Browse > Article
http://dx.doi.org/10.22156/CS4SMB.2019.9.2.017

Research on Web Cache Infection Methods and Countermeasures  

Hong, Sunghyuck (Division of Information and Communication, Baekseok University)
Han, Kun-Hee (Division of Information and Communication, Baekseok University)
Publication Information
Journal of Convergence for Information Technology / v.9, no.2, 2019 , pp. 17-22 More about this Journal
Abstract
Cache is a technique that improves the client's response time, thereby reducing the bandwidth and showing an effective side. However, there are vulnerabilities in the cache technique as well as in some techniques. Web caching is convenient, but it can be exploited by hacking and cause problems. Web cache problems are mainly caused by cache misses and excessive cache line fetch. If the cache miss is high and excessive, the cache will become a vulnerability, causing errors such as transforming the secure data and causing problems for both the client and the system of the user. If the user is aware of the cache infection and the countermeasure against the error, the user will no longer feel the cache error or the problem of the infection occurrence. Therefore, this study proposed countermeasures against four kinds of cache infections and errors, and suggested countermeasures against web cache infections.
Keywords
Secure Web; Cashing; Cache; Infection; pre-fetching; Countermeasures;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 I. S. Hwang, J. W. Lee, D. H. Jo & J. H. Song. (2002). Disk Management Techniques Based on Muilti-Size Blocks for Web cache. Communications of the Korean Institute of Information Scientists and Engineers, 20(9), 28-35.
2 J. W. Na. (2006). A Study ofWeb Cashing & World Wide Web, 1-4.
3 Y. S. Chon, B. K. Lee, C. H. Lee, S. I. Kim & J. N. Cheon. (2006). A Dynamic Prefetch Filtering Schemes to Enhance Usefulness Of Cache Memory. The KIPS Transactions: PartA, 13(2), 123-136.
4 H. S. Yoo & T. M. Jang. (2003). Document Replacement Policy by Site Popularity in Web Cache. Journal of Korea Game Society, 3(1), 67-73.
5 P. K. Tse. (2008). Cooperative Web Caching. Multimedia Information Storage and Retrieval. DOI : 10.4018/9781599042251.ch024   DOI
6 Y. K. Joo. (2004). Decision of A pre-fetch-Cache Size in Dual Data-Cache Architectures, 1-49.
7 Y. S. Chon, B. K. Lee, S. I. Kim & J. N. Cheon. (2004). Dynamic Prefetch Filtering Schemes to enhance Utilization of Data Cache. Journal of KIISE: Computer Systems and Theory, 35(1), 30-43.
8 Y. S. Chon. (2006). An L1 Cache pre-fetching Scheme using Excessively Aggressive pre-fetching and a Small Direct-mapped. Journal of KIISE: Computer Systems and Theory, 33(11), 836-852.
9 B. Y. Uh, Y. K. Joo, J. N. Cheon & S. I. Kim (2005). A Cache Controller to Maximize Effectiveness of Hierarchical Memory Architecture. Journal of KIISE: Computer Systems and Theory, 32(11_12), 608-616.
10 Y. S. Chon, S. I. Kim & J. N. Jeon. (2005). An Active pre-fetch Filtering Schemes using Exclusive pre-fetch Cache. The KIPS Transactions: PartA, 12(1), 41-52.
11 S. H. Lee, J. H. Chung & S. B. Choi. (2001). Adaptive Web Cache Replacement Policy using Dynamic Distribution of Partitions in Proxy Server, 1-3.
12 J. H. Lee. (2017). A Study on How Reference Groups, Convenience and Pursuit of Information Affect Subscription-Based Webtoon Service Usage through Reliability and Curiosity. Convergence Society for SMB, 7(2), 101-109.   DOI
13 H. J. Kim, J. Y. Lee & S. S. Shin. (2017). Multi-threaded Web Crawling Design using Queues. Convergence Society for SMB, 7(2), 43-51