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This chapter explains how to use the ACAU to create and save profiles used by the Install Wizard when a user installs the client adapter drivers and ADU.
The following topics are covered in this chapter:
•Including a Profile in Auto Profile Selection
ACAU's profile management tab enables you to create and manage up to 16 profiles for the client adapter. These profiles enable you to configure user client adapters in different locations, each of which requires different configuration settings. For example, you may want to set up profiles for users who work in different environments such as at the office, at home, and in public areas such as airports. Once the profiles are created, you save them to the ciscoadminconfig.dat file where they are used when the drivers and ADU are installed.
To open ACAU's profile manager, double-click the Aironet Client Administrator Utility (ACAU) icon on your desktop to open ACAU. Then click the Profile Management tab. The Cisco Aironet Client Administration Utility (Profile Management) window appears
Figure 4-1 shows the beginning Profile Management window.
Figure 4-1 Profile Management Window
The Profile Management window enables you to perform the following profile management tasks:
•Create a new profile
•Modify an existing profile
•Remove a profile
•Import a profile
•Export a profile
•Order profiles
•Auto select profiles
Selecting the New or Modify command button enables you to open the Profile Management windows (listed below). These windows contain parameters that affect a specific aspect of the client adapter:
•General—Prepares the client adapter for use in a wireless network
•Advanced—Controls how the client adapter operates within an infrastructure or ad hoc network
•Security—Controls how a client adapter associates to an access point, authenticates to the wireless network, and encrypts and decrypts data
Table 4-1 enables you to quickly locate instructions for setting each Profile Management window's parameters.
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General |
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Advanced |
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Security |
The Profile Management (General) window (see Figure 4-2) enables you to set parameters that prepare the client adapter for use in a wireless network. This window appears after you select the Profile Management tab and click New or Modify on the ACAU Profile Management window.
Figure 4-2 Profile Management (General) Window
Table 4-2 lists and describes the client adapter's general parameters. Follow the instructions in the table to change any parameter.
Go to the next section to set additional parameters or click OK to return to the ACAU Profile Management window.
The Profile Management (Advanced) window (see Figure 4-3) enables you to set parameters that control how the client adapter operates within an infrastructure or ad hoc network. To open this window, select the Advanced tab from the Profile Management window.
Figure 4-3 Profile Management (Advanced) Window
Table 4-3 lists and describes the client adapter's advanced parameters. Follow the instructions in the table to change any parameters.
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Transmit Power Level |
Defines the power level at which your client adapter transmits. Although the adapter supports up to 100 mW, the maximum transmit power level actually used is limited to the maximum value allowed by your country's regulatory agency (FCC in the U.S., DOC in Canada, ETSI in Europe, TELEC in Japan, etc.). Default: The maximum power level programmed into the client adapter and allowed by your country's regulatory agency |
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Radio Band |
Transmit Power Level |
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802.11b/g |
10, 20, 30, 50, 63, or 100 mW |
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802.11a |
10, 13, 20, 25, or 40 mW |
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Note When the client adapter operates in 802.11g mode, the maximum transmit power may be capped at a lower level than when operating in the 802.11b mode. This is due to 802.11g-specific regulatory limitations in some countries. Note Reducing the transmit power level conserves battery power but decreases radio range. |
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Power Save Mode |
Sets the client adapter to its optimum power consumption setting. |
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Power Save Mode |
Description |
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CAM (Constantly Awake Mode) |
Keeps the client adapter powered up continuously so there is little lag in message response time. Consumes the most power but offers the highest throughput. Is recommended for desktop computers and devices that use AC power. This mode is the only mode available in an ad hoc network. |
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Fast PSP (Power Save Mode) |
Switches between PSP mode and CAM mode, depending on network traffic. This mode switches to CAM when retrieving a large number of packets and switches back to PSP after the packets have been retrieved. Is recommended when power consumption is a concern but you need greater throughput than that allowed by Max PSP. This mode is not available in an ad hoc network. |
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Max PSP (Max Power Saving) |
Causes the access point to buffer incoming messages for the client adapter, which wakes up periodically and polls the access point to see if any buffered messages are waiting for it. The adapter can request each message and then go back to sleep. Conserves the most power but offers the lowest throughput. Is recommended for devices for which power consumption is the ultimate concern (such as small battery-powered devices). This mode is not available in an ad hoc network. |
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Network Type |
Specifies the type of network in which the client adapter is installed. |
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Network Type |
Description |
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Ad Hoc |
Often referred to as peer to peer. Indicates that your wireless network consists of a few wireless devices that are not connected to a wired Ethernet network through an access point. For example, an ad hoc network could be set up between computers in a conference room so users can share information in a meeting. If you haven't entered an SSID, you are prompted to enter a network name when you select Ad Hoc. Clicking Yes to the prompt displays the Profile Editor screen. Enter a network name in the SSID1 window. |
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Infrastructure |
Indicates that the wireless network is connected to a wired Ethernet network through an access point. |
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802.11b Preamble |
Determines whether the client adapter will use both short and long radio headers or only long radio headers. The adapter can use short radio headers only if the access point is also configured to support them and is using them. If any clients associated to an access point are using long headers, then all clients in that cell must also use long headers, even if both this client and the access point have short radio headers enabled. Short radio headers improve throughput performance; long radio headers ensure compatibility with clients and access points that do not support short radio headers. Default: Short & Long Note This parameter is disabled if the Wireless Mode parameter is set to 5 GHz 54 Mbps only. |
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Wireless Mode |
Specifies the frequency and rate at which the client adapter transmits or receives packets to or from access points. Note When more than one option is selected, the client adapter attempts to use the wireless modes in this order: Note If you select 2.4 GHz 11 Mbps, the client adapter can associate to access points containing an 802.11b or 802.11g radio at 802.11b data rates. If you select 2.4 GHz 54 Mbps, the client adapter can associate to access points containing an 802.11b radio at 802.11b data rates or to access points containing an 802.11g radio at 802.11b or 802.11g data rates. Note The client adapter's wireless mode must match that of the access points with which it is to communicate. Otherwise, the client adapter may not be able to associate to them. |
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Wireless Mode When Starting Ad Hoc Network |
Specifies the frequency and rate at which the client adapter transmits or receives packets to or from other clients (in ad hoc mode). Note The client scans the band(s) specified by the Wireless Mode parameter before Note The client adapter's wireless mode must match that of the other clients with which it is to communicate. Otherwise, the client adapter may not be able to associate to them. |
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Channel |
Specifies the channel that the client adapter uses for communications in a 2.4-GHz ad hoc network. The available channels conform to the IEEE 802.11 Standard for your regulatory domain. The channel of the client adapter must be set to match the channel used by the other clients in the wireless network. If the client adapter does not find any other ad hoc adapters, this parameter specifies the channel with which the adapter will start its cell. Example: 1 to 11 (2412 to 2462 MHz) in North America Note This parameter is available only when 2.4 GHz 54/11 Mbps is selected for the Wireless Mode When Starting Ad Hoc Network parameter. When 5 GHz 54 Mbps is selected, the Channel parameter is set to Auto automatically. Note Refer to Appendix A, for a list of channel identifiers, channel center frequencies, and regulatory domains for each channel. |
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802.11 Authentication Mode |
Specifies how the client adapter attempts to authenticate to an access point. Open and shared authentication do not rely on a RADIUS server on your network Options: Auto, Open, or Shared Default: Open |
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Auto |
Causes the client adapter to attempt to authenticate using shared authentication. If it fails, the client adapter then attempts to authenticate using open authentication. |
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Open |
Enables the client adapter, regardless of its WEP settings, to authenticate and attempt to communicate with an access point. However, communication can occur only if the adapter's WEP key matches that of the access point. If the user's adapter is not using WEP, it will not attempt to communicate to an access point that is using WEP and vice versa. |
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Shared |
Enables the client adapter to communicate only with access points that have the same WEP key. During shared key authentication, the access point sends an encrypted challenge packet to the client adapter, which encrypts the packet and sends it back to the access point. The access point attempts to decrypt the encrypted packet and sends an authentication response packet indicating the success or failure of the decryption back to the client adapter. If the packet is successfully encrypted/decrypted, the user is considered to be authenticated. |
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Note Cisco recommends that Auto and Shared not be used because they present a security risk. Note The user's client adapter's 802.11 authentication mode setting must match that of the access points with which it is to communicate. Otherwise, the client adapter may not be able to authenticate to them. Note If this profile is configured for use in an adhoc network or is not configured to use static WEP, this parameter is unavailable, and Open authentication is used. |
If your client adapter is being configured for use in an infrastructure network and you want to specify up to four access points to which the client adapter should attempt to associate, click Preferred APs. The Preferred Access Points window appears (see Figure 4-4).
