Low-overhead byzantine fault-tolerant storage

James Hendricks, G. Ganger, M. Reiter
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引用次数: 141

Abstract

This paper presents an erasure-coded Byzantine fault-tolerant block storage protocol that is nearly as efficient as protocols that tolerate only crashes. Previous Byzantine fault-tolerant block storage protocols have either relied upon replication, which is inefficient for large blocks of data when tolerating multiple faults, or a combination of additional servers, extra computation, and versioned storage. To avoid these expensive techniques, our protocol employs novel mechanisms to optimize for the common case when faults and concurrency are rare. In the common case, a write operation completes in two rounds of communication and a read completes in one round. The protocol requires a short checksum comprised of cryptographic hashes and homomorphic fingerprints. It achieves throughput within 10% of the crash-tolerant protocol for writes and reads in failure-free runs when configured to tolerate up to 6 faulty servers and any number of faulty clients.
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低开销拜占庭式容错存储
本文提出了一种擦除编码的拜占庭容错块存储协议,其效率几乎与只允许崩溃的协议一样高。以前的拜占庭容错块存储协议要么依赖于复制,这在容忍多个错误时对大型数据块来说效率低下,要么依赖于额外服务器、额外计算和版本化存储的组合。为了避免这些昂贵的技术,我们的协议采用了新的机制来优化故障和并发性很少的常见情况。在一般情况下,写操作在两轮通信中完成,读操作在一轮通信中完成。该协议需要一个由加密哈希和同态指纹组成的短校验和。当配置为允许最多6个故障服务器和任意数量的故障客户端时,它在无故障运行中实现的读写吞吐量在容错协议的10%以内。
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