Hash-AV: fast virus signature scanning by cache-resident filters

GLOBECOM '05. IEEE Global Telecommunications Conference, 2005. Pub Date : 2007-03-01 DOI:10.1504/IJSN.2007.012824

Ozgün Erdogan, P. Cao

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引用次数: 93

Abstract

Fast virus scanning is becoming increasingly important in today's Internet. While Moore's law continues to double CPU cycle speed, virus scanning applications fail to ride on the performance wave due to their frequent random memory accesses. This paper proposes Hash-AV, a virus scanning "booster" technique that aims to take advantage of improvements in CPU performance. Using a set of hash functions and a bloom filter array that fits in CPU second-level (L2) caches, Hash-AV determines the majority of "no-match" cases without accesses to main memory. Experiments show that Hash-AV improves the performance of the open-source virus scanner Clam-AV by a factor of 2.5 to 10. The key to Hash-AV's success lies in a set of "bad but cheap" hash functions that are used as initial hashes. The speed of Hash-AV makes it well suited for "on-access" virus scanning, providing greater protections to the user. Through intercepting system calls and wrapping glibc libraries, we have implemented an "on-access" version for Hash-AV+Clam-AV. The on-access scanner can examine input data at a throughput of over 200 Mb/s, making it suitable for network-based virus scanning.

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Hash-AV:通过驻留缓存的过滤器快速扫描病毒特征

在今天的互联网中，快速病毒扫描变得越来越重要。当摩尔定律继续使CPU周期速度翻倍时，病毒扫描应用程序由于频繁的随机内存访问而无法驾驭性能波动。本文提出了Hash-AV，一种旨在利用CPU性能改进的病毒扫描“助推器”技术。使用一组散列函数和适合CPU二级(L2)缓存的bloom过滤器数组，hash - av确定大多数“不匹配”情况，而无需访问主存。实验表明，与开源病毒扫描程序Clam-AV相比，Hash-AV的性能提高了2.5 ~ 10倍。hash - av成功的关键在于一组“坏但便宜”的哈希函数，它们被用作初始哈希。哈希反病毒的速度使其非常适合“访问”病毒扫描，为用户提供更大的保护。通过拦截系统调用和包装glibc库，我们实现了Hash-AV+Clam-AV的“访问”版本。实时访问扫描器可以以超过200 Mb/s的吞吐量检查输入数据，使其适合基于网络的病毒扫描。

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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GLOBECOM '05. IEEE Global Telecommunications Conference, 2005.

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