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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 logging
from typing import Dict, List, Set, Tuple
from common.Constants import DEFAULT_CONTEXT_NAME, DEFAULT_TOPOLOGY_NAME, INTERDOMAIN_TOPOLOGY_NAME
from common.proto.context_pb2 import ContextId, Device, Empty, EndPointId, ServiceTypeEnum, Slice
from common.proto.pathcomp_pb2 import PathCompRequest
from common.tools.context_queries.CheckType import device_type_is_network
from common.tools.context_queries.Device import get_devices_in_topology
from common.tools.context_queries.Topology import get_topology
from common.tools.grpc.Tools import grpc_message_to_json_string
from common.tools.object_factory.Context import json_context_id
from context.client.ContextClient import ContextClient
from pathcomp.frontend.client.PathCompClient import PathCompClient
LOGGER = logging.getLogger(__name__)
ADMIN_CONTEXT_ID = ContextId(**json_context_id(DEFAULT_CONTEXT_NAME))
DATACENTER_DEVICE_TYPES = {DeviceTypeEnum.DATACENTER, DeviceTypeEnum.EMULATED_DATACENTER}
def get_local_device_uuids(context_client : ContextClient) -> Set[str]:
topologies = context_client.ListTopologies(ADMIN_CONTEXT_ID)
local_topologies = dict()
for topology in topologies.topologies:
topology_uuid = topology.topology_id.topology_uuid.uuid
if topology_uuid == INTERDOMAIN_TOPOLOGY_NAME: continue
topology_name = topology.name
if topology_name == INTERDOMAIN_TOPOLOGY_NAME: continue
local_topologies[topology_uuid] = topology
LOGGER.debug('[get_local_device_uuids] local_topologies={:s}'.format(str(local_topologies)))
local_topology_uuids = set(local_topologies.keys())
LOGGER.debug('[get_local_device_uuids] local_topology_uuids={:s}'.format(str(local_topology_uuids)))
# Add topology names except DEFAULT_TOPOLOGY_NAME and INTERDOMAIN_TOPOLOGY_NAME; they are abstracted as a
# local device in inter-domain and the name of the topology is used as abstract device name
# Add physical devices in the local topologies
for topology_uuid,topology in local_topologies.items():
if topology_uuid == DEFAULT_TOPOLOGY_NAME: continue
topology_name = topology.name
if topology_name == DEFAULT_TOPOLOGY_NAME: continue
#local_device_uuids.add(topology_uuid)
device_uuids = {device_id.device_uuid.uuid for device_id in topology.device_ids}
LOGGER.debug('[get_local_device_uuids] [loop] topology_uuid={:s} device_uuids={:s}'.format(
str(topology_uuid), str(device_uuids)))
local_device_uuids.update(device_uuids)
LOGGER.debug('[get_local_device_uuids] local_device_uuids={:s}'.format(str(local_device_uuids)))
def get_interdomain_device_uuids(context_client : ContextClient) -> Set[str]:
context_uuid = DEFAULT_CONTEXT_NAME
topology_uuid = INTERDOMAIN_TOPOLOGY_NAME
interdomain_topology = get_topology(context_client, topology_uuid, context_uuid=context_uuid)
if interdomain_topology is None:
MSG = '[get_interdomain_device_uuids] {:s}/{:s} topology not found'
LOGGER.warning(MSG.format(context_uuid, topology_uuid))
return set()
# add abstracted devices in the interdomain topology
interdomain_device_ids = interdomain_topology.device_ids
interdomain_device_uuids = {device_id.device_uuid.uuid for device_id in interdomain_device_ids}
LOGGER.debug('[get_interdomain_device_uuids] interdomain_device_uuids={:s}'.format(str(interdomain_device_uuids)))
#def get_local_domain_devices(context_client : ContextClient) -> List[Device]:
