Cabletron Systems Power Roller TRMMIM User Manual

®
Portable Management Application  
for the  
TRMMIM  
User’s Guide  
The Comp le te Ne tworking Solution  
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Notice  
Cabletron Systems reserves the right to make changes in specifications and other information  
contained in this document without prior notice. The reader should in all cases consult Cabletron  
Systems to determine whether any such changes have been made.  
The hardware, firmware, or software described in this manual is subject to change without notice.  
IN NO EVENT SHALL CABLETRON SYSTEMS BE LIABLE FOR ANY INCIDENTAL, INDIRECT,  
SPECIAL, OR CONSEQUENTIAL DAMAGES WHATSOEVER (INCLUDING BUT NOT LIMITED  
TO LOST PROFITS) ARISING OUT OF OR RELATED TO THIS MANUAL OR THE INFORMATION  
CONTAINED IN IT, EVEN IF CABLETRON SYSTEMS HAS BEEN ADVISED OF, KNOWN, OR  
SHOULD HAVE KNOWN, THE POSSIBILITY OF SUCH DAMAGES.  
Virus Disclaimer  
Cabletron has tested its software with current virus checking technologies. However, because no anti-  
virus system is 100% reliable, we strongly caution you to write protect and then verify that the  
Licensed Software, prior to installing it, is virus-free with an anti-virus system in which you have  
confidence.  
Cabletron Systems makes no representations or warranties to the effect that the Licensed Software is  
virus-free.  
Copyright © 1996 by Cabletron Systems, Inc. All rights reserved.  
Printed in the United States of America.  
Order Number: 9031130-E6 October 1996  
Cabletron Systems, Inc.  
35 Industrial Way, P.O. Box 5005  
Rochester, NH 03867-0505  
SPECTRUM, MiniMMAC, FNB, Multi Media Access Center, and DNI are registered trademarks,  
and Portable Management Application, IRM, IRM2, IRM3, IRBM, ETSMIM, EFDMIM, EMME,  
ETWMIM, FDMMIM, FDCMIM, MRXI, MRXI-24, NB20E, NB25E, NB30, NB35E, SEHI, TRBMIM,  
TRMM, TRMMIM, TRXI, Media Interface Module, MIM, and Flexible Network Bus are  
trademarks of Cabletron Systems, Inc.  
UNIX and OPENLOOK is a trademark of Unix System Laboratories, Inc. OSF/Motif and Motif are  
trademarks of the Open Software Foundation, Inc. X Window System is a trademark of Massachusetts  
Institute of Technology. Ethernet and XNS are trademarks of Xerox Corporation. Apple and  
AppleTalk are registered trademarks of Apple Computer, Inc. Banyan is a registered trademark of  
Banyan Systems, Inc. DECnet is a registered trademark of Digital Equipment Corporation. Novell is a  
registered trademark of Novell, Inc. CompuServe is a registered trademark of CompuServe. Sun  
Microsystems is a registered trademark, and Sun, SunNet, and OpenWindows are trademarks of Sun  
Microsystems, Inc.  
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(Applicable to licenses to the United States Government only.)  
1. Use, duplication, or disclosure by the Government is subject to restrictions as set forth in subparagraph (c) (1)  
(ii) of the Rights in Technical Data and Computer Software clause at DFARS 252.227-7013.  
Cabletron Systems, Inc., 35 Industrial Way, Rochester, New Hampshire 03867-0505.  
2. (a) This computer software is submitted with restricted rights. It may not be used, reproduced, or disclosed  
by the Government except as provided in paragraph (b) of this Notice or as otherwise expressly stated  
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Contents  
Chapter 1  
Introduction to SPMA for the TRMMIM  
The TRMMIM................................................................................................................ 1-1  
Using the TRMMIM User’s Guide ............................................................................. 1-1  
What’s NOT in the TRMMIM Guide... ............................................................... 1-2  
Conventions................................................................................................................... 1-3  
Screen Displays ...................................................................................................... 1-3  
Using the Mouse .................................................................................................... 1-5  
Getting Help .................................................................................................................. 1-6  
TRMMIM Firmware ..................................................................................................... 1-7  
Chapter 2  
Using the TRMMIM Hub View  
Using the Hub View ..................................................................................................... 2-1  
Navigating Through the Hub View .................................................................... 2-2  
Hub View Front Panel........................................................................................... 2-3  
Using the Mouse in a Hub View Module........................................................... 2-6  
Hub View Port Color Codes................................................................................. 2-8  
Port Display Form.................................................................................................. 2-8  
FNB Display.......................................................................................................... 2-10  
Monitoring Hub Performance................................................................................... 2-11  
Checking Device Status and Updating Front Panel Info ............................... 2-13  
Checking Module Status..................................................................................... 2-14  
Checking Port Status ........................................................................................... 2-16  
Checking Station Status ...................................................................................... 2-17  
Configuring Station Name, Location, or Priority..................................... 2-20  
Checking Ring Port Status.................................................................................. 2-20  
Checking Statistics............................................................................................... 2-22  
Managing the Hub...................................................................................................... 2-24  
Managing the Hub at the Device Level ................................................................... 2-24  
Find MAC Address.............................................................................................. 2-24  
Setting the Polling Intervals ............................................................................... 2-25  
Managing the Hub at the Module Level.................................................................. 2-28  
Controlling Token Ring FNB Multiplexer Connections................................. 2-28  
FNB Bypass States ........................................................................................ 2-29  
Manipulating the FNB in the Hub View ................................................... 2-29  
Using the Module FNB Configuration Window...................................... 2-29  
Clearing the Module FNB Configuration Window Selections............... 2-31  
Controlling Token Ring Speed........................................................................... 2-31  
Controlling Token Ring MIM Management Mode ......................................... 2-32  
Enabling All Ports on Token Ring Modules..................................................... 2-32  
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Contents  
Managing the Hub at the Port Level ........................................................................2-33  
Converting a Station Port to a Ring-out Port...................................................2-33  
Enabling and Disabling Station and Ring Ports ..............................................2-33  
Removing a Station from the Ring ....................................................................2-34  
Chapter 3  
Ring Map  
Launching the Ring Map..............................................................................................3-2  
Selecting a Ring to Map................................................................................................3-3  
Viewing Station-specific Information.........................................................................3-6  
The Quick Info Popup Window...........................................................................3-6  
Setting a Station Name..........................................................................................3-8  
Setting a Station Drop............................................................................................3-9  
Viewing Management Station Configuration....................................................3-9  
Viewing Ring-level Information ...............................................................................3-13  
Setting the Statistics Calculation Mode ............................................................3-13  
Viewing the Error Table ......................................................................................3-14  
Changing the Station Labels...............................................................................3-18  
Viewing Device Information ..............................................................................3-19  
Setting the Map Poll Interval..............................................................................3-20  
Viewing Beacon History......................................................................................3-21  
Beacon Configuration..........................................................................................3-23  
Using the Find Options ..............................................................................................3-25  
Searching for a Station’s Nearest Active  
Upstream or Downstream Neighbor .........................................................3-26  
Searching by Station Name, MAC Address, Board/Port, or Drop...............3-26  
Searching for the Active Monitor, Ring Management Station,  
or Last Beaconing Station ............................................................................3-27  
Finding the Active Monitor on the Network............................................3-27  
Finding the Management Station on the Network ..................................3-28  
Finding the Last Beaconing Station............................................................3-28  
Searching by Highest or Lowest Occurrence of a  
Performance Parameter................................................................................3-28  
Accessing Other SPMA Applications.......................................................................3-30  
Chapter 4  
Chapter 5  
iv  
Alarm Configuration  
Setting and Viewing Ring Alarms ..............................................................................4-3  
Setting a Ring Level Alarm...................................................................................4-5  
Setting and Viewing Station Alarms ..........................................................................4-5  
Setting a Station Level Alarm...............................................................................4-9  
Statistics  
Using Statistics...............................................................................................................5-1  
Viewing the Ring Station List......................................................................................5-2  
Using the Reverse MAC Button...........................................................................5-4  
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Contents  
Refreshing the Station List.................................................................................... 5-4  
Monitoring Ring and Station Statistics ...................................................................... 5-4  
Creating a Pie Chart .............................................................................................. 5-5  
Creating a Graph or Meter ................................................................................... 5-6  
Ring and Station Variables........................................................................................... 5-8  
General .................................................................................................................... 5-8  
Protocols.................................................................................................................. 5-8  
Frame Sizes ............................................................................................................. 5-9  
Isolating Errors....................................................................................................... 5-9  
Non-Isolating Errors............................................................................................ 5-10  
Chapter 6  
Ring Security Configuration  
About Ring Security ..................................................................................................... 6-1  
Launching the Security Configuration Window ...................................................... 6-2  
Configuring Security .................................................................................................... 6-7  
Building the Allowed List Automatically .......................................................... 6-7  
Adding New Stations to the Allowed or Disallowed Stations List ................ 6-7  
Deleting Stations from the Allowed or Disallowed Lists................................. 6-8  
Moving a Station Between the Allowed and Disallowed Stations List.......... 6-9  
Clearing All Entries in the Allowed or Disallowed List................................... 6-9  
Changing the Ring Security Mode .................................................................... 6-10  
Appendix A TRMMIM MIB Structure  
IETF MIB Support........................................................................................................ A-1  
TRMMIM MIB Structure............................................................................................. A-1  
A Brief Word About MIB Components and Community Names .................. A-3  
v
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Contents  
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Chapter 1  
Introduction to SPMA  
for the TRMMIM  
The TRMMIM; how to use the TRMMIM User’s Guide; manual conventions; contacting Cabletron  
Technical Support; TRMMIM firmware versions supported by SPMA  
The TRMMIM  
The TRMMIM is an intelligent Token Ring management module designed to be  
used in a mid-chassis slot of a Cabletron Systems Multi-Media Access Center  
(MMAC ) chassis, with a TRMM or an Ethernet intelligent repeater that  
supports Cabletron’s backplane protocol (currently the EMME or the  
®
®
EMM-E6 ) residing in the management slot. The latter case allows you to fully  
manage both Token Ring and Ethernet networks coexisting in the same chassis.  
Using the TRMMIM User’s Guide  
Your SPECTRUM Portable Management Application (SPMA) for the TRMMIM  
consists of a number of different applications, each of which provides a portion of  
the overall management functionality. Each of these applications can be accessed  
from the icon menu (if you are using a management platform), from the Hub  
View (which is a graphical display of the TRMMIM-managed hub), and from the  
command line (if you are running in stand-alone mode).  
The TRMMIM User’s Guide describes how to use many of the applications  
included with the module; note that the instructions provided in this guide apply  
to the TRMMIM module regardless of the operating system or management  
platform you are using. Instructions for launching each individual function from  
the command line (stand-alone mode) are also included in each chapter.  
Following are descriptions of the applications detailed in this guide; while we  
provide as much background information as we can, we do assume that you’re  
familiar with Token Ring networks and general network management concepts.  
1-1  
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Introduction to SPMA for the TRMMIM  
Chapter 1, Introduction, describes the TRMMIM User’s Guide and the  
conventions used in this and other SPMA manuals, explains where to find  
information about the TRMMIM, and tells you how to contact Cabletron  
Systems Technical Support.  
Chapter 2, Using the TRMMIM Hub View, describes the visual display of the  
Hub and explains how to use the mouse within the Hub View. Also described  
are some basic functions available only from within the Hub View (changing  
the Hub View display, opening menus and windows, enabling and disabling  
ports, checking device and module status, and so on).  
Chapter 3, Ring Map, describes how to graphically display all stations  
inserted into your TRMMIM-managed Token Ring network. Using the Ring  
Map application, you can display stations and perform station searches  
according to various parameters, view and compare errors detected on the  
ring, configure the ring management station, set station drops or station  
names, view summary information about station configuration and ring  
performance, view ring history information, and launch other SPMA Token  
Ring applications.  
Chapter 4, Alarm Configuration, describes how to set thresholds and enable  
or disable alarms at the ring and station levels.  
Chapter 5, Statistics, describes how to use the statistics windows to view ring  
and station-specific information, including traffic counts, total error counts,  
and error type breakdowns.  
Chapter 6, Ring Security Configuration, describes how to remotely configure  
security for the TRMMIM. The Ring Security application allows you to control  
access to your TRMMIM-managed Token Ring network, and specify a security  
mode for stations illegally attempting to enter the ring.  
Appendix A, TRMMIM MIB Structure, lists the individual components that  
collectively compose the TRMMIM’s MIB.  
What’s NOT in the TRMMIM Guide...  
