On Sustainable Ring-Based Anonymous Systems

Sherman S.M. Chow, Christoph Egger, Russell W.F. Lai, Viktoria Ronge, Ivy K.Y. Woo

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

4 Citations (Scopus)

Abstract

Anonymous systems (e.g. anonymous cryptocurrencies and updatable anonymous credentials) often follow a construction template where an account can only perform a single anonymous action, which in turn potentially spawns new (and still single-use) accounts (e.g. UTXO with a balance to spend or session with a score to claim). Due to the anonymous nature of the action, no party can be sure which account has taken part in an action and, therefore, must maintain an ever-growing list of potentially unused accounts to ensure that the system keeps running correctly. Consequently, anonymous systems constructed based on this common template are seemingly not sustainable. In this work, we study the sustainability of ring-based anonymous systems, where a user performing an anonymous action is hidden within a set of decoy users, traditionally called a 'ring'. On the positive side, we propose a general technique for ring-based anonymous systems to achieve sustainability. Along the way, we define a general model of decentralised anonymous systems (DAS) for arbitrary anonymous actions, and provide a generic construction which provably achieves sustainability. As a special case, we obtain the first construction of anonymous cryptocurrencies achieving sustainability without compromising availability. We also demonstrate the generality of our model by constructing sustainable decentralised anonymous social networks. On the negative side, we show empirically that Monero, one of the most popular anonymous cryptocurrencies, is unlikely to be sustainable without altering its current ring sampling strategy. The main subroutine is a sub-quadratic-time algorithm for detecting used accounts in a ring-based anonymous system.

Original languageEnglish
Title of host publicationProceedings - 2023 IEEE 36th Computer Security Foundations Symposium, CSF 2023
PublisherIEEE
Pages568-583
Number of pages16
ISBN (Electronic)979-8-3503-2192-0
DOIs
Publication statusPublished - 28 Aug 2023
MoE publication typeA4 Conference publication
EventIEEE Computer Security Foundations Symposium - Haifa, Israel
Duration: 9 Jul 202313 Jul 2023
Conference number: 36

Publication series

NameProceedings - IEEE Computer Security Foundations Symposium
Volume2023-July
ISSN (Print)1940-1434

Conference

ConferenceIEEE Computer Security Foundations Symposium
Abbreviated titleCSF
Country/TerritoryIsrael
CityHaifa
Period09/07/202313/07/2023

Keywords

  • anonymous systems
  • cryptocurrencies
  • Monero
  • ring signatures
  • sustainability

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