BreezeMAX Wi² and BreezeACCESS Wi² System Manual SW Version 4.3.
Document History Document History Topic This is the document’s first Release ii Description Date Issued March 2007 BreezeMAX Wi² and BreezeACCESS Wi² System Manual
Legal Rights Legal Rights © Copyright 2007 Alvarion Ltd. All rights reserved. The material contained herein is proprietary, privileged, and confidential and owned by Alvarion or its third party licensors. No disclosure thereof shall be made to third parties without the express written permission of Alvarion Ltd. Alvarion Ltd. reserves the right to alter the equipment specifications and descriptions in this publication without prior notice.
Legal Rights invoice date (the "Warranty Period")". During the Warranty Period, Alvarion may release to its Customers firmware updates, which include additional performance improvements and/or bug fixes, upon availability (the "Warranty"). Bug fixes, temporary patches and/or workarounds may be supplied as Firmware updates. Additional hardware, if required, to install or use Firmware updates must be purchased by the Customer.
Legal Rights FULLEST EXTENT ALLOWED BY LAW, THE WARRANTIES AND REMEDIES SET FORTH IN THIS AGREEMENT ARE EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES OR CONDITIONS, EXPRESS OR IMPLIED, EITHER IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE, INCLUDING BUT NOT LIMITED TO WARRANTIES, TERMS OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, SATISFACTORY QUALITY, CORRESPONDENCE WITH DESCRIPTION, NON-INFRINGEMENT, AND ACCURACY OF INFORMATION GENERATED.
Legal Rights Outdoor Unit and Antenna Installation and Grounding Ensure that outdoor units, antennas and supporting structures are properly installed to eliminate any physical hazard to either people or property. Make sure that the installation of the outdoor unit, antenna and cables is performed in accordance with all relevant national and local building and safety codes.
Legal Rights Important Notice This user manual is delivered subject to the following conditions and restrictions: This manual contains proprietary information belonging to Alvarion Ltd. Such information is supplied solely for the purpose of assisting properly authorized users of the respective Alvarion products.
Legal Rights the manufacturers. Non-compliance with such instructions may result in serious damage and/or bodily harm and/or void the user's authority to operate the equipment and/or revoke the warranty provided by such manufacturer.
Compliances Compliances NOTE This section provides regulatory compliance details for the Access Point unit of the system. Refer to the relevant manual for compliance details of the SU-ODU unit. Federal Communication Commission Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Compliances IMPORTANT NOTE: FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 centimeters (8 inches) between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
Compliances In Italy the end-user must apply for a license from the national spectrum authority to operate this device outdoors. In Belgium outdoor operation is only permitted using the 2.46 - 2.4835 GHz band: Channel 13. In France outdoor operation is only permitted using the 2.4 - 2.454 GHz band: Channels 1 - 7.
About This Manual This manual describes the BreezeMAX Wi2 and BreezeACCESS Wi2 unit and details how to install, operate and manage the access point. This manual is intended for technicians responsible for installing, setting and operating the BreezeMAX Wi2 and BreezeACCESS Wi2, and for system administrators responsible for managing the system. This manual contains the following chapters and appendices: Chapter 1 - Product Description - Describes the Wi2 unit and its functionality.
Table of Contents Chapter 1 - Product Description 1.1 Introduction ................................................................................................................ 2 1.2 Specifications............................................................................................................. 4 1.2.1 Radio ............................................................................................................. 4 1.2.2 Sensitivity ....................................................
Table of Contents 2.3.2 Attaching the Mounting Plate to the Wi² Unit............................................... 21 2.3.3 Connecting the Wi² Unit to the SU-ODU ..................................................... 22 2.3.4 Preparing the Power Cable ......................................................................... 26 2.3.5 Mounting the Wi² Unit.................................................................................. 28 2.3.6 Connecting the Antenna(s).............................
Table of Contents 4.4.7 VLAN ........................................................................................................... 64 4.4.8 WDS Settings .............................................................................................. 66 4.4.9 AP Management.......................................................................................... 66 4.4.10 Administration.............................................................................................. 68 4.4.
Table of Contents 5.2.7 Using Command History ........................................................................... 133 5.2.8 Understanding Command Modes.............................................................. 133 5.2.9 Exec Commands ....................................................................................... 133 5.2.10 Configuration Commands.......................................................................... 134 5.2.11 Command Line Processing .........................
Table of Contents 5.6 5.7 5.8 5.5.12 ip https port................................................................................................ 150 5.5.13 ip https server............................................................................................ 150 5.5.14 APmgmtIP ................................................................................................. 151 5.5.15 APmgmtUI .................................................................................................
Table of Contents 5.9 5.8.1 dhcp-relay enable...................................................................................... 170 5.8.2 dhcp-relay.................................................................................................. 170 5.8.3 show dhcp-relay ........................................................................................ 171 SNMP Commands .................................................................................................. 172 5.9.
Table of Contents 5.10.4 dir .............................................................................................................. 187 5.10.5 show bootfile ............................................................................................. 188 5.11 RADIUS Client ........................................................................................................ 189 5.11.1 radius-server address................................................................................
Table of Contents 5.14.2 filter ap-manage ........................................................................................ 203 5.14.3 filter uplink enable ..................................................................................... 203 5.14.4 filter uplink ................................................................................................. 204 5.14.5 filter ethernet-type enable.......................................................................... 204 5.14.
Table of Contents 5.18.10 antenna id.................................................................................................. 220 5.18.11 antenna location ........................................................................................ 221 5.18.12 beacon-interval.......................................................................................... 221 5.18.13 dtim-period ................................................................................................ 222 5.18.
Table of Contents 5.20.3 key............................................................................................................. 237 5.20.4 transmit-key............................................................................................... 238 5.20.5 cipher-suite................................................................................................ 239 5.20.6 mic_mode.................................................................................................. 240 5.
Table of Contents Index .....................................................................................................
1 Chapter 1 - Product Description In This Chapter: “Introduction” on page 2 “Specifications” on page 4
Chapter 1 - Product Description 1.1 Introduction Alvarion's Wi² suite of converged solutions, including BreezeMAX Wi²and BreezeACCESS Wi²("Wi²"), unites the advantages of the popular WiFi access with the powerful capabilities of BreezeMAX or BreezeACCESS VL/4900 (“BreezeACCESS”) systems to provide cost-effective solutions for personal broadband services.
Introduction A power supply module that provides power to both the WiFi AP and the SU-ODU. The Wi² system requires only a single connection to either AC or DC power. With its easy installation and operation, high performance, and rich security and QoS feature sets, the Wi² is an ideal solution for operators, municipalities and communities looking to build metropolitan broadband networks or to integrate WiFi hot zone capabilities into their existing broadband wireless access networks.
Chapter 1 - Product Description 1.2 Specifications 1.2.1 Radio Table 1-1: Radio Specifications Item Description Radio Type IEEE 802.11b/g Radio Mode 802.11b+g, 802.11b only, 802.11g only Frequency Band 2400-2497 MHz Operating Channels ETSI (EUR): 2412 ~ 2472 MHz(CH1-CH13) MKK (Japan) 11b: 2412 ~ 2484 MHz (CH1-CH14) MKK (Japan) 11g: 2412 ~ 2472 MHz(CH1-CH13) France: 2457 ~ 2472 MHz(CH10-CH13) Channel Bandwidth 20 MHz Data Rates 802.11b: 1, 2, 5.5, 11 Mbps 802.
Specifications 1.2.2 Sensitivity Table 1-2: Sensitivity Data Rate Sensitivity (dBm) 802.11b, 1 Mbps -96 802.11b, 2 Mbps -93 802.11b, 5.5 Mbps -93 802.11b, 11 Mbps -90 802.11g, 6 Mbps -91 802.11g, 9 Mbps -90 802.11g, 12 Mbps -89 802.11g, 18 Mbps -88 802.11g, 24 Mbps -84 802.11g, 36 Mbps -80 802.11g, 48 Mbps -75 802.11g, 54 Mbps -73 1.2.
Chapter 1 - Product Description 1.2.4 Configuration and Management Table 1-4: Configuration and Management Item Description Management options Web-based (HTTP/HTTPS) Telnet SSH SNMP SNMP agent V1 / V2c, supports 802.11 MIB, RFC-1213 MIB II and private MIB.
Specifications 1.2.5 Mechanical Table 1-5: Mechanical Specifications Item Description Dimensions (excluding mounting plate and connectors) 240mm (W) X 261mm (H) X 171mm (D) Weight (excluding antennas, backhauling 4.85 Kg CPE and mounting plate ) Weight of Mounting Plate 0.7 Kg AC Power Supply 85-260VAC, 47-63Hz, maximum power consumption 2.5A Mounting Plate Tilt +/- 150 Mounting Plate Rotation +/- 450 1.2.
Chapter 1 - Product Description Table 1-7: Connectors and LEDs Type Description LEDs Power Link (Ethernet link integrity/activity) 11b/g: 3 LEDs indicating wireless link activity 8 System Description
Specifications 1.2.8 Environmental Table 1-8: Environmental Specifications Item Details Operating Temperature -400C to 550C Storage Temperature -400C to 700C Humidity Maximum 95%. Water Proof IP-67 Solar Radiation protection IEC 60068-2-5 Salt IEC 60068 part 2-52 Transportation ETS 300 019-2-2 Class 2.3 Pubic Transportation Storage shock IEC 68-2-29 Storage drop IEC 68-2-32 Wind operation 160 Km/hour Wind survival 220 Km/hour 1.2.
2 Chapter 2 - Hardware Installation In This Chapter: “Hardware Description” on page 12 “Installation Requirements” on page 16 “Installation” on page 19 “Attaching the SU-ODU to the Mounting Plate” on page 19 “Attaching the Mounting Plate to the Wi² Unit” on page 21 “Connecting the Wi² Unit to the SU-ODU” on page 22 “Preparing the Power Cable” on page 26 “Mounting the Wi² Unit” on page 28 “Connecting the Antenna(s)” on page 31 “Connecting the Grounding Cables” on page 31 “Connecting to
Chapter 2 - Hardware Installation 2.1 Hardware Description The Wi² consists of a WiFi access point with an integrated power supply and interface module that connects to either a BreezeMAX or BreezeACCESS outdoor unit (SU-ODU) for backhaul and network management software. Each unit is housed in a weatherproof enclosure for mounting outdoors.
Hardware Description 2.1.1 Bottom Panel Figure 2-2 shows the bottom panel of the Wi² unit and Table 2-1 lists the components. Power Supply and Interface Module WiFi Access Point (AP) Figure 2-2: Bottom Panel (without the SU-ODU) Table 2-1: Bottom Panel Components Element Item Description WiFi Access Point (AP) Console Port Cover Holder Holder for waterproof protection cover for console port when port is not in use. Console Port Connection to console port for system management.
Chapter 2 - Hardware Installation 2.1.2 Top Panel Figure 2-3: Top Panel (without the SU-ODU) Figure 2-3 shows the top panel of the Wi² unit with two N-type RF connectors for external antennas. 2.1.3 LED Indicators The Wi² includes eight status LED indicators. Figure 2-4 shows the LEDs and Table 2-2 describes the system status. Figure 2-4: LED Indicators Table 2-2: LED Indicators LED Status Description 11 b/g (three pairs of LEDs 14 A Always on B Flashing Indicates packets received using 802.
Hardware Description Table 2-2: LED Indicators LED Status Description C Flashing Indicates packets received using 802.11g modulation. Power On Green Indicates that the system is working normally. On Amber Indicates a power shutdown due to a low temperature condition. On Green Indicates a valid 10/100 Mbps Ethernet cable link. Flashing Green Indicates that the Wi² is transmitting or receiving data on a 10/100 Mbps Ethernet LAN. Flashing rate is proportional to network activity.
Chapter 2 - Hardware Installation 2.2 Installation Requirements This section describes all the supplies required to install the Wi² and the items included in each installation package. 2.2.
Installation Requirements Crimping tool for RJ-45 connectors (if connecting to a BreezeACCESS ODU) RS232 console cable* 8 dBi Omnidirectional antenna(s)* Sectoral antenna(s), including RF cable with N-Type connector* UL/CSA listed smooth circular power cable, 1.5mm to 2.5mm each. Outer diameter 7mm to 9mm, UV resistant, temperatures range -400C to +650C min. Other specifications (such as oil resistance, no of wires) according to specific installation requirements.
Chapter 2 - Hardware Installation 2.2.3 Guidelines for Positioning Wi² CAUTION ONLY experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities should install outdoor units and antennas. Failure to do so may void the product warranty and may expose the end user or Service Provider to legal and financial liabilities.
