An Empirical Analysis of Traceability in the Monero Blockchain

Möser, Malte and Soska, Kyle and Heilman, Ethan and Lee, Kevin and Heffan, Henry and Srivastava, Shashvat and Hogan, Kyle and Hennessey, Jason and Miller, Andrew and Narayanan, Arvind and Christin, Nicolas (2018) An Empirical Analysis of Traceability in the Monero Blockchain. Proceedings of Privacy Enhancing Technologies Symposium, 2018 (3). pp. 143-163.

[img] Text
moeser-empirical-traceability-monero.pdf
Restricted to Registered users only
Download (1MB)

Abstract

Monero is a privacy-centric cryptocurrency that allows users to obscure their transactions by including chaff coins, called “mixins,” along with the actual coins they spend. In this paper, we empirically evaluate two weaknesses in Monero’s mixin sampling strategy. First, about 62% of transaction inputs with one or more mixins are vulnerable to “chain-reaction” analysis - that is, the real input can be deduced by elimination. Second, Monero mixins are sampled in such a way that they can be easily distinguished from the real coins by their age distribution; in short, the real input is usually the “newest” input. We estimate that this heuristic can be used to guess the real input with 80% accuracy over all transactions with 1 or more mixins. Next, we turn to the Monero ecosystem and study the importance of mining pools and the former anonymous marketplace AlphaBay on the transaction volume. We find that after removing mining pool activity, there remains a large amount of potentially privacy-sensitive transactions that are affected by these weaknesses. We propose and evaluate two countermeasures that can improve the privacy of future transactions.

Item Type: Article
Subjects: Main Topics > Blockchain
Projects > BloSSom 2019
Main Topics > Monero
Main Topics > Privacy
Divisions: Computer Science
Depositing User: Unnamed user with email richard.dabels@uni-rostock.de
Date Deposited: 03 Sep 2019 16:34
Last Modified: 03 Sep 2019 16:34
URI: http://blossom.informatik.uni-rostock.de/id/eprint/21

Actions (login required)

View Item View Item
Blockchain is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.