Forward-secure hierarchical predicate encryption


Autoria(s): Gonzalez Nieto, Juan M.; Manulis, Mark; Sun, Dongdong
Contribuinte(s)

Abdalla, Michel

Lange, Tanja

Data(s)

2012

Resumo

Secrecy of decryption keys is an important pre-requisite for security of any encryption scheme and compromised private keys must be immediately replaced. \emph{Forward Security (FS)}, introduced to Public Key Encryption (PKE) by Canetti, Halevi, and Katz (Eurocrypt 2003), reduces damage from compromised keys by guaranteeing confidentiality of messages that were encrypted prior to the compromise event. The FS property was also shown to be achievable in (Hierarchical) Identity-Based Encryption (HIBE) by Yao, Fazio, Dodis, and Lysyanskaya (ACM CCS 2004). Yet, for emerging encryption techniques, offering flexible access control to encrypted data, by means of functional relationships between ciphertexts and decryption keys, FS protection was not known to exist.\smallskip In this paper we introduce FS to the powerful setting of \emph{Hierarchical Predicate Encryption (HPE)}, proposed by Okamoto and Takashima (Asiacrypt 2009). Anticipated applications of FS-HPE schemes can be found in searchable encryption and in fully private communication. Considering the dependencies amongst the concepts, our FS-HPE scheme implies forward-secure flavors of Predicate Encryption and (Hierarchical) Attribute-Based Encryption.\smallskip Our FS-HPE scheme guarantees forward security for plaintexts and for attributes that are hidden in HPE ciphertexts. It further allows delegation of decrypting abilities at any point in time, independent of FS time evolution. It realizes zero-inner-product predicates and is proven adaptively secure under standard assumptions. As the ``cross-product" approach taken in FS-HIBE is not directly applicable to the HPE setting, our construction resorts to techniques that are specific to existing HPE schemes and extends them with what can be seen as a reminiscent of binary tree encryption from FS-PKE.

Formato

application/pdf

Identificador

http://eprints.qut.edu.au/52971/

Publicador

Springer

Relação

http://eprints.qut.edu.au/52971/6/52971A.pdf

DOI:10.1007/978-3-642-36334-4_6

Gonzalez Nieto, Juan M., Manulis, Mark, & Sun, Dongdong (2012) Forward-secure hierarchical predicate encryption. In Abdalla, Michel & Lange, Tanja (Eds.) Proceedings of the 5th International Conference on Pairing-Based Cryptography, Springer, Cologne, Germany.

Direitos

Copyright 2012 Please consult the author.

Fonte

School of Information Systems; Science & Engineering Faculty

Palavras-Chave #080400 DATA FORMAT #Decryption key #Hierarchical predicate encryption
Tipo

Conference Paper