Policy-based non-interactive outsourcing of computation using multikey FHE and CP-ABE

2013 International Conference on Security and Cryptography (SECRYPT) Pub Date : 2013-07-29 DOI:10.5220/0004534304440452

Michael Clear, C. McGoldrick

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引用次数: 7

Abstract

We consider the problem of outsourced computation that operates on encrypted inputs supplied by multiple independent parties. To facilitate fine-grained access control, it would be desirable if each party could encrypt her input under an appropriate access policy. Moreover, a party should only be authorized to decrypt the result of a computation performed on a set of encrypted inputs if his credentials satisfy the composition of all input policies. There has been limited success so far achieving homomorphic encryption in the functional setting; that is, for primitives such as Ciphertext-Policy Attribute Based Encryption (CP-ABE) and Identity Based Encryption (IBE). We introduce a new primitive that captures homomorphic encryption with support for access policies and policy composition. We then present a generic construction using CP-ABE and multikey Fully-Homomorphic encryption (FHE). Furthermore, we show that a CP-ABE scheme that is homomorphic for circuits of polylogarithmic depth in some parameter m implies a CP-ABE scheme that is homomorphic for circuits of arity m and unbounded depth.

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使用多键FHE和CP-ABE的基于策略的非交互式计算外包

我们考虑外包计算的问题，该问题对由多个独立方提供的加密输入进行操作。为了促进细粒度的访问控制，希望每一方都能在适当的访问策略下对其输入进行加密。此外，只有当一方的凭据满足所有输入策略的组合时，才应该授权其解密对一组加密输入执行的计算结果。到目前为止，在功能设置中实现同态加密的成功有限;也就是说，对于诸如密文-策略基于属性的加密(CP-ABE)和基于身份的加密(IBE)之类的原语。我们引入了一个新的原语，用于捕获支持访问策略和策略组合的同态加密。然后，我们提出了一个使用CP-ABE和多密钥全同态加密(FHE)的通用结构。进一步地，我们证明了对于深度为多对数的电路在某参数m上是同态的CP-ABE格式意味着对于深度为无界的整数m的电路也是同态的CP-ABE格式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 International Conference on Security and Cryptography (SECRYPT)

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