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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53-1002497-01 05 March 2012 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference Supporting Brocade FastIron and TurboIron R07.4.00 ® Copyright © 2011-2012 Brocade Communications Systems, Inc. All Rights Reserved. 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 Corporate and Latin American Headquarters Brocade Communications Systems, Inc. 130 Holger Way San Jose, CA 95134 Tel: 1-408-333-8000 Fax: 1-408-333-8101 E-mail: info@brocade.com Asia-Pacific Headquarters Brocade Communications Systems China HK, Ltd. No. 1 Guanghua Road Chao Yang District Units 2718 and 2818 Beijing 100020, China Tel: +8610 6588 8888 Fax: +8610 6588 9999 E-mail: china-info@brocade.com European Headquarters Brocade Communications Switzerland Sàrl Centre Swissair Tour B - 4ème étage 29, Route de l'Aéroport Case Postale 105 CH-1215 Genève 15 Switzerland Tel: +41 22 799 5640 Fax: +41 22 799 5641 E-mail: emea-info@brocade.com Asia-Pacific Headquarters Brocade Communications Systems Co., Ltd. (Shenzhen WFOE) Citic Plaza No. 233 Tian He Road North Unit 1308 – 13th Floor Guangzhou, China Tel: +8620 3891 2000 Fax: +8620 3891 2111 E-mail: china-info@brocade.com Document History 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 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 iii 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 iv Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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). Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 v 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: 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 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. vi Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 vii viii Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter Using Diagnostic Commands 1 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). Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 1 1 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. 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 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| ssh ] • console—Directs output to the system console. 2 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Generic debug commands 1 • logging—Directs output to the syslog buffer and to the syslog server (default). • telnet —Directs output to a specified Telnet session (ranges from 1 through 5). • ssh —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. 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 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 debug Debug message destination: Console Enabling ACL log IPv6 Routing: ipv6: icmp debugging is on Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 3 1 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. 4 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter System Level and Layer 1 Debug Commands 2 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 5 2 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) 6 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 This command monitors a specific physical port and is used with the debug port up-down or debug port hw-state commands. The 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 7 2 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 8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Layer 1 debug commands 2 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 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 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 9 2 Layer 1 debug commands 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 This command monitors a specific VLAN and is used with the debug port up-down and debug port commands. The 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 10 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 This command monitors the debugging of control stacks. The 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 stack unit 1, port change to 1/2/1 do_stacking_add_module_type(0) do_stacking_add_module_type(1) do_stacking_add_module_type(2) Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 1/2/1 1/2/2 1/2/2 return OK return OK return OK 11 2 Layer 1 debug commands 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 Copyright (c) 1996-2010 Brocade Communications Systems, Inc. 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 12 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 ..Pre Parsing Config Data ... <==== result 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 Copyright (c) 1996-2010 Brocade Communications Systems, Inc. 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 13 2 Layer 1 debug commands ========================================================================== 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 This command monitors the download of the stacking devices. The 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 14 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Layer 1 debug commands 2 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.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 33792, block = 25, size = 1024 resuming delivery.. resuming delivery.. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 15 2 Layer 1 debug commands resuming delivery.. resuming delivery.. resuming delivery.. space_left = 28672, resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 38912, resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 40960, resuming delivery.. space_left = 16384, resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 31744, resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 34816, resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. resuming delivery.. space_left = 36864, block = 50, size = 1024 block = 75, size = 1024 block = 100, size = 1024 block = 125, size = 1024 block = 150, size = 1024 block = 175, size = 1024 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 16 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Layer 1 debug commands UNIT2: --------- active mac = 4580, take assigned-ID = 1 UNIT2:Mac=0024.3815.4580, FCX648S id-bootup=1, id_learned=1 UNIT2:Mac=00bb.5233.33bb, FCX648S id-bootup=2, id_learned=2 UNIT2:Mac=00e0.5208.0000, FCX624S id-bootup=5, id_learned=5 UNIT2:assign ID, based on assigned-ID UNIT2:Mac=0024.3815.4580, FCX648S id-bootup=1, id_learned=1 UNIT2:Mac=00bb.5233.33bb, FCX648S id-bootup=2, id_learned=2 UNIT2:Mac=00e0.5208.0000, FCX624S id-bootup=5, id_learned=5 2 (assigned) (not-yet) (not-yet) (assigned) (assigned) (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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 17 2 Layer 1 debug commands debug stacking reg-cache-group Syntax: [no] debug stacking reg-cache-group This command displays the debug information of the specified registration cache group. The variable refers to the number of the registration cache group. Brocade# debug stacking reg-cache group 3 booting.. copyright (c) 1996-2010 Brocade Communications Systems, Inc. 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 receives group 3 (RW packet receives group 3 (RW packet receives group 3 (RW packet --> active, ID=2, total 3 units, priority=100 2) for device 8, 1452 bytes 2) for device 0, 1452 bytes 2) for device 1, 1452 bytes debug stacking sync_rel_msg Syntax: [no] debug stacking sync_rel_msg This command displays diagnostic information for hitless stacking switchover or failover. The 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 18 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 ... Copyright (c) 1996-2010 Brocade Communications Systems, Inc. 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 Shadow table Shadow table Stack unit 5 Stack unit 5 Power takes takes Power Power supply 1 detected and up. 636976 bytes per device 1273952 bytes per device supply 1 is up supply 2 is down Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 19 2 System debug commands Indirect table takes 644656 bytes Indirect table takes 644656 bytes 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 20 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 21 2 22 System debug commands Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter 3 Layer 2 Debug Commands In this chapter • STP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • RSTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • MSTP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • DHCP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • GVRP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • MAC address debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • MCT debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • Packet-capture debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 25 28 33 35 36 37 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 This command monitors information about all the events, timers, and packets on a specific VLAN. The 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 23 3 STP debug commands 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 1/1/6 1/1/5 1/1/6 1/1/5 1/1/6 1/1/5 1/1/6 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 This command monitors information about STP Bridge Protocol Data Unit (BPDU) configuration on a specific VLAN. The 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 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 05 0100 1400 0200 0f00 STP: Transmitting Config BPDU - VLAN 2 - Port 0000 00 00 00 80000012f2dbfd80 00000004 8000002438154580 08 06 0100 1400 0200 0f00 24 2 - Port 1/1/5 1/1/6 1/1/5 1/1/6 1/1/5 1/1/6 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 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 This command displays information about the specific STP timer events. The 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 STP: Timer Alert STP: Timer Alert STP: Timer Alert STP: Timer Alert STP: Timer Alert STP: Timer Alert - Forward Forward Forward Message Message Forward Forward Delay Timer expired On port 1/1/6(5) Delay Timer expired On port 1/1/1(0) Delay Timer expired On port 1/1/6(5) Age Timer expired On port 1/1/1(0) , Age Timer expired On port 1/1/2(1) , Delay Timer expired On port 1/1/2(1) Delay Timer expired On port 1/1/2(1) , VLAN , VLAN , VLAN VLAN 2 VLAN 2 , VLAN , VLAN 2 2 2 2 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 This command debugs all the RSTP transactions, timers, and packets on a specific VLAN. The 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 25 3 RSTP debug commands Brocade# RSTP[daa69]: Timer Alert - helloWhen timer_expired On port 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) 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 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) 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) 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 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) 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) 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 1/1/2(1) , , VLAN 2 2 , VLAN 2 , VLAN 2 2 , VLAN 2 , 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 This command displays BPDU information on a VLAN. The 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 26 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 3 RSTP debug commands 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 This command debugs the RSTP (802.1w) timer expiration. The 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 VLAN 2 RSTP[db6fd]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) RSTP[db711]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) RSTP[db711]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) RSTP[db725]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) RSTP[db725]: Timer Alert - helloWhen timer_expired On port 1/1/9(8) RSTP[db739]: Timer Alert - helloWhen timer_expired On port 1/1/2(1) 1/1/2(1) , , , , , , , VLAN VLAN VLAN VLAN VLAN VLAN 2 2 2 2 2 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 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 27 3 MSTP debug commands debug 802.1w transitions Syntax: [no] debug 802.1w transitions vlan This command debugs the RSTP state machine transitions. The 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 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: PTX entering the Periodic state , port 1/1/9(8) VLAN 2 RSTP: PRT =>no valid transition found ,no error, port 1/1/1(0) 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: PTX entering the Periodic state , port 1/1/9(8) VLAN 2 RSTP: PRT =>no valid transition found ,no error, port 1/1/1(0) 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: PTX entering the Periodic state , port 1/1/9(8) VLAN 2 If the 802.1w transtitions are disabled, the output similar to the following is displayed. Brocade# no debug 802.1w transitions vlan 2 RSTP Disabling Events Debugging for VLAN 2 MSTP debug commands With Multiple Spanning Tree Protocol (MSTP), the entire network runs a common instance of RSTP. Within the common instance, one or more VLANs can be individually configured into distinct regions. The entire network runs the Common Spanning Tree (CST) instance and the regions run a local instance, or Internal Spanning Tree (IST). Because the CST treats each IST as a single bridge, ports are blocked to prevent loops that might occur within an IST and also throughout the CST. In addition, MSTP can coexist with individual devices running STP or RSTP in the Common and Internal Spanning Tree instance (CIST). With the exception of the provisions for multiple instances, MSTP operates exactly like RSTP. The following MSTP debug commands are used for debugging information. debug mstp bpdu Syntax: [no] debug mstp bpdu This command records and displays information in conjunction with the debug mstp enable and debug mstp events commands. When the debug mstp bpdu command is enabled, it monitors MSTP BPDUs. If this command is enabled, an output similar to the following is displayed. Brocade# debug mstp bpdu MSTP Bpdu debugging ON 28 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MSTP debug commands 3 Brocade# debug mstp enable Brocade# MSTP[0xeb217]: PRX RECEIVE->RECEIVE - Port 1/1/1 MST 0, Port 1/1/1 - received BPDU (802.1s) 0000 03 02 7c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8001 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb217]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0xeb217]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0xeb217]: PRX RECEIVE->RECEIVE - Port 1/1/2 MST 0, Port 1/1/2 - received BPDU [0xeb217] (802.1s) 0000 03 02 3c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8002 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb217]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0xeb217]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0xeb21b]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0xeb21b]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 MSTP[0xeb22b]: PRX RECEIVE->RECEIVE - Port 1/1/1 MST 0, Port 1/1/1 - received BPDU [0xeb22b] (802.1s) 0000 03 02 7c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8001 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb22b]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0xeb22b]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0xeb22b]: PRX RECEIVE->RECEIVE - Port 1/1/2 MST 0, Port 1/1/2 - received BPDU [0xeb22b] (802.1s) 0000 03 02 3c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8002 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb22b]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0xeb22b]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0xeb22f]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0xeb22f]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 MSTP[0xeb23f]: PRX RECEIVE->RECEIVE - Port 1/1/1 MST 0, Port 1/1/1 - received BPDU [0xeb23f] (802.1s) 0000 03 02 7c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8001 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb23f]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0xeb23f]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0xeb23f]: PRX RECEIVE->RECEIVE - Port 1/1/2 MST 0, Port 1/1/2 - received BPDU [0xeb23f] (802.1s) 0000 03 02 3c 80000012f2dbfd80 00000000 80000012f2dbfd80 00000000 8002 0000 0014 0002 000f 80000012f2dbfd80 {0xac36177f50283cd4b83821d8ab26de62} MSTP[0xeb23f]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0xeb23f]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0xeb243]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0xeb243]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 MSTP[0xeb253]: PRX RECEIVE->RECEIVE - Port 1/1/1 MST 0, Port 1/1/1 - received BPDU [0xeb253] (802.1s) 0000 03 02 7c 80000012f2dbfd80 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 14 14 14 14 14 14 29 3 MSTP debug commands 80000012f2dbfd80 00000000 8001 0000 0014 0002 000f 80000012f2dbfd80 14 {0xac36177f50283cd4b83821d8ab26de62} debug mstp events Syntax: [no] debug mstp events This command displays MSTP state machine events. It monitors any MSTP events that take place. Brocade# debug mstp events MSTP Event debugging ON If MSTP events are enabled, an output similar to the following is displayed. Brocade# debug mstp enable Brocade# MSTP[0xeda7f]: PRX RECEIVE->RECEIVE - Port 1/1/1 MSTP[0xeda7f]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0xeda7f]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0xeda7f]: PRX RECEIVE->RECEIVE - Port 1/1/2 MSTP[0xeda7f]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0xeda7f]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0xeda89]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0xeda89]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 MSTP[0xeda93]: PRX RECEIVE->RECEIVE - Port 1/1/1 MSTP[0xeda93]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0xeda93]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 If MSTP events are disabled, an output similar to the following is displayed. Brocade# no debug mstp events MSTP Event debugging OFF debug mstp level Syntax: [no] debug mstp level This command monitors MSTP. Level 3 gives more information than level 2, and level 0 gives no information. The variable refers to the level of MSTP. Brocade# debug mstp level 2 Configuration : Brocade# [ebd95] MSTP_RX[pid=#0] *** [ebd95] MSTP_RX[pid=#0] done (region) [ebd95] MSTP_RX[pid=#1] *** [ebd95] MSTP_RX[pid=#1] done (region) [ebda9] MSTP_RX[pid=#0] *** [ebda9] MSTP_RX[pid=#0] done (region) [ebda9] MSTP_RX[pid=#1] *** [ebda9] MSTP_RX[pid=#1] done (region) [ebdbd] MSTP_RX[pid=#0] *** [ebdbd] MSTP_RX[pid=#0] done (region) [ebdbd] MSTP_RX[pid=#1] *** [ebdbd] MSTP_RX[pid=#1] done (region) [ebdd1] MSTP_RX[pid=#0] *** [ebdd1] MSTP_RX[pid=#0] done (region) [ebdd1] MSTP_RX[pid=#1] *** [ebdd1] MSTP_RX[pid=#1] done (region) [ebde5] MSTP_RX[pid=#0] *** 30 *** *** *** *** *** *** *** *** Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MSTP debug commands 3 [ebde5] MSTP_RX[pid=#0] done (region) *** [ebde5] MSTP_RX[pid=#1] *** If the MSTP level 3 is enabled, an output similar to the following is displayed. Brocade# debug mstp level 3 Brocade# [ebf4d] MSTP_RX[pid=#0] *** cist_Rx[ebf4d] CIST, Port(#0) [ebf4d] MSTP_RX[pid=#0] done (region) [ebf4d] MSTP_RX[pid=#1] *** cist_Rx[ebf4d] CIST, Port(#1) [ebf4d] MSTP_RX[pid=#1] done (region) [ebf61] MSTP_RX[pid=#0] *** cist_Rx[ebf61] CIST, Port(#0) [ebf61] MSTP_RX[pid=#0] done (region) [ebf61] MSTP_RX[pid=#1] *** cist_Rx[ebf61] CIST, Port(#1) [ebf61] MSTP_RX[pid=#1] done (region) n[ebf75] MSTP_RX[pid=#0] *** cist_Rx[ebf75] CIST, Port(#0) [ebf75] MSTP_RX[pid=#0] done (region) [ebf75] MSTP_RX[pid=#1] *** cist_Rx[ebf75] CIST, Port(#1) [ebf75] MSTP_RX[pid=#1] done (region) *** *** *** *** *** *** debug mstp msti Syntax: [no] debug mstp msti This command displays information for a specific MSTP instance. The variable specifies the value 0 for CIST and from 1 through 4094 for the Multiple Spanning Tree Instance (MSTI). Brocade# debug mstp msti 0 MSTP debugging turned on for instances 0 If this command is enabled, an output similar to the following is displayed. Brocade# debug mstp msti 2 MSTP debugging turned on for instances 2 ,0 Brocade# debug mstp enable Brocade# debug mstp events MSTP Event debugging ON Brocade# MSTP[0x175f15]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0x175f15]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 MSTP[0x175f21]: PRX RECEIVE->RECEIVE - Port 1/1/1 MSTP[0x175f21]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0x175f21]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0x175f21]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/1 MSTP[0x175f21]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/1, rcvdInfoWhile 4->7 MSTP[0x175f21]: PRX RECEIVE->RECEIVE - Port 1/1/2 MSTP[0x175f21]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0x175f21]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0x175f21]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/2 MSTP[0x175f21]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/2 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 31 3 MSTP debug commands MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/2, rcvdInfoWhile 4->7 MSTP[0x175f29]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0x175f29]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 noMSTP[0x175f35]: PRX RECEIVE->RECEIVE - Port 1/1/1 MSTP[0x175f35]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0x175f35]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0x175f35]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/1 MSTP[0x175f35]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/1, rcvdInfoWhile 4->7 MSTP[0x175f35]: PRX RECEIVE->RECEIVE - Port 1/1/2 MSTP[0x175f35]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0x175f35]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0x175f35]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/2 MSTP[0x175f35]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/2, rcvdInfoWhile 4->7 deMSTP[0x175f3d]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0x175f3d]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 bug msMSTP[0x175f49]: PRX RECEIVE->RECEIVE - Port 1/1/1 MSTP[0x175f49]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/1 MSTP[0x175f49]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/1, rcvdInfoWhile 5->7 MSTP[0x175f49]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/1 MSTP[0x175f49]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/1 MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/1, rcvdInfoWhile 4->7 MSTP[0x175f49]: PRX RECEIVE->RECEIVE - Port 1/1/2 MSTP[0x175f49]: PIM CURRENT->RECEIVE - MST 0, Port 1/1/2 MSTP[0x175f49]: PIM RECEIVE->REPEATED_DESIGNATED - MST 0, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileCist mst=0, Port 1/1/2, rcvdInfoWhile 5->7 MSTP[0x175f49]: PIM CURRENT->RECEIVE - MST 2, Port 1/1/2 MSTP[0x175f49]: PIM RECEIVE->REPEATED_DESIGNATED - MST 2, Port 1/1/2 MSTP: mstp_updtRcvdInfoWhileMsti mst=2, Port 1/1/2, rcvdInfoWhile 4->7 tpMSTP[0x175f51]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/1 MSTP[0x175f51]: PTX IDLE->TRANSMIT_PERIODIC - Port 1/1/2 eventMSTP[0x175f5d]: PRX RECEIVE->RECEIVE - Port 1/1/1 debug mstp port-level Syntax: [no] debug mstp port-level This command displays the information about the hardware level of the port on which the MSTP is running. The port level determines the level of the information. The variable refers to the level of the port. Brocade# debug mstp port-level 1 Configuration for port-level 1 : Brocade# debug mstp port-level DECIMAL 0 -- print nothing Brocade# debug mstp port-level 1 Brocade# configure terminal Brocade(config)# interface ethernet 1/1/1 Brocade(config-if-e1000-1/1/1)# disable Brocade(config-if-e1000-1/1/1)# enable Brocade(config-if-e1000-1/1/1)# ^Z 32 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 DHCP debug commands 3 debug mstp state Syntax: [no] debug mstp state This command displays information about the MSTP port state events. Brocade# debug mstp state MSTP Port State debugging ON debug mstp verbose Syntax: [no] debug mstp verbose This command displays the MSTP debug information in the verbose mode. Brocade# debug mstp verbose MSTP debugging set to VERBOSE mode debug mstp show Syntax: debug mstp show This command displays the current MSTP debug parameters that are enabled. Brocade# debug mstp show mstp debug is on because of enabled, level or port-level level 4 parameters: Brief, StateMachineEvents BpduEvents are being tracked Ports: All MSTP instances: 0 If this command is enabled, an output similar to the following is displayed. Brocade# debug mstp show mstp debug is off because enabled=0, level=0 & port-level=0 parameters: Brief, No events being tracked Ports: ethe 1/1/1 MSTP instances: All DHCP debug commands These commands are used to debug the various Dynamic Host Configuration Protocol (DHCP) client features. debug dhcp-client alarms Syntax: [no] debug dhcp-client alarms This command displays the debugging of the DHCP client on a particular port ID. Brocade# debug dhcp-client alarms "DHCPC: failed to initialize port; dhcpc unable to continue” "DHCPC: failed to initialize protocol timer" "DHCPC: no tftp server address or name found. unable to download configuration file” "DHCPC: unable to construct dns request” "DHCPC: dns failed to resolve tftp server name” “DHCPC: dns aborted” “DHCPC: No DHCP Servers found on any ports” Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 33 3 DHCP debug commands "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: No DHCP Servers found on any ports" setting 0 seconds lease time" setting 0 seconds lease time on port " No DHCP Servers found on any ports" failed to allocate a dhcpc packet on port " failed to send message on port " failed to allocate a dhcpc packet on port " failed to send message on port " get_an_ip_send_packet () failed on port " debug dhcp-client events Syntax: [no] debug dhcp-client events This command displays information about DHCP client events related to configuration. Brocade# debug dhcp-client events "DHCPC: failed to delete static ip-address to " "DHCPC: failed to set the port ip-address to ; subnet mask " "DHCPC: changing port state from REQUEST to BOUND" "DHCPC: exceeds maximum DNS servers" "DHCPC: added dns-server address" "DHCPC: failed to set the port ip-address to ; subnet mask " "DHCPC: TFTP timeout error for bootfile name %s" "DHCPC: TFTP client busy" "DHCPC: TFTP error wrong file type" "DHCPC: TFTP long file name error" "DHCPC: TFTP vlan-id invalid" "DHCPC: TFTP flash write errors" "DHCPC: TFTP error out of buffer space" "DHCPC: TFTP flash read error" "DHCPC: TFTP flash preparation for read failed" "DHCPC: TFTP flash preparation for write failed" "DHCPC: %s failed to save running-configuration" "DHCPC: changing protocol from running to stopped" "DHCPC: changing protocol from stopped to running" "DHCPC: Auto update in progress, cannot change DHCP client state on port " "DHCPC: invalid parameter for " "DHCPC: dhcp_get_next_port() bad port number " "DHCPC: sent DHCP-REQUEST message on port \” "DHCPC: sent DHCP-RENEWING message on port ” "DHCPC: sent DHCP-REBINDING message on port " "DHCPC: sent DHCP-RELEASE message on port " "DHCPC: received packet port " "DHCPC: received bad packet port , no DHCP END OPT found" "DHCPC: received offer message on port " "DHCPC: recieved non matching 'xid' (0x%X) in offer message" "DHCPC: changing port state from INIT-SELECTING to INIT-SELECTING" "DHCPC: changing port state from INIT-SELECTING to REQUEST" "DHCPC: received DHCPCACK message on port " "DHCPC: recieved non matching 'xid'(0x%X) in DHCPCACK message" "DHCPC: changing timer-event to SEEKING_CONFIGURATION_AND_WAITING_FOR_OFFERS" "DHCPC: recieved non matching 'xid'(0x%X) in DHCPNAK message" "DHCPC: deleting existing ip address configuration on port " "DHCPC: received DHCPNAK packet on port ” “DHCPC: changing port state from REQUEST to INIT-SELECTING” 34 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 GVRP debug commands “DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: "DHCPC: 3 received DHCPCOFFER packet on port while in bound state” received DHCPCREQUEST packet on port while in bound state" received DHCPCDECLINE packet on port while in bound state" received DHCPCACK packet on port while in bound state" received DHCPCNAK packet on port while in bound state" received DHCPCRELEASE packet on port while in bound state" received DHCPCINFORM packet on port while in bound state" received DHCPCINFORM packet on port while in bound state" received unknown packet on port while in bound state" received DHCPACK packet in renewal-state on port " received non matching 'xid'(0x%X) in RENEWAL message" TFTP flash read error" changing port state from RENEWING to BOUND" received non matching 'xid'(0x%X) in DHCPNAK message" received DHCPNAK packet in renewal-state on port " changing port state from RENEWING to INIT-SELECTING" received DHCPACK packet in rebind-state on port " received non matching 'xid'(0x%X) in REBIND message" changing port state from REBINDING to BOUND" received non matching 'xid'(0x%X) in DHCPNAK message" received DHCPNAK packet in renewal-state on port " changing port state from REBIND to INIT-SELECTING" sending packet port " send completion called on port: " Freeing packet" unable to get option from dhcp message from port " received server id address opton: from port " received lease-time option: from port " received domain-name option: %s from port " received dns-server address option: from port " received default-router address option: from port " received TFTP server name option: %s from port " received TFTP server address opton: from port " received Bootfile name option: %s from port " received 'hostname' option: %s from port " received maximum message size option: from port " lease timer events called with invalid port" changing port state from BOUND to REBINDING" changing port state from BOUND to RENEWING" deleting existing ip address configuration on port " changing port state from REQUESTING to INIT-SELECTING" failed to renew ip address with dhcp server; continuing with lease period" changing port state from REBINDING to INIT_SELECTING" changing port state from REBINDING to REQUESTING" GVRP debug commands The GARP VLAN Registration Protocol (GVRP) debugging can be enabled by using the debug gvrp command. debug gvrp packets Syntax: [no] debug gvrp packets This command enables the debugging of GVRP packets. Brocade# debug gvrp packets GVRP: Packets debugging is on Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 35 3 MAC address debug commands GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: GVRP: 0x2095ced4: 01 0x2095cee4: 03 0x2095cef4: 00 0x2095cf04: 03 0x2095cf14: 09 Port 2/1 RCV 0x2095ced4: 01 0x2095cee4: 03 0x2095cef4: 04 0x2095cf04: 04 Port 2/1 TX 0x207651b8: 01 0x207651c8: 03 0x207651d8: 03 0x207651e8: 09 0x207651f8: 00 Port 2/1 TX 0x207651b8: 01 0x207651c8: 03 0x207651d8: 04 80 00 09 ec cb c2 01 04 04 04 00 01 05 01 01 00 02 00 03 0f 21 00 0b ef a1 00 04 04 04 00 80 00 01 01 c2 01 03 0f 00 01 ef a1 00 04 04 00 21 00 e0 52 ab 87 40 00 28 42 42 02 03 e9 04 01 03 eb 04 01 03 ec 01 03 f1 04 01 05 dd 04 01 09 cb 00 80 00 ec cb 09 c2 01 04 04 04 00 01 05 05 01 00 02 03 0f 00 21 00 ef a1 0b 00 04 04 04 00 e0 05 02 01 00 04 05 05 02 00 52 00 03 03 80 03 03 00 ab 02 e9 f1 2c e9 f1 02 87 04 04 04 0e 04 04 04 40 05 01 01 20 05 05 01 00 00 03 05 00 03 05 00 3a 07 eb dd 3a eb dd 07 42 04 04 04 42 04 04 04 42 05 01 01 42 05 05 01 80 c2 00 00 21 00 04 80 2c 0e 20 00 18 42 42 00 01 01 04 02 00 02 04 01 00 07 04 01 00 09 01 00 0b 00 00 MAC address debug commands debug mac Syntax: [no] debug mac This command enables the Media Access Control (MAC) address debugging action. Brocade# debug mac MAC DB: Action debugging is on Brocade# clear mac mac_action_request: done-> MA Normal, ALL_SYST, FLUSH Ports: All Ports Vlans: All Vlans stack: 20B89ED4 2028D708 2028D8A0 201AB040 20C2D58C 20C2EA48 20C2D6DC 20C2EDA4 20C2B2B8 20B8B3A8 2076C3EC 2076C448 20590734 205146FC 20592568 5010 15B4C 1AAD8 Brocade# aging_timer. call mac_action_handler() MA Normal, ALL_SYST, FLUSH Ports: All Ports Vlans: All Vlans stack: 20B89ED4 2028D708 20C6FAB0 20B894BC 20514924 20590738 205146FC 20592568 5010 15B4C 1AAD8 mac_clear_request(). NO_ACTION, SPECIFIC stack: 20B89ED4 2028CD28 2028D1F0 20C6FAB4 20B894BC 20514924 20590738 205146FC 20592568 5010 15B4C 1AAD8 36 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 MCT debug commands Multi-Chassis Trunking (MCT) provides link-level redundancy and load sharing in addition to increased capacity. If any one of the MCT cluster device fails, the data path remains operational through the other MCT cluster device without any disruption. debug cluster all Syntax: [no] debug cluster all This command enables or disables the MCT debugging information log. If the debug cluster is enabled, the output similar to the following is displayed. Brocade# debug cluster all MCT:: Enabling all debugs CLUSTER ALL debugging is now ON Brocade# rstp_txRSTP(T=25364)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25364)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25365, VLAN=20,port=1/7) port-stp-state=FORWARDING rstp_txRSTP(T=25384)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25384)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25385, VLAN=20,port=1/7) port-stp-state=FORWARDING CCP_PKT(T=25394): Receiving Packet from peer 1.1.1.2 CCP_PKT(T=25394): Packet Info:0100000c000000080003000400000056 CCP_PKT(T=25394): Receiving Packet from peer 1.1.1.2, appId=0 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=25394): Packet Info:0100000c000000080003000400000056 CCP_PKT(T=25394):Processing ccp packet CCP_PKT(T=25394): Packet Info:0003000400000056 CCP_PKT(T=25394): Handling received keep alive message CCP_PKT(T=25394): Packet Info:0003000400000056 CLUSTER CCP_FSM(T=25394): Fsm7 got keepalive from 1.1.1.2 CLUSTER CCP:free data buf allocated packet count 1 buffer 2291f5be CLUSTER CCP:internal free data buf allocated packet count 0 bufer 2291f5be CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 