Measuring Ethereum Network Peers

S. K. Kim, Zane Ma, Siddharth Murali, Joshua Mason, Andrew K. Miller, Michael Bailey
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引用次数: 124

Abstract

Ethereum, the second-largest cryptocurrency valued at a peak of $138 billion in 2018, is a decentralized, Turing-complete computing platform. Although the stability and security of Ethereum---and blockchain systems in general---have been widely-studied, most analysis has focused on application level features of these systems such as cryptographic mining challenges, smart contract semantics, or block mining operators. Little attention has been paid to the underlying peer-to-peer (P2P) networks that are responsible for information propagation and that enable blockchain consensus. In this work, we develop NodeFinder to measure this previously opaque network at scale and illuminate the properties of its nodes. We analyze the Ethereum network from two vantage points: a three-month long view of nodes on the P2P network, and a single day snapshot of the Ethereum Mainnet peers. We uncover a noisy DEVp2p ecosystem in which fewer than half of all nodes contribute to the Ethereum Mainnet. Through a comparison with other previously studied P2P networks including BitTorrent, Gnutella, and Bitcoin, we find that Ethereum differs in both network size and geographical distribution.
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测量以太坊网络节点
以太坊是2018年价值1380亿美元的第二大加密货币,是一个去中心化的图灵完备计算平台。尽管以太坊和区块链系统的稳定性和安全性已经得到了广泛的研究,但大多数分析都集中在这些系统的应用层特征上,如加密挖掘挑战、智能合约语义或区块挖掘运营商。很少有人关注底层的点对点(P2P)网络,这些网络负责信息传播并实现区块链共识。在这项工作中,我们开发了NodeFinder来大规模测量这个以前不透明的网络,并阐明其节点的属性。我们从两个有利的角度分析以太坊网络:P2P网络上节点的三个月长期视图,以及以太坊主网对等节点的一天快照。我们发现了一个嘈杂的DEVp2p生态系统,其中不到一半的节点为以太坊主网做出了贡献。通过与之前研究的其他P2P网络(包括BitTorrent, Gnutella和Bitcoin)的比较,我们发现以太坊在网络规模和地理分布上都有所不同。
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