mirror of
https://github.com/BlackLight/Snort_AIPreproc.git
synced 2024-11-24 04:35:11 +01:00
521 lines
16 KiB
C
521 lines
16 KiB
C
/*
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* =====================================================================================
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*
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* Filename: outdb.c
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*
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* Description: Module for writing to a database the outputs (alerts, hyperalerts,
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* clustered alerts, correlated alerts, alerts' TCP streams) from the
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* preprocessor module
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*
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* Version: 0.1
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* Created: 30/09/2010 20:02:17
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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 outdb Storing alerts, packets, clusters and correlations information on a database
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* @{ */
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#ifdef HAVE_DB
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#include "db.h"
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#include "uthash.h"
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#include <alloca.h>
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#include <pthread.h>
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/** Enumeration for describing the table in the output database */
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enum { ALERTS_TABLE, IPV4_HEADERS_TABLE, TCP_HEADERS_TABLE, PACKET_STREAMS_TABLE, CLUSTERED_ALERTS_TABLE, CORRELATED_ALERTS_TABLE, N_TABLES };
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/** Tables in the output database */
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static const char *outdb_config[] = {
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"ca_alerts", "ca_ipv4_headers", "ca_tcp_headers",
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"ca_packet_streams", "ca_clustered_alerts", "ca_correlated_alerts"
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};
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/** Hash table built as cache for the couple of alerts already belonging to the same cluster,
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* for avoiding more queries on the database*/
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typedef struct {
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AI_alerts_couple *alerts_couple;
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unsigned long cluster_id;
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UT_hash_handle hh;
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} AI_couples_cache;
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/** Mutex object, for managing concurrent thread access to the database */
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PRIVATE pthread_mutex_t mutex;
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PRIVATE AI_couples_cache *couples_cache = NULL;
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/**
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* \brief Initialize the mutex on the output database
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*/
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void
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AI_outdb_mutex_initialize ()
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{
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pthread_mutex_init ( &mutex, NULL );
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} /* ----- end of function AI_outdb_mutex_initialize ----- */
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/**
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* \brief Thread for storing an alert to the database
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* \param arg Alert to be stored
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*/
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void*
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AI_store_alert_to_db_thread ( void *arg )
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{
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char query[65535] = { 0 },
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iphdr_id_str[20] = { 0 },
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tcphdr_id_str[20] = { 0 },
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srcip[INET_ADDRSTRLEN],
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dstip[INET_ADDRSTRLEN];
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unsigned char *pkt_data = NULL;
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unsigned long latest_ip_hdr_id = 0,
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latest_tcp_hdr_id = 0,
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latest_alert_id = 0,
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pkt_size = 0,
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pkt_size_offset = 0;
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struct pkt_info *pkt = NULL;
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DB_result res;
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DB_row row;
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AI_snort_alert *alert = (AI_snort_alert*) arg;
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pthread_mutex_lock ( &mutex );
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if ( !DB_out_init() )
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AI_fatal_err ( "Unable to connect to the specified output database", __FILE__, __LINE__ );
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inet_ntop ( AF_INET, &(alert->ip_src_addr), srcip, INET_ADDRSTRLEN );
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inet_ntop ( AF_INET, &(alert->ip_dst_addr), dstip, INET_ADDRSTRLEN );
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/* Store the IP header information */
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (ip_tos, ip_len, ip_id, ip_ttl, ip_proto, ip_src_addr, ip_dst_addr) "
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"VALUES (%u, %u, %u, %u, %u, '%s', '%s')",
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outdb_config[IPV4_HEADERS_TABLE],
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alert->ip_tos,
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ntohs (alert->ip_len ),
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ntohs (alert->ip_id ),
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alert->ip_ttl,
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alert->ip_proto,
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srcip,
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dstip );
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DB_free_result ((DB_result) DB_out_query ( query ));
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ), "SELECT MAX(ip_hdr_id) FROM %s", outdb_config[IPV4_HEADERS_TABLE] );
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if ( !( res = (DB_result) DB_out_query ( query )))
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{
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_dpd.logMsg ( "AIPreproc: Warning: error in executing query: '%s'\n", query );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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if ( !( row = (DB_row) DB_fetch_row ( res )))
