##
-import asynctest # pip3 install asynctest --user
+import asynctest # pip3 install asynctest --user
import asyncio
import yaml
import copy
"""
lcm_config = {
- "global": {
- "loglevel": "DEBUG"
- },
+ "global": {"loglevel": "DEBUG"},
"timeout": {},
- "VCA": { # TODO replace with os.get_env to get other configurations
+ "VCA": { # TODO replace with os.get_env to get other configurations
"host": getenv("OSMLCM_VCA_HOST", "vca"),
"port": getenv("OSMLCM_VCA_PORT", 17070),
"user": getenv("OSMLCM_VCA_USER", "admin"),
"secret": getenv("OSMLCM_VCA_SECRET", "vca"),
"public_key": getenv("OSMLCM_VCA_PUBKEY", None),
- 'ca_cert': getenv("OSMLCM_VCA_CACERT", None),
- 'apiproxy': getenv("OSMLCM_VCA_APIPROXY", "192.168.1.1"),
+ "ca_cert": getenv("OSMLCM_VCA_CACERT", None),
+ "apiproxy": getenv("OSMLCM_VCA_APIPROXY", "192.168.1.1"),
},
"ro_config": {
- "uri": "http://{}:{}/openmano".format(getenv("OSMLCM_RO_HOST", "ro"),
- getenv("OSMLCM_RO_PORT", "9090")),
+ "uri": "http://{}:{}/openmano".format(
+ getenv("OSMLCM_RO_HOST", "ro"), getenv("OSMLCM_RO_PORT", "9090")
+ ),
"tenant": getenv("OSMLCM_RO_TENANT", "osm"),
"logger_name": "lcm.ROclient",
"loglevel": "DEBUG",
- "ng": True
- }
+ "ng": True,
+ },
}
class TestMyNS(asynctest.TestCase):
-
- async def _n2vc_DeployCharms(self, model_name, application_name, vnfd, charm_path, params={}, machine_spec={},
- callback=None, *callback_args):
+ async def _n2vc_DeployCharms(
+ self,
+ model_name,
+ application_name,
+ vnfd,
+ charm_path,
+ params={},
+ machine_spec={},
+ callback=None,
+ *callback_args
+ ):
if callback:
- for status, message in (("maintenance", "installing sofwware"), ("active", "Ready!")):
+ for status, message in (
+ ("maintenance", "installing sofwware"),
+ ("active", "Ready!"),
+ ):
# call callback after some time
asyncio.sleep(5, loop=self.loop)
callback(model_name, application_name, status, message, *callback_args)
yield "app_name-{}".format(num_calls)
num_calls += 1
- def _n2vc_CreateExecutionEnvironment(self, namespace, reuse_ee_id, db_dict, *args, **kwargs):
+ def _n2vc_CreateExecutionEnvironment(
+ self, namespace, reuse_ee_id, db_dict, *args, **kwargs
+ ):
k_list = namespace.split(".")
ee_id = k_list[1] + "."
