Cycle-accurate information assurance by proof-carrying based signal sensitivity tracing

Yier Jin, Bo Yang, Y. Makris
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引用次数: 53

Abstract

We propose a new information assurance model which can dynamically track the information flow in circuit designs and hence protect sensitive data from malicious leakage. Relying on the Coq proof assistant platform, the new model maps register transfer level (RTL) codes written in hardware description languages (HDLs) into structural Coq representatives by assigning all input, output, and internal signal sensitivity levels. The signal sensitivity levels can be dynamically adjusted after each clock cycle based on proposed signal sensitivity transition rules. The development of data secrecy properties and theorem generation functions makes the translation process from security properties to Coq theorems independent of target circuits and, for the first time, makes it possible to construct a property library, facilitating (semi) automation of the proof. The proposed cycle accurate information assurance scheme is successfully demonstrated on cryptographic circuits with various complexities from a small-scale DES encryption core to a state-of-the-art AES encryption design prohibiting the leakage of sensitive information caused by hardware Trojans inserted in RTL codes.
周期准确的信息保证基于证明的信号灵敏度跟踪
提出了一种新的信息保障模型,该模型可以动态跟踪电路设计中的信息流,从而保护敏感数据不被恶意泄露。依靠Coq证明辅助平台,新模型通过分配所有输入、输出和内部信号灵敏度级别,将用硬件描述语言(hdl)编写的寄存器传输级别(RTL)代码映射到结构Coq代表中。根据提出的信号灵敏度转移规则,可以在每个时钟周期后动态调整信号灵敏度级别。数据保密属性和定理生成函数的发展使得从安全属性到Coq定理的转换过程独立于目标电路,并首次使构造属性库成为可能,促进了证明的(半)自动化。所提出的周期精确信息保证方案已成功地在各种复杂的加密电路上进行了演示,从小型DES加密核心到最先进的AES加密设计,以防止因插入RTL代码的硬件木马而导致的敏感信息泄露。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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