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Cryptography and Security (cs.CR)

Fri, 05 May 2023

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1.Detecting GNSS misbehavior leveraging secure heterogeneous time sources

Authors:Marco Spanghero, Panos Papadimitratos

Abstract: Civilian Global Navigation Satellite Systems (GNSS) vulnerabilities are a threat to a wide gamut of critical systems. GNSS receivers, as part of the encompassing platform, can leverage external information to detect GNSS attacks. Specifically, cross-checking the time produced by the GNSS receiver against multiple trusted time sources can provide robust and assured PNT. In this work, we explore the combination of secure remote, network-based time providers and local precision oscillators. This multi-layered defense mechanism detects GNSS attacks that induce even small time offsets, including attacks mounted in cold start. Our system does not require any modification to the current structure of the GNSS receiver, it is agnostic to the satellite constellation and the attacker type. This makes time-based data validation of GNSS information compatible with existing receivers and readily deployable.

2.Hardware Honeypot: Setting Sequential Reverse Engineering on a Wrong Track

Authors:Michaela Brunner, Hye Hyun Lee, Alexander Hepp, Johanna Baehr, Georg Sigl

Abstract: Reverse engineering of finite state machines is a serious threat when protecting designs against reverse engineering attacks. While most recent protection techniques rely on the security of a secret key, this work presents a new approach: hardware state machine honeypots. These honeypots lead the reverse engineering tools to a wrong, but for the tools highly attractive state machine, while the original state machine is made less attractive. The results show that state-of-the-art reverse engineering methods favor the highly attractive honeypot as state machine candidate or do no longer detect the correct, original state machine.