The following standard SPMA tools are available through the TRMMIM module  
and are explained in the SPECTRUM Portable Management Application Tools  
Guide:  
Charts, Graphs, and Meters  
Community Names  
Global Find MAC Address Tool  
MIBTree  
MIB I, II  
Telnet  
1-2  
Using the TRMMIM User’s Guide  
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Introduction to SPMA for the TRMMIM  
TFTP Download  
Trap Table  
The Charts, Graphs, and Meters application is accessible from the Hub View and  
the command line; the Global Find MAC Address Tool is accessible from the  
platform console window Tools menu; the MIBTree application is accessible from  
the platform console window Tools menu, the Stand-alone Launcher window,  
and the command line; the Telnet application is available from the command line;  
the rest of the tool applications are available only from the icon menu or the  
command line.  
Graphing capabilities are provided by an application that is included in HP Network  
Node Manager and IBM NetView; therefore, graphs are only available when SPMA is  
run in conjunction with one of these network management platforms. If you are running  
SPMA in a stand-alone mode or in conjunction with SunNet Manager, no graphing  
capabilities are available and no graph-related options will be displayed on buttons or  
menus. Note that the screens displayed in this guide will include the graph-related  
options where they are available; please disregard these references if they do not apply.  
NOTE  
Instructions on discovering Cabletron devices, creating icons, and accessing the  
icon menus within your management platform are included in your Installing  
and Using SPECTRUM for... guide. If you are using SPMA for the TRMMIM in  
stand-alone mode (without benefit of a specific network management system),  
instructions for starting each application from the command line are included in  
each chapter, both in this guide and in the SPMA Tools Guide.  
Conventions  
The family of SPECTRUM Portable Management Applications can work with a  
number of different network management systems running on several different  
operating systems and graphical user interfaces. This versatility presents two  
documentation problems: first, there is no standard terminology; and second, the  
appearance of the windows will differ based on the graphical interface in use. For  
the sake of consistency, the following conventions will be followed throughout  
this and other SPMA guides.  
Screen Displays  
SPMA runs under a variety of different operating systems and graphical user  
interfaces. To maintain a consistent presentation, screen displays in this and other  
SPMA guides show an OSF/Motif environment. If you’re used to a different GUI,  
don’t worry; the differences are minor. Buttons, boxes, borders, and menus  
displayed on your screen may look a bit different from what you see in the guide,  
but they’re organized and labelled the same, located in the same places, and  
perform the same functions in all screen environments.  
Conventions  
1-3  
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Introduction to SPMA for the TRMMIM  
Some windows within SPMA applications can be re-sized; those windows will  
display the standard window resizing handles employed by your windowing  
system. Re-sizing a window doesn’t re-size the information in the window; it just  
changes the amount of information that can be displayed (see Figure 1-1). When  
you shrink a window, scroll bars will appear as necessary so that you can scroll to  
view all the information that is available.  
Use the scroll bars  
provided to choose  
what to display in a  
window that’s been  
resized  
Click here to  
display footer  
message history  
Figure 1-1. Window Conventions  
Some windows will also contain a  
button; selecting this button  
launches a History window (Figure 1-2) which lists all footer messages that have  
been displayed since the window was first invoked. This window can help you  
keep track of management actions you have taken since launching a management  
application.  
1-4  
Conventions  
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Introduction to SPMA for the TRMMIM  
Figure 1-2. The History Window  
Using the Mouse  
The UNIX mouse has three buttons. Procedures within the SPMA document set  
refer to these buttons as follows:  
Button 1  
Button 2  
Button 3  
Figure 1-3. Mouse Buttons  
If you’re using a two-button mouse, don’t worry. SPMA doesn’t make use of  
mouse button 2. Just click the left button for button 1 and the right mouse button  
when instructed to use mouse button 3.  
Conventions  
1-5  
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Introduction to SPMA for the TRMMIM  
Whenever possible, we will instruct you on which mouse button to employ;  
however, menu buttons within SPMA applications will operate according to the  
convention employed by the active windowing system. By convention, menu  
buttons under the Motif windowing environment are activated by clicking the left  
mouse button (referred to as mouse button 1 in SPMA documentation), and there  
is no response to clicking the right button (mouse button 3). Under  
OpenWindows, menu buttons can be activated by clicking the right button, and  
convention dictates that the left button activates a default menu option; within  
SPMA, that default option will also display the entire menu. Because of this  
difference, references to activating a menu button will not include instructions  
about which mouse button to use. All other panels from which menus can be  
accessed, and all buttons which do not provide access to menus, will operate  
according to SPMA convention, as documented.  
Getting Help  
If you need additional support related to SPMA, or if you have any questions,  
comments, or suggestions related to this manual, contact Cabletron Systems  
Technical Support. Before calling, please have the following information ready:  
The product name and part number  
The version number of the program that you need help with. SPMA is  
modular, which means each application will have a specific revision number.  
Where applicable, an INFO button provides the version number; you can also  
view the version number for any application by typing the command to start  
the application followed by a -v.  
You can contact Cabletron Systems Technical Support by any of the following  
methods:  
By phone:  
Monday through Friday between 8 AM and 8 PM  
Eastern Standard Time at (603) 332-9400.  
By mail:  
Cabletron Systems, Inc.  
PO Box 5005  
Rochester, NH 03866-5005  
®
By CompuServe :  
By Internet mail:  
FTP  
GO CTRON from any ! prompt  
ctron.com (134.141.197.25)  
anonymous  
Login  
Password  
your email address  
(603) 335-3358  
By BBS:  
Modem Setting  
8N1: 8 data bits, 1 stop bit, No parity  
1-6  
Getting Help  
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Introduction to SPMA for the TRMMIM  
For additional information about Cabletron Systems products, visit our World  
Wide Web site: http://www.cabletron.com/  
TRMMIM Firmware  
SPMA for the TRMMIM has been tested against firmware versions 3.00.10 and  
3.01.01; if you have an earlier version of firmware and experience problems  
running SPMA contact Cabletron Systems Technical Support for upgrade  
information.  
TRMMIM Firmware  
1-7  
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Introduction to SPMA for the TRMMIM  
1-8  
TRMMIM Firmware  
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Chapter 2  
Using the TRMMIM Hub View  
Navigating through the Hub View, monitoring hub activity; managing the hub at the device, module,  
and port levels  
The heart of the SPECTRUM Portable Management Application (SPMA) for the  
TRMMIM is the Hub View, a graphical interface that gives you access to many of  
the functions that provide control over the TRMMIM-managed hub.  
Note that the Hub View application only allows you to control boards and ports in the  
domain of a single management module. If you have another management module  
NOTE  
installed in the chassis to the left of the monitored TRMMIM, boards that are under the  
domain of that module (i.e., Media Interface Modules – or MIMs – to its left) will still  
display in the Hub View of the monitored TRMMIM; however, only boards within the  
domain of the monitored TRMMIM can be correctly controlled. Flexible Network Bus  
(FNB) connections across the MMAC chassis will be displayed regardless of modules  
installed; however, only FNB connections within the domain of the monitored module can  
be controlled. For example, if you had a TRMMIM and a TRBMIM installed in the same  
chassis with the TRBMIM to the left of the TRMMIM, and you were modeling the  
TRMMIM in a Hub View, you would have to create a separate Hub View for the  
TRBMIM to control the FNB connections and manage MIMs to the left of the TRBMIM.  
However, even while modeling the TRMMIM, you would still be able to view the boards  
and FNB connections across the entire MMAC.  
Using the Hub View  
There are two ways to open the Hub View: if you are working within a network  
management system, you can select the Hub View option from the icon menu;  
specific directions for creating a TRMMIM icon and accessing the icon menu can  
be found in the appropriate Installing and Using SPECTRUM for... guide. If you  
are running the TRMMIM module in a stand-alone mode, type the following at  
the command line:  
spmarun e5hub <IP address> <community name>  
2-1  
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Using the TRMMIM Hub View  
The community name you use to start the module must have at least Read access;  
for full management functionality, you should use a community name that  
provides Read/Write or Superuser access. For more information on community  
names, consult the appropriate Installing and Using SPECTRUM for... guide,  
and/or the Community Names chapter in the SPMA Tools Guide.  
The spmarun script invoked first in the above command temporarily sets the environment  
variables SPMA needs to operate; be sure to use this command any time you launch an  
application from the command line. This script is automatically invoked when you launch  
an application from the icon menu or from within the Hub View.  
NOTES  
If you wish to configure your Token Ring hub in any way, be sure to use a community  
name with at least Read/Write access. If you only wish to view current settings, a  
community name with Read access will be sufficient.  
If there is a hostname mapped to your TRMMIM’s IP address, you can use <hostname>  
in place of <IP address> to launch this application. Please note, however, that the  
hostname is not the same as the device name which can be assigned via Local  
Management and/or SPMA; you cannot use the device name in place of the IP address.  
Navigating Through the Hub View  
Within the Hub View (Figure 2-1), you can click mouse buttons in different areas  
of the window to access various menus and initiate certain management tasks.  
The following describes the information displayed in the Hub View and shows  
you how to use the mouse to display the Device, Module, and Port menus.  
2-2  
Using the Hub View  
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Using the TRMMIM Hub View  
Figure 2-1. TRMMIM Hub View  
Hub View Front Panel  
In addition to the graphical display of the Media Interface Modules (MIMs), the  
Hub View gives you device-level summary information. The following Front  
Panel information appears to the right of the module display in the Hub View:  
Contact Status is a color code that shows the status of the connection between  
SPMA and the device:  
Green indicates a valid connection.  
Blue means that SPMAis trying to reach the device but doesn’t know yet if the  
connection will be successful.  
Red means that SPMA is unable to contact or has lost contact with the device.  
Using the Hub View  
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Using the TRMMIM Hub View  
Uptime  
The time that the device has been running without interruption. The counter  
resets to 0 days 00:00:00 (days HH:MM:SS) when one of the following occurs:  
Power to the MMAC chassis is cycled.  
The device is reset manually.  
Time and Date  
The date and time are taken from the device’s internal clock.  
Device Name  
A text field that you can use to help identify the device.  
Device Location  
A text field that you can use to help identify the device.  
If the TRMMIM you are modeling is installed in an MMAC-3 chassis, its window titles  
will be truncated. If you have assigned a device name or location that contains more than  
19 characters, only the first 19 will be displayed in the Hub View. Check the Device Status  
window for the complete name and/or location, if necessary. See Checking Device  
NOTE  
IP Address  
The device’s Internet Protocol (IP) address. You can’t change the TRMMIM’s IP  
address from SPMA.  
MAC Address  
The device’s factory-set hardware address. The MAC address cannot be changed  
from SPMA.  
Clicking on the Device button displays the Device menu, Figure 2-2.  
2-4  
Using the Hub View  
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Using the TRMMIM Hub View  
Figure 2-2. The Device Menu  
The Device menu lets you perform the following:  
Open the Device Status window.  
Change the Port Display Form.  
Change the FNB display for all modules in the chassis.  
Open the Find MAC Address window.  
Open the Polling Intervals window.  
Launch the Ring Map application, which graphically displays all stations  
inserted into the TRMMIM-managed ring network. The Ring Map also  
provides an Error Table, a Ring History Information window, a Management  
Station Configuration window, and powerful sort and find capabilities. Refer  
to the Ring Map chapter for complete information on this application.  
Launch the Alarm Configuration application. This application is described  
thoroughly in the Alarm Configuration chapter.  
Launch the Statistics application, which lets you graphically view statistical  
information via pie charts, graphs, and meters. Details on this application are  
provided in the Statistics chapter.  
Using the Hub View  
2-5  
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Using the TRMMIM Hub View  
Graphing capabilities are provided by an application that is included in HP Network  
NOTE  
Node Manager and IBM NetView; therefore, graphs are only available when SPMA is  
run in conjunction with one of these network management platforms. If you are running  
SPMA in a stand-alone mode or in conjunction with SunNet Manager, no graphing  
capabilities are available and no graph-related options will be displayed on buttons or  
menus. Note that the screens displayed in this guide will include the graph-related  
options where they are available; please disregard these references if they do not apply.  
Launch the Security application, so that you can establish safeguards against  
unauthorized stations attempting to insert into the ring. This application is  
described thoroughly in the Ring Security Configuration chapter.  
The IP Address Table option in the Device menu (shown in Figure 2-2, grayed out) is not  
supported for the TRMMIM.  
NOTE  
If you need to call Cabletron’s Technical Support about a problem with the Hub  
View application, you’ll need the information provided in the Info window:  
Token Ring Device Hub View  
program version  
Token Ring Device firmware  
revision  
Figure 2-3. Hub Information Window  
Clicking mouse button 1 on the Hub View Quit button closes all Hub View  
application windows; any open applications which can also be accessed from the  
command line will remain open.  
Using the Mouse in a Hub View Module  
Each MIM installed in the TRMMIM-controlled hub will be displayed in the Hub  
View; use the mouse as indicated in the illustrations on the following pages to  
access Module and Port menus and functions, as well as to configure the  
multiplexers which connect the module to the MMAC chassis Flexible Network  
Bus (FNB).  