if len(k_list) >= 2:
print("Args > {}".format(args))
print("kwargs > {}".format(kwargs))
if kwargs.get("delete"):
- ro_ns_desc = yaml.load(descriptors.ro_delete_action_text, Loader=yaml.Loader)
+ ro_ns_desc = yaml.load(
+ descriptors.ro_delete_action_text, Loader=yaml.Loader
+ )
while True:
yield ro_ns_desc
break
def _ro_deploy(self, *args, **kwargs):
- return {
- 'action_id': args[1]["action_id"],
- 'nsr_id': args[0],
- 'status': 'ok'
- }
+ return {"action_id": args[1]["action_id"], "nsr_id": args[0], "status": "ok"}
def _return_uuid(self, *args, **kwargs):
return str(uuid4())
# Cleanup singleton Database instance
Database.instance = None
- self.db = Database({
- "database": {
- "driver": "memory"
- }
- }).instance.db
- self.db.create_list("vnfds", yaml.load(descriptors.db_vnfds_text, Loader=yaml.Loader))
- self.db.create_list("nsds", yaml.load(descriptors.db_nsds_text, Loader=yaml.Loader))
- self.db.create_list("nsrs", yaml.load(descriptors.db_nsrs_text, Loader=yaml.Loader))
- self.db.create_list("vim_accounts", yaml.load(descriptors.db_vim_accounts_text, Loader=yaml.Loader))
- self.db.create_list("k8sclusters", yaml.load(descriptors.db_k8sclusters_text, Loader=yaml.Loader))
- self.db.create_list("nslcmops", yaml.load(descriptors.db_nslcmops_text, Loader=yaml.Loader))
- self.db.create_list("vnfrs", yaml.load(descriptors.db_vnfrs_text, Loader=yaml.Loader))
- self.db_vim_accounts = yaml.load(descriptors.db_vim_accounts_text, Loader=yaml.Loader)
+ self.db = Database({"database": {"driver": "memory"}}).instance.db
+ self.db.create_list(
+ "vnfds", yaml.load(descriptors.db_vnfds_text, Loader=yaml.Loader)
+ )
+ self.db.create_list(
+ "nsds", yaml.load(descriptors.db_nsds_text, Loader=yaml.Loader)
+ )
+ self.db.create_list(
+ "nsrs", yaml.load(descriptors.db_nsrs_text, Loader=yaml.Loader)
+ )
+ self.db.create_list(
+ "vim_accounts",
+ yaml.load(descriptors.db_vim_accounts_text, Loader=yaml.Loader),
+ )
+ self.db.create_list(
+ "k8sclusters",
+ yaml.load(descriptors.db_k8sclusters_text, Loader=yaml.Loader),
+ )
+ self.db.create_list(
+ "nslcmops", yaml.load(descriptors.db_nslcmops_text, Loader=yaml.Loader)
+ )
+ self.db.create_list(
+ "vnfrs", yaml.load(descriptors.db_vnfrs_text, Loader=yaml.Loader)
+ )
+ self.db_vim_accounts = yaml.load(
+ descriptors.db_vim_accounts_text, Loader=yaml.Loader
+ )
# Mock kafka
self.msg = asynctest.Mock(MsgKafka())
# Mock filesystem
if not getenv("OSMLCMTEST_FS_NOMOCK"):
- self.fs = asynctest.Mock(Filesystem({
- "storage": {
- "driver": "local",
- "path": "/"
- }
- }).instance.fs)
- self.fs.get_params.return_value = {"path": getenv("OSMLCMTEST_PACKAGES_PATH", "./test/temp/packages")}
+ self.fs = asynctest.Mock(
+ Filesystem({"storage": {"driver": "local", "path": "/"}}).instance.fs
+ )
+ self.fs.get_params.return_value = {
+ "path": getenv("OSMLCMTEST_PACKAGES_PATH", "./test/temp/packages")
+ }
self.fs.file_open = asynctest.mock_open()
# self.fs.file_open.return_value.__enter__.return_value = asynctest.MagicMock() # called on a python "with"
# self.fs.file_open.return_value.__enter__.return_value.read.return_value = "" # empty file
if not getenv("OSMLCMTEST_VCA_NOMOCK"):
pub_key = getenv("OSMLCMTEST_NS_PUBKEY", "ssh-rsa test-pub-key t@osm.com")
# self.my_ns.n2vc = asynctest.Mock(N2VC())
- self.my_ns.n2vc.GetPublicKey.return_value = getenv("OSMLCM_VCA_PUBKEY", "public_key")
