一种基于CFGLUTs的fpga安全性混淆方法

Mansoureh Labafniya, S. E. Borujeni
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引用次数: 0

摘要

有许多不同的方法来保护fpga,以防止成功的逆向工程。一种常见的形式是混淆方法。在本文中,我们提出了一种基于混淆的方法来防止fpga成功的逆向工程,从而防止硬件特洛伊木马(HTHs)插入。我们的混淆方法是使用可配置查找表(CFGLUTs)。我们建议在设计中随机或根据一些可选参数插入CFGLUTs。通过这种方式,设计的某些部分位于安全内存上,该内存包含CFGLUTs的比特流,因此攻击者无法访问它。我们在运行时对CFGLUTs进行编程,以完成FPGA的位流和设计的功能。如果攻击者可以对FPGA的比特流进行反向工程,则他无法检测到设计,因为它的某些部分由cfglut组成,其比特流位于安全存储器上。第一篇文章使用CFGLUTs保护fpga免受HTHs插入,这是逆向工程的结果。我们的方法没有任何电源和硬件开销,但有32个时钟周期的时间开销。
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An Obfuscation Method Based on CFGLUTs for Security of FPGAs
There are many different ways of securing FPGAs to prevent successful reverse engineering. One of the common forms is obfuscation methods. In this paper, we proposed an approach based on obfuscation to prevent FPGAs from successful reverse engineering and, as a result, Hardware Trojan Horses (HTHs) insertion. Our obfuscation method is using ConFiGurable Look Up Tables (CFGLUTs). We suggest to insert CFGLUTs randomly or based on some optional parameters in the design. In this way, some parts of the design are on a secure memory, which contains the bitstream of the CFGLUTs so that the attacker does not have any access to it. We program the CFGLUTs in run-time to complete the bitstream of the FPGA and functionality of the design. If an attacker can reverse engineer the bitstream of the FPGA, he cannot detect the design because some part of it is composed of CFGLUTs, which their bitstream is on a secure memory. The first article uses CFGLUTs for securing FPGAs against HTHs insertion, which are results of reverse engineering. Our methods do not have any power and hardware overhead but 32 clock cycles time overhead.
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