2291f5be CLUSTER CCP:alloc data buf allocated packet count 1 buffer 2291f5be rstp_txRSTP(T=25404)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25404)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25405, VLAN=20,port=1/7) port-stp-state=FORWARDING CLUSTER CCP_FSM(T=25413): Fsm12 1.1.1.2 sending keepalive CLUSTER CCP PEER(T=25413): Make keep alive message -> CCP_PKT(T=25413): Sending Keep Alive message to peer CCP_PKT(T=25413): Packet Info:0100000c000000080003000400000056 CLUSTER CCP_FSM(T=25413): Fsm11 KeepAlive check for peer 1.1.1.2 rstp_txRSTP(T=25424)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25424)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25425, VLAN=20,port=1/7) port-stp-state=FORWARDING rstp_txRSTP(T=25444)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 37 3 MCT debug commands rstp_txRSTP(T=25444)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25445, port-stp-state=FORWARDING rstp_txRSTP(T=25464)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25464)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25465, port-stp-state=FORWARDING rstp_txRSTP(T=25484)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25484)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25485, port-stp-state=FORWARDING rstp_txRSTP(T=25504)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25504)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25505, port-stp-state=FORWARDING rstp_txRSTP(T=25524)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25524)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25525, port-stp-state=FORWARDING rstp_txRSTP(T=25544)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25544)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25545, port-stp-state=FORWARDING rstp_txRSTP(T=25564)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25564)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25565, port-stp-state=FORWARDING rstp_txRSTP(T=25584)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25584)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25585, port-stp-state=FORWARDING rstp_txRSTP(T=25604)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25604)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25605, port-stp-state=FORWARDING rstp_txRSTP(T=25624)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25624)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25625, port-stp-state=FORWARDING rstp_txRSTP(T=25644)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25644)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25645, port-stp-state=FORWARDING rstp_txRSTP(T=25664)(vlan=20,port=1/15) Tx rstp_txRSTP(T=25664)(vlan=20,port=1/15) Tx UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25665, port-stp-state=FORWARDING rstp_txRSTP(T=25684)(vlan=20,port=1/15) Tx 38 on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior on CCEP while MCT peer is superior and VLAN=20,port=1/7) on CCEP, MCT peer is superior Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 rstp_txRSTP(T=25684)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& rstputil_mct_handle_incoming_BPDU(T=25685, VLAN=20,port=1/7) port-stp-state=FORWARDING Brocade# CCP_PKT(T=25694): Receiving Packet from peer 1.1.1.2 CCP_PKT(T=25694): Packet Info:0100000c000000080003000400000057 CCP_PKT(T=25694): Receiving Packet from peer 1.1.1.2, appId=0 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=25694): Packet Info:0100000c000000080003000400000057 CCP_PKT(T=25694):Processing ccp packet CCP_PKT(T=25694): Packet Info:0003000400000057 CCP_PKT(T=25694): Handling received keep alive message CCP_PKT(T=25694): Packet Info:0003000400000057 CLUSTER CCP_FSM(T=25694): Fsm7 got keepalive from 1.1.1.2 CLUSTER CCP:free data buf allocated packet count 1 buffer 2291f5be CLUSTER CCP:internal free data buf allocated packet count 0 bufer 2291f5be CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 2291f5be CLUSTER CCP:alloc data buf allocated packet count 1 buffer 2291f5be Brocade# rstp_txRSTP(T=25704)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25704)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& Brocade# rstputil_mct_handle_incoming_BPDU(T=25705, VLAN=20,port=1/7) port-stp-state=FORWARDING no CLUSTER CCP_FSM(T=25713): Fsm12 1.1.1.2 sending keepalive CLUSTER CCP PEER(T=25713): Make keep alive message -> CCP_PKT(T=25713): Sending Keep Alive message to peer CCP_PKT(T=25713): Packet Info:0100000c000000080003000400000057 debug crstp_txRSTP(T=25724)(vlan=20,port=1/15) Tx on CCEP, MCT peer is superior rstp_txRSTP(T=25724)(vlan=20,port=1/15) Tx on CCEP while MCT peer is superior and UP, abandom& lurstputil_mct_handle_incoming_BPDU(T=25725, VLAN=20,port=1/7) port-stp-state=FORWARDING If the debug cluster is disabled, the output similar to the following is displayed. Brocade# no debug cluster all MCT:: disabling all debugs CLUSTER ALL debugging is now OFF debug cluster config Syntax: [no] debug cluster config This command enables debugging for any addition or deletion of the clusters, addition or deletion of the clients, or exchange of cluster finite state machine (FSM) messages between the peer and the client isolation mode. If the debug cluster configuration is enabled, the output similar to the following is displayed. Brocade# debug cluster config CLUSTER Config debugging is now ON Brocade# config terminal Brocade# cluster ABC 1 Brocade(config-cluster-ABC)# rbridge-id 200 Brocade(config-cluster-ABC)# session-vlan 100 Brocade(config-cluster-ABC)# icl icl1 ethernet 4/3 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 39 3 MCT debug commands Brocade(config-cluster-ABC)# peer 10.10.10.1 rbridge-id 100 icl icl1 Brocade(config-cluster-ABC)# deploy ============= cluster create =============== CLUSTER CCP:ccp_internal_create_cluster::Cluster 1 Configured. Brocade(config-cluster-ABC)# client c1uster Brocade(config-cluster-ABC-client-c1)# rbridge-id 300 Brocade(config-cluster-ABC-client-c1)# client-interface ethernet 4/13 =========== Client add ====================== clustercu_add_client_interface(cluseter=1,client_name=c1,client_port=4/13) clustermgr_add_cluster_client_port(cluseter=1,client_name=c1,client_port=4/13,add ) Brocade(config-cluster-ABC-client-c1)# deploy ===================== FSM Message ==================== clustermgr_send_loading_info_to_peer(cluster=1)(T=121842) >>>> clustermgr_send_vlanmask_to_peer && clustermgr_send_intf_mac_to_peer clustermgr_send_loading_info_to_peer(cluster=1)(T=121842) >>>> DONE ================ Client isolation mode config ============== Brocade(config-cluster-ABC)# client-isolation strict clustermgr_client_isolation_mode(cluster_id=1,mode=1) If the debug cluster configuration is disabled, the output similar to the following is displayed. Brocade# no debug cluster config CLUSTER Config debugging is now OFF? debug cluster ccp Syntax: [no] debug cluster ccp This command enables debugging of all the CCP FSM messages, CCP client registrations, CCP packet exchanges from clients, Keepalive messages and notifications, data buffer usage, and specific peer-related message exchanges. Brocade# debug cluster ccp CLUSTER CCP debugging is on for all ============= Packet Receive ======================= SX_4#CCP_PKT(T=104981): Receiving Packet from peer 10.10.10.2 CCP_PKT(T=104981): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=104981): Receiving Packet from peer 10.10.10.2, appId=4 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=104981): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=104981): Passing packet to app 4 (cluster=1,mac=2,stp=4) CCP_PKT(T=104981): Packet Info:000400180009001400010065012c0300000000008000002438221b1a ================= Packet passed to specific client ====================== ccp_pass_pkt_to_client()(T=104981): cluster id 1, peer ip=168430082, STP msg CLUSTER CCP: free data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:internal free data buf allocated packet count 0 bufer 21a215e8 CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:alloc data buf allocated packet count 1 buffer 21a215e8 CCP_PKT(T=105001): Receiving Packet from peer 10.10.10.2 CCP_PKT(T=105001): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 40 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 CCP_PKT(T=105001): Receiving Packet from peer 10.10.10.2, appId=4 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=105001): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=105001): Passing packet to app 4 (cluster=1,mac=2,stp=4) CCP_PKT(T=105001): Packet Info:000400180009001400010065012c0300000000008000002438221b1a ccp_pass_pkt_to_client()(T=105001): cluster id 1, peer ip=168430082, STP msg CLUSTER CCP: free data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:internal free data buf allocated packet count 0 bufer 21a215e8 CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:alloc data buf allocated packet count 1 buffer 21a215e8 CCP_PKT(T=105021): Receiving Packet from peer 10.10.10.2 CCP_PKT(T=105021): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=105021): Receiving Packet from peer 10.10.10.2, appId=4 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=105021): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=105021): Passing packet to app 4 (cluster=1,mac=2,stp=4) CCP_PKT(T=105021): Packet Info:000400180009001400010065012c0300000000008000002438221b1a ccp_pass_pkt_to_client()(T=105021): cluster id 1, peer ip=168430082, STP msg CLUSTER CCP: free data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:internal free data buf allocated packet count 0 bufer 21a215e8 CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:alloc data buf allocated packet count 1 buffer 21a215e8 CCP_PKT(T=105041): Receiving Packet from peer 10.10.10.2 CCP_PKT(T=105041): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=105041): Receiving Packet from peer 10.10.10.2, appId=4 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=105041): Packet Info:0100001c000400180009001400010065012c0300000000008000002438 CCP_PKT(T=105041): Passing packet to app 4 (cluster=1,mac=2,stp=4) CCP_PKT(T=105041): Packet Info:000400180009001400010065012c0300000000008000002438221b1a ccp_pass_pkt_to_client()(T=105041): cluster id 1, peer ip=168430082, STP msg CLUSTER CCP: free data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:internal free data buf allocated packet count 0 bufer 21a215e8 CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:alloc data buf allocated packet count 1 buffer 21a215e8 SX_4#CCP_PKT(T=105059): Receiving Packet from peer 10.10.10.2 CCP_PKT(T=105059): Packet Info:0100000c00000008000300040000015f CCP_PKT(T=105059): Receiving Packet from peer 10.10.10.2, appId=0 (CCP_APPLICATION_CCP=0;CCP_APPLICATION_CLUSTER_MGR=1) CCP_PKT(T=105059): Packet Info:0100000c00000008000300040000015f CCP_PKT(T=105059):Processing ccp packet CCP_PKT(T=105059): Packet Info:000300040000015f CCP_PKT(T=105059): Not handling keepalive as keepalive_timeout is set. CCP_PKT(T=105059): Packet Info:000300040000015f ================= Data buffer usage ============================ CLUSTER CCP:free data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:internal free data buf allocated packet count 0 bufer 21a215e8 ================= Error notifications ============== CLUSTER CCP PEER(T=105059): Sending Error Notification 49 CCP_PKT(T=105059): Sending Notify message to peer CCP_PKT(T=105059): Packet Info:01000016000000120001000e0000015f00000031000000000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 41 3 MCT debug commands CLUSTER CCP:internal alloc data buf allocated packet count 1 buffer 21a215e8 CLUSTER CCP:alloc data buf allocated packet count 1 buffer 21a215e8 =============== CCP State machine ============== CLUSTER CCP_FSM(T=105060): Fsm12 10.10.10.2 sending keepalive CLUSTER CCP PEER(T=105060): Make keep alive message -> =================== Send Keepalive ======================= CCP_PKT(T=105060): Sending Keep Alive message to peer CCP_PKT(T=105060): Packet Info:0100000c000000080003000400000160 If the debug cluster ccp command is disabled, the output similar to the following is displayed. Brocade# no debug cluster ccp CCP debugging is off for all debug cluster fsm client Syntax: [no] debug cluster fsm client This command enables debugging of the MCT cluster FSM for a particular client. Any events that occur in the client such as CCEP Up/Down, remote CCEP Up/Down, or CCP Up/Down, are tracked. The variable refers to the port number of the client. Brocade# debug cluster fsm client 300 CLUSTER fsm debugging is now ON for client rbridge 300 =================== Local CCEP Down =================== Brocade(config-if-e1000-4/13)# disable CLUSTER FSM: cluster id 1, client id 300, old state: Up, event: Local Down CLUSTER FSM: new state: Remote Up, master: FALSE Brocade(config-if-e1000-4/13)# CLUSTER FSM: Received CCRR message from peer when CCP is up Brocade(config-if-e1000-4/13)# enable =================== Local CCEP UP =================== Brocade(config-if-e1000-4/13)# CLUSTER FSM: cluster id 1, client id 300, old state: Remote Up, event: Local Up CLUSTER FSM: new state: Preforwarding Remote Up, master: FALSE =================== Remote CCEP Down =================== CLUSTER FSM: Received CCRR message from peer when CCP is up CLUSTER FSM: cluster id 1, client id 300, old state: Preforwarding Remote Up, event: CCRR Ack Rcvd CLUSTER FSM: new state: Up, master: FALSE CLUSTER FSM: Received CCRR message from peer when CCP is up CLUSTER FSM: cluster id 1, client id 300, old state: Up, event: Remote Down CLUSTER FSM: Cluster ABC (Id: 1), client c1 (RBridge Id: 300) - Remote client CCEP down CLUSTER FSM: new state: Local Up, master: FALSE =================== Remote CCEP UP =================== CLUSTER FSM: Received CCRR message from peer when CCP is up CLUSTER FSM: cluster id 1, client id 300, old state: Local Up, event: Remote Up CLUSTER FSM: Cluster ABC (Id: 1), client c1 (RBridge Id: 300) - Remote client CCEP up CLUSTER FSM: new state: Up, master: FALSE ===================== CCP Down ============================ CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: CCP Down, event: CCP Down CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: CCP Down, event: CCP Down 42 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: CCP Down, event: CCP Down CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: CCP Down, event: CCP Down ======================== CCP getting established ========================== CLUSTER FSM: new state: Loading CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: Loading, event: CCP Up CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: Loading, event: CCP Up CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: Loading, event: CCP Up CLUSTER FSM: Received Loading-Done message from peer CLUSTER FSM: cluster id 1, peer rbridge id 100, old state: Loading, event: Loading Done CLUSTER FSM: getting EVENT_ID_MCT_CCP_UP event CLUSTER FSM(T=121842)main: cluster id 1, client id 300, old state: Init, event: CCP Up CLUSTER FSM(T=121842)main: new state: Local Deploy, master: FALSE CLUSTER FSM: new state: CCP Up CLUSTER FSM: Received CCRR message from peer when CCP is up CLUSTER FSM: cluster id 1, client id 300, old state: Local Deploy, event: Remote Deploy CLUSTER FSM: Cluster ABC (Id: 1), client c1 (RBridge Id: 300) - Remote client deployed CLUSTER FSM: new state: Admin Up, master: FALSE CLUSTER FSM: Received CCRR message from peer when CCP is up If the debug cluster fsm client command is disabled, the output similar to the following is displayed. Brocade# no debug cluster fsm client 300 CLUSTER fsm debugging is now OFF for client rbridge 300 debug cluster stp Syntax: [no] debug cluster stp This command enables debugging of STP and RSTP modules. The output details how the STP registers the ICL or CCEP ports. Changes occur while supporting MCT on STP, such as ICL guard, CCEP state sync, STP and CCP messages, and topology change messages are tracked. Brocade# debug cluster stp CLUSTER STP debugging is now ON Brocade(config-vlan-101)# spanning-tree 802-1w STP -> INIT STP for bridge, vlan 101. Port mask 194 201 204 1168 1170 1173 to 1174 2000 2147 to 2149 2154 2157 2185 2187 to 2188 2192 to 2193 2195 to 2196 2201 2205 2368 to 2369 2371 to 2372 2377 2381 2387 to 2389 2394 2397 2425 2427 to 2428 Startup:: In initialize_bridge_spanning_tree::MCT enabled on this VLAN 101 Startup:: In initialize_bridge_spanning_tree:: MCT enabled Clearing ICL port Searching for ICL and CCEP for this VLAN/STP stputil_discover_mct:: ICL port is 4/3 Initialize Port 4/3. vlan 101 initialize_port(T=173641): icl-port guard timer cleared on port 4/3, VLAN 101 initialize_port:: Set ICL to FORWARDING. Vlan 101 port 4/3 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 43 3 MCT debug commands Searching for ICL and CCEP for this VLAN/STP Initialize Port 4/10. vlan 101 initialize_port(T=173641): icl-port guard timer cleared on port 4/10, VLAN 101 initialize_port:: Port is neither ICL/ CCEP of Root Bridge. Set to BLOCKING. Vlan 101 port 4/10 Searching for ICL and CCEP for this VLAN/STP stputil_discover_mct::This is CCEP port 4/13 Initialize Port 4/13. vlan 101 initialize_port(T=173641): icl-port guard timer cleared on port 4/13, VLAN 101 initialize_port:: Set CCEP or root bridge to FORWARDING. Vlan 101 port 4/13 stputil_mct_send_ccep_state_to_peer(T=173641,vlan=101,port=204,state=FORWARDING) stputil_mct_send_ccep_state_to_peer(T=173641,vlan=101,port=204,state=FORWARDING) primary_port 4/13 --> stputil_mct_send_ccep_state_to_peer(T=173641,vlan=101,port=204,state=FORWARDING) primary_port 4/13 done rstp_setup_this_bridge_values:: mct_enable = TRUE rstputil_mct_enable_port.vlan 101 port 4/3 rstputil_mct_enable_port:: port is trunk rstputil_mct_enable_port. Per VLAN STP. VLAN 101 Port 4/3 mct_icl_port = TRUE rstp_enable_port:: VLAN 101 port 4/3. skip_Initialize_RSTP_state_machines = 0. rstp_enable_port:: PIM state 0. PRT state 0. PTX state 0. TCM state 0. PPM state 0. PST state 0 rstp_enable_port::rstp_role 0 rstp_selectedRole 0 state 5 rstp_infols 0 rstp_initialize_port(T=173641) VLAN101, port 4/3. Port is trunk. primary = 4/3 active stp port = 4/3 rstp_RoleSelection_State_Machine. set_flag 1 for vlan 101 New root:: vlan 101 INVALID rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID Vlan 101 port 4/3. rstp_selectedRole = RSTP_DESIGNATED_PORT as rstp_infols == RSTP_PORT_INFO_STATE_AGED. rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_port_Role_Transition_State_Machine:: port 4/3 vlan 101 role = 0 selected role = 3. old PRT state 529 new state 529. Designated_Port_transitions. rstp_enable_forwarding(T=173641) VLAN101, port 4/3 44 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 rstp_Port_State_Transition_State_Machine_Action: VLAN 101 Port 4/3. ICL port set to FWD. rstputil_mct_enable_port.vlan 101 port 4/10 rstp_enable_port:: VLAN 101 port 4/10. skip_Initialize_RSTP_state_machines = 0. rstp_enable_port:: PIM state 0. PRT state 0. PTX state 0. TCM state 0. PPM state 0. PST state 0 rstp_enable_port::rstp_role 0 rstp_selectedRole 0 state 2 rstp_infols 0 rstp_initialize_port(T=173641) VLAN101, port 4/10. Port is not trunk. rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE Vlan 101 port 4/10. rstp_selectedRole = RSTP_DESIGNATED_PORT as rstp_infols == RSTP_PORT_INFO_STATE_AGED. rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_compute_port_role_infols_Mine:: vlan 101 port 4/10 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_port_Role_Transition_State_Machine:: port 4/10 vlan 101 role = 0 selected role = 3. old PRT state 529 new state 529. Designated_Port_transitions. rstp_disable_learning(T=173641) VLAN101, port 4/10 BLOCKING rstp_Port_State_Transition_State_Machine_Action: VLAN 101 Port 4/10 set to BLOCKING. rstp_disable_forwarding(T=173641) VLAN101, port 4/10 BLOCKING rstputil_mct_enable_port.vlan 101 port 4/13 rstputil_mct_enable_port:: port is trunk rstputil_mct_enable_port. Per VLAN STP. VLAN 101 Port 4/13 CCEP = TRUE rstputil_mct_enable_port.rstputil_mct_send_rstp_state_reset_to_peer. VLAN 101 Port 4/13 CCEP = TRUE rstputil_mct_send_stp_state_RESET_to_peer(vlan=173641,port=101) primary_port 4/13 --> rstputil_mct_send_stp_state_RESET_to_peer(T=173641,vlan=101,port=204) primary_port 4/13 done rstp_enable_port:: VLAN 101 port 4/13. skip_Initialize_RSTP_state_machines = 0. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 45 3 MCT debug commands rstp_enable_port:: PIM state 0. PRT state 0. PTX state 0. TCM state 0. PPM state 0. PST state 0 rstp_enable_port::rstp_role 0 rstp_selectedRole 0 state 5 rstp_infols 0 rstp_initialize_port(T=173641) VLAN101, port 4/13. Port is trunk. primary = 4/13 active stp port = 4/13 rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_compute_port_role_infols_Mine:: vlan 101 port 4/10 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_compute_port_role_infols_Mine:: vlan 101 port 4/10 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE Vlan 101 port 4/13. rstp_selectedRole = RSTP_DESIGNATED_PORT as rstp_infols == RSTP_PORT_INFO_STATE_AGED. rstp_RoleSelection_State_Machine. set_flag 2 for vlan 101 New root:: vlan 101 INVALID rstp_compute_port_role_infols_Mine:: vlan 101 port 4/3 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_compute_port_role_infols_Mine:: vlan 101 port 4/10 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_compute_port_role_infols_Mine:: vlan 101 port 4/13 rstp_selectedRole = RSTP_DESIGNATED_PORT.rstp_updtInfo = FALSE rstp_port_Role_Transition_State_Machine:: port 4/13 vlan 101 role = 0 selected role = 3. old PRT state 529 new state 529. Designated_Port_transitions. rstputil_mct_handle_port_role_transition:: old state = 529, new = 3 (RSTP_DESIGNATED_PORT/RSTP_ROOT_PORT). Send ccep_state_to_peer. VLAN 101 port 4/13 rstputil_mct_send_ccep_state_to_peer(T=173641,vlan=101,port=4/13,role=3) primary_port 4/13 --> rstputil_mct_send_ccep_state_to_peer(T=173641,vlan=101,port=4/13,role=3) primary_port 4/13 done rstp_disable_learning(T=173641) VLAN101, port 4/13 BLOCKING rstp_Port_State_Transition_State_Machine_Action: VLAN 101 Port 4/13 set to BLOCKING. rstp_disable_forwarding(T=173641) VLAN101, port 4/13 BLOCKING rstp_txRSTP(T=173641)(vlan=101,port=4/13) Tx on CCEP, MCT peer is inferior -> Tx BPDU -> Brocade(config-vlan-101)# rstputil_mct_handle_incoming_BPDU(T=173641, VLAN=101,port=4/10) port-stp-state=DISCARDING 46 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 rstputil_mct_handle_incoming_BPDU(T=173641, VLAN=101,port=4/10) port-stp-state=DISCARDING MCT show commands This section describes the show commands that display the MCT information. show cluster Syntax: show cluster This command displays the complete cluster state information of the ICL peer and client, as shown in the following example. Brocade# show cluster Cluster abc 1 ============= Rbridge Id: 20, Session Vlan: 3999, Keep-Alive Vlan: 4001 Cluster State: Deploy Client Isolation Mode: Loose Configured Member Vlan Range: 100 to 104 200 to 204 300 Active Member Vlan Range: 100 to 104 200 to 204 300 ICL Info: --------Name Port icl1 3/1 Trunk 129 Peer Info: ---------Peer IP: 1.1.1.1, Peer Rbridge Id: 100, ICL: icl1 KeepAlive Interval: 30 , Hold Time: 90, Fast Failover Active Vlan Range: 100 to 104 200 to 204 300 to 310 Peer State: CCP Up (Up Time: 1 days: 3 hr:57 min:33 sec) Client Info: -----------Name Rbridge-id Config LACP Port c1 300 Deployed no c2 301 Deployed no Trunk FSM-State 3/3 131 Up 3/13 Up show cluster ccp client all Syntax: show cluster | ccp client • —Specifies the cluster name. • —Specifies the cluster port number. • —Specifies the client port ID. This command displays the registered CCP clients such as cluster manager, MDUP, or STP. The following output is displayed when the show cluster command is configured with the cluster ID. Brocade# show cluster 3000 ccp client Client Node Info: ----------------Name: cluster_mgr ID: 1 Cluster ID: 3000 Peer Node Info: Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Number of Peers: 1 47 3 MCT debug commands Peer IP: 1.1.1.2 Registered Events: All Events Client Node Info: ----------------Name: mdup ID: 2 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: PACKET_RECEIVED Client Node Info: ----------------Name: stp ID: 4 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events Client Node Info: ----------------Name: mcast ID: 8 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events Client Node Info: ----------------Name: vrrp ID: 16 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events The following output is displayed when the show cluster command is configured with the cluster name. Brocade# show cluster SX ccp client Client Node Info: ----------------Name: cluster_mgr ID: 1 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: 1.1.1.2 Registered Events: All Events Client Node Info: ----------------Name: mdup ID: 2 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: PACKET_RECEIVED Client Node Info: ----------------Name: stp ID: 4 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events Client Node Info: ----------------Name: mcast ID: 8 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events Client Node Info: ----------------Name: vrrp ID: 16 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: All Peers Registered Events: All Events 48 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 The following output is displayed when the show cluster command is configured with the cluster name and the CCP client ID. Brocade# show cluster SX ccp client 1 Client Node Info: ----------------Name: cluster_mgr ID: 1 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: 1.1.1.2 Registered Events: All Events The following output is displayed when the show cluster command is configured with the cluster ID and the CCP client ID. Brocade# show cluster 3000 ccp client 1 Client Node Info: ----------------Name: cluster_mgr ID: 1 Cluster ID: 3000 Number of Peers: 1 Peer Node Info: Peer IP: 1.1.1.2 Registered Events: All Events show cluster Syntax: show cluster | client • —Specifies the cluster name. • —Specifies the cluster port ID. This command displays all the clients that are configured in a cluster. The following output is displayed when the show cluster command is configured with the cluster ID. Brocade# show cluster 3000 client Client Info: -----------Number of Clients Configured: 1 Name Rbridge-id Config R1 100 Deployed LACP no Port 1/15 Trunk FSM-State Preforwarding Remote The following output is displayed when the show cluster command is configured with the cluster name. Brocade# show cluster SX client Client Info: -----------Number of Clients Configured: 1 Name Rbridge-id Config R1 100 Deployed LACP no Port 1/15 Trunk FSM-State Preforwarding Remote show cluster client Syntax: show cluster | client | • • • • —Specifies the cluster name. —Specifies the cluster port ID. —Specifies the client name. —Specifies the client Rbridge ID. This command displays the details of a particular client and its corresponding cluster information. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 49 3 MCT debug commands Brocade# show cluster 1 client c1 Cluster abc 1 ============= Rbridge Id: 101, Session Vlan: 3999, Keep-Alive Vlan: 4001 Cluster State: Deploy Client Isolation Mode: Loose Configured Member Vlan Range: 100 to 105 Active Member Vlan Range: 100 to 105 MCT Peer's Reachability status using Keep-Alive Vlan: Peer Reacheable Client Info: -----------Client: c1, rbridge-id: 300, Deployed Client Port: 3/3 State: Up Number of times Local CCEP down: 1 Number of times Remote CCEP down: 0 Number of times Remote Client undeployed: 0 Total CCRR packets sent: 11 Total CCRR packets received: 12 show cluster config Syntax: show cluster config This command displays only the cluster configuration information. Brocade# show cluster config cluster abc 1 rbridge-id 20 session-vlan 3999 keep-alive-vlan 4001 icl icl1 ethernet 3/1 peer 1.1.1.1 rbridge-id 100 icl icl1 deploy client c1 rbridge-id 300 client-interface ethernet 3/3 deploy client c2 rbridge-id 301 client-interface ethernet 3/13 deploy show cluster ccp peer Syntax: show cluster ccp peer This command displays the cluster peer-state configuration information. Brocade# show cluster ccp peer Cluster Name : abc Cluster ID: 1 PEER IP ADDRESS STATE --------------------------1.1.1.1 OPERATIONAL 50 UP TIME -------------1 days: 4 hr: 0 min:42 sec Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 MCT debug commands 3 show cluster ccp peer detail Syntax: show cluster ccp peer detail This command displays the cluster peer session and the TCP connection configuration information. Brocade# show cluster ccp peer detail **************Peer Session Details********************* IP address of the peer 1.1.1.1 Rbridge ID of the peer 100 Session state of the peer OPERATIONAL Next message ID to be send 3369 Keep Alive interval in seconds 30 Hold Time Out in seconds 90 Fast Failover is enable for the session UP Time 1 days: 4 hr: 3 min:55 sec Number of tcp packet allocations failed 0 Message Init Keepalive Notify Application Badmessages Send 9 3932 0 102 0 Receive 9 3932 0 100 0 TCP connection is up TCP connection is initiated by 1.1.1.2 TCP connection tcbHandle not pending TCP connection packets received **************TCP Connection Details********************* TCP Connection state: ESTABLISHED Maximum segment size: 1436 Local host: 1.1.1.2, Local Port: 12071 Remote host: 1.1.1.1, Remote Port: 4175 ISentSeq: 160671712 SendNext: 160726330 TotUnAck: 0 TotSent: 54618 ReTrans: 1 UnAckSeq: 160726330 IRcvSeq: 751804 RcvNext: 806410 SendWnd: 16384 TotalRcv: 54606 DupliRcv: 0 RcvWnd: 16384 SendQue: 0 RcvQue: 0 CngstWnd: 1436 show mac cluster Syntax: show mac cluster This command displays the MAC information of the particular cluster. Brocade# show mac cluster MCT2 Total Cluster Enabled(CL+CR+CCL+CCR) MACs: 4 Total Cluster Local(CL) MACs: 1 Total Cluster Client Macs(CCL+CCR) for all clients: 3 Total Cluster Client Local(CCL) MACs for all clients: 3 CCL: Cluster Client Local CCR:Cluster Client Remote CL:Local CR:Remote Total active entries from all ports = 15 MAC-Address Port Type Index MCT-Type VLAN 0001.0000.0014 17/8 Dynamic 53172 CL 4081 748e.f882.1d89 11/17-11/17 Dynamic 24337 CCL 3359 0012.f2a8.9c8f 1/15-1/15 Dynamic 5709 CCL 3203 748e.f882.1d89 11/17-11/17 Dynamic 7199 CCL 3360 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 51 3 Packet-capture debug commands Packet-capture debug commands The following debug packet-capture command helps to debug packet flows and capture packets designated for the management module for debugging. This command has additional filter and mode option parameters for refining the traffic sources and the format of the saved data. debug packet-capture Syntax: [no] debug packet-capture [ all | count-reset | count-show | exclude-mgmt-port | filter | max | mode | no-limit | no-mgmt-port | receive | send ] • • • • • • • • • • • all—Displays the debugging information of the packets transmitted and received. count-reset—Clears the total packet count of the packets captured. count-show —Displays the total packet count of the packets captured for debugging. exclude-mgmt-port—Enables debugging of the packets that are excluded for the management port. filter—Enables the raw packet filter for debugging. max—Displays the maximum number of packets. mode—Displays the various packet modes. no-limit—Displays the debugging information of an unlimited number of packets. no-mgmt-port—Toggles the display of packets from the management port. receive—Debugs only the packets that are received. send—Debugs only the packets that are transmitted. The debug packet-capture command displays information about packet-capture activity. debug packet-capture filter Syntax: [no] debug packet-capture filter • —Specifies the filter number. The decimal value ranges from 1 through 20. 52 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 • —Specifies the filter option. The following are the various options in filter. - all—Matches all packet - arp—Matches an ARP request or response - broadcast-mac—Matches the destination broadcast MAC address (FFFF.FFFF.FFFF) - cdp—Matches with the CDP - clear—Clears the filter entry - clear-counter—Clears the counter - cpu-code—Matches the CPU code - da—Matches the destination MAC address - dhcp—Matches with the DHCP - dot1x—Matches the dot1x protocol - dpa—Matches the destination IP address - dport—Matches the destination protocol port - ether-type—Matches the Ethernet type packets - fdp—Matches wit h the FDP - in-port—Matches the input port - l2-802.1w—Matches the 802.1w BPDU - l2-lacp—Matches the LACP PDU - udld—Matches the UDLD protocol l2-mstp—Matches the MSTP BPDU l2-stp—Matches the spanning tree BPDU l3-bgp—Matches with the BGP l3-ospf—Matches the OSPF protocol l3-vrrp—Matches the VRRP l3-vrrpe—Matches the VRRP-E lldp—Matches the LLDP mrp—Matches the MRP out-port—Matches the output port priority—Matches the priority protocol—Matches the IP pvst—Matches the PVST protocol sa—Matches the source MAC address snmp—Matches the SNMP spa—Matches the source IP address sport—Matches the source protocol port vlan-id—Matches the VLAN ID vsrp—Matches the VSRP This command enables the filter option for the raw packets. There are 32 filter options that can be configured within a single filter. The filter index limit ranges from 1 through 20. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 53 3 Packet-capture debug commands Brocade# debug packet-capture filter 2 protocol debug packet-capture mode Syntax: [no] debug packet-capture mode [brief | no-display | normal | pcap-fmt [default | ]] • brief—Specifies the increment counters and displays the packet summary. • no-display—Specifies the increment counters alone. • normal—Specifies the increment counters and displays the packet header and the first 48 raw bytes. • pcap-fmt—Specifies the increment counters and dumps the packet in pcap (packet capture) hexadecimal format. • default—Specifies the normal mode. • —Specifies the first 48 bytes of the packets received. This command displays the format of the packets to be captured for debugging information. Brocade# debug packet-capture mode debug packet-capture filter show Syntax: debug packet-capture filter show [ all | ] none This command displays the filter information for the particular filter index. The variable refers to the number of the packet captured for filter. Execute the following command to display the complete filter information. Brocade# debug packet-capture filter show all Filter 1: Match STP Filter 2: Match 802.1W Execute the following command to display filter information for a particular filter number. Brocade# debug packet-capture filter show 2 Filter 2: Match 802.1W Execute the following command to remove all the filters that are configured. Brocade# debug packet-capture filter none Packet-capture show commands The current implementation of the show tech commands is enhanced to support the following options. Also, currently the page mode option is not supported. • • • • • 54 acl cpu l2 l3-IPv4-uc l3-IPv6-uc Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands • • • • 3 memory multicast packet loss stacking show tech-support Syntax: show tech-support This command displays the show tech support information. Brocade# show tech-support Current configuration: ! ver 07.4.00b1T7f3 ! stack unit 1 module 1 fcx-48-poe-port-management-module module 2 fcx-cx4-2-port-16g-module ! ! enable snmp config-tacacs hostname FxRouter ip route 0.0.0.0 0.0.0.0 172.26.64.1 ! logging console username brocade password ..... tacacs-server host 172.26.50.95 auth-port 49 default key 1 $d= tacacs-server host 172.26.50.94 auth-port 49 default key 1 $bn^^s tacacs-server host 172.26.50.93 auth-port 49 default key 1 $r=?!\! tacacs-server host ipv6 :: auth-port 49 default key 1 $!66i tacacs-server key 1 $!66i snmp-server community ..... ro snmp-server community ..... rw snmp-server community ..... rw interface management 1 ip address 172.26.67.52 255.255.240.0 ! ! ! end Copyright (c) 1996-2011 Brocade Communications Systems, Inc. UNIT 1: compiled on Dec 20 2011 at 08:58:01 labeled as FCXR07400b1 (7155950 bytes) from Secondary FCXR07400b1.bin SW: Version 07.4.00b1T7f3 Boot-Monitor Image size = 369369, Version:07.3.00T7f5 (grz07300b1) HW: Stackable FCX648S-HPOE-PREM (PROM-TYPE FCX-ADV-U) ========================================================================== UNIT 1: SL 1: FCX-48GS POE 48-port Management Module Serial #: BCY2243F04T License: FCX_ADV_ROUTER_SOFT_PACKAGE (LID: deaHHJIhFJv) P-ENGINE 0: type DB90, rev 01 P-ENGINE 1: type DB90, rev 01 PROM-TYPE: FCX-ADV-U ========================================================================== Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 55 3 Packet-capture debug commands UNIT 1: SL 2: FCX-2XGC 2-port 16G Module (2-CX4) ========================================================================== 800 MHz Power PC processor 8544E (version 0021/0022) 400 MHz bus 65536 KB flash memory 256 MB DRAM Monitor Option is on STACKID 1 system uptime is 31 minutes 41 seconds The system : started=warm start reloaded=by "reload" *** NOT FOR PRODUCTION *** Port 1/1/1 1/1/2 1/1/3 1/1/4 1/1/5 1/1/6 1/1/7 1/1/8 1/1/9 1/1/10 1/1/11 1/1/12 1/1/13 1/1/14 1/1/15 1/1/16 1/1/17 1/1/18 1/2/1 1/2/2 mgmt1 Link Down Down Down Down Up Down Down Down Up Down Down Down Down Down Down Down Down Down Down Down Up State None None None None Forward None None None Forward None None None None None None None None None None None None Dupl None None None None Full None None None Full None None None None None None None None None None None Full Port 1/1/1 Link Down State None Dupl Speed Trunk Tag Pvid Pri MAC Name None None None No 1 0 0024.38c9.5680 Port 1/1/1 Counters: InOctets InPkts InBroadcastPkts InMulticastPkts InUnicastPkts InBadPkts InFragments InDiscards CRC InErrors InGiantPkts InShortPkts InJabber InFlowCtrlPkts InBitsPerSec InPktsPerSec InUtilization Port 1/1/2 Link Down State None Port 1/1/2 Counters: InOctets 56 Speed None None None None 1G None None None 1G None None None None None None None None None None None 1G Trunk None None None None None None None None None None None None None None None None None None None None None 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.00% Tag No No No No No No No No No No No No No No No No No No No No No Pvid 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 None Pri 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 MAC Name 0024.38c9.5680 0024.38c9.5681 0024.38c9.5682 0024.38c9.5683 0024.38c9.5684 0024.38c9.5685 0024.38c9.5686 0024.38c9.5687 0024.38c9.5688 0024.38c9.5689 0024.38c9.568a 0024.38c9.568b 0024.38c9.568c 0024.38c9.568d 0024.38c9.568e 0024.38c9.568f 0024.38c9.5690 0024.38c9.5691 0024.38c9.56b1 0024.38c9.56b2 0024.38c9.5680 OutOctets OutPkts OutBroadcastPkts OutMulticastPkts OutUnicastPkts 0 0 0 0 0 OutErrors Collisions LateCollisions 0 0 0 OutFlowCtrlPkts OutBitsPerSec OutPktsPerSec OutUtilization 0 0 0 0.00% Dupl Speed Trunk Tag Pvid Pri MAC Name None None None No 1 0 0024.38c9.5681 0 OutOctets 0 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands InPkts InBroadcastPkts InMulticastPkts InUnicastPkts InBadPkts InFragments InDiscards CRC InErrors InGiantPkts InShortPkts InJabber InFlowCtrlPkts InBitsPerSec InPktsPerSec InUtilization Port 1/1/3 Link Down State None 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.00% Link Down State None OutPkts OutBroadcastPkts OutMulticastPkts OutUnicastPkts 0 0 0 0 OutErrors Collisions LateCollisions 0 0 0 OutFlowCtrlPkts OutBitsPerSec OutPktsPerSec OutUtilization 0 0 0 0.00% Dupl Speed Trunk Tag Pvid Pri MAC Name None None None No 1 0 0024.38c9.5682 Port 1/1/3 Counters: InOctets InPkts InBroadcastPkts InMulticastPkts InUnicastPkts InBadPkts InFragments InDiscards CRC InErrors InGiantPkts InShortPkts InJabber InFlowCtrlPkts InBitsPerSec InPktsPerSec InUtilization Port 1/1/4 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.00% OutOctets OutPkts OutBroadcastPkts OutMulticastPkts OutUnicastPkts 0 0 0 0 0 OutErrors Collisions LateCollisions 0 0 0 OutFlowCtrlPkts OutBitsPerSec OutPktsPerSec OutUtilization 0 0 0 0.00% Dupl Speed Trunk Tag Pvid Pri MAC Name None None None No 1 0 0024.38c9.5683 Port mgmt1 Counters: InOctets InPkts InBroadcastPkts InMulticastPkts InUnicastPkts InBadPkts InFragments InDiscards CRC InErrors InGiantPkts InShortPkts InJabber InFlowCtrlPkts InBitsPerSec InPktsPerSec InUtilization Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 1774915 7658 4990 2649 19 0 0 0 0 0 0 0 0 0 7160 3 0.00% OutOctets OutPkts OutBroadcastPkts OutMulticastPkts OutUnicastPkts 192 3 3 0 0 OutErrors Collisions LateCollisions 0 0 0 OutFlowCtrlPkts OutBitsPerSec OutPktsPerSec OutUtilization 0 0 0 0.00% 57 3 Packet-capture debug commands Syslog logging: enabled (0 messages dropped, 0 flushes, 0 overruns) Buffer logging: level ACDMEINW, 15 messages logged level code: A=alert C=critical D=debugging M=emergency E=error I=informational N=notification W=warning Static Log Buffer: 0d00h00m11s:I:System: Stack unit 1 POE capacity is up Power supply 1 with 410000 mwatts Dynamic Log Buffer (50 lines): 0d00h31m23s:W:System:Stack unit 1 Fan speed changed automatically to 2 0d00h28m33s:W:System:Stack unit 1 Fan speed changed automatically to 1 0d00h22m33s:W:System:Stack unit 1 Fan speed changed automatically to 2 0d00h19m33s:W:System:Stack unit 1 Fan speed changed automatically to 1 0d00h13m23s:W:System:Stack unit 1 Fan speed changed automatically to 2 0d00h10m38s:W:System:Stack unit 1 Fan speed changed automatically to 1 0d00h04m38s:W:System:Stack unit 1 Fan speed changed automatically to 2 0d00h01m30s:D:DHCPC: Stopped DHCP Client service 0d00h00m09s:I:System: Interface ethernet 1/1/9, state up 0d00h00m09s:I:System: Interface ethernet 1/1/5, state up 0d00h00m08s:I:System: Interface ethernet mgmt1, state up 0d00h00m05s:D:DHCPC: starting dhcp client service on 51 port(s) 0d00h00m05s:D:DHCPC: Found static IP address 172.26.67.52 subnet mask 255.255.240.0 on port mgmt1 0d00h00m05s:I:System: Warm start 0d00h00m00s:W:System:Stack unit 1 Fan speed changed automatically to 1 real_transition-transit-sw_reset-discards: 0-0-0-0(1/1/1) 0-0-0-0(1/1/2) 0-0-0-0(1/1/3) 0-0-0-0(1/1/4) 1-0-0-0(1/1/5) 0-0-0-0(1/1/6) 0-0-0-0(1/1/7) 0-0-0-0(1/1/8) 1-0-0-0(1/1/9) 0-0-0-0(1/1/10) 0-0-0-0(1/1/11) 0-0-0-0(1/1/12) 0-0-0-0(1/1/13) 0-0-0-0(1/1/14) 0-0-0-0(1/1/15) 0-0-0-0(1/1/16) 0-0-0-0(1/1/17) 0-0-0-0(1/1/18) 0-0-0-0(1/1/19) 0-0-0-0(1/1/20) 0-0-0-0(1/1/21) 0-0-0-0(1/1/22) 0-0-0-0(1/1/23) 0-0-0-0(1/1/24) 0-0-0-0(1/1/25) 0-0-0-0(1/1/26) 0-0-0-0(1/1/27) 0-0-0-0(1/1/28) 0-0-0-0(1/1/29) 0-0-0-0(1/1/30) 0-0-0-0(1/1/31) 0-0-0-0(1/1/32) 0-0-0-0(1/1/33) 0-0-0-0(1/1/34) 0-0-0-0(1/1/35) 0-0-0-0(1/1/36) 0-0-0-0(1/1/37) 0-0-0-0(1/1/38) 0-0-0-0(1/1/39) 0-0-0-0(1/1/40) 0-0-0-0(1/1/41) 0-0-0-0(1/1/42) 0-0-0-0(1/1/43) 0-0-0-0(1/1/44) 0-0-0-0(1/1/45) 0-0-0-0(1/1/46) 0-0-0-0(1/1/47) 0-0-0-0(1/1/48) 0-0-0-0(1/2/1) 0-0-0-0(1/2/2) Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port 58 1/1/1: 1/1/2: 1/1/3: 1/1/4: 1/1/5: 1/1/6: 1/1/7: 1/1/8: 1/1/9: 1/1/10: 1/1/11: 1/1/12: 1/1/13: 1/1/14: 1/1/15: 1/1/16: 1/1/17: Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Type : 1G M-C (Gig-Copper) Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port Port 1/1/18: 1/1/19: 1/1/20: 1/1/21: 1/1/22: 1/1/23: 1/1/24: 1/1/25: 1/1/26: 1/1/27: 1/1/28: 1/1/29: 1/1/30: 1/1/31: 1/1/32: 1/1/33: 1/1/34: 1/1/35: 1/1/36: 1/1/37: 1/1/38: 1/1/39: 1/1/40: 1/1/41: 1/1/42: 1/1/43: 1/1/44: 1/1/45: 1/1/46: 1/1/47: 1/1/48: Port 1/2/1: Port 1/2/2: Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G 1G M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C M-C 3 (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) (Gig-Copper) Type : 10GE CX4 15m (XFP) Type : 10GE CX4 15m (XFP) FastIron Crash Dump Version 3.0.1 Boot : 07.03.00T7f5 grz07300b1 built on Jul 19 2011 22:21:42 PDT Monitor : 07.03.00T7f5 grz07300b1 built on Jul 19 2011 22:21:42 PDT System : 07.04.00T7f3 FCXR07400b1 built on Dec 20 2011 21:20:24 PST Task : main System had been up for 1 minutes EXCEPTION 0300, Data Storage Interrupt GP Registers r0 : 2021cd1c r4 : 2233802a r8 : 247d9a14 r12 : fffffff0 r16 : 00000000 r20 : 00000000 r24 : 00000001 r28 : 247d9bb0 247d99e8 7ffff507 247d9a17 21411d20 00000000 00000000 00000000 2236f498 21161ec8 247d9a10 00000001 00000000 00000000 00000000 00000000 211b6957 247dafff 00000000 00000001 00000000 00000000 00000003 00000000 223379cc SP Registers save = f7f10000 xp..= 046ea100 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 59 3 Packet-capture debug commands thread pri stk size vsid dear esr srr1 msr pc lr sp cr ctr xer wdt hid0 hid1 mcsr mcar usprg mcsrr0 = = = = = = = = = = = = = = = = = = = = = = 046ea100 00000003 247ba000 00020000 00650065 247db000 00800000 00000000 0202d030 21007628 2021cd64 247d99e8 40000800 00000000 20000000 00000014 00004000 c4003000 00000000 00000000 00000000 00000000 L2 ECC Registers fc020e20: 00000000 fc020e30: 00000000 fc020e40: 00000000 fc020e50: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 0000001d 00000000 00000000 00000000 00000000 00000000 DDR ECC Registers fc002000: 0000001f fc002080: 80010102 fc002100: 00010000 fc002110: e3008000 fc002120: 00000000 fc002e20: 00000000 fc002e30: 00000000 fc002e40: 00000000 fc002e50: 00000000 00000000 00000000 00260802 04401000 06090100 00000000 00000000 00000000 00000000 00000000 00000000 39350322 000e0432 deadbeef 00000000 00000000 0000000d 00000000 00000000 00000000 13104cc8 00000000 00000000 00000000 00000000 00000000 00000000 Memory Mapped Regions (start: access cache) 2021c000: rwxr-x ----247d9000: rwxrwx ----21161000: rwxrwx ----247da000: rwxrwx ----22338000: rwxrwx ----7ffff000: ------ ----00000000: ------ ----fffff000: ------ ----21411000: rwxrwx ----2236f000: rwxrwx ----211b6000: rwxrwx ----22337000: rwxrwx ----21007000: rwxr-x ----247db000: rwx--x ----Possible Stack Trace (function call return address list) 21007628: strncpy(pc) 2021cd64: copy_tftp_flash_all_pri(lr) 2000b0fc: get_combined_license 60 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 30373430: Stack may be corrupted! Active Stack (FP 247d99e8) 247d9000: 00000000 00000000 247d9010: 00000000 00000000 247d9020: 00000000 00000000 247d9030: 00000001 00000000 247d9040: 247d9160 20d17378 247d9050: 247d9068 00000000 247d9060: 247d9078 00000073 247d9070: 22ce85a9 00000073 247d9080: 00000000 00000000 247d9090: 00000000 00000000 247d90a0: 31310000 00000000 247d90b0: 00000000 00000000 247d90c0: 00000000 00000000 247d90d0: 24b97c20 00000001 247d90e0: 00000000 08dbe480 247d90f0: 247d9358 205678c8 247d9100: 00000001 0000000a 247d9110: 0000006e 22ce85a0 247d9120: 00000001 08dbe480 247d9130: 1fff0008 00000000 247d9140: 00000001 00000008 247d9150: 247d9190 20abaafc 247d9160: 00000000 00000001 247d9170: 247d9198 00000001 247d9180: 00000361 001b0800 247d9190: 247d91c0 00018de4 247d91a0: 24b96610 00000001 247d91b0: 00000361 001b0800 247d91c0: 247d91d0 00004040 247d91d0: 247d91d8 203539dc 247d91e0: 00000000 00000000 247d91f0: 00000000 00000000 247d9200: 00000000 00000000 247d9210: 00000000 00000000 247d9220: 00000001 00002868 247d9230: 247d9260 20edbb64 247d9240: 00000000 248f80ee 247d9250: 247d93b0 247d93a8 247d9260: 247d9330 20efbec0 247d9270: 00000000 248f816b 247d9280: 00000000 228565e8 247d9290: 247d92a8 20ef8ed0 247d92a0: 00000000 00000000 247d92b0: 5ffc1001 40203120 247d92c0: 247d92e8 00000001 247d92d0: 00000000 00000000 247d92e0: 00000000 00260fdd 247d92f0: 00000000 00000001 247d9300: 00000000 00000000 247d9310: 247d9368 00000000 247d9320: 20589fd8 00000010 247d9330: 00000000 21210000 247d9340: 00000001 08df0c80 247d9350: 1fff0004 00000000 247d9360: 1fff0004 08df0c80 247d9370: 00000000 1fff0004 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 00000000 00000000 247d9040 21422ced 00000000 247d9210 223e7054 247d9198 00000000 00000000 00000000 00000000 00000000 00000000 00000001 00009108 247d9118 247d9128 24b97c20 00000005 247d9358 00000000 247d9190 1fff0004 00000000 00000001 1fff0004 08df0c00 00000000 247d9338 2491ea70 00000000 00000001 247d9230 00000000 247d9270 00000000 247d9414 02001fff 08dbe480 00000000 00000020 00000001 00001080 00002080 247d93b0 247d9318 00000000 247d93b0 00000003 00000000 247d9348 24b96610 00000005 247d9798 00000004 00000000 00000000 00000000 00000073 00000000 00000000 00000000 20d17378 00000000 00000000 00000000 00000000 08dbe480 00000000 00000008 00007a40 00030f70 00004040 00000001 00000000 20568400 00000000 00000000 248f5361 00260fdd 08df0c80 248f5361 08df0c80 0202d030 206ae748 094b0180 248f80ee 00002868 20ef8ed0 00000000 00002868 00000001 00000000 08dbe49c 00000000 00000000 2285658c 20edbb64 00003400 248f80ee 247d93a8 00018de4 248f80ee 247d93a8 00000004 247d9450 2063287c 00000001 08df0c80 2057f0e8 08df0c90 61 3 Packet-capture debug commands 247d9380: 247d9390: 247d93a0: 247d93b0: 247d93c0: 247d93d0: 247d93e0: 247d93f0: 247d9400: 247d9410: 247d9420: 247d9430: 247d9440: 247d9450: 247d9460: 247d9470: 247d9480: 247d9490: 247d94a0: 247d94b0: 247d94c0: 247d94d0: 247d94e0: 247d94f0: 247d9500: 247d9510: 247d9520: 247d9530: 247d9540: 247d9550: 247d9560: 247d9570: 247d9580: 247d9590: 247d95a0: 247d95b0: 247d95c0: 247d95d0: 247d95e0: 247d95f0: 247d9600: 247d9610: 247d9620: 247d9630: 247d9640: 247d9650: 247d9660: 247d9670: 247d9680: 247d9690: 247d96a0: 247d96b0: 247d96c0: 247d96d0: 247d96e0: 247d96f0: 247d9700: 247d9710: 247d9720: 247d9730: 62 08df0c96 00000003 00000000 0000005a 00000000 08db8400 247d9810 0000003f 2000003f 00000000 01000000 00000000 00000000 00000000 00000000 00000000 00000000 be000500 00000900 05000100 00000000 00000000 00064190 247d9610 00000000 00000000 00000000 00000000 00000000 247d9570 0000000a 247d9580 247d9590 247d95a0 0001aaf4 247d96d0 00000000 00000001 00000000 00000001 22ce85a0 247d9650 00000000 00000001 2235e2f4 247d9668 00000001 206db338 00000000 00000000 00000000 00000000 0001aaf4 247d9710 00000000 00000000 27057800 247d9750 00000008 00000000 00070020 1fff0004 ffffffff 00000003 00000000 08db8400 2057f0a4 269ea345 00080252 00211fe9 01000001 00000000 00000000 00000000 00000000 00000001 00000000 00000000 00000000 00000000 00000000 00000000 00000000 20d16e74 00000000 00000000 00000000 00000000 00000000 00000000 00000067 00007a40 00030f70 00004040 00000000 20d17378 00000000 00000001 00000000 00000000 00000000 20d19d6c 00000000 00000001 00000068 20d19a84 206db338 00064190 00000000 00000000 00000001 00000000 247d9738 20d186c0 00000000 00000001 247d9750 20d1892c 00000000 00000000 20000004 20589fa8 08df0c90 00000001 00000008 0008503f 00000001 08db8416 00000000 be000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 01050000 01000000 00000000 00000000 247d94f0 22ce8601 00010000 00000000 00000000 30303030 00000000 00000000 247d9568 0000000a 247d9780 00000068 247d95b0 2705785a 00009610 00000001 00000001 00000000 2235e2f4 247d9690 00000000 00000000 00000001 247d9690 00000001 247d96a8 00064190 00000000 00000000 00000000 2705785a 20d35215 247d9700 00000000 00000001 20d35218 27057860 0001aaf4 02003660 1fff005a 00000009 ffffffff 00000005 08df0c00 08db8400 0008503f 05070000 00080000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00211fe9 01000001 00000000 00000000 00000000 00000000 00000064 00000000 00000000 00000000 31340000 00000000 00000000 22ce85a0 00000000 0000000a 22ce85a0 0202d030 00000058 0000a1c0 00064190 00000000 00000001 22ce85a0 00000068 00000000 00000001 00000001 206db338 00000001 20d19124 00064100 00000000 00000000 00000000 00000001 2705785a 00016888 00000000 00000001 27057860 20d35218 00000000 247d9758 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 247d9740: 247d9750: 247d9760: 247d9770: 247d9780: 247d9790: 247d97a0: 247d97b0: 247d97c0: 247d97d0: 247d97e0: 247d97f0: 247d9800: 247d9810: 247d9820: 247d9830: 247d9840: 247d9850: 247d9860: 247d9870: 247d9880: 247d9890: 247d98a0: 247d98b0: 247d98c0: 247d98d0: 247d98e0: 247d98f0: 247d9900: 247d9910: 247d9920: 247d9930: 247d9940: 247d9950: 247d9960: 247d9970: 247d9980: 247d9990: 247d99a0: 247d99b0: 247d99c0: 247d99d0: 247d99e0: 247d99f0: 247d9a00: 247d9a10: 247d9a20: 247d9a30: 247d9a40: 247d9a50: 247d9a60: 247d9a70: 247d9a80: 247d9a90: 247d9aa0: 247d9ab0: 247d9ac0: 247d9ad0: 247d9ae0: 247d9af0: 247d9718 247d9808 247d9790 240289e0 00000004 247d97d8 00000000 247d9808 20063788 0000ffff 247d9808 00000001 247d9820 247d9820 213f0000 247d9840 247d9f48 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247d99e8 247d9a00 247d9a10 46435852 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247d9750 20d2e9c8 20047614 000d6eb8 00000000 0001f93c 00000000 00000000 20063660 21250000 27057800 00000001 00000001 00000001 00000001 2005f2a0 2004774c 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 2061da70 00000000 2000b0fc 30373430 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 0000000d 00004040 000d6ea0 00000001 27057800 00000000 00000000 00000006 0001aaf4 247d97e8 00000000 00000041 247d9818 247d9830 0000001e 0000001e 00000000 00000000 00000000 00000100 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247d99e0 247d9a98 00000000 00000000 3062312e 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 3 27057860 20d2e92c 266ac840 00000001 00000002 00000000 00000000 00000004 00000000 0001c880 00000001 247d9821 2005f0b4 2005f250 00000000 00000000 00010000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 2021cd1c 00000000 00000000 62696e00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 63 3 Packet-capture debug commands 247d9b00: 247d9b10: 247d9b20: 247d9b30: 247d9b40: 247d9b50: 247d9b60: 247d9b70: 247d9b80: 247d9b90: 247d9ba0: 247d9bb0: 247d9bc0: 247d9bd0: 247d9be0: 247d9bf0: 247d9c00: 247d9c10: 247d9c20: 247d9c30: 247d9c40: 247d9c50: 247d9c60: 247d9c70: 247d9c80: 247d9c90: 247d9ca0: 247d9cb0: 247d9cc0: 247d9cd0: 247d9ce0: 247d9cf0: 247d9d00: 247d9d10: 247d9d20: 247d9d30: 247d9d40: 247d9d50: 247d9d60: 247d9d70: 247d9d80: 247d9d90: 247d9da0: 247d9db0: 247d9dc0: 247d9dd0: 247d9de0: 247d9df0: 247d9e00: 247d9e10: 247d9e20: 247d9e30: 247d9e40: 247d9e50: 247d9e60: 247d9e70: 247d9e80: 247d9e90: 247d9ea0: 247d9eb0: 64 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 247d9ec0: 247d9ed0: 247d9ee0: 247d9ef0: 247d9f00: 247d9f10: 247d9f20: 247d9f30: 247d9f40: 247d9f50: 247d9f60: 247d9f70: 247d9f80: 247d9f90: 247d9fa0: 247d9fb0: 247d9fc0: 247d9fd0: 247d9fe0: 247d9ff0: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 Application Data(last packet) dsa: 002f1001 0005e01f 00000000: 00000000 50100ffb 00000000 00000004: ffffffff ffff0024 381cb900 00000008: 08000604 00010024 381cb900 0000000c: 00000000 0000ac1a 40bcaaaa 00000010: aaaa0000 00000000 00000000 00400000 08060001 ac1a4001 aaaaaaaa 00000000 Possible Data Structures 2021ccd0: 38e0000e 48abea4d 7c0803a6 38210010 00000000 00000000 9421ff50 7c0802a6 2021cd10: 900100b4 7c7f1b78 41820014 3c60211c 480000fc 38610028 38610028 38800000 247d99a0: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247d99e0: 247d99e8 2061da70 247d9a00 00000000 247d9a10 2000b0fc 46435852 30373430 21161e80: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 21161ec0: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247dafb0: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 247daff0: 00000000 00000000 00000019 00000000 80010014 00000000 00000000 93e100ac 2c030000 48afc395 7c651b78 38610028 00000000 00000000 00000000 00000000 2021cd1c 00000000 00000000 62696e00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 83e1000c 4e800020 00000000 93c100a8 48400d49 80635590 48dea769 48dea43d 00000000 00000000 00000000 247d99e0 247d9a98 00000000 00000000 3062312e 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 3 65 3 Packet-capture debug commands 22337fe0: 22338020: 247d99d0: 247d9a10: 21411ce0: 21411d20: 247d9b70: 247d9bb0: 2236f450: 2236f490: 211b6910: 211b6950: 22337980: 223379c0: 21007620: 66 00000000 247db020 00000000 00000000 00000020 dde7c000 37343030 00000000 00000000 00000000 00000000 247d99e8 247d9a00 247d9a10 46435852 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 2020eeb8 00000000 d0211b68 0000201f ad600000 1f1da400 00000000 2021ce60 00000000 00000000 00000000 00000000 00000000 00000000 00000000 1b695721 34a5ffff 48000014 00000000 247db020 00000000 00000000 dde7c020 00000000 62312e62 00000000 00000000 00000000 00000000 2061da70 00000000 2000b0fc 30373430 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000001 201f1db8 00200000 da2021cb 1df4201f 00000000 00000020 201f1df4 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000100 1b702d21 9ce30002 38a5ffff 00000000 24000250 00000000 00000000 dde7c020 00000146 696e0000 00000000 00000000 00000000 247d99e0 247d9a98 00000000 00000000 3062312e 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000001 00000000 00201e0c 60000000 1e000000 00000020 21cd0000 201f1e00 00000000 00000000 00000000 00000000 00000000 00000000 00000022 00005722 1b695700 98e30001 35850001 00000000 000d6f1c 00000000 00000000 dde7c020 43585230 00000000 00000000 00000000 00000000 00000000 2021cd1c 00000000 00000000 62696e00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 201d2500 a0201f1d 00008000 00002021 1ee2a420 00000000 00000000 00201f1e 00000000 00000000 00000000 00000000 00000000 35e35800 35e37f21 00000000 4082fff4 38840001 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 247d9040: 21422ce0: 247d9160: 20d17370: 247d9060: 247d9210: 247d9070: 223e7050: 22ce85a0: 247d9190: 08dbe480: 24b97c20: 247d9350: 205678c0: 00009100: 4082ffa0 2c050000 247d9160 247d9068 247d9078 22ce85a9 65722073 68203431 63617061 006d676d 00000000 247d9198 00000361 247d91c0 7ea5ab78 7fde6214 41820444 2c0b0049 247d9078 22ce85a9 00000000 00000000 00000000 00000001 247d9260 00000000 22ce85a9 00000000 00000000 31310000 00000000 00000000 00000000 00000000 000a0074 4e204953 20414354 75746f2d 247d91c0 24b96610 00000361 247d91d0 2e36352e 2e303b31 303b3136 00000000 24ba7a84 00000000 02000000 00000000 1fff0004 1fff0004 00000000 08df0c96 7fe3fb78 41820078 7d8c5a14 38810008 814a1928 919a0162 38660000 41820038 20d17378 00000000 00000073 00000073 7570706c 30303030 63697479 74312000 00000001 00000001 001b0800 00018de4 4bffeead 57eb063e 2c0b0050 41820458 00000073 00000073 00000000 00000000 00000000 00002868 20edbb64 248f80ee 00000073 00000000 00000000 00000000 00000000 00000000 00000000 00000000 68692300 204f4646 49564154 73687574 00018de4 00000001 001b0800 00004040 31313b31 36392e32 392e3235 00000000 00000000 00000000 01000000 00000000 00000000 08df0c80 1fff0004 00070020 4bfff2bd 3d802162 88ac0049 57a6043e 915a015e 7f43d378 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 4e800020 38630001 00000000 247d9210 223e7054 247d9198 79203120 206d7761 20697320 00000000 247d9190 1fff0004 00000000 00000001 7c761b78 2c0b006a 4181001c 2c0b004a 223e7054 247d9198 00000000 00000000 247d9230 00000000 247d9270 00000000 247d9198 00000000 00000000 00000000 00000000 00000000 00000001 00000000 20534855 2e20504c 45205749 646f776e 00000001 1fff0004 08df0c00 00000000 37322e32 35342e39 342e3935 00000000 19010000 10080083 00000000 00000000 00000005 247d9798 00000004 20000004 547d063e 818c2b60 3c602058 487b3a89 3d80000d 38800166 3 88a30000 38e40000 00000000 00000000 00000000 20d17378 20776974 74747320 75702020 00000000 00000000 248f5361 00260fdd 08df0c80 56cc063e 4181003c 41820474 41820430 00000000 20d17378 00000000 00000000 20ef8ed0 00000000 00002868 00000001 20d17378 00000000 00000000 00000000 00000000 00000000 00000001 00000000 54444f57 45415345 54482061 202a2a2a 08df0c80 248f5361 08df0c80 0202d030 362e3634 352e3132 2e300000 00000000 00000000 00000806 00000000 00000000 08df0c80 2057f0e8 08df0c90 1fff005a 2c1c0000 1d7a0083 38637b84 4800004c 898c1a36 4bfffd95 67 3 Packet-capture debug commands 00007a40: 247d9110: 00030f70: 247d9120: 00004040: 20568400: 20abaaf0: 248f5360: 247d91c0: 00018de0: 08df0c80: 24b96610: 08df0c00: 247d91d0: 203539d0: 68 bb410008 4e800020 83c10008 38210010 93810008 9001001c 0000006e 00000001 1fff0008 00000001 48000008 80010014 9421fff0 7c7f1b78 00000001 1fff0008 00000001 247d9190 81810014 7d7b03a6 48009975 3c600440 5463043e 57cb13ba 5463043e 38210210 3b800000 41800060 3881000c 39010014 c000c0c0 c0c0c0c0 c0c0c0c0 c0c0c0c0 247d91d0 247d91d8 00000000 00000000 48004a91 38600002 40820090 816b0040 00000000 00000000 00000000 00000000 24ba6c64 00000000 02000000 00000000 00000000 ffffffff 08000604 00000000 247d91d8 00000000 00000000 00000000 80631e4c 7c0803a6 80010024 9421ffe8 83e1000c 4e800020 93a1000c 7c7f1b78 22ce85a0 08dbe480 00000000 00000008 7fe3fb78 7c0803a6 7c0802a6 7fe3fb78 08dbe480 00000000 00000008 20abaafc 8161000c 4c000064 38a00028 7c7453a6 48000020 7c8c582e bb6101fc 4e800020 3b800001 7fcc0774 38a1001c 39210018 c0c0c0c0 c0c0c0c0 c0c0c0c0 c0c0c0c0 00004040 203539dc 00000000 00000000 7c7d1b78 480001a8 819d003c 7c0c5800 00000000 00000000 00000000 00000000 00000000 00000000 01000000 00000000 50100ffb ffff0024 00010024 0000ac1a 203539dc 00000000 00000000 00000000 38800000 38210008 7c0803a6 7c0802a6 80010014 9421ffe8 93c10010 7c9e2378 247d9128 24b97c20 00000005 247d9358 83c10008 38210010 93e1000c 4bff20f9 24b97c20 00000005 247d9358 00000000 38210010 38000000 7ca32bd6 3c600040 3d80211d 7fe3fb78 80010214 00000000 4837ee49 2c0c0000 38c10008 7f83e378 c0c0c0c0 c0c0c0c0 c0c0c0c0 c0c0c0c0 00000000 247d9338 2491ea70 00000000 2c1d0000 819d0038 3d600008 41820010 00000000 00000000 00000000 00000000 19010000 10080083 00000000 00000000 00000000 381cb900 381cb900 40bcaaaa 247d9338 2491ea70 00000000 00000001 48c87f89 4e800020 38210020 93a1000c 7c0803a6 7c0802a6 93e10014 4800ddb5 00004040 00000001 00000000 20568400 83e1000c 4e800020 90010014 4bfe4915 00000001 00000000 20568400 00000000 7d9a03a6 7c1f0ba6 7cb60ba6 38600064 398ccce2 4bfff545 7c0803a6 00000000 7c03e000 41820054 38e10010 4837ec35 c0c0c0c0 c0c0c0c0 c0c0c0c0 c0c0c0c0 0202d030 206ae748 094b0180 248f80ee 4082000c 2c0cffff 816bf3ac 3b000000 00000000 00000000 00000000 00000000 00000000 00000406 00000000 00000000 00400000 08060001 ac1a4001 aaaaaaaa 206ae748 094b0180 248f80ee 00002868 8001000c 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 247d9330: 206ae740: 2491ea70: 094b0180: 248f80e0: 247d9230: 20ef8ed0: 247d9260: 20edbb60: 247d9270: 247d93b0: 247d93a0: 247d9410: 20efbec0: 08dbe490: 00000000 9421ffe0 00000000 00000001 1fff0004 1fff0004 b169c094 7c0803a6 9421fff8 7c0803a6 094b01a0 211fe9be 00000000 094b01c0 00000000 00000000 00000000 00000000 30000001 e8002491 00240000 91ec0024 247d9260 00000000 247d93b0 247d9330 38600000 8001001c 00000000 9421ffd8 247d9330 00000000 00000000 247d92a8 4e800021 2c0c0000 7fa4eb78 3c6020ee 00000000 00000000 247d92a8 00000000 0000005a 00000000 08db8400 247d9810 00000000 0000005a 00000000 08db8400 00000000 01000000 00000000 00000000 7c771b78 398c65fc 91810040 39290001 2e303b31 303b3136 00000000 7c0802a6 21210000 08df0c80 00000000 08df0c80 4bca527d 38210160 7c0802a6 38210008 2491ea88 00000000 094b1cf8 2491eab8 00000c00 00000800 00003400 00000c00 f4000000 b4c02491 00240024 91ec0000 20edbb64 248f80ee 247d93a8 20efbec0 83a1000c 7c0803a6 00000000 7c0802a6 20efbec0 248f816b 228565e8 20ef8ed0 7c7b1b78 41820038 4b814c3d 3863e174 248f816b 228565e8 20ef8ed0 00000000 00000003 00000000 08db8400 2057f0a4 ffffffff 00000003 00000000 08db8400 00211fe9 01000001 00000000 00000000 2c170000 56cb063e 81410040 912a0000 36392e32 392e3235 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 00000000 bf61000c 247d9348 24b96610 00000005 247d9798 bb410148 4e800020 9001000c 4e800020 00000000 094b01b0 211fe9be 00000000 00000000 00000000 00000000 00000000 00000000 ea882491 91ec0024 00002400 247d9270 00000000 247d9414 02001fff 83c10010 38210018 00000000 bf21000c 02001fff 08dbe480 00000000 00000020 3d802120 57e3063e 7c781b78 57e4063e 08dbe480 00000000 00000020 00000001 00000001 00000008 0008503f 00000001 08df0c90 00000001 00000008 0008503f be000000 00000000 00000000 00000000 41820038 1d6b0018 81210040 7ee3bb78 35342e39 342e3935 3 00000000 90010024 2063287c 00000001 08df0c80 2057f0e8 80010164 00000000 8001000c 00000000 094b1cf0 2491eaa0 00000000 094b1d00 90014b09 a0014b09 b0014b09 c0014b09 88002491 ea880000 91b50024 00002400 00002868 00000001 00000000 08dbe49c 83e10014 4e800020 00000000 9001002c 08dbe49c 00000000 00000000 2285658c 898cb6fd 38a10008 80e10008 7fa6eb78 00000000 00000000 2285658c 20edbb64 00000005 08df0c00 08db8400 0008503f ffffffff 00000005 08df0c00 08db8400 00000000 00000000 00000000 00000000 3d802285 7d8c5a14 81290000 48000064 352e3132 2e300000 69 3 Packet-capture debug commands 248f8160: 228565e0: 247d92a0: 22856580: 247d92e0: 247d9310: 247d9360: 20589fd0: 247d9450: 21210000: 247d9340: 20632870: 247d9790: 2057f0e0: 08df0c90: 70 00000000 00000000 e8000000 91b60024 00002400 24930000 00000000 00000000 00000000 00000000 00000000 5ffc1001 247d92e8 00000000 00000000 00000087 00000000 00000000 00000000 00000000 00000000 247d9368 247d9368 20589fd8 00000000 00000001 1fff0004 00000000 08df0c96 00000003 656e640a 70705f63 7061636b 4f500a00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000001 1fff0004 1fff0004 00000000 7c7f1b78 80010014 00000000 9421fff8 247d97d8 00000000 247d9808 20063788 38800004 994b08c3 38210430 00000000 00000000 00000000 00000000 00000000 00240000 92edb024 24930000 00000024 00000000 00000000 00000000 00000000 00000000 40203120 00000001 00000000 00000000 00000000 00000000 00000000 00260fdd 00000001 00000000 00000000 00000000 00000010 21210000 08df0c80 08df0c80 1fff0004 00070020 1fff0004 00000000 70755f74 65742e2e 646d6100 00000000 00000000 00000001 00000000 00000000 00000000 00000000 00000000 08df0c80 00000000 08df0c80 1fff0004 7fe3fb78 7c0803a6 00000000 7c0802a6 0001f93c 00000000 00000000 20063660 4879a11d b9c103e8 4e800020 00000000 00000000 00000000 00000000 00000000 00240024 92edb000 2491b640 00000024 0000002d 00000000 00000000 00000000 00000001 00001080 00002080 247d93b0 00000000 00000000 00000000 00000000 247d9318 00000000 247d93b0 00000003 00000003 00000000 247d9348 24b96610 247d9798 00000004 20000004 20589fa8 45786974 72616e73 2e776974 51756575 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 24b96610 00000005 247d9798 00000004 4807bb89 38210010 00000000 9001000c 00000000 00000000 00000006 0001aaf4 3d602162 80010434 00000000 00000000 00000000 00000000 00000000 00000000 92ec0024 00002400 24930000 00249304 00000000 00000000 00000000 00000000 20edbb64 00003400 248f80ee 247d93a8 00000087 00000000 00000000 00000000 00018de4 248f80ee 247d93a8 00000004 00000004 247d9450 2063287c 00000001 2057f0e8 08df0c90 1fff005a 00000009 696e6720 6d69745f 68204452 65202575 00000000 00000000 00000000 00211fe9 00000000 00000000 00000000 00000000 00000001 08df0c80 2057f0e8 08df0c90 83e1000c 4e800020 00000000 3d802287 00000000 00000000 00000004 00000000 8941001e 7c0803a6 00000000 00000000 00000000 00000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 00070020: 20000000: 20589fa0: 08db8400: 00085030: 247d9810: 2057f0a0: 269ea340: 08db8410: 20000030: 00080250: 00080000: 01000000: 247d94f0: 00064190: 00000000 00000000 2c1f0004 7d8cf8ae 398c9de8 48000008 9421fff0 3be00000 398c614c 4082000c 61696c65 70705f63 7061636b 656e640a 00000000 ffffffff 041c1452 4fff4000 0008504e ffff0000 506c0008 00000001 247d9820 213f0000 247d9840 247d9f48 4879a161 48000044 3d602121 480ac191 00000000 00ff1000 00000000 26a29100 ffffffff 041c1452 4fff4000 75700000 4082000c 4bffffd4 7c0803a6 9421ffe0 41525400 5f637479 65640073 72696e74 65697665 65745f72 74656c6e 75666665 00000000 00000000 79006269 041abce0 247d9610 00000000 00000000 00000000 3d801234 83a1000c 00000000 00000000 40810030 2c0c0024 39600000 38600000 7c0802a6 2c1f0014 57eb103a 38600000 640a0000 70755f74 65742e2e 00000000 50100ffb ffff001e 00008011 40000408 00085012 00010000 5030f5ea 00000000 00000001 00000001 2005f2a0 2004774c 3d602162 7fe3fb78 816bfad4 3ca02059 00820008 0400ffff 269f9900 26a2d100 ffff001e 00008011 40000408 00297732 38600000 38600001 38210010 7c0802a6 5f5f4441 7065005f 72616e64 005f5f73 5f706163 65636569 65745f72 72007465 004b0301 0a0a0a0a 6e00bcd8 00000000 20d16e74 00000000 00000000 00000000 618ceeee 83c10010 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 00000000 00000000 3d80000f 4082001c 7d6cf9ae 83e1000c 93e1000c 4080002c 7d8c582e 48000010 45786974 72616e73 2e207769 45786974 00000000 c93cb67c 382cac1a ab1f0000 f5e80000 00000008 000000f5 00086fb4 247d9830 0000001e 0000001e 00000000 8941001e 480afdc9 396b0001 38a59fd8 0a020000 00000505 26a21100 00ffffff c93cb67c 382cac1a ab1f0000 6b382d73 48000010 83e1000c 