Ruckus Brocade FastIron, FCX, ICX, And TurboIron Diagnostic Reference Fast Iron 07.4.00 Diagnostics Guide 07400

FastIron 07.4.00 Diagnostics Guide FastIron_07400_Diagnostic

2017-04-26

User Manual: Ruckus FastIron 07.4.00 Diagnostics Guide

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About This Document
Using Diagnostic Commands
- Using debug commands
  - Brief and detail debug options
- Generic debug commands
  - Disabling debug commands
System Level and Layer 1 Debug Commands
- Layer 1 debug commands
- System debug commands
Layer 2 Debug Commands
IP Debug Commands
IPv6 Debug Commands
- General IPv6 debug commands
- IPv6 MLD debug commands
Multicast Debug Commands
Security Debug Commands
supportsave Information
- supportsave overview
- supportsave commands
  - Recovery during continuous reload
Diagnostic Command Index

53-1002497-01

05 March 2012

Brocade FastIron, FCX, ICX,

and TurboIron Diagnostic

Reference

Supporting Brocade FastIron and TurboIron R07.4.00

Brocade, Brocade Assurance, the B-wing symbol, BigIron, DCX, Fabric OS, FastIron, MLX, NetIron, SAN Health, ServerIron,

TurboIron, VCS, and VDX are registered trademarks, and AnyIO, Brocade One, CloudPlex, Effortless Networking, ICX, NET Health,

OpenScript, and The Effortless Network are trademarks of Brocade Communications Systems, Inc., in the United States and/or in

other countries. Other brands, products, or service names mentioned may be trademarks of their respective owners.

Notice: This document is for informational purposes only and does not set forth any warranty, expressed or implied, concerning

any equipment, equipment feature, or service offered or to be offered by Brocade. Brocade reserves the right to make changes to

this document at any time, without notice, and assumes no responsibility for its use. This informational document describes

features that may not be currently available. Contact a Brocade sales office for information on feature and product availability.

Export of technical data contained in this document may require an export license from the United States government.

The authors and Brocade Communications Systems, Inc. shall have no liability or responsibility to any person or entity with

respect to any loss, cost, liability, or damages arising from the information contained in this book or the computer programs that

accompany it.

The product described by this document may contain “open source” software covered by the GNU General Public License or other

open source license agreements. To find out which open source software is included in Brocade products, view the licensing

terms applicable to the open source software, and obtain a copy of the programming source code, please visit

http://www.brocade.com/support/oscd.

Brocade Communications Systems, Incorporated

Document History

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E-mail: china-info@brocade.com

Title Publication number Summary of changes Date

Brocade FCX and Brocade ICX 6610

Debug Guide

53-1002392-01 New document October 2011

Brocade FastIron, FCX, ICX, and

TurboIron Diagnostic Reference

53-1002497-01 Updated to include the

release-specific debug

commands and

supportsave information.

March 2012

Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference iii

53-1002497-01

Contents

About This Document

Supported hardware and software . . . . . . . . . . . . . . . . . . . . . . . . . . . v

Disclaimer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . v

Document conventions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vi

Text formatting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .vi

Notes and caution notices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .vi

Related publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

Getting technical help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

Document feedback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

Chapter 1 Using Diagnostic Commands

Using debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Brief and detail debug options . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Generic debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Disabling debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Chapter 2 System Level and Layer 1 Debug Commands

Layer 1 debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Hardware backplane debug command . . . . . . . . . . . . . . . . . . . . 5

Loop detect debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Port debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Stacking debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

System debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

Chapter 3 Layer 2 Debug Commands

STP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23

RSTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25

MSTP debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28

DHCP debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33

GVRP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

MAC address debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . .36

MCT debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

MCT show commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47

Packet-capture debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . .52

Packet-capture show commands . . . . . . . . . . . . . . . . . . . . . . . . 54

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Chapter 4 IP Debug Commands

ARP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91

BGP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92

DHCP snooping debug commands . . . . . . . . . . . . . . . . . . . . . . . . . .93

ICMP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .93

OSPF debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94

SNTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .100

Source Guard debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . .100

SSH debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101

TCP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103

UDP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .104

VRRP and VRRP-E debug commands . . . . . . . . . . . . . . . . . . . . . . .104

Web debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .106

Chapter 5 IPv6 Debug Commands

General IPv6 debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . .107

IPv6 MLD debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107

Chapter 6 Multicast Debug Commands

MSDP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .119

IGMP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .120

PIM debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .137

Chapter 7 Security Debug Commands

ACL debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147

802.1x debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147

MAC authentication debug commands . . . . . . . . . . . . . . . . . . . . . .148

sFlow debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .149

Web debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .150

Web authentication debug commands . . . . . . . . . . . . . . . . . . . . . .150

Chapter 8 supportsave Information

supportsave overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .151

supportsave commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .151

Recovery during continuous reload . . . . . . . . . . . . . . . . . . . . .153

Diagnostic Command Index

Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference v

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About This Document

In this chapter

•Supported hardware and software. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . v

•Disclaimer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . v

•Document conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vi

•Related publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

•Getting technical help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

•Document feedback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii

Supported hardware and software

This guide describes the FastIron 07.4.00 release.

The following hardware platforms are supported by the release of this guide:

•Brocade FCX

•Brocade FastIron SX

•Brocade ICX 6430

•Brocade ICX 6450

•Brocade ICX 6610

•Brocade TurboIron

NOTE

Some debug commands report information about internal hardware settings and registers that is

relevant primarily to the Brocade engineering staff. Consequently, this information is not described

in this document.

Disclaimer

This manual is provided without any warranty of any kind, expressed or implied. When using this

manual to troubleshoot Brocade products, you assume all risk as to the quality and performance of

the debug procedures. Brocade assumes no liability for any damages, including general, special,

incidental, or consequential damages arising from the use of the procedures in this manual

(including, but not limited to any loss of profit or savings, loss of data, or failure to successfully

troubleshoot network problems).

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Debug information may be changed or updated without notice. You are responsible for obtaining

newer versions of this manual when they are made available. The procedures in this document are

not intended as a substitute for the expertise of qualified technicians.

Enabling debug commands can seriously degrade system performance. Debug commands are

generally intended for use when troubleshooting specific problems while working with qualified

service technicians, or in conjunction with calls to Brocade Technical Support. Whenever possible,

troubleshoot your system during periods of low network traffic and user activity to preserve system

performance.

If you have any questions regarding this disclaimer please contact us at

http://www.brocade.com/products/all/routers/index.page.

Document conventions

This section describes text formatting conventions and important notice formats used in this

document.

Text formatting

The narrative-text formatting conventions that are used are as follows:

For readability, command names in the narrative portions of this guide are presented in mixed

lettercase: for example, switchShow. In actual examples, command lettercase is all lowercase.

Notes and caution notices

The following notices and statements are used in this manual. They are listed below in order of

increasing severity of potential hazards.

NOTE

A note provides a tip, guidance, or advice, emphasizes important information, or provides a

reference to related information.

ATTENTION

An Attention statement indicates potential damage to hardware or data.

bold text Identifies command names

Identifies the names of user-manipulated GUI elements

Identifies keywords

Identifies text to enter at the GUI or CLI

italic text Provides emphasis

Identifies variables

Identifies document titles

code text Identifies CLI output

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CAUTION

A Caution statement alerts you to situations that can be potentially hazardous to you or cause

damage to hardware, firmware, software, or data.

Related publications

The following Brocade documents supplement the information in this guide:

•The FastIron Configuration Guide describes how to configure the Brocade FastIron device

features, primarily using the CLI.

•The TurboIron 24X Series Configuration Guide describes how to configure the Brocade

TurboIron device features, primarily using the CLI.

