Mingfei Zhang, Shandong University; Rujia Li and Sisi Duan, Tsinghua University
We present staircase attack, the first attack on the incentive mechanism of the Proof-of-Stake (PoS) protocol used in Ethereum 2.0 beacon chain. Our attack targets the penalty of the incentive mechanism that penalizes inactive participation. Our attack can make honest validators suffer from penalties, even if they strictly follow the specification of the protocol. We show both theoretically and experimentally that if the adversary controls 29.6% stake in a moderate-size system, the attack can be launched continuously, so eventually all honest validators will lose their incentives. In contrast, the adversarial validators can still receive incentives, and the stake owned by the adversary can eventually exceed the one-third threshold (system assumption), posing a threat to the security properties of the system.
In practice, the attack feasibility is directly related to two parameters: the number of validators and the parameter MAX_ATTESTATION, the maximum number of attestations (i.e., votes) that can be included in each block. We further modify our attack such that, with the current system setup (900,000 validators and MAX_ATTESTATION=128), our attack can be launched continuously with a probability of 80.25%. As a result, the incentives any honest validator receives are only 28.9% of its fair share.
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author = {Mingfei Zhang and Rujia Li and Sisi Duan},
title = {Max Attestation Matters: Making Honest Parties Lose Their Incentives in Ethereum {PoS}},
booktitle = {33rd USENIX Security Symposium (USENIX Security 24)},
year = {2024},
isbn = {978-1-939133-44-1},
address = {Philadelphia, PA},
pages = {6255--6272},
url = {https://www.usenix.org/conference/usenixsecurity24/presentation/zhang-mingfei},
publisher = {USENIX Association},
month = aug
}