HP Switch Software
Basic Operation Guide
HP 3500
HP 3800
HP 2520
HP 2520G
HP 2530
HP 3500yl
HP 5400zl
HP 6200yl
HP 6600
HP 2620
HP 2615
HP 2910
HP 2915
HP 8200zl
November 2012
HP Networking
HP 3500
HP 3800
HP 2520
HP 2520G
HP 2530
HP 3500yl
HP 5400zl
HP 6200yl
HP 6600
HP 2620
HP 2615
HP 2910al
HP 2915
HP 8200zl
November 2012
Basic Operation Guide
© Copyright 2005–2012 Hewlett-Packard Development Company,
L.P. The information contained herein is subject to change with-
out notice. All Rights Reserved.
Disclaimer
The information contained in this document is subject to
change without notice.
This document contains proprietary information, which is
protected by copyright. No part of this document may be
photocopied, reproduced, or translated into another
language without the prior written consent of Hewlett-
Packard.
HEWLETT-PACKARD COMPANY MAKES NO WARRANTY
OF ANY KIND WITH REGARD TO THIS MATERIAL,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS
FOR A PARTICULAR PURPOSE. Hewlett-Packard shall not
be liable for errors contained herein or for incidental or
consequential damages in connection with the furnishing,
performance, or use of this material.
Publication Number
5998-3892
November 2012
The only warranties for HP products and services are set
forth in the express warranty statements accompanying
such products and services. Nothing herein should be
construed as constituting an additional warranty. HP shall
not be liable for technical or editorial errors or omissions
contained herein.
Applicable Products
HP 3500 Switches
(J9470A, J9471A, J9472A,
J9473A)
Hewlett-Packard assumes no responsibility for the use or
reliability of its software on equipment that is not furnished
by Hewlett-Packard.
HP 3500yl Switches
HP 5400zl Switches
(J8692A, J8693A)
(J8697A, J8698A, J9447A,
J9448A)
HP 6200yl Switch
HP 8200zl Switches
HP 6600 Switches
(J8992A)
(J9475A, J8715A/B)
(J9263A, J9264A, J9265A,
J9451A, J9452A)
(J9573A, J9574A, J9575A,
Software End User License Agreement and
Hardware Limited Warranty
HP 3800 Switches
J9576A, J9584A, J9585A, J9586A, J9587A, J9588A)
HP 2620 Switches
For the software end user license agreement and the
hardware limited warranty information for HP Networking
products, visit www.hp.com/networking/support.
(J9623A, J9624A, J9625A,
J9626A, J9627A)
(J9298A, J9299A)
(J9137A, J9138A)HP
(J9772A)
HP 2520G Switches
HP 2520 Switches
Switch 2530-48G-PoE+
HP Switch 2530-24G-PoE+
HP Switch 2530-48G
HP Switch 2530-24G
HP 2615 Switch
(J9773A)
(J9775A)
(J9776A)
(J9565A)
HP 2910al Switches
(J9145A, J9146A, J9147A
J9148A)
HP 2915 Switch
(J9562A)
Trademark Credits
Microsoft, Windows, and Microsoft Windows NT are US
registered trademarks of Microsoft Corporation. Java™ is a
US trademark of Sun Microsystems, Inc.
Hewlett-Packard Company
8000 Foothills Boulevard, m/s 5551
Roseville, California 95747-5551
http://www.hp.com/networking/support
Product Documentation
About Your Switch Manual Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii
Electronic Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii
List of Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . viii
Initial Switch Set-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Recommended Minimal Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Using the Switch Setup Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Login Banners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Custom Login Banners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Banner Operation with Telnet, Serial, or SSHv2 Access . . . . . . . . 1-4
Banner Operation with the WebAgent . . . . . . . . . . . . . . . . . . . . . . 1-4
Configuring and Displaying a Non-Default Banner . . . . . . . . . . . . 1-5
Example of Configuring and Displaying a Banner . . . . . . . . . . . . . 1-6
Operating Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8
Authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9
Banner MOTD Command with
Non-Interactive Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Starting and Ending a Menu Session . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
How To Start a Menu Interface Session . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
How To End a Menu Session and Exit from the Console: . . . . . . . . . . 2-4
Main Menu Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Screen Structure and Navigation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
Rebooting the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11
iii
Menu Features List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-13
Port-Level Configuration on HP 3800
Where To Go From Here . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Accessing the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Using the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Privilege Levels at Logon . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Manager Privileges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Listing Commands and Command Options . . . . . . . . . . . . . . . . . . . . . . 3-7
Listing Commands Available at Any Privilege Level . . . . . . . . . . . 3-7
Listing Command Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9
Displaying CLI “Help” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Configuration Commands and the Context Configuration Modes . . 3-12
Return Message Types with CLI Commands . . . . . . . . . . . . . . . . . . . . 3-16
CLI Interactive Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17
Interactive Commands Requiring Additional Options . . . . . . . . . . . . 3-18
Menu Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
SNMPv3 Special Cases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
Banner MOTD Command with Non-Interactive Mode . . . . . . . . . . . . 3-19
CLI Control and Editing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-22
Repeating Execution of a Command . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23
Using a Command Alias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-24
CLI Shortcut Keystrokes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-27
Port-Level Configuration on HP 3800
Switches with Stacking Enabled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-28
iv
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
General Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
Starting the WebAgent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4
Using a Standalone Web Browser from a PC or UNIX Workstation . 4-4
Viewing the “First Time Install” Window . . . . . . . . . . . . . . . . . . . . . . . . 4-5
Setting a Username and Password . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
If You Lose the Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Online Help for the WebAgent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-7
Connecting to the WebAgent from HP PCM+ . . . . . . . . . . . . . . . . . . . . 4-7
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
Configuration File Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
Configuration File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9
Using TFTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
Using USB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11
Using TFTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11
Using USB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11
Using SFTP and SCP to Transfer the Custom Configuration . . . . . . 5-12
Erasing a Configuration File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13
Displaying the Configuration Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14
Troubleshooting Custom Default Configuration Files . . . . . . . . . . . . 5-16
v
Implement Configuration Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-16
Menu: Implementing Configuration Changes . . . . . . . . . . . . . . . . . . . 5-17
Using Save and Cancel in the Menu Interface . . . . . . . . . . . . . . . 5-17
Rebooting from the Menu Interface . . . . . . . . . . . . . . . . . . . . . . . 5-18
WebAgent: Implementing Configuration Changes . . . . . . . . . . . . . . . 5-19
Rebooting the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-27
Boot and Reload Command Comparison . . . . . . . . . . . . . . . . . . . 5-28
Setting the Default Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-29
Booting from the Default Flash (Primary or Secondary) . . . . . . 5-30
Booting from a Specified Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-31
Using Reload . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-32
Multiple Configuration Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-36
Changing or Overriding the Reboot Configuration Policy . . . . . . . . . 5-41
Managing Startup-Config Files in the Switch . . . . . . . . . . . . . . . . . . . 5-43
Erasing a Startup-Config File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45
Using the Clear + Reset Button Combination To Reset the
Switch to Its Default Configuration . . . . . . . . . . . . . . . . . . . . . . . . 5-47
Transferring Startup-Config Files To or From a Remote Server . . . . 5-48
TFTP: Copying a Configuration File to a Remote Host . . . . . . . . 5-48
vi
Connected Host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-50
Operating Notes for Multiple Configuration Files . . . . . . . . . . . . 5-50
Display Configuration of Selected Interface . . . . . . . . . . . . . . . . . . . 5-51
Running Configuration Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-51
Startup Configuration Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-58
Automatic Configuration Update with DHCP Option 66 . . . . . . . . 5-61
CLI Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-61
Possible Scenarios for Updating the Configuration File . . . . . . . . . . 5-62
Operating Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-62
Log Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-63
6 Interface Access and System Information
Reconfigure Inbound Telnet Access . . . . . . . . . . . . . . . . . . . . . . . . 6-4
Making Window Size Negotiation Available for a Telnet Session 6-6
Reconfigure WebAgent Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7
Reconfigure the Console/Serial Link Settings . . . . . . . . . . . . . . . . 6-7
Sessions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-9
System Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-11
Viewing and Configuring System Information . . . . . . . . . . . . . . . . . . . 6-12
7 Configuring IP Addressing
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
IP Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
Just Want a Quick Start with IP Addressing? . . . . . . . . . . . . . . . . . . . . 7-3
vii
CLI: Configuring IP Address, Gateway, and Time-To-Live (TTL) . . . . 7-6
WebAgent: Configuring IP Addressing . . . . . . . . . . . . . . . . . . . . . . . . . 7-11
How IP Addressing Affects Switch Operation . . . . . . . . . . . . . . . . . . . 7-12
DHCP/Bootp Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-12
Network Preparations for Configuring DHCP/Bootp . . . . . . . . . 7-15
Loopback Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-16
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-16
Displaying Loopback Interface Configurations . . . . . . . . . . . . . . . . . . 7-18
Addressing Across Configuration File Downloads . . . . . . . . . . . . . . 7-21
Operating Rules for IP Preserve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-21
Enabling IP Preserve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-21
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-25
The Source IP Selection Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-26
Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-33
and Software from the Web . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
Software Signing and Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-5
Using the CLI to Validate or Bypass a Signature Verification . . . 8-6
Saving Configurations While Using the CLI . . . . . . . . . . . . . . . . . . . . . . 8-7
Important: Best Practices for Software Updates . . . . . . . . . . . . . . . . . 8-7
Updating the Switch: Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-8
viii
Updating the Switch: Detailed Steps . . . . . . . . . . . . . . . . . . . . . . . . 8-9
Rolling Back Switch Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-13
Viewing or Transferring Alternate Configuration Files . . . . . . . . 8-14
Index
ix
x
Product Documentation
About Your Switch Manual Set
N o t e
For the latest versionof allHPswitch documentation, including Release Notes
covering recently added features, please visit the HP Networking web site at
www.hp.com/Networking/support.
Electronic Publications
The latest version of each of the publications listed below is available in PDF
format on the HP Networking web site, as described in the Note at the top of
this page.
■
Installation and Getting Started Guide—Explains how to prepare for
and perform the physical installation and connect the switch to your
network.
■
■
■
■
■
■
■
■
Basic Operation Guide—Describes how to use the switch interfaces and
introduces basic operations.
Management and Configuration Guide—Describes how to configure,
manage, and monitor basic switch operation.
AdvancedTrafficManagementGuide—Explainshow toconfigure traffic
management features such as VLANs, MSTP, QoS, and Meshing.
Multicast and Routing Guide—Explains how to configure IGMP, PIM, IP
routing, and VRRP features.
Access Security Guide—Explains how to configure access security fea-
tures and user authentication on the switch.
IPv6 Configuration Guide—Describes the IPv6 protocol operations that
are supported on the switch.
Command Line Interface Reference Guide—Provides a comprehensive
description of CLI commands, syntax, and operations.
Comware CLI Commands in ProVision Software—Provides the syntax,
descriptions, and examples of Comware CLI commands that can be
executed in ProVision software. Includes related ProVision software com-
mands.
■
■
Event Log Message Reference Guide—Provides a comprehensive descrip-
tion of event log messages.
Release Notes—Describe new features, fixes, and enhancements that
become available between revisions of the main product guide.
vii
List of Commands
A few commands are not supported on certain switches.
Command
Page
3-24
alias
banner exec
1-9
banner motd
1-5
boot [system flash]
boot set-default flash
config
8-11
5-30
5-4
console
6-7
copy config
5-48
5-24
5-49
8-2
copy flash
copy tftp config
copy tftp flash
copy usb flash
copy xmodem flash
dhcp config-file-update
enable
8-4
8-3
5-61
3-4
end
3-8
erase
5-46
5-24
3-5
erase flash
exit
fastboot
5-32
6-13
7-17
7-7
hostname
interface loopback <number>
ip address <ip-addr> <mask-bits>
ip address <ip-addr>/<mask-length>
ip address dhcp-bootp
ip default-gateway <ip-addr>
ip preserve
7-7
7-8
7-10
7-21
7-26
7-11
ip source-interface
ip ttl
viii
Command
Page
6-9
kill
mac-age-time
6-14
2-3
menu
redo
3-22
5-33
5-33
5-44
3-23
3-17
3-16
7-6
reload after
reload at
rename config
repeat
session interactive-mode
session show-message-type
show <ip | ipv6>
show banner
3-20
5-58
5-40
5-58
5-4
show config
show config files
show config interface
show config status
show console
6-2
show flash
8-13
7-20
7-30
5-35
5-51
5-51
3-18
6-12
5-20
6-13
5-42
6-5
show ip route
show ip source-interface
show reload
show running-config
show running-config interface
show session
show system information
show version
snmp -server <contact | location>
startup-default
telnet
telnet-server
6-4
time
6-14
6-14
6-14
3-4
time daylight-time-rule
time timezone
vlan
ix
Command
web-management
Page
6-7
write memory
write terminal
5-5
5-4
x
Getting Started
Initial Switch Set-Up
1
Getting Started
Initial Switch Set-Up
Initial setup includes:
■
■
■
setting a Manager password
assigning an IP (Internet Protocol) address and subnet mask
configuring optional banners
Recommended Minimal Configuration
In the factory default configuration, the switch has no IP (Internet Protocol)
address and subnet mask, and no passwords. In this state, it can be managed
only through a direct console connection. To manage the switch through in-
band (networked) access, you should configure the switch with an IP address
a Manager password to control access privileges from the console and web
browser interface. Other parameters in the Switch Setup screen can be left at
their default settings or you can configure them with values you enter.
For more information on IP addressing, see “Configuring IP Addressing” on
page 7-1.
N o t e
By default, the switch is configured to acquire an IPv4 address configuration
from a DHCP or Bootp server. To use DHCP/Bootp instead of the manual
method described in this chapter, see DHCP/Bootp Operation in the Manage-
ment and Configuration Guide for your switch.
For information on configuring IPv6 addressing, refer to the latest IPv6
Configuration Guide for you switch.
1-1
Getting Started
Initial Switch Set-Up
Using the Switch Setup Screen
The quickest and easiest way to minimally configure the switch for manage-
ment and password protection is to use a direct console connection to the
switch, start a console session, and access the Switch Setup screen.
1. Using the method described in the Installation and Getting Started
Guidefor your switch, connect a terminal device to the switch and display
the switch console command (CLI) prompt (the default display).
The CLI prompt appears displaying the switch model number, for
example:
HP E8200zl#
2. screen. The following illustration is an example of a Setup screen with
default settings. Your screen may vary slightly.
HP Switch
==========================- TELNET - MANAGER MODE -============================
Switch Setup
System Name : HP Switch
System Contact :
Manager Password :
Confirm Password :
Logon Default : CLI
Time Zone [0] : 0
Community Name : public
Default Gateway :
Spanning Tree Enabled [No] : No
Time Sync Method [None] : TIMEP
TimeP Mode [Disabled] : Disabled
IP Config [Manual] : DHCP/Bootp
IP Address : 127.0.0.1
Subnet Mask : 255.255.255.255
Actions-> Cancel
Edit
Save
Help
Enter System Name - up to 32 characters.
Use arrow keys to change field selection, <Space> to toggle field choices,
and <Enter> to go to Actions.
Figure 1-1. Example Switch Setup Screen
3. Use the Tab key to select the Manager Password field and enter a manager
password of up to 16 characters.
1-2
Getting Started
Initial Switch Set-Up
4. Tab to the IP Config (DHCP/Bootp) field and use the Space bar to select the
Manual option.
5. Tab to the IP Address field and enter the IP address that is compatible with
your network.
6. Tab to the Subnet Mask field and enter the subnet mask used for your
network.
7. Press Enter, then S (for Save).
Table 1-1. Setup Screen Field Descriptions
Parameter
Default
blank
blank
blank
CLI
System Name
System Contact
Manager Password
Logon Default
Optional; up to 255 characters, including spaces
Optional; up to 255 characters, including spaces
Recommended; up to 16 characters (no blank spaces)
The default setting selects the command line interface for console access.
The alternative is the Menu interface.
Time Zone
0 (none)
Optional; 1440 to -1440. The number of minutes your location is to the
West (-) or East (+) of GMT.
Community Name
public
Default setting recommended.
Spanning Tree Enabled No
Default setting recommended unless STP is already running on your network
or the switch will be used in complex network topologies.
Default Gateway
blank
Recommended; Enter the IP address of the next-hop gateway node if network
traffic needs to be able to reach off-subnet destinations.
Time Sync Method
TimeP
Optional; The protocol the switch uses to acquire a time signal. The options
are SNTP and TimeP.
TimeP Mode
IP Config
Disabled
Synchronizes the time kept on the switch to the TimeP server.
DHCP/Bootp
Set to Manual unless a DHCP/Bootp server is used on your network to
configure IP addressing.
IP Address
xxx.xxx.xxx.xxx Recommended; If you set IP Config to Manual, then enter an IP address
compatible with your network.*
Subnet Mask
xxx.xxx.xxx.xxx Recommended; If you entered an IP address, then enter a subnet mask
compatible with your network.*
*The IP address and subnet mask assigned for the switchmustbe compatible with the IP addressing used in your network.
For more on IPv4 addressing, see “Configuring IP Addressing” on page 7-1. For IPv6 addressing topics, refer to the latest
IPv6 Configuration Guide for your switch.
1-3
Getting Started
Login Banners
Login Banners
Custom Login Banners
You can now configure the switch to display a login banner of up to 3070
characters when an operator initiates a management session with the switch
through any of the following methods:
■
■
■
■
Telnet
serial connection
SSHv2
WebAgent
The default banner displays product registration information; the copyright
splash is no longer displayed.
If a banner is configured, the banner page is displayed when you access the
WebAgent. The default product registration information is not displayed as
there is already a product registration prompt displayed in the WebAgent.
Banner Operation with Telnet, Serial, or SSHv2 Access
When a system operator begins a login session, the switch displays the banner
above the prompts for local password and Press any key to continue. Entering
a correct password or, if no password is configured, pressing any key clears
the banner from the CLI and displays the CLI prompt. (Refer to Figure 2-5 on
page 1-6.)
Banner Operation with the WebAgent
When a system operator uses the WebAgent to access the switch, the text of
a non-default banner configured on the switch appears in a dedicated banner
window with a Continue link to the next page. Clicking on Continue then
displays either the Registration page or the switch’s home page. If the banner
feature is disabled or if the switch is using the factory-default banner, then the
banner page does not appear in the WebAgent screen when an operator
initiates a login session with the switch.
1-4
Getting Started
Login Banners
Configuring and Displaying a Non-Default Banner
You can enable or disable banner operation using either the switch’s CLI or
an SNMP application. The steps include:
1. Enable non-default banner operation and define the endpoint delimiter
for the banner.
2. Enter the desired banner text, including any specific line breaks you
want.
3. Enter the endpoint delimiter.
Use show banner motd to display the current banner status.
Syntax: banner motd < delimiter >
no banner motd
This command defines the single character used to termi-
nate the banner text and enables banner text input. You
can use any character except a blank space as a delimiter.
The no form of the command disables the login banner
feature.
< banner-text-string >
The switch allows up to 3070 banner characters,
including blank spaces and CR-LF ([Enter]). (The tilde “ ~“
and the delimiter defined by banner motd <delimiter> are
not allowed as part of the banner text.) While entering
banner text, you can backspace to edit the current line
(that is, a line that has not been terminated by a CR-LF.)
However, terminating a line in a banner by entering a
CR-LF prevents any further editing of that line. To edit a
line in a banner entry after terminating the line with a
CR-LF requires entering the delimiter described above
and then re-configuring new banner text.
The banner text string must terminate with the character
defined by banner motd < delimiter >.
Note: In redundant management, the banner is not seen
on the standby module, only the active module.
1-5
Getting Started
Login Banners
Example of Configuring and Displaying a Banner
Suppose a system operator wanted to configure the following banner message
on her company’s switches:
This is a private system maintained by the
Allied Widget Corporation.
Unauthorized use of this system can result in
civil and criminal penalties!
In this case, the operator will use the [Enter] key to create line breaks, blank
spaces for line centering, and the % symbol to terminate the banner message.
HP Switch(config)# banner motd %
Enter TEXT message. End with the character'%'
This is a private system maintained by the
Allied Widget Corporation.
Unauthorized use of this system can result in
civil and criminal penalties!%
HP Switch(config)# write memory
Figure 1-2. Example of Configuring a Login Banner
To view the current banner configuration, use either the show banner motd or
show running command.
HP Switch(config)# show banner motd
Banner Information
Banner status: Enabled
Configured Banner:
This is a private system maintained by the
Allied Widget Corporation.
Unauthorized use of this system can result in
civil and criminal penalties!
Figure 1-3. Example of show banner motd Output
1-6
Getting Started
Login Banners
HP Switch(config)# show running
Running configuration:
; J8697A Configuration Editor; Created on release #K.15.05.0001
; Ver #01:01:00
hostname "HP Switch"
module 1 type J8702A
vlan 1
name "DEFAULT_VLAN"
Shows the current banner
configuration.
untagged A1-A24
ip address dhcp-bootp
exit
banner motd "This is a private system maintained by the\n Allied Widget
Corporation.\nUnauthorized use of this system can result in\n civil and
criminal penalties!"
password manager
HP Switch(config)#
Figure 1-4. The Current Banner Appears in the Switch’s Running-Config File
The next time someone logs onto the switch’s management CLI, the following
appears:
The login screen displays the
This is a private system maintained by the
Allied Widget Corporation.
Unauthorized use of this system can result in
configured banner.
Entering a correct password
clears the banner and displays
civil and criminal penalties!
the CLI prompt.
Password:
Figure 1-5. Example of CLI Result of the Login Banner Configuration
1-7
Getting Started
Login Banners
Operating Notes
■
The default banner appears only when the switch is in the factory
default configuration. Using no banner motd deletes the currently
configured banner text and blocks display of the default banner. The
default banner is restored only if the switch is reset to its factory-
default configuration.
■
■
The switch supports one banner at any time. Configuring a new
banner replaces any former banner configured on the switch.
If the switch is configured with ssh version 1 or ssh version 1-or-2,
configuring the banner sets the SSH configuration to ssh version 2
and displays the following message in the CLI:
Warning: SSH version has been set to v2.
■
If a banner is configured, the switch does notallow configuration with
ssh version 1 or ssh version 1-or-2. Attempting to do so produces the
following error message in the CLI:
Banner has to be disabled first.
■
If a banner is enabled on the switch, the WebAgent displays the
following link to the banner page:
Notice to all users
1-8
Getting Started
Login Banners
User-Configurable Banner Message after
Authentication
A text message that has been configured with the banner motd command
displays with the authentication prompt when a user opens a console, telnet,
SSH, or WebAgent session.
The exec option of the banner command allows a user-configurable message
to be displayed after the user has been authenticated. If there is no password
on the switch, the exec banner message displays immediately.
Syntax: [no] banner exec <ASCII-string>
Sets the exec banner text. Text canbe multiple lines up to 3070
characters, and can consist of any printable character except
the tilde (~) and the delimiting character.
<ASCII-string>: The text must end with a delimiting character,
which can be any single character except the tilde (~)
character.
The no version of the command removes the banner exec text.
HP Switch(config)# banner exec &
Enter TEXT message. End with the character &
This is Switch A in the language lab &
Figure 1-6. Example of the banner exec Command
To display the status and text for the exec banner configuration, use the show
banner exec command.
HP Switch(config)# show banner exec
Banner Information
Banner Status: Enabled
Configured Banner:
This is Switch A in the language lab
Figure 1-7. Example Displaying Exec Banner Configuration
1-9
Getting Started
Login Banners
Banner MOTD Command with
Non-Interactive Mode
The use of escape characters allows the banner motd command to be used in
non-interactive mode for multiple message lines. In non-interactive mode, you
can create a banner message enclosed in double quotes or other delimiter that
uses escape characters within the delimiters. Other existing CLI commands
do not support the escape characters. For more information on interactive
and non-interactive mode, see “CLI Interactive Commands” on page 3-17 in
this guide.
The following escape characters are supported:
\”
\’
double q
single quote
forward quote
backslash
\`
\\
\f
form feed
\n
\r
\t
newline
carriage return
horizontal tab
vertical tab
\v
HP Switch(config)# banner motd "You can use the \’banner motd\’ CLI command in
non-interactive mode.\n\n\tThe banner motd command will support escape charac-
ters."
HP Switch(config)# show banner motd
Banner Information
Banner status: Enabled
Configured Banner:
You can use the ‘banner motd’ CLI command in non-interactive mode.
The banner motd command will support escape characters.”
Figure 1-8. Example of Configuring the Banner Message Using Escape Characters Within Double Quote
Delimiters
1-10
Getting Started
Login Banners
The running configuration file contains the banner message as entered in the
command line.
HP Switch(config)# show running-config
Running configuration:
;J8693A Configuration Editor; Created on release #K.15.05.0002
;Ver #01:01:00
hostname ‘HP Switch’
vlan 1
name “DEFAULT_VLAN”
untagged 1-48, a1-a4
ip address dhcp-bootp
exit
banner motd “You can use the \’banner motd\’ CLI command in non-interactive
mode.\n\n\tThe banner motd command will support escape characters."
Figure 1-9. Example of the Running Config File with Banner MOTD Configured in Non-interactive Mode
You can use a delimiting character other than quotes as well, as shown in
Figure 1-10.
HP Switch(config)# banner motd #
Ehter TEXT message. End with the character ‘#’
You can use the \’banner motd\’ CLI command in non-interactive mode.\n\n\tThe
banner motd command will support escape characters.#
Figure 1-10. Example of Configuring the Banner Message Using an Alternate Delimiter of ‘#’
1-11
Getting Started
Login Banners
1-12
2
Using the Menu Interface
Overview
This chapter describes the following features:
■
■
■
■
■
Overview of the Menu Interface (page 2-1)
Starting and ending a Menu session (page 2-2)
The Main Menu (page 2-6)
Screen structure and navigation (page 2-8)
Rebooting the switch (page 2-11)
The menu interface operates through the switch console to provide you with
a subset of switch commands in an easy-to-use menu format enabling you to:
■
Perform a “quick configuration” of basic parameters, such as the IP
addressing needed to provide management access through your network
■
Configure these features:
• Manager and Operator
passwords
• A network monitoring port
• SNMP community names
• IP authorized managers
• System parameters
• IP addressing
• Time protocol
• Ports
• VLANs (Virtual LANs) and GVRP
• Trunk groups
■
■
■
View status, counters, and Event Log information
Update switch software
Reboot the switch
For a detailed list of menu features, see the “Menu Features List” on page 2-13.
Privilege Levels and Password Security. HP strongly recommends that
you configure a Manager password to help prevent unauthorized access to
your network. A Manager passwordgrantsfull read-write access to the switch.
An Operator password, if configured, grants access to status and counter,
Event Log, and the Operator level in the CLI. After you configure passwords
on the switch and log off of the interface, access to the menu interface (and
2-1
Using the Menu Interface
Starting and Ending a Menu Session
the CLI and web browser interface) will require entry of either the Manager
or Operator password. (If the switch has only a Manager password, then
someone without a password can still gain read-only access.)
N o t e
If the switch has neither a Manager nor an Operator password, anyone
having access to the console interface can operate the console with full
manager privileges. Also, if you configure only an Operator password,
entering the Operator password enables full manager privileges.
For more information on passwords, refer to the Access Security Guide for
your switch.
■
The menu interface displays the current running-config parameter set-
tings. You can use the menu interface to save configuration changes made
in the CLI only if the CLI changes are in the running config when you save
changes made in the menu interface. (For more on how switch memory
manages configuration changes, see Chapter 5, “Switch Memory and
Configuration”.)
■
■
A configuration change made through any switch interface overwrites
earlier changes made through any other interface.
The Menu Interface and the CLI (Command Line Interface) both use the
switch console. To enter the menu from the CLI, use the menu command.
To enter the CLI from the Menu interface, select Command Line (CLI) option.)
Starting and Ending a Menu Session
You can access the menu interface using any of the following:
■
A direct serial connection to the switch’s console port, as described in the
installation guide you received with the switch
■
A Telnet connection to the switch console from a networked PC or the
switch’s web browser interface. Telnet requires that an IP address and
subnet mask compatible with your network have already been configured
on the switch.
2-2
Using the Menu Interface
Starting and Ending a Menu Session
N o t e
This section assumes that either a terminal device is already configured and
connected to the switch (see the Installation and Getting Started Guide
shipped with your switch) or that you have already configured an IP address
on the switch (required for Telnet access).
How To Start a Menu Interface Session
In its factory default configuration, the switch console starts with the CLI
prompt. To use the menu interface with Manager privileges, go to the Manager
level prompt and enter the menu command.
1. Use one of these methods to connect to the switch:
•
•
A PC terminal emulator or terminal
Telnet
2. Do one of the following:
•
•
If you are using Telnet, go to step 3.
If you are using a PC terminal emulator or a terminal, press [Enter] one
or more times until a prompt appears.
3. When the switch screen appears, do one of the following:
•
If a password has been configured, the password prompt appears.
Password: _
Type the Manager password and press [Enter]. Entering the Manager
password gives you manager-level access to the switch. (Entering the
Operator password gives you operator-level access to the switch.
Refer to the Access Security Guide for your switch.)
•
If no password has been configured, the CLI prompt appears. Go to
the next step.
4. When the CLI prompt appears, display the Menu interface by entering the
menu command. For example:
HP Switch# menu[Enter]
results in the following display:
2-3
Using the Menu Interface
Starting and Ending a Menu Session
Figure 2-1. Example of the Main Menu with Manager Privileges
For a description of Main Menu features, see “Main Menu Features” on page
2-6.
N o t e
To configure the switch to start with the menu interface instead of the CLI, go
to the Manager level prompt in the CLI, enter the setup command, and in the
resulting display, change the Logon Default parameter to Menu. For more infor-
mation, see the Installation and Getting Started Guide you received with the
switch.
How To End a Menu Session and Exit from the Console:
The method for ending a menu session and exiting from the console depends
on whether, during the session, you made any changes to the switch configu-
ration that require a switch reboot to activate. (Most changes via the menu
interface need only a Save, and do not require a switch reboot.) Configuration
changes needing a reboot are marked with an asterisk (*) next to the config-
ured item in the menu and also next to the Switch Configuration item in the
Main Menu.
2-4
Using the Menu Interface
Starting and Ending a Menu Session
Asterisk indicates a
configuration change
that requires a reboot
to activate.
Figure 2-2. Example Indication of a Configuration Change Requiring a Reboot
1. In the current session, if you have not made configuration changes that
require a switch reboot to activate, return to the Main Menu and press [0]
(zero) to log out. Then just exit from the terminal program, turn off the
terminal, or quit the Telnet session.
2. If you have made configuration changes that require a switch reboot—
thatis, if anasterisk(*)appearsnexttoaconfigureditemornexttoSwitch
Configuration in the Main Menu:
a. Return to the Main Menu.
b. Press [6] to select Reboot Switch and follow the instructions on the
reboot screen.
Rebooting the switch terminates the menu session, and, if you are using
Telnet, disconnects the Telnet session.
(See “Rebooting To Activate Configuration Changes” on page 2-12.)
3. Exit from the terminal program, turn off the terminal, or close the Telnet
application program.
2-5
Using the Menu Interface
Main Menu Features
Main Menu Features
Figure 2-3. The Main Menu View with Manager Privileges
The Main Menu gives you access to these Menu interface features:
■
Status and Counters: Provides access to display screens showing
switch information, port status and counters, and port and VLAN address
the Management and Configuration Guide for your switch.)
■
Switch Configuration: Provides access to configuration screens for
displaying and changing the current configuration settings. (See the Con-
tents listing at the front of this manual.) For a listing of features and
parameters configurable through the menu interface, see the “Menu Fea-
tures List” on page 2-13. For an index of the features covered in the
software manuals for your switch, see the “Software Feature Index” in the
Management and Configuration Guide for your switch.
■
Console Passwords: Provides access to the screen used to set or change
Manager-level and Operator-level passwords, and to delete Manager and
Operator password protection. (Refer to the chapter on configuring user-
names and passwords in the Access Security Guide for your switch.)
2-6
Using the Menu Interface
Main Menu Features
■
useful for checking and troubleshooting switch operation. (See Appendix
C, “Using the Event Log for Troubleshooting Switch Problems” in the
Management and Configuration Guide for your switch.)
