Cisco Aironet 1130AG Series Access Point Hardware Installation Guide, OL-8369-01
Troubleshooting Lightweight Access Points
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Table Of Contents

Troubleshooting Lightweight Access Points

Guidelines for Using 1130AG Series Lightweight Access Points

Using DHCP Option 43

Checking the Lightweight Access Point LEDs

Low Power Condition for Lightweight Access Points

Intelligent Power Management

Configuring Power Using Controller CLI Commands

Manually Configuring Controller Information Using the Access Point CLI

Configuring Controller Information

Clearing Manually Entered Controller Information

Manually Resetting the Access Point to Defaults

Returning the Access Point to Autonomous Mode

Using a WLAN Controller to Return the Access Point to Autonomous Mode

Using the MODE Button to Return the Access Point to Autonomous Mode

MODE Button Setting

Obtaining the Autonomous Access Point Image File

Connecting to the Access Point Console Port

Obtaining the TFTP Server Software


Troubleshooting Lightweight Access Points

This chapter provides troubleshooting procedures for basic problems with the 1130AG series lightweight access point (model: AIR-LAP1131AG or AIR-LAP1131G). For the most up-to-date, detailed troubleshooting information, refer to the Cisco Technical Support and Documentation website at the following URL:

http://www.cisco.com/cisco/web/psa/default.html

Sections in this chapter include:

Guidelines for Using 1130AG Series Lightweight Access Points

Checking the Lightweight Access Point LEDs

Low Power Condition for Lightweight Access Points

Manually Configuring Controller Information Using the Access Point CLI

Returning the Access Point to Autonomous Mode

Obtaining the Autonomous Access Point Image File

Connecting to the Access Point Console Port

Obtaining the TFTP Server Software

Guidelines for Using 1130AG Series Lightweight Access Points

Keep these guidelines in mind when you use a 1130AG series lightweight access point:

The access points can only communicate with Cisco 2006 series or 4400 series controllers.

Note Cisco 4100 series, Airespace 4012 series, and Airespace 4024 series controllers are not supported because they lack the memory required to support access points running Cisco IOS software.

The access points do not support Wireless Domain Services (WDS) and cannot communicate with WDS devices. However, the controller provides functionality equivalent to WDS when the access point associates to it.

The access points support eight BSSIDs per radio and a total of eight wireless LANs per access point. When a lightweight access point associates to a controller, only wireless LANs with IDs 1 through 8 are pushed to the access point.

The access points do not support Layer 2 LWAPP. They must get an IP address and discover the controller using DHCP, DNS, or IP subnet broadcast.

The access point console port is enabled for monitoring and debug purposes (all configuration commands are disabled when connected to a controller).

Using DHCP Option 43

You can use DHCP Option 43 to provide a list of controller IP addresses to the access points, enabling the access point to find and join a controller. For additional informataion, refer to the "Configuring DHCP Option 43 for Lightweight Access Points" section.

Checking the Lightweight Access Point LEDs

If your access point is not working properly, check the Status LED on the top panel or the Ethernet and Radio LEDs in the cable bay area. You can use the LED indications to quickly assess the unit's status. Figure 4-1 shows the access point LEDs.

Figure 4-1 Access Point LEDs

1

Status LED

3

Ethernet LED

2

Access point cover

4

Radio LED


Note To view the Ethernet and Radio LEDs you must open the access point cover (refer to the "Opening the Access Point Cover" section).

Note When the access point cover is opened, the Status LED colors are not visible.

Note Regarding LED status colors, it is expected that there will be small variations in color intensity and hue from unit to unit. This is within the normal range of the LED manufacturer's specifications and is not a defect.

The LED signals are listed in Table 4-1.

Table 4-1 LED Signals  

Message type
Cable Bay Area
Top of Unit
Meaning
Ethernet LED
Radio LED

Status LED

Boot loader status

Green

Green

Green

DRAM memory test ok.

Off

Blinking green

Blue-green

Initialize Flash file system.

Off

Green

Pink

Flash memory test ok.

Green

Off

Dark blue

Ethernet test ok.

Green

Green

Green

Starting Cisco IOS.

Association status

Light green

Normal operating condition, but no wireless client devices are associated with the unit.

Blue

Normal operating condition, at least one wireless client device is associated with the unit.

Operating status

Green

Ethernet link is operational.

Blinking green

Transmitting or receiving Ethernet packets.

Blinking green

Transmitting or receiving radio packets.

Blinking
dark blue

Software upgrade in progress

Slow blinking green

Hybrid-REAP standalone mode

Boot loader warnings

Off

Off

Yellow

Ethernet link not operational.

Red

Off

Yellow

Ethernet failure.

