闪电男孩2.0:在去中心化交易所、矿工可提取价值和共识不稳定性方面的领先地位

Philip Daian, Steven Goldfeder, T. Kell, Yunqi Li, Xueyuan Zhao, Iddo Bentov, Lorenz Breidenbach, A. Juels
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引用次数: 267

摘要

区块链,特别是智能合约,承诺创建公平透明的交易生态系统。不幸的是,我们表明这一承诺尚未实现。我们记录并量化了区块链系统中套利机器人的广泛和不断增长的部署,特别是在去中心化交易所(或“dex”)中。就像华尔街的高频交易员一样,这些机器人利用DEX的低效率,支付高昂的交易费用并优化网络延迟来领先,即预测和利用普通用户的DEX交易。我们研究了DEX套利机器人在交易子集中的广度,这些交易子集为这些机器人带来了可量化的收入。我们还研究了机器人的盈利策略,重点是区块链特定的元素。我们观察到机器人参与我们所谓的优先天然气拍卖(PGAs),竞争性地抬高交易费用,以获得优先顺序,即交易的早期区块位置和执行。pga提出了一个有趣而复杂的新的连续时间、部分信息、博弈论模型,我们对其进行了形式化和研究。我们发布了一个交互式门户网站,frontrun。为社区提供pga的实时数据。此外,我们还表明,为优先交易排序支付的高额费用对共识层安全性构成了系统性风险。我们解释说,这种费用只是指数及其他普遍现象的一种形式——我们称之为矿工可提取价值(MEV)——它构成了具体的、可衡量的、共识层的安全风险。我们的经验表明,MEV今天对以太坊构成了现实的威胁。我们的工作强调了智能合约中交易顺序依赖所带来的巨大而复杂的风险,以及传统金融市场开发形式正在适应和渗透bbb经济体的方式。
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Flash Boys 2.0: Frontrunning in Decentralized Exchanges, Miner Extractable Value, and Consensus Instability
Blockchains, and specifically smart contracts, have promised to create fair and transparent trading ecosystems.Unfortunately, we show that this promise has not been met. We document and quantify the widespread and rising deployment of arbitrage bots in blockchain systems, specifically in decentralized exchanges (or "DEXes"). Like high-frequency traders on Wall Street, these bots exploit inefficiencies in DEXes, paying high transaction fees and optimizing network latency to frontrun, i.e., anticipate and exploit, ordinary users’ DEX trades.We study the breadth of DEX arbitrage bots in a subset of transactions that yield quantifiable revenue to these bots. We also study bots’ profit-making strategies, with a focus on blockchain-specific elements. We observe bots engage in what we call priority gas auctions (PGAs), competitively bidding up transaction fees in order to obtain priority ordering, i.e., early block position and execution, for their transactions. PGAs present an interesting and complex new continuous-time, partial-information, game-theoretic model that we formalize and study. We release an interactive web portal, frontrun.me, to provide the community with real-time data on PGAs.We additionally show that high fees paid for priority transaction ordering poses a systemic risk to consensus-layer security. We explain that such fees are just one form of a general phenomenon in DEXes and beyond—what we call miner extractable value (MEV)—that poses concrete, measurable, consensus-layer security risks. We show empirically that MEV poses a realistic threat to Ethereum today.Our work highlights the large, complex risks created by transaction-ordering dependencies in smart contracts and the ways in which traditional forms of financial-market exploitation are adapting to and penetrating blockchain economies.
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