单调性与程序分析的精确性

IF 2.2 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING Proceedings of the ACM on Programming Languages Pub Date : 2024-01-05 DOI:10.1145/3632897
Marco Campion, Mila Dalla Preda, R. Giacobazzi, Caterina Urban
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引用次数: 0

摘要

众所周知,程序分析器的精度与程序的内维属性(即与程序编写方式有关的属性)密切相关。这也是代码混淆技术备受关注的原因,即通过对程序进行语法转换来降低程序分析结果的工具。关于程序扩展计算的内容(即其输入输出关系)与程序分析器的精度之间的可能关系,人们知之甚少。在本文中,我们探讨了这种潜在的联系,试图分离出可以通过抽象解释进行精确分析的程序片段,即存在完整抽象解释的程序。在数字不变式静态推理领域,这种情况发生在表现出单调(非递减或非递增)行为的程序或部分程序上。我们首先形式化了与给定输入和一组相关数值变量有关的程序单调性概念。然后,我们引入了一个完善的证明系统,通过判断来说明相对于一组变量和一组输入,程序是否具有单调性。我们之所以对单调性感兴趣,是因为我们证明了单调性程序族允许对一类特定的非三维数字抽象和输入进行完整的抽象解释。这一类包括所有非关系抽象域,它们完善了区间分析(即至少与区间抽象一样精确),并且满足拓扑凸性假设。
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Monotonicity and the Precision of Program Analysis
It is widely known that the precision of a program analyzer is closely related to intensional program properties, namely, properties concerning how the program is written. This explains, for instance, the interest in code obfuscation techniques, namely, tools explicitly designed to degrade the results of program analysis by operating syntactic program transformations. Less is known about a possible relation between what the program extensionally computes, namely, its input-output relation, and the precision of a program analyzer. In this paper we explore this potential connection in an effort to isolate program fragments that can be precisely analyzed by abstract interpretation, namely, programs for which there exists a complete abstract interpretation. In the field of static inference of numeric invariants, this happens for programs, or parts of programs, that manifest a monotone (either non-decreasing or non-increasing) behavior. We first formalize the notion of program monotonicity with respect to a given input and a set of numerical variables of interest. A sound proof system is then introduced with judgments specifying whether a program is monotone relatively to a set of variables and a set of inputs. The interest in monotonicity is justified because we prove that the family of monotone programs admits a complete abstract interpretation over a specific class of non-trivial numerical abstractions and inputs. This class includes all non-relational abstract domains that refine interval analysis (i.e., at least as precise as the intervals abstraction) and that satisfy a topological convexity hypothesis.
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来源期刊
Proceedings of the ACM on Programming Languages
Proceedings of the ACM on Programming Languages Engineering-Safety, Risk, Reliability and Quality
CiteScore
5.20
自引率
22.20%
发文量
192
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