■
■
(Refer to Chapter 3, “Using the Command Line Interface (CLI)”.)
Reboot Switch: Performs a “warm” reboot of the switch, which clears
most temporary error conditions, resets the network activity counters to
zero, and resets the system up-time to zero. A reboot is required to activate
a change in the VLAN Support parameter. (See “Rebooting from the Menu
Interface” on page 5-18.)
■
■
Download OS: Enables you to download a new switch software version
to the switch. (See Appendix A, “File Transfers” in the Management and
Configuration Guide for your switch.)
basic switch parameters such as IP addressing, default gateway, logon
default interface, and others. (Refer to the Installation and Getting
Started Guide for your switch.)
■
Logout: Closes the Menu interface and console session, and disconnects
Telnet access to the switch. (See “How to End a Menu Session and Exit
from the Console” on page 2-4.)
2-7
Using the Menu Interface
Screen Structure and Navigation
Screen Structure and Navigation
Menu interface screens include these three elements:
■
■
■
Parameter fields and/or read-only information such as statistics
Navigation and configuration actions, such as Save, Edit, and Cancel
Help line to describe navigation options, individual parameters, and read-
only data
For example, in the following System Information screen:
Screentitle–identifies
the location within the
menu structure
Parameter fields
Help describing each of the
items in the parameter fields
Actions line
Help line
describing the
selected action
or selected
parameter field
Navigation instructions
Figure 2-4. Elements of the Screen Structure
“Forms” Design. The configuration screens, in particular, operate similarly
to a number of PC applications that use forms for data entry. When you first
enter these screens, you see the current configuration for the item you have
selected. To change the configuration, the basic operation is to:
1. Press [E] to select the Edit action.
2. Navigate through the screen making all the necessary configuration
changes. (See Table 2-1 on page 2-9.)
3. Press [Enter] to return to the Actions line. From there you can save the
configuration changes or cancel the changes. Cancel returns the configu-
ration to the values you saw when you first entered the screen.
2-8
Using the Menu Interface
Screen Structure and Navigation
Table 2-1. How To Navigate in the Menu Interface
Task:
Actions:
Use either of the following methods:
Execute an action
from the “Actions –>”
list at the bottom of
the screen:
•
to execute, then press [Enter].
•
Press the key corresponding to the capital letter in the action
name. For example, in a configuration menu, press [E] to select
Edit and begin editing parameter values.
Reconfigure (edit) a
parameter setting or a
field:
1. Select a configuration item, such as System Name. (See figure
2-4.)
2. Press [E] (for Edit on the Actions line).
3. Use [Tab] or the arrow keys ([<], [>], [^], or [v]) to highlight the
item or field.
4. Do one of the following:
–
If the parameter has preconfigured values, either use the
Space bar to select a new option or type the first part of your
selection and the rest of the selection appears automatically.
(The help line instructs you to “Select” a value.)
–
If there are no preconfigured values, type in a value (the Help
line instructs you to “Enter” a value).
press [Enter] to return to the Actions line and do one of the
following:
–
To save and activate configuration changes, press [S] (for the
Save action). This saves the changes in the startup
configuration and also implements the change in the
currently running configuration. (See Chapter 5, “Switch
Memory and Configuration”.)
–
To exit from the screen without saving any changes that you
have made (or if you have not made changes), press [C] (for
the Cancel action).
Note: In the menu interface, executing Save activates most
parameter changes and saves them in the startup configuration
(or flash) memory, and it is therefore not necessary to reboot the
switch after making these changes. But if an asterisk appears
next to any menu item you reconfigure, the switch will not
activate or save the change for that item until you reboot the
switch. In this case, rebooting should be done after you have
made all desired changes and then returned to the Main Menu.
7. When you finish editing parameters, return to the Main Menu.
8. If necessary, reboot the switch by highlighting Reboot Switch in
the Main Menu and pressing [Enter]. (See the Note, above.)
Exit from a read-only
screen.
Press [B] (for the Back action).
2-9
Using the Menu Interface
Screen Structure and Navigation
To get Help on individual parameter descriptions. In most screens
there is a Help option in the Actions line. Whenever any of the items in the
Actions line is highlighted, press [H], and a separate help screen is displayed.
For example:
Pressing [H] or highlighting Help and
pressing [Enter] displays Help for the
parameters listed in the upper part of
the screen
Highlightonanyitemin
the Actions line
indicates that the
Actions line is active.
The Help line provides
a brief descriptor of
the highlighted Action
item or parameter.
Figure 2-5. Example Showing How To Display Help
keys ([<], [>], [^], or [v]) to select an action or data field. The help line under the
Actions items describes the currently selected action or data field.
Forguidanceonhowtonavigateinascreen:Seetheinstructionsprovided
at the bottom of the screen, or refer to “Screen Structure and Navigation” on
page 2-8.)
2-10
Using the Menu Interface
Rebooting the Switch
Rebooting the Switch
Rebooting the switch from the menu interface
■
Terminates all current sessions and performs a reset of the operating
system
■
■
Activates any menu interface configuration changes that require a reboot
Resets statistical counters to zero
(Note that statistical counters can be reset to zero without rebooting the
switch.)
To Reboot the switch, use the Reboot Switch option in the Main Menu. (Note
that Reboot Switch is not available if you log on in Operator mode; that is, if
you enter an Operator password instead of a manager password at the
password prompt.)
Reboot Switch option
Figure 2-6. The Reboot Switch Option in the Main Menu
2-11
Using the Menu Interface
Rebooting the Switch
Rebooting To Activate Configuration Changes. Configuration changes
for most parameters in the menu interface become effective as soon as you
save them. However, you must reboot the switch in order to implement a
change in the Maximum VLANs to support parameter. (To access this parameter, go
to the Main Menu and select:
2. Switch Configuration
8. VLAN Menu
1. VLAN Support.
If you make configuration changes in the menu interface that require a reboot,
the switch displays an asterisk (*) next to the menu item in which the change
has been made. For example, if you change and save the value for the Maximum
VLANs to support parameter, an asterisk appears next to the VLAN Support entry
in the VLAN Menu screen, and also next to the Switch Configuration entry in
the Main Menu.
Asterisk
indicates a
configuration
change that
requires a
reboot in order
to take effect.
Reminder to
reboot the
switch to
activate
configuration
changes.
Figure 2-7. Indication of a Configuration Change Requiring a Reboot
To activate changes indicated by the asterisk, go to the Main Menu and select
the Reboot Switch option.
N o t e
Executing the write memory command in the CLI does not affect pending
configuration changes indicated by an asterisk in the menu interface. That is,
only a reboot from the menu interface or a boot or reload command from the
CLI will activate a pending configuration change indicated by an asterisk.
2-12
Using the Menu Interface
Menu Features List
Menu Features List
Status and Counters
•
•
•
•
•
•
General System Information
Switch Management Address Information
Port Status
Port Counters
Address Table
Port Address Table
Switch Configuration
•
•
•
•
•
•
•
System Information
Port/Trunk Settings
Network Monitoring Port
IP Configuration
SNMP Community Names
IP authorized Managers
VLAN Menu
Console Passwords
Event Log
Command Line (CLI)
Reboot Switch
Download OS (Download Switch Software)
Run Setup
Logout
Port-Level Configuration on HP 3800
Switches with Stacking Enabled
When stacking is enabled on an HP 3800 switch, the procedures for configur-
ingspecificswitchportsarethesameasforHP3800switcheswithoutstacking
enabled. However, the port designations for the ports in the stack are modi-
2-13
Using the Menu Interface
Where To Go From Here
fied. That is, each port is identified by its switch’s stack member ID followed
by a slash and then the port number, as it is shown on the switch. For example,
for a switch with stack member ID 3, port 10 on that switch is identified as
port 3/10 for CLI command input and output. Entering a CLI command on an
HP 3800 switch configured for stacking without using the modified port
designation results in the following message:
Module not present for port or invalid port
For more on this topic, see “Interaction with Other Switch Features” in the
“Stack Management” chapter of the latest Management and Configuration
Guide for HP 3800 switches.
Where To Go From Here
This chapter provides an overview of the menu interface and how to use it.
The following table indicates where to turn for detailed information on how
to use the individual features available through the menu interface.
Option:
Turn to:
To use the Run Setup option
Referto theInstallationandGettingStartedGuide
shipped with the switch.
To view and monitor switch status and Appendix B, “Monitoring and Analyzing Switch
counters
Operation”intheManagementandConfiguration
Guide for your switch.
To learn how to configure and use
passwords and other security features switch.
To learn how to use the Event Log
Appendix C, “Using the Event Log for
Troubleshooting Switch Problems” in the
Management and Configuration Guide for your
switch.
To learn how the CLI operates
To download switch software
Chapter 3, “Using the Command Line Interface
(CLI)”
Appendix A, “File Transfers” in the Management
and Configuration Guide for your switch.
2-14
Using the Menu Interface
Where To Go From Here
Option:
Turn to:
Chapter 5, “Switch Memory and Configuration”
For a description of how switch
memory handles configuration
changes
2-15
Using the Menu Interface
Where To Go From Here
2-16
3
Using the Command Line Interface (CLI)
Overview
The CLI is a text-based command interface for configuring and monitoring the
switch. The CLI gives you access to the switch’s full set of commands while
providing the same password protection that is used in the web browser
interface (WebAgent) and the menu interface.
Accessing the CLI
Like the menu interface, the CLI is accessed through the switch console, and
in the switch’s factory default state, is the default interface when you start a
console session. You can access the console out-of-band by directly connect-
ing a terminal device to the switch, or in-band by using Telnet either from a
terminal device or through the WebAgent.
Also, if you are using the menu interface, you can access the CLI by selecting
the Command Line (CLI) option in the Main Menu.
Using the CLI
The CLI offers these privilege levels to help protect the switch from unauthor-
ized access:
1. Operator
2. Manager
3. Global Configuration
4. Context Configuration
3-1
Using the Command Line Interface (CLI)
Using the CLI
N o t e
CLI commands are not case-sensitive.
When you use the CLI to make a configuration change, the switch writes the
change to the Running-Config file in volatile memory. This allows you to test
your configuration changes before making them permanent. To make changes
permanent, you must use the write memory command to save them to the
Startup-Config file in non-volatile memory. If you reboot the switch without
first using write memory, all changes made since the last reboot or write memory
(whichever is later) will be lost. For more on switch memory and saving
configuration changes, see Chapter 5, “Switch Memory and Configuration”.
Privilege Levels at Logon
Privilege levels control the type of access to the CLI. To implement this
control, you must set at least a Manager password. Without a Manager
password configured, anyone having serial port, Telnet, or web browser
access to the switch can reach all CLI levels. (For more on setting passwords,
refertothechapteronusernames andpasswordsinthe AccessSecurityGuide
for your switch.)
When you use the CLI to log on to the switch, and passwords are set, you will
be prompted to enter a password. For example:
Password Prompt
Figure 3-1. Example of CLI Log-On Screen with Password(s) Set
In the above case, you will enter the CLI at the level corresponding to the
password you provide (operator or manager).
3-2
Using the Command Line Interface (CLI)
Using the CLI
If no passwords are set when you log onto the CLI, you will enter at the
Manager level. For example:
HP Switch# _
C a u t i o n
HP strongly recommends that you configure a Manager password. If a Man-
ager password is not configured, then the Manager level is not password-
protected, and anyone having in-band or out-of-band access to the switch may
be able to reach the Manager level and compromise switch and network
security. Note that configuring only an Operator password does not prevent
access to the Manager level by intruders who have the Operator password.
Pressing the Clear button on the front of the switch removes password
protection. For this reason, it is recommended that you protect the switch
from physical access by unauthorized persons. If you are concerned about
switch security and operation, you should install the switch in a secure
location, such as a locked wiring closet.
Privilege Level Operation
Operator Privileges
Manager Privileges
1. Operator Level
2. Manager Level
3. Global Configuration
4. Context Configuration Level
Figure 3-2. Access Sequence for Privilege Levels
Operator Privileges
At the Operator level you can examine the current configuration and move
between interfaces without being able to change the configuration. A “>”
character delimits the Operator-level prompt. For example:
HP Switch> _
(Example of the Operator prompt.)
When using enable to move to the Manager level, the switch prompts you for
the Manager password if one has already been configured.
3-3
Using the Command Line Interface (CLI)
Using the CLI
Manager Privileges
Manager privileges give you three additional levels of access: Manager, Global
Configuration, and Context Configuration. A “#” character delimits any Man-
ager prompt. For example:
HP Switch#_
Example of the Manager prompt.
■
Manager level: Provides all Operator level privileges plus the ability to
perform system-level actions that do not require saving changes to the
system configuration file. The prompt for the Manager level contains only
the system name and the “#” delimiter, as shown above. To select this
level, enter the enable command at the Operator prompt and enter the
Manager password, when prompted. For example:
HP Switch> enable
Password:
HP Switch# _
Enter enable at the Operator prompt.
CLI prompt for the Manager password.
The Manager prompt appears after the
correct Manager password is entered.
■
Global Configuration level: Provides all Operator and Manager level
privileges, and enables you to make configuration changes to any of the
switch’s software features. The prompt for the Global Configuration level
includes the system name and “(config)”. To select this level, enter the
config command at the Manager prompt. For example:
HP Switch# config
Enter config at the Manager prompt.
HP Switch(config)#_The Global Config prompt.
■
Context Configuration level: Provides all Operator and Manager priv-
ileges, and enables you to make configuration changes in a specific
context, such as one or more ports or a VLAN. The prompt for the Context
Configuration level includes the system name and the selected context.
For example:
HP Switch(eth-1)#
HP Switch(vlan-10)#
The Context level is useful, for example, for executing several commands
directed at the same port or VLAN, or if you want to shorten the command
strings for a specific context area. To select this level, enter the specific
context at the Global Configuration level prompt. For example, to select
the context level for an existing VLAN with the VLAN ID of 10, you would
enter the following command and see the indicated result:
HP Switch(config)# vlan 10
HP Switch(vlan-10)#
3-4
Using the Command Line Interface (CLI)
Using the CLI
Table 3-1. Privilege Level Hierarchy
Privilege
Level
Example of Prompt and Permitted Operations
Operator Privilege
Operator Level HP Switch>
show < command >
View status and configuration information.
Perform connectivity tests.
setup
ping < argument >
link-test < argument >
enable
Move from the Operator level to the
Manager level.
menu
logout
exit
Move from the CLI interface to the menu
interface.
Exit from the CLI interface and terminate the
console session.
Terminate the current session (same as
logout).
Manager Privilege
Manager Level HP Switch#
Perform system-level actions such as
system control, monitoring, and diagnostic
commands, plus any of the Operator-level
commands. Foralistofavailablecommands,
enter ? at the prompt.
Global
Configuration
Level
HP Switch(config)#
Execute configuration commands, plus all
Operator and Manager commands. For a list
of available commands, enter ? at the
prompt.
Context
HP Switch(eth-5)#
Configuration HP Switch(vlan-100)#
Execute context-specific configuration
commands, such as a particular VLAN or
switch port. This is useful for shortening the
command strings you type, and for entering
a series of commands for the same context.
For a list of available commands, enter ? at
the prompt.
Level
3-5
Using the Command Line Interface (CLI)
Using the CLI
How To Move Between Levels
Change in Levels
Example of Prompt, Command, and Result
Operator level
to
Manager level
HP Switch> enable
Password:_
After you enter enable, the Password
prompt appears. After you enter the
Manager password, the system prompt
appears with the # symbol:
HP Switch#_
Manager level
HP Switch# config
HP Switch(config)#
to
Global configuration
level
Global configuration
HP Switch(config)# vlan 10
HP Switch(vlan-10)#
level
to a
Context configuration
level
Context configuration
level
HP Switch(vlan-10)# interface e 3
HP Switch(int-3)#
to another
Context configuration
level
The CLI accepts “e” as the abbreviated
form of “ethernet”.
Move from any level
to the preceding level
HP Switch(int-3)# exit
HP Switch(config)# exit
HP Switch# exit
HP Switch>
Move from any level HP Switch(int-3)# end
to the Manager level HP Switch#
—or—
HP Switch(config)# end
HP Switch#
Moving Between the CLI and the Menu Interface. When moving
between interfaces, the switch retains the current privilege level (Manager or
Operator). That is, if you are at the Operator level in the menu and select the
Command Line Interface (CLI) option from the Main Menu, the CLI prompt
appears at the Operator level.
Changing Parameter Settings. Regardless of which interface is used (CLI,
menu interface, or WebAgent), the most recently configured version of a
parameter setting overrides any earlier settings for that parameter. For exam-
3-6
Using the Command Line Interface (CLI)
Using the CLI
1 and later use the CLI to configure a different IP address of “Y” for VLAN 1,
then “Y” replaces “X” as the IP address for VLAN 1 in the running-config file.
If you subsequently execute write memory in the CLI, then the switch also
stores “Y” as the IP address for VLAN 1 in the startup-config file. (For more
on the startup-config and running config files, see Chapter 5, “Switch Memory
and Configuration”.)
Listing Commands and Command Options
At any privilege level you can:
■
List all of the commands available at that level
List the options for a specific command
■
Listing Commands Available at Any Privilege Level
At a given privilege level you can list and execute the commands that level
offers, plus all of the commands available at preceding levels. For example,
at the Operator level, you can list and execute only the Operator level com-
mands. However, at the Manager level, you can list and execute the commands
available at both the Operator and Manager levels.
Type “?” To List Available Commands. 1.Typing the ? symbol lists the
commands you can execute at the current privilege level. For example,
typing ? at the Operator level produces this listing:
HP Switch> ?
enable
exit
link-test
logout
menu
ping
show
traceroute
HP Switch>
Figure 3-3. Example of the Operator Level Command Listing
3-7
Using the Command Line Interface (CLI)
Using the CLI
Typing ? at the Manager level produces this listing:
HP Switch# ?
boot
clear
Reboot the device.
Clear table/statistics or authorized client public
keys.
configure
copy
debug
end
erase
getMIB
Enter the Configuration context.
Copy datafiles to/from the switch.
Enable/disable debug logging.
Return to the Manager Exec context.
Erase stored data files.
Retrieve and display the value of the MIB objects
specified.
kill
licenses
log
Kill other active console, telnet, or ssh sessions.
Manage premium features.
Display log events.
print
Execute a command and redirect its output to the device
channel for current session.
redo
Re-execute a command from history.
Redundancy configuration for management modules.
Warm reboot of the switch.
Change the name of the configuration OLDNAME to
NEWNAME.
redundancy
reload
rename
repeat
services
Repeat execution of a previous command.
Display parameters for the services module or change
--MORE -- next page: Space, next line: Enter, quit: Control-C
When - - MORE - - appears, use the Space
bar or [Return] to list additional commands.
Figure 3-4. Example of the Manager-Level Command Listing
When - - MORE - - appears, there are more commands in the listing. To list the
next screenfull of commands, press the Space bar. To list the remaining
commands one-by-one, repeatedly press [Enter].
Typing ? at the Global Configuration level or the Context Configuration level
produces similar results.
Use [Tab] To Search for or Complete a Command Word. You can use
[Tab] to help you find CLI commands or to quickly complete the current word
in a command. To do so, type one or more consecutive characters in a
command and then press [Tab] (with no spaces allowed). For example, at the
Global Configuration level, if you press [Tab] immediately after typing “t”, the
CLI displays the available command options that begin with “t”. For example:
HP Switch(config)# t [Tab]
tacacs-server
telnet-server
3-8
Using the Command Line Interface (CLI)
Using the CLI
time
timesync
trunk
telnet
terminal
traceroute
HP Switch(config)# t
As mentioned above, if you type part of a command word and press [Tab], the
CLI completes the current word (if you have typed enough of the word for the
CLI to distinguish it from other possibilities), including hyphenated exten-
sions. For example:
HP Switch(config)# port-[Tab]
HP Switch(config)# port-security _
Pressing [Tab] after a completed command word lists the further options for
that command.
HP Switch(config)# qos [Tab]
udp-portSet UDP port based priority.
tcp-portSet TCP port based priority.
device-priorityConfigure device-based priority.
dscp-mapDefine mapping between a DSCP
(Differentiated-Services Codepoint)
value and 802.1p priority.
type-of-serviceConfigure the Type-of-Service
method the device uses to
prioritize IP traffic.
Listing Command Options
You can use the CLI to remind you of the options available for a command by
entering command keywords followed by ?. For example, suppose you want
to see the command options for configuring the console settings:
3-9
Using the Command Line Interface (CLI)
Using the CLI
This example displays the command options
for configuring the switch’s console settings.
HP Switch(config)# console
baud-rate
Set the data transmission speed for the device connect
sessions initiated through the Console port.
Set level of the events displayed in the device's Events
Log.
events
flow-control
inactivity-timer
Set the Flow Control Method; default is xon-xoff.
Set the number of minutes of no activity detected on the
Console port before the switch terminates a
communication session.
local-terminal
screen-refresh
terminal
Set type of terminal being used for the current console
or telnet session (default is vt100).
Set refresh time for menu status and counters in
seconds.
Set type of terminal being used for all console and
telnet sessions (default is vt100).
Figure 3-5. Example of How To List the Options for a Specific Command
Displaying CLI “Help”
CLI Help provides two types of context-sensitive information:
■
Command list with a brief summary of each command’s purpose
Detailed information on how to use individual commands
■
Displaying Command-List Help.
Syntax: help
Displays a listing of command Help summaries for all
commands available at the current privilege level. That is, at
theOperatorlevel,executinghelp displaystheHelpsummaries
only for Operator-Level commands. At the Manager level,
executing help displays the Help summaries for both the
Operator and Manager levels, and so on.
For example, to list the Operator-Level commands with their purposes:
3-10
Using the Command Line Interface (CLI)
Using the CLI
HP Switch> help
enable
exit
Enter the Manager Exec context.
Return to the previous context or terminate current
console/telnet session if you are in the Operator
context level.
link-test
logout
Test the connection to a MAC address on the LAN
Terminate this console/telnet session.
.
.
.
Figure 3-6. Example of Context-Sensitive Command-List Help
Displaying Help for an Individual Command.
Syntax: < command-string > help
This option displays Help for any command available at the
current context level.
For example, to list the Help for the interface command in the Global Config-
uration privilege level:
HP Switch(config)# interface help
Usage: [no] interface < [ethernet] PORT-LIST [...] | loopback <num> >
Description: Enter the Interface Configuration Level, or execute one
command for that level. Without optional parameters
specified, the 'interface' command changes the context to
the Interface Configuration Context Level for execution of
configuration changes to the port or ports in the PORT-LIST
or with loopback keywork it will change context to loopback
mode. Use 'interface ?' to get a list of all valid commands.
Figure 3-7. Example of How To Display Help for a Specific Command
Note that trying to list the help for an individual command from a privilege
level that does not include that command results in an error message. For
example, trying to list the help for the interface command while at the global
configuration level produces this result:
HP Switch# speed-duplex help
Invalid input: speed-duplex
3-11
Using the Command Line Interface (CLI)
Using the CLI
Configuration Commands and the Context
Configuration Modes
You can execute any configuration command in the global configuration mode
or in selected context modes. However, using a context mode enables you to
execute context-specific commands faster, with shorter command strings.
The switch offers interface (port or trunk group) and VLAN context configu-
ration modes:
Port or Trunk-Group Context. Includesport-ortrunk-specificcommands
that apply only to the selected port(s) or trunk group, plus the global config-
uration, Manager, and Operator commands. The prompt for this mode
includes the identity of the selected port(s):
HP Switch(config)# interface c3-c6
HP Switch(eth-C5-C8)#
HP Switch(config)# interface trk1
HP Switch(eth-Trk1)#
Commands executed at configuration level for entering port and
trk1 static trunk-group contexts, and resulting prompts showing
port or static trunk contexts..
HP Switch(eth-C5-C8)#
HP Switch(eth-Trk1)#
HP Switch(eth-C5-C8)# ?
HP Switch(eth-C5-C8)# ?
Lists the commands you can use in the port or static trunk context,
plus the Manager, Operator, and context commands you can exe-
cute at this level.
3-12
Using the Command Line Interface (CLI)
Using the CLI
In the port context, the first block of commands in the “?”
listing show the context-specific commands that will affect
only ports C3-C6.
HP-Switch(eth-C3-C6)# ?
arp-protect
bandwidth-min
Configure the port as trusted or untrusted.
Enable/disable and configure guaranteed minimum
bandwidth settings for outgoing traffic on the port(s).
Set a broadcast traffic percentage limit.
Configure the port as trusted or untrusted.
Disable port(s).
broadcast-limit
dhcp-snooping
disable
enable
Enable port(s).
energy-efficient-e... Enables or disables EEE on each port in the port list.
flow-control
Enable/disable flow control negotiation on the port(s)
during link establishment.
gvrp
ip
Set the GVRP timers on the port (hundredths of a
second).
Apply the specified access control list to inbound
packets on this INTERFACE list.
ipv6
lacp
Configure various IPv6 parameters for the VLAN.
Define whether LACP is enabled on the port, and whether
it is in active or passive mode when enabled.
...
class
interface
Create a classifier class and enter the class context.
Enter the Interface Configuration Level, or execute one
command for that level.
policy
...
Create a classifier policy and enter the policy
context.
The remaining commands in the listing are Manager,
Operator, and context commands.
Figure 3-8. Context-Specific Commands Affecting Port Context
3-13
Using the Command Line Interface (CLI)
Using the CLI
VLAN Context . Includes VLAN-specific commands that apply only to the
selected VLAN, plus Manager and Operator commands. The prompt for this
mode includes the VLAN ID of the selected VLAN. For example, if you had
already configured a VLAN with an ID of 100 in the switch:
HP Switch(config)# vlan 100
Command executed at configuration level to enter VLAN 100 context.
HP Switch(vlan-100)#
Resulting prompt showing VLAN 100 context.
HP Switch(vlan-100)# ?
Lists commands you can use in the VLAN context, plus Manager,
Operator, and context commands you can execute at this level.
3-14
Using the Command Line Interface (CLI)
Using the CLI
In the VLAN context, the first block of commands in the “?” listing show the
commands that will affect only vlan-100.
HP Switch(vlan-100)#
connection-rate-fi... Re-enables access to a host or set of hosts that has
been previously blocked by the connection rate filter.
dhcp-snooping
disable
forbid
Enable/Disable various features on the switch.
Prevent ports from becoming a member of the current
VLAN.
igmp-proxy
ip
Associate an IGMP proxy domain with a VLAN.
Configure various IP parameters for the VLAN.
ip-recv-mac-address Associates a L3-mac-address with a VLAN.
ipv6
jumbo
Configure various IPv6 parameters for the VLAN.
Labels this VLAN as a Jumbo VLAN, allowing you to pass
packets up to 9216 bytes in size.
monitor
name
protocol
qos
Define either the VLAN is to be monitored or not.
Set the VLAN's name.
Set a predefined protocol for the current VLAN.
Set VLAN-based priority.
service-policy
tagged
untagged
voice
Apply the QoS/Mirror policy on the vlan.
Assign ports to current VLAN as tagged.
Assign ports to current VLAN as untagged.
Labels this VLAN as a Voice VLAN, allowing you to
separate, prioritize, and authenticate voice traffic
moving through your network.
vrrp
Enable/disable/configure VRRP operation on the VLAN.
class
interface
Create a classifier class and enter the class context.
Enter the Interface Configuration Level, or execute one
command for that level.
policy
...
Create a classifier policy and enter the policy
context.
The remaining commands in the listing are Manager, Operator, and
context commands.
Figure 3-9. Context-Specific Commands Affecting VLAN Context
3-15
Using the Command Line Interface (CLI)
Return Message Types with CLI Commands
Return Message Types with CLI
Commands
When a CLI command returns a message, that message is now prefixed with
a category describing the type, as follows:
■
■
■
Error
Warning
Information
Syntax: session show-message-type [enable | disable]
When enabled, the CLI return messages are prefixed with
string that indicates the type of message. Entered at the
manager level.
The disable option disables prefixing returned messages for
the session for which this command is executed.
Note: This setting is not saved when the switch is rebooted.
Default: Disabled on all CLI sessions
HP Switch(config)# router rip
Error: IP Routing support must be enabled first.
HP Switch(config)# qinq mixed vlan
Warning: This command will reboot the device. Any prior configuration on this
configfilewillbeerasedandthedevicewillbootupwithadefaultconfiguration
for the new qinq mode.
Do you want to continue [y/n]? n
HP Switch(config)# snmp-server mib hpSwitchAuthMIB included
Information: For security reasons, network administrators are encouraged to
disable SNMPv2 before using the MIB.
Figure 3-10. Examples of Message Prefixes
To determine if message labeling is enabled, enter the show session command.
3-16
Using the Command Line Interface (CLI)
CLI Interactive Commands
HP Switch(config)# show session
Show Message Type: Enabled
CLI Interactive Mode: Enabled
Figure 3-11. Example Showing the label cli-return-message Command is Enabled
CLI Interactive Commands
When the CLI interactive command mode is enabled, you must explicitly enter
the choice of yes (y) or no (n) for interactive commands. When interactive
command mode is disabled, the default choice for all command is yes, except
as noted below. The CLI interactive mode command enables or disables
interactive mode for the CLI session.
Syntax: session interactive-mode [enable | disable]
Enables or disables interactive mode for the CLI session.
The disable option disables interactive mode. The default
choice for yes/no interactive commands will be yes except for
commands when there is a prompt to save the config. The
default for that is no.
The default choice for rebooting the switch is yes.
Note: This setting is not saved when the switch is rebooted.
Default: Enabled on all sessions.
HP Switch(config)# no password all
Password protection for all will be deleted, continue [y/n]? y
Default choice is yes.
HP Switch(config)# boot system flash secondary
System will be rebooted from secondary image. Do you want to continue [y/n]? y
Do you want to save current configuration [y/n]? n
Default choice for reboot is yes. Default choice for saving the current configuration is no.
Figure 3-12. Example of CLI Interactive Mode When Disabled
3-17
Using the Command Line Interface (CLI)
CLI Interactive Commands
To determine if the CLI interactive mode is enabled or disabled, enter the show
session command.
HP Switch(config)# show session
Show Message Type: Enabled
CLI Interactive Mode: Enabled
Figure 3-13. Example Showing CLI Interactive Mode is Enabled
Interactive Commands Requiring Additional Options
Interactive commands that require input other than yes or no are not affected
when CLI interactive mode is disabled. A warning message is displayed when
these commands are executed, for example:
Interactive mode is disabled; This command will be
ignored. Enable cli-interactive-mode to use this
command.
The following commands will issue this warning when interactive mode is
disabled. An alternate way to enter the command (when one is available) is
shown.
Command
Non-Interactive Alternate Command
setup mgmt-interfaces
No equivalent non-interactive command
aaa port-access supplicant <port-list> secret
password manager
aaa port-access supplicant <port-list> secret <secret-string>
password manager plaintext <password-string>
password operator
password operator plaintext <password-string>
aaa port-access supplicant <port-list> secret
crypto host-cert generate self-signed
aaa port-access supplicant <port-list> secret <secret-string>
crypto host-cert generate self-signed <start-date> <end-date>
<CNAME-STR> <ORG-UNIT-STR> <ORGANIZATION-STR>
<CITY-STR> <STATE-STR> <code>
3-18
Using the Command Line Interface (CLI)
CLI Interactive Commands
Menu Commands
When CLI interactive mode is disabled, all CLI commands that launch the
menu interface will not be affected by the interactive mode. A warning
message is displayed, for example:
HP Switch(config)# menu
Interactive mode is disabled; This command will be
ignored. Enable cli-interactive-mode to use this
command.
Other menu-based commands that will not be affected are:
•
•
setup
show interfaces display
SNMPv3 Special Cases
The following are special cases when using SNMPv3 with interactive mode.
■
snmpv3 user: In interactive mode, the command snmpv3 user will create
snmpv3 users, even if snmpv3 has not been enabled.
■
snmpv3 enable: When interactive mode is disabled, this command only
enablessnmpv3. Itdoesnotpromptforanauthenticationpassword. When
the command is first executed, a default initial user is created. A message
displays:
User ‘initial’ has been created.
