3Com Switch 10002211 User Manual

COREBUILDER6000  
SOFTWARE INSTALLATION  
AND RELEASE NOTES  
¨
CoreBuilder Extended Switching Software  
Revision 8.2.3  
October 17, 1997  
Part No. 10002211  
Published October 9,1997  
Revision 01  
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Host Group B-7  
HostTopN Group B-8  
C
Default VLAN C-4  
Modifying the Default VLAN C-5  
D
ADMINISTERING VLANS  
Displaying VLAN Information D-1  
Defining VLAN Information for a Traditional Bridge D-4  
Defining VLAN Information for an HSI Switch Engine D-5  
Modifying VLAN Information D-7  
Removing VLAN Information D-8  
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E
Access by Digital Modem E-2  
3ComFacts Automated Fax Service E-2  
3ComForum on CompuServe Online Service E-3  
Support from 3Com E-4  
Returning Products for Repair E-5  
3COM CORPORATION LIMITED WARRANTY  
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COREBUILDER 6000  
EXTENDED SWITCHING SOFTWARE  
REVISION 8.2.3  
Overview  
These installation instructions and release notes describe revision 8.2.3 of  
the CoreBuilder 6000 Extended Switching software from 3Com  
Corporation, dated October 9, 1997. This revision supersedes revision 8.2.1,  
dated May 30, 1997.  
Hardware LANplex® Extended Switching software revision 8.0.0 or greater, or  
Dependencies CoreBuilder Extended Switching software revision 8.2.1 or greater, requires  
that you have installed one of the following versions of the LANswitching  
Management Module Plus (LMM+) in system slot 1:  
Revision 1.21 or greater (for revision 1 modules)  
Revision 2.12 or greater (for revision 2 modules)  
If you attempt to run LANplex system software 8.0.0 or greater, or  
CoreBuilder system software 8.2.1 or greater, on an earlier revision of the  
LMM+, the system fails to reboot automatically when you turn it on.  
To reboot a system that has failed to reboot automatically, connect a  
terminal to the serial port on the LMM+ installed in the system. When the  
system prompt asks whether you want to “ignore the checksum error,” enter  
y(for Yes). The system reboots.  
Upgrading Your LMM or LMM+  
To verify that you have an LMM+ module and not an LMM module installed:  
1 Check that the module’s ejector tab is labeled “LMM+.  
2 Determine the revision of your LMM+. From the top level of the  
Administration Console, enter:  
system display  
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2
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
If you have an LMM+ at a revision earlier than 1.21 (for revision 1 modules)  
or 2.12 (for revision 2 modules), call 3Com at 1-800-876-3266 and press  
option 2. 3Com will replace your LMM+ with an LMM+ at the correct  
revision, free of charge. (Contact 3Com at the same number to upgrade an  
LMM to an LMM+. There is a fee for this upgrade.)  
Extended Switching Release 8.0.0 or greater of Extended Switching Software requires a  
Software minimum of 2 MB of memory on Ethernet/FDDI Switching Modules  
Requirement (EFSMs). Memory configuration may vary. If you have an EFSM with 1 MB of  
memory, you can order a memory upgrade. Contact your sales  
representative.  
To determine the amount of memory on the EFSM, look at the lower ejector  
tab label or use the system displaycommand from the top level of the  
Administration Console. EFSMs with only 1 MB of memory have blank  
lower ejector tabs. EFSMs with a minimum of 2 MB of memory have “2MB”  
on the lower ejector tab labels.  
Release Highlights CoreBuilder system software release 8.2.3 offers support for the following  
for 8.2.3 items:  
Software support for protocol-based VLANs  
Support for seven RMON data groups  
IP interface configuration change  
Additional RMON MIB support  
RMON support for FDDI switched ports  
For more information about this release, see “What’s New at Revision 8.2.3?”  
on page 9.  
Release Highlights CoreBuilder system software release 8.2.0 supports the following items:  
for 8.2.0  
Fast Ethernet Switching Module (FESM)  
FESM and FSM HSI Switch Engines  
Ability to administer Fast Ethernet Ports  
Bridge MIB support for the FESM  
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Updating Your System Software  
3
Filter MIB  
FTP packet filter program transfers via SNMP  
Disconnecting an active telnet or rlogin session  
STP linkState changes  
CoreBuilder 6000 12-slot Chassis  
For more information about this release, see “What’s New at Revision 8.2.0?”  
on page 14.  
Before You Start Before you install your new software, read all of these release notes.  
Carefully read “System Issues” on page 23 and “Known Problems” on  
page 26.  
The top-level menus in your Administration Console may vary from those  
illustrated in these release notes depending on your level of access privilege  
and on the modules you have installed in your CoreBuilder chassis.  
Updating Your  
System Software  
You can install a new software version from any host that is running FTP  
server software. The system software is distributed for both the UNIX and  
the MS-DOS platforms.  
The following media types are used to distribute compressed files for  
software releases:  
UNIX tar format 31/ -inch, double-sided, high-density 1.44 MB diskettes  
2
MS-DOS format 31/ -inch, double-sided, high-density 1.44 MB diskettes  
2
To install or upgrade your system software, you must:  
1 Copy the software from the diskette to your UNIX or MS-DOS computer’s  
hard disk.  
2 Decompress the software.  
3 Load the system software from your computer’s hard disk to flash memory  
on the LMM+.  
Details for these procedures are provided in the next sections.  
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4
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Copying System You can copy system software to a computer that runs either a UNIX or an  
Software to a MS-DOS operating system.  
Hard Disk  
Copying to the UNIX Platform  
The CoreBuilder software for a UNIX system is distributed on six diskettes.  
Diskettes #1, #2, #3, #4, and #5 contain the CoreBuilder software. Diskette #6  
contains the SNMP MIBs.  
To copy the software to a UNIX hard disk, follow these instructions.  
If the directory /usr/lp6000Rdoes not exist on your computer, create the  
directory before proceeding. If your /usrdirectory is full, use a different  
directory and substitute the name of the actual directory for /usr in this  
and subsequent procedures.  
1 Insert diskette #1 into the disk drive. These instructions assume drive rfd0.  
2 Extract the first part of the software file using the following commands:  
# cd /usr/lp6000R  
# tar xvf /dev/rfd0  
3 Remove diskette #1 using the following command:  
# eject  
4 Insert diskette #2 into the disk drive and extract the second part of the file  
using the following command:  
# tar xvf /dev/rfd0  
5 Remove diskette #2 using the following command:  
# eject  
6 Insert diskette #3 into the disk drive and extract the third part of the file  
using the following command:  
# tar xvf /dev/rfd0  
7 Remove diskette #3 using the following command:  
# eject  
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Updating Your System Software  
5
8 Insert diskette #4 into the disk drive and extract the fourth part of the file  
using the following command:  
# tar xvf /dev/rfd0  
9 Remove diskette #4 using the following command:  
# eject  
10 Insert diskette #5 into the disk drive and extract the fifth part of the file  
using the following command:  
# tar xvf /dev/rfd0  
11 Remove diskette #5 using the following command:  
# eject  
The following files are now in your /usr/lp6000Rdirectory:  
README1  
lp6000R00  
lp6000R01  
lp6000R02  
lp6000R03  
lp6000R04  
restore_lpxR  
12 Use the supplied script to decompress and restore the split file  
(lp6000R00,lp6000R01,lp6000R02,lp6000R03, and lp6000R04):  
# ./restore_lpxR  
This procedure creates the uncompressed file lp6000R. See the README1  
file for file size and checksum information.  
Copying to the MS-DOS Platform  
The CoreBuilder software for an MS-DOS system is distributed on four  
diskettes. Install the software using the Windows 95 or Windows NT  
operating system.  
3Com recommends that you close all Windows programs before running this  
Setup program.  
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6
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Installing on a Windows 95 or Windows NT Computer. To copy software  
to an MS-DOS host computer’s hard disk using Windows 95 or Windows NT,  
take these steps:  
1 Insert diskette #1 into a disk drive. These instructions assume drive a.  
2 For Windows 95, click the Windows 95 START button and choose Run.  
OR  
For Windows NT, from the File menu, select Run.  
The system displays the Setup screen, with the system software name, and  
the Setup dialog box.  
3 At the command line in the Setup dialog box, enter a:setupand click OK.  
A Welcome screen appears. The system prompts you to continue or to  
cancel the installation. To continue, click Next. To cancel the installation and  
exit the Setup program, click Cancel.  
The Install Shield Wizard guides you through the rest of the installation  
procedure.  
This procedure creates a file folder c:\3com\lp6000R, which contains:  
IMAGE folder  
MIBS folder  
README.text  
Loading System  
Software on  
the LMM+  
Before loading the system software on the LMM+, verify that the host  
computer, which has a copy of the updated system software, is connected  
to the CoreBuilder 6000 system.  
You can load the system software into flash memory while the system is  
operating. You do not need to bring the system down. After the flash install is  
completed, a quick reboot puts the newly loaded software to use.  
If you are loading software from a PC host, the FTP server software must be  
running on the PC before you begin this procedure.  
Perform NV data saves and restores only at the same software revision level.  
NV data converts automatically with system software updates 8.0.2 or later.  
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Loading System Software on the LMM+  
7
Loading 8.2.3 software into flash memory takes approximately 10 to 15  
minutes to complete, depending on your network load.  
To load the new software:  
1 From the top level of the Administration Console, enter:  
system softwareUpdate  
The system prompts you for the Host IP address, Install filename, User name,  
and Password. Press Return or Enter to accept the default values, which are  
shown in brackets. The Password field does not display what you enter.  
2 Next to HostIPaddress, enter the IP address of the host machine (such  
as a Sun workstation or PC) from which you are installing the software.  
In the example in step 5, the IP address of the host is 192.9.200.96  
3 Next to Install file pathname, enter the complete path and filename.  
For MS-DOS system syntax, you must precede the full path with a slash ( / ).  
For example, if you are loading software from an MS-DOS host, enter the  
following command at the Installfile pathnameprompt:  
/c:\3com\lp6000R\image\lp6000R  
4 Next to User name, enter your user name.  
5 Next to Password, enter your password. You must enter a value for this  
field, although the field does not display what you enter.  
This software installation sample shows the prompts on a UNIX host:  
Host IP address [192.9.200.14]: 192.9.200.96  
Install file pathname [/usr/lp6000R/lp6000R]:  
User name: ronnyk  
Password:  
Programming flash memory block 1 of 25...  
Programming flash memory block 2 of 25...  
Programming flash memory block 3 of 25...  
.
.
.
Programming flash memory block 25 of 25...  
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COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
After the software is loaded, this message appears:  
Installation complete.  
If the CoreBuilder executable software image stored in flash memory is  
corrupted (for example, when the power fails while you are updating  
software), contact 3Com Technical Support. See Appendix E.  
6 To reboot the system to use the newly loaded software, enter:  
system reboot  
You are prompted with the following message:  
Are you sure you want to reboot the system (n/y) [y]:  
7 At the prompt, enter y(for Yes).  
You are now ready to configure management access for your system. See  
the CoreBuilder 6000 Getting Started Guide.  
User  
Documentation  
This version of software is compatible with the documentation listed here.  
Some of this documentation may be available on CD-ROM. These release  
notes describe any changes and additions to this documentation.  
CoreBuilder 6000 Getting Started Guide  
CoreBuilder 6000 Control Panel User Guide  
CoreBuilder 6000 Operation Guide  
Corebuilder 6000 Administration Console User Guide  
CoreBuilder 6000 Command Quick Reference (folded card)  
LANplex 6000 Extended Switching User Guide  
The Extended Switching User Guide is shipped with Extended Switching  
software.  
Individual modules are shipped with their installation guides:  
LMM+ (LANswitching Management Module +) Installation Guide  
FCM (FDDI Concentrator Module) Installation Guide  
EFSM (Ethernet/FDDI Switching Module) Installation Guide  
TRSM (Token Ring Switching Module) Installation Guide  
TMM Fast Ethernet (Tri-Media Module) Installation Guide  
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What’s New at Revision 8.2.3?  
9
FDDI Switching Module (FSM) Guide  
Fast Ethernet Switching Module (FESM) Guide  
In addition, Filter Builder software and the Filter Builder Getting Started Guide  
are shipped with CoreBuilder 6000 Extended Switching software.  
Whats New at  
Revision 8.2.3?  
This section describes the new features, software enhancements, and  
corrections implemented at this release.  
New Features The following new features have been added at this release.  
Software Support for Protocol-based VLANs  
Revision 8.2.3 offers support for protocol-based VLANs on the CoreBuilder  
6000 system. Protocol-based VLANs allow you to define VLANs based on the  
network protocol, including IP, IPX, AppleTalk, XNS, DECnet, X.25 Layer 3,  
SNA, Banyan VINES, and NetBIOS.  
This release allows you to overlap VLANs by supporting multiple protocols  
per port, multiple subnetworks per port, and the spanning of Layer 3  
networks across multiple ports. You can also use an external router to  
communicate between VLANs.  
New menus have been added to the Administration Console menu so that  
you can administer protocol-based VLANs on the CoreBuilder 6000 system.  
These menus allow you to:  
Delete a VLAN definition  
For more details on VLAN functionality in the CoreBuilder 6000 system, see  
Appendix C, “VLANs on the CoreBuilder System” and Appendix D,  
“Administering VLANs.”  
Support for Seven RMON Data Groups  
Revision 8.2.3 Extended Switching software supports the following RMON  
data groups:  
Group 1: Statistics — Maintains utilization and error statistics for the  
monitored segment  
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10  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Group 2: History — Stores periodic statistical samples of Group 1 data for  
later retrieval.  
Group 3: Alarm — Allows a network manager to set sampling intervals and  
alarm thresholds for any MIB counter or integer  
Group 4: Host — Maintains counters of traffic to and from hosts attached  
to a subnetwork  
Group 5: HostTopN — Reports on hosts that top a list that was sorted on a  
selected parameter in the Group 4 data table  
Group 9: Event — Allows a network manager to request traps, logs, and  
alarms based on alarm events.  
For more details on RMON functionality, see Appendix B, “Remote  
Monitoring (RMON) Technology.”  
IP Interface Configuration Change  
The procedure for defining an IP interface has changed in this revision.  
When you define an IP interface, you specify several interface characteristics,  
as well as the index for the VLAN that is associated with the interface.  
You must first define a VLAN, as described in Appendixes C and D, before you  
can define an associated IP VLAN interface on an EFSM, ESM, TMM, FESM, or  
FSM. You can define an IP interface on an LMM+ without first configuring a  
VLAN.  