Installation 2.3 Installation The following sections describe how to install a Wi² unit, including attaching the SU-ODU to the mounting plate, attaching the mounting plate to the Wi² unit, connecting to the SU-ODU, pole mounting, connecting a grounding cable, and connecting the antenna(s). 2.3.1 Attaching the SU-ODU to the Mounting Plate IMPORTANT The angle at which the SU-ODU is mounted on the Wi² can be adapted depending on the location of the Wi² unit in relation to the Base Station.
Chapter 2 - Hardware Installation Figure 2-5: Attaching BreezeMAX PRO-S ODU or BreezeACCESSSU-ODU with HW Revision E to Mounting Plate NOTE For information about polarization refer to the relevant manual. To attach a BreezeACCESS SU-ODU with HW Revision D or lower (rectangular) to the mounting plate: 1 Determine the tilt direction of the SU-ODU.
Installation Figure 2-6: Attaching BreezeACCESS SU-ODU with HW Revision D or lower to Mounting Plate NOTE Sometimes, physical circumstance require that the SU-ODU be located at a distance from the Wi² unit and not attached to the mounting plate. For further information see the section on SU-ODU mounting in the relevant manual. 2.3.
Chapter 2 - Hardware Installation Figure 2-7: Attaching the Mounting Plate to the Wi² Unit 3 Adjust the tilt angle according to the scale marked on the mounting plate and tighten the screws. Apply torque of 57 lb*in [6.4 N*m]. 2.3.3 Connecting the Wi² Unit to the SU-ODU NOTE The Wi² installation kit includes a Category 5E Ethernet cable, suitable for connecting to BreezeMAX PRO-S ODU.
Installation groove Figure 2-8: Sealing Cap 2 Expose the RJ-45 connector under the sealing cap on the Ethernet cable and connect to the SU-ODU RJ-45 connector (Figure 2-9). Figure 2-9: Connecting the SU-ODU connector and inserting the Sealing Cap 3 Put the sealing cap back in its place. Make sure that the small protrusion on the side of the cap fits inside the hole on the connector's protective body. 4 Connect the other end of the Ethernet cable to the SU port on the Wi² unit.
Chapter 2 - Hardware Installation 2.3.3.2 Adapting the Ethernet Cable for Connecting to BreezeACCESS SU-ODU The 55 cm Ethernet cable supplied with the unit has crossed Ethernet connections which have to be adapted for connecting the unit to a BreezeACCESS ODU: 1 Cut the cable as close as possible to the connector that should be connected to the ODU (the end without the service box). 2 Use a crimp tool for RJ-45 connectors to prepare the wires.
Installation Table 2-3: Cable Color Codes 2.3.3.3 Pin Blue 1 Blue/white 2 Orange 3 Orange/white 6 Brown 4 Brown/white 5 Green 7 Green/white 8 Connecting to BreezeACCESS ODU with HW Revision E 1 2 2.3.3.4 Wire color Adapt the cable as described in Section 2.3.3.2 Connect the cable to the ODU as described in Section 2.3.3.1.
Chapter 2 - Hardware Installation 2.3.4 Preparing the Power Cable CAUTION Electric Shock Hazard. Only a licensed electrician should connect the power plug. All mains used outdoors, in damp or wet conditions, should be supplied from a correctly fused source and protected according to applicable local regulations. To prepare the power cable: 1 Use a UL/CSA listed smooth circular power cable, 1.5mm to 2.5mm each.
Installation Figure 2-11: Preparing the Power Cable 4 Strip insulation from wires as shown in Figure 2-11. 5 Insert bare wire ends into the terminals and fully tighten the screws. The wires should be connected as shown below: AC 6 DC Brown Phase ~ Red + Blue Neutral 0 Black - Yellow/green Grounding Draw cable back until socket insert is correctly seated in D-shaped location in the main body. Tighten the Gland nut. Screw back the locking ring using the cap assembly tool.
Chapter 2 - Hardware Installation 2.3.5 Mounting the Wi² Unit To pole mount the Wi² unit: 1 With the bottom panel of the unit facing downwards, thread the two 9/16" wide metal bands supplied through the brackets on the sides of the unit. 2 Rotate the mounting bracket, so that the Wi² faces the Base Station. NOTE The mounting bracket can be rotated up to 45o in any direction. 3 Secure the Wi² unit to a pole as shown in Figure 2-12. Figure 2-12: Pole Mounting the Wi² 2.3.5.
Installation A 50 cm pole (diameter 6.03 cm) Screws for attaching the pole to mounting bracket Figure 2-13: Tilt Accessory Kit To mount the tilt accessory on a wall: 1 Place the bracket on the wall and use as a template to mark the position of the holes to be drilled for the screws . 2 Remove the bracket from the wall and drill a hole in each of the locations marked. 3 Insert anchors into the holes.
Chapter 2 - Hardware Installation Figure 2-14: Mounting Tilt Accessory on Non-Vertical Pole To mount the Wi² using the tilt accessory: 1 Mount the tilt accessory bracket on the wall or pole as described above. 2 Using the screws provided attach the pole to the tilt accessory bracket. 3 Using a spirit level, adjust the angle of the pole until it is vertical and tighten the screws to hold in place. 4 Secure the Wi² to the pole as described in “Mounting the Wi² Unit” on page 28.
Installation 2.3.6 Connecting the Antenna(s) To connect an external antenna: 1 Connect the external antenna directly to the N-type connector on the top panel of the Wi² unit. NOTE When connecting only one antenna, connect it to the right antenna connector. (When looking at the unit from the side of the SU-ODU with the antenna connectors facing upwards, this is the connector on the right.) 2 Set the antenna options for corresponding antenna through the user interface (Section 5.18.10).
Chapter 2 - Hardware Installation CAUTION The Wi² can be connected to either an AC or DC power source, or to both. By default the DC plug is covered with a waterproof sealing cap which must be removed before connecting to the power cable. Any socket that is NOT in use must always be protected from moisture and must be covered with a waterproof sealing cap. 2 Check that the LED on the Wi² is green indicating that the system is working normally. 2.3.9 Configuration and Testing 2.3.9.
Installation 5 Complete the configuration of the AP, using either CLI as outlined in Chapter 5 - "Command Line Interface" or the web-based interface as outlined in Chapter 4 - "System Configuration". NOTE At least one VAP must be enabled and Antenna ID must be configured to enable transmissions. 6 Disconnect the configuration cable from the Wi² unit and reconnect the cable between the SU-ODU and the SU connector of the Power Supply and Interface module. 7 Using the WiFi client (802.
3 Chapter 3 - Initial Configuration In This Chapter: “Introduction” on page 36 “Initial Setup through the CLI” on page 37 “Configuration via Telnet” on page 37 “Configuration via Console” on page 37 “Initial Configuration Steps” on page 38 “Logging In” on page 40
Chapter 3 - Initial Configuration 3.1 Introduction The Access Point (AP) unit offers a variety of management options, including a web-based interface, Telnet, SSH, SNMP and a direct connection to the console port. The initial configuration steps can be made through the web browser interface or CLI.
Initial Setup through the CLI 3.2 Initial Setup through the CLI For a description of how to use the CLI, see “Using the Command Line Interface” on page 129. For a list of all the CLI commands and detailed information on using the CLI, refer to “Command Groups” on page 136. 3.2.1 Configuration via Telnet By default, use the Telnet option to configure the unit. The AP uses the default address 192.168.1.1. This address may not be compatible with your network.
Chapter 3 - Initial Configuration 3.2.3 Initial Configuration Steps Logging In – Enter admin for the user name. The default password is null, so just press [Enter] at the password prompt. The CLI prompt appears displaying Enterprise AP#. Username: admin Password: Enterprise AP# Setting the Country Code – You must use the CLI to set the country code.
Initial Setup through the CLI After configuring the AP’s IP parameters, you can access the management interface from anywhere within the attached network. The command line interface can also be accessed using Telnet from any computer attached to the network. NOTE Command examples shown later in this manual use the console prompt to Enterprise AP.
Chapter 3 - Initial Configuration 3.3 Logging In There are a few basic steps you need to complete to connect the AP to your corporate network, and provide network access to wireless clients. The AP can be managed by any computer using a web browser (Internet Explorer 5.0 or above, or Netscape 6.2 or above). To Log in: 1 Enter the default IP address http://192.168.1.1. Figure 3-1 is displayed. Figure 3-1: Login 40 2 Enter the username admin. 3 The password is null, so leave blank and click LOGIN.
Logging In Figure 3-2: Home Page NOTE For information on configuring a user name and password, see page 68.
4 Chapter 4 - System Configuration In This Chapter: “Introduction” on page 44 “BreezeMAX Backhauling Configuration” on page 45 “BreezeACCESS Backhauling Configuration” on page 46 “Advanced Configuration” on page 47 “SNMP” on page 79 “Radio Interface” on page 85 “Status Information” on page 120
Chapter 4 - System Configuration 4.1 Introduction Before continuing with advanced configuration, first complete the initial configuration steps described in Chapter 3 to set up an IP address for the Access Point (AP) unit. The AP unit can be managed by any computer using a web browser (Internet Explorer 5.0 or above, or Netscape 6.2 or above). Enter the configured IP address of the AP unit, or use the default address: http://192.168.1.1.
BreezeMAX Backhauling Configuration 4.
Chapter 4 - System Configuration 4.3 BreezeACCESS Backhauling Configuration Note the following when using BreezeACCESS for backhauling: 1 If VLANs are used by the AP (VLAN Classification enabled): In the SU Access Link should not be used.
Advanced Configuration 4.4 Advanced Configuration The Advanced Configuration pages include the following options.
Chapter 4 - System Configuration NOTE This chapter may include references to features that are not applicable to the current release such as Radio A, WDS Settings and RSSI. 4.4.1 System Identification The system name can be left with the default setting. However, modifying this parameter enables you to easily identify different devices in your network. Figure 4-2: Identification System Name – An alias for the AP, enabling the device to be uniquely identified on the network.
Advanced Configuration 4.4.1.0.1 CLI Commands for System Identification Enter the global configuration mode, and use the system name command to specify a new system name. Return to the Exec mode, and use the show system command to display the changes to the system identification settings. Enterprise AP#config Enter configuration commands, one per line.
Chapter 4 - System Configuration By default, the AP is automatically configured with IP settings from a Dynamic Host Configuration Protocol (DHCP) server. However, if you are not using a DHCP server to configure IP addressing, use the CLI to manually configure the initial IP values (see page 38). Once you have network access to the AP, you can use the web browser interface to modify the initial IP configuration, if necessary.
Advanced Configuration Default Gateway: The default gateway is the IP address of the router for the AP, which is used if the requested destination address is not on the local subnet. If you have management stations, DNS, RADIUS, or other network servers located on another subnet, type the IP address of the default gateway router in the text field provided. Otherwise, leave the address as all zeros (0.0.0.0). Primary and Secondary DNS Address: The IP address of Domain Name Servers on the network.
Chapter 4 - System Configuration 4.4.3 RADIUS Remote Authentication Dial-in User Service (RADIUS) is an authentication protocol that uses software running on a central server to control access to RADIUS-aware devices on the network. An authentication server contains a database of user credentials for each user that requires access to the network. A primary RADIUS server must be specified for the AP to implement IEEE 802.1X network access control and WiFi Protected Access (WPA) wireless security.
Advanced Configuration Figure 4-4: RADIUS MAC Address Format – MAC addresses can be specified in one of four formats, using no delimiter, with a single dash delimiter, with multiple dash delimiters, and with multiple colon delimiters. VLAN ID Format – A VLAN ID (a number between 1 and 4094) can be assigned to each client after successful authentication using IEEE 802.1X and a central RADIUS server.
Chapter 4 - System Configuration each user authorized to access the network. VLAN IDs can be entered as hexadecimal numbers or as ASCII strings. Primary Radius Server Setup – Configure the following settings to use RADIUS authentication on the AP. Radius Status: Enabling Radius Status allows the settings of RADIUS authentication. (Default: Enable) IP Address: Specifies the IP address or host name of the RADIUS server. Port: The UDP port number used by the RADIUS server for authentication messages.
Advanced Configuration 4.4.3.0.1 CLI Commands for RADIUS From the global configuration mode, use the radius-server address command to specify the address of the primary or secondary RADIUS servers. (The following example configures the settings for the primary RADIUS server.) Configure the other parameters for the RADIUS server. Then use the show radius command from the Exec mode to display the current settings for the primary and secondary RADIUS servers.
