Litcius/Paper detail

A Compressive Integrity Auditing Protocol for Secure Cloud Storage

Yang Yang, Yanjiao Chen, Fei Chen

2021IEEE/ACM Transactions on Networking27 citationsDOI

Abstract

With the widespread application of cloud storage, ensuring the integrity of user outsourced data catches more and more attention. To remotely check the integrity of cloud storage, plenty of protocols have been proposed, implemented by checking the equation constructed by the aggregated blocks, tags, and indices. However, the verifier only has the knowledge of the indices of the audited blocks and tags, which thus requires the cloud to store both data blocks and tags for integrity verification. In this article, we present a compressive secure cloud storage protocol inspired by Goldreich-Goldwasser-Halevi (GGH) cryptosystem. Since the aggregated blocks can be reconstructed from the aggregated tags without the help of data indices, the cloud can only store data tags for providing the verifiable integrity proof. In this way, communication and storage costs can be hugely reduced and user private information can be hidden from the cloud. Furthermore, the proposed protocol only contains a few basic algebraic operations, making it highly efficient. We also provide formal security proof of the proposed protocol regarding forge, replay and replace attacks. In addition, we explore a new technique to support data dynamics. Furthermore, we establish a generic framework of compressive secure cloud storage protocols. Finally, we provide the theoretical analysis and experimental results, which further validate the effectiveness of the proposed protocol.

Topics & Concepts

Computer scienceCloud computingCloud storageData integrityProtocol (science)Verifiable secret sharingComputer securityReplay attackCryptographic protocolCryptosystemDistributed computingComputer networkCryptographyAuthentication (law)Operating systemSet (abstract data type)Programming languageAlternative medicineMedicinePathologyCryptography and Data SecurityCloud Data Security SolutionsChaos-based Image/Signal Encryption