response = test_utils.get_service_list_request("")
- self.assertEqual(response.status_code, requests.codes.conflict)
- res = response.json()
- self.assertIn(
+ response = test_utils_rfc8040.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"
- },
- res['errors']['error'])
+ }))
time.sleep(1)
def test_47_get_no_xc_ROADMA(self):
- response = test_utils.check_netconf_node_request("ROADMA01", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['roadm-connections'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.check_node_request("ROADMA01")
+ 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):
def test_49_loop_create_eth_service(self):
# pylint: disable=consider-using-f-string
- for i in range(1, 6):
+ for i in range(1, 4):
print("iteration number {}".format(i))
print("eth service creation")
self.test_11_create_eth_service1()
self.test_30_delete_eth_service1()
def test_50_loop_create_oc_service(self):
- response = test_utils.get_service_list_request("services/service1")
- if response.status_code != 404:
- response = test_utils.service_delete_request("service1")
+ response = test_utils_rfc8040.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_rfc8040.transportpce_api_rpc_request(
+ 'org-openroadm-service', 'service-delete',
+ self.del_serv_input_data)
time.sleep(5)
# pylint: disable=consider-using-f-string
- for i in range(1, 6):
+ for i in range(1, 4):
print("iteration number {}".format(i))
print("oc service creation")
self.test_36_create_oc_service1()
self.test_44_delete_oc_service1()
def test_51_disconnect_XPDRA(self):
- response = test_utils.unmount_device("XPDRA01")
- self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("XPDRA01")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_52_disconnect_XPDRC(self):
- response = test_utils.unmount_device("XPDRC01")
- self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("XPDRC01")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_53_disconnect_ROADMA(self):
- response = test_utils.unmount_device("ROADMA01")
- self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADMA01")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_54_disconnect_ROADMC(self):
- response = test_utils.unmount_device("ROADMC01")
- self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADMC01")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
if __name__ == "__main__":
sys.path.append('transportpce_tests/common/')
# pylint: disable=wrong-import-position
# pylint: disable=import-error
-import test_utils # nopep8
+import test_utils_rfc8040 # nopep8
class TransportPCEFulltesting(unittest.TestCase):
processes = None
- cr_serv_sample_data = {"input": {
+ cr_serv_input_data = {
"sdnc-request-header": {
"request-id": "e3028bae-a90f-4ddd-a83f-cf224eba0e58",
"rpc-action": "service-create",
"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
@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)])
+ cls.processes = test_utils_rfc8040.start_tpce()
+ cls.processes = test_utils_rfc8040.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)
+ test_utils_rfc8040.shutdown_process(process)
print("all processes killed")
def setUp(self): # instruction executed before each test method
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)
+ 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_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)
+ response = test_utils_rfc8040.mount_device("XPDR-C1", ('xpdrc', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.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)
+ 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_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)
+ response = test_utils_rfc8040.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION))
+ self.assertEqual(response.status_code, requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_05_connect_xprdA_N1_to_roadmA_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDR-A1", "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"])
+ response = test_utils_rfc8040.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.connect_rdm_to_xpdr_request("XPDR-A1", "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"])
+ response = test_utils_rfc8040.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_xprdC_xpdr1_N1_to_roadmC_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDR-C1", "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"])
+ response = test_utils_rfc8040.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_xprd1_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("XPDR-C1", "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"])
+ response = test_utils_rfc8040.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_xprdA_N2_to_roadmA_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDR-A1", "1", "2",
- "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"])
+ response = test_utils_rfc8040.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.connect_rdm_to_xpdr_request("XPDR-A1", "1", "2",
- "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"])
+ response = test_utils_rfc8040.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_xprdC_xpdr2_N1_to_roadmC_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("XPDR-C1", "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"])
+ response = test_utils_rfc8040.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.connect_rdm_to_xpdr_request("XPDR-C1", "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"])
+ response = test_utils_rfc8040.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):
"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)
+ response = test_utils_rfc8040.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):
"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)
+ response = test_utils_rfc8040.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_sample_data["input"]["service-name"] = "service2"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
- def test_16_get_eth_service1(self):
- response = test_utils.get_service_list_request("services/service2")
- 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'], 'service2')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ def test_16_get_eth_service2(self):
+ response = test_utils_rfc8040.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_netconf_node_request(
- "ROADM-A1", "roadm-connections/SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG2-TTP-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(5)
+ }, **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_netconf_node_request(
- "ROADM-C1", "roadm-connections/SRG1-PP2-TXRX-DEG1-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP2-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG1-TTP-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(5)
+ }, **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_ordm_topo_request("node/XPDR-A1-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.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({'frequency': 196.1,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ 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(3)
+ time.sleep(1)
def test_20_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()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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, "Index 1 should not be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(3)
+ time.sleep(1)
def test_21_check_topo_ROADMA_DEG2(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-A1-DEG2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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, "Index 1 should not be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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: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)
+ time.sleep(1)
def test_22_create_eth_service1(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service1"
- del self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"]
- del self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"]
- del self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"]
- del self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"]
- del self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"]
- del self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"]
- del self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"]
- del self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"]
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ 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_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_23_get_eth_service1(self):
- response = test_utils.get_service_list_request("services/service1")
- 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')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
+ response = test_utils_rfc8040.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_netconf_node_request(
- "ROADM-A1", "roadm-connections/DEG2-TTP-TXRX-SRG1-PP2-TXRX-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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'
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'DEG2-TTP-TXRX-nmc-753:760'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'SRG1-PP2-TXRX-nmc-753:760'},
- res['roadm-connections'][0]['destination'])
+ }, **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_ordm_topo_request("node/XPDR-A1-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.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({'frequency': 196.05,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ 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(10)
+ time.sleep(1)
def test_26_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()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
def test_27_check_topo_ROADMA_DEG2(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-A1-DEG2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
# creation service test on a non-available resource
def test_28_create_eth_service3(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service3"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service3"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- self.assertIn('200', res['output']['configuration-response-common']['response-code'])
+ 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):
- response = test_utils.service_delete_request("service3")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service3"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- self.assertIn('500', res['output']['configuration-response-common']['response-code'])
- time.sleep(20)
+ 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):
- response = test_utils.service_delete_request("service1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_31_delete_eth_service2(self):
- response = test_utils.service_delete_request("service2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_32_check_no_xc_ROADMA(self):
- response = test_utils.check_netconf_node_request("ROADM-A1", "")
- res = response.json()
- self.assertEqual(response.status_code, requests.codes.ok)
- self.assertNotIn('roadm-connections', dict.keys(res['org-openroadm-device']))
+ response = test_utils_rfc8040.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_ordm_topo_request("node/XPDR-A1-XPDR1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.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(10)
+ 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_ordm_topo_request("node/ROADM-A1-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
def test_35_check_topo_ROADMA_DEG2(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-A1-DEG2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ 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_sample_data["input"]["service-name"] = "service1"
- self.cr_serv_sample_data["input"]["connection-type"] = "roadm-line"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "ROADM-A1"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "OC"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "ROADM-C1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "OC"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ 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_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_37_get_oc_service1(self):
- response = test_utils.get_service_list_request("services/service1")
- 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')
- self.assertEqual(
- res['services'][0]['connection-type'], 'roadm-line')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
+ response = test_utils_rfc8040.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_netconf_node_request(
- "ROADM-A1", "roadm-connections/SRG1-PP1-TXRX-DEG2-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG2-TTP-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(7)
+ }, **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_netconf_node_request(
- "ROADM-C1", "roadm-connections/SRG1-PP1-TXRX-DEG1-TTP-TXRX-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP1-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG1-TTP-TXRX-nmc-761:768'},
- res['roadm-connections'][0]['destination'])
- time.sleep(7)
+ }, **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_sample_data["input"]["service-name"] = "service2"