Banner MOTD Command with Non-Interactive Mode
The use of escape characters allows the banner motd command to be used in
non-interactive mode for multiple message lines. In non-interactive mode, you
can create a banner message enclosed in double quotes or other delimiter that
uses escape characters within the delimiters. Other existing CLI commands
do not support the escape characters.
The following escape characters are supported:
\”
\’
double q
single quote
forward quote
\`
3-19
Using the Command Line Interface (CLI)
CLI Interactive Commands
\\
backslash
\f
form feed
\n
\r
\t
newline
carriage return
horizontal tab
vertical tab
\v
HP Switch(config)# banner motd "You can use the \’banner motd\’ CLI command in
non-interactive mode.\n\n\tThe banner motd command will support escape charac-
ters."
HP Switch(config)# show banner motd
Banner Information
Banner status: Enabled
Configured Banner:
You can use the ‘banner motd’ CLI command in non-interactive mode.
The banner motd command will support escape characters.”
Figure 3-14. Example of Configuring the Banner Message Using Escape Characters Within Double Quote
Delimiters
The running configuration file contains the banner message as entered in the
command line.
3-20
Using the Command Line Interface (CLI)
CLI Interactive Commands
HP Switch(config)# show running-config
Running configuration:
;J8693A Configuration Editor; Created on release #K.15.02.xxxx
hostname “HP Switch”
vlan 1
name “DEFAULT_VLAN”
untagged 1-48, a1-a4
ip address dhcp-bootp
exit
banner motd “You can use the \’banner motd\’ CLI command in non-interactive
mode.\n\n\tThe banner motd command will support escape characters."
Figure 3-15. Example of the Running Config File with Banner MOTD Configured in Non-interactive Mode
You can use a delimiting character other than quotes as well, as shown in
Figure 3-16.
HP Switch(config)# banner motd #
Enter TEXT message. End with the character ‘#’
You can use the \’banner motd\’ CLI command in non-interactive mode.\n\n\tThe
banner motd command will support escape characters.#
Figure 3-16. Example of Configuring the Banner Message Using an Alternate Delimiter of ‘#’
3-21
Using the Command Line Interface (CLI)
CLI Control and Editing
CLI Control and Editing
Executing a Prior Command—Redo
The redo command executes a prior command in the history list.
Syntax: redo [number | command-str]
Re-executes a command from history. Executes the last
command by default.
number: The position of the command to execute in the history
th
list. When number is specified, the n command starting from
the most recent command in the history is executed.
command-str: When command-str is specified, the most recent
command whose name matches the specified string is
executed.
HP Switch(config)# show history
2
1
show arp
show flash
Executes the show arp command again.
HP Switch(config)# redo 2
IP ARP table
IP Address
--------------- ----------------- ------- ----
15.255.128.1 00000c-07ac00 dynamic A11
MAC Address
Type
Port
Figure 3-17. Example of the redo Command
3-22
Using the Command Line Interface (CLI)
CLI Control and Editing
Repeating Execution of a Command
The repeat command executes a previous command in the history list.
Syntax: repeat [cmdlist] [count] [delay]
Repeats execution of a previous command. Repeats the last
command by default until a key is pressed.
cmdlist: If a number or range of numbers is specified, the
th
command repeats the n most recent commands (where “n”
is the position in the history list).
count: Repeats the command for the number of times specified.
delay: The command repeats execution after a delay for the
number of seconds specified.
For example:
HP Switch(config)# repeat 1-4,7-8,10 count 2 delay 3
3-23
Using the Command Line Interface (CLI)
CLI Control and Editing
HP Switch(config)# show history
3
2
1
show ver
show ip
show arp
HP Switch(config)# repeat 1-2
IP ARP table
Repeats the show arp and show ip commands.
IP Address
MAC Address
Type
Port
--------------- ----------------- ------- ----
15.255.128.1
000000-000000
dynamic
Internet (IP) Service
IP Routing : Disabled
Default Gateway :
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
VLAN
| IP Config IP Address
Subnet Mask
Proxy ARP
-------------------- + ---------- --------------- --------------- ---------
DEFAULT_VLAN
| DHCP/Bootp 15.255.131.90 255.255.248.0 No No
Figure 3-18. Example of repeat Command Using a Range
Using a Command Alias
You can create a simple command alias to use in place of a command name
and its options. Choose an alias name that is not an existing CLI command
already. Existing CLI commands are searched before looking for an alias
command; an alias that is identical to an existing command will not be
executed.
The alias command is executed from the current configuration context (oper-
ator, manager, or global). If the command that is aliased has to be executed in
the global configuration context, you must execute the alias for that command
in the global configuration context as well. This prevents bypassing the
security in place for a particular context.
3-24
Using the Command Line Interface (CLI)
CLI Control and Editing
HP recommends that you configure no more than 128 aliases.
Syntax: [no] alias <name> <command>
Creates a shortcut alias name to use in place of a commonly
used command. The alias command is executed from the
current config context.
name: Specifies the new command name to use to simplify
keystrokes and aid memory.
command: Specifies an existing command to be aliased. The
command must be enclosed in quotes.
Use the no form of the command to remove the alias.
For example, if you use the show interface custom command to specify the
output, you can configure an alias for the command to simplify execution. It
is recommended that you use an alias that does not have an existing tab
completion in the CLI. For example, using an alias that starts with “show” or
“int” would complete to “show” and “interface” respectively when you use the
tab completion function.
3-25
Using the Command Line Interface (CLI)
CLI Control and Editing
HP Switch(config)# show int custom 1-4 port name:4 type vlan intrusion speed
enabled mdi
Status and Counters - Custom Port Status
Intrusion
Port Name
Type
VLAN Alert
Speed Enabled MDI-mode
---- ---------- ---------- ----- --------- ------- ------- --------
1
2
3
4
Acco
Huma
Deve
Lab1
100/1000T 1
100/1000T 1
100/1000T 1
100/1000T 1
No
No
No
No
1000FDx Yes
1000FDx Yes
1000FDx Yes
1000FDx Yes
Auto
Auto
Auto
Auto
HP Switch(config)# alias sic “show int custom 1-4 port name:4 type vlan intrusion
speed enabled mdi”
HP Switch(config)#
HP Switch(config)# sic
Status and Counters - Custom Port Status
Intrusion
Port Name
Type
VLAN Alert
Speed Enabled MDI-mode
---- ---------- ---------- ----- --------- ------- ------- --------
1
2
3
4
Acco
Huma
Deve
Lab1
100/1000T 1
100/1000T 1
100/1000T 1
100/1000T 1
No
No
No
No
1000FDx Yes
1000FDx Yes
1000FDx Yes
1000FDx Yes
Auto
Auto
Auto
Auto
Figure 3-19. Example of Using the Alias Command with show int custom
N o t e
Remember to enclose the command being aliased in quotes.
Command parameters for the aliased command can be added at the end of the
alias command string. For example:
HP Switch(config)# alias sc “show config”
HP Switch(config)# sc status
To change the command that is aliased, re-execute the alias name with new
command options. The new options are used when the alias is executed.
To display the alias commands that have been configured, enter the show alias
command.
3-26
Using the Command Line Interface (CLI)
CLI Control and Editing
HP Switch(config)# show alias
Name
Command
-------------------- ------------------------------
sc
sic
show config
show int custom 1-4 port name:4 type vlan intrusion
speed enabled mdi
Figure 3-20. Example of Alias Commands and Their Configurations
CLI Shortcut Keystrokes
Keystrokes
[Ctrl] [A]
Function
Jumps to the first character of the command line.
Moves the cursor back one character.
[Ctrl] [B] or [<]
[Ctrl] [C]
Terminates a task and displays the command prompt.
Deletes the character at the cursor.
[Ctrl] [D]
[Ctrl] [E]
Jumps to the end of the current command line.
Moves the cursor forward one character.
Deletes from the cursor to the end of the command line.
Repeats current command line on a new line.
Enters the next command line in the history buffer.
Enters the previous command line in the history buffer.
Deletes from the cursor to the beginning of the command line.
Deletes the last word typed.
[Ctrl] [F] or [>]
[Ctrl] [K]
[Ctrl] [L] or [Ctrl] [R]
[Ctrl] [N] or [v]
[Ctrl] [P] or [^]
[Ctrl] [U] or [Ctrl] [X]
[Ctrl] [W]
[Esc] [B]
Moves the cursor backward one word.
[Esc] [D]
Deletes from the cursor to the end of the word.
Moves the cursor forward one word.
[Esc] [F]
Deletes the first character to the left of the cursor in the command
line.
[Backspace]
Moves the cursor forward one character.
[Spacebar]
3-27
Using the Command Line Interface (CLI)
Port-Level Configuration on HP 3800 Switches with Stacking Enabled
Port-Level Configuration on HP 3800
Switches with Stacking Enabled
When stacking is enabled on an HP 3800 switch, the procedures for configur-
ingspecificswitchportsarethesameasforHP3800switcheswithoutstacking
enabled. However, the port designations for the ports in the stack are modi-
fied. That is, each port is identified by its switch’s stack member ID followed
by a slash and then the port number, as it is shown on the switch. For example,
for a switch with stack member ID 3, port 10 on that switch is identified as
port 3/10 for CLI command input and output. Entering a CLI command on an
HP 3800 switch configured for stacking without using the modified port
designation results in the following message:
Module not present for port or invalid port
For more on this topic, see “Interaction with Other Switch Features” in the
“Stack Management” chapter of the latest Management and Configuration
Guide for HP 3800 switches.
3-28
4
Using the HP WebAgent
Overview
The HP web browser interface (WebAgent) built into the switch lets you easily
access the switch from a web browser. You can do the following:
■
Optimize your network uptime by using the Alert Log and other diagnostic
tools
■
■
■
Make configuration changes to the switch
Maintain security by configuring usernames and passwords
Monitor the status of system configurations, power management, and
traffic management
This chapter covers the following:
■
■
■
■
■
General features (page 4-2)
Starting the WebAgent (page 4-4)
Tasks for your first WebAgent session (page 4-5)
Accessing Online Help (page 4-7)
N o t e
You can disable access to the WebAgent by either executing no web-manage-
ment at the CLI prompt or changing the Web Agent Enabled parameter setting
to No in the menu interface (page 4-4).
For information on operating system, browser, and Java versions for the
switches covered in this guide, go to the HP Networking web site at
www.hp.com/faqs, select your switch (for example, HP Switch 8212zl), and then
scroll to General Product Information.
For users who do not have internet access, you can download and install help
files on the PCM+ server or Web server. For ore information, go to the
Download device help web site at www.hp.com/rnd/device_help/download.htm.
4-1
Using the HP WebAgent
General Features
General Features
The WebAgent includes this information:
■
Home
•
•
Quick Setup—Name, contact, IP, and VLAN information
Status—Information about system uptime, switch addresses and
serial number, VLANs, power, redundancy status, alert log, and utili-
zation statistics
■
System
•
•
Logging—Fault detection, alert log
SNMP—Community name and access, trap receivers, link status
change
•
•
Updates/Downloads—Configuration files, software images
Redundancy—Management module status, fabric module status,
failovers
■
Interface
•
•
Port Info/Config—Port table, port properties, port statistics
PoE—System power status, port table show power usage and LLDP
information, PoE statistics by port
■
■
VLAN
VLAN Management—Primary and management VLAN, VLAN table,
VLAN properties
Traffic Management
•
•
QoS—Type of service, Quality of service, DSCP policies, DSCP
priority
■
■
■
Spanning Tree
•
Tree Management—Enabled or disabled
Multicast
•
IGMP—VLAN information
Security
•
•
•
Device Passwords—Authorized usernames and passwords
Security Wizard—Set up switch to prevent unauthorized access
IP Authorization—IP authorized manager addresses, methods, and
levels, IP authorization details
•
Port Security—Port security table, security policy information
4-2
Using the HP WebAgent
General Features
•
•
Intrusion Log—Details about intrusion events
SSL—Enabled/disabled for web management; SSL certificate status
■
Troubleshooting
•
•
•
Ping/Link Test—Ping test details, link test details
Configuration Report—Running config file information
Core dump—Management/Interface modules enabled/disabled, list
of core dump files for downloading
•
Port Mirroring—Enabled/disabled
Figure 4-1. Example of Status Screen for the WebAgent
4-3
Using the HP WebAgent
Starting the WebAgent
Starting the WebAgent
You can start the WebAgent in the following ways:
■
Using a standalone web browser on a network connection from a PC or
UNIX workstation that is directly connected to your network or
connected through remote access to your network
■
Using a network management station running PCM+ on your network
Using a Standalone Web Browser from a PC or UNIX
Workstation
This procedure assumes that you are using a compatible web browser and that
the switch is configured with an IP address accessible from your PC or
workstation. (For more on assigning an IP address, refer to “IP Configuration”
on page 7-1.)
TM
1. Ensure that the Java applets are enabled for your browser. For more
information on this topic, refer to your browser’s online Help.
2. Use the web browser to access the switch. If your network includes a
Domain Name Server (DNS), your switch’s IP address may have a name
associated with it (for example, switch8212) that you can type in the URL
field instead of the IP address. Using DNS names typically improves
browser performance. Contact your network administrator to enquire
about DNS names associated with your HP switch.
Type the IP address (or DNS name) of the switch in the browser’s URL
field and press [Enter]. (It is not necessary to include http://.)
switch5308 [Enter] (example of a DNS-type name)
10.11.12.195 [Enter] (example of an IP address)
The Home page of the WebAgent displays in the right pane and a navigation
tree displays in the left pane. You can access all the WebAgent features from
the navigation tree.
4-4
Using the HP WebAgent
Tasks for Your First WebAgent Session
Tasks for Your First WebAgent Session
Viewing the “First Time Install” Window
When you access the WebAgent for the first time, the Alert log contains a “First
Time Install” alert. This gives you information about first time installations
and provides an immediate opportunity to set passwords for security. You can
also specify a fault detection policy, which determines the types of messages
that will be displayed in the Alert Log.
To view the Alert Log, click on System in the navigation tree, then click on
Logging. Double click on First Time Install in the Alert log. The WebAgent
displays the “First Time Install” window. This window is the launching point
for setting WebAgent passwords for maintaining security, and also setting a
fault detection policy.
You can also use the navigation tree to access these screens:
■
To set WebAgent passwords, select Security > Device Passwords in the
navigation tree.
■
To set the fault detection policy, select Security > Intrusion Log in the
navigation tree.
Setting a Username and Password
You can set a username in the Username field of the password pane. If you do
not want to set a username, then leave the Username field in the password
pane blank.
The manager and operator passwords are used to control access to all switch
interfaces. The password you enter determines the capability you have during
that session:
■
Entering the manager password gives you full read/write/troubleshooting
capabilities
■
Entering the operator password gives you read and limited trouble-
shooting capabilities.
Note that the command prompt and switch console interface use only the
password; you are not prompted for the username.
4-5
Using the HP WebAgent
Tasks for Your First WebAgent Session
Change button
Figure 4-2. Example of the Device Passwords Screen
To set the username and password:
1. In the navigation tree, select Security > Device Passwords. The Device
Passwords screen displays.
2. Click on Change on the right side of the screen. The pane expands to allow
you to enter information.
3. Enter a username, password, and access level.
4. Click on Save to save your entries.
N o t e
Passwords assigned in the WebAgent will overwrite previous passwords
assigned in either the WebAgent, the CLI, or the menu interface. The most
recently assigned passwords are the switch’s passwords, regardless of which
interface was used to assign them.
If You Lose the Password
If you lose the passwords, you can clear them by pressing the Clear button
on the front of the switch. This action deletes all password and user name
protection from all of the switch’s interfaces.
4-6
Using the HP WebAgent
Connecting to the WebAgent from HP PCM+
The Clear button is provided for your convenience, but its presence means
that if you are concerned with the security of the switch configuration and
operation, you should make sure the switch is installed in a secure location,
such as a locked wiring closet. (For more information, refer to “Front Panel
Security” in the chapter titled “Configuring Username and Password Security”
in the Access Security Guide for your switch.)
Online Help for the WebAgent
Online Help is available for the WebAgent. You can use it by clicking on the
“?” in the upper right corner in any of the WebAgent panes. Context-sensitive
help is provided for the pane you are on.
You can access the WebAgent online help at www.hp.com/device_help.
Downloading the WebAgent Help to a Local Server
To download the WebAgent help files to a local server, go to:
www.hp.com/rnd/device_help/download.htm
Follow the directions on the web page to download the WebAgent help for
your device.
Connecting to the WebAgent from HP
PCM+
To access the WebAgent with HP PCM+:
1. Select the device in the PCM+ navigation tree.
2. Right-click on Device in the navigation tree and select Device Access >
Connect to WebAgent.
4-7
Using the HP WebAgent
Connecting to the WebAgent from HP PCM+
Figure 4-3. Example of WebAgent Access from PCM+
4-8
5
Switch Memory and Configuration
Overview
This chapter describes:
■
■
■
■
How switch memory manages configuration changes
How the CLI implements configuration changes
How the menu interface and WebAgent implement configuration changes
How the switch provides software options through primary/secondary
flash images
■
How to use the switch’s primary and secondary flash options, including
displaying flash information, booting or restarting the switch, and other
topics
Configuration File Management
The switch maintains two configuration files, the running-config file and the
startup-config file.
CLI configuration
Volatile Memory
changes are written to
this file. To use the CLI to
save the latest version of
this file to the startup-
config file, you must
execute the write
Running-Config File
(Controls switch operation. When the switch boots, the
contents of this file are erased and replaced by the
contents of the startup-config file.)
memory command.
Flash (Non-Volatile) Memory
Menu interface configu-
ration changes are simul-
taneously written to both
of these files.
Startup-Config File
(Preserves the most recently saved configuration
through any subsequent reboot.)
Figure 5-1. Conceptual Illustration of Switch Memory Operation
5-1
Switch Memory and Configuration
Configuration File Management
■
Running Config File: Exists in volatile memory and controls switch
operation. If no configuration changes have been made in the CLI since
the switch was last booted, the running-config file is identical to the
startup-config file.
■
Startup-config File: Exists in flash (non-volatile) memory and is used
to preserve the most recently-saved configuration as the “permanent”
configuration.
Booting the switch replaces the current running-config file with a new run-
ning-config file that is an exact copy of the current startup-config file.
N o t e
Any of the following actions boots the switch:
•
•
•
•
Executing the boot command in the menu interface
Pressing the Reset button on the front of the switch
Removing, then restoring power to the switch
For more on reboots and the switch’s dual-flash images, refer to “Using
Primary and Secondary Flash Image Options” on page 5-20.
Options for Saving a New Configuration. Making one or more changes
to the running-config file creates a new operating configuration. Saving a new
configurationmeans tooverwrite (replace) thecurrentstartup-config file with
the current running-config file. This means that if the switch subsequently
reboots for any reason, it will resume operation using the new configuration
instead of the configurationpreviously defined in the startup-config file. There
are three ways to save a new configuration:
■
In the CLI: Use the write memory command. This overwrites the current
startup-config file with the contents of the current running-config file.
■
In the menu interface: Use the Save command. This overwrites both the
running-config file and the startup-config file with the changes you have
specified in the menu interface screen.
■
In the WebAgent: Click on Save. This overwrites both the running-config
file and the startup-config file with the changes you have specified in the
WebAgent screen.
Note that using the CLI instead of the menu or WebAgent gives you the option
of changing the running configuration without affecting the startup configu-
ration. This allows you to test the change without making it “permanent”.
When you are satisfied that the change is satisfactory, you can make it
permanent by executing the write memory command. For example, suppose you
use the following command to disable port 5:
5-2
Switch Memory and Configuration
Configuration File Management
HP Switch(config)# interface ethernet 5 disable
The above command disables port 5 in the running-config file, but not in the
startup-config file. Port 5 remains disabled only until the switch reboots. If
you want port 5 to remain disabled through the next reboot, use write memory
to save the current running-config file to the startup-config file in flash
memory.
HP Switch(config)# write memory
If you use the CLI to make a configuration change and then change from the
CLI to the Menu interface without first using write memory to save the change
to the startup-config file, then the switch prompts you to save the change. For
example, if you use the CLI to create VLAN 20, and then select the menu
interface, VLAN 20 is configured in the running-config file, but not in the
startup-config file. In this case you will see:
HP Switch(config)# vlan 20
HP Switch(config)# menu
Do you want to save current configuration [y/n]?
If you type [Y], the switch overwrites the startup-config file with the running-
config file, and your configuration change(s) will be preserved across reboots.
If you type [N], your configuration change(s) will remain only in the running-
config file. In this case, if you do not subsequently save the running-config file,
your unsaved configuration changes will be lost if the switch reboots for any
reason.
Storing and Retrieving Configuration Files. You can store or retrieve a
backup copy of the startup-config file on another device. For more
information, see “Transferring Switch Configurations” in Appendix A of the
Management and Configuration Guide for your switch.
USB Autorun. This feature supports the ability to auto execute CLI com-
mands stored on a USB flash drive (for example, to configure the switch,
update software, retrieve diagnostics, etc.). For more information, see “Using
USB to Download Switch Software” in the Management and Configuration
Guide for your switch.
5-3
Switch Memory and Configuration
Using the CLI To Implement Configuration Changes
Using the CLI To Implement
Configuration Changes
The CLI offers these capabilities:
■
Access to the full set of switch configuration features
■
The option of testing configuration changes before making them perma-
nent
How To Use the CLI To View the Current Configuration Files. Use
show commands to view the configuration for individual features, such as port
status or Spanning Tree Protocol. However, to view either the entire startup-
config file or the entire running-config file, use the following commands:
■
■
■
■
■
show config — Displays a listing of the current startup-config file.
show running-config — Displays a listing of the current running-config file.
write terminal — Displays a listing of the current running-config file.
show default-config—Displays a listing of a custom default config file.
show config status — Compares the startup-config file to the running-
config file and lists one of the following results:
•
If the two configurations are the same you will see:
– Running configuration is the same as the startup
configuration.
•
If the two configurations are different, you will see:
– Running configuration has been changed and needs
to be saved.
N o t e
Show config, show running-config, and write terminal commands display the
configuration settings that differ from the switch’s factory-default configura-
tion.
How To Use the CLI To Reconfigure Switch Features. Use this proce-
duretopermanentlychangetheswitchconfiguration(thatis, toenterachange
in the startup-config file).
1. Use the appropriate CLI commands to reconfigure the desired switch
parameters. This updates the selected parameters in the running-config
file.
2. Use the appropriate show commands to verify that you have correctly
made the desired changes.
5-4
Switch Memory and Configuration
Using the CLI To Implement Configuration Changes
3. Observe the switch’s performance with the new parameter settings to
verify the effect of your changes.
4. When you are satisfied that you have the correct parameter settings, use
the write memory command to copy the changes to the startup-config file.
Syntax: write memory
Saves the running configuration file to the startup-config.
The saved configuration becomes the boot-up configuration
of the switch on the next boot.
When using redundant management, saves the running
configuration of the switch to flash on the active management
module. The saved configuration becomes the boot-up
configuration of the switch the next time it is booted. The
saved configuration file is sync’d to the standby management
module.
Note: If the active management module and the standby
management module are running on different operating
systems because the boot set-default command was executed
and then the standby module was rebooted, the write memory
command displays this warning: “Warning: The next reboot
orfailoverissettobootfromadifferentsoftwareimage. These
config changes may be incompatible or not used after a reboot
or failover.”
For example, the default port mode setting is auto. Suppose that your network
uses Cat 3 wiring and you want to connect the switch to another autosensing
device capable of 100 Mbps operation. Because 100 Mbps over Cat 3 wiring
can introduce transmission problems, the recommended port mode is auto-10,
which allows the port to negotiate full- or half-duplex, but restricts speed to
10 Mbps. The following command configures port A5 to auto-10 mode in the
running-config file, allowing you to observe performance on the link without
making the mode change permanent.
HP Switch(config)# interface e a5 speed-duplex auto-10
After you are satisfied that the link is operating properly, you can save the
change to the switch’s permanent configuration (the startup-config file) by
executing the following command:
HP Switch(config)# write memory
The new mode (auto-10) on port A5 is now saved in the startup-config file, and
the startup-config and running-config files are identical. If you subsequently
reboot the switch, the auto-10 mode configuration on port A5 will remain
because it is included in the startup-config file.
5-5
Switch Memory and Configuration
Using the CLI To Implement Configuration Changes
N o t e
Beginning with K.15.01.0031, configuration changes to ports may require up
to 10 seconds to take effect, especially on switches with high CPU utilization.
After a configuration command, perform an appropriate show or show running-
config command to confirm the configuration change. If configuration scripts
are used, the script should be modified either to check for successful comple-
tion of the previous command before executing the next command, or to sleep
for 10 seconds after the configuration command is executed.
How To Cancel Changes You Have Made to the Running-Config File.
If you use the CLI to change parameter settings in the running-config file, and
then decide that you don’t want those changes to remain, you can use either
of the following methods to remove them:
■
Manually enter the earlier values you had for the changed settings. (This
is recommended if you want to restore a small number of parameter
settings to their previous boot-up values.)
■
Update the running-config file to match the startup-config file by reboot-
ing the switch. (This is recommended if you want to restore a larger
number of parameter settings to their previous boot-up values.)
If you use the CLI to change a parameter setting, and then execute the boot
command without first executing the write memory command to save the
change, the switch prompts you to specify whether to save the changes in the
current running-config file. For example:
Disables port 1 intherunningconfiguration, whichcauses port 1toblockalltraffic.
HP Switch(config)# interface e 1 disable
HP Switch(config)# boot
Device will be rebooted, do you want to continue [y/n]? y
Press [Y] to continue the rebooting process.
You will then see this prompt.
Do you want to save current configuration [y/n]?
Figure 5-2. Boot Prompt for an Unsaved Configuration
The above prompt means that one or more parameter settings in the running-
config file differ from their counterparts in the startup-config file and you need
to choose which config file to retain and which to discard.
5-6
Switch Memory and Configuration
Using the CLI To Implement Configuration Changes
■
■
If you want to update the startup-config file to match the running-config
file, press [Y] for “yes”. (This means that the changes you entered in the
running-config file will be saved in the startup-config file.)
If you want to discard the changes you made to the running-config file so
that it will match the startup-config file, then press [N] for “no”. (This
config file and will update the running-config file to match the startup-
config file.)
N o t e
If you use the CLI to make a change to the running-config file, you should
either use the write memory command or select the save option allowed during
a reboot (figure 5-5-2, above) to save the change to the startup-config file. That
is, if you use the CLI to change a parameter setting, but then reboot the switch
from either the CLI or the menu interface without first executing the write
memory command in the CLI, the current startup-config file will replace the
running-config file, and any changes in the running-config file will be lost.
Using the Save command in the menu interface does not save a change made
to the running config by the CLI unless you have also made a configuration
change in the menu interface. Also, the menu interface displays the current
running-configvalues. Thus, whereaparametersettingisaccessiblefromboth
the CLI and the menu interface, if you change the setting in the CLI, the new
value will appear in the menu interface display for that parameter. However,
as indicated above, unless you also make a configuration change in the
menu interface, only the write memory command in the CLI will actually save
the change to the startup-config file.
How To Reset the startup-config and running-config Files to the
Factory Default Configuration. This command reboots the switch,
replacing the contents of the current startup-config and running-config files
with the factory-default startup configuration.
Syntax:
erase startup-config
For example:
HP Switch(config)# erase startup-config
Configuration will be deleted and device rebooted, continue [y/n]?
Figure 5-3. Example of erase startup-config Command
Press [y] to replace the current configuration with the factory default config-
uration and reboot the switch. Press [n] to retain the current configuration and
prevent a reboot.
5-7
Switch Memory and Configuration
Creating a Custom Default Configuration
In a redundant management system, this command erases the startup config
file on both the active and the standby management modules as long as
redundancy has not been disabled. If the standby management module is not
in standby mode or has failed selftest, the startup config file is not erased.
Creating a Custom Default Configuration
N o t e
This feature is not supported on the HP 3800 switches.
The custom default configuration feature provides the ability to initialize a
switch to a different state from the factory default state when you delete the
active configuration file. The factory default configuration is not changed. If
a custom configuration file has been created and the active configuration file
is deleted, the switch will boot up using the custom configuration file.
The feature provides the ability to:
■
Use a customized configuration file as a default configuration file
Enable the switch to start up with the specified default configuration
■
The existence of a custom default configuration file does not affect the results
of loading a remotely stored configuration file onto the switch.
Using a custom default configuration, you can configure the features you want
to be in the default configuration. When the active configuration is deleted
using the erase startup command, the active configuration is removed and the
custom default configuration file will be used upon bootup. The standard
default configuration file remains and is used if there is no custom default
configuration.
N o t e
This feature does not change the system defaults. The custom default config-
uration file is automatically used when the startup configuration file is erased.
It has no effect on what is loaded onto the switch when a remotely stored
configuration file is restored.
5-8
Switch Memory and Configuration
Creating a Custom Default Configuration
The default configuration file can be customized using commands at the CLI
prompt or by copying a configuration file with the desired configuration using
TFTP, USB, or XMODEM copy commands. The existing default configuration
file also can be transferred from the switch using these commands.
To start creating the configuration file to be used as the custom default
configuration file, enter the commands that configure the features desired and
then save the configuration file using the write memory command. An example
is shown in Figure 5-4.
HP Switch(config)# spanning-tree
HP Switch(config)# interface 4 flow-control
HP Switch(config)# write memory
Figure 5-4. Example of Creating a Config File with the Desired Features
This configuration, which enables flow control on interface 4, and also span-
ning-tree on the switch, is stored in the startup configuration file.
To save this configuration as the custom default configuration, the startup
configuration file is copied to the default configuration file, as shown in Figure
5-5.
HP Switch(config)# copy startup-config default-config
Figure 5-5. Example of Copying the Startup Configuration File to the Custom
Default Configuration File
Copying an Existing Configuration File to the Custom
Default Configuration File
The switch can have up to 3 different configuration files stored in flash
memory. (For more information about multiple configuration files, see “Mul-
tiple Configuration Files” in the Management and Configuration Guide for
your switch.) To copy a configuration file that exists in flash memory to the
custom default configuration file, use this command.
Syntax: copy config < source-filename > default-config
Copies the configuration file specified in <source-filename>
to the custom default configuration file.
5-9
Switch Memory and Configuration
Creating a Custom Default Configuration
HP Switch(config)# copy abc.cfg default-config
Figure 5-6. Copying the abc.cfg Config File to the Custom Default Config File
Copying the Custom Default Config File onto the
Switch
Using TFTP
To copy a configuration file stored on a TFTP server to the custom default
configuration file, use the copy tftp default-config command.
Syntax: copy tftp default-config <ip-addr> <stored config file name>
Copies the stored configuration file on the TFTP server
specified by <ip-addr> to the custom default configuration
file.
HP Switch(config)# copy tftp default-config 10.10.10.1 stored_config.cfg
Figure 5-7. Copying a Stored Config File to the Default Config File Using TFTP
Using XMODEM
To copy a configuration file to the custom default configuration file using
XMODEM, use the copy xmodem default-config command.
Syntax: copy xmodem default-config
Copies the configuration file specified by the XMODEM
server device to the custom default configuration file.
HP Switch(config)# copy xmodem default-config
Figure 5-8. Copying a Stored Config File to the Custom Default Config File Using
XMODEM
5-10
Switch Memory and Configuration
Creating a Custom Default Configuration
Using USB
To copy a configuration file to the custom default configuration file using USB,
use the copy usb default-config command.
copy usb default-config <stored config file name>
Syntax:
Copies the stored configuration file on the USB stick to the
custom default configuration file.
HP Switch# copy usb default-config stored_config.cfg
Figure 5-9. Copying a Stored Config File to the Custom Default Config File Using
USB
Copying the Custom Default Config File Off the Switch
Using TFTP
To transfer a custom default configuration file off the switch using TFTP, enter
the following command.
copy default-config tftp <server ip-address> stored_config.cfg
Syntax:
Copies the custom default configuration file to the
stored_config.cfg file on the TFTP server.
Using XMODEM
To transfer a custom default config file off the switch using XMODEM, enter
the following command.
copy default-config xmodem
Syntax:
Copies the custom default configuration file to the
configuration file specified by the XMODEM server device.
