This post walks you through how to configure a Cisco wireless network. Modern business wireless networks are complicated, so configuration of the actual network should happen after system design, policy, and security decisions are made. If you haven't taken those steps first, stop reading this, get those done, then come back here.
In a modern Cisco wireless architecture, all configuration is done at the controller. From there, settings are pushed to the access points, and a WLAN comes to life. There are a slew of options for how a specific network will behave, so you need to know the following:
• What security type you'll use
• If it's 802.1x-based security, what EAP type you'll use
• If RADIUS is in play, what are the server names and pre-shares for the controllers
• What VLAN(s) you'll use
• Whether the WLAN will support legacy data rates
• What SSID you'll, and whether it will be broadcast
• Channel width for 11n networks
There are other important elements to be addressed, but these bullet points hint that your policy needs to be defined before the configuration starts. Unfortunately, many administrators try to make it up as they go, which can lead to user confusion and dissatisfaction. Sensible administrators will plan and vet a configuration with technical managers before implementation.
Controller Set Up
With a Cisco WLAN you'll configure the controllers directly or via a management platform. Most Cisco customers with multiple controllers use Cisco's proprietary wireless management system. The latest incarnation is called Prime Infrastructure, and marks the network giant's march toward unification of client support and wired and wireless network management.
Prime Infrastructure isn't absolutely necessary, and many customers still run Network Control System (NCS) and the earlier Wireless Control System (WCS). Regardless of which platform you use and what version of code the controllers are running, you'll have some room to play with as you configure network.
Note that the following instructions assume the controllers already have proper network connectivity, including a trunk/port-channel for any required VLANs, and appropriate system-level global settings applied.
Let's go through a fairly typical setup using these parameters:
• SSID: Synergy (will be broadcast)
• Security: WPA2 encryption
• Authentication: PEAP with MS-CHAPv2 (EAP) and MS Active Directory credential store
• Will broadcast in both 2.4 GHz and 5 GHz on dual-band 802.11n access points
• Use single VLAN (128 for this example) on 10.76.76.0. 255.255.255.0
Whether working directly on controller or through the management console, the process starts with creating an Interface for the VLAN to use. The controller needs an IP address on the VLAN. (And on all VLANs that will be used on the WLAN; I'm not a fan of this requirement). Each controller in the WLAN must be similarly set up. If each interface is set up correctly, it should be pingable to test. You'll also need to establish the functional relationship between controllers and RADIUS servers before you can proceed.
Configuring the WLAN
If you're using Prime Infrastructure, NCS, or WCS, you'll configure a template for each WLAN and push it to the controllers. Remember, the controllers should have the proper interfaces defined and RADIUS authentication server entries set up. We'll proceed with how you configure the WLAN directly on the controller.
From the top navigation menu, select WLANs, then Create New from the drop-down, and hit Go. For Type, you may have options for Guest or Remote depending on your code version, but most common will be WLAN. Assign a profile name (it's a comment field) and an SSID. For this tutorial I used "Synergy" as the SSID. Accept the ID number that the controller gives by default. Hit Apply, and you've just created the WLAN.
However, at this point the WLAN is unconfigured. To give our Synergy SSID the proper settings, we come back to WLANs on the navigation menu and select the newly created Synergy SSID. The four tabs will vary a bit depending on what code version you run. My example comes from code version 7.4.1.00. These tabs are important, and make a WLAN what it needs to be.
Under General, we decide whether the WLAN is enabled, if we will broadcast the SSID, and whether both radios on our dual-band access points will transmit the Synergy WLAN. We also MUST select the VLAN interface we created earlier, or the lines on the diagram where wireless meets wired will not line up and our Synergy WLAN will not function properly.
Next comes Security, which brings us to the three sub-tabs. The Layer 2 tab is where we set our WPA2-AES and 802.1x settings, and AAA Servers tab is where we choose the RADIUS servers we already added to the controller settings. The Layer 3 tab generally is not used on the typical WLAN.
Next, we go to the QoS tab. For 802.11n networks, you'll need WMM at least Allowed, though it's up to you whether you require it based on the client types you support. You can pick or customize a QoS class depending on your needs. You'll get to know this page well if you're setting up VoIP on the WLAN.
Next page: Advanced SettingsLee is a Wireless Network Architect for a large private university. He has also tought classes on networking, wireless network administration, and wireless security. Lee's technical background includes 10 years in the US Air Force as an Electronic Warfare systems technician ... View Full Bio