+ self.my_ns.n2vc.GetPublicKey.return_value = getenv(
+ "OSMLCM_VCA_PUBKEY", "public_key"
+ )
# allow several versions of n2vc
- self.my_ns.n2vc.FormatApplicationName = asynctest.Mock(side_effect=self._n2vc_FormatApplicationName())
- self.my_ns.n2vc.DeployCharms = asynctest.CoroutineMock(side_effect=self._n2vc_DeployCharms)
+ self.my_ns.n2vc.FormatApplicationName = asynctest.Mock(
+ side_effect=self._n2vc_FormatApplicationName()
+ )
+ self.my_ns.n2vc.DeployCharms = asynctest.CoroutineMock(
+ side_effect=self._n2vc_DeployCharms
+ )
self.my_ns.n2vc.create_execution_environment = asynctest.CoroutineMock(
- side_effect=self._n2vc_CreateExecutionEnvironment)
- self.my_ns.n2vc.install_configuration_sw = asynctest.CoroutineMock(return_value=pub_key)
- self.my_ns.n2vc.get_ee_ssh_public__key = asynctest.CoroutineMock(return_value=pub_key)
- self.my_ns.n2vc.exec_primitive = asynctest.CoroutineMock(side_effect=self._return_uuid)
- self.my_ns.n2vc.exec_primitive = asynctest.CoroutineMock(side_effect=self._return_uuid)
- self.my_ns.n2vc.GetPrimitiveStatus = asynctest.CoroutineMock(return_value="completed")
- self.my_ns.n2vc.GetPrimitiveOutput = asynctest.CoroutineMock(return_value={"result": "ok",
- "pubkey": pub_key})
- self.my_ns.n2vc.delete_execution_environment = asynctest.CoroutineMock(return_value=None)
+ side_effect=self._n2vc_CreateExecutionEnvironment
+ )
+ self.my_ns.n2vc.install_configuration_sw = asynctest.CoroutineMock(
+ return_value=pub_key
+ )
+ self.my_ns.n2vc.get_ee_ssh_public__key = asynctest.CoroutineMock(
+ return_value=pub_key
+ )
+ self.my_ns.n2vc.exec_primitive = asynctest.CoroutineMock(
+ side_effect=self._return_uuid
+ )
+ self.my_ns.n2vc.exec_primitive = asynctest.CoroutineMock(
+ side_effect=self._return_uuid
+ )
+ self.my_ns.n2vc.GetPrimitiveStatus = asynctest.CoroutineMock(
+ return_value="completed"
+ )
+ self.my_ns.n2vc.GetPrimitiveOutput = asynctest.CoroutineMock(
+ return_value={"result": "ok", "pubkey": pub_key}
+ )
+ self.my_ns.n2vc.delete_execution_environment = asynctest.CoroutineMock(
+ return_value=None
+ )
self.my_ns.n2vc.get_public_key = asynctest.CoroutineMock(
- return_value=getenv("OSMLCM_VCA_PUBKEY", "public_key"))
- self.my_ns.n2vc.delete_namespace = asynctest.CoroutineMock(return_value=None)
+ return_value=getenv("OSMLCM_VCA_PUBKEY", "public_key")
+ )
+ self.my_ns.n2vc.delete_namespace = asynctest.CoroutineMock(
+ return_value=None
+ )
# Mock RO
if not getenv("OSMLCMTEST_RO_NOMOCK"):
- self.my_ns.RO = asynctest.Mock(NgRoClient(self.loop, **lcm_config["ro_config"]))
+ self.my_ns.RO = asynctest.Mock(
+ NgRoClient(self.loop, **lcm_config["ro_config"])
+ )
# TODO first time should be empty list, following should return a dict
# self.my_ns.RO.get_list = asynctest.CoroutineMock(self.my_ns.RO.get_list, return_value=[])
- self.my_ns.RO.deploy = asynctest.CoroutineMock(self.my_ns.RO.deploy, side_effect=self._ro_deploy)
+ self.my_ns.RO.deploy = asynctest.CoroutineMock(
+ self.my_ns.RO.deploy, side_effect=self._ro_deploy
+ )
# self.my_ns.RO.status = asynctest.CoroutineMock(self.my_ns.RO.status, side_effect=self._ro_status)
# self.my_ns.RO.create_action = asynctest.CoroutineMock(self.my_ns.RO.create_action,
# return_value={"vm-id": {"vim_result": 200,
# # this will check that the initial-congig-primitive 'not_to_be_called' is not called
# Test scale() and related methods
- @asynctest.fail_on(active_handles=True) # all async tasks must be completed