•The Brocade FCX Series Hardware Installation Guide describes the hardware features of the

Brocade FCX switches and provides information on how to install the Brocade FCX switch.

•The Brocade FastIron ICX 6610 Stackable Switch Hardware Installation Guide describes the

hardware features of the Brocade ICX 6610 switch and provides information on how to install

the switch.

•The Brocade ICX 6450, ICX 6430 Switch Hardware Installation Guide describes the hardware

features of the Brocade ICX 6450 and Brocade ICX 6430 switches and provides information on

how to install the switches.

•The Brocade TurboIron 24X Hardware Installation Guide describes the hardware features of

Brocade TurboIron 24X switches and provides information to install the devices.

•The Unified IP MIB Reference describes the Simple Network Management Protocol (SNMP)

Information Base (MIB) objects that are supported in Brocade devices.

The latest version of these guides are posted at http://www.brocade.com/ethernetproducts.

Getting technical help

To contact Technical Support, go to http://www.brocade.com/services-support/index.page for the

latest e-mail and telephone contact information.

Document feedback

Quality is our first concern at Brocade and we have made every effort to ensure the accuracy and

completeness of this document. However, if you find an error or an omission, or you think that a

topic needs further development, we want to hear from you. Forward your feedback to:

documentation@brocade.com

Provide the title and version number of the document and as much detail as possible about your

comment, including the topic heading and page number and your suggestions for improvement.

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Chapter

Using Diagnostic Commands

In this chapter

•Using debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

•Generic debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Using debug commands

This section describes how to use debug commands to monitor and troubleshoot Brocade FCX,

Brocade ICX, and Brocade TurboIron switch configurations. The debug commands are accessible

from the Privileged EXEC mode in the Multi-Service IronWare command line interface (CLI). Most of

the debug commands can be configured to send output to a specified destination.

When enabled, the debug commands can noticeably affect system performance. Many debug

commands are specifically designed to be used in conjunction with calls to Brocade technical

support. If you report a problem, the support engineer may ask you to execute one or more of the

debug commands described in this guide.

ATTENTION

Some debug commands report information about internal hardware settings and registers, which is

relevant primarily to the Brocade engineering staff. These commands are not described in this

document.

Brief and detail debug options

When enabled, many debug commands can significantly impact system performance. Many debug

commands provide options for brief or detailed reporting. Generating detailed output places an

additional burden on system performance, and in many cases the results may be more difficult to

interpret than output generated using the brief option. To conserve performance and prevent

system disruption, use the brief option whenever possible.

Generic debug commands

The following generic debug commands perform functions related to all debugging actions:

•debug ?—Generates a list of debug options.

•[no] debug all—Enables or disables all debug functions.

•show debug—Shows all enabled debug settings.

•debug destination—Allows you to select an output destination; Telnet, SSH, console, or logging

(default).

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Generic debug commands

debug ?

Syntax: debug ?

This command generates a list of available debug variables.

ATTENTION

Many first-level variables have their own variable subsets. When you enter a debug command, the

system indicates that there are additional variables available and you have entered an incomplete

command. Add a space and a question mark to your original command to view the additional

variables.

debug all

Syntax: [no] debug all

This command enables all the debug functions, and should be used only during a troubleshooting

session with a Brocade technician.

Brocade# debug all

Warning! This may severely impact network performance!

All possible debuggings have been turned on

Enter the no command to cancel the setting.

Brocade# no debug all

Debug message destination: default (console)

All possible debuggings have been turned off

tracking is off and all results are cleared

Disabling ACL log

Don't monitor port

CAUTION

The debug all command generates extensive output and can significantly slow device operation.

Use this command with caution. Never use this command during periods of peak network activity.

Enter no debug all to stop the output.

debug destination

Syntax: [no] debug destination [ console | logging | telnet <num> | ssh <num> ]

•console—Directs output to the system console.

Brocade# debug ip

Incomplete command

Brocade# debug ip ?

arp ARP messages

dhcp_snooping DHCP snooping

icmp ICMP transactions

igmp IGMP protocol activity

pim PIM/dvmrp protocol activity

source_guard Source Guard

ssh SSH information

tcp TCP information

udp UDP based transactionstp

web WEB HTTP/HTTPS information

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Generic debug commands 1

•logging—Directs output to the syslog buffer and to the syslog server (default).

•telnet <num>—Directs output to a specified Telnet session (ranges from 1 through 5).

•ssh <num>—Directs output to a specified Secure Shell (SSH) session (ranges from 1 through

5).

This command allows you to specify a destination for debugging output. The default destination is

the system console, but you can redirect output to a syslog buffer, Telnet session, or SSH session.

To send debug output to a Telnet session, first determine your session number using the show who

command.

This example indicates that you are connected through active Telnet session 1. To redirect the

debug output to your Telnet session, enter the following command.

Brocade# debug destination telnet 1

show debug

Syntax: show debug

This command displays all the enabled debug functions. The output resembles the following

example, which shows that ACL log and IPv6 debugging are enabled, with the console as the output

destination.

Brocade# show who

Console connections (by unit number):

1 established

4 minutes 29 seconds in idle

Telnet connections (inbound):

1 established, client ip address 172.31.0.1

you are connecting to this session

2 seconds in idle

2 closed

3 closed

4 closed

5 closed

Telnet connection (outbound):

6 closed

SSH connections:

1 closed

2 closed

3 closed

4 closed

Brocade# show debug

Debug message destination: Console

Enabling ACL log

IPv6 Routing:

ipv6: icmp debugging is on

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Generic debug commands

Disabling debug commands

When activated, most debug commands instruct the system to collect specific information about

router configurations and activity. In all cases, adding no in front of the command disables the

debug function.

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Chapter

System Level and Layer 1 Debug Commands

In this chapter

•Layer 1 debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

•System debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Layer 1 debug commands

The following commands deal with the Layer 1 debugging for the Brocade FCX platforms. In

general, Layer 1 issues are related to hardware, the most common being physical connectivity

problems.

Hardware backplane debug command

The following command enables the hardware backplane debugging feature in a device.

debug hw

Syntax: [no] debug hw

This command enables the hardware backplane debugging feature. To disable this feature, enter

the no form of the command.

Brocade# debug hw

HW BP: backplane debugging is on

Loop detect debug commands

Brocade Port Loop Detection (PLD) protocol allows the Brocade devices to detect loops and disable

a port that is on the receiving end of a loop. The loop is detected by sending Bridge Packet Data

Unit (BPDU) test packets.

debug loop-detect

Syntax: [no] debug loop-detect

This command initiates debugging the loop detection.

NOTE

Execute the command prior to configuring the modes. For more information on strict mode, loose

mode, and configuration of loop detection, refer to the FastIron Configuration Guide.

Execute the following command to configure loop detection of a single port in strict mode.

Brocade# debug loop-detect

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Layer 1 debug commands

Configure loop-detection strict mode on port 1/1/25 :

Brocade(config-if-e1000-1/1/25)# loop-detection

When there is loop detection activity in the switch, the debug information regarding loop detection

is displayed on the console. The following example shows the output for the debug loop-detect

command when the port goes into a disabled state because of loop detection (strict mode).

insert_disable primary 1/1/25, vlan=4096

Loop-detection: port 1/1/25 (vlan=1), put into errdisable state

Execute the following command to configure loop detection in a VLAN in loose mode.

Configure loop-detection loose mode on port vlan 2 :

Brocade(config-vlan-2)# loop-detection

Brocade(config-vlan-2)# insert_disable primary 1/1/31, vlan=2

The following output is displayed after the configuration.