Chapter 4 - System Configuration SSH client software needs to be installed on the management station to access the AP for management via the SSH protocol. NOTE The AP supports only SSH version 2.0. After boot up, the SSH server needs about two minutes to generate host encryption keys. The SSH server is disabled while the keys are being generated. Figure 4-5: SSH Settings 4.4.4.1 SSH Settings Telnet Server Status – Enables or disables the Telnet server.
Advanced Configuration 4.4.5 Authentication Wireless clients can be authenticated for network access by checking their MAC address against the local database configured on the AP, or by using a database configured on a central RADIUS server. Alternatively, authentication can be implemented using the IEEE 802.1X network access control protocol.
Chapter 4 - System Configuration Figure 4-6: Authentication MAC Authentication – You can configure a list of the MAC addresses for wireless clients that are authorized to access the network. This provides a basic level of authentication for wireless clients attempting to gain access to the network. A database of authorized MAC addresses can be stored locally on the AP or remotely on a central RADIUS server. (Default: Disabled) Disabled: No checks are performed on an associating station’s MAC address.
Advanced Configuration NOTE MAC addresses on the RADIUS server can be entered in four different formats (see “RADIUS” on page 52). 802.1X Supplicant – The AP can also operate in a 802.1X supplicant mode. This enables the access point itself to be authenticated with a RADIUS server using a configured MD5 user name and password. This prevents rogue APs from gaining access to the network. Local MAC Authentication – Configures the local MAC authentication database.
Chapter 4 - System Configuration addresses in the local table using the address filter entry command. To remove an entry from the table, use the address filter delete command. To display the current settings, use the show authentication command from the Exec mode.
Advanced Configuration Enterprise AP(config)#mac-authentication server remote Enterprise AP(config)#mac-authentication session-timeout 300 Enterprise AP(config)#exit Enterprise AP#show authentication 200 200 197 Authentication Information =========================================================== MAC Authentication Server : REMOTE MAC Auth Session Timeout Value : 300 min 802.1x supplicant : DISABLED 802.1x supplicant user : EMPTY 802.
Chapter 4 - System Configuration Figure 4-7: Filter Control Inter Client STAs Communication Filter – Sets the global mode for wireless-to-wireless communications between clients associated to Virtual AP (VAP) interfaces on the AP. (Default: Disabled) Disabled: All clients can communicate with each other through the access point. Prevent Intra VAP client communication: When enabled, clients associated with a specific VAP interface cannot establish wireless communications with each other.
Advanced Configuration Disabled: Allows management access from wireless clients. Enabled: Blocks management access from wireless clients. Uplink Port MAC Address Filtering Status – Prevents traffic with specified source MAC addresses from being forwarded to wireless clients through the AP. You can add a maximum of four MAC addresses to the filter table. (Default: Disabled) MAC Address: Specifies a MAC address to filter, in the form xx-xx-xx-xx-xx-xx.
Chapter 4 - System Configuration Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise AP(config)#filter AP(config)#filter AP(config)#filter AP(config)#filter AP(config)#filter AP(config)#filter AP(config)#exit AP#show filters local-bridge ap-manage uplink enable uplink add 00-12-34-56-78-9a ethernet-type enable ethernet-type protocol ARP 203 203 203 204 204 205 206 Protocol Filter Information ========================================================= Local Bridge :ENAB
Advanced Configuration When VLAN support is disabled, the AP does not tag traffic passed to the wired network and ignores the VLAN tags on any received frames. NOTE Before enabling VLAN tagging on the AP, be sure to configure the backhaul system to support tagged VLAN frames from the AP’s management VLAN ID, default VLAN IDs, and other client VLAN IDs. Otherwise, connectivity to the AP will be lost when you enable the VLAN feature. Using IEEE 802.
Chapter 4 - System Configuration Figure 4-8: VLAN Configuration VLAN Classification – Enables or disables VLAN tagging support on the AP. Native VLAN ID – The VLAN ID that traffic must have to be able to manage the AP. (Range 1-4094; Default: 1) 4.4.8 WDS Settings WDS Settings is not applicable for the current release. 4.4.9 AP Management The Web, Telnet, and SNMP management interfaces are enabled and open to all IP addresses by default.
Advanced Configuration Figure 4-9: AP Management UI Management – Enables or disables management access through Telnet, the Web (HTTP), or SNMP interfaces. (Default: Enabled) NOTE Secure Web (HTTPS) connections are not affected by the UI Management or IP Management settings. IP Management – Restricts management access to Telnet, Web, and SNMP interfaces to specified IP addresses. (Default: Any IP) Any IP: Indicates that any IP address is allowed management access.
Chapter 4 - System Configuration 4.4.9.0.1 CLI Commands for AP Management features. Enterprise AP(config)#apmgmtip multiple 192.168.1.6 255.255.255.0 Enterprise AP(config)#apmgmtui SNMP enable 151 152 4.4.10 Administration 4.4.10.1 Changing the Password Management access to the web and CLI interface on the AP is controlled through a single user name and password. You can also gain additional access security by using control filters (see “Filter Control” on page 61).
Advanced Configuration 4.4.10.2 Setting the Timeout Interval You can set the timeout interval for web access to the unit, after which the user will have to re-enter the username and password. Figure 4-11: Session Timeout for WEB Session Timeout for WEB: Sets the time limit for an idle web interface session. (Range: 0-1800 seconds; Default: 300 seconds; 0 is disabled) 4.4.10.2.1 CLI Command for the Web Session Timeout Use the ip http session-timeout command from the CLI configuration mode.
Chapter 4 - System Configuration Figure 4-12: Firmware Upgrade Before upgrading new software, verify that the AP is connected to the network and has been configured with a compatible IP address and subnet mask. If you need to download from an FTP or TFTP server, take the following additional steps: Obtain the IP address of the FTP or TFTP server where the AP software is stored. If upgrading from an FTP server, be sure that you have an account configured on the server with a user name and password.
Advanced Configuration managing the AP from a wireless client, the VLAN ID for the wireless client must be configured on a RADIUS server. Current version – Version number of runtime code. Firmware Upgrade Local – Downloads an operation code image file from the web management station to the AP using HTTP. Use the Browse button to locate the image file locally on the management station and click Start Upgrade to proceed. New firmware file: Specifies the name of the code file on the server.
Chapter 4 - System Configuration cannot be a period (.), and the maximum length for file names on the FTP/TFTP server is 255 characters. (Valid characters: A-Z, a-z, 0-9, “.”, “-”, “_”) IP Address: IP address or host name of FTP or TFTP server. Username: The user ID used for login on an FTP server. Password: The password used for login on an FTP server. Restore Factory Settings – Click the Restore button to reset the configuration settings for the AP to the factory defaults and reboot the system.
Advanced Configuration 4.4.10.3.1 CLI Commands for Downloading Software from a TFTP Server Use the copy tftp file command from the Exec mode and then specify the file type, name, and IP address of the TFTP server. When the download is complete, the dir command can be used to check that the new file is present in the AP file system. To run the new software, use the reset board command to reboot the AP. Enterprise AP#copy tftp file 1. Application image 2. Config file 3.
Chapter 4 - System Configuration 4.4.11 System Log The AP can be configured to send event and error messages to a System Log Server. The system clock can also be synchronized with a time server, so that all the messages sent to the Syslog server are stamped with the correct time and date. Figure 4-14: System Log 4.4.11.1 Enabling System Logging The AP supports a logging process that can control error messages saved to memory or sent to a Syslog server.
Advanced Configuration Logging Level – Sets the minimum severity level for event logging. (Default: Informational) The system allows you to limit the messages that are logged by specifying a minimum severity level. Table 4-3 lists the error message levels from the most severe (Emergency) to least severe (Debug). The message levels that are logged include the specified minimum level up to the Emergency level.
Chapter 4 - System Configuration Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise AP(config)#logging AP(config)#logging AP(config)#logging AP(config)#logging AP(config)#logging AP(config)#logging AP(config)#exit AP#show logging on level alert console host 1 IP 10.1.0.
Advanced Configuration NOTE The AP also allows you to disable SNTP and set the system clock manually. Set Time Zone – SNTP uses Coordinated Universal Time (or UTC, formerly Greenwich Mean Time, or GMT) based on the time at the Earth’s prime meridian, zero degrees longitude. To display a time corresponding to your local time, you must indicate the number of hours your time zone is located before (east) or after (west) UTC.
Chapter 4 - System Configuration 4.4.11.2.2 CLI Commands for the System Clock The following example shows how to manually set the system time when SNTP server support is disabled on the AP. Enterprise AP(config)#no sntp-server enable Enterprise AP(config)#sntp-server date-time Enter Year<1970-2100>: 2003 Enter Month<1-12>: 10 Enter Day<1-31>: 10 Enter Hour<0-23>: 18 Enter Min<0-59>: 35 Enterprise AP(config)# 167 167 4.4.12 RSSI RSSI is not applicable for the current release.
SNMP 4.5 SNMP You can use a network management application such as HP’s OpenView to manage the AP via the Simple Network Management Protocol (SNMP) from a network management station. To implement SNMP management, the AP must have an IP address and subnet mask, configured either manually or dynamically. Once an IP address has been configured, appropriate SNMP communities and trap receivers should be configured.
Chapter 4 - System Configuration Location – A text string that describes the system location. (Maximum length: 255 characters) Contact – A text string that describes the system contact. (Maximum length: 255 characters) Community Name (Read Only) – Defines the SNMP community access string that has read-only access. Authorized management stations are only able to retrieve MIB objects.
SNMP Figure 4-16: Trap Configuration Trap Configuration – Allows selection of specific SNMP notifications to send. The following items are available: sysSystemUp - The AP is up and running. sysSystemDown - The AP is about to shutdown and reboot. sysRadiusServerChanged - The AP has changed from the primary RADIUS server to the secondary, or from the secondary to the primary. sysConfigFileVersionChanged - The AP’s configuration file has been changed.
Chapter 4 - System Configuration dot11InterfaceBFail - The 802.11b interface has failed. dot1xMacAddrAuthSuccess - A client station has successfully authenticated its MAC address with the RADIUS server. dot1xMacAddrAuthFail - A client station has failed MAC address authentication with the RADIUS server. dot1xAuthNotInitiated - A client station did not initiate 802.1X authentication. dot1xAuthSuccess - A 802.1X client station has been successfully authenticated by the RADIUS server.
SNMP dot11StationDisassociate - A client station no longer associates with the network. dot11StationAuthenticateFail - A client station has tried and failed to authenticate to the network. Enable All Traps - Click the button to enable all the available traps. Disable All Traps - Click the button to disable all the available traps. 4.5.0.0.1 CLI Commands for SNMP and Trap Configuration Use the snmp-server enable server command from the global configuration mode to enable the SNMP agent.
Chapter 4 - System Configuration 183 Enterprise AP#show snmp SNMP Information ============================================== Service State : Enable Community (ro) : ***** Community (rw) : ***** Location : WC-19 Contact : Paul EngineId :80:00:07:e5:80:00:00:2e:62:00:00:00:18 EngineBoots:1 Trap Destinations: 1: 192.168.1.9, 2: 0.0.0.0, 3: 0.0.0.0, 4: 0.0.0.
Radio Interface 4.6 Radio Interface The 802.11g interface includes configuration options for radio signal characteristics and wireless security features. The configuration options are nearly identical, and are therefore both covered in this section of the manual. NOTE 802.11g is backward compatible with 802.11b. The 802.11g interface is configured independently under the Radio Interface G: 802.11b/g web pages. The radio supports up to four virtual AP (VAP) interfaces numbered 0 to 3.
Chapter 4 - System Configuration NOTE You must first enable VAP interface 0 before the other interfaces can be enabled. For information on configuring 802.11g settings, refer to the following sections: “Configuring VAP Radio Settings” on page 86 “Configuring Rogue AP Detection” on page 88 “Configuring WiFi Multimedia” on page 96 4.6.1.1 Configuring VAP Radio Settings To configure VAP radio settings, select the Radio Settings page.
Radio Interface Figure 4-18: Radio Settings Default VLAN ID – The VLAN ID assigned to wireless clients associated to the VAP interface that are not assigned to a specific VLAN by RADIUS server configuration. (Default: 1) Closed System – When enabled, the VAP interface does not include its SSID in beacon messages. Nor does it respond to probe requests from clients that do not include a fixed SSID.
Chapter 4 - System Configuration interface (numbered 0 to 3), use the vap command. You can configure a name for each interface using the description command. You can also use the closed-system command to stop sending the SSID in beacon messages. Set any other VAP parameters and radio setting as required before enabling the VAP interface (with the no shutdown command). To view the current 802.11g radio settings for the VAP interface, use the show interface wireless g [0-3] command as shown on page 215.
