可移植软件故障隔离

Joshua A. Kroll, Gordon Stewart, A. Appel
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引用次数: 26

摘要

提出了一种架构可移植软件故障隔离(SFI)的新技术,并在Coq验证助手中给出了一个原型实现。与传统的SFI依赖于汇编级程序的分析不同,我们使用编译器中间语言(Comp Cert C编译器的Cminor语言)来分析和重写程序。但是像传统的SFI一样,编译器仍然在可信计算基础之外。通过将我们的程序转换器与经过验证的Comp Cert后端组合在一起,并利用Comp Cert对安全程序行为的正式证明保存,我们可以获得满足任何Comp Cert支持的体系结构(目前:Power PC, ARM和x86-32)的SFI内存安全策略的二进制模块。这允许在多个体系结构中使用相同的SFI分析,极大地简化了部署可信SFI系统的最困难部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Portable Software Fault Isolation
We present a new technique for architecture portable software fault isolation (SFI), together with a prototype implementation in the Coq proof assistant. Unlike traditional SFI, which relies on analysis of assembly-level programs, we analyze and rewrite programs in a compiler intermediate language, the Cminor language of the Comp Cert C compiler. But like traditional SFI, the compiler remains outside of the trusted computing base. By composing our program transformer with the verified back-end of Comp Cert and leveraging Comp Cert's formally proved preservation of the behavior of safe programs, we can obtain binary modules that satisfy the SFI memory safety policy for any of Comp Cert's supported architectures (currently: Power PC, ARM, and x86-32). This allows the same SFI analysis to be used across multiple architectures, greatly simplifying the most difficult part of deploying trustworthy SFI systems.
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