Troubleshooting the Software Configuration

This chapter describes how to identify and resolve software problems related to the Cisco IOS software on the switch. Depending on the nature of the problem, you can use the command-line interface (CLI), Device Manager, or Network Assistant to identify and solve problems.

Additional troubleshooting information, such as LED descriptions, is provided in the hardware installation guide.

Information About Troubleshooting the Software Configuration

Software Failure on a Switch

Switch software can be corrupted during an upgrade by downloading the incorrect file to the switch, and by deleting the image file. In all of these cases, the switch does not pass the power-on self-test (POST), and there is no connectivity.

Lost or Forgotten Password on a Switch

The default configuration for the switch allows an end user with physical access to the switch to recover from a lost password by interrupting the boot process during power-on and by entering a new password. These recovery procedures require that you have physical access to the switch.


Note

On these switches, a system administrator can disable some of the functionality of this feature by allowing an end user to reset a password only by agreeing to return to the default configuration. If you are an end user trying to reset a password when password recovery has been disabled, a status message reminds you to return to the default configuration during the recovery process.



Note

You cannot recover encryption password key, when Cisco WLC configuration is copied from one Cisco WLC to another (in case of an RMA).


Power over Ethernet Ports

A Power over Ethernet (PoE) switch port automatically supplies power to one of these connected devices if the switch detects that there is no power on the circuit:

  • a Cisco pre-standard powered device (such as a Cisco IP Phone or a Cisco Aironet Access Point)

  • an IEEE 802.3af-compliant powered device

  • an IEEE 802.3at-compliant powered device

A powered device can receive redundant power when it is connected to a PoE switch port and to an AC power source. The device does not receive redundant power when it is only connected to the PoE port.

After the switch detects a powered device, the switch determines the device power requirements and then grants or denies power to the device. The switch can also detect the real-time power consumption of the device by monitoring and policing the power usage.

For more information, see the "Configuring PoE" chapter in the Catalyst 2960-XR Switch Interface and Hardware Component Configuration Guide.

Disabled Port Caused by Power Loss

If a powered device (such as a Cisco IP Phone 7910) that is connected to a PoE Switch port and powered by an AC power source loses power from the AC power source, the device might enter an error-disabled state. To recover from an error-disabled state, enter the shutdown interface configuration command, and then enter the no shutdown interface command. You can also configure automatic recovery on the Switch to recover from the error-disabled state.

On a Switch, the errdisable recovery cause loopback and the errdisable recovery interval seconds global configuration commands automatically take the interface out of the error-disabled state after the specified period of time.

Monitoring PoE Port Status
  • show controllers power inline privileged EXEC command

  • show power inline EXEC command

  • debug ilpower privileged EXEC command

Disabled Port Caused by False Link-Up

If a Cisco powered device is connected to a port and you configure the port by using the power inline never interface configuration command, a false link-up can occur, placing the port into an error-disabled state. To take the port out of the error-disabled state, enter the shutdown and the no shutdown interface configuration commands.

You should not connect a Cisco powered device to a port that has been configured with the power inline never command.

Ping

The Switch supports IP ping, which you can use to test connectivity to remote hosts. Ping sends an echo request packet to an address and waits for a reply. Ping returns one of these responses:

  • Normal response—The normal response (hostname is alive) occurs in 1 to 10 seconds, depending on network traffic.

  • Destination does not respond—If the host does not respond, a no-answer message is returned.

  • Unknown host—If the host does not exist, an unknown host message is returned.

  • Destination unreachable—If the default gateway cannot reach the specified network, a destination-unreachable message is returned.

  • Network or host unreachable—If there is no entry in the route table for the host or network, a network or host unreachable message is returned.

Layer 2 Traceroute

The Layer 2 traceroute feature allows the switch to identify the physical path that a packet takes from a source device to a destination device. Layer 2 traceroute supports only unicast source and destination MAC addresses. Traceroute finds the path by using the MAC address tables of the Switch in the path. When the Switch detects a device in the path that does not support Layer 2 traceroute, the Switch continues to send Layer 2 trace queries and lets them time out.

The Switch can only identify the path from the source device to the destination device. It cannot identify the path that a packet takes from source host to the source device or from the destination device to the destination host.

Layer 2 Traceroute Guidelines

  • Cisco Discovery Protocol (CDP) must be enabled on all the devices in the network. For Layer 2 traceroute to function properly, do not disable CDP.

    If any devices in the physical path are transparent to CDP, the switch cannot identify the path through these devices.

  • A Switch is reachable from another Switch when you can test connectivity by using the ping privileged EXEC command. All Switch in the physical path must be reachable from each other.

  • The maximum number of hops identified in the path is ten.

  • You can enter the traceroute mac or the traceroute mac ip privileged EXEC command on a Switch that is not in the physical path from the source device to the destination device. All Switch in the path must be reachable from this switch.

  • The traceroute mac command output shows the Layer 2 path only when the specified source and destination MAC addresses belong to the same VLAN. If you specify source and destination MAC addresses that belong to different VLANs, the Layer 2 path is not identified, and an error message appears.

  • If you specify a multicast source or destination MAC address, the path is not identified, and an error message appears.

  • If the source or destination MAC address belongs to multiple VLANs, you must specify the VLAN to which both the source and destination MAC addresses belong. If the VLAN is not specified, the path is not identified, and an error message appears.

  • The traceroute mac ip command output shows the Layer 2 path when the specified source and destination IP addresses belong to the same subnet. When you specify the IP addresses, the Switch uses the Address Resolution Protocol (ARP) to associate the IP addresses with the corresponding MAC addresses and the VLAN IDs.
    • If an ARP entry exists for the specified IP address, the Switch uses the associated MAC address and identifies the physical path.

    • If an ARP entry does not exist, the Switch sends an ARP query and tries to resolve the IP address. If the IP address is not resolved, the path is not identified, and an error message appears.

  • When multiple devices are attached to one port through hubs (for example, multiple CDP neighbors are detected on a port), the Layer 2 traceroute feature is not supported. When more than one CDP neighbor is detected on a port, the Layer 2 path is not identified, and an error message appears.

  • This feature is not supported in Token Ring VLANs.

