Biblio
Computer networks are overwhelmed by self propagating malware (worms, viruses, trojans). Although the number of security vulnerabilities grows every day, not the same thing can be said about the number of defense methods. But the most delicate problem in the information security domain remains detecting unknown attacks known as zero-day attacks. This paper presents methods for isolating the malicious traffic by using a honeypot system and analyzing it in order to automatically generate attack signatures for the Snort intrusion detection/prevention system. The honeypot is deployed as a virtual machine and its job is to log as much information as it can about the attacks. Then, using a protected machine, the logs are collected remotely, through a safe connection, for analysis. The challenge is to mitigate the risk we are exposed to and at the same time search for unknown attacks.
Among the threats to information systems of state institutions, enterprises and financial organizations of particular importance are those originating from organized criminal groups that specialize in obtaining unauthorized access to the computer information protected by law. Criminal groups often possess a material base including financial, technical, human and other resources that allow to perform targeted attacks on information resources as secretly as possible. The principal features of such targeted attacks are the use of software created or modified specifically for use in illegal purposes with respect to specific organizations. Due to these circumstances, the detection of such attacks is quite difficult, and their prevention is even more complicated. In this regard, the task of identifying and analyzing such threats is very relevant. One effective way to solve it is to implement the Honeypot system, which allows to research the strategy and tactics of the attackers. In the present article, there is proposed the original architecture of the Honeypot system designed to study targeted attacks on information systems of criminogenic objects. The architectural design includes such basic elements as the functional component, the registrar of events occurring in the system and the protector. The key features of the proposed Honeypot system are considered, and the functional purpose of its main components is described. The proposed system can find its application in providing information security of institutions, organizations and enterprises, it can be used in the development of information security systems.
Distributed denial-of-service (DDoS) attack remains an exceptional security risk, alleviating these digital attacks are for all intents and purposes extremely intense to actualize, particularly when it faces exceptionally well conveyed attacks. The early disclosure of these attacks, through testing, is critical to ensure safety of end-clients and the wide-ranging expensive network resources. With respect to DDoS attacks - its hypothetical establishment, engineering, and calculations of a honeypot have been characterized. At its core, the honeypot consists of an intrusion prevention system (Interruption counteractive action framework) situated in the Internet Service Providers level. The IPSs then create a safety net to protect the hosts by trading chosen movement data. The evaluation of honeypot promotes broad reproductions and an absolute dataset is introduced, indicating honeypot's activity and low overhead. The honeypot anticipates such assaults and mitigates the servers. The prevailing IDS are generally modulated to distinguish known authority level system attacks. This spontaneity makes the honeypot system powerful against uncommon and strange vindictive attacks.