Loop-detection: port 1/1/31 (vlan=2), put into errdisable state

insert_disable primary 1/1/32, vlan=2

Loop-detection: port 1/1/32 (vlan=2), put into errdisable state

Port debug commands

The following commands deal with the debugging of port activity.

debug port hw-state

Syntax: [no] debug port hw-state

This command monitors the hardware status of a port. This helps to enable or disable port

debugging in the hardware state.

Brocade# debug port hw-state

Topology: Port 1/1/31 is connected to port 1/1/32.

If port 1/1/31 is disabled, an output similar to the following is displayed.

Brocade(config)# interface ethernet 1/1/31

Brocade(config-if-e1000-1/1/31)# disable ( when port is disabled)

Change port 1/1/31 hw_state from PORT_READY(7) to DISABLED(0)

stack: 4040 2050A970 2050AA44 2060D498 20608BF8 2060B5A4 20576A90 20576C74

2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

Brocade(config-if-e1000-1/1/31)# Change port 1/1/32 hw_state from PORT_READY(7)

to SEEQ_INIT(1)

stack: 4040 2050A970 2050AA44 2060D498 20608E18 20609344 20609AFC 2055FA50

2050A214 200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

If port 1/1/31 is enabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/32)# interface ethernet 1/1/31

Brocade(config-if-e1000-1/1/31)# enable

Change port 1/1/31 hw_state from DISABLED(0) to SEEQ_INIT(1)

stack: 4040 2050A970 2050AA44 2060D498 20608A34 2060B598 20576BC4 20576C74

2057707C 202A4F84 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

Brocade(config-if-e1000-1/1/31)# Change port 1/1/31 hw_state from SEEQ_INIT(1) to

PORT_READY(7)

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Layer 1 debug commands 2

stack: 4040 2050A970 2050AA44 2060D498 206093D0 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

Change port 1/1/32 hw_state from SEEQ_INIT(1) to PORT_READY(7)

stack: 4040 2050A970 2050AA44 2060D498 206093D0 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

debug port port

Syntax: [no] debug port port <stackid/slot/port>

This command monitors a specific physical port and is used with the debug port up-down or debug

port hw-state commands. The <stackid/slot/port> variable refers to the stack ID, slot number, and

port number.

Brocade# debug port port 1/1/2

Topology: Port 1/1/31 is connected to port 1/1/2.

When the debug port hw-state command is enabled after the debug port port command, the

output similar to the following example is displayed.

Brocade# debug port port 1/1/2

monitor port 1/1/2

Brocade# debug port hw-state

If port 1/1/2 is disabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/2)# disable

port_disable_cmd: for port 0x1 1/1/2

U1, hal_pp_link_port_enable(1/1/2, 0), is_stby=0, to_shadow=0, parsed = 3,

stack=1

stack: 0116c83c 000de8f0 00accc3c 00acd6ac 00ad21f4 0136c614 0136c850 0136cf00

012b842c 0084b3b0 0084e0a0 00847608 00966c0c 0086c110 0086c154 00243f98 000f0524

00246f54 0159f920 017713c4

pp_link_port_en_dis(port=1/1/2, 0), return 0

stack: 0116ca20 000de8f0 00accc3c 00acd6ac 00ad21f4 0136c614 0136c850 0136cf00

012b842c 0084b3b0 0084e0a0 00847608 00966c0c 0086c110 0086c154 00243f98 000f0524

00246f54 0159f920 017713c4

Change 1/1/2 state from Forward to Disable

stack: 00acb98c 00ad1e14 00aebd74 0071dddc 0071ebbc 00af0e8c 00af18e8 00ad0e20

00acccf4 00acd6ac 00ad21f4 0136c614 0136c850 0136cf00 012b842c 0084b3b0 0084e0a0

00847608 00966c0c 0086c110 0086c154 00243f98 000f0524 00246f54 0159f920 017713c4

Change port 1/1/2 hw_state from PORT_READY(7) to DISABLED(0)

stack: 00ad5d4c 00accd2c 00acd6ac 00ad21f4 0136c614 0136c850 0136cf00 012b842c

0084b3b0 0084e0a0 00847608 00966c0c 0086c110 0086c154 00243f98 000f0524 00246f54

0159f920 017713c4

Change 1/1/2 state from Disable to Blocked

stack: 00acb98c 00acba3c 00acbce4 00accd38 00acd6ac 00ad21f4 0136c614 0136c850

0136cf00 012b842c 0084b3b0 0084e0a0 00847608 00966c0c 0086c110 0086c154 00243f98

000f0524 00246f54 0159f920 017713c4

Change 1/1/2 state from Blocked to Disable

stack: 00acb98c 00acba3c 00accd48 00acd6ac 00ad21f4 0136c614 0136c850 0136cf00

012b842c 0084b3b0 0084e0a0 00847608 00966c0c 0086c110 0086c154 00243f98 000f0524

00246f54 0159f920 017713c4

If port 1/1/2 is enabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/2)# enable

Brocade(config-if-e1000-1/1/2)# Change port 1/1/2 hw_state from SEEQ_INIT(1) to

PORT_READY(7)

stack: 4040 2050A970 2050AA44 2060D498 206093D0 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

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Layer 1 debug commands

Change 1/1/2 state from Disable to Blocked

stack: 4040 2050A970 2050AA44 206082E0 2060B354 206215F8 203F9F10 203FB4D8

203FA2B4 2062268C 20623404 2060A624 20609520 20609AFC 2055FA50 2050A214 200478DC

2011BBCC 20047698 2011CF7C

Change 1/1/2 state from Blocked to Listen

stack: 4040 2050A970 2050AA44 206082E0 2060B354 20621734 203F9F10 203FD490

203FD1C4 203FA2BC 2062268C 20623404 2060A624 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698

Change 1/1/2 state from Listen to Learn

stack: 4040 2050A970 2050AA44 206082E0 2060B354 2062178C 203F9F10 20400F38

20400C84 20400A1C 203F9980 2050A214 200478DC 2011BBCC 20047698 2011CF7C 5008 135C8

18524

Change 1/1/2 state from Learn to Blocked

stack: 4040 2050A970 2050AA44 206082E0 2060B354 206215F8 203F9F10 203FD70C

203FD248 203FDFD8 204F3C8C 20616AB8 20612D30 200DC33C 200DC600 200DC6C0 200DC780

200444C4 2011BC28 20047698

The debug port up-down disables or enables a port to get output information of the specified port.

When the debug port up-down command is enabled after the debug port port command, the

output similar to the following example is displayed.

Brocade# debug port port 1/1/32

monitor port 1/1/32

Brocade# debug port up-down

If port 1/1/32 is disabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/32)# disable

port_down_indication. port=1/1/32, UNTAG, vlan-idx=1

stack: 4040 2050A970 2050AA44 2060A8FC 20608BEC 2060B5A4 20576A90 20576C74

2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

Change 1/1/32 state from Blocked to Disable

stack: 4040 2050A970 2050AA44 206082E0 2060B354 206214F0 203F9F10 203FA3A0

20622F60 20623404 2060AA38 20608BEC 2060B5A4 20576A90 20576C74 2057707C 202A50A8

20491E9C 20492DC0 204906D8

Change 1/1/32 state from Disable to Blocked

stack: 4040 2050A970 2050AA44 206082E0 20608330 206084C4 20608C00 2060B5A4

20576A90 20576C74 2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8

204A0418 2011BBC8 20047698

Change 1/1/32 state from Blocked to Disable

stack: 4040 2050A970 2050AA44 206082E0 20608330 20608C0C 2060B5A4 20576A90

20576C74 2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418

2011BBC8 20047698 2011CF7C

If port 1/1/32 is enabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/32)# enable

Change 1/1/32 state from Disable to Blocked

stack: 4040 2050A970 2050AA44 206082E0 206089A0 2060B598 20576BC4 20576C74

2057707C 202A4F84 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

FCX648S Switch(config-if-e1000-1/1/32)#pp_link_change_final. port=1/1/32, up=1

port_up_indication. port=1/1/32, UNTAG, vlan-idx=1

stack: 4040 2050A970 2050AA44 2060A2C8 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

Change 1/1/32 state from Blocked to Listen

stack: 4040 2050A970 2050AA44 206082E0 2060B354 20621734 203F9F10 203FD490

203FD1C4 203FA2BC 2062268C 20623404 2060A624 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698

Change 1/1/32 state from Listen to Blocked

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stack: 4040 2050A970 2050AA44 206082E0 2060B354 206215F8 203F9F10 203FD70C

203FD248 203FDFD8 204F3C8C 20616AB8 20612D30 200DC33C 200DC600 200DC6C0 200DC780

200444C4 2011BC28 20047698

debug port ten-gig

Syntax: [no] debug port ten-gig

This command monitors all 10 Gigabit ports in the Brocade FCX device and is used in conjunction

with the debug port hw-state command.