4e800020 bf61000c 54415f45 5f72616e 005f5f63 5f696e69 6b657400 76655f62 65636569 6c6e6574 00000000 7072696d 041abcd0 041abce8 00010000 00000000 00000000 30303030 919f0000 83e10014 3 00000000 00000000 398c9de8 3d80000f 38600001 80010014 90010014 3d802133 2c0c0000 3bff0001 696e6720 6d69745f 74682073 696e6720 042e0000 08004500 421fac1a 000e7361 00f4ffff 6fb40008 ffffffff 0008508a 2005f250 00000000 00000000 00010000 994b08c3 3d802121 916cfad4 38600003 ff000100 0000012c 26a1d100 00000000 08004500 421fac1a 000e7361 70323b34 3bff0001 80010014 00000000 90010024 4e44005f 645f7365 6f6d5f70 745f7374 74656c6e 79746500 76655f62 5f707574 00000000 61727900 00035400 041abd4c 00000000 00000000 00000000 31340000 38600000 8001001c 71 3 Packet-capture debug commands 22ce8600: 247d9610: 20d16e70: 00010000: 247d9570: 247d9560: 247d9580: 247d9780: 247d9590: 247d95a0: 2235e2f0: 247d9690: 247d9650: 20d19d60: 206db330: 72 7c0803a6 7c0802a6 20343130 6d743120 00000000 00000000 247d9650 00000000 00000001 2235e2f4 4bfff471 48000020 4bfff391 89810008 7c7f1b78 7c6c582e 38210010 93c10008 247d9580 247d9590 247d95a0 0001aaf4 0000000a 247d9580 247d9590 247d95a0 247d9590 247d95a0 0001aaf4 247d96d0 00000004 247d97d8 00000000 247d9808 247d95a0 0001aaf4 247d96d0 00000000 0001aaf4 247d96d0 00000000 00000001 00000000 00000000 00000000 00000029 00000000 00000000 00000000 0001aaf4 247d9668 00000001 206db338 00000000 7fe4fb78 3d402137 7fe3fb78 38210040 2025640a 3a204164 38210018 93c10008 3030300a 0a000000 00000000 00000000 20d19d6c 00000000 00000001 00000068 7c761b78 7fc3f378 7c761b78 2c0c0000 3d800008 83e1000c 4e800020 93e1000c 00007a40 00030f70 00004040 00000000 00000067 00007a40 00030f70 00004040 00030f70 00004040 00000000 20d17378 00000000 0001f93c 00000000 00000000 00004040 00000000 20d17378 00000000 00000000 20d17378 00000000 00000001 00000000 00000000 00000004 00000000 00000000 00000001 00000000 247d9738 20d19a84 206db338 00064190 00000000 38a00000 3d2022cf ba61000c 4e800020 00000000 64696e67 4e800020 93e1000c 00757020 00000000 00000000 00000000 00000000 00000000 00000001 247d9690 56cc063e 7fa4eb78 56cc063e 41820040 398cf1c4 80010014 9421fff0 90010014 247d9780 00000068 247d95b0 2705785a 0000000a 247d9780 00000068 247d95b0 00000068 247d95b0 2705785a 00009610 27057800 00000000 00000000 00000006 247d95b0 2705785a 00009610 00000001 2705785a 00009610 00000001 00000001 00000000 00000000 00000003 00000000 00000000 00000000 2705785a 20d35215 00000001 247d96a8 00064190 00000000 480000f9 392985a0 80010044 00000000 506f4520 206e6577 9421fff0 90010014 200a0067 00000000 00000000 00000000 00000000 00000001 00000001 206db338 7fde6214 7ea5ab78 7fde6214 3d802137 57eb103a 7c0803a6 7c0802a6 7c7f1b78 0000000a 22ce85a0 0202d030 00000058 00000000 0000000a 22ce85a0 0202d030 22ce85a0 0202d030 00000058 0000a1c0 00000002 00000000 00000000 00000004 0202d030 00000058 0000a1c0 00064190 00000058 0000a1c0 00064190 00000000 00000000 00000000 00000003 00000000 00000000 00000000 00000001 2705785a 00000001 20d19124 00064100 00000000 7c7f1b78 912a820c 7c0803a6 00000000 496e666f 20353456 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 20636170 61636974 79206f66 20256420 6d572c20 746f7461 6c206361 70616369 247d9660: 00000001 206db338 247d96a8 20d19124 206db338 00064190 00064190 00064100 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 20d19a80: 48000041 7c7d1b78 3d202137 39800000 998981fc 7fa3eb78 83810008 83a1000c 83c10010 83e10014 8001001c 7c0803a6 38210018 4e800020 00000000 00000000 247d96a0: 00000000 00000001 00000000 00000000 00000000 00000000 2705785a 00000001 0001aaf4 247d9738 20d35215 2705785a 247d9710 20d186c0 247d9700 00016888 20d19120: 48000881 7c7e1b78 7fc3f378 83c10038 83e1003c 80010044 7c0803a6 38210040 4e800020 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00064100: 818cb7d8 2c0c0000 41820054 3d800009 818cb7d4 7c0cf840 40820034 3c600006 3863552c 4bfcd3e5 480003e5 480000dd 3d601234 616beeee 917f0000 3c600009 247d9a00: 247d9a10 2000b0fc 00000000 00000000 46435852 30373430 3062312e 62696e00 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 2000b0f0: 3be00000 38600000 48ff7f49 7c7f1b78 3d402162 814a2b4d 7fe35378 83e1000c 80010014 7c0803a6 38210010 4e800020 9421fff0 7c0802a6 93c10008 93e1000c GADDR = 21622b94Dram Buf = 4320 AVAIL_B = 320USED_B = 4000 CPU_R = 5445Buf Msgs = 0 SNOOP_TX = 53SNOOP_DP = 256 GET_B = 9648FREE_B = 5648 Sw_Mode = 0New_Addr = 4 NA_Learn = 4NA_Age = 3 NA_Update = 0NA_Hash_Full = 0 NA_Hash_Del = 0 SFLOW_sample = 0 Buf_G_Msgs = 0Buf_F_Msgs = 0 Buf_Count = 0 CPU_XR[TC0-3 [323][0][0][0] CPU_XR[TC4-7 [91][5029][0][2] FxRouter# show tech-support l2 Syntax: show tech-support l2 This command provides Layer 2 and Layer 3 information apart from the other show tech-support command output. Brocade# show tech-support l2 VLAN Brief Summary Information : System-max vlan Params: Max(4095) Default(64) Current(64) Default vlan Id :1 Total Number of Vlan Configured :34 VLANs Configured :1 to 2 10 to 19 21 to 40 50 900 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 73 3 Packet-capture debug commands Private VLAN Information : -----------------------Primary VLAN 10 Port 1/1/7 1/1/8 1/1/9 1/1/10 Primary VLAN 30 Port 1/1/1 1/1/2 1/1/3 1/1/4 1/1/5 1/1/6 1/1/7 1/1/8 1/1/9 1/1/20 1/1/31 1/1/32 1/1/33 1/1/34 1/1/35 1/1/36 1/1/37 1/1/38 1/1/39 1/1/40 1/1/41 1/1/42 1/1/43 1/1/44 1/1/45 Primary VLAN 40 Port 1/1/1 1/1/2 1/1/3 1/1/4 1/1/5 1/1/6 1/1/7 1/1/8 1/1/9 1/1/20 1/1/31 1/1/32 1/1/33 1/1/34 1/1/35 1/1/36 1/1/37 1/1/38 1/1/39 1/1/40 1/1/41 1/1/42 1/1/43 1/1/44 1/1/45 Primary VLAN 50 Port 1/1/31 1/1/32 1/1/33 1/1/34 1/1/35 Primary VLAN 900 Port 1/1/31 1/1/32 1/1/33 1/1/34 1/1/35 1/1/36 1/1/37 1/1/38 Spanning Tree Information : -------------------------STP instance owned by topology-group 1, Master VLAN 1 Global RSTP (IEEE 802.1W/D3) Parameters: VLAN Root ID ID Root Root Cost Port 1 8000002438c94fc0 0 Root Port STP Parameters: ------------------Port Prio Path State Num rity Cost Hex 1/1/28 80 0 DISABLED 1/1/29 80 0 DISABLED 1/1/46 80 0 DISABLED 1/1/47 80 0 DISABLED 1/1/48 80 0 DISABLED 1/2/1 80 2 FORWARDING 1/2/2 80 2 FORWARDING 2/1/1 80 0 DISABLED 2/1/2 80 0 DISABLED 2/1/3 80 0 DISABLED 2/1/4 80 0 DISABLED 2/1/5 80 0 DISABLED Prio rity Hex 8000 Max Age sec 20 Hello sec 2 Hold sec 1 Fwd dly sec 15 Last Chang sec 6947 Chg Bridge cnt Address 1 002438c94fc0 Fwd Trans Design Cost Designated Root Designated Bridge 0 0 0 0 0 2 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 8000002438c94fc0 8000002438c94fc0 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 8000002438c94fc0 8000002438c94fc0 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 Spanning-tree is not configured on port-vlan 2 STP instance owned by VLAN 10 Global STP (IEEE 802.1D) Parameters: ----------------------------------VLAN Root Root Root Prio Max He- Ho- Fwd Last ID ID Cost Port rity Age llo ld dly Chang Hex sec sec sec sec sec 74 Chg Bridge cnt Address Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 10 8000002438c94fc0 0 Root Port STP Parameters: ------------------Port Prio Path State Num rity Cost Hex 1/1/7 80 0 DISABLED 1/1/8 80 0 DISABLED 1/1/9 80 0 DISABLED 1/1/10 80 0 DISABLED 8000 20 2 1 15 7077 0 3 002438c94fc0 Fwd Trans Design Cost Designated Root Designated Bridge 0 0 0 0 0 0 0 0 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 0000000000000000 802.1W Spanning Tree Information : --------------------------------IEEE 802-1w is not configured on port-vlan 1 --- VLAN 2 [ STP Instance owned by VLAN 2 ] ---------------------------Bridge IEEE 802.1W Parameters: ----------------------------Bridge Bridge Bridge Identifier MaxAge Hello hex sec sec 8000002438c94fc0 20 2 RootBridge RootPath Identifier Cost hex 8000002438c94fc0 0 Bridge Force FwdDly Version sec 15 Default tx Hold cnt 3 DesignatedBriRoot dge Identifier Port hex 8000002438c94fc0 Root Max Age sec 20 Fwd Dly sec 15 Hel lo sec 2 Port IEEE 802.1W Parameters: ---------------------------<--- Config Params --><-------------- Current state -----------------> Port Pri PortPath P2P Edge Role State Designa- Designated Num Cost Mac Port ted cost bridge 1/1/6 128 0 F F DISABLED DISABLED 0 0000000000000000 IEEE 802-1w is not configured on port-vlan 10 --- VLAN 11 [ STP Instance owned by VLAN 11 ] ---------------------------Bridge IEEE 802.1W Parameters: -----------------------------Bridge Bridge Bridge Identifier MaxAge Hello hex sec sec 8000002438c94fc0 20 2 RootBridge RootPath Identifier Cost hex 8000002438c94fc0 0 Bridge Force FwdDly Version sec 15 Default tx Hold cnt 3 DesignatedBriRoot dge Identifier Port hex 8000002438c94fc0 Root Max Age sec 20 Fwd Dly sec 15 Hel lo sec 2 Port IEEE 802.1W Parameters: --------------------------<--- Config Params --><-------------- Current state -----------------> Port Pri PortPath P2P Edge Role State Designa- Designated Num Cost Mac Port ted cost bridge 1/1/11 128 0 F F DISABLED DISABLED 0 0000000000000000 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 75 3 Packet-capture debug commands --- VLAN 12 [ STP Instance owned by VLAN 12 ] ---------------------------Bridge IEEE 802.1W Parameters: ----------------------------Bridge Bridge Bridge Identifier MaxAge Hello hex sec sec 8000002438c94fc0 20 2 RootBridge RootPath Identifier Cost hex 8000002438c94fc0 0 Bridge Force FwdDly Version sec 15 Default tx Hold cnt 3 DesignatedBriRoot dge Identifier Port hex 8000002438c94fc0 Root Max Age sec 20 Fwd Dly sec 15 Hel lo sec 2 PVST+ Information : PVST+ Enabled on: Port Method 1/1/10 Set by configuration 1/1/11 Set by configuration 1/1/20 Set by configuration 1/1/21 Set by configuration 1/1/30 Set by configuration 1/1/31 Set by configuration BPDU GAURD and STP Root Protection : ---------------------------------BPDU Guard Enabled on: Ports: (U1/M1) 1 2 3 4 5 6 7 8 9 12 VLAN Topology Group Information : Topology Group 1 ================= master-vlan 1 member-vlan none 76 Common control ports ethernet 1/1/20 ethernet 1/1/28 ethernet 1/1/29 ethernet 1/1/46 ethernet 1/1/47 ethernet 1/1/48 ethernet 1/2/1 ethernet 1/2/2 ethernet 2/1/1 ethernet 2/1/2 ethernet 2/1/3 Topology Group 2 ================= master-vlan 31 member-vlan 32 to 34 L2 protocol STP STP STP STP STP STP STP STP STP STP STP Common control ports ethernet 1/1/31 ethernet 1/1/32 ethernet 1/1/33 ethernet 1/1/34 ethernet 1/1/35 ethernet 1/1/36 ethernet 1/1/1 L2 protocol MRP MRP MRP MRP MRP MRP Vlan 31 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands ethernet ethernet ethernet ethernet ethernet ethernet ethernet ethernet ethernet 1/1/2 1/1/3 1/1/4 1/1/5 1/1/6 1/1/7 1/1/8 1/1/9 1/1/37 Vlan Vlan Vlan Vlan Vlan Vlan Vlan Vlan Vlan 3 31 31 31 31 31 31 31 31 31 Topology Group 3 ================= master-vlan 35 member-vlan 36 to 38 Common control ports ethernet 1/1/1 ethernet 1/1/2 ethernet 1/1/3 ethernet 1/1/4 ethernet 1/1/5 ethernet 1/1/6 ethernet 1/1/7 L2 protocol VSRP VSRP VSRP VSRP VSRP VSRP VSRP Trunk Status Information : -------------------------Configured trunks: Trunk ID: 31 Hw Trunk ID: 1 Ports_Configured: 5 Primary Port Monitored: Jointly Ports Port Names Port_Status Monitor Rx Mirr Port Tx Mirr Port Monitor Dir 1/1/31 none enable off N/A N/A N/A 1/1/32 none enable off N/A N/A N/A 1/1/33 none enable off N/A N/A N/A 1/1/34 none enable off N/A N/A N/A 1/1/35 none enable off N/A N/A N/A Operational trunks: Trunk ID: 31 Hw Trunk ID: 1 Duplex: None Speed: None Tag: Yes Priority: level0 Active Ports: 0 Ports Link_Status port_state 1/1/31 1/1/32 1/1/33 1/1/34 1/1/35 down down down down down Blocked Blocked Blocked Blocked Blocked Link Aggregation Config Information : Long timeout: 120, default: 120 Short timeout: 3, default: 3 Port [Sys P] [Port P] [ Key ] [Act][Tio][Agg][Syn][Col][Dis][Def][Exp][Ope] 1/1/1 1 1 10000 Yes S Agg Syn Col Dis Def No Dwn Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 77 3 Packet-capture debug commands 1/1/2 1/1/3 1/1/4 1 1 1 1 1 1 10000 10000 10000 Yes Yes Yes Mac table Information : ---------------------Total active entries from all ports = 30 MAC-Address Port Type 748e.f811.6300 1/1/1 Dynamic 0024.382c.d700 1/1/3 Dynamic 0030.6e8a.e801 1/1/4 Dynamic e41f.13b9.3612 1/1/4 Dynamic e41f.1367.438c 1/1/5 Dynamic 000c.29f7.d55a 1/1/6 Dynamic S S S Agg Agg Agg Syn Syn Syn Col Col Col Dis Dis Dis Def Def Def No No No Dwn Ina Ina Index 3588 1466 11398 14856 6074 7650 Dot1x Port Security Information : PAE Capability : Authenticator Only system-auth-control : Enable re-authentication : Disable global-filter-strict-security : Enable quiet-period : 60 Seconds tx-period : 30 Seconds supptimeout : 30 Seconds servertimeout : 30 Seconds maxreq : 2 reAuthMax : 2 re-authperiod : 3600 Seconds Protocol Version : 1 Mac Security Information : ------------------------Port Security Violation Shutdown-Time Age-Time Max-MAC ------- -------- --------- ------------- --------- ------1/1/1 disabled shutdown permanent permanent 1 1/1/2 disabled shutdown permanent permanent 1 1/1/3 disabled shutdown permanent permanent 1 1/1/4 disabled shutdown permanent permanent 1 1/1/5 disabled shutdown permanent permanent 1 1/1/6 disabled shutdown permanent permanent 1 1/1/7 disabled shutdown permanent permanent 1 1/1/8 disabled shutdown permanent permanent 1 1/1/9 disabled shutdown permanent permanent 1 1/1/10 disabled shutdown permanent permanent 1 1/1/11 disabled shutdown permanent permanent 1 1/1/12 disabled shutdown permanent permanent 1 port security statistics Unit/Module 1/1: Total ports: 0 Total MAC address(es): 0 Total violations: 0 Total shutdown ports 0 Unit/Module 1/2: Total ports: 0 Total MAC address(es): 0 Total violations: 0 Total shutdown ports 0 MRP Information : 78 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 ---------------Total MRP entries configured = 2 Metro Ring 1 ============= Ring State id 1 disabled Ring role member Master vlan 30 Topo group not conf Hello time(ms) 100 Prefwing time(ms) 300 Ring interfaces Interface role Forwarding state Active interface interface type ethernet 1/1/1 primary disabled none regular ethernet 1/1/5 secondary disabled none regular RHPs sent 0 RHPs rcvd 0 Metro Ring 2 ============= Ring State id 2 enabled TC RBPDUs rcvd 0 Ring role member Master vlan 31 Topo group 2 Hello time(ms) 100 State changes 0 Prefwing time(ms) 300 Ring interfaces Interface role Forwarding state Active interface interface type ethernet 1/1/31 primary disabled none regular ethernet 1/1/36 secondary disabled none regular RHPs sent 0 RHPs rcvd 0 TC RBPDUs rcvd 0 State changes 2 VSRP Information: ----------------Total number of VSRP routers defined: 1 VLAN 35 auth-type no authentication VRID 1 ======== State Administrative-status Advertise-backup Preempt-mode save-current master enabled disabled true false Parameter priority hello-interval dead-interval hold-interval initial-ttl Configured 100 1 3 3 2 next hello sent in Member ports: Operational ports: Forwarding ports: Restart ports: Current 5 1 3 3 2 Unit/Formula (100-0)*(1.0/20.0) sec/1 sec/1 sec/1 hops 00:00:00.9 ethe 1/1/1 to 1/1/9 ethe 1/1/31 to 1/1/45 ethe 1/1/4 ethe 1/1/4 None show tech-support memory Syntax: show tech-support memory This command displays the memory information of the device. Brocade# show tech-support memory MEMORY Related Information : Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 79 3 Packet-capture debug commands Stack unit 1: Total DRAM: 268435456 bytes Dynamic memory: 196669440 bytes total, 130510848 bytes free, 33% used FLASH Related Information : Stack unit 1: Compressed Pri Code size = 7091393, Compressed Sec Code size = 7063608, Compressed Boot-Monitor Image size = 369292, Version:07.1.00T7f5 Code Flash Free Space = 50462720 DM-Memory Related Information : memory tracking has run 00:00:00 malloc 0 times, 0 B, free: # 0 , 0 B, not in: 0 alloc in-use avail get-fail limit mem-ptr pool 200 0 200 0 10000 stack pool 100 0 100 0 1000 mem-ptr hash: size=0, anch=503, pool: s=503, use=0, fail=0 stack hash: size=0, anch=209, pool: s=209, use=0, fail=0 get-mem 0 0 size init 12 200 64 100 show tech-support cpu Syntax: show tech-support cpu This command displays CPU usage and CPU utilization information. Brocade# show tech-support cpu CPU Usage Information. 4 percent busy, from 1931 sec ago 1 sec avg: 1 percent busy 5 sec avg: 1 percent busy 60 sec avg: 1 percent busy 300 sec avg: 1 percent busy CPU Utilization information.(5 -Times) idle pid 0 id 1 cpu 102738 usage main pid 1 id 1 cpu 102738 usage flash pid 0 id 1 cpu 102738 usage loop cnt: 168752871 168752871 -> 0 read cnt: 67897 67897 -> 0 loop rate = 0/1 = 0 rcode = 100 - (100*0/2300) = 100 99/100 busy, from 0 sec ago CPU(per process) usage Process Name 5Sec(%) ARP 0.01 BGP 0.00 DOT1X 0.00 GVRP 0.00 ICMP 0.00 IP 0.00 OSPF 0.00 RIP 0.00 STP 0.01 VRRP 0.00 Process Name 5Sec(%) IPv6 0.01 ICMP6 0.01 80 Information. 1Min(%) 5Min(%) 0.01 0.02 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.01 0.00 0.00 1Min(%) 5Min(%) 0.01 0.01 0.02 0.02 0 21 0 15Min(%) 0.02 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 15Min(%) 0.01 0.02 Runtime(ms) 1639 0 0 0 519 489 0 2 1078 392 Runtime(ms) 1053 1723 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 3 Packet-capture debug commands ND6 RIPng OSPFv3 IPV6_RX 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 7 4 0 0 show tech-support stacking Syntax: show tech-support stacking This command displays the information from the show stacking, show stack IPC, and show stack port statistics commands. Brocade# show tech-support stacking ID Type Role Mac Address Pri State 1 S FCX648S member 0020.2222.7700 0 remote 2 S FCX624S active 0200.2222.0200 128 local 3 S FCX624S standby 0200.2222.5018 128 remote 4 S FCX624S member 0200.0022.0000 0 remote standby active +---+ +---+ +---+ +---+ | 4 |2/2--2/1| 3 |2/2--2/1| 2 |2/2--2/1| 1 | +---+ +---+ +---+ +---+ Comment Ready Ready Ready Ready Standby u3 - protocols ready, can failover or manually switch over Current stack management MAC is 0200.2222.0200 Note: no "stack mac" config. My MAC will change after failover. Stack Port Status Neighbors Unit# Stack-port1 Stack-port2 Stack-port1 1 up (1/2/1) none unit2 (2/2/2) 2 up (2/2/1) up (2/2/2) unit3 (3/2/2) (1/2/1) 3 up (3/2/1) up (3/2/2) unit4 (4/2/2) (2/2/1) 4 none up (4/2/2) none (3/2/1) Unit# System uptime 1 9 hours 55 minutes 4 seconds 2 9 hours 55 minutes 4 seconds 3 9 hours 55 minutes 4 seconds 4 9 hours 55 minutes 4 seconds Stack-port2 none unit1 unit2 unit3 Stack Resource: alloc in-use avail get-fail limit get-mem size init register attribute 2400 2351 49 0 556800 3120 334 2400 general 12B data 32 5 27 0 7424 5 12 32 RB-tree node 4096 2355 1741 0 237568 2710 18 1024 variable length link 3113 4 3109 0 722216 4 8 3113 AU msg dev0 4092 0 4092 0 16368 5 16 4092 REL-IPC : Unit 1 statistics: Msgs sent: 34847 Msgs received: 9140, Pkt sends failed: 0 Message types sent: [9]=14769, [10]=19968, [11]=2, [13]=108, Message types received: [9]=9127, [10]=3, [13]=10, Session statistics: base-channel, unit 1, channel 0: Session state: established (last established 10 hours 6 seconds ago) Connections established: 1 Remote resets: 0, Reset packets sent: 0 Connection statistics (for current connection, if established): Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 81 3 Packet-capture debug commands Msgs sent: 10275, Msgs received: 9127 Atomic batches sent: 0, Atomic batches received: 0 Pkts sent: 20035, Pkts received: 18953 Msg bytes sent: 1292505, Msg bytes received: 809548 Pkt bytes sent: 1847500, Pkt bytes received: 1073716 Flushes requested: 58, Suspends: 0, Resumes: 0 Packets sent with data (DAT), ACKs, and window updates (WND): Other: 9, ACK: 9124, WND: 286, ACK+WND: 0 DAT: 10614, DAT+ACK: 2, DAT+WND: 0, DAT+ACK+WND: 0 Data retransmits done: 1164, Zero-window probes sent: 0 Dup ACK pkts rcvd: 382, Pkts rcvd w/dup data: 0 Pkts rcvd w/data past window: 0 Session statistics: ACL, unit 1, channel 3: Session state: established (last established 10 hours 6 seconds ago) Connections established: 1 Remote resets: 0, Reset packets sent: 0 Connection statistics (for current connection, if established): Msgs sent: 4496, Msgs received: 0 Atomic batches sent: 0, Atomic batches received: 0 Pkts sent: 4751, Pkts received: 4667 Msg bytes sent: 395648, Msg bytes received: 0 Pkt bytes sent: 494012, Pkt bytes received: 56004 Flushes requested: 0, Suspends: 0, Resumes: 0 Packets sent with data (DAT), ACKs, and window updates (WND): Other: 1, ACK: 0, WND: 0, ACK+WND: 0 DAT: 4750, DAT+ACK: 0, DAT+WND: 0, DAT+ACK+WND: 0 Data retransmits done: 254, Zero-window probes sent: 0 Dup ACK pkts rcvd: 171, Pkts rcvd w/dup data: 0 Pkts rcvd w/data past window: 0 Session statistics: rconsole-server-to-1, unit 1, channel 5: Session state: established (last established 10 hours 4 seconds ago) Connections established: 1 Remote resets: 0, Reset packets sent: 0 Connection statistics (for current connection, if established): Msgs sent: 94, Msgs received: 2 Atomic batches sent: 0, Atomic batches received: 0 Pkts sent: 91, Pkts received: 93 Msg bytes sent: 15451, Msg bytes received: 20 Pkt bytes sent: 17440, Pkt bytes received: 1312 Flushes requested: 72, Suspends: 0, Resumes: 0 Packets sent with data (DAT), ACKs, and window updates (WND): Other: 7, ACK: 1, WND: 0, ACK+WND: 0 DAT: 83, DAT+ACK: 0, DAT+WND: 0, DAT+ACK+WND: 0 Data retransmits done: 11, Zero-window probes sent: 0 Dup ACK pkts rcvd: 14, Pkts rcvd w/dup data: 0 Pkts rcvd w/data past window: 0 Stack Port Statistics: Port In Packets 1/2/1 0 1/2/2 0 2/2/1 24703759305 2/2/2 10874142581 3/2/1 24685721 3/2/2 718201 82 Out Packets 0 0 736749 10891730630 9760277389 2194754 In Errors 0 0 0 0 0 Out Errors 0 0 0 0 0 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 show tech-support packet-loss Syntax: show tech-support packet-loss This command displays the packet statistics information that helps in debugging packet loss scenarios. Brocade# show tech-support packet-loss Total Tx statistics : --------------------PP total Tx stats since last read: First read contains counters from previous setting. Total Ucast = 8, Total Bcast = 14, Total Mcast = 8, Cntl pkt=10634 Total Bridge Egress Filtered = 0, Total Congestion Drops = 0, Fwd restriction=0 Port Statistics. ---------------Port In Packets 1/1/1 0 1/1/2 0 1/1/3 15040 1/1/4 22325 1/1/5 0 1/1/6 0 1/1/7 0 1/1/8 0 1/1/9 0 1/1/10 0 1/1/11 0 1/1/12 0 1/1/13 0 1/1/14 0 1/1/15 0 1/1/16 0 1/1/17 0 1/1/18 0 1/1/19 0 1/1/20 0 1/1/21 0 1/1/22 0 1/1/23 0 1/1/24 0 1/1/25 0 1/1/26 0 1/1/27 0 1/1/28 0 1/1/29 0 1/1/30 0 Out Packets 0 0 15230 12399 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 In Errors 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Out Errors 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 show tech-support acl Syntax: show tech-support acl This command displays ACL configuration and ACL counters. Brocade# show tech-support acl ACL Config Information. ipv6 access-list bvs: 52 entries Standard IP access list 1 (hw usage : 2) permit any (hw usage : 1) Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 83 3 Packet-capture debug commands Standard IP access list 2 (hw usage : 2) permit any (hw usage : 1) Standard IP access list 3 (hw usage : 2) permit any (hw usage : 1) Standard IP access list 4 (hw usage : 2) permit any (hw usage : 1) Standard IP access list 5 (hw usage : 2) permit any (hw usage : 1) Extended IP access list 101 (hw usage : 3) permit tcp any any (hw usage : 1) permit ip host 192.168.2.2 any (hw usage : 1) Extended IP access list 102 (hw usage : 3) permit tcp any any (hw usage : 1) permit ip host 192.168.2.3 any (hw usage : 1) Extended IP access list 103 (hw usage : 3) permit tcp any any (hw usage : 1) permit ip host 192.168.2.4 any (hw usage : 1) ACL-ON-ARP list information: Port ACL ID Filter Count ve2 103 0 ve3 101 0 ve4 101 0 ACL Accounting Information : Traffic Policy - g_voip: General Counters: Port Region# Byte Count Packet Count ------------------ -------------------- ---------------------7 (4/1 - 4/12) 85367040 776064 All port regions 84367040 776064 Rate Limiting Counters: Port Region# Green Conformance Yellow Conformance Red Conformance --------------------------------- ------------------ ---------------7 (4/1 - 4/12) 329114195612139520 37533986897781760 0 All port regions 329114195612139520 37533986897781760 0 show tech-support l3 ipv4-uc Syntax: show tech-support l3 ipv4-uc This command displays the Layer 3 IPv4 unicast information. Brocade# show tech-support l3 ipv4-uc IP Cache: -------Total number of cache entries: 5 D:Dynamic P:Permanent F:Forward U:Us C:Complex Filter W:Wait ARP I:ICMP Deny K:Drop R:Fragment S:Snap Encap IP Address Next Hop MAC Type Port 1 65.1.1.5 DIRECT 0000.0000.0000 PU n/a 2 10.18.243.32 DIRECT 0000.0000.0000 PU n/a 84 Vlan Pri 0 0 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 3 20.20.20.4 DIRECT 0000.0000.0000 PU n/a 0 4 21.21.21.40 DIRECT 0000.0000.0000 PU n/a 0 5 255.255.255.255 DIRECT 0000.0000.0000 PU n/a 0 IP Interfaces: ------------Interface IP-Address OK? Method Status Protocol Eth 7/2 110.1.1.6 YES NVRAM admin. down down Eth 7/9 65.1.1.5 YES NVRAM up up Eth 7/10 20.20.20.4 YES NVRAM up up Eth 7/24 21.21.21.40 YES NVRAM up up Eth mgmt1 10.18.243.32 YES NVRAM up up Ve 3000 1.1.1.2 YES NVRAM down down IP Routing Table: --------------Total number of IP routes: 5, avail: 262139 (out of max 262144) B:BGP D:Connected R:RIP S:Static O:OSPF *:Candidate default Destination NetMask Gateway Port Cost Type 0.0.0.0 0.0.0.0 10.18.243.1 mgmt1 1 S 1 10.18.243.0 255.255.255.128 0.0.0.0 mgmt1 1 D 2 20.20.20.0 255.255.255.0 0.0.0.0 7/10 1 D 3 21.21.21.0 255.255.255.0 0.0.0.0 7/24 1 D 4 65.1.1.0 255.255.255.0 0.0.0.0 7/9 1 D IP Routing Summary: ----------------IP Routing Table - 5 entries: 4 connected, 1 static, 0 RIP, 0 OSPF, 0 BGP Number of prefixes: /0: 1 /24: 3 /25: 1 IP Ospf Trap : ------------Interface State Change Trap: Virtual Interface State Change Trap: Neighbor State Change Trap: Virtual Neighbor State Change Trap: Interface Configuration Error Trap: Virtual Interface Configuration Error Trap: Interface Authentication Failure Trap: Virtual Interface Authentication Failure Trap: Interface Receive Bad Packet Trap: Virtual Interface Receive Bad Packet Trap: Interface Retransmit Packet Trap: Virtual Interface Retransmit Packet Trap: Originate LSA Trap: Originate MaxAge LSA Trap: Link State Database Overflow Trap: Link State Database Approaching Overflow Trap: Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled IP Ospf Error : ---------------- The following are for debug. They may not mean error or warning. --IP Ospf Resource : ----------------alloc in-use avail allo-fail up-limit get-mem IP route info 264192 6 264186 0 264192 6 OSPF/IP route union 264192 5 264187 0 264192 6 OSPF route 264192 1 264191 0 264192 1 pool1 size 40B 2000 1 1999 0 37 pool2 size 64B 4000 1 3999 0 34 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 85 3 Packet-capture debug commands pool3 pool4 pool5 pool6 pool7 size size size size size 160B 260B 516B 1504B 45303B 32 16 32 32 16 alloc in-use distribute-list intf 64 simple link list 32 IP Ospf Neighbor Detail : ------------------------ 0 0 1 0 1 32 16 31 32 15 avail get-fail 0 64 0 32 0 0 0 0 0 limit 0 0 0 0 1 0 1 get-mem 14848 7424 Port Address Pri State Neigh Address Ev Op Cnt 1/1/4 11.1.1.2 1 FULL/DR 11.1.1.1 6 2 0 Life:39, area=0.0.0.0 IP Ospf Virtual-link : -------------------No ospf virtual-link entries available IP Ospf Virtual-neighbor : -----------------------No ospf virtual-neighbor entries available IP RIP Routes : ------------Destination Gateway Port Metric Aging-Timer Status 1.1.1.1255.255.255.01/10 IP RIP Interfaces : ----------------Interface Eth 7/9 : RIP Mode : V1 Route summarization : Enabled Poison reverse : On Authentication : Disabled Number of packets received : 2068 Number of packets transmitted : 1 Aging timeout value : 180 Garbage collection timeout : 120 Update time interval : 30 Last broadcast time : 29 Next regular update time : 28 Number of packets rejected : 0 size init 0 0 45 16 64 32 Neigh ID 11.1.1.1 Interface Eth 7/10 : RIP Mode : V1 Route summarization : Enabled Poison reverse : On Authentication : Disabled Number of packets received : 2067 Number of packets transmitted : 1 Aging timeout value : 180 Garbage collection timeout : 120 Update time interval : 30 Last broadcast time : 29 Next regular update time : 28 Number of packets rejected : 0 IP BGP Neighbors : ---------------Total number of BGP Neighbors: 1 1 IP Address: 65.1.1.25, AS: 2 (EBGP), RouterID: 0.0.0.0 86 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands 3 State: ACTIVE, Time: 16h36m54s, KeepAliveTime: 60, HoldTime: 180 Messages: Open Update KeepAlive Notification Refresh-Req Sent : 0 0 0 0 0 Received: 0 0 0 0 0 Last Connection Reset Reason:Unknown Notification Sent: Unspecified Notification Received: Unspecified Neighbor NLRI Negotiation: Peer configured for IPV4 unicast Routes TCP status not available IP BGP Routes : ------------Total number of BGP Routes: 3 Status A:AGGREGATE B:BEST b:NOT-INSTALLED-BEST C:CONFED_EBGP D:DAMPED E:EBGP H:HISTORY I:IBGP L:LOCAL M:LOCAL-MULTIPATH m:NON-LOCAL-MULTIPATH S:SUPPRESSED s:STALE Prefix Next Hop Metric LocPrf Weight Status 1 20.20.20.0/24 0.0.0.0 0 100 32768 BL AS_PATH: 2 21.21.21.0/24 0.0.0.0 0 100 32768 BL AS_PATH: 3 65.1.1.0/24 0.0.0.0 0 100 32768 BL AS_PATH: IP BGP Best Routes : -----------------Total number of BGP Routes: 3 Status codes: s suppressed, d damped, h history, * valid, > best, i internal, S stale Origin codes: i - IGP, e - EGP, ? - incomplete Network Next Hop Metric LocPrf Weight Path *> 20.20.20.0/24 0.0.0.0 0 100 32768 ? *> 21.21.21.0/24 0.0.0.0 0 100 32768 ? *> 65.1.1.0/24 0.0.0.0 0 100 32768 ? IP BGP Summary : -------------BGP4 Summary Router ID: 1.1.1.2 Local AS Number : 1 Confederation Identifier : not configured Confederation Peers: Maximum Number of Paths Supported for Load Sharing : 1 Number of Neighbors Configured : 1 Number of Routes Installed : 3 Number of Routes Advertising to All Neighbors : 3 Number of Attribute Entries Installed : 1 Neighbor Address AS# State Time Rt:Accepted Filtered Sent ToSend 65.1.1.25 2 ACTIV 16h36m54s 0 0 0 3 show tech-support l3 ipv6-uc Syntax: show tech-support l3 ipv6-uc This command displays the Layer 3 IPv6 unicast information. Brocade# show tech-support l3 ipv6-uc IPV6 Routing Table: ----------------IPv6 Routing Table - 1 entries: Type Codes: C - Connected, S - Static, R - RIP, O - OSPF, B - BGP Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 87 3 Packet-capture debug commands OSPF Sub Type Codes: O - Intra, Oi - Inter, O1 - Type1 external, O2 - Type2 external Type IPv6 Prefix Next Hop Router Interface Dis/Metric C 2001::/64 :: e 1/1/8 0/0 IPV6 Interfaces: ------------Routing Protocols : R - RIP O - OSPF Interface Status Routing Global Unicast Address Eth 1/1/8 up/up O 2001::1/64 IPV6 Routing Summary: ------------------IPv6 Routing Table - 1 entries: 1 connected, 0 static, 0 RIP, 0 OSPF, 0 BGP Number of prefixes: /64: 1 IPV6 Cache: ---------Total number of cache entries: 2 IPv6 Address Next Hop Port 1 2001::1 LOCAL e 1/1/8 2 fe80::768e:f8ff:fe2d:7a00 LOCAL e 1/1/8 IPV6 Neighbor: ----------Total number of Neighbor entries: 1 IPv6 Address LinkLayer-Addr State Age Port vlan IsR fe80::768e:f8ff:fe2d:5c80 748e.f82d.5c80 STALE 15 e 1/1/8 IPV6 OSPF Interfaces : -------------------Interface OSPF Status State e 1/1/8 enabled up DR IPV6 OSPF Neighbor: ------------------ 1 Area 0 Total number of neighbors in all states: 1 Number of neighbors in state Full : 1 RouterID Pri State DR BDR Interface[State] 172.26.67.67 1 Full 172.26.67.65 172.26.67.67 e 1/1/8 [DR] IPV6 OSPF Memory : ---------------Total Static Memory Allocated : 19508 bytes Total Dynamic Memory Allocated : 2750268 bytes Memory Type Size Allocated Max-alloc Alloc-Fails MTYPE_OSPF6_TOP 81956 1 1 0 MTYPE_OSPF6_LSA_HDR 56 6 9 0 MTYPE_OSPF6_RMAP_COMPILED 0 0 0 0 MTYPE_OSPF6_OTHER 20 0 1 0 MTYPE_THREAD_MASTER 84 1 1 0 MTYPE_OSPF6_AREA 107631 1 4 0 MTYPE_OSPF6_AREA_RANGE 22 0 16 0 MTYPE_OSPF6_SUMMARY_ADDRE 25 0 16 0 MTYPE_OSPF6_IF 274 1 64 0 MTYPE_OSPF6_NEIGHBOR 12471 1 32 0 MTYPE_OSPF6_ROUTE_NODE 21 3 4096 0 MTYPE_OSPF6_ROUTE_INFO 35 3 4096 0 MTYPE_OSPF6_PREFIX 20 0 16 0 MTYPE_OSPF6_LSA 73 6 4096 0 MTYPE_OSPF6_VERTEX 166 3 64 0 88 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Packet-capture debug commands MTYPE_OSPF6_SPFTREE 44 1 2 MTYPE_OSPF6_NEXTHOP 28 4 256 MTYPE_OSPF6_EXTERNAL_INFO 40 0 4096 MTYPE_THREAD 212 8 1024 MTYPE_OSPF6_LINK_LIST 20 3121 20480 MTYPE_OSPF6_LINK_NODE 12 29 20480 IPV6 OSPF Virtual-Link: ---------------------Index Transit Area ID Router ID Interface Address State 1 1 1.1.1.1 3003::2 P2P 3 0 0 0 0 0 0 IPV6 OPSF Virtual-neighbor: --------------------------Index Router ID Address State Interface 1 1.1.1.1 3002::1 Full ethe 2/3 IPV6 RIP Route : ---------------IPv6 RIP Routing Table is empty!IPV6 RIP Route: ---------------IPv6 RIP Routing Table is empty! show tech-support multicast Syntax: show tech-support multicast This command displays information specific to Layer 2 and Layer 3 multicast. Brocade# show tech-support multicast IGMP Group : ---------p-:physical, ST:static, QR:querier, EX:exclude, IN:include, Y:yes, N:no e3 : 1 groups, 1 group-port group p-port ST QR life mode source local 1 230.1.1.1 e3 no yes 260 EX 0 YES PIM Group : --------Total number of groups: 1 Index 1 Group 230.1.1.1 Group member at e3: EX 0, PIM Neighbor : -----------Total number of neighbors: 1 on 1 ports Port Phy_p Neighbor Holdtime Age e5 e5 101.101.101.20 180 180 UpTime 480 GenID 0x154A3D0E PIM Cache : --------Total 1 entries Example: (S G) in v40 (e2/3) cnt= : e2/3 is phy. of input v40, cnt: SW hit incl. drop HW: CAM switched, SW: cpu switched, OAR: SW one-arm-routing, VL: vlan trunking: TR(e3/3,e3/4): e3/3 is primary trunk port, e3/4 is real out p. Gre tnnl(OIF): tn5:e1/1: e1/1 is tunnel out-port tn5:TR(e1/1): e1/1 is primary-port of tunnel out-trunk FLAGS: fast/slow: could be HW switched or not pru: pruned from upstream Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 89 3 Packet-capture debug commands frag: packet fragmented, SW forwarded unless multicast-perf configured tag/tnnl: OIF has tagged/tunnel ports swL2/hwL2: SW or HW L2 forwarding age: send 1 pkt to cpu from HW switch to reset age 0L2C: no L2 CAM hash ClSr: has client on input port, never send prune even OIF empty drop: use cam to drop pkts if no OIFs. 1 (21.21.21.21 230.1.1.1) in e5 (e5), cnt=28 upstream neighbor=101.101.101.20 on e5 using ip route L3 (HW) 1: e3(VL1) fast=1 slow=0 pru=0 graft age=60s up-time=1m HW=1 L2-vidx=8188 has mll Multicast VLAN information : -------------------------Summary of all vlans. Please use "sh ip mu vlan " for details Version=2, Intervals: Query=125, Group Age=260, Max Resp=10, Other Qr=260 Multicast Group Table information : --------------------------------e3 : 1 groups, 1 group-port group p-port ST QR life mode 1 230.1.1.1 e3 no yes 260 EX Multicast Cache information : --------------------------vlan 10, 0 cache 90 source 0 local YES Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter 4 IP Debug Commands In this chapter • 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 ARP debug commands Address Resolution Protocol (ARP) is a standard protocol that enables a router to obtain the Media Access Control (MAC) address of an interface on another device when the router knows the IP address of the interface. ARP is enabled by default and cannot be disabled. The following commands perform actions related to ARP debugging. debug ip arp Syntax: [no] debug ip arp This command activates the debuggging of ARP packets. The variable specifies a particular route. Brocade# debug ip arp 29.29.29.53 ARP: packets debugging is on Brocade# show arp Total No. 1 2 3 number of ARP entries: 3, maximum capacity: 4000 IP Address MAC Address Type Age Port 29.29.29.53 748e.f834.1b60 Dynamic 0 2/1/15-2/1/16 200.200.200.45 0012.f2cf.c400 Dynamic 0 1/1/13-1/1/14 30.30.30.31 0024.3823.0f00 Dynamic 0 2/1/9-2/1/10 Status Valid Valid Valid Brocade# clear arp next hop router 29.29.29.53 ARP mapping deleted Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 91 4 BGP debug commands Brocade# ARP: sent packet oper=request, src 29.29.29.111 0024.3876.2c80: dst 29.29.29.53 0000.0000.0000: Port v29 ARP: sent packet oper=request, src 200.200.200.111 0024.3876.2c80: dst 200.200.200.45 0000.0000.0000: Port v2000 ARP: sent packet oper=request, src 30.30.30.111 0024.3876.2c80: dst 30.30.30.31 0000.0000.0000: Port v300 ARP: sent packet oper=request, src 10.20.67.111 0024.3876.2c80: dst 10.20.77.11 0000.0000.0000: Port mgmt1 debug ip arp inspection Syntax: [no] debug ip arp inspection This command activates ARP inspection debugging. Brocade# debug ip arp inspection ARP: inspection debugging is on BGP debug commands The following debug ip bgp commands display information about Border Gateway Protocol (BGP) IP transactions. debug ip bgp Syntax: [no] debug ip bgp This command enables common BGP debugging information to be displayed for all virtual routing and forwarding events (VRFs) or for a specific VRF. The variable refers to the IP address of the immediate neighbor. Brocade# debug ip bgp 77.1.34.10 updates BGP: neighbor 77.1.34.10 debugging is on Brocade# BGP: 77.1.34.10 rcv UPDATE w/attr: Origin=IGP AS_PATH=AS_CONFED_SEQUENCE(3) 64519 NextHop=77.1.34.10 MED=0 LOCAL_PREF=100 BGP: 77.1.34.10 rcv UPDATE 49.1.22.0/24 BGP: 77.1.34.10 rcv UPDATE w/attr: Origin=IGP AS_PATH=AS_CONFED_SEQUENCE(3) 64519 NextHop=77.1.34.10 MED=0 LOCAL_PREF=100 BGP: 77.1.34.10 rcv UPDATE 49.1.23.0/24 debug ip bgp events Syntax: [no] debug ip bgp events This command generates information about BGP events, such as connection attempts and keepalive timer activity. Brocade# debug ip bgp events BGP: events debugging is on Brocade# BGP: 77.1.34.10 rcv notification: CEASE Message BGP: 77.1.34.10 Peer went to IDLE state (Rcv Notification) BGP: 77.1.35.10 rcv notification: CEASE Message BGP: 77.1.35.10 Peer went to IDLE state (Rcv Notification) BGP: 77.1.34.10 sending Graceful Restart cap, rbit 0, fbit 0, time 120, length 6 BGP: 77.1.35.10 sending Graceful Restart cap, rbit 0, fbit 0, time 120, length 6 BGP: 77.1.34.10 rcv GR capability afi/safi=1/1 fbit 0 BGP: 77.1.34.10 Peer went to ESTABLISHED state 92 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 DHCP snooping debug commands BGP: BGP: BGP: BGP: BGP: BGP: 77.1.35.10 77.1.35.10 77.1.34.10 77.1.35.10 77.1.34.10 77.1.35.10 4 rcv GR capability afi/safi=1/1 fbit 0 Peer went to ESTABLISHED state rcv UPDATE EOR (0), waiting EOR 0 rcv UPDATE EOR (0), waiting EOR 0 sending EOR (safi 0)... sending EOR (safi 0)... debug ip bgp graceful-restart Syntax: [no] debug ip bgp graceful-restart Enable this command to receive information about BGP graceful restarts. The graceful restart feature minimizes disruptions in forwarding and route flapping when a router restarts. Brocade# debug ip bgp graceful-restart BGP: graceful-restart debugging is on BGP: 101.1.251.6 save graceful restart parameters, #RIB_out 101.1.251.6 RIB_out peer reset #RIB_out 2 (safi 0) BGP: 101.1.251.6 sending Graceful Restart cap, rbit 0, fbit BGP: 101.1.251.6 sending Graceful Restart cap, rbit 0, fbit BGP: 101.1.251.6 sending Graceful Restart cap, rbit 0, fbit BGP: 101.1.251.6 rcv GR capability afi/safi=1/1 fbit 1 BGP: 101.1.251.6 sending EOR (safi 0)... 