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Using the TRMMIM Hub View  
Module Index  
Displays the index of the Module in  
the MMAC chassis.  
Click mouse button 1 to open the  
Module Status window.  
Click mouse button 3 to display the  
Module menu.  
FNB Bypass State  
Indicates the bypass state of the Module with  
respect to the displayed FNB.  
Click mouse button 1 to toggle the MIM to INS  
(inserted) or BYP (bypassed).  
Click mouse button 3 to display the Module menu.  
Module Type  
Displays the type code for the  
module.  
Click mouse button 1 to open the  
Module Status window.  
Click mouse button 3 to display the  
Module menu.  
FNB Index  
Indicates the index of the currently  
displayed FNB.  
Change the displayed FNB using  
the FNB Display command from  
the Device menu.  
FNB Status/Control  
Port Index  
Displays the interface index of the  
port on the MIM.  
Click mouse button 3 on the port to  
display the Station Port menu.  
Displays the state of the module  
with respect to the currently  
displayed FNB.  
Click mouse button 1 in the box to  
display the Module Status window.  
Click mouse button 1 on a  
connection symbol to change  
connection status.  
Ring Ports  
Ring In  
Ring Out  
Click mouse button 3 in the box to  
display the Module menu.  
Click mouse button 1 on the status  
area to enable or disable the ring  
port.  
Click mouse button 3 on the index  
or status area to display the Ring  
Port menu.  
Port Display Form  
Using the Device menu, you can  
change the port display form  
shown in the Module Status boxes  
to display several different port  
display types.  
Click mouse button 1 to open the  
Module Status window.  
Click mouse button 3 to display  
the Module menu.  
Module Management Mode  
Displays whether the MIM is set to  
operate via hardware defaults or  
has been configured via  
management. Click mouse button  
1 to toggle the mode between AUT  
(hardware defaults) or MGT  
(management).  
Port Status  
Displays port Admin/Link status,  
or a variety of statistics.  
Click mouse button 1 to toggle the  
port between ENB (enabled) and  
BYP (bypassed).  
Module Ring Speed  
Indicates the current operating  
speed of the board.  
Click mouse button 3 to display  
the Station Port menu.  
Click mouse button 1 to toggle ring  
speed between 4 or 16 Mbps.  
Figure 2-4. Mousing Around a Module  
Using the Hub View  
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Using the TRMMIM Hub View  
Hub View Port Color Codes  
The Port Status boxes on each MIM in the Hub View are color-coded to indicate  
the port’s connection status. There are two color-coding schemes: one which is  
associated with port Admin/Link status, and another associated with port  
Admin status (these modes are described in the Port Display Form section,  
following). The default color scheme is the one which indicates port Admin/Link  
status; that is, for any Port Display Form except port Admin status, the colors will  
indicate the status conditions described below.  
Green indicates that the port is active; that is, the port has been enabled by  
management, has a valid Link signal (if applicable), and is able to  
communicate with the station at the other end of the port’s cable segment.  
Blue indicates that the port has been disabled or bypassed through  
management.  
Yellow indicates that the port is enabled but does not have a valid connection.  
This usually indicates that the device at the other end of the segment is turned  
off, or that there is no cable attached to that port; stations which remove  
themselves from the ring for self-testing will also display as yellow.  
When Admin is the selected Port Display Form, there are only two status  
conditions and colors:  
Green indicates that the port is enabled. This does not indicate whether or not  
there is any cable connected to the port, or whether communication has been  
established with the device at the other end of an attached cable.  
Blue indicates the port has been disabled or bypassed through management.  
If an intelligent MIM (e.g., the TRBMIM) is inserted in the MMAC chassis to the left of  
the TRMMIM, its module status box will be colored purple and labeled “Special” for clear  
identification. To manage another intelligent MIM (and any boards in its domain), a  
separate Hub View must be created for it. For example, if you had a TRMMIM and a  
TRBMIM installed in the same chassis, with the TRBMIM to the left of the TRMMIM,  
and you were modeling the TRMMIM in a Hub View (the TRBMIM would bear the  
“Special” module status box mentioned above), you would have to create a separate Hub  
View for the TRBMIM in order to control the FNB connections and manage MIM ports  
to its left. However, even while modeling the TRMMIM, you would still be able to view  
the boards and FNB connections across the entire MMAC.  
NOTE  
Port Display Form  
You can change the type of information displayed for each port in the hub by  
using the Port Display Form option on the Device menu. Changing the port  
display form via the Device menu will affect all manageable ports in the hub.  
To change the port display form:  
1. Click on  
to display the Device menu.  
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Using the TRMMIM Hub View  
2. Drag down to Port Display Form, then right to select one of the port display  
options. The current selection will be displayed in the Port Display Form text  
box(es) on the module display.  
Port display form options are:  
Frames  
Shows the total number of frames transmitted by the port, in a frames/second  
format.  
Total Bytes  
Shows the total number of bytes transmitted by the port, in a bytes/second  
format.  
Errors  
Shows port traffic errors as a rate (errors/second). You can display any one of the  
following types of errors:  
Total errors  
Isolating errors  
Non-isolating errors  
Line errors  
Burst errors  
AC errors  
Abort Sequence errors  
Internal errors  
Lost Frame errors  
Rx Congestion errors  
Frame Copied errors  
Token errors  
Frequency errors  
For error type descriptions, see Checking Statistics, page 2-22.  
When a device is reset, statistics windows and/or statistics displays in the Hub View may  
display very large numbers for one polling interval. This is due to the resetting of the  
counters.  
NOTE  
Port Type  
Provides the following administrative information about the port:  
Admin/Link Status indicates the Administrative and Link connection status  
of the ports:  
-
-
ENB (Enabled) indicates that the port has been enabled by management,  
but there is no station linked to the port.  
BYP (Bypassed) indicates the port has been disabled by management.  
Using the Hub View  
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Using the TRMMIM Hub View  
-
INS (Inserted) indicates the port has been enabled by management, and  
there is a station linked to the port.  
-
-
ACT indicates a ring port is active and passing data.  
WRAP indicates data communications have been terminated at the ring  
port, and it has wrapped so that the ring’s back-up path is in effect.  
-
“---” for ring ports without a connection, or for any port with an unknown  
connection status.  
Admin Status displays either ON or OFF, an indication of whether  
management has the port enabled or disabled. A port can be ON but not  
operational. Under the Admin display, ports that are enabled but not linked  
are shown as ON.  
Media Type applies only to selectable-media ring ports and indicates the type  
of cabling supported by the port:  
-
-
On a module with media-selectable ring ports, the ring ports will display  
the current selection: FO (Fiber Optic) or STP (Shielded Twisted Pair).  
On a module without selectable ring ports, the ring ports will display  
“UNS”.  
-
-
Ring ports that do not have media selection will display “---”.  
Station ports will display “---”.  
Active Ports displays the following information about statistics for the port:  
-
-
-
Yes if a linked (green with INS Admin/Link status) port on the  
TRMMIM-managed ring has recorded statistics since the statistical  
counters were last reset.  
No if a linked (green with INS Admin/Link status) port on the  
TRMMIM-managed ring has not recorded statistics since the statistical  
counters were last reset.  
“---” for non-TRMMIM-managed ports (i.e., ports that are not  
on the managed ring), regardless of their status.  
FNB Display  
The FNB Display option is meant for use with multi-Token Ring management modules  
(e.g., the TRMM-2 and TRMM-4) and port switching MIMs (e.g., the TRXMIM and  
TDRMIM) in order to view the FNB connection status of the port switching MIMs.  
Since the TRMMIM is a single-Token Ring management module, only the FNB 1 display  
selection (which is the default display for your Hub View) is applicable.  
NOTE  
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Using the TRMMIM Hub View  
Using the FNB Display option from the Device menu, you can change the FNB  
index (see Figure 2-4 ) for all boards in the Hub View. By default, all boards in the  
Hub View initially display FNB 1. When you change the FNB Display, the Hub  
View will change to show each board’s relationship with the selected FNB. Hub  
View features that will change include:  
The FNB index, which will display the index for the selected FNB.  
The FNB Bypass State, which will change to show the bypass state (INS, BYP,  
or ---) for each module with respect to the selected FNB. If FNB 2, 3, or 4 are  
selected, non-port switching modules in the chassis will display ---, indicating  
that no connection is possible with the selected FNB. To change the FNB  
The FNB Status/Control symbols, which will display each module’s  
relationship with its neighbors with respect to the selected FNB. If FNB 2, 3,  
or 4 are selected, no FNB Status/Control symbols will be present for  
non-port switching modules in the chassis. For information on manipulating  
the FNB Status/Control symbols, see Controlling Token Ring FNB  
To change the FNB display for all boards in the Hub View:  
1. Click on to display the Device menu.  
2. Drag down to FNB Display, then right to select FNB 1, 2, 3, or 4.  
Monitoring Hub Performance  
The information displayed in the Hub View can give you a quick summary of a  
device’s activity, status, and configuration. SPMA can also provide further details  
via its four-level menu structure. The Device, Module, Station Port, and Ring Port  
menus (Figure 2-5, below) give you control over the hub at these four levels and  
give you access to the tools, menus, and windows which let you monitor specific  
aspects of hub performance, change hub display options, and set TRMMIM  
operating and notification parameters. Some of the same functions are available at  
all four levels; keep in mind, however, that functions accessed from the device  
menu will provide information about and control all the modules in a hub or in  
the first ring detected by the management board, while the functions accessed  
from the module or port menus provide information about and control a single  
module or port.  
Monitoring Hub Performance  
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Using the TRMMIM Hub View  
Figure 2-5. The Device, Module, Station Port, and Ring Port Menus  
Note that the Hub View application only allows you to control boards in the domain of a  
single management module. If you have another management module installed in the  
chassis to the left of the monitored TRMMIM, boards that are under the domain of that  
module (i.e., Media Interface Modules – or MIMs – to its left) will still display in the Hub  
View of the monitored TRMMIM; however, only boards within the domain of the  
monitored TRMMIM can be correctly controlled. Although you can display Module  
menus for MIMs outside of the domain of the monitored TRMMIM, you cannot use these  
menus to correctly control those MIMs.  
NOTE  
Hub performance data available through these menus includes:  
Device, Module, Port, Station, and Ring Port Status windows.  
Note that information displayed in the Status windows is static; that is, it is only gathered  
at the instant the Device, Module, Port, Station, or Ring Port Status window is opened.  
To receive updated information in one of these windows, you must exit the window and  
re-open it.  
NOTE  
Device and Station statistics, which provide a complete breakdown of ring  
activity.  
Device pie-charts, graphs, and meters, as graphic representations of the types  
and levels of traffic passing through the hub. (For more information about pie  
charts, graphs, and meters, see the Charts, Graphs, and Meters chapter in the  
SPMA Tools Guide.)  
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Using the TRMMIM Hub View  
Graphing capabilities are provided by an application that is included in HP Network  
Node Manager and IBM NetView; therefore, graphs are only available when SPMA is  
run in conjunction with one of these network management platforms. If you are running  
SPMA in a stand-alone mode or in conjunction with SunNet Manager, no graphing  
capabilities are available and no graph-related options will be displayed on buttons or  
menus. Note that the screens displayed in this guide will include the graph-related  
options where they are available; please disregard these references if they do not apply.  
NOTE  
Checking Device Status and Updating Front Panel Info  
The Device Status window is where you change the information displayed on the  
Hub View Front Panel and where you can see summary information about the  
current state of the hub.  
To open the Device Status window:  
1. Click on  
to display the Device menu.  
2. Drag down to Status and release.  
Figure 2-6. The Device Status Window  
Name and Location  
These text fields help identify this TRMMIM. The information you enter in the  
Name and Location boxes is set at the TRMMIM and appears on the Hub View  
front panel.  
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Using the TRMMIM Hub View  
Contact  
This text field allows you to enter the identity of the network administrator  
responsible for the TRMMIM. The information you enter in the Contact text box is  
set at the TRMMIM.  
Date and Time  
Cabletron’s intelligent devices incorporate an internal clock. The Front Panel Date  
and Time display is a real-time presentation of the device clock.  
To change the name, location, contact, date, or time:  
1. Highlight the appropriate field and type the new values.  
2. Press Return on the keyboard to save each change before moving on to  
another field. Each change will appear on the front panel as soon as Return  
is pressed.  
Total Rings  
Indicates the number of ring networks resident on the TRMMIM-controlled  
MMAC chassis.  
Total Ports  
Indicates the number of ring and station ports currently detected on the  
TRMMIM-controlled MMAC chassis.  
Checking Module Status  
You can open a Module Status window (Figure 2-7) for any module in a hub. To  
open the Module Status window:  
1. Click mouse button 1 in the Module Type box.  
or  
1. Click mouse button 3 in the Module Type or Module Index box to display the  
Module menu.  
