G. Li, Menghao Zhang, Chang Liu, Xiao Kong, Ang Chen, G. Gu, Haixin Duan
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引用次数: 33
Abstract
In this paper, we design NETHCF, a line-rate in-network system for filtering spoofed traffic. NETHCF leverages the opportunity provided by programmable switches to design a novel defense against spoofed IP traffic, and it is highly efficient and adaptive. One key challenge stems from the restrictions of the computational model and memory resources of programmable switches. We address this by decomposing the HCF system into two complementary components—one component for the data plane and another for the control plane. We also aggregate the IP-to-Hop-Count (IP2HC) mapping table for efficient memory usage, and design adaptive mechanisms to handle end-to-end routing changes, IP popularity changes, and network activity dynamics. We have built a prototype on a hardware Tofino switch, and our evaluation demonstrates that NETHCF can achieve line-rate and adaptive traffic filtering with low overheads.
在本文中,我们设计了一种用于过滤欺骗流量的线速率网内系统NETHCF。NETHCF利用可编程交换机提供的机会,设计了一种针对欺骗IP流量的新型防御,并且效率高,适应性强。一个关键的挑战源于可编程开关的计算模型和内存资源的限制。我们通过将HCF系统分解为两个互补的组件来解决这个问题——一个组件用于数据平面,另一个用于控制平面。我们还聚合了IP-to- hop - count (IP2HC)映射表,以实现高效的内存使用,并设计了自适应机制来处理端到端路由变化、IP流行度变化和网络活动动态。我们已经在硬件Tofino交换机上构建了一个原型,我们的评估表明,NETHCF可以以低开销实现线率和自适应流量过滤。
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