Figure 4-4 Preferred Access Points Window
Leave the Access Point 1-4 fields blank or enter the MAC addresses of up to four preferred access points to which the client adapter can associate; then click OK. (The MAC address should consist of 12 hexadecimal characters.) If the specified access points are not found or the client adapter roams out of range, the adapter may associate to another access point.
Go to the next section to set security parameters or click OK to return to the ACAU Profile Management window.
The Profile Management (Security) window (see Figure 4-5) enables you to set parameters that control how the client adapter associates to an access point, authenticates to the wireless network, and encrypts and decrypts data. To open this window, select the Security tab from any Profile Management window.
Figure 4-5 Profile Management (Security) Window
This window is different from the other Profile Management windows in that it includes many security features, each of which involves a number of steps. In addition, the security features themselves are complex and need to be understood before they are implemented. Therefore, this section provides an overview of the security features as well as procedures for using them.
You can protect your data as it is transmitted through your wireless network by encrypting it through the use of wired equivalent privacy (WEP) encryption keys. With WEP encryption, the transmitting device encrypts each packet with a WEP key, and the receiving device uses that same key to decrypt each packet.
The WEP keys used to encrypt and decrypt transmitted data can be statically associated with your adapter or dynamically created as part of the EAP authentication process. The information in the "Static WEP Keys" and "EAP (with Dynamic WEP Keys)" sections below can help you to decide which type of WEP keys you want to use. Dynamic WEP keys with EAP offer a higher degree of security than static WEP keys.
WEP keys, whether static or dynamic, are either 40 or 128 bits in length. 128-bit WEP keys offer a greater level of security than 40-bit WEP keys.
Note Refer to the "Additional WEP Key Security Features" section for information on three security features that can make your WEP keys even more secure.
Each device (or profile) within your wireless network can be assigned up to four static WEP keys. If a device receives a packet that is not encrypted with the appropriate key (as the WEP keys of all devices that are to communicate with each other must match), the device discards the packet and never delivers it to the intended receiver.
You do not need to re-enter static WEP keys each time the client adapter is inserted or the Windows device is rebooted because the keys are stored (in an encrypted format for security reasons) in the registry of the Windows device. When the driver loads and reads the client adapter's registry parameters, it also finds the static WEP keys, unencrypts them, and stores them in volatile memory on the adapter.
The Define Pre-Shared Keys window enables you to view the WEP key settings for a particular profile and to assign new WEP keys or overwrite existing WEP keys. Refer to the "Enabling Static WEP" section for instructions.
The standard for wireless LAN security, as defined by IEEE, is called 802.1X for 802.11, or simply 802.1X. An access point that supports 802.1X and its protocol, Extensible Authentication Protocol (EAP), acts as the interface between a wireless client and an authentication server, such as a RADIUS server, to which the access point communicates over the wired network.
Five 802.1X authentication types are available in ADU for use with Windows 2000 or XP:
•EAP-Cisco Wireless (or LEAP)—This authentication type leverages Cisco Key Integrity Protocol (CKIP) and MMH message integrity check (MIC) for data protection. ADU offers a variety of LEAP configuration options, including how a username and password are entered to begin the authentication process.
The username and password are used by the client adapter to perform mutual authentication with the RADIUS server through the access point. The username and password need to be re-entered each time the client adapter is inserted or the Windows device is rebooted unless you configure your adapter to use saved LEAP credentials.
RADIUS servers that support LEAP include Cisco Secure ACS release 2.6 or later, Cisco Access Registrar release 1.7 or later, Funk Software's Steel-Belted RADIUS release 4.1 or later, and Meetinghouse Data Communications' AEGIS release 1.1 or later.
•EAP-FAST—This authentication type (Flexible Authentication via Secure Tunneling) uses a three-phased tunneled authentication process to provide advanced 802.1X EAP mutual authentication.
–Phase 0 enables the client to dynamically provision a protected access credentials (PAC) when necessary. During this phase, a PAC is generated securely between the user and the network.
–Phase 1 uses the PAC to establish a mutually authenticated and secure tunnel between the client and the RADIUS server. RADIUS servers that support EAP-FAST include Cisco Secure ACS version 3.2.3 and later.
–Phase 2 performs client authentication in the established tunnel.
ADU offers a variety of EAP-FAST configuration options, including how and when a username and password are entered to begin the authentication process and whether automatic or manual PAC provisioning is used.
The client adapter uses the username, password, and PAC to perform mutual authentication with the RADIUS server through the access point. The username and password need to be re-entered each time the client adapter is inserted or the Windows device is rebooted unless you configure your adapter to use saved EAP-FAST credentials.
PACs are created by Cisco Secure ACS and are identified by an ID. The user obtains his or her own copy of the PAC from the server, and the ID links the PAC to the profile created in ADU. When manual PAC provisioning is enabled, the PAC is manually copied from the server and imported onto the client device. The following rules govern PAC storage:
–PACs are stored as encrypted data files in either the global or private store on the user's computer.
Note Global PACs are stored on C:\Document and Settings\All Users\Application Data\Cisco\cscostore, and private PACs are stored on C:\Document and Settings\user\
Application Data\Cisco\cscostore.
–Stored PACs cannot be read or modified by any user, including the system administrator.
–If automatic PAC provisioning is enabled and it occurs after the user is logged on, the PAC is stored in the private store of the currently logged-on user. Otherwise, the PAC is stored in the global store.
–PAC files can be added or overwritten using the import feature.
–PAC files can be removed using the delete feature. They are also deleted when you uninstall the client adapter software.
EAP-FAST authentication is designed to support the following user databases over a wireless LAN:
–Cisco Secure ACS internal user database
–Cisco Secure ACS ODBC user database
–Windows NT/2000/2003 domain user database
–LDAP user database
LDAP user databases (such as NDS) support only manual PAC provisioning while the other three user databases support both automatic and manual PAC provisioning.
•EAP-TLS—This authentication type uses a dynamic session-based WEP key derived from the client adapter and RADIUS server to encrypt data. It uses a client certificate for authentication.
RADIUS servers that support EAP-TLS include Cisco Secure ACS release 3.0 or later and Cisco Access Registrar release 1.8 or later.
•PEAP (EAP-GTC)—This PEAP authentication type is designed to support One-Time Password (OTP), Windows NT or 2000 domain, and LDAP user databases over a wireless LAN. It is based on EAP-TLS authentication but uses a password instead of a client certificate for authentication. PEAP (EAP-GTC) uses a dynamic session-based WEP key derived from the client adapter and RADIUS server to encrypt data. If your network uses an OTP user database, PEAP (EAP-GTC) requires you to enter a hardware or software token password to start the EAP authentication process and gain access to the network. If your network uses a Windows NT or 2000 domain user database or an LDAP user database (such as NDS), PEAP (EAP-GTC) requires you to enter your username, password, and domain name in order to start the authentication process.
RADIUS servers that support PEAP (EAP-GTC) authentication include Cisco Secure ACS release 3.1 or later.
•PEAP (EAP-MSCHAP V2)—This PEAP authentication type is based on EAP-TLS authentication but uses a password instead of a client certificate for authentication. PEAP (EAP-MSCHAP V2) uses a dynamic session-based WEP key derived from the client adapter and RADIUS server to encrypt data.