Radio Interface on page 74) are sent for each AP detected. Rogue APs can be identified by unknown BSSID (MAC address) or SSID configuration. AP Detection – Enables the periodic scanning for other APs. (Default: Disable) AP Scan Interval – Sets the time between each rogue AP scan. (Range: 30 -10080 minutes; Default: 720 minutes) AP Scan Duration – Sets the length of time for each rogue AP scan.
Chapter 4 - System Configuration Enterprise AP(config)#interface wireless g 215 Enter Wireless configuration commands, one per line. 231 Enterprise AP(if-wireless g)#rogue-ap enable configure either syslog or trap or both to receive the rogue APs detected.
Radio Interface Figure 4-20: Radio Setting Configuration Radio Channel – The radio channel that the AP uses to communicate with wireless clients. When multiple APs are deployed in the same area, set the channel on neighboring access points at least four channels apart to avoid interference with each other. This means that you can deploy up to three APs in the same area. (In the United States you should use channels 1, 6 and 11. In most of Europe you can also use channels 2, 7 and 12, or 3, 8 and 13).
Chapter 4 - System Configuration Table 4-4: Channels Assignment Channel NumberV Frequency (GHz) 6 2.437 7 2.442 8 2.447 9 2.452 10 2.457 11 2.462 12 2.467 13 2.472 14 2.482 Auto Channel Select – Enables the AP to automatically select an unoccupied radio channel. (Default: Enabled) NOTE Check your country’s regulations to see if Auto Channel can be disabled. Transmit Power – Adjusts the power of the radio signals transmitted from the access point.
Radio Interface antenna ID ensures that the AP's radio transmissions are within regulatory power limits for the country of operation. In the current release, select id-0x0108, module-ACC04-05427A Omni-Directional Ant from the list for the 8dBi omni antenna(s). The unit will not transmit until an antenna is selected. (Default:id=0x0000, module=NA) NOTE The Antenna ID must be selected in conjunction with the Antenna Control Method to configure proper use of any of the antenna options.
Chapter 4 - System Configuration Super G – The Atheros proprietary Super G performance enhancements are supported by the access point. These enhancements provide increased throughput for connections to Atheros-compatible clients through bursting, compression, and fast frames (concatenation). (Default: Disabled) Radio Mode – Selects the operating mode for the 802.11g wireless interface. (Default: 802.11b+g) 802.11b+g: Both 802.11b and 802.11g clients can communicate with the access point (up to 54 Mbps).
Radio Interface that the access point will save all broadcast/multicast frames for the Basic Service Set (BSS) and forward them after every second beacon. Using smaller DTIM intervals delivers broadcast/multicast frames in a more timely manner, causing stations in Power Save mode to wake up more often and drain power faster. Using higher DTIM values reduces the power used by stations in Power Save mode, but delays the transmission of broadcast/multicast frames.
Chapter 4 - System Configuration other radio settings as required before enabling the VAP interface (with the no shutdown command). To view the current 802.11g radio settings for the VAP interface, use the show interface wireless g [0~3] command as shown on page 215. Enterprise AP(config)#interface wireless g Enter Wireless configuration commands, one per line.
Radio Interface delay and throughput variations that result from this “equal opportunity” wireless access method. For multimedia applications to run well over a wireless network, a Quality of Service (QoS) mechanism is required to prioritize traffic types and provide an “enhanced opportunity” wireless access method. The access point implements QoS using the WiFi Multimedia (WMM) standard.
Chapter 4 - System Configuration mechanism first selects data with the highest priority to be granted a transmit opportunity. Then the same collision resolution mechanism is used externally to determine which device has access to the wireless medium.
Radio Interface Figure 4-22: WMM Configuration Settings WMM – Sets the WMM operational mode on the AP. When enabled, the parameters for each AC queue will be employed on the access point and QoS capabilities are advertised to WMM-enabled clients. (Default: Support) Disable: WMM is disabled. Support: WMM will be used for any associated device that supports this feature. Devices that do not support this feature may still associate with the access point.
Chapter 4 - System Configuration logCWMin (Minimum Contention Window) – The initial upper limit of the random backoff wait time before wireless medium access can be attempted. The initial wait time is a random value between zero and the CWMin value. Specify the CWMin value in the range 0-15 microseconds. Note that the CWMin value must be equal or less than the CWMax value.
Radio Interface Enterprise AP#show interface wireless g 0 227 Wireless Interface Information ============================================================= --------------------Identification--------------------------Description : Enterprise 802.11g Access Point SSID : VAP_TEST_11G 0 Turbo Mode : DISABLED Channel : 36 (AUTO) Status : DISABLED MAC Address : 00:12:cf:05:95:0c ----------------802.
Chapter 4 - System Configuration ----------------Quality of Service--------------------------WMM Mode : SUPPORTED WMM Acknowledge Policy AC0(Best Effort) : Ack AC1(Background) : Acknowledge AC2(Video) : Acknowledge AC3(Voice) : Acknowledge WMM BSS Parameters AC0(Best Effort) : logCwMin: 4 logCwMax: 10 AIFSN: Admission Control: No TXOP Limit: 0.000 ms AC1(Background) : logCwMin: 4 logCwMax: 10 AIFSN: Admission Control: No TXOP Limit: 0.
Radio Interface For a more secure network, the AP can implement one or a combination of the following security mechanisms: Wired Equivalent Privacy (WEP) page 103 IEEE 802.1X page 118 Wireless MAC address filtering page 58 WiFi Protected Access (WPA or WPA2) page 112 Both WEP and WPA security settings are configurable separately for each virtual access point (VAP) interface. MAC address filtering, and RADIUS server settings are global and apply to all VAP interfaces.
Chapter 4 - System Configuration Table 4-6: Wireless Security Considerations Security Mechanism Client Support Implementation Considerations WPA over 802.1X Mode Requires WPA-enabled system and network card driver Provides robust security in WPA-only mode (native support provided in Windows XP) Offers support for legacy WEP clients, but with (i.e., WPA clients only) increased security risk (i.e., WEP authentication keys disabled) Requires configured RADIUS server 802.
Radio Interface independently to work with all security mechanisms and is indicated separately in the table. Required RADIUS server support is also listed.
Chapter 4 - System Configuration Table 4-7: Security Combinations Client Security Combination Configuration Summarya MAC Authenticationb RADIUS Server Static and dynamic (802.1x) WEP keys Enter 1 to 4 WEP keys Select a WEP transmit key Local, RADIUS, or Disabled Yes Local or Disabled Yes Local or Disabled Yes Local or Disabled Yes Interface Detail Settings: Authentication: Open System Encryption: Enable 802.1x: Supported Set 802.1x key refresh and reauthentication rates Dynamic WEP and 802.
Radio Interface Table 4-7: Security Combinations Client Security Combination Configuration Summarya MAC Authenticationb RADIUS Server WPA2 Pre-Shared Key only Interface Detail Settings: Local or Disabled No 802.1x WPA-WPA2 Mixed Mode Interface Detail Settings: Local or Disabled Yes WPA-WPA2 Mixed Mode Pre-Shared Key Interface Detail Settings: Local or Disabled No Authentication: WPA2-PSK Encryption: Enable WPA Configuraton: Required Cipher Suite: AES-CCMP 802.
Chapter 4 - System Configuration After you have configured the radio settings, select Security under Radio G, set an SSID to identify the wireless network service provided by each VAP you want to use, and then click Apply to save your settings. Before enabling the radio service for any VAP, first configure the WEP, WPA, and 802.1X security settings described in the following sections.
Radio Interface WEP is the security protocol initially specified in the IEEE 802.11 standard for wireless communications. Unfortunately, WEP has been found to be seriously flawed and cannot be recommended for a high level of network security. For more robust wireless security, the access point provides WiFi Protected Access (WPA) for improved data encryption and user authentication. Setting up shared keys enables the basic IEEE 802.
Chapter 4 - System Configuration Key Number – Selects the key number to use for encryption for each VAP interface. If the clients have all four keys configured to the same values, you can change the encryption key to any of the four settings without having to update the client keys. (Default: Key 1) Shared Key Setup – Select 64 Bit, 128 Bit, or 152 Bit key length. Note that the same size of encryption key must be supported on all wireless clients.
Radio Interface Shared Key: Sets the access point to use WEP shared keys. If this option is selected, you must configure at least one key on the access point and all clients. NOTE To use 802.1X on wireless clients requires a network card driver and 802.1X client software that supports the EAP authentication type that you want to use. Windows 2000 SP3 or later and Windows XP provide 802.1X client support. Windows XP also provides native WPA support.
Chapter 4 - System Configuration Enterprise Enterprise Enterprise Enterprise Enterprise Enterprise 4.6.2.3 AP(if-wireless AP(if-wireless AP(if-wireless AP(if-wireless AP(if-wireless AP(if-wireless g)#vap 0 g: VAP[0])#802.1X required g: VAP[0])#802.1X session-timeout 300 g: VAP[0])#auth open-system g: VAP[0])#encryption g: VAP[0])# 195 235 237 WiFi Protected Access (WPA) WPA employs a combination of several technologies to provide an enhanced security solution for 802.11 wireless networks.
Radio Interface packet encryption and key management as WPA in the enterprise, providing a robust and manageable alternative for small networks. Mixed WPA and WEP Client Support: WPA enables the access point to indicate its supported encryption and authentication mechanisms to clients using its beacon signal. WPA-compatible clients can likewise respond to indicate their WPA support. This enables the access point to determine which clients are using WPA security and which are using legacy WEP.
Chapter 4 - System Configuration Key Caching: WPA2 provides fast roaming for authenticated clients by retaining keys and other security information in a cache, so that if a client roams away from an access point and then returns, re-authentication is not required. When a WPA2 client is first authenticated, it receives a Pairwise Master Key (PMK) that is used to generate other keys for unicast data encryption.
Radio Interface Figure 4-26: Security - WPA Configuration The WPA configuration parameters are described below: Encryption – You must enable data encryption in order to enable all types of encryption (WEP, TKIP, or AES) in the access point. Pre-Authentication – When using WPA2 over 802.1X, pre-authentication can be enabled, which allows clients to roam to a new access point and be quickly associated without performing full 802.1X authentication.
Chapter 4 - System Configuration WPA2: Clients using WPA2 over 802.1X are accepted for authentication. WPA2-PSK: Clients using WPA2 with a Pre-shared Key are accepted for authentication. WPA-WPA2-mixed: Clients using WPA or WPA2 over 802.1X are accepted for authentication. WPA-WPA2-PSK-mixed: Clients using WPA or WPA2 with a Pre-shared Key are accepted for authentication.
Radio Interface The configuration settings for WPA are summarized in Table 4-8: Table 4-8: WPA Configuration Settings WPA and WPA2 pre-shared key only WPA and WPA2 over 802.
Chapter 4 - System Configuration Enterprise AP(config)#interface wireless g Enter Wireless configuration commands, one per line. Enterprise AP(if-wireless g)#vap 0 Enterprise AP(if-wireless g: VAP[0])#auth wpa required Data Encryption is set to Enabled. WPA2 Clients mode is set to Disabled. WPA Clients Mode is set to Required. WPA Multicast Cipher is set to TKIP. WPA Unicast Cipher can accept TKIP only. WPA Authentication is set to 802.1X Required. Enterprise AP(if-wireless g: VAP[0])#802.
Radio Interface You can enable 802.1X as optionally supported or as required to enhance the security of the wireless network. (Default: Disable) Disable: The AP does not support 802.1X authentication for any wireless client. After successful wireless association with the access point, each client is allowed to access the network. Supported: The access point supports 802.1X authentication only for clients initiating the 802.1X authentication process (i.e., the access point does not initiate 802.
Chapter 4 - System Configuration 4.7 Status Information The Status page includes information on the following items: Table 4-9: Status Page Information Menu Description Page AP Status Displays configuration settings for the basic system and the wireless interface 120 Station Status Shows the wireless clients currently associated with the access point 122 Event Logs Shows log messages stored in memory 124 4.7.
Status Information AP System Configuration – The AP System Configuration table displays the basic system configuration settings: System Up Time: Length of time the management agent has been up. Ethernet MAC: The physical layer address for the Ethernet port. Radio G MAC: The physical layer address for the 802.11b/g interface. System Name: Name assigned to this system. System Contact: Administrator responsible for the system. IP Address: IP address of the management interface for this device.