Using USB
To transfer a custom default configuration file off the switch using USB, enter
the following command.
copy default-config usb stored_config.cfg
Syntax:
5-11
Switch Memory and Configuration
Creating a Custom Default Configuration
Copies the custom default configuration file to the
stored_config.cfg file on the USB device.
Using SFTP and SCP to Transfer the Custom
Configuration
While the switch supports an SSH server with SCP and/or SFTP running on it,
the switch is not an SCP or SFTP client. To transfer the default custom
configuration file to or from the switch, you must connect to the switch’s SSH
server using any SCP or SFTP client. Instead of the actual name of the custom
default configuration file, an alias name of “default-config” is displayed in the
file listings and for get/store functions.
When you use an SCP client to connect to the switch, you must know the name
of the file you wish to get or store. When you use SFTP client to connect to
the switch, you are provided with a list of filenames that can be accessed by
the switch.
N o t e
You must have an SCP/SFTP client implemented in order to execute copy scp
or copy sftp commands on the switch.
The following example shows the output from running puTTY psftp on a remote
PC.
5-12
Switch Memory and Configuration
Creating a Custom Default Configuration
C:\PuTTY> psftp 10.1.243.209
We'd like to keep you up to date about:
* Software feature updates
* New product announcements
* Special events
Please register your product at: www.hp.com
Remote working directory is /
psftp> ls
Listing directory /
drwxr-xr-x
drwxr-xr-x
drwxr-xr-x
drwxrwxrwx
drwxrwxrwx
2 J9145A J9145A
2 J9145A J9145A
2 J9145A J9145A
2 J9145A J9145A
3 J9145A J9145A
0 Jan 01 00:01 cfg
0 Jan 01 00:01 core
0 Jan 01 00:01 log
0 Jan 01 00:01 os
0 Jan 01 00:01 ssh
psftp> ls /cfg
Listing directory /cfg
This is the custom default config.
-rwxrw-r--
-rw-r--r--
-rwxrw-r--
1 J9145A J9145A
1 J9145A J9145A
1 J9145A J9145A
1749 Jan 01 00:01 default-config
745 Jan 01 01:19 running-config
360 Jan 01 01:19 startup-config
psftp>
Figure 5-10. Example of Using SFTP
Erasing a Configuration File
If a custom default configuration file exists and the erase startup-config com-
mand is executed, the current active configuration is erased and the switch is
booted with the custom default configuration.
HP Switch(config)# erase startup-config
Configuration will be deleted, and existing login passwords removed, and device
rebooted (using the custom default configuration), continue [y/n]?
Figure 5-11. Example of Erasing the Startup Config File When a Default Custom Config File Exists
If a custom default configuration file does not exist and the erase startup-
config command is executed, the current active configuration is erased and
the switch is booted with the system default configuration.
5-13
Switch Memory and Configuration
Creating a Custom Default Configuration
HP Switch(config)# erase startup-config
Configuration will be deleted, and existing login passwords removed, and device
rebooted, continue [y/n]?
Figure 5-12. Example of Erasing the Startup Config File When a Default Custom Config File Does Not Exist
To erase the custom default configuration file, execute the erase default-config
command.
HP Switch(config)# erase default-config
The custom default configuration will be erased. The “erase startup-config”
command will now use system generated default configuration. Continue [y/n]?
Figure 5-13. Example of Erasing the Custom Default Config File
Displaying the Configuration Files
The show config files command displays the existing configuration files and
indicates that a custom default configuration file exists.
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+-------------------------------
1
2
3
* *
| config
| secondaryconfig
* | Kconfig
==================
A Custom default configuration file exists.
A custom default configuration file exists.
Figure 5-14. Example Output Displaying 3 Configuration Files
Enter the command show default-config to display the custom default config-
uration.
N o t e
For the 5400zl, 3800, and 8200zl switches, when the show default-config
command is executed in enhanced secure mode the following prompt dis-
plays:
5-14
Switch Memory and Configuration
Creating a Custom Default Configuration
Do you want to show sensitive information (y/n)?
If “Y/y” is entered, the normal command output is displayed on the console.
If “N/n” is entered, all the sensitive information is hidden and will be
displayedasasterisks(“*****”). Thedefaultoptionis“N/n”wheninteractive
mode is disabled. For more information, see the chapter “Secure Mode
(5400zl, 3800, and 8200zl)” in the Access Security Guide for your switch.
HP Switch(config)# show default-config
Custom default configuration:
; J8693A Configuration Editor; Created on release #K.15.XX
; Ver #02:0b:ef:e6
hostname “HP Switch”
module 1 type J86xxA
module 2 type J86xxA
vlan 1
name “DEFAULT-VLAN”
untagged 1-24
ip address dhcp-bootp
exit
interface 4
flow-control
exit
These parameters were configured in
the custom default configuration file.
snmp-server community “public” unrestricted
spanning-tree
Figure 5-15. Example of Output for Custom Default Configuration File
If a custom default configuration file exists and you erase the current active
config file (using the erase startup-config command), then issue the show
running-config command, the output will display the contents of the custom
default configuration file. The custom default configuration file is loaded upon
bootup. See Figure 5-16.
5-15
Switch Memory and Configuration
Using the Menu and WebAgent To Implement Configuration Changes
HP Switch(config)# show running-config
Custom default configuration:
; J8693A Configuration Editor; Created on release #K.15.XX
; Ver #02:0b:ef:e6
hostname “HP Switch”
module 1 type J86xxA
module 2 type J86xxA
vlan 1
name “DEFAULT-VLAN”
untagged 1-24
ip address dhcp-bootp
exit
interface 4
flow-control
exit
snmp-server community “public” unrestricted
spanning-tree
Figure 5-16. Example of Output of Custom Default Config File When Current Active Config File Erased
Troubleshooting Custom Default Configuration Files
■
If the switch won’t boot because of a problem with the custom default
configuration file, the file can be removed using the ROM mode interface.
■
The custom default configuration file cannot be erased using the front
panel buttons on the switch. If the switch can be booted, use the erase
default-config command to remove the custom default configuration file.
Using the Menu and WebAgent To
Implement Configuration Changes
The menu and WebAgent offer these advantages:
■
Quick, easy menu or window access to a subset of switch configuration
features
5-16
Switch Memory and Configuration
Using the Menu and WebAgent To Implement Configuration Changes
■
■
Viewing several related configuration parameters in the same screen, with
their default and current settings
Immediately changing both the running-config file and the startup-config
file with a single command
Menu: Implementing Configuration Changes
Youcanusethemenuinterfacetosimultaneouslysaveandimplementasubset
when you save a configuration change in the menu interface, you simultane-
ously change both the running-config file and the startup-config file.
N o t e
The only exception to this operation are two VLAN-related parameter changes
that require a reboot—described under “Rebooting To Activate Configuration
Changes” on page 5-19.
Using Save and Cancel in the Menu Interface
For any configuration screen in the menu interface, the Save command:
1. Implements the changes in the running-config file
2. Saves your changes to the startup-config file
If you decide not to save and implement the changes in the screen, select
Cancel to discard them and continue switch operation with the current oper-
ation. For example, suppose you have made the changes shown below in the
System Information screen:
To save and
implement the
changes for all
parameters in this
screen, press the
[Enter] key, then
press [S] (for Save).
To cancel all
changes, press the
[Enter] key, then
press [C](for Cancel)
Figure 5-17. Example of Pending Configuration Changes You Can Save or Cancel
5-17
Switch Memory and Configuration
Using the Menu and WebAgent To Implement Configuration Changes
N o t e
If you reconfigure a parameter in the CLI and then go to the menu interface
without executing a write memory command, those changes are stored only in
the running configuration (even if you execute a Save operation in the menu
interface). If you then execute a switch boot command in the menu interface,
the switch discards the configuration changes made while using the CLI. To
ensure that changes made while using the CLI are saved, execute write memory
in the CLI before rebooting the switch.
Rebooting from the Menu Interface
■
Terminates the current session and performs a reset of the operating
system
■
■
Activates any configuration changes that require a reboot
Resets statistical counters to zero
To Reboot the switch, use the Reboot Switch option in the Main Menu. (Note
that the Reboot Switch option is not available if you log on in Operator mode;
that is, if you enter an Operator password instead of a manager password at
the password prompt.)
Optional Reboot
Switch Command
Figure 5-18. The Reboot Switch Option in the Main Menu
5-18
Switch Memory and Configuration
Using the Menu and WebAgent To Implement Configuration Changes
Rebooting To Activate Configuration Changes. Configuration changes
for most parameters become effective as soon as you save them. However,
you must reboot the switch in order to implement a change in the Maximum
VLANs to support parameter.
(To access these parameters, go to the Main menu and select 2. Switch
Configuration, then 8. VLAN Menu, then 1. VLAN Support.)
If configuration changes requiring a reboot have been made, the switch
displays an asterisk (*) next to the menu item in which the change has been
made. For example, if you change and save parameter values for the Maximum
VLANs to support parameter, an asterisk appears next to the VLAN Support entry in
the VLAN Menu screen, and also next to the Switch Configuration …entry in the
Main menu, as shown in Figure 5-19:
Asterisk indicates
a configuration
change that
requires a reboot
in order to take
effect.
Reminder to
reboot the switch
to activate
configuration
changes.
Figure 5-19. Indication of a Configuration Change Requiring a Reboot
WebAgent: Implementing Configuration Changes
You can use the WebAgent to simultaneously save and implement a subset of
switch configuration changes without having to reboot the switch. That is,
when you save a configuration change, you simultaneously change both the
running-config file and the startup-config file. For online help with configuring
changes in the WebAgent, click on the “?” in the WebAgent screen.
N o t e
If you reconfigure a parameter in the CLI and then go to the WebAgent without
executing a write memory command, those changes will be saved to the startup-
config file if you click on Save in the WebAgent.
5-19
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Using Primary and Secondary Flash
Image Options
The switches covered in this guide feature two flash memory locations for
storing switch software image files:
■
Primary Flash: The default storage for a switch software image.
■
Secondary Flash: The additional storage for either a redundant or an
alternate switch software image.
With the Primary/Secondary flash option you can test a new image in your
system without having to replace a previously existing image. You can also
use the image options for troubleshooting. For example, you can copy a
problem image into Secondary flash for later analysis and place another,
proven image in Primary flash to run your system. The switch can use only
one image at a time.
The following tasks involve primary/secondary flash options:
■
Displaying the current flash image data and determining which switch
software versions are available
■
■
■
Switch software downloads
Replacing and removing (erasing) a local switch software version
System booting
Displaying the Current Flash Image Data
Use the commands in this section to:
■
■
■
Determine whether there are flash images in both primary and secondary
flash
Determine whether the images in primary and secondary flash are the
same
Identify which switch software version is currently running
Viewing the Currently Active Flash Image Version. This command
identifies the software version on which the switch is currently running, and
whether the active version was booted from the primary or secondary flash
image.
Syntax: show version
5-20
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
For example, if the switch is using a software version of K.12.XX stored in
Primary flash, show version produces the following:
HP Switch(config)# show version
Image stamp: /su/code/build/info(s01)
Dec 01 2006 10:50:26
K.12.XX
1223
Primary
Boot Image:
Figure 5-20. Example Showing the Identity of the Current Flash Image
Determining Whether the Flash Images Are Different Versions. If the
flash image sizes in primary and secondary are the same, then in almost every
case, the primary and secondary images are identical. This command provides
a comparison of flash image sizes, plus the boot ROM version and from which
flash image the switch booted. For example, in the following case, the images
are different versions of the switch software, and the switch is running on the
version stored in the secondary flash image:
HP Switch(config)# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- -------------
Primary Image : 7493854 03/21/10 K.15.01.0001
Secondary Image : 7463821 03/23/10 K.15.01.0001
Boot Rom Version: K.15.08
Default Boot
: Primary
Will boot from primary flash
on the next boot.
Figure 5-21. Example Showing Different Flash Image Versions
Determining Which Flash Image Versions Are Installed. The show ver-
sion command displays which software version the switch is currently running
and whether that version booted from primary or secondary flash. Thus, if the
switch booted from primary flash, you will see the version number of the
software version stored in primary flash, and if the switch booted from
secondary flash, you will see the version number of the software version
stored in secondary flash. Thus, by using show version, then rebooting the
switch from the opposite flash image and using show version again, you can
determine the version(s) of switch software in both flash sources. For exam-
ple:
5-21
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
HP Switch(config)# show version
Management Module 1: Active
Image stamp:
/sw/code/build/btm(ec_K_15)
Aug 2 2011 09:06:58
K.15.06.00002
152
1. In this example show
version indicates the
switch has version
K.15.06.00002 in primary
flash.
Boot Image:
Primary
HP Switch(config)# boot system flash secondary
Device will be rebooted, do you want to continue [y/n]? y
.
.
.
2. After the boot system
command, show version
indicates that version
K.15.06.00001 is in
HP Switch(config)# show version
Management Module 1: Active
Image stamp:
/sw/code/build/btm(ec_K_15)
Aug 2 2011 09:06:58
K.15.06.00001
secondary flash.
1753
Secondary
Boot Image:
Figure 5-22. Determining the Software Version in Primary and Secondary Flash
Switch Software Downloads
The following table shows the switch’s options for downloading a software
version to flash and booting the switch from flash
Table 5-1. Primary/Secondary Memory Access
Action
Menu
Yes
No
CLI
Yes
Web Agent
SNMP
Yes
Download to Primary
Download to Secondary
Boot from Primary
Boot from Secondary
Yes
No
Yes
No
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
The different software download options involve different copy commands,
plus xmodem, usb, and tftp. These topics are covered in Appendix A, “File
Transfers”.
Download Interruptions. In most cases, if a power failure or other cause
interrupts a flash image download, the switch reboots with the image previ-
ously stored in primary flash. In the unlikely event that the primary image is
5-22
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
corrupted, as a result ofan interruption, the switchwillrebootfrom secondary
flash and you can either copy the secondary image into primary or download
another image to primary from an external source.
Local Switch Software Replacement and Removal
This section describes commands for erasing a software version and copying
an existing software version between primary and secondary flash.
N o t e
It is not necessary to erase the content of a flash location before downloading
with the new file. If you want to remove an unwanted software version from
flash, HP recommends that you do so by overwriting it with the same software
version that you are using to operate the switch, or with another acceptable
software version. To copy a software file between the primary and secondary
flash locations, refer to “Copying a Switch Software Image from One Flash
Location to Another”, below.
The local commands described here are for flash image management within
the switch. To download a software image file from an external source, see
“File Transfers” in the Management and Configuration Guide for your
switch.
Copying a Switch Software Image from One Flash Location to
Another. When you copy the flash image from primary to secondary or the
reverse, the switch overwrites the file in the destination location with a copy
current image at the destination location before copying in a new image.
C a u t i o n
Verify that there is an acceptable software version in the source flash location
fromwhichyouaregoingtocopy. Usetheshowflash commandor, ifnecessary,
the procedure under “Determining Which Flash Image Versions Are Installed”
onpage 5-21toverifyanacceptablesoftwareversion. Attemptingtocopyfrom
a source image location that has a corrupted flash image overwrites the image
in the destination flash location. In this case, the switch will not have a valid
flash image in either flash location, but will continue running on a temporary
flash image in RAM. Do not reboot the switch. Instead, immediately download
another valid flash image to primary or secondary flash. Otherwise, if the
switch is rebooted without a software image in either primary or secondary
flash, the temporary flash image in RAM will be cleared and the switch will go
down. To recover, see “Restoring a Flash Image” in Appendix C of the Man-
agement and Configuration Guide for your switch.
5-23
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Syntax:
copy flash flash <destination flash>
where: destination flash = primary or secondary:
For example, to copy the image in secondary flash to primary flash:
1. Verify that there is a valid flash image in the secondary flash location. The
following figure indicates that a software image is present in secondary
flash. (If you are unsure whether the image is secondary flash is valid, try
booting from it before you proceed, by using boot system flash secondary.)
HP Switch(config)# show flash
Image Size (bytes) Date
The unequal code
size, differing dates,
and differing
version numbers
indicates two
Version
----------------- ------------ -------- --------------------
Primary Image
:
9798890 08/27/09 K.14.41
14829211 08/02/11 K.15.06.0000x
Secondary Image :
different versions of
the software.
Boot ROM Version : K.15.19
Default Boot : Primary
Figure 5-23. Example Indicating Two Different Software Versions in Primary and Secondary Flash
Execute the copy command as follows:
HP Switch(config)# copy flash flash primary
Erasing the Contents of Primary or Secondary Flash. This command
deletes the software image file from the specified flash location.
Caution:
Before using this command in one flash image location (primary or second-
ary), ensure that you have a valid software file in the other flash image location
(secondary orprimary). Iftheswitchhas only one flash image loaded(ineither
primary or secondary flash) and you erase that image, then the switch does
not have a software image stored in flash. In this case, if you do not reboot or
power cycle the switch, you can recover by using xmodem or tftp to download
another software image.
No Undo!
Syntax:
erase flash < primary | secondary >
For example, to erase the software image in primary flash, do the following:
1. First verify that a usable flash image exists in secondary flash. The most
reliable way to ensure this is to reboot the switch from the flash image
you want to retain. For example, if you are planning to erase the primary
image, then first reboot from the secondary image to verify that the
secondary image is present and acceptable for your system:
5-24
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
HP Switch# boot system flash secondary
2. Then erase the software image in the selected flash (in this case, primary):
HP Switch# erase flash primary
The Primary OS Image will be deleted, continue [y/n]?
Figure 5-24. Example of Erase Flash Prompt
3. Type y at the prompt to complete the flash erase.
4. Use show flash to verify erasure of the selected software flash image.
HP Switch# show flash
The “0” here
shows that
Compressed Primary Code size = 0
Compressed Secondary code size = 2555802
Boot ROM Version : K.15.19
primary flash has
been erased.
Default Boot
: Secondary
Figure 5-25. Example of Show Flash Listing After Erasing Primary Flash
Inredundantmanagementsystems, this commandwill erase theselectedflash
in both the active and the standby management modules. If redundancy has
been disabled or the standby module has failed selftest, this command only
affects the active management module.
Zeroizing the File Storage of the Management Module
Sometimes it is desirable to completely remove the information stored in user
files from flash storage. The zeroization feature will remove and “zeroize” all
the files from flash storage except software images. Information removed
includes the following:
■
■
■
■
■
■
■
switch configurations
system generated private keys
user installed private keys
legacy manager/operator password files
crypto-key files
fdr logs
core dumps
5-25
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Zeroization can be initiated in these ways:
CLI command
During Secure Mode transition, initiated through the secure-mode CLI
■
■
command executed in a serial session
■
ROM console command
The zeroization process takes some time, so it is performed during the init
process of a switch reboot. After zeroization, the configuration file is rebuilt
from the default config file, which is similar to the config rebuilding process
performed by the erase startup-config command.
Syntax: erase all [zeroize]
Erasesallmanagementmodulefiles,includingconfiguration
files, core dumps, password files, crypto-key files, etc.
Software images are not erased.
When executed without the zeroize option, files are removed,
but the flash storage is not zeroized. The data is still
physically present in the flash. The flash can be removed from
the switch and the data recovered with file recovery tools.
[zeroize]: Zeroizes the file storage of the management modules.
N o t e
It is recommended that zeroization be performed from the serial console so
that the status information can be viewed during the zeroization process.
HP Switch(config)# erase all zeroize
The system will be rebooted and all management module files
except software images will be erased and zeroized. This will
take up to 60 minutes and the switch will not be usable dur-
ing that time. Continue (y/n)? y
Figure 5-26. Zeroizing the Management Module Files
Zeroizing from the ROM Console
It is also possible to zeroize the file storage from the ROM console of the
switch, using the erase-all zeroize command at the prompt. This most likely
occurs during a switch recovery process. The warning messages are the same
as for the CLI command.
5-26
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
=> erase-all zeroize
The system will be rebooted and all management module files
except software images will be erased and zeroized. This will
take up to 60 minutes and the switch will not be usable dur-
ing that time. Continue (y/n)? y
Figure 5-27. Zeroizing the Management Module Files from the ROM Console
Zeroizing with HA
When zeroization is triggered by a secure mode transition, HA handles zeroiza-
tion on the AMM and SMM automatically.
When the CLI command (eraseall zeroize) is used to start zeroization, the AMM
syncs with the SMM and ensures that the SMM performs the same level of
zeroization before the AMM starts the zeroization process on itself. The AMM
before the zeroization process occurs remains the AMM, unless it takes over
a minute for the AMM to boot up, in which case the prior SMM becomes the
AMM.
When zeroization is started fromtheROM console, there isnosynchronization
performed between the AMM and SMM, as zeroization from the ROM console
is treated as a recovery facility. Each MM has to be zeroized individually.
For information about Secure Mode and zeroization, see the chapter “Secure
Mode (5400zl, 3800, and 8200zl)” in the Access Security Guide for your switch.
Rebooting the Switch
Operating Notes about Booting
Default Boot Source. The switch reboots from primary flash by default
unless you specify the secondary flash by entering either the boot system flash
[primary | secondary] or boot set-default flash [primary | secondary] command.
Both the boot command and the reload command will reboot based on how
these options have been selected.
Boot Attempts from an Empty Flash Location. In this case, the switch
aborts the attempt and displays
Image does not exist
Operation aborted.
5-27
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Interaction of Primary and Secondary Flash Images with the Current
Configuration. The switch has one startup-config file (page 5-1), which it
always uses for reboots, regardless of whether the reboot is from primary or
secondary flash. Also, for rebooting purposes, it is not necessary for the
software image and the startup-config file to support identical software fea-
tures. For example, suppose you have just downloaded a software upgrade
that includes new features that are not supported in the software you used to
create the current startup-config file. In this case, the software simply assigns
factory-default values to the parameters controlling the new features. Simi-
larly, If you create a startup-config file while using a version “Y” of the switch
software, and then reboot the switch with an earlier software version “X” that
does not include all of the features found in “Y”, the software simply ignores
the parameters for any features that it does not support.
Scheduled Reload. If no parameters are entered after the reload command,
an immediate reboot is executed. The reload at and reload after command
information is not saved across reboots. If the switch is rebooted before a
scheduledreloadcommand isexecuted, the commandiseffectivelycancelled.
When entering a reload at or reload after command, a prompt will appear to
confirm the command before it can be processed by the switch. For the reload
at command, if mm/dd/yy are left blank, the current day is assumed.
The scheduled reload feature removes the requirement to physically reboot
the switch at inconvenient times (for example, at 1:00 inthe morning). Instead,
a reload at 1:00 mm/dd command can be executed (where mm/dd is the date
the switch is scheduled to reboot).
Boot and Reload Command Comparison
The switch offers reboot options through the boot and reload commands, plus
the options inherent in a dual-flash image system. Generally, using boot
provides more comprehensive self-testing; using reload gives you a faster
reboot time.
5-28
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Table 5-2. Comparing the Boot and Reload Commands
Actions
Included In Included In Reload
Boot?
Note
Save all
Optional,
with prompt <cr>, when prompt
displays.
Optional with reload
Config changes saved to
the startup-config file if
“y” is selected (reload
command).
configuration
changes since the
last boot or reload
Not saved with reload
at/after commands;
No prompt is displayed.
Perform all system
self-tests
Yes
No
The reload command
provides a faster system
reboot.
Choice of primary or Yes
secondary flash
image
No—Uses the current
flash image.
Performascheduled No
reboot
Yes
Use the reloadcommand
with after/at parameters
(see page 5-33 for details).
Setting the Default Flash
You can specify the default flash to boot from on the next boot by entering the
boot set-default flash command.
Syntax: boot set-default flash [primary |secondary]
Upon booting, set the default flash for the next boot to primary
or secondary.
HP Switch(config)# boot set-default flash secondary
HP Switch(config)# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- --------------
Primary Image : 7476770 03/15/10 K.15.01.0001
Secondary Image : 7476770 03/15/10 K.15.01.0001
Boot Rom Version: K.15.08
Default Boot
: Secondary
HP Switch(config)# boot
This management module will now reboot from secondary and will become
the standby module! You will need to use the other management module's
console interface. Do you want to continue [y/n]?
Figure 5-28.Example of boot set-default Command with Default Flash Set to Secondary (with a
Redundant Management Module Present)
5-29
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Booting from the Default Flash (Primary or Secondary)
The boot command boots the switch from the flash image that you are
currently booted on, or the flash image that was set either by the boot set-
default command or by the last executed boot system flash <primary | secondary>
command. This command also executes the complete set of subsystem self-
tests. You have the option of specifying a configuration file.
Syntax: boot [system [flash <primary | secondary>] [config FILENAME]
Rebootstheswitchfromtheflashthatyouarecurrentlybooted
on (primary or secondary). You can select which image to
boot from during the boot process itself. When using
redundant management, the switch will failover to the
standby management module.
Note: This is changed from always booting from primary
flash. You are prompted with a message which will indicate
the flash being booted from.
system: Boots the switch. You can specify the flash image to
boot from. When using redundant management, boots both
the active and standby management modules.
config: You can optionally select a configuration file from
which to boot.
HP Switch(config)# boot
This management module will now reboot from primary image and will become
the standby module! You will need to use the other management module's
console interface. Do you want to continue [y/n]? y
Do you want to save current configuration [y/n]? n
Figure 5-29. Example of Boot Command (Default Primary Flash) with Redundant Management
In the above example, typing either a y or n at the second prompt initiates the
reboot operation. (Entering y saves any configuration changes from the
running-config file to the startup-config file; entering n discards them.)
5-30
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
HP Switch(config)# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- --------------
Primary Image : 7497114 03/29/10 K.15.01.0001
Secondary Image : 7497114 03/29/10 K.15.01.0001
Boot Rom Version: K.15.08
Default Boot
: Primary
The next boot is from primary
Set to secondary flash
HP Switch(config)# boot set-default flash secondary
This command changes the location of the default boot. This command will
change the default flash image to boot from secondary. Hereafter, 'reload'
'boot' commands will boot from secondary. Do you want to continue [y/n]? y
HP Switch(config)# boot
This management module will now reboot from secondary image and will become
the standby module! You will need to use the other management module's
console interface. Do you want to continue [y/n]? n
Figure 5-30. Example of Boot Command Booting from a Different Flash than the Current Flash (with
Redundant Management Module Present)
Booting from a Specified Flash
This version of the boot command gives you the option of specifying whether
to reboot from primary or secondary flash, and is the required command for
rebooting from secondary flash. This option also executes the complete set
of subsystem self-tests.
Syntax: boot system flash < primary | secondary >
For example, to reboot the switch from secondary flash when there are no
pending configuration changes in the running-config file:
HP Switch(config)# boot system flash secondary
System will be rebooted from secondary image. Do you want to continue [y/n]?
Figure 5-31. Example of Boot Command with Secondary Flash Option
In the above example, typing either a y or n at the second prompt initiates the
reboot operation.
5-31
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Using the Fastboot feature. The fastboot command allows a boot
sequence that skips the internal power-on self-tests, resulting in a faster boot
time. When using redundant management and fastboot is enabled, it is saved
to the standby management module when the config files are synchronized.
Fastboot is used during the next bootup on either management module.
Syntax: [no] fastboot
Enables the fastboot option
The no option disables the feature.
Syntax: show fastboot
Shows the status of the fastboot feature, either enabled or
disabled.
The fastboot command is shown below.
HP Switch(config)# fastboot
Using Reload
The Reload command reboots the switch from the flash image that you are
currently booted on (primary or secondary) or the flash image that was set
either by the boot set-default command or by the last executed boot system flash
<primary | secondary> command. Because reload bypasses some subsystem
self-tests, the switch reboots faster than if you use either of the boot command
options. If you are using redundant management and redundancy is enabled,
the switch will failover to the other management module.
Syntax: reload
For example, if you change the number of VLANs the switch supports, you
mustreboottheswitchinordertoimplementthechange. The reload command
prompts you to save or discard the configuration changes.
HP Switch(config)# max-vlans 12
Command will take effect after saving configuration and reboot.
HP Switch(config)# reload
This command will cause a switchover to the other management module
which may not be running the same software image and configurations.
Do you want to continue [y/n]? y
Figure 5-32. Using Reload with Redundant Management and Pending Configuration Changes
5-32
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Scheduled Reload. Beginning with software release K.11.34, additional
parameters have been added to the reload command to allow for a scheduled
reboot of the switch via the CLI.
Syntax: [no] reload [after <[dd:]hh:]mm> | at <hh:mm[:ss]> [<mm/dd[/[yy]yy]>]]
Enables a scheduled warm reboot of the switch. The switch boots
up with the same startup config file and using the same flash
image as before the reload.
Caution: When using redundant management, the reload at/after
command causes a switchover at the scheduled time to the other
management module, which may not be running the same soft-
ware image or have the same configurations.
Parameters include:
• after: Schedules a warm reboot of the switch after a given
amount of time has passed.
• at: Schedules a warm reboot of the switch at a given time.
The no form of the command removes a pending reboot request.
For more details and examples, see below.
The scheduled reload feature removes the requirement to physically reboot
a reload at 1:00 mm/dd command can be executed (where mm/dd is the date
the switch is scheduled to reboot).
N o t e
Configuration changes are not saved with reload at or reload after commands.
No prompt to save configuration file changes is displayed. See Table 5-2 on
page 5-29.
Examples of scheduled reload commands:
■
To schedule a reload in 15 minutes:
HP Switch# reload after 15
■
■
■
■
To schedule a reload in 3 hours:
HP Switch# reload after 03:00
To schedule a reload for the same time the following day:
HP Switch# reload after 01:00:00
To schedule a reload for the same day at 12:05:
HP Switch# reload at 12:05
To schedule a reload on some future date:
HP Switch# reload at 12:05 01/01/2008
5-33
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
HP Switch(config)# reload after 04:14:00
Reload scheduled in 4 days, 14 hours, 0 minutes
This command will cause a switchover at the scheduled time to the
other management module which may not be running the same software
image and configurations. Do you want to continue [y/n]?
Figure 5-33. An Example of the reload Command with a Redundant Management System
Module Reload.
The module reload feature allows you to reset a module by initiating a warm
reboot of a specified module or modules. This saves time over rebooting the
entire switch, which can take several minutes to complete and disrupts all
users on the switch. The specified module has its power turned off, and then
turned on again. This causes the module to reset to a known good state and
reload its software.
Syntax: [no] reload [ [after < [[DD:] HH:] MM>] | [at HH:MM [:SS]
[MM/DD[/[YY]YY]] ] | [module <slot-id range>]]
When specified with the module parameter, initiates a reload
of the module in the specified slot or slots by turning the slot
power off, then on again. A valid slot or range of slots must
be specified. The at and after parameters are not allowed with
the module option. The no version of the command is not valid
with the module option.
When the reload command is executed without any
parameters, an immediate switch reload occurs.
Note: This feature is not supported for HP One modules.
module: Powers the module on or off, forcing a software reload
of the specified module or modules.
HP Switch(config)# reload module C
The ‘reload module’ command will shutdown the specified modules. Ports on
specified modules will no longer pass traffic. Any management traffic to the
switch which passes through the affected modules will be interrupted (e.g. ssh,
telnet, snmp). This command may take up to 2 minutes to power down all specified
modules. Please check the event log for current status of module power down,
power up cycle. Continue [y/n]?
Figure 5-34. Example of Reloading a Specified Module
5-34
Switch Memory and Configuration
Using Primary and Secondary Flash Image Options
Displaying Reload Information.