2 (safi 0) 0, time 120, length 6 0, time 120, length 6 0, time 120, length 6 DHCP snooping debug commands Dynamic Host Configuration Protocol (DHCP) snooping enables the Brocade device to filter untrusted DHCP packets in a subnet. DHCP snooping can ward off man-in-the-middle (MiM) attacks, such as a malicious user posing as a DHCP server sending false DHCP server reply packets with the intention of misdirecting other users. DHCP snooping can also stop unauthorized DHCP servers and prevent errors due to user misconfiguration of the DHCP servers. Often, DHCP snooping is used together with Dynamic ARP Inspection (DAI) and IP Source Guard. debug ip dhcp_snooping Syntax: [no] debug ip dhcp_snooping This command activates the debugging of DHCP snooping activity. Brocade# debug ip dhcp_snooping DHCP SNOOPING: debugging is on ICMP debug commands The following debug ip icmp commands display information about Internal Control Message Protocol (ICMP) transactions. These commands are useful in determining if a router is sending or receiving ICMP messages, and for troubleshooting end-to-end connections. debug ip icmp events Syntax: [no] debug ip icmp events This command activates the ICMP events debugging. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 93 4 OSPF debug commands Brocade# debug ip icmp events ICMP: events debugging is on Brocade# ICMP: rcvd echo request packet of length 40 from 10.44.22.11 ICMP: send echo reply packet of length 60 to 10.44.22.11 ICMP: rcvd echo request packet of length 40 from 10.44.22.11 ICMP: send echo reply packet of length 60 to 10.44.22.11 ICMP: rcvd echo request packet of length 40 from 10.44.22.11 ICMP: send echo reply packet of length 60 to 10.44.22.11 ICMP: rcvd echo request packet of length 40 from 10.44.22.11 ICMP: send echo reply packet of length 60 to 10.44.22.11 Brocade# no debug ip icmp events ICMP: events debugging is off debug ip icmp packets Syntax: [no] debug ip icmp packets This command activates the ICMP packets debugging. Brocade# debug ip icmp packets ICMP: packets debugging is on Brocade# !SR_SWITCH_ROUTER!ICMP_DEBUG_RX ICMP: Received message from 10.44.22.11 to !SR_SWITCH_ROUTER!ICMP_DEBUG_RX ICMP: Received message from 10.44.22.11 to !SR_SWITCH_ROUTER!ICMP_DEBUG_RX ICMP: Received message from 10.44.22.11 to !SR_SWITCH_ROUTER!ICMP_DEBUG_RX ICMP: Received message from 10.44.22.11 to 10.44.22.36 port 1/1/1 size 40 10.44.22.36 port 1/1/1 size 40 10.44.22.36 port 1/1/1 size 40 10.44.22.36 port 1/1/1 size 40 Brocade# no debug ip icmp packets ICMP: packets debugging is off OSPF debug commands The following debug ip ospf commands display information about Open Shortest Path First (OSPF) transactions. debug ip ospf adj Syntax: [no] debug ip ospf adj This command displays information about OSPF adjacencies and authentication, including designated router (DR) and backup designated router (BDR) elections, sent and received hello packets, neighbor state transitions, and database description information. The variable refers to a specific adjacency event. Brocade# debug ip ospf adj Brocade# OSPF: broadcast hello to area 0.0.0.10 on intf 101.20.0.1 neigh: 0 OSPF: rcvd hello from 49.2.3.4 area 99 on intf 77.1.34.16 OSPF: rcvd hello from 45.116.116.1 area 10 on intf 101.1.251.17 OSPF: rcvd hello from 45.116.116.1 area 10 on intf 101.1.251.7 OSPF: rcvd hello from 45.116.116.1 area 10 on intf 101.1.91.16 OSPF: broadcast hello to area 0.0.0.10 on intf 77.36.2.1 neigh: 0 OSPF: broadcast hello to area 0.0.0.10 on intf 77.36.100.1 neigh: 0 94 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 OSPF debug commands OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: OSPF: broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello rcvd hello from broadcast hello rcvd hello from broadcast hello rcvd hello from broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello broadcast hello 4 to area 0.0.0.10 on intf 101.1.251.7 neigh: 1 to area 0.0.0.10 on intf 101.1.251.17 neigh: 1 to area 0.0.0.99 on intf 77.1.35.16 neigh: 1 to area 0.0.0.0 on intf 101.1.251.7 neigh: 1 to area 0.0.0.10 on intf 101.1.91.16 neigh: 1 to area 0.0.0.10 on intf 77.77.77.77 neigh: 0 to area 0.0.0.10 on intf 101.101.62.10 neigh: 0 to area 0.0.0.10 on intf 101.101.63.10 neigh: 0 to area 0.0.0.10 on intf 101.101.64.10 neigh: 0 to area 0.0.0.99 on intf 77.1.34.16 neigh: 1 to area 0.0.0.10 on intf 129.1.0.1 neigh: 0 to area 0.0.0.10 on intf 101.1.18.1 neigh: 0 to area 0.0.0.10 on intf 77.37.0.1 neigh: 0 to area 0.0.0.10 on intf 101.1.51.2 neigh: 0 to area 0.0.0.99 on intf 128.1.0.1 neigh: 0 45.116.116.1 area 0 on intf 101.1.251.7 to area 0.0.0.10 on intf 21.1.14.2 neigh: 0 41.41.41.41 area 99 on intf 77.1.35.16 to area 0.0.0.10 on intf 101.20.0.1 neigh: 0 49.2.3.4 area 99 on intf 77.1.34.16 to area 0.0.0.10 on intf 77.36.2.1 neigh: 0 to area 0.0.0.10 on intf 77.36.100.1 neigh: 0 to area 0.0.0.10 on intf 101.1.251.7 neigh: 1 to area 0.0.0.10 on intf 101.1.251.17 neigh: 1 to area 0.0.0.99 on intf 77.1.35.16 neigh: 1 to area 0.0.0.0 on intf 101.1.251.7 neigh: 1 debug ip ospf event Syntax: [no] debug ip ospf event This command displays information about internal OSPF events related to configuration or interaction with the standby management processor and interface state transitions. Brocade# debug ip ospf event OSPF: events debugging is on Brocade# OSPF: Interface ve 18 (101.1.18.1) state Waiting processing event Wait Timer OSPF: DR/BDR election for 101.1.18.1 on ve 18 OSPF: Neighbor 45.213.213.213 int v18, state 2_WAY processing event ADJACENCY_OK OSPF: send DBD to 45.213.213.213 on ve 18 flag 0x7 seq 0x18a3b9 len 32 OSPF: elect BDR(backup designated router): Router ID 45.213.213.213 IP interface 101.1.18.2 OSPF: elect DR(designated router): Router ID 77.77.77.77, IP interface 101.1.18.1 OSPF: Neighbor 45.116.116.1 int 2/1/21, state FULL processing event HELLO_RECEIVED OSPF: Neighbor 45.116.116.1 int v511, state FULL processing event HELLO_RECEIVED OSPF: Neighbor 45.116.116.1 int v911, state FULL processing event HELLO_RECEIVED OSPF: Neighbor 41.41.41.41 int v35, state FULL processing event HELLO_RECEIVED OSPF: Neighbor 45.213.213.213 int 2/1/14, state 2_WAY processing event HELLO_RECEIVED OSPF: Neighbor 45.116.116.1 int v511, state FULL processing event HELLO_RECEIVED OSPF: send DBD to 45.213.213.213 on ve 18 flag 0x7 seq 0x18a3b9 len 32 OSPF: Neighbor 49.2.3.4 int v34, state FULL processing event HELLO_RECEIVED OSPF: Neighbor 45.213.213.213 int v18, state EXCHANGE_START processing event HELLO_RECEIVED OSPF: Neighbor 45.213.213.213 int 4/1/12, state FULL processing event HELLO_RECEIVED Brocade# OSPF: Interface ethernet 4/1/12 (101.1.51.2) state Down processing event Interface Up Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 95 4 OSPF debug commands virtual interface 101.1.51.2 up, state changed to Other from Point To Point no deOSPF: Neighbor 45.213.213.213 int 4/1/12, state DOWN processing event HELLO_RECEIVED OSPF: Neighbor 45.213.213.213 int 4/1/12, state INITIALIZING processing event ONE_WAY bug ip OSPF: Neighbor 45.213.213.213 int 4/1/12, state INITIALIZING processing event HELLO_RECEIVED OSPF: Neighbor 45.213.213.213 int 4/1/12, state INITIALIZING processing event ONE_WAY ospOSPF: send DBD to 45.213.213.213 on ve 18 flag 0x7 seq 0x18a3b9 len 32 f event Brocade# no debug ip ospf event OSPF: events debugging is off debug ip ospf graceful-restart Syntax: [no] debug ip ospf graceful-restart Enable this command to receive information about OSPF graceful restart events, including restart phases, graceful Link-State Advertisement (LSA) transmit and receive activity, and syslog messages. Brocade# debug ip ospf graceful-restart OSPF: graceful-restart debugging is on Brocade# LSA flush rcvd Type:4 AdvRtr:83.83.10.11 LsId:45.213.213.213 LSA flush rcvd Type:4 AdvRtr:83.83.10.11 LsId:45.213.213.213 LSA flush rcvd Type:4 AdvRtr:45.116.116.1 LsId:45.205.205.205 LSA flush rcvd Type:4 AdvRtr:45.116.116.1 LsId:45.205.205.205 rcv GRACE LSA from 21.1.14.1, age 0, Adv 45.213.213.213 install new GraceLSA, int 269, neighbor 21.1.14.1, age 0 rcv Grace_LSA from 21.1.14.1, area 0.0.0.10 Recvd grace lsa id=50331648 state=8 0x2dd5d5d5 0x2dd5d5d5 age=0 gr-state=0 neighbor 21.1.14.1 entering graceful restart state, timer 120, lsa age 0, max 120, helping 0 flood grace LSA, AdvRtr:45.213.213.213, Age:0 rcv GRACE LSA from 101.1.51.1, age 0, Adv 45.213.213.213 install new GraceLSA, int 779, neighbor 101.1.51.1, age 0 rcv Grace_LSA from 101.1.51.1, area 0.0.0.10 Recvd grace lsa id=50331648 state=8 0x2dd5d5d5 0x2dd5d5d5 age=0 gr-state=0 neighbor 101.1.51.1 entering graceful restart state, timer 120, lsa age 0, max 120, helping 0 flood grace LSA, AdvRtr:45.213.213.213, Age:0 rcv GRACE LSA from 101.1.18.2, age 0, Adv 45.213.213.213 install new GraceLSA, int 2050, neighbor 101.1.18.2, age 0 rcv Grace_LSA from 101.1.18.2, area 0.0.0.10 Recvd grace lsa id=50331648 state=8 0x2dd5d5d5 0x2dd5d5d5 age=0 gr-state=0 neighbor 101.1.18.2 entering graceful restart state, timer 120, lsa age 0, max 120, helping 0 flood grace LSA, AdvRtr:45.213.213.213, Age:0 rcv GRACE LSA from 21.1.14.1, age 0, Adv 45.213.213.213 Update same instance GRACE LSA age to 0 in database, refresh neighbor 21.1.14.1 restart timer to 120 rcv GRACE LSA from 101.1.51.1, age 0, Adv 45.213.213.213 Update same instance GRACE LSA age to 0 in database, refresh neighbor 101.1.51.1 restart timer to 120 rcv GRACE LSA from 101.1.18.2, age 0, Adv 45.213.213.213 Update same instance GRACE LSA age to 0 in database, refresh neighbor 101.1.18.2 restart timer to 120 rcv GRACE LSA from 21.1.14.1, age 0, Adv 45.213.213.213 96 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 OSPF debug commands Update same instance GRACE LSA restart timer to 120 rcv GRACE LSA from 101.1.51.1, Update same instance GRACE LSA restart timer to 120 rcv GRACE LSA from 101.1.18.2, Update same instance GRACE LSA restart timer to 120 4 age to 0 in database, refresh neighbor 21.1.14.1 age 0, Adv 45.213.213.213 age to 0 in database, refresh neighbor 101.1.51.1 age 0, Adv 45.213.213.213 age to 0 in database, refresh neighbor 101.1.18.2 Brocade# no debug ip ospf graceful-restart OSPF: graceful-restart debugging is off debug ip ospf packet Syntax: [no] debug ip ospf packet [ detail | in | out | peer | port [ethernet | ve ] src-ip | type [ack | dd | hello | request | update]] • • • • • • • • • • • • • • detail —Refers to the level by bit 0 and 1 and stack trace send by bit 2. in—Refers only to the input. out—Refers only to the output. peer —Matches with the peer (advertisement router). port—Matches with the I/O port. ethernet —Refers to the stack ID, slot, or Ethernet port. ve —Refers to the number of the virtual Ethernet interface. src-ip —Matches with the src-ip option and only to the input. type—Matches with the packet type. ack—Refers to the acknowledgement of the packets received. dd—Refers to the number of days. hello—Refers to the hello interval period. request—Refers to the request sent from a client to a server. update—Refers to the update to the packets. This command generates information about the OSPF packets. Brocade# debug ip ospf packet Brocade# OSPF: recv from:21.1.14.1 to 224.0.0.5 Intf:e 2/1/14 LS-Ack L:104 Auth:0 ID:45.213.213.213 OSPF: recv from:101.1.18.2 to 224.0.0.5 Intf:ve 18 ID:45.213.213.213 LS-Ack L:104 Auth:0 OSPF: send to:224.0.0.5 Intf:ve 36 Hello L:44 Auth:0 ID:77.77.77.77 DR:77.36.2.1 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:ve 36 Hello L:44 Auth:0 ID:77.77.77.77 DR:77.36.100.1 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:ve 511 Hello L:48 Auth:0 ID:77.77.77.77 DR:101.1.251.7 BDR:101.1.251.6 OSPF: send to:224.0.0.5 Intf:e 2/1/14 Hello L:48 Auth:0 ID:77.77.77.77 DR:21.1.14.2 BDR:21.1.14.1 OSPF: send to:224.0.0.5 Intf:e 2/1/21 LS-Ack L:104 Auth:0 ID:77.77.77.77 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 97 4 OSPF debug commands OSPF: send to:224.0.0.5 Intf:e 2/1/21 Hello L:48 Auth:0 ID:77.77.77.77 DR:0.0.0.0 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:ve 35 Hello L:48 Auth:0 ID:77.77.77.77 DR:77.1.35.16 BDR:77.1.35.15 OSPF: send to:101.1.251.6 Intf:ve 511 Hello L:48 Auth:0 ID:77.77.77.77 DR:0.0.0.0 BDR:0.0.0.0 OSPF: send to:101.1.18.2 Intf:e 4/1/12 Hello L:48 Auth:0 ID:77.77.77.77 DR:0.0.0.0 BDR:0.0.0.0 OSPF: recv from:77.1.35.15 to 224.0.0.5 Intf:ve 35 LS-Ack L:104 Auth:0 ID:41.41.41.41 OSPF: recv from:101.1.251.18 to 101.1.251.17 Intf:e 2/1/21 Hello L:48 Auth:0 ID:45.116.116.1 DR:0.0.0.0 BDR:0.0.0.0 OSPF: recv from:77.1.34.10 to 224.0.0.5 Intf:ve 34 LS-Ack L:104 Auth:0 ID:49.2.3.4 OSPF: recv from:77.1.34.10 to 224.0.0.5 Intf:ve 34 Hello L:48 Auth:0 ID:49.2.3.4 DR:77.1.34.16 BDR:77.1.34.10 OSPF: recv from:101.1.251.18 to 224.0.0.5 Intf:e 2/1/21 LS-Upd L:136 Auth:0 ID:45.116.116.1 Cnt:3 OSPF: send to:224.0.0.5 Intf:ve 18 LS-Upd L:136 Auth:0 ID:77.77.77.77 Cnt:3 OSPF: send to:224.0.0.5 Intf:e 2/1/14 LS-Upd L:136 Auth:0 ID:77.77.77.77 Cnt:3 OSPF: send to:224.0.0.5 Intf:e 4/1/12 LS-Upd L:136 Auth:0 ID:77.77.77.77 Cnt:3 OSPF: send to:224.0.0.5 Intf:ve 34 LS-Upd L:136 Auth:0 ID:77.77.77.77 Cnt:3 OSPF: send to:224.0.0.5 Intf:ve 35 LS-Upd L:136 Auth:0 ID:77.77.77.77 Cnt:3 OSPF: recv from:101.1.251.6 to 224.0.0.5 Intf:ve 511 ID:45.116.116.1 Cnt:3 OSPF: send to:101.1.251.6 Intf:ve 511 LS-Ack L:84 Auth:0 ID:77.77.77.77 OSPF: recv from:101.1.91.18 to 224.0.0.5 Intf:ve 911 ID:45.116.116.1 Cnt:3 OSPF: send to:101.1.91.18 Intf:ve 911 LS-Upd L:136 Auth:0 LS-Upd L:136 Auth:0 LS-Ack L:84 Auth:0 ID:77.77.77.77 OSPF: recv from:21.1.14.1 to 224.0.0.5 Intf:e 2/1/14 LS-Upd L:136 Auth:0 ID:45.213.213.213 Cnt:3 OSPF: recv from:101.1.51.1 to 224.0.0.5 Intf:e 4/1/12 LS-Upd L:136 Auth:0 ID:45.213.213.213 Cnt:3 OSPF: recv from:101.1.18.2 to 224.0.0.5 Intf:ve 18 ID:45.213.213.213 Cnt:3 LS-Upd L:136 Auth:0 OSPF: recv from:21.1.14.1 to 224.0.0.5 Intf:e 2/1/14 LS-Ack L:84 Auth:0 ID:45.213.213.213 OSPF: recv from:101.1.18.2 to 224.0.0.5 Intf:ve 18 ID:45.213.213.213 LS-Ack L:84 Auth:0 OSPF: send to:224.0.0.5 Intf:ve 911 Hello L:48 Auth:0 ID:77.77.77.77 DR:101.1.91.16 BDR:101.1.91.18 OSPF: send to:224.0.0.5 Intf:loopback 1 Hello L:44 Auth:0 ID:77.77.77.77 DR:77.77.77.77 BDR:0.0.0.0 98 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 OSPF debug commands OSPF: send to:224.0.0.5 Intf:loopback DR:101.101.62.10 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:loopback DR:101.101.63.10 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:loopback DR:101.101.64.10 BDR:0.0.0.0 OSPF: send to:224.0.0.5 Intf:e 2/1/21 2 Hello L:44 Auth:0 ID:77.77.77.77 3 Hello L:44 Auth:0 ID:77.77.77.77 4 Hello L:44 Auth:0 ID:77.77.77.77 4 LS-Ack L:84 Auth:0 ID:77.77.77.77 OSPF: recv from:77.1.35.15 to 224.0.0.5 Intf:ve 35 ID:41.41.41.41 OSPF: recv from:77.1.34.10 to 224.0.0.5 Intf:ve 34 LS-Ack L:84 Auth:0 LS-Ack L:84 Auth:0 ID:49.2.3.4 OSPF: recv from:101.1.251.18 to 224.0.0.5 Intf:e 2/1/21 LS-Upd L:100 Auth:0 ID:45.116.116.1 Cnt:2 OSPF: send to:224.0.0.5 Intf:ve 18 LS-Upd L:100 Auth:0 ID:77.77.77.77 Cnt:2 OSPF: send to:224.0.0.5 Intf:e 2/1/14 LS-Upd L:100 Auth:0 ID:77.77.77.77 Cnt:2 OSPF: send to:224.0.0.5 Intf:e 4/1/12 LS-Upd L:100 Auth:0 ID:77.77.77.77 Cnt:2 OSPF: send to:224.0.0.5 Intf:ve 34 LS-Upd L:100 Auth:0 ID:77.77.77.77 Cnt:2 OSPF: send to:224.0.0.5 Intf:ve 35 LS-Upd L:100 Auth:0 ID:77.77.77.77 Cnt:2 OSPF: recv from:101.1.251.6 to 224.0.0.5 Intf:ve 511 LS-Upd L:100 Auth:0 ID:45.116.116.1 Cnt:2 OSPF: send to:101.1.251.6 Intf:ve 511 LS-Ack L:64 Auth:0 ID:77.77.77.77 OSPF: recv from:101.1.91.18 to 224.0.0.5 Intf:ve 911 ID:45.116.116.1 Cnt:2 OSPF: send to:101.1.91.18 Intf:ve 911 LS-Upd L:100 Auth:0 LS-Ack L:64 Auth:0 ID:77.77.77.77 OSPF: recv from:21.1.14.1 to 224.0.0.5 Intf:e 2/1/14 LS-Upd L:100 Auth:0 ID:45.213.213.213 Cnt:2 OSPF: recv from:101.1.51.1 to 224.0.0.5 Intf:e 4/1/12 LS-Upd L:100 Auth:0 ID:45.213.213.213 Cnt:2 OSPF: recv from:101.1.18.2 to 224.0.0.5 Intf:ve 18 ID:45.213.213.213 Cnt:2 OSPF: recv from:101.1.251.6 to 224.0.0.5 Intf:ve 511 ID:45.116.116.1 Cnt:20 OSPF: send to:224.0.0.5 Intf:ve 18 LS-Upd L:100 Auth:0 LS-Upd L:748 Auth:0 LS-Upd L:748 Auth:0 ID:77.77.77.77 Cnt:20 OSPF: send to:224.0.0.5 Intf:e 2/1/14 LS-Upd L:748 Auth:0 ID:77.77.77.77 Cnt:20 OSPF: send to:224.0.0.5 Intf:e 4/1/12 LS-Upd L:748 Auth:0 ID:77.77.77.77 Cnt:20 OSPF: send to:224.0.0.5 Intf:ve 34 LS-Upd L:748 Auth:0 ID:77.77.77.77 Cnt:20 OSPF: send to:224.0.0.5 Intf:ve 35 LS-Upd L:748 Auth:0 ID:77.77.77.77 Cnt:20 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 99 4 SNTP debug commands SNTP debug commands The following debug ip sntp command displays information about the Simple Network Time Protocol (SNTP) transactions. debug ip sntp Syntax: [no] debug ip sntp This command shows various traces related to the SNTP broadcast client. Brocade# debug ip sntp Brocade# Debug: Sep 28 16:36:21 Sending SNTP Query to 10.31.2.80 Debug: Sep 28 16:36:21 v4 SNTP Client Request Packet========== LI= 0, VN= 4, Mode= 3, Transmit TS = 3526241781.893512 to 10.31.2.80 Debug: Sep 28 16:36:21 sntp_check_authentication_common: ntpHdrLen=48, 0, 0 Debug: Sep 28 16:36:21 cu_get_time_utc_seconds_double: set_clock=3526241765, current ticks=1692712468, last tick=892897809, ntp_time_counter=893352, returned time=0 sec Debug: Sep 28 16:36:05 ^^^Delay calculation: (dest-org)=-17.04044246, (xmt-rec)=0 Delay=-17.04044246, org=35262417.81000000 x100, rec=35262417.81000000 x100, xmt=35262417.81000000 x100, dest=35262417.63959557 x100 Debug: Sep 28 16:36:05 ^^^Time offset calculation: (rec-org)=0, (dest-xmt)=-17.04044246, Offset=-8.52022123 Debug: Sep 28 16:36:21 SNTP Server Response Packet========== Debug: Sep 28 16:36:21 Leap = 0, Stratum= 4, Precision= -20, Delay=4120, Disp=1047, RefId=0xa461417 Reference TS = 3526241781.1097449706 Originate TS = 0 Receive TS = 0 Transmit TS = 0 **Dest TS = 0 Roundtrip delay = -17.04044246 (-17040.44246673 ms) Time Offset = -8.52022123 (-8520.22123336 ms) Debug: Sep 28 16:36:21 sntp_srvr_mode_handle_syncChange. 1, 0 Source Guard debug commands The following command display information about the Source Guard transactions. debug ip source_guard Syntax: [no] debug ip source_guard This command activates the IP Source Guard debugging. Brocade# debug ip source_guard SOURCE GUARD: debugging is on 100 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 SSH debug commands 4 SSH debug commands The following debug ip ssh command displays information about the Secure Shell (SSH) transactions. debug ip ssh Syntax: [no] debug ip ssh This command activates the SSH debugging. Brocade# debug ip ssh SSH: debugging is on Brocade(config)# SSH: Incoming connection request received SSH: ssh_get_free_session_id: ssh.client[0].in_use is 0 SSH: Client session (0) established SSH: Outgoing connection is ready ShtcpConnectionStatus[0]: connection established SSH:ShtcpSend[0]: eSendComplete: the string length [24] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [47] SSH:ShtcpSend[0]: eSendComplete: the string length [216] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [464] SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [144] SSH:ShtcpSend[0]: eSendComplete: the string length [640] ! SSH: Outgoing connection is ready SSH: Data is ready to receive SSH: Data is ready to receive SSH: Remote closed connection SSH: ssh_close_session# 0, No. of Clients# 0. ShtcpReceiveStatus[0]: Closed SSH: ShListen failed. ShtcpOpenPassive[0]: WaitingForConnection SSH: Incoming connection request received SSH: ssh_get_free_session_id: ssh.client[0].in_use is 0 SSH: Client session (0) established SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpConnectionStatus[0]: connection established ShtcpReceiveStatus[0]: the string length [47] Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 101 4 SSH debug commands SSH:ShtcpSend[0]: eSendComplete: the string length [24] ! ShtcpSendStatus[0]: eSendComplete SSH:ShtcpSend[0]: eSendComplete: the string length [216] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [464] SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [144] SSH:ShtcpSend[0]: eSendComplete: the string length [640] ! SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [16] ShtcpSendStatus[0]: eSendComplete SSH:ShtcpSend[0]: eSendComplete: the string length [16] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [52] SSH:ShtcpSend[0]: eSendComplete: the string length [104] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [68] SSH:ShtcpSend[0]: eSendComplete: the string length [68] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [116] SSH:ShtcpSend[0]: eSendComplete: the string length [36] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [68] SSH:ShtcpSend[0]: eSendComplete: the string length [52] ! ShtcpSendStatus[0]: eSendComplete SSH: Outgoing connection is ready 102 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 TCP debug commands 4 SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [148] SSH:ShtcpSend[0]: eSendComplete: the string length [36] ! SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [68] ShtcpSendStatus[0]: eSendComplete SSH:ShtcpSend[0]: eSendComplete: the string length [36] ! SSH: Outgoing connection is ready SSH: Data is ready to receive ShtcpReceiveStatus[0]: the string length [52] ShtcpSendStatus[0]: eSendComplete SSH:send_scp_data_to_ssh_client:buf len: 18, Qlen:18, Qaddr:256cd7e0, SSH: ShListen event for SSH session[0]. Qdepth# 1 SSH:ShtcpSend[0]: eSendComplete: the string length [36] ! ShtcpSendStatus[0]: eSendComplete SSH:ShtcpSend[0]: eSendComplete: the string length [68] ! ShtcpSendStatus[0]: eSendComplete SSH:ssh_event_handler: Freeing tx_buf 18, QAddress: 256cd7e0 SSH: Outgoing connection is ready SSH: Outgoing connection is ready Brocade# no debug ip ssh SSH: debugging is off TCP debug commands The following debug ip tcp commands display information about the Transmission Control Protocol (TCP) transactions. debug ip tcp driver Syntax: [no] debug ip tcp driver This command activates the TCP driver events debugging. Brocade# debug ip tcp driver TCP: driver debugging is on debug ip tcp memory Syntax: [no] debug ip tcp memory This command activates the TCP memory debugging. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 103 4 UDP debug commands Brocade# debug ip tcp memory TCP: memory debugging is on debug ip tcp packet Syntax: [no] debug ip tcp packet This command activates the TCP packets debugging. Brocade# debug ip tcp packet TCP: packet debugging is on debug ip tcp sack Syntax: [no] debug ip tcp sack This command activates the TCP Selective Acknowledgment (SACK) debugging. Brocade# debug ip tcp sack TCP: sack debugging is on debug ip tcp transactions Syntax: [no] debug ip tcp transactions This command activates the TCP transactions debugging. Brocade# debug ip tcp transactions TCP: transactions debugging is on UDP debug commands The following debug ip udp command displays information about the User Datagram Protocol (UDP) transactions. debug ip udp Syntax: [no] debug ip udp This commands activates the UDP debugging. Brocade# debug ip udp UDP: debugging is on VRRP and VRRP-E debug commands Use the following commands to filter the Virtual Router Redundancy Protocol (VRRP) and Virtual Router Redundancy Protocol - Extended (VRRP-E) messages for IPv4 or IPv6, and to debug specific IPv4 or IPv6 packets within the router. debug ip vrrp packet Syntax: [no] debug ip vrrp packet This command displays debugging information of any VRRP or VRRP-E packets within the device. 104 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 VRRP and VRRP-E debug commands 4 Brocade# debug ip vrrp packet VRRP: packet debugging is on VRRP (IPv6): send advertise! ver:3 type:1 vrid:100 pri:255 num of ip:1 adv:100 chk:44853 Num of ip addr 1 2000::7:1 VRRP (IPv4): rcvd packet! ver:2 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:1 chk:52198 Num of ip addr 1 10.10.10.2 from sender 10.10.10.2 VRRP (IPv6): rcvd packet! ver:3 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:100 chk:53518 Num of ip addr 1 fe80::7:2 from sender 2000::7:2 VRRP (IPv6): rcvd packet! ver:3 type:1 vrid:11 pri:255 #ip:1 aut:0 adv:200 chk:53417 Num of ip addr 1 fe80::8:2 from sender :: debug ip vrrp packet v4 Syntax: [no] debug ip vrrp packet v4 This command displays debugging information of VRRP or VRRP-E packets specific to IPv4 within the device. Brocade# debug ip vrrp packet v4 VRRP (IPv4): packet debugging is on VRRP (IPv4): rcvd packet! ver:2 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:1 chk:52198 Num of ip addr 1 10.10.10.2 from sender 10.10.10.2 VRRP (IPv4): rcvd packet! ver:2 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:1 chk:52198 Num of ip addr 1 10.10.10.2 from sender 10.10.10.2 VRRP (IPv4): rcvd packet! ver:2 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:1 chk:52198 Num of ip addr 1 10.10.10.2 from sender 10.10.10.2 debug ip vrrp packet v6 Syntax: [no] debug ip vrrp packet v6 This command displays debugging information of VRRP or VRRP-E packets specific to IPv6 within the device. Brocade# debug ip vrrp packet v6 VRRP (IPv6): packet debugging is on VRRP (IPv6): rcvd packet! ver:3 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:100 chk:53518 Num of ip addr 1 fe80::7:2 from sender 2000::7:2 VRRP (IPv6): rcvd packet! ver:3 type:1 vrid:11 pri:255 #ip:1 aut:0 adv:200 chk:53417 Num of ip addr 1 fe80::8:2 from sender :: VRRP (IPv6): send advertise! ver:3 type:1 vrid:100 pri:255 num of ip:1 adv:100 chk:44853 Num of ip addr 1 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 105 4 Web debug commands 2000::7:1 VRRP (IPv6): rcvd packet! ver:3 type:1 vrid:10 pri:255 #ip:1 aut:0 adv:100 chk:53518 Num of ip addr 1 fe80::7:2 from sender 2000::7:2 10.10.10.2 from sender 10.10.10.2 debug ip vrrp events Syntax: [no] debug ip vrrp events This command displays debugging information of VRRP events only within the device. Brocade# debug ip vrrp events VRRP: events debugging is on [44fd]VRRP (IPv4): 10.10.10.1 transit to master! IP addr 10.10.10.2 vrid 10, pri 100 [44fd]VRRP (IPv6): fe80::7:1 transit to master! IP addr fe80::7:1 vrid 10, pri 100 [4511]VRRP (IPv6): fe80::8:1 transit to master! IP addr fe80::8:1 vrid 11, pri 255 debug ip vrrp vrid Syntax: [no] debug ip vrrp vrid This command filters VRRP or VRRP-E debugging using a virtual router identifier (VRID). The variable refers to the VRID. Brocade# debug ip vrrp vrid 100 Debug VRID: 100 for both IPv4 and IPv6 instances Web debug commands The following debug ip web commands display information about the web transactions. debug ip web Syntax: [no] debug ip web This command activates the web debugging. Brocade# debug ip web WEB: debugging is on debug ip web-ssl Syntax: [no] debug ip web-ssl This commands activates web Secured Socket Layer (SSL) debugging. Brocade# debug ip web-ssl WEB SSL: debugging is on 106 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter IPv6 Debug Commands 5 In this chapter • General IPv6 debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 • IPv6 MLD debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 General IPv6 debug commands The debug ipv6 command enables the collection of information about IPv6 configurations for troubleshooting. debug ipv6 Syntax: debug ipv6 • • • • • • • —The IPv6 address. —The IPv6 cache entry. —The Internet Control Message Protocol version 6 (ICMPv6) address. —The Multicast Listener Discovery (MLD) protocol activity. —The neighbor discovery. —The IPv6 packet. —The router address. IPv6 MLD debug commands The following debug commands enable the functions related to Multicast Listening Discovery (MLD) debugging. debug ipv6 mld Syntax: [no] debug ipv6 mld This command displays the debugging information about the received and sent packets of the MLD. Brocade# debug ipv6 mld Brocade# MLD: rcvd Report-V1(ty=131) g=ff03::26:2641 resp=0, pkt S=fe80::200:3aff:fe01:3a86, on VL611 (phy 1/3/8), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff03::26:2642 resp=0, pkt S=fe80::200:3aff:fe01:3a86, on VL611 (phy 1/3/8), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff03::26:2643 resp=0, pkt S=fe80::200:3aff:fe01:3a86, on VL611 (phy 1/3/8), mld_size=24 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 107 5 IPv6 MLD debug commands MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, MLD: rcvd Report-V1(ty=131) S=fe80::200:3aff:fe01:3a86, g=ff03::26:2644 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:2645 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:2646 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:2647 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:2648 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:2649 resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 g=ff03::26:264a resp=0, pkt on VL611 (phy 1/3/8), mld_size=24 debug ipv6 mld add-del-oif Syntax: [no] debug ipv6 mld add-del-oif This command is enabled with the MLD debug ipv6 mcache-source or debug ipv6 mcache-group commands at the same time. Brocade# debug ipv6 mld show debug ip6 mld mcache-source 50F5 is enabled debug ip6 mld add-del-oif is enabled Brocade# show ipv6 mld mcache Example: (S G) cnt=: (S G) are the lowest 32 bits, cnt: SW