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Lluis Gifre Renom authored- Added availability percentage to SLA Availability constraint
Lluis Gifre Renom authored- Added availability percentage to SLA Availability constraint
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test_unitary.py 12.50 KiB
# Copyright 2022-2023 ETSI TeraFlowSDN - TFS OSG (https://tfs.etsi.org/)
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import copy, logging, os
from common.proto.context_pb2 import Context, ContextId, DeviceId, Link, LinkId, Topology, Device, TopologyId
from common.proto.pathcomp_pb2 import PathCompRequest
from common.tools.grpc.Tools import grpc_message_to_json
from common.tools.object_factory.Constraint import (
json_constraint_custom, json_constraint_endpoint_location_region, json_constraint_endpoint_priority,
json_constraint_sla_availability, json_constraint_sla_capacity, json_constraint_sla_latency)
from common.tools.object_factory.Device import json_device_id
from common.tools.object_factory.EndPoint import json_endpoint_id
from common.tools.object_factory.Service import json_service_l3nm_planned
from context.client.ContextClient import ContextClient
from pathcomp.frontend.client.PathCompClient import PathCompClient
# Scenarios:
#from .Objects_A_B_C import CONTEXTS, DEVICES, LINKS, OBJECTS_PER_TOPOLOGY, SERVICES, TOPOLOGIES
#from .Objects_DC_CSGW_TN import CONTEXTS, DEVICES, LINKS, OBJECTS_PER_TOPOLOGY, SERVICES, TOPOLOGIES
from .Objects_DC_CSGW_TN_OLS import CONTEXTS, DEVICES, LINKS, OBJECTS_PER_TOPOLOGY, SERVICES, TOPOLOGIES
# configure backend environment variables before overwriting them with fixtures to use real backend pathcomp
DEFAULT_PATHCOMP_BACKEND_SCHEME = 'http'
DEFAULT_PATHCOMP_BACKEND_HOST = '127.0.0.1'
DEFAULT_PATHCOMP_BACKEND_PORT = '8081'
DEFAULT_PATHCOMP_BACKEND_BASEURL = '/pathComp/api/v1/compRoute'
os.environ['PATHCOMP_BACKEND_SCHEME'] = os.environ.get('PATHCOMP_BACKEND_SCHEME', DEFAULT_PATHCOMP_BACKEND_SCHEME)
os.environ['PATHCOMP_BACKEND_BASEURL'] = os.environ.get('PATHCOMP_BACKEND_BASEURL', DEFAULT_PATHCOMP_BACKEND_BASEURL)
# Find IP:port of backend container as follows:
# - first check env vars PATHCOMP_BACKEND_HOST & PATHCOMP_BACKEND_PORT
# - if not set, check env vars PATHCOMPSERVICE_SERVICE_HOST & PATHCOMPSERVICE_SERVICE_PORT_HTTP
# - if not set, use DEFAULT_PATHCOMP_BACKEND_HOST & DEFAULT_PATHCOMP_BACKEND_PORT
backend_host = DEFAULT_PATHCOMP_BACKEND_HOST
backend_host = os.environ.get('PATHCOMPSERVICE_SERVICE_HOST', backend_host)
os.environ['PATHCOMP_BACKEND_HOST'] = os.environ.get('PATHCOMP_BACKEND_HOST', backend_host)
backend_port = DEFAULT_PATHCOMP_BACKEND_PORT
backend_port = os.environ.get('PATHCOMPSERVICE_SERVICE_PORT_HTTP', backend_port)
os.environ['PATHCOMP_BACKEND_PORT'] = os.environ.get('PATHCOMP_BACKEND_PORT', backend_port)