2. Drag down to Status and release.  
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Figure 2-7. Module Status Window  
The Module Status window contains the following fields:  
Module Name  
This text field can help identify this module; the information entered here does  
not appear anywhere else in the Hub View.  
To edit the Module Name:  
1. Highlight the text in the Module Name box and type in a new name.  
2. Press Return on the keyboard to save your change.  
Module  
Indicates the index number of the module in the MMAC chassis. Module  
numbers are counted from right to left in the chassis, with 1 being the rightmost  
slot.  
Speed Fault  
Indicates whether a ring speed fault has been detected on the selected module.  
Possible returned values are Fault Detected or No Fault Detected.  
Note that if your module hardware does not support this feature, this field will be  
grayed out.  
Speed Fault Location  
Indicates the last ring speed fault detection circuit(s) alerted by the fault. Possible  
circuit locations are FNB, Ring-in, or Ring-out. Note that this field will only be  
active if a fault has been detected.  
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Using the TRMMIM Hub View  
Checking Port Status  
You can open a Port Status window for any station port on any manageable  
module installed in the hub. A Port Status window reflects the condition of the  
station port interface on the MMAC hub to which a station can attach.  
To open the Station Port Status window:  
1. Click mouse button 3 in the station Port Status or Port Index box to display  
the Station Port menu.  
2. Drag down to Port Status and release. The Port Status window, Figure 2-8,  
will appear.  
Figure 2-8. The Port Status Window  
Port Name  
This text field can help identify the attached station; the information entered here  
is not displayed anywhere else in the Hub View.  
Module/Port  
Indicates the module (board) and port index of the selected interface.  
Admin State  
Displays the administrative state of the port: enabled or disabled.  
Link State  
Indicates whether the attached station is inserted into the ring (Link) or not (No  
Link).  
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Link State Time  
The time, in hours, minutes, and seconds, since the last Link State change.  
Speed Fault  
Indicates whether a ring speed fault has been detected at the selected station port.  
Possible returned values are Fault Detected or No Fault Detected.  
Note that if your hardware does not support this feature, this field will be grayed  
out.  
Insertion Trap  
This configurable field indicates whether insertion (link) traps are enabled or  
disabled for the station port. Insertion traps are generated by the TRMMIM when  
a station inserts into the ring (i.e., the port status on the chassis changes from ENB  
to INS) or removes itself from the ring (the port status changes from INS to ENB).  
Note that your management system will only receive traps if your management  
station’s IP address has been entered in the TRMMIM’s trap table. Refer to the  
SPMA Tools Guide for more information on the trap table.  
SPMA does not accept the trap messages; that task is left to your network management  
system. (See the appropriate network management system documentation for details  
about viewing trap messages.) When this utility is used in stand-alone mode, traps will  
either be ignored when they return to the workstation from which you are running SPMA  
for the TRMMIM, or they will turn up at another management workstation which has  
been configured to accept traps. Note also that, regardless of the configuration performed  
using this utility, NO traps will be sent by the TRMMIM unless its trap table has been  
properly configured; see the TRMMIM hardware manual and/or the Trap Table chapter  
in the SPMA Tools Guide for more information.  
NOTE  
By default, these traps are disabled to reduce the amount of management activity  
on your network.  
To Enable/Disable the Insertion Traps:  
1. Click mouse button 1 on the Enable or Disable option, as desired. Insertion  
traps will either be activated or deactivated accordingly.  
Checking Station Status  
You can open a Station Status window for any station inserted into the ring. A  
Station Status window provides information about the station inserted into a  
station port interface on the MMAC hub. Note that if there is no station attached  
to the monitored port, no information will display.  
To open the Station Status window:  
1. Click mouse button 3 in the station Port Status box to display the Station Port  
menu.  
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Using the TRMMIM Hub View  
2. Drag down to Station Status and release. The Station Status window,  
Figure 2-9, will appear.  
Figure 2-9. The Station Status Window  
Station Name  
This text field can help identify the attached station; the information entered here  
is not displayed anywhere else in the Hub View.  
Module/Port  
Indicates the module (board) and port index of the selected interface.  
MAC Address  
The physical (hardware) address of the station connected to the interface in MAC  
(Ethernet) or Canonical (Token Ring) format.  
Vendor  
This field displays the name of the attached device’s manufacturer (if known), as  
determined by the first three bytes of the MAC address.  
Upstream Neighbor/Downstream Neighbor  
These fields display the MAC addresses of the attached station’s neighbors on the  
ring.  
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Physical Location  
This text field can help identify where the station is situated. The information  
entered here is not displayed anywhere else in the Hub View.  
Priority  
The priority assigned to a station controls how often it will receive the token and  
how long it can hold it. In this field, you can assign a station priority number  
between 0 and 3, with 0 being the lowest and 3 the highest priority. Use caution  
when assigning a high priority, as this can significantly slow network traffic.  
Port Mapping  
Port Mapping enables the TRMMIM to determine if station address information  
can be matched to a specific board and port index. This ability is important during  
the Automatic Beacon Recovery Process, when the TRMMIM needs to match  
address information contained in beacon frames with physical port locations so it  
can determine the “fault region” and locate failing ports. (See the Ring Map  
chapter for more information about Automatic Beacon Recovery, or ABRP.)  
When Port Mapping is enabled, the TRMMIM can determine if a port is  
physically linked to the MMAC without being mapped as part of the ring  
network — that is, the device does not participate in neighbor notification. If a  
port in this condition is detected, the TRMMIM will physically shut down the  
port to prevent ring problems. Port Mapping is enabled by default.  
However, you may want to attach a device to the MMAC — such as a ring  
analyzer — that does not participate in the normal operation of token ring  
protocol. In this case, you will want to disable Port Mapping for the port to which  
that device will be attached, to ensure that the TRMMIM does not shut the port  
down.  
If you wish to insert an analyzer on a ring, be sure you disable Port Mapping on the port  
you use for insertion; if you don’t, the TRMMIM will detect that a station which is not  
participating in neighbor notification has been inserted, and will shut down the port.  
Also, be sure you do not insert anything other than an analyzer into a port whose  
mapping function has been disabled, since the TRMMIM will not recognize the link  
status of that port, and will therefore not be able to map ports correctly (since it detects  
more stations than linked ports).  
!
CAUTION  
Click on Enable to enable port mapping for the selected port, or on Disable to  
disable it.  
Reverse MACs  
Selecting the Reverse MACs button will toggle the station’s MAC address  
between Token Ring and Ethernet formats (Token Ring MAC addresses are the  
reverse bit order of Ethernet MAC addresses). The Upstream and Downstream  
neighbor addresses will also be affected.  
Monitoring Hub Performance  
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Using the TRMMIM Hub View  
Configuring Station Name, Location, or Priority  
To assign a new station Name, Location, or Priority:  
1. Highlight the text in the Name, Location, or Priority box and type in the new  
value(s).  
2. Press Return on the keyboard to save your change.  
Checking Ring Port Status  
You can check the status for any ring port on a manageable module inserted into  
the MMAC hub.  
To open the Ring Port Status window:  
1. Click mouse button 3 in the ring Port Status box to display the Ring Port  
menu.  
2. Drag down to Status and release. The Ring Port Status window, Figure 2-10,  
will appear.  
Figure 2-10. The Ring Port Status Window  
Port Name  
This text field can help identify the ring interface; the information entered here is  
not displayed anywhere else in the Hub View.  
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Module/Port  
Indicates the module (board) and port index of the selected ring interface.  
Fault State Time  
The time (in an hours, minutes, seconds format) since the last change in the port’s  
fault state.  
Media Fault  
When you are monitoring a ring port that supports auto-wrap, this field tells you  
whether or not the ring port has a valid connection to the node at the other end of  
the cable segment.  
The possible link conditions are:  
Fault Detected – There has been a fault detected on the segment, and the port  
has autowrapped.  
No Fault Detected – No faults have been detected on the segment; therefore,  
the connection is valid.  
Class  
This field indicates the capabilities of the ring port, including whether it supports  
the autowrap feature and media type selection.  
If the ring port does not support autowrap, the field will read “noAutowrap”; if it  
supports autowrap, but not a selectable media type, it will return “autowrap”;  
and if it has a selectable media (as well as autowrap), it will return “selectable.”  
Media Type  
The media type can be one of the following:  
STP (shielded twisted pair)  
Fiber (fiber optic)  
If the ring port supports this feature, you can use this field to change the media  
type by selecting the STP or Fiber option.  
Note that if your hardware does not support this feature, this field will be grayed  
out.  
Phantom Current  
This selection only applies when the Media Type is set to STP for a ring port.  
Devices that support autowrap feature a phantom current, which acts as carrier  
sense between two connected ring ports. If the carrier sense is broken (i.e., the  
wire is broken) the phantom current is lost and the ports automatically wrap to  
retain the continuity of the ring. If you are attaching an older device (e.g., earlier  
TRM-10R, TRM-20R) or a passive concentrator (TRC800) without the autowrap  
feature, then you must disable the phantom current for the connection to remain  
valid.  
Monitoring Hub Performance  
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Using the TRMMIM Hub View  
After you have disabled the Phantom Current, remember that if the ring cable breaks, the  
autowrap feature will not be supported.  
NOTE  
To Enable/Disable the Phantom Current:  
1. Click mouse button 1 on the Active or Inactive option, as desired. The  
Phantom Current will either be activated or deactivated accordingly.  
Checking Statistics  
The Hub View can provide a summary of Token Ring statistics at the Station level.  
To view hub statistics at the Station level:  
1. Display the Station Port menu by clicking mouse button 3 in the appropriate  
area (refer to Figure 2-4, on page 2-7). Refer to the Statistics chapter for  
information on Device-level statistics.  
2. Drag down to Statistics and release.  
Figure 2-11. TRMMIM Statistics Window (Station Level)  
The following fields detail statistics available at the Station level. All statistics  
counts are read from the station at the time the window is opened, and reflect  
statistics collected since the device was last reset. To update the statistics counts,  
click mouse button 1 on  
.
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Using the TRMMIM Hub View  
When a device is reset, statistics windows and/or statistics displays in the Hub View may  
display very large numbers for one polling interval. This is due to the resetting of the  
counters.  
NOTE  
Errors  
The total number of errors detected by the selected station port since the device  
was last reset.  
Frames  
The total number of frames transmitted by the selected station port.  
Bytes  
The total number of bytes transmitted by the selected station port.  
Line  
The count of line errors detected by the selected station. This error indicates a  
non-data bit between the starting and ending delimiters of data, or a frame check  
sequence error.  
Burst  
The count of burst errors detected by the selected station port. This error indicates  
a bit information-encoding error where there are no transitions between 0 and 1  
over five half-bit times.  
AC  
The number of frames containing errors in the A or C bits detected by the selected  
station port.  
Abort  
The number of times the selected station has transmitted abort sequences during  
transmission.  
Internal  
The number of recoverable internal errors detected by the selected port,  
indicating that its attached station is in marginal operating condition.  
Lost Frames  
The number of frames that the selected station has transmitted that have not  
returned because the Timer – Return to Repeat (TRR) timer has expired.  
Congest  
The number of times the selected station has not been able to copy a frame  
addressed to it because of a lack of internal buffering.  
Monitoring Hub Performance  
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Using the TRMMIM Hub View  
Frame Copy  
The number of frames addressed to the selected station that have the A bits  
already set to 1, which indicates a possible electrical line disturbance, or a  
duplicate address on the ring.  
Token  
The number of times the selected station, while acting as the active monitor, has  
detected an error that required the transmission of a token.  
Frequency  
The number of times the selected station has detected that the incoming signal’s  
frequency differed from the expected frequency by more than allowed.  
Managing the Hub  
In addition to the performance information described in the preceding sections,  
the Hub View also provides you with the tools you need to configure your hub  
and keep it operating properly. Hub management functions at the device level  
include finding a MAC address and setting the polling intervals to contact the  
device. At the module level, you can configure the module’s FNB left and right  
connections, set board speed and operating mode, and enable all ports on the  
module. At the station or ring port levels, you can remove a station from the ring,  
convert a station port to a ring-out port; and enable or disable station or ring  
ports.  
Managing the Hub at the Device Level  
From the Device menu, you can select the Find MAC Address and Polling  
Intervals menu options.  
Find MAC Address  
The Find MAC Address menu command will let you search for any station on the  
TRMMIM-controlled ring by MAC address. When a station is found, its location  
will be described by module and port number.  
To start the Find MAC Address command:  
1. Click on  
to display the Device menu.  
2. Drag down to Find MAC Address, and release. The following window will  
appear.  
2-24  
Managing the Hub  
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Using the TRMMIM Hub View  
Figure 2-12. The Find MAC Address Window  
3. Enter the desired MAC address in the Find window, and press Return to start  
the search. Note that this feature is not case-sensitive.  
If the address is found, it will be listed in the window along with its board and  
port index.  
