Inductive sequentialization of asynchronous programs

Bernhard Kragl, C. Enea, T. Henzinger, Suha Orhun Mutluergil, S. Qadeer
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引用次数: 18

Abstract

Asynchronous programs are notoriously difficult to reason about because they spawn computation tasks which take effect asynchronously in a nondeterministic way. Devising inductive invariants for such programs requires understanding and stating complex relationships between an unbounded number of computation tasks in arbitrarily long executions. In this paper, we introduce inductive sequentialization, a new proof rule that sidesteps this complexity via a sequential reduction, a sequential program that captures every behavior of the original program up to reordering of coarse-grained commutative actions. A sequential reduction of a concurrent program is easy to reason about since it corresponds to a simple execution of the program in an idealized synchronous environment, where processes act in a fixed order and at the same speed. We have implemented and integrated our proof rule in the CIVL verifier, allowing us to provably derive fine-grained implementations of asynchronous programs. We have successfully applied our proof rule to a diverse set of message-passing protocols, including leader election protocols, two-phase commit, and Paxos.
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异步程序的感应顺序化
众所周知,异步程序很难推理,因为它们产生的计算任务以不确定的方式异步生效。为这样的程序设计归纳不变量需要理解和说明在任意长时间执行的无限数量的计算任务之间的复杂关系。在本文中,我们引入了归纳序列化,这是一种新的证明规则,它通过顺序约简来避免这种复杂性,这是一种顺序程序,它捕获了原始程序的每个行为,直到粗粒度交换动作的重新排序。并行程序的顺序缩减很容易理解,因为它对应于理想同步环境中程序的简单执行,其中进程以固定的顺序和相同的速度运行。我们已经在CIVL验证器中实现并集成了我们的证明规则,允许我们证明地派生出异步程序的细粒度实现。我们已经成功地将我们的证明规则应用于一组不同的消息传递协议,包括领导者选举协议、两阶段提交和Paxos。
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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