SECOD: SDN安全控制和数据平面算法,用于检测和防御DoS攻击

Song Wang, S. Chandrasekharan, K. Gomez, K. Sithamparanathan, A. Al-Hourani, M. R. Asghar, G. Russello, Paul Zanna
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引用次数: 17

摘要

尽管软件定义网络(SDN)越来越受欢迎,但它也容易受到拒绝服务(DoS)攻击等安全攻击。由于在SDN中,控制平面与数据平面是隔离的,DoS攻击者可以很容易地针对控制平面破坏网络基础设施,从而降低用户的服务质量(QoS)。在我们之前的工作中,我们介绍了SECO,一种SDN安全控制器算法,用于检测和保护SDN免受DoS攻击。仿真结果表明,SECO成功防御了SDN网络的DoS攻击。在本文中,我们提出了SDN安全控制和数据平面(SECOD),它是SECO的改进版本。基本上,SECOD引入了新的触发器来检测和防止控制平面和数据平面的DoS攻击。此外,使用基于sdn的硬件测试平台、基于openflow的交换机和RYU控制器来实现和测试SECOD,以捕获现实硬件和软件的动态。结果表明,SECOD成功检测并有效缓解了SDN网络上的DoS攻击,与未受攻击的网络相比,数据平面性能保持在99.72%。
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SECOD: SDN sEcure control and data plane algorithm for detecting and defending against DoS attacks
Although the popularity of Software-Defined Networking (SDN) is increasing, it is also vulnerable to security attacks such as Denial of Service (DoS) attacks. Since in SDN, the control plane is isolated from the data plane, DoS attackers can easily target the control plane to impair the network infrastructure in addition to the data plane to degrade the user's Quality of Service (QoS). In our previous work, we introduced SECO, an SDN Secure Controller algorithm to detect and defend SDN against DoS attacks. Simulation results showed that SECO successfully defends SDN networks from DoS attacks. In this paper, we present SDN sEcure COntrol and Data Plane (SECOD), which is an improved version of SECO. Basically, SECOD introduces new triggers to detect and prevent DoS attacks in both control and data planes. Moreover, SECOD is implemented and tested using SDN-based hardware testbed, OpenFlow-based switch, and RYU controller to capture the dynamics of realistic hardware and software. The results show that SECOD successfully detects and effectively mitigates DoS attacks on SDN networks keeping data plane performance at 99.72% compared to a network not under attack.
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