To define an IP interface:  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
1 From the top level of the Administration Console, enter:  
ip interface define  
interface  
summary  
detail  
define  
modify  
remove  
addAdvertiseme  
removeAdvertise  
route  
arp  
2 Enter the slot number of the switching module or HSI switch engine  
multicast  
udpHelper  
routing  
icmpRouterD
rip  
whose interface you want to define.  
You are prompted for the interfaces parameters.  
ping  
statistics  
logout  
3 To accept the value in brackets, press Return or Enter at the prompt.  
4 Enter the IP address of the interface.  
5 Enter the subnet mask of the network to which the interface is to be  
connected.  
6 Enter the cost value of the interface.  
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What’s New at Revision 8.2.3?  
11  
7 Enter the advertisement address to be used on the interface.  
8 Enter the number of the VLAN whose interface you are defining.  
Example:  
Select IP stack by slot {1-3,5,7,9-12} [1]: 5  
Enter IP address: 158.101.1.1  
Enter subnet mask [255.255.0.0]: 255.255.255.0  
Enter cost [1]:  
Enter advertisement address(es) [158.101.1.255]:  
IP VLANs:  
Index  
Ports  
1-8  
9-12  
3
4
Select VLAN index: 3  
Routing on FESM Modules  
This release supports IP routing and IP multicast routing on FESM modules.  
For more information on IP multicast routing, see Appendix A, “IP Multicast  
Routing.”  
Each switching module or HSI switch engine operates as a separate IP router.  
This strategy means that each non-HSI module (such as the ESM, EFSM, or  
TMM-FE module) has its own interfaces, routing table, ARP cache, and  
statistics, and each HSI switch engine has its own interfaces, routing table,  
ARP cache, and statistics.  
Additional RMON MIB Support  
The FESM RMON Management Information Base (MIB) contains standard  
MIB variables that are defined to collect comprehensive network statistics  
and proactively alert a network administrator to significant network events.  
If the embedded RMON agent operates full time, it collects data on the  
correct port when an event occurs.  
RMON Support for FDDI Switched Ports  
Revision 8.2.3 Extended Switching software supports the following  
RMON/FDDI extensions as specified in the AXON Enterprise-specific MIB:  
axFDDI — axFDDI group 1  
axFDDIHistory — axFDDI group 2  
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12  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Enabling and Disabling STP Transitions on linkState Changes  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
snmp  
analyzer  
script  
display  
mode  
The menu item stpFollowLinkState has been added. It allows you to enable  
or disable Spanning Tree transitions on linkState changes. The default is  
enabled.  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFddiMode  
addressThreshold  
agingTime  
stpState  
stpFollowLinkState  
stpPriority  
When enabled and the link goes down, stpState transitions to disabled. If the  
link comes up, Spanning Tree moves through its normal states.  
logout  
When disabled, the link state has no effect on the stpState. If the link goes  
down, the stpState remains in its current state.  
stpMaxAge  
stpHelloTime  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
If you are a Windows 95 client and directly connected to a CoreBuilder 6000  
and running IPX, you must disable stpFollowLinkState. If you are not a  
Windows 95 client, do nothing.  
packetFilter  
vlan  
To enable or disable Spanning Tree transitions:  
1 From the top level of the Administration console, enter:  
bridge stpFollowLinkState  
2 To enable Spanning Tree transitions, enter:  
enabled  
To disable Spanning Tree transitions, enter:  
disabled  
Displaying Bridge Information  
You can display the current setting for stpFollowLinkState. The display  
includes bridge statistics (such as topology change information) and  
configurations for the bridge.  
Top-Level Menu  
system  
display  
etherne
summary  
detail  
mode  
fddi  
lowLaten
tokenrin
bridge  
ip  
snmp  
analyzer  
script  
multicastLimit  
ipFragme
To display the bridge information:  
1 From the top level of the Administration console, enter:  
bridge port summary  
stpState  
stpCost  
stpPriority  
srRingNumber  
srHopLimit  
address  
ipxSnapT
trFddiMo
addressT
agingTim
stpState  
logout  
stpPriorit
stpMaxAge  
OR  
stpHelloTime  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
packetFilter  
vlan  
bridge port detail  
The system prompts you for slot number(s).  
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What’s New at Revision 8.2.3?  
13  
Sample display of bridge port information:  
stpState  
disabled  
timeSinceLastTopologyChange  
0 hrs 0 mins 0 secs  
stpFollowLinkState  
enabled  
topologyChangeCount  
0
topologyChangeFlag BridgeIdentifier  
false 8000 00803elbf216  
designatedRoot  
stpGroupAddress  
bridgeMaxAge  
20  
0000 000000000000  
01-80-c2-00-00-00  
maxAge  
20  
bridgeHelloTime  
2
helloTime  
2
bridgeFwdDelay  
15  
forwardDelay  
15  
holdTime  
1
rootCost  
0
rootPort  
No port  
priority  
0x8000  
agingTime  
300  
mode  
addrTableSize  
32678  
transparent  
addressCount  
40  
peakAddrCount  
40  
addrThreshold  
32000  
ipFragmentation  
enabled  
ipxTranslation  
disabled  
lowLatency  
disabled  
bufferLimit  
n/a  
trFDDiMode  
n/a  
SRBridgeNumber  
n/a  
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14  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Whats New at  
Revision 8.2.0?  
This section describes the new features, software enhancements, and  
corrections that are implemented at this release.  
New Features The following features have been added at this release.  
Fast Ethernet Switching Module (FESM) Support  
The Fast Ethernet Switching Module (FESM) provides high-function  
switching of traffic among Fast Ethernet workstations and subnetworks over  
the multigigabit high-speed interconnect (HSI) bus of the CoreBuilder 6000  
system.  
The FESM module has two configurations:  
Eight 100BASE-TX ports that use RJ-45 connectors  
These ports support connections to unshielded twisted pair (UTP) Category  
5 media.  
Six 100BASE-FX ports that use SC connectors  
These ports support connections to multimode fiber media.  
The FESM automatically learns the MAC-layer addresses of workstations  
on attached subnetworks and forwards packets to their appropriate  
destinations. When used with CoreBuilder Extended Switching software,  
the FESM also supports routing between attached subnetworks. In  
addition, the FESM fully complies with the IEEE 802.1d bridging  
standard.  
The FESM requires CoreBuilder 6000 software revision 8.2.0 or greater. This  
software, in turn, requires that you install one of the following LANswitching  
Management Module Plus (LMM+) versions in system slot 1:  
Revision 1.21 or greater of the revision 1 LMM+  
Revision 2.12 or greater of the revision 2 LMM+  
CAUTION: If you attempt to run CoreBuilder system software 8.2.0 or greater  
on an earlier revision of the LMM+, the system fails to reboot when you turn  
it on.  
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What’s New at Revision 8.2.0?  
15  
To verify that you have an LMM+ module and not an LMM module installed:  
1 Verify that the module’s ejector tab is labeled “LMM+.  
2 Determine the revision level of your LMM+. From the top level of the  
Administration Console, enter:  
system display  
To upgrade your LMM or LMM+, see “Upgrading Your LMM or LMM+” on  
page 1.  
FESM and FSM HSI Switch Engine  
You can combine the Fast Ethernet Switching Module (FESM) and the FDDI  
Switching Module (FSM) into a multiboard high-speed interconnect (HSI)  
switch engine.  
An HSI switch engine is a combined set of FSMs, FESMs, or both, which,  
when inserted into the HSI bus according to specific configuration rules,  
operates as a single switch. Multiple FSMs and FESMs in a single HSI switch  
engine form a bridge out of the combined set of external ports on all  
modules in that switch engine. As a new module is added to an existing HSI  
switch engine, configuration information for the existing HSI switch engine  
is added to the new module. You must manually configure any port-specific  
information.  
Ability to Administer Fast Ethernet Ports  
New menus on the Administer menu allow you to administer Fast Ethernet  
ports on the Fast Ethernet Switching Module (FESM) and the Tri-Media Fast  
Ethernet Module (TMM-FE). You can now configure Fast Ethernet ports to  
support:  
Full-duplex operation  
Intelligent flow management (IFM)  
Full-duplex operation. By default, FESM and TMM Fast Ethernet ports  
operate in half-duplex mode. In this mode, data flows through the port in  
only one direction at a time. When you change this operating mode to  
full-duplex, the port transmits and receives data at the same time  
through two separate channels.  
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16  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Full-duplex mode eliminates both the links collision domain and the  
need for collision detection. As a result, full-duplex point-to-point links  
can be much longer than half-duplex links.  
To configure a port for full-duplex operation:  
The items available on the top-level menus in this section vary depending on  
your level of access and on the modules installed in your CoreBuilder 6000  
chassis.  
Top-Level Menu  
1 From the top level of the Administration Console, enter:  
ethernet fastEthernet duplexMode  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
summary  
detail  
fastEthernet  
label  
s
duplexMode  
ifm  
A prompt similar to the following one appears:  
Select slot(s) (10-12|all):  
portState  
ipx  
appletalk  
snmp  
analyzer  
script  
This prompt indicates that the CoreBuilder 6000 system contains  
configurable Fast Ethernet ports in slots 10, 11, and 12.  
2 Enter the number(s) of the slot(s) that contain ports that you want to  
logout  
set to full-duplex mode:  
10-12  
For each slot you enter, the system prompts you for specific port  
numbers:  
Select Ethernet port(s) (1-8,all):  
3 Enter the number(s) of the port(s) that you want to configure:  
1,2,5-7  
The system displays this message:  
Warning: Changing mode to full duplex disables collision  
detection. The device connected to this port must be  
configured for the same duplex mode.  
Do you want to change the duplex mode (n,y) [y]:  
The CoreBuilder 6000 system does not support autonegotiation of duplex  
mode between devices. You must configure any device attached to this port  
to the same duplex mode as the port.  
4 Enter y for Yes, n for No.  
You receive the prompt to select each port’s duplex mode:  
Enter new value (full, half) [half]:  
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What’s New at Revision 8.2.0?  
17  
5 Enter full to set the port to full-duplex mode or half to set the port  
to half-duplex mode.  
Default The ports current setting is indicated in brackets. To select this default,  
press Return. This action leaves the port duplex mode unchanged.  
6 Repeat steps 4 and 5 to configure all the selected ports in all the  
selected slots.  
Changing the mode to full-duplex disables collision detection on these ports.  
Intelligent Flow Management (IFM). Intelligent flow management  
(IFM) is a congestion control mechanism that is built into the  
CoreBuilder system. You should implement IFM on any Fast Ethernet  
port that has a high volume of traffic. By default, IFM is enabled on  
CoreBuilder module ports.  
Congestion is caused when one or more devices send traffic to an already  
congested port. If the port is connected to another CoreBuilder system or to  
an end station, IFM minimizes packet loss and inhibits the sending device  
from generating more packets until the congestion ends.  
Intelligent flow management is supported only on half-duplex ports. It is  
disabled on port that are configured for full-duplex mode. 3Com  
recommends that you disable IFM on network segments that are connected  
to repeaters.  
To apply IFM to a half-duplex Fast Ethernet port:  
1 From the top level of the Administration Console, enter:  
ethernet fastEthernet ifm  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
summary  
detail  
fastEthernet  
label  
s
duplexMode  
ifm  
A prompt similar to the following one appears:  
Select slot(s) (10-12|all):  
portState  
ipx  
appletalk  
snmp  
analyzer  
script  
This prompt indicates that the CoreBuilder 6000 system contains  
configurable Fast Ethernet ports in slots 10, 11, and 12.  
2 Enter the number(s) of the slot(s) that contain ports that you want to  
logout  
set to IFM mode:  
10-12  
Default To select the default all, press Return.  
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18  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
For each slot that you enter, the system asks for specific port numbers:  
Select Ethernet port(s) (1-8,all):  
3 Enter the number(s) of the port(s) that you want to configure:  
1,2,5-7  
Default To select the default all, press Return.  
Enter enableor disableto select the IFM mode for each selected port:  
Enter new value (disabled, enabled) [disabled]:  
4 Enter enabledto set the port to IFM mode or disabledto deactivate IFM  
for the port.  
Default To select the port’s current setting, shown in brackets, press Return. This  
action leaves the port setting unchanged.  
5 Repeat step 4 to configure all selected ports in all selected slots.  
Bridge MIB Support for the FESM  
FESM support has been added to the Bridge MIB.  
Filter MIB Support  
To support Filter Builder software, this revision adds the Filter MIB (address  
group, port group, and bridge packet filter program). See the Filter Builder  
Getting Started Guide, which is shipped with the Filter Builder software, for  
more information about the Filter Builder product.  
FTP Packet Filter Program Transfers via SNMP  
You can now use File Transfer Protocol (FTP) to transfer a user-defined  
packet filter program from a remote server to a CoreBuilder switching  
module through the SNMP lpsFtTable MIB.  
Disconnecting an Active telnet or rlogin Session  
Modifications to the telnet and rlogin features of the CoreBuilder 6000  
system now allow you to preempt users by forcing a disconnection. This  
administrative feature requires that you use the system Administer  
password at the Administration Console.  
The rlogin usage is identical to the telnet usage. Simply substitute rlogin  
wherever you see telnet.  
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What’s New at Revision 8.2.0?  
19  
telnet Implementation. When you attempt to use the telnet command to  
enter a system that is being used by another telnet connection, the system  
displays:  
Sorry, this system is engaged by another telnet session.  
Host IP address: xxx.xxx.xxx.xxx  
Logout the other telnet session? (Y/N) y  
Enter Password: correctpassword  
The first telnet session is disconnected and the system displays:  
LOGGING OUT the other telnet session.  
You can then connect in the usual manner.  
CAUTION: When you preempt a telnet or rlogin session in this manner, the  
current session user receives no notice that the session will be disconnected.  
If you enter an incorrect password, the system displays:  
Incorrect password. Disconnecting.  
The system disconnects after it receives three incorrect attempts at the  
Administer-level password.  
If you respond n to the request to disconnect, your session disconnects  
and the original connection remains established. The system displays:  
Disconnecting  
If you respond yat the Logout the other telnet session?prompt and  
it is not accepted, it is probably because of the telnet configuration on the  
UNIX host. To force the system to accept your response to the prompt,  
follow these steps:  
1 Escape to the telnet session by pressing Ctrl+}  
2 Set the cr/lf option by entering either of these commands:  
set crlf  
OR  
toggle crlf  
Press Return or Enter to redisplay the prompt. Your response should now be  
accepted.  