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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latest_ip_hdr_id = strtoul ( row[0], NULL, 10 );
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DB_free_result ( res );
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if ( alert->ip_proto == IPPROTO_TCP || alert->ip_proto == IPPROTO_UDP )
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{
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/* Store the TCP header information */
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (tcp_src_port, tcp_dst_port, tcp_seq, tcp_ack, tcp_flags, tcp_window, tcp_len) "
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"VALUES (%u, %u, %u, %u, %u, %u, %u)",
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outdb_config[TCP_HEADERS_TABLE],
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ntohs (alert->tcp_src_port ),
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ntohs (alert->tcp_dst_port ),
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ntohl (alert->tcp_seq ),
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ntohl (alert->tcp_ack ),
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alert->tcp_flags,
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ntohs (alert->tcp_window ),
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ntohs (alert->tcp_len ));
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DB_free_result ((DB_result) DB_out_query ( query ));
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ), "SELECT MAX(tcp_hdr_id) FROM %s", outdb_config[TCP_HEADERS_TABLE] );
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if ( !( res = (DB_result) DB_out_query ( query )))
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{
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_dpd.logMsg ( "AIPreproc: Warning: error in executing query: '%s'\n", query );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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if ( !( row = (DB_row) DB_fetch_row ( res )))
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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latest_tcp_hdr_id = strtoul ( row[0], NULL, 10 );
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DB_free_result ( res );
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}
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if ( latest_ip_hdr_id )
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{
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snprintf ( iphdr_id_str, sizeof ( iphdr_id_str ), ", %lu", latest_ip_hdr_id );
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}
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if ( latest_tcp_hdr_id && alert->ip_proto == IPPROTO_TCP )
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{
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snprintf ( tcphdr_id_str, sizeof ( tcphdr_id_str ), ", %lu", latest_tcp_hdr_id );
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}
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memset ( query, 0, sizeof ( query ));
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#ifdef HAVE_LIBMYSQLCLIENT
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (gid, sid, rev, priority, description, classification, timestamp%s%s) "
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"VALUES (%u, %u, %u, %u, '%s', '%s', from_unixtime('%lu')%s%s)",
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outdb_config[ALERTS_TABLE],
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((latest_ip_hdr_id != 0) ? ", ip_hdr" : ""),
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((latest_tcp_hdr_id != 0) ? ", tcp_hdr" : ""),
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alert->gid,
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alert->sid,
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alert->rev,
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alert->priority,
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((alert->desc) ? alert->desc : ""),
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((alert->classification) ? alert->classification : ""),
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alert->timestamp,
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iphdr_id_str,
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tcphdr_id_str );
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#elif HAVE_LIBPQ
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (gid, sid, rev, priority, description, classification, timestamp%s%s) "
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"VALUES (%u, %u, %u, %u, '%s', '%s', timestamp with time zone 'epoch' + %lu * interval '1 second'%s%s)",
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outdb_config[ALERTS_TABLE],
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((latest_ip_hdr_id != 0) ? ", ip_hdr" : ""),
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((latest_tcp_hdr_id != 0) ? ", tcp_hdr" : ""),
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alert->gid,
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alert->sid,
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alert->rev,
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alert->priority,
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((alert->desc) ? alert->desc : ""),
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((alert->classification) ? alert->classification : ""),
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alert->timestamp,
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iphdr_id_str,
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tcphdr_id_str );
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#endif
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DB_free_result ((DB_result) DB_out_query ( query ));
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ), "SELECT MAX(alert_id) FROM %s", outdb_config[ALERTS_TABLE] );
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if ( !( res = (DB_result) DB_out_query ( query )))
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{
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_dpd.logMsg ( "AIPreproc: Warning: error in executing query: '%s'\n", query );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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if ( !( row = (DB_row) DB_fetch_row ( res )))
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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}
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latest_alert_id = strtoul ( row[0], NULL, 10 );
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alert->alert_id = latest_alert_id;
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DB_free_result ( res );
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if ( alert->stream )
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{
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for ( pkt = alert->stream; pkt; pkt = pkt->next )
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{
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pkt_data = NULL;
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if ( !pkt->pkt->ip4_header )
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{
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pkt_size = pkt->pkt->pcap_header->len +
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pkt->pkt->tcp_options_length +
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pkt->pkt->payload_size;
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} else {
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pkt_size = pkt->pkt->ip4_header->data_length;
