Bidl:用于数据中心网络的高吞吐量,低延迟许可区块链框架

Q3 Computer Science
Ji Qi, Xusheng Chen, Yunpeng Jiang, Jianyu Jiang, Tianxiang Shen, Shixiong Zhao, Sen Wang, Gong Zhang, Li Chen, M. Au, Heming Cui
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引用次数: 23

摘要

许可的区块链框架通常运行高效的拜占庭共识协议,并且对于在大量相互不信任的参与者(例如公司)之间部署快速交易应用程序具有吸引力。不幸的是,所有现有的许可区块链框架都采用顺序工作流来调用共识协议和执行应用程序的事务,这使得这些应用程序的性能远远低于将它们部署在传统系统中(例如,数据中心内的股票交易所)。我们提出了Bidl,这是第一个针对数据中心网络高度优化的许可区块链框架。我们在这样的网络中利用网络排序来创建一个被引导的并行工作流,该工作流携带一个序列器来推测并行化共识协议和事务执行。然而,恶意参与者(例如,恶意排序器)的存在很容易干扰并行工作流,从而大大降低并行工作流的性能。为了获得稳定的高性能,Bidl通过检测所有参与者的错误行为来有效地引导所有参与者,并执行基于denylist的视图更改来替换或拒绝恶意参与者。与三个快速许可的区块链框架相比,Bidl的并行工作流将应用程序的延迟减少了72.7%,并在存在恶意参与者的情况下将其吞吐量提高了4.3倍。Bidl适合与传统的证券交易系统集成。Bidl的代码发布在github.com/hku-systems/bidl上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bidl: A High-throughput, Low-latency Permissioned Blockchain Framework for Datacenter Networks
A permissioned blockchain framework typically runs an efficient Byzantine consensus protocol and is attractive to deploy fast trading applications among a large number of mutually untrusted participants (e.g., companies). Unfortunately, all existing permissioned blockchain frameworks adopt sequential workflows for invoking the consensus protocol and executing applications' transactions, making the performance of these applications much lower than deploying them in traditional systems (e.g., in-datacenter stock exchange). We propose Bidl, the first permissioned blockchain framework highly optimized for datacenter networks. We leverage the network ordering in such networks to create a shepherded parallel workflow, which carries a sequencer to parallelize the consensus protocol and transaction execution speculatively. However, the presence of malicious participants (e.g., a malicious sequencer) can easily perturb the parallel workflow to greatly degrade Bidl's performance. To achieve stable high performance, Bidl efficiently shepherds all participants by detecting their misbehaviors, and performs denylist-based view changes to replace or deny malicious participants. Compared with three fast permissioned blockchain frameworks, Bidl's parallel workflow reduces applications' latency by up to 72.7% and improves their throughput by up to 4.3x in the presence of malicious participants. Bidl is suitable to be integrated with traditional stock exchange systems. Bidl's code is released on github.com/hku-systems/bidl.
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来源期刊
Operating Systems Review (ACM)
Operating Systems Review (ACM) Computer Science-Computer Networks and Communications
CiteScore
2.80
自引率
0.00%
发文量
10
期刊介绍: Operating Systems Review (OSR) is a publication of the ACM Special Interest Group on Operating Systems (SIGOPS), whose scope of interest includes: computer operating systems and architecture for multiprogramming, multiprocessing, and time sharing; resource management; evaluation and simulation; reliability, integrity, and security of data; communications among computing processors; and computer system modeling and analysis.
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