计算机科学
加密
密码学
云计算
访问控制
客户端加密
广播加密
分拆(数论)
密码原语
基于属性的加密
元数据
分布式计算
计算机安全
计算机网络
动态加密
操作系统
密码协议
公钥密码术
组合数学
数学
作者
Stefan Contiu,Rafael Pires,Sébastien Vaucher,Marcelo Pasin,Pascal Felber,Laurent Réveillère
标识
DOI:10.1109/dsn.2018.00032
摘要
While many cloud storage systems allow users to protect their data by making use of encryption, only few support collaborative editing on that data. A major challenge for enabling such collaboration is the need to enforce cryptographic access control policies in a secure and efficient manner. In this paper, we introduce IBBE-SGX, a new cryptographic access control extension that is efficient both in terms of computation and storage even when processing large and dynamic workloads of membership operations, while at the same time offering zero knowledge guarantees. IBBE-SGX builds upon Identity-Based Broadcasting Encryption (IBBE). We address IBBE's impracticality for cloud deployments by exploiting Intel Software Guard Extensions (SGX) to derive cuts in the computational complexity. Moreover, we propose a group partitioning mechanism such that the computational cost of membership update is bound to a fixed constant partition size rather than the size of the whole group. We have implemented and evaluated our new access control extension. Results highlight that IBBE-SGX performs membership changes 1.2 orders of magnitude faster than the traditional approach of Hybrid Encryption (HE), producing group metadata that are 6 orders of magnitude smaller than HE, while at the same time offering zero knowledge guarantees.
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