有效求解扩展正则表达式约束的符号布尔导数

C. Stanford, Margus Veanes, N. Bjørner
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引用次数: 23

摘要

对原始字符串数据的操作在安全关键型软件中无处不在,并且此类软件的验证依赖于通过SMT有效地解决字符串和正则表达式约束。然而,正则表达式约束的布尔组合的典型情况暴露了现有技术的缺陷。为了解决这些约束的可解性,我们提出了一种新的符号扩展正则表达式的导数理论(扩展的意思是补和交合并),并展示了如何应用该理论来获得更有效的决策过程。我们在Z3的基础上实现了这些想法,在标准和手写基准测试中,与最先进的解决方案相匹配或优于最先进的解决方案,在具有布尔组合的示例中显示出特别的优势。我们的工作是正则表达式的导数的第一个形式化,它既处理交和补,又在任意字符理论上符号化地工作。它通过将扩展正则表达式的导数、交替自动机和布尔自动机提升到一个通用的符号平台来统一现有的方法。它依赖于正则表达式的精简扩充:符号条件的构造足以获得扩展正则表达式上的导数的相关闭包属性。
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Symbolic Boolean derivatives for efficiently solving extended regular expression constraints
The manipulation of raw string data is ubiquitous in security-critical software, and verification of such software relies on efficiently solving string and regular expression constraints via SMT. However, the typical case of Boolean combinations of regular expression constraints exposes blowup in existing techniques. To address solvability of such constraints, we propose a new theory of derivatives of symbolic extended regular expressions (extended meaning that complement and intersection are incorporated), and show how to apply this theory to obtain more efficient decision procedures. Our implementation of these ideas, built on top of Z3, matches or outperforms state-of-the-art solvers on standard and handwritten benchmarks, showing particular benefits on examples with Boolean combinations. Our work is the first formalization of derivatives of regular expressions which both handles intersection and complement and works symbolically over an arbitrary character theory. It unifies existing approaches involving derivatives of extended regular expressions, alternating automata and Boolean automata by lifting them to a common symbolic platform. It relies on a parsimonious augmentation of regular expressions: a construct for symbolic conditionals is shown to be sufficient to obtain relevant closure properties for derivatives over extended regular expressions.
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