Brocade# debug port ten-gig

Topology: Port 2/3/1 is the 10 gig port which is Up and forwarding on stack.

Brocade# debug port ten-gig

Brocade# debug port hw-state

hw-state monitor hw_state change

Brocade# debug port hw-state

If port 1/1/32 is disabled, an output similar to the following is displayed.

Brocade(config-if-e10000-2/3/1)# disable

Change port 2/3/1 hw_state from PORT_READY(7) to DISABLED(0)

stack: 4040 2050A970 2050AA44 2060D498 20608BF8 2060B5A4 20576A90 20576C74

2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 2027FD8C 20280888 202809F0

2015FCDC 2015FF44 20160B80

If port 1/1/32 is enabled, an output similar to the following is displayed.

Brocade(config-if-e10000-2/3/1)# enable

Change port 2/3/1 hw_state from DISABLED(0) to SEEQ_INIT(1)

stack: 4040 2050A970 2050AA44 2060D498 20608A34 2060B598 20576BC4 20576C74

2057707C 202A4F84 20491E9C 20492DC0 204906D8 2050BF48 2027FD8C 20280888 202809F0

2015FCDC 2015FF44 20160B80

Brocade(config-if-e10000-2/3/1)# Change port 2/3/1 hw_state from SEEQ_INIT(1) to

PORT_READY(7)

stack: 4040 2050A970 2050AA44 2060D498 206093D0 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

debug port up-down

Syntax: [no] debug port up-down <decimal>

This command monitors the status of the ports. The port status up, down, and up/down are

indicated by 1, 2, and 3 respectively. The <decimal> variable refers to the status of the port.

Brocade# debug port up-down 1

Monitor port up

Topology: Port 1/1/31 is connected to port 1/1/32.

The debug port up-down command disables or enables a port to get output information of the

specified port.

If port 1/1/31 is disabled, an output similar to the following is displayed.

Brocade(config)# interface ethernet 1/1/31

Brocade(config-if-e1000-1/1/31)# disable

port_down_indication. port=1/1/31, UNTAG, vlan-idx=1

stack: 4040 2050A970 2050AA44 2060A8FC 20608BEC 2060B5A4 20576A90 20576C74

2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

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Brocade(config-if-e1000-1/1/31)# port_down_indication. port=1/1/32, UNTAG,

vlan-idx=3

stack: 4040 2050A970 2050AA44 2060A8FC 20608DA0 20609344 20609AFC 2055FA50

2050A214 200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

pp_link_change_final. port=1/1/32, up=0

If port 1/1/31 is enabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/31)# enable

Brocade(config-if-e1000-1/1/31)# pp_link_change_final. port=1/1/31, up=1

port_up_indication. port=1/1/31, UNTAG, vlan-idx=1

stack: 4040 2050A970 2050AA44 2060A2C8 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

pp_link_change_final. port=1/1/32, up=1

port_up_indication. port=1/1/32, UNTAG, vlan-idx=3

stack: 4040 2050A970 2050AA44 2060A2C8 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

debug port vlan

Syntax: [no] debug port vlan <decimal>

This command monitors a specific VLAN and is used with the debug port up-down and debug port

commands. The <decimal> variable refers to the number of the VLAN.

Brocade# debug port vlan 1

monitor vlan 1

Topology: Port 1/1/31 is connected to port 1/1/32.

Brocade# debug port vlan 2

monitor vlan 2

Brocade# debug port up-down

up-down monitor port up/down event. 1: up, 2: down, 3: up/down

Brocade# debug port up-down 3

Monitor both port up and down

If port 1/1/31 is disabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/31)# disable

port_down_indication. port=1/1/31, TAG, vlan-idx=4096

stack: 4040 2050A970 2050AA44 2060A8FC 20608BEC 2060B5A4 20576A90 20576C74

2057707C 202A50A8 20491E9C 20492DC0 204906D8 2050BF48 204A03C8 204A0418 2011BBC8

20047698 2011CF7C 5008

Brocade(config-if-e1000-1/1/31)# port_down_indication. port=1/1/32, TAG,

vlan-idx=4096

stack: 4040 2050A970 2050AA44 2060A8FC 20608DA0 20609344 20609AFC 2055FA50

2050A214 200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

pp_link_change_final. port=1/1/32, up=0

If port 1/1/31 is enabled, an output similar to the following is displayed.

Brocade(config-if-e1000-1/1/31)# enable

Brocade(config-if-e1000-1/1/31)# pp_link_change_final. port=1/1/31, up=1

port_up_indication. port=1/1/31, TAG, vlan-idx=4096

stack: 4040 2050A970 2050AA44 2060A2C8 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

pp_link_change_final. port=1/1/32, up=1

port_up_indication. port=1/1/32, TAG, vlan-idx=4096

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Layer 1 debug commands 2

stack: 4040 2050A970 2050AA44 2060A2C8 20609520 20609AFC 2055FA50 2050A214

200478DC 2011BBCC 20047698 2011CF7C 5008 135C8 18524

Stacking debug commands

debug stacking control-stack

Syntax: [no] debug stacking control-stack <decimal>

This command monitors the debugging of control stacks. The <decimal> variable refers to the

number of the stack.

Brocade# debug stacking control-stack 1

Brocade# write memory

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 startup-config was changed by from

console

Brocade# reload

Are you sure? (enter 'y' or 'n'): y

startup_config: jumbo=0, hash_chain=0, per_port_vlan=0, vlan_num=0, tcam_num=0,

bootup_role=0

include myself: jumbo=2, hash_chain=0, per_port_vlan=2, vlan_num=64,

tcam_num=16384

Reload request sent to attached stack member(s)...

Brocade# HalRebooting...

and reboot

Send a no-stack-port signal to dir 0 2/2/1

Send a no-stack-port signal to dir 1 2/2/2

FCX Boot Code Version 7.0.1 (grz07001)

Enter 'a' to stop at memory test

Enter 'b' to stop at boot monitor

BOOT INFO: load monitor from boot flash, cksum = 227c

BOOT INFO: verify flash files.............

BOOT INFO: debug enabled!!!

BOOT INFO: load image from primary copy...

BOOT INFO: debug enabled!!!

.............

....

Starting Main Task .

Read from stack boot flash:

FCX648S, ID =2, role= active, priority=100, config=1, jumbo=X PPVLAN=X S2M=0

stack p: [0]=2/2/1 [1]=2/2/2 , , hash-chain=X vlan#=X

active-chg=0

create register-cache

..update u2 stack ports none none to 2/2/1 2/2/2

stack unit 2, port change to 2/2/1 2/2/2

update stack-p new_port[0] = 2/2/1, delete one dir

update stack-p new_port[1] = 2/2/2, delete one dir

Pre Parsing Config Data ...