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20  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
STP linkState Changes  
The linkState of a port is now a factor in determining the Spanning Tree port  
state. This change helps prevent bridge loops when making network  
connections to previously inactive ports.  
The bridge port summary and the bridge port detail screens include a new  
linkState column.  
Top-Level Menu  
system  
etherne
fddi  
tokenrin
bridge  
ip  
snmp  
analyzer  
script  
display  
mode  
lowLaten
ipFragme
ipxSnapT
trFddiMo
addressT
agingTim
stpState  
stpPriorit
stpMaxAge  
summary  
detail  
To display the bridge information:  
multicastLimit  
1 From the top level of the Administration Console, enter:  
stpState  
stpCost  
stpPriority  
srRingNumber  
srHopLimit  
address  
bridge port summary  
OR  
logout  
bridge port detail  
stpHelloTime  
The system prompts you for slot number(s).  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
packetFilter  
vlan  
2 Enter the number(s) of the slot(s) or all to view port parameters for all  
bridges in the system.  
The system prompts you for the port type.  
3 Enter Ethernet  
The system prompts you for port number(s).  
4 Enter the number(s) of the port(s) or all to view port parameters for all  
ports on the bridge.  
Sample screen showing the display after the changes:  
port rxFrames rxDiscards  
txFrames  
FDDI 1  
0
0
0
0
0
Fast Ethernet 1  
0
Ethernet 2 59243130  
0
866810375  
...  
port  
...  
...  
...  
portId  
0x8001  
0x8002  
0x8003  
...  
fwdTransitions  
FDDI 1  
0
0
Fast Ethernet 1  
Ethernet 2  
...  
0
...  
port  
stp  
linkState  
n/a  
state  
FDDI 1 enabled  
Fast Ethernet 1 enabled  
Ethernet 2 enabled  
forwarding  
disabled  
forwarding  
down  
up  
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What’s New at Revision 8.2.0?  
21  
Note these additional items:  
The linkState up or down settings apply to Ethernet and Fast Ethernet  
ports, not to FDDI ports, and only when the stpState for the bridge is  
enabled. If the stpState on the Bridge menu is disabled, the State for the  
port remains in forwarding state.  
When the bridge port is in the Removed state, the State remains in  
forwarding state.  
If STP is disabled on an individual port, the State remains disabled.  
Table 1 describes the port states and how they relate to the linkState. This  
table is valid only when the stpState for the bridge is enabled.  
Table 1 Port States When stpStateIs Enabled  
If STP is  
enabled  
enabled  
disabled  
disabled  
removed  
removed  
and linkState is Then Port State is  
blocking or forwarding*  
disabled  
up  
down  
up  
disabled  
down  
up  
disabled  
forwarding  
forwarding  
down  
*The Port State is either blocking or forwarding. The final state  
depends on the Spanning Tree configuration of the network.  
CoreBuilder 6000 12-Slot Chassis  
The CoreBuilder 6000 12-slot chassis is the latest generation of the  
CoreBuilder 6000 chassis. This chassis and the 8.2.3 software release allow  
you to remove and replace the power supplies and fan trays in case of  
failure.  
Hot-swappable Power Supplies. The LED on each power supply lights  
green when the power supply is running correctly. If the power supply fails,  
the system generates a sound and the power supply LED does not light.  
You can remove and replace either of the two power supplies at the back of  
the chassis. (Turning off one of the power supplies generates a sound, and  
the control panel LCD displays Input Failure.)  
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22  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
To remove a faulty power supply and replace it with a new unit, follow  
these steps:  
1 Turn off the power supply according to the safety and removal procedures  
in the Installation Guide that is shipped with the new power supply. The  
system control panel displays the following message (where n designates  
power supply 1 or power supply 2):  
Power Supply n: Input Failure  
2 Remove the power supply. The system generates a sound, and the system  
control panel displays the following message:  
Power supply n extracted.  
3 Insert the new power supply, following the safety warnings and instructions  
in the Installation Guide that comes with the new power supply. The system  
displays this message:  
Inserted  
This message is immediately overwritten with:  
Input Failure  
4 Turn on the power supply. The system generates a sound and the system  
control panel displays this message:  
Input restored  
Power Supply Warning Messages. This release of system software now  
displays these power supply warning messages on the control panel when  
appropriate:  
+5V Failure  
The power supply +5-volt input has failed.  
+12V Failure  
The power supply +12-volt input has failed.  
+5V Restored  
The power supply +5-volt input is restored.  
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System Issues  
23  
+12V Restored  
The power supply +12-volt input is restored.  
Power Supply Over Temp  
One of the power supplies has exceeded the allowable temperature of  
90 °C (194 °F).  
SNMP Traps. When you insert and extract either of the power supplies,  
the system generates SNMP traps.  
Hot-swappable fans. You can remove and replace either of the two fans at  
the back of the chassis. Follow the safety precautions and removal  
instructions in the Installation Guide that comes with the new fan. When  
you remove a fan tray, the system generates a sound, and the control panel  
displays the following message:  
Fan Failure  
Insert the new fan according to the safety messages and instructions in the  
Installation Guide. The fan begins to function as soon as you install it. The  
system control panel displays this message:  
Fan Restored  
System Issues  
The following system issues are identified at this release:  
If you define a DEC VLAN and an XNS VLAN, plus two other types of VLAN’s  
that are SNA, VINES, X25, or NetBIOS, you exhaust the system resources and  
the system displays an error message.  
If the FESM diagnostic test fails on a system power-up and the following  
error message appears, you need to reboot the system:  
FAIL  
--Test[3]: FSM/FESMPowerupDiag(MACTest)failed.  
-- B3 in slot 10 FAILED diagnostics  
Diagmgr  
: Diagnostics failed for slot 10, error 2  
The first line in a user-defined packet filter must contain the name  
definition for that packet filter. Example:  
Name Òforward IP framesÓ  
This filter line indicates that this packet filter forwards IP frames.  
The system software does not support hot-swapping of Fast Ethernet  
Switching Modules (FESMs) and FDDI Switching Modules (FSMs).  
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24  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
3Com recommends that you hot-swap one module at a time (except FESMs  
and FSMs, as described in the previous System Issue). After you hot-swap  
one module, wait until the system completes full initialization before you  
install another module. One indication that initialization is complete is that  
the Administration Console prompt appears. Under certain circumstances,  
hot-swapping during initialization can cause a cold system boot, disrupting  
bridging.  
When the first FDDI MAC address of an FSM is assigned to the backplane,  
FDDI ports are renumbered.  
A maximum of four interfaces per system may have RMON group Host or  
RMON group Matrix enabled. A maximum of two interfaces per module can  
have RMON groups enabled.  
The ESM supports only RMON groups 1 through 4.  
Packet filtering on the transmit path is not available on frames that are  
routed by the CoreBuilder system.  
Roving Analysis is not supported on a port with an assigned IP router  
interface.  
Roving Analysis is not supported on the FESM.  
A Roving Analysis frame over a remote TMM-FE connection is truncated if  
the frame is greater than 1495 bytes.  
When configuring Roving Analysis on an ESM, the system accepts an  
unknown MAC address as the analyzer port.  
Bridging performance and routing performance are degraded on a Roving  
Analysis monitor port, or if RMON Host or Matrix groups are configured.  
EFSM packet filters can access packet data through byte 64 in packet.  
A maximum of 254 unique RMON Owner descriptions (etherStatsOwner,  
historyControlOwner, alarmOwner, and eventOwner) can be configured.  
When you install revision 8.2.0 of CoreBuilder 6000 Intelligent Switching  
software on a LMM+ that is running revision 8.2.3 Extended Switching  
software and you have defined non-IP VLANs, you must reset NVRAM  
immediately after installing the 8.2.0 Intelligent Switching software into  
flash memory. Immediately after the Console displays the message  
Installation complete, enter this command:  
system nvdata reset  
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System Issues  
25  
If you attempt to run CoreBuilder 6000 system software revision 8.2.3 on an  
LMM+ at revision 2.11 or earlier, the system fails to reboot when you turn it  
on. See “Hardware Dependencies” on page 1.  
You can configure a maximum total of 100 routing interfaces for all  
switching modules in a single CoreBuilder 6000 system.  
When your system is connected to the MBONE (the Internet’s multicast  
backbone) and multicast routing is enabled, configure a maximum of 3 slots  
for multicast routing.  
When you use the Administration Console to display all instances of a given  
MAC address in a mixed token ring and Ethernet environment, use the  
findcommand for both the noncanonical and canonical formats.  
ESMs do not support IGMP snooping. To avoid unwanted traffic, filter IP  
multicast traffic with a packet filter.  
The Ethernet Switching Module (ESM) and the Token Ring Switching  
Module (TRSM) incorrectly report transmit filter statistics.  
The ESM and TRSM FDDI packet filters cannot access packet data beyond  
byte 16 in a packet.  
VLAN statistics are not supported on the ESM.  
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26  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Known Problems  
The following software problems are identified at this release:  
To compile lpv2.mib with a version 2 compiler, perform these steps:  
1 In the IMPORTS section, add:  
RowStatus  
FROM SNMPv2-TC  
2 A few lines below, add the following RowStatus comment:  
--RowStatus ::== INTEGER (1..6)  
The new IMPORTS section now looks like this:  
LANPLEX-SYSTEMS-MIB-1-4-1 DEFINITIONS ::= BEGIN  
IMPORTS  
enterprises, Counter, Gauge, IpAddress  
FROM RFC1155-SMI  
DisplayString  
OBJECT-TYPE  
RowStatus  
FROM RFC1213-MIB  
FROM RFC-1212  
FROM SNMPv2-TC  
FROM RFC-1215  
TRAP-TYPE  
--Textual conventions  
--RowStatus as defined in SNMPv2  
--Refer to rfc1443.txt for concise definition  
--This is a place holder until lp.mib is fully compliant  
with SNMPv2  
--RowStatus ::== INTEGER (1..6)  
Do not create port groups and port group filters on the FESM or FSM.  
The FESM and TMM-FE rxFrames, txFrames, rxBytes, and txBytes statistics  
can report inaccurate values.  
The FESM FDDI MAC rxFrames, txFrames, rxBytes, and txBytes statistics can  
report inaccurate values.  
CoreBuilder 6000 system software does not route FDDI multicast frames  
that are larger than 1500 bytes (that is, frames that require fragmentation).  
The NVRAM conversion for SNMP traps does not adjust correctly after you  
install CoreBuilder software revision 8.2.3. Verify that the appropriate traps  
are enabled.  
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Known Problems  
27  
Roving Analysis cannot monitor outgoing routed packets.  
FCS error statistics report inaccurate values on the TMM-FE’s port.  
You cannot modify the port specification of an IP interface that is defined  
on the LMM+ module. To modify the port specification, remove the IP  
interface and define it again.  
An NVDATA save procedure fails if it occurs at the same instant that a MAC  
address is learned or aged out of the slot’s MAC address table.  
If both the Ethernet and the FDDI interfaces have the same class of IP  
address, their subnet masks must be the same, even though the  
Administration Console allows you to enter different subnet masks for  
these interfaces. If you enter different subnet masks, the system fails when  
you attempt to remove one of the interfaces.  
In the following example, the FDDI and the Ethernet interfaces both have  
class B IP addresses, and both have the same subnet mask:  
FDDI interface 158.101.101.1Subnet mask: 255.255.0.0  
Ethernet interface: 158.101.20.1Subnet mask: 255.255.0.0  
Do not assign different subnet masks to these interfaces (such as  
255.255.255.0and 255.255.0.0) if they have the same class of IP address.  
Changing the port speed or port mode before setting a system baseline on  
the TRSM can cause incorrect Token Ring port and bridge port statistics.  
Some bridge port statistics are not counted on the TRSM’s Token Ring ports.  
The following statistics report 0 in the bridge port display for Token Ring  
ports on the TRSM: rxDiscard, rxFloodUcasts, rxForwardMcasts, and  
rxForwardUcasts.  
When running large scripts, you can receive the following message after the  
script is complete:  
Received ftpCommand Quit not completed errno 421  
To be sure that the script has run successfully, verify that the last two  
commands in the script have run successfully.  
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28  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Performing a manual nvdata restorerestores configurations to slots  
even if the configurations have been specified not to restore.  
When you restore NV data, the system proposes a method of restoration  
based on restoration rules. You are prompted to load the proposal. Entering  
yesrestores the system NV data as proposed. Entering nodisplays the saved  
configuration for you to load manually.  
When you install software from an unreachable device using the SNMP lpsFt  
MIB, the system reports the incorrect status “statusFileNotFound, rather than  
the correct status “statusRemoteUnreachable.  
When you install software using the SNMP lpsFt MIB and you specify an  
invalid Username/Password pair, the system reports the incorrect status  
”statusFileNotFound, rather than the correct status “statusUserAuthFailed.  
When you install software using the SNMP lpsFt MIB, the installation fails  
unless you specify a user password.  
If you are upgrading from system software revision 8.0.2, and you have an  
out-of-band Ethernet connection, 3Com recommends you remove the  
out-of-band Ethernet connection before rebooting the system. The  
connection may be reestablished after rebooting.  
Under certain network conditions involving errored source routed frames, it  
is possible for the system to reset with a panic line 55 or line 78.  
SNMP MIB Files  
SNMP MIB files are shipped with the CoreBuilder 6000 system software as  
ASN.1 files on one of the software diskettes. Copies of ASN.1 files are  
provided for each of the compilers described in “Compiler Support.”  
Supported Versions The SNMP MIB file names and the currently supported version of each MIB  
are listed here:  
bridge.mib — Bridge MIB, RFC 1493  
ethernet.mib — Ethernet MIB, RFC 1398  
fddiSmt7.mib — FDDI SMT 7.3 MIB, RFC 1512  
filter.mib  
if.mib — If MIB, RFC 1573  
lpsFt.mib  
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SNMP MIB Files  
29  
lp.mib — LANplex Systems MIB, version 1.3.0  
lpOpFddi.mib — LANplex Optional FDDI MIB, version 1.2.1  
mib2.mib — MIB-II, RFC 1213  
rmon.mib — RMON MIB, RFC 1757  
srbridge.mib —Source Routing MIB RFC1525  
vlan.mib — LANplex VLAN MIB  
Compiler Support ASN.1 MIB files are provided for each of the MIB compilers in this list. Any  
warnings or exceptions related to a compiler are listed with it.  
