Fingerprinting the Checker Policies of Parallel File Systems

2020 IEEE/ACM Fifth International Parallel Data Systems Workshop (PDSW) Pub Date : 2020-11-01 DOI:10.1109/PDSW51947.2020.00013

Runzhou Han, Duo Zhang, Mai Zheng

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引用次数: 9

Abstract

Parallel file systems (PFSes) play an essential role in high performance computing. To ensure the integrity, many PFSes are designed with a checker component, which serves as the last line of defense to bring a corrupted PFS back to a healthy state. Motivated by real-world incidents of PFS corruptions, we perform a fine-grained study on the capability of PFS checkers in this paper. We apply type-aware fault injection to specific PFS structures, and examine the detection and repair policies of PFS checkers meticulously via a well-defined taxonomy. The study results on two representative PFS checkers show that they are able to handle a wide range of corruptions on important data structures. On the other hand, neither of them is perfect: there are multiple cases where the checkers may behave sub-optimally, leading to kernel panics, wrong repairs, etc. Our work has led to a new patch on Lustre. We hope to develop our methodology into a generic framework for analyzing the checkers of diverse PFSes, and enable more elegant designs of PFS checkers for reliable high-performance computing.

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对并行文件系统的检查策略进行指纹识别

并行文件系统(pfse)在高性能计算中扮演着重要的角色。为了确保完整性，许多PFS都设计了检查器组件，这是将损坏的PFS恢复到健康状态的最后一道防线。受现实世界中PFS损坏事件的启发，我们在本文中对PFS检查器的能力进行了细粒度的研究。我们将类型感知故障注入应用于特定的PFS结构，并通过定义良好的分类法仔细检查PFS检查器的检测和修复策略。在两个具有代表性的PFS检查器上的研究结果表明，它们能够处理重要数据结构上的大范围损坏。另一方面，它们都不是完美的:在很多情况下，检查器的行为可能不是最优的，从而导致内核恐慌、错误修复等。我们的工作为光泽带来了新的补丁。我们希望将我们的方法发展成为分析各种PFS检查器的通用框架，并为可靠的高性能计算提供更优雅的PFS检查器设计。

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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2020 IEEE/ACM Fifth International Parallel Data Systems Workshop (PDSW)

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