CORE: Augmenting Regenerating-Coding-Based Recovery for Single and Concurrent Failures in Distributed Storage Systems

Introduction

Data availability is critical in distributed storage systems, especially when node failures are prevalent in real life. A key requirement is to minimize the amount of data transferred among nodes when recovering the lost or unavailable data of failed nodes. This paper explores recovery solutions based on regenerating codes, which are shown to provide fault-tolerant storage and minimum recovery bandwidth. Existing optimal regenerating codes are designed for single node failures. We build a system called CORE, which augments existing optimal regenerating codes to support a general number of failures including single and concurrent failures. We theoretically show that CORE achieves the minimum possible recovery bandwidth for most cases. We implement CORE and evaluate our prototype atop a Hadoop HDFS cluster testbed with up to 20 storage nodes. We demonstrate that our CORE prototype conforms to our theoretical findings and achieves recovery bandwidth saving when compared to the conventional recovery approach based on erasure codes.

CORE is built on the HDFS-RAID implementation in HDFS-RAID.

Publication

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People

CORE is developed by the Advanced Network and System Research Laboratory in the Department of Computer Science and Engineering at the Chinese University of Hong Kong (CUHK).

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Acknowledgments

CORE uses the Jerasure library to implement the regenerating coding scheme.

License

The source code of CORE is released under the GNU/GPL license.

Contacts

Please contact Patrick P. C. Lee if you have any questions.