CUBA: interprocedural Context-UnBounded Analysis of concurrent programs

Peizun Liu, T. Wahl
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引用次数: 5

Abstract

A classical result by Ramalingam about synchronization-sensitive interprocedural program analysis implies that reachability for concurrent threads running recursive procedures is undecidable. A technique proposed by Qadeer and Rehof, to bound the number of context switches allowed between the threads, leads to an incomplete solution that is, however, believed to catch “most bugs” in practice. The question whether the technique can also prove the absence of bugs at least in some cases has remained largely open. In this paper we introduce a broad verification methodology for resource-parameterized programs that observes how changes to the resource parameter affect the behavior of the program. Applied to the context-unbounded analysis problem (CUBA), the methodology results in partial verification techniques for procedural concurrent programs. Our solutions may not terminate, but are able to both refute and prove context-unbounded safety for concurrent recursive threads. We demonstrate the effectiveness of our method using a variety of examples, the safe of which cannot be proved safe by earlier, context-bounded methods.
并发程序的程序间上下文无界分析
Ramalingam关于同步敏感的过程间程序分析的经典结果表明,运行递归过程的并发线程的可达性是不可确定的。Qadeer和Rehof提出的一种技术,限制线程之间允许的上下文切换的数量,导致了一个不完整的解决方案,然而,在实践中被认为抓住了“大多数错误”。该技术是否也能证明至少在某些情况下没有漏洞,这个问题在很大程度上仍然悬而未决。在本文中,我们为资源参数化程序介绍了一种广泛的验证方法,该方法观察资源参数的变化如何影响程序的行为。将该方法应用于上下文无界分析问题(CUBA),得到了过程并发程序的部分验证技术。我们的解决方案可能不会终止,但能够反驳并证明并发递归线程的上下文无界安全性。我们用各种各样的例子来证明我们的方法的有效性,这些例子的安全性不能被早期的上下文约束的方法证明是安全的。
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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