Setting the Polling Intervals  
By setting the polling intervals you can determine how often the following fields  
and status indicators are updated in your hub view window: contact status icon,  
device uptime, time, date, device name, device location, IP Address, MAC  
Address, port status indicators and statistics windows. You can set different  
polling intervals for each of the five polling groupings. This enables you to reduce  
traffic on your network by setting a high polling interval for the information that  
usually remains constant (e.g., Device General Status) and a low interval for one  
that is changing more frequently (e.g., Statistics).  
To set the polling intervals used by SPMA:  
1. Click on  
to display the Device menu.  
2. Drag down to Polling Intervals, and release.  
Managing the Hub at the Device Level  
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Using the TRMMIM Hub View  
Figure 2-13. TRMMIM Polling Intervals  
3. To activate the desired type of poll, click mouse button 1 on the selection box  
to the right of each polling type field. Note that you will not be able to edit the  
polling interval unless you have activated the polling.  
4. To change a polling interval, highlight the value you would like to change, and  
enter a new value in seconds. Note that the Use Defaults option must not be  
selected, or values will revert back to default levels when you click  
and your changes will be ignored.  
,
5. If you wish to use your new polling interval settings as the default values that  
SPMA will use for each Token Ring Hub Module you are managing, use  
mouse button 1 to select the Save as Defaults option. Note that these default  
polling intervals will be applied to all intelligent Token Ring modules that you  
are monitoring through SPMA.  
6. If you wish to replace existing values with the current set of default values, use  
mouse button 1 to select the Use Defaults option.  
7. Click mouse button 1 on  
once your changes are complete.  
Changes take effect after the current polling cycle is complete.  
You can set the update interval (in seconds) for the following:  
Contact Status  
Indicates the interval that the device waits between polling for the status of the  
connection between SPMA and the device. This information appears in the form  
of the contact status icon at the top right corner of the hub view.  
2-26  
Managing the Hub at the Device Level  
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Using the TRMMIM Hub View  
Device General Status  
This polling interval controls how often the Hub View Front Panel Information,  
such as Uptime, Device Name, etc., and some network, module, and port status  
information is updated.  
Device Configuration  
Indicates when SPMA polls the device for the type of equipment installed in the  
TRMMIM-managed hub; information from this poll would change the Hub View  
to reflect the addition and/or removal of a MIM or MIMs.  
Port Operational State  
Indicates at what interval SPMA polls the device for the status of the individual  
ports. This is represented in the color-coded port display format in the Hub View.  
Statistics  
This polling interval controls how often the Statistics windows are refreshed. The  
Statistics windows are available from the Device and Station Port menus.  
SPMA generates network traffic when it retrieves the information described above; keep  
in mind that shorter intervals mean increased network traffic. Range limits for these  
polling times are 0-999,999 seconds; however, an entry of 0 will be treated as a 1.  
NOTE  
You can save changes made to the polling window as defaults. After you have  
saved a polling configuration as a default it will be used as the polling interval  
each time you open the window while the Use Defaults option is selected. These  
update intervals will replace your current default values. To save your changes as  
defaults for all your Token Ring Management Modules:  
1. Change the Polling Intervals as necessary (follow the steps in the section  
above).  
2. Select the Save as Defaults option.  
3. Click mouse button 1 on  
to save the changes you have made to  
the window. The polling intervals you have entered will now be used as the  
default values for all Token Ring Management Modules.  
If you have made changes to the Polling Interval window, but have not saved  
them as defaults, you can revert to the default values by selecting the Use  
Defaults option. If you leave this option selected, the window will appear with  
the default values each time you open the window. Use the following steps to  
activate this option:  
1. Select the Use Defaults option from the Polling Intervals window.  
2. Click mouse button 1 on  
to save the Use Defaults option.  
Subsequent openings of the Polling Interval window will use default values.  
Managing the Hub at the Device Level  
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Using the TRMMIM Hub View  
Managing the Hub at the Module Level  
At the module level, you can configure the module’s FNB left and right  
connections and FNB Bypass state, set board speed and operating mode, and  
enable all station ports, all ring ports, or all ports on the module.  
Controlling Token Ring FNB Multiplexer Connections  
You can control the configuration of your Token Ring network by changing the  
FNB multiplexers – that is, the way modules connect to their neighbors through  
the MMAC Flexible Network Bus (FNB).  
By wrapping a Token Ring module’s FNB left and right connections, you can  
physically disconnect a module from the FNB. Enabling a module’s FNB Bypass  
state causes its station ports to be isolated from the ring, while the module itself  
remains physically connected to the FNB.  
The following diagram shows how you view the module display in the Hub View  
to check the FNB left and right connections, as well as the FNB Bypass state, of the  
hub modules.  
INSerted: the  
module is inserted  
into the ring.  
Individual station  
ports on the module  
can still be  
FNB Right  
connection  
disabled.  
BYPassed.  
FNB Left  
connection  
disabled.  
Module 7 FNB  
Right Connection  
enabled  
Module 6 FNB  
Left Connection  
enabled  
Figure 2-14. Bypass State and FNB Connection Symbols  
There are two methods that you can use to control the FNB left and right  
connections for Token Ring MIMs; you can click the mouse on the FNB symbols in  
the Hub View FNB Status/Control box, or you can use the Module FNB  
Configuration window, available via the Module menu. There are also two ways  
to control the module’s FNB Bypass state; you can click the mouse on the  
module’s FNB Bypass state box in the Hub View, or use the Module FNB  
Configuration window to toggle the module’s FNB Bypass state between INS  
(inserted) or BYP (bypassed).  
2-28  
Managing the Hub at the Module Level  
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Using the TRMMIM Hub View  
FNB Bypass States  
Figure 2-14 shows that all three modules are inserted into FNB 1, as opposed to  
being bypassed from the FNB by a multiplexer. There are two possible status  
conditions for a Token Ring module:  
INS  
The Bypass multiplexer is disabled, and all station ports and ring ports can be  
connected to the FNB (depending on the status of the surrounding boards and  
FNB connections).  
BYP  
The module is Bypassed, and the MIM ports form a self-contained ring. Stations  
connected to the ports can communicate with each other, but they can’t pass  
frames to the main ring. Ring ports are unaffected by the Bypass state (unless you  
are modeling an older TRMIM-10R or TRMIM-20R; with these two modules, all  
ports on the board enter bypass state and are isolated from the main ring). They  
can communicate with other Token Ring modules if the FNB connection status  
allows, but station ports on the MIM are no longer connected to the ring ports.  
Ring ports can be separately bypassed using the RP Bypass option in the Module  
FNB Configuration window. See Using the Module FNB Configuration Window  
for details.  
Manipulating the FNB in the Hub View  
To change a module’s FNB left and right connections from within the Hub View:  
1. Click mouse button 1 on the appropriate FNB connection symbol to toggle  
between disabled and enabled.  
To change a module’s FNB Bypass state from within the Hub View:  
1. Click mouse button 1 on the Bypass State box at the top of the module to  
toggle between BYP and INS.  
Using the Module FNB Configuration Window  
The Module FNB Configuration window allows you to manipulate a module’s  
FNB left and right connections and FNB Bypass state. You can also bypass a  
module’s ring ports using this window. The window lists each FNB interface  
available for a module (for the TRMMIM, only FNB 1 is available), allowing you  
to select the FNB and quickly apply the desired settings. To open the Module FNB  
Configuration window:  
1. Click mouse button 3 on the Module Name, FNB State, or Port Display  
Form box to display the Module menu.  
2. Drag down to FNB Status, and release. The Module FNB Configuration  
window, Figure 2-15, will appear.  
Managing the Hub at the Module Level  
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Using the TRMMIM Hub View  
Figure 2-15. The Module FNB Configuration Window  
The Module FNB Configuration window contains the following fields:  
Board:  
This field displays the board number of the module for which the Module FNB  
Configuration window is being displayed.  
FNB  
This field lists the FNB number for each FNB interface available for the selected  
module. For the TRMMIM, only FNB 1 is available.  
Left Connect  
This field lists the FNB left connection status for each corresponding FNB in the  
list. Possible values for this field are Attached or Wrap.  
Right Connect  
This field lists the FNB right connection status for each corresponding FNB in the  
list. Possible values for this field are Attached or Wrap.  
Bypass  
This field lists the FNB Bypass state for each corresponding FNB in the list.  
Possible values for this field are Enabled or Disabled.  
RP Bypass  
This field lists the Ring Port Bypass state for each corresponding FNB in the list.  
Possible values for this field are Enabled, Disabled, or NA (not applicable). The  
default setting for this field is Disabled. Modules without ring ports will display  
NA.  
2-30  
Managing the Hub at the Module Level  
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Using the TRMMIM Hub View  
To attach or wrap a module’s FNB left and right connections using the Module  
FNB Configuration window:  
1. Click mouse button 1 on the FNB Interface in the list. The list entry will be  
highlighted to show that it is selected.  
2. Click mouse button 1 on the Attach or Wrap option for the connection that  
you wish to manipulate (Left or Right).  
3. Click on  
. The desired FNB connection operation will be performed.  
To change a module’s FNB Bypass state using the Module FNB Configuration  
window:  
1. Click mouse button 1 on the desired FNB Interface in the list. The list entry  
will be highlighted to show that they are selected.  
2. Click mouse button 1 on the Bypass: Enable or Disable option.  
3. Click on  
. The desired FNB Bypass operation will be performed.  
The Network 1 interface of your TRMMIM is dedicated to monitoring FNB 1. If you  
enable a module’s FNB Bypass state for FNB 1, that module (and its ports) will no longer  
be in contact with the managed ring, and will form their own self-contained (orphan)  
ring.  
!
CAUTION  
To change a module’s Ring Port Bypass state using the Module FNB  
Configuration window:  
1. Click mouse button 1 on the FNB Interface in the list. The list entry will be  
highlighted to show that it is selected.  
2. Click mouse button 1 on the RP Bypass: Enable or Disable option.  
3. Click on  
performed.  
. The desired Ring Port Bypass operation will be  
Clearing the Module FNB Configuration Window Selections  
Clicking  
at the bottom of the Module FNB Configuration window will  
return all options to their unselected state.  
Note that clicking  
set by clicking  
will not undo any FNB operations which you have  
.
Controlling Token Ring Speed  
Token Ring networks can operate at either 4 or 16 Mbps. All modules connected  
to the same network must operate at the same speed.  
Managing the Hub at the Module Level  
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Using the TRMMIM Hub View  
To change the ring speed of a module:  
1. Click mouse button 1 on the Module Ring Speed box (at the bottom of the  
module) to toggle between 4 and 16 Mb/second.  
or  
1. Click mouse button 3 in the Module Name, FNB State, or Port Display Form  
box to display the Module menu.  
2. Drag down to Speed, right to 4 Mega Bits or 16 Mega Bits, then release.  
Controlling Token Ring MIM Management Mode  
Token Ring MIMs can run in one of two modes:  
Auto (AUT)  
Auto mode means that the MIM is using the hardware configuration settings; it is  
not being controlled. If you change an operating parameter (ring speed, bypass  
state, and so forth) on a module in Auto mode, the mode changes to Management  
to indicate that it is being managed.  
Management (MGT)  
Management mode means that management takes precedence over the default  
hardware settings on the board. If you toggle back to Auto mode, the hardware  
default settings will be restored, and any administrative actions you have taken to  
alter those settings will be undone.  
To change a module’s management mode:  
1. Click mouse button 1 on the Module Management Mode box (at the bottom  
of the module) to toggle between AUT and MGT.  
or  
1. Click mouse button 3 in the Module Name, FNB State, or Port Display Form  
box to display the Module menu.  
2. Drag down to Mode, drag right to Auto or Management, and then release.  
Note that there is no Auto mode available for the management board.  
Enabling All Ports on Token Ring Modules  
You can choose to enable all Station Ports, all Ring Ports, or all ports on a module.  
To enable all ports on a Token Ring MIM:  
1. Click mouse button 3 in the Module Name, FNB State, or Port Display Form  
box to display the Module menu.  
2-32  
Managing the Hub at the Module Level  
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Using the TRMMIM Hub View  
2. Drag down to Enable Ports, drag right to All Station Ports, All Ring Ports,  
or All Ports, and release.  
Managing the Hub at the Port Level  
At the Station or Ring port level, you can convert a station port into a ring-out  
port, remove a station from the ring, or enable or disable a station or ring port.  
Converting a Station Port to a Ring-out Port  
If you are monitoring a TRXMIM or a 93 Series Token Ring MIM (the TRMIM  
22A/24A/ 42A/44A), you have the ability to switch the function of a station port  
to that of a ring-out port. In this configuration, you can add a stand-alone passive  
®
concentrator (such as a Cabletron Systems TRC800 or IBM 8228) to the ring. This  
allows for a star-wired network with the MMAC at the center.  
To convert a station port on a TRXMIM or a 93 Series TRMIM into a ring-out port:  
1. Click mouse button 3 in the Port Index or Port Status box to display the  
Station Port menu.  
