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Paper 2023/1152

Haze and Daze: Compliant Privacy Mixers

Stanislaw Baranski, Gdansk University of Technology
Maya Dotan, The Hebrew University in Jerusalem, Israel
Ayelet Lotem, Hebrew University of Jerusalem
Margarita Vald, Reichman University, Israel
Abstract

Blockchains enable mutually distrustful parties to perform financial operations in a trustless, decentralized, publicly-verifiable environment. Blockchains typically offer little privacy, and thus motivated the construction of privacy mixers, a solution to make funds untraceable. Privacy mixers concern regulators due to their increasing use by bad actors to illegally conceal the origin of funds. Consequently, Tornado Cash, the largest privacy mixer to date, is sanctioned by large portions of the Ethereum network. In this work, we propose Haze and Daze, two privacy mixers that mitigate the undesired abuse of privacy mixers for illicit activities. Haze guarantees users’ privacy together with compliance, i.e., funds can be withdrawn as long as they were deposited from a non-banned address, without revealing any information on the matching deposit. This means that once a user is flagged as non-compliant, their funds can no longer exit the mixer. However, this leads to a race condition for bad actors to withdraw funds before becoming flagged as unlawful in the banned-addresses list. Thus, we introduce Daze, a second mixer protocol that, in addition to compliance, enables retroactive de-anonymization of transactions of non-compliant users, making the mixer fruitless for them. To maintain privacy of compliant users, the de-anonymization procedure is performed by a committee, with privacy guaranteed as long as at least one of the committee members is honest. Moreover, Haze and Daze have an optional feature for non-compliant funds to be released from the mixer to some predetermined entity. We empirically evaluate our solution in a proof-of-concept system, demonstrating gas consumption for each deposit and withdrawal that is comparable to Tornado Cash for compliant users, both for Haze and Daze. To the best of our knowledge, our solution is the first to guarantee compliance and privacy on the blockchain (on-chain) that is implemented via a smart contract.

Metadata
Available format(s)
PDF
Category
Applications
Publication info
Preprint.
Keywords
PrivacyComplianceBlockchainMixer
Contact author(s)
stanislaw baranski @ pg edu pl
mayadotan @ mail huji ac il
ayelet lotem @ mail huji ac il
margarita vald @ cs tau ac il
History
2024-09-10: revised
2023-07-25: received
See all versions
Short URL
https://ia.cr/2023/1152
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2023/1152,
      author = {Stanislaw Baranski and Maya Dotan and Ayelet Lotem and Margarita Vald},
      title = {Haze and Daze: Compliant Privacy Mixers},
      howpublished = {Cryptology {ePrint} Archive, Paper 2023/1152},
      year = {2023},
      url = {https://eprint.iacr.org/2023/1152}
}
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