数据中心网络中一种高效的匿名通信系统

Tingwei Zhu, D. Feng, Yu Hua, F. Wang, Qingyu Shi, Jiahao Liu
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引用次数: 6

摘要

随着应用迁移的快速增长,数据中心网络中的匿名性对于打破攻击链、保障用户隐私变得越来越重要。但是,现有的匿名系统都是针对互联网环境设计的,计算和网络资源消耗大,性能不高,无法直接部署在数据中心。为了解决这个问题,本文为基于sdn的数据中心提出了一种高效且易于部署的匿名方案,称为MIC。MIC的主要思想是通过修改交换节点上的源/目的地址(如MAC、IP和端口)来隐藏通信参与者,从而实现匿名。与传统的基于覆盖的方案相比,我们的方案具有更短的传输路径和更少的中间操作,从而在更低的开销下实现更高的性能。我们还提出了一种避免碰撞的机制来保证路由的正确性,以及两种增强流量分析阻力的机制。我们的安全分析表明,MIC确保了不可链接性,并提高了流量分析的阻力。我们的实验表明,与基线TCP(或SSL)相比,MIC的开销非常低,例如,在吞吐量方面的开销不到1%。
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MIC: An Efficient Anonymous Communication System in Data Center Networks
With the rapid growth of application migration, the anonymity in data center networks becomes important in breaking attack chains and guaranteeing user privacy. However, existing anonymity systems are designed for the Internet environment, which suffer from high computational and network resource consumption and deliver low performance, thus failing to be directly deployed in data centers. In order to address this problem, this paper proposes an efficient and easily deployed anonymity scheme for SDN-based data centers, called MIC. The main idea behind MIC is to conceal the communication participants by modifying the source/destination addresses (such as MAC, IP and port) at switch nodes, so as to achieve anonymity. Compared with the traditional overlay-based approaches, our in-network scheme has shorter transmission paths and less intermediate operations, thus achieving higher performance with less overhead. We also propose a collision avoidance mechanism to ensure the correctness of routing, and two mechanisms to enhance the traffic-analysis resistance. Our security analysis demonstrates that MIC ensures unlinkability and improves traffic-analysis resistance. Our experiments show that MIC has extremely low overhead compared with the base-line TCP (or SSL), e.g., less than 1% overhead in terms of throughput.
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