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}
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pkt_size_offset = 0;
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if ( !( pkt_data = (unsigned char*) alloca ( 2 * ( pkt_size ) + 1 )))
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AI_fatal_err ( "Fatal dynamic memory allocation error", __FILE__, __LINE__ );
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DB_out_escape_string (
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(char**) &pkt_data,
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(const char*) pkt->pkt->pkt_data,
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pkt_size );
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memset ( query, 0, sizeof ( query ));
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#ifdef HAVE_LIBMYSQLCLIENT
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (alert_id, pkt_len, timestamp, content) "
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"VALUES (%lu, %u, from_unixtime('%lu'), '%s')",
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outdb_config[PACKET_STREAMS_TABLE],
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latest_alert_id,
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pkt->pkt->pcap_header->len + pkt->pkt->payload_size,
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pkt->timestamp,
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pkt_data );
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#elif HAVE_LIBPQ
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snprintf ( query, sizeof ( query ), "INSERT INTO %s (alert_id, pkt_len, timestamp, content) "
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"VALUES (%lu, %u, timestamp with time zone 'epoch' + %lu * interval '1 second', '%s')",
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outdb_config[PACKET_STREAMS_TABLE],
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latest_alert_id,
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pkt->pkt->pcap_header->len + pkt->pkt->payload_size,
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pkt->timestamp,
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pkt_data );
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#endif
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DB_free_result ((DB_result) DB_out_query ( query ));
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}
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}
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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} /* ----- end of function AI_store_alert_to_db_thread ----- */
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/**
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* \brief Store an alert cluster to database
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* \param arg Struct pointer containing the couple of alerts to be clustered together
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*/
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void*
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AI_store_cluster_to_db_thread ( void *arg )
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{
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unsigned long cluster1 = 0,
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cluster2 = 0,
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latest_cluster_id = 0;
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char query[1024] = { 0 },
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srcip[INET_ADDRSTRLEN] = { 0 },
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dstip[INET_ADDRSTRLEN] = { 0 },
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srcport[10] = { 0 },
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dstport[10] = { 0 };
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AI_alerts_couple *alerts_couple = (AI_alerts_couple*) arg;
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AI_couples_cache *found = NULL;
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DB_result res;
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DB_row row;
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BOOL new_cluster = false;
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pthread_mutex_lock ( &mutex );
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/* Check if the couple of alerts is already in our cache, so it already
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* belongs to the same cluster. If so, just return */
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HASH_FIND ( hh, couples_cache, alerts_couple, sizeof ( AI_alerts_couple ), found );
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if ( found )
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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/* Initialize the database (it just does nothing if it is already initialized) */
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if ( !DB_out_init() )
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AI_fatal_err ( "Unable to connect to the specified output database", __FILE__, __LINE__ );
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/* If one of the two alerts has no alert_id, simply return */
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if ( !alerts_couple->alert1->alert_id || !alerts_couple->alert2->alert_id )
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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/* Check if there already exist a cluster containing one of them */
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
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"SELECT cluster_id FROM %s WHERE alert_id=%lu OR alert_id=%lu",
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outdb_config[ALERTS_TABLE], alerts_couple->alert1->alert_id, alerts_couple->alert2->alert_id );
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if ( !( res = (DB_result) DB_out_query ( query )))
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{
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_dpd.logMsg ( "AIPreproc: Warning: error in executing query: '%s'\n", query );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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if ( !( row = (DB_row) DB_fetch_row ( res )))
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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/* If no cluster exists containing at least of them, create it */
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new_cluster = false;
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if ( !row[0] && !row[1] )
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{
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new_cluster = true;
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} else {
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if ( row[0] )
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{
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cluster1 = strtoul ( row[0], NULL, 10 );
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}
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if ( row[1] )
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{
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cluster2 = strtoul ( row[1], NULL, 10 );
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}
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if ( cluster1 == 0 && cluster2 == 0 )
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{
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new_cluster = true;
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}
