IRON file systems

Proceedings of the Twenty-Third ACM Symposium on Operating Systems Principles Pub Date : 2005-10-23 DOI:10.1145/1095810.1095830

Vijayan Prabhakaran, Lakshmi N. Bairavasundaram, Nitin Agrawal, Haryadi S. Gunawi, A. Arpaci-Dusseau, Remzi H. Arpaci-Dusseau

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引用次数: 281

Abstract

Commodity file systems trust disks to either work or fail completely, yet modern disks exhibit more complex failure modes. We suggest a new fail-partial failure model for disks, which incorporates realistic localized faults such as latent sector errors and block corruption. We then develop and apply a novel failure-policy fingerprinting framework, to investigate how commodity file systems react to a range of more realistic disk failures. We classify their failure policies in a new taxonomy that measures their Internal RObustNess (IRON), which includes both failure detection and recovery techniques. We show that commodity file system failure policies are often inconsistent, sometimes buggy, and generally inadequate in their ability to recover from partial disk failures. Finally, we design, implement, and evaluate a prototype IRON file system, Linux ixt3, showing that techniques such as in-disk checksumming, replication, and parity greatly enhance file system robustness while incurring minimal time and space overheads.

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IRON文件系统

商品文件系统相信磁盘要么完全工作，要么完全失败，但现代磁盘表现出更复杂的故障模式。我们提出了一种新的磁盘失效-局部失效模型，该模型包含了潜在扇区错误和块损坏等实际局部故障。然后，我们开发并应用了一个新的故障策略指纹识别框架，以研究商品文件系统如何对一系列更实际的磁盘故障做出反应。我们用一种新的分类法对它们的故障策略进行分类，该分类法测量它们的内部鲁棒性(IRON)，其中包括故障检测和恢复技术。我们表明，商品文件系统故障策略通常不一致，有时有错误，并且通常无法从部分磁盘故障中恢复。最后，我们设计、实现并评估了一个原型IRON文件系统Linux ixt3，表明磁盘内校验和、复制和奇偶校验等技术极大地增强了文件系统的健壮性，同时减少了时间和空间开销。

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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Proceedings of the Twenty-Third ACM Symposium on Operating Systems Principles

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