No more backups: Toward efficient embedding of survivable virtual networks

R. R. Oliveira, Daniel S. Marcon, L. Bays, M. Neves, L. Buriol, L. Gaspary, M. Barcellos
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引用次数: 15

Abstract

Although network virtualization can improve security by isolating traffic from different networks, routers and links are still vulnerable to attacks on the underlying network. High capacity physical links, in particular, constitute good targets since they may be important for a large number of virtual networks. Previous work protects virtual networks by setting aside backup resources. Although effective, this solution increases the cost to infrastructure providers. In this paper, we present a virtual network embedding approach which enables resilience to attacks and efficiency in resource utilization. Our approach is two-folded: while a preventive strategy embeds virtual links into multiple substrate paths, a reactive strategy attempts to reallocate any capacity affected by an underlying DoS attack. Since the embedding problem is NP-Hard, we devise a Simulated Annealing meta-heuristic to solve it efficiently. Results show our solution can provide resilience to attacks at a lower cost.
不再有备份:朝着有效嵌入可生存的虚拟网络的方向发展
尽管网络虚拟化可以通过隔离来自不同网络的流量来提高安全性,但路由器和链路仍然容易受到底层网络上的攻击。特别是大容量物理链路,因为它们可能对大量虚拟网络很重要,因此是很好的目标。以前的工作是通过预留备份资源来保护虚拟网络。虽然有效,但该解决方案增加了基础设施提供商的成本。在本文中,我们提出了一种虚拟网络嵌入方法,使其能够抵御攻击并提高资源利用效率。我们的方法是双重的:预防性策略将虚拟链接嵌入到多个基板路径中,而反应性策略试图重新分配受底层DoS攻击影响的任何容量。由于嵌入问题是np困难的,我们设计了一个模拟退火元启发式算法来有效地求解它。结果表明,我们的解决方案能够以较低的成本提供对攻击的弹性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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