from .PrepareTestScenario import ( # pylint: disable=unused-import
# be careful, order of symbols is important here!
mock_service, pathcomp_service, context_client, pathcomp_client)
LOGGER = logging.getLogger(__name__)
LOGGER.setLevel(logging.DEBUG)
def test_prepare_environment(
context_client : ContextClient): # pylint: disable=redefined-outer-name
for context in CONTEXTS : context_client.SetContext (Context (**context ))
for topology in TOPOLOGIES: context_client.SetTopology(Topology(**topology))
for device in DEVICES : context_client.SetDevice (Device (**device ))
for link in LINKS : context_client.SetLink (Link (**link ))
for topology_id, device_ids, link_ids in OBJECTS_PER_TOPOLOGY:
topology = Topology()
topology.CopyFrom(context_client.GetTopology(TopologyId(**topology_id)))
device_ids_in_topology = {device_id.device_uuid.uuid for device_id in topology.device_ids}
func_device_id_not_added = lambda device_id: device_id['device_uuid']['uuid'] not in device_ids_in_topology
func_device_id_json_to_grpc = lambda device_id: DeviceId(**device_id)
device_ids_to_add = list(map(func_device_id_json_to_grpc, filter(func_device_id_not_added, device_ids)))
topology.device_ids.extend(device_ids_to_add)
link_ids_in_topology = {link_id.link_uuid.uuid for link_id in topology.link_ids}
func_link_id_not_added = lambda link_id: link_id['link_uuid']['uuid'] not in link_ids_in_topology
func_link_id_json_to_grpc = lambda link_id: LinkId(**link_id)
link_ids_to_add = list(map(func_link_id_json_to_grpc, filter(func_link_id_not_added, link_ids)))
topology.link_ids.extend(link_ids_to_add)
context_client.SetTopology(topology)
def test_request_service_shortestpath(
pathcomp_client : PathCompClient): # pylint: disable=redefined-outer-name
request_services = copy.deepcopy(SERVICES)
#request_services[0]['service_constraints'] = [
# json_constraint_sla_capacity(1000.0),
# json_constraint_sla_latency(1200.0),
#]
pathcomp_request = PathCompRequest(services=request_services)
pathcomp_request.shortest_path.Clear() # hack to select the shortest path algorithm that has no attributes
pathcomp_reply = pathcomp_client.Compute(pathcomp_request)
pathcomp_reply = grpc_message_to_json(pathcomp_reply)
reply_services = pathcomp_reply['services']
reply_connections = pathcomp_reply['connections']
assert len(request_services) <= len(reply_services)
request_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in request_services
}
reply_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in reply_services
}
# Assert all requested services have a reply
# It permits having other services not requested (i.e., sub-services)
assert len(request_service_ids.difference(reply_service_ids)) == 0
reply_connection_service_ids = {
'{:s}/{:s}'.format(
conn['service_id']['context_id']['context_uuid']['uuid'],
conn['service_id']['service_uuid']['uuid']
)
for conn in reply_connections
}
# Assert all requested services have a connection associated
# It permits having other connections not requested (i.e., connections for sub-services)
assert len(request_service_ids.difference(reply_connection_service_ids)) == 0
# TODO: implement other checks. examples:
# - request service and reply service endpoints match
# - request service and reply connection endpoints match
# - reply sub-service and reply sub-connection endpoints match
# - others?
#for json_service,json_connection in zip(json_services, json_connections):
def test_request_service_kshortestpath(
pathcomp_client : PathCompClient): # pylint: disable=redefined-outer-name
request_services = SERVICES
pathcomp_request = PathCompRequest(services=request_services)
pathcomp_request.k_shortest_path.k_inspection = 2 #pylint: disable=no-member
pathcomp_request.k_shortest_path.k_return = 2 #pylint: disable=no-member
pathcomp_reply = pathcomp_client.Compute(pathcomp_request)
pathcomp_reply = grpc_message_to_json(pathcomp_reply)
reply_services = pathcomp_reply['services']
reply_connections = pathcomp_reply['connections']
assert len(request_services) <= len(reply_services)
request_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in request_services
}
reply_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in reply_services
}
# Assert all requested services have a reply
# It permits having other services not requested (i.e., sub-services)
assert len(request_service_ids.difference(reply_service_ids)) == 0
reply_connection_service_ids = {
'{:s}/{:s}'.format(
conn['service_id']['context_id']['context_uuid']['uuid'],
conn['service_id']['service_uuid']['uuid']
)
