Automatic Generation of Graceful Programs

2012 IEEE 31st Symposium on Reliable Distributed Systems Pub Date : 2012-10-08 DOI:10.1109/SRDS.2012.8

Yiyan Lin, S. Kulkarni

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引用次数: 1

Abstract

Traditionally, (nonmasking and masking) fault tolerance has focused on ensuring that after the occurrence of faults, the program recovers to states from where it continues to satisfy its original specification. However, a problem with this limited notion is that, in some cases, it may be impossible to recover to states from where the entire original specification is satisfied. For this reason, one can consider a fault-tolerant graceful-degradation program that ensures that upon the occurrence of faults, the program recovers to states from where a (given) subset of its specification is satisfied. Typically, the subset of specification satisfied thus would be the critical requirements. In this paper, we focus on automatically revising a given program to obtain a corresponding graceful program, i.e., a program that satisfies a weaker specification. Specifically, this step involves adding new behaviors that satisfy the given subset of specification. Moreover, it ensures that during this process, it does not remove any behavior from the original program. With this motivation, in this paper, we focus on automatic derivation of the graceful program, i.e., a program that contains all behaviors of the original program and some new behaviors that satisfy the weaker conditions. We note that this aspect differentiates this work from previous work on controller synthesis as well as automated addition of fault tolerance in that this work requires that no new behaviors are added in the absence of faults.

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自动生成优美的程序

传统上，(非屏蔽和屏蔽)容错关注的是确保在发生错误后，程序恢复到继续满足其原始规范的状态。然而，这种有限概念的一个问题是，在某些情况下，可能不可能从满足整个原始规范的状态恢复到状态。出于这个原因，可以考虑容错的优雅降级程序，它确保在发生故障时，程序从满足其规范的(给定)子集的状态恢复。通常，这样满足的规范子集将是关键需求。在本文中，我们关注的是自动修正给定的程序以得到相应的优美程序，即满足弱规范的程序。具体来说，这一步涉及到添加满足给定规范子集的新行为。此外，它确保在此过程中，它不会从原始程序中删除任何行为。在此动机下，本文重点研究优美程序的自动派生，即包含原程序的所有行为和满足较弱条件的一些新行为的程序。我们注意到，这方面的工作与之前在控制器综合以及自动添加容错方面的工作不同，因为这项工作要求在没有故障的情况下不添加新的行为。

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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2012 IEEE 31st Symposium on Reliable Distributed Systems

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