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Puncturable Attribute-Based Encryption From Lattices for Classified Document Sharing

Mengxue Yang, Huaqun Wang, Debiao He

2024IEEE Transactions on Information Forensics and Security17 citationsDOI

Abstract

The country’s governmental agencies bear the responsibility for overseeing and executing a wide range of national policies and initiatives, formulating pivotal determinations aimed at safeguarding national security and fostering long-term progress. Most of the decisions are highly confidential, encrypted and transmitted to diverse administrative regions, sectors, and individuals to facilitate execution. Hence, governmental agencies must formulate fine-grained access policies that support secure one-to-many document sharing. However, if the receivers’ keys were exposed, it could result in unauthorized access to document contents, posing a significant threat to national security. When facing keys exposure scenario, addressing the challenge of preventing document content theft while maintaining document archiving for convenient accountability becomes a complex and demanding task. To tackle the above issues, we propose an innovative lattice-based puncturable ciphertext-policy attribute-based encryption scheme. This scheme supports secure one-to-many document sharing, fine-grained access control, and empowers receivers to revoke the decryption capability for specific data according to their own choice after reviewing documents, thereby achieving dual-layer protection for documents. Our scheme has exhibited resilience against quantum attacks, chosen plaintext attacks and collusion attacks.

Topics & Concepts

Computer scienceEncryptionTheoretical computer scienceInformation retrievalComputer securityCryptography and Data SecurityPrivacy-Preserving Technologies in DataCloud Data Security Solutions
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