/* * ===================================================================================== * * Filename: alert_parser.c * * Description: Managing the parsing of Snort's alert file * * Version: 0.1 * Created: 08/08/2010 09:21:57 * Revision: none * Compiler: gcc * * Author: BlackLight (http://0x00.ath.cx), * Licence: GNU GPL v.3 * Company: DO WHAT YOU WANT CAUSE A PIRATE IS FREE, YOU ARE A PIRATE! * * ===================================================================================== */ #include "spp_ai.h" #include #include #include #include #include #include PRIVATE AI_snort_alert *alerts = NULL; PRIVATE FILE *alert_fp = NULL; /** \defgroup alert_parser Parse the alert log into binary structures * @{ */ /** * \brief Thread for parsing Snort's alert file * \param arg void* pointer to module's configuration */ void* AI_file_alertparser_thread ( void* arg ) { struct logtime { unsigned short day; unsigned short month; unsigned short year; unsigned short hour; unsigned short min; unsigned short sec; }; int i; int ifd; int wd; int nmatches = 0; char line[8192]; char strtime[256]; char **matches = NULL; time_t stamp; struct tm *_tm; struct logtime ltime; struct stat st; struct pkt_key key; struct pkt_info *info; AI_config *conf = ( AI_config* ) arg; AI_snort_alert *alert = NULL; AI_snort_alert *tmp = NULL; BOOL in_alert = false; while ( 1 ) { if (( ifd = inotify_init() ) < 0 ) { _dpd.fatalMsg ( "Could not initialize an inotify object on the alert log file" ); } if ( stat ( conf->alertfile, &st ) < 0 ) { if (( wd = inotify_add_watch ( ifd, conf->alertfile, IN_CREATE )) < 0 ) { _dpd.fatalMsg ( "Could not initialize a watch descriptor on the alert log file" ); } read ( ifd, line, sizeof(line) ); inotify_rm_watch ( ifd, wd ); } else { if ( !alert_fp ) { if ( ! (alert_fp = fopen ( conf->alertfile, "r" )) ) { _dpd.fatalMsg ( "Could not open alert log file for reading" ); } } } if (( wd = inotify_add_watch ( ifd, conf->alertfile, IN_MODIFY )) < 0 ) { _dpd.fatalMsg ( "Could not initialize a watch descriptor on the alert log file" ); } fseek ( alert_fp, 0, SEEK_END ); read ( ifd, line, sizeof(line) ); inotify_rm_watch ( ifd, wd ); close ( ifd ); while ( !feof ( alert_fp )) { fgets ( line, sizeof(line), alert_fp ); for ( i = strlen(line)-1; i >= 0 && ( line[i] == '\n' || line[i] == '\r' || line[i] == '\t' || line[i] == ' ' ); i++ ) { line[i] = 0; } if ( strlen(line) == 0 ) { if ( in_alert ) { if ( alert->ip_src_addr && ( alert->ip_proto == IPPROTO_TCP || alert->ip_proto == IPPROTO_UDP )) { key.src_ip = alert->ip_src_addr; key.dst_port = alert->tcp_dst_port; if ( alert->ip_proto == IPPROTO_TCP ) { if (( info = AI_get_stream_by_key ( key ) )) { AI_set_stream_observed ( key ); alert->stream = info; } } } if ( alerts == NULL ) { alerts = alert; alerts->next = NULL; } else { for ( tmp = alerts; tmp->next; tmp = tmp->next ); tmp->next = alert; } /* TODO Do something!! */ in_alert = false; alert = NULL; } continue; } if ( !in_alert ) { if ( preg_match ( "^\\[\\*\\*\\]\\s*\\[([0-9]+):([0-9]+):([0-9]+)\\]\\s*(.*)\\s*\\[\\*\\*\\]$", line, &matches, &nmatches ) > 0 ) { in_alert = true; if ( !