Why The Business Needs SDN

Software-defined networking provides network programmability, which helps contain operational costs and enables business growth.

Lori MacVittie

October 20, 2015

4 Min Read
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Ultimately, programmability of the network will be critical for business growth. The traditional methods of management -- device by device and system by system using manual methods -- simply cannot scale at the rate required today. Consider that in 2014, according to Computer Economics, the median network device to engineer ratio was 37 to 1. In 2015, that number was 59 devices per engineer, a jump of 60% in a single year. If that rate holds, engineers will be overwhelmed in short order or business will see its IT budget for the network skyrocket. 

Neither is a desirable outcome. Automation via network programmability (adopting a DevOps approach for the network) is one of the ways in which IT can combat the costs associated with rapid growth without burning out engineers.

This is why software-defined networking is not only good for the network, but for the business. With SDN, we’re making the network programmable. And when we take a deeper look at what it means to make the network programmable, we find that it involves both the control plane and the data plane and that both are valuable in containing costs and enabling business growth.

The classic, OpenFlow-based definition of SDN offers programmability for both planes, though we tend to focus on the control side. In that respect, OpenFlow offers a protocol-based means to essentially reprogram the path of any packet, at any time. Operators can programmatically instruct switches and routers (and really any OpenFlow-enabled device on the network) to change routes in addition to a limited set of other actions.

Other SDN-solutions offer similar capabilities -- that of programmatically modifying the device’s behavior -- but instead of relying on OpenFlow, they offer APIs. These APIs provide the means to provision, configure, and manage those devices from a centralized command-and-control console. These are the APIs that are used by a growing number of data center automation and orchestration providers (think Puppet and Chef and SaltStack) to support network infrastructure along with application infrastructure.  

Regardless of the form it takes, both are examples of network programmability of the control plane. Control plane programmability is the basis for reducing operational costs by shifting the burden of configuration and management from people to technology via automation.

The data plane, too, is enhanced by SDN with programmability. Both classic and evolving SDN solutions provide for data path (plane) programmability. In the classic OpenFlow SDN, the provision is made for “apps” or “plug-ins” to the SDN controller via a standard API that can interact with and change the behavior of the network based on the real-time flow of data. Security plug-ins, for example, are quite popular among those building these apps and capabilities such as IDS/IPS are often seen as add-ons for SDN controllers.  

Other devices -- usually up the stack -- whose network services focus on the stateful layers of the network (4-7) also provide for data path programmability. This programmability is generally more along the lines of what developers would consider programmability, requiring the use of some sort of scripting language to interact with and modify traffic in the data path in real-time.

Both control and data plane programmability are desirable characteristics of network services and devices. Control plane programmability, however, is generally the more useful to the broadest set of organizations as it is what enables the automation and orchestration that leads to greater stability and reduced operating costs. Whether it’s via OpenFlow or APIs, the ability to automate the provisioning of services increases the velocity with which those services can be deployed, but has the added benefit of providing consistency (and thus repeatability).

Codifying the tasks and processes necessary to provision and configure all the various network services required by an application provides a foundation for moving toward a truly software-defined data center in which the full stack is offered as a service, enabling ops to self-serve for all but those services requiring physical changes to the network.

Data path programmability offers a platform for rapidly deploying a new service or modifying an existing one. This is particularly important to organizations in the realm of security when vulnerabilities crop up that are difficult to address in a timely manner. Heartbleed, for example, targeted not applications, but the platforms on which those applications were deployed. An organization may have had hundreds of vulnerable web/app servers, requiring hours if not days to patch and secure. Data path programmability offers many organizations the ability to programmatically detect and stop attempts to exploit this vulnerability.

Both control and data plane programmability are critical characteristics of a modern network, one that enables and supports the rapid growth of business and applications. Without network programmability, a business faces getting dragged down  in operational costs due to the explosion of devices and services needed to support those applications.  

About the Author(s)

Lori MacVittie

Principal Technical Evangelist, Office of the CTO at F5 Networks

Lori MacVittie is the principal technical evangelist for cloud computing, cloud and application security, and application delivery and is responsible for education and evangelism across F5's entire product suite. MacVittie has extensive development and technical architecture experience in both high-tech and enterprise organizations. Prior to joining F5, MacVittie was an award-winning Senior Technology Editor at Network Computing Magazine, where she authored articles on a variety of topics aimed at IT professionals. She holds a B.S. in Information and Computing Science from the University of Wisconsin at Green Bay, and an M.S. in Computer Science from Nova Southeastern University. She also serves on the Board of Regents for the DevOps Institute and CloudNOW, and has been named one of the top influential women in DevOps.

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