Strategic Latency Reduction in Blockchain Peer-to-Peer Networks

Q4 Computer Science
Weizhao Tang, Lucianna Kiffer, Giulia Fanti, Ari Juels
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引用次数: 0

Abstract

Most permissionless blockchain networks run on peer-to-peer (P2P) networks, which offer flexibility and decentralization at the expense of performance (e.g., network latency). Historically, this tradeoff has not been a bottleneck for most blockchains. However, an emerging host of blockchain-based applications (e.g., decentralized finance) are increasingly sensitive to latency; users who can reduce their network latency relative to other users can accrue (sometimes significant) financial gains. In this work, we initiate the study of strategic latency reduction in blockchain P2P networks. We first define two classes of latency that are of interest in blockchain applications. We then show empirically that a strategic agent who controls only their local peering decisions can manipulate both types of latency, achieving 60% of the global latency gains provided by the centralized, paid service bloXroute, or, in targeted scenarios, comparable gains. Finally, we show that our results are not due to the poor design of existing P2P networks. Under a simple network model, we theoretically prove that an adversary can always manipulate the P2P network's latency to their advantage, provided the network experiences sufficient peer churn and transaction activity.
区块链点对点网络中的战略性延迟减少
大多数无需许可的区块链网络运行在点对点(P2P)网络上,以牺牲性能(例如,网络延迟)为代价提供灵活性和去中心化。从历史上看,这种权衡并不是大多数区块链的瓶颈。然而,新兴的基于区块链的应用程序(例如,去中心化金融)对延迟越来越敏感;能够减少相对于其他用户的网络延迟的用户可以获得(有时是显著的)经济收益。在这项工作中,我们启动了区块链P2P网络中战略性延迟减少的研究。我们首先定义了区块链应用程序中感兴趣的两类延迟。然后,我们通过经验证明,仅控制其本地对等决策的战略代理可以操纵两种类型的延迟,实现由集中式付费服务bloXroute提供的60%的全局延迟增益,或者在目标场景中获得相当的增益。最后,我们表明,我们的结果不是由于现有的P2P网络设计不良。在一个简单的网络模型下,我们从理论上证明,只要网络经历足够的对等流失和交易活动,攻击者总是可以操纵P2P网络的延迟以达到他们的优势。
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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来源期刊
Performance Evaluation Review
Performance Evaluation Review Computer Science-Computer Networks and Communications
CiteScore
1.00
自引率
0.00%
发文量
193
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