Biblio

Power systems domain has generally been very conservative in terms of conducting digital forensic investigations, especially so since the advent of smart grids. This lack of research due to a multitude of challenges has resulted in absence of knowledge base and resources to facilitate such an investigation. Digitalization in the form of smart grids is upon us but in case of cyber-attacks, attribution to such attacks is challenging and difficult if not impossible. In this research, we have identified digital forensic artifacts resulting from a cyber-attack on Wide Area Monitoring, Protection and Control (WAMPAC) systems, which will help an investigator attribute an attack using the identified evidences. The research also shows the usage of sandboxing for digital forensics along with hardware-in-the-loop (HIL) setup. This is first of its kind effort to identify and acquire all the digital forensic evidences for WAMPAC systems which will ultimately help in building a body of knowledge and taxonomy for power system forensics.

The number of detected and analyzed Advanced Persistent Threat (APT) campaigns increased over the last years. Two of the main objectives of such campaigns are to maintain long-term access to the environment of the target and to stay undetected. To achieve these goals the attackers use sophisticated and customized techniques for the lateral movement, to ensure that these activities are not detected by existing security systems. During an investigation of an APT campaign all stages of it are relevant to clarify important details like the initial infection vector or the compromised systems and credentials. Most of the currently used approaches, which are utilized within security systems, are not able to detect the different stages of a complex attack and therefore a comprehensive security investigation is needed. In this paper we describe a concept for a Security Investigation Framework (SIF) that supports the analysis and the tracing of multi-stage APTs. The concept includes different automatic and semi-automatic approaches that support the investigation of such attacks. Furthermore, the framework leverages different information sources, like log files and details from forensic investigations and malware analyses, to give a comprehensive overview of the different stages of an attack. The overall objective of the SIF is to improve the efficiency of investigations and reveal undetected details of an attack.