SMIC (version 1.0.9)  
MOSY (version 7.1)  
For the MIB file lpOpFddi.mib, the MOSY compiler reports warnings for  
counter names that do not end in “s. This report has no effect on the  
output produced by the MOSY compiler.  
HP Openview (version 3.1)  
mib2schema (with SunNet Manager version 2.0)  
The MIB file fddiSmt7.mib produces the following warning messages when  
the file is compiled using mib2schema:  
Translating....  
Warning: The following INDEX entries in fddimibMACCountersTable  
not resolved:  
fddimibMACSMTIndex  
fddimibMACIndex  
Translation Complete.  
Schema file in ÒfddiSmt7.mib.schemaÓ  
Oid file in ÒfddiSmt7.mib.oidÓ  
These warning messages have no effect on the ability of SunNet Manager  
to use the schema file generated with SunNet Manager versions 2.0 or later.  
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30  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Revision History  
Table 2 describes the previous releases of the CoreBuilder 6000 Extended  
Switching software.  
Table 2 Revision History for CoreBuilder 6000 Software  
Revision Number  
Description of Release  
8.2.1/8.2.3  
New features:  
Software support for protocol-based VLANs  
Support for seven RMON data groups  
IP interface configuration change  
Routing on FESM Modules  
Additional RMON MIB support  
RMON support for FDDI switched ports  
8.2.0  
New features:  
Fast Ethernet Switching Module (FESM) support  
FESM and FSM Switch Engine  
Ability to administer Fast Ethernet Ports  
Bridge MIB support for the FESM  
Filter MIB support  
FTP packet filter program transfers via SNMP  
Disconnecting an active telnet or rlogin session  
STP linkState changes  
CoreBuilder 6000 12-slot Chassis  
8.0.2  
8.0.1  
Updated system diagnostics  
New feature:  
Support for IP routing on the FDDI Switching Module (FSM)  
(continued)  
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Revision History  
31  
Table 2 Revision History for CoreBuilder 6000 Software (continued)  
Revision Number  
Description of Release  
8.0.0  
New features:  
Support for the FDDI Switching Module (FSM)  
Support for the EFSM TP-DDI Module  
Support for RMON  
RMON MIB support added  
State field added to interface display  
System menu item upTime added  
New FDDI MAC statistic rxErrors  
New fields added to FDDI MAC summary and detail displays  
Configurable Source Route hop count limit  
LANplex® MIB support updates  
Bridge MIB support added for the FSM  
New If MIB added  
7.0.0  
New features:  
Support for the Tri-Media Module (TMM)  
Support for IP Multicast on the Ethernet/FDDI Switching  
Module (EFSM)  
Support for the IBM Spanning Tree Protocol on the Token  
Ring Switching Module (TRSM)  
Support for configuring the Spanning Tree Protocol (STP)  
group address  
Support for Token Ring and Source Routing MIBs  
Menu change (ip forwarding to ip routing)  
Configuration change to enable or disable routing  
Support for telnet and rlogin session termination after a  
user-specified time interval  
Support for 64 IP static routes on each EFSM  
(continued)  
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32  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
Table 2 Revision History for CoreBuilder 6000 Software (continued)  
Revision Number  
6.0.0  
Description of Release  
New feature:  
Support for the Token Ring Switching Module (TRSM)  
New features:  
5.0.0  
Support for LMM+ management module  
Support for IPX Routing  
Support for AppleTalk Routing  
4.3.0  
New features:  
UDP Helper  
IPX Snap Translation Option  
Support for EFSM Type 1, 10BASE-2 (BNC) module  
Support for EFSM Type 2, 10BASE-T (RJ-45) and 10BASE-FL  
(FOIRL) option modules with SAS FDDI (MIC) ports  
Support for Single Mode Fiber (SMF) on the FCM module  
Support for the 48-volt power supply  
4.1.0  
New features:  
Support for EFSM Type 1, 10 BASE-T (RJ-21, Telco), 10BASE-T  
(RJ-45), and 10BASE-FL (FOIRL)  
Roving Analysis for Ethernet network monitoring (ESM and  
EFSM)  
Support for Multiple SNMP Agents  
Multistation Mode  
FDDI Backplane Paths  
Enhanced Administration Console User Guide  
3.1.9  
Maintenance release  
(continued)  
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Revision History  
33  
Table 2 Revision History for CoreBuilder 6000 Software (continued)  
Revision Number  
Description of Release  
3.1.7  
Maintenance release  
MIB support removed:  
The Ethernet MIB attributes, requestedEnabledPaths and  
enabledPaths, are no longer supported.  
The LANplex SNMP MIB traps,  
lpBridgePortAddressLearnedEvent and  
lpBridgePortAddressForgottenEvent, are no longer supported.  
3.1.5  
3.1.4  
New feature:  
Support for SMT MIB path attribute Ring Latency  
New features:  
ESM 10BASE-2 (BNC) media support  
IP advertisement address configuration support  
3.1.1  
3.0.1  
New features:  
IP routing functionality  
TP-DDI media support  
Nonvolatile data save and restore functionality  
New feature:  
Baselining of Ethernet and FDDI statistics functionality  
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34  
COREBUILDER 6000 EXTENDED SWITCHING SOFTWARE REVISION 8.2.3  
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IP MULTICAST ROUTING  
A
Overview  
This appendix describes how to set up your CoreBuilder 6000 system to  
use IP multicast routing. Before you define any IP multicast interfaces, you  
should have previously defined IP interfaces and routes as described in the  
LANplex® 6000 Extended Switching User Guide.  
This appendix includes information on how to display or configure the  
following parameters:  
Enabling and disabling the Distance Vector Multicast Routing Protocol  
(DVMRP)  
Enabling and disabling the Internet Group Membership Protocol (IGMP)  
Administering IP multicast interfaces  
Administering multicast tunnels  
Route display  
Cache display  
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A-2  
APPENDIX A: IP MULTICAST ROUTING  
Enabling and  
Disabling DVMRP  
DVMRP is the simple Distance Vector Multicast Routing Protocol, similar to  
the IP Routing Information Protocol. Multicast routers exchange distance  
vector updates that contain lists of destinations and the distance in hops to  
each destination. The routers maintain this information in a routing table.  
To run multicast routing, you must enable DVMRP, which enables it on all IP  
interfaces that have not been disabled.  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
1 To enable or disable DVMRP, from the top level of the Administration  
interface  
route  
arp  
multicast  
udpHelper  
routing  
icmpRouter
rip  
ping  
statistics  
dvmrp  
igmp  
interfaces  
tunnel  
routeDisplay  
cacheDisplay  
Console, enter:  
ip multicast dvmrp  
2 Enter the slot of the switching module for which you want to enable  
DVMRP.  
logout  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
3 The interface prompts you to enable or disable DVMRP. The default is  
disabled.  
Slots 9-12 - Enter DVMRP mode (disabled, enabled) [disabled]:  
enabled  
Enabling and  
Disabling IGMP  
IGMP enables a router or switch to determine whether group members  
exist in a subnetwork, or “leaf,” of the Spanning Tree. It uses two search  
methods to make this determination:  
Query mode — The router or switch with the lowest IP address in the LAN  
broadcasts a query to all other members of the subnetwork to determine  
whether they are also in the group. End-stations respond to the query with  
IGMP packets, which report the multicast group to which they belong.  
Snooping mode — A router or switch performs dynamic multicast  
filtering based on IGMP snooping. This procedure ensures that multicast  
packets are flooded only to the appropriate ports within a routing interface.  
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Administering IP Multicast Interfaces  
A-3  
When you select the IGMP option, the interface prompts you to enable or  
disable IGMP snooping mode and IGMP query mode. Both are enabled by  
default. Under most conditions, IGMP snooping mode and IGMP query  
mode should remain enabled.  
Top-Level Menu  
To enable or disable IGMP, from the top level of the Administration Console,  
enter:  
system  
ethernet interface  
fddi  
tokenring arp  
bridge  
ip  
ipx  
appletalk icmpRouterD
snmp  
dvrmp  
igmp  
route  
ip multicast igmp  
interface  
tunnel  
multicast  
udpHelper  
routing  
1 Enter the slot of the switching module for which you want to enable IGMP.  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
routeDisplay  
cacheDisplay  
rip  
ping  
statistics  
analyzer  
script  
2 The interface prompts you to enable or disable IGMP query mode and IGMP  
snooping mode. If an IP interface has been defined on an EFSM or a TMM  
module in the CoreBuilder system, IGMP snooping mode is enabled by  
default.  
logout  
Slots 9-12 - Enter IGMP snooping mode (disabled, enabled)  
[enabled]: enabled  
Administering IP  
Multicast  
Interfaces  
The IP multicast interface selections allow you to enable and disable  
multicast characteristics on previously defined IP interfaces. A multicast  
interface has three characteristics, explained next.  
DVMRP Metric Value  
The DVMRP metric value determines the cost of a multicast interface. The  
higher the cost, the less likely it is that the packets will be routed over the  
interface. The default value is 1.  
Time To Live (TTL) Threshold  
The TTL threshold determines whether the interface will forward multicast  
packets to other switches and routers in the subnetwork. If the interface TTL  
is greater than the packet TTL, then the interface does not forward the  
packet. The default value is 1, which means that the interface will forward  
all packets.  
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A-4  
APPENDIX A: IP MULTICAST ROUTING  
Rate Limit  
The rate limit determines how fast multicast traffic can travel over the  
interface in kilobytes per second. Multicast traffic may not exceed this rate  
limit or the CoreBuilder system will drop packets in order to maintain the  
set rate. The default is set to 0, which implies no rate limit. In all other  
instances, the lower the rate limit, the more limited the traffic over the  
interface.  
Displaying To display a multicast interface:  
Multicast Interfaces  
Top-Level Menu  
1 From the top level of the Administration Console, enter:  
system  
ethernet  
fddi  
interface  
route  
arp  
dvmrp  
igmp  
interface  
tunnel  
routeDisplay  
cacheDisplay  
ip multicast interface display  
display  
enable  
disable  
tokenring  
multicast  
udpHelper  
routing  
bridge  
ip  
ipx  
2 Enter the slot of the switching module from which you want to display a  
multicast interface.  
icmpRoute
appletalk  
snmp  
rip  
ping  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
analyzer  
script  
logout  
statistics  
Enter the index numbers of the interfaces you want to display.  
Example multicast interface configuration for the slot:  
Index Local Address Metric Threshold RateLimit State  
1
158.101.112.32 1  
1
0
queries  
pkts in:0  
pkts out:0  
port 3 peers  
158.101.112.204 (3.6) (0x8e)  
158.101.112.202 (3.6) (0x8f)  
port 3 groups  
port 4 groups  
224.2.127.255  
224.2.143.24  
224.2.143.24  
(3.6) (0x8e)  
224.2.127.225  
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Administering IP Multicast Interfaces  
A-5  
Disabling Multicast To disable multicast routing on an interface:  
Interfaces  
1 From the top level of the Administration Console, enter:  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
ip multicast interface disable  
interface  
route  
arp  
multicast  
udpHelper  
routing  
icmpRoute
rip  
ping  
statistics  
dvmrp  
display  
igmp  
enable 2 Enter the slot(s) of the switching module for which you want to disable a  
interfac
tunnel  
routeDisplay  
cacheDisplay  
disable  
multicast interface.  
Select IP stack by slot (2,3,7,9-12|all) [12]:  
3 Enter the index number of the IP interface you want to disable.  
logout  
Enter an IP interface index {1-2}:  
The interface is disabled.  
Enabling Multicast Multicast routing is enabled on all existing IP interfaces when you have not  
Interfaces specifically disabled it. You can use this option to change the characteristics  
of an existing interface or to enable an interface that you had previously  
disabled.  
To enable a multicast interface or modify the multicast characteristics of an  
existing IP interface:  
Top-Level Menu  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
1 From the top level of the Administration console, enter:  
interface  
route  
arp  
multicast  
udpHelper  
routing  
icmpRoute
rip  
ping  
statistics  
dvmrp  
igmp  
interfac
tunnel  
routeDisplay  
cacheDisplay  
ip multicast interface enable  
display  
enable  
disable  
2 Enter the slot of the switching module for which you want to enable a  
multicast interface.  
3 Enter the index number(s) of the interface(s) you want to enable.  
4 Enter the DVMRP metric value of the chosen interface(s).  
5 Enter the Time To Live (TTL) threshold of the chosen interface(s).  
6 Enter the rate limit of the chosen interface(s).  
logout  
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A-6  
APPENDIX A: IP MULTICAST ROUTING  
Example:  
Select IP stack by slot (2,3,7,9-12|all) [12]:  
Enter an IP interface index [1]: 2  
Enter Interface DVMRP metric [1]: 1  
Enter Interface TTL threshold [1]:  
Enter interface rate limit in KBits/sec [0]:  
Administering  
Multicast Tunnels  
A multicast tunnel allows multicast packets to cross several unicast routers  
to a destination router that supports multicast. A tunnel has two end points.  
The local end point is associated with an interface on the CoreBuilder router.  
When you define the tunnel, you specify the associated index on the local  
CoreBuilder router and then the characteristics of the tunnel. Tunnel  
characteristics are the same as those of an interface. You also specify the IP  
address of the remote multicast router.  
Not all multicast configurations require a tunnel. The only configurations  
that require a tunnel are those that require a connection between two  
multicast internetworks through one or more unicast routers.  
Displaying To display the IP multicast tunnels on the router:  
Multicast Tunnels  
1 From the top level menu of the Administration Console, enter:  
ip multicast tunnel display  
Top-Level Menu  
system  
ethernet  
interface  
2 Enter the slot of the switching module for which you want to display a  
dvmrp  
igmp  
interface  
tunnel  
routeDisplay  
route  
arp  
multicast  
udpHelpe
routing  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
multicast interface.  
display  
define  
remove  
Select IP stack(s) by slot (2,3,7,9-12|all) [9]:  
cacheDisplay  
icmpRout
rip  
ping  
statistics  
logout  
Example IP multicast tunnel configuration:  
Index Local Address Remote Address Metric Threshold RateLimit State  
158.101.112.204 137.39.229.98 2 255 500  
pkts in:320069 pkts out:0  
peers 137.39.229.98 (3.8) (0xe)  
1
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Administering Multicast Tunnels  
A-7  
Defining a To define a multicast tunnel:  
Multicast Tunnel  
1 From the top level of the Administration Console, enter:  
Top-Level Menu  
ip multicast tunnel define  
system  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
interface  
route  
arp  
multicast interface  
udpHelp
routing  
icmpRou
rip  
ping  
dvmrp  
igmp  
2 Enter the slot(s) of the switching module for which you want to define a  
display  
define  
remove  
multicast tunnel.  
tunnel  
routeDisplay  
cacheDisplay  
3 Enter the index number(s) of the interface(s) with which you want to  
associate a multicast tunnel.  
statistics  
logout  
4 Enter the IP address of the destination multicast router.  
The IP address of the destination multicast router must be a remote address.  