- self.cr_serv_sample_data["input"]["connection-type"] = "roadm-line"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "ROADM-A1"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "OC"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "ROADM-C1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "OC"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ 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_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_41_get_oc_service2(self):
- response = test_utils.get_service_list_request("services/service2")
- 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'], 'service2')
- self.assertEqual(
- res['services'][0]['connection-type'], 'roadm-line')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.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_netconf_node_request(
- "ROADM-A1", "roadm-connections/SRG1-PP2-TXRX-DEG2-TTP-TXRX-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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
- }, **res['roadm-connections'][0]),
- res['roadm-connections'][0]
- )
- self.assertDictEqual(
- {'src-if': 'SRG1-PP2-TXRX-nmc-753:760'},
- res['roadm-connections'][0]['source'])
- self.assertDictEqual(
- {'dst-if': 'DEG2-TTP-TXRX-nmc-753:760'},
- res['roadm-connections'][0]['destination'])
- time.sleep(2)
+ }, **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_ordm_topo_request("node/ROADM-A1-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
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(10)
+ time.sleep(1)
self.test_27_check_topo_ROADMA_DEG2()
- time.sleep(3)
+ time.sleep(1)
def test_44_delete_oc_service1(self):
- response = test_utils.service_delete_request("service1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_45_delete_oc_service2(self):
- response = test_utils.service_delete_request("service2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service2"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
- time.sleep(20)
+ response['output']['configuration-response-common']['response-message'])
+ time.sleep(self.WAITING)
def test_46_get_no_oc_services(self):
- print("start test")
- 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'])
+ response = test_utils_rfc8040.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_netconf_node_request("ROADM-A1", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['roadm-connections'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.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_44_delete_oc_service1()
def test_50_loop_create_eth_service(self):
- response = test_utils.get_service_list_request("services/service1")
- if response.status_code != requests.codes.not_found:
- response = test_utils.service_delete_request("service1")
+ response = test_utils_rfc8040.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_rfc8040.transportpce_api_rpc_request(
+ 'org-openroadm-service', 'service-delete',
+ self.del_serv_input_data)
time.sleep(5)
- self.cr_serv_sample_data["input"]["connection-type"] = "service"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "XPDR-A1"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "Ethernet"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "XPDR-C1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "Ethernet"
+ 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))
self.test_31_delete_eth_service2()
def test_51_disconnect_XPDRA(self):
- response = test_utils.unmount_device("XPDR-A1")
- self.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.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.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.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.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.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.assertEqual(response.status_code, requests.codes.ok, test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-C1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
if __name__ == "__main__":
sys.path.append('transportpce_tests/common/')
# pylint: disable=wrong-import-position
# pylint: disable=import-error
-import test_utils # nopep8
+import test_utils_rfc8040 # nopep8
class TransportPCEtesting(unittest.TestCase):
WAITING = 20 # nominal value is 300
NODE_VERSION = '2.2.1'
- cr_serv_sample_data = {"input": {
+ cr_serv_input_data = {
"sdnc-request-header": {
"request-id": "request-1",
"rpc-action": "service-create",
"due-date": "2018-06-15T00:00:01Z",
"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"}
}
@classmethod
def setUpClass(cls):
- cls.processes = test_utils.start_tpce()
- cls.processes = test_utils.start_sims([('spdra', cls.NODE_VERSION),
- ('spdrb', cls.NODE_VERSION),
- ('spdrc', cls.NODE_VERSION),
- ('roadma', cls.NODE_VERSION),
- ('roadmb', cls.NODE_VERSION),
- ('roadmc', cls.NODE_VERSION)])
+ cls.processes = test_utils_rfc8040.start_tpce()
+ cls.processes = test_utils_rfc8040.start_sims([('spdra', cls.NODE_VERSION),
+ ('spdrb', cls.NODE_VERSION),
+ ('spdrc', cls.NODE_VERSION),
+ ('roadma', cls.NODE_VERSION),
+ ('roadmb', cls.NODE_VERSION),
+ ('roadmc', cls.NODE_VERSION)])
@classmethod
def tearDownClass(cls):
# pylint: disable=not-an-iterable
for process in cls.processes:
- test_utils.shutdown_process(process)
+ test_utils_rfc8040.shutdown_process(process)
print("all processes killed")
def setUp(self):
time.sleep(2)
def test_001_connect_spdrA(self):
- response = test_utils.mount_device("SPDR-SA1", ('spdra', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SA1", ('spdra', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_002_connect_spdrB(self):
- response = test_utils.mount_device("SPDR-SB1", ('spdrb', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SB1", ('spdrb', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_003_connect_spdrC(self):
- response = test_utils.mount_device("SPDR-SC1", ('spdrc', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SC1", ('spdrc', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_004_connect_rdmA(self):
- response = test_utils.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_005_connect_rdmB(self):
- response = test_utils.mount_device("ROADM-B1", ('roadmb', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-B1", ('roadmb', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_006_connect_rdmC(self):
- response = test_utils.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_007_connect_sprdA_2_N1_to_roadmA_PP3(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SA1", "2", "1",
- "ROADM-A1", "1", "SRG1-PP3-TXRX")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Xponder Roadm Link created successfully',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SA1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP3-TXRX'}})
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"])
time.sleep(2)
def test_008_connect_roadmA_PP3_to_spdrA_2_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SA1", "2", "1",
- "ROADM-A1", "1", "SRG1-PP3-TXRX")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Roadm Xponder links created successfully',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SA1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-A1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP3-TXRX'}})
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Roadm Xponder links created successfully', response["output"]["result"])
time.sleep(2)
def test_009_connect_sprdC_2_N1_to_roadmC_PP3(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SC1", "2", "1",
- "ROADM-C1", "1", "SRG1-PP3-TXRX")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Xponder Roadm Link created successfully',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SC1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP3-TXRX'}})
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Xponder Roadm Link created successfully', response["output"]["result"])
time.sleep(2)
def test_010_connect_roadmC_PP3_to_spdrC_2_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SC1", "2", "1",
- "ROADM-C1", "1", "SRG1-PP3-TXRX")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Roadm Xponder links created successfully',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SC1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-C1', 'srg-num': '1', 'termination-point-num': 'SRG1-PP3-TXRX'}})
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Roadm Xponder links created successfully', response["output"]["result"])
time.sleep(2)
def test_011_connect_sprdB_2_N1_to_roadmB_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SB1", "2", "1",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-B1', '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_012_connect_roadmB_PP1_to_spdrB_2_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SB1", "2", "1",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-B1', '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_013_connect_sprdB_2_N2_to_roadmB_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SB1", "2", "2",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '2',
+ 'rdm-node': 'ROADM-B1', '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_014_connect_roadmB_PP2_to_spdrB_2_N2(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SB1", "2", "2",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '2',
+ 'rdm-node': 'ROADM-B1', '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_015_add_omsAttributes_ROADMA_ROADMB(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_016_add_omsAttributes_ROADMB_ROADMA(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_017_add_omsAttributes_ROADMB_ROADMC(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_018_add_omsAttributes_ROADMC_ROADMB(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_019_create_OTS_ROADMA_DEG1(self):
- response = test_utils.create_ots_oms_request("ROADM-A1", "DEG1-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-A1',
+ 'logical-connection-point': 'DEG1-TTP-TXRX'
+ })
+ # time.sleep(10)
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG1-TTP-TXRX - OMS-DEG1-TTP-TXRX successfully created on node ROADM-A1',
- res["output"]["result"])
+ response["output"]["result"])
def test_020_create_OTS_ROADMB_DEG1(self):
- response = test_utils.create_ots_oms_request("ROADM-B1", "DEG1-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-B1',
+ 'logical-connection-point': 'DEG1-TTP-TXRX'
+ })
+ # time.sleep(10)
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG1-TTP-TXRX - OMS-DEG1-TTP-TXRX successfully created on node ROADM-B1',
- res["output"]["result"])
+ response["output"]["result"])
def test_021_create_OTS_ROADMB_DEG2(self):
- response = test_utils.create_ots_oms_request("ROADM-B1", "DEG2-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-B1',
+ 'logical-connection-point': 'DEG2-TTP-TXRX'
+ })
+ # time.sleep(10)
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG2-TTP-TXRX - OMS-DEG2-TTP-TXRX successfully created on node ROADM-B1',
- res["output"]["result"])
+ response["output"]["result"])
def test_022_create_OTS_ROADMC_DEG2(self):
- response = test_utils.create_ots_oms_request("ROADM-C1", "DEG2-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-C1',
+ 'logical-connection-point': 'DEG2-TTP-TXRX'
+ })
+ # time.sleep(10)
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG2-TTP-TXRX - OMS-DEG2-TTP-TXRX successfully created on node ROADM-C1',
- res["output"]["result"])
+ response["output"]["result"])
def test_023_calculate_span_loss_base_all(self):
- url = "{}/operations/transportpce-olm:calculate-spanloss-base"
- data = {
- "input": {
- "src-type": "all"
- }
- }
- response = test_utils.post_request(url, data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Success',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-olm', 'calculate-spanloss-base',
+ {
+ 'src-type': 'all'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Success', response["output"]["result"])
self.assertIn({
"spanloss": "25.7",
"link-id": "ROADM-C1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "17.6",
"link-id": "ROADM-A1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "23.6",
"link-id": "ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "23.6",
"link-id": "ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "25.7",
"link-id": "ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "17.6",
"link-id": "ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
time.sleep(5)
def test_024_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, 9, 'There should be 9 nodes')
- self.assertNotIn('ietf-network-topology:link', res['network'][0],
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['node']), 9, 'There should be 9 nodes')
+ self.assertNotIn('ietf-network-topology:link', response['network'][0],
'otn-topology should have no link')
# test service-create for OCH-OTU4 service from spdrA to spdrB
def test_025_create_OCH_OTU4_service_AB(self):
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_026_get_OCH_OTU4_service_AB(self):
- response = test_utils.get_service_list_request(
- "services/service-OCH-OTU4-AB")
- 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-OCH-OTU4-AB')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-OCH-OTU4-AB")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-OCH-OTU4-AB')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
# Check correct configuration of devices
def test_027_check_interface_och_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-761:768')
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-761:768',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'type': 'org-openroadm-interfaces:opticalChannel',
'supporting-port': 'CP5-CFP-P1'
- }, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(
