Formally Verifying Optimizations with Block Simulations

IF 2.2 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Proceedings of the ACM on Programming Languages Pub Date : 2023-10-16 DOI:10.1145/3622799

Léo Gourdin, Benjamin Bonneau, Sylvain Boulmé, David Monniaux, Alexandre Bérard

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引用次数: 0

Abstract

CompCert (ACM Software System Award 2021) is the first industrial-strength compiler with a mechanically checked proof of correctness. Yet, CompCert remains a moderately optimizing C compiler. Indeed, some optimizations of “gcc ‍-O1” such as Lazy Code Motion (LCM) or Strength Reduction (SR) were still missing: developing these efficient optimizations together with their formal proofs remained a challenge. Cyril Six et al. have developed efficient formally verified translation validators for certifying the results of superblock schedulers and peephole optimizations. We revisit and generalize their approach into a framework (integrated into CompCert) able to validate many more optimizations: an enhanced superblock scheduler, but also Dead Code Elimination (DCE), Constant Propagation (CP), and more noticeably, LCM and SR. In contrast to other approaches to translation validation, we co-design our untrusted optimizations and their validators. Our optimizations provide hints, in the forms of invariants or CFG morphisms , that help keep the formally verified validators both simple and efficient. Such designs seem applicable beyond CompCert.

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正式验证优化与块模拟

CompCert (ACM软件系统奖2021)是第一个具有机械检查正确性证明的工业强度编译器。然而，CompCert仍然是一个适度优化的C编译器。事实上，“gcc‍- 01”的一些优化，如惰性代码运动(LCM)或强度降低(SR)仍然缺失:开发这些有效的优化以及它们的正式证明仍然是一个挑战。Cyril Six等人开发了高效的经过正式验证的翻译验证器，用于验证超级块调度程序和窥视孔优化的结果。我们重新审视并将他们的方法推广到一个框架中(集成到CompCert中)，该框架能够验证更多的优化:增强的超级块调度程序，还有死代码消除(DCE)、持续传播(CP)，以及更明显的LCM和sr。与其他翻译验证方法相比，我们共同设计了不可信的优化及其验证器。我们的优化以不变量或CFG模态的形式提供提示，帮助保持正式验证的验证器既简单又高效。这样的设计似乎适用于CompCert以外的领域。

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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来源期刊

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