Semantic Crash Bucketing

R. V. Tonder, John Kotheimer, Claire Le Goues
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引用次数: 42

Abstract

Precise crash triage is important for automated dynamic testing tools, like fuzzers. At scale, fuzzers produce millions of crashing inputs. Fuzzers use heuristics, like stack hashes, to cut down on duplicate bug reports. These heuristics are fast, but often imprecise: even after deduplication, hundreds of uniquely reported crashes can still correspond to the same bug. Remaining crashes must be inspected manually, incurring considerable effort. In this paper we present Semantic Crash Bucketing, a generic method for precise crash bucketing using program transformation. Semantic Crash Bucketing maps crashing inputs to unique bugs as a function of changing a program (i.e., a semantic delta). We observe that a real bug fix precisely identifies crashes belonging to the same bug. Our insight is to approximate real bug fixes with lightweight program transformation to obtain the same level of precision. Our approach uses (a) patch templates and (b) semantic feedback from the program to automatically generate and apply approximate fixes for general bug classes. Our evaluation shows that approximate fixes are competitive with using true fixes for crash bucketing, and significantly outperforms built-in deduplication techniques for three state of the art fuzzers.
语义崩溃分块
精确的故障分类对于自动动态测试工具(如fuzzers)非常重要。在规模上,fuzzers产生数百万个崩溃输入。Fuzzers使用像堆栈哈希这样的启发式方法来减少重复的bug报告。这些启发式方法很快,但往往不精确:即使在重复数据删除之后,数百个唯一报告的崩溃仍然可能对应于同一个错误。必须手动检查剩余的崩溃,这将产生相当大的工作量。本文提出了一种基于程序转换的精确碰撞分类的通用方法——语义碰撞分类。语义崩溃bucket将崩溃输入映射为唯一的错误,作为更改程序的函数(即语义增量)。我们观察到,真正的bug修复可以精确地识别属于同一bug的崩溃。我们的想法是用轻量级的程序转换来近似真实的bug修复,以获得相同的精度。我们的方法使用(a)补丁模板和(b)来自程序的语义反馈来自动生成和应用一般错误类的近似修复。我们的评估表明,近似修复与使用真正修复进行崩溃存储是有竞争力的,并且明显优于三种最先进的模糊器的内置重复数据删除技术。
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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