Chapter 4 - System Configuration 4.7.1.0.1 CLI Commands for Displaying System Settings To view the current access point system settings, use the show system command from the Exec mode. To view the current radio interface settings, use the show interface wireless a or show interface wireless g command (see page 227).
Status Information Figure 4-29: Station Status The Station Configuration page displays basic connection information for all associated stations as described below. This page is automatically refreshed every five seconds. Station Address: The MAC address of the wireless client. Authenticated: Shows if the station has been authenticated. The two basic methods of authentication supported for 802.11 wireless networks are “open system” and “shared key.
Chapter 4 - System Configuration WEP Disabled – The client is not using Wired Equivalent Privacy (WEP) encryption keys. Dynamic – The client is using WiFi Protected Access (802.1X or pre-shared key mode) or using 802.1X authentication with dynamic keying. Static – The client is using static WEP keys for encryption. 4.7.2.0.1 CLI Commands for Displaying Station Status To view status of clients currently associated with the access point, use the show station command from the Exec mode.
Status Information Figure 4-30: Event Log The Event Logs table displays the following information: Log Time: The time the log message was generated. Event Level: The logging level associated with this message. For a description of the various levels, see “logging level” on page 74. Event Message: The content of the log message. Error Messages : An example of a logged error message is: “Station Failed to authenticate (unsupported algorithm).
Chapter 4 - System Configuration 164 Enterprise AP#show logging Logging Information ============================================ Syslog State : Enabled Logging Console State : Enabled Logging Level : Alert Logging Facility Type : 16 Servers 1: 192.168.1.19, UDP Port: 514, State: Enabled 2: 0.0.0.0, UDP Port: 514, State: Disabled 3: 0.0.0.0, UDP Port: 514, State: Disabled 4: 0.0.0.0, UDP Port: 514, State: Disabled ============================================= Enterprise AP# 4.7.3.0.
5 Chapter 5 - Command Line Interface In This Chapter: “Using the Command Line Interface” on page 129 “Entering Commands” on page 131 “Command Groups” on page 136 “General Commands” on page 138 “System Management Commands” on page 143 “System Logging Commands” on page 161 “System Clock Commands” on page 166 “DHCP Relay Commands” on page 170 “SNMP Commands” on page 172 “Flash/File Commands” on page 185 “RADIUS Client” on page 189 “802.
Chapter 5 - Command Line Interface “WDS Bridge Commands” on page 207 “Spanning Tree Commands” on page 208 “Ethernet Interface Commands” on page 209 “Wireless Interface Commands” on page 214 “Rogue AP Detection Commands” on page 231 “Wireless Security Commands” on page 235 “Link Integrity Commands” on page 243 “IAPP Commands” on page 246 “VLAN Commands” on page 247 “WMM Commands” on page 250 128 Operation
Using the Command Line Interface 5.1 Using the Command Line Interface 5.1.1 Accessing the CLI When accessing the management interface over a direct connection to the console port, or via a Telnet connection, the Access Point (AP) unit can be managed by entering command keywords and parameters at the prompt. Using AP’s command-line interface (CLI) is very similar to entering commands on a UNIX system. 5.1.
Chapter 5 - Command Line Interface To access the AP through a Telnet session, you must first set the IP address for the AP, and set the default gateway if you are managing the AP from a different IP subnet. For example: Enterprise Enterprise Enterprise Enterprise AP#configure AP(config)#interface ethernet AP(if-ethernet)#ip address 10.1.0.1 255.255.255.0 10.1.0.
Entering Commands 5.2 Entering Commands This section describes how to enter CLI commands. 5.2.1 Keywords and Arguments A CLI command is a series of keywords and arguments. Keywords identify a command, and arguments specify configuration parameters. For example, in the command “show interfaces ethernet,” show and interfaces are keywords, and ethernet is an argument that specifies the interface type. You can enter commands as follows: To enter a simple command, enter the command keyword.
Chapter 5 - Command Line Interface Interface). You can also display a list of valid keywords for a specific command. For example, the command “show ?” displays a list of possible show commands: Enterprise AP#show ? APmanagement Show management AP information.
Entering Commands disable logging, specify the no logging command. This guide describes the negation effect for all applicable commands. 5.2.7 Using Command History The CLI maintains a history of commands that have been entered. You can scroll back through the history of commands by pressing the up arrow key. Any command displayed in the history list can be executed again, or first modified and then executed. Using the show history command displays a longer list of recently executed commands. 5.2.
Chapter 5 - Command Line Interface Username: admin Password: [system login password] Enterprise AP# 5.2.10 Configuration Commands Configuration commands are used to modify AP settings. These commands modify the running configuration and are saved in memory. The configuration commands are organized into four different modes: Global Configuration (GC) - These commands modify the system level configuration, and include commands such as username and password.
Entering Commands currently available commands or parameters. You can use the Tab key to complete partial commands, or enter a partial command followed by the “?” character to display a list of possible matches. You can also use the following editing keystrokes for command-line processing: Table 5-2: Keystroke Commands Keystroke Function Ctrl-A Shifts cursor to start of command line. Ctrl-B Shifts cursor to the left one character. Ctrl-C Terminates a task and displays the command prompt.
Chapter 5 - Command Line Interface 5.3 Command Groups The system commands can be broken down into the functional groups shown below.
Command Groups The access mode shown in the following tables is indicated by these abbreviations: Exec (Executive Mode), GC (Global Configuration), IC-E (Interface-Ethernet Configuration), IC-W (Interface-Wireless Configuration), and IC-W-VAP (Interface-Wireless VAP Configuration).
Chapter 5 - Command Line Interface 5.
General Commands 5.4.1 configure This command activates Global Configuration mode. You must enter this mode to modify most of the settings on the AP. You must also enter Global Configuration mode prior to enabling the context modes for Interface Configuration. see “Using the Command Line Interface” on page 5-129. Default Setting None Command Mode Exec Example Enterprise AP#configure Enterprise AP(config)# Related Commands end (page 139) 5.4.2 end This command returns to the previous configuration mode.
Chapter 5 - Command Line Interface 5.4.3 exit This command returns to the Exec mode or exits the configuration program. Default Setting None Command Mode Any Example This example shows how to return to the Exec mode from the Interface Configuration mode, and then quit the CLI session: Enterprise AP(if-ethernet)#exit Enterprise AP#exit CLI session with the Access Point is now closed Username: 5.4.4 ping This command sends ICMP echo request packets to another node on the network.
General Commands Example Enterprise AP#ping 10.1.0.19 192.168.1.19 is alive Enterprise AP# 5.4.5 reset This command restarts the system or restores the factory default settings. Syntax reset • board - Reboots the system. • configuration - Resets the configuration settings to the factory defaults, and then reboots the system. Default Setting None Command Mode Exec Command Usage When the system is restarted, it will always run the Power-On Self-Test.
Chapter 5 - Command Line Interface Enterprise AP#show history config exit show history Enterprise AP# 5.4.7 show line This command displays the console port’s configuration settings. Command Mode Exec Example The console port settings are fixed at the values shown below.
System Management Commands 5.5 System Management Commands These commands are used to configure the user name, password, system logs, browser management options, clock settings, and a variety of other system information.
Chapter 5 - Command Line Interface Table 5-5: System Management Commands Command Function Mode Page show version Displays version information for the system Exec 154 show config Displays detailed configuration information for the system Exec 155 show hardware Displays the AP’s hardware version Exec 160 5.5.1 country This command configures the AP’s country code, which identifies the country of operation and sets the authorized radio channels.
System Management Commands Table 5-6: Country Codes Bulgaria BG Indonesia ID Qatar QA United Arab Emirates AE Canada CA Iran IR Oman OM United Kingdom GB Chile CL Ireland IE Pakistan PK United States US China CN Israel IL Panama PA Uruguay UY Colombia CO Italy IT Peru PE Uzbekistan UZ Costa Rica CR Japan JP Philippines PH Yemen YE Croatia HR Jordan JO Poland PL Venezuela VE Cyprus CY Kazakhstan KZ Portugal PT Vietnam VN Czech Republic CZ Nor
Chapter 5 - Command Line Interface Default Setting Enterprise AP Command Mode Global Configuration Example Enterprise AP(config)#prompt RD2 RD2(config)# 5.5.3 system name This command specifies or modifies the system name for this device. Use the no form to restore the default system name. Syntax system name no system name name - The name of this host.
System Management Commands Default Setting admin Command Mode Global Configuration Example Enterprise AP(config)#username bob Enterprise AP(config)# 5.5.5 password After initially logging onto the system, you should set the password. Remember to record it in a safe place. Use the no form to reset the default password. Syntax password no password password - Password for management access.
Chapter 5 - Command Line Interface After boot up, the SSH server needs about two minutes to generate host encryption keys. The SSH server is disabled while the keys are being generated. The show system command displays the status of the SSH server. Example Enterprise AP(if-ethernet)#ip ssh-server enable Enterprise AP(if-ethernet)# 5.5.7 ip ssh-server port This command sets the Secure Shell server port. Use the no form to disable the server.
System Management Commands Syntax ip http port no ip http port port-number - The TCP port to be used by the browser interface. (Range: 1024-65535) Default Setting 80 Command Mode Global Configuration Example Enterprise AP(config)#ip http port 769 Enterprise AP(config)# Related Commands ip http server (page 149) 5.5.10 ip http server This command allows this device to be monitored or configured from a browser. Use the no form to disable this function.
Chapter 5 - Command Line Interface Default Setting 300 seconds Command Mode Global Configuration Example Enterprise AP(config)#ip http session-timeout 0 Enterprise AP(config)# Related Commands ip http port (page 148) 5.5.12 ip https port Use this command to specify the UDP port number used for HTTPS/SSL connection to the AP’s Web interface. Use the no form to restore the default port. Syntax ip https port no ip https port port_number – The UDP port used for HTTPS/SSL.
System Management Commands Syntax ip https server no ip https server Default Setting Enabled Command Mode Global Configuration Command Usage • Both HTTP and HTTPS service can be enabled independently. • If you enable HTTPS, you must indicate this in the URL: https://device:port_number] • When you start HTTPS, the connection is established in this way: - The client authenticates the server using the server’s digital certificate.
Chapter 5 - Command Line Interface • IP address can be configured for SNMP, web and Telnet access respectively. Each of these groups can include up to five different sets of addresses, either individual addresses or address ranges. • When entering addresses for the same group (i.e., SNMP, web or Telnet), the AP will not accept overlapping address ranges. When entering addresses for different groups, the AP will accept overlapping address ranges.
System Management Commands Command Mode Exec Example Enterprise AP#show apmanagement Management AP Information ================================= AP Management IP Mode: Any IP Telnet UI: Enable WEB UI : Enable SNMP UI : Enable ================================== Enterprise AP# 5.5.17 show system This command displays basic system configuration settings.
Chapter 5 - Command Line Interface Default Setting None Command Mode Exec Example Enterprise AP#show system System Information ========================================================== Serial Number : A123456789 System Up time : 0 days, 4 hours, 33 minutes, 29 seconds System Name : Enterprise wireless gP System Location : System Contact : System Country Code : US - UNITED STATES MAC Address : 00-30-F1-F0-9A-9C IP Address : 192.168.1.1 Subnet Mask : 255.255.255.0 Default Gateway : 0.0.0.
System Management Commands Command Mode Exec Example Enterprise AP#show version Version Information ========================================= Version: v4.3.3.8b02 Date : Dec 20 2005, 18:38:12 ========================================= Enterprise AP# 5.5.19 show config This command displays detailed configuration information for the system.
Chapter 5 - Command Line Interface Command Mode Exec Example Enterprise AP#show config Authentication Information =========================================================== MAC Authentication Server : DISABLED MAC Auth Session Timeout Value : 0 min 802.1x supplicant : DISABLED 802.1x supplicant user : EMPTY 802.1x supplicant password : EMPTY Address Filtering : ALLOWED System Default : ALLOW addresses not found in filter table.
System Management Commands Hardware Version Information =========================================== Hardware version R01A =========================================== Ethernet Interface Information ======================================== IP Address : 192.168.0.151 Subnet Mask : 255.255.255.0 Default Gateway : 192.168.0.1 Primary DNS : 210.200.211.225 Secondary DNS : 210.200.211.
Chapter 5 - Command Line Interface Logging Information ===================================================== Syslog State : Disabled Logging Console State : Disabled Logging Level : Informational Logging Facility Type : 16 Servers 1: 0.0.0.0 , UDP Port: 514, State: Disabled 2: 0.0.0.0 , UDP Port: 514, State: Disabled 3: 0.0.0.0 , UDP Port: 514, State: Disabled 4: 0.0.0.
