Combine usage policies, detection technologies to protect against security threats.
Cheap and provocative, WLANs are making their way onto production networks through the back door. Tech-savvy employees pick up a system at Circuit City and share the wireless LAN among department colleagues like a box of doughnutswith about as much thought about the consequences.
The popularity of wireless networking among home and business users alike has kept sales of WLAN equipment strong, even during a weak tech market. In-Stat/MDR estimates that the WLAN market will grow from 3.3 million units shipped in 2000 to 23.6 million units in 2005.
The catalyst for this growth is the dramatic decrease in the price of these systems. Wireless access points based on 802.11b can be had for as little as $150, and wireless PC Card adapters now cost about $70 each. Whats more, most OEMs now offer laptops with integrated 802.11b radios, and Intel Corp. has announced plans to embed 802.11b support into its forthcoming "Banias" mobile processor.
Tech history is rife with examples of end users (or executive management) leading the charge on gee-whiz technology. Handhelds come immediately to mind as one such case, but WLANs have more inherent security problemsones that IT managers cannot ignore. IT managers must develop an effective and systemic means of keeping the technology out or a rock-solid plan for building it safely from the ground up. Both approaches require as much policy setting as they do technology deployment.
Most important, IT departments cant expect that these "rogue" access points will be configured to take advantage of the out-of-the-box security features of 802.11x gear. And even if they are, built-in security such as WEP (Wired Equivalent Privacy) and media access control, or MAC, address lists can still leave WLANs vulnerable to attack.
Almost all 802.11x-based equipment ships with the same basic security measures, each of which has been shown to be vulnerable to attack. WEP encryption, for example, leaves WLANs open to passive hacking attacks that can allow a malicious party to uncover the WLANs encryption keys by sniffing a given amount of WEP-encrypted wireless traffic.
In addition, unauthorized access points dont have the benefit of the sort of detailed site survey that accompanies a structured WLAN rollout. Companies reduce their WLAN security risks by positioning their access points so their coverage area does not extend beyond the walls of a corporate campus. The casual user is far less likelyif at allto consider how far the traffic his rogue network is generating will travel.
For the likely well-meaning worker who installs a rogue access point in his or her work space, the most recognizableand often solely usedsecurity measure is the Service Set Identifier, or SSID.
Each access point is given an SSID, which serves as the name for a given WLAN and which wireless clients must have to access the network. However, most access points broadcast their SSIDs to wireless clients that come looking for them.
In short, whether your company has chosen to deploy a wireless network or not, it is important to draft and implement WLAN policieseven if they only amount to an official policy against installing wireless networking gear at all. IT administrators should distribute this policy, along with an explanation of the risks of insecure WLANs, to all employees of an organization and reinforce regularly.
IT departments can enforce an anti-WLAN agenda by conducting periodic sweeps for rogue access points using wireless sniffer products such as WildPackets Inc.s AiroPeek NX, Network Associates Inc.s Sniffer Wireless 4.7 and Network Instruments LLCs Observer 8.1 Wireless Protocol Analyzer. (For a comparative evaluation of these products, go to www.eweek.com/links.)
Although costlyranging in price from $3,000 to $7,000these products can determine both the presence and location of access points on a corporate campus and make the task of monitoring and maintaining a WLAN much easier. AirMagnet Inc.s AirMagnet takes a more focused and very effective approach.
While wireless networks are inherently less secure than wired networks, IT organizations that properly build out their WLAN infrastructure can strike an acceptable balance between security and convenience.
Sites that do choose to deploy WLANs can bolster security with VPN (virtual private network)-based solutions such as those from ReefEdge Inc. and SMC Networks Inc. or with vendor-specific applications that patch the gaps in 802.11b.
Many of the larger WLAN vendors, including Cisco Systems Inc., offer complete wireless network implementations that patch the weaknesses in 802.11b security with a mixture of open standards and proprietary hardware and software.
Ciscos WLAN security system depends on the EAP (Extensible Authentication Protocol) extension to RADIUS (Remote Authentication Dial-in User Service) that forces users to log in to an authentication server to access the network. The system provides for mutual authentication between the client and server and generates a WEP key that is specific to the connecting client. This setup eases key distribution issues and helps prevent passive key-sniffing attacks by keeping the keys fresh and unique.
Ciscos solution depends on the proposed 802.1x standard. Microsoft Corp. has built support for 802.1x into its Windows XP operating system, and this will likely help drive adoption.
However, there are many 802.11b-enabled clients, including some handheld computers, that are not equipped to work with these security frameworks. In addition, the client software that these systems require to operate will often work with only wireless adapters from specific vendors.
VPNs to the Rescue
A more flexible and, depending on a companys existing infrastructure, perhaps simpler WLAN security scheme involves VPNs, which encrypt wireless network traffic directly from the access point to the wireless client.
VPN-based systems have the benefit of being platform- and radio- technology-agnosticthat is, the client system establishes a connection to the network via 802.11b, 802.11a or even Bluetooth, and the VPN takes over from there.
This can be particularly attractive to companies that have already developed a VPN infrastructure to secure traffic across a network thats more familiar than a WLAN and equally insecurethe Internet. For a company with a VPN already in place, a WLAN can be situated behind a demilitarized zone thats blocked off from the production network, as in the case of a public Web server. That way, WLAN users may access the Internet through their wireless links but will have to connect to the corporate networkand sensitive network resourcesthrough an encrypted VPN link.
Some operating systems, including Windows 2000, Windows XP and Pocket PC 2002, ship with integrated VPN support, and third-party VPN clients are available for Mac OS, Linux and Palm OS, among others.
While a VPN client does impose some additional processing power overheadwhich can prove taxing on handheld devicesweve experienced good performance from the mobile VPN clients weve tested.
Vendors such as ReefEdge and SMC Networks offer gateway appliances that provide turnkey, VPN-based security solutions. ReefEdges ReefEdge Connect system can authenticate users against an internal database or against a RADIUS, Active Directory or other server and provide for traffic encryption.
Although these systems can be expensiveReefEdges appliance starts at $6,000, for examplethey offer enterprises benefits above and beyond security, such as quality-of-service assurance and smooth roaming among access points.
Technical Analyst Jason Brooks can be reached at firstname.lastname@example.org.Related Stories:
As Editor in Chief of eWEEK Labs, Jason Brooks manages the Labs team and is responsible for eWEEK's print edition. Brooks joined eWEEK in 1999, and has covered wireless networking, office productivity suites, mobile devices, Windows, virtualization, and desktops and notebooks. Jason's coverage is currently focused on Linux and Unix operating systems, open-source software and licensing, cloud computing and Software as a Service. Follow Jason on Twitter at jasonbrooks, or reach him by email at email@example.com.