Use the show reload command to display the reload information. This can
include:
■
■
■
A scheduled, pending reload of the entire switch
A statement that no reload is scheduled
The time of the last reload of each module on the system
HP Switch(config)# reload at 23:45
Reload scheduled at 23:45:47 6/16/2010
(in 0 days, 1 hours, 41 minutes)
HP Switch(config)# show reload at
Reload scheduled for 23:45:47 06/16/2010
(in 0 days, 1 hours, 40 minutes)
HP Switch(config)# show reload after
Reload scheduled for 23:45:47 6/16/2010
(in 0 days, 1 hours, 40 minutes)
Figure 5-35. Example of the Scheduled Reload At Information
HP Switch(config)# reload after 35
Reload scheduled in 0 days, 0 hours, 35 minutes
HP Switch(config)# show reload at
Reload scheduled in 0 days, 0 hours, 34 minutes
HP Switch(config)# show reload after
Reload scheduled in 0 days, 0 hours, 34 minutes
Figure 5-36. Example of the Scheduled Reload After Information
HP Switch(config)# show reload module
Module Reload information:
Module | Last reload date
-------+----------------------
C
10:50:51 01/13/2010
Figure 5-37. Example of the Module Reload Information
5-35
Switch Memory and Configuration
Multiple Configuration Files
Multiple Configuration Files
Action
Page
5-40
5-41
Listing and Displaying Startup-Config Files
Changing or Overriding the Reboot Configuration Policy
Managing Startup-Config Files
Renaming Startup-Config Files
5-44
5-44
5-45
5-47
5-48
Copying Startup-Config Files
Erasing Startup-Config Files
Effect of Using the Clear + Reset Buttons
Copying Startup-Config Files to or from a Remote Server
This method of operation means that you cannot preserve different startup-
config files across a reboot without using remote storage.
The switch allows up to three startup-config files with options for selecting
which startup-config file to use for:
■
A fixed reboot policy using a specific startup-config file for a specific boot
path (primary or secondary flash)
■
Overriding the current reboot policy on a per-instance basis
Startup-Config
Options:
File 1
Primary Boot Path
Boot Command
Running-Config
File 2
Secondary Boot Path
File 3
Figure 5-38. Optional Reboot Process
While you can still use remote storage for startup-config files, you can now
maintain multiple startup-config files on the switch and choose which version
to use for a reboot policy or an individual reboot.
This choice of which configuration file to use for the startup-config at reboot
provides the following new options:
■
Theswitchcanrebootwithdifferentconfigurationoptionswithouthaving
to exchange one configuration file for another from a remote storage
location.
5-36
Switch Memory and Configuration
Multiple Configuration Files
■
■
Transitions from one software release to another can be performed while
maintaining a separate configuration for the different software release
versions.
By setting a reboot policy using a known good configuration and then
overriding the policy on a per-instance basis, you can test a new configu-
ration with the provision that if an unattended reboot occurs, the switch
will come up with the known, good configuration instead of repeating a
reboot with a misconfiguration.
General Operation
Multiple Configuration Storage in the Switch. The switch uses three
memory “slots”, with identity (id) numbers of 1, 2, and 3.
HP Switch(config)# show config files
Configuration files:
Memory Slots
for Different
Startup-Config
Files
id | act pri sec | name
---+-------------+------------------------------------------------
1 |
| oldConfig
2 | * * * | workingConfig
3 |
|
Figure 5-39. Example of Output for show config files Command
A startup-config file stored in a memory slot has a unique, changeable file
name. The switches covered in this guide can use the startup-config in any of
the memory slots (if the software version supports the configured features).
Boot Options. With multiple startup-config files in the switch you can spec-
ify a policy for the switch to use upon reboot. The options include:
■
Use the designated startup-config file with either or both reboot paths
(primary or secondary flash)
■
Override the current reboot policy for one reboot instance by specifying
a boot path (primary or secondary flash) and the startup-config file to use.
Changing the Startup-Config File. When the switch reboots, the startup-
configfilesuppliestheconfigurationfortherunning-configfiletheswitchuses
to operate. Making changes to the running-config file and then executing a
write-mem command (or, in the Menu interface, the Save command) are
written back to the startup-config file used at the last reboot. For example,
suppose that a system administrator performs the following on a switch that
has two startup-config files (workingConfig and backupConfig):
5-37
Switch Memory and Configuration
Multiple Configuration Files
file named backupConfig.
2. Use the CLI to make configuration changes in the running-config file, and
then execute write mem.
The result is that the startup-config file used to reboot the switch is modified
by the actions in step 2.
Boot Command
Primary Boot Path
ActiveStartup-ConfigFile:
Idle Startup-Config File:
backupConfig
workingConfig
Generated Running-Config File
Use CLI To Change Running-Config
Execute write mem To Save Changes to
Source Startup-Config File
Figure 5-40. Example of Reboot Process and Making Changes to the Startup-
Config File
Creating an Alternate Startup-Config File. There are two methods for
creating a new configuration file:
■
Copy an existing startup-config file to a new filename, then reboot the
switch, make the desired changes to the running-config file, then execute
write memory. (Refer to figure 5-5-40, above.)
■
Erase the active startup-config file. This generates a new, default startup-
config file that always results when the switch automatically reboots after
deletion of the currently active startup-config file. (Refer to “Erasing a
Startup-Config File” on page 5-45.)
5-38
Switch Memory and Configuration
Multiple Configuration Files
Transitioning to Multiple Configuration Files
At the first reboot with a software release supporting multiple configuration,
the switch:
■
■
■
Assigns the filename oldConfig to the existing startup-config file (which is
stored in memory slot 1).
Saves a copy of the existing startup-config file in memory slot 2 with the
filename workingConfig.
Assigns the workingConfig file as the active configuration and the default
configuration for all subsequent reboots using either primary or second-
ary flash.
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+----------------------------------------
1 |
| oldConfig
2 | * * * | workingConfig
3 |
|
Figure 5-41. Switch Memory Assignments After the First Reboot from Software
Supporting Multiple Configuration
In the above state, the switch always:
■
Uses the workingConfig file to reboot
The commands described later in this section enable you to view the current
multiple configuration status, manage multiple startup-config files, configure
reboot policies, and override reboot policies on a per-instance basis.
5-39
Switch Memory and Configuration
Multiple Configuration Files
Listing and Displaying Startup-Config Files
Command
Page
Below
5-41
show config files
show config < filename >
Viewing the Startup-Config File Status with Multiple
Configuration Enabled
Rebooting the switch automatically enables the multiple configuration fea-
ture.
Syntax: show config files
This command displays the available startup-config files on
the switch and the current use of each file.
id: Identifies the memory slot for each startup-config file
available on the switch.
act: An asterisk ( * ) in this column indicates that the
corresponding startup-config file is currently in use.
pri: An asterisk ( * ) in this column indicates that the
primary boot path.
sec: An asterisk ( * ) in this column indicates that the
corresponding startup-config file is currently assigned to the
secondary boot path.
name: Shows the filename for each listed startup-config file in
the switch. Refer to “Renaming an Existing Startup-Config
File” on page 5-44 for the command you can use to change
existing startup-config filenames.
In the default configuration, if the switch was shipped from
the factory with software installed in both the primary and
secondary boot paths, then one startup-config file named
config1 is used for both paths and is stored in memory slot 1.
Memory slots 2 and 3 are empty in this default configuration.
5-40
Switch Memory and Configuration
Multiple Configuration Files
Displaying the Content of A Specific Startup-Config File
With Multiple Configuration enabled, the switch can have up to three startup-
config files. Because the show config command always displays the content of
the currently active startup-config file, the command extension shown below
is needed to allow viewing the contents of any other startup-config files stored
in the switch.
Syntax: show config < filename >
This command displays the content of the specified startup-
config file in the same way that the show config command
displays the content of the default (currently active) startup-
config file.
Changing or Overriding the Reboot Configuration
Policy
Command
Page
Below
5-43
startup-default [ primary | secondary ] config < filename >
boot system flash < primary | secondary > config < filename >
You can boot the switch using any available startup-config file.
Changing the Reboot Configuration Policy. For a given reboot, the
switch automatically reboots from the startup-config file assigned to the flash
location (primary or secondary) being used for the current reboot. For exam-
ple, when you first download a software version that supports multiple
configuration files and boot from the flash location of this version, the switch
copies the existing startup-config file (named oldConfig) into memory slot 2,
renames this file to workingConfig, and assigns workingConfig as:
■
The active configuration file
■
The configuration file to use when booting from either primary or second-
ary flash.
In this case, the switch is configured to automatically use the workingConfig
file in memory slot 2 for all reboots.
You can use the following command to change the current policy so that the
switch automatically boots using a different startup-config file.
5-41
Switch Memory and Configuration
Multiple Configuration Files
Syntax: startup-default [ primary | secondary ] config < filename >
Specifies a boot configuration policy option:
[ primary | secondary ] config < filename >: Designates the
startup-config file to use in a reboot with the software
version stored in a specific flash location. Use this option
to change the reboot policy for either primary or
secondary flash, or both.
config < filename >: Designates the startup-config file to use
for all reboots, regardless of the flash version used. Use
this option when you want to automatically use the same
startup-config file for all reboots, regardless of the flash
source used.
For redundant management systems, this command affects
both the active management module and the standby manage-
ment module. The config file is copied immediately to the
standby management module and becomes the default on that
disabled or the standby module has failed selftest.
Note: To override the current reboot configuration policy for
a single reboot instance, use the boot system flash command
with the options described under “Overriding the Default
Reboot Configuration Policy” on page 5-43.
For example, suppose:
■
Software release “A” is stored in primary flash and a later software release
is stored in secondary flash.
■
The system operator is using memory slot 1 for a reliable, minimal
configuration (named minconfig) for the software version in the primary
flash, and slot 2 for a modified startup-config file (named newconfig) that
includes untested changes for improved network operation with the
software version in secondary flash.
The operator wants to ensure that in case of a need to reboot by pressing the
Reset button, or if a power failure occurs, the switch will automatically reboot
with the minimal startup-config file in memory slot 1. Since a reboot due to
pressing the Reset button or to a power cycle always uses the software version
in primary flash, the operator needs to configure the switch to always boot
from primary flash with the startup-config file named minconfig (in memory
slot 1). Also, whenever the switch boots from secondary flash, the operator
also wants the startup-config named newconfig to be used. The following two
commands configure the desired behavior.
5-42
Switch Memory and Configuration
Multiple Configuration Files
HP Switch(config)# startup-default pri config minconfig
HP Switch(config) # startup-default sec config newconfig.
Overriding the Default Reboot Configuration Policy. This command
provides a method for manually rebooting with a specific startup-config file
other than the file specified in the default reboot configuration policy.
Syntax: boot system flash < primary | secondary > config < filename >
Specifies the name of the startup-config file to apply for the
immediate boot instance only. This command overrides the
current reboot policy.
Using Reload To Reboot From the Current Flash Image and Startup-
Config File.
Syntax: reload
Thiscommandbootstheswitchfromthecurrentlyactiveflash
image and startup-config file. Because reload bypasses some
subsystem self-tests, the switch boots faster than if you use a
boot command.
Note: To identify the currently active startup-config file, use
the show config files command.
Managing Startup-Config Files in the Switch
Command
Page
5-44
5-44
5-45
5-47
rename config < current-filename > < newname-str >
copy config < source-filename > config < dest-filename >
erase config < filename > | startup-config
Erase startup-config using the front-panel Clear + Reset Buttons
5-43
Switch Memory and Configuration
Multiple Configuration Files
Renaming an Existing Startup-Config File
Syntax: rename config < current-filename > < newname-str >
This command changes the name of an existing startup-
config file. A file name can include up to 63, alphanumeric
characters. Blanks are allowed in a file name enclosed in
quotes (“ “ or ‘ ‘). (File names are not case-sensitive.)
For redundant management systems, renaming a config file
affects both the active management module and the standby
management module, unless redundancy is disabled or the
standby module failed selftest.
Creating a New Startup-Config File
The switch allows up to three startup-config files. You can create a new
startup-config file if there is an empty memory slot or if you want to replace
one startup-config file with another.
Syntax: copy config < source-filename > config < target-filename >
This command makes a local copy of an existing startup-
config file by copying the contents of an existing startup-
config file in one memory slot to a new startup-config file in
another, empty memory slot. This enables you to use a sepa-
rate configuration file to experiment with configuration
changes, while preserving the source file unchanged. It also
simplifies a transition from one software version to another
by enabling you to preserve the startup-config file for the
earlier software version while creating a separate startup-
config file for the later software version. With two such
versions in place, you can easily reboot the switch with the
correct startup-config file for either software version.
• If the destination startup-config file already exists, it is
overwritten by the content of the source startup-config file.
• If the destination startup-config file does not already exist,
it will be created in the first empty configuration memory
slot on the switch.
• If the destination startup-config file does not already exist,
but there are no empty configuration memory slots on the
switch, then a new startup-config file is not created and
instead, the CLI displays the following error message:
Unable to copy configuration to “< target-filename >”.
5-44
Switch Memory and Configuration
Multiple Configuration Files
For example, suppose both primary and secondary flash memory contain
software release “A” and use a startup-config file named config1:
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+-----------------------------------------
1 | * * * | config1
2 |
3 |
|
|
Figure 5-42. Example of Using One Startup-Config File for Both Primary and
Secondary Flash
If you wanted to experiment with configuration changes to the software
version in secondary flash, you could create and assign a separate startup-
config file for this purpose.
HP Switch(config)# copy config config1 config config2
HP Switch(config)# startup-default secondary config config2
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+-------------------------------
The first two commands copy the config1
startup-config file to config2, and then
make config2 the default startup-config
file for booting from secondary flash.
1 | * *
2 |
| config1
* | config2
|
3 |
Figure 5-43. Example of Creating and Assigning a New Startup-Config File
You can also generate a new startup-config file by booting the switch from a
N o t e
flash memory location from which you have erased the currently assigned
startup-config file. Refer to “Erasing a Startup-Config File” in the next section.
Erasing a Startup-Config File
You can erase any of the startup-config files in the switch’s memory slots. In
some cases, erasing a file causes the switch to generate a new, default-
configuration file for the affected memory slot.
5-45
Switch Memory and Configuration
Multiple Configuration Files
Inaredundantmanagementsystem,thiscommanderasestheconfigorstartup
config file on both the active and the standby management modules as long
as redundancy has not been disabled. If the standby management module is
not in standby mode or has failed selftest, the config or startup config file is
not erased.
Syntax: erase < config < filename >> | startup-config >
config < filename >: This option erases the specified startup-
config file. If the specified file is not the currently active
startup-config file, then the file is simply deleted from the
memory slot it occupies. If the specified file is the currently
active startup-config file, then the switch creates a new,
defaultstartup-configfilewiththesamenameastheerased
file, and boots using this file. (This new startup-config file
contains only the default configuration for the software
version used in the reboot.)
Note: Where a file is assigned to either the primary or the
secondary flash, but is not the currently active startup-
config file, erasing the file does not remove the flash
assignment from the memory slot for that file. Thus, if the
switch boots using a flash location that does not have an
assigned startup-config, then the switch creates a new,
default startup-config file and uses this file in the reboot.
(This new startup-config file contains only the default
configuration for the software version used in the reboot.)
Executing write memory after the reboot causes a switch-
generated filename of configx to appear in the show config
files display for the new file, where x corresponds to the
memory slot number.
startup-config: This option erases the currently active startup-
config file and reboots the switch from the currently active
flash memory location. The erased startup-config file is
replaced with a new startup-config file. The new file has
the same filename as the erased file, but contains only the
default configuration for the software version in the flash
location (primary or secondary) used for the reboot. For
example, suppose the last reboot was from primary flash
using a configuration file named minconfig. Executing
erase startup-config replaces the current content of minconfig
with a default configuration and reboots the switch from
primary flash.
Figure 5-44 illustrates using erase config < filename > to remove a startup-config
file.
5-46
Switch Memory and Configuration
Multiple Configuration Files
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+-----------------------------------------
1 | * *
2 |
3 |
| minconfig
* | config2
| config3
HP Switch(config)# erase config config3
HP Switch(config)# show config files
Configuration files:
id | act pri sec | name
---+-------------+-----------------------------------------
1 | * *
2 |
3 |
| minconfig
|
Figure 5-44. Example of Erasing a Non-Active Startup-Config File
With the same memory configuration as is shown in the bottom portion of
figure 5-44, executing erase startup-config boots the switch from primary flash,
resulting in a new file named minconfig in the same memory slot. The new file
contains the default configuration for the software version currently in pri-
mary flash.
Using the Clear + Reset Button Combination To Reset the
Switch to Its Default Configuration
The Clear + Reset button combination described in the Installation and
Getting Started Guide produces these results. That is, when you press the
Clear + Reset button combination, the switch:
•
Overwrites the content of the startup-config file currently in memory
slot 1 with the default configuration for the software version in
primary flash, and renames this file to config1.
•
•
Erases any other startup-config files currently in memory.
Configures the new file in memory slot 1 as the default for both
primary and secondary flash locations (regardless of the software
version currently in secondary flash).
•
Boots the switch from primary flash using the new startup-config file.
5-47
Switch Memory and Configuration
Multiple Configuration Files
HP Switch(config)# show config files
Configuration files:
Pressing Clear + Reset:
–
Replaces all startup-config files with a single
file named config1 that contains the default
configuration for the software version in
id | act pri sec | name
---+-------------+--------------------
primary flash.
1 | * * * | config1
–
Resets the Active, Primary, and Secondary
2 |
3 |
|
|
assignments as shown here.
Figure 5-45. Example of Clear + Reset Result
Transferring Startup-Config Files To or From a Remote
Server
Command
Page
below
copy config < src-file > tftp < ip-addr > < remote-file > < pc | unix > [oobm]
copy tftp config < dest-file > < ip-addr > < remote-file > < pc | unix > [oobm]
copy config < src-file > xmodem < pc | unix >
below
5-50
copy xmodem config < dest-file > < pc | unix >
5-50
TFTP: Copying a Configuration File to a Remote Host
Syntax: copy config < src-file > tftp < ip-addr > < remote-file > < pc | unix > [oobm]
This is an addition to the copy tftp command options. Use
this command to upload a configuration file from the switch
to a TFTP server.
For switches that have a separate out-of-band management
port, the oobm parameter specifies that the TFTP traffic will
go out through the out-of-band management interface. If this
parameter is not specified, the TFTP traffic goes out through
the data interface. The oobm parameter is not available on
switches that do not have a separate out-of-bandmanagement
port.
For more on using TFTP to copy a file to a remote server, see
“TFTP: Copying a Configuration File to a Remote Host” in
Appendix A of the Management and Configuration Guide for
your switch.
5-48
Switch Memory and Configuration
Multiple Configuration Files
For example, the following command copies a startup-config file named test-
01 from the switch to a (UNIX) TFTP server at IP address 10.10.28.14:
HP Switch(config)# copy config test-01 tftp 10.10.28.14
test-01.txt unix
TFTP: Copying a Configuration File from a Remote Host
Syntax: copy tftp config < dest-file > < ip-addr > < remote-file > < pc | unix >[oobm]
This is an addition to the copy tftp command options. Use
this command to download a configuration file from a TFTP
server to the switch.
For switches that have a separate out-of-band management
port, the oobm parameter specifies that the TFTP traffic must
come in through the out-of-band management interface. If
this parameter is not specified, the TFTP traffic comes in
through the data interface. The oobm parameter is not
available on switches that do not have a separate out-of-band
management port.
Note: This command requires an empty memory slot in the
switch. If there are no empty memory slots, the CLI displays
the following message:
Unable to copy configuration to "< filename >".
You can erase one or more configuration files using the erase
config <filename> command.
For more on using TFTP to copy a file from a remote host, see
“TFTP: Copying a Configuration File from a Remote Host” in
Appendix A of the Management and Configuration Guide for
your switch.
For example, the following command copies a startup-config file named test-
01.txt from a (UNIX) TFTP server at IP address 10.10.28.14 to the first empty
memory slot in the switch:
HP Switch(config)# copy tftp config test-01 10.10.28.14
test-01.txt unix
5-49
Switch Memory and Configuration
Multiple Configuration Files
Xmodem: Copying a Configuration File to a Serially
Connected Host
Syntax: copy config < filename > xmodem < pc | unix >
This is an addition to the copy < config > xmodem command
options. Use this command to upload a configuration file
from the switch to an Xmodem host.
For more on using Xmodem to copy a file to a serially
connected host, see “Xmodem: Copying a Configuration File
toaSerially ConnectedPC or UNIXWorkstation”inAppendix
A of the Management and Configuration Guide for your
switch.
Xmodem: Copying a Configuration from a Serially
Connected Host
Syntax: copy xmodem config < dest-file > < pc | unix >
This is an addition to the copy xmodem command options. Use
this command to download a configuration file from an
Xmodem host to the switch.
For more on using Xmodem to copy a file from a serially
connected host, see “Xmodem: Copying a Configuration File
from a Serially Connected PC or UNIX Workstation” in
Appendix A of the Management and Configuration Guide for
your switch.
Operating Notes for Multiple Configuration Files
■
SFTP/SCP: The configuration files are available for sftp/scp transfer as
/cfg/< filename >.
5-50
Switch Memory and Configuration
Display Configuration of Selected Interface
Display Configuration of Selected
Interface
The options provided in this feature allow you to display all the configurations
on a specified interface or VLAN with a single command. You can use the
options with the startup config command, show config, and the running config
command, show running-config.
Running Configuration Output
You can display the running configuration using this command. An example
of the output is shown in Figure 5-46.
Syntax: show running-config [interface <port-list | loopback <0-7> | vlan <vlan-
id-list>][structured]
Displays running configuration information about the
selected interface when one is specified. The interfaces can
be ports, VLANs, or SVLANs.
Note: For the 5400zl, 3800, and 8200zl switches, when the
command is executed in enhanced secure mode the following
prompt displays:
Do you want to show sensitive information
(y/n)?
If “Y/y” is entered, the normal command output is displayed
on the console. If “N/n” is entered, all the sensitive
information is hidden and will be displayed as asterisks
(“*****”). The default option is “N/n” when interactive mode
is disabled. For more information, see the chapter “Secure
Mode (5400zl, 3800, and 8200zl)” in the Access Security
Guide for your switch.
5-51
Switch Memory and Configuration
Display Configuration of Selected Interface
structured: Groups the config command information output
in a logical manner. When the structured option is entered,
the output displays the configuration settings, such as
spanning-tree, followed by a list of all the switch interfaces
showing any configured settings for each interface. The
VLAN configuration information is displayed after the
interface information.
When the structured option is not entered, the output first
displays only the interfaces that have configuration settings.
The other settings, such as spanning-tree, are displayed after
the interfaces, and then the VLAN configuration information
is displayed.
N o t e
The show running config interface/vlan/svlan command output cannot be down-
loaded to the switch; it will not download correctly. Copying and pasting the
displayed configuration information into the switch configuration is not sup-
ported. This feature only provides a display of all the configuration informa-
tion for a selected interface or range of interfaces in a single view.
5-52
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(eth-A2-A4)# show running-config
Running configuration:
; J8698A Configuration Editor; Created on release #K.14.54C
; Ver #02:0b:ef:e6
hostname "HP Switch"
interface A2
disable
name "test1"
flow-control
broadcast-limit 80
Configuration information for interfaces A2 and A3 is
shown in two different places in the config file.
speed-duplex 100-full
unknown-vlans Block
qos priority 4
lacp Passive
gvrp join-timer 30
gvrp leave-timer 60
gvrp leaveall-timer 700
exit
interface A3
disable
name "test1"
flow-control
broadcast-limit 80
speed-duplex 100-full
unknown-vlans Block
qos priority 4
lacp Passive
gvrp join-timer 30
gvrp leave-timer 60
gvrp leaveall-timer 700
exit
vlan 1
name "DEFAULT_VLAN"
untagged A1-A4,C1-C24,F1-F24
ip address dhcp-bootp
exit
interface A2
dhcp-snooping trust
bandwidth-min output 20 10 10 10 20 10 10 10
rate-limit bcast in percent 75
ipv6 access-group "check" in
exit
interface A3
dhcp-snooping trust
bandwidth-min output 20 10 10 10 20 10 10 10
rate-limit bcast in percent 75
ipv6 access-group "check" in
exit
Figure 5-46. Example of Running Configuration Output for Interfaces A2 - A4
Figure 5-47 shows an example of the running config for a range of interfaces.
The configuration information for interfaces A2 and A3 is now displayed
together.
5-53
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(config)# show running-config interface A2-A3
Running configuration:
All the information for interfaces A2 and A3 is
shown together in the output.
interface A2
disable
name "test1"
flow-control
broadcast-limit 80
speed-duplex 100-full
unknown-vlans block
qos priority 4
gvrp join-timer 30 leave-timer 60 leaveall-timer 700
dhcp-snooping trust
lacp passive
bandwidth-min output 20 10 10 10 20 10 10 10
rate-limit bcast in percent 75
ipv6 access-group "check" in
untagged vlan 1
exit
interface A3
disable
name "test1"
flow-control
broadcast-limit 80
speed-duplex 100-full
unknown-vlans block
qos priority 4
gvrp join-timer 30 leave-timer 60 leaveall-timer 700
dhcp-snooping trust
lacp passive
bandwidth-min output 20 10 10 10 20 10 10 10
rate-limit bcast in percent 75
ipv6 access-group "check" in
untagged vlan 1
exit
Figure 5-47. Example of Running Config Output for a Specified Interface Range
Figure 5-48 shows an example of the running config file for a range of
interfaces after some configuration changes have been made.
5-54
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(config)# no stack
HP Switch(config)# mesh 2-3
Command will take effect after saving configuration and reboot.
HP Switch(config)# write memory
HP Switch(config)# reload
HP Switch# show running-config interface 2-3
Running configuration:
interface 2
untagged vlan 1
mesh
exit
interface 3
flow-control
untagged vlan 1
mesh
exit
Figure 5-48. Example of Running Config Output for a Range of Interfaces
Figure 5-49 is an example of the running config output showing VLAN infor-
mation.
5-55
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(config)# show running-config
Running configuration:
; J8698A Configuration Editor; Created on release #K.14.54C
; Ver #02:0b:ef:e6
hostname "HP Switch"
module 1 type J9309A
module 3 type J8702A
module 6 type J8702A
ip routing
vlan 1
name "DEFAULT_VLAN"
untagged A1-A4,C1-C24,F1-F24
ip address dhcp-bootp
exit
vlan 2
name "test-vlan-2"
ip helper-address 4.1.1.1
ip helper-address 5.1.1.1
ip address 1.1.1.1 255.255.255.0
ipv6 address 2001::/64 anycast
ipv6 enable
exit
vlan 3
name "VLAN3"
ip helper-address 7.1.1.1
ip forward-protocol udp 7.1.1.1 snmp
ip forward-protocol udp 11.1.1.2 dns
no ip address
exit
VLAN 4 configuration information is not together
in the config file output.
vlan 4
name "VLAN4"
ip address 5.1.1.1 255.255.255.0
ip bootp-gateway 5.1.1.1
exit
logging 10.0.102.90
logging system-module ospf
ip route 5.1.1.0 255.255.255.0 vlan 4 distance 3
Figure 5-49. Example of Running Config Output Showing VLAN Information
In Figure 5-50, the configuration information for VLAN 4 is now displayed in
one place.
5-56
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(config)# show running-config vlan 3-4
Running configuration:
vlan 3
name "VLAN3"
ip helper-address 7.1.1.1
ip forward-protocol udp 7.1.1.1 snmp
ip forward-protocol udp 11.1.1.2 dns
no ip address
exit
vlan 4
name "VLAN4"
VLAN 4 configuration information is displayed
together in the output.
ip address 5.1.1.1 255.255.255.0
ip bootp-gateway 5.1.1.1
ip route 5.1.1.0 255.255.255.0 distance 3
exit
Figure 5-50. Example of Running Config Output for a Range of VLANs
Figure 5-51 shows an example of the running config for a range of VLANs after
configuration changes have been made to selected VLANs.
HP Switch(config)# dhcp-snooping
HP Switch(config)# vlan 14
HP Switch(vlan-14)# exit
HP Switch(config)# vlan 15
HP Switch(vlan-15)# exit
HP Switch(config)# vlan 23
HP Switch(vlan-23)# exit
HP Switch(config)# dhcp-snooping vlan 14-15
HP Switch(config)# static-mac 00:11:22:33:44:55 vlan 23 interface A3
HP Switch(config)# spanning-tree instance 2 vlan 15
HP Switch(config)# show running-config vlan 14-15
Running configuration:
vlan 14
name "VLAN14"
no ip address
dhcp-snooping
exit
vlan 15
name "VLAN15"
no ip address
dhcp-snooping
spanning-tree instance 2
exit
Figure 5-51. Example of Output for Running Config for a Range of VLANs
5-57
Switch Memory and Configuration
Display Configuration of Selected Interface
Startup Configuration Output
You can display the startup configuration using this command. An example of
the startup configuration output is shown in Figure 5-52.
Syntax: show config [interface <port-list | loopback <0-7> | vlan <vlan-id-list>]
Displays startup configuration information about the
selected interface when one is specified. The interfaces can be
ports, VLANs, or SVLANs.
Note: For the 5400zl, 3800, and 8200zl switches, when the
command is executed in enhanced secure mode the following
prompt displays:
Do you want to show sensitive information
(y/n)?
If “Y/y” is entered, the normal command output is displayed
ontheconsole.If“N/n”isentered,allthesensitiveinformation
is hidden and will be displayed as asterisks (“*****”). The
default option is “N/n” when interactive mode is disabled. For
more information, see the chapter “Secure Mode (5400zl,
3800, and 8200zl)” in the Access Security Guide for your
switch.
5-58
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(config)# show config
Startup configuration:
; J8698A Configuration Editor; Created on release #K.14.54C
; Ver #02:0b:ef:e6
hostname "HP Switch"
module 1 type J9309A
module 3 type J8702A
module 6 type J8702A
vlan 1
name "DEFAULT_VLAN"
untagged A1-A4,C1-C9,C15-C24,F1-F24
ip address dhcp-bootp
no untagged C10-C14
exit
vlan 5
name "VLAN5"
untagged C10-C14
ip address 5.1.1.1 255.255.255.128
exit
interface loopback 5
ip address 7.1.1.1
exit
interface loopback 7
ip address 12.1.1.1
exit
snmp-server community "public" unrestricted
Figure 5-52. Example of Startup Configuration Output
Figure 5-53 shows an example of the startup config output for a selected VLAN.
HP Switch(vlan-5)# show config vlan 5
Startup configuration:
vlan 5
name "VLAN5"
untagged C10-C14
ip address 5.1.1.1 255.255.255.128
exit
Figure 5-53. Example of Startup Config Output for a Specific VLAN
Figure 5-54 shows an example of the startup config output for a selected VLAN.
5-59
Switch Memory and Configuration
Display Configuration of Selected Interface
HP Switch(vlan-5)# show config vlan 5
Startup configuration:
vlan 5
name "VLAN5"
untagged C10-C14
ip address 5.1.1.1 255.255.255.128
exit
Figure 5-54. Example of Startup Config Output for a Specific VLAN
Figure 5-55 shows an example of the startup config output for a range of
interfaces for a specific VLAN.
HP Switch(vlan-5)# show config interface C10-C13
Startup configuration:
interface C10
untagged vlan 5
exit
interface C11
untagged vlan 5
exit
interface C12
untagged vlan 5
exit
interface C13
untagged vlan 5
exit
Figure 5-55. Example of Startup Config Output for a Range of Interfaces for a
Specific VLAN
5-60
Switch Memory and Configuration
Automatic Configuration Update with DHCP Option 66
Automatic Configuration Update with
DHCP Option 66
HP switches are initially bootedup with the factory-shipped configuration file.
This feature provides a way to automatically download a different configura-
tion file from a TFTP server using DHCP Option 66. The prerequisites for this
to function correctly are:
■
One or more DHCP servers with Option 66 are enabled
■
One or more TFTP servers has the desired configuration file.
C a u t i o n
This feature must use configuration files generated on the switch to function
correctly. If you use configuration files that were not generated on the switch,
and then enable this feature, the switch may reboot continuously.
CLI Command
The command to enable the configuration update using Option 66 is:
Syntax: [no] dhcp config-file-update
Enables configuration file update using Option 66.
Default: Enabled
HP Switch(config)# dhcp config-file-update
Figure 5-56. Example of Enabling Configuration File Update Using Option 66
5-61
Switch Memory and Configuration
Automatic Configuration Update with DHCP Option 66
Possible Scenarios for Updating the Configuration File
The following table shows various network configurations and how Option 66
is handled.
Scenario
Behavior
Single Server serving Multiple VLANs
•
Each DHCP-enabled VLAN interface initiates DHCPDISCOVER
message, receives DHCPOFFER from the server, and send
DHCPREQUEST to obtain the offered parameters.
