源IP NAT的排队理论分析

C. Westphal, C. Perkins
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引用次数: 2

摘要

连接到Internet的设备数量已经超过了可有效分配的IPv4地址的数量。为了实现全局可达,许多设备必须共享相同的IPv4地址;目前的机制只有在共享IPv4地址的设备本身发起通信时才提供可达性。我们描述了一种机制,使NAT后面的节点可以全球访问,即使通信是从全球Internet发起的。该机制的预期应用,被称为SIPNAT,是第一次允许全球IPv4互联网中的节点以可扩展的方式双向全球可达IPv6地址,从而解决与IPv4-IPv6转换相关的主要问题。SIPNAT通过结合IPv4发起连接的DNS请求和定时信息对IPv4和IPv6域之间的网关流进行过滤(IPv6到IPv4的连接使用典型的NAT机制,其中IPv6域充当私有地址空间)。我们利用排队理论分析研究了SIPNAT机制的性能,并证明了我们的SIPNAT模型在实际数据轨迹上是准确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Queueing Theoretic Analysis of Source IP NAT
The number of devices connected to the Internet has outstripped the number of effectively assignable IPv4 addresses. In order to be globally reachable, many devices must share the same IPv4 address; current mechanisms only provide reachability when the device sharing the IPv4 address itself initiates communication. We describe a mechanism to make nodes behind a NAT globally reachable, even when communications are initiated from the global Internet. The intended application of the mechanism, denoted SIPNAT, is to allow for the first time bidirectional global reachability of IPv6 addresses by nodes in the global IPv4 Internet, in a scalable manner, thus resolving the major issue associated with IPv4-IPv6 translation. SIPNAT involves filtering flows at the gateway between the IPv4 and IPv6 domain through a combination of DNS request and timing information for the IPv4 initiated connection (the IPv6 to IPv4 connections are performed using typical NAT mechanisms, where the IPv6 domain takes the role of the private address space). We study the performance of the SIPNAT mechanism using queuing theoretic analysis, and show that our SIPNAT model is accurate on actual data traces.
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