设计弹性SDN控制平面和弹性转发抵御DDoS攻击

F. Gillani, E. Al-Shaer, Qi Duan
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引用次数: 13

摘要

在广域使用软件定义网络(SDN-WAN)在过去几年中得到了大力发展。出于可扩展性和经济性的考虑,SDN-WAN大多采用带内控制机制,即控制和数据共享在同一条关键物理链路上。然而,带内控制和集中控制架构可以被攻击者利用,通过淹没共享链接和/或开放流代理,在SDN控制平面上发起分布式拒绝服务(DDoS)攻击。因此,构建具有弹性的软件设计网络,需要对控制流进行动态隔离和分配,以最大限度地减少损失,并显著提高攻击成本。现有的解决方案不足以应对这一挑战,因为它们需要昂贵的额外专用资源或对OpenFlow协议进行更改。在本文中,我们提出了一种移动目标技术,称为弹性控制网络架构(ReCON),它使用相同的SDN网络资源来动态保护SDN控制平面免受DDoS攻击。从本质上讲,ReCON(1)最大限度地减少数据和控制流量之间关键资源的共享,以及(2)通过动态使用来自同一SDN网络内未充分利用的资源,按需弹性地增加软件控制代理的有限容量。为了实现一个实际的解决方案,我们使用可满足性模理论(SMT)将ReCON形式化为约束满足问题,以保证可以处理动态网络条件的按结构正确的控制计划放置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-design Resilient SDN Control Plane and Elastic Forwarding Against Aggressive DDoS Attacks
Using Software-defined Networks in wide area (SDN-WAN) has been strongly emerging in the past years. Due to scalability and economical reasons, SDN-WAN mostly uses an in-band control mechanism, which implies that control and data sharing the same critical physical links. However, the in-band control and centralized control architecture can be exploited by attackers to launch distributed denial of service (DDoS) on SDN control plane by flooding the shared links and/or the Open flow agents. Therefore, constructing a resilient software designed network requires dynamic isolation and distribution of the control flow to minimize damage and significantly increase attack cost. Existing solutions fall short to address this challenge because they require expensive extra dedicated resources or changes in OpenFlow protocol. In this paper, we propose a moving target technique called REsilient COntrol Network architecture (ReCON) that uses the same SDN network resources to defend SDN control plane dynamically against the DDoS attacks. ReCON essentially, (1) minimizes the sharing of critical resources among data and control traffic, and (2) elastically increases the limited capacity of the software control agents on-demand by dynamically using the under-utilized resources from within the same SDN network. To implement a practical solution, we formalize ReCON as a constraints satisfaction problem using Satisfiability Modulo Theory (SMT) to guarantee a correct-by-construction control plan placement that can handle dynamic network conditions.
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