for conn in reply_connections
}
# Assert all requested services have a connection associated
# It permits having other connections not requested (i.e., connections for sub-services)
assert len(request_service_ids.difference(reply_connection_service_ids)) == 0
# TODO: implement other checks. examples:
# - request service and reply service endpoints match
# - request service and reply connection endpoints match
# - reply sub-service and reply sub-connection endpoints match
# - others?
#for json_service,json_connection in zip(json_services, json_connections):
def test_request_service_kdisjointpath(
pathcomp_client : PathCompClient): # pylint: disable=redefined-outer-name
service_uuid = 'DC1-DC2'
raw_endpoints = [
('CS1-GW1', '10/1', 'DC1', 10),
('CS1-GW2', '10/1', 'DC1', 20),
('CS2-GW1', '10/1', 'DC2', 10),
('CS2-GW2', '10/1', 'DC2', 20),
]
endpoint_ids, constraints = [], [
json_constraint_sla_capacity(10.0),
json_constraint_sla_latency(12.0),
json_constraint_sla_availability(2, True, 50.0),
json_constraint_custom('diversity', {'end-to-end-diverse': 'all-other-accesses'}),
]
for device_uuid, endpoint_uuid, region, priority in raw_endpoints:
device_id = json_device_id(device_uuid)
endpoint_id = json_endpoint_id(device_id, endpoint_uuid)
endpoint_ids.append(endpoint_id)
constraints.extend([
json_constraint_endpoint_location_region(endpoint_id, region),
json_constraint_endpoint_priority(endpoint_id, priority),
])
service = json_service_l3nm_planned(service_uuid, endpoint_ids=endpoint_ids, constraints=constraints)
request_services = [service]
pathcomp_request = PathCompRequest(services=request_services)
pathcomp_request.k_disjoint_path.num_disjoint = 2 #pylint: disable=no-member
pathcomp_reply = pathcomp_client.Compute(pathcomp_request)
pathcomp_reply = grpc_message_to_json(pathcomp_reply)
reply_services = pathcomp_reply['services']
reply_connections = pathcomp_reply['connections']
assert len(request_services) <= len(reply_services)
request_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in request_services
}
reply_service_ids = {
'{:s}/{:s}'.format(
svc['service_id']['context_id']['context_uuid']['uuid'],
svc['service_id']['service_uuid']['uuid']
)
for svc in reply_services
}
# Assert all requested services have a reply
# It permits having other services not requested (i.e., sub-services)
assert len(request_service_ids.difference(reply_service_ids)) == 0
reply_connection_service_ids = {
'{:s}/{:s}'.format(
conn['service_id']['context_id']['context_uuid']['uuid'],
conn['service_id']['service_uuid']['uuid']
)
for conn in reply_connections
}
# Assert all requested services have a connection associated
# It permits having other connections not requested (i.e., connections for sub-services)
assert len(request_service_ids.difference(reply_connection_service_ids)) == 0
# TODO: implement other checks. examples:
# - request service and reply service endpoints match
# - request service and reply connection endpoints match
# - reply sub-service and reply sub-connection endpoints match
# - others?
#for json_service,json_connection in zip(json_services, json_connections):
def test_cleanup_environment(
context_client : ContextClient): # pylint: disable=redefined-outer-name
for link in LINKS : context_client.RemoveLink (LinkId (**link ['link_id' ]))
for device in DEVICES : context_client.RemoveDevice (DeviceId (**device ['device_id' ]))
for topology in TOPOLOGIES: context_client.RemoveTopology(TopologyId(**topology['topology_id']))
for context in CONTEXTS : context_client.RemoveContext (ContextId (**context ['context_id' ]))