User's Manual
Table Of Contents
- Compliances
- About This Manual
- Table of Contents
- Chapter 1 - Product Description
- Chapter 2 - Hardware Installation
- 2.1 Hardware Description
- 2.2 Installation Requirements
- 2.3 Installation
- 2.3.1 Attaching the SU-ODU to the Mounting Plate
- 2.3.2 Attaching the Mounting Plate to the Wi· unit
- 2.3.3 Connecting the Wi· unit to the SU-ODU
- 2.3.4 Preparing the Power Cable
- 2.3.5 Pre-Configuration and Testing
- 2.3.6 Mounting the Wi· Unit
- 2.3.7 Connecting the Grounding Cables
- 2.3.8 Connecting to Power Source
- 2.4 Post Installation Configuration of the AP/SU-ODU
- Chapter 3 - Initial Configuration
- Chapter 4 - System Configuration
- 4.1 Introduction
- 4.2 Advanced Configuration
- 4.3 SNMP
- 4.4 Radio Interface
- 4.5 Status Information
- Chapter 5 - Command Line Interface
- 5.1 Using the Command Line Interface
- 5.2 Entering Commands
- 5.2.1 Keywords and Arguments
- 5.2.2 Minimum Abbreviation
- 5.2.3 Command Completion
- 5.2.4 Getting Help on Commands
- 5.2.5 Partial Keyword Lookup
- 5.2.6 Negating the Effect of Commands
- 5.2.7 Using Command History
- 5.2.8 Understanding Command Modes
- 5.2.9 Exec Commands
- 5.2.10 Configuration Commands
- 5.2.11 Command Line Processing
- 5.3 Command Groups
- 5.4 General Commands
- 5.5 System Management Commands
- 5.5.1 country
- 5.5.2 prompt
- 5.5.3 system name
- 5.5.4 username
- 5.5.5 password
- 5.5.6 ip ssh-server enable
- 5.5.7 ip ssh-server port
- 5.5.8 ip telnet-server enable
- 5.5.9 ip http port
- 5.5.10 ip http server
- 5.5.11 ip http session-timeout
- 5.5.12 ip https port
- 5.5.13 ip https server
- 5.5.14 APmgmtIP
- 5.5.15 APmgmtUI
- 5.5.16 show apmanagement
- 5.5.17 show system
- 5.5.18 show version
- 5.5.19 show config
- 5.5.20 show hardware
- 5.6 System Logging Commands
- 5.7 System Clock Commands
- 5.8 DHCP Relay Commands
- 5.9 SNMP Commands
- 5.9.1 snmp-server community
- 5.9.2 snmp-server contact
- 5.9.3 snmp-server location
- 5.9.4 snmp-server enable server
- 5.9.5 snmp-server host
- 5.9.6 snmp-server trap
- 5.9.7 snmp-server engine-id
- 5.9.8 snmp-server user
- 5.9.9 snmp-server targets
- 5.9.10 snmp-server filter
- 5.9.11 snmp-server filter-assignments
- 5.9.12 show snmp groups
- 5.9.13 show snmp users
- 5.9.14 show snmp group-assignments
- 5.9.15 show snmp target
- 5.9.16 show snmp filter
- 5.9.17 show snmp filter-assignments
- 5.9.18 show snmp
- 5.10 Flash/File Commands
- 5.11 RADIUS Client
- 5.12 802.1X Authentication
- 5.13 MAC Address Authentication
- 5.14 Filtering Commands
- 5.15 WDS Bridge Commands
- 5.16 Spanning Tree Commands
- 5.17 Ethernet Interface Commands
- 5.18 Wireless Interface Commands
- 5.18.1 interface wireless
- 5.18.2 vap
- 5.18.3 speed
- 5.18.4 multicast-data-rate
- 5.18.5 channel
- 5.18.6 transmit-power
- 5.18.7 radio-mode
- 5.18.8 preamble
- 5.18.9 antenna control
- 5.18.10 antenna id
- 5.18.11 antenna location
- 5.18.12 beacon-interval
- 5.18.13 dtim-period
- 5.18.14 fragmentation-length
- 5.18.15 rts-threshold
- 5.18.16 super-g
- 5.18.17 description
- 5.18.18 ssid
- 5.18.19 closed-system
- 5.18.20 max-association
- 5.18.21 assoc-timeout-interval
- 5.18.22 auth-timeout-value
- 5.18.23 shutdown
- 5.18.24 show interface wireless
- 5.18.25 show station
- 5.19 Rogue AP Detection Commands
- 5.20 Wireless Security Commands
- 5.21 Link Integrity Commands
- 5.22 IAPP Commands
- 5.23 VLAN Commands
- 5.24 WMM Commands
- Appendix A - Troubleshooting
108 Operation
Chapter 4 - System Configuration
the current security settings, use the show interface wireless g [0-3] command
(not shown in example).
4.4.2.3 WiFi Protected Access (WPA)
WPA employs a combination of several technologies to provide an enhanced
security solution for 802.11 wireless networks.
The access point supports the following WPA components and features:
IEEE 802.1X and the Extensible Authentication Protocol
(EAP):
WPA employs
802.1X as its basic framework for user authentication and dynamic key
management. The 802.1X client and RADIUS server should use an appropriate
EAP type—such as EAP-TLS (Transport Layer Security), EAP-TTLS (Tunneled
TLS), or PEAP (Protected EAP)—for strongest authentication. Working together,
these protocols provide “mutual authentication” between a client, the access
point, and a RADIUS server that prevents users from accidentally joining a rogue
network. Only when a RADIUS server has authenticated a user’s credentials will
encryption keys be sent to the access point and client.
Temporal Key Integrity Protocol (TKIP): WPA specifies TKIP as the data
encryption method to replace WEP. TKIP avoids the problems of WEP static keys
by dynamically changing data encryption keys. Basically, TKIP starts with a
master (temporal) key for each user session and then mathematically generates
other keys to encrypt each data packet. TKIP provides further data encryption
enhancements by including a message integrity check for each packet and a
re-keying mechanism, which periodically changes the master key.
WPA Pre-Shared Key Mode (WPA-PSK, WPA2-PSK): For enterprise deployment,
WPA requires a RADIUS authentication server to be configured on the wired
network. However, for small office networks that may not have the resources to
configure and maintain a RADIUS server, WPA provides a simple operating mode
that uses just a pre-shared password for network access. The Pre-Shared Key
mode uses a common password for user authentication that is manually entered
on the access point and all wireless clients. The PSK mode uses the same TKIP
Enterprise AP(if-wireless g)#vap 0
Enterprise AP(if-wireless g: VAP[0])#802.1X required
191
Enterprise AP(if-wireless g: VAP[0])#802.1X session-timeout 300
Enterprise AP(if-wireless g: VAP[0])#auth open-system
230
Enterprise AP(if-wireless g: VAP[0])#encryption 232
Enterprise AP(if-wireless g: VAP[0])#
NOTE
To implement WPA on wireless clients requires a WPA-enabled network card driver and 802.1X
client software that supports the EAP authentication type that you want to use. Windows XP
provides native WPA support, other systems require additional software.