- {'frequency': 196.1, 'rate': 'org-openroadm-common-types:R100G',
- 'transmit-power': -5, 'modulation-format': 'dp-qpsk'},
- res['interface'][0]['org-openroadm-optical-channel-interfaces:och'])
+ }, **response['interface'][0]),
+ response['interface'][0])
+
+ self.assertEqual('org-openroadm-common-types:R100G',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['rate'])
+ self.assertEqual('dp-qpsk',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['modulation-format'])
+ self.assertEqual(196.1,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['frequency']))
+ self.assertEqual(
+ -5,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['transmit-power']))
def test_028_check_interface_OTU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-OTU/otu")
- self.assertEqual(response2.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_029_check_interface_och_spdrB(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-761:768")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-761:768')
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-761:768',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'type': 'org-openroadm-interfaces:opticalChannel',
'supporting-port': 'CP5-CFP-P1'
- }, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(
- {'frequency': 196.1, 'rate': 'org-openroadm-common-types:R100G',
- 'transmit-power': -5, 'modulation-format': 'dp-qpsk'},
- res['interface'][0]['org-openroadm-optical-channel-interfaces:och'])
+ }, **response['interface'][0]),
+ response['interface'][0])
+
+ self.assertEqual('org-openroadm-common-types:R100G',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['rate'])
+ self.assertEqual('dp-qpsk',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['modulation-format'])
+ self.assertEqual(196.1,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['frequency']))
+ self.assertEqual(
+ -5,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['transmit-power']))
def test_030_check_interface_OTU4_spdrB(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
-
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-OTU/otu")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_031_check_no_interface_ODU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-ODU4")
- 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'])
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
+ self.assertIn(response['interface'], (
+ {
+ "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"
+ }))
def test_032_check_openroadm_topo_spdra(self):
- response = test_utils.get_ordm_topo_request("node/SPDR-SA1-XPDR2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- ele = res['node'][0]['ietf-network-topology:termination-point'][0]
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'SPDR-SA1-XPDR2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ ele = response['node']['ietf-network-topology:termination-point'][0]
self.assertEqual('XPDR2-NETWORK1', ele['tp-id'])
- self.assertEqual({'frequency': 196.1,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ self.assertEqual(
+ 196.1,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['frequency']))
+ self.assertEqual(
+ 40,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['width']))
self.assertEqual('ROADM-A1-SRG1--SRG1-PP3-TXRX',
ele['org-openroadm-network-topology:xpdr-network-attributes']['tail-equipment-id'])
- time.sleep(3)
+ time.sleep(1)
def test_033_check_openroadm_topo_ROADMA_SRG(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-A1-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ liste_tp = response['node']['ietf-network-topology:termination-point']
for ele in liste_tp:
if ele['tp-id'] == 'SRG1-PP3-TXRX':
freq_map = base64.b64decode(
self.assertEqual(freq_map_array[95], 0, "Lambda 1 should not be available")
if ele['tp-id'] == 'SRG1-PP2-TXRX':
self.assertNotIn('avail-freq-maps', dict.keys(ele))
- time.sleep(3)
+ time.sleep(1)
def test_034_check_openroadm_topo_ROADMA_DEG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-A1-DEG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-A1-DEG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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 = res['node'][0]['ietf-network-topology:termination-point']
+ liste_tp = response['node']['ietf-network-topology:termination-point']
for ele in liste_tp:
if ele['tp-id'] == 'DEG1-CTP-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")
- time.sleep(3)
+ time.sleep(1)
def test_035_check_otn_topo_otu4_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)
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 2)
listLinkId = ['OTU4-SPDR-SA1-XPDR2-XPDR2-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR2-XPDR2-NETWORK1']
- for link in res['network'][0]['ietf-network-topology:link']:
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertIn(link['link-id'], listLinkId)
self.assertEqual(
link['transportpce-networkutils:otn-link-type'], 'OTU4')
# test service-create for OCH-OTU4 service from spdrB to spdrC
+
def test_036_create_OCH_OTU4_service_BC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-OCH-OTU4-BC"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SB1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSB"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-OCH-OTU4-BC"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SB1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSB"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_037_get_OCH_OTU4_service_BC(self):
- response = test_utils.get_service_list_request(
- "services/service-OCH-OTU4-BC")
- 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-OCH-OTU4-BC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-OCH-OTU4-BC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-OCH-OTU4-BC')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
# Check correct configuration of devices
def test_038_check_interface_och_spdrB(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-753:760')
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-753:760',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP6-CFP',
'type': 'org-openroadm-interfaces:opticalChannel',
'supporting-port': 'CP1-CFP0-P1'
- }, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(
- {'frequency': 196.05, 'rate': 'org-openroadm-common-types:R100G',
- 'transmit-power': -5, 'modulation-format': 'dp-qpsk'},
- res['interface'][0]['org-openroadm-optical-channel-interfaces:och'])
+ }, **response['interface'][0]),
+ response['interface'][0])
+
+ self.assertEqual('org-openroadm-common-types:R100G',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['rate'])
+ self.assertEqual('dp-qpsk',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['modulation-format'])
+ self.assertEqual(196.05,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['frequency']))
+ self.assertEqual(
+ -5,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['transmit-power']))
def test_039_check_interface_OTU4_spdrB(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK2-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP6-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-OTU/otu")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_040_check_interface_och_spdrC(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-753:760")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-761:768',
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-753:760')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertDictEqual(dict({'name': 'XPDR2-NETWORK1-753:760',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'type': 'org-openroadm-interfaces:opticalChannel',
'supporting-port': 'CP5-CFP-P1'
- }, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(
- {'frequency': 196.05, 'rate': 'org-openroadm-common-types:R100G',
- 'transmit-power': -5, 'modulation-format': 'dp-qpsk'},
- res['interface'][0]['org-openroadm-optical-channel-interfaces:och'])
+ }, **response['interface'][0]),
+ response['interface'][0])
+
+ self.assertEqual('org-openroadm-common-types:R100G',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['rate'])
+ self.assertEqual('dp-qpsk',
+ response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['modulation-format'])
+ self.assertEqual(196.05,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['frequency']))
+ self.assertEqual(
+ -5,
+ float(response['interface'][0]['org-openroadm-optical-channel-interfaces:och']['transmit-power']))
def test_041_check_interface_OTU4_spdrC(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
-
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-OTU/otu")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_042_check_no_interface_ODU4_spdrB(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- 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'])
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
+ self.assertIn(response['interface'], (
+ {
+ "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"
+ }))
def test_043_check_openroadm_topo_spdrB(self):
- response = test_utils.get_ordm_topo_request("node/SPDR-SB1-XPDR2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'SPDR-SB1-XPDR2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ liste_tp = response['node']['ietf-network-topology:termination-point']
# pylint: disable=consider-using-f-string
for ele in liste_tp:
if ele['tp-id'] == 'XPDR2-NETWORK1':
- self.assertEqual({'frequency': 196.1,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ self.assertEqual(
+ 196.1,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['frequency']))
+ self.assertEqual(
+ 40,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['width']))
self.assertEqual('ROADM-B1-SRG1--SRG1-PP1-TXRX',
ele['org-openroadm-network-topology:xpdr-network-attributes']['tail-equipment-id'])
elif ele['tp-id'] == 'XPDR2-NETWORK2':
- self.assertEqual({'frequency': 196.05,
- 'width': 40},
- ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength'])
+ self.assertEqual(
+ 196.05,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['frequency']))
+ self.assertEqual(
+ 40,
+ float(ele['org-openroadm-network-topology:xpdr-network-attributes']['wavelength']['width']))
self.assertEqual('ROADM-B1-SRG1--SRG1-PP2-TXRX',
ele['org-openroadm-network-topology:xpdr-network-attributes']['tail-equipment-id'])
else:
- print("ele = {}".format(ele))
self.assertNotIn('org-openroadm-network-topology:xpdr-network-attributes', dict.keys(ele))
- time.sleep(3)
+ time.sleep(1)
def test_044_check_openroadm_topo_ROADMB_SRG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-B1-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-B1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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")
self.assertEqual(freq_map_array[93], 255, "Lambda 3 should be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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(
self.assertEqual(freq_map_array[94], 0, "Lambda 2 should not be available")
if ele['tp-id'] == 'SRG1-PP3-TXRX':
self.assertNotIn('avail-freq-maps', dict.keys(ele))
- time.sleep(3)
+ time.sleep(1)
def test_045_check_openroadm_topo_ROADMB_DEG2(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-B1-DEG2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-B1-DEG2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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[94], 0, "Lambda 2 should not be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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:tx-ttp-attributes']['avail-freq-maps'][0]['freq-map'])
freq_map_array = [int(x) for x in freq_map]
self.assertEqual(freq_map_array[94], 0, "Lambda 1 should not be available")
- time.sleep(3)
+ time.sleep(1)
def test_046_check_otn_topo_otu4_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)
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 4)
listLinkId = ['OTU4-SPDR-SA1-XPDR2-XPDR2-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK2toSPDR-SC1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SC1-XPDR2-XPDR2-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK2']
- for link in res['network'][0]['ietf-network-topology:link']:
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertIn(link['link-id'], listLinkId)
self.assertEqual(
link['transportpce-networkutils:otn-link-type'], 'OTU4')
self.assertIn(
link['org-openroadm-common-network:opposite-link'], listLinkId)
+
# test service-create for 100GE service from spdrA to spdrC via spdrB
+
def test_047_create_100GE_service_ABC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-100GE-ABC"
- self.cr_serv_sample_data["input"]["connection-type"] = "service"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "Ethernet"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SA1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSA"
- del self.cr_serv_sample_data["input"]["service-a-end"]["otu-service-rate"]
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "Ethernet"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- del self.cr_serv_sample_data["input"]["service-z-end"]["otu-service-rate"]
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["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.cr_serv_input_data["service-name"] = "service-100GE-ABC"
+ self.cr_serv_input_data["connection-type"] = "service"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "Ethernet"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SA1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSA"