The destination router cannot be directly connected to the same  
subnetworks as the local IP address.  
5 Enter the DVMRP metric value of the tunnel.  
6 Enter the Time To Live (TTL) threshold of the tunnel.  
7 Enter the rate limit of the tunnel.  
Example:  
Select IP stack by slot {2,3,7,9-12|all} [9]:  
Enter an IP interface index [1]: 2  
Enter remote IP address: 192.9.200.40  
Enter tunnel DVMRP metric [1]: 1  
Enter tunnel TTL threshold [1]:  
Enter tunnel rate limit [0]:  
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A-8  
APPENDIX A: IP MULTICAST ROUTING  
Removing a To remove an IP multicast tunnel:  
Multicast Tunnel  
Top-Level Menu  
1 From the top level of the Administration Console, enter:  
system  
ip multicast tunnel remove  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
interface  
route  
arp  
multicast  
udpHelpe
routing  
routeDisplay  
icmpRout
rip  
ping  
dvmrp  
igmp  
interface  
display  
define  
remove  
2 Enter the slot(s) of the switching module for which you want to remove a  
tunnel  
multicast tunnel.  
cacheDisplay  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
statistics  
3 Enter the index number(s) of the interfaces associated with the tunnel you  
logout  
want to remove.  
Enter multicast tunnel index [1]: 2  
The tunnel is removed.  
Displaying Routes To display all available routes in the IP multicast routing table:  
1 From top level of the Administration Console, enter:  
Top-Level Menu  
system  
ip multicast routeDisplay  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
interface  
route  
arp  
multicast  
udpHelpe
routing  
dvmrp  
igmp  
interface  
tunnel  
2 Enter the slot(s) of the switching module for which you want to view IP  
multicast routes.  
routeDisplay  
appletalk  
snmp  
icmpRoutcacheDisplay  
rip  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
analyzer  
script  
logout  
ping  
statistics  
3 The DVMRP and IGMP status appear on the screen.  
Slots 9-12 - DVMRP is disabled, IGMP snooping is enabled  
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Displaying Routes  
A-9  
The following display shows all available multicast routes:  
Multicast Routing Table (2598 entries)  
Origin-Subnet  
157.88.29.1/32  
137.39.2.254/32  
131.215.125.236/32 137.39.229.98  
130.118.106.254/32 137.39.229.98  
129.127.118.12/32 137.39.229.98  
129.127.110.12/32 137.39.229.98  
129.127.110.11/32 137.39.229.98  
129.127.110.5/32 137.39.229.98  
129.95.63.12/32  
129.95.63.11/32  
129.95.63.9/32  
129.95.63.8/32  
129.95.63.6/32  
129.95.63.2/32  
129.95.48.3/32  
129.95.48.2/32  
From-Gateway  
137.39.229.98  
137.39.229.98  
Metric Tmr In-If Out-Ifs  
18  
5
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
25 T1  
I1  
I1  
I1  
I1  
I1  
I1  
I1  
I1  
I1  
I1*  
I1  
I1  
I1  
I1  
I1  
I1  
14  
10  
10  
10  
13  
10  
13  
31  
13  
13  
13  
13  
13  
13  
137.39.229.98  
137.39.229.98  
137.39.229.98  
137.39.229.98  
137.39.229.98  
137.39.229.98  
137.39.229.98  
137.39.229.98  
Table A-1 describes the fields in the route display.  
Table A-1 Field Attributes for Multicast Route Display  
Field  
Description  
Origin-Subnet  
From-Gateway  
Metric  
The source address and the number of bits in the subnetwork  
The interface address of the gateway  
The hop count  
Tmr  
The amount of time, in seconds, since the routing table entry was  
last reset  
1
In-If  
Interface number on which that gateway is connected. Traffic is  
expected to originate from this interface.  
Trepresents the tunnel; Pdenotes that a prune has been sent to  
this tunnel.  
1
Out-If  
Set of interfaces that the traffic will be flooded out on. Irepre-  
sents the interface.  
1
In-If and Out-If Together, these attributes define a Spanning Tree configuration.  
The system disables interfaces that comprise loops.  
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A-10  
APPENDIX A: IP MULTICAST ROUTING  
Displaying the  
Multicast Cache  
The multicast cache contains the IP source address and destination address  
for packets observed on the system. The multicast cache shows you how  
information is routed over interfaces and ports in your system.  
To display all learned routes in the multicast cache:  
1 From the top level of the Administration Console, enter:  
ip multicast cacheDisplay  
Top-Level Menu  
system  
interface  
ethernet  
dvmrp  
igmp  
interfaces  
tunnel  
routeDisplay  
route  
arp  
multicast  
udpHelper  
routing  
icmpRouterD
rip  
ping  
statistics  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
2 Enter the slot(s) of the switching module for which you want to view the  
multicast cache.  
cacheDisplay  
3 Enter the multicast source address at the prompt.  
logout  
4 Enter the multicast group address at the prompt.  
The DVMRP status and IGMP status appear on the screen.  
Example:  
Select IP stack(s) by slot (2,3,7,9-12|all) [12]:  
Enter multicast source address [131.188.0.0]  
Enter multicast group address [244.2.0.2]  
DVMRP is enabled, IGMP snooping is enabled  
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Displaying the Multicast Cache  
A-11  
The following display shows the multicast cache configuration:  
Multicast Routing Cache Table (125 entries)  
Origin  
Mcast-group  
CTmr Age PTmr In-If  
7m 11m 6m T1P  
2m 36m 2m T1P  
Out-Ifs  
I1p  
>202.242.133.128/26 224.2.0.1  
202.242.133.139  
>128.84.247/24  
128.84.247.53  
128.84.247.156  
>128.138.213/24  
128.138.213.1  
>128.206.212/24  
128.206.212.69  
>131.136.234/24  
131.136.234.103  
>138.39.25/24  
138.39.25.48  
>192.5.28/24  
192.5.28.43  
>199.94.220/24  
199.94.220.184  
>199.104.80/24  
199.104.80.5  
2 packets  
224.2.0.1  
43 packets  
33 packets  
224.2.0.1  
23 packets  
224.2.0.1  
8 packets  
224.2.0.1  
12 packets  
224.2.0.1  
46 packets  
224.2.0.1  
178 packets  
224.2.0.1  
10 packets  
224.2.0.1  
4 packets  
224.2.0.1  
1 packets  
224.2.0.1  
I1p  
3m 2h 2m T1P  
92s 36m 60s T1P  
3m 57m 3m T1P  
103s 4h 71s T1P  
80s 2h 48s T1P  
104s 1h 72s T1P  
3m 32m 3m T1P  
4m 6m 4m T1P  
3m 5h 3m T1P  
I1p  
I1p  
I1p  
I1p  
I1p  
I1p  
I1p  
I1p  
I1p  
I1p  
>132.197.248/21  
132.197.248.20  
>131.188/16  
131.188.2.54  
>149.127/16  
149.127.6.181  
*2492 packets 184408 bytes  
224.2.0.1  
56 packets  
2m 5h 90s T1P  
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A-12  
APPENDIX A: IP MULTICAST ROUTING  
Table A-2 describes the fields in the CacheDisplay.  
Table A-2 Field Attributes for the CacheDisplay  
Field  
Description  
Origin  
The source of the incoming packets. Entries preceded by an angle  
bracket (>) indicate a multicast subnetwork. Entries without an  
angle bracket beneath subnetwork entries are multicast routers  
within that subnetwork.  
Mcast-group  
CTmr  
The destination multicast group  
Cache timer: the amount of time a cache entry has to remain in the  
cache  
Age  
PTmr  
In-If  
Number of seconds (s), minutes (m), or hours (h) that the cache  
entry has been in existence  
The time remaining, in seconds (s), minutes (m), or hours (h), before  
another prune will be sent to prune the Spanning Tree.  
Interface number on which that gateway is connected. Traffic is  
expected to originate from this interface.  
Trepresents the tunnel; Pdenotes that a prune has been sent to  
this tunnel.  
Out-If  
Set of interfaces on which the traffic will be flooded out. Irepre-  
sents the interface.  
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REMOTE MONITORING (RMON)  
TECHNOLOGY  
B
This appendix provides an overview of RMON and describes the specific  
CoreBuilderRMON implementation.  
What Is RMON?  
The Remote Monitoring (RMON) Management Information Base (MIB)  
provides a way to monitor and analyze a local area network LAN from a  
remote location. RMON is defined by the Internet Engineering Task Force  
(IETF) in documents RFC 1271 and RFC 1757. A typical RMON  
implementation has two components:  
Probe — Connects to a LAN segment, examines all the LAN traffic on that  
segment and keeps a summary of statistics (including historical data) in its  
local memory.  
Management Console — Communicates with the probe and collects the  
summarized data from it. The console does not need to reside on the same  
network as the probe. It can manage the probe through SNMP or through  
out-of-band connections.  
The RMON specification consists almost entirely of the definition of the MIB.  
The RMON MIB contains standard MIB variables defined to collect  
comprehensive network statistics that alert a network administrator to  
significant network events. If the embedded RMON agent operates full time,  
it collects data on the correct port when the relevant network event occurs.  
This appendix includes the following information about RMON:  
Benefits of RMON  
CoreBuilder RMON implementation  
RMON groups  
Management Information Base (MIB)  
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B-2  
APPENDIX B: REMOTE MONITORING (RMON) TECHNOLOGY  
Benefits of RMON Traditional network management applications poll network devices such as  
switches, bridges, and routers at regular intervals from a network  
management console. The console gathers statistics, identifies trends, and  
can highlight network events. The console polls network devices constantly  
to determine if the network is within its normal operating conditions.  
As network size and traffic levels grow, however, the network management  
console can become overburdened by the amount of data it must collect.  
Frequent console polling also generates significant network traffic that  
itself can create problems for the network.  
An RMON implementation offers solutions to both of these problems:  
The RMON probe looks at the network on behalf of the network  
management console without affecting the characteristics and performance  
of the network.  
The RMON MIB reports by exception rather than by sending constant or  
frequent information to the network management console. The RMON  
probe informs the network management console directly if the network  
enters an abnormal state. The console can then use more information from  
the probe, such as history information, to diagnose the abnormal condition.  
CoreBuilder  
RMON  
Implementation  
The CoreBuilder Extended Switching software offers fulltime  
embedded RMON support through SNMP for seven RMON Groups.  
When combined with the Roving Analysis Port (RAP) function, RMON  
support for these groups provides a comprehensive and powerful  
mechanism for managing your network.  
You can gain access to the RMON capabilities of the CoreBuilder 6000 system  
only through SNMP applications such as Transcend® Enterprise Manager  
software, not through the serial interface or telnet. For more information  
about the details of managing 3Com devices using RMON, see the user  
documentation of 3Com’s Transcend Network Management for Windows  
suite of applications.  
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B-3  
RMON Groups  
The CoreBuilder system supports seven of the RMON groups defined by the  
Internet Engineering Task Force (IETF). Table B-1 lists these supported  
groups.  
Table B-1 RMON Groups Supported in the CoreBuilder System  
Group  
Group  
Number  
Purpose  
Statistics  
1
Maintains utilization and error statistics for the  
segment being monitored  
History  
Alarm  
Host  
2
3
4
Gathers and stores periodic statistical samples  
from the statistics group.  
Allows you to define thresholds for any MIB  
variable and trigger an alarm.  
Discovers new hosts on the network by  
keeping a list of source and destination  
physical addresses seen in good packets.  
HostTopN  
5
Used to prepare reports that describe the  
hosts that top a list ordered by one of their  
statistics.  
Matrix  
Events  
6
9
Stores statistics for conversations between  
Allows you to define actions based on alarms.  
You can generate traps, log the alarm, or both.  
RMON/FDDI Groups The CoreBuilder system supports the RMON/FDDI extensions specified in  
the AXON Enterprise-specific MIB. Table B-2 lists these supported groups.  
Table B-2 RMON/FDDI Extension Groups Supported in the CoreBuilder System  
Group  
Group Number Purpose  
axFDDI  
axFDDI group 1 Maintains utilization and error statistics for the  
segment being monitored  
axFDDIHistory  
axFDDI group 2 Gathers and stores periodic statistical samples  
from the statistics group.  
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B-4  
APPENDIX B: REMOTE MONITORING (RMON) TECHNOLOGY  
Statistics and The Statistics group records frame statistics for Ethernet and FDDI interfaces.  
axFDDI Groups The information available per interface segment includes:  
Number of received octets  
Number of received packets  
Number of received broadcast packets  
Number of received multicast packets  
Number of received packets with CRC or alignment errors  
Number of received undersized but otherwise well-formed packets  
Number of received oversized but otherwise well-formed packets  
Number of received undersized packets with either a CRC or an alignment  
error  
Number of detected transmit collisions  
Byte sizes include the 4 byte FCS, but exclude the framing bits. The number  
of the packet length counters is shown in Table B-3:  
Table B-3 Supported Ethernet and FDDI Frame Size Buckets  
Ethernet  
FDDI  
64 byte frames  
65 to 127  
22 or fewer  
23 to 63  
64 to 127  
128 to 511  
512 to 1023  
1024 to 2047  
2048 to 4095  
128 to 511  
512 to 1023  
1024 to 1518  
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RMON Groups  
B-5  
History and The History group records periodic statistical samples from the network  
and stores them for retrieval at another time. The information available  
per interface for each time interval includes:  
axFDDI Groups  
Number of received octets  
Number of received packets  
Number of received broadcast packets  
Number of received multicast packets  
Number of received packets with CRC or alignment errors  
Number of received undersized but otherwise well-formed packets  
Number of received oversized but otherwise well-formed packets  
Number of received undersized packets with either a CRC or an alignment  
error  
Number of detected transmit collisions  
Estimate of the mean physical layer network utilization  
Alarms The CoreBuilder 6000 system supports the following syntax for alarms:  
Counters  
Gauges  
Integers  
Timeticks  
These mechanisms report information about the network to the network  
administrator. Counters, for example, hold and update the number of  
occurrences of a particular event through a port, module, or switch on the  
network. Alarms monitor the counters and report instances of when  
counters exceed their set threshold.  
