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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.
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from .protos import grpcService_pb2_grpc
from .protos import grpcService_pb2
import logging
LOGGER = logging.getLogger(__name__)
import os
# AUTOGENERATED
class UpdateRequest:
def __init__(self, address_family_id, next_hop, as_path_segment, nodes, links):
self.address_family_id = address_family_id
self.next_hop = next_hop
self.as_path_segment = as_path_segment
self.nodes = nodes
self.links = links
@classmethod
def from_proto(cls, update_request):
nodes = []
for node in update_request.node:
nodes.append(NodeInfo.from_proto(node))
links = []
for link in update_request.link:
links.append(LinkInfo.from_proto(link))
return cls(
address_family_id=update_request.addressFamilyID,
next_hop=update_request.nextHop,
as_path_segment=update_request.asPathSegment,
nodes=nodes,
links=links
)
def toString(self):
# Debug purposes
out+=self.address_family_id
out+=self.next_hop
out+=self.as_path_segment
for node in self.nodes:
out+=node.node_name
out+=node.igp_id
out+=str(node.bgpls_id)
out+=str(node.as_id)
for link in self.links:
out+=link.remote_id
out+=link.local_id
out+=link.remote_ipv4_id
out+=link.local_ipv4_id
out+=str(link.local.as_number)
out+=link.local.bgpls_id
out+=link.remote.as_number
out+=link.remote.bgpls_id
out+=str(link.available_bw)
out+=str(link.residual_bw)
out+=str(link.utilized)
out+=str(link.max_link_delay)
out+=str(link.min_link_delay)
out+=str(link.delay_variation)
out+=str(link.delay)
out+=str(link.te_default_metric)
out+=str(link.adjacency_sid)
return out
class NodeInfo:
def __init__(self, node_name, igp_id, bgpls_id, as_id,learnt_from):
self.node_name = node_name.strip("/")
self.igp_id = igp_id.strip("/")
self.bgpls_id = bgpls_id.strip("/")
self.as_id = as_id
self.learnt_from=learnt_from
def toString(self):
# Debug purposes
out = "name"
out+=self.node_name
out+=self.igp_id
out+=str(self.bgpls_id)
out+=str(self.as_id)
out+=self.learnt_from
@classmethod
def from_proto(cls, proto_node):
return cls(
node_name=proto_node.nodeName,
igp_id=proto_node.igpID,
bgpls_id=proto_node.bgplsID,
as_id=proto_node.asID,
learnt_from=proto_node.learntFrom
)
class LinkInfo:
def __init__(self, remote_id, local_id, remote_ipv4_id, local_ipv4_id, local, remote, available_bw, residual_bw, utilized, max_link_delay, min_link_delay, delay_variation, delay, te_default_metric, adjacency_sid,learnt_from):
self.remote_id = remote_id.strip("/")
self.local_id = local_id.strip("/")
self.remote_ipv4_id = remote_ipv4_id.strip("/")
self.local_ipv4_id = local_ipv4_id.strip("/")
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self.local = local
self.remote = remote
self.available_bw = available_bw
self.residual_bw = residual_bw
self.utilized = utilized
self.max_link_delay = max_link_delay
self.min_link_delay = min_link_delay
self.delay_variation = delay_variation
self.delay = delay
self.te_default_metric = te_default_metric
self.adjacency_sid = adjacency_sid
self.learnt_from=learnt_from
@classmethod
def from_proto(cls, proto_link):
return cls(
remote_id=proto_link.remoteID,
local_id=proto_link.localID,
remote_ipv4_id=proto_link.remoteIPv4ID,
local_ipv4_id=proto_link.localIPv4ID,
local=NodeDescriptors.from_proto(proto_link.local),
remote=NodeDescriptors.from_proto(proto_link.remote),
available_bw=proto_link.availableBw,
residual_bw=proto_link.residualBw,
utilized=proto_link.utilized,
max_link_delay=proto_link.maxLinkDelay,
min_link_delay=proto_link.minLinkDelay,
delay_variation=proto_link.delayVariation,
delay=proto_link.delay,
te_default_metric=proto_link.TEDefaultMetric,
adjacency_sid=proto_link.adjacencySid,
learnt_from=proto_link.learntFrom
)
class NodeDescriptors:
def __init__(self, as_number, bgpls_id):
self.as_number = as_number
self.bgpls_id = bgpls_id
self.node_name=None
@classmethod
def from_proto(cls, descriptor):
return cls(
as_number=descriptor.asNumber,
bgpls_id=descriptor.bgplsID
)
"""
message Device {
DeviceId device_id = 1;
string name = 2;
string device_type = 3;
DeviceConfig device_config = 4;
DeviceOperationalStatusEnum device_operational_status = 5;
repeated DeviceDriverEnum device_drivers = 6;
repeated EndPoint device_endpoints = 7;
repeated Component component = 8; // Used for inventory
}
message DeviceId {
Uuid device_uuid = 1;
}
message TopologyId {
ContextId context_id = 1;
Uuid topology_uuid = 2;
}
message Topology {
TopologyId topology_id = 1;
string name = 2;
repeated DeviceId device_ids = 3;
repeated LinkId link_ids = 4;
}
message TopologyDetails {
TopologyId topology_id = 1;
string name = 2;
repeated Device devices = 3;
repeated Link links = 4;
}
message LinkId {
Uuid link_uuid = 1;
}
message Link {
LinkId link_id = 1;
string name = 2;
repeated EndPointId link_endpoint_ids = 3;
}
"""