+ del self.cr_serv_input_data["service-a-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "Ethernet"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ del self.cr_serv_input_data["service-z-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_048_get_100GE_service_ABC(self):
- response = test_utils.get_service_list_request(
- "services/service-100GE-ABC")
- 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-ABC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-100GE-ABC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-100GE-ABC')
+ self.assertEqual(response['services'][0]['connection-type'], 'service')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_049_check_interface_100GE_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-CLIENT1-ETHERNET")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-CLIENT1-ETHERNET')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict = {'name': 'XPDR2-CLIENT1-ETHERNET',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP2-QSFP1',
'type': 'org-openroadm-interfaces:ethernetCsmacd',
'supporting-port': 'CP2-QSFP1-P1'
}
- self.assertDictEqual(dict(input_dict, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(
- {'speed': 100000,
- 'fec': 'off'},
- res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet'])
+ self.assertDictEqual(dict(input_dict, **response['interface'][0]),
+ response['interface'][0])
+ self.assertEqual(100000, response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['speed'])
+ self.assertEqual('off', response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['fec'])
def test_050_check_interface_ODU4_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-CLIENT1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-CLIENT1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-CLIENT1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP2-QSFP1',
'supporting-interface': 'XPDR2-CLIENT1-ETHERNET',
'type': 'org-openroadm-interfaces:otnOdu',
'supporting-port': 'CP2-QSFP1-P1'}
+ # SAPI/DAPI are added in the Otu4 renderer
input_dict_2 = {
- 'odu-function': 'org-openroadm-otn-common-types:ODU-TTP-CTP',
+ 'odu-function': 'org-openroadm-otn-common-types:ODU-TTP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'terminated',
'expected-dapi': 'AItaZ6nmyaKJ',
'tx-dapi': 'AKFnJJaijWiz',
'tx-sapi': 'AItaZ6nmyaKJ'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-CLIENT1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-CLIENT1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_051_check_interface_ODU4_NETWORK_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_052_check_ODU4_connection_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1",
- "odu-connection/XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'odu-connection', 'XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4',
'direction': 'bidirectional'
}
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR2-NETWORK1-ODU4'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR2-CLIENT1-ODU4'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_053_check_interface_100GE_CLIENT_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-CLIENT1-ETHERNET")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-CLIENT1-ETHERNET')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict = {'name': 'XPDR2-CLIENT1-ETHERNET',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP2-QSFP1',
'type': 'org-openroadm-interfaces:ethernetCsmacd',
'supporting-port': 'CP2-QSFP1-P1'
}
- self.assertDictEqual(dict(input_dict, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(
- {'speed': 100000,
- 'fec': 'off'},
- res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet'])
+ self.assertDictEqual(dict(input_dict, **response['interface'][0]),
+ response['interface'][0])
+ self.assertEqual(100000, response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['speed'])
+ self.assertEqual('off', response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['fec'])
def test_054_check_interface_ODU4_CLIENT_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-CLIENT1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-CLIENT1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-CLIENT1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP2-QSFP1',
'tx-dapi': 'AItaZ6nmyaKJ',
'tx-sapi': 'AKFnJJaijWiz'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-CLIENT1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-CLIENT1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_055_check_interface_ODU4_NETWORK_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_056_check_ODU4_connection_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1",
- "odu-connection/XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'odu-connection', 'XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR2-CLIENT1-ODU4-x-XPDR2-NETWORK1-ODU4',
'direction': 'bidirectional'
}
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR2-NETWORK1-ODU4'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR2-CLIENT1-ODU4'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_057_check_interface_ODU4_NETWORK1_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_058_check_interface_ODU4_NETWORK2_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ input_dict_1 = {'name': 'XPDR2-NETWORK2-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP6-CFP',
'type': 'org-openroadm-interfaces:otnOdu',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_059_check_ODU4_connection_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1",
- "odu-connection/XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'odu-connection', 'XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4',
'direction': 'bidirectional'
}
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR2-NETWORK2-ODU4'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR2-NETWORK1-ODU4'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_060_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']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 4)
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertEqual(
link['org-openroadm-otn-network-topology:available-bandwidth'], 0)
self.assertEqual(
link['org-openroadm-otn-network-topology:used-bandwidth'], 100000)
def test_061_delete_service_100GE_ABC(self):
- response = test_utils.service_delete_request("service-100GE-ABC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-100GE-ABC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_062_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)
+ response = test_utils_rfc8040.get_ordm_serv_list_request()
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['service-list']['services']), 2)
+ time.sleep(1)
def test_063_check_no_ODU4_connection_spdra(self):
- response = test_utils.check_netconf_node_request("SPDR-SA1", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['odu-connection'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.check_node_request("SPDR-SA1")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn(['odu-connection'][0], response['org-openroadm-device'])
time.sleep(1)
def test_064_check_no_interface_ODU4_NETWORK_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_065_check_no_interface_ODU4_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-CLIENT1-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-CLIENT1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_066_check_no_interface_100GE_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-CLIENT1-ETHERNET")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-CLIENT1-ETHERNET')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_067_check_otn_topo_links(self):
self.test_046_check_otn_topo_otu4_links()
def test_068_delete_OCH_OTU4_service_AB(self):
- response = test_utils.service_delete_request("service-OCH-OTU4-AB")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-OCH-OTU4-AB"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_069_delete_OCH_OTU4_service_BC(self):
- response = test_utils.service_delete_request("service-OCH-OTU4-BC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-OCH-OTU4-BC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_070_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'])
+ response = test_utils_rfc8040.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_071_check_no_interface_OTU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_072_check_no_interface_OCH_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-761:768")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-761:768')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_073_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])
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn('ietf-network-topology:link', response['network'][0])
def test_074_check_openroadm_topo_spdra(self):
- response = test_utils.get_ordm_topo_request("node/SPDR-SA1-XPDR2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- tp = res['node'][0]['ietf-network-topology:termination-point'][0]
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'SPDR-SA1-XPDR2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ tp = response['node']['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)
+ time.sleep(1)
def test_075_check_openroadm_topo_ROADMB_SRG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-B1-SRG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-B1-SRG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:srg-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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, "Lambda 1 should be available")
self.assertEqual(freq_map_array[94], 255, "Lambda 1 should be available")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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[94], 255, "Lambda 1 should be available")
- time.sleep(3)
+ time.sleep(1)
def test_076_check_openroadm_topo_ROADMB_DEG1(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-B1-DEG1")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-B1-DEG1', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ liste_tp = response['node']['ietf-network-topology:termination-point']
for ele in liste_tp:
if ele['tp-id'] == 'DEG1-CTP-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")
- time.sleep(3)
+ time.sleep(1)
def test_077_check_openroadm_topo_ROADMB_DEG2(self):
- response = test_utils.get_ordm_topo_request("node/ROADM-B1-DEG2")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.get_ietf_network_node_request('openroadm-topology', 'ROADM-B1-DEG2', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
freq_map = base64.b64decode(
- res['node'][0]['org-openroadm-network-topology:degree-attributes']['avail-freq-maps'][0]['freq-map'])
+ 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")
- liste_tp = res['node'][0]['ietf-network-topology:termination-point']
+ 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: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")
- time.sleep(3)
+ time.sleep(1)
def test_078_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']
+ response = test_utils_rfc8040.get_ietf_network_request('openroadm-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ links = response['network'][0]['ietf-network-topology:link']
for link in links:
if (link["org-openroadm-common-network:link-type"] in ('XPONDER-OUTPUT', 'XPONDER-INPUT')
and ('SPDR-SB1' in link['link-id'] or 'ROADM-B1' in link['link-id'])):
- link_name = link["link-id"]
- response = test_utils.delete_request(url+link_name)
- self.assertEqual(response.status_code, requests.codes.ok)
+ response = test_utils_rfc8040.del_ietf_network_link_request(
+ 'openroadm-topology', link['link-id'], 'config')
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_079_disconnect_spdrB(self):
- response = test_utils.unmount_device("SPDR-SB1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SB1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_080_disconnect_roadmB(self):
- response = test_utils.unmount_device("ROADM-B1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-B1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_081_remove_roadm_to_roadm_links(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']
+ response = test_utils_rfc8040.get_ietf_network_request('openroadm-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ links = response['network'][0]['ietf-network-topology:link']
for link in links:
if (link["org-openroadm-common-network:link-type"] == "ROADM-TO-ROADM"
and 'ROADM-B1' in link['link-id']):
- link_name = link["link-id"]
- response = test_utils.delete_request(url+link_name)
- self.assertEqual(response.status_code, requests.codes.ok)
+ response = test_utils_rfc8040.del_ietf_network_link_request(
+ 'openroadm-topology', link['link-id'], 'config')
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_082_add_omsAttributes_ROADMA_ROADMC(self):
# Config ROADMA-ROADMC oms-attributes
"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)
+ response = test_utils_rfc8040.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_083_add_omsAttributes_ROADMC_ROADMA(self):
"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)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-C1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_084_create_OCH_OTU4_service_AC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-OCH-OTU4-AC"