+ @asynctest.fail_on(active_handles=True) # all async tasks must be completed
async def test_scale(self):
# print("Test scale started")
nsr_id = descriptors.test_ids["TEST-A"]["ns"]
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
await self.my_ns.scale(nsr_id, nslcmop_id)
- expected_value = 'FAILED'
- return_value = self.db.get_one("nslcmops", {"_id": nslcmop_id}).get("operationState")
+ expected_value = "FAILED"
+ return_value = self.db.get_one("nslcmops", {"_id": nslcmop_id}).get(
+ "operationState"
+ )
self.assertEqual(return_value, expected_value)
# print("scale_result: {}".format(self.db.get_one("nslcmops", {"_id": nslcmop_id}).get("detailed-status")))
for i, _ in enumerate(vnf_descriptors):
for j, value in enumerate(vnf_descriptors[i]["df"]):
if "lcm-operations-configuration" in vnf_descriptors[i]["df"][j]:
- if "day1-2" in value["lcm-operations-configuration"]["operate-vnf-op-config"]:
- for k, v in enumerate(value["lcm-operations-configuration"]["operate-vnf-op-config"]["day1-2"]):
+ if (
+ "day1-2"
+ in value["lcm-operations-configuration"][
+ "operate-vnf-op-config"
+ ]
+ ):
+ for k, v in enumerate(
+ value["lcm-operations-configuration"][
+ "operate-vnf-op-config"
+ ]["day1-2"]
+ ):
if "juju" in v["execution-environment-list"][k]:
- expected_value = self.db.get_list("nsrs")[i]["vcaStatus"]
- await self.my_ns._on_update_n2vc_db("nsrs", {"_id": nsr_id},
- "_admin.deployed.VCA.0", {})
+ expected_value = self.db.get_list("nsrs")[i][
+ "vcaStatus"
+ ]
+ await self.my_ns._on_update_n2vc_db(
+ "nsrs", {"_id": nsr_id}, "_admin.deployed.VCA.0", {}
+ )
return_value = self.db.get_list("nsrs")[i]["vcaStatus"]
self.assertEqual(return_value, expected_value)
def test_scale_retry_or_skip_suboperation(self):
# Load an alternative 'nslcmops' YAML for this test
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
- db_nslcmop = self.db.get_one('nslcmops', {"_id": nslcmop_id})
+ db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
op_index = 2
# Test when 'operationState' is 'COMPLETED'
- db_nslcmop['_admin']['operations'][op_index]['operationState'] = 'COMPLETED'
+ db_nslcmop["_admin"]["operations"][op_index]["operationState"] = "COMPLETED"
return_value = self.my_ns._retry_or_skip_suboperation(db_nslcmop, op_index)
expected_value = self.my_ns.SUBOPERATION_STATUS_SKIP
self.assertEqual(return_value, expected_value)
# Test when 'operationState' is not 'COMPLETED'
- db_nslcmop['_admin']['operations'][op_index]['operationState'] = None
+ db_nslcmop["_admin"]["operations"][op_index]["operationState"] = None
return_value = self.my_ns._retry_or_skip_suboperation(db_nslcmop, op_index)
expected_value = op_index
self.assertEqual(return_value, expected_value)
def test_scale_find_suboperation(self):
# Load an alternative 'nslcmops' YAML for this test
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
- db_nslcmop = self.db.get_one('nslcmops', {"_id": nslcmop_id})
+ db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
# Find this sub-operation
op_index = 2
- vnf_index = db_nslcmop['_admin']['operations'][op_index]['member_vnf_index']
- primitive = db_nslcmop['_admin']['operations'][op_index]['primitive']
- primitive_params = db_nslcmop['_admin']['operations'][op_index]['primitive_params']
