FastKLEE:通过减少对类型安全指针的冗余边界检查来加快符号执行

Haoxin Tu, Lingxiao Jiang, Xuhua Ding, He Jiang
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引用次数: 1

摘要

符号执行在自动程序分析和软件测试中得到了广泛的应用。许多SE引擎(例如,KLEE或Angr)需要在执行期间解释代码的某些中间表示(IR),这可能很慢且代价高昂。虽然有许多研究提出要加快翻译速度,但很少有人考虑优化内部解释操作。在本文中,我们提出了FastKLEE,一个更快的SE引擎,旨在通过减少在IR代码解释期间对类型安全指针的冗余边界检查来加快执行速度。具体来说,在FastKLEE中,首先利用类型推断系统对最常被解释的读/写指令的指针类型(即安全或不安全)进行分类。然后,设计一个自定义内存操作,仅对不安全指针执行绑定检查,而忽略对安全指针的冗余检查。我们在著名的SE引擎KLEE的基础上实现了FastKLEE,并将其与著名的类型推理系统ccure相结合。评估结果表明,在探索相同数量(即10k)执行路径的时间方面,FastKLEE作为最先进的方法,能够减少高达9.1%(平均5.6%)。FastKLEE的开源地址是https://github.com/haoxintu/FastKLEE。FastKLEE的视频演示可以在https://youtu.be/fjV_a3kt-mo上找到。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FastKLEE: faster symbolic execution via reducing redundant bound checking of type-safe pointers
Symbolic execution (SE) has been widely adopted for automatic program analysis and software testing. Many SE engines (e.g., KLEE or Angr) need to interpret certain Intermediate Representations (IR) of code during execution, which may be slow and costly. Although a plurality of studies proposed to accelerate SE, few of them consider optimizing the internal interpretation operations. In this paper, we propose FastKLEE, a faster SE engine that aims to speed up execution via reducing redundant bound checking of type-safe pointers during IR code interpretation. Specifically, in FastKLEE, a type inference system is first leveraged to classify pointer types (i.e., safe or unsafe) for the most frequently interpreted read/write instructions. Then, a customized memory operation is designed to perform bound checking for only the unsafe pointers and omit redundant checking on safe pointers. We implement FastKLEE on top of the well-known SE engine KLEE and combined it with the notable type inference system CCured. Evaluation results demonstrate that FastKLEE is able to reduce by up to 9.1% (5.6% on average) as the state-of-the-art approach KLEE in terms of the time to explore the same number (i.e., 10k) of execution paths. FastKLEE is opensourced at https://github.com/haoxintu/FastKLEE. A video demo of FastKLEE is available at https://youtu.be/fjV_a3kt-mo.
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