IP Traceroute

You can use IP traceroute to identify the path that packets take through the network on a hop-by-hop basis. The command output displays all network layer (Layer 3) devices, such as routers, that the traffic passes through on the way to the destination.

Your Switch can participate as the source or destination of the traceroute privileged EXEC command and might or might not appear as a hop in the traceroute command output. If the Switch is the destination of the traceroute, it is displayed as the final destination in the traceroute output. Intermediate Switch do not show up in the traceroute output if they are only bridging the packet from one port to another within the same VLAN. However, if the intermediate Switch is a multilayer Switch that is routing a particular packet, this Switch shows up as a hop in the traceroute output.

The traceroute privileged EXEC command uses the Time To Live (TTL) field in the IP header to cause routers and servers to generate specific return messages. Traceroute starts by sending a User Datagram Protocol (UDP) datagram to the destination host with the TTL field set to 1. If a router finds a TTL value of 1 or 0, it drops the datagram and sends an Internet Control Message Protocol (ICMP) time-to-live-exceeded message to the sender. Traceroute finds the address of the first hop by examining the source address field of the ICMP time-to-live-exceeded message.

To identify the next hop, traceroute sends a UDP packet with a TTL value of 2. The first router decrements the TTL field by 1 and sends the datagram to the next router. The second router sees a TTL value of 1, discards the datagram, and returns the time-to-live-exceeded message to the source. This process continues until the TTL is incremented to a value large enough for the datagram to reach the destination host (or until the maximum TTL is reached).

To learn when a datagram reaches its destination, traceroute sets the UDP destination port number in the datagram to a very large value that the destination host is unlikely to be using. When a host receives a datagram destined to itself containing a destination port number that is unused locally, it sends an ICMP port-unreachable error to the source. Because all errors except port-unreachable errors come from intermediate hops, the receipt of a port-unreachable error means that this message was sent by the destination port.

Time Domain Reflector Guidelines

You can use the Time Domain Reflector (TDR) feature to diagnose and resolve cabling problems. When running TDR, a local device sends a signal through a cable and compares the reflected signal to the initial signal.

TDR is supported only on 10/100/1000 copper Ethernet ports. It is not supported on 10-Gigabit Ethernet ports and on SFP module ports.

TDR can detect these cabling problems:
  • Open, broken, or cut twisted-pair wires—The wires are not connected to the wires from the remote device.

  • Shorted twisted-pair wires—The wires are touching each other or the wires from the remote device. For example, a shorted twisted pair can occur if one wire of the twisted pair is soldered to the other wire.

    If one of the twisted-pair wires is open, TDR can find the length at which the wire is open.

Use TDR to diagnose and resolve cabling problems in these situations:

  • Replacing a Switch

  • Setting up a wiring closet

  • Troubleshooting a connection between two devices when a link cannot be established or when it is not operating properly

When you run TDR, the Switch reports accurate information in these situations:

  • The cable for the gigabit link is a solid-core cable.

  • The open-ended cable is not terminated.

When you run TDR, the Switch does not report accurate information in these situations:

  • The cable for the gigabit link is a twisted-pair cable or is in series with a solid-core cable.

  • The link is a 10-megabit or a 100-megabit link.

  • The cable is a stranded cable.

  • The link partner is a Cisco IP Phone.

  • The link partner is not IEEE 802.3 compliant.

Debug Commands


Caution

Because debugging output is assigned high priority in the CPU process, it can render the system unusable. For this reason, use debug commands only to troubleshoot specific problems or during troubleshooting sessions with Cisco technical support staff. It is best to use debug commands during periods of lower network traffic and fewer users. Debugging during these periods decreases the likelihood that increased debug command processing overhead will affect system use.


All debug commands are entered in privileged EXEC mode, and most debug commands take no arguments.

Onboard Failure Logging on the Switch

You can use the onboard failure logging (OBFL) feature to collect information about the Switch. The information includes uptime, temperature, and voltage information and helps Cisco technical support representatives to troubleshoot Switch problems. We recommend that you keep OBFL enabled and do not erase the data stored in the flash memory.

By default, OBFL is enabled. It collects information about the Switch and small form-factor pluggable (SFP) modules. The Switch stores this information in the flash memory:

  • CLI commands—Record of the OBFL CLI commands that are entered on a standalone Switch or a switch stack member.

  • Environment data—Unique device identifier (UDI) information for a standalone Switch or a switch stack member and for all the connected FRU devices: the product identification (PID), the version identification (VID), and the serial number.

  • Message—Record of the hardware-related system messages generated by a standalone Switch or a switch stack member.

  • Power over Ethernet (PoE)—Record of the power consumption of PoE ports on a standalone Switch or a switch stack member.

  • Temperature—Temperature of a standalone Switch or a switch stack member.

  • Uptime data—Time when a standalone Switch or a switch stack member starts, the reason the Switch restarts, and the length of time the Switch has been running since it last restarted.

  • Voltage—System voltages of a standalone Switch or a switch stack member.

You should manually set the system clock or configure it by using Network Time Protocol (NTP).

When the Switch is running, you can retrieve the OBFL data by using the show logging onboard privileged EXEC commands. If the Switch fails, contact your Cisco technical support representative to find out how to retrieve the data.

When an OBFL-enabled Switch is restarted, there is a 10-minute delay before logging of new data begins.

Possible Symptoms of High CPU Utilization

Excessive CPU utilization might result in these symptoms, but the symptoms might also result from other causes:


Note

You may see increased system memory usage when Cisco Catalyst 4500E Supervisor Engine 8-E is used in wireless mode.


  • Spanning tree topology changes

  • EtherChannel links brought down due to loss of communication

  • Failure to respond to management requests (ICMP ping, SNMP timeouts, slow Telnet or SSH sessions)

  • UDLD flapping

  • IP SLAs failures because of SLAs responses beyond an acceptable threshold

  • DHCP or IEEE 802.1x failures if the switch does not forward or respond to requests

Layer 3 switches:
  • Dropped packets or increased latency for packets routed in software

  • BGP or OSPF routing topology changes

  • HSRP flapping

How to Troubleshoot the Software Configuration

Recovering from a Software Failure

Switch software can be corrupted during an upgrade by downloading the wrong file to the switch, and by deleting the image file. In all of these cases, the switch does not pass the power-on self-test (POST), and there is no connectivity.