- self.cr_serv_sample_data["input"]["connection-type"] = "infrastructure"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "100"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "OTU"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-a-end"]["otu-service-rate"] = "org-openroadm-otn-common-types:OTU4"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "100"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "OTU"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["otu-service-rate"] = "org-openroadm-otn-common-types:OTU4"
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-OCH-OTU4-AC"
+ self.cr_serv_input_data["connection-type"] = "infrastructure"
+ self.cr_serv_input_data["service-a-end"]["service-rate"] = "100"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "OTU"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-a-end"]["otu-service-rate"] = "org-openroadm-otn-common-types:OTU4"
+ self.cr_serv_input_data["service-z-end"]["service-rate"] = "100"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "OTU"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["otu-service-rate"] = "org-openroadm-otn-common-types:OTU4"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_085_get_OCH_OTU4_service_AC(self):
- response = test_utils.get_service_list_request(
- "services/service-OCH-OTU4-AC")
- 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-OCH-OTU4-AC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-OCH-OTU4-AC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-OCH-OTU4-AC')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
# test service-create for 100GE service from spdrA to spdrC via spdrB
def test_086_create_100GE_service_AC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-100GE-AC"
- self.cr_serv_sample_data["input"]["connection-type"] = "service"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "Ethernet"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SA1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSA"
- del self.cr_serv_sample_data["input"]["service-a-end"]["otu-service-rate"]
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "Ethernet"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- del self.cr_serv_sample_data["input"]["service-z-end"]["otu-service-rate"]
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["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.cr_serv_input_data["service-name"] = "service-100GE-AC"
+ self.cr_serv_input_data["connection-type"] = "service"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "Ethernet"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SA1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSA"
+ del self.cr_serv_input_data["service-a-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "Ethernet"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ del self.cr_serv_input_data["service-z-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-CLIENT1"
+
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_087_get_100GE_service_AC(self):
- response = test_utils.get_service_list_request("services/service-100GE-AC")
- 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-AC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-100GE-AC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-100GE-AC')
+ self.assertEqual(response['services'][0]['connection-type'], 'service')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_088_check_interface_OTU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
-
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-OTU/otu")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_089_check_interface_OTU4_spdrC(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR2-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR2-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-OTU',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'rate': 'org-openroadm-otn-common-types:OTU4',
'fec': 'scfec'
}
-
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(input_dict_2,
- res['interface'][0]
- ['org-openroadm-otn-otu-interfaces:otu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR2-NETWORK1-OTU/otu")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['org-openroadm-otn-otu-interfaces:otu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(input_dict_2, **response['interface'][0]['org-openroadm-otn-otu-interfaces:otu']),
+ response['interface'][0]['org-openroadm-otn-otu-interfaces:otu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SA1', 'interface', 'XPDR2-NETWORK1-OTU', 'org-openroadm-otn-otu-interfaces:otu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-otu-interfaces:otu']['expected-dapi'])
def test_090_check_configuration_spdra(self):
self.test_049_check_interface_100GE_CLIENT_spdra()
self.test_056_check_ODU4_connection_spdrc()
def test_092_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, 2)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 2)
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertEqual(
link['org-openroadm-otn-network-topology:available-bandwidth'], 0)
self.assertEqual(
link['org-openroadm-otn-network-topology:used-bandwidth'], 100000)
def test_093_delete_100GE_service_AC(self):
- response = test_utils.service_delete_request("service-100GE-AC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-100GE-AC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_094_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)
+ response = test_utils_rfc8040.get_ordm_serv_list_request()
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['service-list']['services']), 1)
+ time.sleep(1)
def test_095_check_configuration_spdra(self):
self.test_063_check_no_ODU4_connection_spdra()
self.test_066_check_no_interface_100GE_CLIENT_spdra()
def test_096_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, 2)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 2)
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertEqual(
link['org-openroadm-otn-network-topology:available-bandwidth'], 100000)
self.assertEqual(
link['org-openroadm-otn-network-topology:used-bandwidth'], 0)
def test_097_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']
+ response = test_utils_rfc8040.get_ietf_network_request('openroadm-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ links = response['network'][0]['ietf-network-topology:link']
for link in links:
if link["org-openroadm-common-network:link-type"] in ('XPONDER-OUTPUT', 'XPONDER-INPUT'):
- link_name = link["link-id"]
- response = test_utils.delete_request(url+link_name)
- self.assertEqual(response.status_code, requests.codes.ok)
+ response = test_utils_rfc8040.del_ietf_network_link_request(
+ 'openroadm-topology', link['link-id'], 'config')
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_098_disconnect_spdrA(self):
- response = test_utils.unmount_device("SPDR-SA1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SA1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_099_disconnect_spdrC(self):
- response = test_utils.unmount_device("SPDR-SC1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SC1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_100_disconnect_roadmA(self):
- response = test_utils.unmount_device("ROADM-A1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-A1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_101_disconnect_roadmC(self):
- response = test_utils.unmount_device("ROADM-C1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-C1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
if __name__ == "__main__":
sys.path.append('transportpce_tests/common/')
# pylint: disable=wrong-import-position
# pylint: disable=import-error
-import test_utils # nopep8
+import test_utils_rfc8040 # nopep8
class TransportPCEtesting(unittest.TestCase):
WAITING = 20 # nominal value is 300
NODE_VERSION = '2.2.1'
- cr_serv_sample_data = {"input": {
+ cr_serv_input_data = {
"sdnc-request-header": {
"request-id": "request-1",
"rpc-action": "service-create",
"due-date": "2018-06-15T00:00:01Z",
"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"}
}
@classmethod
def setUpClass(cls):
- cls.processes = test_utils.start_tpce()
- cls.processes = test_utils.start_sims([('spdra', cls.NODE_VERSION),
- ('spdrb', cls.NODE_VERSION),
- ('spdrc', cls.NODE_VERSION),
- ('roadma', cls.NODE_VERSION),
- ('roadmb', cls.NODE_VERSION),
- ('roadmc', cls.NODE_VERSION)])
+ cls.processes = test_utils_rfc8040.start_tpce()
+ cls.processes = test_utils_rfc8040.start_sims([('spdra', cls.NODE_VERSION),
+ ('spdrb', cls.NODE_VERSION),
+ ('spdrc', cls.NODE_VERSION),
+ ('roadma', cls.NODE_VERSION),
+ ('roadmb', cls.NODE_VERSION),
+ ('roadmc', cls.NODE_VERSION)])
@classmethod
def tearDownClass(cls):
# pylint: disable=not-an-iterable
for process in cls.processes:
- test_utils.shutdown_process(process)
+ test_utils_rfc8040.shutdown_process(process)
print("all processes killed")
def setUp(self):
time.sleep(2)
def test_001_connect_spdrA(self):
- response = test_utils.mount_device("SPDR-SA1", ('spdra', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SA1", ('spdra', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_002_connect_spdrB(self):
- response = test_utils.mount_device("SPDR-SB1", ('spdrb', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SB1", ('spdrb', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_003_connect_spdrC(self):
- response = test_utils.mount_device("SPDR-SC1", ('spdrc', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("SPDR-SC1", ('spdrc', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_004_connect_rdmA(self):
- response = test_utils.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-A1", ('roadma', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_005_connect_rdmB(self):
- response = test_utils.mount_device("ROADM-B1", ('roadmb', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-B1", ('roadmb', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_006_connect_rdmC(self):
- response = test_utils.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION))
+ response = test_utils_rfc8040.mount_device("ROADM-C1", ('roadmc', self.NODE_VERSION))
self.assertEqual(response.status_code,
- requests.codes.created, test_utils.CODE_SHOULD_BE_201)
+ requests.codes.created, test_utils_rfc8040.CODE_SHOULD_BE_201)
def test_007_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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SA1', '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_008_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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SA1', '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_009_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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SC1', '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_010_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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SC1', '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_011_connect_sprdB_2_N1_to_roadmB_PP1(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SB1", "2", "1",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-B1', '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_012_connect_roadmB_PP1_to_spdrB_2_N1(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SB1", "2", "1",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '1',
+ 'rdm-node': 'ROADM-B1', '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_013_connect_sprdB_2_N2_to_roadmB_PP2(self):
- response = test_utils.connect_xpdr_to_rdm_request("SPDR-SB1", "2", "2",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-xpdr-rdm-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '2',
+ 'rdm-node': 'ROADM-B1', '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_014_connect_roadmB_PP2_to_spdrB_2_N2(self):
- response = test_utils.connect_rdm_to_xpdr_request("SPDR-SB1", "2", "2",
- "ROADM-B1", "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"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-networkutils', 'init-rdm-xpdr-links',
+ {'links-input': {'xpdr-node': 'SPDR-SB1', 'xpdr-num': '2', 'network-num': '2',
+ 'rdm-node': 'ROADM-B1', '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_015_add_omsAttributes_ROADMA_ROADMB(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_016_add_omsAttributes_ROADMB_ROADMA(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_017_add_omsAttributes_ROADMB_ROADMC(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_018_add_omsAttributes_ROADMC_ROADMB(self):
"fiber-type": "smf",
"SRLG-length": 100000,
"pmd": 0.5}]}}
- response = test_utils.add_oms_attr_request(
- "ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX", data)
+ response = test_utils_rfc8040.add_oms_attr_request("ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX",
+ data)
self.assertEqual(response.status_code, requests.codes.created)
def test_019_create_OTS_ROADMA_DEG1(self):
- response = test_utils.create_ots_oms_request("ROADM-A1", "DEG1-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-A1',
+ 'logical-connection-point': 'DEG1-TTP-TXRX'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG1-TTP-TXRX - OMS-DEG1-TTP-TXRX successfully created on node ROADM-A1',
- res["output"]["result"])
+ response["output"]["result"])
def test_020_create_OTS_ROADMB_DEG1(self):
- response = test_utils.create_ots_oms_request("ROADM-B1", "DEG1-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-B1',
+ 'logical-connection-point': 'DEG1-TTP-TXRX'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG1-TTP-TXRX - OMS-DEG1-TTP-TXRX successfully created on node ROADM-B1',
- res["output"]["result"])
+ response["output"]["result"])
def test_021_create_OTS_ROADMB_DEG2(self):
