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# Colors
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if options.optimize_black_bg:
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HCA_Color = '#cccccc'
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HCA_Edge_Color = '#ff0000'
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Switch_Color = '#ffffff'
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Switch_Edge_Color = '#a0a0a0'
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else:
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HCA_Color = '#ff8080'
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HCA_Edge_Color = '#ff0000'
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Switch_Color = '#d5f6ff'
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Switch_Edge_Color = '#000000'
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Cluster_Color = "yellow"
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if detailed:
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G.node_attr['shape'] = "Mrecord"
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else:
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G.node_attr['shape'] = "rectangle"
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G.add_nodes_from(topology)
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if exportGexf:
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# gephi_edge_id = G.number_of_nodes()
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gephi_edge_id = 0
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root_node = et.Element('gexf')
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root_node.attrib['xmlns'] = "http://www.gexf.net/1.3"
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root_node.attrib['version'] = "1.3"
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root_node.attrib['xmlns:viz'] = "http://www.gexf.net/1.3/viz"
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root_node.attrib['xmlns:xsi'] = (
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"http://www.w3.org/2001/XMLSchema-instance")
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root_node.attrib['xsi:schemaLocation'] = (
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"http://www.gexf.net/1.3 http://www.gexf.net/1.3/gexf.xsd")
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meta_node = et.SubElement(
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root_node, 'meta', attrib={
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'lastmodifieddate': time.strftime("%Y-%m-%d")
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}
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)
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creator_node = et.SubElement(meta_node, 'creator')
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creator_node.text = PROGRAM_NAME
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description_node = et.SubElement(meta_node, 'description')
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description_node.text = "Graph generated from file '{}'".format(
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os.path.realpath(topology_file))
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graph_node = et.SubElement(root_node, 'graph')
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graph_node.attrib['defaultedgetype'] = "undirected"
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graph_node.attrib['mode'] = "static"
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nodes_node = et.SubElement(graph_node, 'nodes')
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edges_node = et.SubElement(graph_node, 'edges')
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# Cluster id for the subgraphs
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if useClusters:
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global_cluster_id = 0
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# Add ports and edges
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for node in G.nodes():
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if useClusters:
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Subgraph_For_Current_Switch = None
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numPorts = topology[node.name]['number_of_ports']
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if topology[node.name]['node_type'] == 'switch':
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node.attr['fillcolor'] = Switch_Color
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node.attr['color'] = Switch_Color
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elif topology[node.name]['node_type'] == 'hca':
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node.attr['fillcolor'] = HCA_Color
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node.attr['color'] = HCA_Color
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label = topology[node.name]['label'] if 'label' in topology[node.name] else node.name
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if exportGexf:
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node_node = et.SubElement(
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nodes_node, 'node', attrib={
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'id': node.name, 'label': label
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}
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)
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r, g, b = hex_to_rgb(node.attr['color'])
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et.SubElement(
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node_node, 'viz:color', attrib={
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'r': str(r), 'g': str(g), 'b': str(b), 'a': "0.0"
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}
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)
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if numPorts > 0:
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for port in range(1, numPorts + 1):
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if detailed:
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if port == 1:
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separator = ""
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else:
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separator = "|"
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label = "{}|<{}> {}".format(label, port, port)
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if port in topology[node.name].keys():
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remote_port = list(topology[node.name][port].values())[0]
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remote_host = list(topology[node.name][port].keys())[0]
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try:
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# Check if there is already a link established...
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# If not, the 'get_edge' command will raise a
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# KeyError exception and a new edge will be added
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G.get_edge(remote_host, node.name,
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key="{}-{}".format(port, remote_port))
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except KeyError:
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if detailed:
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G.add_edge(
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