This procedure uses the Xmodem Protocol to recover from a corrupt or wrong image file. There are many software packages that support the Xmodem Protocol, and this procedure is largely dependent on the emulation software that you are using.

This recovery procedure requires that you have physical access to the switch.

Procedure


Step 1

From your PC, download the software image tar file (image_filename.tar ) from Cisco.com. The Cisco IOS image is stored as a bin file in a directory in the tar file. For information about locating the software image files on Cisco.com, see the release notes.

Step 2

Extract the bin file from the tar file. If you are using Windows, use a zip program that can read a tar file. Use the zip program to navigate. If you are using Windows, use a zip program that can read a tar file. Use the zip program to navigate. If you are using UNIX, follow these steps:

  1. Display the contents of the tar file by using the tar -tvf <image_filename.tar> UNIX command.

    Example:

    unix-1% tar -tvf image_filename.tar
    
    
  2. Locate the bin file, and extract it by using the tar -xvf <image_filename.tar> <image_filename.bin> UNIX command.

    Example:

    unix-1% tar -xvf image_filename.tar image_filename.bin
    x c2960x-universalk9-mz-150-2.EX1/c2960x-universalk9-mz-150-2.EX1.bin, 2928176 bytes, 5720
    tape blocks
    
    
  3. Verify that the bin file was extracted by using the ls -l <image_filename.bin> UNIX command.

    Example:

    unix-1% ls -l image_filename.bin
    -rw-r--r--   1 boba      2928176 Apr 21 12:01 
    c2960x-universalk9-mz.150-2.0.66.UCP/c2960x-universalk9-mz.150-2.0.66.UCP.bin
    
    
Step 3

Connect your PC with terminal-emulation software supporting the Xmodem Protocol to the switch console port.

Step 4

Set the line speed on the emulation software to 9600 baud.

Step 5

Unplug the switch power cord.

Step 6

Press the Mode button, and at the same time reconnect the power cord to the switch. You can release the Mode button a second or two after the LED above port 1 goes off. Several lines of information about the software appear along with instructions.

Example:

The system has been interrupted prior to initializing the flash file system. The following 
commands will initialize the flash file system, and finish loading the operating system 
software#

flash_init

load_helper

boot

Step 7

Initialize the flash file system.

Example:

switch: flash_init

Step 8

If you had set the console port speed to any speed other than 9600, it has been reset to that particular speed. Change the emulation software line speed to match that of the switch console port.

Step 9

Load any helper files.

Example:

switch: load_helper

Step 10

Start the file transfer by using the Xmodem Protocol.

Example:

switch: copy xmodem: flash:image_filename.bin

Step 11

After the Xmodem request appears, use the appropriate command on the terminal-emulation software to start the transfer and to copy the software image into flash memory.

Step 12

Boot the newly downloaded Cisco IOS image.

Example:

switch: boot flash:image_filename.bin

Step 13

Use the archive download-sw privileged EXEC command to download the software image to the switch or to the switch stack.

Step 14

Use the reload privileged EXEC command to restart the switch and to verify that the new software image is operating properly.

Step 15

Delete the flash:image_filename.bin file from the switch.


Recovering from a Lost or Forgotten Password

The default configuration for the switch allows an end user with physical access to the switch to recover from a lost password by interrupting the boot process during power-on and by entering a new password. These recovery procedures require that you have physical access to the switch.


Note

On these switches, a system administrator can disable some of the functionality of this feature by allowing an end user to reset a password only by agreeing to return to the default configuration. If you are an end user trying to reset a password when password recovery has been disabled, a status message shows this during the recovery process.


You enable or disable password recovery by using the service password-recovery global configuration command.

The switch supports homogeneous stacking, but does not support mixed stacking.

Procedure


Step 1

Connect a terminal or PC to the switch.

  • Connect a terminal or a PC with terminal-emulation software to the switch console port.

    Or

  • Connect a PC to the Ethernet management port.

Step 2

Set the line speed on the emulation software to 9600 baud.

Step 3

On a switch, power off the switch.

Step 4

Reconnect the power cord to the switch. Within 15 seconds, press the Mode button while the System LED is still flashing green. Continue pressing the Mode button until all the system LEDs turn on and remain solid, then release the Mode button.

Several lines of information about the software appear with instructions, informing you if the password recovery procedure has been disabled or not.

  • If you see a message that begins with this statement:

    The system has been interrupted prior to initializing the flash file system. The following commands will initialize the flash file system
    
    

    proceed to the "Procedure with Password Recovery Enabled" section, and follow the steps.

  • If you see a message that begins with this statement:

    The password-recovery mechanism has been triggered, but is currently disabled.
    
    

    proceed to the "Procedure with Password Recovery Disabled" section, and follow the steps.

Step 5

After recovering the password, reload the switch.

On a switch:

Switch> reload
Proceed with reload? [confirm] y


Procedure with Password Recovery Enabled

If the password-recovery operation is enabled, this message appears:


The system has been interrupted prior to initializing the flash file system. The following commands will initialize the flash file system, and finish loading the operating system software:

flash_init
load_helper
boot

Procedure

Step 1

Initialize the flash file system.

Switch: flash_init

Step 2

If you had set the console port speed to any number other than 9600, it has been reset to that particular speed. Change the emulation software line speed to match that of the switch console port.

Step 3

Load any helper files.

Switch: load_helper

Step 4

Display the contents of flash memory.

Switch: dir: flash:
Directory of flash:
   13  drwx         192   Mar 01 2013 22:30:48  c2960x-universalk9-mz-150-2.EX1/c2960x-universalk9-mz-150-2.EX1.bin
   11  -rwx        5825   Mar 01 2013 22:31:59  config.text

16128000 bytes total (10003456 bytes free) 

Step 5

Rename the configuration file to config.text.old

This file contains the password definition.
Switch: rename flash: config.text flash: config.text.old

Step 6

Boot up the system.