Counters are useful when you compare their values at specific time intervals  
to determine rates of change. The time intervals can be short or long,  
depending on what you measure. Occasionally, reading counters can give  
you misleading results.  
Counters are not infinite, which makes rate comparisons an efficient way to  
use them. When counters reach a predetermined limit, they return to 0 (roll  
over). A single low counter value might accurately represent a condition on  
the network. Or it might simply indicate that a roll over has occurred.  
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B-6  
APPENDIX B: REMOTE MONITORING (RMON) TECHNOLOGY  
When you disable a port, the application might not update some of the  
statistics counters associated with it.  
An alarm calculates the difference in counter values over a set time interval  
and remembers the high and low values. When the value of a counter  
exceeds a preset threshold, the alarm reports this occurrence.  
You can assign alarms with Transcend Enterprise Manager or any other  
SNMP network management application to monitor any counter, gauge,  
timetick, or integer. Consult the documentation for your management  
application for details on setting up alarms.  
Setting Alarm Thresholds  
Thresholds determine when an alarm reports that a counter has exceeded a  
certain value. You can set alarm thresholds through the network manually,  
and choose any value for them that is appropriate for your application. The  
network management software monitors the counters and thresholds  
continually during normal operations to provide data for later calibration.  
Example of an Alarm Threshold  
Figure B-1 shows a counter with thresholds set manually.  
Counter  
Manually set high threshold  
(user-specified)  
Manually set low threshold  
(user-specified)  
Time  
Figure B-1 Manually Set Thresholds  
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RMON Groups  
B-7  
You can associate an alarm with the high threshold, the low threshold, or  
both. The actions taken because of an alarm depend on the network  
management application.  
RMON Hysteresis Mechanism  
The RMON hysteresis mechanism provides a way to prevent small  
fluctuations in counter values from causing alarms. This mechanism  
generates an alarm only under the following conditions:  
The counter value exceeds the high threshold after previously falling below  
the low threshold. (An alarm does not occur if the value has not fallen  
below the low threshold before rising above the high threshold.)  
The counter value exceeds the low threshold after previously exceeding the  
high threshold. (An alarm does not occur if the value has not risen above  
the high threshold before falling below the low threshold.)  
In Figure B-1, for example, an alarm occurs the first time the counter  
exceeds the high threshold, but not at the second time. At the first instance,  
the counter is rising from below the low threshold, while in the second  
instance, it is not.  
Host Group The Host Group records statistics for each host, denoted by the hosts  
physical MAC address, detected on the network. The information  
available from this group for each discovered host includes:  
Number of received packets  
Number of transmitted packets  
Number of received octets  
Number of transmitted octets  
Number of transmitted broadcast packets  
Number of transmitted multicast packets  
hostTimeTable that provides all these statistics in a format indexed by the  
relative order in which the host was discovered. Host Group adds new hosts  
to the end of this table.  
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B-8  
APPENDIX B: REMOTE MONITORING (RMON) TECHNOLOGY  
HostTopN Group The HostTopN group prepares reports describing hosts that top a list  
ordered by one of their statistics. Information from this group includes:  
Number of received packets  
Number of transmitted packets  
Number of received octets  
Number of transmitted octets  
Number of transmitted broadcast packets  
Number of transmitted multicast packets  
Matrix Group The Matrix group records statistics on conversations between sets of  
addresses. The information available from this group includes:  
Number of packets transmitted from the source address to the destination  
address  
Number of octets, excluding errors, transmitted from the source address to  
the destination address  
Number of bad packets transmitted from source to destination  
3Com Transcend  
RMON Agents  
RMON requires one probe per LAN segment. Because a segment is a  
portion of the LAN separated by a bridge or router, the cost of  
implementing many probes in a large network can be high.  
To solve this problem, 3Com has built an inexpensive RMON probe into the  
Transcend SmartAgent software in each CoreBuilder 6000 system. This  
probe allows you to deploy RMON widely around the network at a cost of  
no more than that for traditional network monitors.  
Placing probe functionality inside the CoreBuilder 6000 system has these  
advantages:  
You can integrate RMON with normal device management.  
The CoreBuilder system can manage conditions proactively.  
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Management Information Base (MIB)  
B-9  
The CoreBuilder system associates statistics with individual ports and then  
takes action based on these statistics. For example, the system can generate  
a log event and send an RMON trap if errors on a port exceed a user-set  
You must assign an IP address to the CoreBuilder system to manage RMON.  
See the CoreBuilder 6000 Administration Console User Guide for  
information on how to assign an IP address.  
Figure B-2 shows an example of the CoreBuilder RMON implementation.  
LAN  
FESM module with embedded RMON probe  
Fast Ethernet ports  
Management  
console  
Figure B-2 Embedded RMON Implemented on the CoreBuilder System  
Management  
Information Base  
(MIB)  
A MIB is a structured set of data that describes the way the network is  
functioning. The management software, known as the agent, gains  
access to this set of data and extracts the information it needs. The  
agent can also store data in the MIB.  
The organization of a MIB allows a Simple Network Management Protocol  
(SNMP) network management package such as the Transcend Enterprise  
Manager application suite to manage a network device without a specific  
description of that device. 3Com ships SNMP MIB files with CoreBuilder  
Extended Switching System software as ASN.1 files.  
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B-10  
APPENDIX B: REMOTE MONITORING (RMON) TECHNOLOGY  
MIB Objects The data in the MIB consists of objects that represent features of the  
equipment that an agent can control and manage. Examples of objects  
in the MIB include a port that you can enable or disable and a counter  
A counter is a common type of MIB object used by RMON. A counter object  
might record the number of frames transmitted onto the network. The MIB  
might contain an entry for the counter object something like the one in  
Figure B-3 for the counter object.  
etherStatsPkts OBJECT-TYPE  
SYNTAX  
Counter  
ACCESS read-only  
STATUS  
DESCRIPTION  
mandatory  
This is a total number of packets  
received, including bad packets,  
broadcast packets, and multicast  
packets.  
::= { etherStatsEntry 5 }  
Figure B-3 Example of an RMON MIB Counter Object  
The displayed information includes these items:  
The formal name of the counter is etherStatsPkts (Ethernet, Statistics,  
Packets.)  
The access is read-only.  
The number of the counter’s column in the table: 5.  
The name of the table in which the counter resides is 3CometherStatTable,  
although this name does not appear in the display.  
You do not need to know the contents of every MIB object to manage a  
network. Most network management applications, including Transcend  
Enterprise Manager Software, make the MIB transparent. However, knowing  
how different management features are derived from the MIB allows you to  
better understand how to use the information that they provide.  
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VLANS ON THE  
COREBUILDER SYSTEM  
C
This appendix contains:  
A description of Virtual LAN (VLAN) concepts and their operational aspects  
in the CoreBuilder 6000 system  
Examples of VLAN configurations  
About VLANs  
The VLAN concept in LAN technology helps minimize broadcast and  
multicast traffic. It also makes end-station moves, adds, and changes  
easier for the network administrator.  
In the CoreBuilder system, VLANs allow you to:  
Create independent broadcast domains to optimize network performance  
and create firewalls  
Form flexible user groups independent of the users’ physical network  
locations  
Types of VLANs You can use several types of VLANs to group users. These types include:  
Port group VLANs  
MAC address group VLANs  
Application-oriented VLANs  
Protocol-sensitive VLANs  
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C-2  
APPENDIX C: VLANS ON THE COREBUILDER SYSTEM  
Port Group VLANs  
Port group VLANs group together one or more switch ports. This simple  
implementation of VLANs requires little configuration. All frames  
received on a port are grouped together. For example, all frames  
received on a port that is part of a port group are kept within that port  
group, regardless of the data contained in the frames. Port groups are  
useful when traffic patterns are known to be directly associated with  
particular ports. They can benefit the user by restricting traffic based on  
a set of simple rules.  
MAC Address Group VLANS  
VLANs allow a switch to make filtering decisions based on grouping  
MAC addresses together. These MAC address groups can be configured  
so that stations in the group can only communicate with each other or  
with specific network resources. This solution is good for security. It  
allows the VLAN association to move with the station. However,  
MAC-address-grouped VLANs may require complex configuration in  
comparison to other types of VLANs.  
Port group and MAC address group VLANs are supported using the packet  
filtering capabilities in the CoreBuilder system. For information on port group  
and MAC address group filtering, refer to your CoreBuilder 6000 Operation  
Guide and CoreBuilder 6000 Administration Console User Guide.  
Application-Oriented VLANS  
Using the CoreBuilder filtering capability, application-specific traffic such  
as telnet traffic or FTP traffic can be filtered based on higher-layer  
information. You create this application-oriented VLAN by configuring  
packet filters that specify data and offsets of the data within received  
packets. For example, to use a filter on a particular port for all telnet  
traffic, create a filter that discards all TCP traffic received on the telnet  
port.  
IP multicast routing and autocast VLANs are additional VLAN features in the  
CoreBuilder that can be used to group IP multicast traffic for specific  
applications.  
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About VLANs  
C-3  
Protocol-Sensitive VLANS  
When the CoreBuilder system receives data that has a broadcast,  
multicast, or unknown destination address, it forwards the data to all  
ports. This process is referred to as bridge flooding.  
Protocol-sensitive VLANs group one or more switch ports together for a  
specified network layer 3 protocol, such as IP or AppleTalk. These VLANs  
make flooding decisions based on the network layer protocol of the frame.  
In addition, for IP VLANs, you can also make flooding decisions based on  
layer 3 subnet address information. Protocol-sensitive VLANs allow the  
restriction of flood traffic for both routable and nonroutable protocols. They  
have a relatively simple configuration comprising one or more protocols  
and groups of switch ports. These protocol-sensitive VLANs operate  
independent of each other. Additionally, the same switch port can belong  
to multiple VLANs. For example, you can assign port 1 on a CoreBuilder to  
several IP subnetwork VLANs, plus one IPX VLAN, one AppleTalk VLAN, and  
one NetBIOS VLAN. In a multiprotocol environment, protocol-sensitive  
VLANs can be very effective for controlling broadcast and multicast  
flooding.  
Two or more types of VLANs can coexist in the CoreBuilder system. When  
associating received data with a particular VLAN configuration in a multiple  
VLAN configuration, port group VLANs, MAC address group VLANs, and  
application-oriented VLANs always take precedence over protocol-sensitive  
VLANs.  
CoreBuilder The CoreBuilder protocol-sensitive VLAN configuration includes three  
elements: protocol suite, switch ports, and layer 3 addressing  
information for IP VLANs.  
Protocol-Sensitive  
VLAN Configuration  
Protocol Suite  
The protocol suite describes which protocol entities can comprise a  
protocol-sensitive VLAN. For example, CoreBuilder VLANs support the IP  
protocol suite, which is made up of the IP, ARP, and RARP protocols.  
Table C-1 lists the protocol suites that the CoreBuilder supports, as well  
as the protocol types included in each protocol suite.  
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C-4  
APPENDIX C: VLANS ON THE COREBUILDER SYSTEM  
Table C-1 Supported Protocols for VLAN Configuration  
Protocol Suite  
IP  
Protocol Types  
IP, ARP, RARP (Ethertype, SNAP PID)  
IPX (Ethertype, DSAP, SNAP PID)  
DDP, AARP (Ethertype, SNAP PID)  
Novell IPX  
AppleTalk  
Xerox XNS  
XNS IDP, XNS Address Translation, XNS Compatibility  
(Ethertype, SNAP PID)  
DECnet  
DEC MOP, DEC Phase IV, DEC LAT, DEC LAVC (Ethertype,  
SNAP PID)  
SNA  
SNA Services over Ethernet (Ethertype)  
Banyan (Ethertype, DSAP, SNAP PID)  
X.25 Layer 3 (Ethertype)  
Banyan VINES  
X25  
NetBIOS  
Default  
NetBIOS (DSAP)  
Default (all protocol types)  
Layer 3 Addressing Information  
For IP VLANs only, the CoreBuilder system optionally supports  
With this additional layer 3 information, you can create independent IP  
VLANs that share the same switch ports for multiple IP VLANs. Data is  
flooded according to both the protocol (IP) and the layer 3 information  
in the IP header to distinguish among multiple IP VLANs on the same  
switch port. This configuration is discussed in “Overlapped IP VLANs”  
on page C-7.  
Default VLAN When you start the CoreBuilder system, the system automatically  
creates a default VLAN. Initially, the default VLAN includes all of the  
switch ports in the system. In the CoreBuilder system, the default VLAN  
serves to define:  
The flood domain for protocols not supported by any VLAN in the system  
The flood domain for protocols supported by a VLAN in the system but  
received on nonmember ports  
Both cases represent exception flooding conditions that are described in  
the following sections.  
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About VLANs  
C-5  
Modifying the Default VLAN  
New switch ports can dynamically appear in the CoreBuilder system if  
you insert a new switching module (FESM, FSM).  
When a new switch port that is not part of a default VLAN appears in the  
system at initialization, the system software adds that switch port to the first  
default VLAN defined in the system.  
CoreBuilder VLANs also allow you to modify the initial default VLAN to form  
two or more subsets of switch ports. If you remove the default VLAN and no  
other VLANs are defined for the system, no flooding of traffic can occur.  
How the Protocol-sensitive VLANs directly affect how the CoreBuilder system  
performs flooding. Without protocol-sensitive VLANs, the flooding  
process is to forward data to all switch ports in the system. With  
protocol-sensitive VLANs, the flooding process follows this model:  
CoreBuilder System  
Makes Flooding  
Decisions  
As a frame is received that needs to be flooded, it is decoded to determine  
its protocol type.  
If a VLAN exists for that protocol in the CoreBuilder system and the frame’s  
source port is a member of the VLAN, the frame is flooded according to the  
group of ports assigned to that VLAN.  
If a VLAN exists for that protocol in the CoreBuilder system but the frame’s  
source port is not a member of the VLAN definition, then the frame is  
flooded according to the default VLAN assigned to that port.  
If the protocol type of the received frame has no VLAN defined for it in the  
system, the frame is flooded to the default VLAN for the receive port.  
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C-6  
APPENDIX C: VLANS ON THE COREBUILDER SYSTEM  
This example shows how flooding decisions are made according to VLANs  
set up by protocol (assuming an 18-port switch):  
Index  
VLAN  
Default  
IP  
Ports  
1 - 18  
1 - 12  
11 - 16  
1
2
3
IPX  
Data received on Is flooded on  
Because  
IP - port 1  
VLAN 2  
VLAN 3  
VLAN 1  
IP data received matches IP VLAN on the  
source port.  