Amber

Off

Yellow

Configuration recovery in progress
(Mode button pressed for 2 to 3 seconds).

Off

Red

Pink

Image recovery
(Mode button pressed for 20 to 30 seconds)

Blinking green

Blinking red

Blinking pink

Image recovery in progress and Mode button is released.

Boot loader errors

Red

Red

Red

DRAM memory test failure.

Off

Red

Blinking red and blue

Flash file system failure.

Off

Amber

Blinking red and blue-green

Environment variable (ENVAR) failure.

Amber

Off

Blinking red and yellow

Bad MAC address.

Red

Off

Blinking red and off

Ethernet failure during image recovery.

Amber

Amber

Blinking red and off

Boot environment error.

Red

Amber

Blinking red and off

No Cisco IOS image file.

Amber

Amber

Blinking red and off

Boot failure.

Cisco IOS errors

Blinking amber

Transmit or receive Ethernet errors.

Blinking amber

Maximum retries or buffer full occurred on the radio.

Red

Red

Amber

Software failure; try disconnecting and reconnecting unit power.

Amber

General warning, insufficient inline power (see the "Low Power Condition for Lightweight Access Points" section).

Controller status

Alternating green, red , and amber1

Connecting to the controller.

Note If the access point remains in this mode for more than five minutes, the access point is unable to find the controller. Ensure a DHCP server is available or that controller information is configured on the access point.

Blinking dark blue

Loading the access point image file.

1 This status indication has the highest priority and overrides other status indications.


Low Power Condition for Lightweight Access Points

Warning This product must be connected to a Power over Ethernet (PoE) IEEE 802.3af compliant power source or an IEC60950 compliant limited power source. Statement 353

The lightweight access point can be powered from the 48-VDC power module or from an in-line power source. The access point supports the IEEE 802.3af power standard, Cisco Pre-Standard PoE protocol, and Cisco Intelligent Power Management for in-line power sources.

For full operation, the access point requires 12.95 W of power. The power module and Cisco Aironet power injectors are capable of supplying the required power for full operation, but some inline power sources are not capable of supplying 12.95 W. Also, some high-power inline power sources, might not be able to provide 12.95 W of power to all ports at the same time.

Note An 802.3af compliant switch (Cisco or non-Cisco) is capable of supplying sufficient power for full operation.

Note If your access point is connected to in-line power, do not connect the power module to the access point. Using two power sources on the access point might cause the access point to shut down to protect internal components and might cause the switch to shut down the port to which the access point is connected. If your access point shuts down, you must remove all power and reconnect only a single power source.

On power up, the access point is placed into low power mode (both radios are disabled), Cisco IOS software loads and runs, and power negotiation determines if sufficient power is available. If there is sufficient power then both radios are turned on; otherwise, the access point remains in low power mode with one or both radios disabled to prevent a possible over-current condition. In low power mode, the access point activates the Status LED low power error indication (see the "Checking the Lightweight Access Point LEDs" section).

Intelligent Power Management

The access point requires 12.95 W of power for full power operation with both radios, but only needs 6.3 W of power when operating in low power mode with both radios disabled. To help avoid an over-current condition with low power sources and to optimize power usage on Cisco switches, Cisco developed Intelligent Power Management, which uses Cisco Discovery Protocol (CDP) to allow powered devices (such as your access point) to negotiate with a Cisco switch for sufficient power.

The access point supports Intelligent Power Management and as a result of the power negotiations, the access point will either enter full power mode or remain in low power mode with one or both radios disabled.

Note Independent of the power negotiations, the access point hardware also uses the 802.3af classification scheme to indicate the power required from the power source. However, the power source cannot report the power available to the access point unless the power source also supports Intelligent Power Management.

Some Cisco switches that are capable of supplying sufficient power require a software upgrade to support Intelligent Power Management. If the software upgrade is not desired, you can configure the access point to operate in pre-standard compatibility mode and the access point automatically enters full power mode if these Cisco switches are detected in the received CDP ID field.

When the access point determines that sufficient power is not available for full-power operation, one or both readios are deactivated and the Status LED turns amber to indicate low power mode (see Table 4-1).

If your Cisco switch is capable of supplying sufficient power for full operation but the access point remains in low-power mode, your access point or your switch (or both) might be misconfigured (see Table 4-2.