Switch: boot

You are prompted to start the setup program. Enter N at the prompt.
Continue with the configuration dialog?? [yes/no]: No
Step 7

At the switch prompt, enter privileged EXEC mode.

Switch> enable      
Switch#  

Step 8

Rename the configuration file to its original name.

Switch# rename flash: config.text.old flash: config.text

Note 

Before continuing to Step 9, power on any connected stack members and wait until they have completely initialized. Failure to follow this step can result in a lost configuration depending on how your switch is set up.

Step 9

Copy the configuration file into memory

Switch# copy flash: config.text system: running-config 
Source filename [config.text]?
Destination filename [running-config]?

Press Return in response to the confirmation prompts. The configuration file is now reloaded, and you can change the pasword.
Step 10

Enter global configuration mode.

Switch# configure terminal     

Step 11

Change the password.

Switch(config)# enable secret password
 

The secret password can be from 1 to 25 alphanumeric characters, can start with a number, is case sensitive, and allows spaces but ignores leading spaces.
Step 12

Return to privileged EXEC mode.

Switch(config)# exit
Switch#

Step 13

Write the running configuration to the startup configuration file.

Switch# copy running-config startup-config 
 
The new password is now in the startup configuration.
Note 

This procedure is likely to leave your switch virtual interface in a shutdown state. You can see which interface is in this state by entering the show running-config privileged EXEC command. To reenable the interface, enter the interface vlan vlan-id global configuration command, and specify the VLAN ID of the shutdown interface. With the switch in interface configuration mode, enter the no shutdown command.

Step 14

Boot the switch with the packages.conf file from flash.

Switch: boot flash:packages.conf


Step 15

Reload the switch stack.

Switch# reload


Procedure with Password Recovery Disabled

If the password-recovery mechanism is disabled, this message appears:


The password-recovery mechanism has been triggered, but
is currently disabled.  Access to the boot loader prompt
through the password-recovery mechanism is disallowed at
this point.  However, if you agree to let the system be
reset back to the default system configuration, access
to the boot loader prompt can still be allowed.

Would you like to reset the system back to the default configuration (y/n)?


Caution

Returning the Switch to the default configuration results in the loss of all existing configurations. We recommend that you contact your system administrator to verify if there are backup Switch and VLAN configuration files.


  • If you enter n (no), the normal boot process continues as if the Mode button had not been pressed; you cannot access the boot loader prompt, and you cannot enter a new password. You see the message:

    
    Press Enter to continue........
    
    
  • If you enter y (yes), the configuration file in flash memory and the VLAN database file are deleted. When the default configuration loads, you can reset the password.

Procedure

Step 1

Choose to continue with password recovery and delete the existing configuration:


Would you like to reset the system back to the default configuration (y/n)? Y 

Step 2

Display the contents of flash memory:

Switch: dir flash:


The Switch file system appears.

Step 3

Boot up the system:

Switch: boot

You are prompted to start the setup program. To continue with password recovery, enter N at the prompt:


Continue with the configuration dialog? [yes/no]: N

Step 4

At the Switch prompt, enter privileged EXEC mode:

Switch> enable

Step 5

Enter global configuration mode:

Switch# configure terminal

Step 6

Change the password:

Switch(config)# enable secret password

The secret password can be from 1 to 25 alphanumeric characters, can start with a number, is case sensitive, and allows spaces but ignores leading spaces.

Step 7

Return to privileged EXEC mode:

Switch(config)# exit
Switch# 

Note 

Before continuing to Step 9, power on any connected stack members and wait until they have completely initialized.

Step 8

Write the running configuration to the startup configuration file:


Switch# copy running-config startup-config

The new password is now in the startup configuration.

Step 9

You must now reconfigure the Switch. If the system administrator has the backup Switch and VLAN configuration files available, you should use those.


Recovering from a Command Switch Failure

This section describes how to recover from a failed command switch. You can configure a redundant command switch group by using the Hot Standby Router Protocol (HSRP).


Note

HSRP is the preferred method for supplying redundancy to a cluster.



Note

This feature is introduced from Cisco IOS Release 15.2(5)E2.


If you have not configured a standby command switch, and your command switch loses power or fails in some other way, management contact with the member switches is lost, and you must install a new command switch. However, connectivity between switches that are still connected is not affected, and the member switches forward packets as usual. You can manage the members as standalone switches through the console port, or, if they have IP addresses, through the other management interfaces.

You can prepare for a command switch failure by assigning an IP address to a member switch or another switch that is command-capable, making a note of the command-switch password, and cabling your cluster to provide redundant connectivity between the member switches and the replacement command switch. These sections describe two solutions for replacing a failed command switch:

  • Replacing a Failed Command Switch with a Cluster Member

  • Replacing a Failed Command Switch with Another Switch

These recovery procedures require that you have physical access to the switch. For information on command-capable switches, see the release notes.

Replacing a Failed Command Switch with a Cluster Member

To replace a failed command switch with a command-capable member in the same cluster, follow these steps

Procedure

Step 1

Disconnect the command switch from the member switches, and physically remove it from the cluster.

Step 2

Insert the member switch in place of the failed command switch, and duplicate its connections to the cluster members.

Step 3

Start a CLI session on the new command switch.

You can access the CLI by using the console port or, if an IP address has been assigned to the switch, by using Telnet. For details about using the console port, see Catalyst 2960-X Switch Hardware Installation Guide.

Step 4

At the switch prompt, enter privileged EXEC mode.

Example:
Switch> enable
Switch# 
Step 5

Enter the password of the failed command switch.

Step 6

Enter global configuration mode.

Example:
Switch# configure terminal
 
Enter configuration commands, one per line. End with CNTL/Z.
Step 7

Remove the member switch from the cluster.

Example:
Switch(config)# no cluster commander-address
Step 8

Return to privileged EXEC mode.

Example:
Switch(config)# end
Switch#

Step 9

Use the setup program to configure the switch IP information. This program prompts you for IP address information and passwords. From privileged EXEC mode, enter EXEC mode, enter setup, and press Return.

Example:
Switch# setup

 --- System Configuration Dialog ---
Continue with configuration dialog? [yes/no]: y
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
Basic management setup configures only enough connectivity
for management of the system, extended setup will ask you
to configure each interface on the system
Would you like to enter basic management setup? [yes/no]: 

Step 10

Enter Y at the first prompt.

