mirror of
https://github.com/BlackLight/Snort_AIPreproc.git
synced 2024-11-14 04:37:16 +01:00
205 lines
6.1 KiB
C
205 lines
6.1 KiB
C
/*
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* =====================================================================================
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*
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* Filename: neural_cluster.c
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*
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* Description: Perform the clusterization over the output layer of the SOM neural
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* network, in order to attempt to find the alerts belonging to the
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* same attack scenario. The clusterization is operated through k-means
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* using Schwarz criterion in order to find the optimal number of
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* clusters, the implementation is in fkmeans/
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*
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* Version: 0.1
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* Created: 19/11/2010 18:37:35
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* Revision: none
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* Compiler: gcc
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*
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* Author: BlackLight (http://0x00.ath.cx), <blacklight@autistici.org>
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* Licence: GNU GPL v.3
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* Company: DO WHAT YOU WANT CAUSE A PIRATE IS FREE, YOU ARE A PIRATE!
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*
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* =====================================================================================
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*/
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#include "spp_ai.h"
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/** \defgroup neural_cluster Module for clustering the alerts associated to the
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* neural network output layer in order to find alerts belonging to the same scenario
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* @{ */
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#include "fkmeans/kmeans.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <sys/stat.h>
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#include <unistd.h>
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#include <time.h>
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/**
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* \brief Print the clusters associated to the SOM output to an XML log file
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* \param km k-means object
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* \param alerts_per_neuron Hash table containing the alerts associated to each neuron
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*/
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PRIVATE void
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__AI_neural_clusters_to_xml ( kmeans_t *km, AI_alerts_per_neuron *alerts_per_neuron )
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{
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int i, j, k, l, are_equal;
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FILE *fp = NULL;
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uint32_t src_addr = 0,
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dst_addr = 0;
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char src_ip[INET_ADDRSTRLEN] = { 0 },
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dst_ip[INET_ADDRSTRLEN] = { 0 },
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*timestamp = NULL;
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AI_alerts_per_neuron_key key;
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AI_alerts_per_neuron *alert_iterator = NULL;
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if ( !( fp = fopen ( config->neural_clusters_log, "w" )))
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{
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AI_fatal_err ( "Unable to write on the neural clusters XML log file", __FILE__, __LINE__ );
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}
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fprintf ( fp, "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n"
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"<?xml-stylesheet href=\"default.xsl\" type=\"text/xsl\"?>\n\n"
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"<clusters>\n" );
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for ( i=0; i < km->k; i++ )
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{
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fprintf ( fp, "\t<cluster id=\"%d\">\n", i );
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for ( j=0; j < km->cluster_sizes[i]; j++ )
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{
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key.x = km->clusters[i][j][0];
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key.y = km->clusters[i][j][1];
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HASH_FIND ( hh, alerts_per_neuron, &key, sizeof ( key ), alert_iterator );
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if ( alert_iterator )
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{
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for ( k=0; k < alert_iterator->n_alerts; k++ )
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{
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are_equal = 0;
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for ( l=0; l < alert_iterator->n_alerts && !are_equal; l++ )
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{
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if ( k != l )
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{
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if (
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alert_iterator->alerts[k].gid == alert_iterator->alerts[l].gid &&
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alert_iterator->alerts[k].sid == alert_iterator->alerts[l].sid &&
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alert_iterator->alerts[k].rev == alert_iterator->alerts[l].rev &&
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alert_iterator->alerts[k].src_ip_addr == alert_iterator->alerts[l].src_ip_addr &&
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alert_iterator->alerts[k].dst_ip_addr == alert_iterator->alerts[l].dst_ip_addr &&
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alert_iterator->alerts[k].src_port == alert_iterator->alerts[l].src_port &&
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alert_iterator->alerts[k].dst_port == alert_iterator->alerts[l].dst_port &&
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alert_iterator->alerts[k].timestamp == alert_iterator->alerts[l].timestamp )
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{
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are_equal = 1;
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}
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}
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}
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if ( !are_equal )
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{
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src_addr = htonl ( alert_iterator->alerts[k].src_ip_addr );
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dst_addr = htonl ( alert_iterator->alerts[k].dst_ip_addr );
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inet_ntop ( AF_INET, &src_addr, src_ip, INET_ADDRSTRLEN );
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inet_ntop ( AF_INET, &dst_addr, dst_ip, INET_ADDRSTRLEN );
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timestamp = ctime ( &( alert_iterator->alerts[k].timestamp ));
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timestamp[ strlen ( timestamp ) - 1 ] = 0;
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fprintf ( fp, "\t\t<alert desc=\"%s\" gid=\"%d\" sid=\"%d\" rev=\"%d\" src_ip=\"%s\" src_port=\"%d\" "
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"dst_ip=\"%s\" dst_port=\"%d\" timestamp=\"%s\" xcoord=\"%d\" ycoord=\"%d\"/>\n",
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alert_iterator->alerts[k].desc,
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alert_iterator->alerts[k].gid,
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alert_iterator->alerts[k].sid,
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alert_iterator->alerts[k].rev,
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src_ip, alert_iterator->alerts[k].src_port,
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dst_ip, alert_iterator->alerts[k].dst_port,
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timestamp,
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alert_iterator->key.x, alert_iterator->key.y );
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}
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}
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}
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}
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fprintf ( fp, "\t</cluster>\n" );
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}
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fprintf ( fp, "</clusters>\n" );
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fclose ( fp );
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chmod ( config->neural_clusters_log, 0644 );
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} /* ----- end of function __AI_neural_clusters_to_xml ----- */
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/**
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* \brief Thread that performs the k-means clustering over the output layer of
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* the SOM neural network
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*/
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void*
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AI_neural_clustering_thread ( void *arg )
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{
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AI_alerts_per_neuron *alerts_per_neuron = NULL,
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*alert_iterator = NULL;
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kmeans_t *km = NULL;
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double **dataset = NULL;
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int i, dataset_size = 0;
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while ( 1 )
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{
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dataset = NULL;
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dataset_size = 0;
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alerts_per_neuron = AI_get_alerts_per_neuron();
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for ( alert_iterator = alerts_per_neuron; alert_iterator; alert_iterator = (AI_alerts_per_neuron*) alert_iterator->hh.next )
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{
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if ( alert_iterator->n_alerts > 0 )
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{
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if ( !( dataset = (double**) realloc ( dataset, (++dataset_size) * sizeof ( double* ))))
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{
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AI_fatal_err ( "Fatal dynamic memory allocation error", __FILE__, __LINE__ );
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}
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if ( !( dataset[dataset_size-1] = (double*) calloc ( 2, sizeof ( double ))))
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{
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AI_fatal_err ( "Fatal dynamic memory allocation error", __FILE__, __LINE__ );
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}
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dataset[dataset_size-1][0] = (double) alert_iterator->key.x;
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dataset[dataset_size-1][1] = (double) alert_iterator->key.y;
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}
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}
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if ( dataset && dataset_size != 0 )
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{
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if ( !( km = kmeans_auto ( dataset, dataset_size, 2 )))
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{
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AI_fatal_err ( "Unable to initialize the k-means clustering object", __FILE__, __LINE__ );
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}
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__AI_neural_clusters_to_xml ( km, alerts_per_neuron );
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kmeans_free ( km );
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for ( i=0; i < dataset_size; i++ )
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{
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free ( dataset[i] );
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}
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free ( dataset );
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}
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sleep ( config->neuralClusteringInterval );
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}
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pthread_exit ((void*) 0);
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return (void*) 0;
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} /* ----- end of function AI_neural_clustering_thread ----- */
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/** @} */
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