Monthly Archives: July 2010

WLAN Enterprise Mobility Strategy

Posted by Jon Janego on July 23, 2010 No comments

Continuing my series on deployment strategies for enterprise WLAN, today I’m covering the most common type of WLAN deployment – extending the enterprise to mobile users.

Basic Enterprise Mobility – Strategy

Extending the enterprise’s wired LAN to wireless is one of the more straightforward tasks from a network design perspective, but the authentication piece for the Wireless LAN needs to be strictly controlled.  Fortunately, wireless can benefit from the widespread deployment of another technology in the enterprise world – centralized authentication servers.

Many enterprise environments utilize a centralized authentication system to manage their user accounts, with Microsoft Active Directory being one of the most common.  This system can also be leveraged to provide authentication to the Wireless LAN.  Active Directory can serve as an 802.1X authenticator, allowing the wireless network to use EAP technology to authenticate users.  The two EAP methods most worthy of consideration in a WLAN environment are EAP-TLS, and PEAP.

EAP-TLS provides full mutual authentication, using a public key infrastructure to create and manage certificates for both client devices and the authenticating server.  In practice, it will allow users to seamlessly authenticate to the wireless network, because the certificate exchange occurs behind the scenes.  In an Active Directory environment, the certificates used in authentication can be deployed remotely by the Domain Controllers.  This works especially well with laptop users, but can be a challenge with mobile devices that do not have a wired connection to the network.  Certificates can be pushed to mobile devices in several ways, such as by use of a dedicated management WLAN or physical installation via memory cards or barcode scanning, but in a large environment with many mobile devices, it may be wise to look into alternatives.

Fortunately, a worthy alternative to EAP-TLS exists with PEAP authentication.  PEAP provides for similar levels of security to EAP-TLS, but does not rely on client certificates to authenticate devices to the network.  Instead, PEAP uses a more traditional username & password combination.  These credentials can be integrated with an Active Directory environment, allowing administrators granular control over what users get access to the WLAN.  PEAP also mitigates the potentially expensive maintenance cost of managing certificates on mobile devices.

EAP-TLS and PEAP, combined with WPA2-AES, provide the strongest authentication and encryption solutions available in WLAN, and as such should be used to protect any critical data traveling over the network.  While integration with Active Directory is not mandatory, because many organizations have such an environment already deployed, extending its use to cover WLAN authentication is an attractive option.  If your organization does not have a centralized authentication system in place already, the deployment of a WLAN can be a strong motivation to do so.  Several free alternatives to Active Directory also exist, such as FreeRADIUS.  Some enterprise-grade WLAN infrastructure also provides the ability to generate and manage certificates using an internal server hosted on the access point.  Given the easy integration with common authentication systems, and the availability of free alternatives, there really is no reason not to deploy a centralized authentication solution to secure your enterprise WLAN.

Pre-Shared Keys – also known as “Personal” authentication – are generally not appropriate for enterprise environments.  WPA2-AES using pre-shared keys does not have any documented vulnerabilities, but any PSK solution relies on sharing authentication credentials between multiple users and devices.  This can affect the integrity of the network, and doesn’t provide any traceability to activities of users on the network.  It should be avoided in a mission-critical environment.

WLAN In the Enterprise – Use Cases and Strategies

Posted by Jon Janego on July 21, 2010 No comments

Continuing from my first post in the series, today I hope to cover the common use cases and general strategies for securing an enterprise WLAN.

Depending on the size and business needs of the enterprise, a WLAN can be used in a few different ways:

Basic Mobility – the most common use of WLAN is simply to extend the existing wired LAN to wireless users.  This can have a very positive impact on productivity, allowing users more flexibility throughout the workspace.

Segmented Mobile Data - this type of WLAN is one where the network is dedicated to use of a specific type of data that is segmented from the main enterprise network.  Typical use cases here are in hospitals or retail stores, where compliance regulations provide strict guidance on data protection and segmentation.