Example:

The prompts in the setup program vary depending on the member switch that you selected to be the command switch: 
Continue with configuration dialog? [yes/no]: y

or

Configuring global parameters:


If this prompt does not appear, enter enable, and press Return. Enter setup, and press Return to start the setup program.
Step 11

Respond to the questions in the setup program.

When prompted for the hostname, it is limited to 28 characters and 31 characters on a member switch. Do not use -n, where n is a number, as the last characters in a hostname for any switch. When prompted for the Telnet (virtual terminal) password, it is 1 to 25 alphanumeric characters, is case sensitive, allows spaces, but ignores leading spaces.

Step 12

When prompted for the enable secret and enable passwords, enter the passwords of the failed command switch again.

Step 13

When prompted, make sure to enable the switch as the cluster command switch, and press Return.

Step 14

When prompted, assign a name to the cluster, and press Return.

The cluster name can be 1 to 31 alphanumeric characters, dashes, or underscores.

Step 15

After the initial configuration displays, verify that the addresses are correct.

Step 16

If the displayed information is correct, enter Y, and press Return.

If this information is not correct, enter N, press Return, and begin again at Step 9.

Step 17

Start your browser, and enter the IP address of the new command switch.

Step 18

From the Cluster menu, select Add to Cluster to display a list of candidate switches to add to the cluster.


Replacing a Failed Command Switch with Another Switch

To replace a failed command switch with a switch that is command-capable but not part of the cluster, follow these steps:

Procedure

Step 1

Insert the new switch in place of the failed command switch, and duplicate its connections to the cluster members.

Step 2

You can access the CLI by using the console port or, if an IP address has been assigned to the switch, by using Telnet. For details about using the console port, see the switch hardware installation guide.

Step 3

At the switch prompt, enter privileged EXEC mode.

Example:
Switch> enable
Switch#
Step 4

Enter the password of the failed command switch.

Step 5

Use the setup program to configure the switch IP information. This program prompts you for IP address information and passwords. From privileged EXEC mode, enter EXEC mode, enter setup, and press Return.

Example:
Switch# setup

 --- System Configuration Dialog ---
Continue with configuration dialog? [yes/no]: y
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
Basic management setup configures only enough connectivity
for management of the system, extended setup will ask you
to configure each interface on the system
Would you like to enter basic management setup? [yes/no]: 

Step 6

Enter Y at the first prompt.

Example:

The prompts in the setup program vary depending on the member switch that you selected to be the command switch: 
Continue with configuration dialog? [yes/no]: y

or

Configuring global parameters:


If this prompt does not appear, enter enable, and press Return. Enter setup, and press Return to start the setup program.
Step 7

Respond to the questions in the setup program.

When prompted for the hostname, it is limited to 28 characters and 31 characters on a member switch. Do not use -n, where n is a number, as the last characters in a hostname for any switch. When prompted for the Telnet (virtual terminal) password, it is 1 to 25 alphanumeric characters, is case sensitive, allows spaces, but ignores leading spaces.

Step 8

When prompted for the enable secret and enable passwords, enter the passwords of the failed command switch again.

Step 9

When prompted, make sure to enable the switch as the cluster command switch, and press Return.

Step 10

When prompted, assign a name to the cluster, and press Return.

The cluster name can be 1 to 31 alphanumeric characters, dashes, or underscores.

Step 11

After the initial configuration displays, verify that the addresses are correct.

Step 12

If the displayed information is correct, enter Y, and press Return.

If this information is not correct, enter N, press Return, and begin again at Step 9.

Step 13

Start your browser, and enter the IP address of the new command switch.

Step 14

From the Cluster menu, select Add to Cluster to display a list of candidate switches to add to the cluster.


Preventing Switch Stack Problems

To prevent switch stack problems, you should do the following:
  • Make sure that the Switch that you add to or remove from the switch stack are powered off. For all powering considerations in switch stacks, see the “Switch Installation” chapter in the hardware installation guide.
  • Press the Mode button on a stack member until the Stack mode LED is on. The last two port LEDs on the Switch should be green. Depending on the Switch model, the last two ports are either 10/100/1000 ports or small form-factor pluggable (SFP) module. If one or both of the last two port LEDs are not green, the stack is not operating at full bandwidth.
  • We recommend using only one CLI session when managing the switch stack. Be careful when using multiple CLI sessions to the active stack. Commands that you enter in one session are not displayed in the other sessions. Therefore, it is possible that you might not be able to identify the session from which you entered a command.

  • Manually assigning stack member numbers according to the placement of the Switch in the stack can make it easier to remotely troubleshoot the switch stack. However, you need to remember that the Switch have manually assigned numbers if you add, remove, or rearrange Switch later. Use the switch current-stack-member-number renumber new-stack-member-number global configuration command to manually assign a stack member number.

If you replace a stack member with an identical model, the new Switch functions with the exact same configuration as the replaced Switch. This is also assuming the new Switch is using the same member number as the replaced Switch.

Removing powered-on stack members causes the switch stack to divide (partition) into two or more switch stacks, each with the same configuration. If you want the switch stacks to remain separate, change the IP address or addresses of the newly created switch stacks. To recover from a partitioned switch stack, follow these steps:

  1. Power off the newly created switch stacks.

  2. Reconnect them to the original switch stack through their StackWise Plus ports.

  3. Power on the Switch.

For the commands that you can use to monitor the switch stack and its members, see the Displaying Switch Stack Information section.

Preventing Autonegotiation Mismatches

The IEEE 802.3ab autonegotiation protocol manages the Switch settings for speed (10 Mb/s, 100 Mb/s, and 1000 Mb/s, excluding SFP module ports) and duplex (half or full). There are situations when this protocol can incorrectly align these settings, reducing performance. A mismatch occurs under these circumstances:

  • A manually set speed or duplex parameter is different from the manually set speed or duplex parameter on the connected port.

  • A port is set to autonegotiate, and the connected port is set to full duplex with no autonegotiation.

To maximize Switch performance and ensure a link, follow one of these guidelines when changing the settings for duplex and speed:

  • Let both ports autonegotiate both speed and duplex.