2. Drag down to Enable Ring Out and release to convert the station port into a  
ring-out port.  
The converted port will assume full functionality of a ring-out port, and will  
reflect as such in the Hub View window. The port status will now display as that  
of a ring-out port, and the port menu will now assume ring port menu properties.  
To convert the ring-out port back into a station port:  
1. Click mouse button 3 in the Port Index or Port Status box to display the Ring  
Port menu.  
2. Drag down to Disable Ring Out and release to revert the functionality of the  
port back to a station port.  
Enabling and Disabling Station and Ring Ports  
You can enable ports from the Module menu, which affects all ports on a single  
module. You can enable and disable ports from the Station Port and Ring Port  
menus, which affect individual ports.  
To enable or disable an individual station or ring port:  
1. Click mouse button 1 on the Station or Ring Port Status box to toggle the  
port On or Off. Enabled ports are yellow, disabled ports are blue.  
Managing the Hub at the Port Level  
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Using the TRMMIM Hub View  
or  
1. Click mouse button 3 in the Port Index or Port Status box to display the  
Station Port menu or Ring Port menu.  
2. Drag down to Enable or Disable and release. Enabled ports are yellow,  
disabled ports are blue.  
To enable all Station ports, all Ring ports, or all ports in a module:  
1. Click mouse button 3 in the Module Name, FNB State, or Port Display Form  
box to display the Module menu.  
2. Drag down to Enable Ports, drag right to All Station Ports, All Ring Ports,  
or All Ports, and release. Enabled ports are yellow, disabled ports are blue.  
Removing a Station from the Ring  
The Remove Station option on the Station Port menu allows you to remove a  
station from the ring so that it can perform a loopback test. When you select this  
option, the TRMMIM sends a Remove MAC Frame to the selected station. Upon  
receiving this frame, the station will perform a loopback test to verify that its  
MAC adapter is functioning correctly.  
If the station fails the loopback test, it will stay off the ring. If it passes the test, its  
actions will depend on the manufacturer of the adapter card. Cabletron Token  
®
®
Ring DNI cards (and some others) will reinsert into the ring automatically. IBM  
adapter cards (and others) will remove themselves from the ring until the station  
is re-booted.  
To remove a station:  
1. Click mouse button 3 in the Port Index or Port Status box to display the  
Station Port menu.  
2. Drag down to Remove Station and release.  
2-34  
Managing the Hub at the Port Level  
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Chapter 3  
Ring Map  
Launching the Ring Map application; changing the map poll interval; setting the calculation mode;  
assigning station labels; viewing the Map Error table; the Quick Info Pop-up window; management  
station configuration; viewing Ring History; using the Find features; accessing other SPMA  
applications  
The Ring Map application comprises several major windows that provide  
information about the ring your TRMMIM is managing:  
The Ring Map window graphically displays all the stations inserted into a  
selected ring network. Labelling options allow you to display the stations  
according to several parameters, including vendor, address,  
board/port/drop, and station name.  
An Error Table allows you to compare the number of soft errors detected by  
stations on your ring. You can select the errors either as a sum total, or select  
an individual soft error type.  
The Management Station Configuration window provides information on  
the ring management device in its role as a station on the ring. The window  
allows you to issue commands, allow or disallow active monitor contention,  
and establish the time interval at which error reports are sent to the ring  
management station.  
The Beacon History window provides a record of ring events, including  
Active Monitor changes, ring purges, and beacon information.  
In addition, menus from individual station displays allow you to set a station  
drop or station name; you can also invoke a Quick Info Pop-up window that  
summarizes an individual station’s configuration and ring performance.  
Powerful sort and find capabilities allow you to search for individual stations on  
your network according to various parameters; you can also use this application  
to invoke other SPMA Token Ring applications.  
3-1  
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Ring Map  
Launching the Ring Map  
To launch the Ring Map application  
from the icon:  
1. Click on the appropriate TRMMIM icon to display the icon menu.  
2. Drag down to Ring Map and release.  
from the Hub View:  
1. Click on  
to display the Device menu.  
2. Drag down to Ring Map and release.  
from the command line (stand-alone mode):  
1. From the appropriate directory, type the following at the command line:  
spmarun e5map <IP Address> <community name>  
The spmarun script invoked first in the above command temporarily sets the environment  
variables SPMA needs to operate; be sure to use this command any time you launch an  
application from the command line. This script is automatically invoked when you launch  
an application from the icon menu or from within the Hub View.  
NOTES  
If you wish to configure a station while in the Ring Map window, be sure to use a  
community name with at least Read/Write access. If you only wish to view the ring map,  
a community name with Read access will be sufficient.  
If there is a hostname mapped to your TRMMIM’s IP address, you can use <hostname>  
in place of <IP address> to launch this application. Please note, however, that the  
hostname is not the same as the device name which can be assigned via Local Management  
and/or SPMA; you cannot use the device name in place of the IP address  
The Ring Selection window, Figure 3-1, will appear.  
3-2  
Launching the Ring Map  
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Ring Map  
Figure 3-1. The Ring Map – Ring Selection Window  
Selecting a Ring to Map  
The Ring Map Ring Selection window allows you to choose which ring to map  
from among the rings, or networks, supported by the monitored TRMMIM.  
Networks are identified by the following two fields:  
No.  
The index number assigned to the ring.  
Ring Name  
This network name assigned to each ring managed by the TRMMIM. The default  
network name is Network X, where X represents the index number.  
To view a ring map:  
1. Click to select the ring you wish to monitor; the entry will be highlighted to  
show it is selected.  
2. Click on  
. The Ring Map window, Figure 3-2, will appear.  
Selecting a Ring to Map  
3-3  
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Ring Map  
Figure 3-2. The Ring Map Window  
You can also change the ring you’re viewing without quitting the Ring Map  
application. To do so:  
1. Click on  
.
2. Drag down to Select Ring. The Ring Selection window will re-appear.  
Note that when you re-open the Ring Selection window, there is a Cancel  
button in place of the Quit button in the window. Clicking on Cancel closes  
the selecting window without exiting the application.  
The Ring Map window displays all stations on the currently selected ring  
counter-clockwise in downstream neighbor order, beginning with the monitored  
device. You may need to re-size the window or scroll through it to view each  
station on the selected network. The current active monitor will display in green  
text; the current ring management station will be displayed surrounded by a blue  
border. If the ring management station and the current active monitor are the  
same station, that station will bear both the green text and the blue border.  
3-4  
Selecting a Ring to Map  
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Ring Map  
The upper section of the Ring Map window, beneath the  
buttons, displays the following ring information:  
and  
Speed  
Displays the operating speed (4 Mbits/sec or 16 Mbits/sec) of the selected ring.  
Stations  
Displays the number of stations currently inserted into the selected ring.  
Name  
Displays the name assigned to the selected ring network.  
Utilization  
Displays the percentage of the total usable bandwidth (4 or 16 Mbits) that is  
currently being used on the monitored ring. This field will update after each  
polling interval.  
State  
Displays the current operational status of the monitored ring. Possible status  
conditions are:  
Unknown  
Indicates the state of the ring cannot be detected by the  
management station.  
Closed  
Indicates that the management station is not inserted into  
the ring, and therefore cannot determine the ring state.  
Normal Token  
Protocols  
Indicates the ring is running with no problems, and  
tokens are being detected by the management station.  
Purge  
Indicates that the active monitor has issued a ring purge  
command. Communications will be restored when a new  
token is released.  
Contention  
Beaconing  
Lobe Fail  
Indicates that the ring has entered into the active monitor  
contention process to select a new active monitor.  
Indicates that the management station has detected a  
beacon frame.  
Indicates that a station failed the lobe self-test when it  
attempted to insert into the ring.  
Use the  
whole.  
button to launch applications which apply to the ring as a  
Selecting a Ring to Map  
3-5  
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Ring Map  
Use the  
button to locate a specific station on the ring by any one of a  
number of characteristics, including drop, station name, and MAC address; you  
can also identify stations of special interest, such as the active monitor or the last  
beaconing station.  
Use the individual station boxes to view station-specific information.  
Viewing Station-specific Information  
The Quick Info Popup Window  
Using the Quick Info Popup window, you can view a summary of configuration  
and performance information for an individual station.  
Remember, in the Quick Info Popup window, statistics are measured at the specified  
polling interval and are displayed according to the selected calculation mode. The  
calculation mode is global in nature; that is, when you change mode, it affects all statistics  
— including those in the Quick Info window. The calculation mode currently in effect is  
indicated at the bottom of the window.  
NOTE  
To open a Quick Info Popup window for a station:  
1. Double-click mouse button 1 on the selected station’s label.  
or  
1. Click mouse button 3 on the selected station’s label to access the Station  
Menu; drag down to Quick Info, and release.  
2. The Quick Info Popup window, Figure 3-3, will appear.  
3-6  
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Ring Map  
The current  
Calculation Mode  
is displayed here  
Figure 3-3. Quick Info Popup Window  
The Quick Info Popup window contains the following information about the  
selected station:  
MAC Address  
The hardware address of the station’s network adapter, displayed in Canonical  
form.  
Name  
The administratively assigned name of the station, if one has been assigned; if  
none has been assigned, this field will remain blank. See Setting a Station Name,  
Board and Port  
If the station is resident in the same hub as the TRMMIM, its board and port  
location will display here. If the station is physically remote from the monitored  
hub, the board and port will display 0.  
Drop  
The drop location of the station, if one has been administratively assigned. See  
Viewing Station-specific Information  
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Ring Map  
Utilization  
The percentage of the total usable bandwidth (4 or 16 Mb) that is currently being  
used by the station. This field will update after each polling interval.  
Performance and Errors  
Error and performance statistics for the selected station are displayed according  
to the currently selected calculation mode. Statistics displayed are:  
Frames  
Bytes  
Line  
Burst  
AC  
Abort Seq  
Internal  
Lost Frames  
Congestion  
Frame Copied  
Token  
Frequency  
See Viewing the Error Table, page 3-14, for detailed definitions of these statistics.  
Setting a Station Name  
Using the Ring Map window, you can administratively assign a name to any  
station on the monitored ring network.  
To do so:  
1. Click mouse button 3 on any station label in the map.  
2. Drag down to Set Name, and release. The Set Station Name window,  
Figure 3-4, will appear.  
Figure 3-4. Set Station Name Window  
3. In the Enter Name text field, enter a name (up to 10 ASCII characters) for the  
selected station.  
4. Click on  
. The new name will be set at the station.  
3-8  
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Ring Map  
Setting a Station Drop  
Using the Ring Map window, you can administratively assign a physical drop  
identifier to any station on the monitored ring network.  
To do so:  
1. Click mouse button 3 on any station label in the map.  
2. Drag down to Set Drop, and release. The Set Station Drop window,  
Figure 3-5, will appear.  
Figure 3-5. Set Station Drop Window  
3. In the text field, type up to four ASCII characters.  
4. Click on  
selected station.  
. The new physical drop identifier will be set at the  
Viewing Management Station Configuration  
The Management Station Configuration window provides information related to  
the ring’s management device in its role as a station on the ring; from this window  
you can issue certain commands, allow or disallow active monitor contention,  
and establish the interval at which error reports are sent to the management  
station.  
To open the Management Station Configuration window:  
1. In the Ring Map itself, look for the station whose label is outlined in blue. This  
is the management station.  
or  
1. Click on  
, drag down to Management Station, and release. The map  
window will scroll if necessary to display the management station label.  
2. Click mouse button 3 on the station label for the management station; drag  
down to Management Station Configuration, and release. The  
Management Station Configuration window, Figure 3-6, will appear.  
Viewing Station-specific Information  
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Ring Map  
Figure 3-6. The Management Station Configuration Window  
The Management Station Configuration window contains the following  
information and configurable options:  
Commands  
You can choose one of five commands to execute on the management station. To  
select a command, click mouse button 1 on the button next to it.  
No-op  
No operation (command) will be performed on the  
device.  
SW Reset  
HW Reset  
The device will be reset through the software; note that  
this does not reset statistical counters.  
A hardware reset will occur on the device, which is the  
equivalent of physically resetting the device. This  
reinitializes the module and all counters are reset.  
Open  
Close  
Forces the management station to “open” on to the ring.  
This causes the station to participate in the ring poll  
process and receive and transmit data onto the ring.  
Forces the management station to “close,” therefore  
removing itself from the ring and making the station  
incapable of receiving or transmitting any data onto the  
ring.  
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Ring Map  
Open Status  
This field displays the result of the last “open” command or the last attempt by  
the management station to open onto the ring: whether the management station  
did in fact open onto the ring, or if an error occurred. This field may display any  
one of the following:  
No Open  
An open command has not been issued.  
Bad Param  
The open command could not be completed because the  
parameters did not allow for the station to be opened  
onto the ring.  