# local_device_uuids = get_local_device_uuids(context_client)
# all_devices = context_client.ListDevices(Empty())
# local_domain_devices = list()
# for device in all_devices.devices:
# if not device_type_is_network(device.device_type): continue
# device_uuid = device.device_id.device_uuid.uuid
# if device_uuid not in local_device_uuids: continue
# local_domain_devices.append(device)
# return local_domain_devices
def is_inter_domain(context_client : ContextClient, endpoint_ids : List[EndPointId]) -> bool:
interdomain_device_uuids = get_interdomain_device_uuids(context_client)
LOGGER.debug('[is_inter_domain] interdomain_device_uuids={:s}'.format(str(interdomain_device_uuids)))
non_interdomain_endpoint_ids = [
endpoint_id
for endpoint_id in endpoint_ids
if endpoint_id.device_id.device_uuid.uuid not in interdomain_device_uuids
]
str_non_interdomain_endpoint_ids = [
(endpoint_id.device_id.device_uuid.uuid, endpoint_id.endpoint_uuid.uuid)
for endpoint_id in non_interdomain_endpoint_ids
]
LOGGER.debug('[is_inter_domain] non_interdomain_endpoint_ids={:s}'.format(str(str_non_interdomain_endpoint_ids)))
LOGGER.debug('[is_inter_domain] is_inter_domain={:s}'.format(str(is_inter_domain_)))
#def is_multi_domain(context_client : ContextClient, endpoint_ids : List[EndPointId]) -> bool:
# local_device_uuids = get_local_device_uuids(context_client)
# LOGGER.debug('[is_multi_domain] local_device_uuids={:s}'.format(str(local_device_uuids)))
# remote_endpoint_ids = [
# endpoint_id
# for endpoint_id in endpoint_ids
# if endpoint_id.device_id.device_uuid.uuid not in local_device_uuids
# ]
# str_remote_endpoint_ids = [
# (endpoint_id.device_id.device_uuid.uuid, endpoint_id.endpoint_uuid.uuid)
# for endpoint_id in remote_endpoint_ids
# ]
# LOGGER.debug('[is_multi_domain] remote_endpoint_ids={:s}'.format(str(str_remote_endpoint_ids)))
# is_multi_domain_ = len(remote_endpoint_ids) > 0
# LOGGER.debug('[is_multi_domain] is_multi_domain={:s}'.format(str(is_multi_domain_)))
# return is_multi_domain_
def compute_interdomain_path(
pathcomp_client : PathCompClient, slice_ : Slice
) -> List[Tuple[str, List[EndPointId]]]:
context_uuid = slice_.slice_id.context_id.context_uuid.uuid
slice_uuid = slice_.slice_id.slice_uuid.uuid
pathcomp_req = PathCompRequest()
pathcomp_req.shortest_path.Clear() # pylint: disable=no-member
pathcomp_req_svc = pathcomp_req.services.add() # pylint: disable=no-member
pathcomp_req_svc.service_id.context_id.context_uuid.uuid = context_uuid
pathcomp_req_svc.service_id.service_uuid.uuid = slice_uuid
pathcomp_req_svc.service_type = ServiceTypeEnum.SERVICETYPE_L2NM
for endpoint_id in slice_.slice_endpoint_ids:
service_endpoint_id = pathcomp_req_svc.service_endpoint_ids.add()
service_endpoint_id.CopyFrom(endpoint_id)
constraint_sla_capacity = pathcomp_req_svc.service_constraints.add()
constraint_sla_capacity.sla_capacity.capacity_gbps = 10.0
constraint_sla_latency = pathcomp_req_svc.service_constraints.add()
constraint_sla_latency.sla_latency.e2e_latency_ms = 100.0
LOGGER.debug('pathcomp_req = {:s}'.format(grpc_message_to_json_string(pathcomp_req)))
LOGGER.debug('pathcomp_rep = {:s}'.format(grpc_message_to_json_string(pathcomp_rep)))
service = next(iter([
service
for service in pathcomp_rep.services
if service.service_id.service_uuid.uuid == pathcomp_req_svc.service_id.service_uuid.uuid
]), None)
if service is None:
str_service_id = grpc_message_to_json_string(pathcomp_req_svc.service_id)
raise Exception('Service({:s}) not found'.format(str_service_id))
connection = next(iter([
connection
for connection in pathcomp_rep.connections
if connection.service_id.service_uuid.uuid == pathcomp_req_svc.service_id.service_uuid.uuid
]), None)
if connection is None:
str_service_id = grpc_message_to_json_string(pathcomp_req_svc.service_id)
raise Exception('Connection for Service({:s}) not found'.format(str_service_id))
domain_list : List[str] = list()
domain_to_endpoint_ids : Dict[str, List[EndPointId]] = dict()
for endpoint_id in connection.path_hops_endpoint_ids:
device_uuid = endpoint_id.device_id.device_uuid.uuid
#endpoint_uuid = endpoint_id.endpoint_uuid.uuid
if device_uuid not in domain_to_endpoint_ids: domain_list.append(device_uuid)
domain_to_endpoint_ids.setdefault(device_uuid, []).append(endpoint_id)
return [
(domain_uuid, domain_to_endpoint_ids.get(domain_uuid))
for domain_uuid in domain_list
]
def get_device_to_domain_map(context_client : ContextClient) -> Dict[str, str]:
devices_to_domains : Dict[str, str] = dict()
contexts = context_client.ListContexts(Empty())
for context in contexts.contexts:
context_id = context.context_id
context_uuid = context_id.context_uuid.uuid
topologies = context_client.ListTopologies(context_id)
if context_uuid == DEFAULT_CONTEXT_NAME:
for topology in topologies.topologies:
topology_id = topology.topology_id
topology_uuid = topology_id.topology_uuid.uuid
if topology_uuid in {DEFAULT_TOPOLOGY_NAME, INTERDOMAIN_TOPOLOGY_NAME}: continue
# add topology names except DEFAULT_TOPOLOGY_NAME and INTERDOMAIN_TOPOLOGY_NAME; they are
# abstracted as a local device in inter-domain and the name of the topology is used as
# abstract device name
devices_to_domains[topology_uuid] = topology_uuid
# add physical devices in the local topology
for device_id in topology.device_ids:
device_uuid = device_id.device_uuid.uuid
devices_to_domains[device_uuid] = topology_uuid
else:
# for each topology in a remote context
for topology in topologies.topologies:
topology_id = topology.topology_id
topology_uuid = topology_id.topology_uuid.uuid
# if topology is not interdomain
if topology_uuid in {INTERDOMAIN_TOPOLOGY_NAME}: continue
# add devices to the remote domain list
for device_id in topology.device_ids:
device_uuid = device_id.device_uuid.uuid
devices_to_domains[device_uuid] = context_uuid
return devices_to_domains
def compute_traversed_domains(
context_client : ContextClient, interdomain_path : List[Tuple[str, List[EndPointId]]]
local_device_uuids = get_local_device_uuids(context_client)
LOGGER.debug('[compute_traversed_domains] local_device_uuids={:s}'.format(str(local_device_uuids)))
#interdomain_devices = get_devices_in_topology(context_client, ADMIN_CONTEXT_ID, INTERDOMAIN_TOPOLOGY_NAME)
#interdomain_devices = {
# device.device_id.device_uuid.uuid : device
# for device in interdomain_devices
#}
devices_to_domains = get_device_to_domain_map(context_client)
LOGGER.debug('[compute_traversed_domains] devices_to_domains={:s}'.format(str(devices_to_domains)))
traversed_domains : List[Tuple[str, bool, List[EndPointId]]] = list()
domains_dict : Dict[str, Tuple[str, bool, List[EndPointId]]] = dict()
for device_uuid, endpoint_ids in interdomain_path:
domain_uuid = devices_to_domains.get(device_uuid, '---')
domain = domains_dict.get(domain_uuid)
if domain is None:
is_local_domain = domain_uuid in local_device_uuids
domain = (domain_uuid, is_local_domain, [])
traversed_domains.append(domain)
domains_dict[domain_uuid] = domain
domain[2].extend(endpoint_ids)
str_traversed_domains = [
(domain_uuid, is_local_domain, [
(endpoint_id.device_id.device_uuid.uuid, endpoint_id.endpoint_uuid.uuid)
for endpoint_id in endpoint_ids
])
for domain_uuid,is_local_domain,endpoint_ids in traversed_domains
]
LOGGER.debug('[compute_traversed_domains] devices_to_domains={:s}'.format(str(str_traversed_domains)))