+ vnf_index = db_nslcmop["_admin"]["operations"][op_index]["member_vnf_index"]
+ primitive = db_nslcmop["_admin"]["operations"][op_index]["primitive"]
+ primitive_params = db_nslcmop["_admin"]["operations"][op_index][
+ "primitive_params"
+ ]
match = {
- 'member_vnf_index': vnf_index,
- 'primitive': primitive,
- 'primitive_params': primitive_params,
+ "member_vnf_index": vnf_index,
+ "primitive": primitive,
+ "primitive_params": primitive_params,
}
found_op_index = self.my_ns._find_suboperation(db_nslcmop, match)
self.assertEqual(found_op_index, op_index)
# Test with not-matching params
match = {
- 'member_vnf_index': vnf_index,
- 'primitive': '',
- 'primitive_params': primitive_params,
+ "member_vnf_index": vnf_index,
+ "primitive": "",
+ "primitive_params": primitive_params,
}
found_op_index = self.my_ns._find_suboperation(db_nslcmop, match)
self.assertEqual(found_op_index, self.my_ns.SUBOPERATION_STATUS_NOT_FOUND)
def test_scale_update_suboperation_status(self):
self.db.set_one = asynctest.Mock()
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
- db_nslcmop = self.db.get_one('nslcmops', {"_id": nslcmop_id})
+ db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
op_index = 0
# Force the initial values to be distinct from the updated ones
q_filter = {"_id": db_nslcmop["_id"]}
# Test to change 'operationState' and 'detailed-status'
- operationState = 'COMPLETED'
- detailed_status = 'Done'
- expected_update_dict = {'_admin.operations.0.operationState': operationState,
- '_admin.operations.0.detailed-status': detailed_status,
- }
- self.my_ns._update_suboperation_status(db_nslcmop, op_index, operationState, detailed_status)
- self.db.set_one.assert_called_once_with("nslcmops", q_filter=q_filter, update_dict=expected_update_dict,
- fail_on_empty=False)
+ operationState = "COMPLETED"
+ detailed_status = "Done"
+ expected_update_dict = {
+ "_admin.operations.0.operationState": operationState,
+ "_admin.operations.0.detailed-status": detailed_status,
+ }
+ self.my_ns._update_suboperation_status(
+ db_nslcmop, op_index, operationState, detailed_status
+ )
+ self.db.set_one.assert_called_once_with(
+ "nslcmops",
+ q_filter=q_filter,
+ update_dict=expected_update_dict,
+ fail_on_empty=False,
+ )
def test_scale_add_suboperation(self):
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
- db_nslcmop = self.db.get_one('nslcmops', {"_id": nslcmop_id})
- vnf_index = '1'
- num_ops_before = len(db_nslcmop.get('_admin', {}).get('operations', [])) - 1
+ db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
+ vnf_index = "1"
+ num_ops_before = len(db_nslcmop.get("_admin", {}).get("operations", [])) - 1
vdu_id = None
vdu_count_index = None
vdu_name = None
- primitive = 'touch'
- mapped_primitive_params = {'parameter':
- [{'data-type': 'STRING',
- 'name': 'filename',
- 'default-value': '<touch_filename2>'}],
- 'name': 'touch'}
- operationState = 'PROCESSING'
- detailed_status = 'In progress'
- operationType = 'PRE-SCALE'
+ primitive = "touch"
+ mapped_primitive_params = {
+ "parameter": [
+ {
+ "data-type": "STRING",
+ "name": "filename",
+ "default-value": "<touch_filename2>",
+ }
+ ],
+ "name": "touch",
+ }
+ operationState = "PROCESSING"
+ detailed_status = "In progress"
+ operationType = "PRE-SCALE"
# Add a 'pre-scale' suboperation
- op_index_after = self.my_ns._add_suboperation(db_nslcmop, vnf_index, vdu_id, vdu_count_index,