•
•
•
If multiple interfaces send DHCPREQUESTs, it’s possible that more
than one DHCPACK is returned with a valid Option 66.
Evaluating and updating the configuration file occurs only on the
primary VLAN.
Option 66 is ignored by any interfaces not belonging to the primary
VLAN.
Multiple Servers serving a Single VLAN
Multiple Servers serving Multiple VLANs
Multi-homed Server serving Multiple VLANs
•
Each DHCP-enabled VLAN interface initiates one DHCPDISCOVER
and receives one or more DHCPOFFER messages.
Each interface accepts the best offer.
Option 66 is processed only for the interface belonging to the primary
VLAN.
•
•
•
Each DHSP-enabled VLAN interface initiates DHCPDISCOVER and
receives one or more DHCPOFFER messages.
Each interface accepts the best offer.
Option 66 is processed only for the interface belonging to the primary
VLAN.
•
•
•
•
The switch perceives the multi-homed server as multiple separate
servers.
Each DHCP-enabled VLAN interface initiates DHCPDISCOVER and
receives one DHCPOFFER message.
•
•
Each interface accepts the offer.
Option 66 is processed only for the interface belonging to the primary
VLAN.
Operating Notes
Replacing the Existing Configuration File: After the DHCP client down-
loads the configuration file, the switch compares the contents of that file with
theexistingconfigurationfile. Ifthecontentisdifferent, thenewconfiguration
file replaces the existing file and the switch reboots.
Option 67 and the Configuration File Name: Option 67 includes the name
of the configuration file. If the DHCPACK contains this option, it overrides the
default name for the configuration file (switch.cfg)
5-62
Switch Memory and Configuration
Automatic Configuration Update with DHCP Option 66
GlobalDHCPParameters: Global parameters are processed only if received
on the primary VLAN.
Best Offer: The “Best Offer” is the best DHCP or BootP offer sent by the
DHCP server in response to the DHCPREQUEST sent by the switch. The
criteria for selecting the “Best Offer” are:
•
•
•
DHCP is preferred over BootP
If two BootP offers are received, the first one is selected
For two DHCP offers:
–
–
The offer from an authoritative server is selected
If there is no authoritative server, the offer with the longest lease
is selected
Log Messages
The file transfer is implemented by the existing TFTP module. The system logs
the following message if an incorrect IP address is received for Option 66:
“Invalid IP address <ip-address> received for DHCP Option 66”
5-63
Switch Memory and Configuration
Automatic Configuration Update with DHCP Option 66
5-64
6
Interface Access and System Information
Interface Access: Console/Serial Link,
Web, and Inbound Telnet
The interface access features in the switch operate properly by default.
However, you can modify or disable access features to suit your particular
needs. Similarly, you can choose to leave the system information parameters
to more easily distinguish one device from another in your network.
Interface Access Features
Feature
Default
Menu
Inactivity Time
0 Minutes
(disabled)
page 6-5
page 6-7
Inbound Telnet Access
Outbound Telnet Access
WebAgent Access
Terminal type
Enabled
n/a
page 6-5
—
page 6-4
page 6-5
page 6-7
page 6-7
page 6-7
Enabled
VT-100
All
page 6-5
—
Event Log event types to list
(Displayed Events)
—
Baud Rate
Speed Sense
XON/XOFF
—
—
page 6-7
page 6-7
Flow Control
In most cases, the default configuration is acceptable for standard operation.
N o t e
Basic switch security is through passwords. You can gain additional security
by using the security features described in the Access Security Guide for your
switch. You can also simply block unauthorized access via the WebAgent or
Telnet (as described in this section) and installing the switch in a locked
environment.
6-1
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
Modifying the Interface Access
Interface Access Commands Used in This Section
show console
below
[no] telnet-server
[no] web-management
console
below
page 6-7
page 6-7
About Terminal Line Width and Length Settings
For console/serial link and inbound telnet sessions, the switch output:
■
■
■
Uses whatever width is set by the terminal program. If width is not
specified, 80 characters is the default.
Automatically wraps on word boundaries (such as spaces) for non-colum-
nar output
Automatically wraps on column boundaries for columnar output
HP recommends that you do not set your terminal width (terminal width <y>)
above 150 columns. (Windows telnet displays up to 156 characters on 1280
pixel wide display, so 150 is comfortably within this).
Listing the Current Console/Serial Link Configuration
This command lists the current interface access parameter settings.
Syntax: show console
This example shows the default console/serial configuration.
6-2
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
HP Switch(config)# show console
Console/Serial Link
Inbound Telnet Enabled [Yes] : Yes
Interface Access
Enable/Disable
Web Agent Enabled [Yes] : Yes
Terminal Type [VT100] : VT100
Screen Refresh Interval (sec) [3] : 3
Displayed Events [All] : All
Console Control
Options
Event Log Event
Types To List
Baud Rate [Speed Sense] : speed-sense
Flow Control [XON/XOFF] : XON/XOFF
Session Inactivity Time (min) [0] : 0
Figure 6-1. Listing of Show Console Command
6-3
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
Reconfigure Inbound Telnet Access
In the default configuration, inbound Telnet access is enabled.
Syntax: [no] telnet-server [listen <oobm | data | both>]
Enables or disables inbound Telnet access on a switch.
Use the no version of the command to disable inbound Telnet
access.
The listen parameter is available only on switches that have a
separate out-of-band management port. Values for this
parameter are:
•
oobm — inbound Telnet access is enabled only on
the out-of-band management port.(This port is
available on selected switch models.)
•
•
data — inbound Telnet access is enabled only on
the data ports.
both — inbound Telnet access is enabled on both
the out-of-band management port and on the data
ports. This is the default value.
Refer to Appendix I, “Network Out-of-Band Management” in
this guide for more information on out-of-band management.
The listen parameter is not available on switches that do not
have a separate out-of-band management port.
To disable inbound Telnet access:
HP Switch(config)# no telnet-server
To re-enable inbound Telnet access:
HP Switch(config)# telnet-server
6-4
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
Outbound Telnet to Another Device
This feature operates independently of the telnet-server status and enables
you to Telnet to another device that has an IP address.
Syntax: telnet <ipv4-addr | ipv6-addr | hostname | switch-num> [oobm]
Initiates an outbound telnet session to another network
device. The destination can be specified as:
•
•
•
•
IPv4 address
IPv6 address
Hostname
Stack number of a member switch (1-16) if the
switch is a commander in a stack and stacking is
enabled
For switches that have a separate out-of-band management
port, the oobm parameter specifies that the Telnet traffic will
go out from the out-of-band management interface. If this
parameter is not specified, the Telnet traffic goes out from the
data interface. The oobm parameter is not available on
switches that do not have a separate out-of-band management
port. Refer to Appendix I, “Network Out-of-Band Manage-
management.
Note:Iftheconsoleinactivity-timer expires, anyoutboundTelnet
or SSH sessions that are open on the switch are terminated.
(For information on console inactivity-timer, refer to “Reconfig-
ure the Console/Serial Link Settings” on page 6-7.)
For example, if the host “Labswitch” is in the domain abc.com, you can enter
the following command and the destination is resolved to “Lab-
switch.abc.com”.
HP Switch(config)# telnet Labswitch
You can also enter the full domain name in the command:
HP Switch(config)# telnet Labswitch.abc.com
You can use the show telnet command to display the resolved IP address.
6-5
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
HP Switch(config)# show telnet
Telnet Activity
--------------------------------------------------------
Session : ** 1
Privilege: Manager
From
To
: Console
:
-------------------------------------------------------
Session : ** 2
Privilege: Manager
From
To
: 12.13.14.10
: 15.33.66.20
-------------------------------------------------------
Session : ** 3
Privilege: Operator
From
To
: 2001:db7:5:0:203:4ff:fe0a:251
: 2001:db7:5:0:203:4ff1:fddd:12
Figure 6-2. Example of show telnet Command Displaying Resolved IP Addresses
Making Window Size Negotiation Available for a Telnet
Session
When a telnet connection is established with a switch, the switch always uses
the default values of 80 columns by 24 lines for the window dimensions. The
window can be resized by either dragging the corner of the window, or by
executing the terminal length <x> width <y> CLI command and then configuring
the telnet client with those dimensions. The new window dimensions are lost
after that telnet session ends.
When the telnet connection is established with an HP switch, either the switch
or the telnet client needs to initiate the inquiry about the availability of NAWS.
If NAWS is available, you can resize the window by dragging the corner of the
window to the desired size. The telnet software uses NAWS to tell the switch
what the new window dimensions are. If the switch supports the requested
window dimensions, it uses them for all future interactions. If the switch does
not support those window dimensions, it refuses them and the telnet client
requests an alternate set of window dimensions. The negotiation continues
until the telnet client and the switch agree on the window dimensions.
The switch currently responds to a request from the remote telnet client to
negotiate window size. However, some telnet clients do not request to nego-
tiate window size unless the switch’s telnet server suggests that NAWS is
available.
6-6
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
This feature allows window size negotiation to occur with telnet clients that
support NAWS but do not try to use it unless it is suggested by the switch’s
telnet server. The switch’s telnet server will suggest to the telnet client that
NAWS is available.
Reconfigure WebAgent Access
In the default configuration, web browser access is enabled.
Syntax: [no] web-management [listen <oobm | data | both>]
Use the no version of the command to disable inbound HTTP
access.
The listen parameter is available only on switches that have a
separate out-of-band management port. Values for this
parameter are:
•
•
•
oobm — inbound HTTP access is enabled only on
the out-of-band management port.
data — inbound HTTP access is enabled only on
the data ports.
both — inbound HTTP access is enabled on both
the out-of-band management port and on the data
ports. This is the default value.
Refer to Appendix I, “Network Out-of-Band Management” in
this guide for more information on out-of-band management.
The listen parameter is not available on switches that do not
have a separate out-of-band management port.
To disable WebAgent access:
HP Switch(config)# no web-management
To re-enable WebAgent access:
HP Switch(config)# web-management
Reconfigure the Console/Serial Link Settings
Syntax: console
[terminal < vt100 | ansi | none >]
[screen-refresh < 1 | 3 | 5 | 10 | 20 | 30 | 45 | 60 >]
[baud-rate
6-7
Interface Access and System Information
Interface Access: Console/Serial Link, Web, and Inbound Telnet
< speed-sense | 1200 | 2400 | 4800 | 9600 | 19200 |38400 | 57600 |
1155200 >]
[ flow-control < xon/xoff | none >]
[inactivity-timer < 0 | 1 | 5 | 10 | 15 | 20 | 30 | 60 |120 >]
[events <none | all | not-info | critical | debug]
[local-terminal <vt 100 | none | ansi>]
N o t e
N o t e
Changing the console local-terminal setting to ansi adds a tty=ansi entry before
the switch name in the CLI output.
Changing the console local-terminal setting to none adds a tty=none entry before
the switch name in the CLI output.
If the console inactivity-timer expires, any outbound Telnet or SSH sessions
open on the switch are terminated.
If you change the Baud Rate or Flow Control settings, you should make the
corresponding changes in your console access device. Otherwise, you may
lose connectivity between the switch and your terminal emulator due to
All console parameter changes except events and inactivity-timer require that
you save the configuration with write memory and then execute boot before the
new console configuration will take effect.
For example, figure 6-3 shows how to configure the switch with the following:
■
■
■
■
■
VT100 operation
19,200 baud
No flow control
10-minute inactivity time
Critical log events
6-8
Interface Access and System Information
Denying Interface Access by Terminating Remote Management Sessions
HP Switch(config)# console terminal vt100
This command will take effect after saving the configuration and
rebooting the system.
HP Switch(config)# console baud-rate 19200
This command will take effect after saving the configuration and
rebooting the system.
HP Switch(config)# console flow-control none
This command will take effect after saving the configuration and
rebooting the system.
The switch implements the Inactivity Timer
HP Switch(config)# console inactivity-timer 60
HP Switch(config)# console events critical
HP Switch(config)# write memory
and Event Log changes immediately. The the
other console changes are implemented
after executing write memory and reload.
HP Switch(config)# reload
Figure 6-3. Example of Executing a Series of Console Commands
N o t e
Switch models supporting redundant management, console settings, such as
mode, flow-control and baud-rate, are the same on both management mod-
ules. There cannot be individual settings for each management module.
DenyingInterfaceAccessbyTerminating
Remote Management Sessions
The switch supports up to five management sessions. show ip ssh lists the
current management sessions, and kill terminates a currently running remote
session. (Kill does not terminate a Console session on the serial port, either
through a direct connection or via a modem. It does not affect the console on
the standby module.)
Syntax: kill [< session-number >]
For example, if you are using the switch’s serial port for a console session and
want to terminate an active Telnet session, you would do the following:
6-9
Interface Access and System Information
Denying Interface Access by Terminating Remote Management Sessions
HP Switch(config)# show ip ssh
SSH Enabled
: Yes
Secure Copy Enabled : No
TCP Port Number : 22
Host Key Type : RSA
Timeout (sec)
Host Key Size
: 120
: 2048
Ciphers : aes128-cbc,3des-cbc,aes192-cbc,aes256-cbc,
[email protected],aes128-ctr,aes192-ctr,aes256-ctr
: hmac-md5,hmac-sha1,hmac-sha1-96,hmac-md5-96
MACs
Ses Type
| Source IP
Port
--- -------- + ---------------------------------------------- -----
1 console |
Session 2 is an active
Telnet session.
2 telnet |
3 ssh
| 15.30.252.195
1531
4 inactive |
5 inactive |
6 inactive |
HP Switch(config)# kill 2
HP Switch(config)# show ip ssh
SSH Enabled
: Yes
Secure Copy Enabled : No
TCP Port Number : 22
Host Key Type : RSA
Timeout (sec)
Host Key Size
: 120
: 2048
Ciphers : aes128-cbc,3des-cbc,aes192-cbc,aes256-cbc,
[email protected],aes128-ctr,aes192-ctr,aes256-ctr
: hmac-md5,hmac-sha1,hmac-sha1-96,hmac-md5-96
MACs
Ses Type
| Source IP
Port
--- -------- + ---------------------------------------------- -----
1 console |
The kill 2 command
terminates session 2.
2 inactive |
3 ssh
| 15.30.252.195
1531
4 inactive |
5 inactive |
6 inactive |
Figure 6-4. Example of Using the “Kill” Command To Terminate a Remote Session
6-10
Interface Access and System Information
System Information
System Information
System Information Features
Feature
Default
switch product name
CLI
System Name
System Contact
System Location
MAC Age Time
Time Sync Method
page 6-12
page 6-12
page 6-12
page 6-13
n/a
n/a
300 seconds
None
See “Time Protocols” in the
ManagementandConfiguration
Guide
Time Zone
Daylight Time Rule
Time
0
page 6-14
page 6-14
page 6-14
None
January 1, 1990 at
00:00:00 at last power
reset
Configuring system information is optional, but recommended.
System Name: Using a unique name helps you to identify individual devices
where you are using an SNMP network management tool such as HP PCM+.
System Contact and Location: This information is helpful for identifying
the person administratively responsible for the switch and for identifying the
locations of individual switches.
MAC Age Time: The number of seconds a MAC address the switch has
learned remains in the switch’s address table before being aged out (deleted).
Aging out occurs when there has been no traffic from the device belonging to
that MAC address for the configured interval.
Time Sync Method: Selects the method (TimeP or SNTP) the switch will use
for time synchronization. For more on this topic, see “Time Protocols” in the
Management and Configuration Guide.
Time Zone: The number of minutes your time zone location is to the West (+)
or East (-) of Coordinated Universal Time (formerly GMT). The default 0
means no time zone is configured. For example, the time zone for Berlin,
Germany is + 60 (minutes) and the time zone for Vancouver, Canada is - 480
(minutes).
6-11
Interface Access and System Information
System Information
Daylight Time Rule:Specifies the daylight savings time rule to apply for your
location. The default is None. (For more on this topic, refer to Appendix D,
“Daylight Savings Time on HP switches.)
Time: Used in the CLI to specify the time of day, the date, and other system
parameters.
Viewing and Configuring System Information
show system information
hostname
below
below
below
snmp-server
[contact] [location]
mac-age-time
time
page 6-13
timezone
page 6-14
page 6-14
page 6-14
daylight-time-rule
date
time
Listing the Current System Information. Thiscommandliststhecurrent
system information settings.
Syntax: show system information
This example shows the switch’s default console configuration.
HP Switch# show system information
Status and Counters - General System Information
System Name
System Contact
System Location
: HP Switch
:
:
MAC Age Time (sec) : 300
Time Zone : 0
Daylight Time Rule : None
Figure 6-5. Example of CLI System Information Listing Configure a System Name,
Contact, and Location for the Switch
6-12
Interface Access and System Information
System Information
To help distinguish one switch from another, configure a plain-language
identity for the switch.
Syntax: hostname < name-string >
snmp-server [contact <system-contact>] [location <system-location>]
Each field allows up to 255 characters. To help simplify administration, it is
recommended that you configure hostname to a character string that is mean-
ingful within your system.
For example, to name the switch “Blue” with “Next-4474” as the system
contact, and “North-Data-Room” as the location:
HP Switch(config)# hostname Blue
Blue(config)# snmp-server contact Ext-4474 location North-Data-Room
Blue(config)# show system
Status and Counters - General System Information
New hostname, contact,
and location data from
previous commands.
System Name
System Contact
System Location
: Blue
: Ext-4474
: North-Data-Room
MAC Age Time (sec) : 300
Time Zone : 0
Additional System
Information
Daylight Time Rule : None
Software revision : K.15.05.0000x
Base MAC Addr
Serial Number
: 001871-c42f00
: SG641SU00L
ROM Version
: K.15.12
Allow V1 Modules : Yes
Up Time
CPU Util (%)
: 22 hours
: 2
Memory - Total : 120,459,264
Free : 80,188,992
IP Mgmt - Pkts Rx : 8147
Pkts Tx : 8155
Packet - Total : 6750
Buffers Free : 5086
Lowest : 5085
-- MORE --, next page: Space, next line: Enter, quit: Control-C
Figure 6-6. System Information Listing After Executing the Preceding Commands
Reconfigure the MAC Age Time for Learned MAC Addresses. This
command corresponds to the MAC Age Interval in the menu interface, and is
expressed in seconds.
6-13
Interface Access and System Information
System Information
Syntax: mac-age-time < 10 - 1000000 > (seconds)
Allows you to set the MAC address table’s age-out interval. An
address is aged out if the switch does not receive traffic from that
MAC address for the age-out interval, measured in seconds.
Default: 300 seconds.
For example, to configure the age time to seven minutes:
HP Switch(config)# mac-age-time 420
Configure the Time Zone and Daylight Time Rule. These commands:
■
Set the time zone you want to use
■
Define the daylight time rule for keeping the correct time when daylight-
saving-time shifts occur.
Syntax: time timezone < -720 - 840 >
time daylight-time-rule < none | alaska | continental-us-and-canada |
middle-europe-and-portugal | southern-hemisphere | western-europe |
user-defined>
East of the 0 meridian, the sign is “+”. West of the 0 meridian, the sign is “-”.
For example, the time zone setting for Berlin, Germany is +60 (zone +1, or 60
minutes), and the time zone setting for Vancouver, Canada is -480 (zone -8, or
-480 minutes). Toconfigurethetime zone anddaylighttimerule for Vancouver,
Canada:
HP Switch(config)# time timezone -480 daylight-time-rule
continental-us-and-canada
Configure the Time and Date. The switch uses the time command to con-
figure both the time of day and the date. Also, executing time without param-
eters lists the switch’s time of day and date. Note that the CLI uses a 24-hour
clock scheme; that is, hour (hh) values from 1 p.m. to midnight are input as
13 - 24, respectively.
Syntax: time [ hh:mm [ :ss ]] [ mm/dd/ [ yy ] yy ]
For example, to set the switch to 9:45 a.m. on November 17, 2010:
HP Switch(config)# time 9:45 11/17/10
N o t e
Executing reload orboot resets the time and date to their default startup values.
6-14
7
Overview
You can configure IP addressing through all of the switch’s interfaces. You can
also:
■
Easily edit a switch configuration file to allow downloading the file to
multiple switches without overwriting each switch’s unique gateway and
VLAN 1 IP addressing.
■
■
Assign up to 32 IP addresses to a VLAN (multinetting).
Select an IP address to use as the source address for all outgoing traffic
generated by a specified software application on the switch. This allows
unique identification of the software application on the server site regard-
Why Configure IP Addressing? In its factory default configuration, the
switch operates as a multiport learning bridge with network connectivity
provided by the ports on the switch. However, to enable specific management
access and control through your network, you will need IP addressing. Table
7-1 on page 7-12 shows the switch features that depend on IP addressing to
operate.
IP Configuration
IP Configuration Features
Feature
Default
Menu
CLI
WebAgent
IP Address and Subnet Mask
Multiple IP Addresses on a VLAN
Default Gateway Address
Packet Time-To-Live (TTL)
DHCP/Bootp page 7-4 page 7-6 page 7-11
n/a
none
—
page 7-8
page 7-4 page 7-6 page 7-11
page 7-4 page 7-6
—
64 seconds
—
7-1
Configuring IP Addressing
IP Configuration
Feature
Default
Menu
page 7-4 page 7-6
page 7-25
CLI
WebAgent
Time Server (Timep)
Single Source IP Addressing
DHCP
—
—
outgoing IP
address
—
IP Address and Subnet Mask. Configuring the switch with an IP address
expands your ability to manage the switch and use its features. By default, the
switch is configured to automatically receive IP addressing on the default
VLAN from a DHCP/Bootp server that has been configured correctly with
information to support the switch. (Refer to “DHCP/Bootp Operation” on page
7-12 for information on setting up automatic configuration from a server.)
use the menu interface or the CLI to manually configure the initial IP values.
After you have network access to a device, you can use the WebAgent to
modify the initial IP configuration if needed.
For information on how IP addressing affects switch operation, refer to “How
IP Addressing Affects Switch Operation” on page 7-12.
Multinetting: Assigning Multiple IP Addresses to a VLAN. For a given
VLAN you can assign up to 32 IP addresses. This allows you to combine two
or more subnets on the same VLAN, which enables devices in the combined
subnets to communicate normally through the network without needing to
reconfigure the IP addressing in any of the combined subnets.
Default Gateway Operation. The default gateway is required when a
router is needed for tasks such as reaching off-subnet destinations or forward-
ing traffic across multiple VLANs. The gateway value is the IP address of the
next-hop gateway node for the switch, which is used if the requested destina-
tion address is not on a local subnet/VLAN. If the switch does not have a
manually-configured default gateway and DHCP/Bootp is configured on the
primary VLAN, then the default gateway value provided by the DHCP or Bootp
server will be used. If the switch has a manually configured default gateway,
then the switch uses his gateway, even if a different gateway is received via
DHCPor Bootp onthe primary VLAN. This is also true for manually configured
TimeP, SNTP, and Time-To-Live(TTL). (In the default configuration, VLAN 1 is
the Primary VLAN.) Refer to the information on Primary VLANs in the
Advanced Traffic Management Guide for your switch.
7-2
Configuring IP Addressing
IP Configuration
Packet Time-To-Live (TTL) . This parameter specifies the maximum num-
ber of routers (hops) through which a packet can pass before being discarded.
Each router decreases a packet’s TTL by 1 before forwarding the packet. If
decreasing the TTL causes the TTL to be 0, the router drops the packet instead
of forwarding it. In most cases, the default setting (64) is adequate.
Just Want a Quick Start with IP Addressing?
If you just want to give the switch an IP address so that it can communicate
on your network, or if you are not using VLANs, HP recommends that you use
the Switch Setup screen to quickly configure IP addressing. To do so, do one
of the following:
■
Enter setup at the CLI Manager level prompt.
HP Switch# setup
■
Select 8. Run Setup in the Main Menu of the menu interface.
For more on using the Switch Setup screen, refer to the Installation and
Getting Started Guide you received with the switch.
IP Addressing with Multiple VLANs
In the factory-default configuration, the switch has one, permanent default
VLAN (named DEFAULT_VLAN) that includes all ports on the switch. Thus,
when only the default VLAN exists in the switch, if you assign an IP address
and subnet mask to the switch, you are actually assigning the IP addressing
to the DEFAULT_VLAN.
N o t e s
■
If multiple VLANs are configured, then each VLAN can have its own IP
address. This is because each VLAN operates as a separate broadcast
domain and requires a unique IP address and subnet mask. A default
gateway (IP) address for the switch is optional, but recommended.
■
In the factory-default configuration, the default VLAN (named
DEFAULT_VLAN) is the switch’s primary VLAN. The switch uses the
primary VLAN for learning the default gateway address. The switch can
also learn other settings from a DHCP or Bootp server, such as (packet)
Time-To-Live (TTL), and Timep or SNMP settings. (Other VLANs can also
use DHCP or BootP to acquire IP addressing. However, the switch’s
gateway, TTL, and TimeP or SNTP values, which are applied globally, and
not per-VLAN, will be acquired through the primary VLAN only, unless
manually set by using the CLI, Menu, or WebAgent.(If these parameters
are manually set, they will not be overwritten by alternate values received
7-3
Configuring IP Addressing
IP Configuration
from a DHCP or Bootp server.) For more on VLANs, refer to the chapter
titled “Static Virtual LANs” in the Advanced Traffic Management Guide
for your switch.
■
■
The IP addressing used in the switch should be compatible with your
network. That is, the IP address must be unique and the subnet mask must
be appropriate for your IP network.
IfyouchangetheIPaddressthrougheitherTelnetaccessortheWebAgent,
the connection to the switch will be lost. You can reconnect by either
restarting Telnet with the new IP address or entering the new address as
the URL in your web browser.
Menu: Configuring IP Address, Gateway, and Time-To-
Live (TTL)
Do one of the following:
■
To manually enter an IP address, subnet mask, set the IP Config parameter
to Manual and then manually enter the IP address and subnet mask values
you want for the switch.
■
To use DHCP or Bootp, use the menu interface to ensure that the IP Config
parameter is set to DHCP/Bootp, then refer to “DHCP/Bootp Operation” on
page 7-12.
To Configure IP Addressing.
1. From the Main Menu, Select.
2. Switch Configuration …
5. IP Configuration
N o t e s
If multiple VLANs are configured, a screen showing all VLANs appears instead
of the following screen.
The Menu interface displays the IP address for any VLAN. If you use the CLI
to configure the IP address on a VLAN, use the CLI show ip command to list
them. (Refer to “Viewing the Current IP Configuration” on page 7-6.)
7-4
Configuring IP Addressing
IP Configuration
For descriptions of these
parameters, see the
online Help for this
screen.
Before using the DHCP/
Bootp option, refer to
“DHCP/Bootp
Operation” on page 7-12.
Figure 7-1. Example of the IP Service Configuration Screen without Multiple
VLANs Configured
2. Press [E] (for Edit).
3. If the switch needs to access a router, for example, to reach off-subnet
destinations, select the Default Gateway field and enter the IP address of
the gateway router.
4. If you need to change the packet Time-To-Live (TTL) setting, select Default
TTL and type in a value between 2 and 255.
5. To configure IP addressing, select IP Config and do one of the following:
•
If you want to have the switch retrieve its IP configuration from a
DHCP or Bootp server, at the IP Config field, keep the value as DHCP/
Bootp and go to step 8.
•
If you want to manually configure the IP information, use the Space
bar to select Manual and use the [Tab] key to move to the other IP
configuration fields.
6. Select the IP Address field and enter the IP address for the switch.
7. Select the Subnet Mask field and enter the subnet mask for the IP address.
8. Press [Enter], then [S] (for Save).
7-5
Configuring IP Addressing
IP Configuration
CLI: Configuring IP Address, Gateway, and Time-To-
Live (TTL)
Page
7-6
IP Commands Used in This Section
show ip
ip address < mask-length >
ip address /< mask-bits >
ip default-gateway
ip ttl
7-7, 7-8
7-7, 7-8
7-10
7-11
Viewing the Current IP Configuration.
Syntax: show ip
This command displays the IP addressing for each VLAN
configured in the switch. If only the DEFAULT_VLAN exists,
then its IP configuration applies to all ports in the switch.
Where multiple VLANs are configured, the IP addressing is
listed per VLAN. The display includes switch-wide packet
time-to-live, and (if configured) the switch’s default gateway
and Timep configuration.
(You can also use the show management command to display the IP addressing
and time server IP addressing configured on the switch. See figure
1-6 on page 1-9 in the Management and Configuration Guide for your switch.)
For example, in the factory-default configuration (no IP addressing assigned),
the switch’s IP addressing appears as:
7-6
Configuring IP Addressing
IP Configuration
HP Switch> show ip
Internet (IP) Service
IP Routing : Disabled
Default Gateway :
The Default IP
Configuration
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
|
Proxy ARP
Std Local
VLAN
| IP Config IP Address
Subnet Mask
-------------------- + ---------- --------------- --------------- ----------
DEFAULT_VLAN | DHCP/Bootp
Figure 7-2. Example of the Switch’s Default IP Addressing
With multiple VLANs and some other features configured, show ip provides
additional information:
HP Switch(config)# show ip
Internet (IP) Service
A Switch with IP
Addressing and
VLANs Configured
IP Routing : Disabled
Default Gateway : 10.20.227.1
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
|
Proxy ARP
Std Local
VLAN
| IP Config IP Address
Subnet Mask
-------------------- + ---------- --------------- --------------- ----------
DEFAULT_VLAN
VLAN22
| Manual
| Disabled
10.28.227.101 255.255.248.0
No
No
Figure 7-3. Example of Show IP Listing with Non-Default IP Addressing Configured
Configure an IP Address and Subnet Mask. The following command
includes both the IP address and the subnet mask. You must either include the
ID of the VLAN for which you are configuring IP addressing or go to the
7-7
Configuring IP Addressing
IP Configuration
context configuration level for that VLAN. (If you are not using VLANs on the
switch—that is, if the only VLAN is the default VLAN—then the VLAN ID is
always “1”.)
N o t e
The default IP address setting for the DEFAULT_VLAN is DHCP/Bootp. On
additional VLANs you create, the default IP address setting is Disabled.
Syntax:
[ no ] vlan < vlan-id > ip address <ip-address/mask-length>
or
[ no ] vlan < vlan-id > ip address < ip-address > < mask-bits >
or
vlan < vlan-id > ip address dhcp-bootp
This example configures IP addressing on the default VLAN with the subnet
mask specified in mask bits.
HP Switch(config)# vlan 1 ip address 10.28.227.103
255.255.255.0
This example configures the same IP addressing as the preceding example,
but specifies the subnet mask by mask length.
HP Switch(config)# vlan 1 ip address 10.28.227.103/24
This example deletes an IP address configured in VLAN 1.
HP Switch (config) no vlan 1 ip address 10.28.227.103/24
Configure Multiple IP Addresses on a VLAN (Multinetting). The fol-
lowing is supported:
■
■
■
Up to 2000 IP addresses for the switch
Up to 32 IP addresses for the same VLAN
Up to 512 IP VLANs, that is, VLANs on which you can configure IP
addresses
■
Each IP address on a VLAN must be for a separate subnet, whether on the
same VLAN or different VLANs.
Syntax:
[ no ] vlan < vlan-id > ip address < ip-address/mask-length >
[ no ] vlan < vlan-id > ip address < ip-address > < mask-bits >
7-8
Configuring IP Addressing
IP Configuration
For example, if you wanted to multinet VLAN_20 (VID = 20) with the IP
addresses shown below, you would perform steps similar to the following.
(For this example, assume that the first IP address is already configured.)
IP Address
1st address
2nd address
3rd address
VID
20
IP Address
10.25.33.101
10.26.33.101
10.27.33.101
Subnet Mask
255.255.240.0
255.255.240.0
255.255.240.0
20
20
HP Switch(config)# vlan 20
HP Switch(vlan-20)# ip address 10.26.33.101/20
HP Switch(vlan-20)# ip address 10.27.33.101/20
1. Go to VLAN 20.
2. Configure two additional
IP addresses on VLAN
20.
