75 lines
2.6 KiB
Python
75 lines
2.6 KiB
Python
import networkx as nx
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from functools import reduce
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from itertools import chain
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from nodes import build_mac_table
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def import_vis_data(graph, nodes, vis_data):
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macs = build_mac_table(nodes)
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nodes_a = map(lambda d: 2*[d['primary']], filter(lambda d: 'primary' in d, vis_data))
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nodes_b = map(lambda d: [d['secondary'], d['of']], filter(lambda d: 'secondary' in d, vis_data))
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graph.add_nodes_from(map(lambda a, b: (a, dict(primary=b, node_id=macs.get(b))), *zip(*chain(nodes_a, nodes_b))))
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edges = filter(lambda d: 'neighbor' in d, vis_data)
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graph.add_edges_from(map(lambda d: (d['router'], d['neighbor'], dict(tq=float(d['label']))), edges))
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def mark_vpn(graph, vpn_macs):
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components = map(frozenset, nx.weakly_connected_components(graph))
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components = filter(vpn_macs.intersection, components)
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nodes = reduce(lambda a, b: a | b, components, set())
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for node in nodes:
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for k, v in graph[node].items():
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v['vpn'] = True
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def to_multigraph(graph):
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def f(a):
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node = graph.node[a]
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return node['primary'] if node else a
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def map_node(node, data):
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return (data['primary'], dict(node_id=data['node_id'])) if data else (node, dict())
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digraph = nx.MultiDiGraph()
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digraph.add_nodes_from(map(map_node, *zip(*graph.nodes_iter(data=True))))
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digraph.add_edges_from(map(lambda a, b, data: (f(a), f(b), data), *zip(*graph.edges_iter(data=True))))
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return digraph
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def merge_nodes(graph):
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def merge_edges(data):
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tq = min(map(lambda d: d['tq'], data))
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vpn = all(map(lambda d: d.get('vpn', False), data))
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return dict(tq=tq, vpn=vpn)
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multigraph = to_multigraph(graph)
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digraph = nx.DiGraph()
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digraph.add_nodes_from(multigraph.nodes_iter(data=True))
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edges = chain.from_iterable([[(e, d, merge_edges(multigraph[e][d].values()))
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for d in multigraph[e]] for e in multigraph])
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digraph.add_edges_from(edges)
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return digraph
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def to_undirected(graph):
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multigraph = nx.MultiGraph()
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multigraph.add_nodes_from(graph.nodes_iter(data=True))
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multigraph.add_edges_from(graph.edges_iter(data=True))
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def merge_edges(data):
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tq = max(map(lambda d: d['tq'], data))
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vpn = all(map(lambda d: d.get('vpn', False), data))
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return dict(tq=tq, vpn=vpn, bidirect=len(data) == 2)
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graph = nx.Graph()
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graph.add_nodes_from(multigraph.nodes_iter(data=True))
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edges = chain.from_iterable([[(e, d, merge_edges(multigraph[e][d].values()))
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for d in multigraph[e]] for e in multigraph])
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graph.add_edges_from(edges)
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return graph
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