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引用次数: 2
摘要
大多数现有的分布式拓扑发现应用程序在整个网络中部署多个探测主机。然后从单个点探测路径,然后将数据统一到单个拓扑图中。这种方法依赖于在整个网络中部署探测主机的能力,这在许多情况下是不可能的。MTAS(多隧道接入系统)是一种在单个IPv4子网中部署探测主机的系统。每个探测主机创建一条IPv6 over IPv4隧道,到达一个ISATAP(站点内自动隧道寻址协议)或6to4中继路由器,该路由器分布在世界各地,为公众提供服务。在MTAS中,ISATAP和6到4中继路由器就像探测分布在不同位置的跳板一样工作,用于IPv6网络拓扑发现,因此MTAS是一个方便的分布式应用程序。为了避免重复跟踪相同的跟踪路由路径,MTAS系统部署了一个中间数据库来存储收集到的路径。作者还介绍了中国最大的本地IPv6网络CERNET2的初步测试结果。测试结果表明了该方法的有效性。
A new distributed topology discovery technology for IPv6 networks
Most existed distributed topology discovery applications deploy multiple probing hosts throughout the network. Paths are then probed from the individual points and the data later is unified into a single topology graph. This approach relies on the ability to deploy probing hosts throughout the network, which in many cases is not possible. This paper presents MTAS (multi tunnel access system), a system which deploys probing hosts in a single IPv4 subnet. Each probing host creates an IPv6 over IPv4 tunnel to reach an ISATAP (intra-site automatic tunnel addressing protocol) or 6to4 relay router which distributed in the world and provides service for public. In MTAS, ISATAP and 6 to 4 relay routers just work like probing springboards distributed in different location for IPv6 network topology discovery, so MTAS is a handy distributed application. To avoid retracing the same trace route paths, MTAS system deploys a middle database to store the collected path. The authors also present some preliminary test results from probing CERNET2, the largest native IPv6 network in China. And the test results illustrate the effectiveness of MTAS.
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