RADIUS servers that support PEAP (EAP-MSCHAP V2) authentication include Cisco Secure ACS release 3.2 or later.
When you configure your access point as indicated in Table 4-4 and configure your client adapter for LEAP, EAP-FAST, EAP-TLS, PEAP (EAP-GTC), or PEAP (EAP-MSCHAP V2), authentication to the network occurs in the following sequence:
1. The client associates to an access point and begins the authentication process.
Note The client does not gain full access to the network until authentication between the client and the RADIUS server is successful.
2. Communicating through the access point, the client and RADIUS server complete the authentication process, with the password (LEAP and PEAP), password and PAC (EAP-FAST), or certificate (EAP-TLS) being the shared secret for authentication. The password and PAC are never transmitted during the process.
3. If authentication is successful, the client and RADIUS server derive a dynamic, session-based WEP key that is unique to the client.
4. The RADIUS server transmits the key to the access point using a secure channel on the wired LAN.
5. For the length of a session, or time period, the access point and the client use this key to encrypt or decrypt all unicast packets (and broadcast packets if the access point is set up to do so) that travel between them.
Refer to the following pages for instructions on enabling these EAP types:
•LEAP, page 4-26
•EAP-FAST, page 4-29
•EAP-TLS, PEAP (EAP-GTC), or PEAP (EAP-MSCHAP V2), page 4-36
Note Refer to the IEEE 802.11 Standard for more information on 802.1X authentication and to the following URL for additional information on RADIUS servers: http://www.cisco.com/univercd/cc/td/doc/product/software/ios120/12cgcr/secur_c/scprt2/scrad.htm
Wi-Fi Protected Access (WPA) and WPA2 are standards-based security solutions from the Wi-Fi Alliance that provide data protection and access control for wireless LAN systems. WPA is compatible with the IEEE 802.11i standard but was implemented prior to the standard's ratification; WPA2 is the Wi-Fi Alliance's implementation of the ratified IEEE 802.11i standard.
WPA uses Temporal Key Integrity Protocol (TKIP) and message integrity check (MIC) for data protection while WPA2 uses the stronger Advanced Encryption Standard encryption algorithm using Counter Mode with Cipher Block Chaining Message Authentication Code Protocol (AES-CCMP). Both WPA and WPA2 use 802.1X for authenticated key management.
Both WPA and WPA2 support two mutually exclusive key management types: WPA/WPA2 and WPA/WPA2 passphrase (also known as WPA pre-shared key or WPA-PSK). Using WPA or WPA2, clients and the authentication server authenticate to each other using an EAP authentication method, and the client and server generate a pairwise master key (PMK). The server generates the PMK dynamically and passes it to the access point. Using WPA or WPA2 passphrase, however, you configure a passphrase (or pre-shared key) on both the client and the access point, and that passphrase is used as the PMK.
Refer to the following pages for instructions on enabling these WPA variations:
•WPA/WPA2 Passphrase, page 4-25
•LEAP with WPA/WPA2, page 4-26
•EAP-FAST with WPA/WPA2, page 4-17
•EAP-TLS with WPA/WPA2, page 4-37
•PEAP (EAP-GTC) with WPA/WPA2, page 4-40
•PEAP (EAP-MSCHAP V2) with WPA/WPA2, page 4-43
Note WPA must also be enabled on the access point. To use WPA, access points must use Cisco IOS Release 12.2(11)JA or later. To use WPA2, access points must use Cisco IOS Release 12.3(2)JA or later. Refer to the documentation for your access point for instructions on enabling this feature.
Some applications that run on a client device may require fast roaming between access points. Voice applications, for example, require it to prevent delays and gaps in conversation. CCKM fast secure roaming is enabled automatically in Install Wizard 1.0 or later for LEAP-enabled CB21AG and PI21AG clients using WPA/WPA2 and in Install Wizard 2.0 or later for CB21AG and PI21AG clients using WPA/WPA2/CCKM with EAP-FAST, EAP-TLS, PEAP (EAP-GTC), or PEAP (EAP-MSCHAP V2). However, this feature must be enabled on the access point.
During normal operation, EAP-enabled clients mutually authenticate with a new access point by performing a complete EAP authentication, including communication with the main RADIUS server. However, when you configure your wireless LAN for CCKM fast secure roaming, EAP-enabled clients securely roam from one access point to another without the need to reauthenticate with the RADIUS server. Using :Cisco Centralized Key Management (CCKM), an access point that is configured for wireless domain services (WDS) uses a fast rekeying technique that enables Cisco client devices to roam from one access point to another typically in under 150 milliseconds (ms). CCKM fast secure roaming ensures that there is no perceptible delay in time-sensitive applications such as wireless Voice over IP (VoIP), enterprise resource planning (ERP), or Citrix-based solutions.
Note If you want to enable CCKM fast secure roaming on the client adapter, you must choose
the :WPA/WPA2/CCKM security option on the Profile Management (Security) window, regardless
of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
Note Access points must use Cisco IOS Release 12.2(11)JA or later to enable CCKM fast secure roaming. Refer to the documentation for your access point for instructions on enabling this feature.
Note The Microsoft Wireless Configuration Manager and the Microsoft 802.1X supplicant, if installed, must be disabled in order for CCKM fast secure roaming to operate correctly. If your computer is running Windows XP and you chose to configure your client adapter using ADU during installation, these features should already be disabled. Similarly, if your computer is running Windows 2000, the Microsoft 802.1X supplicant, if installed, should already be disabled.
The CB21AG and PI21AG client adapters and the following access point firmware versions support a feature that is designed to detect access points that fail LEAP authentication:
•12.00T or later (access points running VxWorks)
•Cisco IOS Release 12.2(4)JA or later (1100 series access points)
•Cisco IOS Release 12.2(8)JA or later (1200 series access points)
•Cisco IOS Release 12.2(13)JA or later (350 series access points)
An access point running one of these firmware versions records a message in the system log when the client discovers and reports another access point in the wireless network that has failed LEAP authentication.
The process takes place as follows:
1. A client with a LEAP profile attempts to associate to access point A.
2. Access point A does not handle LEAP authentication successfully, perhaps because the access point does not understand LEAP or cannot communicate to a trusted LEAP authentication server.
3. The client records the MAC address for access point A and the reason why the association failed.
4. The client associates successfully to access point B.
5. The client sends the MAC address of access point A and the reason code for the failure to access point B.
6. Access point B logs the failure in the system log.
Note This feature does not need to be enabled on the client adapter or access point; it is supported automatically by both devices. However, the access points must use the specified firmware versions or later.
The three security features discussed in this section (MIC, TKIP, and broadcast key rotation) are designed to prevent sophisticated attacks on your wireless network's WEP keys. These features do not need to be enabled on the client adapter; they are supported automatically in the client adapter software. However, they must be enabled on the access point.
Note Refer to the documentation for your access point for instructions on enabling these security features.
MIC prevents bit-flip attacks on encrypted packets. During a bit-flip attack, an intruder intercepts an encrypted message, alters it slightly, and retransmits it, and the receiver accepts the retransmitted message as legitimate. The MIC adds a few bytes to each packet to make the packets tamper-proof.
The Advanced Status window indicates if MIC is being used, and the Advanced Statistics window provides MIC statistics.
This feature, also referred to as WEP key hashing, defends against an attack on WEP in which the intruder uses the initialization vector (IV) in encrypted packets to calculate the WEP key. TKIP removes the predictability that an intruder relies on to determine the WEP key by exploiting IVs. It protects both unicast and broadcast WEP keys.
Note TKIP is enabled automatically when WPA is enabled, and it is disabled when WPA is disabled.
When you enable broadcast WEP key rotation, the access point provides a dynamic broadcast WEP key and changes it at the interval you select.
In order to use any of the security features discussed in this section, both your client adapter and the access point to which it will associate must be set appropriately. Table 4-4 indicates the client and access point settings required for each security feature. This chapter provides specific instructions for enabling the security features on your client adapter. Refer to the documentation for your access point for instructions on enabling any of these features on the access point.