- vdu_name, primitive, mapped_primitive_params,
- operationState, detailed_status, operationType)
+ op_index_after = self.my_ns._add_suboperation(
+ db_nslcmop,
+ vnf_index,
+ vdu_id,
+ vdu_count_index,
+ vdu_name,
+ primitive,
+ mapped_primitive_params,
+ operationState,
+ detailed_status,
+ operationType,
+ )
self.assertEqual(op_index_after, num_ops_before + 1)
# Delete all suboperations and add the same operation again
- del db_nslcmop['_admin']['operations']
- op_index_zero = self.my_ns._add_suboperation(db_nslcmop, vnf_index, vdu_id, vdu_count_index,
- vdu_name, primitive, mapped_primitive_params,
- operationState, detailed_status, operationType)
+ del db_nslcmop["_admin"]["operations"]
+ op_index_zero = self.my_ns._add_suboperation(
+ db_nslcmop,
+ vnf_index,
+ vdu_id,
+ vdu_count_index,
+ vdu_name,
+ primitive,
+ mapped_primitive_params,
+ operationState,
+ detailed_status,
+ operationType,
+ )
self.assertEqual(op_index_zero, 0)
# Add a 'RO' suboperation
- RO_nsr_id = '1234567890'
- RO_scaling_info = [{'type': 'create', 'count': 1, 'member-vnf-index': '1', 'osm_vdu_id': 'dataVM'}]
- op_index = self.my_ns._add_suboperation(db_nslcmop, vnf_index, vdu_id, vdu_count_index,
- vdu_name, primitive, mapped_primitive_params,
- operationState, detailed_status, operationType,
- RO_nsr_id, RO_scaling_info)
- db_RO_nsr_id = db_nslcmop['_admin']['operations'][op_index]['RO_nsr_id']
+ RO_nsr_id = "1234567890"
+ RO_scaling_info = [
+ {
+ "type": "create",
+ "count": 1,
+ "member-vnf-index": "1",
+ "osm_vdu_id": "dataVM",
+ }
+ ]
+ op_index = self.my_ns._add_suboperation(
+ db_nslcmop,
+ vnf_index,
+ vdu_id,
+ vdu_count_index,
+ vdu_name,
+ primitive,
+ mapped_primitive_params,
+ operationState,
+ detailed_status,
+ operationType,
+ RO_nsr_id,
+ RO_scaling_info,
+ )
+ db_RO_nsr_id = db_nslcmop["_admin"]["operations"][op_index]["RO_nsr_id"]
self.assertEqual(op_index, 1)
self.assertEqual(RO_nsr_id, db_RO_nsr_id)
# Try to add an invalid suboperation, should return SUBOPERATION_STATUS_NOT_FOUND
- op_index_invalid = self.my_ns._add_suboperation(None, None, None, None, None,
- None, None, None,
- None, None, None)
+ op_index_invalid = self.my_ns._add_suboperation(
+ None, None, None, None, None, None, None, None, None, None, None
+ )
self.assertEqual(op_index_invalid, self.my_ns.SUBOPERATION_STATUS_NOT_FOUND)
# Test _check_or_add_scale_suboperation() and _check_or_add_scale_suboperation_RO()
# - SUBOPERATION_STATUS_SKIP: This is an existing sub-operation, operationState == 'COMPLETED'
def test_scale_check_or_add_scale_suboperation(self):
nslcmop_id = descriptors.test_ids["TEST-A"]["instantiate"]
- db_nslcmop = self.db.get_one('nslcmops', {"_id": nslcmop_id})
- operationType = 'PRE-SCALE'
- vnf_index = '1'
- primitive = 'touch'
- primitive_params = {'parameter':
- [{'data-type': 'STRING',
- 'name': 'filename',
- 'default-value': '<touch_filename2>'}],
- 'name': 'touch'}
+ db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
+ operationType = "PRE-SCALE"
+ vnf_index = "1"
+ primitive = "touch"
+ primitive_params = {
+ "parameter": [
+ {
+ "data-type": "STRING",
+ "name": "filename",
+ "default-value": "<touch_filename2>",
+ }
+ ],
+ "name": "touch",
+ }
# Delete all sub-operations to be sure this is a new sub-operation
- del db_nslcmop['_admin']['operations']
