Visible to the public Biblio

Filters: Author is Garay, J.  [Clear All Filters]
2018-02-02
Matias, J., Garay, J., Jacob, E., Sköldström, P., Ghafoor, A..  2016.  FlowSNAC: Improving FlowNAC with Secure Scaling and Resiliency. 2016 Fifth European Workshop on Software-Defined Networks (EWSDN). :59–61.

Life-cycle management of stateful VNF services is a complicated task, especially when automated resiliency and scaling should be handled in a secure manner, without service degradation. We present FlowSNAC, a resilient and scalable VNF service for user authentication and service deployment. FlowSNAC consists of both stateful and stateless components, some of that are SDN-based and others that are NFVs. We describe how it adapts to changing conditions by automatically updating resource allocations through a series of intermediate steps of traffic steering, resource allocation, and secure state transfer. We conclude by highlighting some of the lessons learned during implementation, and their wider consequences for the architecture of SDN/NFV management and orchestration systems.

2015-05-05
Matias, J., Garay, J., Mendiola, A., Toledo, N., Jacob, E..  2014.  FlowNAC: Flow-based Network Access Control. Software Defined Networks (EWSDN), 2014 Third European Workshop on. :79-84.

This paper presents FlowNAC, a Flow-based Network Access Control solution that allows to grant users the rights to access the network depending on the target service requested. Each service, defined univocally as a set of flows, can be independently requested and multiple services can be authorized simultaneously. Building this proposal over SDN principles has several benefits: SDN adds the appropriate granularity (fine-or coarse-grained) depending on the target scenario and flexibility to dynamically identify the services at data plane as a set of flows to enforce the adequate policy. FlowNAC uses a modified version of IEEE 802.1X (novel EAPoL-in-EAPoL encapsulation) to authenticate the users (without the need of a captive portal) and service level access control based on proactive deployment of flows (instead of reactive). Explicit service request avoids misidentifying the target service, as it could happen by analyzing the traffic (e.g. private services). The proposal is evaluated in a challenging scenario (concurrent authentication and authorization processes) with promising results.