proc. count OIF: 1/1/22 TR(1/1/32,1/1/33), TR is trunk, 1/1/32 primary, 1/1/33 output vlan 400, 0 cache vlan 601, 0 cache vlan 602, 0 cache vlan 701, 0 cache vlan 888, 0 cache vlan 1000, 5 caches. use 1 VIDX 1 (* 24:2402) cnt=85 OIF: tag TR(3/1/12) 7/1/17 age=0m up-time=24m, change=24m vidx=4130 (ref-cnt=0) 2 (* 24:2403) cnt=87 OIF: tag TR(3/1/12) 7/1/17 age=0m up-time=24m, change=24m vidx=4130 (ref-cnt=0) 3 (* 24:2404) cnt=249 OIF: tag TR(3/1/12) 7/1/17 age=0m up-time=24m, change=24m vidx=4130 (ref-cnt=0) 4 (* 24:2400) cnt=88 OIF: tag TR(3/1/12) 7/1/17 age=0m up-time=24m, change=24m vidx=4130 (ref-cnt=0) 5 (* 24:2401) cnt=254 OIF: tag TR(3/1/12) 7/1/17 age=0m up-time=24m, change=24m vidx=4130 (ref-cnt=0) Brocade# Debug: Sep 19 17:39:49 Del 7/1/17 from (0x0 0x242404) vlan 1000 Debug: Sep 19 17:39:49 Del 7/1/17 from (0x0 0x242403) vlan 1000 Debug: Sep 19 17:39:49 Del 7/1/17 from (0x0 0x242402) vlan 1000 Debug: Sep 19 17:39:49 Del 7/1/17 from (0x0 0x242401) vlan 1000 Debug: Sep 19 17:39:49 Del 7/1/17 from (0x0 0x242400) vlan 1000 Brocade# show ipv6 mld mcache Example: (S G) cnt=: (S G) are the lowest 32 bits, cnt: SW proc. count OIF: 1/1/22 TR(1/1/32,1/1/33), TR is trunk, 1/1/32 primary, 1/1/33 output vlan 400, 0 cache vlan 601, 0 cache 108 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IPv6 MLD debug commands 5 vlan vlan vlan vlan 1 602, 0 cache 701, 0 cache 888, 0 cache 1000, 5 caches. use 1 VIDX (* 24:2402) cnt=85 OIF: tag TR(3/1/12) age=1m up-time=25m, change=25m vidx=4131 (ref-cnt=0) HW-AGE 2 (* 24:2403) cnt=87 OIF: tag TR(3/1/12) age=1m up-time=25m, change=25m vidx=4131 (ref-cnt=0) HW-AGE 3 (* 24:2404) cnt=249 OIF: tag TR(3/1/12) age=1m up-time=25m, change=25m vidx=4131 (ref-cnt=0) HW-AGE 4 (* 24:2400) cnt=88 OIF: tag TR(3/1/12) age=1m up-time=25m, change=25m vidx=4131 (ref-cnt=0) HW-AGE 5 (* 24:2401) cnt=254 OIF: tag TR(3/1/12) age=1m up-time=25m, change=25m vidx=4131 (ref-cnt=0) HW-AGE Brocade#D ebug: Sep 19 17:40:45 Add 7/1/17 to (0x0 0x242400) vlan 1000 Debug: Sep 19 17:40:45 Add 7/1/17 to (0x0 0x242401) vlan 1000 Debug: Sep 19 17:40:45 Add 7/1/17 to (0x0 0x242402) vlan 1000 Debug: Sep 19 17:40:45 Add 7/1/17 to (0x0 0x242403) vlan 1000 Debug: Sep 19 17:40:45 Add 7/1/17 to (0x0 0x242404) vlan 1000 Brocade# show ipv6 mld mc Example: (S G) cnt=: (S G) are the lowest 32 bits, cnt: SW proc. count OIF: 1/1/22 TR(1/1/32,1/1/33), TR is trunk, 1/1/32 primary, 1/1/33 output vlan 400, 0 cache vlan 601, 0 cache vlan 602, 0 cache vlan 701, 0 cache vlan 888, 0 cache vlan 1000, 5 caches. use 1 VIDX 1 (* 24:2402) cnt=88 OIF: 7/1/17 tag TR(3/1/12) age=0m up-time=25m, change=25m vidx=4130 (ref-cnt=0) 2 (* 24:2403) cnt=88 OIF: 7/1/17 tag TR(3/1/12) age=0m up-time=25m, change=25m vidx=4130 (ref-cnt=0) 3 (* 24:2404) cnt=416 OIF: 7/1/17 tag TR(3/1/12) age=0m up-time=25m, change=25m vidx=4130 (ref-cnt=0) 4 (* 24:2400) cnt=90 OIF: 7/1/17 tag TR(3/1/12) age=0m up-time=25m, change=25m vidx=4130 (ref-cnt=0) 5 (* 24:2401) cnt=421 OIF: 7/1/17 tag TR(3/1/12) age=0m up-time=25m, change=25m vidx=4130 (ref-cnt=0) debug ipv6 mld add-del-oif all Syntax: [no] debug ipv6 mld add-del-oif all This command monitors outgoing interfaces (OIFs) that are added or deleted for all the MLD groups. Brocade# debug ipv6 mld add-del-oif all Brocade# debug ipv6 mld show debug ip6 mld mcache-source 681D is enabled Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 109 5 IPv6 MLD debug commands debug ip6 mld add-del-oif all is enabled Brocade# Debug: Sep 16 Debug: Sep 16 00:06:37 Debug: Sep 16 00:06:37 Debug: Sep 16 00:06:37 Debug: Sep 16 00:06:37 00:06:37 Del 7/1/17 from (0x0 0x252504) vlan 1000 Del 7/1/17 from (0x0 0x252503) vlan 1000 Del 7/1/17 from (0x0 0x252502) vlan 1000 Del 7/1/17 from (0x0 0x252501) vlan 1000 Del 7/1/17 from (0x0 0x252500) vlan 1000 Brocade# Debug: Sep 16 Debug: Sep 16 00:07:09 Debug: Sep 16 00:07:09 Debug: Sep 16 00:07:09 Debug: Sep 16 00:07:09 00:07:09 Add 7/1/17 Add 7/1/17 to (0x0 Add 7/1/17 to (0x0 Add 7/1/17 to (0x0 Add 7/1/17 to (0x0 to (0x0 0x252500) vlan 1000 0x252501) vlan 1000 0x252502) vlan 1000 0x252503) vlan 1000 0x252504) vlan 1000 debug ipv6 mld add-del-oif stack Syntax: [no] debug ipv6 mld add-del-oif stack This command displays the MLD stack trace. Brocade# debug ipv6 mld add-del-oif stack Brocade# debug ipv6 mld show debug ip6 mld mcache-source 681D is enabled debug ip6 mld add-del-oif stack is enabled Brocade# Debug: Sep 16 00:33:08 MLD Snoop: Create (0x0 0x252502) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 2064096C 206414A8 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 7/1/17 to (0x0 0x252502) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20640EB4 20642100 208C0D68 2064217C 20641554 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 3/1/12 to (0x0 0x252502) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20641588 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 MLD Snoop: Create (0x0 0x252503) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 2064096C 206414A8 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 7/1/17 to (0x0 0x252503) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20640EB4 20642100 208C0D68 2064217C 20641554 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 3/1/12 to (0x0 0x252503) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20641588 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 MLD Snoop: Create (0x0 0x252504) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 2064096C 206414A8 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 7/1/17 to (0x0 0x252504) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20640EB4 20642100 208C0D68 2064217C 20641554 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 3/1/12 to (0x0 0x252504) vlan 1000 110 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IPv6 MLD debug commands 5 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20641588 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 MLD Snoop: Create (0x0 0x252500) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 2064096C 206414A8 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 7/1/17 to (0x0 0x252500) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20640EB4 20642100 208C0D68 2064217C 20641554 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 3/1/12 to (0x0 0x252500) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20641588 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 MLD Snoop: Create (0x0 0x252501) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 2064096C 206414A8 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 7/1/17 to (0x0 0x252501) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20640EB4 20642100 208C0D68 2064217C 20641554 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 Debug: Sep 16 00:33:08 Add 3/1/12 to (0x0 0x252501) vlan 1000 Debug: Sep 16 00:33:08 stack: 20C3DA54 20640AB8 20641588 20732A14 202884C4 204C1EEC 204C2288 204C235C 204C2420 20569EF0 205F0474 2056E85C 205F23E8 5010 15B58 1AAF4 debug ipv6 mld clear Syntax: [no] debug ipv6 mld clear This command clears all the MLD debug settings. Brocade# debug ipv6 mld clear no debug ipv6 mld is enabled debug ipv6 mld detail Syntax: [no] debug ipv6 mld detail This command displays the details of the MLD messages. Brocade# debug ipv6 mld detail Brocade# debug ipv6 mld show debug ip6 mld is enabled debug ip6 mld detail is enabled Brocade# Debug: Sep 19 16:25:34 MLD: rcvd Leave(ty=132) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2400 to VL1000(ethe 7/1/21 ) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD: rcvd Leave(ty=132) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2401 to VL1000(ethe 7/1/22 ) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD: rcvd Leave(ty=132) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2402 to VL1000(ethe 7/1/23 ) rsp=10000 mld=24B, pkt=86B Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 111 5 IPv6 MLD debug commands Debug: Sep 19 16:25:34 MLD: rcvd Leave(ty=132) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2403 to VL1000(ethe 7/1/21 ) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD: rcvd Leave(ty=132) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2404 to VL1000(ethe 7/1/22 ) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2404 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2403 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2402 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2401 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:34 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2400 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:35 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2404 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:35 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2403 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:35 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2402 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:35 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2401 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B Debug: Sep 19 16:25:35 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 ff04::24:2400 to VL1000(ethe 7/1/21 ) rsp=1000 mld=24B, pkt=86B debug ipv6 mld group Syntax: [no] debug ipv6 mld group This command debugs the MLD group matching. The variable specifies the address of the IPv6 route. Brocade# debug ipv6 mld group ff03::26:2641 Brocade# debug ipv6 mld show debug ip6 mld group ff03::26:2641 is enabled Brocade# MLD send Query(t=130) V1, s=fe80::224:38ff:fe26:d900 0000::0000 to VL888(all) rsp=10000 mld=24B, pkt=86B MLD: rcvd Report-V1(ty=131) g=ff03::26:2641 resp=0, pkt S=fe80::200:3aff:fe01:3a86, on VL611 (phy e6/48), mld_size=24 MLD: rcvd Leave(ty=132) g=ff03::26:2641 resp=0, pkt S=fe80::200:3aff:fe01:3a86, on VL611 (phy e6/48), mld_size=24 MLD: rcvd Query(ty=130) V1 g=ff03::26:2641 resp=10000, pkt S=fe80::21b:f3ff:fe84:124, on VL611 (phy e8/1), mld_size=24 MLD: rcvd Query(ty=130) V1 g=ff03::26:2641 resp=1000, pkt S=fe80::21b:f3ff:fe84:124, on VL611 (phy e8/1), mld_size=24 MLD: rcvd Query(ty=130) V1 g=ff03::26:2641 resp=1000, pkt S=fe80::21b:f3ff:fe84:124, on VL611 (phy e8/1), mld_size=24 MLD del VL611 (e6/48) from group entry ff03::26:2641 debug ipv6 mld level Syntax: [no] debug ipv6 mld level This command displays the different levels of debugging output, and it must be enabled in combination with the other MLD debug commands. The variable refers to the number of the MLD level from 1 through 3. 112 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IPv6 MLD debug commands 5 Brocade# debug ipv6 mld level 1 MLD Debug level = 1 Brocade# Debug: Sep 19 16:44:07 MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:44:07 no routr fid, consume pkt Debug: Sep 19 16:44:07 MLD: rcvd Report-V1(ty=131) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:44:07 no routr fid, consume pkt Debug: Sep 19 16:44:07 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:44:07 no routr fid, consume pkt Debug: Sep 19 16:44:07 MLD: rcvd Report-V1(ty=131) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:44:07 no routr fid, consume pkt Debug: Sep 19 16:44:07 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:44:07 no routr fid, consume pkt Brocade# Debug: Sep 19 16:45:03 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 :: to VL1000(all) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:45:06 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff84:55ae resp=0, pkt S=fe80::200:bff:fe84:55ae, on VL1000 (phy 2/1/1), mld_size=24 Debug: Sep 19 16:45:06 no routr fid, consume pkt Debug: Sep 19 16:45:07 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff82:50f5 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:45:07 no routr fid, consume pkt Debug: Sep 19 16:45:08 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:84 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:45:08 no routr fid, consume pkt Brocade# Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:70 resp=0, pkt S=fe80::200:bff:fe84:55ae, on VL1000 (phy 2/1/1), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Debug: Sep 19 16:45:10 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:45:10 no routr fid, consume pkt Brocade# debug ipv6 mld level 3 MLD Debug level = 3 Brocade# Debug: Sep 19 16:45:58 MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:45:58 group: ff04::24:2400, life = 260 Debug: Sep 19 16:45:58 no routr fid, consume pkt Debug: Sep 19 16:45:58 MLD: rcvd Report-V1(ty=131) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:45:58 group: ff04::24:2401, life = 260 Debug: Sep 19 16:45:58 no routr fid, consume pkt Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 113 5 IPv6 MLD debug commands Debug: Sep 19 16:45:58 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:45:58 group: ff04::24:2402, life = 260 Debug: Sep 19 16:45:58 no routr fid, consume pkt Debug: Sep 19 16:45:58 MLD: rcvd Report-V1(ty=131) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:45:58 group: ff04::24:2403, life = 260 Debug: Sep 19 16:45:58 no routr fid, consume pkt Debug: Sep 19 16:45:58 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:45:58 group: ff04::24:2404, life = 260 Debug: Sep 19 16:45:58 no routr fid, consume pkt Debug: Sep 19 16:47:08 MLD send Query(t=130) V1, s=fe80::224:38ff:fec6:d0c0 :: to VL1000(all) rsp=10000 mld=24B, pkt=86B Debug: Sep 19 16:47:10 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:84 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:47:10 group: ff02::1:ff20:84, life = 260 Debug: Sep 19 16:47:10 no routr fid, consume pkt Debug: Sep 19 16:47:12 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:70 resp=0, pkt S=fe80::200:bff:fe84:55ae, on VL1000 (phy 2/1/1), mld_size=24 Debug: Sep 19 16:47:12 group: ff02::1:ff20:70, life = 260 Debug: Sep 19 16:47:12 no routr fid, consume pkt Debug: Sep 19 16:47:15 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff84:55ae resp=0, pkt S=fe80::200:bff:fe84:55ae, on VL1000 (phy 2/1/1), mld_size=24 Debug: Sep 19 16:47:15 group: ff02::1:ff84:55ae, life = 260 Debug: Sep 19 16:47:15 no routr fid, consume pkt Debug: Sep 19 16:47:16 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff82:50f5 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:47:16 group: ff02::1:ff82:50f5, life = 260 Debug: Sep 19 16:47:16 no routr fid, consume pkt Debug: Sep 19 16:47:18 MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:47:18 group: ff04::24:2400, life = 260 Debug: Sep 19 16:47:18 no routr fid, consume pkt Debug: Sep 19 16:47:18 MLD: rcvd Report-V1(ty=131) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:47:18 group: ff04::24:2401, life = 260 Debug: Sep 19 16:47:18 no routr fid, consume pkt Debug: Sep 19 16:47:18 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/21), mld_size=24 Debug: Sep 19 16:47:18 group: ff04::24:2402, life = 260 Debug: Sep 19 16:47:18 no routr fid, consume pkt Debug: Sep 19 16:47:18 MLD: rcvd Report-V1(ty=131) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/22), mld_size=24 Debug: Sep 19 16:47:18 group: ff04::24:2403, life = 260 Debug: Sep 19 16:47:18 no routr fid, consume pkt Debug: Sep 19 16:47:18 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL1000 (phy 7/1/23), mld_size=24 Debug: Sep 19 16:47:18 group: ff04::24:2404, life = 260 Debug: Sep 19 16:47:18 no routr fid, consume pkt debug ipv6 mld mcache-group Syntax: [no] debug ipv6 mld mcache-group This command displays a filter of only desired mcache group debugging output, and it must be enabled in combination with the other MLD debug commands. The variable refers to the hexadecimal value of the MLD mcache group. Brocade# debug ipv6 mld 114 is enabled Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IPv6 MLD debug commands 5 debug ip6 mld mcache-group 2403 is enabled debug ip6 mld level 3 is enabled Brocade# Debug: Sep 28 00:09:51 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff67:eb8b resp=0, pkt S=fe80::200:36ff:fe67:eb8b, on VL510 (phy 1/1/5), mld_size=24 Debug: Sep 28 00:09:51 group: ff02::1:ff67:eb8b, life = 260 Debug: Sep 28 00:09:51 forward to router fid 814 Debug: Sep 28 00:09:52 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff82:50f5 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:09:52 group: ff02::1:ff82:50f5, life = 260 Debug: Sep 28 00:09:52 forward to router fid 814 Debug: Sep 28 00:09:54 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff53:f9c5 resp=0, pkt S=fe80::200:36ff:fe53:f9c5, on VL510 (phy 1/1/1), mld_size=24 Debug: Sep 28 00:09:54 group: ff02::1:ff53:f9c5, life = 260 Debug: Sep 28 00:09:54 forward to router fid 814 Debug: Sep 28 00:09:56 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:73 resp=0, pkt S=fe80::200:36ff:fe53:f9c5, on VL510 (phy 1/1/1), mld_size=24 Debug: Sep 28 00:09:56 group: ff02::1:ff20:73, life = 260 Debug: Sep 28 00:09:56 forward to router fid 814 Debug: Sep 28 00:09:56 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:77 resp=0, pkt S=fe80::200:36ff:fe67:eb8b, on VL510 (phy 1/1/5), mld_size=24 Debug: Sep 28 00:09:56 group: ff02::1:ff20:77, life = 260 Debug: Sep 28 00:09:56 forward to router fid 814 Debug: Sep 28 00:09:56 MLD: rcvd Report-V1(ty=131) g=ff02::1:ff20:84 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:09:56 group: ff02::1:ff20:84, life = 260 Debug: Sep 28 00:09:56 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::24:2400, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::24:2401, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::24:2402, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::24:2403, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::24:2404, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::25:2500 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::25:2500, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::25:2501 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::25:2501, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::25:2502 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::25:2502, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 115 5 IPv6 MLD debug commands Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::25:2503 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::25:2503, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 Debug: Sep 28 00:10:28 MLD: rcvd Report-V1(ty=131) g=ff04::25:2504 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/3), mld_size=24 Debug: Sep 28 00:10:28 group: ff04::25:2504, life = 260 Debug: Sep 28 00:10:28 forward to router fid 814 debug ipv6 mld phy-port ethernet Syntax: [no] debug ipv6 mld phy-port ethernet This command matches the input of the physical port. The variable refers to the stack ID, slot number, and port number of a specific Ethernet port. Brocade# debug ipv6 mld phy-port ethernet 1/1/22 Brocade# debug ipv6 mld show debug ip6 mld physical_port 1/1/22 is enabled Brocade# MLD: rcvd Report-V1(ty=131) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff04::25:2501 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD: rcvd Report-V1(ty=131) g=ff04::25:2503 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 debug ipv6 mld prime-port ethernet Syntax: [no] debug ipv6 mld prime-port ethernet This command enables the activity of the physical port and primary port if trunking happened. The variable refers to the stack ID, slot number, and port number of a specific Ethernet port. Brocade# debug ipv6 mld prime-port ethernet 1/1/21 Brocade# debug ipv6 mld show debug ip6 mld prime-port 1/1/21 is enabled Brocade# MLD: rcvd Leave(ty=132) g=ff04::24:2400 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::24:2400 to VL510(ethe 1/1/22 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::24:2401 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/21), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::24:2401 to VL510(ethe 1/1/21 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::24:2402 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::24:2402 to VL510(ethe 1/1/22 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::24:2403 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/21), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::24:2403 to VL510(ethe 1/1/21 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::24:2404 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 116 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IPv6 MLD debug commands 5 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::24:2404 to VL510(ethe 1/1/22 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::25:2500 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/21), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::25:2500 to VL510(ethe 1/1/21 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::25:2501 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::25:2501 to VL510(ethe 1/1/22 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::25:2502 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/21), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::25:2502 to VL510(ethe 1/1/21 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::25:2503 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/22), mld_size=24 MLD send Query(t=130) V1, s=fe80::21b:f3ff:fe84:124 ff04::25:2503 to VL510(ethe 1/1/22 ) rsp=10000 mld=24B, pkt=86B MLD: rcvd Leave(ty=132) g=ff04::25:2504 resp=0, pkt S=fe80::200:bff:fe82:50f5, on VL510 (phy 1/1/21), mld_size=24 debug ipv6 mld timer Syntax: [no] debug ipv6 mld timer This command monitors the MLD timer activity. Brocade# debug ipv6 mld timer Monitor MLD timers activity debug ipv6 mld vlan Syntax: [no] debug ipv6 mld vlan This command monitors the MLD VLAN activity. The variable refers to the VLAN number. Brocade# debug ipv6 mld vlan 2 monitor vlan 2 debug ipv6 mld show Syntax: debug ipv6 mld show This command displays the MLD debug settings. Do not use the show debug command for this purpose. The show debug command displays general debug information. Brocade# debug ipv6 mld show no debug ipv6 mld is enabled Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 117 5 118 IPv6 MLD debug commands Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter Multicast Debug Commands 6 In this chapter • MSDP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 • IGMP debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120 • PIM debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137 MSDP debug commands Multicast Source Discovery Protocol (MSDP) is used by Protocol-Independent Multicast (PIM) Sparse routers to exchange routing information for PIM Sparse multicast groups across PIM Sparse domains. Devices running MSDP can discover PIM Sparse sources that are in other PIM Sparse domains. The following debug ip msdp commands generate the MSDP information. debug ip msdp Syntax: [no] debug ip msdp [alarms | events | message] • alarms - Displays information about the MSDP alarms. • events - Displays information about the MSDP events. • message - Displays information about the MSDP messages. The debug ip msdp command generates information about MSDP alarms, events, and messages. debug ip msdp alarms Syntax: [no] debug ip msdp alarms This command generates information about the MSDP processing alarms. Brocade# debug ip msdp alarms : MSDP: S=xxxxxxx P=0 Initiate Transport Connection to MSDP peer : MSDP: S=xxxxxxx P=0 Initiate Transport Connection to MSDP peer debug ip msdp events Syntax: [no] debug ip msdp events This command tracks originating SA-advertisements, major peer events, and peer-keepalive timer events. Brocade# debug ip msdp events : MSDP: 120.120.120.45: Process START event, local = 120.120.120.31 : MSDP: S=xxxxxxx P=0 Initiate Transport Connection to MSDP peer : MSDP: 120.120.120.45: TCP Connection to Remote Peer is Open : MSDP: 120.120.120.45: MSDP-TCP Connection opened Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 119 6 IGMP debug commands : : : : : : : : MSDP: MSDP: MSDP: MSDP: MSDP: MSDP: MSDP: MSDP: 120.120.120.45: TCP_OPEN DONE, State 4 Remote Peer closed TCP connection 120.120.120.45 Remote Peer closed TCP connection Originating SA Originating SA Originating SA Originating SA Originating SA debug ip msdp message Syntax: [no] debug ip msdp message This command generates information about MSDP messages received, transmitted and forwarded, and flag errors in the MSDP messages. Brocade# debug ip msdp message : MSDP: 32.0.0.32: Xmt KA : MSDP: 32.0.0.32: State=4, Rcv SA 20 bytes RP: 32.0.0.32, Num SA: 1 17.17.17.1,237.14.18.3 : MSDP: 32.0.0.32: State=4, Rcv KA : MSDP: 32.0.0.32: State=4, Rcv SA 20 bytes RP: 32.0.0.32, Num SA: 1 17.17.17.1,237.14.18.3 : MSDP: 32.0.0.32: State=4, Rcv KA : MSDP: 32.0.0.32: Xmt SA 32 bytes RP: 45.0.0.45, Num SA: 2 14.14.14.14,237.14.18.3 17.17.17.1,237.14.18.3 : MSDP: 32.0.0.32: Xmt KA : MSDP: 32.0.0.32: State=4, Rcv SA 20 bytes RP: 32.0.0.32, Num SA: 1 17.17.17.1,237.14.18.3 IGMP debug commands The Internet Group Management Protocol (IGMP) allows an IPv4 system to communicate IP multicast group membership information to its neighboring routers. The routers in turn limit the multicast of IP packets with multicast destination addresses to only those interfaces on the router that are identified as IP multicast group members. The following commands display the information related to IGMP debugging. debug ip igmp add-del-oif Syntax: [no] debug ip igmp add-del-oif This command displays information about the addition or deletion of the outgoing interfaces (OIFs). Brocade# debug ip igmp add-del-oif add-del-oif enabled Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp add-del-oif is enabled Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.147 resp=100, pkt S=17.17.17.222 to 239.0.0.147, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.148 resp=100, pkt S=17.17.17.222 to 239.0.0.148, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.149 resp=100, pkt S=17.17.17.222 to 239.0.0.149, on v17 (phy 2/1/17), igmp_size=8 120 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands IGMP: rcvd Report-V2(t=22) g=239.0.0.150 resp=100, 239.0.0.150, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.151 resp=100, 239.0.0.151, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.152 resp=100, 239.0.0.152, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.153 resp=100, 239.0.0.153, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.154 resp=100, 239.0.0.154, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.155 resp=100, 239.0.0.155, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.156 resp=100, 239.0.0.156, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.157 resp=100, 239.0.0.157, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.158 resp=100, 239.0.0.158, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.159 resp=100, 239.0.0.159, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.160 resp=100, 239.0.0.160, on v17 (phy 2/1/17), igmp_size=8 6 pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to pkt S=17.17.17.222 to Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.161 resp=100, pkt S=17.17.17.222 to 239.0.0.161, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.162 resp=100, pkt S=17.17.17.222 to 239.0.0.162, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.163 resp=100, pkt S=17.17.17.222 to 239.0.0.163, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.164 resp=100, pkt S=17.17.17.222 to 239.0.0.164, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.165 resp=100, pkt S=17.17.17.222 to 239.0.0.165, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.166 resp=100, pkt S=17.17.17.222 to 239.0.0.166, on v17 (phy 2/1/17), igmp_size=8 nIGMP: rcvd Report-V2(t=22) g=239.0.0.167 resp=100, pkt S=17.17.17.222 to 239.0.0.167, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.168 resp=100, pkt S=17.17.17.222 to 239.0.0.168, on v17 (phy 2/1/17), igmp_size=8 o IGMP: rcvd Report-V2(t=22) g=239.0.0.169 resp=100, pkt S=17.17.17.222 to 239.0.0.169, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.170 resp=100, pkt S=17.17.17.222 to 239.0.0.170, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.171 resp=100, pkt S=17.17.17.222 to 239.0.0.171, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.172 resp=100, pkt S=17.17.17.222 to 239.0.0.172, on v17 (phy 2/1/17), igmp_size=8 dIGMP: rcvd Report-V2(t=22) g=239.0.0.173 resp=100, pkt S=17.17.17.222 to 239.0.0.173, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.174 resp=100, pkt S=17.17.17.222 to 239.0.0.174, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.175 resp=100, pkt S=17.17.17.222 to 239.0.0.175, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.176 resp=100, pkt S=17.17.17.222 to 239.0.0.176, on v17 (phy 2/1/17), igmp_size=8 eIGMP: rcvd Report-V2(t=22) g=239.0.0.177 resp=100, pkt S=17.17.17.222 to 239.0.0.177, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.178 resp=100, pkt S=17.17.17.222 to 239.0.0.178, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 121 6 IGMP debug commands IGMP: rcvd Report-V2(t=22) g=239.0.0.179 resp=100, pkt S=17.17.17.222 to 239.0.0.179, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.180 resp=100, pkt S=17.17.17.222 to 239.0.0.180, on v17 (phy 2/1/17), igmp_size=8 gIGMP: rcvd Report-V2(t=22) g=239.0.0.181 resp=100, pkt S=17.17.17.222 to 239.0.0.181, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.182 resp=100, pkt S=17.17.17.222 to 239.0.0.182, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.183 resp=100, pkt S=17.17.17.222 to 239.0.0.183, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.184 resp=100, pkt S=17.17.17.222 to 239.0.0.184, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.185 resp=100, pkt S=17.17.17.222 to 239.0.0.185, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.186 resp=100, pkt S=17.17.17.222 to 239.0.0.186, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.187 resp=100, pkt S=17.17.17.222 to 239.0.0.187, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.188 resp=100, pkt S=17.17.17.222 to 239.0.0.188, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.189 resp=100, pkt S=17.17.17.222 to 239.0.0.189, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.190 resp=100, pkt S=17.17.17.222 to 239.0.0.190, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.191 resp=100, pkt S=17.17.17.222 to 239.0.0.191, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.192 resp=100, pkt S=17.17.17.222 to 239.0.0.192, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.193 resp=100, pkt S=17.17.17.222 to 239.0.0.193, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.194 resp=100, pkt S=17.17.17.222 to 239.0.0.194, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.195 resp=100, pkt S=17.17.17.222 to 239.0.0.195, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.196 resp=100, pkt S=17.17.17.222 to 239.0.0.196, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.197 resp=100, pkt S=17.17.17.222 to 239.0.0.197, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.198 resp=100, pkt S=17.17.17.222 to 239.0.0.198, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.199 resp=100, pkt S=17.17.17.222 to 239.0.0.199, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.200 resp=100, pkt S=17.17.17.222 to 239.0.0.200, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.201 resp=100, pkt S=17.17.17.222 to 239.0.0.201, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.202 resp=100, pkt S=17.17.17.222 to 239.0.0.202, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.203 resp=100, pkt S=17.17.17.222 to 239.0.0.203, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.204 resp=100, pkt S=17.17.17.222 to 239.0.0.204, on v17 (phy 2/1/17), igmp_size=8 bIGMP: rcvd Report-V2(t=22) g=239.0.0.205 resp=100, pkt S=17.17.17.222 to 239.0.0.205, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.206 resp=100, pkt S=17.17.17.222 to 239.0.0.206, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.207 resp=100, pkt S=17.17.17.222 to 239.0.0.207, on v17 (phy 2/1/17), igmp_size=8 uIGMP: rcvd Report-V2(t=22) g=239.0.0.208 resp=100, pkt S=17.17.17.222 to 239.0.0.208, on v17 (phy 2/1/17), igmp_size=8 122 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 IGMP: rcvd Report-V2(t=22) g=239.0.0.209 resp=100, pkt S=17.17.17.222 to 239.0.0.209, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.210 resp=100, pkt S=17.17.17.222 to 239.0.0.210, on v17 (phy 2/1/17), igmp_size=8 gIGMP: rcvd Report-V2(t=22) g=239.0.0.211 resp=100, pkt S=17.17.17.222 to 239.0.0.211, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.212 resp=100, pkt S=17.17.17.222 to 239.0.0.212, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.213 resp=100, pkt S=17.17.17.222 to 239.0.0.213, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.214 resp=100, pkt S=17.17.17.222 to 239.0.0.214, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.215 resp=100, pkt S=17.17.17.222 to 239.0.0.215, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.216 resp=100, pkt S=17.17.17.222 to 239.0.0.216, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.217 resp=100, pkt S=17.17.17.222 to 239.0.0.217, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.218 resp=100, pkt S=17.17.17.222 to 239.0.0.218, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.219 resp=100, pkt S=17.17.17.222 to 239.0.0.219, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.220 resp=100, pkt S=17.17.17.222 to 239.0.0.220, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.221 resp=100, pkt S=17.17.17.222 to 239.0.0.221, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.222 resp=100, pkt S=17.17.17.222 to 239.0.0.222, on v17 (phy 2/1/17), igmp_size=8 aIGMP: rcvd Report-V2(t=22) g=239.0.0.223 resp=100, pkt S=17.17.17.222 to 239.0.0.223, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.224 resp=100, pkt S=17.17.17.222 to 239.0.0.224, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.225 resp=100, pkt S=17.17.17.222 to 239.0.0.225, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.226 resp=100, pkt S=17.17.17.222 to 239.0.0.226, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.227 resp=100, pkt S=17.17.17.222 to 239.0.0.227, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.228 resp=100, pkt S=17.17.17.222 to 239.0.0.228, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.229 