DMap:全球网际网路中动态标识符到定位器映射的共享托管方案

Tam N. Vu, A. Baid, Yanyong Zhang, Thu D. Nguyen, J. Fukuyama, R. Martin, D. Raychaudhuri
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引用次数: 128

摘要

本文提出了一种新的分布式共享主机方法DMap,用于管理全球互联网中动态标识符到定位器映射的设计和评估。DMap是快速全球域名解析服务的基础,这是实现无缝移动支持、内容交付和云计算等新兴互联网服务所必需的。我们的方法是将标识符分配到自治系统(AS)之间的定位器映射,方法是直接在标识符上应用K>;1一致的哈希函数,生成将存储映射的AS网关路由器的网络地址。这种直接映射技术利用了在网络层已经可用的底层路由机制的可达性信息,并通过单个覆盖跳实现低查找延迟,而无需额外的维护开销。详细描述了所提出的DMap技术,并解决了具体的设计问题,如地址空间碎片化、通过复制减少延迟、利用空间局域性以及处理不一致的条目。评估结果来自互联网的大规模离散事件模拟,约有26,000个as使用DIMES存储库中的真实流量痕迹。结果表明,该方法均衡了全局网络上的存储负载,同时实现了平均约50 ms和第95百分位值约100 ms的查找延迟,足以支持全局互联网的动态移动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DMap: A Shared Hosting Scheme for Dynamic Identifier to Locator Mappings in the Global Internet
This paper presents the design and evaluation of a novel distributed shared hosting approach, DMap, for managing dynamic identifier to locator mappings in the global Internet. DMap is the foundation for a fast global name resolution service necessary to enable emerging Internet services such as seamless mobility support, content delivery and cloud computing. Our approach distributes identifier to locator mappings among Autonomous Systems (ASs) by directly applying K>;1 consistent hash functions on the identifier to produce network addresses of the AS gateway routers at which the mapping will be stored. This direct mapping technique leverages the reachability information of the underlying routing mechanism that is already available at the network layer, and achieves low lookup latencies through a single overlay hop without additional maintenance overheads. The proposed DMap technique is described in detail and specific design problems such as address space fragmentation, reducing latency through replication, taking advantage of spatial locality, as well as coping with inconsistent entries are addressed. Evaluation results are presented from a large-scale discrete event simulation of the Internet with ~26,000 ASs using real-world traffic traces from the DIMES repository. The results show that the proposed method evenly balances storage load across the global network while achieving lookup latencies with a mean value of ~50 ms and 95th percentile value of ~100 ms, considered adequate for support of dynamic mobility across the global Internet.
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