Evicting and filling attack for linking multiple network addresses of Bitcoin nodes

IF 3.9 4区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Huashuang Yang, Jinqiao Shi, Yue Gao, Xuebin Wang, Yanwei Sun, Ruisheng Shi, Dongbin Wang
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引用次数: 0

Abstract

Abstract Bitcoin is a decentralized P2P cryptocurrency. It supports users to use pseudonyms instead of network addresses to send and receive transactions at the data layer, hiding users’ real network identities. Traditional transaction tracing attack cuts through the network layer to directly associate each transaction with the network address that issued it, thus revealing the sender’s network identity. But this attack can be mitigated by Bitcoin’s network layer privacy protections. Since Bitcoin protects the unlinkability of Bitcoin addresses and there may be a many-to-one relationship between addresses and nodes, transactions sent from the same node via different addresses are seen as coming from different nodes because attackers can only use addresses as node identifiers. In this paper, we proposed the evicting and filling attack to expose the correlations between addresses and cluster transactions sent from different addresses of the same node. The attack exploited the unisolation of Bitcoin’s incoming connection processing mechanism. In particular, an attacker can utilize the shared connection pool and deterministic connection eviction strategy to infer the correlation between incoming and evicting connections, as well as the correlation between releasing and filling connections. Based on inferred results, different addresses of the same node with these connections can be linked together, whether they are of the same or different network types. We designed a multi-step attack procedure, and set reasonable attack parameters through analyzing the factors that affect the attack efficiency and accuracy. We mounted this attack on both our self-run nodes and multi-address nodes in real Bitcoin network, achieving an average accuracy of 96.9% and 82%, respectively. Furthermore, we found that the attack is also applicable to Zcash, Litecoin, Dogecoin, Bitcoin Cash, and Dash. We analyzed the cost of network-wide attacks, the application scenario, and proposed countermeasures of this attack.

Abstract Image

针对比特币节点多个网络地址链接的驱逐填充攻击
比特币是一种分散的P2P加密货币。它支持用户在数据层使用假名而不是网络地址发送和接收事务,从而隐藏用户的真实网络身份。传统的交易跟踪攻击是穿透网络层,直接将每笔交易与发出交易的网络地址关联起来,从而暴露发送方的网络身份。但这种攻击可以通过比特币的网络层隐私保护来缓解。由于比特币保护了比特币地址的不可链接性,并且地址和节点之间可能存在多对一关系,因此通过不同地址从同一节点发送的交易被视为来自不同节点,因为攻击者只能使用地址作为节点标识符。在本文中,我们提出了驱逐和填充攻击,以暴露地址和从同一节点的不同地址发送的集群事务之间的相关性。这次攻击利用了比特币传入连接处理机制的非隔离性。特别是,攻击者可以利用共享连接池和确定性连接驱逐策略来推断传入连接和驱逐连接之间的相关性,以及释放和填充连接之间的相关性。根据推断结果,可以将具有这些连接的同一节点的不同地址链接在一起,无论它们属于相同的网络类型还是不同的网络类型。通过分析影响攻击效率和精度的因素,设计了多步攻击流程,并设置了合理的攻击参数。我们对真实比特币网络中的自运行节点和多地址节点进行了攻击,平均准确率分别达到96.9%和82%。此外,我们发现这种攻击也适用于Zcash、莱特币、狗狗币、比特币现金和达世币。分析了全网络攻击的成本、应用场景,并提出了应对措施。
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
Cybersecurity
Cybersecurity Computer Science-Information Systems
CiteScore
7.30
自引率
0.00%
发文量
77
审稿时长
9 weeks
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