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# 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
from common.method_wrappers.Decorator import MetricsPool, safe_and_metered_rpc_method
from common.proto.e2eorchestrator_pb2 import E2EOrchestratorRequest, E2EOrchestratorReply
from common.proto.context_pb2 import Empty, Connection, EndPointId, Link, LinkId, TopologyDetails, TopologyId, Device, Topology, Context, Service
from common.proto.e2eorchestrator_pb2_grpc import E2EOrchestratorServiceServicer
from context.client.ContextClient import ContextClient
from context.service.database.uuids.EndPoint import endpoint_get_uuid
from common.tools.grpc.Tools import grpc_message_to_json_string
import logging
import networkx as nx
from threading import Thread
import time
from websockets.sync.client import connect
from websockets.sync.server import serve
LOGGER = logging.getLogger(__name__)
logging.getLogger("websockets").propagate = False
METRICS_POOL = MetricsPool("E2EOrchestrator", "RPC")
context_client: ContextClient = ContextClient()
EXT_HOST = "nbiservice.tfs-ip.svc.cluster.local"
EXT_PORT = "8762"
OWN_HOST = "e2e-orchestratorservice.tfs-e2e.svc.cluster.local"
OWN_PORT = "8761"
def _event_received(websocket):
for message in websocket:
message_json = json.loads(message)
link = Link(**message_json)
service = Service()
service.service_id = link.link_id.link_uuid
service.serivice_type = 2 # Optical
service.service_status = 1
# service_client.CreateService(service)
websocket.send(message)
else:
topology_details = TopologyDetails(**message_json)
context_id = topology_details.topology_id.context_id
context = Context()
context.context_id.CopyFrom(context_id)
context_client.SetContext(context)
topology_id = topology_details.topology_id
topology = Topology()
topology.topology_id.CopyFrom(topology_id)
context_client.SetTopology(topology)
for device in topology_details.devices:
context_client.SetDevice(device)
for link in topology_details.links:
def requestSubscription():
url = "ws://" + EXT_HOST + ":" + EXT_PORT
request = VNTSubscriptionRequest()
request.host = OWN_HOST
request.port = OWN_PORT
LOGGER.debug("Trying to connect to {}".format(url))
try:
websocket = connect(url)
except Exception as ex:
LOGGER.error('Error connecting to {}'.format(url))
else:
with websocket:
LOGGER.debug("Connected to {}".format(url))
send = grpc_message_to_json_string(request)
websocket.send(send)
try:
message = websocket.recv()
LOGGER.debug("Received message from WebSocket: {}".format(message))
except Exception as ex:
LOGGER.info('Exception receiving from WebSocket: {}'.format(ex))
events_server()
LOGGER.info('Subscription requested')
def events_server():
all_hosts = "0.0.0.0"
try:
server = serve(_event_received, all_hosts, int(OWN_PORT))
except Exception as ex:
LOGGER.error('Error starting server on {}:{}'.format(all_hosts, OWN_PORT))
with server:
LOGGER.info("Running events server...: {}:{}".format(all_hosts, OWN_PORT))
server.serve_forever()
LOGGER.info("Exiting events server...")
class E2EOrchestratorServiceServicerImpl(E2EOrchestratorServiceServicer):
def __init__(self):
LOGGER.debug("Creating Servicer...")
LOGGER.debug("Servicer Created")
subscription_thread = Thread(target=requestSubscription)
subscription_thread.start()
except Exception as ex:
LOGGER.info("Exception!: {}".format(ex))
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@safe_and_metered_rpc_method(METRICS_POOL, LOGGER)
def Compute(self, request: E2EOrchestratorRequest, context: grpc.ServicerContext) -> E2EOrchestratorReply:
endpoints_ids = []
for endpoint_id in request.service.service_endpoint_ids:
endpoints_ids.append(endpoint_get_uuid(endpoint_id)[2])
graph = nx.Graph()
devices = context_client.ListDevices(Empty()).devices
for device in devices:
endpoints_uuids = [endpoint.endpoint_id.endpoint_uuid.uuid
for endpoint in device.device_endpoints]
for ep in endpoints_uuids:
graph.add_node(ep)
for ep in endpoints_uuids:
for ep_i in endpoints_uuids:
if ep == ep_i:
continue
graph.add_edge(ep, ep_i)
links = context_client.ListLinks(Empty()).links
for link in links:
eps = []
for endpoint_id in link.link_endpoint_ids:
eps.append(endpoint_id.endpoint_uuid.uuid)
graph.add_edge(eps[0], eps[1])
shortest = nx.shortest_path(graph, endpoints_ids[0], endpoints_ids[1])
path = E2EOrchestratorReply()
path.services.append(copy.deepcopy(request.service))
for i in range(0, int(len(shortest)/2)):
conn = Connection()
ep_a_uuid = str(shortest[i*2])
ep_z_uuid = str(shortest[i*2+1])
conn.connection_id.connection_uuid.uuid = str(ep_a_uuid) + '_->_' + str(ep_z_uuid)
ep_a_id = EndPointId()
ep_a_id.endpoint_uuid.uuid = ep_a_uuid
conn.path_hops_endpoint_ids.append(ep_a_id)
ep_z_id = EndPointId()
ep_z_id.endpoint_uuid.uuid = ep_z_uuid
conn.path_hops_endpoint_ids.append(ep_z_id)
path.connections.append(conn)