- response = test_utils.create_ots_oms_request("ROADM-B1", "DEG2-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-B1',
+ 'logical-connection-point': 'DEG2-TTP-TXRX'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG2-TTP-TXRX - OMS-DEG2-TTP-TXRX successfully created on node ROADM-B1',
- res["output"]["result"])
+ response["output"]["result"])
def test_022_create_OTS_ROADMC_DEG2(self):
- response = test_utils.create_ots_oms_request("ROADM-C1", "DEG2-TTP-TXRX")
- time.sleep(10)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-device-renderer', 'create-ots-oms',
+ {
+ 'node-id': 'ROADM-C1',
+ 'logical-connection-point': 'DEG2-TTP-TXRX'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
self.assertIn('Interfaces OTS-DEG2-TTP-TXRX - OMS-DEG2-TTP-TXRX successfully created on node ROADM-C1',
- res["output"]["result"])
+ response["output"]["result"])
def test_023_calculate_span_loss_base_all(self):
- url = "{}/operations/transportpce-olm:calculate-spanloss-base"
- data = {
- "input": {
- "src-type": "all"
- }
- }
- response = test_utils.post_request(url, data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertIn('Success',
- res["output"]["result"])
+ response = test_utils_rfc8040.transportpce_api_rpc_request(
+ 'transportpce-olm', 'calculate-spanloss-base',
+ {
+ 'src-type': 'all'
+ })
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertIn('Success', response["output"]["result"])
self.assertIn({
"spanloss": "25.7",
"link-id": "ROADM-C1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "17.6",
"link-id": "ROADM-A1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "23.6",
"link-id": "ROADM-B1-DEG1-DEG1-TTP-TXRXtoROADM-A1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "23.6",
"link-id": "ROADM-A1-DEG1-DEG1-TTP-TXRXtoROADM-B1-DEG1-DEG1-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "25.7",
"link-id": "ROADM-C1-DEG2-DEG2-TTP-TXRXtoROADM-B1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
self.assertIn({
"spanloss": "17.6",
"link-id": "ROADM-B1-DEG2-DEG2-TTP-TXRXtoROADM-C1-DEG2-DEG2-TTP-TXRX"
- }, res["output"]["spans"])
+ }, response["output"]["spans"])
time.sleep(5)
def test_024_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, 9, 'There should be 9 nodes')
- self.assertNotIn('ietf-network-topology:link', res['network'][0],
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['node']), 9, 'There should be 9 nodes')
+ self.assertNotIn('ietf-network-topology:link', response['network'][0],
'otn-topology should have no link')
# test service-create for OCH-OTU4 service from spdrA to spdrB
def test_025_create_OCH_OTU4_service_AB(self):
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_026_get_OCH_OTU4_service_AB(self):
- response = test_utils.get_service_list_request(
- "services/service-OCH-OTU4-AB")
- 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-OCH-OTU4-AB')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-OCH-OTU4-AB")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-OCH-OTU4-AB')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_027_check_otn_topo_otu4_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)
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 2)
listLinkId = ['OTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1']
- for link in res['network'][0]['ietf-network-topology:link']:
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertIn(link['link-id'], listLinkId)
self.assertEqual(
link['transportpce-networkutils:otn-link-type'], 'OTU4')
# test service-create for OCH-OTU4 service from spdrB to spdrC
def test_028_create_OCH_OTU4_service_BC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-OCH-OTU4-BC"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SB1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSB"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-OCH-OTU4-BC"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SB1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSB"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_029_get_OCH_OTU4_service_BC(self):
- response = test_utils.get_service_list_request(
- "services/service-OCH-OTU4-BC")
- 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-OCH-OTU4-BC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-OCH-OTU4-BC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-OCH-OTU4-BC')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_030_check_otn_topo_otu4_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)
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 4)
listLinkId = ['OTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1',
'OTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK2toSPDR-SC1-XPDR1-XPDR1-NETWORK1',
'OTU4-SPDR-SC1-XPDR1-XPDR1-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK2']
- for link in res['network'][0]['ietf-network-topology:link']:
+ for link in response['network'][0]['ietf-network-topology:link']:
self.assertIn(link['link-id'], listLinkId)
self.assertEqual(
link['transportpce-networkutils:otn-link-type'], 'OTU4')
self.assertIn(
link['org-openroadm-common-network:opposite-link'], listLinkId)
+
# test service-create for ODU4 service from spdrA to spdrC via spdrB
+
def test_031_create_ODU4_service(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-ODU4-ABC"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SA1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSA"
- 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:ODU4"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- 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:ODU4"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-ODU4-ABC"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SA1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSA"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "ODU"
+ del self.cr_serv_input_data["service-a-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-a-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "ODU"
+ del self.cr_serv_input_data["service-z-end"]["otu-service-rate"]
+ self.cr_serv_input_data["service-z-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_032_get_ODU4_service_ABC(self):
- response = test_utils.get_service_list_request(
- "services/service-ODU4-ABC")
- 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-ODU4-ABC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-ODU4-ABC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-ODU4-ABC')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_033_check_interface_ODU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'type': 'org-openroadm-interfaces:otnOdu',
'supporting-port': 'CP1-CFP0-P1'}
- # 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:ODU4',
'expected-dapi': 'H/OelLynehI=',
'tx-dapi': 'AMf1n5hK6Xkk',
'tx-sapi': 'H/OelLynehI='}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- )
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU4', 'org-openroadm-otn-odu-interfaces:odu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_034_check_interface_ODU4_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'type': 'org-openroadm-interfaces:otnOdu',
'supporting-port': 'CP1-CFP0-P1'}
- # 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:ODU4',
'expected-dapi': 'AMf1n5hK6Xkk',
'expected-sapi': 'H/OelLynehI=',
'tx-dapi': 'H/OelLynehI=',
'tx-sapi': 'AMf1n5hK6Xkk'}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- )
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute2_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU4', 'org-openroadm-otn-odu-interfaces:odu')
+ self.assertEqual(response2['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'], response2['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'], response2['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_035_check_interface_ODU4_NETWORK1_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP5-CFP',
'odu-function': 'org-openroadm-otn-common-types:ODU-CTP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
-
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['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'])
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_036_check_interface_ODU4_NETWORK2_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP6-CFP',
'rate': 'org-openroadm-otn-common-types:ODU4',
'monitoring-mode': 'monitored'}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['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'])
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertNotIn('opu',
- dict.keys(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
+ dict.keys(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']))
def test_037_check_ODU4_connection_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1",
- "odu-connection/XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'odu-connection', 'XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
- 'connection-name':
- 'XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4',
+ 'connection-name': 'XPDR2-NETWORK1-ODU4-x-XPDR2-NETWORK2-ODU4',
'direction': 'bidirectional'
}
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR2-NETWORK2-ODU4'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR2-NETWORK1-ODU4'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_038_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, 6)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 6)
+ for link in response['network'][0]['ietf-network-topology:link']:
if 'OTU4' in link['link-id']:
self.assertEqual(
link['org-openroadm-otn-network-topology:available-bandwidth'], 0)
self.fail("this link should not exist")
def test_039_check_otn_topo_tp(self):
- response = test_utils.get_otn_topo_request()
- res = response.json()
- for node in res['network'][0]['node']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ for node in response['network'][0]['node']:
if node['node-id'] == 'SPDR-SA1-XPDR1' or node['node-id'] == 'SPDR-SC1-XPDR1':
tpList = node['ietf-network-topology:termination-point']
for tp in tpList:
self.assertEqual(xpdrTpPortConAt['odtu-tpn-pool'][0]['odtu-type'],
'org-openroadm-otn-common-types:ODTU4.ts-Allocated')
+
# test service-create for 10GE service from spdr to spdr
+
def test_040_create_10GE_service(self):
- self.cr_serv_sample_data["input"]["service-name"] = "service1-10GE"
- self.cr_serv_sample_data["input"]["connection-type"] = "service"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "10"
- 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"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "10"
- 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"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["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.cr_serv_input_data["service-name"] = "service1-10GE"
+ self.cr_serv_input_data["connection-type"] = "service"
+ self.cr_serv_input_data["service-a-end"]["service-rate"] = "10"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "Ethernet"
+ del self.cr_serv_input_data["service-a-end"]["odu-service-rate"]
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["service-rate"] = "10"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "Ethernet"
+ del self.cr_serv_input_data["service-z-end"]["odu-service-rate"]
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_041_get_10GE_service1(self):
- response = test_utils.get_service_list_request(
- "services/service1-10GE")
- 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'], 'service1-10GE')
- self.assertEqual(
- res['services'][0]['connection-type'], 'service')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service1-10GE")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service1-10GE')
+ self.assertEqual(response['services'][0]['connection-type'], 'service')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_042_check_interface_10GE_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-CLIENT1-ETHERNET10G")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-CLIENT1-ETHERNET10G')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict = {'name': 'XPDR1-CLIENT1-ETHERNET10G',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-SFP4',
'type': 'org-openroadm-interfaces:ethernetCsmacd',
'supporting-port': 'CP1-SFP4-P1'
}
- self.assertDictEqual(dict(input_dict, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(
- {'speed': 10000},
- res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet'])
+ self.assertDictEqual(dict(input_dict, **response['interface'][0]),
+ response['interface'][0])
+ self.assertEqual(10000, response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['speed'])
def test_043_check_interface_ODU2E_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-CLIENT1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-CLIENT1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-CLIENT1-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-SFP4',
'tx-dapi': 'BcwI5xz79t8=',
'tx-sapi': 'B68VWipZAU0='}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertDictEqual(
{'payload-type': '03', 'exp-payload-type': '03'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-CLIENT1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-CLIENT1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_044_check_interface_ODU2E_NETWORK_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'monitoring-mode': 'monitored'}
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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['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, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ ['parent-odu-allocation']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'])
