De-Synchronisation Attack Modelling in Real-Time Protocols Using Queue Networks : Attacking the ISO/IEC 61850 Substation Automation Protocol

Wright, James Griffin and Wolthusen, Stephen D. (2018) De-Synchronisation Attack Modelling in Real-Time Protocols Using Queue Networks : Attacking the ISO/IEC 61850 Substation Automation Protocol. In: Critical Information Infrastructures Security : 12th International Conference, CRITIS 2017, Lucca, Italy, October 8-13, 2017, Revised Selected Papers. Lecture Notes in Computer Science . Springer, Cham, pp. 131-143. ISBN 9783319998428

Abstract

Applications developed for Supervisory Control And Data Acquisition (SCADA) protocols in several domains, particularly the energy sector, must satisfy hard real-time constraints to ensure the safety of the systems they are deployed on. These systems are highly sensitive to Quality of Service (QoS) violations, but it is not always clear whether a compliant implementation will satisfy the stated QoS of the standard. This paper proposes a framework for studying a protocol’s QoS properties based on a queuing network approach that offers a number of advantages over state machine or model-checking approaches. The authors describe the framework as an instance of a network of M/M/1/K of queues with the block-after-service discipline, to allow for the analysis of probabilistic packet flows in valid protocol runs. This framework allows for the study of denial of service (DoS), performance degradation, and de-synchronisation attacks. The model is validated by a tool allowing automation of queue network analysis, and is used to demonstrate a possible breach of the QoS guarantees of the ISO/IEC 61850-7-2 substation automation standard with a de-synchronisation attack.