Visible to the public Biblio

Filters: Author is Do Hoang, Hien  [Clear All Filters]
2022-03-01
Thu Hien, Do Thi, Do Hoang, Hien, Pham, Van-Hau.  2021.  Empirical Study on Reconnaissance Attacks in SDN-Aware Network for Evaluating Cyber Deception. 2021 RIVF International Conference on Computing and Communication Technologies (RIVF). :1–6.
Thanks to advances in network architecture with Software-Defined Networking (SDN) paradigm, there are various approaches for eliminating attack surface in the largescale networks relied on the essence of the SDN principle. They are ranging from intrusion detection to moving target defense, and cyber deception that leverages the network programmability. Therein, cyber deception is considered as a proactive defense strategy for the usual network operation since it makes attackers spend more time and effort to successfully compromise network systems. In this paper, we concentrate on reconnaissance attacks in SDN-enabled networks to collect the sensitive information for hackers to conduct further attacks. In more details, we introduce SDNRecon tool to perform reconnaissance attacks, which can be useful in evaluating cyber deception techniques deployed in SDN-aware networks.
2020-06-03
Duy, Phan The, Do Hoang, Hien, Thu Hien, Do Thi, Ba Khanh, Nguyen, Pham, Van-Hau.  2019.  SDNLog-Foren: Ensuring the Integrity and Tamper Resistance of Log Files for SDN Forensics using Blockchain. 2019 6th NAFOSTED Conference on Information and Computer Science (NICS). :416—421.

Despite bringing many benefits of global network configuration and control, Software Defined Networking (SDN) also presents potential challenges for both digital forensics and cybersecurity. In fact, there are various attacks targeting a range of vulnerabilities on vital elements of this paradigm such as controller, Northbound and Southbound interfaces. In addition to solutions of security enhancement, it is important to build mechanisms for digital forensics in SDN which provide the ability to investigate and evaluate the security of the whole network system. It should provide features of identifying, collecting and analyzing log files and detailed information about network devices and their traffic. However, upon penetrating a machine or device, hackers can edit, even delete log files to remove the evidences about their presence and actions in the system. In this case, securing log files with fine-grained access control in proper storage without any modification plays a crucial role in digital forensics and cybersecurity. This work proposes a blockchain-based approach to improve the security of log management in SDN for network forensics, called SDNLog-Foren. This model is also evaluated with different experiments to prove that it can help organizations keep sensitive log data of their network system in a secure way regardless of being compromised at some different components of SDN.