Parsing Config Data ...

update u1 stack ports none none to 1/2/1 1/2/2

stack unit 1, port change to 1/2/1 1/2/2

do_stacking_add_module_type(0) return OK

do_stacking_add_module_type(1) return OK

do_stacking_add_module_type(2) return OK

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update u5 stack ports none none to 5/2/1 5/2/2

stack unit 5, port change to 5/2/1 5/2/2

do_stacking_add_module_type(16) return OK

do_stacking_add_module_type(17) return OK

update u1 stack ports 1/2/1 1/2/2 to none 1/2/2

stack unit 1, port change to INVALID 1/2/2

update u5 stack ports 5/2/1 5/2/2 to 5/2/1 none

stack unit 5, port change to 5/2/1 INVALID

refresh all vlan and vidx

Trigger election due to change of enable, t=26521 ms

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 System: Warm start

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 DHCPC: protocol disabled

UNIT 2: compiled on Apr 27 2010 at 04:58:36 labeled as FCXS07100b93

(4210939 bytes) from Primary FCXS07100b93.bin

SW: Version 07.1.00b93T7f1

Boot-Monitor Image size = 369286, Version:07.0.01T7f5 (grz07001)

HW: Stackable FCX648S-PREM (PROM-TYPE FCX-ADV-U)

==========================================================================

UNIT 2: SL 1: FCX-48GS 48-port Management Module

License: BASE_SOFT_PACKAGE (LID: )

P-ENGINE 0: type DB90, rev 01

P-ENGINE 1: type DB90, rev 01

==========================================================================

UNIT 2: SL 2: FCX-2XGC 2-port 16G Module (2-CX4)

==========================================================================

UNIT 2: SL 3: FCX-2XG 2-port 10G Module (2-XFP)

==========================================================================

800 MHz Power PC processor 8544E (version 33/0022) 400 MHz bus

65536 KB flash memory

256 MB DRAM

Monitor Option is on

STACKID 2 system uptime is 17 seconds

The system : started=warm start reloaded=by "reload"

My stack unit ID = 2, bootup role = active

Trigger election due to change of port-up, t=48 ms

Election, was alone --> active, ID=2, total 2 units, priority=100

Change my elected role from alone to active

module 16 is has matched config, add mac address only

module 17 is has matched config, add mac address only

create virtual table for device 8, t=49169ms

allocate virtual reg cache for device 8, t=49171ms

me=00bb.5233.33bb, assigned-ID=2, finished cost calculation

device 2, cost = 0, through conn-port[0], prec device=255

device 3, cost = 0, through conn-port[0], prec device=255

device 8, cost = 10, through conn-port[1], prec device=3

stack unit 5 createPPDevices(8), num=1, remote_state=0, rel-seq#=2DAF0000

Created 1 devs from 8 for unit 5, time=648 us

Trigger election due to change of port-up, t=0 ms

Brocade> Done hot swap: Set stack unit 5 to Ready role active

rated 1: I 2 ipc_send_packet, target stack1, has no DSA tag

stack: 20174928 20178CA8 20179D44 20177424 200E10AC 200E1890 200E193C 200E1A10

20044E1C 2012B5C0 20048000 2012C9D4 5010

rel_ipc_send_reset fail, to u1, channel=0

Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 13

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Layer 1 debug commands 2

Election, was active, no role change, ID=2, total 3 units, priority=100

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 Stack: Stack unit 1 has been added to the

stack system

module 0 is has matched config, add mac address only

module 1 is has matched config, add mac address only

module 2 is has matched config, add mac address only

create virtual table for device 0, t=50688ms

create virtual table for device 1, t=50690ms

allocate virtual reg cache for device 0, t=50693ms

allocate virtual reg cache for device 1, t=50694ms

me=00bb.5233.33bb, assigned-ID=2, finished cost calculation

device 0, cost = 15, through conn-port[0], prec device=1

device 1, cost = 10, through conn-port[0], prec device=3

device 2, cost = 0, through conn-port[0], prec device=255

device 3, cost = 0, through conn-port[0], prec device=255

device 8, cost = 10, through conn-port[1], prec device=3

stack unit 1 createPPDevices(0), num=2, remote_state=0, rel-seq#=4C640000

Created 2 devs from 0 for unit 1, time=1094 us

Master/standby hotswap delay callback

debug stacking disable-task

Syntax: [no] debug stacking disable-task

This command disables the interprocess communication (IPC) that transmits the tasks.

Brocade# debug stacking disable-task

FCX Boot Code Version 7.0.1 (grz07001)

Enter 'a' to stop at memory test

Enter 'b' to stop at boot monitor

BOOT INFO: load monitor from boot flash, cksum = 227c

BOOT INFO: verify flash files.............

BOOT INFO: debug enabled!!!

BOOT INFO: load image from primary copy...

BOOT INFO: debug enabled!!!

.............

....

Starting Main Task .

Task StkKeepAlive is not created due to debugging <==== result

..Pre Parsing Config Data ...

Parsing Config Data ...

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 System: Warm start

SYSLOG: <14>Jan 1 00:00:00 10.44.22.57 DHCPC: protocol disabled

UNIT 2: compiled on Apr 27 2010 at 04:58:36 labeled as FCXS07100b93

(4210939 bytes) from Primary FCXS07100b93.bin

SW: Version 07.1.00b93T7f1

Boot-Monitor Image size = 369286, Version:07.0.01T7f5 (grz07001)

HW: Stackable FCX648S-PREM (PROM-TYPE FCX-ADV-U)

==========================================================================

UNIT 2: SL 1: FCX-48GS 48-port Management Module

License: BASE_SOFT_PACKAGE (LID: )

P-ENGINE 0: type DB90, rev 01

P-ENGINE 1: type DB90, rev 01

14 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference

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==========================================================================

UNIT 2: SL 2: FCX-2XGC 2-port 16G Module (2-CX4)

==========================================================================

UNIT 2: SL 3: FCX-2XG 2-port 10G Module (2-XFP)

==========================================================================

800 MHz Power PC processor 8544E (version 33/0022) 400 MHz bus

65536 KB flash memory

256 MB DRAM

Monitor Option is on

STACKID 2 system uptime is 17 seconds

The system : started=warm start reloaded=by "reload"

My stack unit ID = 2, bootup role = active

debug stacking download

Syntax: [no] debug stacking download <decimal>

This command monitors the download of the stacking devices. The <decimal> variable refers to

the number of the stack.

Brocade# debug stacking download 1

Brocade# copy tftp flash 10.44.22.11 FCXS07100b93.bin pri

Brocade# Flash Memory Write (8192 bytes per dot) deinit for 1

init ipc to 1

deinit for 5

init ipc to 5

target = 1, channel = 1, connection established

target = 5, channel = 1, connection established

stack member 5, start 9216, block 25

.stack member 5, start 21504, block 50

.....stack member 5, start 32768, block 75

stack member 5, start 44032, block 100

stack member 1, start 69632, block 125

.stack member 1, start 81920, block 150

........stack member 1, start 94208, block 175

stack member 1, start 105472, block 200

stack member 1, start 116736, block 225

.stack member 1, start 128000, block 250

stack member 5, start 140288, block 275

.stack member 5, start 152576, block 300

............stack member 5, start 163840, block 325

stack member 5, start 175104, block 350

stack member 5, start 186368, block 375

stack member 5, start 197632, block 400

stack member 1, start 222208, block 425

.stack member 1, start 233472, block 450

stack member 1, start 245760, block 475

..................stack member 1, start 258048, block 500

stack member 1, start 269312, block 525

stack member 1, start 280576, block 550

stack member 5, start 292864, block 575

stack member 5, start 304128, block 600

stack member 5, start 315392, block 625

stack member 5, start 326656, block 650

.stack member 1, start 351232, block 675

.stack member 1, start 362496, block 700

..............stack member 1, start 374784, block 725

stack member 1, start 386048, block 750

stack member 1, start 397312, block 775

stack member 1, start 408576, block 800

Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 15

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stack member 5, start 420864, block 825