( alert = ( AI_snort_alert* ) malloc ( sizeof( AI_snort_alert )))) { _dpd.fatalMsg ( "\nDynamic memory allocation error at %s:%d\n", __FILE__, __LINE__ ); } memset ( alert, 0, sizeof(AI_snort_alert) ); alert->gid = strtoul ( matches[0], NULL, 10 ); alert->sid = strtoul ( matches[1], NULL, 10 ); alert->rev = strtoul ( matches[2], NULL, 10 ); alert->desc = strdup ( matches[3] ); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } else { _dpd.fatalMsg ( "Parse error: a line in the alert log cannot be associated to an alert block\n" ); } } else if ( preg_match ( "\\[Priority:\\s*([0-9]+)\\]", line, &matches, &nmatches) > 0 ) { alert->priority = (unsigned short) strtoul ( matches[0], NULL, 10 ); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; if ( preg_match ( "\\[Classification:\\s*([^\\]]+)\\]", line, &matches, &nmatches) > 0 ) { alert->classification = strdup ( matches[0] ); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } } else if ( preg_match ( "^([0-9]{2})/([0-9]{2})-([0-9]{2}):([0-9]{2}):([0-9]{2})\\.[0-9]+\\s+([0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}):([0-9]{1,5})\\s*" "->\\s*([0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}):([0-9]{1,5})", line, &matches, &nmatches ) > 0 ) { stamp = time(NULL); _tm = localtime ( &stamp ); ltime.year = (unsigned short) _tm->tm_year + 1900; ltime.day = (unsigned short) strtoul ( matches[0], NULL, 10 ); ltime.month = (unsigned short) strtoul ( matches[1], NULL, 10 ); ltime.hour = (unsigned short) strtoul ( matches[2], NULL, 10 ); ltime.min = (unsigned short) strtoul ( matches[3], NULL, 10 ); ltime.sec = (unsigned short) strtoul ( matches[4], NULL, 10 ); snprintf ( strtime, sizeof(strtime), "%02hu/%02hu/%04hu, %02hu:%02hu:%02hu", ltime.day, ltime.month, ltime.year, ltime.hour, ltime.min, ltime.sec ); strptime ( strtime, "%d/%m/%Y, %H:%M:%S", _tm ); alert->timestamp = mktime ( _tm ); alert->ip_src_addr = inet_addr ( matches[5] ); alert->ip_dst_addr = inet_addr ( matches[7] ); alert->tcp_src_port = htons ( atoi( matches[6] )); alert->tcp_dst_port = htons ( atoi( matches[8] )); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } else if ( preg_match ( "^([0-9]{2})/([0-9]{2})-([0-9]{2}):([0-9]{2}):([0-9]{2})\\.[0-9]+\\s+([0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3})\\s*" "->\\s*([0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3})", line, &matches, &nmatches ) > 0 ) { stamp = time(NULL); _tm = localtime ( &stamp ); ltime.year = (unsigned short) _tm->tm_year + 1900; ltime.day = (unsigned short) strtoul ( matches[0], NULL, 10 ); ltime.month = (unsigned short) strtoul ( matches[1], NULL, 10 ); ltime.hour = (unsigned short) strtoul ( matches[2], NULL, 10 ); ltime.min = (unsigned short) strtoul ( matches[3], NULL, 10 ); ltime.sec = (unsigned short) strtoul ( matches[4], NULL, 10 ); snprintf ( strtime, sizeof(strtime), "%02hu/%02hu/%04hu, %02hu:%02hu:%02hu", ltime.day, ltime.month, ltime.year, ltime.hour, ltime.min, ltime.sec ); strptime ( strtime, "%d/%m/%Y, %H:%M:%S", _tm ); alert->timestamp = mktime ( _tm ); alert->ip_src_addr = inet_addr ( matches[5] ); alert->ip_dst_addr = inet_addr ( matches[6] ); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } else if ( preg_match ( "^([^\\s+]+)\\s+TTL:\\s*([0-9]+)\\s+TOS:\\s*0x([0-9A-F]+)\\s+ID:\\s*([0-9]+)\\s+IpLen:\\s*([0-9]+)", line, &matches, &nmatches ) > 0 ) { if ( !strcasecmp ( matches[0], "tcp" ) ) { alert->ip_proto = IPPROTO_TCP; } else if ( !strcasecmp ( matches[0], "udp" ) ) { alert->ip_proto = IPPROTO_UDP; } else if ( !strcasecmp ( matches[0], "icmp" ) ) { alert->ip_proto = IPPROTO_ICMP; } else { alert->ip_proto = IPPROTO_NONE; } alert->ip_ttl = htons ( (uint16_t) strtoul ( matches[1], NULL, 10 )); alert->ip_tos = htons ( (uint16_t) strtoul ( matches[2], NULL, 16 )); alert->ip_id = htons ( (uint16_t) strtoul ( matches[3], NULL, 10 )); alert->ip_len = htons ( (uint16_t) strtoul ( matches[4], NULL, 10 )); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } else if ( preg_match ( "^([\\*CEUAPRSF]{8})\\s+Seq:\\s*0x([0-9A-F]+)\\s+Ack:\\s*0x([0-9A-F]+)\\s+Win:\\s*0x([0-9A-F]+)\\s+TcpLen:\\s*([0-9]+)", line, &matches, &nmatches ) > 0 ) { alert->tcp_flags = 0; alert->tcp_flags |= ( strstr ( matches[0], "C" ) ) ? TCPHEADER_RES1 : 0; alert->tcp_flags |= ( strstr ( matches[0], "E" ) ) ? TCPHEADER_RES2 : 0; alert->tcp_flags |= ( strstr ( matches[0], "U" ) ) ? TCPHEADER_URG : 0; alert->tcp_flags |= ( strstr ( matches[0], "A" ) ) ? TCPHEADER_ACK : 0; alert->tcp_flags |= ( strstr ( matches[0], "P" ) ) ? TCPHEADER_PUSH : 0; alert->tcp_flags |= ( strstr ( matches[0], "R" ) ) ? TCPHEADER_RST : 0; alert->tcp_flags |= ( strstr ( matches[0], "S" ) ) ? TCPHEADER_SYN : 0; alert->tcp_flags |= ( strstr ( matches[0], "F" ) ) ? TCPHEADER_FIN : 0; alert->tcp_seq = htonl ( strtoul ( matches[1], NULL, 16 )); alert->tcp_ack = htonl ( strtoul ( matches[2], NULL, 16 )); alert->tcp_window = htons ( (uint16_t) strtoul ( matches[3], NULL, 16 )); alert->tcp_len = htons ( (uint16_t) strtoul ( matches[4], NULL, 10 )); for ( i=0; i < nmatches; i++ ) free ( matches[i] ); free ( matches ); matches = NULL; } } } pthread_exit ((void*) 0 ); return (void*) 0; } /* ----- end of function AI_file_alertparser_thread ----- */ /** * \brief Create a copy of the alert log struct (this is done for leaving the alert log structure in this file as read-only) * \param node Starting node (used for the recursion) * \return A copy of the alert log linked list */ PRIVATE AI_snort_alert* _AI_copy_alerts ( AI_snort_alert *node ) { AI_snort_alert *current = NULL, *next = NULL; if ( !node ) { return NULL; } if ( node->next ) { next = _AI_copy_alerts ( node->next ); } if ( !( current = ( AI_snort_alert* ) malloc ( sizeof ( AI_snort_alert )) )) { _dpd.fatalMsg ( "Fatal dynamic memory allocation failure at %s:%d\n", __FILE__, __LINE__ ); } memcpy ( current, node, sizeof ( AI_snort_alert )); current->next = next; return current; } /* ----- end of function _AI_copy_alerts ----- */ /** * \brief Return the alerts parsed so far as a linked list * \return An AI_snort_alert pointer identifying the list of alerts */ AI_snort_alert* AI_get_alerts () { return _AI_copy_alerts ( alerts ); } /* ----- end of function AI_get_alerts ----- */ /** * \brief Deallocate the memory of a log alert linked list * \param node Linked list to be freed */ void AI_free_alerts ( AI_snort_alert *node ) { int i; if ( !node ) return; if ( node->next ) AI_free_alerts ( node->next ); if ( node->hyperalert ) { for ( i=0; i < node->hyperalert->n_preconds; i++ ) free ( node->hyperalert->preconds[i] ); free ( node->hyperalert->preconds ); for ( i=0; i < node->hyperalert->n_postconds; i++ ) free ( node->hyperalert->postconds[i] ); free ( node->hyperalert->postconds ); free ( node->hyperalert ); node->hyperalert = NULL; } free ( node ); node = NULL; } /* ----- end of function AI_free_alerts ----- */ /** @} */