+ self.assertIn(1, response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
['trib-slots'])
def test_045_check_ODU2E_connection_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1",
- "odu-connection/XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'odu-connection', 'XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e',
'direction': 'bidirectional'
}
-
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR1-NETWORK1-ODU2e'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR1-CLIENT1-ODU2e'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_046_check_interface_10GE_CLIENT_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-CLIENT1-ETHERNET10G")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-CLIENT1-ETHERNET10G')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict = {'name': 'XPDR1-CLIENT1-ETHERNET10G',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-SFP4',
'type': 'org-openroadm-interfaces:ethernetCsmacd',
'supporting-port': 'CP1-SFP4-P1'
}
- self.assertDictEqual(dict(input_dict, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(
- {'speed': 10000},
- res['interface'][0]['org-openroadm-ethernet-interfaces:ethernet'])
+ self.assertDictEqual(dict(input_dict, **response['interface'][0]),
+ response['interface'][0])
+ self.assertEqual(10000, response['interface'][0]['org-openroadm-ethernet-interfaces:ethernet']['speed'])
def test_047_check_interface_ODU2E_CLIENT_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-CLIENT1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-CLIENT1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-CLIENT1-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-SFP4',
'tx-dapi': 'B68VWipZAU0=',
'tx-sapi': 'BcwI5xz79t8='}
- 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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ )
self.assertDictEqual(
{'payload-type': '03', 'exp-payload-type': '03'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-CLIENT1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-CLIENT1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_048_check_interface_ODU2E_NETWORK_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'monitoring-mode': 'monitored'}
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_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ **input_dict_2),
+ response['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,
- res['interface'][0][
- 'org-openroadm-otn-odu-interfaces:odu'][
- 'parent-odu-allocation']['trib-slots'])
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ ['parent-odu-allocation']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'])
+ self.assertIn(1, response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
+ ['trib-slots'])
def test_049_check_ODU2E_connection_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1",
- "odu-connection/XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'odu-connection', 'XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR1-CLIENT1-ODU2e-x-XPDR1-NETWORK1-ODU2e',
'direction': 'bidirectional'
}
-
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR1-NETWORK1-ODU2e'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR1-CLIENT1-ODU2e'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_050_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, 6)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 6)
+ for link in response['network'][0]['ietf-network-topology:link']:
linkId = link['link-id']
if (linkId in ('ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SC1-XPDR1-XPDR1-NETWORK1',
'ODTU4-SPDR-SC1-XPDR1-XPDR1-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1')):
link['org-openroadm-otn-network-topology:used-bandwidth'], 10000)
def test_051_check_otn_topo_tp(self):
- response = test_utils.get_otn_topo_request()
- res = response.json()
- for node in res['network'][0]['node']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ for node in response['network'][0]['node']:
if node['node-id'] == 'SPDR-SA1-XPDR1' or node['node-id'] == 'SPDR-SC1-XPDR1':
tpList = node['ietf-network-topology:termination-point']
for tp in tpList:
1, xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool'])
def test_052_delete_10GE_service(self):
- response = test_utils.service_delete_request("service1-10GE")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1-10GE"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_053_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']), 3)
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_request()
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['service-list']['services']), 3)
+ time.sleep(1)
def test_054_check_no_ODU2e_connection_spdra(self):
- response = test_utils.check_netconf_node_request("SPDR-SA1", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['odu-connection'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.check_node_request("SPDR-SA1")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn(['odu-connection'][0], response['org-openroadm-device'])
time.sleep(1)
def test_055_check_no_interface_ODU2E_NETWORK_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_056_check_no_interface_ODU2E_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-CLIENT1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-CLIENT1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_057_check_no_interface_10GE_CLIENT_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-CLIENT1-ETHERNET10G")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-CLIENT1-ETHERNET10G')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_058_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, 6)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 6)
+ for link in response['network'][0]['ietf-network-topology:link']:
linkId = link['link-id']
if (linkId in ('ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SC1-XPDR1-XPDR1-NETWORK1',
'ODTU4-SPDR-SC1-XPDR1-XPDR1-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1')):
link['org-openroadm-otn-network-topology:used-bandwidth'], 0)
def test_059_check_otn_topo_tp(self):
- response = test_utils.get_otn_topo_request()
- res = response.json()
- for node in res['network'][0]['node']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ for node in response['network'][0]['node']:
if (node['node-id'] == 'SPDR-SA1-XPDR1' or node['node-id'] == 'SPDR-SC1-XPDR1'):
tpList = node['ietf-network-topology:termination-point']
for tp in tpList:
len(xpdrTpPortConAt['odtu-tpn-pool'][0]['tpn-pool']), 80)
def test_060_delete_ODU4_service(self):
- response = test_utils.service_delete_request("service-ODU4-ABC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-ODU4-ABC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_061_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)
+ response = test_utils_rfc8040.get_ordm_serv_list_request()
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['service-list']['services']), 2)
+ time.sleep(1)
def test_062_check_no_interface_ODU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_063_check_no_interface_ODU4_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_064_check_no_ODU4_connection_spdrb(self):
- response = test_utils.check_netconf_node_request("SPDR-SB1", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['odu-connection'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.check_node_request("SPDR-SB1")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn(['odu-connection'][0], response['org-openroadm-device'])
time.sleep(1)
def test_065_check_no_interface_ODU4_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_066_check_otn_topo_links(self):
self.test_030_check_otn_topo_otu4_links()
def test_067_check_otn_topo_tp(self):
- response = test_utils.get_otn_topo_request()
- res = response.json()
- for node in res['network'][0]['node']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ for node in response['network'][0]['node']:
if node['node-id'] == 'SPDR-SA1-XPDR1' or node['node-id'] == 'SPDR-SC1-XPDR1':
tpList = node['ietf-network-topology:termination-point']
for tp in tpList:
# test service-create for ODU4 service from spdrA to spdrB
def test_068_create_ODU4_service_AB(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-ODU4-AB"
- self.cr_serv_sample_data["input"]["connection-type"] = "infrastructure"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "100"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-format"] = "ODU"
- self.cr_serv_sample_data["input"]["service-a-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SB1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSB"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "100"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-format"] = "ODU"
- self.cr_serv_sample_data["input"]["service-z-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-ODU4-AB"
+ self.cr_serv_input_data["connection-type"] = "infrastructure"
+ self.cr_serv_input_data["service-a-end"]["service-rate"] = "100"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "ODU"
+ self.cr_serv_input_data["service-a-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SB1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSB"
+ self.cr_serv_input_data["service-a-end"]["service-rate"] = "100"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "ODU"
+ self.cr_serv_input_data["service-z-end"]["odu-service-rate"] = "org-openroadm-otn-common-types:ODU4"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK1"
+
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_069_get_ODU4_service_AB(self):
- response = test_utils.get_service_list_request(
- "services/service-ODU4-AB")
- 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-ODU4-AB')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-ODU4-AB")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-ODU4-AB')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_070_check_interface_ODU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'tx-dapi': 'X+8cRNi+HbE=',
'tx-sapi': 'H/OelLynehI='}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
)
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_071_check_interface_ODU4_spdrb_N1(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'tx-dapi': 'H/OelLynehI=',
'tx-sapi': 'X+8cRNi+HbE='}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
)
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
# test service-create for ODU4 service from spdrB to spdrC
def test_072_create_ODU4_service_BC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service-ODU4-BC"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
- self.cr_serv_sample_data["input"]["service-z-end"]["node-id"] = "SPDR-SC1"
- self.cr_serv_sample_data["input"]["service-z-end"]["clli"] = "NodeSC"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
-
- response = test_utils.service_create_request(self.cr_serv_sample_data)
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.cr_serv_input_data["service-name"] = "service-ODU4-BC"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SB1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSB"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "ODU"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SB1-XPDR2"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR2-NETWORK2"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "ODU"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-NETWORK1"
+
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_073_get_ODU4_service_AB(self):
- response = test_utils.get_service_list_request(
- "services/service-ODU4-BC")
- 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-ODU4-BC')
- self.assertEqual(
- res['services'][0]['connection-type'], 'infrastructure')
- self.assertEqual(
- res['services'][0]['lifecycle-state'], 'planned')
- time.sleep(2)
+ response = test_utils_rfc8040.get_ordm_serv_list_attr_request("services", "service-ODU4-BC")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(response['services'][0]['administrative-state'], 'inService')
+ self.assertEqual(response['services'][0]['service-name'], 'service-ODU4-BC')
+ self.assertEqual(response['services'][0]['connection-type'], 'infrastructure')
+ self.assertEqual(response['services'][0]['lifecycle-state'], 'planned')
+ time.sleep(1)
def test_074_check_interface_ODU4_spdrb_N2(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'tx-dapi': 'AMf1n5hK6Xkk',
'tx-sapi': 'X+8cRNi+HbI='}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
)
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
def test_075_check_interface_ODU4_spdrc(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SC1", "interface/XPDR1-NETWORK1-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SC1', 'interface', 'XPDR1-NETWORK1-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR1-NETWORK1-ODU4',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'expected-sapi': 'X+8cRNi+HbI=',
'tx-dapi': 'X+8cRNi+HbI=',
'tx-sapi': 'AMf1n5hK6Xkk'}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
- self.assertDictEqual(dict(res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['interface'][0])
+ self.assertDictEqual(dict(response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'],
**input_dict_2),
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
)
self.assertDictEqual(
{'payload-type': '21', 'exp-payload-type': '21'},
- res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