+ del db_nslcmop["_admin"]["operations"]
# Add a new sub-operation
# For new sub-operations, operationState is set to 'PROCESSING' by default
op_index_new = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, primitive, primitive_params, operationType)
+ db_nslcmop, vnf_index, primitive, primitive_params, operationType
+ )
self.assertEqual(op_index_new, self.my_ns.SUBOPERATION_STATUS_NEW)
# Use the same parameters again to match the already added sub-operation
# which has status 'PROCESSING' (!= 'COMPLETED') by default
# The expected return value is a non-negative number
op_index_existing = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, primitive, primitive_params, operationType)
+ db_nslcmop, vnf_index, primitive, primitive_params, operationType
+ )
self.assertTrue(op_index_existing >= 0)
# Change operationState 'manually' for this sub-operation
- db_nslcmop['_admin']['operations'][op_index_existing]['operationState'] = 'COMPLETED'
+ db_nslcmop["_admin"]["operations"][op_index_existing][
+ "operationState"
+ ] = "COMPLETED"
# Then use the same parameters again to match the already added sub-operation,
# which now has status 'COMPLETED'
# The expected return value is SUBOPERATION_STATUS_SKIP
op_index_skip = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, primitive, primitive_params, operationType)
+ db_nslcmop, vnf_index, primitive, primitive_params, operationType
+ )
self.assertEqual(op_index_skip, self.my_ns.SUBOPERATION_STATUS_SKIP)
# RO sub-operation test:
# Repeat tests for the very similar _check_or_add_scale_suboperation_RO(),
- RO_nsr_id = '1234567890'
- RO_scaling_info = [{'type': 'create', 'count': 1, 'member-vnf-index': '1', 'osm_vdu_id': 'dataVM'}]
+ RO_nsr_id = "1234567890"
+ RO_scaling_info = [
+ {
+ "type": "create",
+ "count": 1,
+ "member-vnf-index": "1",
+ "osm_vdu_id": "dataVM",
+ }
+ ]
op_index_new_RO = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, None, None, 'SCALE-RO', RO_nsr_id, RO_scaling_info)
+ db_nslcmop, vnf_index, None, None, "SCALE-RO", RO_nsr_id, RO_scaling_info
+ )
self.assertEqual(op_index_new_RO, self.my_ns.SUBOPERATION_STATUS_NEW)
# Use the same parameters again to match the already added RO sub-operation
op_index_existing_RO = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, None, None, 'SCALE-RO', RO_nsr_id, RO_scaling_info)
+ db_nslcmop, vnf_index, None, None, "SCALE-RO", RO_nsr_id, RO_scaling_info
+ )
self.assertTrue(op_index_existing_RO >= 0)
# Change operationState 'manually' for this RO sub-operation
- db_nslcmop['_admin']['operations'][op_index_existing_RO]['operationState'] = 'COMPLETED'
+ db_nslcmop["_admin"]["operations"][op_index_existing_RO][
+ "operationState"
+ ] = "COMPLETED"
# Then use the same parameters again to match the already added sub-operation,
# which now has status 'COMPLETED'
# The expected return value is SUBOPERATION_STATUS_SKIP
op_index_skip_RO = self.my_ns._check_or_add_scale_suboperation(
- db_nslcmop, vnf_index, None, None, 'SCALE-RO', RO_nsr_id, RO_scaling_info)
+ db_nslcmop, vnf_index, None, None, "SCALE-RO", RO_nsr_id, RO_scaling_info
+ )
self.assertEqual(op_index_skip_RO, self.my_ns.SUBOPERATION_STATUS_SKIP)
async def test_deploy_kdus(self):
nsr_id = descriptors.test_ids["TEST-KDU"]["ns"]
nslcmop_id = descriptors.test_ids["TEST-KDU"]["instantiate"]