HP Switch(config)# show ip
Internet (IP) Service
3. Display IP addressing.
IP Routing : Disabled
Default Gateway : 10.20.227.1
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
|
Proxy ARP
Std Local
VLAN
| IP Config IP Address
Subnet Mask
-------------------- + ---------- --------------- --------------- ----------
DEFAULT_VLAN
VLAN_20
| Manual
| Manual
| Manual
| Manual
10.20.30.100
10.25.33.101
10.26.33.101
10.27.33.101
255.255.240.0
255.255.240.0
255.255.240.0
255.255.240.0
No
No
No
No
No
No
No
No
Figure 7-4. Example of Configuring and Displaying a Multinetted VLAN
If you then wanted to multinet the default VLAN, you would do the following:
7-9
Configuring IP Addressing
IP Configuration
HP Switch(vlan-20)# vlan 1
HP Switch(vlan-1)# ip address 10.21.30.100/20
HP Switch(config)# show ip
Internet (IP) Service
IP Routing : Disabled
Default Gateway : 10.20.227.1
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
|
Proxy ARP
Std Local
VLAN
| IP Config IP Address
Subnet Mask
-------------------- + ---------- --------------- --------------- ----------
DEFAULT_VLAN
| Manual
| Manual
| Manual
| Manual
| Manual
10.20.30.100
10.21.30.100
10.25.33.101
10.26.33.101
10.27.33.101
255.255.240.0
255.255.240.0
255.255.240.0
255.255.240.0
255.255.240.0
No
No
No
No
No
No
No
No
No
No
VLAN_20
Figure 7-5. Example of Multinetting on the Default VLAN
N o t e
displays the first IP address for each VLAN. You must use the CLI show ip
command to display the full IP address listing for multinetted VLANs.
Removing or Replacing IP Addresses in a Multinetted VLAN. To
remove an IP address from a multinetted VLAN, use the no form of the IP
address command shown on page 7-8. Generally, to replace one IP address
with another, you should first remove the address you want to replace, and
then enter the new address.
Configure the Optional Default Gateway. Using the Global configura-
tion level, you can manually assign one default gateway to the switch. (The
switch does not allow IP addressing received from a DHCP or Bootp server
to replace a manually configured default gateway.)
Syntax: ip default-gateway < ip-address >
7-10
Configuring IP Addressing
IP Configuration
For example:
HP Switch(config)# ip default-gateway 10.28.227.115
Note
The switch uses the IP default gateway only while operating as a Layer 2
device. While routing is enabled on the switch, the IP default gateway is not
used. Thus, to avoid loss of Telnet access to off-subnet management stations,
you should use the ip route command to configure a static (default) route
before enabling routing. For more information, refer to the chapter titled “IP
Routing Features” in the Multicast and Routing Guide for your switch.
Configure Time-To-Live (TTL). The maximum number of routers (hops)
through which a packet can pass before being discarded. (The default is 64.)
Each router decreases a packet’s TTL by 1 before forwarding the packet. If a
router decreases the TTL to 0, the router drops the packet instead of forward-
ing it.
Syntax: ip ttl <number-of-hops>
HP Switch(config)# ip ttl 60
In the CLI, you can execute this command only from the global configuration
level. The TTL default is 64, and the range is 2 - 255.
WebAgent: Configuring IP Addressing
You can use the WebAgent to access IP addressing only if the switch already
has an IP address that is reachable through your network.
1. In the navigation pane, click on Home.
2. Click on Quick Setup.
3. In the Switch Quick Setup Parameters box, click on Change.
4. Enter the IP address and any other information such as the Subnet mask
and Gateway.
5. Click on Save to save your changes.
6. If you need further information on using the WebAgent, click on [?] to
access the web-based help available for the switch.
7-11
Configuring IP Addressing
IP Configuration
How IP Addressing Affects Switch Operation
Without an IP address and subnet mask compatible with your network, the
switch can be managed only through a direct terminal device connection to
the Console RS-232 port. You can use direct-connect console access to take
advantage of features that do not depend on IP addressing. However, to realize
the full capabilities HP proactive networking offers through the switch, con-
figure the switch with an IP address and subnet mask compatible with your
network. The following table lists the general features available with and
without a network-compatible IP address configured.
Table 7-1. Features Available With and Without IP Addressing on the Switch
Features Available Without an IP Address
Additional Features Available with an IP Address and
Subnet Mask
•
•
Direct-connect access to the CLI and the menu
interface.
DHCP or Bootp support for automatic IP address
configuration, and DHCP support for automatic Timep
server IP address configuration
Multiple Spanning Tree Protocol
Port settings and port trunking
Switch meshing
Console-based status and counters information for
monitoring switch operation and diagnosing problems
through the CLI or menu interface.
VLANs and GVRP
Serial downloads of software updates and
configuration files (Xmodem)
Link test
Port monitoring
•
•
•
WebAgent access, with configuration, security, and
diagnostic tools, plus the Alert Log for discovering
problems detected in the switch along with suggested
solutions
SNMP network management access such as PCM+
fornetworkconfiguration,monitoring,problem-finding
and reporting, analysis, and recommendations for
changes to increase control and uptime
TACACS+, RADIUS, SSH, SSL, and 802.1X
authentication
Multinetting on VLANs
Telnet access to the CLI or the menu interface
IGMP
TimeP and SNTP server configuration
•
•
•
•
•
•
•
•
•
•
•
TFTP download of configurations and software
updates
•
•
•
•
•
•
•
•
•
•
•
Access Control Lists (ACLs)
IP routing, Multicast Routing
VRRP router redundancy
PIM-DM and PIM-SM
Radius
Password authentication
Quality of Service (QoS)
Authorized IP manager security
Ping test
DHCP/Bootp Operation
Overview. DHCP/Bootp is used to provide configuration data from a DHCP
or Bootp server to the switch. This data can be the IP address, subnet mask,
default gateway, Timep Server address, and TFTP server address. If a TFTP
server address is provided, this allows the switch to TFTP a previously saved
7-12
Configuring IP Addressing
IP Configuration
configuration file from the TFTP server to the switch. With either DHCP or
Bootp, the servers must be configured prior to the switch being connected to
the network.
N o t e
The switches covered in this guide are compatible with both DHCP and Bootp
servers.
The DHCP/Bootp Process. Whenever the IP Config parameter in the switch
or in an individual VLAN in the switch is configured to DHCP/Bootp (the
default), or when the switch is rebooted with this configuration:
1. DHCP/Bootp requests are automatically broadcast on the local network.
(The switch sends one type of request to which either a DHCP or Bootp
server can respond.)
2. When a DHCP or Bootp server receives the request, it replies with a
previously configured IP address and subnet mask for the switch. The
switch also receives an IP Gateway address if the server has been config-
ured to provide one. In the case of Bootp, the server must first be
configuredwithanentrythathastheswitch’sMACaddress. (Todetermine
the switch’s MAC address, refer to Appendix D, “MAC Address Manage-
ment”.) The switch properly handles replies from either type of server. If
multiple replies are returned, the switch tries to use the first reply.)
N o t e
If you manually configure default gateway, TTL, TimeP, and/or SNTP param-
eters on the switch, it ignores any values received for the same parameters via
DHCP or Bootp.
If the switch is initially configured for DHCP/Bootp operation (the default),
or if it reboots with this configuration, it begins sending request packets on
the network. If the switch does not receive a reply to its DHCP/Bootp requests,
it continues to periodically send request packets, but with decreasing fre-
quency. Thus, if a DHCP or Bootp server is not available or accessible to the
switch when DHCP/Bootp is first configured, the switch may not immediately
receive the desired configuration. After verifying that the server has become
accessible to the switch, reboot the switch to re-start the process immediately.
DHCP Operation. A significant difference between a DHCP configuration
and a Bootp configuration is that an IP address assignment from a DHCP
server is automatic. Depending on how the DHCP server is configured, the
switch may receive an IP address that is temporarily leased. Periodically the
switch may be required to renew its lease of the IP configuration. Thus, the IP
addressing provided by the server may be different each time the switch
reboots or renews its configuration from the server. However, you can fix the
address assignment for the switch by doing either of the following:
7-13
Configuring IP Addressing
IP Configuration
■
■
Configure the server to issue an “infinite” lease.
Using the switch’s MAC address as an identifier, configure the server with
a “Reservation” so that it will always assign the same IP address to the
switch. (For MAC address information, refer to Appendix D, “MAC
Address Management”.)
For more information on either of these procedures, refer to the documenta-
tion provided with the DHCP server.
Bootp Operation. When a Bootp server receives a request it searches its
Bootp database for a record entry that matches the MAC address in the Bootp
request from the switch. If a match is found, the configuration data in the
associated database record is returned to the switch. For many Unix systems,
the Bootp database is contained in the /etc/bootptab file. In contrast to DHCP
operation, Bootp configurations are always the same for a specific receiving
device. That is, the Bootp server replies to a request with a configuration
previously stored in the server and designated for the requesting device.
Bootp Database Record Entries. A minimal entry in the Bootp table file
/etc/bootptab to update an IP address and subnet mask to the switch or a VLAN
configured in the switch would be similar to this entry:
8212switch:\
ht=ether:\
ha=0030c1123456:\
ip=10.66.77.88:\
sm=255.255.248.0:\
gw=10.66.77.1:\
hn:\
vm=rfc1048
An entry in the Bootp table file /etc/bootptab to tell the switch or VLAN
where to obtain a configuration file download would be similar to this entry:
8212switch:\
ht=ether:\
ha=0030c1123456:\
ip=10.66.77.88:\
sm=255.255.248.0:\
gw=10.66.77.1:\
lg=10.22.33.44:\
T144=”switch.cfg”:\
vm=rfc1048
7-14
Configuring IP Addressing
IP Configuration
where:
8212switch is a user-defined symbolic name to help you find the correct section of the
bootptab file. If you have multiple switches that will be using Bootp to get their
IP configuration, you should use a unique symbolic name for each switch.
ht
is the “hardware type”. For the switches covered in this guide, enter ether (for
Ethernet). This tag must precede the ha tag.
ha
is the “hardware address”. Use the switch's (or VLAN's) 12-digit MAC address.
is the IP address to be assigned to the switch (or VLAN).
ip
sm
gw
lg
is the subnet mask of the subnet in which the switch (or VLAN) is installed.
is the IP address of the default gateway.
TFTP server address (source of final configuration file)
T144
vm
is the vendor-specific “tag” identifying the configuration file to download.
is a required entry that specifies the Bootp report format. Use rfc1048 for the
switches covered in this guide.
N o t e
The above Bootp table entry is a sample that will work for the switch when
the appropriate addresses and file names are used.
Network Preparations for Configuring DHCP/Bootp
In its default configuration, the switch is configured for DHCP/Bootp opera-
tion. However, the DHCP/Bootp feature will not acquire IP addressing for the
switch unless the following tasks have already been completed:
■
For Bootp operation:
•
ABootpdatabaserecordhasalreadybeenenteredintoanappropriate
Bootp server.
•
•
The necessary network connections are in place
The Bootp server is accessible from the switch
■
For DHCP operation:
•
•
•
A DHCP scope has been configured on the appropriate DHCP server.
The necessary network connections are in place
A DHCP server is accessible from the switch
N o t e
Designating a primary VLAN other than the default VLAN affects the switch’s
use of information received via DHCP/Bootp. For more on this topic, refer to
the chapter describing VLANs in the Advanced Traffic Management Guide
for your switch.
7-15
Configuring IP Addressing
Loopback Interfaces
After you reconfigure or reboot the switch with DHCP/Bootp enabled in a
network providing DHCP/Bootp service, the switch does the following:
■
Receives an IP address and subnet mask and, if configured in the server,
a gateway IP address and the address of a Timep server.
■
If the DHCP/Bootp reply provides information for downloading a config-
urationfile, theswitchusesTFTPtodownloadthefilefromthedesignated
source, then reboots itself. (This assumes that the switch or VLAN has
connectivity to the TFTP file server specified in the reply, that the config-
uration file is correctly named, and that the configuration file exists in the
TFTP directory.)
Loopback Interfaces
This section describes how to configure and use user-defined loopback inter-
faces on the switch.
Introduction
By default, each switch has an internal loopback interface (lo0) with the IP
address 127.0.0.1. This IP address is used only for internal traffic transmitted
within the switch and is not used in packet headers in egress traffic sent to
network devices.
You can configure up to seven other loopback interfaces (lo1, lo2, lo3, and so
on) on the switch to use to transmit network across the network. Each
loopback interface can have multiple IP addresses. Routing protocols, such
as RIP and OSPF, advertise the configured loopback addresses throughout a
network or autonomous system.
User-defined loopback addresses provide the following benefits:
■
A loopback interface is a virtual interface that is always up and reachable
as long as at least one of the IP interfaces on the switch is operational. As
a result, a loopback interface is useful for debugging tasks since its IP
address can always be pinged if any other switch interface is up.
7-16
Configuring IP Addressing
Loopback Interfaces
■
■
You can use a loopback interface to establish a Telnet session, ping the
switch, and access the switch through SNMP, SSH, and HTTP (WebAgent).
A loopback IP address can be used by routing protocols. For example,
you canconfigure the loopbackIP address asthe routerID usedtoidentify
the switch in an OSPF area. Because the loopback interface is always up,
you ensure that the switch's router ID remains constant and that the OSPF
network is protected from changes caused by downed interfaces.
N o t e
OSPF does not require that you use an IP address as the router ID. OSPF only
requires the router ID to be a unique value within the autonomous system
(AS). However, if you configure the loopback IP address as the router ID,
OSPF can reach the switch if any switch interface is up. (Normally, OSPF
automatically configures the router ID with the IP address of a switch inter-
face. The disadvantage is that if the interface goes down, OSPF can no longer
ping the switch using the router ID even if other interfaces are operational.)
For more information about how to configure a loopback IP address to
participate in an OSPF broadcast area, refer to the section titled “(Optional)
Assigning Loopback Addresses to an Area” in the Multicast and Routing
Guide.
Configuring a Loopback Interface
To configure a loopback interface, enter the interface loopback command at
the global configuration level of the CLI:
Syntax: [no] interface loopback <number>
Creates a loopback interface, where <number> is a value from
1 to 7. Use the no form of the command to remove the loopback
interface.
Note: You cannot remove the default loopback interface
(number 0) with IP address 127.0.0.1.
You can configure up to thirty-two IP addresses on a loopback interface. To
configure an IP address for the loopback interface, enter the ip address < ip-
address > command at the loopback interface configuration level as shown in
the following example.
Note that when you configure an IP address for a loopback interface, you do
not specify a network mask. The default subnet mask 255.255.255.255 is used.
7-17
Configuring IP Addressing
Loopback Interfaces
HP Switch(config)# interface loopback 1
HP Switch(config)# ip address 10.1.1.1
Figure 7-6. Example of a Loopback Interface Configuration
N o t e s
■
■
You can configure a loopback interface only from the CLI; you cannot
configure a loopback interface from the WebAgent or Menu interface.
Loopback interfaces share the same IP address space with VLAN config-
urations. The maximum number of IP addresses supported on a switch is
2048, which includes all IP addresses configured for both VLANs and
loopback interfaces (except for the default loopback IP address
127.0.0.1).
■
Each IP address that you configure on a loopback interface must be
unique in the switch. This means that the address cannot be used by a
VLAN interface or another loopback interface.
For example, if you configure a VLAN with IP address 172.16.100.8/24, you
cannot configure a loopback interface with IP address 172.16.100.8. In the
same way, if you configure a loopback interface (lo1) with IP address
172.16.101.8, you cannot configure another loopback interface (lo2) with
IP address 172.16.101.8.
■
You can configure multiple IP addresses on a loopback interface (lo0 to
lo7). Up to thirty-two IP addresses are supported on a loopback interface.
The following example shows valid IP address configurations on two
loopback interfaces.
HP Switch(config)# interface loopback 0
HP Switch(lo0)# ip address 172.16.101.8
HP Switch(lo0)# ip address 172.16.101.9
HP Switch(lo0)# exit
HP Switch(config)# interface loopback 1
HP Switch(lol)# ip address 172.16.102.1
HP Switch(lol)# ip address 172.16.102.2
Displaying Loopback Interface Configurations
To display the list of loopback interfaces which have been assigned IP
addresses, enter the show ip command.
7-18
Configuring IP Addressing
Loopback Interfaces
In the show ip command output, information about configured loopback
interfaces is displayed below other IP configuration parameters, such as
packet time-to-live (TTL) and ARP age-out values, and VLAN IP configura-
tions. The following example displays the IP addresses configured for two
user-defined loopback interfaces (lo1 and lo2).
HP Switch# show ip
IP Routing : Enabled
Default Gateway : 15.255.128.1
Default TTL
Arp Age
: 64
: 20
Domain Suffix :
DNS server
:
|
Proxy ARP
Std Local
VLAN
| IP Config IP Address
Subnet Mask
-------------------- + ---------- --------------- --------------- ----------
DEFAULT_VLAN
VLAN2
VLAN3
| Manual
Manual
10.0.8.121
192.168.12.1
255.255.0.0
255.255.255.0 No
No
No
No
Disabled
Loopback Addresses
IP Address
-------- ---------- ---------------
Loopback IP Config
Subnet Mask
----------------
255.255.255.255
255.255.255.255
255.255.255.255
lol
lo2
lo2
Manual
Manual
Manual
172.16.110.2
172.16.112.2
172.16.114.1
Figure 7-7. Example of show ip Command Output
N o t e
The default loopback interface (lo0) with IP address 127.0.0.1 is not displayed
in the show ip command output because it is permanently configured on the
switch. To display the default loopback address, enter the show ip route
command as shown in figure 7-8.
7-19
Configuring IP Addressing
Loopback Interfaces
To display the loopback interfaces configured on the switch in a list of IP
routing entries displayed according to destination IP address, enter the show
ip route command.
The following example displays the configuration of the default loopback
interface (lo0) and one user-defined loopback interface (lo2).
HP Switch# show ip route
IP Route Entries
VLAN Type
Destination
Gateway
Sub-Type Metric
Dist.
------------------ --------------- ---- --------- ---------- ---------- -----
10.0.0.0/16
127.0.0.0/8
127.0.0.1/32
172.16.10.121/32 lo2
172.16.100.0/24
172.16.102.0/24
DEFAULT_VLAN 1
reject
lo0
connected
static
1
0
1
0
0
0
0
1
0
connected
static
1
IntraArea 1
1
10.0.8.11
VLAN2
1
2
ospf
connected
Figure 7-8. Example of show ip route Command Output
7-20
Configuring IP Addressing
IP Preserve: Retaining VLAN-1 IP Addressing Across Configuration File Downloads
IP Preserve: Retaining VLAN-1 IP
Addressing Across Configuration File
Downloads
For the switches covered in this guide, IP Preserve enables you to copy a
configuration file to multiple switches while retaining the individual IP
address and subnet mask on VLAN 1 in each switch, and the Gateway IP
address assigned to the switch. This enables you to distribute the same
configuration file to multiple switches without overwriting their individual IP
addresses.
Operating Rules for IP Preserve
When ip preserve is entered as the last line in a configuration file stored on a
TFTP server:
■
If the switch’s current IP address for VLAN 1 was not configured by DHCP/
Bootp, IP Preserve retains the switch’s current IP address, subnet mask,
and IP gateway address when the switch downloads the file and reboots.
The switch adopts all other configuration parameters in the configuration
file into the startup-config file.
■
If the switch’s current IP addressing for VLAN 1 is from a DHCP server,
IP Preserve is suspended. In this case, whatever IP addressing the config-
uration file specifies is implemented when the switch downloads the file
and reboots. If the file includes DHCP/Bootp as the IP addressing source
for VLAN 1, the switch will configure itself accordingly and use DHCP/
Bootp. If instead, the file includes a dedicated IP address and subnet mask
for VLAN 1 and a specific gateway IP address, then the switch will
implement these settings in the startup-config file.
■
The ip preserve statement does not appear in show config listings. To verify
IP Preserve in a configuration file, open the file in a text editor and view
the last line. For an example of implementing IP Preserve in a configura-
tion file, see figure 7-9, below.
Enabling IP Preserve
To set up IP Preserve, enter the ip preserve statement at the end of a configu-
ration file. (Note that you do not execute IP Preserve by entering a command
from the CLI).
7-21
Configuring IP Addressing
IP Preserve: Retaining VLAN-1 IP Addressing Across Configuration File Downloads
; J9091A Configuration Editor; Created on release #K.15.06.0000x
hostname “HP Switch”
time daylight-time-rule None
.
.
.
password manager
password operator
ip preserve
Entering “ip preserve” in the last line of a configuration file implements IP
Preserv when the file is downloaded to the switch and the switch reboots.
Figure 7-9. Example of Implementing IP Preserve in a Configuration File
For example, consider figure 7-10:
DHCP
Server
TFTP
Server
Management
config.
Station
IP
Address
Switch 1
Switch 2
Switch 4
Switch 3
VLAN 1: DHCP
VLAN 1:
10.31.22.101
VLAN 1:
10.31.22.102
VLAN 1:
10.31.22.103
Switch 4 also copies and implements the
config.txt file from the TFTP server (figure 7-11),
but acquires new IP addressing from the DHCP
Switches 1 through 3 copy and implement the config.txt file
from the TFTP server (figure 7-11), but retain their current IP
Figure 7-10. Example of IP Preserve Operation with Multiple Series Switches
If you apply the following configuration file to figure 7-10, switches 1 - 3 will
retain their manually assigned IP addressing and switch 4 will be configured
to acquire its IP addressing from a DHCP server.
7-22
Configuring IP Addressing
IP Preserve: Retaining VLAN-1 IP Addressing Across Configuration File Downloads
HP Switch(config)# show run
Running configuration:
; J9091A Configuration Editor; Created on release #K.15.06.0000x
hostname "HP Switch"
module 1 type J8702A
module 2 type J8705A
trunk A11-A12 Trk1 Trunk
ip default-gateway 10.10.10.115
snmp-server community "public" Unrestricted
vlan 1
Using figure 7-10, above, switches 1 - 3 ignore these
entries because the file implements IP Preserve and
their current IP addressing was not acquired through
DHCP/Bootp.
name "DEFAULT_VLAN"
untagged A1-A10,A13-A24,B1-B24,Trk1
ip address dhcp-bootp
exit
Switch 4 ignores IP Preserve and implements the
DHCP/Bootp addressing and IP Gateway specified in
this file (because its last IP addressing was acquired
from a DHCP/Bootp server).
spanning-tree Trk1 priority 4
password manager
password operator
Figure 7-11. Configuration File in TFTP Server, with DHCP/Bootp Specified as the IP Addressing Source
If you apply this configuration file to figure 7-10, switches 1 - 3 will still retain
their manually assigned IP addressing. However, switch 4 will be configured
with the IP addressing included in the file.
7-23
Configuring IP Addressing
IP Preserve: Retaining VLAN-1 IP Addressing Across Configuration File Downloads
HP Switch# show run
Running configuration:
; J9091A Configuration Editor; Created on release #K.15.06.0000x
hostname "HP Switch"
module 1 type J8702A
module 2 type J8705A
trunk A11-A12 Trk1 Trunk
ip default-gateway 10.10.10.115
snmp-server community "public" Unrestricted
vlan 1
Because switch 4 (figure 7-10)
receiveditsmostrecentIPaddressing
from a DHCP/Bootp server, the switch
ignores the ip preserve command and
implements the IP addressing
included in this file.
name "DEFAULT_VLAN"
untagged A1,A7-A10,A13-A24,B1-B24,Trk1
ip address 10.12.17.175 255.255.255.0
tagged A4-A6
no untagged A2-A3
exit
vlan 2
name "VLAN2"
untagged A2-A3
no ip address
exit
spanning-tree Trk1 priority 4
password manager
password operator
Figure 7-12. Configuration File in TFTP Server, with Dedicated IP Addressing Instead of DHCP/Bootp
To summarize the IP Preserve effect on IP addressing:
■
If the switch received its most recent VLAN 1 IP addressing from a DHCP/
Bootp server, it ignores the IP Preserve command when it downloads the
configuration file, and implements whatever IP addressing instructions
are in the configuration file.
■
■
If the switch did not receive its most recent VLAN 1 IP addressing from a
DHCP/Bootp server, it retainsits currentIPaddressing when itdownloads
the configuration file.
The content of the downloaded configuration file determines the IP
addresses and subnet masks for other VLANs.
7-24
Configuring IP Addressing
Configuring a Single Source IP Address
Configuring a Single Source IP Address
Overview
This feature applies to the following software applications:
•
•
•
•
•
•
•
RADIUS
SFlow
SNTP
System Logging applications
TACACS
Telnet
TFTP
The above IP-based software applications use a client-server communication
model, that is, the client’s source IP address is used for unique client identifi-
cation. The source IP address is determined by the system and is usually the
IP address of the outgoing interface in the routing table. However, routing
switches may have multiple routing interfaces due to load balancing orrouting
redundancy, and outgoing packets can potentially be sent by different paths
at different times. This results in different source IP addresses, which creates
a client identification problem on the server site. For example, there is no way
to designate a fixed IP address for outgoing packets for RADIUS or TACACS,
so it is necessary to configure in the RADIUS or TACACS database all possible
IP addresses that are configured on the switch as valid clients. When using
system logging, it can be difficult to interpret the logging and accounting data
on the server site as the same client can be logged with different IP addresses.
To decrease the amount of administrative work involved, a configuration
model is provided that allows the selection of an IP address to use as the
source address for all outgoing traffic generated by a specified software
application on the switch. This allows unique identification of the software
application on the server site regardless of which local interface has beenused
to reach the destination server.
7-25
Configuring IP Addressing
Configuring a Single Source IP Address
Specifying the Source IP Address
The CLI command ip source-interface is used to specify the source IP address
for an application. Different source IP addresses can be used for different
software applications, but only one source IP address can be specified for
each application.
.
Syntax:
[no] ip source-interface <radius | sflow | sntp | syslog | tacacs | telnet | tftp
| all> <loopback <id> | vlan <vlan-id> address <ip-address>>
Determines the source IP address used by the specified
software application when transmitting IP packets. The all
parameter can be used to set one IP address for all the listed
applications.
The no version of the command cancels the configuration and
the application reverts to its default behavior. The system
determines the source IP address of outgoing application-
specific IP packets at packet transmission time.
loopback <id>: Specifies that the IP address of the loopback
interface is used as the source IP address in outgoing packets.
If the loopback interface has no IP address, then the
application reverts to the default behavior. If more than one IP
address is configured, then the lowest IP address is used.
vlan <vlan-id>: Specifies that the IP address of the indicated
VLAN interface is used as the source IP address of outgoing
packets. If the specified VLAN interface has no IP address
configured, or is down, then the application reverts to the
default behavior. If more than one IP address is configured,
then the lowest IP address is used.
address <ip-address>: Specifies the IP address that should be
used as the source IP address of outgoing packets. The IP
address must be a valid IP address configured on one of the
switch’s VLAN or loopback interfaces. If the interface is down,
then the application reverts to the default behavior.
The Source IP Selection Policy
The source IP address selection for the application protocols is defined
through assignment of one of the following policies:
7-26
Configuring IP Addressing
Configuring a Single Source IP Address
■
■
■
Outgoing Interface—the IP address of the outgoing IP interface is used as
the source IP address. This is the default policy and the default behavior
of applications.
Configured IP Address—the specific IP address that is used as the source
IP address. This address is configured on one of the switch’s IP interfaces,
either a VLAN interface or a Loopback interface.
Configured IP Interface—the IP address from the specific IP interface
(VLAN or Loopback) is used as the source IP address. If there are multiple
IP addresses assigned (multinetting, for example), the lowest IP address
is used.
If the selection policy cannot be executed because the interface does not have
an IP address configured, does not exist, or is down, the application protocol
uses the default Outgoing Interface policy. A warning message is displayed,
but the configuration changes are accepted. When using the show ip source-
interface status command to display information about the source IP address
selection policy, the administratively-assigned source IP selection policy and
the actual (operational) source IP selection policy in effect are displayed. The
operational source IP selection policy may be different from the assigned
source selection policy if the IP interface does not exist or is down. In this
case, the default of Outgoing Interface appears as the operational policy (See
figure 7-13).
HP Switch(config)# show ip source-interface detail
Source-IP Detailed Information
Protocol : Tacacs
Admin Policy
Oper Policy
Source IP Interface
Source IP Address
: Configured IP Interface
: Outgoing Interface
: Vlan 22
The Admin Policy differs from the Oper
Policy because the Source Interface
State is Down. The default Outgoing
Interface policy is actually in effect.
: 10.10.10.4
Source Interface State : Down
Operational Policy
The no form of the ip source-interface command reverts the application proto-
cols to the default behavior. The Outgoing Interface policy is used.
Figure 7-14 is an example of assigning a specific source IP address for a
RADIUS application. The administrative policy is Configured IP Address.
7-27
Configuring IP Addressing
Configuring a Single Source IP Address
HP Switch(config)# ip source-interface radius address 10.10.10.2
HP Switch(config)# show ip source-interface radius
Source-IP Configuration Information
Protocol | Admin Selection Policy IP Interface IP Address
-------- + ----------------------- -------------- ---------------
Radius | Configured IP Address vlan 3
10.10.10.2
Figure 7-14. Example of a Specific IP Address Assigned for the RADIUS Application Protocol
In figure 7-15, a VLAN interface (VLAN 22) is specified as the source IP address
for TACACS. The administrative policy is Configured IP Interface.
HP Switch(config)# ip source-interface tacacs vlan 22
HP Switch(config)# show ip source-interface tacacs
Source-IP Configuration Information
Protocol | Admin Selection Policy IP Interface IP Address
-------- + ----------------------- -------------- ---------------
Tacacs | Configured IP Interface vlan 22
10.10.10.4
Figure 7-15. Example of Using a VLAN Interface as the Source IP Address for TACACS
Figure 7-16 shows a VLAN interface being specified as the source IP address
for logging. The administrative policy is Configured IP Interface.
HP Switch(config)# ip source-interface syslog vlan 10
HP Switch(config)# show ip source-interface syslog
Source-IP Configuration Information
Protocol | Admin Selection Policy IP Interface IP Address
-------- + ----------------------- -------------- ---------------
Syslog | Configured IP Interface vlan 10
10.10.10.10
Figure 7-16. Example of Using a VLAN Interface as the Source IP Address for Logging (Syslog)
7-28
Configuring IP Addressing
Configuring a Single Source IP Address
Displaying the Source IP Interface Information
There are several show commands that can be used to display information
about the source IP interface status.
Syntax:
show ip source-interface status [radius | sflow | sntp | tacacs | telnet | tftp
| syslog]
Displays the operational status information for the source IP
address selection policy. Both the administratively-assigned
source IP selection policy and the operational source IP
selection policy are displayed.
When no parameters are specified, policy information for all
protocols is displayed.
HP Switch(config)# show ip source-interface status
Source-IP Status Information
Protocol | Admin Selection Policy Oper Selection Policy
-------- + ----------------------- -----------------------
Tacacs | Configured IP Interface Configured IP Interface
Radius | Configured IP Address Configured IP Address
Syslog | Configured IP Interface Outgoing Interface
Telnet | Outgoing Interface
Outgoing Interface
Outgoing Interface
Outgoing Interface
Tftp
Sntp
Sflow
| Outgoing Interface
| Outgoing Interface
| Configured IP Interface Configured IP Interface
Figure 7-17. Example of the Data Displayed for Source IP Interface Status
When executing the show ip source-interface command without parameters,
the configured IP interfaces (VLANs) and IP addresses are displayed for each
protocol.
7-29
Configuring IP Addressing
Configuring a Single Source IP Address
HP Switch(config)# show ip source-interface
Source-IP Configuration Information
Protocol | Admin Selection Policy IP Interface IP Address
-------- + ----------------------- -------------- ---------------
Tacacs | Configured IP Interface vlan 22
Radius | Configured IP Address
Syslog | Configured IP Interface vlan 10
Telnet | Outgoing Interface
10.10.10.2
Tftp
Sntp
Sflow
| Outgoing Interface
| Outgoing Interface
| Outgoing Interface
Figure 7-18. Example of show ip source-interface Command Output
The show ip source-interface detail command displays detailed information
about the configured policies, source IP address, and interface state for each
protocol.
