Stefano Salsano scite author profile

Service Function Chaining (SFC) allows the forwarding of a traffic flow along a chain of Virtual Network Functions (VNFs, e.g., IDS, firewall, and NAT). Software Defined Networking (SDN) solutions can be used to support SFC reducing the management complexity and the operational costs. One of the most critical issues for the service and network providers is the reduction of energy consumption, which should be achieved without impact to the quality of services. In this paper, we propose a novel resource allocation architecture which enables energy-aware SFC for SDN-based networks. To this end, we model the problems of VNF placement, allocation of VNFs to flows, and flow routing as optimization problems. Additionally, we model the problem of flow rerouting to reduce the impact of resource fragmentation on the network utilization. Thereafter, heuristic algorithms are proposed for the different optimization problems, in order to find near-optimal solutions in acceptable times. The performances of the proposed algorithms are numerically evaluated over a real-world topology and various network traffic patterns. The results confirm that the proposed heuristic algorithms provide near-optimal solutions while their execution time is applicable for real-life networks.

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Transport-layer issues in information centric networks

Salsano¹,

Detti²,

Cancellieri³

et al. 2012

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Content to be transported over an Information Centric Networking (ICN) infrastructure can be very variable in size, from few bytes to hundreds of gigabytes. Therefore it needs to be segmented in smaller size data units, typically called chunks, in order to be handled by ICN nodes. A chunk is the basic data unit to which caching and security (e.g. encryption and signature) functions are applied. If we consider the overhead and the number of cryptographic operations to be performed by nodes, a good choice for the chunk size would be from hundreds of KBs up to few MBs. However, if the chunk size is bigger than the Maximum Transfer Unit of a link, chunks will be fragmented. We show that if we have more than 3-4 fragments per chunk, and congestion and reliability functions are executed on a chunk by chunk basis, the efficiency of the congestion control algorithm drastically decreases. On the other side, a small chunk size would increase overhead and rate of signature checks.The contribution of this paper is twofold: 1) we propose to segment content in two levels: at the first level the content is segmented in chunks, at the second level the chunks are segmented into smaller data units, handled by an ICN specific Transport Protocol (ICTP), performing reliability and congestion control functions; 2) we propose to adopt a receiver-driven transport protocol, in which the receiver adjusts the sending rate to control congestion, we describe an implementation of this protocol, and evaluate its performance.

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SIP security issues: the SIP authentication procedure and its processing load

Salsano¹,

Veltri²,

Papalilo³

2002

IEEE Network

153

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Traffic Engineering with Segment Routing: SDN-Based Architectural Design and Open Source Implementation

Davoli

Veltri

Ventre

et al. 2015

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Traffic Engineering (TE) in IP carrier networks is one of the functions that can benefit from the Software Defined Networking paradigm. By logically centralizing the control of the network, it is possible to "program" per-flow routing based on TE goals. Traditional per-flow routing requires a direct interaction between the SDN controller and each node that is involved in the traffic paths. Depending on the granularity and on the temporal properties of the flows, this can lead to scalability issues for the amount of routing state that needs to be maintained in core network nodes and for the required configuration traffic. On the other hand, Segment Routing (SR) is an emerging approach to routing that may simplify the route enforcement delegating all the configuration and per-flow state at the border of the network. In this work we propose an architecture that integrates the SDN paradigm with SR-based TE, for which we have provided an open source reference implementation. We have designed and implemented a simple TE/SR heuristic for flow allocation and we show and discuss experimental results.

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Information centric networking over SDN and OpenFlow: Architectural aspects and experiments on the OFELIA testbed

et al. 2013

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-Information Centric Networking (ICN) is a new networking paradigm in which the networkprovides users with content instead of communication channels between hosts. Software Defined Networking (SDN) is an approach that promises to enable the continuous evolution of networking architectures. In this paper we propose and discuss solutions to support ICN by using SDN concepts. We focus on an ICN framework called CONET, which grounds its roots in the CCN/NDN architecture and can interwork with its implementation (CCNx). Although some details of our solution have been specifically designed for the CONET architecture, its general ideas and concepts are applicable to a class of recent ICN proposals, which follow the basic mode of operation of CCN/NDN. We approach the problem in two complementary ways. First we discuss a general and long term solution based on SDN concepts without taking into account specific limitations of SDN standards and equipment. Then we focus on an experiment to support ICN functionality over a large scale SDN testbed based on OpenFlow, developed in the context of the OFELIA European research project. The current OFELIA testbed is based on OpenFlow 1.0 equipment from a variety of vendors, therefore we had to design the experiment taking into account the features that are currently available on off-the-shelf OpenFlow equipment.

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Stefano Salsano

Joint Energy Efficient and QoS-Aware Path Allocation and VNF Placement for Service Function Chaining

Transport-layer issues in information centric networks

SIP security issues: the SIP authentication procedure and its processing load

Traffic Engineering with Segment Routing: SDN-Based Architectural Design and Open Source Implementation

Information centric networking over SDN and OpenFlow: Architectural aspects and experiments on the OFELIA testbed

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