If your inline power source is not able to supply sufficient power for full operation, you should consider these options (see Table 4-2):

Upgrade to a higher-powered switch

Use a Cisco Aironet power injector on the switch port

Use the 48-VDC power module to locally power the access point

Configuring Power Using Controller CLI Commands

Intelligent Power Management support is dependent on the version of software resident in the Cisco switch that is providing power to the access point. Each Cisco switch should be upgraded to support Intelligent Power Management. Until the software is upgraded, you can use your controller to configure the access point to operate with older switch software using these controller CLI commands: 

1) config ap power pre-standard enable <ap>

where <ap> is the access point name on the controller

2) config ap power injector enable <ap> <switch port MAC address>

(where <ap> is the access point name on the controller

and <switch port MAC address> is the MAC address of the switch port to which the 
access point is connected)

Note Refer to your controller documentation for instructions on using these commands.

You can use these controller CLI commands to inform the access point of the following:

The Cisco switch does not support Intelligent Power Management but should be able to supply sufficient power.

A power injector is being used to supply sufficient power and the Cisco switch does not support Intelligent Power Management.

Caution If the access point receives power through PoE, the output current of the power sourcing equipment (PSE) cannot exceed 400 mA per port. The power source must comply with IEEE 802.3af or IEC60950 for limited power sources.

Refer to Table 4-2 for information on when to use these special CLI controller commands and the corresponding Cisco switch power command.

Table 4-2 Using CLI Power Commands

Power Source
CLI Commands
Cisco Wireless LAN Controller
Cisco Switch

AC power module

None required

power inline never

Cisco switch that supports Intelligent Power Management1

None required

power inline auto

Cisco switch that does not support Intelligent Power Management1

config ap power pre-standard enable

power inline auto

Power injector2 used with a Cisco switch that supports Intelligent Power Management1

None required

power inline never3

Power injector2 used with a Cisco switch that does not support Intelligent Power Management1

config ap power injector enable

power inline never

Power injector used with a non-Cisco switch

None required

-

802.3af compliant non-Cisco switches

None required

-

1 You should check the release notes for your Cisco power source to determine which Cisco IOS release supports Intelligent Power Management. Support for Intelligent Power Management might not be currently available for your Cisco power source.

2 Power injector must be AIR-PWRINJ3 or AIR-PWRINJ-FIB.

3 Cisco switches that support Intelligent Power Management always configure the use of a power injector at the switch.


Manually Configuring Controller Information Using the Access Point CLI

In a new installation, when your access point is unable to reach a DHCP server, you can manually configure needed controller information using the access point CLI. For information on how to connect to the console port, see the "Connecting to the Access Point Console Port" section.

Note The CLI commands in this section can be used only on an access point that is not associated to a controller.

The static information configured with the CLI commands are used by the access point to connect with a controller. After connecting with the controller, the controller reconfigures the access point with new controller settings, but the static IP addresses for the access point and the default gateway are not changed.

Configuring Controller Information

To manually configure controller information on a new (out-of -the-box) access point using the access point CLI interface, you can use these EXEC mode CLI commands: 

AP# lwapp ap ip address <IP address> <subnet mask>

AP# lwapp ip default-gateway IP-address

AP# lwapp ap controller ip address IP-address

AP# lwapp ap hostname name

Where name is the access point name on the controller.

Note The default (out-of-box) Enable password is Cisco.

Clearing Manually Entered Controller Information

When you move your access point to a different location in your network, you must clear the manually entered controller information to allow your access point to associate with a different controller.

Note This command requires the controller configured Enable password to enter the CLI EXEC mode.

To clear or remove the manually entered controller information, you can use these EXEC mode CLI commands: 

clear lwapp ap ip address

clear lwapp ip default-gateway

clear lwapp controller ip address

clear lwapp ap hostname

Manually Resetting the Access Point to Defaults

You can manually reset your access point to default settings using this EXEC mode CLI command:

Note This command requires the controller configured Enable password to enter the CLI EXEC mode. 

clear lwapp private-config

Returning the Access Point to Autonomous Mode

You can return a lightweight access point to autonomous mode by loading a Cisco IOS release that supports autonomous mode (such as Cisco IOS Release 12.3(7)JA or earlier). If the access point is associated to a controller, you can use the controller to load the Cisco IOS release. If the access point is not associated to a controller, you can load the Cisco IOS release using TFTP.

Using a WLAN Controller to Return the Access Point to Autonomous Mode

Follow these steps to revert from lightweight mode to autonomous mode using a controller:

Step 1 Log into the CLI on the controller to which the access point is associated and enter this command: 

config ap tftp-downgrade tftp-server-ip-address filename access-point-name

(where: 

a) tftp-server-ip-address is the IP address of the TFTP server

b) filename is the full path and filname of the access point image file, such as 
D:/Images/c1130-k9w7-tar.123-7.JA.tar

c) access-point-name is the name that identifies the access point on the 
ocntroller.)

Step 2 Wait until the access point reboots, as indicated by all LEDs turning green followed by the Status LED blinking green.