Syntax:
show ip source-interface detail [radius | sflow | sntp | tacacs | telnet | tftp
| syslog]
Displays detailed operational status information for the
source IP address selection policy. Information about the
configured policies, source IP address and interface state are
displayed.
When no parameters are specified, policy information for all
protocols is displayed.
7-30
Configuring IP Addressing
Configuring a Single Source IP Address
HP Switch(config)# show ip source-interface detail
Source-IP Detailed Information
Protocol : Tacacs
Admin Policy
: Configured IP Interface
Oper Policy
: Configured IP Interface
: vlan 22
Source IP Interface
Source IP Address
Source Interface State : Up
: 10.10.10.4
Protocol : Radius
Admin Policy
: Configured IP Address
Oper Policy
: Configured IP Address
: vlan 3
Source IP Interface
Source IP Address
: 10.10.10.2
Source Interface State : Up
Protocol : Syslog
Admin Policy
: Configured IP Interface
Oper Policy
: Configured IP Interface
: vlan 10
Source IP Interface
Source IP Address
: 10.10.10.10
Source Interface State : Up
Protocol : Telnet
Admin Policy
: Configured IP Interface
Oper Policy
: Configured IP Interface
: loopback 1
Source IP Interface
Source IP Address
: 10.10.10.11
Source Interface State : Up
Protocol : Tftp
Admin Policy
: Outgoing Interface
Oper Policy
: Outgoing Interface
Source IP Interface
Source IP Address
: N/A
: N/A
Source Interface State : N/A
Protocol : Sntp
Admin Policy
: Outgoing Interface
Oper Policy
: Outgoing Interface
Source IP Interface
Source IP Address
: N/A
: N/A
Source Interface State : N/A
Protocl : Sflow
Admin Policy
: Outgoing Interface
Oper Policy
: Outgoing Interface
Source IP Interface
Source IP Address
: N/A
: N/A
Source Interface State : N/A
Figure 7-19. Example of Detailed Information Displayed for Each Protocol
The show command can also be usedwith the application to display the source
IP address selection information in effect for the application protocol.
7-31
Configuring IP Addressing
Configuring a Single Source IP Address
HP Switch(config)# show radius
Status and Counters - General RADIUS Information
Deadtime(min) : 0
Timeout(secs) : 5
Retransmit Attempts : 3
Global Encryption Key :
Dynamic Authorization UDP Port : 3799
Source IP Selection : Configured IP address
Source IP Selection for the specified
application protocol is displayed.
Figure 7-20. Example of show radius Command Displaying Source IP Selection Information
HP Switch(config)# show tacacs
Status and Counters - TACACS Information
Timeout : 5
Source IP Selection for the specified
application protocol is displayed.
Source IP Selection : Configured IP Interface
Encryption Key :
Figure 7-21. Example of show tacacs Command Displaying Source IP Selection Information
HP Switch(config)# show debug
Debug Logging
Source IP Selection for the specified
application protocol is displayed.
Source IP Selection: Configured IP interface
Destination: None
Enabled debug types:
None are enabled.
Figure 7-22. Example of show debug Command Displaying Source IP Selection Information for Syslog
7-32
Configuring IP Addressing
Configuring a Single Source IP Address
HP Switch(config)# show telnet
Telnet Activity
Source IP Selection is displayed.
Source IP Selection: 10.10.10.11
--------------------------------------------------------
Session : ** 1
Privilege: Manager
From
To
: Console
:
Figure 7-23. Example of show telnet Command Displaying Source IP Selection
HP Switch(config)# show sntp
SNTP Configuration
SNTP Authentication : Disabled
Time Sync Mode: Timep
SNTP Mode : disabled
Poll Interval (sec) [720] : 720
Source IP Selection: Outgoing Interface
Source IP Selection is displayed.
Figure 7-24. Example of show sntp Command Displaying Source IP Selection
HP Switch(config)# show sflow agent
Version
Agent Address
: 1.3;HP;K.15.07.0000x
: 10.1.1.1
Source IP Selection : Configured IP Interface
Figure 7-25. Example of sFlow Agent Information
Error Messages
The following error messages may appear when configuring source IP selec-
tion if the interface does not exist, is not configured for IP, or is down.
Error Message
Description
Warning: Specified IP address is not configured on any inter- The IP address specified has not been assigned to any
face
interface on the switch.
Warning: Specified IP interface is not configured
The IP interface has not been configured.
7-33
Configuring IP Addressing
Configuring a Single Source IP Address
Error Message
Description
Warning: Specified IP interface is not configured for IP
Warning: Specified IP interface is down.
An IP address has not been assigned to this interface.
TheinterfaceontheswitchassociatedwiththisIPaddress
is down.
Warning: Specified IP interface is configured for DHCP
The IP address has not been configured specifically
(manually) for this interface and may change.
7-34
8
Software Management
Downloading Switch Documentation
and Software from the Web
You can download software updates and the corresponding product documen-
tation from the HP Networking Website. Check the web site frequently for the
latest software version available for your switch.
Viewing or Downloading the Software Manual Set
Downloading Software Updates for Your Switch
HP periodically provides switch software updates through the HP Networking
file, you can use one of the following methods for downloading it to the switch:
■
For a TFTP transfer from a server, do either of the following:
•
Select Download OS in the Main Menu of the switch’s menu interface
and use the (default) TFTP option.
•
Use the copy tftp command in the switch’s CLI (see below).
■
For an Xmodem transfer from a PC or Unix workstation, do either of the
following:
•
Select Download OS in the Main Menu of the switch’s menu interface
and select the XMODEM option.
•
Use the copy xmodem command in the switch’s CLI (page 8-3).
■
■
Use the USB port to download a software file from a USB flash drive (page
8-4).
Use the download utility in PCM+ management software.
8-1
Software Management
Downloading Switch Documentation and Software from the Web
N o t e
Downloading new software does not change the current switch configuration.
transferred, for example, toarchive ortobe usedinanother switch of the same
model.
This section describes how to use the CLI to download software to the switch.
You can also use the menu interface for software downloads. For more
information, see “Using the Menu Interface” on page 2-1 in this guide.
TFTP Download from a Server
Syntax: copy tftp flash <ip-address> <remote-os-file> [ < primary | secondary > ]
Note that if you do not specify the flash destination, the TFTP download
defaults to the primary flash.
For example, to download a software file named K_15_01_0031.swi from a
TFTP server with the IP address of 10.28.227.103:
1. Execute the copy command as shown below:
HP Switch# copy tftp flash 10.28.227.103
K_15_01_0031.swi
The primary OS image will be deleted. continue
[y/n]? Y
03125K
2. When the switch finishes downloading the software file from the server,
it displays the progress message
Validating and Writing System Software to FLASH...
3. When the CLI prompt re-appears, the switch is ready to reboot to activate
the downloaded software:
a. Use the show flash command to verify that the new software version
is in the expected flash area (primary or secondary)
b. Reboot the switch from the flash area that holds the new software
(primary or secondary), using the following command:
Syntax: boot system flash [ < primary | secondary > ]
After the switch reboots, it displays the CLI or Main Menu, depending on
the Logon Default setting last configured in the menu’s Switch Setup
screen.
8-2
Software Management
Downloading Switch Documentation and Software from the Web
4. Verify the software version by displaying the system information for the
switch (for example, through the show system-information command), and
viewing the Software revisionfield.
Xmodem Download From a PC or Unix Workstation
This procedure assumes that:
■
The switch is connected via the Console RS-232 port to a PC operating
as a terminal. (Refer to your switch Installation and Getting Started
Guide for information on connecting a PC as a terminal and running
the switch console interface.)
■
■
The switch software is stored on a disk drive in the PC.
The terminal emulator you are using includes the Xmodem binary
transfer feature. (For example, in the HyperTerminal application
included with most Windows systems, the Send File option in the
Transfer drop-down menu supports the Xmodem protocol.)
Using Xmodem and a terminal emulator, you can download a switch software
file to either primary or secondary flash using the CLI.
Syntax: copy xmodem flash [< primary | secondary >]
1. To reduce the download time, you may want to increase the baud rate in
your terminal emulator and in the switch to a value such as 115200 bits
per second. (The baud rate must be the same in both devices.) For
example, to change the baud rate in the switch to 115200, execute this
command:
HP Switch(config)# console baud-rate 115200
(If you use this option, be sure to set your terminal emulator to the same
baud rate.)
Changing the console baud-rate requires saving to the Startup Config with
the write memory command. Alternatively, you can logout of the switch
and change your terminal emulator speed and allow the switch to Auto-
Detect your new higher baud rate (i.e. 115200 bps)
2. Execute the following command in the CLI:
HP Switch# copy xmodem flash primary
The primary OS image will be deleted. continue [y/n]? Y
Press ‘Enter’ and start XMODEM on your host...
3. Execute the terminal emulator commands to begin the Xmodem transfer.
For example, using HyperTerminal:
8-3
Software Management
Downloading Switch Documentation and Software from the Web
a. Click on Transfer, then Send File.
b. Type the file path and name in the Filename field.
c. In the Protocol field, select Xmodem.
d. Click on the Send button.
The download can take several minutes, depending on the baud rate used
in the transfer.
4. If you increased the baud rate on the switch (1), use the same command
to return it to its previous setting. (A baud rate of 9600 bits per second is
recommended for most applications.) Remember to return your terminal
emulator to the same baud rate as the switch.)
5. Use the show flash command to verify that the new software version is in
the expected flash area (primary or secondary)
6. Reboot the switch from the flash area that holds the new software
(primary or secondary).
After the switch reboots, it displays the CLI or Main Menu, depending on
the Logon Default setting last configured in the menu’s Switch Setup
screen.
Using USB to Download Switch Software
To use the USB port on the switch to download a software version from a USB
flash drive:
■
The software version must be stored on the USB flash drive, and you must
know the file name (such as K_15_01_0031.swi).
■
The USB flash drive must be properly installed in the USB port on the
switch.
N o t e
Some USB flash drives may not be supported on your switch. For information
on USB device compatibility, refer to the HP networking support FAQ web
pages,
Syntax: copy usb flash <filename> [ < primary | secondary > ]
For example, to download a software file named K_15_01_0031.swi from a
USB flash drive:
1. Execute the copy command as shown below:
8-4
Software Management
Downloading Switch Documentation and Software from the Web
HP Switch# copy usb flash K_15_01_0031.swi
secondary
The secondary OS image will be deleted. continue
[y/n]? Y
03125K
2. When the switch finishes downloading the software file from the server,
it displays the progress message
Validating and Writing System Software to FLASH...
3. When the CLI prompt re-appears, the switch is ready to reboot to activate
the downloaded software:
a. Use the show flash command to verify that the new software version
is in the expected flash area (primary or secondary)
b. Reboot the switch from the flash area that holds the new software
(primary or secondary), using the following command:
Syntax: boot system flash [ < primary | secondary > ]
After the switch reboots, it displays the CLI or Main Menu, depending on
the Logon Default setting last configured in the menu’s Switch Setup
screen.
4. Verify the software version by displaying the system information for the
switch (for example, through the show system-information command), and
viewing the Software revisionfield.
Software Signing and Verification
As an enhanced security feature, you can verify whether a software image
being downloaded to or stored in your switch has, in fact, been provided by
HP Networking without any modification or corruption.
Validation is based on the image signature that is generated and attached to
the switch software by HP Code Signing Service (HPCSS). HP Networking
implemented digital signature validation starting with specific switch soft-
ware versions. For a list of these software versions, go to:
www.hp.com/networking/swvalidation.
N o t e
Once a switch software image has been digitally signed on a specific version,
all later versions will also be signed.
8-5
Software Management
Downloading Switch Documentation and Software from the Web
Switches supporting digital signature verification will generate an error mes-
sage if you attempt to download an image that is not digitally signed. For
example, using the CLI commands described above to revert back to an image
that isn’t signed from an image that is signed and supports verification would
result in the following message:
This software image does not contain a digital
signature and cannot be validated as originating from
HP. You may bypass this validation by using the 'allow-
no-signature' option. Please see www.hp.com/network-
ing/swvalidation for information about which versions
of software contain digital signatures.
When you use the copy command to download a properly signed image, the
CLI logs the following syslog message:
Update: Firmware image contains valid signature.
Errors related to signature validation will generate one of the following log
messages:
• Update: Aborted. Downloaded file invalid.
• Update: Aborted. Firmware image does not contain a
signature.
• Update: Aborted. Firmware image signature is not
valid.
Using the CLI to Validate or Bypass a Signature Verification
Manually Validating Software. Ifnecessary,youcanvalidatesoftwarethat
does not support signature verification by executing the following command:
verify signature flash {primary|secondary}
If the signature is valid, the following message will be displayed:
Signature is valid.
Bypassing Verification. If necessary, you can use the allow-no-signature
option to bypass signature verification. To do this, execute the copy command
as follows:
copy {tftp|sftp|usb|xmodem} flash [<hostname/IP>]
[<filename>] {primary|secondary} allow-no-signature
8-6
Software Management
Downloading Switch Documentation and Software from the Web
N o t e
Saving Configurations While Using the CLI
The switch operates with two configuration files:
■
Running-Config File: Exists in volatile memory and controls switch
operation. Rebooting the switch erases the current running-config file and
replaces it with an exact copy of the current startup-config file. To save a
configuration change, you must save the running configuration to the
startup-config file.
■
Startup-Config File: Exists in flash (non-volatile) memory and pre-
serves the most recently-saved configuration as the “permanent” config-
uration. When the switch reboots for any reason, an exact copy of the
current startup-config file becomes the new running-config file in volatile
memory.
When you use the CLI to make a configuration change, the switch places the
change in the running-config file. If you want to preserve the change across
reboots, you must save the change to the startup-config file. Otherwise, the
next time the switch reboots, the change will be lost. There are two ways to
save configuration changes while using the CLI:
■
Execute write memory from the Manager, Global, or Context configuration
level.
■
When exiting from the CLI to the Main Menu, press [Y] (for Yes) when
you see the “save configuration” prompt:
Do you want to save current configuration [y/n]?
Important: Best Practices for Software Updates
N o t e
With version K.15.01.0031 and later software, you will notice a slight change
in the versioning system.
Software updates that contain significant new features and enhancements
may be designated by an increment to both the major and minor release
version numbers. That is, K.15.01.0031 represents a major update to software
version(s) K.14.xx, and K.14.xx represents a major update to K.13.xx, and so
forth. In addition, a future version (such as K.15.02.xxxx) may represent a
minor release to version K.15.01.xxxx, but may still contain significant
8-7
Software Management
Downloading Switch Documentation and Software from the Web
changes. To mitigate against potential migration issues when performing such
updates, this section documents best practices for updating the switch,
including contingency procedures for rolling back to previous software
versions and saved configurations.
Updating the Switch: Overview
C a u t i o n
Before you update the switch software to a new version:
•
We strongly recommend that you save a copy of your config file to an
external location.
•
We advise against rolling back (going from a newer software version
to an older software version) without copying a backup config file to
the device.
If you do choose to downgrade software using your existing config file,
unpredictable changes in the config file and switch behavior may occur. If
booting a K.15.01.0031 or later config file into a K.14.xx or earlier versions of
software, the following commands may be removed from your config file:
•
Any commands that are present in K.15.01.0031 (or later) but are not
present in earlier versions of software
•
•
•
•
•
•
•
logging
snmp-server
mirror-session
auto-tftp
fault-finder
interface loopback
To perform an update to your switch software, follow the steps below (see
“Updating the Switch: Detailed Steps” on page 8-9 for detailed steps):
1. Download the image to your TFTP server.
2. Save your current configuration (Config1) to a backup configuration file
(Config2).
3. Save your current configuration to an external tftp server.
4. Backup your current running image (Primary) to the secondary image.
5. Set your secondary image to boot with Config2.
6. Download the new image to the switch’s primary image.
7. Verify that your images and configuration are set correctly.
8-8
Software Management
Downloading Switch Documentation and Software from the Web
8. Reload the switch.
After following these steps, you should end up with the following results:
■
■
■
■
Primary image will hold the new software image you want to install (for
example, K.15.01.0031)
Secondary image will hold the image you are currently running (for
example, K.14.47)
Primary image will boot with Config1 (config file corresponding to new
software version—in this example, K.15.01.0031)
Secondary image will boot with Config2* (config file corresponding to
previous software version—in this example, K.14.47)
* The current config file must be copied to Config2, or you will be unable to
revert if the need arises.
N o t e
You might opt to use a different methodology in which the new software will
be installed as the secondary and not the primary image, in which case you
would use the commands boot system flash secondary, and/or boot set-default
flash secondary to change the location of the default boot. However, since you
will still need to take precautions to allow you to revert to your previous
configuration, We strongly recommend that you follow the methods that are
proposed in our update process. This will ensure that you can use our
proposed roll back procedures should the need arise.
Updating the Switch: Detailed Steps
The following detailed steps shows how to update the switch software from
an existing version to a significant new version (in the example provided here,
from version K.14.47 to version K.15.01.0031).
1. Download the latest software image to your TFTP server from the HP
networking web site.:
2. Save your current configuration (Config1) to backup configuration file
(Config2).
a. Before copying the config, verify the current state of your system
using the show version, show flash, and show config files commands.
For example:
Switch1# show version
Image stamp:
/sw/code/build/btm(t4a)
Nov 6 2009 13:20:26
8-9
Software Management
Downloading Switch Documentation and Software from the Web
K.14.47
188
Boot Image:
Primary
Switch1# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- -------
Primary Image : 9839140 11/06/09 K.14.47
Secondary Image : 0
Boot Rom Version: K.12.20
Default Boot
: Primary
Switch1# show config files
Configuration files:
id | act pri sec | name
---+-------------+---------------------------------
1 | * * * | config1
2 |
3 |
|
|
b. Create a backup configuration file and verify the change.
Switch1# copy config config1 config config2
Switch1# show config files
Configuration files:
id | act pri sec | name
---+-------------+---------------------------------
1 | * * * | config1
2 |
3 |
| config2
|
3. Save the current config to a tftp server using the copy tftp command. For
example:
Switch1# copy startup-config tftp 10.1.1.60
Switch1_config_K_14_47.cfg
8-10
Software Management
Downloading Switch Documentation and Software from the Web
N o t e
This step is necessary because HP switches do not support roll back (going
from a newer software version to an older software version) without the
ability to copy a backup config file onto the device.
4. Backup your current running image (primary) to the secondary image.
Switch1# copy flash flash secondary
Switch1# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- -------
Primary Image : 9839140 11/06/09 K.14.47
Secondary Image : 9839140 11/06/09 K.14.47
Boot Rom Version: K.12.20
Default Boot
: Primary
5. Set your secondary image to boot with Config2.
Switch1# startup-default secondary config config2
Switch1# show config files
Configuration files:
id | act pri sec | name
---+-------------+---------------------------------
1 | * *
2 |
3 |
| config1
* | config2
|
N o t e
Step 5 will enable you to revert from K.15.01.xxxx to your previous image with
your previous configuration just by invoking the command boot system flash
secondary.
6. Download the new primary image.
Switch1# copy tftp flash 192.168.1.60
K_15_01_0031.swi primary
The Primary OS Image will be deleted, continue [y/
n]?
8-11
Software Management
Downloading Switch Documentation and Software from the Web
At the prompt, enter y for yes, and the new image will be downloaded and
written to the File system. Once tftp download has been completed you
will see the following message:
Validating and Writing System Software to the
Filesystem ...
7. Verify that your images and configuration are set correctly. For example,
if you updated from K.14.47 to K.15.01.0031, you should see the following
outputs from the switch show commands:
Switch1# show version
Image stamp:
/sw/code/build/btm(t4a)
Nov 6 2009 13:20:26
K.14.47
188
Boot Image:
Primary
Switch1# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- -------
Primary Image : 11537788 04/23/10 K.15.01.0031
Secondary Image : 9839140 11/06/09 K.14.47
Boot Rom Version: K.15.09
Default Boot
: Primary
Switch1# show config files
Configuration files:
id | act pri sec | name
---+-------------+---------------------------------
1 | * *
2 |
3 |
| config1
* | config2
|
8. Reload the new switch image.
Switch1# reload
System will be rebooted from primary image. Do you want
to continue [y/n]? y
At the prompt, enter y, for yes, and the switch will boot with the new image.
8-12
Software Management
Downloading Switch Documentation and Software from the Web
N o t e
As an additional step, we recommend saving the startup-config to a tftp server
using the copy tftp command. For example:
Switch1# copy startup-config tftp 10.1.1.60
Switch1_config_K_15_01_0031.cfg
Rolling Back Switch Software
If you have followed the update procedures documented in the previous
section, you should be able to revert to your previous configuration and
software version using the steps below.
C a u t i o n
Long Usernames and Passwords. Software versions K.15.01.0032 and later
support the longer usernames and passwords introduced in K.14.59.
Before downgrading to a software version that does not support long user-
names and passwords, use one of the following procedures:
•
Using the password CLI command or the Web browser interface,
change usernames or passwords to be no more than 16 characters in
length, and without any special characters. Then execute a CLI write
memory command (required if the include-credentials feature has ever
been enabled).
•
•
Clearthevaluesusingthe nopasswordallCLIcommand. Thenexecute
a CLI write memory command (required if the include-credentials
feature has ever been enabled).
Clear password values by using the "Clear" button on the switch. Then
execute a CLI write memory command (required if the include-creden-
tials feature has ever been enabled).
Note: The procedures above should be used only when downgrading
from a software version that supports long usernames and passwords
to a version that does not.
To roll back your switch from K.15.01.0031 to K.14.47, for example, follow the
steps below:
1. Verify that your images and configuration are set correctly using the show
version, show flash, and show config files commands.
8-13
Software Management
Downloading Switch Documentation and Software from the Web
Switch1# show version
Image stamp:
/sw/code/build/btm(t5a)
Apr 23 2010 05:43:42
K.15.01.0031
67
Boot Image:
Primary
Switch1# show flash
Image
-----
Size(Bytes) Date Version
---------- -------- -------
Primary Image : 11537788 04/23/10 K.15.01.0031
Secondary Image : 9839140 11/06/09 K.14.47
Boot Rom Version: K.15.09
Default Boot
: Primary
Switch1# show config files
Configuration files:
id | act pri sec | name
---+-------------+------------------------------
1 | * *
2 |
3 |
| config1
* | config2
|
2. Boot the switch using the secondary image (with config2).
Switch1# boot system flash secondary
System will be rebooted from secondary image. Do
you want to continue [y/n]? y
Enter y for yes, and the switch will boot from the secondary image
(K.14.47, in this example) with the corresponding configuration for
that software version (Config2).
Viewing or Transferring Alternate Configuration Files
Viewing or copying an alternate configuration saved to the switch will always
be accomplished through the software currently running on the switch. This
may result in a misleading portrayal of the configuration. For example, if a
configuration is created on K.14.47 and saved as config2, and if it is then
8-14
Software Management
Downloading Switch Documentation and Software from the Web
viewed or transferred while the switch is running K.15.01.0031, it will appear
as though K.15.01.0031 has converted the configuration. However, the alter-
nate configuration file, config2, will still be intact on the switch and load
properly when the switchis booted intothe same software version from which
the configuration file originated.
When an enhancement introduces a feature that did not previously exist in
the switch, it may present several challenges to the user.
Backwards compatibility of the configuration created with a version of soft-
ware that supports a new feature or parameter is not guaranteed. Software
versions that did not recognize or support a particular command or parameter
will not be able to interpret that line in the configuration. For this reason, it is
strongly recommended that network administrators always save their config-
uration while still running the switch with the original software version,
and with a notation indicating the software versiononwhich the configuration
wassaved. For example, a user might save aconfigurationfor a switch running
K.14.47 to a TFTP server with an IP address of 10.10.10.15 as follows:
HP Switch-onK1447# copy running-config tftp
10.10.10.15 5406onK1447
If, for example, the user deems it necessary to revert to the use of K.14.47, the
user can boot into it and then restore the saved config from the TFTP server.
Viewing or copying an alternate configuration that is saved to the switch flash
can be accomplished only with the software that is currently running on the
switch.
Here, for example, a configuration is created on K.14.47 and then saved to
flash:
HP Switch-onK1447# copy config config2 config
K1447config <cr>
And later, the configuration that was created on K.14.47 is viewed while the
switch is running K.15.01.0031:
HP Switch-onK1501# show config K1447config <cr>
The command output will show how the K.14.47 config would be interpreted
if it were to be used by the K.15.01.0031 software. Copying the K1447config
file to a TFTP server would similarly trigger an interpretation by the software
performing the file transfer. Note, however, that this does not actually change
the configuration. If the version is rolled back from K.15.01.0031 to K.14.47
with a command like the following (given that K.14.47 is stored in secondary
flash), the K.14.xx formatted config is still intact and valid.
8-15
Software Management
Downloading Switch Documentation and Software from the Web
HP Switch# boot system flash secondary config
K1447config
This “interpretation” during a TFTP or show command execution is inherent
in the architecture of the switch. When switch features change significantly
(such as the move from IPv4 support to IPv6 support), there may be configu-
ration parameters from the previous config that cannot be translated by the
switch for viewing while it is running the new software. This necessitates
storing configurations for each version of software to an external location, if
the user would like to view the stored config prior to reloading it.
8-16
Index
A
Help … 3-10
listing command options … 3-7
alias
command … 3-24
ARP
asterisk
port or trunk-specific commands … 3-12
B
banner
default … 1-4
operation … 1-4
using … 3-1–3-22
redundant management … 1-5
user-configurable … 1-9
IP address … 1-3
manager password … 1-2
Bootp … 7-14
console … 6-1
IP … 7-1
boot
Bootp
automatic switch configuration … 1-1
Bootp table file … 7-14
Bootptab file … 7-14
operation … 7-12, 7-14
server … 7-2
permanent … 5-5
permanent change defined … 5-2
quick … 2-7
reboot to activate changes … 2-12
running-config file … 8-7
saving from CLI … 8-7
saving from menu interface … 2-9
using with Unix systems … 7-14
See also DHCP.
Bootp/DHCP differences … 7-13
Index – 1
serial link … 6-1
show default-config … 5-4
system … 6-11
Help … 2-8, 2-10
meaning of asterisk … 2-9, 2-12
navigation … 2-8, 2-9
operation … 2-9
starting a session … 2-3
console local-terminal … 6-8
global config … 3-4, 7-10
manager level … 3-4
moving between contexts … 3-6
port or trunk-group … 3-12
VLAN-specific … 3-14
copy to tftp host … 5-48
multiple config file, tftp … 5-48
date, configure … 6-14
See also gateway.
banner … 1-4, 1-8
baud rate, speed sense … 6-1
console/serial configuration … 6-2
default gateway, none … 7-1
DHCP Option 66, enabled … 5-61
flow control, XON/XOFF … 6-1
inactivity timer, 0 minutes … 6-1
interface access features … 6-1
IP address, DHCP/Bootp … 7-2
running-config file … 5-38
running-config file operation … 5-37
secondary boot path … 5-40
show config file content … 5-41
show multiple files … 5-40
startup-config … 5-37
startup-config file … 5-38
2 – Index
IP configuration features … 7-1
system information features … 6-11
Telnet access, enabled … 6-1
terminal … 6-1
gateway
configuring … 7-4
default gateway … 7-2
IP address … 7-3, 7-5
manual config priority … 7-13
on primary VLAN … 7-3
Bootp … 7-13
default VLAN … 7-3
DHCP
automatic switch configuration … 1-1
Bootp operation … 7-12
H
for CLI … 3-10
DHCP/Bootp differences … 7-13
DNS
documentation
for menu interface … 2-8, 2-10
hop, router … 7-11
hostname parameter … 6-13
switch documentation … 1-vii
latest versions … 1-vii
release notes … 1-vii
Domain Name Server
See DNS.
download
I
in-band
TFTP … 8-2
Xmodem … 8-3
IP … 7-6
E
enhanced secure mode … 5-14, 5-51, 5-58
erase
config file … 5-49
erase all zeroize … 5-26
event log
gateway … 7-2
console menu … 2-7
Event Log Message Reference Guide … 1-vii
gateway (IP) address … 7-3
menu access … 7-4
F
multiple addresses in VLAN … 7-2, 7-8
single source addressing … 7-26
source IP address … 7-26
source-interface command … 7-27
subnet … 7-2, 7-8
factory default configuration
restoring … 5-7
fastboot command … 5-32
fault detection policy … 4-5
flash memory … 2-9, 5-1
Index – 3
Time-To-Live … 7-6, 7-11
TTL … 7-6, 7-11
MAC address … 7-14
memory
outgoing interface … 7-27
quick start … 7-3
removing or replacing … 7-10
setup screen … 7-3
source IP with debug
flash … 2-9, 5-1
startup configuration … 2-9
configuration changes, saving … 2-9
See also console.
types … 3-16
module
not present with stacking … 2-14, 3-28
module not present … 2-14, 3-28
multinetting … 7-2, 7-8
source IP with tacacs … 7-32
source-interface option … 7-26
telnet … 6-5
telnet-server … 6-4
IP Preserve
tftp traffic … 5-48, 5-49
web-management … 6-7
operator access … 3-3, 3-5
operator password … 4-5
DHCP server … 7-21
overview … 7-21
rules, operating … 7-21
summary of effect … 7-24
K
L
console … 2-6
delete … 4-6
loopback interface
benefits … 7-16
configuration … 7-17
default … 7-16, 7-19
displaying configuration … 7-18
in OSPF area … 7-17
if you lose the password … 4-6
lost … 4-6
manager … 3-3
operator … 3-3
setting … 4-6
multiple interfaces supported … 7-16
lost password … 4-6
passwords
4 – Index
PCM
starting web browser … 4-4
Clear button … 4-7
port
show
default loopback interface … 7-19
displaying loopback interface … 7-18
loopback interface configuration … 7-16, 7-17
numbering with stacking … 2-13, 3-28
telnet … 6-5
SNTP
Software verification … 8-5
SSH
privilege levels … 3-2
stacking
Q
module not present … 2-14, 3-28
port designations … 2-13, 3-28
startup-config
R
reboot
faster boot time … 5-32
via menu console … 2-7
via menu interface … 2-9, 2-11
See also boot.
viewing … 5-4
See also configuration.
clear counters … 5-18
access from console … 2-6
reload … 5-2
command … 5-28
repeat, command description … 3-23
reset
router
switch console
See console.
gateway … 7-5
router, hop … 7-11
running-config
T
Telnet
show for VLANs … 5-51
viewing … 5-4
running-config file … 8-7
connecting to switch … 2-3
domain name address … 6-5
hostname … 6-5
ipv6 address … 6-5
oobm … 6-5
outbound … 6-5
session timeout … 6-5
show command … 6-5
S
scheduled reboot … 5-33
SCP/SFTP
transfer of config files … 5-50
Index – 5
switch-num … 6-5
terminate session, kill command … 6-9
telnet
NAWS … 6-6
terminal type … 6-1
time server … 7-2
TimeP … 7-2, 7-4
on primary VLAN … 7-3
See also TTL.
TTL … 7-3, 7-4, 7-5, 7-6
IP … 7-11
manual config priority … 7-13
on primary VLAN … 7-3
See also Time-To-Live.
tty=ansi … 6-8
disable access … 4-1
first-time install … 4-5
password lost … 4-6
password, setting … 4-6
standalone … 4-4
system requirements … 4-4
web-management
listen, oobm … 6-7
oobm … 6-7
write memory
U
effect on menu interface … 2-12
redundant management … 5-5
V
VLAN
flash … 5-25
ID … 3-14
file storage … 5-26
from ROM console … 5-26
management modules … 5-26
redundant MM … 5-27
with HA … 5-27
multinet … 7-2
multiple IP addresses … 7-2, 7-8
primary … 7-2
reboot required … 2-7
subnet … 7-2, 7-8
support enable/disable … 2-7
VLAN ID
See VLAN.
VT-100 terminal … 6-1
6 – Index
Technology for better business outcomes
© Copyright 2012 Hewlett-Packard Development Company, L.P.
The information contained herein is subject to change without notice. The only
warranties for HP products and services are set forth in the express warranty
statements accompanying such products and services. Nothing herein should be
construed as constituting an additional warranty. HP will not be liable for
technical or editorial errors or omissions contained herein.
November 2012
Manual Part Number
5998-3892
|