Lobe Test Failed  
Signal Loss  
The lobe media check has failed for the management  
station.  
A signal loss condition has been detected at the  
management station’s receiver input during the open  
process.  
Insertion Timeout  
Purge Failed  
The management station has failed to logically insert on  
the ring before the insertion timer expires.  
The management station has timed out when attempting  
a ring purge after becoming the active monitor: that is,  
the management station was unable to receive its own  
ring purge MAC frames.  
Beaconing  
The management station received a beacon MAC frame  
after physically inserting into the ring.  
Duplicate MAC  
Address  
Another station on the ring has the same MAC address  
as the management station.  
Parameter Requested  
The management station has determined that a Ring  
Parameter Server (RPS) is present on the ring, but it does  
not respond to a request initialization MAC frame.  
Remove Received  
The management station received a remove adapter  
MAC frame during the insertion process.  
Open  
The open command was completed successfully.  
Error Status  
This field displays a number associated with the most recent error status that was  
reported by the management station. It is possible for more than one error status  
to be reported at one time; in this case, the number displayed would be the sum of  
the codes of the last errors recorded. The following table lists the possible errors  
and their corresponding error codes:  
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Ring Map  
Code  
Error  
No problem detected  
Ring Recovery Error  
0
32  
The management station has observed claim token MAC frames on the ring.  
Single Station  
64  
The management station has sensed it is the only station on the ring.  
Counter Overflow  
128  
One of the management station’s error counters has incremented from 254 to 255.  
Remove Received  
256  
1024  
2048  
The management station has received a remove ring station MAC frame request  
and has removed itself from the ring.  
Auto-Removal Error  
The management station has failed the lobe wrap test resulting from the beacon  
auto-removal process and has removed itself from the ring.  
Lobe Wire Fault  
The management station has detected an open or short circuit in the cable between  
itself and the wiring concentrator or hub.  
Transmit Beacon  
4096  
8192  
The management station is transmitting beacon frames to the ring.  
Soft Error  
The management station has transmitted a report error MAC frame.  
Hard Error  
16384  
The management station is presently transmitting beacon frames to or receiving  
beacon frames from the ring.  
Signal Loss  
32768  
The management station has detected a loss of signal on the ring.  
No Status, Open Not Completed  
131072  
Table 3-1. Error Status Codes and Definitions  
Active Monitor  
This field allows you to determine whether or not the management station will  
participate in active monitor contention. The contention process occurs as part of  
the recovery procedures initiated after certain ring error situations, and is used to  
select a new Active Monitor for the ring. If you disallow contention for the  
selected management station, that station will not participate in the contention  
process, and will therefore never be chosen as Active Monitor.  
3-12  
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Ring Map  
If you disallow contention for a management station which is currently serving as the  
Active Monitor, that station will continue as Active Monitor until the next contention.  
NOTE  
Error Report Timer  
The Error Report Timer determines the interval at which stations will report the  
number of errors they have detected. The default timer value is 2 seconds. To  
change this value:  
1. Highlight the current setting.  
2. Type in a new setting, and press Enter.  
Current versions of TRMMIM firmware do not support the ability to set the Error Report  
Timer Delay; future versions will include this feature.  
NOTE  
After making changes in the Management Station Configuration window, click  
here to update the information shown in the window’s fields.  
Viewing Ring-level Information  
Setting the Statistics Calculation Mode  
Statistics available from the Ring Map window are calculated according to one of  
three formulas:  
Rate  
Units expressed as a change in value divided by the  
length of the polling interval, or units measured /time  
(in seconds). For example, if you measured 3200 frames  
over a 10 second interval, the frame rate would be  
320/sec.  
Cumulative  
Total units measured since the cumulative option was  
selected. For example, if you measured 390 frames  
during the first interval since cumulative was selected,  
270 in the second, and 500 in the third, the cumulative  
total would be 1160. You can reset the Ring Map’s  
cumulative counters at any time.  
Delta  
The change in the units measured from the previous poll  
to the current poll.  
Viewing Ring-level Information  
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Ring Map  
The calculation mode you select will be used to determine the statistics values  
displayed in the Quick Info Pop-up window (see page 3-6), the Error Table (see  
page 3-14), and in the Find feature which displays the stations with the lowest  
and highest occurrences of certain statistical values (see page 3-28).  
To set the calculation mode:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Set Calculation Mode, and release. The Set Calculation Mode  
window, Figure 3-7, will appear.  
Figure 3-7. Set Calculation Mode Window  
3. Click to select the desired mode of calculation: Rate, Cumulative, or Delta.  
4. Click on OK to accept the calculation mode, or Cancel to exit without  
changing the calculation mode.  
To refresh the cumulative statistics and begin re-calculating them, bring up the Set  
Calculation Mode window, click on  
, and then on  
.
Viewing the Error Table  
The Error Table provides a ranking of ring stations according to the total number  
of errors or the total of an individual error type detected by each station. Stations  
are listed hierarchically, from greatest to least; each station is identified by MAC  
address as well as rank.  
In addition to the ranking and selected error statistic, the table also provides the  
total number of frames and bytes processed by each station.  
Error table rankings are determined based on the calculation mode currently in  
effect, and statistical values are displayed in that mode; note that changing the  
calculation mode may also change the ranking, since the values used for ranking  
will be different. Only the top ten stations will appear in the list; stations reporting  
identical numbers of errors — including 0 — are listed in an arbitrary order.  
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Ring Map  
To access the Error Table:  
1. Click on  
.
2. Drag down to Error Table, and to the right to select Total Errors or a specific  
error. The Error Table, Figure 3-8, will appear.  
Figure 3-8. The Error Table Window  
The statistics for each category are measured at the end of the specified polling interval  
and are displayed according to the selected calculation mode. The calculation mode is  
global in nature; that is, when you change modes, it affects all statistics — including  
those in the Error Table. The window title notes the calculation mode currently in effect.  
NOTE  
The reported soft errors are errors from which the ring can recover through  
normal operation of the Token Ring protocol. Although these errors do not cause  
ring failure, in sufficient numbers they may cause degradation of ring  
performance, and the ring may have to be purged (the Active Monitor must  
perform ring recovery operations), or Active Monitor contention may have to be  
initiated. In either of these situations, the data flow will be halted while normal  
operations are being restored on the ring.  
Viewing Ring-level Information  
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Ring Map  
Basic performance information is provided regardless of which error type has  
been selected for display:  
Frames  
The number of frames transmitted by the associated  
station as measured using the currently selected  
calculation mode.  
Bytes  
The number of bytes transmitted by the associated  
station as measured using the currently selected  
calculation mode.  
The remainder of the window displays the counts for the error type or types you  
selected when you launched the window. Remember, these counts reflect which  
stations are reporting the error to the Ring Error Monitor, not which stations are  
experiencing the error condition.  
If the error is an isolating error, you can narrow the fault to a certain domain – that is  
the adapter card of the reporting station or its downstream neighbor – or to the cabling  
between the two stations. Non-isolating errors cannot be narrowed to a fault domain  
(with the exception of Congestion errors), because they could be caused by any station on  
the ring.  
TIP  
Total Errors  
The number of soft errors detected by the associated station as measured using  
the currently selected calculation mode.  
Isolating Errors  
Line Errors  
The count of line errors detected by the associated station  
during the last statistics poll interval. A line error  
indicates the presence of a coding violation between the  
starting and ending delimiters of data, a frame check  
sequence error, or a code violation in a token. These can  
be caused by power surges on the ring; they are counted,  
but initiate no other recovery procedures.  
Burst Errors  
The count of burst errors detected by the associated  
station. A burst error occurs when five half-bits of  
Manchester-encoded data are received by a station  
without a phase change (a signal transition from 0 to 1 or  
from 1 to 0). This error is normal when stations enter or  
leave the ring without phantom current; however, it can  
also indicate a problem with the receiver on the reporting  
node, the transmitter on its NAUN, or the cabling or hub  
hardware between them. Burst errors will cause the  
active monitor to initiate the ring purge process, and may  
cause frames to be lost on the ring.  
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Ring Map  
AC Errors  
The count of frames containing errors in the ARI  
(Address Recognized Indicator) or FCI (Frame Copied  
Indicator) bits. Also known as ARI/FCI errors, AC errors  
occur during the Ring Poll or Neighbor Notification  
process when one station fails to correctly set the ARI  
(address recognized) and FCI (frame copied) indicator  
bits on the current AMP (active monitor present) or SMP  
(standby monitor present) frame intended for it, thus  
leaving its downstream neighbor without an accurate  
upstream neighbor’s address. AC errors are detected  
when a station receives more than one AMP frame with  
ARI and FCI bits still set to 0 without seeing an  
intervening SMP frame with its bits set to 1, or when the  
station detects an SMP frame with its ARI and FCI bits  
set to 0 without having seen an AMP frame with its ARI  
and FCI bits set to 1. When a station detects an AC error,  
it stops the Ring Poll process by not issuing its own SMP  
frame; no other ring recovery procedures are initiated.  
These errors are typically associated with hardware  
(adapter) problems.  
Abort Seq  
The number of times that the associated station has  
issued an abort sequence during transmission. These  
occur when a station begins to queue data onto a token,  
and subsequently detects that the token is corrupted  
(because it does not have an ending delimiter after its  
access control field). The station reports the error, but  
does not release the corrupt token back onto the network.  
This will cause the Active Monitor to purge the ring and  
issue a new token. A failing network adapter is likely to  
be the cause of this isolating error.  
Internal Error  
The count of errors caused by the station recognizing a  
recoverable internal error in its adapter and removing  
itself from the ring. Possible problems with the adapter  
hardware include inoperable chip set, timer, or counters.  
Non-Isolating Errors  
Lost Frame Errors  
The number of frames that the associated station has  
transmitted that have not completely returned before its  
Timer Return to Repeat (TRR) timer has expired (after 4.1  
milliseconds). These non-isolating errors are generally  
harmless, since they are often caused by a brief  
disruption of ring clocking as a station enters or exits the  
ring. However, they do require the Active Monitor to  
purge the ring.  
Congestion Errors  
The number of times the associated station was unable to  
copy frames addressed to it because of a lack of internal  
buffering – that is, the station is receiving frames faster  
than its adapter can copy information from the receive  
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Ring Map  
buffers. Note that this counter reports the number of  
times frames were dropped for lack of buffering, not the  
number of frames dropped. Although this is considered a  
non-isolating error, you can assume that the adapter  
reporting the error is at fault. If the error occurs  
frequently, you may want to consider replacing the  
reporting station’s NIC card.  
Frame Copied Errors  
The number of frames addressed to the associated station  
that had the A (Address Recognized Indicator) bits  
already set to 1 when the station received the frame. This  
indicates that an electrical line disturbance has corrupted  
the token, or that there is a duplicate address on the ring  
(either a station with a shared administratively assigned  
address, or a transparent bridge that has set the bit).  
Token Errors  
The number of times the associated station, while acting  
as the active monitor, has detected an error that required  
the transmission of a token (either because a frame was  
lost, or a token or frame has recirculated the ring). Note  
that this error can only be reported by a station that is, or  
was previously, the active monitor for the ring.  
Frequency Errors  
The number of times the associated station detected that  
the incoming signal’s frequency differed from the  
expected frequency by more than allowed by the IEEE  
802.5 standard (.6%). Frequency is measured by an  
on-board crystal oscillator on each network interface.  
This could indicate an error in the reporting station’s  
oscillator, the Active Monitor, or any station between the  
two; it happens more often on 16 Mbps rings than on 4  
Mbps rings, and can also be a symptom of too many  
stations on the ring. When a station detects this  
condition, it will begin a monitor contention process to  
select a new Active Monitor.  
Changing the Station Labels  
Initially, each station in the ring map is labelled by MAC address  
; addresses are displayed in Canonical format (reverse  
bit order).  
You can change the map’s station labels to reflect one of the following:  
Board/Port/Drop – This label displays each station’s board and port index, as well  
as its administratively assigned drop number (if one has been assigned).  
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Ring Map  
If the inserted station is connected to another hub (via the monitored hub’s  
Ring-in/Ring-out ports), the board and port are unknown and will display as  
zeroes (0,0).  
The station’s physical drop is an administratively assigned string that you can use  
to identify a station’s physical location. If assigned, the drop will appear as a  
subvector in certain Token Ring MAC frames (such as a new active monitor  
frame, report error frame, or the report station address frame used in the neighbor  
notification process). A physical drop consists of up to four alphanumeric  
characters; to set one, see Setting a Station Drop, page 3-9.  
Name – This label displays the name administratively assigned to each station, if  
one has been assigned. To assign one, see Setting a Station Name, page 3-8.  
If a station does not have an administratively assigned name, <none> will display  
in the label.  
MAC Address – This is the default label; it displays each station’s six byte MAC  
address in Canonical format (reverse bit order).  