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Static WEP with open authentication |
Choose Open authentication and Pre-Shared Key (Static WEP) and create a WEP key |
Set up and enable WEP and enable Open Authentication for the SSID |
Static WEP with shared key authentication |
Choose Shared authentication and Pre-Shared Key (Static WEP) and create a WEP key |
Set up and enable WEP and enable Shared Key Authentication for the SSID |
WPA or WPA2 passphrase |
Choose WPA/WPA2 Passphrase and enter the passphrase |
Choose a cipher suite, enable Open Network-EAP and Open with EAP Authentication and WPA for the SSID, and enter a WPA pre-shared key Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
LEAP authentication |
Choose 802.1x and LEAP; then set LEAP settings |
Set up and enable WEP and enable Network-EAP Authentication for the SSID |
LEAP authentication with WPA or WPA2 |
Choose WPA/WPA2/CCKM and LEAP; then set LEAP settings |
For WPA, choose a cipher suite that includes TKIP and enable Network-EAP Authentication and WPA for the SSID For WPA2, choose a cipher suite that includes AES-CCMP and enable Network-EAP Authentication and WPA for the SSID Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
EAP-FAST authentication |
Choose 802.1x and EAP-FAST, set EAP-FAST settings, and enable automatic provisioning or import a PAC file |
Set up and enable WEP and enable both Network-EAP and Open with EAP Authentication for the SSID |
EAP-FAST authentication with WPA or WPA2 |
Choose WPA/WPA2/CCKM and EAP-FAST, set EAP-FAST settings, and enable automatic provisioning or import a PAC file |
For WPA, choose a cipher suite that includes TKIP and enable both Network-EAP and Open with EAP Authentication as well as WPA for the SSID For WPA2, choose a cipher suite that includes AES-CCMP and enable both Network-EAP and Open with EAP Authentication as well as WPA for the SSID Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
EAP-TLS authentication |
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If using ADU to configure card |
Choose 802.1x and EAP-TLS; then set EAP-TLS settings |
Set up and enable WEP and enable Open with EAP Authentication for the SSID and specify the use of EAP |
If using Windows XP to configure card |
Choose Enable network access control using IEEE 802.1X and Smart Card or other Certificate as the EAP Type |
Set up and enable WEP and enable Open with EAP Authentication for the SSID and specify the use of EAP |
EAP-TLS authentication with WPA or WPA2 |
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If using ADU to configure card |
Choose WPA/WPA2/CCKM and EAP-TLS; then set EAP-TLS settings |
For WPA, choose a cipher suite that includes TKIP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP For WPA2, choose a cipher suite that includes AES-CCMP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
If using Windows XP to configure card |
Enable WPA and choose Enable network access control using IEEE 802.1X and Smart Card or other Certificate as the EAP Type Note WPA2 is not yet available in the Microsoft Wireless Configuration Manager in Windows XP. |
For WPA, choose a cipher suite that includes TKIP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
PEAP authentication |
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If using ADU to configure card |
Choose 802.1x and PEAP (EAP-GTC) or PEAP (EAP-MSCHAP V2); then set PEAP settings |
Set up and enable WEP and enable Open with EAP Authentication for the SSID and specify the use of EAP |
If using Windows XP to configure card |
Choose Enable network access control using IEEE 802.1X and PEAP as the EAP Type |
Set up and enable WEP and enable Open with EAP Authentication for the SSID and specify the use of EAP |
PEAP authentication with WPA or WPA2 |
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If using ADU to configure card |
Choose WPA/WPA2/CCKM and PEAP (EAP-GTC) or PEAP (EAP-MSCHAP V2); then set PEAP settings |
For WPA, choose a cipher suite that includes TKIP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP For WPA2, choose a cipher suite that includes AES-CCMP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
If using Windows XP to configure card |
Enable WPA and choose Enable network access control using IEEE 802.1X and PEAP as the EAP Type Note WPA2 is not yet available in the Microsoft Wireless Configuration Manager in Windows XP. |
For WPA, choose a cipher suite that includes TKIP; then enable WPA and Open with EAP Authentication for the SSID and specify the use of EAP Note To allow both WPA and non-WPA clients to use the SSID, enable optional WPA. |
Fast roaming (CCKM) |
Choose WPA/WPA2/CCKM and LEAP, EAP-FAST, EAP-TLS, PEAP (EAP-GTC), or PEAP (EAP MSCHAP V2); then set the EAP authentication settings Note If you want to enable CCKM, you must choose WPA/WPA2/CCKM, regardless of whether you want the client adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2. |
Use Cisco IOS Release 12.2(11)JA or later, choose a cipher suite that is compatible with CCKM, enable both Network-EAP and Open with EAP Authentication and CCKM for the SSID, and configure for participation in wireless domain services (WDS) Note To allow both 802.1X clients and non-802.1X clients to use the SSID, enable optional CCKM. |
Reporting access points that fail LEAP authentication |
No settings required; automatically enabled |
No settings required; automatically enabled in the firmware versions listed on page 4-18. |
MIC |
No settings required; automatically enabled |
Set up and enable WEP with full encryption, set MIC to MMH or check the Enable MIC check box, and set Use Aironet Extensions to Yes |
TKIP |
No settings required; automatically enabled |
Set up and enable WEP, set TKIP to Cisco or check the Enable Per Packet Keying check box, and set Use Aironet Extensions to Yes |
Broadcast key rotation |
Enable LEAP, EAP-FAST, EAP-TLS, PEAP (EAP-GTC), or PEAP (EAP-MSCHAP V2) |
Set up and enable WEP and set Broadcast WEP Key Rotation Interval to any value other than zero (0) |
Follow the steps below to enable static WEP for this profile.
Step 1 Select Pre-Shared Key (Static WEP) on the Profile Management (Security) window.
Step 2 Click Configure. The Define Pre-Shared Keys window appears (see Figure 4-6).
Figure 4-6 Define Pre-Shared Keys Window
Step 3 Select one of the following WEP key entry methods:
•Hexadecimal (0-9, A-F)—Specifies that the WEP key will be entered in hexadecimal characters, which include 0-9, A-F, and a-f.
•ASCII Text (all keyboard characters)—Specifies that the WEP key will be entered in ASCII text, which includes alpha characters, numbers, and punctuation marks.
Note ASCII text WEP keys are not supported on the Cisco Aironet 1200 Series Access Points, so you must select the Hexadecimal (0-9, A-F) option if you are planning to use your client adapter with these access points.
Step 4 For the static WEP key that you are entering (1, 2, 3, or 4), select a WEP key size of 40 or 128 on the right side of the window. 128-bit client adapters can use 40- or 128-bit keys, but 40-bit adapters can use only 40-bit keys. If 128 bit is not supported by the client adapter, this option is unavailable.
Step 5 Obtain the static WEP key from your system administrator and enter it in the blank field for the key you are creating. Follow the guidelines below to enter a new static WEP key:
•WEP keys must contain the following number of characters:
–10 hexadecimal characters or 5 ASCII text characters for 40-bit keys
Example: 5A5A313859 (hexadecimal) or ZZ18Y (ASCII)
–26 hexadecimal characters or 13 ASCII text characters for 128-bit keys
Example: 5A583135333554595549333534 (hexadecimal) or ZX1535TYUI354 (ASCII)
Note You must enter hexadecimal characters if the user's client adapter is used with Cisco Aironet 1200 Series Access Points.
•The user's client adapter's WEP key must match the WEP key used by the access point (in infrastructure mode) or clients (in ad hoc mode) with which you are planning to communicate.
•When setting more than one WEP key, the keys must be assigned to the same WEP key numbers for all devices. For example, WEP key 2 must be WEP key number 2 on all devices. When multiple WEP keys are set, they must be in the same order on all devices.
Note All existing static WEP keys are displayed as bullets for security reasons. If you need to modify a WEP key, simply click in the WEP key field, delete the bullets, and enter a new key. If you modify a WEP key be sure to save the configuration file to make the modification effective.