System Management Commands dot11InterfaceGFail dot11StationAssociation dot11StationReAssociation dot1xAuthFail dot1xAuthSuccess dot1xMacAddrAuthSuccess iappStationRoamedFrom localMacAddrAuthFail pppLogonFail configFileVersionChanged systemDown Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled dot11InterfaceBFail dot11StationAuthentication dot11StationRequestFail dot1xAuthNotInitiated dot1xMacAddrAuthFail iappContextDataSent iappStationRoamedTo localMacAddrAuthSuccess
Chapter 5 - Command Line Interface SSH Server : ENABLED SSH Server Port : 22 Telnet Server : ENABLED WEB Redirect : DISABLED DHCP Relay : DISABLED ============================================================== Version Information ========================================= Software Version : v4.3.3.8b02 Date : Nov 8 2006, 09:50:03 BootRom Version : v2.1.6 Hardware version : R-00 ========================================= Enterprise AP# 5.5.
System Logging Commands 5.6 System Logging Commands These commands are used to configure system logging on the AP.
Chapter 5 - Command Line Interface Syntax logging host <1 | 2 | 3 | 4> [udp_port] no logging host <1 | 2 | 3 | 4> • • • • • • • 1 - First syslog server. 2 - Second syslog server. 3 - Third syslog server. 4 - Fourth syslog server. host_name - The name of a syslog server. (Range: 1-20 characters) host_ip_address - The IP address of a syslog server. udp_port - The UDP port used by the syslog server.
System Logging Commands Syntax logging level Default Setting Informational Command Mode Global Configuration Command Usage Messages sent include the selected level down to Emergency level. Level Argument Description Emergency System unusable Alert Immediate action needed Critical Critical conditions (e.g., memory allocation, or free memory error - resource exhausted) Error Error conditions (e.g.
Chapter 5 - Command Line Interface Default Setting 16 Command Mode Global Configuration Command Usage The command specifies the facility type tag sent in syslog messages. (See RFC 3164.) This type has no effect on the kind of messages reported by the AP. However, it may be used by the syslog server to sort messages or to store messages in the corresponding database. Example Enterprise AP(config)#logging facility 19 Enterprise AP(config)# 5.6.
System Logging Commands Syntax show logging Command Mode Exec Example Enterprise AP#show logging Logging Information ============================================ Syslog State : Enabled Logging Console State : Enabled Logging Level : Alert Logging Facility Type : 16 Servers 1: 192.168.1.19, UDP Port: 514, State: Enabled 2: 0.0.0.0, UDP Port: 514, State: Disabled 3: 0.0.0.0, UDP Port: 514, State: Disabled 4: 0.0.0.
Chapter 5 - Command Line Interface 5.7 System Clock Commands These commands are used to configure SNTP and system clock settings on the AP.
System Clock Commands Default Setting 137.92.140.80 192.43.244.18 Command Mode Global Configuration Command Usage When SNTP client mode is enabled using the sntp-server enable command, the sntp-server ip command specifies the time servers from which the AP polls for time updates. The AP will poll the time servers in the order specified until a response is received. Example Enterprise AP(config)#sntp-server ip 10.1.0.19 Enterprise AP# Related Commands sntp-server enable (page 167) show sntp (page 169) 5.7.
Chapter 5 - Command Line Interface Default Setting 00:14:00, January 1, 1970 Command Mode Global Configuration Example This example sets the system clock to 17:37 June 19, 2003. Enterprise AP#sntp-server date-time Enter Year<1970-2100>: 2003 Enter Month<1-12>: 6 Enter Day<1-31>: 19 Enter Hour<0-23>: 17 Enter Min<0-59>: 37 Enterprise AP# Related Commands sntp-server enable (page 167) 5.7.4 sntp-server daylight-saving This command sets the start and end dates for daylight savings time.
System Clock Commands Syntax sntp-server timezone hours - Number of hours before/after UTC. (Range: -12 to +12 hours) Default Setting -5 (BOGOTA, EASTERN, INDIANA) Command Mode Global Configuration Command Usage This command sets the local time zone relative to the Coordinated Universal Time (UTC, formerly Greenwich Mean Time or GMT), based on the earth’s prime meridian, zero degrees longitude.
Chapter 5 - Command Line Interface 5.8 DHCP Relay Commands Dynamic Host Configuration Protocol (DHCP) can dynamically allocate an IP address and other configuration information to network clients that broadcast a request. To receive the broadcast request, the DHCP server would normally have to be on the same subnet as the client. However, when the AP’s DHCP relay agent is enabled, received client requests can be forwarded directly by the AP to a known DHCP server on another subnet.
DHCP Relay Commands Syntax dhcp-relay • primary - The primary DHCP server. • secondary - The secondary DHCP server. • ip_address - IP address of the server. Default Setting Primary and secondary: 0.0.0.0 Command Mode Global Configuration Example Enterprise AP(config)#dhcp-relay primary 192.168.1.10 Enterprise AP(config)# 5.8.3 show dhcp-relay This command displays the current DHCP relay configuration.
Chapter 5 - Command Line Interface 5.9 SNMP Commands Controls access to this AP from management stations using the Simple Network Management Protocol (SNMP), as well as the hosts that will receive trap messages.
SNMP Commands (Maximum length: 23 characters, case sensitive) • ro - Specifies read-only access. Authorized management stations are only able to retrieve MIB objects. • rw - Specifies read/write access. Authorized management stations are able to both retrieve and modify MIB objects. Default Setting • public - Read-only access. Authorized management stations are only able to retrieve MIB objects. • private - Read/write access. Authorized management stations are able to both retrieve and modify MIB objects.
Chapter 5 - Command Line Interface Default Setting None Command Mode Global Configuration Example Enterprise AP(config)#snmp-server location WC-19 Enterprise AP(config)# Related Commands snmp-server contact (page 173) 5.9.4 snmp-server enable server This command enables SNMP management access and also enables this device to send SNMP traps (i.e., notifications). Use the no form to disable SNMP service and trap messages.
SNMP Commands • host_ip_address - IP of the host (the targeted recipient). • host_name - Name of the host. (Range: 1-63 characters) • community-string - Password-like community string sent with the notification operation. Although you can set this string using the snmp-server host command by itself, we recommend that you define this string using the snmp-server community command prior to using the snmp-server host command.
Chapter 5 - Command Line Interface address). - localMacAddrAuthFail - A client station has failed authentication with the local MAC address database on the AP. - localMacAddrAuthSuccess - A client station has successfully authenticated its MAC address with the local database on the AP. - pppLogonFail - The AP has failed to log onto the PPPoE server using the configured user name and password. - sntpServerFail - The AP has failed to set the time from the configured SNTP server.
SNMP Commands Example Enterprise AP(config)#snmp-server engine-id 1a:2b:3c:4d:00:ff Enterprise AP(config)# 5.9.8 snmp-server user This command configures the SNMP v3 users that are allowed to manage the AP. Use the no form to delete an SNMP v3 user. Syntax snmp-server user user-name - A user-defined string for the SNMP user. (32 characters maximum) Default Setting None Command Mode Global Configuration Command Usage • Up to 10 SNMPv3 users can be configured on the AP.
Chapter 5 - Command Line Interface Example Enterprise AP(config)#snmp-server user User Name<1-32> :chris Group Name<1-32> :RWPriv Authtype(md5,none):md5 Passphrase<8-32>:a good secret Privacy(des,none) :des Passphrase<8-32>:a very good secret Enterprise AP(config)# 5.9.9 snmp-server targets This command configures SNMP v3 notification targets. Use the no form to delete an SNMP v3 target.
SNMP Commands Syntax snmp-server filter [mask {mask}] no snmp-server filter [subtree] • filter-id - A user-defined name that identifies an SNMP v3 notification filter. (Maximum length: 32 characters) • include - Defines a filter type that includes objects in the MIB subtree. • exclude - Defines a filter type that excludes objects in the MIB subtree. • subtree - The part of the MIB subtree that is to be filtered.
Chapter 5 - Command Line Interface Default Setting None Command Mode Global Configuration Example Enterprise AP(config)#snmp-server filter-assignments mytraps trapfilter Enterprise AP(config)#exit Enterprise AP#show snmp target Host ID : mytraps User : chris IP Address : 192.168.1.33 UDP Port : 162 ============================= Enterprise AP#show snmp filter-assignments HostID mytraps FilterID trapfilter Enterprise AP(config)# 5.9.12 show snmp groups This command displays the SNMP v3 pre-defined groups.
SNMP Commands Syntax show snmp users Command Mode Exec Example Enterprise AP#show snmp users ============================================= UserName :chris GroupName :RWPriv AuthType :MD5 Passphrase:**************** PrivType :DES Passphrase:**************** ============================================= Enterprise AP# 5.9.14 show snmp group-assignments This command displays the SNMP v3 user group assignments.
Chapter 5 - Command Line Interface Syntax show snmp target Command Mode Exec Example Enterprise AP#show snmp target Host ID : mytraps User : chris IP Address : 192.168.1.33 UDP Port : 162 ============================= Enterprise AP# 5.9.16 show snmp filter This command displays the SNMP v3 notification filter settings. Syntax show snmp filter [filter-id] • filter-id - A user-defined name that identifies an SNMP v3 notification filter.
SNMP Commands Syntax show snmp filter-assignments Command Mode Exec Example Enterprise AP#show snmp filter-assignments HostID mytraps FilterID trapfilter Enterprise AP# 5.9.18 show snmp This command displays the SNMP configuration settings.
Chapter 5 - Command Line Interface Command Mode Exec Example Enterprise AP#show snmp SNMP Information ============================================== Service State : Enable Community (ro) : ***** Community (rw) : ***** Location : WC-19 Contact : Paul EngineId :80:00:07:e5:80:00:00:2e:62:00:00:00:18 EngineBoots:1 Trap Destinations: 1: 192.168.1.9, 2: 0.0.0.0, 3: 0.0.0.0, 4: 0.0.0.
Flash/File Commands 5.10 Flash/File Commands These commands are used to manage the system code or configuration files.
Chapter 5 - Command Line Interface Syntax copy file copy config • • • • ftp - Keyword that allows you to copy to/from an FTP server. tftp - Keyword that allows you to copy to/from a TFTP server. file - Keyword that allows you to copy to/from a flash memory file. config - Keyword that allows you to upload the configuration file from flash memory. Default Setting None Command Mode Exec Command Usage • The system prompts for data required to complete the copy command.
Flash/File Commands Default Setting None Command Mode Exec CAUTION Beware of deleting application images from flash memory. At least one application image is required in order to boot the AP. If there are multiple image files in flash memory, and the one used to boot the AP is deleted, be sure you first use the bootfile command to update the application image file booted at startup before you reboot the AP. Example This example shows how to delete the test.cfg configuration file from flash memory.
Chapter 5 - Command Line Interface Command Mode Exec Command Usage File information is shown below: Column Heading Description File Name The name of the file. Type (2) Operation Code and (5) Configuration file File Size The length of the file in bytes. Example The following example shows how to display all file information: Enterprise AP#dir File Name -------------------------dflt-img.bin syscfg syscfg_bak zz-img.
RADIUS Client 5.11 RADIUS Client Remote Authentication Dial-in User Service (RADIUS) is a logon authentication protocol that uses software running on a central server to control access for RADIUS-aware devices to the network. An authentication server contains a database of credentials, such as users names and passwords, for each wireless client that requires access to the AP.
Chapter 5 - Command Line Interface Default Setting None Command Mode Global Configuration Example Enterprise AP(config)#radius-server address 192.168.1.25 Enterprise AP(config)# 5.11.2 radius-server port This command sets the RADIUS server network port. Syntax radius-server [secondary] port • secondary - Secondary server. • port_number - RADIUS server UDP port used for authentication messages.
RADIUS Client Syntax radius-server [secondary] retransmit number_of_retries • secondary - Secondary server. • number_of_retries - Number of times the AP will try to authenticate logon access via the RADIUS server. (Range: 1 - 30) Default Setting 3 Command Mode Global Configuration Example Enterprise AP(config)#radius-server retransmit 5 Enterprise AP(config)# 5.11.5 radius-server timeout This command sets the interval between transmitting authentication requests to the RADIUS server.
Chapter 5 - Command Line Interface Default Setting 0 (disabled) Command Mode Global Configuration Command Usage • When the RADIUS Accounting server UDP port is specified, a RADIUS accounting session is automatically started for each user that is successfully authenticated to the AP. Example Enterprise AP(config)#radius-server port-accounting 1813 Enterprise AP(config)# 5.11.7 radius-server timeout-interim This command sets the interval between transmitting accounting updates to the RADIUS server.
