The effects of metadata corruption on nfs
Proceedings of the 2007 ACM workshop on Storage security and survivability
End-to-end data integrity for file systems: a ZFS case study
FAST'10 Proceedings of the 8th USENIX conference on File and storage technologies
Making the common case the only case with anticipatory memory allocation
FAST'11 Proceedings of the 9th USENIX conference on File and stroage technologies
Making the common case the only case with anticipatory memory allocation
ACM Transactions on Storage (TOS)
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Recent research has shown that even modern hard disks have complex failure modes that do not conform to "failstop" operation. Disks exhibit partial failures like block access errors and block corruption. Commodity operating systems are required to deal with such failures as commodity hard disks are known to be failure-prone. An important operating system component that is exposed to disk failures is the virtual memory system. In this paper, we examine the failure handling policies of different virtualmemory systems for different classes of partial disk errors. We use type and context aware fault injection to explore as many of the internal code paths as possible. From experiments, we find that failure handling policies in current virtual memory systems are at best simplistic, and often inconsistent or even absent. Our fault injection technique also identifies bugs in the failure handling code in these systems. The study identifies possible reasons for poor failure handling, which can help in the design of a failure-aware virtual memory system.