stack member 5, start 432128, block 850

.stack member 5, start 443392, block 875

.............stack member 5, start 454656, block 900

stack member 1, start 479232, block 925

stack member 1, start 490496, block 950

stack member 1, start 501760, block 975

stack member 1, start 513024, block 1000

.stack member 1, start 0, block 1025

......................stack member 1, start 12288, block 1050

stack member 5, start 24576, block 1075

stack member 5, start 35840, block 1100

stack member 5, start 47104, block 1125

stack member 5, start 58368, block 1150

stack member 1, start 82944, block 1175

stack member 1, start 94208, block 1200

stack member 1, start 105472, block 1225

.stack member 1, start 116736, block 1250

................stack member 1, start 129024, block 1275

stack member 1, start 140288, block 1300

stack member 5, start 152576, block 1325

stack member 5, start 163840, block 1350

stack member 5, start 175104, block 1375

stack member 5, start 186368, block 1400

.stack member 1, start 210944, block 1425

.........stack member 1, start 222208, block 1450

stack member 1, start 233472, block 1475

.......stack member 1, start 244736, block 1500

stack member 1, start 256000, block 1525

stack member 5, start 268288, block 1550

stack member 5, start 279552, block 1575

stack member 5, start 290816, block 1600

stack member 5, start 302080, block 1625

stack member 5, start 313344, block 1650

stack member 1, start 337920, block 1675

stack member 1, start 349184, block 1700

stack member 1, start 360448, block 1725

stack member 1, start 371712, block 1750

stack member 5, start 384000, block 1775

stack member 5, start 395264, block 1800

stack member 5, start 406528, block 1825

stack member 5, start 417792, block 1850

on members:

target = 2, channel = 1, connection established

Download request received from active...

unit = 2, mac = 00bb.5233.33bb

resuming delivery..

space_left = 33792, block = 25, size = 1024

resuming delivery..

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resuming delivery..

space_left = 28672, block = 50, size = 1024

resuming delivery..

space_left = 38912, block = 75, size = 1024

resuming delivery..

space_left = 40960, block = 100, size = 1024

resuming delivery..

space_left = 16384, block = 125, size = 1024

resuming delivery..

space_left = 31744, block = 150, size = 1024

resuming delivery..

space_left = 34816, block = 175, size = 1024

resuming delivery..

space_left = 36864, block = 200, size = 1024

debug stacking election

Syntax: [no] debug stacking election

This command monitors the election and ID assignment of the stack.

Brocade# debug stacking election

UNIT2:Trigger election due to change of port-up, t=201 ms

UNIT2:Curr-active:

UNIT2:Curr-active elect, ind=3, has_b_act=1

u2 no qualify, role_trans = member

u5 no qualify, role_trans = member

1 qualify, ary-ind =2, , units: 1,

boot-master. id-le 1

bootup-active. ind=3, final cnt = 1

bootup-active. winner id-le=1, id-bo=1

---winner, ind= 2, id-le= 1, id-bo=1

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Layer 1 debug commands 2

UNIT2:

--------- active mac = 4580, take assigned-ID = 1

UNIT2:Mac=0024.3815.4580, FCX648S id-bootup=1, id_learned=1 (assigned)

UNIT2:Mac=00bb.5233.33bb, FCX648S id-bootup=2, id_learned=2 (not-yet)

UNIT2:Mac=00e0.5208.0000, FCX624S id-bootup=5, id_learned=5 (not-yet)

UNIT2:assign ID, based on assigned-ID

UNIT2:Mac=0024.3815.4580, FCX648S id-bootup=1, id_learned=1 (assigned)

UNIT2:Mac=00bb.5233.33bb, FCX648S id-bootup=2, id_learned=2 (assigned)

UNIT2:Mac=00e0.5208.0000, FCX624S id-bootup=5, id_learned=5 (assigned)

Active unit config:

mailbox->stack_config_ary_index = 3

[0]: ID=1, prior=100, mod=FDF0F (CHEETAH3_48G), p=1/4/64 1/2/2, def=1/2/1 1/2/2

[1]: ID=2, prior=50, mod=FDF0F (CHEETAH3_48G), p=1/2/1 1/2/2, def=1/2/1 1/2/2

[2]: ID=5, prior=0, mod=FFF0E (CHEETAH3_24G), p=1/2/1 1/4/64, def=1/2/1 1/2/2

UNIT2:permutation: n=5, m=0, map_ary[5] = 3 4 6 7 8

UNIT2: mailbox_map[0] =

UNIT2:perm[0]: Iter 0, optimal_weight = 0, maximum_weight=-10000, res=0

UNIT2:best ary[0] =

UNIT2:Election, I member. id-le=2, A=1, total 3 units, delay 5 * 100 ms

Election, was member, no role change, ID=2, total 3 units, priority=50

UNIT2:stack unit 5, port change to 5/2/1 5/2/2

UNIT2:stack unit 5, port change to 5/2/1 INVALID

UNIT2:stack unit 1, port change to 1/2/1 1/2/2

UNIT2:stack unit 1, port change to INVALID 1/2/2

Write stack flash:

[MEMBER]local-2@FCX648S Switch>Unit 2 becomes ready

Connecting to active controller 1 console...

UNIT2:Change me role_transit from member to standby

UNIT2:Change my role from member to standby

UNIT2:Change me role_transit from standby to member

UNIT2:Change me role_transit from member to standby

Future-active:

[0] u1, qualify=1. c_sync=1, is_A=1, r_state = 0

[1] u2, qualify=1. c_sync=1, is_A=1, r_state = 16

[2] u5, qualify=1. c_sync=1, is_A=1, r_state = 16

3 qualify, ary-ind =0-2, , units: 1, 2, 5,

config-prior. id-le 1 high prior 100

config-priority. ind=3, final cnt = 1

config-priority. winner id-le=1, id-bo=1

---winner, ind= 0, id-le= 1, id-bo=1

Curr-standby:

Curr-standby elect, ind=2

u2 parsed=0, qualify

u5 parsed=0, qualify

2 qualify, ary-ind =0-1, , units: 2, 5,

config-prior. id-le 2 high prior 50

config-priority. ind=2, final cnt = 1

config-priority. winner id-le=2, id-bo=2

---winner, ind= 0, id-le= 2, id-bo=2

Future-standby:

Future-standby elect, ind=2

2 qualify, ary-ind =0-1, , units: 2, 5,

config-prior. id-le 2 high prior 50

config-priority. ind=2, final cnt = 1

config-priority. winner id-le=2, id-bo=2

---winner, ind= 0, id-le= 2, id-bo=2

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debug stacking reg-cache-group

Syntax: [no] debug stacking reg-cache-group <decimal>

This command displays the debug information of the specified registration cache group. The

<decimal> variable refers to the number of the registration cache group.

Brocade# debug stacking reg-cache group 3

booting..