Step 3 After the access point reboots, reconfigure it using the access point GUI or the CLI.

Using the MODE Button to Return the Access Point to Autonomous Mode

Follow these steps to return a lightweight access point to autonomous mode using the access point MODE button and a TFTP server:

Note The access point MODE button is enabled by default, but you need to verify that the MODE button is enabled (see the "MODE Button Setting" section.

Step 1 Set the static IP address of the PC on which your TFTP server software runs to an address between 10.0.0.2 and 10.0.0.30.

Step 2 Make sure that the PC contains the access point image file (such as c1130-k9w7-tar.123-7.JA.tar for an 1130 series access point) in the TFTP server folder and that the TFTP server is activated.

Step 3 Rename the access point image file in the TFTP server folder to c1130-k9w7-tar.default.

Step 4 Connect the PC to the access point using a Category 5 (CAT5) Ethernet cable.

Step 5 Disconnect power from the access point.

Step 6 Press and hold the MODE button while you reconnect power to the access point.

Step 7 Hold the MODE button until the Radio LED turns red (approximately 20 to 30 seconds) and then release.

Step 8 Wait until the access point reboots, as indicated by all LEDs turning green followed by the Status LED blinking green.

Step 9 After the access point reboots, reconfigure it using the access point GUI or the CLI.

MODE Button Setting

The lightweight access point MODE button is configured from your Cisco Wireless LAN Controller. Use these controller CLI commands to view and configure the MODE button: 

1) config ap rst-button enable <access-point-name>/all

2) config ap rst-button disable <access-point-name>/all

3) show ap config general <access-point-name>

(Where access-point-name is the name that identifies the access point on the 
ocntroller.)

Obtaining the Autonomous Access Point Image File

The autonomous access point image file can be obtained from the Cisco.com software center using these steps:

Note To download software from the Cisco.com software center, you must be a registered user. You can register from the main Cisco.com web page at this URL: http://www.cisco.com.

Step 1 Use your Internet browser to access the Cisco Software Center at the following URL:

http://www.cisco.com/cisco/software/navigator.html

Step 2 Click Access Points > Cisco Aironet 1130 AG Series.

Step 3 Click Cisco Aironet 1130AG Access Point.

Step 4 On the Enter Network Password window, enter your Cisco.com username and password and click OK.

Step 5 Click IOS.

Step 6 Choose the Cisco IOS release desired, such as 12.3.8.JA.

Step 7 Click WIRELESS LAN for an access point image file, such as c1130-k9w7-tar.123-8.JA.tar.

Step 8 On the Enter Network Password window, enter your Cisco.com username and password and click OK.

Step 9 On the Security Information window, click Yes to display non-secure items.

Step 10 On the Encryption Software Export Authorization page, read the information and check Yes or No to the question asking if the image is for use by you or your organization. Click Submit..

Step 11 If you checked No, enter the requested information and click Submit.

Step 12 Click Yes to continue.

Step 13 Click DOWNLOAD.

Step 14 Read and accept the terms and conditions of the Software Download Rules.

Step 15 On the Enter Network Password window, enter your Cisco.com username and password and click OK.

Step 16 Click Save to download your image file to your hard disk.

Step 17 Select the desired download location on your hard disk and click Save.

Connecting to the Access Point Console Port

The console port is enabled during power up for diagnostic and monitoring purposes, which might be helpful if the access point is unable to associate to a controller. You can connect a PC to the console port using a DB-9 to RJ-45 serial cable.

Caution Be careful when handling the access point, the bottom plate might be hot.

Note The Cisco part number for the DB-9 to RJ-45 serial cable is AIR-CONCAB1200. Browse to http://www.cisco.com/en/US/ordering/index.shtml to order a serial cable.

Follow these steps to view the power up sequences by connecting to the access point console port:

Step 1 Open the access point cover (refer to the "Opening the Access Point Cover" section).

Step 2 Connect a nine-pin, female DB-9 to RJ-45 serial cable to the RJ-45 console port on the access point and to the COM port on a computer. The location of the access point console port is shown in Figure 4-2.

Figure 4-2 Console Port Location

1

Console port

 

Step 3 Set up a terminal emulator on your PC to communicate with the access point. Use the following settings for the terminal emulator connection: 9600 baud, 8 data bits, no parity, 1 stop bit, and no flow control.

Step 4 At the prompts, enter the administrator username and password. The default username is Cisco and the default password is Cisco. The username and password are case sensitive.

When you have finished using the console port, you must remove the serial cable from the access point.

Obtaining the TFTP Server Software

You can download TFTP server software from several web sites. Cisco recommends the shareware TFTP utility available at this URL:

http://tftpd32.jounin.net

Follow the instructions on the website for installing and using the utility.