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Creators/Authors contains: "Hounsinou, Sena"

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  1. Free, publicly-accessible full text available January 1, 2025
  2. Several cyber-physical systems use real-time restart-based embedded systems with the Simplex architecture to provide safety guarantees against system faults. Some approaches have been developed to protect such systems from security violations too, but none of these approaches can prevent an adversary from modifying the operating system or application code to execute an attack that persists even after a reboot. In this work, we present a secure boot mechanism to restore real-time restart-based embedded systems into a secure computing environment after every restart. We analyze the delay introduced by the proposed security feature and present preliminary results to demonstrate the viability of our approach using an open-source bootloader and real-time operating system. 
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  3. Real-Time Executive for Multiprocessor Systems (RTEMS) is a real-time operating system used by the Experimental Physics and Industrial Control System (EPICS) open-source software for high-precision scientific instruments such as particle accelerators and telescopes. EPICS relies on the networking capabilities of RTEMS for microcontrollers that need to meet real-time constraints. However, the networking available in RTEMS either lacks the necessary drivers to be fully operational or lacks security features required in modern networks. In this paper, we introduce a modular networking architecture for RTEMS by separating the network software implementation and device drivers from the RTEMS kernel to provide them as a static library for applications to use. This networking-as-a-library concept provides application developers with better capabilities to select the network features needed for their target application and to keep their networking software undated and secure. 
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  4. Arbitrary processor affinities are used in multiprocessor systems to specify the processors on which a task can be scheduled. However, affinity constraints can prevent some high priority real-time tasks from being scheduled, while lower priority tasks execute. This paper presents an implementation and evaluation of the Strong Arbitrary Processor Affinity scheduling on a real-time operating system, an approach that not only respects user-defined affinities, but also supports migration of a higher priority task to allow execution of a task limited by affinity constraints. Results show an improvement in response and turnaround times of higher priority tasks. 
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  5. The secure functioning of automotive systems is vital to the safety of their passengers and other roadway users. One of the critical functions for safety is the controller area network (CAN), which interconnects the safety-critical electronic control units (ECUs) in the majority of ground vehicles. Unfortunately CAN is known to be vulnerable to several attacks. One such attack is the bus-off attack, which can be used to cause a victim ECU to disconnect itself from the CAN bus and, subsequently, for an attacker to masquerade as that ECU. A limitation of the bus-off attack is that it requires the attacker to achieve tight synchronization between the transmission of the victim and the attacker’s injected message. In this paper, we introduce a schedule-based attack framework for the CAN bus-off attack that uses the real-time schedule of the CAN bus to predict more attack opportunities than previously known. We describe a ranking method for an attacker to select and optimize its attack injections with respect to criteria such as attack success rate, bus perturbation, or attack latency. The results show that vulnerabilities of the CAN bus can be enhanced by schedulebased attacks. 
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