Borbor, D.
, Wang, L.
, Jajodia, S.
and Singhal, A.
(2017),
Securing Networks Against Unpatchable and Unknown Vulnerabilities Using Hetrogeneous Hardening Options, 31st IFIP Conference on Data and Application Security and Privacy (DBSEC 2017), Philadelphia, PA, US, [online], https://doi.org/10.1007/978-3-319-61176-1_28, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=923237
(Accessed November 8, 2024)
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Securing Networks Against Unpatchable and Unknown Vulnerabilities Using Hetrogeneous Hardening Options
Published
Author(s)
Daniel Borbor, Lingyu Wang, Sushil Jajodia,
Abstract
The administrators of a mission critical network usually have to worry about non-traditional threats, e.g., how to live with known, but unpatchable vulnerabilities,and how to improve the network's resilience against potentially unknown vulnerabilities. To this end, network hardening is a well known preventive security solution that aims to improve network security by taking proactive actions, namely, hardening options. However, most existing network hardening approaches rely on a single hardening option, such as disabling unnecessary services, which becomes less effective when it comes to dealing with unknown and unpatchable vulnerabilities. There lacks a heterogeneous approach that can combine different hardening options in an optimal way to deal with both unknown and unpatchable vulnerabilities. In this paper, we propose such an approach by unifying multiple hardening options, such as firewall rule modification, disabling services, service diversification, and access control, under the same model. We then apply security metrics designed for evaluating network resilience against unknown and unpatchable vulnerabilities, and consequently derive optimal hardening solutions that maximize security under given cost constraints.Conference Dates
July 19-21, 2017
Conference Location
Philadelphia, PA, US
Conference Title
31st IFIP Conference on Data and Application Security and Privacy (DBSEC 2017)
Pub Type
Conferences
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Keywords
Security Metrics, Diversity, Network Security, Zero Day Attack, Network Resilience
Citation
Issues
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Created June 21, 2017, Updated October 12, 2021