RADIUS Client Default Setting No delimiter Command Mode Global Configuration Example Enterprise AP(config)#radius-server radius-mac-format multi-dash Enterprise AP(config)# 5.11.9 radius-server vlan-format This command sets the format for specifying VLAN IDs on the RADIUS server. Syntax radius-server vlan-format • hex - Enter VLAN IDs as a hexadecimal number. • ascii - Enter VLAN IDs as an ASCII string.
Chapter 5 - Command Line Interface Default Setting None Command Mode Exec Example Enterprise AP#show radius Radius Server Information ======================================== IP : 0.0.0.0 Port : 1812 Key : ***** Retransmit : 3 Timeout : 5 Radius MAC format : no-delimiter Radius VLAN format : HEX ======================================== Radius Secondary Server Information ======================================== IP : 0.0.0.
802.1X Authentication 5.12 802.1X Authentication The AP supports IEEE 802.1X access control for wireless clients. This control feature prevents unauthorized access to the network by requiring an 802.1X client application to submit user credentials for authentication. Client authentication is then verified by a RADIUS server using EAP (Extensible Authentication Protocol) before the AP grants client access to the network. The 802.
Chapter 5 - Command Line Interface successful 802.11 association, each client is allowed to access the network. • When 802.1X is supported, the AP supports 802.1X authentication only for clients initiating the 802.1X authentication process (i.e., the AP does NOT initiate 802.1X authentication). For stations initiating 802.1X, only those stations successfully authenticated are allowed to access the network. For those stations not initiating 802.1X, access to the network is allowed after successful 802.
802.1X Authentication Default None Command Mode Global Configuration Command Usage The AP currently only supports EAP-MD5 CHAP for 802.1X supplicant authentication. Example Enterprise AP(config)#802.1x-supplicant user WA6102 dot1xpass Enterprise AP(config)# 5.12.4 show authentication This command shows all 802.1X authentication settings, as well as the address filter table.
Chapter 5 - Command Line Interface 5.13 MAC Address Authentication Use these commands to define MAC authentication on the AP. For local MAC authentication, first define the default filtering policy using the address filter default command. Then enter the MAC addresses to be filtered, indicating if they are allowed or denied. For RADIUS MAC authentication, the MAC addresses and filtering policy must be configured on the RADIUS server.
MAC Address Authentication Default allowed Command Mode Global Configuration Example Enterprise AP(config)#address filter default denied Enterprise AP(config)# Related Commands address filter entry (page 199) 802.1x-supplicant user (page 196) 5.13.2 address filter entry This command enters a MAC address in the filter table. Syntax address filter entry • mac-address - Physical address of client. (Enter six pairs of hexadecimal digits separated by hyphens; e.g.
Chapter 5 - Command Line Interface Default None Command Mode Global Configuration Example Enterprise AP(config)#address filter delete 00-70-50-cc-99-1b Enterprise AP(config)# Related Commands 802.1x-supplicant user (page 196) 5.13.4 mac-authentication server This command sets address filtering to be performed with local or remote options. Use the no form to disable MAC address authentication.
MAC Address Authentication Default 0 (disabled) Command Mode Global Configuration Example Enterprise AP(config)#mac-authentication session-timeout 1 Enterprise AP(config)# BreezeMAX Wi² and BreezeACCESS Wi² System Manual 201
Chapter 5 - Command Line Interface 5.14 Filtering Commands The commands described in this section are used to filter communications between wireless clients, control access to the management interface from wireless clients, and filter traffic using specific Ethernet protocol types.
Filtering Commands 5.14.1 filter local-bridge This command disables communication between wireless clients. Use the no form to disable this filtering. Syntax filter local-bridge no filter local-bridge all-VAP - When enabled, clients cannot establish wireless communications with any other client, either those associated to the same VAP interface or any other VAP interface.
Chapter 5 - Command Line Interface Syntax [no] filter uplink enable Default Disabled Command Mode Global Configuration Example Enterprise AP(config)#filter uplink enable Enterprise AP(config)# 5.14.4 filter uplink This command adds or deletes MAC addresses from the uplink filtering table. Syntax filter uplink MAC address MAC address - Specifies a MAC address in the form xx-xx-xx-xx-xx-xx. A maximum of four addresses can be added to the filtering table.
Filtering Commands Syntax filter ethernet-type enable no filter ethernet-type enable Default Disabled Command Mode Global Configuration Command Usage This command is used in conjunction with the filter ethernet-type protocol command to determine which Ethernet protocol types are to be filtered. Example Enterprise AP(config)#filter ethernet-type enable Enterprise AP(config)# Related Commands filter ethernet-type protocol (page 205) 5.14.
Chapter 5 - Command Line Interface Default None Command Mode Global Configuration Command Usage Use the filter ethernet-type enable command to enable filtering for Ethernet types specified in the filtering table, or the no filter ethernet-type enable command to disable all filtering based on the filtering table. Example Enterprise AP(config)#filter ethernet-type protocol ARP Enterprise AP(config)# Related Commands filter ethernet-type enable (page 204) 5.14.
WDS Bridge Commands 5.15 WDS Bridge Commands The WDS Bridge commands are not applicable for the current release.
Chapter 5 - Command Line Interface 5.16 Spanning Tree Commands The Spanning Tree commands are not applicable for the current version.
Ethernet Interface Commands 5.17 Ethernet Interface Commands The commands described in this section configure connection parameters for the Ethernet port and wireless interface.
Chapter 5 - Command Line Interface Default Setting None Command Mode Global Configuration Command Usage The primary and secondary name servers are queried in sequence. Example This example specifies two domain-name servers. Enterprise AP(if-ethernet)#dns primary-server 192.168.1.55 Enterprise AP(if-ethernet)#dns secondary-server 10.1.0.55 Enterprise AP(if-ethernet)# Related Commands show interface ethernet (page 212) 5.17.3 ip address This command sets the IP address for the AP.
Ethernet Interface Commands Example Enterprise AP(config)#interface ethernet Enter Ethernet configuration commands, one per line. Enterprise AP(if-ethernet)#ip address 192.168.1.2 255.255.255.0 192.168.1.253 Enterprise AP(if-ethernet)# Related Commands ip dhcp (page 211) 5.17.4 ip dhcp This command enables the AP to obtain an IP address from a DHCP server. Use the no form to restore the default IP address.
Chapter 5 - Command Line Interface • 100MH - Forces 100 Mbps, half-duplex operation • 100MF - Forces 100 Mbps, full-duplex operation Default Setting Auto-negotiation is enabled by default. Command Mode Interface Configuration (Ethernet) Command Usage If autonegotiation is disabled, the speed and duplex mode must be configured to match the setting of the attached device. Example The following example configures the Ethernet port to 100 Mbps, full-duplex operation.
Ethernet Interface Commands Syntax show interface [ethernet] Default Setting Ethernet interface Command Mode Exec Example Enterprise AP#show interface ethernet Ethernet Interface Information ======================================== IP Address : 192.168.1.1 Subnet Mask : 255.255.255.0 Default Gateway : 192.168.1.253 Primary DNS : 192.168.1.55 Secondary DNS : 10.1.0.
Chapter 5 - Command Line Interface 5.18 Wireless Interface Commands The commands described in this section configure connection parameters for the wireless interfaces.
Wireless Interface Commands Table 5-17: Wireless Interface Commands Command Function Mode Page assoc- timeout-interval Configures the idle time interval (when no frames are sent) after which a client is disassociated from the VAP interface IC-W-VAP 226 auth- timeout-value Configures the time interval after which clients must be re-authenticated IC-W-VAP 226 shutdown Disables the wireless interface IC-W-VAP 226 show interface wireless Shows the status for the wireless interface Exec 227
Chapter 5 - Command Line Interface Default Setting None Command Mode Interface Configuration (Wireless) Example Enterprise AP(if-wireless g)#vap 0 Enterprise AP(if-wireless g: VAP[0])# 5.18.3 speed This command configures the maximum data rate at which the transmits unicast packets. Syntax speed speed - Maximum access speed allowed for wireless clients. (Options for 802.11b/g: 1, 2, 5.
Wireless Interface Commands Default Setting 1 Mbps for 802.11b/g Command Mode Interface Configuration (Wireless) Example Enterprise AP(if-wireless g)#multicast-data-rate 5.
Chapter 5 - Command Line Interface 5.18.5 channel This command configures the radio channel through which the AP communicates with wireless clients. Syntax channel • channel - Manually sets the radio channel used for communications with wireless clients. (Range for 802.11b/g: 1 to 14) • auto - Automatically selects an unoccupied channel (if available). Otherwise, the lowest channel is selected.
Wireless Interface Commands Example Enterprise AP(if-wireless g)#transmit-power half Enterprise AP(if-wireless g)# 5.18.7 radio-mode This command forces the operating mode for the 802.11g wireless interface. Syntax radio-mode • b - b-only mode: Both 802.11b and 802.11g clients can communicate with the AP, but 802.11g clients can only transfer data at 802.11b standard rates (up to 11 Mbps). • g - g-only mode: Only 802.11g clients can communicate with the AP (up to 54 Mbps).
Chapter 5 - Command Line Interface Example Enterprise AP(if-wireless g)#preamble short Enterprise AP(if-wireless g)# 5.18.9 antenna control This command selects the use of two diversity antennas or a single antenna for the radio interface. Syntax antenna control • diversity - The radio uses two identical antennas in a diversity mode. • left - The radio uses a single antenna on the left side.
Wireless Interface Commands • In the current release, select id=0x0108 for the 8dBi omni antenna. Example Enterprise AP(if-wireless g)#antenna id 0000 Enterprise AP(if-wireless g)# 5.18.11 antenna location This command selects the antenna mounting location for the radio interface. Syntax antenna location • indoor - The antenna is mounted indoors. • outdoor - The antenna is mounted outdoors.
Chapter 5 - Command Line Interface Default Setting 100 Command Mode Interface Configuration (Wireless) Command Usage The beacon signals allow wireless clients to maintain contact with the AP. They may also carry power-management information. Example Enterprise AP(if-wireless g)#beacon-interval 150 Enterprise AP(if-wireless g)# 5.18.13 dtim-period This command configures the rate at which stations in sleep mode must wake up to receive broadcast/multicast transmissions.
Wireless Interface Commands Syntax fragmentation-length length - Minimum packet size for which fragmentation is allowed. (Range: 256-2346 bytes) Default Setting 2346 Command Mode Interface Configuration (Wireless) Command Usage • If the packet size is smaller than the preset Fragment size, the packet will not be segmented.
Chapter 5 - Command Line Interface Example Enterprise AP(if-wireless g)#rts-threshold 256 Enterprise AP(if-wireless g)# 5.18.16 super-g This command enables Atheros proprietary Super G performance enhancements. Use the no form to disable this function. Syntax [no] super-g Default Setting Disabled Command Mode Interface Configuration (Wireless - 802.11g) Command Usage These enhancements include bursting, compression, fast frames and dynamic turbo.
Wireless Interface Commands Syntax ssid string - The name of a basic service set supported by the AP. (Range: 0 - 7 characters) Default Setting 802.11g Radio: VAP_TEST_11G (0 to 3) Command Mode Interface Configuration (Wireless-VAP) Command Usage Clients that want to connect to the wireless network via an AP must set their SSIDs to the same as that of the AP. Example Enterprise AP(if-wireless g: VAP[0])#ssid RD-AP#3 Enterprise AP(if-wireless g)# 5.18.
Chapter 5 - Command Line Interface Default Setting 64 Command Mode Interface Configuration (Wireless-VAP) Example Enterprise AP(if-wireless g: VAP[0])#max-association 32 Enterprise AP(if-wireless g)# 5.18.21 assoc-timeout-interval This command configures the idle time interval (when no frames are sent) after which the client is disassociated from the VAP interface. Syntax assoc-timeout-interval minutes - The number of minutes of inactivity before disassociation.
Wireless Interface Commands Syntax shutdown no shutdown Default Setting Interface enabled Command Mode Interface Configuration (Wireless-VAP) Command Usage You must first enable VAP interface 0 before you can enable VAP interfaces 1, 2, 3, 4, 5, 6, or 7. Example Enterprise AP(if-wireless g: VAP[0])#shutdown Enterprise AP(if-wireless g)# 5.18.24 show interface wireless This command displays the status for the wireless interface. Syntax show interface wireless < g> vap-id • g - 802.11g radio interface.