Step 6 Click the Transmit Key button to the left of the key you want to use to transmit packets. Only one WEP key can be selected as the transmit key.
Step 7 Click OK twice to save your changes and return to the Cisco Aironet Administration Utility (Profile Management) window.
Step 8 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 9 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Follow the steps below to enable WPA passphrase (also known as WPA Pre-Shared Key) for this profile.
Note To use WPA passphrase, client adapters must use the software included in Install Wizard 1.0 or later and access points must use Cisco IOS Release 12.2(11)JA or later. To use WPA2 passphrase, client adapters must use the software included in Install Wizard 2.0 or later and access points must use Cisco IOS Release 12.3(2)JA or later.
Step 1 Select WPA Passphrase on the Profile Management (Security) window.
Step 2 Click Configure. The Define WPA Pre-Shared Key window appears (see Figure 4-7).
Figure 4-7 Define WPA Pre-Shared Key Window
Step 3 Obtain the WPA/WPA2 passphrase for the access point (in an infrastructure network) or other clients (in an ad hoc network) from your system administrator and enter it in the WPA/WPA2 passphrase field. Follow the guidelines below to enter a passphrase:
•WPA/WPA2 passphrases must contain 8 to 63 ASCII text characters or 64 hexadecimal characters.
•Your client adapter's WPA/WPA2 passphrase must match the passphrase used by the access point with which you are planning to communicate.
Step 4 Click OK to save the passphrase and return to the Profile Management (Security) window.
Step 5 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" section in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 6 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Before you can enable LEAP authentication, your network devices must meet the following requirements:
•To use LEAP authentication with WPA2, client adapters must use the software included in Install Wizard 2.0 or later.
•Access points to which the user's client adapter may attempt to authenticate must use the following firmware versions or greater: 11.23T (access points running VxWorks), Cisco IOS release 12.2(4)JA (1100 series access points), Cisco IOS release 12.2(8)JA (1200 series access points), or Cisco IOS release 12.2(13)JA (350 series access points).
Note To use WPA or CCKM, access points must use Cisco IOS Release 12.2(11)JA or later. To use WPA2, access points must use Cisco IOS Release 12.2(8)JA or later. To use the Reporting Access Points That Fail LEAP Authentication feature, access points must use the firmware versions listed on page 19.
Note If you want to enable CCKM on the client adapter, you must choose the WPA/WPA2/CCKM security option, regardless of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
•All necessary infrastructure devices (for example, access points, servers, etc.) must be properly configured for LEAP authentication.
Follow the steps below to enable LEAP authentication for this profile.
Step 1 Perform one of the following on the Profile Management (Security) window:
•If you want to enable LEAP without WPA or WPA2, choose 802.1x under Set Security Options and LEAP in the 802.1x EAP Type drop-down box.
•If you want to enable LEAP with WPA or WPA2, choose WPA/WPA2/CCKM under Set Security Options and LEAP in the WPA/WPA2/CCKM EAP Type drop-down box.
Note Refer to the "WPA and WPA2" section or additional information.
Step 2 Click Configure. The LEAP Settings window appears (see Figure 4-8).
Figure 4-8 LEAP Settings Window
Step 3 Select one of the following LEAP username and password setting options:
•Use Temporary User Name and Password—Requires the user to enter the LEAP username and password each time the computer reboots in order to authenticate and gain access to the network.
•Use Saved User Name and Password—Does not require the user to enter a LEAP username and password each time the computer reboots. Authentication occurs automatically as needed using a saved username and password (which are registered with the RADIUS server).
Step 4 Perform one of the following:
•If you selected Use Temporary User Name and Password in Step 3, select one of the following options:
–Use Windows User Name and Password—Causes the user's Windows username and password to also serve as the LEAP username and password, giving the user only one set of credentials to remember. After the user logs in, the LEAP authentication process begins automatically. This option is the default setting.
–Automatically Prompt for User Name and Password—Requires you to enter a separate LEAP username and password (which are registered with the RADIUS server) in addition to your regular Windows login in order to start the LEAP authentication process.
–Manually Prompt for LEAP User Name and Password—Requires the user to manually invoke the LEAP authentication process as needed using the Manual LEAP Login option in the Action drop-down menu or ASTU. The user is not prompted to enter a LEAP username and password during the Windows login. This option might be used to support a software token one-time password system or other systems that require additional software that is not available at login.
•If you selected Use Saved User Name and Password in Step 3, follow the steps below:
Step 5 If the user will work in an environment with multiple domains and therefore want the Windows login domain to be passed to the RADIUS server along with the username, check the Include Windows Logon Domain with User Name check box. The default setting is checked.
Step 6 If you want to force the client adapter to disassociate after you log off so that another user cannot gain access to the wireless network using your credentials, check the No Network Connection Unless User Is Logged In check box. The default setting is checked.
Step 7 In the Authentication Timeout Value field, select the amount of time (in seconds) before a LEAP authentication is considered to be failed and an error message appears.
Range: 30 to 500 seconds
Default: 90 seconds
Step 8 Click OK to save your changes and return to the Cisco Aironet Client Administration Utility Profile Management (Security) window.
Step 9 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note This parameter is available only if the 802.1x security option is selected.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 10 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" section in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 11 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Step 12 Refer to "Enabling LEAP" section for instructions on authenticating using LEAP.
Before you can enable EAP-FAST authentication, your network devices must meet the following requirements:
•To use EAP-FAST authentication with WPA2, client adapters must use the software included in Install Wizard 2.0 or later.
•Access points to which your client adapter may attempt to authenticate must use the following firmware versions or later: 11.23T (340 and 350 series access points), 11.54T (1200 series access points), or Cisco IOS Release 12.2(4)JA (1100 series access points).
Note To use WPA or CCKM, access points must use Cisco IOS Release 12.2(11)JA or later. To use WPA2, access points must use Cisco IOS Release 12.3(2)JA or later. To use the Reporting Access Points That Fail LEAP or EAP-FAST Authentication feature, access points must use the firmware versions listed on page 4-18.
Note The access point to which your client adapter will associate must be configured for both Network-EAP and Open authentication.
•All necessary infrastructure devices (such as access points, servers, gateways and user databases) must be properly configured for EAP-FAST authentication.
Follow these steps to enable EAP-FAST authentication for this profile.
Step 1 Perform one of the following on the Profile Management (Security) window:
•If you want to enable EAP-FAST without WPA or WPA2, choose 802.1x under Set Security Options and EAP-FAST in the 802.1x EAP Type drop-down box.
•If you want to enable EAP-FAST with WPA or WPA2, choose WPA/WPA2/CCKM under Set Security Options and EAP-FAST in the WPA/WPA2/CCKM EAP Type drop-down box.
Note If you want to enable CCKM on the client adapter, you must choose the WPA/WPA2/CCKM security option, regardless of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
Note Refer to the "WPA and WPA2" section for additional information.
Step 2 Click Configure. The EAP-FAST Settings window appears (see Figure 4-9).
Figure 4-9 EAP-FAST Settings Window
Step 3 Choose one of the following EAP-FAST username and password setting options:
•Use Temporary User Name and Password—Requires you to enter the EAP-FAST username and password each time the computer reboots in order to authenticate and gain access to the network.
•Use Saved User Name and Password—Does not require you to enter an EAP-FAST username and password each time the computer reboots. Authentication occurs automatically as needed using a saved username and password (which are registered with the RADIUS server).
Step 4 Perform one of the following:
•If you chose Use Temporary User Name and Password in Step 3, choose one of the following options:
–Use Windows User Name and Password—Causes your Windows username and password to also serve as your EAP-FAST username and password, giving you only one set of credentials to remember. After you log in, the authentication process begins automatically. This option is the default setting.
–Automatically Prompt for User Name and Password—Requires you to enter a separate EAP-FAST username and password (which are registered with the RADIUS server) in addition to your regular Windows login in order to start the authentication process.
