As Software-defined architectures, such as Software-Defined Networking (SDN) and Network Function Virtualization (NFV), are getting popular, the necessity of software-based switch (a.k.a., software switch) is also increasing because it can adopt new functions/features without much difficulty compared with hardware-based switches. Nowadays we can easily observe that researchers devise new network functions and embed them into a software switch. However, most those proposals are highly biased at network communities, and thus it is hard to find some trials of leveraging the abilities of a software switch for security. In this paper, we consider that how we can enrich security functions/features in software-defined environments, and in this context we propose a new software switch architecture - with the name of UNISAFE - that can enable diverse security actions. Furthermore, UNISAFE provides action clustering which joins UNISAFE actions of multiple-flows together. It makes that UNISAFE can check flows synthetically, and thus a user can establish effective security policies and save system resources. In addition, we describe the design and implementation of UNISAFE and suggest some use-cases for how UNISAFE works.
[1]
Michio Honda,et al.
mSwitch: a highly-scalable, modular software switch
,
2015,
SOSR.
[2]
Fang Hao,et al.
Application-aware data plane processing in SDN
,
2014,
HotSDN.
[3]
Martín Casado,et al.
The Design and Implementation of Open vSwitch
,
2015,
NSDI.
[4]
Jamal Hadi Salim,et al.
Linux Netlink as an IP Services Protocol
,
2003,
RFC.
[5]
Nick McKeown,et al.
OpenFlow: enabling innovation in campus networks
,
2008,
CCRV.
[6]
Vinod Yegneswaran,et al.
AVANT-GUARD: scalable and vigilant switch flow management in software-defined networks
,
2013,
CCS.
[7]
Robert S. Boyer,et al.
A fast string searching algorithm
,
1977,
CACM.
[8]
Adam J. Aviv,et al.
POSTER: OFX: Enabling OpenFlow Extensions for Switch-Level Security Applications
,
2015,
CCS.