resp=100, pkt S=17.17.17.222 to 239.0.0.229, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.230 resp=100, pkt S=17.17.17.222 to 239.0.0.230, on v17 (phy 2/1/17), igmp_size=8 Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp add-del-oif all Syntax: [no] debug ip igmp add-del-oif all This command displays information about the addition or deletion of all the OIFs that are IGMP-enabled. Brocade# debug ip igmp add-del-oif all add-del-oif all enabled Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 123 6 IGMP debug commands Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp add-del-oif all is enabled Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.99 resp=100, pkt S=17.17.17.222 to 239.0.0.99, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.100 resp=100, pkt S=17.17.17.222 to 239.0.0.100, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.101 resp=100, pkt S=17.17.17.222 to 239.0.0.101, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.102 resp=100, pkt S=17.17.17.222 to 239.0.0.102, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.103 resp=100, pkt S=17.17.17.222 to 239.0.0.103, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.104 resp=100, pkt S=17.17.17.222 to 239.0.0.104, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.105 resp=100, pkt S=17.17.17.222 to 239.0.0.105, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.106 resp=100, pkt S=17.17.17.222 to 239.0.0.106, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.107 resp=100, pkt S=17.17.17.222 to 239.0.0.107, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.108 resp=100, pkt S=17.17.17.222 to 239.0.0.108, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.109 resp=100, pkt S=17.17.17.222 to 239.0.0.109, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.110 resp=100, pkt S=17.17.17.222 to 239.0.0.110, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.111 resp=100, pkt S=17.17.17.222 to 239.0.0.111, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.112 resp=100, pkt S=17.17.17.222 to 239.0.0.112, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.113 resp=100, pkt S=17.17.17.222 to 239.0.0.113, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.114 resp=100, pkt S=17.17.17.222 to 239.0.0.114, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.115 resp=100, pkt S=17.17.17.222 to 239.0.0.115, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.116 resp=100, pkt S=17.17.17.222 to 239.0.0.116, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.117 resp=100, pkt S=17.17.17.222 to 239.0.0.117, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.118 resp=100, pkt S=17.17.17.222 to 239.0.0.118, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.119 resp=100, pkt S=17.17.17.222 to 239.0.0.119, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.120 resp=100, pkt S=17.17.17.222 to 239.0.0.120, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.121 resp=100, pkt S=17.17.17.222 to 239.0.0.121, on v17 (phy 2/1/17), igmp_size=8 Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.122 resp=100, pkt S=17.17.17.222 to 239.0.0.122, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.123 resp=100, pkt S=17.17.17.222 to 239.0.0.123, on v17 (phy 2/1/17), igmp_size=8 Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.124 resp=100, pkt S=17.17.17.222 to 239.0.0.124, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.125 resp=100, pkt S=17.17.17.222 to 239.0.0.125, on v17 (phy 2/1/17), igmp_size=8 124 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 IGMP: rcvd Report-V2(t=22) g=239.0.0.126 resp=100, pkt S=17.17.17.222 to 239.0.0.126, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.127 resp=100, pkt S=17.17.17.222 to 239.0.0.127, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.128 resp=100, pkt S=17.17.17.222 to 239.0.0.128, on v17 (phy 2/1/17), igmp_size=8 nIGMP: rcvd Report-V2(t=22) g=239.0.0.129 resp=100, pkt S=17.17.17.222 to 239.0.0.129, on v17 (phy 2/1/17), igmp_size=8 oIGMP: rcvd Report-V2(t=22) g=239.0.0.130 resp=100, pkt S=17.17.17.222 to 239.0.0.130, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.131 resp=100, pkt S=17.17.17.222 to 239.0.0.131, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.132 resp=100, pkt S=17.17.17.222 to 239.0.0.132, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.133 resp=100, pkt S=17.17.17.222 to 239.0.0.133, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.134 resp=100, pkt S=17.17.17.222 to 239.0.0.134, on v17 (phy 2/1/17), igmp_size=8 dIGMP: rcvd Report-V2(t=22) g=239.0.0.135 resp=100, pkt S=17.17.17.222 to 239.0.0.135, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.136 resp=100, pkt S=17.17.17.222 to 239.0.0.136, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.137 resp=100, pkt S=17.17.17.222 to 239.0.0.137, on v17 (phy 2/1/17), igmp_size=8 eIGMP: rcvd Report-V2(t=22) g=239.0.0.138 resp=100, pkt S=17.17.17.222 to 239.0.0.138, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.139 resp=100, pkt S=17.17.17.222 to 239.0.0.139, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.140 resp=100, pkt S=17.17.17.222 to 239.0.0.140, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.141 resp=100, pkt S=17.17.17.222 to 239.0.0.141, on v17 (phy 2/1/17), igmp_size=8 bIGMP: rcvd Report-V2(t=22) g=239.0.0.142 resp=100, pkt S=17.17.17.222 to 239.0.0.142, on v17 (phy 2/1/17), igmp_size=8 uIGMP: rcvd Report-V2(t=22) g=239.0.0.143 resp=100, pkt S=17.17.17.222 to 239.0.0.143, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.144 resp=100, pkt S=17.17.17.222 to 239.0.0.144, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.145 resp=100, pkt S=17.17.17.222 to 239.0.0.145, on v17 (phy 2/1/17), igmp_size=8 gIGMP: rcvd Report-V2(t=22) g=239.0.0.146 resp=100, pkt S=17.17.17.222 to 239.0.0.146, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.147 resp=100, pkt S=17.17.17.222 to 239.0.0.147, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.148 resp=100, pkt S=17.17.17.222 to 239.0.0.148, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.149 resp=100, pkt S=17.17.17.222 to 239.0.0.149, on v17 (phy 2/1/17), igmp_size=8 aIGMP: rcvd Report-V2(t=22) g=239.0.0.150 resp=100, pkt S=17.17.17.222 to 239.0.0.150, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.151 resp=100, pkt S=17.17.17.222 to 239.0.0.151, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.152 resp=100, pkt S=17.17.17.222 to 239.0.0.152, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.153 resp=100, pkt S=17.17.17.222 to 239.0.0.153, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.154 resp=100, pkt S=17.17.17.222 to 239.0.0.154, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.155 resp=100, pkt S=17.17.17.222 to 239.0.0.155, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 125 6 IGMP debug commands IGMP: rcvd Report-V2(t=22) g=239.0.0.156 resp=100, pkt S=17.17.17.222 to 239.0.0.156, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.157 resp=100, pkt S=17.17.17.222 to 239.0.0.157, on v17 (phy 2/1/17), igmp_size=8 Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp add-del-oif stack Syntax: [no] debug ip igmp add-del-oif stack This command monitors and displays instances of multicast cache activity, such as OIF additions or deletions, and generates a stack trace of the add or delete event. Brocade# debug ip igmp add-del-oif stack add-del-oif stack enabled Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp add-del-oif stack is enabled Brocade# debug ip ig Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.1.8 resp=100, pkt S=17.17.17.222 to 239.0.1.8, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.9 resp=100, pkt S=17.17.17.222 to 239.0.1.9, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.10 resp=100, pkt S=17.17.17.222 to 239.0.1.10, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.11 resp=100, pkt S=17.17.17.222 to 239.0.1.11, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.12 resp=100, pkt S=17.17.17.222 to 239.0.1.12, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.13 resp=100, pkt S=17.17.17.222 to 239.0.1.13, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.14 resp=100, pkt S=17.17.17.222 to 239.0.1.14, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.15 resp=100, pkt S=17.17.17.222 to 239.0.1.15, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.16 resp=100, pkt S=17.17.17.222 to 239.0.1.16, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.17 resp=100, pkt S=17.17.17.222 to 239.0.1.17, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.18 resp=100, pkt S=17.17.17.222 to 239.0.1.18, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.19 resp=100, pkt S=17.17.17.222 to 239.0.1.19, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.20 resp=100, pkt S=17.17.17.222 to 239.0.1.20, on v17 (phy 2/1/17), igmp_size=8 nIGMP: rcvd Report-V2(t=22) g=239.0.1.21 resp=100, pkt S=17.17.17.222 to 239.0.1.21, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.22 resp=100, pkt S=17.17.17.222 to 239.0.1.22, on v17 (phy 2/1/17), igmp_size=8 oIGMP: rcvd Report-V2(t=22) g=239.0.1.23 resp=100, pkt S=17.17.17.222 to 239.0.1.23, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.24 resp=100, pkt S=17.17.17.222 to 239.0.1.24, on v17 (phy 2/1/17), igmp_size=8 126 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 IGMP: rcvd Report-V2(t=22) g=239.0.1.25 resp=100, pkt S=17.17.17.222 to 239.0.1.25, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.26 resp=100, pkt S=17.17.17.222 to 239.0.1.26, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.27 resp=100, pkt S=17.17.17.222 to 239.0.1.27, on v17 (phy 2/1/17), igmp_size=8 dIGMP: rcvd Report-V2(t=22) g=239.0.1.28 resp=100, pkt S=17.17.17.222 to 239.0.1.28, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.29 resp=100, pkt S=17.17.17.222 to 239.0.1.29, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.30 resp=100, pkt S=17.17.17.222 to 239.0.1.30, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.31 resp=100, pkt S=17.17.17.222 to 239.0.1.31, on v17 (phy 2/1/17), igmp_size=8 eIGMP: rcvd Report-V2(t=22) g=239.0.1.32 resp=100, pkt S=17.17.17.222 to 239.0.1.32, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.33 resp=100, pkt S=17.17.17.222 to 239.0.1.33, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.34 resp=100, pkt S=17.17.17.222 to 239.0.1.34, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.35 resp=100, pkt S=17.17.17.222 to 239.0.1.35, on v17 (phy 2/1/17), igmp_size=8 bIGMP: rcvd Report-V2(t=22) g=239.0.1.36 resp=100, pkt S=17.17.17.222 to 239.0.1.36, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.37 resp=100, pkt S=17.17.17.222 to 239.0.1.37, on v17 (phy 2/1/17), igmp_size=8 uIGMP: rcvd Report-V2(t=22) g=239.0.1.38 resp=100, pkt S=17.17.17.222 to 239.0.1.38, on v17 (phy 2/1/17), igmp_size=8 gIGMP: rcvd Report-V2(t=22) g=239.0.1.39 resp=100, pkt S=17.17.17.222 to 239.0.1.39, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.40 resp=100, pkt S=17.17.17.222 to 239.0.1.40, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.41 resp=100, pkt S=17.17.17.222 to 239.0.1.41, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.42 resp=100, pkt S=17.17.17.222 to 239.0.1.42, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.43 resp=100, pkt S=17.17.17.222 to 239.0.1.43, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.44 resp=100, pkt S=17.17.17.222 to 239.0.1.44, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.45 resp=100, pkt S=17.17.17.222 to 239.0.1.45, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.46 resp=100, pkt S=17.17.17.222 to 239.0.1.46, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.47 resp=100, pkt S=17.17.17.222 to 239.0.1.47, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.48 resp=100, pkt S=17.17.17.222 to 239.0.1.48, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.49 resp=100, pkt S=17.17.17.222 to 239.0.1.49, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.50 resp=100, pkt S=17.17.17.222 to 239.0.1.50, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.51 resp=100, pkt S=17.17.17.222 to 239.0.1.51, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.52 resp=100, pkt S=17.17.17.222 to 239.0.1.52, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.53 resp=100, pkt S=17.17.17.222 to 239.0.1.53, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.54 resp=100, pkt S=17.17.17.222 to 239.0.1.54, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 127 6 IGMP debug commands IGMP: rcvd Report-V2(t=22) g=239.0.1.55 resp=100, pkt S=17.17.17.222 to 239.0.1.55, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.56 resp=100, pkt S=17.17.17.222 to 239.0.1.56, on v17 (phy 2/1/17), igmp_size=8 aIGMP: rcvd Report-V2(t=22) g=239.0.1.57 resp=100, pkt S=17.17.17.222 to 239.0.1.57, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.58 resp=100, pkt S=17.17.17.222 to 239.0.1.58, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.1.59 resp=100, pkt S=17.17.17.222 to 239.0.1.59, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.60 resp=100, pkt S=17.17.17.222 to 239.0.1.60, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.61 resp=100, pkt S=17.17.17.222 to 239.0.1.61, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.1.62 resp=100, pkt S=17.17.17.222 to 239.0.1.62, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.63 resp=100, pkt S=17.17.17.222 to 239.0.1.63, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.64 resp=100, pkt S=17.17.17.222 to 239.0.1.64, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.65 resp=100, pkt S=17.17.17.222 to 239.0.1.65, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.66 resp=100, pkt S=17.17.17.222 to 239.0.1.66, on v17 (phy 2/1/17), igmp_size=8 Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp clear Syntax: [no] debug ip igmp clear This command clears all the IGMP debug settings. Brocade# debug ip igmp clear no debug ip igmp is enabled debug ip igmp down-port Syntax: [no] debug ip igmp down-port This command monitors the port that is down. Brocade# debug ip igmp down-port Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp port-down is enabled Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.84 resp=100, pkt S=17.17.17.222 to 239.0.0.84, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.85 resp=100, pkt S=17.17.17.222 to 239.0.0.85, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.86 resp=100, pkt S=17.17.17.222 to 239.0.0.86, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.87 resp=100, pkt S=17.17.17.222 to 239.0.0.87, on v17 (phy 2/1/17), igmp_size=8 128 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 IGMP: rcvd Report-V2(t=22) g=239.0.0.88 resp=100, pkt S=17.17.17.222 to 239.0.0.88, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.89 resp=100, pkt S=17.17.17.222 to 239.0.0.89, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.90 resp=100, pkt S=17.17.17.222 to 239.0.0.90, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.91 resp=100, pkt S=17.17.17.222 to 239.0.0.91, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.92 resp=100, pkt S=17.17.17.222 to 239.0.0.92, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.93 resp=100, pkt S=17.17.17.222 to 239.0.0.93, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.94 resp=100, pkt S=17.17.17.222 to 239.0.0.94, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.95 resp=100, pkt S=17.17.17.222 to 239.0.0.95, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.96 resp=100, pkt S=17.17.17.222 to 239.0.0.96, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.97 resp=100, pkt S=17.17.17.222 to 239.0.0.97, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.98 resp=100, pkt S=17.17.17.222 to 239.0.0.98, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.99 resp=100, pkt S=17.17.17.222 to 239.0.0.99, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.100 resp=100, pkt S=17.17.17.222 to 239.0.0.100, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.101 resp=100, pkt S=17.17.17.222 to 239.0.0.101, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.102 resp=100, pkt S=17.17.17.222 to 239.0.0.102, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.103 resp=100, pkt S=17.17.17.222 to 239.0.0.103, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.104 resp=100, pkt S=17.17.17.222 to 239.0.0.104, on v17 (phy 2/1/17), igmp_size=8 nIGMP: rcvd Report-V2(t=22) g=239.0.0.105 resp=100, pkt S=17.17.17.222 to 239.0.0.105, on v17 (phy 2/1/17), igmp_size=8 oIGMP: rcvd Report-V2(t=22) g=239.0.0.106 resp=100, pkt S=17.17.17.222 to 239.0.0.106, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.107 resp=100, pkt S=17.17.17.222 to 239.0.0.107, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.108 resp=100, pkt S=17.17.17.222 to 239.0.0.108, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.109 resp=100, pkt S=17.17.17.222 to 239.0.0.109, on v17 (phy 2/1/17), igmp_size=8 dIGMP: rcvd Report-V2(t=22) g=239.0.0.110 resp=100, pkt S=17.17.17.222 to 239.0.0.110, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.111 resp=100, pkt S=17.17.17.222 to 239.0.0.111, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.112 resp=100, pkt S=17.17.17.222 to 239.0.0.112, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.113 resp=100, pkt S=17.17.17.222 to 239.0.0.113, on v17 (phy 2/1/17), igmp_size=8 eIGMP: rcvd Report-V2(t=22) g=239.0.0.114 resp=100, pkt S=17.17.17.222 to 239.0.0.114, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.115 resp=100, pkt S=17.17.17.222 to 239.0.0.115, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.116 resp=100, pkt S=17.17.17.222 to 239.0.0.116, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.117 resp=100, pkt S=17.17.17.222 to 239.0.0.117, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 129 6 IGMP debug commands bIGMP: rcvd Report-V2(t=22) g=239.0.0.118 resp=100, pkt S=17.17.17.222 to 239.0.0.118, on v17 (phy 2/1/17), igmp_size=8 uIGMP: rcvd Report-V2(t=22) g=239.0.0.119 resp=100, pkt S=17.17.17.222 to 239.0.0.119, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.120 resp=100, pkt S=17.17.17.222 to 239.0.0.120, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.121 resp=100, pkt S=17.17.17.222 to 239.0.0.121, on v17 (phy 2/1/17), igmp_size=8 g IGMP: rcvd Report-V2(t=22) g=239.0.0.122 resp=100, pkt S=17.17.17.222 to 239.0.0.122, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.123 resp=100, pkt S=17.17.17.222 to 239.0.0.123, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.124 resp=100, pkt S=17.17.17.222 to 239.0.0.124, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.125 resp=100, pkt S=17.17.17.222 to 239.0.0.125, on v17 (phy 2/1/17), igmp_size=8 aIGMP: rcvd Report-V2(t=22) g=239.0.0.126 resp=100, pkt S=17.17.17.222 to 239.0.0.126, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.127 resp=100, pkt S=17.17.17.222 to 239.0.0.127, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.128 resp=100, pkt S=17.17.17.222 to 239.0.0.128, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.129 resp=100, pkt S=17.17.17.222 to 239.0.0.129, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.0.130 resp=100, pkt S=17.17.17.222 to 239.0.0.130, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.131 resp=100, pkt S=17.17.17.222 to 239.0.0.131, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.132 resp=100, pkt S=17.17.17.222 to 239.0.0.132, on v17 (phy 2/1/17), igmp_size=8 Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp group Syntax: [no] debug ip igmp group This command matches the IGMP-enabled group based on the IP address. The variable refers to the IP address of the IGMP group. Brocade# debug ip igmp group 10.11.66.62 IGMP: No L3 mcast, pkt S=10.11.66.62 to 225.1.1.167, on v8 (phy 1/2/4), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=225.1.1.167 resp=0, pkt S=10.11.66.62 to 225.1.1.167, on VL8 (phy 1/2/4), igmp_size=8 debug ip igmp level Syntax: [no] debug ip igmp level This command sets the debug level of the IGMP. The variable specifies the level of the IGMP. The valid values are from 1 through 3. Brocade# debug ip igmp level debug level = 1 Brocade# debug ip ig show igmp debug-enable-any = 1 130 1 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 debug ip igmp level 1 is enabled Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.1.240 resp=100, pkt S=17.17.17.222 to 239.0.1.240, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.241 resp=100, pkt S=17.17.17.222 to 239.0.1.241, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.242 resp=100, pkt S=17.17.17.222 to 239.0.1.242, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.243 resp=100, pkt S=17.17.17.222 to 239.0.1.243, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.244 resp=100, pkt S=17.17.17.222 to 239.0.1.244, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.245 resp=100, pkt S=17.17.17.222 to 239.0.1.245, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.246 resp=100, pkt S=17.17.17.222 to 239.0.1.246, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.247 resp=100, pkt S=17.17.17.222 to 239.0.1.247, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.1.248 resp=100, pkt S=17.17.17.222 to 239.0.1.248, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.5 resp=100, pkt S=17.17.17.222 to 239.0.0.5, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.6 resp=100, pkt S=17.17.17.222 to 239.0.0.6, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.7 resp=100, pkt S=17.17.17.222 to 239.0.0.7, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.8 resp=100, pkt S=17.17.17.222 to 239.0.0.8, on v17 (phy 2/1/17), igmp_size=8 consume pkt nIGMP: rcvd Report-V2(t=22) g=239.0.0.9 resp=100, pkt S=17.17.17.222 to 239.0.0.9, on v17 (phy 2/1/17), igmp_size=8 consume pkt oIGMP: rcvd Report-V2(t=22) g=239.0.0.10 resp=100, pkt S=17.17.17.222 to 239.0.0.10, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.11 resp=100, pkt S=17.17.17.222 to 239.0.0.11, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.12 resp=100, pkt S=17.17.17.222 to 239.0.0.12, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.13 resp=100, pkt S=17.17.17.222 to 239.0.0.13, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.14 resp=100, pkt S=17.17.17.222 to 239.0.0.14, on v17 (phy 2/1/17), igmp_size=8 consume pkt Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 131 6 IGMP debug commands IGMP: rcvd Report-V2(t=22) g=239.0.0.15 resp=100, pkt S=17.17.17.222 to 239.0.0.15, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.16 resp=100, pkt S=17.17.17.222 to 239.0.0.16, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.17 resp=100, pkt S=17.17.17.222 to 239.0.0.17, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.18 resp=100, pkt S=17.17.17.222 to 239.0.0.18, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.19 resp=100, pkt S=17.17.17.222 to 239.0.0.19, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.20 resp=100, pkt S=17.17.17.222 to 239.0.0.20, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.21 resp=100, pkt S=17.17.17.222 to 239.0.0.21, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.22 resp=100, pkt S=17.17.17.222 to 239.0.0.22, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.23 resp=100, pkt S=17.17.17.222 to 239.0.0.23, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.24 resp=100, pkt S=17.17.17.222 to 239.0.0.24, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.25 resp=100, pkt S=17.17.17.222 to 239.0.0.25, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.26 resp=100, pkt S=17.17.17.222 to 239.0.0.26, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.27 resp=100, pkt S=17.17.17.222 to 239.0.0.27, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.28 resp=100, pkt S=17.17.17.222 to 239.0.0.28, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.29 resp=100, pkt S=17.17.17.222 to 239.0.0.29, on v17 (phy 2/1/17), igmp_size=8 consume pkt dIGMP: rcvd Report-V2(t=22) g=239.0.0.30 resp=100, pkt S=17.17.17.222 to 239.0.0.30, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.31 resp=100, pkt S=17.17.17.222 to 239.0.0.31, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.32 resp=100, pkt S=17.17.17.222 to 239.0.0.32, on v17 (phy 2/1/17), igmp_size=8 consume pkt eIGMP: rcvd Report-V2(t=22) g=239.0.0.33 resp=100, pkt S=17.17.17.222 to 239.0.0.33, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.34 resp=100, pkt S=17.17.17.222 to 239.0.0.34, on v17 (phy 2/1/17), igmp_size=8 consume pkt 132 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 IGMP: rcvd Report-V2(t=22) g=239.0.0.35 resp=100, pkt S=17.17.17.222 to 239.0.0.35, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.36 resp=100, pkt S=17.17.17.222 to 239.0.0.36, on v17 (phy 2/1/17), igmp_size=8 consume pkt bIGMP: rcvd Report-V2(t=22) g=239.0.0.37 resp=100, pkt S=17.17.17.222 to 239.0.0.37, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.38 resp=100, pkt S=17.17.17.222 to 239.0.0.38, on v17 (phy 2/1/17), igmp_size=8 consume pkt uIGMP: rcvd Report-V2(t=22) g=239.0.0.39 resp=100, pkt S=17.17.17.222 to 239.0.0.39, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.40 resp=100, pkt S=17.17.17.222 to 239.0.0.40, on v17 (phy 2/1/17), igmp_size=8 consume pkt gIGMP: rcvd Report-V2(t=22) g=239.0.0.41 resp=100, pkt S=17.17.17.222 to 239.0.0.41, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.42 resp=100, pkt S=17.17.17.222 to 239.0.0.42, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.43 resp=100, pkt S=17.17.17.222 to 239.0.0.43, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.44 resp=100, pkt S=17.17.17.222 to 239.0.0.44, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.45 resp=100, pkt S=17.17.17.222 to 239.0.0.45, on v17 (phy 2/1/17), igmp_size=8 consume pkt aIGMP: rcvd Report-V2(t=22) g=239.0.0.46 resp=100, pkt S=17.17.17.222 to 239.0.0.46, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.47 resp=100, pkt S=17.17.17.222 to 239.0.0.47, on v17 (phy 2/1/17), igmp_size=8 consume pkt lIGMP: rcvd Report-V2(t=22) g=239.0.0.48 resp=100, pkt S=17.17.17.222 to 239.0.0.48, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.49 resp=100, pkt S=17.17.17.222 to 239.0.0.49, on v17 (phy 2/1/17), igmp_size=8 consume pkt lIGMP send Query(t=17) V2, s=17.17.17.52 0.0.0.0 to v17(all) rsp=100 igmp=8B, pkt=46B IGMP send Query(t=17) V2, s=19.19.19.52 0.0.0.0 to v19(all) rsp=100 igmp=8B, pkt=46B IGMP: rcvd Report-V2(t=22) g=239.0.0.50 resp=100, pkt S=17.17.17.222 to 239.0.0.50, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.51 resp=100, pkt S=17.17.17.222 to 239.0.0.51, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.52 resp=100, pkt S=17.17.17.222 to 239.0.0.52, on v17 (phy 2/1/17), igmp_size=8 consume pkt IGMP: rcvd Report-V2(t=22) g=239.0.0.53 resp=100, pkt S=17.17.17.222 to 239.0.0.53, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 133 6 IGMP debug commands consume pkt Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp packet Syntax: [no] debug ip igmp packet This command traces the IGMP packets. The variable specifies the IP address of the IGMP packet. Brocade# debug ip igmp packet 17.17.17.222 239.0.0.155 debug ip igmp packet S=17.17.17.222 G=239.0.0.155 Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp packet 17.17.17.222 239.0.0.155 is enabled Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.1.160 resp=100, pkt S=17.17.17.222 to 239.0.1.160, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.161 resp=100, pkt S=17.17.17.222 to 239.0.1.161, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.162 resp=100, pkt S=17.17.17.222 to 239.0.1.162, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.163 resp=100, pkt S=17.17.17.222 to 239.0.1.163, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.164 resp=100, pkt S=17.17.17.222 to 239.0.1.164, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.165 resp=100, pkt S=17.17.17.222 to 239.0.1.165, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.166 resp=100, pkt S=17.17.17.222 to 239.0.1.166, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.167 resp=100, pkt S=17.17.17.222 to 239.0.1.167, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.168 resp=100, pkt S=17.17.17.222 to 239.0.1.168, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.169 resp=100, pkt S=17.17.17.222 to 239.0.1.169, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.170 resp=100, pkt S=17.17.17.222 to 239.0.1.170, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.171 resp=100, pkt S=17.17.17.222 to 239.0.1.171, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.172 resp=100, pkt S=17.17.17.222 to 239.0.1.172, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.173 resp=100, pkt S=17.17.17.222 to 239.0.1.173, on v17 (phy 2/1/17), igmp_size=8 Brocade#IGMP: rcvd Report-V2(t=22) g=239.0.1.174 resp=100, pkt S=17.17.17.222 to 239.0.1.174, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.175 resp=100, pkt S=17.17.17.222 to 239.0.1.175, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.176 resp=100, pkt S=17.17.17.222 to 239.0.1.176, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.177 resp=100, pkt S=17.17.17.222 to 239.0.1.177, on v17 (phy 2/1/17), igmp_size=8 134 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 IGMP debug commands 6 Brocade#IGMP: rcvd Report-V2(t=22) g=239.0.1.178 resp=100, pkt S=17.17.17.222 to 239.0.1.178, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.179 resp=100, pkt S=17.17.17.222 to 239.0.1.179, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.180 resp=100, pkt S=17.17.17.222 to 239.0.1.180, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.181 resp=100, pkt S=17.17.17.222 to 239.0.1.181, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.182 resp=100, pkt S=17.17.17.222 to 239.0.1.182, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.183 resp=100, pkt S=17.17.17.222 to 239.0.1.183, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.184 resp=100, pkt S=17.17.17.222 to 239.0.1.184, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.185 resp=100, pkt S=17.17.17.222 to 239.0.1.185, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.186 resp=100, pkt S=17.17.17.222 to 239.0.1.186, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.187 resp=100, pkt S=17.17.17.222 to 239.0.1.187, on v17 (phy 2/1/17), igmp_size=8 nIGMP: rcvd Report-V2(t=22) g=239.0.1.188 resp=100, pkt S=17.17.17.222 to 239.0.1.188, on v17 (phy 2/1/17), igmp_size=8 oIGMP: rcvd Report-V2(t=22) g=239.0.1.189 resp=100, pkt S=17.17.17.222 to 239.0.1.189, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.190 resp=100, pkt S=17.17.17.222 to 239.0.1.190, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.191 resp=100, pkt S=17.17.17.222 to 239.0.1.191, on v17 (phy 2/1/17), igmp_size=8 dIGMP: rcvd Report-V2(t=22) g=239.0.1.192 resp=100, pkt S=17.17.17.222 to 239.0.1.192, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.193 resp=100, pkt S=17.17.17.222 to 239.0.1.193, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.194 resp=100, pkt S=17.17.17.222 to 239.0.1.194, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.195 resp=100, pkt S=17.17.17.222 to 239.0.1.195, on v17 (phy 2/1/17), igmp_size=8 eIGMP: rcvd Report-V2(t=22) g=239.0.1.196 resp=100, pkt S=17.17.17.222 to 239.0.1.196, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.197 resp=100, pkt S=17.17.17.222 to 239.0.1.197, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.198 resp=100, pkt S=17.17.17.222 to 239.0.1.198, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.199 resp=100, pkt S=17.17.17.222 to 239.0.1.199, on v17 (phy 2/1/17), igmp_size=8 buIGMP: rcvd Report-V2(t=22) g=239.0.1.200 resp=100, pkt S=17.17.17.222 to 239.0.1.200, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.201 resp=100, pkt S=17.17.17.222 to 239.0.1.201, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.202 resp=100, pkt S=17.17.17.222 to 239.0.1.202, on v17 (phy 2/1/17), igmp_size=8 gIGMP: rcvd Report-V2(t=22) g=239.0.1.203 resp=100, pkt S=17.17.17.222 to 239.0.1.203, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.204 resp=100, pkt S=17.17.17.222 to 239.0.1.204, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.205 resp=100, pkt S=17.17.17.222 to 239.0.1.205, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.206 resp=100, pkt S=17.17.17.222 to 239.0.1.206, on v17 (phy 2/1/17), igmp_size=8 aIGMP: rcvd Report-V2(t=22) g=239.0.1.207 resp=100, pkt S=17.17.17.222 to 239.0.1.207, on v17 (phy 2/1/17), igmp_size=8 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 135 6 IGMP debug commands lIGMP: rcvd Report-V2(t=22) g=239.0.1.208 resp=100, pkt S=17.17.17.222 to 239.0.1.208, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.209 resp=100, pkt S=17.17.17.222 to 239.0.1.209, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.210 resp=100, pkt S=17.17.17.222 to 239.0.1.210, on v17 (phy 2/1/17), igmp_size=8 lIGMP: rcvd Report-V2(t=22) g=239.0.1.211 resp=100, pkt S=17.17.17.222 to 239.0.1.211, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.212 resp=100, pkt S=17.17.17.222 to 239.0.1.212, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.213 resp=100, pkt S=17.17.17.222 to 239.0.1.213, on v17 (phy 2/1/17), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.1.214 resp=100, pkt S=17.17.17.222 to 239.0.1.214, on v17 (phy 2/1/17), igmp_size=8 Debug message destination: default (console) All possible debuggings have been turned off tracking is off and all results are cleared Turn off stack trace of write table Disable shadow register write will disable all writes from shadow to hardware debug ip igmp physical-port ethernet Syntax: [no] debug ip igmp physical-port ethernet This command matches the physical port that is connected. The variable refers to the stack ID, slot number, and port number of a specific Ethernet port. Brocade# debug ip igmp physical-port IGMP: rcvd Leave(t=23) g=225.1.1.31 VL8 (phy 1/2/4), igmp_size=8 IGMP: No L3 mcast, pkt S=10.11.66.62 IGMP: rcvd Leave(t=23) g=225.1.1.32 VL8 (phy 1/2/4), igmp_size=8 IGMP: No L3 mcast, pkt S=10.11.66.62 IGMP: rcvd Leave(t=23) g=225.1.1.33 VL8 (phy 1/2/4), igmp_size=8 ethernet 1/2/4 resp=0, pkt S=10.11.66.62 to 224.0.0.2, on to 224.0.0.2, on v8 (phy 1/2/4), igmp_size=8 resp=0, pkt S=10.11.66.62 to 224.0.0.2, on to 224.0.0.2, on v8 (phy 1/2/4), igmp_size=8 