IPX - port 11  
XNS - port 1  
IPX data received matches IPX VLAN on the  
source port.  
XNS data received matches no protocol  
VLAN, so the Default VLAN is used.  
VLAN Exception If data arrives on a switch port for a certain protocol and VLANs for  
that protocol are defined in the system but not on that switch port, the  
default VLAN defines the flooding domain for that data. This case is  
called VLAN exception flooding.  
Flooding  
This example shows how the VLAN exception flooding decision is made  
(assuming an 18-port switch):  
Index  
VLAN  
Default  
IP  
Ports  
1 - 18  
1 - 10  
1
2
Data received on Is flooded on  
Because  
XNS - port 1  
VLAN 1  
VLAN 2  
VLAN 1  
XNS data does not match any defined VLAN  
in the system.  
IP - port 2  
IP data received matches IP VLAN 2 for  
source ports 1 - 10.  
IP - port 12  
IP data received on source port 12 does not  
match any defined source port for IP VLAN,  
so the Default VLAN is used.  
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About VLANs  
C-7  
Overlapped IP The CoreBuilder system also gives you the ability to assign network  
layer information to IP VLANs. This capability allows network  
administrators to manage their VLANs by subnetwork. Flooding  
decisions are made by first matching the incoming frame using the  
VLANs  
protocol (IP) and then matching it with layer 3 subnetwork information.  
If received data is IP but does not match any defined IP subnetwork  
VLAN, it is flooded within all IP VLANs using the relevant switch port.  
For example, two IP VLANs can be configured for ports 1-10 as follows:  
IP VLAN 1 - subnet 158.101.112.0, ports 1-10  
IP VLAN 2 - subnet 158.101.113.0, ports 1-10  
This example shows how flooding decisions are made using overlapping IP  
VLANs (assuming a 12-port switch):  
Network  
Index  
VLAN  
Default  
IP  
Address/Mask  
Ports  
1 - 12  
1 - 6  
1
2
none  
158.103.122.0/  
255.255.255.0  
3
IP  
158.103.123.0/  
255.255.255.0  
6 - 12  
Data received on Is flooded on  
Because  
IP subnet  
158.103.122.2  
on port 6  
VLAN 2  
IP network layer matches layer 3 address for  
VLAN 2.  
IP subnet  
158.103.123.2  
on port 6  
VLAN 3  
IP network layer matches layer 3 address for  
VLAN 3.  
IP subnet  
158.103.124.2  
on port 6  
VLAN 2 and  
VLAN 3  
IP network layer does not match any layer 3  
address for IP VLANs.  
IPX on port 6  
VLAN 1  
IPX frame does not match any defined VLAN.  
As shown in this example, when the subnet address of an IP packet does  
not match any subnet address of any defined IP VLAN in the system, it is  
flooded to all of the IP VLANs that share the source switch port, in this case,  
port 6.  
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C-8  
APPENDIX C: VLANS ON THE COREBUILDER SYSTEM  
Routing Between The only way for stations that are in two different VLANs to  
communicate is to route between them. The CoreBuilder system  
supports internal routing among IP, IPX, and AppleTalk VLANs. If VLANs  
are configured for other routable network layer protocols, they can  
communicate between them only via an external router.  
VLANs  
The CoreBuilder routing model lets you configure routing protocol  
interfaces based on a VLAN defined for that protocol. To assign a routing  
interface, you must first create a VLAN for that protocol and then associate it  
with that interface.  
For example, to create an IP interface that can route through a VLAN:  
1 Create an IP VLAN for a group of switch ports.  
This IP VLAN does not need to contain layer 3 information unless you  
want to further restrict flooding according to the layer 3 subnet  
address.  
2 Configure an IP interface with a network address, subnet mask, broadcast  
address, cost, and type (VLAN). Select an IP VLAN to “bind” to that IP  
interface.  
If layer 3 information is provided in the IP VLAN for which you are  
configuring an IP interface, the subnetwork portion of both addresses  
must be the same.  
For Example:  
IP VLAN subnet 157.103.54.0 with subnet mask of 255.255.255.0  
IP host interface address 157.103.54.254 with subnet mask of  
255.255.255.0  
Layer 2 (bridging) communication is still possible within an IP VLAN (or  
router interface) for the group of ports within that IP Interfaces IP  
VLAN. IP data destined for a different IP subnetwork uses the IP routing  
interface to get to that different subnetwork, even if the destination  
subnetwork is on a shared port.  
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ADMINISTERING VLANS  
D
This appendix describes how to display information about VLANs and  
how to configure VLANs.  
Through the Administration Console, you can:  
Display summary or detailed information on VLANs  
Define or modify a VLAN definition for a traditional bridge or a highspeed  
switching engine  
Delete a VLAN definition  
Displaying VLAN  
Information  
You can display a summary of VLAN information or a detailed report.  
When you display a summary, you receive information about the  
protocols and ports assigned to each VLAN plus the layer 3 addresses  
used to manage flood domains for overlapping IP subnetworks. The  
detailed VLAN report includes the summary information plus additional  
utilization statistics.  
Top-Level Menu  
system  
ethernet  
From the top level of the Administration Console, enter:  
fddi  
tokenrin
bridge  
ip  
ipx  
appletalk  
snmp  
display  
mode  
bridge vlan summary  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFDDIMode  
addressThreshold  
agingTime  
or  
bridge vlan detail  
analyzer  
script  
summary  
detail  
define  
modify  
remove  
stpState  
The VLAN information is displayed in the format you specified.  
logout  
stpPriority  
stpMaxAge  
stpHelloTIme  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
packetFilter  
vlan  
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D-2  
APPENDIX D: ADMINISTERING VLANS  
Example of a summary display for several VLANs:  
Select menu option (bridge/vlan): summary  
Select bridge(s) by slot (2-3,5,7,12|all): 2  
Index Protocol Identifier Ports  
1 default  
0 1-18  
Index Name  
1
Layer 3  
none  
Example of a detailed display for the VLANs:  
Select menu option (bridge/vlan): detail  
Index Protocol Identifier Ports  
1 default  
0
1-18  
Index  
1
Name  
none  
Layer 3  
Index inPackets inBytes outPackets outBytes  
54 7654 54 6897  
1
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Displaying VLAN Information  
D-3  
Table D-1describes these statistics.  
Table D-1 Field Attributes for VLAN Information  
Field  
Description  
Index  
A system-assigned index used for identifying a particular VLAN  
The protocol suite of the VLAN  
Protocol  
Identifier  
A unique, user-defined (4-byte) integer for use by global  
management operations  
Ports  
The numbers of the ports assigned to the VLAN  
Name  
A 16-byte character string intended to identify the members of the  
VLAN  
Layer 3  
Optional parameters consisting of IP subnetwork and mask used  
to set up flood domains for overlapping IP VLAN subnetworks  
inPackets  
inBytes  
Number of flooded broadcast and multicast packets that were  
received on the VLAN  
Number of flooded broadcast and multicast bytes that were  
received on the VLAN  
outPackets  
outBytes  
Number of flooded broadcast and multicast packets transmitted  
over the VLAN  
Number of flooded broadcast and multicast bytes transmitted over  
the VLAN  
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D-4  
APPENDIX D: ADMINISTERING VLANS  
Defining VLAN  
Information for a  
Traditional Bridge  
Follow these steps to create a VLAN definition for a traditional bridge, such  
as an EFSM or a TMM:  
1 From the top level of the Administration Console, enter:  
Top-Level Menu  
system  
ethernet  
bridge vlan define  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
logout  
display  
mode  
2 Enter the slot number for the bridge.  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFDDIMode  
addressThreshold  
agingTime  
3 Enter the appropriate protocol suite: (IP,IPX,Apple,XNS,DECnet,  
SNA,Vines,X.25,NetBIOS,default)  
summary  
stpState  
detail  
define  
modify  
remove  
stpPriority  
stpMaxAge  
stpHelloTIme  
stpForwardDela
stpGroupAddress  
srBridgeNumber  
port  
4 Enter the integer of the VLAN interface identifier.  
5 Enter the VLAN name.  
6 Enter the number(s) of the port(s) or allto assign all ports to the VLAN.  
packetFilter  
vlan  
You are prompted to enter the number(s) of the port(s) that can be  
assigned to the VLAN.  
If you did not choose the IP protocol suite for this VLAN, you have  
completed the steps for defining the VLAN.  
If you selected the IP protocol suite, follow these steps:  
7 Enter definedto use layer 3 subnet addressing and continue with steps 2  
and 3, OR enter undefinedto not use layer 3 addressing.  
8 Enter the IP subnet address.  
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Defining VLAN Information for an HSI Switch Engine  
D-5  
9 Enter the subnetwork mask.  
Example:  
menu option (bridge/vlan): define  
Select bridge(s) by slot (2-3,5,7,9-12) [2]: 5  
Enter Protocol Suite (IP,IPX,Apple,XNS,DECnet,SNA,  
Vines,X.25,NetBIOS,default): IP  
Enter Integer VLAN Identifier: 1  
Enter VLAN Name: SD Marketing  
Ports 1-2=FDDI, 3-18=Ethernet  
Enter port(s)  
(1-18|all): 1,3-5  
Layer 3 Address (undefined, defined): defined  
Enter IP Subnet Address: 158.111.122.0  
Enter subnet mask [255.255.0.0] 255.255.255.0  
The maximum number of VLANs you can define on a single bridge is 32.  
Defining VLAN  
Information for  
an HSI Switch  
Engine  
Follow these steps to create a VLAN definition:  
1 From the top level of the Administration Console, enter:  
Top-Level Menu  
system  
ethernet  
bridge vlan define  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
logout  
display  
mode  
2 Enter the slot number for the bridge.  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFDDIMode  
addressThreshold  
agingTime  
3 Enter the appropriate protocol suite: (IP,IPX,Apple,XNS,  
DECnet,SNA,Vines,X.25,NetBIOS,default)  
summary  
stpState  
stpPriority  
detail  
define  
modify  
remove  
4 Enter the integer of the VLAN interface identifier.  
5 Enter the VLAN name.  
stpMaxAge  
stpHelloTIme  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
6 Enter the number(s) of the port(s) or allto assign all ports on the bridge in  
packetFilter  
vlan  
the specified slot to the VLAN.  
You are prompted to enter the number(s) of the port(s) that can be  
assigned to the VLAN.  
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D-6  
APPENDIX D: ADMINISTERING VLANS  
If you did not choose the IP protocol suite for this VLAN, you have  
completed the steps for defining the VLAN.  
7 If you have selected the IP protocol suite and want to use the Layer 3  
address information, enter definedfor layer 3 addressing. Enter undefined  
if you do not want layer 3 addressing.  
If you selected the IP protocol suite, follow these steps:  
8 Enter definedto use layer 3 subnet addressing and continue with steps 2  
and 3, OR enter undefinedto not use layer 3 addressing.  
9 Enter the IP subnet address.  
10 Enter the subnetwork mask.  
Example:  
Select menu option (bridge/vlan): define  
Select bridge(s) by slot (2-3,5,10-12) [2-3,5,10-12]:9  
Enter Protocol Suite (IP,IPX,Apple,XNS,DECnet,SNA,  
Vines,X.25,NetBIOS,default): IP  
Enter Integer VLAN Identifier: 7  
Enter VLAN Name: SD Marketing  
Slot 10: Ports 1-2 FDDI  
Slot 11: Ports 3-10=Fast Ethernet  
Slot 12: Ports 11-16=Fast Ethernet  
Enter port(s)  
(1-16|all): 1-5,11  
Layer 3 Address (undefined, defined): defined  
Enter IP Subnet Address: 158.111.122.0  
Enter subnet mask [255.255.0.0] 255.255.255.0  
The three modules in slot 10, 11, and 12 form a single bridge, so you are  
prompted for ports on all three modules.  
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Modifying VLAN Information  
D-7  
Modifying VLAN  
Information  
To modify VLAN information for a traditional bridge:  
Top-Level Menu  
1 From the top level of the Administration Console, enter:  
system  
bridge vlan modify  
ethernet  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
logout  
display  
mode  
You are prompted to reenter the information that defines the VLAN.  
Press the Return or Enter key to accept any value that appears in  
brackets [ ].  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFDDIMode  
addressThreshold  
agingTime  
stpState  
stpPriority  
stpMaxAge  
stpHelloTIme  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
2 Enter the slot number for the bridge.  
summary  
detail  
define  
modify  
remove  
3 Enter the number of the VLAN interface index.  
4 Enter the protocol suite for that VLAN: (IP,IPX,Apple,XNS,  
DECnet,SNA,Vines,X.25,NetBIOS,default).  
packetFilter  
vlan  
5 Enter the VLAN identifier.  
6 Enter the VLAN name.  
7 Enter the number(s) of the port(s) or all.  
8 If you have selected the IP protocol suite and want to use the Layer 3  
address information, enter definedfor layer 3 addressing. Enter  
undefinedif you do not want layer 3 addressing.  
Example:  
Select menu option (bridge/vlan): modify  
Select bridge(s) by slot (2-3,5,10-12) [10]:10  
Select VLAN interface [1-2]: 2  
Protocol Suite (IP,IPX,Apple,XNS,DECnet,SNA,  
Vines,X.25,NetBIOS,default): IP  
Integer VLAN Identifier [1]: 2  
VLAN Name [Sales]:  
Ports 1=FDDI, 2-17=FastEthernet  
Enter port(s) (1-17|all) [1-5]:  
Layer 3 Address (undefined,defined) [undefined]:  
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D-8  
APPENDIX D: ADMINISTERING VLANS  
Removing VLAN  
Information  
Follow these steps to remove a VLAN definition:  
1 From the top level of the Administration Console, enter:  
Top-Level Menu  
system  
ethernet  
bridge vlan remove  
fddi  
tokenring  
bridge  
ip  
ipx  
appletalk  
snmp  
analyzer  
script  
logout  
display  
mode  
2 Enter the slot number for the bridge.  
3 Enter the indexes for the VLANs you want to remove.  
Example:  
lowLatency  
ipFragmentation  
ipxSnapTranslation  
trFDDIMode  
addressThreshold  
agingTime  
summary  
detail  
define  
modify  
remove  
stpState  
stpPriority  
stpMaxAge  
stpHelloTIme  
stpForwardDelay  
stpGroupAddress  
srBridgeNumber  
port  
Select menu option (bridge/vlan): remove  
Select bridge(s) by slot (2-3,5,10-12|all) [10]:10  
Select VLAN index(es) (1-2|all): 1  
packetFilter  
vlan  
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TECHNICAL SUPPORT  
E
3Com provides easy access to technical support information through a  
variety of services. This appendix describes these services.  