- response2 = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU4")
- self.assertEqual(response.status_code, requests.codes.ok)
- res2 = response2.json()['interface'][0]['org-openroadm-otn-odu-interfaces:odu']
- self.assertEqual(input_dict_2['tx-sapi'], res2['tx-dapi'])
- self.assertEqual(input_dict_2['tx-sapi'], res2['expected-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['tx-sapi'])
- self.assertEqual(input_dict_2['tx-dapi'], res2['expected-dapi'])
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['opu'])
+ response2 = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU4')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-dapi'])
+ self.assertEqual(input_dict_2['tx-sapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['tx-sapi'])
+ self.assertEqual(input_dict_2['tx-dapi'],
+ response2['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['expected-dapi'])
+
# test service-create for 10GE service from spdr to spdr
+
def test_076_create_10GE_service_ABC(self):
- # pylint: disable=line-too-long
- self.cr_serv_sample_data["input"]["service-name"] = "service1-10GE"
- self.cr_serv_sample_data["input"]["connection-type"] = "service"
- self.cr_serv_sample_data["input"]["service-a-end"]["node-id"] = "SPDR-SA1"
- self.cr_serv_sample_data["input"]["service-a-end"]["clli"] = "NodeSA"
- self.cr_serv_sample_data["input"]["service-a-end"]["service-rate"] = "10"
- 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"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
- self.cr_serv_sample_data["input"]["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["service-rate"] = "10"
- 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"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
- self.cr_serv_sample_data["input"]["service-z-end"]["rx-direction"][0]["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.cr_serv_input_data["service-name"] = "service1-10GE"
+ self.cr_serv_input_data["connection-type"] = "service"
+ self.cr_serv_input_data["service-a-end"]["node-id"] = "SPDR-SA1"
+ self.cr_serv_input_data["service-a-end"]["clli"] = "NodeSA"
+ self.cr_serv_input_data["service-a-end"]["service-rate"] = "10"
+ self.cr_serv_input_data["service-a-end"]["service-format"] = "Ethernet"
+ del self.cr_serv_input_data["service-a-end"]["odu-service-rate"]
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SA1-XPDR1"
+ self.cr_serv_input_data["service-a-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["node-id"] = "SPDR-SC1"
+ self.cr_serv_input_data["service-z-end"]["clli"] = "NodeSC"
+ self.cr_serv_input_data["service-z-end"]["service-rate"] = "10"
+ self.cr_serv_input_data["service-z-end"]["service-format"] = "Ethernet"
+ del self.cr_serv_input_data["service-z-end"]["odu-service-rate"]
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["tx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-device-name"] = "SPDR-SC1-XPDR1"
+ self.cr_serv_input_data["service-z-end"]["rx-direction"][0]["port"]["port-name"] = "XPDR1-CLIENT1"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_077_check_configuration_spdra_spdrc(self):
self.test_049_check_ODU2E_connection_spdrc()
def test_078_check_interface_ODU2E_NETWORK1_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK1-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'monitoring-mode': 'monitored'}
input_dict_3 = {'trib-port-number': 1}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['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'])
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertDictEqual(dict(input_dict_3,
- **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][
+ **response['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, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'])
+ self.assertIn(1, response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
['trib-slots'])
def test_079_check_interface_ODU2E_NETWORK2_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {'name': 'XPDR2-NETWORK2-ODU2e',
'administrative-state': 'inService',
'supporting-circuit-pack-name': 'CP1-CFP0',
'monitoring-mode': 'monitored'}
input_dict_3 = {'trib-port-number': 1}
- self.assertDictEqual(dict(input_dict_1, **res['interface'][0]),
- res['interface'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['interface'][0]),
+ response['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'])
+ **response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']),
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu'])
self.assertDictEqual(dict(input_dict_3,
- **res['interface'][0]['org-openroadm-otn-odu-interfaces:odu'][
+ **response['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, res['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
+ response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation'])
+ self.assertIn(1, response['interface'][0]['org-openroadm-otn-odu-interfaces:odu']['parent-odu-allocation']
['trib-slots'])
def test_080_check_ODU2E_connection_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1",
- "odu-connection/XPDR2-NETWORK1-ODU2e-x-XPDR2-NETWORK2-ODU2e")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'odu-connection', 'XPDR2-NETWORK1-ODU2e-x-XPDR2-NETWORK2-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.ok)
input_dict_1 = {
'connection-name':
'XPDR2-NETWORK1-ODU2e-x-XPDR2-NETWORK2-ODU2e',
'direction': 'bidirectional'
}
- self.assertDictEqual(dict(input_dict_1, **res['odu-connection'][0]),
- res['odu-connection'][0])
+ self.assertDictEqual(dict(input_dict_1, **response['odu-connection'][0]),
+ response['odu-connection'][0])
self.assertDictEqual({'dst-if': 'XPDR2-NETWORK2-ODU2e'},
- res['odu-connection'][0]['destination'])
+ response['odu-connection'][0]['destination'])
self.assertDictEqual({'src-if': 'XPDR2-NETWORK1-ODU2e'},
- res['odu-connection'][0]['source'])
+ response['odu-connection'][0]['source'])
def test_081_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, 8)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 8)
+ for link in response['network'][0]['ietf-network-topology:link']:
linkId = link['link-id']
if (linkId in ('ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'ODTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1',
self.test_051_check_otn_topo_tp()
def test_083_delete_10GE_service(self):
- response = test_utils.service_delete_request("service1-10GE")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service1-10GE"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_084_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)
+ response = test_utils_rfc8040.get_ordm_serv_list_request()
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['service-list']['services']), 4)
+ time.sleep(1)
def test_085_check_configuration_spdra(self):
self.test_054_check_no_ODU2e_connection_spdra()
self.test_057_check_no_interface_10GE_CLIENT_spdra()
def test_086_check_no_ODU2e_connection_spdrb(self):
- response = test_utils.check_netconf_node_request("SPDR-SB1", "")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
- self.assertNotIn(['odu-connection'][0], res['org-openroadm-device'])
+ response = test_utils_rfc8040.check_node_request("SPDR-SB1")
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn(['odu-connection'][0], response['org-openroadm-device'])
time.sleep(1)
def test_087_check_no_interface_ODU2E_NETWORK1_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK1-ODU2e")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK1-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_088_check_no_interface_ODU2E_NETWORK2_spdrb(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SB1", "interface/XPDR2-NETWORK2-ODU2e")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SB1', 'interface', 'XPDR2-NETWORK2-ODU2e')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_089_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, 8)
- for link in res['network'][0]['ietf-network-topology:link']:
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertEqual(len(response['network'][0]['ietf-network-topology:link']), 8)
+ for link in response['network'][0]['ietf-network-topology:link']:
linkId = link['link-id']
if (linkId in ('ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SB1-XPDR2-XPDR2-NETWORK1',
'ODTU4-SPDR-SB1-XPDR2-XPDR2-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1',
self.test_059_check_otn_topo_tp()
def test_091_delete_ODU4_service_AB(self):
- response = test_utils.service_delete_request("service-ODU4-AB")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-ODU4-AB"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_092_delete_ODU4_service_BC(self):
- response = test_utils.service_delete_request("service-ODU4-BC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-ODU4-BC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_093_check_global_config(self):
self.test_067_check_otn_topo_tp()
def test_094_delete_OCH_OTU4_service_AB(self):
- response = test_utils.service_delete_request("service-OCH-OTU4-AB")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-OCH-OTU4-AB"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_095_delete_OCH_OTU4_service_BC(self):
- response = test_utils.service_delete_request("service-OCH-OTU4-BC")
- self.assertEqual(response.status_code, requests.codes.ok)
- res = response.json()
+ self.del_serv_input_data["service-delete-req-info"]["service-name"] = "service-OCH-OTU4-BC"
+ response = test_utils_rfc8040.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',
- res['output']['configuration-response-common']['response-message'])
+ response['output']['configuration-response-common']['response-message'])
time.sleep(self.WAITING)
def test_096_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'])
+ response = test_utils_rfc8040.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_097_check_no_interface_OTU4_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-OTU")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-OTU')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_098_check_no_interface_OCH_spdra(self):
- response = test_utils.check_netconf_node_request(
- "SPDR-SA1", "interface/XPDR1-NETWORK1-1")
- self.assertEqual(response.status_code, requests.codes.conflict)
+ response = test_utils_rfc8040.check_node_attribute_request(
+ 'SPDR-SA1', 'interface', 'XPDR1-NETWORK1-1')
+ self.assertEqual(response['status_code'], requests.codes.conflict)
def test_099_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])
+ response = test_utils_rfc8040.get_ietf_network_request('otn-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ self.assertNotIn('ietf-network-topology:link', response['network'][0])
def test_100_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']
+ response = test_utils_rfc8040.get_ietf_network_request('openroadm-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ links = response['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)
+ if link["org-openroadm-common-network:link-type"] in ('XPONDER-OUTPUT', 'XPONDER-INPUT'):
+ response = test_utils_rfc8040.del_ietf_network_link_request(
+ 'openroadm-topology', link['link-id'], 'config')
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_101_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']
+ response = test_utils_rfc8040.get_ietf_network_request('openroadm-topology', 'config')
+ self.assertEqual(response['status_code'], requests.codes.ok)
+ links = response['network'][0]['ietf-network-topology:link']
self.assertEqual(28, len(links), 'Topology should contain 28 links')
def test_102_disconnect_spdrA(self):
- response = test_utils.unmount_device("SPDR-SA1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SA1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_103_disconnect_spdrC(self):
- response = test_utils.unmount_device("SPDR-SC1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SC1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_104_disconnect_spdrB(self):
- response = test_utils.unmount_device("SPDR-SB1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("SPDR-SB1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_105_disconnect_roadmA(self):
- response = test_utils.unmount_device("ROADM-A1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-A1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_106_disconnect_roadmB(self):
- response = test_utils.unmount_device("ROADM-B1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-B1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
def test_107_disconnect_roadmC(self):
- response = test_utils.unmount_device("ROADM-C1")
- self.assertEqual(response.status_code, requests.codes.ok,
- test_utils.CODE_SHOULD_BE_200)
+ response = test_utils_rfc8040.unmount_device("ROADM-C1")
+ self.assertIn(response.status_code, (requests.codes.ok, requests.codes.no_content))
if __name__ == "__main__":
def post_request(url, data):
if data:
- print(json.dumps(data))
return requests.request(
"POST", url.format(RESTCONF_BASE_URL),
data=json.dumps(data),
'netconf-node-topology:tcp-only': 'false',
'netconf-node-topology:pass-through': {}}]}
response = put_request(url[RESTCONF_VERSION].format('{}', node), body)
- if wait_until_log_contains(TPCE_LOG, re.escape('Triggering notification stream NETCONF for node ' + node), 180):
+ if wait_until_log_contains(TPCE_LOG, 'Triggering notification stream NETCONF for node ' + node, 180):
print('Node ' + node + ' correctly added to tpce topology', end='... ', flush=True)
else:
print('Node ' + node + ' still not added to tpce topology', end='... ', flush=True)