–Manually Prompt for User Name and Password—Requires you to manually invoke the EAP-FAST authentication process as needed using the Manual Login option in the Action drop-down menu or ASTU. You are not prompted to enter an EAP-FAST username and password during the Windows login. This option might be used to support a software token one-time password system or other systems that require additional software that is not available at login.
•If you chose Use Saved User Name and Password in Step 3, follow these steps:
Step 5 If you work in an environment with multiple domains and therefore want your Windows login domain to be passed to the RADIUS server along with your username, check the Include Windows Logon Domain with User Name check box. The default setting is checked.
Note If you chose to use a saved username and password but do not check the Include Windows Logon Domain with User Name check box, the saved domain name is not passed to the RADIUS server.
Step 6 If you want to force the client adapter to disassociate after you log off so that another user cannot gain access to the wireless network using your credentials, check the No Network Connection Unless User Is Logged In check box. The default setting is checked.
Step 7 In the Authentication Timeout Value field, choose the amount of time (in seconds) before an EAP-FAST authentication attempt is considered to be failed and an error message appears.
Range: 30 to 500 seconds
Default: 90 seconds
Step 8 Perform one of the following:
•If you want to enable automatic PAC provisioning, make sure the Allow Automatic PAC Provisioning for this Profile check box is checked. A protected access credentials (PAC) is obtained automatically as needed (for instance, when a PAC expires, when the client adapter accesses a different server, when the EAP-FAST username cannot be matched to a previously provisioned PAC, etc.). This is the default setting.
•If you want to enable manual PAC provisioning, uncheck the Allow Automatic PAC Provisioning for this Profile check box. This option requires you to choose a PAC authority or manually import a PAC file.
Note LDAP user databases support only manual PAC provisioning while Cisco Secure ACS internal, Cisco Secure ODBC, and Windows NT/2000/2003 domain user databases support both automatic and manual PAC provisioning.
Note Provisioning occurs only upon initial negotiation of the PAC or upon PAC expiration. After the PAC is provisioned, it serves as the per-user key by which authentication transactions are secured.
Step 9 From the Select a PAC Authority To Use with This Profile drop-down box, highlight the PAC authority that is associated with the network defined by the profile's SSID. The list contains the names of all the authentication servers from which you have previously provisioned a PAC.
If the PAC authority drop-down box is empty or does not contain the name of a desired PAC authority, go to Step 10 to import a PAC file.
Note This step is required for manual PAC provisioning but optional for automatic PAC provisioning. If automatic provisioning is enabled, automatic provisioning will be initiated during the authentication process of the EAP-FAST profile if no PAC authority was selected, the PAC could not be found, or the specified PAC does not match the server ID.
Step 10 If necessary, follow these steps to import a PAC file:
a. Click Select More. The Select EAP-FAST PAC window appears (see Figure 4-10).
Figure 4-10 Select EAP-FAST PAC Window
b. Choose one of these PAC store options to determine where the imported PAC file will be stored and by whom it will be accessible:
•Global—PACs that are stored in the global PAC store can be accessed and used by any user at any logon stage. Global PACs are available before or during logon or after the user is logged off if the profile is not configured with the No Network Connection Unless User Is Logged In option.
•Private—PACs that are stored in the private store can be accessed and used only by the user who provisioned them or the system administrator. They are not accessible until the user is logged onto the local system. This is the default option.
Note The PACs are stored as encrypted data files on your computer and cannot be read by any user. Global PACs are stored on C:\Document and Settings\All Users\Application Data\Cisco\cscostore, and private PACs are stored on C:\Document and Settings\user\
Application Data\Cisco\cscostore.
c. Click Import. The Import EAP-FAST PAC File window appears (see Figure 4-11).
Figure 4-11 Import EAP-FAST PAC File Window
d. Find the location of the PAC file in the Look in box. The default location is C:\Program Files\Cisco Aironet.
e. Click the PAC file (*.pac) so that it appears in the File name box at the bottom of the window.
Note The filename and extension of a PAC file is determined by the PAC authority that issues it, but the standard file extension is pac.
f. Click Open.
g. If the Enter Password window appears, enter the PAC file password, which can be obtained from your system administrator, and click OK.
Note PAC file passwords are optional. The PAC authority determines whether to issue PAC files that require user-supplied passwords. Nevertheless, all PAC files (even those without passwords) are encrypted and protected. PAC file passwords are different from EAP-FAST passwords and need to be entered only once, at the time a PAC is imported.
h. If you try to import a PAC file with the same PAC ID as a previously imported PAC file, you are asked if you want to update the existing PAC. If you click Yes, the existing PAC is replaced by the new one from the imported file.
i. If the PAC file was imported successfully, the following message appears: "EAP-FAST PAC file was imported and ready for use." Click OK to return to the Select EAP-FAST PAC window.
j. The imported PAC now appears in the Select the PAC list on the Select EAP-FAST PAC window. Click OK to return to the EAP-FAST Settings window.
k. The name of the PAC authority that issued the PAC now appears in the PAC authority drop-down box on the EAP-FAST Settings window. Select the desired PAC authority from the list.
Step 11 Click OK to save your settings and return to the Profile Management (Security) window.
Note If you selected a private PAC and the No Network Connection Unless User Is Logged In check box is unchecked, a message appears indicating that the PAC may not be accessible during the domain logon process or when you are logged off. If you want a copy of the PAC to be added to the global store so that it will be available when you are not logged on, click Yes. If you do not want a copy of the PAC to be added to the global store, click No; then click OK when a message appears indicating that you may need to later reconfigure your profile to use a global PAC if you experience wireless connection problems during domain logon or when you are not logged on.
Step 12 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note This parameter is available only if the 802.1x security option is selected.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 13 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" section in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 14 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Step 15 Refer to Chapter 6 for instructions on authenticating using EAP-FAST.
Follow these steps if you ever want to remove a manually provisioned PAC file from storage.
Step 1 On the Select EAP-FAST PAC window, highlight the PAC file in the Select the PAC list that you want to remove from storage.
Step 2 Click Delete.
Step 3 When a message appears asking you to confirm your decision, click Yes. The PAC file is removed from the Select the PAC list.
Before you can enable EAP-TLS or PEAP authentication, the user's network devices must meet the following requirements:
•The user must have a valid Windows username and password, and the password cannot be blank.
•The appropriate certificates must be installed on your computer. EAP-TLS requires both a Certificate Authority (CA) certificate and a user certificate while PEAP requires only a CA certificate.
Note Contact your system administrator if you need help obtaining and importing the necessary certificates.
•To support EAP-TLS machine authentication with machine credentials:
–A machine certificate must be obtained from the server, and client machine access must be enabled on the server.
–Permissions for the MachineKeys folder, which stores the certificate pair keys for both the computer and users, must be set correctly. Refer to Microsoft knowledgebase article Q278381 for information on correctly setting up folder permissions:
http://support.microsoft.com/default.aspx?scid=kb;en-us;Q278381
Note If you ever change permissions on higher-level directories and those settings are applied to all subdirectories, you may need to reset the permissions for the MachineKeys folder.
•To use WPA2 with EAP-TLS or PEAP authentication, client adapters must use the software included in Install Wizard 2.0 or later.
•Access points to which the user's client adapter may attempt to authenticate must use the following firmware versions or greater: 12.00T (access points running VxWorks), Cisco IOS release 12.2(4)JA (1100 series access points), Cisco IOS release 12.2(8)JA (1200 series access points), or Cisco IOS release 12.2(13)JA (350 series access points).
Note To use WPA or CCKM, access points must use Cisco IOS Release 12.2(11)JA or later. To use WPA2, access points must use Cisco IOS Release 12.3(2)JA or later.
•All necessary infrastructure devices (such as access points, servers, gateways, user databases, etc.) must be properly configured for the authentication type you plan to enable on the client.