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}
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DB_free_result ( res );
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/* If both the alerts already belong to the same cluster (but they're not in the cache yet),
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* insert them in the cache */
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if ( cluster1 != 0 && cluster2 != 0 && cluster1 == cluster2 )
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{
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if ( !( found = ( AI_couples_cache* ) malloc ( sizeof ( AI_couples_cache ))))
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AI_fatal_err ( "Fatal dynamic memory allocation error", __FILE__, __LINE__ );
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found->alerts_couple = alerts_couple;
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found->cluster_id = cluster1;
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HASH_ADD ( hh, couples_cache, alerts_couple, sizeof ( AI_alerts_couple ), found );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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if ( new_cluster )
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{
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/* Insert a new cluster containing alert1 and alert2 for now */
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inet_ntop ( AF_INET, &(alerts_couple->alert1->ip_src_addr), srcip, INET_ADDRSTRLEN );
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inet_ntop ( AF_INET, &(alerts_couple->alert1->ip_dst_addr), dstip, INET_ADDRSTRLEN );
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snprintf ( srcport, sizeof ( srcport ), "%u", ntohs( alerts_couple->alert1->tcp_src_port ));
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snprintf ( dstport, sizeof ( dstport ), "%u", ntohs( alerts_couple->alert1->tcp_dst_port ));
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
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"INSERT INTO %s ( clustered_srcip, clustered_dstip, clustered_srcport, clustered_dstport ) "
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"VALUES ( '%s', '%s', '%s', '%s' )",
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outdb_config[CLUSTERED_ALERTS_TABLE],
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((alerts_couple->alert1->h_node[src_addr]) ? alerts_couple->alert1->h_node[src_addr]->label : srcip),
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((alerts_couple->alert1->h_node[dst_addr]) ? alerts_couple->alert1->h_node[dst_addr]->label : dstip),
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((alerts_couple->alert1->h_node[src_port]) ? alerts_couple->alert1->h_node[src_port]->label : srcport),
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((alerts_couple->alert1->h_node[dst_port]) ? alerts_couple->alert1->h_node[dst_port]->label : dstport)
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);
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DB_free_result ((DB_result) DB_out_query ( query ));
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
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"SELECT MAX(cluster_id) FROM %s", outdb_config[CLUSTERED_ALERTS_TABLE] );
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if ( !( res = (DB_result) DB_out_query ( query )))
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{
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_dpd.logMsg ( "AIPreproc: Warning: error in executing query: '%s'\n", query );
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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if ( !( row = (DB_row) DB_fetch_row ( res )))
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{
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pthread_mutex_unlock ( &mutex );
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pthread_exit ((void*) 0);
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return (void*) 0;
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}
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latest_cluster_id = strtoul ( row[0], NULL, 10 );
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DB_free_result ( res );
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/* Update the two alerts, setting them as belonging to the new cluster */
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
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"UPDATE %s SET cluster_id=%lu WHERE alert_id=%lu OR alert_id=%lu",
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outdb_config[ALERTS_TABLE], latest_cluster_id,
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alerts_couple->alert1->alert_id, alerts_couple->alert2->alert_id );
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DB_free_result ((DB_result) DB_out_query ( query ));
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} else {
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/* Update the alert marked as 'not clustered' */
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if ( !cluster1 )
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{
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
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"UPDATE %s SET cluster_id=%lu WHERE alert_id=%lu",
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outdb_config[ALERTS_TABLE], cluster2, alerts_couple->alert1->alert_id );
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DB_free_result ((DB_result) DB_out_query ( query ));
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} else {
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memset ( query, 0, sizeof ( query ));
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snprintf ( query, sizeof ( query ),
|
|
"UPDATE %s SET cluster_id=%lu WHERE alert_id=%lu",
|
|
outdb_config[ALERTS_TABLE], cluster1, alerts_couple->alert2->alert_id );
|
|
|
|
DB_free_result ((DB_result) DB_out_query ( query ));
|
|
}
|
|
}
|
|
|
|
/* Add the couple to the cache */
|
|
if ( !( found = ( AI_couples_cache* ) malloc ( sizeof ( AI_couples_cache ))))
|
|
AI_fatal_err ( "Fatal dynamic memory allocation error", __FILE__, __LINE__ );
|
|
|
|
found->alerts_couple = alerts_couple;
|
|
found->cluster_id = cluster1;
|
|
HASH_ADD ( hh, couples_cache, alerts_couple, sizeof ( AI_alerts_couple ), found );
|
|
|
|
pthread_mutex_unlock ( &mutex );
|
|
pthread_exit ((void*) 0);
|
|
return (void*) 0;
|
|
} /* ----- end of function AI_store_cluster_to_db_thread ----- */
|
|
|
|
|
|
/**
|
|
* \brief Store the correlation between two alerts to the output database
|
|
* \param arg Structure containing the two alerts to be saved and their correlation
|
|
*/
|
|
|
|
void*
|
|
AI_store_correlation_to_db_thread ( void *arg )
|
|
{
|
|
char query[1024] = { 0 };
|
|
AI_alert_correlation *corr = (AI_alert_correlation*) arg;
|
|
|
|
pthread_mutex_lock ( &mutex );
|
|
|
|
/* Initialize the database (it just does nothing if it is already initialized) */
|
|
if ( !DB_out_init() )
|
|
AI_fatal_err ( "Unable to connect to the specified output database", __FILE__, __LINE__ );
|
|
|
|
memset ( query, 0, sizeof ( query ));
|
|
snprintf ( query, sizeof ( query ),
|
|
"INSERT INTO %s ( alert1, alert2, correlation_coeff ) "
|
|
"VALUES ( %lu, %lu, %f )",
|
|
outdb_config[CORRELATED_ALERTS_TABLE],
|
|
corr->key.a->alert_id,
|
|
corr->key.b->alert_id,
|
|
corr->correlation );
|
|
DB_free_result ((DB_result) DB_out_query ( query ));
|
|
|
|
pthread_mutex_unlock ( &mutex );
|
|
pthread_exit ((void*) 0);
|
|
return 0;
|
|
} /* ----- end of function AI_store_correlation_to_db_thread ----- */
|
|
|
|
#endif
|
|
|
|
/** @} */
|
|
|