  • Manually set the speed and duplex parameters for the ports on both ends of the connection.


Note

If a remote device does not autonegotiate, configure the duplex settings on the two ports to match. The speed parameter can adjust itself even if the connected port does not autonegotiate.


Troubleshooting SFP Module Security and Identification

Cisco small form-factor pluggable (SFP) modules have a serial EEPROM that contains the module serial number, the vendor name and ID, a unique security code, and cyclic redundancy check (CRC). When an SFP module is inserted in the Switch, the Switch software reads the EEPROM to verify the serial number, vendor name and vendor ID, and recompute the security code and CRC. If the serial number, the vendor name or vendor ID, the security code, or CRC is invalid, the software generates a security error message and places the interface in an error-disabled state.


Note

The security error message references the GBIC_SECURITY facility. The Switch supports SFP modules and does not support GBIC modules. Although the error message text refers to GBIC interfaces and modules, the security messages actually refer to the SFP modules and module interfaces.


If you are using a non-Cisco SFP module, remove the SFP module from the Switch, and replace it with a Cisco module. After inserting a Cisco SFP module, use the errdisable recovery cause gbic-invalid global configuration command to verify the port status, and enter a time interval for recovering from the error-disabled state. After the elapsed interval, the Switch brings the interface out of the error-disabled state and retries the operation. For more information about the errdisable recovery command, see the command reference for this release.

If the module is identified as a Cisco SFP module, but the system is unable to read vendor-data information to verify its accuracy, an SFP module error message is generated. In this case, you should remove and reinsert the SFP module. If it continues to fail, the SFP module might be defective.

Monitoring SFP Module Status

You can check the physical or operational status of an SFP module by using the show interfaces transceiver privileged EXEC command. This command shows the operational status, such as the temperature and the current for an SFP module on a specific interface and the alarm status. You can also use the command to check the speed and the duplex settings on an SFP module. For more information, see the show interfaces transceiver command in the command reference for this release.

Executing Ping

If you attempt to ping a host in a different IP subnetwork, you must define a static route to the network or have IP routing configured to route between those subnets.

IP routing is disabled by default on all Switch.


Note

Though other protocol keywords are available with the ping command, they are not supported in this release.


Use this command to ping another device on the network from the Switch:

Command

Purpose

ping ip host | address


Switch# ping 172.20.52.3

Pings a remote host through IP or by supplying the hostname or network address.

Monitoring Temperature

The Switch monitors the temperature conditions and uses the temperature information to control the fans.

Use the show env temperature status privileged EXEC command to display the temperature value, state, and thresholds. The temperature value is the temperature in the Switch (not the external temperature). You can configure only the yellow threshold level (in Celsius) by using the system env temperature threshold yellow value global configuration command to set the difference between the yellow and red thresholds. You cannot configure the green or red thresholds. For more information, see the command reference for this release.

Monitoring the Physical Path

You can monitor the physical path that a packet takes from a source device to a destination device by using one of these privileged EXEC commands:

Table 1. Monitoring the Physical Path
Command Purpose

tracetroute mac [interface interface-id] {source-mac-address} [interface interface-id] {destination-mac-address} [vlan vlan-id] [detail]

Displays the Layer 2 path taken by the packets from the specified source MAC address to the specified destination MAC address.

tracetroute mac ip {source-ip-address | source-hostname}{destination-ip-address | destination-hostname} [detail]

Displays the Layer 2 path taken by the packets from the specified source IP address or hostname to the specified destination IP address or hostname.

Executing IP Traceroute


Note

Though other protocol keywords are available with the traceroute privileged EXEC command, they are not supported in this release.


Command

Purpose

traceroute ip host

Switch# traceroute ip 192.51.100.1

Traces the path that packets take through the network.

Running TDR and Displaying the Results

To run TDR, enter the test cable-diagnostics tdr interface interface-id privileged EXEC command.

To display the results, enter the show cable-diagnostics tdr interface interface-id privileged EXEC command.

Redirecting Debug and Error Message Output

By default, the network server sends the output from debug commands and system error messages to the console. If you use this default, you can use a virtual terminal connection to monitor debug output instead of connecting to the console port or the Ethernet management port.

Possible destinations include the console, virtual terminals, internal buffer, and UNIX hosts running a syslog server. The syslog format is compatible with 4.3 Berkeley Standard Distribution (BSD) UNIX and its derivatives.


Note

Be aware that the debugging destination you use affects system overhead. When you log messages to the console, very high overhead occurs. When you log messages to a virtual terminal, less overhead occurs. Logging messages to a syslog server produces even less, and logging to an internal buffer produces the least overhead of any method.

For more information about system message logging, see Configuring System Message Logging.


Using the show platform forward Command

The output from the show platform forward privileged EXEC command provides some useful information about the forwarding results if a packet entering an interface is sent through the system. Depending upon the parameters entered about the packet, the output provides lookup table results and port maps used to calculate forwarding destinations, bitmaps, and egress information.

Most of the information in the output from the command is useful mainly for technical support personnel, who have access to detailed information about the Switch application-specific integrated circuits (ASICs). However, packet forwarding information can also be helpful in troubleshooting.

Configuring OBFL


Caution

We recommend that you do not disable OBFL and that you do not remove the data stored in the flash memory.


  • To enable OBFL, use the hw-switch switch [switch-number] logging onboard [message level level] global configuration command. On switches, the range for switch-number is from 1 to 9. Use the message level level parameter to specify the severity of the hardware-related messages that the switch generates and stores in the flash memory.

  • To copy the OBFL data to the local network or a specific file system, use the copy onboard switch switch-number url url-destination privileged EXEC command.

  • To disable OBFL, use the no hw-switch switch [switch-number] logging onboard [message level] global configuration command.

  • To clear all the OBFL data in the flash memory except for the uptime and CLI command information, use the clear onboard switch switch-number privileged EXEC command.

  • In a switch stack, you can enable OBFL on a standalone switch or on all stack members by using the hw-switch switch [switch-number] logging onboard [message level level] global configuration command.

  • You can enable or disable OBFL on a member switch from the active stack.

