Open AccessPosted Content
PORs: Proofs of Retrievability for Large Files
Ari Juels,Burton S. Kaliski +1 more
TLDR
This paper defines and explores proofs of retrievability (PORs), a POR scheme that enables an archive or back-up service to produce a concise proof that a user can retrieve a target file F, that is, that the archive retains and reliably transmits file data sufficient for the user to recover F in its entirety.Abstract:
In this paper, we define and explore proofs of retrievability (PORs). A POR scheme enables an archive or back-up service (prover) to produce a concise proof that a user (verifier) can retrieve a target file F, that is, that the archive retains and reliably transmits file data sufficient for the user to recover F in its entirety.A POR may be viewed as a kind of cryptographic proof of knowledge (POK), but one specially designed to handle a large file (or bitstring) F. We explore POR protocols here in which the communication costs, number of memory accesses for the prover, and storage requirements of the user (verifier) are small parameters essentially independent of the length of F. In addition to proposing new, practical POR constructions, we explore implementation considerations and optimizations that bear on previously explored, related schemes.In a POR, unlike a POK, neither the prover nor the verifier need actually have knowledge of F. PORs give rise to a new and unusual security definition whose formulation is another contribution of our work.We view PORs as an important tool for semi-trusted online archives. Existing cryptographic techniques help users ensure the privacy and integrity of files they retrieve. It is also natural, however, for users to want to verify that archives do not delete or modify files prior to retrieval. The goal of a POR is to accomplish these checks without users having to download the files themselves. A POR can also provide quality-of-service guarantees, i.e., show that a file is retrievable within a certain time bound.read more
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Journal ArticleDOI
Review: A survey on security issues in service delivery models of cloud computing
S. Subashini,V. Kavitha +1 more
TL;DR: A survey of the different security risks that pose a threat to the cloud is presented and a new model targeting at improving features of an existing model must not risk or threaten other important features of the current model.
Posted Content
Provable Data Possession at Untrusted Stores.
Giuseppe Ateniese,Randal Burns,Reza Curtmola,Joseph Herring,Lea Kissner,Zachary N. J. Peterson,Dawn Song +6 more
TL;DR: Ateniese et al. as discussed by the authors introduced the provable data possession (PDP) model, which allows a client that has stored data at an untrusted server to verify that the server possesses the original data without retrieving it.
Book ChapterDOI
The knowledge complexity of interactive proof-systems
TL;DR: Permission to copy without fee all or part of this material is granted provided that the copies arc not made or distributed for direct commercial advantage.
Journal ArticleDOI
Enabling Public Auditability and Data Dynamics for Storage Security in Cloud Computing
TL;DR: To achieve efficient data dynamics, the existing proof of storage models are improved by manipulating the classic Merkle Hash Tree construction for block tag authentication, and an elegant verification scheme is constructed for the seamless integration of these two salient features in the protocol design.
Proceedings ArticleDOI
Privacy-Preserving Public Auditing for Data Storage Security in Cloud Computing
TL;DR: This paper utilize and uniquely combine the public key based homomorphic authenticator with random masking to achieve the privacy-preserving public cloud data auditing system, which meets all above requirements.
References
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Posted Content
Order-Preserving Encryption Secure Beyond One-Wayness.
TL;DR: The study of this basic problem for Order-Preserving Encryption (OPE), asking “what plaintext information can be semantically hidden by OPE encryptions?”
Journal ArticleDOI
Efficient verifiable data streaming
Kee Sung Kim,Ik Rae Jeong +1 more
TL;DR: In this paper, a more efficient VDS scheme is suggested that is secure under any collision-resistant hash functions and unforgeable signature schemes without random oracles, and shows that the length of a secret of a client is only O1, and thelength of a proof and the complexity of appending an element are Ologi.
Journal ArticleDOI
The Proposed Model to Increase Security of Sensitive Data in Cloud Computing
TL;DR: A new approach to security that is controlled by the IT Security Specialist (ITSS) of the company/organization is proposed, based on multiple strategies of file encryption, partitioning and distribution among multiple storage providers, resulting in increased confidentiality.
Journal ArticleDOI
Dynamic large branching hash tree based secure and efficient dynamic auditing protocol for cloud environment
TL;DR: A secure novel public auditing scheme named Dynamic Large Branching Hash Tree (DLBHT) with Homomorphic Verifiable Authenticator (HVA) based aggregate signature scheme, which performs auditing with less communication and computational overhead.
Proceedings ArticleDOI
Attributed Based Provable Data Possession in Public Cloud Storage
TL;DR: An attribute based provable data possession scheme, which utilizes attribute based signature to construct the homomorphic authenticator, which has more security features, including strong anonymity, unlink ability and conspiring to resistance.