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Autori principali: Stabili, Dario, Valgimigli, Filip, Torrini, Edoardo, Marchetti, Mirco
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2405.05023
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author Stabili, Dario
Valgimigli, Filip
Torrini, Edoardo
Marchetti, Mirco
author_facet Stabili, Dario
Valgimigli, Filip
Torrini, Edoardo
Marchetti, Mirco
contents In this paper, we introduce the design of HackCar, a testing platform for replicating attacks and defenses on a generic automotive system without requiring access to a complete vehicle. This platform empowers security researchers to illustrate the consequences of attacks targeting an automotive system on a realistic platform, facilitating the development and testing of security countermeasures against both existing and novel attacks. The HackCar platform is built upon an F1-10th model, to which various automotive-grade microcontrollers are connected through automotive communication protocols. This solution is crafted to be entirely modular, allowing for the creation of diverse test scenarios. Researchers and practitioners can thus develop innovative security solutions while adhering to the constraints of automotive-grade microcontrollers. We showcase our design by comparing it with a real, licensed, and unmodified vehicle. Additionally, we analyze the behavior of the HackCar in both an attack-free scenario and a scenario where an attack on in-vehicle communication is deployed.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05023
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle HackCar: a test platform for attacks and defenses on a cost-contained automotive architecture
Stabili, Dario
Valgimigli, Filip
Torrini, Edoardo
Marchetti, Mirco
Cryptography and Security
In this paper, we introduce the design of HackCar, a testing platform for replicating attacks and defenses on a generic automotive system without requiring access to a complete vehicle. This platform empowers security researchers to illustrate the consequences of attacks targeting an automotive system on a realistic platform, facilitating the development and testing of security countermeasures against both existing and novel attacks. The HackCar platform is built upon an F1-10th model, to which various automotive-grade microcontrollers are connected through automotive communication protocols. This solution is crafted to be entirely modular, allowing for the creation of diverse test scenarios. Researchers and practitioners can thus develop innovative security solutions while adhering to the constraints of automotive-grade microcontrollers. We showcase our design by comparing it with a real, licensed, and unmodified vehicle. Additionally, we analyze the behavior of the HackCar in both an attack-free scenario and a scenario where an attack on in-vehicle communication is deployed.
title HackCar: a test platform for attacks and defenses on a cost-contained automotive architecture
topic Cryptography and Security
url https://arxiv.org/abs/2405.05023