For more information about the commands in this section, see the command reference for this release.

Verifying Troubleshooting of the Software Configuration

Displaying OBFL Information

Table 2. Commands for Displaying OBFL Information

Command

Purpose

show logging onboard [module[switch-number ]]clilog

Switch# show logging onboard  1 clilog

Displays the OBFL CLI commands that were entered on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] environment

Switch# show logging onboard 1 environment

Displays the UDI information for a standalone switch or the specified stack members and for all the connected FRU devices: the PID, the VID, and the serial number.

show logging onboard [module[switch-number ]] message

Switch# show logging onboard 1 message

Displays the hardware-related messages generated by a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] poe

Switch# show logging onboard 1 poe

Displays the power consumption of PoE ports on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] temperature

Switch# show logging onboard 1 temperature

Displays the temperature of a standalone switch or or the specified stack members.

show logging onboard [module[switch-number ]] uptime

Switch# show logging onboard 1 uptime

Displays the time when a standalone switch or the specified stack members start, the reason the standalone switch or specified stack members restart, and the length of time that the standalone switch or the specified stack members have been running since they last restarted.

show logging onboard [module[switch-number ]] voltage

Switch# show logging onboard 1 voltage

Displays the system voltages of a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] continuous

Switch# show logging onboard 1 continuous

Displays the data in the continuous file.

show logging onboard [module[switch-number ]] detail

Switch# show logging onboard 1 detail

Displays both the continuous and summary data .

show logging onboard [module[switch-number ]] endhh:mm:ss

Switch# show logging onboard 1 
end 13:00:15 jul 2013

Displays end time and date on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]]

Switch# show logging 
onboard 1 

Displays OBFL information about the specified switches in the system.

show logging onboard [module[switch-number ]] raw

Switch# show logging 
onboard 1 raw

Displays the raw information on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] start

Switch# show logging 
onboard 1 start  13:00:10 jul 2013

Displays the start time and date on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] status

Switch# show logging onboard 1 status

Displays status information on a standalone switch or the specified stack members.

show logging onboard [module[switch-number ]] summary

Switch# show logging onboard 1 summary

Displays both the data in the summary file

For more information, see the Catalyst 2960-X Switch System Management Command Reference.

Example: Verifying the Problem and Cause for High CPU Utilization

To determine if high CPU utilization is a problem, enter the show processes cpu sorted privileged EXEC command. Note the underlined information in the first line of the output example.


Switch# show processes cpu sorted
CPU utilization for five seconds: 8%/0%; one minute: 7%; five minutes: 8%
PID Runtime(ms) Invoked uSecs 5Sec 1Min 5Min TTY Process 
309 42289103 752750 56180 1.75% 1.20% 1.22% 0 RIP Timers 
140 8820183 4942081 1784 0.63% 0.37% 0.30% 0 HRPC qos request 
100 3427318 16150534 212 0.47% 0.14% 0.11% 0 HRPC pm-counters 
192 3093252 14081112 219 0.31% 0.14% 0.11% 0 Spanning Tree 
143 8 37 216 0.15% 0.01% 0.00% 0 Exec 
...
<output truncated>

This example shows normal CPU utilization. The output shows that utilization for the last 5 seconds is 8%/0%, which has this meaning:

  • The total CPU utilization is 8 percent, including both time running Cisco IOS processes and time spent handling interrupts.

  • The time spent handling interrupts is zero percent.

Table 3. Troubleshooting CPU Utilization Problems

Type of Problem

Cause

Corrective Action

Interrupt percentage value is almost as high as total CPU utilization value.

The CPU is receiving too many packets from the network.

Determine the source of the network packet. Stop the flow, or change the switch configuration. See the section on “Analyzing Network Traffic.”

Total CPU utilization is greater than 50% with minimal time spent on interrupts.

One or more Cisco IOS process is consuming too much CPU time. This is usually triggered by an event that activated the process.

Identify the unusual event, and troubleshoot the root cause. See the section on “Debugging Active Processes.”

Scenarios for Troubleshooting the Software Configuration

Scenarios to Troubleshoot Power over Ethernet (PoE)

Table 4. Power over Ethernet Troubleshooting Scenarios

Symptom or Problem

Possible Cause and Solution

Only one port does not have PoE.

Trouble is on only one switch port. PoE and non-PoE devices do not work on this port, but do on other ports.

Verify that the powered device works on another PoE port.

Use the show run , or show interface status user EXEC commands to verify that the port is not shut down or error-disabled.

Note 

Most switches turn off port power when the port is shut down, even though the IEEE specifications make this optional.

Verify that the Ethernet cable from the powered device to the switch port is good: Connect a known good non-PoE Ethernet device to the Ethernet cable, and make sure that the powered device establishes a link and exchanges traffic with another host.

Verify that the total cable length from the switch front panel to the powered device is not more than 100 meters.

Disconnect the Ethernet cable from the switch port. Use a short Ethernet cable to connect a known good Ethernet device directly to this port on the switch front panel (not on a patch panel). Verify that it can establish an Ethernet link and exchange traffic with another host, or ping the port VLAN SVI. Next, connect a powered device to this port, and verify that it powers on.

If a powered device does not power on when connected with a patch cord to the switch port, compare the total number of connected powered devices to the switch power budget (available PoE). Use the show inline power command to verify the amount of available power.

No PoE on all ports or a group of ports.

Trouble is on all switch ports. Nonpowered Ethernet devices cannot establish an Ethernet link on any port, and PoE devices do not power on.

If there is a continuous, intermittent, or reoccurring alarm related to power, replace the power supply if possible it is a field-replaceable unit. Otherwise, replace the switch.

If the problem is on a consecutive group of ports but not all ports, the power supply is probably not defective, and the problem could be related to PoE regulators in the switch.

Use the show log privileged EXEC command to review alarms or system messages that previously reported PoE conditions or status changes.

If there are no alarms, use the show interface status command to verify that the ports are not shut down or error-disabled. If ports are error-disabled, use the shut and no shut interface configuration commands to reenable the ports.

Use the show env power and show power inline privileged EXEC commands to review the PoE status and power budget (available PoE).

Review the running configuration to verify that power inline never is not configured on the ports.

