Self-Guarding Cryptographic Protocols against Algorithm Substitution Attacks

2018 IEEE 31st Computer Security Foundations Symposium (CSF) Pub Date : 2018-07-01 DOI:10.1109/CSF.2018.00013
M. Fischlin, Sogol Mazaheri
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引用次数: 36

Abstract

We put forward the notion of self-guarding cryptographic protocols as a countermeasure to algorithm substitution attacks. Such self-guarding protocols can prevent undesirable leakage by subverted algorithms if one has the guarantee that the system has been properly working in an initialization phase. Unlike detection-based solutions they thus proactively thwart attacks, and unlike reverse firewalls they do not assume an online external party. We present constructions of basic primitives for (public-key and private-key) encryption and for signatures. We also argue that the model captures attacks with malicious hardware tokens and show how to self-guard a PUF-based key exchange protocol.
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针对算法替代攻击的自保护加密协议
提出了自保护密码协议的概念,作为算法替代攻击的对策。如果能保证系统在初始化阶段正常工作,这种自我保护协议可以防止被颠覆算法造成的不希望的泄漏。与基于检测的解决方案不同,它们因此主动阻止攻击,并且与反向防火墙不同,它们不假设存在在线外部方。我们给出了用于(公钥和私钥)加密和签名的基本原语的构造。我们还认为,该模型捕获了使用恶意硬件令牌的攻击,并展示了如何自我保护基于puf的密钥交换协议。
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2018 IEEE 31st Computer Security Foundations Symposium (CSF)
2018 IEEE 31st Computer Security Foundations Symposium (CSF)
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