resp=0, pkt S=10.11.66.62 to 224.0.0.2, on debug ip igmp prime-port ethernet Syntax: [no] debug ip igmp prime-port ethernet This command monitors the activity of the physical port if the trunking is carried out on the primary port. The variable refers to the stack ID, slot number, and port number of a specific Ethernet port. Brocade# debug ip igmp prime-port ethernet 1/1/8 Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp prime-port 1/1/8 is enabled Brocade# Brocade# debug ip igmp Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.5 resp=100, pkt S=16.16.16.222 to 239.0.0.5, on v16 (phy 1/1/8), igmp_size=8 IGMP: rcvd Report-V2(t=22) g=239.0.0.5 resp=100, pkt S=16.16.16.222 to 239.0.0.5, on v16 (phy 1/1/8), igmp_size=8 136 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 PIM debug commands 6 debug ip igmp source Syntax: [no] debug ip igmp source This command matches the source of the control packet or IGMP V3 source packets. The variable specifies the IP address of the IGMP source. Brocade# debug ip igmp source 16.16.16.222 Brocade# IGMP: rcvd Report-V2(t=22) g=239.0.0.5 resp=100, pkt S=16.16.16.222 to 239.0.0.5, on v16 (phy 1/1/8), igmp_size=8 debug ip igmp timer Syntax: [no] debug ip igmp timer This command monitors the IGMP timer activity. Brocade# debug ip igmp timer monitor timer activity debug ip igmp vlan Syntax: [no] debug ip igmp vlan This command matches the VLAN ID for snooping. The variable represents the VLAN ID. Brocade# debug ip igmp vlan 2 monitor vlan 2 debug ip igmp show Syntax: debug ip igmp show This command displays the IGMP debug settings. Do not use the show debug command for this purpose. The show debug command displays general debug information. Brocade# debug ip igmp show igmp debug-enable-any = 1 debug ip igmp port-down is enabled debug ip igmp detail is enabled debug ip igmp level 2 is enabled PIM debug commands Protocol Independent Multicast (PIM) is used to simplify some of the complexity of the routing protocol at the cost of additional overhead tied with a greater replication of forwarded multicast packets. PIM is similar to DVMRP in that PIM builds source-routed multicast delivery trees and employs reverse path check when forwarding the multicast packets. debug ip pim Syntax: [no] debug ip pim This command activates the PIM debugging. Brocade# debug ip pim PIM: pim debugging is on Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 137 6 PIM debug commands debug ip pim add-del-oif Syntax: [no] debug ip pim add-del-oif This command shows mcache activity and will work with the debug ip pim group or debug ip pim source commands. Brocade# show ip pim neighbors Total number of neighbors: 4 on 4 ports Port Phy_p Neighbor Holdtime Age UpTime GenID v19 e16/11 19.19.19.52 180 0 58692 0x5EF61EDA Port Phy_p Neighbor Holdtime Age UpTime GenID tn2 e16/27 220.220.220.21 180 0 10556 0x28C97FB3 Port Phy_p Neighbor Holdtime Age UpTime GenID tn9 e7/7 139.139.139.32 180 0 0 0x50B77D32 Port Phy_p Neighbor Holdtime Age UpTime GenID tn24 e7/1 120.120.120.31 180 60 840 0x15EB0B50 Brocade# debug ip pim add-del-oif add-del-oif enabled Brocade# debug ip pim show pim debug-enable-any = 1 debug ip pim add-del-oif is enabled Brocade# debug ip pim PIM: pim debugging is on Brocade# vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() pim_dvmrp_process_port_down (ve port) v19 update oif, del nbr, del prune_list, update fwd igmp_del_group, del_grp, igmp_del_g_grp, reset vif cnt pim_process_port_up (ve port) v19, send query vport_state_notify v19 (phy e7/3) up=1 vport_state_notify v19 (phy e16/12) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e16/11) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() Brocade# vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e7/4) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e16/11) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() pim_dvmrp_process_port_down (ve port) v19 update oif, del nbr, del prune_list, update fwd igmp_del_group, del_grp, igmp_del_g_grp, reset vif cnt 138 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 PIM debug commands 6 pim_process_port_up (ve port) v19, send query vport_state_notify v19 (phy e7/3) up=1 Brocade# vport_state_notify v19 (phy e7/3) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() vport_state_notify v19 (phy e16/12) up=0 update_nbr_phy_mask_for_portdown() remove_vport_forward_entry() pim_dvmrp_process_port_down (ve port) v19 update oif, del nbr, del prune_list, update fwd igmp_del_group, del_grp, igmp_del_g_grp, reset vif cnt pim_process_port_up (ve port) v19, send query vport_state_notify v19 (phy e7/3) up=1 debug ip pim clear Syntax: [no] debug ip pim clear This command clears all the PIM debug settings. The output will be similar to the following if no settings are enabled. Brocade# debug ip pim clear no debug ip pim is enabled debug ip pim control-source Syntax: [no] debug ip pim control-source This command monitors the control packet sent by the given router. The variable refers to a particular route. Brocade# debug ip pim control-source 100.10.10.129 Brocade# IGMP: rcvd Query(t=17) V2 g=0.0.0.0 resp=100, pkt S=100.10.10.129 to 224.0.0.1, on v100 (phy 8/1/22), igmp_size=8 Brocade# IGMP: rcvd Query(t=17) V2 g=0.0.0.0 resp=100, pkt S=100.10.10.129 to 224.0.0.1, on v100 (phy 8/1/22), igmp_size=8 debug ip pim group Syntax: [no] debug ip pim group This command displays the activities related to the particular IP address. The variable refers to the IP address of the PIM group. Brocade# debug ip pim group 227.1.1.1 Brocade# Proc IGMP join g=227.1.1.1 from v300(2/1/17) 10.11.55.55 PIM: send prune v100, source 10.11.99.99 group 227.1.1.1 nbr 100.10.10.129 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Prune list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=34 to v100 PIM: send prune v100, source 0.0.0.0 group 227.1.1.1 nbr 100.10.10.129 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Prune list: (0.0.0.0 227.1.1.1) wc=0 rpt=0 sparse=1 Prune list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=42 to v100 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 139 6 PIM debug commands group address: 227.1.1.1 Prune list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=34 to v100 join_prune_timer, (10.11.99.99 227.1.1.1) num=0, RPT=0, group_on_dr_and_sg=0, PR UNE join_prune_timer, (10.11.99.99 227.1.1.1) ->num=0, rpt=0, spt=1, SRC=v100, RP=v1 00 join_prune_timer, (10.11.99.99 227.1.1.1) fail RPT PRUNE cond. join_prune_timer, (0.0.0.0 227.1.1.1) rp not local, send join or prune, wc=1, rp t=1 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Prune list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 Prune list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=406 to v100 Brocade# show ip pim group | i 227.1.1.1 Brocade# join_prune_timer, (10.11.99.99 227.1.1.1) num=0, RPT=0, group_on_ dr_and_sg=0, PRUNE join_prune_timer, (10.11.99.99 227.1.1.1) ->num=0, rpt=0, spt=1, SRC=v100, RP=v1 00 join_prune_timer, (10.11.99.99 227.1.1.1) fail RPT PRUNE cond. join_prune_timer, (0.0.0.0 227.1.1.1) rp not local, send join or prune, wc=1, rp t=1 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Prune list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 Prune list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=406 to v100 Brocade# Proc IGMP join g=227.1.1.1 from v300(2/1/17) 10.11.55.55 join_prune_timer, (10.11.99.99 227.1.1.1) ->num=1, rpt=0, am_rp_and_proxy=0, JOI N join_prune_timer, (10.11.99.99 227.1.1.1) ->num=1, rpt=0, spt=1, SRC=v100, RP=v1 00 join_prune_timer, (10.11.99.99 227.1.1.1) fail RPT PRUNE cond. Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Join list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 Join list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=42 to v100 Brocade# Proc IGMP join g=227.1.1.1 from v300(2/1/17) 10.11.55.55 Brocade# join_prune_timer, (10.11.99.99 227.1.1.1) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.99.99 227.1.1.1) ->num=1, rpt=0, spt=1, SRC=v100, RP=v1 00 join_prune_timer, (10.11.99.99 227.1.1.1) fail RPT PRUNE cond. join_prune_timer, (0.0.0.0 227.1.1.1) rp not local, send join or prune, wc=1, rp t=1 Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 227.1.1.1 Join list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 Join list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=406 to v100 reset age (10.11.99.99, 227.1.1.1) Brocade# show ip pim group | i 227.1.1.1 Index 7 Group 227.1.1.1 140 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 PIM debug commands 6 debug ip pim level Syntax: [no] debug ip pim level This command sets the PIM level. The variable refers to the number of the PIM level. The valid values are from 1 through 3. Brocade# debug ip pim level DECIMAL 1-3 (most detailed) Brocade# debug ip pim level 1 debug level = 1 Brocade# rcvd PIM_V2 Hello, from 100.10.10.129 to 224.0.0.13 Len 34 on v10 0 (8/1/22) rcvd PIM_V2 Hello, from 100.10.10.129 to 224.0.0.13 Len 34 on v100 (8/1/22) Brocade# debug ip pim level 2 debug level = 2 Brocade# 00:21:13 Send PIM_V2 Hello Src 100.10.10.119 Dst 224.0.0.13 Len 3 4 on v100 00:21:13 Send PIM_V2 Hello Src 10.1.20.22 Dst 224.0.0.13 Len 34 on v200 00:21:13 Send PIM_V2 Hello Src 10.1.30.22 Dst 224.0.0.13 Len 34 on v300 rcvd PIM_V2 Bootstrap, from 100.10.10.129 to 224.0.0.13 Len 36 on v100 (8/1/22) 00:21:16 Send PIM_V2 Hello Src 100.10.10.119 Dst 224.0.0.13 Len 34 on v100 00:21:16 Send PIM_V2 Hello Src 10.1.20.22 Dst 224.0.0.13 Len 34 on v200 00:21:16 Send PIM_V2 Hello Src 10.1.30.22 Dst 224.0.0.13 Len 34 on v300 PIMSM: BEGIN Periodic join-prune msgs Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 225.1.1.10 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=42 to v100 group address: 225.1.1.9 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=70 to v100 group address: 225.1.1.8 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=98 to v100 group address: 225.1.1.7 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=126 to v100 group address: 225.1.1.6 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=154 to v100 group address: 225.1.1.5 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=182 to v100 group address: 225.1.1.4 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=210 to v100 group address: 226.1.1.1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=238 to v100 group address: 225.1.1.3 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=266 to v100 group address: 225.1.1.2 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=294 to v100 group address: 225.1.1.1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=322 to v100 group address: 226.1.1.2 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=350 to v100 group address: 227.1.1.2 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=378 to v100 group address: 227.1.1.1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=406 to v100 00:21:16 Send PIM_V2 Join/Prune Src 100.10.10.119 Dst 224.0.0.13 Len 406 on v100 PIMSM: END Periodic join-prune msgs Brocade# debug ip pim level 3 debug level = 3 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 141 6 PIM debug commands Brocade# rcvd PIM_V2 Hello, from 100.10.10.129 to 224.0.0.13 Len 34 on v10 0 (8/1/22) Hello msg v100, source 100.10.10.129 group 224.0.0.13 rcvd PIM_V2 Hello, from 100.10.10.129 to 224.0.0.13 Len 34 on v100 (8/1/22) Hello msg v100, source 100.10.10.129 group 224.0.0.13 Proc IGMP join g=226.1.1.2 from v200(5/1/13) 10.11.66.66 Proc IGMP join g=225.1.1.1 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.2 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.3 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=226.1.1.1 from v200(8/1/17) 10.11.22.22 Proc IGMP join g=225.1.1.4 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.5 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.6 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.7 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.8 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=227.1.1.1 from v300(2/1/17) 10.11.55.55 Proc IGMP join g=225.1.1.9 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=225.1.1.10 from v200(5/1/9) 10.11.77.77 Proc IGMP join g=227.1.1.2 from v300(2/1/17) 10.11.55.55 00:22:13 Send PIM_V2 Hello Src 100.10.10.119 Dst 224.0.0.13 Len 34 on v100 00:22:13 Send PIM_V2 Hello Src 10.1.20.22 Dst 224.0.0.13 Len 34 on v200 00:22:13 Send PIM_V2 Hello Src 10.1.30.22 Dst 224.0.0.13 Len 34 on v300 rcvd PIM_V2 Bootstrap, from 100.10.10.129 to 224.0.0.13 Len 36 on v100 (8/1/22) 00:22:16 Send PIM_V2 Hello Src 100.10.10.119 Dst 224.0.0.13 Len 34 on v100 00:22:16 Send PIM_V2 Hello Src 10.1.20.22 Dst 224.0.0.13 Len 34 on v200 00:22:16 Send PIM_V2 Hello Src 10.1.30.22 Dst 224.0.0.13 Len 34 on v300 PIMSM: BEGIN Periodic join-prune msgs Begin sending Join/Prune msg to v100, rpf_nbr=100.10.10.129, group address: 225.1.1.10 Join list: (100.10.10.129 225.1.1.10) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.10) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=42 to v100 group address: 225.1.1.9 Join list: (100.10.10.129 225.1.1.9) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.9) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=70 to v100 group address: 225.1.1.8 Join list: (100.10.10.129 225.1.1.8) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.8) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=98 to v100 group address: 225.1.1.7 Join list: (100.10.10.129 225.1.1.7) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.7) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=126 to v100 group address: 225.1.1.6 Join list: (100.10.10.129 225.1.1.6) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.6) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=154 to v100 group address: 225.1.1.5 Join list: (100.10.10.129 225.1.1.5) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.5) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=182 to v100 group address: 225.1.1.4 Join list: (100.10.10.129 225.1.1.4) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.4) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=210 to v100 group address: 226.1.1.1 Join list: (100.10.10.129 226.1.1.1) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 226.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=238 to v100 142 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 PIM debug commands 6 group address: 225.1.1.3 Join list: (100.10.10.129 225.1.1.3) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.3) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=266 to v100 group address: 225.1.1.2 Join list: (100.10.10.129 225.1.1.2) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.2) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=294 to v100 group address: 225.1.1.1 Join list: (100.10.10.129 225.1.1.1) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 225.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=322 to v100 group address: 226.1.1.2 Join list: (100.10.10.129 226.1.1.2) wc=1 rpt=1 sparse=1 Join list: (10.11.101.101 226.1.1.2) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=350 to v100 group address: 227.1.1.2 Join list: (100.10.10.129 227.1.1.2) wc=1 rpt=1 sparse=1 Join list: (10.11.99.99 227.1.1.2) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=378 to v100 group address: 227.1.1.1 Join list: (100.10.10.129 227.1.1.1) wc=1 rpt=1 sparse=1 Join list: (10.11.99.99 227.1.1.1) wc=0 rpt=0 sparse=1 send_J/P_msg(), lcl_adr=100.10.10.119 dest=224.0.0.13 pkt_size=406 to v100 00:22:16 Send PIM_V2 Join/Prune Src 100.10.10.119 Dst 224.0.0.13 Len 406 on v100 PIMSM: END Periodic join-prune msgs debug ip pim physical-port ethernet Syntax: [no] debug ip pim physical-port ethernet This command displays information of the PIM physical ports that are connected. The variable refers to the stack ID, slot number, and port number. Brocade# debug ip pim physical-port ethernet 2/1/5 Brocade# IGMP: IGMP: rcvd Report-V3(t=34) #rec=1, pkt S=20.2.1.6 to 224.0.0.22, on v800 (phy 2 /1/5), igmp_size=16 IGMP: IGMP: rcvd Report-V3(t=34) #rec=1, pkt S=20.2.1.6 to 224.0.0.22, on v800 (phy 2/1/5), igmp_size=16 debug ip pim source Syntax: [no] debug ip pim source This command monitors the content related to a specific PIM server. The variable refers to the IP address of the PIM server source. Brocade# debug ip pim source 10.11.101.101 Brocade# join_prune_timer, (10.11.101.101 225.1.1.10) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.10) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.10) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.9) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.9) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.9) fail RPT PRUNE cond. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 143 6 PIM debug commands join_prune_timer, (10.11.101.101 225.1.1.8) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.8) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.8) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.7) ->num=1, rpt=0, am_rp_and_proxy=0, J OIN join_prune_timer, (10.11.101.101 225.1.1.7) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.7) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.6) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.6) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.6) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.5) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.5) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.5) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.4) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.4) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.4) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 226.1.1.1) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 226.1.1.1) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 226.1.1.1) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.3) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.3) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.3) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.2) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.2) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.2) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 225.1.1.1) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 225.1.1.1) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 225.1.1.1) fail RPT PRUNE cond. join_prune_timer, (10.11.101.101 226.1.1.2) ->num=1, rpt=0, am_rp_and_proxy=0, JOIN join_prune_timer, (10.11.101.101 226.1.1.2) ->num=1, rpt=0, spt=1, SRC=v100, RP=v100 join_prune_timer, (10.11.101.101 226.1.1.2) fail RPT PRUNE cond. Join list: (10.11.101.101 225.1.1.10) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.9) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.8) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.7) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.6) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.5) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.4) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 226.1.1.1) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.3) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 225.1.1.2) wc=0 rpt=0 sparse=1 144 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 PIM debug commands 6 Join list: (10.11.101.101 225.1.1.1) wc=0 rpt=0 sparse=1 Join list: (10.11.101.101 226.1.1.2) wc=0 rpt=0 sparse=1 debug ip pim show Syntax: debug ip pim show This command displays the PIM debug settings. Do not use the show debug command for this purpose. The show debug command displays general debug information. Brocade# debug ip pim show pim debug-enable-any = 1 debug ip pim level 2 is enabled Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 145 6 146 PIM debug commands Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter 7 Security Debug Commands In this chapter • ACL debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • 802.1x debug commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • MAC authentication debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . • sFlow debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • Web debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • Web authentication debug commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147 147 148 149 150 150 ACL debug commands The IP Access Control List (ACL) feature filters traffic based on the information in the IP packet header. The following command displays the ACL log information. debug acl log Syntax: [no] debug acl log This command sends the ACL log to the CPU for all the packets. Brocade# debug acl log Enabling ACL log 802.1x debug commands The following commands displays information about 802.1x authentication events, activities, and settings. debug dot1x events Syntax: [no] debug dot1x events This command displays the authentications failed or succeeded and the application of VLANs or ACLs requested by the Remote Authentication Dial In User Service (RADIUS) server. This command works globally across all the ports. Brocade# debug dot1x events dot1x: Events debugging is on Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 147 7 MAC authentication debug commands debug dot1x filter Syntax: [no] debug dot1x filter This command enables the 802.1x filter debugging. Brocade# debug dot1x filter dot1x: Filter debugging is on debug dot1x misc Syntax: [no] debug dot1x misc This command enables the 802.1x miscellaneous debugging. Brocade# debug dot1x misc dot1x: Misc debugging is on debug dot1x packets Syntax: [no] debug dot1x packets This command displays information about 802.1x packets. Brocade# debug dot1x packets dot1x: Packets debugging is on debug dot1x timers Syntax: [no] debug dot1x timers This command displaysinformation about 802.1x timers. Brocade# debug dot1x timers dot1x: Timers debugging is on MAC authentication debug commands The following command displays MAC authentication information. debug mac-authentication Syntax: [no] debug mac-authentication This command enables the MAC authentication debugging for a single port. The variable specifies the hexadecimal number of the port. NOTE This debug command displays output that is useful for the technical support personnel. Use the ptrace aaa command instead of the mac authentication command to display information about the authentication of packets between the switch and the RADIUS server. Brocade# ptrace aaa specified trace was turned ON Brocade# clear auth Brocade# Reseting RADIUS Client structure RADIUS: Create client 15, Total number of active clients=1 148 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 sFlow debug commands 7 Tracing the outgoing Radius Authentication packet.. UDP packet source IP=198.19.9.1, port=1645, destination IP=64.12.12.5, port=1745 Radius Header (hex): Code=0x01 Identifier=0x11 Length=0x0065 Authenticator (hex):000078d6000028c00000699d00004bf3 Attribute Type(hex)=0x01 Len(hex)=0x0e Value (ASCII)=0 0 3 0 4 8 7 4 3 1 8 1 Attribute Type(hex)=0x02 Len(hex)=0x12 Value (hex)=414084e32550daec45ef8129b7c6 aed9 Attribute Type(hex)=0x06 Len(hex)=0x06 Value (hex)=00000002 Attribute Type(hex)=0x0c Len(hex)=0x06 Value (hex)=000005dc Attribute Type(hex)=0x04 Len(hex)=0x06 Value (hex)=c6130901 Attribute Type(hex)=0x3d Len(hex)=0x06 Value (hex)=0000000f Attribute Type(hex)=0x05 Len(hex)=0x06 Value (hex)=0000038c Attribute Type(hex)=0x1f Len(hex)=0x13 Value (ASCII)=0 0 - 3 0 - 4 8 - 7 4 - 3 1 - 8 1 Radius message received from server. Tracing the received Radius packet.. Radius Header (hex): Code=0x02 Identifier=0x11 Length=0x0051 Authenticator (hex):c98e259aa7b6aeb66baf79af9a77e81e Attribute Type(hex)=0x41 Len(hex)=0x06 Value (hex)=00000006 Attribute Type(hex)=0x51 Len(hex)=0x05 Value (hex)=313939 Attribute Type(hex)=0x40 Len(hex)=0x06 Value (hex)=0000000d Attribute Type(hex)=0x07 Len(hex)=0x06 Value (hex)=00000001 Attribute Type(hex)=0x06 Len(hex)=0x06 Value (hex)=00000002 Attribute Type(hex)=0x19 Len(hex)=0x20 Value (hex)=3cdc04f60000013700010a144086 01cb1fa09e8d214e00000000000001b2 RADIUS: Unsupported RADIUS message 7 with code 2 RADIUS: Unsupported RADIUS message 6 with code 2 RADIUS: Unsupported RADIUS message 25 with code 2 +++++ Timer cancelled for client 15. Radius server returns status PASS. AAA:DYNAMIC-AUTHEN:Authentication successful. SYSLOG: <13>0d00h25m33s:SDX1600 MAC Authentication succeeded for [0030.4874.3181 198.19.9.105] on port 15/12 RADIUS: Reset client 15, Total number of active clients=0 Reseting RADIUS Client structure sFlow debug commands sFlow is a system for observing traffic flow patterns and quantities within and among a set of Brocade devices. The following command displays debug information related to sFlow. debug sflow problems Syntax: [no] debug sflow problems This command enables debuggging of the internal sFlow. Brocade# debug sflow problems sflow: problem debugging is on Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 149 7 Web debug commands Web debug commands The following command displays information related to web debugging. debug web events Syntax: [no] debug web events This command enables web events debugging. Brocade# debug web events web: Events debugging is on Web authentication debug commands The following commands display information related to the web authentication debugging. debug webauth events Syntax: [no] debug webauth events This command enables debugging of web authentication events. Brocade# debug webauth events webauth: Events debugging is on debug webauth timers Syntax: [no] debug webauth timers This command enables debugging of web authentication timers. Brocade# debug webauth timers webauth: Timers debugging is on 150 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Chapter supportsave Information 8 In this chapter • supportsave overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151 • supportsave commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151 supportsave overview The supportsave is an important utility for collecting logs from the driver, internal libraries, and firmware. The collected logs are shared with the technical support personnel for investigating issues seen on the device. NOTE The supportsave utility is supported only on the Brocade ICX 6430 and Brocade ICX 6450 devices. Run the commands listed in the “supportsave commands” section to collect the logs and upload them to the remote server for troubleshooting. supportsave commands The following supportsave commands are used to collect the system logs. TFTP is disabled by default, if FIPS is enabled. Enable TFTP manually for uploading supportsave data. It is a prerequisite to have the TFTP server with a write permission and the server must be accessible from the device. Use the fips policy allow tftp-access command in configuration mode to enable TFTP access while the FIPS is enabled. supportsave Syntax: supportsave [ os | platform | l2 | l3 | custom | core | all ] • • • • • • • • os — Collects information related to the operating system. platform—Collects information related to the platform. l2—Collects information related to Layer 2. l3—Collects information related to Layer 3. custom—Collects custom commands. core—Collects core and system log files. all—Collects all the log files. —Refers to the IP address of the TFTP server. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 151 8 supportsave commands • —Refers to the supportsave file name. Maximum of 10 characters are allowed. This command collects the respective logs selected and uploads them to the TFTP server. NOTE It is recommended to use all variable to collect complete logs. Brocade# supportsave all 172.20.5.88 Supportsave started. This operation may take several minutes. Press "A" to abort supportsave operation. ICX6430-48P Supportsave completed in 10 seconds supportsave Syntax: supportsave [show | cancel] • show —Displays the progress of the log collection that has been executed on a terminal other than the one on which the supportsave command is executed. • cancel—Cancels the current log collection that has been executed on a terminal other than the one on which the supportsave command is executed. This command collects, displays, or cancels the log collection that has been executed. Brocade# supportsave show Supportsave is executing commands: 19% completed Brocade# supportsave show Supportsave is executing commands: 34% completed Brocade# supportsave show Supportsave is executing commands: 60% completed Brocade# supportsave show. Supportsave is executing commands: 100% completed Supportsave is transporting files... supportsave add_cust_cmd index Syntax: supportsave add_cust_cmd index <“cli string”> This command adds a run-time executable command into the custom module at a particular index of 32 characters long (maximum of 32 characters are allowed) during the run time. Brocade# supportsave add_cust_cmd index 1 "show chassis" supportsave del_cust_cmd index Syntax: supportsave del_cust_cmd index This command deletes a command from the custom module at a particular index during the run time. supportsave del_cust_cmd all Syntax: supportsave del_cust_cmd all This command deletes all the custom module commands. supportsave list_cust_cmd Syntax: supportsave list_cust_cmd This command displays the custom module commands. 152 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 supportsave commands 8 Recovery during continuous reload Perform the following steps to collect the logs in case of continuous reload of the device on a given partition: • Press b to stop reloading in boot prompt. • Boot from the stable firmware from the other partition using boot_primary or boot_secondary options. • Run supportsave command to collect the logs after the reload is finished with the stable firmware. • Execute the use default-configuration command from the boot prompt for stopping the start up configuration during reload, and make sure the device loads successfully. Otherwise, contact the Brocade technical support for assistance. Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 153 8 154 supportsave commands Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 Diagnostic Command Index D debug ? 2 debug 802.1w all_802_1w_events 25 debug 802.1w messages 26 debug 802.1w timer 27 debug 802.1w transitions 28 debug acl log 147 debug all 2 debug cluster all 37 debug cluster ccp 40 debug cluster config 39 debug cluster fsm client 42 debug cluster stp 43 debug destination 2 debug dhcp-client alarms 33 debug dhcp-client events 34 debug dot1x events 147 debug dot1x filter 148 debug dot1x misc 148 debug dot1x packets 148 debug dot1x timers 148 debug gvrp packets 35 debug hw 5 debug ip arp 91 debug ip arp inspection 92 debug ip bgp 92 debug ip bgp events 92 debug ip bgp graceful-restart 93 debug ip dhcp_snooping 93 debug ip icmp events 93 debug ip icmp packets 94 debug ip igmp add-del-oif 120 debug ip igmp add-del-oif all 123 debug ip igmp add-del-oif stack 126 debug ip igmp clear 128 debug ip igmp down-port 128 debug ip igmp group 130 debug ip igmp level 130 debug ip igmp packet 134 debug ip igmp physical-port ethernet 136 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01 debug ip igmp prime-port ethernet 136 debug ip igmp show 137 debug ip igmp source 137 debug ip igmp timer 137 debug ip igmp vlan 137 debug ip msdp 119 debug ip msdp alarms 119 debug ip msdp events 119 debug ip msdp message 120 debug ip ospf adj 94 debug ip ospf event 95 debug ip ospf graceful-restart 96 debug ip ospf packet 97 debug ip pim 137 debug ip pim add-del-oif 138 debug ip pim clear 139 debug ip pim control-source 139 debug ip pim group 139 debug ip pim level 141 debug ip pim physical-port ethernet 143 debug ip pim show 145 debug ip pim source 143 debug ip sntp 100 debug ip source_guard 100 debug ip ssh 101 debug ip tcp driver 103 debug ip tcp memory 103 debug ip tcp packet 104 debug ip tcp sack 104 debug ip tcp transactions 104 debug ip udp 104 debug ip vrrp events 106 debug ip vrrp packet 104 debug ip vrrp packet v4 105 debug ip vrrp packet v6 105 debug ip vrrp vrid 106 debug ip web 106 debug ip web-ssl 106 debug ipv6 107 debug ipv6 mld 107 debug ipv6 mld add-del-oif 108 155 debug ipv6 mld add-del-oif all 109 debug ipv6 mld add-del-oif stack 110 debug ipv6 mld clear 111 debug ipv6 mld detail 111 debug ipv6 mld group 112 debug ipv6 mld level 112 debug ipv6 mld mcache-group 114 debug ipv6 mld phy-port 116 debug ipv6 mld phy-port ethernet 116 debug ipv6 mld prime-port ethernet 116 debug ipv6 mld show 117 debug ipv6 mld timer 117 debug ipv6 mld vlan 117 debug loop-detect 5 debug mac 36 debug mac-authentication 148 debug mstp bpdu 28 debug mstp events 30 debug mstp level 30 debug mstp msti 31 debug mstp port-level 32 debug mstp show 33 debug mstp state 33 debug mstp verbose 33 debug packet-capture 52 debug packet-capture filter 52 debug packet-capture filter show 54 debug packet-capture mode 54 debug port hw-state 6 debug port port 7 debug port ten-gig 9 debug port up-down 9 debug port vlan 10 debug sflow problems 149 debug span all_802_1d_events 23 debug span config 24 debug span timers 25 debug stacking control-stack 11 debug stacking disable-task 13 debug stacking download 14 debug stacking election 16 debug stacking reg-cache-group 18 debug stacking sync-rel-msg 18 debug stacking time 19 debug stacking topology 20 debug system campram 20 debug system optics 21 debug system poll 21 156 debug web events 150 debug webauth events 150 debug webauth timers 150 S show cluster 47 show cluster ccp peer 50 show cluster ccp peer detail 51 show cluster client 49 show cluster config 50 show cluster cpp client all 47 show debug 3 show mac cluster 51 show tech-support 55 show tech-support acl 83 show tech-support cpu 80 show tech-support l2 73 show tech-support l3 ipv4-uc 84 show tech-support l3 ipv6-uc 87 show tech-support memory 79 show tech-support multicast 89 show tech-support packet-loss 83 show tech-support stacking 81 supportsave 151 supportsave add_cust_cmd index 152 supportsave del_cust_cmd 152 supportsave del_cust_cmd index 152 supportsave list_cust_cmd 152 Brocade FastIron, FCX, ICX, and TurboIron Diagnostic Reference 53-1002497-01
Source Exif Data:
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