Hybrid mechanism towards network packet early acceptance and rejection for unified threat management

Z. Trabelsi, S. Zeidan, M. Masud
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引用次数: 9

Abstract

Recent network architectures utilise many types of security appliances to combat blended attacks. However, managing multiple separate security appliances can be overwhelming, inefficient and expensive. Thus, multiple security features are needed to be integrated into unified security architecture resulting in an unified threat management system (UTM). In most current UTM systems, whenever a security feature is needed, the corresponding module is just ‘attached or added on’. This approach of adding on may reduce the UTM performance dramatically, especially when security features such as IDS/IPS are enabled. In this study, a hybrid mechanism is proposed to solve UTM redundant packet classification problem. The mechanism is based on the use of splay tree filters and pattern-matching algorithms to enhance packet filtering and deep packet inspection (DPI) performance. The proposed mechanism uses network traffic statistics to dynamically optimise the order of the splay tree filters, allowing early acceptance and rejection of network packets. In addition, DPI signature rules are reordered according to their matching frequencies, allowing early packets acceptance. The authors demonstrate the merit of their mechanism through simulations performed on firewall and snort as independent packet manipulation systems compared with the proposed hybrid mechanism that uses unified communication between them.
网络数据包早期接受和拒绝的混合机制,统一威胁管理
最近的网络架构利用许多类型的安全设备来对抗混合攻击。然而,管理多个独立的安全设备可能会让人不堪重负、效率低下且成本高昂。因此,需要将多种安全特性集成到统一的安全架构中,形成统一的威胁管理系统(UTM)。在大多数当前的UTM系统中,每当需要安全功能时,相应的模块只是“附加或添加”。这种添加的方法可能会显著降低UTM性能,特别是在启用了IDS/IPS等安全特性时。本研究提出一种混合机制来解决UTM冗余包分类问题。该机制基于使用张开树过滤器和模式匹配算法来增强包过滤和深度包检测(DPI)性能。提出的机制利用网络流量统计动态优化张开树过滤器的顺序,允许早期接受和拒绝网络数据包。此外,DPI签名规则会根据匹配频率进行重新排序,使报文能够尽早接受。作者通过将防火墙和snort作为独立的数据包操作系统进行仿真,并与所提出的在两者之间使用统一通信的混合机制进行比较,证明了其机制的优点。
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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