Biblio

This paper investigates the use of Software-Defined Networking (SDN) in the detection and mitigation of malware threat, focusing on the example of ExPetr ransomware. Extensive static and dynamic analysis of ExPetr is performed in a purpose-built SDN testbed. The results acquired from this analysis are then used to design and implement an SDN-based solution to detect the malware and prevent it from spreading to other machines inside a local network. Our solution consists of three security mechanisms that have been implemented as components/modules of the Python-based POX controller. These mechanisms include: port blocking, SMB payload inspection, and HTTP payload inspection. When malicious activity is detected, the controller communicates with the SDN switches via the OpenFlow protocol and installs appropriate entries in their flow tables. In particular, the controller blocks machines which are considered infected, by monitoring and reacting in real time to the network traffic they produce. Our experimental results demonstrate that the proposed designs are effective against self-propagating malware in local networks. The implemented system can respond to malicious activities quickly and in real time. Furthermore, by tuning certain thresholds of the detection mechanisms it is possible to trade-off the detection time with the false positive rate.