In this work, we reexamine the vulnerability of Payment Channel Networks (PCNs) to bribing attacks, where an adversary incentivizes blockchain miners to deliberately ignore a specific transaction to undermine the punishment mechanism of PCNs. While previous studies have posited a prohibitive cost for such attacks, we show that this cost can be dramatically reduced (to approximately $125), thereby increasing the likelihood of these attacks. To this end, we introduce Bribe & Fork, a modified bribing attack that leverages the threat of a so-called feather fork which we analyze with a novel formal model for the mining game with forking. We empirically analyze historical data of some real-world blockchain implementations to evaluate the scale of this cost reduction. Our findings shed more light on the potential vulnerability of PCNs and highlight the need for robust solutions.
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Project title:
Semantische und kryptografische Grundlagen von Informationssicherheit und Datenschutz durch modulares Design: F 8500 (FWF - Österr. Wissenschaftsfonds) Ein zusammensetzbarer rationaler Rahmen für Blockchains: ESP 68-N (FWF - Österr. Wissenschaftsfonds)
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Project (external):
uropean Research Council (ERC) National Science Centre, Poland