Chapter 5 - Command Line Interface Command Mode Exec Example Enterprise AP#show interface wireless g 0 Wireless Interface Information ========================================================================= ----------------Identification------------------------------------------Description : Enterprise 802.11g Access Point SSID : VAP_TEST_11G 0 Channel : 1 (AUTO) Status : ENABLED MAC Address : 00:03:7f:fe:03:02 ----------------802.
Wireless Interface Commands ----------------802.1x--------------------------------------------------802.1x : DISABLED Broadcast Key Refresh Rate : 30 min Session Key Refresh Rate : 30 min 802.
Chapter 5 - Command Line Interface Command Mode Exec Example Enterprise AP#show station Station Table Information ======================================================== if-wireless g VAP [0] : 802.11g Channel : 60 No 802.11g Channel Stations. . . . if-wireless G VAP [0] : 802.11g Channel : 1 802.
Rogue AP Detection Commands 5.19 Rogue AP Detection Commands A “rogue AP” is either an AP that is not authorized to participate in the wireless network, or an AP that does not have the correct security configuration. Rogue APs can potentially allow unauthorized users access to the network. Alternatively, client stations may mistakenly associate to a rogue AP and be prevented from accessing network resources. Rogue APs may also cause radio interference and degrade the wireless LAN performance.
Chapter 5 - Command Line Interface the show rogue-ap command. • The AP sends Syslog messages for each detected AP during a rogue AP scan. Example Enterprise AP(if-wireless g)#rogue-ap enable configure either syslog or trap or both to receive the rogue APs detected. Enterprise AP(if-wireless g)# 5.19.2 rogue-ap authenticate This command forces the unit to authenticate all APs on the network. Use the no form to disable this function.
Rogue AP Detection Commands Example Enterprise AP(if-wireless g)#rogue-ap duration 200 Enterprise AP(if-wireless g)# Related Commands rogue-ap interval (page 233) 5.19.4 rogue-ap interval This command sets the interval at which to scan for APs. Syntax rogue-ap interval minutes - The interval between consecutive scans. (Range: 30-10080 minutes) Default Setting 720 minutes Command Mode Interface Configuration (Wireless) Command Usage This command sets the interval at which scans occur.
Chapter 5 - Command Line Interface Default Setting Disabled Command Mode Interface Configuration (Wireless) Command Usage While the AP scans a channel for rogue APs, wireless clients will not be able to connect to the AP. Therefore, avoid frequent scanning or scans of a long duration unless there is a reason to believe that more intensive scanning is required to find a rogue AP.
Wireless Security Commands 5.20 Wireless Security Commands The commands described in this section configure parameters for wireless security on the 802.11g interface. Table 5-19: Wireless Security Commands Command Function Mode Page auth Defines the 802.
Chapter 5 - Command Line Interface Default Setting open-system Command Mode Interface Configuration (Wireless-VAP) Command Usage • The auth command automatically configures settings for each authentication type, including encryption, 802.1X, and cipher suite. The command auth open-system disables encryption and 802.1X. • To use WEP shared-key authentication, set the authentication type to “shared-key” and define at least one static WEP key with the key command.
Wireless Security Commands Example Enterprise AP(if-wireless g: VAP[0])#auth shared-key Enterprise AP(if-wireless g)# Related Commands encryption (page 237) key (page 237) 5.20.2 encryption This command enables data encryption for wireless communications. Use the no form to disable data encryption.
Chapter 5 - Command Line Interface - For 128-bit keys, use 13 alphanumeric characters or 26 hexadecimal digits. - For 152-bit keys, use 16 alphanumeric characters or 32 hexadecimal digits.
Wireless Security Commands Example Enterprise AP(if-wireless g: VAP[0])#transmit-key 2 Enterprise AP(if-wireless g)# 5.20.5 cipher-suite This command defines the cipher algorithm used to encrypt the global key for broadcast and multicast traffic when using WiFi Protected Access (WPA) security. Syntax multicast-cipher • aes-ccmp - Use AES-CCMP encryption for the unicast and multicast cipher. • tkip - Use TKIP encryption for the multicast cipher.
Chapter 5 - Command Line Interface Example Enterprise AP(if-wireless g: VAP[0])#multicast-cipher TKIP Enterprise AP(if-wireless g)# 5.20.6 mic_mode This command specifies how to calculate the Message Integrity Check (MIC). Syntax mic_mode • hardware - Uses hardware to calculate the MIC. • software - Uses software to calculate the MIC.
Wireless Security Commands Example Enterprise AP(if-wireless g: VAP[0])#wpa-pre-shared-key ASCII agoodsecret Enterprise AP(if-wireless g)# Related Commands auth (page 235) 5.20.8 pmksa-lifetime This command sets the time for aging out cached WPA2 Pairwise Master Key Security Association (PMKSA) information for fast roaming. Syntax pmksa-lifetime minutes - The time for aging out PMKSA information.
Chapter 5 - Command Line Interface Default Setting Disabled Command Mode Interface Configuration (Wireless-VAP) Command Usage • Each time a client roams to another AP it has to be fully re-authenticated. This authentication process is time consuming and can disrupt applications running over the network. WPA2 includes a mechanism, known as pre-authentication, that allows clients to roam to a new AP and be quickly associated.
Link Integrity Commands 5.21 Link Integrity Commands The AP provides a link integrity feature that can be used to ensure that wireless clients are connected to resources on the wired network. The AP does this by periodically sending Ping messages to a host device in the wired Ethernet network. If the AP detects that the connection to the host has failed, it disables the radio interfaces, forcing clients to find and associate with another AP.
Chapter 5 - Command Line Interface Example Enterprise AP(config)#link-integrity ping-detect Enterprise AP(config)# 5.21.2 link-integrity ping-host This command configures the link host name or IP address. Use the no form to remove the host setting. Syntax link-integrity ping-host no link-integrity ping-host • host_name - Alias of the host. • ip_address - IP address of the host.
Link Integrity Commands Default Setting 6 Command Mode Global Configuration Example Enterprise AP(config)#link-integrity ping-fail-retry 10 Enterprise AP(config)# 5.21.5 link-integrity ethernet-detect This command enables an integrity check to determine whether or not the AP is connected to the wired Ethernet.
Chapter 5 - Command Line Interface 5.22 IAPP Commands The command described in this section enables the protocol signaling required to ensure the successful handover of wireless clients roaming between different 802.11f-compliant APs. In other words, the 802.11f protocol can ensure successful roaming between APs in a multi-vendor environment. 5.22.1 iapp This command enables the protocol signaling required to hand over wireless clients roaming between different 802.11f-compliant APs.
VLAN Commands 5.23 VLAN Commands The AP can enable the support of VLAN-tagged traffic passing between wireless clients and the wired network. Up to 64 VLAN IDs can be mapped to specific wireless clients, allowing users to remain within the same VLAN as they move around a campus site. When VLAN is enabled on the AP, a VLAN ID (a number between 1 and 4094) can be assigned to each client after successful authentication using IEEE 802.1X and a central RADIUS server.
Chapter 5 - Command Line Interface client on the RADIUS server, then the frames are tagged with the AP’s native VLAN ID. • Traffic entering the Ethernet port must be tagged with a VLAN ID that matches the AP’s native VLAN ID, or with a VLAN tag that matches one of the wireless clients currently associated with the AP. Example Enterprise AP(config)#vlan enable Reboot system now? : y Related Commands management-vlanid (page 248) 5.23.
VLAN Commands • When VLANs are enabled, the AP tags frames received from wireless clients with the default VLAN ID for the VAP interface. If IEEE 802.1X is being used to authenticate wireless clients, specific VLAN IDs can be configured on the RADIUS server to be assigned to each client. Using IEEE 802.1X and a central RADIUS server, up to 64 VLAN IDs can be mapped to specific wireless clients.
Chapter 5 - Command Line Interface 5.24 WMM Commands The AP implements QoS using the WiFi Multimedia (WMM) standard. Using WMM, the AP is able to prioritize traffic and optimize performance when multiple applications compete for wireless network bandwidth at the same time. WMM employs techniques that are a subset of the developing IEEE 802.11e QoS standard and it enables the AP to inter-operate with both WMM- enabled clients and other devices that may lack any WMM functionality.
WMM Commands Syntax wmm-acknowledge-policy • ac_number - Access categories. (Range: 0-3) • ack - Require the sender to wait for an acknowledgement from the receiver. • noack - Does not require the sender to wait for an acknowledgement from the receiver. Default ack Command Mode Interface Configuration (Wireless) Command Usage • WMM defines four access categories (ACs) – voice, video, best effort, and background.
Chapter 5 - Command Line Interface high data-rate traffic. (Range: 0-65535 microseconds) • admission_control - The admission control mode for the access category. When enabled, clients are blocked from using the access category.
A Appendix A - Troubleshooting In This Chapter: This appendix provides a lists of things to check in case of problems before contacting local Technical Support.
Appendix A -Troubleshooting Check the following before you contact local Technical Support. 1 If wireless clients cannot access the network, check the following: Be sure the AP and the wireless clients are configured with the same Service Set ID (SSID). If authentication or encryption are enabled, ensure that the wireless clients are properly configured with the appropriate authentication or encryption keys.
Appendix A -Troubleshooting If you cannot connect using Telnet, you may have exceeded the maximum number of concurrent Telnet sessions permitted (i.e, four sessions). Try connecting again at a later time. 3 If you cannot access the on-board configuration program via a serial port connection: Be sure you have set the terminal emulator program to VT100 compatible, 8 data bits, 1 stop bit, no parity and 9600 bps.
Glossary 100BASE-TX IEEE 802.3u specification for 100 Mbps Fast Ethernet over two pairs of Category 5 or better UTP cable. 10BASE-T IEEE 802.3 specification for 10 Mbps Ethernet over two pairs of Category 3 or better UTP cable AES Advanced Encryption Standard: An encryption algorithm that implements symmetric key cryptography. AES provides very strong encryption using a completely different ciphering algorithm to TKIP and WEP.
Glossary DHCP Dynamic Host Configuration Protocol: Provides a framework for passing configuration information to hosts on a TCP/IP network. DHCP is based on the Bootstrap Protocol (BOOTP), adding the capability of automatic allocation of reusable network addresses and additional configuration options. EAP Extensible Authentication Protocol: An authentication protocol used to authenticate network clients. EAP is combined with IEEE 802.
Glossary MAC Media Access Control: The lower of the two sub-layers of the data link layer defined by the IEEE. The MAC sub-layer handles access to shared media, such as whether token passing or contention will be used. MAC Address Standardized data link layer address that is required for every port or device that connects to a LAN. Other devices in the network use these addresses to locate specific ports in the network and to create and update routing tables and data structures.
Glossary Shared Key A shared key can be used to authenticate each client attached to a wireless network. Shared Key authentication must be used along with the 802.11 Wireless Equivalent Privacy algorithm. SNMP Simple Network Management Protocol: The application protocol in the Internet suite of protocols which offers network management services. SNTP Simple Network Time Protocol: SNTP allows a device to set its internal clock based on periodic updates from a Network Time Protocol (NTP) server.
Glossary WEP Wired Equivalent Privacy: WEP is based on the use of security keys and the popular RC4 encryption algorithm. Wireless devices without a valid WEP key will be excluded from network traffic. WPA WiFi Protected Access: WPA employs 802.1X as its basic framework for user authentication and dynamic key management to provide an enhanced security solution for 802.11 wireless networks. . .
Index CTS Numerics 802.
Index G P gateway address grounding cables 3-38, 4-51, 5-130, 5-210 2-31 H password configuring 4-68, 4-69, 4-71, 5-147 management 4-68, 4-69, 4-71, 5-147 pin assignment hardware version, displaying HTTP, secure server HTTPS 5-154 5-151 Ethernet connector power cable power source 5-150 connecting to PSK I IAPP 2-24 2-26 5-246 2-31 4-112 R IEEE 802.11b 4-85 IEEE 802.11f 5-246 IEEE 802.
Index SNTP time zone 4-76, 5-166 4-77, 5-168 4-112 enabling client TKIP server transmit power, configuring 4-76, 5-167 4-76, 5-166 software 5-218 4-80, 5-174 trap manager 4-80, 5-174 troubleshooting A-253 trap destination displaying version downloading 4-69, 4-120, 5-154 4-71, 5-185 SSH 4-56 SSID 4-108, 5-224 SSL 5-150 startup files, setting 5-185 station status 4-122, 5-229 U status V server Status upgrading software 4-69, 5-185 user name, manager 4-68, 5-146 user password 4-68, 5-146,