Connect a nonpowered Ethernet device directly to a switch port. Use only a short patch cord. Do not use the existing distribution cables. Enter the shut and no shut interface configuration commands, and verify that an Ethernet link is established. If this connection is good, use a short patch cord to connect a powered device to this port and verify that it powers on. If the device powers on, verify that all intermediate patch panels are correctly connected.

Disconnect all but one of the Ethernet cables from switch ports. Using a short patch cord, connect a powered device to only one PoE port. Verify the powered device does not require more power than can be delivered by the switch port.

Use the show power inline privileged EXEC command to verify that the powered device can receive power when the port is not shut down. Alternatively, watch the powered device to verify that it powers on.

If a powered device can power on when only one powered device is connected to the switch, enter the shut and no shut interface configuration commands on the remaining ports, and then reconnect the Ethernet cables one at a time to the switch PoE ports. Use the show interface status and show power inline privileged EXEC commands to monitor inline power statistics and port status.

If there is still no PoE at any port, a fuse might be open in the PoE section of the power supply. This normally produces an alarm. Check the log again for alarms reported earlier by system messages.

Cisco IP Phone disconnects or resets.

After working normally, a Cisco phone or wireless access point intermittently reloads or disconnects from PoE.

Verify all electrical connections from the switch to the powered device. Any unreliable connection results in power interruptions and irregular powered device functioning such as erratic powered device disconnects and reloads.

Verify that the cable length is not more than 100 meters from the switch port to the powered device.

Notice what changes in the electrical environment at the switch location or what happens at the powered device when the disconnect occurs.

Notice whether any error messages appear at the same time a disconnect occurs. Use the show log privileged EXEC command to review error messages.

Verify that an IP phone is not losing access to the Call Manager immediately before the reload occurs. (It might be a network problem and not a PoE problem.)

Replace the powered device with a non-PoE device, and verify that the device works correctly. If a non-PoE device has link problems or a high error rate, the problem might be an unreliable cable connection between the switch port and the powered device.

Non-Cisco powered device does not work on Cisco PoE switch.

A non-Cisco powered device is connected to a Cisco PoE switch, but never powers on or powers on and then quickly powers off. Non-PoE devices work normally.

Use the show power inline command to verify that the switch power budget (available PoE) is not depleted before or after the powered device is connected. Verify that sufficient power is available for the powered device type before you connect it.

Use the show interface status command to verify that the switch detects the connected powered device.

Use the show log command to review system messages that reported an overcurrent condition on the port. Identify the symptom precisely: Does the powered device initially power on, but then disconnect? If so, the problem might be an initial surge-in (or inrush) current that exceeds a current-limit threshold for the port.

Configuration Examples for Troubleshooting Software

Example: Pinging an IP Host

This example shows how to ping an IP host:


Switch# ping 172.20.52.3

Type escape sequence to abort.
Sending 5, 100-byte ICMP Echoes to 172.20.52.3, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 1/2/4 ms
Switch#
Table 5. Ping Output Display Characters

Character

Description

!

Each exclamation point means receipt of a reply.

.

Each period means the network server timed out while waiting for a reply.

U

A destination unreachable error PDU was received.

C

A congestion experienced packet was received.

I

User interrupted test.

?

Unknown packet type.

&

Packet lifetime exceeded.

To end a ping session, enter the escape sequence (Ctrl-^ X by default). Simultaneously press and release the Ctrl, Shift, and 6 keys and then press the X key.

Example: Performing a Traceroute to an IP Host

This example shows how to perform a traceroute to an IP host:


Switch# traceroute ip 192.0.2.10

Type escape sequence to abort.
Tracing the route to 192.0.2.10

  1 192.0.2.1 0 msec 0 msec 4 msec
  2 192.0.2.203 12 msec 8 msec 0 msec
  3 192.0.2.100 4 msec 0 msec 0 msec
  4 192.0.2.10 0 msec 4 msec 0 msec
   

The display shows the hop count, the IP address of the router, and the round-trip time in milliseconds for each of the three probes that are sent.

Table 6. Traceroute Output Display Characters

Character

Description

*

The probe timed out.

?

Unknown packet type.

A

Administratively unreachable. Usually, this output means that an access list is blocking traffic.

H

Host unreachable.

N

Network unreachable.

P

Protocol unreachable.

Q

Source quench.

U

Port unreachable.

To end a trace in progress, enter the escape sequence (Ctrl-^ X by default). Simultaneously press and release the Ctrl, Shift, and 6 keys and then press the X key.

Example: Enabling All System Diagnostics


Caution

Because debugging output takes priority over other network traffic, and because the debug all privileged EXEC command generates more output than any other debug command, it can severely diminish switch performance or even render it unusable. In virtually all cases, it is best to use more specific debug commands.


This command disables all-system diagnostics:


Switch# debug all

The no debug all privileged EXEC command disables all diagnostic output. Using the no debug all command is a convenient way to ensure that you have not accidentally left any debug commands enabled.

Additional References for Troubleshooting Software Configuration

Related Documents

Related Topic Document Title

Troubleshooting commands

Catalyst 2960-XR Switch System Management Command Reference

Interface and hardware component configuration

Catalyst 2960-XR Switch Interface and Hardware Component Configuration Guide

Platform-independent command references

Cisco IOS 15.3M&T Command References

Platform-independent configuration information

Cisco IOS 15.3M&T Configuration Guides

Standards and RFCs

Standard/RFC Title
None

MIBs

MIB MIBs Link

All supported MIBs for this release.

To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL:

http://www.cisco.com/go/mibs

Technical Assistance

Description Link

The Cisco Support website provides extensive online resources, including documentation and tools for troubleshooting and resolving technical issues with Cisco products and technologies.

To receive security and technical information about your products, you can subscribe to various services, such as the Product Alert Tool (accessed from Field Notices), the Cisco Technical Services Newsletter, and Really Simple Syndication (RSS) Feeds.

Access to most tools on the Cisco Support website requires a Cisco.com user ID and password.

http://www.cisco.com/support

Feature History and Information for Troubleshooting Software Configuration

Release

Modification

Cisco IOS Release 15.0(2)EX1

This feature was introduced.