UNIT 2: compiled on Apr 27 2010 at 04:58:36 labeled as FCXS07100b93

(4210939 bytes) from Primary FCXS07100b93.bin

SW: Version 07.1.00b93T7f1

Boot-Monitor Image size = 369286, Version:07.0.01T7f5 (grz07001)

HW: Stackable FCX648S-PREM (PROM-TYPE FCX-ADV-U)

==========================================================================

UNIT 2: SL 1: FCX-48GS 48-port Management Module

License: BASE_SOFT_PACKAGE (LID: )

P-ENGINE 0: type DB90, rev 01

P-ENGINE 1: type DB90, rev 01

==========================================================================

UNIT 2: SL 2: FCX-2XGC 2-port 16G Module (2-CX4)

==========================================================================

UNIT 2: SL 3: FCX-2XG 2-port 10G Module (2-XFP)

==========================================================================

800 MHz Power PC processor 8544E (version 33/0022) 400 MHz bus

65536 KB flash memory

256 MB DRAM

Monitor Option is on

STACKID 2 system uptime is 17 seconds

The system : started=warm start reloaded=by "reload"

My stack unit ID = 2, bootup role = active

Brocade>Election, was alone --> active, ID=2, total 3 units, priority=100

receives group 3 (RW packet 2) for device 8, 1452 bytes

receives group 3 (RW packet 2) for device 0, 1452 bytes

receives group 3 (RW packet 2) for device 1, 1452 bytes

debug stacking sync_rel_msg

Syntax: [no] debug stacking sync_rel_msg <num>

This command displays diagnostic information for hitless stacking switchover or failover. The

<num> variable specifies the message number.

Brocade# debug stacking sync_rel_msg 1

stk_sync_rel_msg_create_ipc_session:session created for stack_id=1

stk_sync_rel_msg_send():sent msg_type = 16, len 1203

stk_sync_rel_msg_free:msg freed

start runing config sync

stk_sync_rel_msg_send():sent msg_type = 3, len 1024

stk_sync_rel_msg_free:msg freed

Brocade# debug stacking sync_rel_msg 4

stk_sync_trunk_mapping:sending trunk mapping...

start running config sync

sync_cdb:send cdb:sess = 0, pBuf = 2132f068

sync_cdb:send cdb:sess = 0, pBuf = 2132f57c

...

stk_sync_cdb:finished cdb sync

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Layer 1 debug commands 2

Brocade# debug stacking sync_rel_msg 8

Hitless sync: TRUNK INFO size (1282)

*************************************

Trunk ID: 10 (1 based), (Hw Trunk ID: 1),

g_sw_sys.trunk_config.trunk_entry[#9]

:number_of_ports = 2; creator = 0

g_sw_sys.trunk_config.trunk_entry[#9] MEMBER PORTS

port_list[0]=#009

port_list[1]=#010

debug stacking time

Syntax: [no] debug stacking time

This command displays the CPU time and other debug information.

Brocade# debug stacking time

Starting Main Task .build register cache, cpu time = 218238 us

..Pre Parsing Config Data ...

UNIT 1: compiled on Apr 27 2010 at 04:58:36 labeled as FCXS07100b93

(4210939 bytes) from Primary FCXS07100b93.bin

SW: Version 07.1.00b93T7f1

Boot-Monitor Image size = 369048, Version:07.0.00T7f5 (grz07000b1)

HW: Stackable FCX648S

==========================================================================

UNIT 1: SL 1: FCX-48GS 48-port Management Module

Serial #: BCX2235E01J

License: BASE_SOFT_PACKAGE (LID: dezHHIKgFGl)

P-ENGINE 0: type DB90, rev 01

P-ENGINE 1: type DB90, rev 01

==========================================================================

UNIT 1: SL 2: FCX-2XGC 2-port 16G Module (2-CX4)

==========================================================================

UNIT 1: SL 3: FCX-2XG 2-port 10G Module (2-XFP)

==========================================================================

800 MHz Power PC processor 8544E (version 33/0022) 400 MHz bus

65536 KB flash memory

256 MB DRAM

Monitor Option is on

STACKID 1 system uptime is 17 seconds

The system : started=warm start reloaded=by "reload"

Enable stacking. This unit actively participates in stacking

My stack unit ID = 1, bootup role = standby

Election, was member, no role change, ID=1, total 3 units, priority=50

build register cache, cpu time = 6101 us

UNIT1:Delete some stack member devices, time = 6257 us

build register cache, cpu time = 5533 us

[MEMBER]local-1@FCX648S Switch>Unit 1 becomes ready

UNIT1:Ready, since START 12, SEND_GROUP 11, DONE_DY 1, unit 100ms

Stack unit 1 Power supply 1 detected and up.

Shadow table takes 636976 bytes per device

Shadow table takes 1273952 bytes per device

Stack unit 5 Power supply 1 is up

Stack unit 5 Power supply 2 is down

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Indirect table takes 644656 bytes

build register cache, cpu time = 11137 us

UNIT1:Delete some stack member devices, time = 11364 us

UNIT1:hot swap stack 2, cpu time = 23499 us

Done hot swap: Set stack unit 2 to Ready role standby

UNIT1:hot swap stack 5, cpu time = 16125 us

Done hot swap: Set stack unit 5 to Ready role standby

Stack unit 2 Power supply 1 is up

debug stacking topology

Syntax: [no] debug stacking topology

This command monitors topology change and port up or down status.

Brocade# debug stacking topology

Calculate topology, num=1: ID=2,

[0] u2, nbr=255 255, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/2/2

Election, was alone --> active, ID=2, total 2 units, priority=100

Calculate topology, num=2: ID=2, 5,

[0] u2, nbr=255 5, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/2/2

[1] u5, nbr=2 255, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/4/64

Calculate topology, num=2: ID=2, 5,

[0] u2, nbr=255 5, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/2/2

[1] u5, nbr=2 255, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/4/64

FCX648S Switch>Done hot swap: Set stack unit 5 to Ready role active

Election, was active, no role change, ID=2, total 3 units, priority=100

Calculate topology, num=3: ID=1, 2, 5,

[0] u1, nbr=255 2, def-p=1/2/1 1/2/2, stk-p=1/4/64 1/2/2

[1] u2, nbr=1 5, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/2/2

[2] u5, nbr=2 255, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/4/64

Calculate topology, num=3: ID=1, 2, 5,

[0] u1, nbr=255 2, def-p=1/2/1 1/2/2, stk-p=1/4/64 1/2/2

[1] u2, nbr=1 5, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/2/2

[2] u5, nbr=2 255, def-p=1/2/1 1/2/2, stk-p=1/2/1 1/4/64

Stack unit 5 Power supply 1 is up

Stack unit 5 Power supply 2 is down

Done hot swap: Set stack unit 1 to Ready role active

System debug commands

The following system debug commands enable debugging of the system services and device

drivers.

debug system campram

Syntax: [no] debug system campram

This command traces Content Addressable Memory (CAM) or Parallel Random Access Machine

(PRAM) operations.

Brocade# debug system campram

cam/pram: Trace debugging is on

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System debug commands 2

debug system optics

Syntax: [no] debug system optics

This command activates optical monitor debugging.

Brocade# debug system optics

optics: Trace debugging is on

debug system poll

Syntax: [no] debug system poll

This command is used for backplane polling.

Brocade# debug system poll

backplane-poll: Trace debugging is on

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Chapter

Layer 2 Debug Commands

In this chapter

•STP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

•RSTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

•MSTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

•DHCP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

•GVRP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

•MAC address debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

•MCT debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

•Packet-capture debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52

STP debug commands

The Spanning Tree Protocol (STP) eliminates Layer 2 loops in networks, by selectively blocking

some ports and allowing other ports to forward traffic, based on the global (bridge) and local (port)

parameters.

STP-related features, such as Rapid Spanning Tree Protocol (RSTP) and Per VLAN Spanning Tree

(PVST), extend the operation of standard STP, enabling you to fine-tune standard STP and avoid

some of its limitations.

You can enable or disable STP on a global basis (for the entire device), a port-based Virtual Local

Area Network (VLAN) basis (for the individual Layer 2 broadcast domain), or an individual port

basis. For more information on configuring STP, refer to the FastIron Configuration Guide.

A control protocol, such as STP, can block one or more ports in a protocol-based VLAN that uses a

virtual routing interface to route to other VLANs. For IP VLANs and IP subnet VLANs, even though

some of the physical ports of the virtual routing interface are blocked, the virtual routing interface

can still route as long as at least one port in the protocol-based VLAN is not blocked by STP.