Information contained in this appendix is correct at time of publication.  
For the very latest, we recommend that you access 3Com Corporations  
World Wide Web site.  
Online Technical  
Services  
3Com offers worldwide product support 24 hours a day, 7 days a week,  
through the following online systems:  
World Wide Web site  
3Com Bulletin Board Service (3ComBBS)  
SM  
3ComFacts automated fax service  
3ComForum on CompuServe online service  
World Wide Web Site Access the latest networking information on 3Com Corporations World  
Wide Web site by entering our URL into your Internet browser:  
This service features the latest information about 3Com solutions and  
technologies, customer service and support, news about the company,  
Net Age® Magazine, technical documentation, and more.  
3Com Bulletin Board 3ComBBS contains patches, software, and drivers for all 3Com products,  
Service as well as technical articles. This service is available through analog  
modem or digital modem (ISDN) 24 hours a day, 7 days a week.  
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E-2  
APPENDIX E: TECHNICAL SUPPORT  
Access by Analog Modem  
To reach the service by modem, set your modem to 8 data bits, no parity,  
and 1 stop bit. Call the telephone number nearest you:  
Country  
Australia  
Brazil  
Data Rate  
Telephone Number  
61 2 9955 2073  
55 11 5181 9666  
33 1 6986 6954  
4989 62732 188  
852 2537 5601  
39 2 27300680  
81 3 3345 7266  
52 5 520 7835  
up to 14400 bps  
up to 14400 bps  
up to 14400 bps  
up to 28800 bps  
up to 14400 bps  
up to 14400 bps  
up to 14400 bps  
up to 28800 bps  
up to 14400 bps  
up to 14400 bps  
up to 28800 bps  
up to 28800 bps  
France  
Germany  
Hong Kong  
Italy  
Japan  
Mexico  
P.R. of China  
Taiwan, R.O.C.  
U.K.  
86 10 684 92351  
886 2 377 5840  
44 1442 438278  
1 408 980 8204  
U.S.A.  
Access by Digital Modem  
ISDN users can dial in to 3ComBBS using a digital modem for fast access  
up to 56 Kbps. To access 3ComBBS using ISDN, use the following  
number:  
1 408 654 2703  
3ComFacts 3Com Corporations interactive fax service, 3ComFacts, provides data  
Automated Fax sheets, technical articles, diagrams, and troubleshooting instructions on  
Service 3Com products 24 hours a day, 7 days a week.  
Call 3ComFacts using your Touch-Tone telephone using one of these  
international access numbers:  
Country  
U.K.  
Telephone Number  
44 1442 438279  
1 408 727 7021  
U.S.A.  
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Support from Your Network Supplier E-3  
Local access numbers are available within the following countries:  
Telephone  
Number  
Telephone  
Number  
Country  
Australia  
Belgium  
Denmark  
Finland  
France  
Country  
Netherlands  
Norway  
1800 123 853  
0800 71279  
800 17319  
0800 0228049  
800 11062  
Portugal  
0505 442 607  
956 0815  
98 001 4444  
0800 908158  
0130 81 80 63  
1678 99085  
Russia (Moscow only)  
Spain  
900 964 445  
020 792954  
0800 626403  
Germany  
Italy  
Sweden  
U.K.  
3ComForum on 3ComForum contains patches, software, drivers, and technical articles  
CompuServe Online about all 3Com products, as well as a messaging section for peer  
Service support. To use 3ComForum, you need a CompuServe account.  
To use 3ComForum:  
1 Log on to your CompuServe account.  
2 Type go threecom  
3 Press [Return] to see the 3ComForum main menu.  
Support from Your  
Network Supplier  
If additional assistance is required, contact your network supplier. Many  
suppliers are authorized 3Com service partners who are qualified to  
provide a variety of services, including network planning, installation,  
hardware maintenance, application training, and support services.  
When you contact your network supplier for assistance, have the  
following information ready:  
A list of system hardware and software, including revision levels  
Diagnostic error messages  
Details about recent configuration changes, if applicable  
If you are unable to contact your network supplier, see the following  
section on how to contact 3Com.  
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E-4  
APPENDIX E: TECHNICAL SUPPORT  
Support from 3Com If you are unable to receive support from your network supplier, technical  
support contracts are available from 3Com.  
Contact your local 3Com sales office to find your authorized service  
provider using one of these numbers:  
Regional Sales Office Telephone Number  
3Com Corporation  
P.O. Box 58145  
5400 Bayfront Plaza  
Santa Clara, California  
95052-8145  
Regional Sales Office Telephone Number  
3Com GmbH (cont’d)  
Germany  
800 NET 3Com  
49 30 34 98790 (Berlin)  
(Central European HQ) 49 89 627320 (Munich)  
Hungary  
Poland  
36 1 250 83 41  
48 22 6451351  
U.S.A.  
3Com Iberia  
Portugal  
Spain  
3Com Asia Limited  
Australia  
351 1 3404505  
34 1 5096900  
61 2 9937 5000 (Sydney)  
61 3 9866 8022 (Melbourne)  
852 2501 1111  
91 11 644 3974  
62 21 572 2088  
81 6 536 3303 (Osaka)  
81 3 3345 7251 (Tokyo)  
82 2 3455 6300  
60 3 732 7910  
64 9 366 9138  
3Com Latin America  
U.S. Headquarters  
Northern Latin America 305 261 3266 (Miami, Florida)  
Argentina  
Brazil  
Hong Kong  
India  
Indonesia  
Japan  
408 326 2093  
541 312 3266  
55 11 5181 0869  
562 633 9242  
57 1 629 4847  
52 5 520 7841/7847  
51 1 221 5399  
58 2 953 8122  
Chile  
Korea  
Malaysia  
New Zealand  
Philippines  
P.R. of China  
Colombia  
Mexico  
Peru  
632 892 4476  
Venezuela  
8610 68492568 (Beijing)  
86 21 63501581 (Shanghai)  
65 538 9368  
886 2 377 5850  
662 231 8151 5  
3Com Mediterraneo  
Italy  
Singapore  
Taiwan, R.O.C.  
Thailand  
39 2 253011 (Milan)  
39 6 5279941 (Rome)  
3Com Middle East  
971 4 349049  
3Com Austria  
43 1 580 17 0  
3Com Nordic AB  
Denmark  
Finland  
Norway  
Sweden  
3Com Benelux B.V.  
Belgium  
Netherlands  
45 39 27 85 00  
358 0 435 420 67  
47 22 58 47 00  
46 8 632 56 00  
32 2 725 0202  
31 0346 586211  
3Com Canada  
Calgary  
Edmonton  
Montreal  
Ottawa  
Toronto  
Vancouver  
403 265 3266  
403 423 3266  
514 683 3266  
613 566 7055  
416 498 3266  
604 434 3266  
3Com Russia  
007 095 258 09 40  
3Com Southern Africa 27 11 807 4397  
3Com Switzerland  
41 31 996 14 14  
3Com Technologies  
Ireland  
353 1 820 7077  
3Com France  
33 1 69 86 68 00  
3Com U.K. Ltd.  
44 131 240 2900 (Edinburgh)  
44 161 873 7717 (Manchester)  
44 1628 897000 (Marlow)  
3Com GmbH  
Czech Republic/Slovak  
Republic  
420 2 21845 800  
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Returning Products for Repair E-5  
Returning Products  
for Repair  
Before you send a product directly to 3Com for repair, you must first  
obtain a Return Materials Authorization (RMA) number. Products sent to  
3Com without RMA numbers will be returned to the sender unopened,  
at the senders expense.  
To obtain an RMA number, call or fax:  
Country  
Telephone Number  
1 800 876 3266, option 2  
1 408 326 2927  
Fax Number  
U.S.A. and Canada  
Latin America  
408 764 7120  
408 764 7120  
44 1442 435822  
Europe, South Africa, and  
Middle East  
44 1442 435860  
Elsewhere  
1 408 326 2926  
1 408 764 7120  
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3Com Corporation LIMITED WARRANTY  
The duration of the warranty for the CoreBuilder6000 Extended Switching Software, 3C96270B2, is ninety (90) days.  
HARDWARE  
3Com warrants its hardware products to be free from defects in workmanship and materials, under normal  
use and service, for the following lengths of time from the date of purchase from 3Com or its Authorized  
Reseller:  
Network interface cards  
Lifetime  
1 year  
Other hardware products (unless otherwise specified in the warranty statement above)  
Spare parts and spares kits  
90 days  
If a product does not operate as warranted above during the applicable warranty period, 3Com shall, at its  
option and expense, repair the defective product or part, deliver to Customer an equivalent product or part  
to replace the defective item, or refund to Customer the purchase price paid for the defective product. All  
products that are replaced will become the property of 3Com. Replacement products may be new or  
reconditioned. Any replaced or repaired product or part has a ninety (90) day warranty or the remainder of  
the initial warranty period, whichever is longer.  
3Com shall not be responsible for any software, firmware, information, or memory data of Customer  
contained in, stored on, or integrated with any products returned to 3Com for repair, whether under  
warranty or not.  
SOFTWARE  
3Com warrants that the software programs licensed from it will perform in substantial conformance to the  
program specifications therefor for a period of ninety (90) days from the date of purchase from 3Com or its  
Authorized Reseller. 3Com warrants the media containing software against failure during the warranty  
period. No updates are provided. The sole obligation of 3Com with respect to this express warranty shall be  
(at the discretion of 3Com) to refund the purchase price paid by Customer for any defective software  
products, or to replace any defective media with software which substantially conforms to applicable 3Com  
published specifications. Customer assumes responsibility for the selection of the appropriate applications  
program and associated reference materials. 3Com makes no warranty or representation that its software  
products will work in combination with any hardware or applications software products provided by third  
parties, that the operation of the software products will be uninterrupted or error free, or that all defects in  
the software products will be corrected. For any third-party products listed in the 3Com software product  
documentation or specifications as being compatible, 3Com will make reasonable efforts to provide  
compatibility, except where the noncompatibility is caused by a “bug” or defect in the third party’s product.  
STANDARD WARRANTY  
SERVICE  
Standard warranty service for hardware products may be obtained by delivering the defective product,  
accompanied by a copy of the dated proof of purchase, to the 3Com Corporate Service Center or to an  
Authorized 3Com Service Center during the applicable warranty period. Standard warranty service for  
software products may be obtained by telephoning the 3Com Corporate Service Center or an Authorized  
3Com Service Center, within the warranty period. Products returned to the 3Com Corporate Service Center  
must be preauthorized by 3Com with a Return Material Authorization (RMA) number marked on the outside  
of the package, and sent prepaid, insured, and packaged appropriately for safe shipment. The repaired or  
replaced item will be shipped to Customer, at the expense of 3Com, not later than thirty (30) days after  
receipt of the defective product by 3Com.  
WARRANTIES EXCLUSIVE  
IF A 3COM PRODUCT DOES NOT OPERATE AS WARRANTED ABOVE, CUSTOMER’S SOLE REMEDY FOR  
BREACH OF THAT WARRANTY SHALL BE REPAIR, REPLACEMENT, OR REFUND OF THE PURCHASE PRICE  
PAID, AT THE OPTION OF 3COM. TO THE FULL EXTENT ALLOWED BY LAW, THE FOREGOING WARRANTIES  
AND REMEDIES ARE EXCLUSIVE AND ARE IN LIEU OF ALL OTHER WARRANTIES, TERMS, OR CONDITIONS,  
EXPRESS OR IMPLIED, EITHER IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE, INCLUDING  
WARRANTIES, TERMS, OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND  
SATISFACTORY QUALITY. 3COM NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON TO ASSUME  
FOR IT ANY OTHER LIABILITY IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE, OR USE OF  
ITS PRODUCTS.  
3COM SHALL NOT BE LIABLE UNDER THIS WARRANTY IF ITS TESTING AND EXAMINATION DISCLOSE THAT  
THE ALLEGED DEFECT IN THE PRODUCT DOES NOT EXIST OR WAS CAUSED BY CUSTOMER’S OR ANY THIRD  
PERSON’S MISUSE, NEGLECT, IMPROPER INSTALLATION OR TESTING, UNAUTHORIZED ATTEMPTS TO REPAIR  
OR MODIFY, OR ANY OTHER CAUSE BEYOND THE RANGE OF THE INTENDED USE, OR BY ACCIDENT, FIRE,  
LIGHTNING, OR OTHER HAZARD.  
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LIMITATION OF LIABILITY  
TO THE FULL EXTENT ALLOWED BY LAW, 3COM ALSO EXCLUDES FOR ITSELF AND ITS SUPPLIERS ANY  
LIABILITY, WHETHER BASED IN CONTRACT OR TORT (INCLUDING NEGLIGENCE), FOR INCIDENTAL,  
CONSEQUENTIAL, INDIRECT, SPECIAL, OR PUNITIVE DAMAGES OF ANY KIND, OR FOR LOSS OF REVENUE OR  
PROFITS, LOSS OF BUSINESS, LOSS OF INFORMATION OR DATA, OR OTHER FINANCIAL LOSS ARISING OUT OF  
OR IN CONNECTION WITH THE SALE, INSTALLATION, MAINTENANCE, USE, PERFORMANCE, FAILURE, OR  
INTERRUPTION OF ITS PRODUCTS, EVEN IF 3COM OR ITS AUTHORIZED RESELLER HAS BEEN ADVISED OF THE  
POSSIBILITY OF SUCH DAMAGES, AND LIMITS ITS LIABILITY TO REPAIR, REPLACEMENT, OR REFUND OF THE  
PURCHASE PRICE PAID, AT THE OPTION OF 3COM. THIS DISCLAIMER OF LIABILITY FOR DAMAGES WILL NOT BE  
AFFECTED IF ANY REMEDY PROVIDED HEREIN SHALL FAIL OF ITS ESSENTIAL PURPOSE.  
GOVERNING LAW  
This Limited Warranty shall be governed by the laws of the State of California, U.S.A. Some countries, states,  
or provinces do not allow the exclusion or limitation of implied warranties or the limitation of incidental or  
consequential damages for certain products supplied to consumers or the limitation of liability for personal  
injury, so the above limitations and exclusions may be limited in their application to you. This warranty gives  
you specific legal rights which may vary depending on local law.  
3Com Corporation, 5400 Bayfront Plaza, Santa Clara, CA 95052-8145 (408) 764-5000  
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