Emmanuele Zambon scite author profile

Nowadays, several threats endanger cyber-physical systems. Among these systems, industrial control systems (ICS) operating on critical infrastructures have been proven to be an attractive target for attackers. The case of Stuxnet has not only showed that ICSs are vulnerable to cyber-attacks, but also that some of these attacks rely on understanding the processes beyond the employed systems and using such knowledge to maximize the damage. This concept is commonly known as "semantic attack". Our paper discusses a specific type of semantic attack involving "sequences of events". Common network intrusion detection systems (NIDS) generally search for single, unusual or "not permitted" operations. In our case, rather than a malicious event, we show how a specific series of "permitted" operations can elude standard intrusion detection systems and still damage an infrastructure. Moreover, we present a possible approach to the development of a sequence-aware intrusion detection system (S-IDS). We propose a S-IDS reference architecture and we discuss all the steps through its implementations. Finally, we test the S-IDS on real ICS traffic samples captured from a water treatment and purification facility.

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N-Gram against the Machine: On the Feasibility of the N-Gram Network Analysis for Binary Protocols

Hadžiosmanović

Simionato

Bolzoni

et al. 2012

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Through the eye of the PLC

et al. 2014

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Off-the-shelf intrusion detection systems prove an ill fit for protecting industrial control systems, as they do not take their process semantics into account. Specifically, current systems fail to detect recent process control attacks that manifest as unauthorized changes to the configuration of a plant's programmable logic controllers (PLCs). In this work we present a detector that continuously tracks updates to corresponding process variables to then derive variablespecific prediction models as the basis for assessing future activity. Taking a specification-agnostic approach, we passively monitor plant activity by extracting variable updates from the devices' network communication. We evaluate the capabilities of our detection approach with traffic recorded at two operational water treatment plants serving a total of about one million people in two urban areas. We show that the proposed approach can detect direct attacks on process control, and we further explore its potential to identify more sophisticated indirect attacks on field device measurements as well.

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Model-based qualitative risk assessment for availability of IT infrastructures

et al. 2010

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For today's organisations, having a reliable information system is crucial to safeguard enterprise revenues (think of on-line banking, reservations for e-tickets etc.). Such a system must often offer high guarantees in terms of its availability; in other words, to guarantee business continuity, IT systems can afford very little downtime. Unfortunately, making an assessment of IT availability risks is difficult: incidents affecting the availability of a marginal component of the system may propagate in unexpected ways to other more essential components that functionally depend on them. General-purpose risk assessment (RA) methods do not provide technical solutions to deal with this problem. In this paper we present the qualitative time dependency (QualTD) model and technique, which is meant to be employed together with standard RA methods for the qualitative assessment of availability risks based on the propagation of availability incidents in an IT architecture. The QualTD model is based on our previous quantitative time dependency (TD) [75][76][77][78][79][80][81][82][83] 2007), but provides more flexible modelling capabilities for the target of assessment. Furthermore, the previous model required quantitative data which is often too costly to acquire, whereas QualTD applies only qualitative scales, making it more applicable to industrial practice. We validate our model and technique in a realworld case by performing a risk assessment on the authentication and authorisation system of a large multinational company and by evaluating the results with respect to the goals of the stakeholders of the system. We also perform a review of the most popular standard RA methods and discuss which type of method can be combined with our technique.

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