The following are the commands used to enable the STP debugging.

debug span all_802_1d_events

Syntax: [no] debug span all_802_1d_events vlan <decimal>

This command monitors information about all the events, timers, and packets on a specific VLAN.

The <decimal> variable refers to the number of the VLAN.

The output from this command resembles the following example.

Brocade# debug span all_802_1d_events vlan 2

STP Enabling All events Debugging for VLAN 2

Brocade# STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

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0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

Disabling the debug span all_802_1d_events on FCX:

Brocade# no debug span all_802_1d_events vlan 2

STP : Disabling All 802.1w Debugging for VLAN 2

debug span config

Syntax: [no] debug span config vlan <decimal>

This command monitors information about STP Bridge Protocol Data Unit (BPDU) configuration on a

specific VLAN. The <decimal> variable refers to the number of the VLAN.

If the configuration of VLAN 2 on the Brocade FCX is enabled, the output similar to the following is

displayed.

Brocade# debug span config vlan 2

STP Enabling packets Debugging for VLAN 2

Brocade# STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/5

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 05 0100 1400 0200 0f00

STP: Transmitting Config BPDU - VLAN 2 - Port 1/1/6

0000 00 00 00 80000012f2dbfd80 00000004

8000002438154580 08 06 0100 1400 0200 0f00

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RSTP debug commands 3

If the configuration of VLAN 2 on the Brocade FCX is disabled, the output similar to the following is

displayed.

Brocade# no debug span config vlan 2

STP : Disabling Packets Debugging for VLAN 2

debug span timers

Syntax: [no] debug span timers vlan <decimal>

This command displays information about the specific STP timer events. The <decimal> variable

refers to the number of the VLAN.

If the STP timer event on VLAN 2 of the Brocade FCX is enabled, the output similar to the following

is displayed.

Brocade# debug span timers vlan 2

STP Enabling Timer Debugging for VLAN 2

Sample output:

STP: Timer Alert - Forward Delay Timer expired On port 1/1/6(5) , VLAN 2

STP: Timer Alert - Forward Delay Timer expired On port 1/1/1(0) , VLAN 2

STP: Timer Alert - Forward Delay Timer expired On port 1/1/6(5) , VLAN 2

STP: Timer Alert - Message Age Timer expired On port 1/1/1(0) , VLAN 2

STP: Timer Alert - Message Age Timer expired On port 1/1/2(1) , VLAN 2

STP: Timer Alert - Forward Delay Timer expired On port 1/1/2(1) , VLAN 2

If the STP timer event on VLAN 2 of the Brocade FCX is disabled, the output similar to the following

is displayed.

Brocade# no debug span timers vlan 2

STP Disabling Timer Debugging for VLAN 2

RSTP debug commands

RSTP provides rapid traffic reconvergence for point-to-point links within a few milliseconds (less

than 500 milliseconds) following the failure of a bridge or bridge port. This reconvergence occurs

more rapidly than that provided by STP because convergence in RSTP bridges is based on the

explicit handshakes between designated ports and their connected root ports rather than on timer

values. The debug 802.1w command displays some information about RSTP.

NOTE

For RSTP debug commands, enter 4094 if STP is enabled. Enter the VLAN ID for Multiple Spanning

Tree Protocol (MSTP). The CLI alerts the user if the VLAN ID does not exist.

debug 802.1w all_802_1w_events

Syntax: [no] debug 802.1w all_802_1w_events vlan <decimal>

This command debugs all the RSTP transactions, timers, and packets on a specific VLAN. The

<decimal> variable refers to the number of the VLAN.

If the events are enabled, the output similar to the following is displayed.

Brocade# debug 802.1w all_802_1w_events vlan 2

RSTP Enabling All events Debugging for VLAN 2

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Brocade# RSTP[daa69]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) ,

VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/2(1) VLAN 2

RSTP: PTX =>ROLE is ALTERNATE or BACKUP , port 1/1/2(1), VLAN 2

RSTP[daa69]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/9(8) VLAN 2

RSTP[daa69]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00004e20

8000002438154580 08 09 0100 1400 0200 0f00

RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: PRT =>no valid transition found ,no error, port 1/1/1(0) VLAN 2

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

RSTP[daa7d]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) , VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/2(1) VLAN 2

RSTP: PTX =>ROLE is ALTERNATE or BACKUP , port 1/1/2(1), VLAN 2

RSTP[daa7d]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/9(8) VLAN 2

RSTP[daa7d]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00004e20

8000002438154580 08 09 0100 1400 0200 0f00

RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: PRT =>no valid transition found ,no error, port 1/1/1(0) VLAN 2

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

RSTP[daa91]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) , VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/2(1) VLAN 2

RSTP: PTX =>ROLE is ALTERNATE or BACKUP , port 1/1/2(1), VLAN 2

RSTP[daa91]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP: PTX entering the Periodic state , port 1/1/9(8) VLAN 2

RSTP[daa91]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

If the events are disabled, the output similar to the following is displayed.

Brocade# no debug 802.1w all_802_1w_events vlan 2

RSTP Disabling All 802.1w Debugging for VLAN 2

debug 802.1w messages

Syntax: [no] debug 802.1w messages vlan <decimal>

This command displays BPDU information on a VLAN. The <decimal> variable refers to the number

of the VLAN.

If the 802.1w messages are enabled, an output similar to the following is displayed.

Brocade# debug 802.1w messages vlan 2

RSTP Enabling packets Debugging for VLAN 2

Brocade# RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

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RSTP debug commands 3

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

RSTP[db06d]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00004e20

8000002438154580 08 09 0100 1400 0200 0f00

RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

RSTP[db081]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00004e20

8000002438154580 08 09 0100 1400 0200 0f00

RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

RSTP[db095]: Tx RST Config BPDU Port 1/1/9(8) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00004e20

8000002438154580 08 09 0100 1400 0200 0f00

Brocade# RSTP: Rcvd RST Config BPDU: Port 1/1/1(0) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 01 0000 0000 0000 0000

RSTP: Rcvd RST Config BPDU: Port 1/1/2(1) VLAN 2

0000 02 02 7e 80000012f2dbfd80 00000000

80000012f2dbfd80 08 02 0000 0000 0000 0000

If the 802.1w messages are disabled, the output similar to the following is displayed.

Brocade# no debug 802.1w messages valn 2

RSTP Disabling Packets Debugging for VLAN 2

debug 802.1w timer

Syntax: [no] debug 802.1w timer vlan <decimal>

This command debugs the RSTP (802.1w) timer expiration. The <decimal> variable refers to the

number of the VLAN.

If the timer is enabled, an output similar to the following is displayed.

Brocade# debug 802.1w timer vlan 2

Brocade# RSTP[db6fd]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) ,

VLAN 2

RSTP[db6fd]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP[db711]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) , VLAN 2

RSTP[db711]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP[db725]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) , VLAN 2

RSTP[db725]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) , VLAN 2

RSTP[db739]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) , VLAN 2

If the timer is disabled, the output similar to the following is displayed.

Brocade# no debug 802.1w timer vlan 2

RSTP Disabling Timer Debugging for VLAN 2

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MSTP debug commands

debug 802.1w transitions

Syntax: [no] debug 802.1w transitions vlan <decimal>

This command debugs the RSTP state machine transitions. The <decimal> variable refers to the

number of the VLAN.

If the 802.1w transtitions are enabled, an output similar to the following is displayed.

Brocade# debug 802.1w transitions vlan 2

RSTP Enabling Events Debugging for VLAN 2

Brocade# RSTP: PRT =>no valid transition found ,no error, port 1/1/1(0) VLAN 2