Litcius/Paper detail

A Verifiable and Fair Attribute-Based Proxy Re-Encryption Scheme for Data Sharing in Clouds

Chunpeng Ge, Willy Susilo, Joonsang Baek, Zhe Liu, Jinyue Xia, Liming Fang

2021IEEE Transactions on Dependable and Secure Computing164 citationsDOI

Abstract

To manage outsourced encrypted data sharing in clouds, attribute-based proxy re-encryption (ABPRE) has become an elegant primitive. In ABPRE, a cloud server can transform an original recipient’s ciphertext to a new one of a shared user’s. As the transformation is computation consuming, a malicious cloud server may return an incorrect re-encrypted ciphertext to save its computation resources. Moreover, a shared user may accuse the cloud server of returning an incorrect re-encrypted ciphertext to refuse to pay the cost of using the cloud service. However, existing ABPRE schemes do not support a mechanism to achieve verifiability and fairness. In this article, a novel verifiable and fair attribute-based proxy re-encryption (VF-ABPRE) scheme is introduced to support verifiability and fairness. The verifiability enables a shared user to verify whether the re-encrypted ciphertext returned by the server is correct and the fairness ensures a cloud server escape from malicious accusation if it has indeed conducted the re-encryption operation honestly. Additionally, we conduct a performance experiment to show the efficiency and practicality of the new VF-ABPRE scheme.

Topics & Concepts

Proxy re-encryptionVerifiable secret sharingComputer scienceEncryptionProxy (statistics)Scheme (mathematics)Cloud computingComputer securityComputer networkPublic-key cryptographyMathematicsOperating systemProgramming languageMachine learningSet (abstract data type)Mathematical analysisCryptography and Data SecurityPrivacy-Preserving Technologies in DataCloud Data Security Solutions