Follow the instructions in one of the sections below to enable EAP-TLS or PEAP authentication for this profile:
•Enabling EAP-TLS, page 37
•Enabling PEAP (EAP-GTC), page 40
•Enabling PEAP (EAP-MSCHAP V2), page 43
•Enabling PEAP (EAP-MSCHAP V2) machine authentication with machine certificates, page 46
Follow the steps below to enable EAP-TLS authentication for this profile.
Step 1 Perform one of the following on the Profile Management (Security) window:
•If you want to enable EAP-TLS without WPA, select 802.1x under Set Security Options and EAP-TLS in the 802.1x EAP Type drop-down box.
•If you want to enable EAP-TLS with WPA or WPA2, select WPA/WPA2/CCKM under Set Security Options and EAP-TLS in the WPA/WPA2/CCKM EAP Type drop-down box.
Note If you want to enable CCKM on the client adapter, you must choose the WPA/WPA2/CCKM security option, regardless of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
Note Refer to the "WPA and WPA2" section for additional information.
Step 2 Click Configure. The Define Certificate window appears (see Figure 4-12).
Figure 4-12 Define Certificate Window
Step 3 Check the Use Machine Information For Domain Logon check box if you want the client to attempt to log into a domain using machine authentication with a machine certificate and machine credentials rather than user authentication. Doing so enables your computer to connect to the network prior to user logon. The default setting is unchecked.
Note If you do not check the Use Machine Information For Domain Logon check box, machine authentication is not performed. Authentication does not occur until you log on.
Step 4 If you checked the Use Machine Information For Domain Logon check box in the previous step, the Always Do User Authentication check box at the bottom of the window becomes active. Perform one of the following:
•Check the Always Do User Authentication check box if you want the client to switch from using machine authentication to using user authentication after you log on using your username and password. This is the default setting.
•Uncheck the Always Do User Authentication check box if you want the client to continue to use machine authentication after your computer logs into the domain.
Step 5 Choose your server certificate in the Select a Certificate drop-down box.
Step 6 Choose the certificate authority from which the server certificate was downloaded in the Trusted Root Certification Authorities drop-down box.
Step 7 Perform one of the following:
•Leave the Server/Domain Name field blank to allow the client to accept a certificate from any server that supplies a certificate signed by the certificate authority listed in the Trusted Root Certification Authorities drop-down box. This is the recommended option.
•In the Server/Domain Name field, enter the domain name of the server from which the client will accept a certificate.
Step 8 If the Login Name field is not filled in automatically, enter your username in this format: username@domain (for example, jsmith@acs-test.cisco.com).
Step 9 Click OK to save your settings and return to the Profile Management (Security) window.
Step 10 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note This parameter is available only if the 802.1x security option is selected.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 11 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" section in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 12 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Follow the steps below to enable PEAP (EAP-GTC) for this profile.
Step 1 Perform one of the following:
•If you want to enable PEAP (EAP-GTC) without WPA or WPA2, select 802.1x under Set Security Options and PEAP (EAP-GTC) in the 802.1x EAP Type drop-down box.
•If you want to enable PEAP (EAP-GTC) with WPA or WPA2, select WPA/WPA2/CCKM under Set Security Options and PEAP (EAP-GTC) in the WPA/WPA2/CCKM EAP Type drop-down box.
Note If you want to enable CCKM on the client adapter, you must choose the WPA/WPA2/CCKM security option, regardless of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
Note Refer to the "WPA and WPA2" section for additional information.
Step 2 Click Configure. The Define PEAP (EAP-GTC) Configuration window appears (see Figure 4-13).
Figure 4-13 Define PEAP (EAP-GTC) Configuration Window
Step 3 Check the Use Machine Information For Domain Logon check box if you want the client to attempt to log into a domain using machine authentication with user credentials rather than user authentication. Doing so enables your computer to connect to the network prior to user logon. The default setting is checked.
Note If you do not check the Use Machine Information For Domain Logon check box, machine authentication is not performed. Authentication does not occur until you log on.
Step 4 Choose the certificate authority from which the server certificate was downloaded in the Trusted Root Certification Authorities drop-down box.
Step 5 Select either Token or Static Password, depending on the user' user database.
Note If you select Token, you must use a hardware token device or the Secure Computing SofToken program (version 1.3 or later) to obtain the one-time password and enter the password when prompted during the authentication process. Secure Computing PremierAccess version 3.1.1 or later is the only supported token server.
Step 6 Perform one of the following to specify the username that will be used for inner PEAP tunnel authentication:
•If you want your Windows username to also serve as your PEAP username, check the Use Windows User Name check box. This option gives you only one username to remember.
Note If you chose the Static Password option, the check box reads Use Windows User Name and Password.
•If you want to enter a separate PEAP username (which is registered with the RADIUS server) in addition to your regular Windows username in order to start the PEAP authentication process, enter your PEAP username in the User Name field.
Note Your Windows username is filled in automatically. Simply delete your Windows username and enter your separate PEAP username.
Step 7 If you entered a PEAP username in the previous step and chose the Static Password option, enter your PEAP authentication password (which is registered with the RADIUS server) in both the Password and Confirm Password fields.
Step 8 If the Use Windows User Name and Password check box is unchecked and you want to implement added security by further refining the network certificate that will be accepted and controlling the string used to set up the outer PEAP tunnel, follow these steps:
a. Click Advanced. The Advanced Configuration window appears (see Figure 4-14).
Figure 4-14 Advanced Configuration Window
b. Leave the Specific Server or Domain field blank to allow the client to accept a certificate from any server that supplies a certificate signed by the certificate authority listed in the Trusted Root Certification Authorities drop-down box on the Define PEAP (EAP-GTC) Configuration window (this is the recommended option) or enter the domain name of the server from which the client will accept a certificate.
c. If the Login Name field is not filled in automatically, enter your username with nothing after it (for example, jsmith).
d. Click OK to save your settings.
Step 9 Click OK twice to save your settings and return to the Cisco Aironet Administration Utility (Profile Management) window.
Step 10 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note This parameter is available only if the 802.1x security option is selected.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 11 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG) Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 12 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
Follow the steps below to enable PEAP (EAP-MSCHAP V2) for this profile.
Step 1 Perform one of the following:
•If you want to enable PEAP (EAP-MSCHAP V2) without WPA or WPA2, select 802.1x under Set Security Options and PEAP (EAP-MSCHAP V2) in the 802.1x EAP Type drop-down box.
•If you want to enable PEAP (EAP-MSCHAP V2) with WPA or WPA2, select WPA/WPA2/CCKM under Set Security Options and PEAP (EAP-MSCHAP V2) in the WPA/WPA2/CCKM EAP Type drop-down box.
Note If you want to enable CCKM on the client adapter, you must choose the WPA/WPA2/CCKM security option, regardless of whether you want the adapter to use WPA or WPA2. The configuration of the access point to which your client adapter associates determines whether CCKM will be used with 802.1x, WPA, or WPA2.
Step 2 Click Configure. The Define PEAP (EAP-MSCHAP V2) Configuration window appears (see Figure 4-15).
Figure 4-15 Define PEAP (EAP-MSCHAP V2) Configuration Window
Step 3 Check the Use Machine Information For Domain Logon check box if you want the client to attempt to log into a domain using machine authentication with user credentials rather than user authentication. Doing so enables your computer to connect to the network prior to user logon. The default setting is checked.
Note If you do not check the Use Machine Information For Domain Logon check box, machine authentication is not performed. Authentication does not occur until you log on.
Step 4 Choose the certificate authority from which the server certificate was downloaded in the Trusted Root Certification Authorities drop-down box.
Step 5 Perform one of the following to specify the username and password that will be used for inner PEAP tunnel authentication:
•If you want your Windows username and password to also serve as your PEAP username and password, check the Use Windows User Name and Password check box.
•If you want to use a distinct username and password (which are registered with the RADIUS server) to start the PEAP authentication process, follow these steps:
Note Your Windows username is filled in automatically. Simply delete your Windows username and enter your separate PEAP username.
