网络物理系统中的可信平台模块:安全性与可靠性的干扰

Andrea Höller, Ronald Toegl
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引用次数: 10

摘要

网络物理系统是汽车、航空电子、工业过程控制和工厂自动化等许多领域的关键创新驱动力。然而,它们的互连可能为攻击者提供对敏感数据、代码和配置的轻松访问。如果攻击者获得控制权,物质损失甚至对人造成伤害是必然的。为了防止数据盗窃、系统操纵和网络攻击,必须在网络物理系统中嵌入安全机制。以标准化可信平台模块(Trusted Platform Module, TPM)的形式添加硬件安全性是一种很有前途的方法。同时,必须保持传统的可靠性特征,如安全性、可用性和可靠性。要确定安全性和可靠性之间的正确平衡,就必须了解它们之间的相互影响。本文支持开发人员识别使用tpm对其系统可靠性的影响。通过考虑由此产生的安全性、可靠性和可用性,我们强调了将tpm添加到网络物理系统的潜在后果。此外,我们还讨论了通过应用传统冗余技术来增强TPM服务可靠性的潜力。
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Trusted Platform Modules in Cyber-Physical Systems: On the Interference Between Security and Dependability
Cyber physical systems are the key innovation driver for many domains such as automotive, avionics, industrial process control, and factory automation. However, their interconnection potentially provides adversaries easy access to sensitive data, code, and configurations. If attackers gain control, material damage or even harm to people must be expected. To counteract data theft, system manipulation and cyber-attacks, security mechanisms must be embedded in the cyber physical system. Adding hardware security in the form of the standardized Trusted Platform Module (TPM) is a promising approach. At the same time, traditional dependability features such as safety, availability, and reliability have to be maintained. To determine the right balance between security and dependability it is essential to understand their interferences. This paper supports developers in identifying the implications of using TPMs on the dependability of their system.We highlight potential consequences of adding TPMs to cyber-physical systems by considering the resulting safety, reliability, and availability. Furthermore, we discuss the potential of enhancing the dependability of TPM services by applying traditional redundancy techniques.
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