Guest Internet Access – common in cafes and large businesses, this type of WLAN typically provides only internet access and is entirely segmented from the enterprise wired LAN.

Wired LAN Replacement - this type of network is becoming a feasible alternative to the hassle of running cable, and will likely continue to grow in popularity as time goes by

These use cases can blend together in any number of ways.  A well thought-out design at the beginning, along with the right hardware planning, can accomidate these uses and even more.

General Strategy

Like other networking strategies, the use of proper segmentation at the Layer 2 level is critical when designing a WLAN.  Your most critical data flows should have their own segment, protected by methods like VLAN segmentation, firewalling, private IP spaces, and routing tables.  Regardless of the authentication and encryption method used for the WLAN itself, properly designing its location within the enterprise wired LAN is critical.

Data encryption in 802.11 is accomplished by a combination of the authentication type with an underlying encryption method.  Use of WPA2-AES encryption should be considered mandatory in any new WLAN deployment.  This encryption technology has no documented vulnerabilities and widespread hardware and software support.  If your enterprise has devices that do not support WPA2-AES, strongly consider replacing them.  When designing a network, its security should not be determined by the weakest link.  Unless there is a business case for doing something otherwise, use the strongest encryption and authentication methods available.

My next post will get into some specifics about these different use cases!

Deploying A World-Class WLAN in Your Enterprise

Posted by Jon Janego on July 16, 2010 1 comment

In the last decade, 802.11 Wireless LAN technology has had a dramatic impact on the technology world.  Reliable, high-bandwidth networking is now easily available to anybody who wants it, and the number of WiFi enabled devices continues to grow at a dramatic rate.  So naturally, businesses ranging from basic office environments, to complicated co-located warehousing/retail/office operations have begun leveraging the technology as well.  Unfortunately, the ease of setup that WLAN offers has led to some confusion among even seasoned IT practitioners.  In this series of  posts, I hope to provide some simple guidance to help clarify how to securely and efficiently manage an enterprise Wireless LAN.

Some History

I will not go into the history of the 802.11 standard in too much detail here, although there are a couple of important points to recognize when thinking about how to deploy a WLAN in your business.  The most important thing to know is this – many of the WLAN security technologies that were being used in deployment until three or four years ago are vulnerable to several well-known attacks.  If your business has a WLAN that has “just been working” for a while – it should probably get some attention.

To elaborate on this a bit further, the most common Wireless LAN encryption method used until late 2003, WEP, has been subject to some very public weaknesses, almost since its inception.  Its temporary replacement, WPA-TKIP, has similar (although not as dramatic) weaknesses, that have been public since at least 2008.

Adding insult to these platform-common weaknesses, some of the alternate, “more secure” based authentication methods advised by vendors have also been picked apart and had their vulnerabilities shown to the world.  I’m looking at you, LEAP.

To sum it up briefly – many networks that people thought were secure in 2003 or 2004 are definitely not secure today.  And unfortunately, WLAN sometimes is treated like a part of the physical infrastructure – if it ain’t broke, don’t fix it!

Current Tech

Fortunately, 802.11 is really starting to come into its own lately, and can be an extremely secure – in some ways more secure – piece of critical infrastructure.  The extremely solid (and so far unbroken) WPA2-AES encryption standard defined by 802.11i has had widespread vendor support since 2007.  And certificate-based authentication methods such as EAP-TLS, PEAP, and EAP-TTLS have similarly experienced a growth in support, among not just desktop OS platforms, but mobile operating systems as well.  And Wireless Intrusion Detection Systems are hitting their stride, ranging from several robust and effective professional solutions from vendors like AirTight, Cisco, and Motorola, to fantastic open-source applications like Kismet.  And robust infrastructure management software is now making the administration of Wireless LANs more simple and effective.

In short, today it is possible to deploy a WLAN that will meet all the use cases an enterprise can throw at it, and that is as secure as a typical wired LAN infrastructure.

In the next post, I’ll cover typical enterprise WLAN use cases, and the strategies for designing and securing them.