db_nsr = self.db.get_one("nsrs", {"_id": nsr_id})
- db_vnfr = self.db.get_one("vnfrs", {"nsr-id-ref": nsr_id, "member-vnf-index-ref": "multikdu"})
+ db_vnfr = self.db.get_one(
+ "vnfrs", {"nsr-id-ref": nsr_id, "member-vnf-index-ref": "multikdu"}
+ )
db_vnfrs = {"multikdu": db_vnfr}
db_vnfd = self.db.get_one("vnfds", {"_id": db_vnfr["vnfd-id"]})
db_vnfds = [db_vnfd]
self.my_ns.k8sclusterhelm3.generate_kdu_instance_name = asynctest.mock.Mock()
self.my_ns.k8sclusterhelm3.generate_kdu_instance_name.return_value = "k8s_id"
self.my_ns.k8sclusterhelm3.install = asynctest.CoroutineMock()
- self.my_ns.k8sclusterhelm3.synchronize_repos = asynctest.CoroutineMock(return_value=("", ""))
- self.my_ns.k8sclusterhelm3.get_services = asynctest.CoroutineMock(return_value=([]))
- await self.my_ns.deploy_kdus(logging_text, nsr_id, nslcmop_id, db_vnfrs, db_vnfds, task_register)
+ self.my_ns.k8sclusterhelm3.synchronize_repos = asynctest.CoroutineMock(
+ return_value=("", "")
+ )
+ self.my_ns.k8sclusterhelm3.get_services = asynctest.CoroutineMock(
+ return_value=([])
+ )
+ await self.my_ns.deploy_kdus(
+ logging_text, nsr_id, nslcmop_id, db_vnfrs, db_vnfds, task_register
+ )
await asyncio.wait(list(task_register.keys()), timeout=100)
db_nsr = self.db.get_list("nsrs")[1]
- self.assertIn("K8s", db_nsr["_admin"]["deployed"], "K8s entry not created at '_admin.deployed'")
- self.assertIsInstance(db_nsr["_admin"]["deployed"]["K8s"], list, "K8s entry is not of type list")
- self.assertEqual(len(db_nsr["_admin"]["deployed"]["K8s"]), 2, "K8s entry is not of type list")
- k8s_instace_info = {"kdu-instance": "k8s_id", "k8scluster-uuid": "73d96432-d692-40d2-8440-e0c73aee209c",
- "k8scluster-type": "helm-chart-v3",
- "kdu-name": "ldap",
- "member-vnf-index": "multikdu",
- "namespace": None}
+ self.assertIn(
+ "K8s",
+ db_nsr["_admin"]["deployed"],
+ "K8s entry not created at '_admin.deployed'",
+ )
+ self.assertIsInstance(
+ db_nsr["_admin"]["deployed"]["K8s"], list, "K8s entry is not of type list"
+ )
+ self.assertEqual(
+ len(db_nsr["_admin"]["deployed"]["K8s"]), 2, "K8s entry is not of type list"
+ )
+ k8s_instace_info = {
+ "kdu-instance": "k8s_id",
+ "k8scluster-uuid": "73d96432-d692-40d2-8440-e0c73aee209c",
+ "k8scluster-type": "helm-chart-v3",
+ "kdu-name": "ldap",
+ "member-vnf-index": "multikdu",
+ "namespace": None,
+ }
nsr_result = copy.deepcopy(db_nsr["_admin"]["deployed"]["K8s"][0])
nsr_kdu_model_result = nsr_result.pop("kdu-model")
expected_kdu_model = "stable/openldap:1.2.1"
self.assertEqual(nsr_result, k8s_instace_info)
self.assertTrue(
- nsr_kdu_model_result in expected_kdu_model or expected_kdu_model in nsr_kdu_model_result
+ nsr_kdu_model_result in expected_kdu_model
+ or expected_kdu_model in nsr_kdu_model_result
)
nsr_result = copy.deepcopy(db_nsr["_admin"]["deployed"]["K8s"][1])
nsr_kdu_model_result = nsr_result.pop("kdu-model")
expected_kdu_model = "stable/mongodb"
self.assertEqual(nsr_result, k8s_instace_info)
self.assertTrue(
- nsr_kdu_model_result in expected_kdu_model or expected_kdu_model in nsr_kdu_model_result
+ nsr_kdu_model_result in expected_kdu_model
+ or expected_kdu_model in nsr_kdu_model_result
)
# async def test_instantiate_pdu(self):
# self.assertEqual(db_nsr.get("errorDetail"), None, "errorDetail different than None")
-if __name__ == '__main__':
+if __name__ == "__main__":
asynctest.main()