Abstract
Domain Name System (DNS) domains became Internet-level identifiers for entities (like companies, organizations, or individuals) hosting services and sharing resources over the Internet. Domains can specify a set of security policies (such as, email and trust security policies) that should be followed by clients while accessing the resources or services represented by them. Unfortunately, in the current Internet, the policy specification and enforcement are dispersed, non-comprehensive, insecure, and difficult to manage.
In this paper, we present a comprehensive and secure metapolicy framework for enhancing the domain expressiveness on the Internet. The proposed framework allows the domain owners to specify, manage, and publish their domain-level security policies over the existing DNS infrastructure. The framework also utilizes the existing trust infrastructures (i.e., TLS and DNSSEC) for providing security. By reusing the existing infrastructures, our framework requires minimal changes and requirements for adoption. We also discuss the initial results of the measurements performed to evaluate what fraction of the current Internet can get benefits from deploying our framework. Moreover, overheads of deploying the proposed framework have been quantified and discussed.
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Notes
- 1.
A policy agent is a software component that processes and enforces policies. It can be implemented within a user agent (such as a browser) or within a server software that supports a given policy.
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Acknowledgment
We thank the anonymous reviewers whose feedback helped to improve the paper. This work is supported by SUTD SRG ISTD 2017 128 grant.
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© 2018 ICST Institute for Computer Sciences, Social Informatics and Telecommunications Engineering
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Varshney, G., Szalachowski, P. (2018). A Metapolicy Framework for Enhancing Domain Expressiveness on the Internet. In: Beyah, R., Chang, B., Li, Y., Zhu, S. (eds) Security and Privacy in Communication Networks. SecureComm 2018. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 255. Springer, Cham. https://doi.org/10.1007/978-3-030-01704-0_9
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