利用基于sdn的移动目标防御减少交叉火力攻击

Abdullah Aydeger, Nico Saputro, K. Akkaya, Mohammed Rahman
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引用次数: 62

摘要

最近的研究表明,可以利用软件定义网络(SDN)来实现移动目标防御(MTD),以减轻分布式拒绝服务(DDoS)攻击。在MTD中,通过有效地从网络中收集信息并动态地实施某些安全措施来欺骗攻击者,从而不断地改变网络状态。受到基于sdn的机动成功的激励,这项工作针对一种新兴的DDoS攻击类型,称为Crossfire,并提出了一种基于sdn的MTD机制来防御此类攻击。我们分析了Crossfire攻击计划,并利用分析结果建立了防御机制,从而重新组织路由,使数据包转发过程中避免拥塞链路。利用Mininet仿真器和Floodlight SDN控制器实现了检测和缓解技术。评估结果表明,路由突变可以有效地减少目标链路上的拥塞,而不会对网络业务造成重大影响。
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Mitigating Crossfire Attacks Using SDN-Based Moving Target Defense
Recent research demonstrated that software defined networking (SDN) can be leveraged to enable moving target defense (MTD) to mitigate distributed denial of service (DDoS) attacks. The network states are continuously changed in MTD by effectively collecting information from the network and enforcing certain security measures on the fly in order to deceive the attackers. Being motivated from the success of SDN-based maneuvering, this work targets an emerging type of DDoS attacks, called Crossfire, and proposes an SDN-based MTD mechanism to defend against such attacks. We analyze Crossfire attack planning and utilize the analyzed results to develop the defense mechanism which in turn reorganize the routes in such a way that the congested links are avoided during packet forwarding. The detection and mitigation techniques are implemented using Mininet emulator and Floodlight SDN controller. The evaluation results show that the route mutation can effectively reduce the congestion in the targeted links without making any major disruption on network services.
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