Litcius/Paper detail

Accountable Fine-Grained Blockchain Rewriting in the Permissionless Setting

Yangguang Tian, Bowen Liu, Yingjiu Li, Paweł Szałachowski, Jianying Zhou

2023IEEE Transactions on Information Forensics and Security17 citationsDOIOpen Access PDF

Abstract

Blockchain rewriting with fine-grained access control allows a user to create a transaction associated with a set of attributes, while a modifier who possesses sufficient rewriting privileges from a trusted authority satisfying the attribute set can anonymously rewrite the transaction. However, it lacks accountability and is not designed for open blockchains that require no centralized trust authority. In this work, we introduce accountable fine-grained blockchain rewriting in a permissionless setting. The property of accountability allows the modifier’s identity and their rewriting privileges to be held accountable for the modified transactions in case of malicious rewriting. Our contributions are three-fold. First, we present a generic framework for secure blockchain rewriting in the permissionless setting. Second, we present an instantiation of our framework and show its practicality through evaluation analysis. Last, we demonstrate that our proof-of-concept implementation can be effectively integrated into open blockchains.

Topics & Concepts

RewritingComputer scienceBlockchainDatabase transactionSet (abstract data type)Property (philosophy)AccountabilityIdentity (music)Computer securityProgramming languageTheoretical computer scienceLawEpistemologyPolitical sciencePhilosophyPhysicsAcousticsBlockchain Technology Applications and SecurityCryptography and Data SecurityCloud Data Security Solutions