Automotive Attacks and Countermeasures on LIN-Bus

This paper presents a security analysis of the Local Interconnect Network (LIN) that is used in assembly units such as seats, steering wheels, and doors in vehicles. Recently, the number of security threats to in-vehicle networks such as the Controller Area Network has increased. In contrast, there...

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Veröffentlicht in:	Journal of Information Processing 2017, Vol.25, pp.220-228
Hauptverfasser:	Takahashi, Junko, Aragane, Yosuke, Miyazawa, Toshiyuki, Fuji, Hitoshi, Yamashita, Hirofumi, Hayakawa, Keita, Ukai, Shintarou, Hayakawa, Hiroshi
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Sprache:	eng
Schlagworte:	Automobiles Automotive parts Automotive wheels Controller area network Doors error handling mechanism Handling In vehicle in-vehicle protocol LIN Microcontrollers Seats Security Steering wheels vehicle security Vehicle wheels
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creator	Takahashi, Junko Aragane, Yosuke Miyazawa, Toshiyuki Fuji, Hitoshi Yamashita, Hirofumi Hayakawa, Keita Ukai, Shintarou Hayakawa, Hiroshi
description	This paper presents a security analysis of the Local Interconnect Network (LIN) that is used in assembly units such as seats, steering wheels, and doors in vehicles. Recently, the number of security threats to in-vehicle networks such as the Controller Area Network has increased. In contrast, there have been no reports that evaluate the security of LIN in detail. The security analysis of LIN is important because it is used in units related to seats, steering wheels, etc. and it is at risk for an attack. In this paper, we present the first evaluation on the security of LIN. We present case studies of attacks that use the characteristics of a commonly-used error handling mechanism. In the attacks, the attacker intentionally stops communication using the error handling mechanism and sends a false response in place of a valid one. We experimentally show the feasibility of the attacks using a vehicle microcontroller. Furthermore, we present countermeasures against the attacks. The results of this study show that there is vulnerability to attack when the error handling mechanism is simply designed. We believe that this study will contribute to improvements in security of in-vehicle communications.
doi_str_mv	10.2197/ipsjjip.25.220
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Recently, the number of security threats to in-vehicle networks such as the Controller Area Network has increased. In contrast, there have been no reports that evaluate the security of LIN in detail. The security analysis of LIN is important because it is used in units related to seats, steering wheels, etc. and it is at risk for an attack. In this paper, we present the first evaluation on the security of LIN. We present case studies of attacks that use the characteristics of a commonly-used error handling mechanism. In the attacks, the attacker intentionally stops communication using the error handling mechanism and sends a false response in place of a valid one. We experimentally show the feasibility of the attacks using a vehicle microcontroller. Furthermore, we present countermeasures against the attacks. The results of this study show that there is vulnerability to attack when the error handling mechanism is simply designed. 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subjects	Automobiles Automotive parts Automotive wheels Controller area network Doors error handling mechanism Handling In vehicle in-vehicle protocol LIN Microcontrollers Seats Security Steering wheels vehicle security Vehicle wheels
title	Automotive Attacks and Countermeasures on LIN-Bus
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