Skip to content

Latest commit

 

History

History
63 lines (40 loc) · 2.83 KB

README.md

File metadata and controls

63 lines (40 loc) · 2.83 KB

Multipoint-monitoring

This repository contains the code and instructions to reproduce the experiments presented in the paper:

Mauro Cociglio, Giuseppe Fioccola, Guido Marchetto, Amedeo Sapio, and Riccardo Sisto.
"Multipoint passive monitoring in packet networks"

Clustering script

Requirements

pip install networkx

Execution

The 2 scripts CompleteIterativeClustering_v5.py and CompleteRecursiveClustering_v1.py perform the iterative clustering algorithm and recursive clustering algorithm, respectively.

Each clustering script takes as input:

  • a topology file in the graphml format
  • either a sampling ratio (percentage of nodes in the extended graph that are monitored, randomly selected) or a list of nodes that are monitored

and its output is:

  • on the standard output, the dimensions and timing information on the computed graphs and clusters

  • the clusters.json file containing the computed clusters. Each cluster is described as a list of edges (couple of nodes)

  • the totclusters.json file containing a list of features (e.g., dimensions) of the monitored graph, extended graph and of every single cluster

  • the Monitored.graphml file containing the monitored graph in the graphml format

Example

This example runs the iterative clustering algorithm on the BICS topology. The algorithm first computes the extended graph and then selects 10% of all the nodes in the extended graph as monitored nodes.

python CompleteIterativeClustering_v5.py topologies/Bics.graphml 10

To explicitely select the nodes of the extended graph to monitor, we can provide a list of nodes instead of a sampling ratio:

python CompleteIterativeClustering_v5.py topologies/Bics.graphml "[[3,20,\"in\"],[3,20,\"out\"],[3,14,\"in\"],[3,14,\"out\"]]"

With this command we are selecting:

  • the interface of node 3 that is connected to node 20 in the input direction
  • the interface of node 3 that is connected to node 20 in the output direction
  • the interface of node 3 that is connected to node 14 in the input direction
  • the interface of node 3 that is connected to node 14 in the output direction

The node IDs are the ones defined in the topology graphml file:

  • node 3 is the Rotterdam node
  • node 20 is the Amsterdam node
  • node 14 is the Brussels node

In the clusters.json file, a cluster is described in 2 formats. In the 'raw' format the edges are represented as 2 nodes, each in the format (N, ID, rID, direction) where:

  • N is an incremental number assigned to all the nodes of the extended graph
  • ID is the node ID in the topology graphml file
  • rID is the node ID on the other end of the link
  • direction is either 'in' or 'out'

In the 'labeled' format the IDs are replaced with the label of each node, taken from the topology graphml file. As an example, one edge can be the following:

(Rotterdam-Amsterdam-in,Rotterdam-Amsterdam-out)