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CryptoMaze: Privacy-Preserving Splitting of Off-Chain Payments

Subhra Mazumdar, Sushmita Ruj

2022IEEE Transactions on Dependable and Secure Computing22 citationsDOIOpen Access PDF

Abstract

Payment Channel Networks or PCNs solve the problem of scalability in Blockchain by executing payments off-chain. Due to a lack of sufficient capacity in the network, high-valued payments are split and routed via multiple paths. Existing multi-path payment protocols either fail to achieve atomicity or are susceptible to wormhole attack. We propose a secure and privacy-preserving atomic multi-path payment protocol CryptoMaze. Our protocol avoids the formation of multiple off-chain contracts on edges shared by the paths routing partial payments. It also guarantees unlinkability between partial payments. We provide a formal definition of the protocol in the Universal Composability framework and analyze the security. We implement CryptoMaze on several instances of Lightning Network and simulated networks. Our protocol requires 11s for routing a payment of 0.04 BTC on a network instance comprising 25600 nodes. The communication cost is less than 1MB in the worst-case. On comparing the performance of CryptoMaze with several state-of-the-art payment protocols, we observed that our protocol outperforms the rest in terms of computational cost and has a feasible communication overhead.

Topics & Concepts

Computer scienceScalabilityComputer networkPaymentOverhead (engineering)Path (computing)Routing (electronic design automation)Protocol (science)Computer securityDistributed computingOperating systemPathologyAlternative medicineMedicineWorld Wide WebCryptography and Data SecurityBlockchain Technology Applications and SecurityInternet Traffic Analysis and Secure E-voting
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