Step 6 If the Use Windows User Name and Password check box is unchecked and you want to implement added security by further refining the network certificate that will be accepted and controlling the string used to set up the outer PEAP tunnel, follow these steps:
a. Click Advanced. The Configuration Settings window appears (see Figure 4-16).
Figure 4-16 Advanced Configuration Window
b. Leave the Specific Server or Domain field blank to allow the client to accept a certificate from any server that supplies a certificate signed by the certificate authority listed in the Trusted Root Certification Authorities drop-down box on the Define PEAP (EAP-MSCHAP V2) Configuration window (this is the recommended option) or enter the domain name of the server from which the client will accept a certificate.
c. If the Login Name field is not filled in automatically, enter your username with nothing after it (for example, jsmith).
Note Some RADIUS servers require that the same name be entered for both the inner and outer PEAP tunnels. That is, the same name may need to be entered in both the Login Name field and the User Name field on the Define PEAP (EAP-MSCHAP V2) Configuration window. Contact your system administrator for information.
d. Click OK to save your settings.
Step 7 Click OK to save your settings and return to the Profile Management (Security) window.
Step 8 Perform one of the following to set the Allow Association to Mixed Cells parameter, which indicates whether the client adapter can associate to an access point that allows both WEP and non-WEP associations:
•Check the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) has WEP set to Optional. Otherwise, the client is unable to establish a connection with the access point.
•Uncheck the Allow Association to Mixed Cells check box if the access point to which the client adapter is to associate (or the VLAN to which the client will be assigned) does not have WEP set to Optional. This is the default setting.
Note This parameter is available only if the 802.1x security option is selected.
Note For security reasons, Cisco recommends that WEP-enabled and WEP-disabled clients not be allowed in the same cell because broadcast packets are sent unencrypted, even to clients running WEP. However, you can enable VLANs on the access point to separate WEP-enabled and WEP-disabled clients.
Step 9 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" section in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG) Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 10 Click OK to save your settings and return to the Cisco Aironet Client Administration Utility (Profile Management) window.
The Host Based EAP option in the 802.1x EAP Type drop-down box on the Profile Management (Security) window enables client adapters that are configured through ADU to attempt to log into a domain using PEAP (EAP-MSCHAP V2) machine authentication with machine credentials. Doing so enables your computer to connect to the network prior to user logon. Follow these steps to enable this authentication type.
Note This procedure enables you to use PEAP (EAP-MSCHAP V2) machine authentication with machine credentials. If you want to enable PEAP (EAP-MSCHAP V2) machine authentication with user credentials, follow the instructions in the "Enabling PEAP (EAP-MSCHAP V2)" section.
Note Because this feature requires the Microsoft Wireless Configuration Manager to start and stop as you switch between host-based EAP and non-host-based EAP profiles, it works only for users with administrator or power-user privileges. An error message appears if you attempt to switch to or from a host-based EAP profile and you do not have the proper permissions.
Note To use this feature on a computer running Windows 2000, your computer must have the Microsoft 802.1X supplicant installed.
Note Host Based EAP is not included in the list of WPA/WPA2 EAP Type options on the Profile Management (Security) window in ADU because this feature is not supported for use with WPA or WPA2.
Step 1 Choose 802.1x under Set Security Options and Host Based EAP in the 802.1x EAP Type drop-down box.
Step 2 If you want to change the value of the Group Policy Delay parameter, enter a new value or use the up and down arrows to select a value between 0 and 65535 seconds. (Microsoft supports only values between 30 and 600 seconds. The default value is 60 seconds.)
The Group Policy Delay parameter specifies how much time elapses before the Windows logon process starts Group Policy, a Windows feature used by administrators to specify configuration options for groups of users. The objective is to delay the start of Group Policy until wireless network authentication occurs. The value that you set for this parameter goes into effect after the computer reboots with this profile set as the active profile.
Note A Microsoft hot fix is required in order to use this parameter on computers running Windows 2000 or computers running Windows XP without Service Pack 2 or later. Refer to the "Installing a Microsoft Hot Fix for Group Policy Delay" in Chapter 3 of the Cisco Aironet 802.11a/b/g Wireless LAN Client Adapters (CB21AG and PI21AG) Installation and Configuration Guide for information on obtaining and installing the hot fix.
Step 3 Click OK to save your settings.
Step 4 Activate this profile on the Cisco Aironet Client Administration Utility (Profile Management) window. The Microsoft Wireless Configuration Manager starts.
Step 5 Click Start > Settings > Control Panel > Network and Dial-up Connections or Network Connections.
Step 6 Right-click your wireless connection.
Step 7 Click Properties. The Connection Properties window appears.
Step 8 Perform one of the following:
•On Windows 2000, click the Authentication tab.
•On Windows XP, choose the Wireless Networks tab, make sure that the Use Windows to configure my wireless network settings check box is checked, click the SSID of the access point to which you want the client adapter to associate from the list of available networks, click Configure, and choose the Authentication tab.
Step 9 For EAP type, choose Protected EAP (PEAP).
Step 10 Configure any applicable settings on the Protected EAP Properties window and subwindows.
Step 11 After you have finished the configuration, PEAP authentication should begin. Depending on the configuration settings you selected, you may be prompted for your PEAP username, password, and domain name. Note that you may need to minimize ADU in order to access the pop-up window that prompts you for your credentials.
Note You can have multiple host-based EAP profiles in ADU, but the Microsoft Wireless Configuration Manager maintains only one configuration. If you want to use different PEAP property settings for different host-based EAP profiles, you need to repeat the previous steps beginning with Step 4 every time you switch to a different host-based EAP profile.
Note When you activate a host-based EAP profile, the Microsoft Wireless Configuration Manager takes control of the client adapter's authentication attempt. However, when you activate a non-host-based EAP profile, ADU assumes this control.
Note If you experience problems while using a host-based EAP profile, make sure that 802.1X authentication is disabled for any other network connection.
After you have created profiles, you can choose to include them in the profile manager's auto profile selection feature. Then when auto profile selection is enabled, the client adapter automatically selects a profile from the list of profiles that were included in auto profile selection and uses it to establish a connection to the network.
Follow the steps below to include any of the profiles in auto profile selection and to establish the order in which the profiles are selected for use.
Step 1 Open ACAU. The utility opens and the Global Settings window appears.
Step 2 On the File drop-down menu, click Open and browse to the folder where the ciscoadminconfig.dat file resides.
Step 3 Highlight the file and Click Open. The configuration file name appears on the ACAU window title bar.
Step 4 Click the Profile Management tab. The Profile Management window appears.
Step 5 Click Order Profiles. The Auto Profile Selection Management window appears (see Figure 4-17).
Figure 4-17 Auto Profile Selection Management Window
Step 6 All the profiles that you created are listed in the Available Profiles box. Highlight each one that you want to include in auto profile selection and click the Add button. The profiles appear in the Auto Selected Profiles box.
The following rules apply to auto profile selection:
• You must include at least two profiles in the Auto Selected Profiles box.
• The profiles must specify an SSID; otherwise, they do not appear in the Available Profiles
box.
• Profiles cannot specify multiple SSIDs; otherwise, they do not appear in the Available
Profiles box.
• Each profile that is included in auto profile selection must have a unique SSID. For example,
if Profile A and Profile B both have "ABCD" as their SSID, only Profile A or Profile B (whichever one was created first) appears in the Available Profiles box and can be included in auto profile selection.
Note To remove a profile from auto profile selection, select the profile in the Auto Selected Profiles box and click Remove. The profile is removed from the Auto Selected Profiles box.
Step 7 The first profile in the Auto Selected Profiles box has the highest priority while the last profile has the lowest priority. To change the order (and priority) of your auto-selectable profiles, highlight the profile that you want to move and click Move up or Move down to move the profile up or down, respectively.
Step 8 Click OK.
When auto profile selection is enabled (see the section below for instructions), the client adapter scans for an available network. The profile with the highest priority and the same SSID as one of the found networks is the one that is used to connect to the network. If the connection fails, the client adapter tries the next highest priority profile that matches the SSID and so on.