Vendor/MAC Address – This label displays the vendor of the monitored station,  
as determined by the first three bytes of its MAC address; the remainder of the  
MAC address is also displayed.  
To change the label format of a station:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Label by, and then right to select a label option: Board, Port,  
Drop; Name; MAC Address; or Vendor + MAC Address.  
The Ring Map window will refresh, and the station labels will reflect the selected  
display option.  
Viewing Device Information  
The Device Information window displays the name of the monitored  
management device and its firmware version. To invoke the Device Information  
window:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Device Information, and release. The Device Information  
window, Figure 3-9, will appear.  
Viewing Ring-level Information  
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Ring Map  
Figure 3-9. The Device Information Window  
Setting the Map Poll Interval  
You can set the poll interval that controls how often the monitored hub is queried  
for changes in the selected ring’s station list. The poll interval is also used to  
update the error and performance information that is returned in the Ring Map’s  
associated windows.  
To set the poll interval:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Set Polling Interval, and release. The Set Polling Interval  
window, Figure 3-10, will appear.  
Figure 3-10. Set Polling Interval Window  
3. In the Enter Interval field, type in the number of seconds you desire between  
polls from your management station to the monitored hub. The poll interval  
you enter must be at least 10 seconds; the default is 20 seconds.  
4. Click on  
to accept the interval or  
to exit without  
changing the interval.  
Note that the next time the Ring Map application is started, the poll interval will  
reset to its default value of 20 seconds.  
3-20  
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Ring Map  
Viewing Beacon History  
The Beacon History window displays a record of significant ring events,  
including active monitor changes, ring purges, and information related to  
beaconing states. The information displayed in this window will update after  
each polling interval.  
To open the Beacon History window:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Beacon History, and release. The Beacon History window,  
Figure 3-11, will appear.  
Figure 3-11. The Beacon History Window  
The Beacon History window contains the following information:  
Active Monitor Changes  
Displays the number of times the ring’s active monitor has changed since the ring  
was first initialized or the device was last reset.  
Ring Purges  
Displays the number of times the active monitor has purged the ring. This  
includes the purge at the end of the active monitor selection process.  
Note that this count is not reset when the active monitor changes.  
Beacon Events  
This field detects the number of beaconing occurrences detected by the active  
monitor on the ring. A beacon is transmitted when a hardware error — such as a  
wire fault, frequency error, or ring signal loss — is detected on the ring, and when  
monitor contention times out.  
Viewing Ring-level Information  
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Ring Map  
Last Beacon Type  
This field displays the type of beaconing frames last detected on the monitored  
ring. When a beaconing condition begins, the content of the beacon frames varies  
depending on the condition that caused the beaconing process. Beacon frames are  
identified by a sub-vector which pinpoints the reason for the adapter’s  
transmission of beacon frames. Possible beacon types are:  
Signal Loss Error  
This beacon is transmitted by a station when it detects  
signal loss from its upstream neighbor (most likely  
because of a cable fault), enters monitor contention, and  
monitor contention times out.  
If a station detects signal loss while transmitting  
streamingSignal beacons (the two following entries),  
they will be changed to signalLossError beacons.  
If a station detects a signal while transmitting  
signalLossError beacons, they will be changed to  
streamingSignalNotClaimToken (bit streaming) beacons.  
Streaming Signal  
Not Claim Token  
This beacon is transmitted by a station when a  
monitor contention time-out occurs in its adapter while it  
is in monitor contention transmit mode, and it did not  
receive any claim token MAC frames during the monitor  
contention period.  
Streaming Signal  
Claim Token  
This beacon is transmitted by a station when monitor  
contention times out while its adapter was in monitor  
contention mode (transmit or repeat), and one or more  
claim token MAC frames were received during the  
contention period. This indicates that monitor contention  
could not be resolved within one second.  
Recovery Mode Set  
This beacon is transmitted when the ring has begun the  
recovery process.  
No Beacon Frames  
Detected  
There has been no beacon condition detected on the  
ring yet.  
Longest Beacon  
Displays the duration of the longest beaconing occurrence, in an  
hours:minutes:seconds format.  
Last Beacon  
Displays the duration of the last beaconing occurrence, also in an  
hours:minutes:seconds format.  
3-22  
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Ring Map  
Beacon Configuration  
The Beacon Configuration window allows you to enable and configure the  
parameters for the Automatic Beacon Recovery Process (ABRP). If the Beacon  
Recovery option is enabled, the TRMMIM will automatically attempt to repair its  
ring when it detects an unusually high concentration of hard errors that have not  
been corrected by normal ring recovery procedures. ABRP is a sequential process  
that is designed to isolate the source of the errors as quickly as possible.  
If a frequent occurrence of hard errors is detected, the TRMMIM first determines  
if the problem is internal or external to the chassis by turning each ring port off to  
see if the error condition clears. If the beaconing goes away (because it is external  
to the hub), the TRMMIM enables the Ring In/Ring Out ports at the interval  
specified in the Ring Port Retry Delay field for the number of times specified in  
the Ring Port Enable Retry field to see if the beacon condition on the network has  
cleared. If the beaconing continues after the specified number of retries, the faulty  
Ring In/Ring Out ports remain disabled.  
If the beaconing continues when the Ring In/Ring Out ports are shut off, then the  
problem is internal to the hub. The TRMMIM individually bypasses each module  
to isolate the one with the fault (as evidenced by ring recovery on bypass). When  
the module with the fault is identified, the module is reinserted, and that  
module’s ports are turned off one by one until the ring recovers again. The last  
port turned off is considered to be the failing port. Once the failing port is  
identified, all ports which were previously turned off are turned back on. For  
devices running older versions of firmware, the failing port will be retried once at  
a pre-determined interval, and if beaconing continues, remain disabled; for newer  
firmware versions, the port will be retried at the interval specified in the Station  
Port Retry Delay field for the number of times specified in the Station Port  
Enable Retry field. Again, if beaconing continues, the port will remain disabled.  
Ports disabled by ABRP must be manually re-enabled before they can be used  
again; this prevents a user from rebooting a problem station which may bring the  
ring down.  
Once ABRP is completed, the TRMMIM generates traps to the remote  
management workstation which will pinpoint the problem’s cause, including:  
the beaconing adapter’s address  
its NAUN address  
the type of beacon  
the port(s) and/or module(s) bypassed, and  
the duration of the beaconing condition  
To launch the Beacon Configuration window and configure beacon recovery  
parameters:  
1. Click on  
at the top of the Ring Map window.  
2. Drag down to Beacon Configuration, and release. The Beacon  
Configuration window, Figure 3-11, will appear.  
Viewing Ring-level Information  
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Ring Map  
Figure 3-12. The Beacon Configuration Window  
3. In the Beacon Recovery field, click in the appropriate field to Enable or  
Disable the ABRP capability. ABRP is enabled by default.  
4. In the Ring Port Enable Retry field, click and drag the scroll bar to select the  
number of times disabled ring ports will be retried to see if the beaconing  
condition clears. Selecting a setting of Infinite (by dragging the scroll bar all  
the way to the right) will cause the TRMMIM to continue retrying faulty ring  
ports until the beaconing condition clears; selecting a setting of Disabled (by  
dragging all the way to the left) will disable this feature. Other allowable values  
are 1 to 100.  
5. In the Ring Port Retry Delay field, click and drag the scroll bar to select the  
interval, in seconds, between ring port retries.You should select a value which  
is a multiple of 7; values which are not divisible by 7 will be rounded down to  
the nearest appropriate value.  
6. In the Station Port Enable Retry field, click and drag the scroll bar to select  
the number of times disabled station ports will be retried to see if the  
beaconing condition clears. Selecting a setting of Infinite (by dragging the  
scroll bar all the way to the right) will cause the TRMMIM to continue retrying  
faulty station ports until the beaconing condition clears; selecting a setting of  
Disabled (by dragging all the way to the left) will disable this feature. Other  
allowable values are 1 to 100.  
3-24  
Viewing Ring-level Information  
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Ring Map  
7. In the Station Port Retry Delay field, click and drag the scroll bar to select  
the interval, in seconds, between station port retries.You should select a  
value which is a multiple of 7; values which are not divisible by 7 will be  
rounded down to the nearest appropriate value.  
Each value is set as soon as the mouse button is released; footer messages will  
indicate set failure.  
Remember, not all devices nor all versions of device firmware support the ability to  
configure station port retry parameters; if the device you are monitoring does not support  
this feature, the related fields will be grayed out. Where these parameters are not settable,  
station ports will be retried once, at a pre-determined interval, then remain disabled until  
further management action is taken.  
NOTE  
Using the Find Options  
The Ring Map window provides several search options that allow you to discover  
individual stations on the selected ring network by any one of the following  
characteristics:  
Drop  
Board and Port Index  
Station Name  
MAC Address  
For convenience, you can also identify the following stations of interest:  
Active Monitor on the ring  
The Ring Management Station  
Last Beaconing Station on the ring  
And you can identify a selected station’s:  
NAUN (Nearest Active Upstream Neighbor)  
NADN (Nearest Active Downstream Neighbor)  
Finally, to keep track of station performance, you can identify stations on your  
network in ascending (By Lowest –> Highest) or descending (By Highest –>  
Lowest) order of frames processed, total errors, or specific errors.  
Using the Find Options  
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Ring Map  
Searching for a Station’s Nearest Active  
Upstream or Downstream Neighbor  
To search for a selected station’s upstream or downstream neighbor:  
1. To select the station, click to highlight its label in the Ring Map window.  
2. Click on , and drag down to select NAUN (to find the station’s  
upstream neighbor) or NADN (for its downstream neighbor).  
The selected station’s NAUN or NADN will be highlighted. Note also that,  
depending on the position of the selected station in the map, the map display may  
shift so that the appropriate station appears in the viewing area (although the  
upstream and downstream order will not change).  
Searching by Station Name, MAC Address, Board/Port, or Drop  
To search for a station by its Drop, Board/Port, Name, or MAC Address:  
1. Click on  
, and drag down to select one of the following:  
a. Drop... (to find a station with a certain drop number)  
b. Board, Port.... (to find a station by a specified board and port index)  
c. Name.... (to find a station with an administratively assigned name)  
d. MAC Address... (to find a station via its physical address).  
The appropriate window will appear (as illustrated below), with fields for you to  
enter the desired search parameters.  
Figure 3-13. Sample Find Windows  
3-26  
Using the Find Options  
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Ring Map  
2. In the Enter text field, type in one of the following:  
a. The physical drop number (four ASCII characters)  
b. The board and port index  
c. The station name (up to 10 ASCII characters); note that this is case  
sensitive, and the name must be typed exactly as it was assigned  
d. The MAC Address of interest (six hexadecimal bytes – each byte  
separated by a colon).  
3. Click on  
.
If found, the specified station will be highlighted in the map.  
If not found, you will receive an error message stating that the specified station  
does not exist in the map. Click on  
to exit the Find window.  
Searching for the Active Monitor, Ring Management Station,  
or Last Beaconing Station  
Find Active Monitor, Find Management Station, and Find Last Beacon allow you  
to quickly discover the ring network’s active monitor and its ring management  
station, as well as the last station reporting a hardware failure.  
Finding the Active Monitor on the Network  
The Active Monitor is the station responsible for setting timing functions for the  
ring, activating hardware to remove an improperly circulating frame or token,  
purging the ring to restore it to normal condition, and starting the ring poll  
process, among other duties.  
In the Ring Map window, its label is displayed in green to differentiate it from  
other stations. However, in a ring network with many stations, it may be  
inconvenient to scroll through the map to find the Active Monitor. The Find —>  
Active Monitor feature allows you to quickly identify the Active Monitor on the  
network. To nd the Active Monitor for the currently selected ring network:  
1. Click on  
, and drag down to select Active Monitor.  
The current active monitor will appear highlighted in the Ring Map window, and  
the display will shift if necessary.  
Using the Find Options  
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Ring Map  
Finding the Management Station on the Network  
In the Ring Map window, the management station’s label is surrounded by a blue  
border to differentiate it from other stations. However, in a ring network with  
many stations, it may be inconvenient to scroll through the map to find the  
management station. The Find —> Management Station feature allows you to  
quickly identify the management station on the network. To nd the management  
station for the currently selected ring network:  
1. Click on  
, and drag down to select Management Station.  
The current ring management station will appear in the Ring Map window  
surrounded by a blue border, and the display will shift if necessary.  
Finding the Last Beaconing Station  
A beacon is an alert issued by a station when it detects a hardware failure on the  
network (because its incoming signal has been lost). Note that the station  
transmitting the beacon may not be the actual station experiencing a hardware  
failure (since the fault could lie with the NIC adapter of its upstream neighbor,  
with its own adapter, or with the cabling between the two stations).  
The Find —> Last Beacon feature lets you determine which station on the  
network last issued beacon frames. To nd this station:  
1. Click on  
, and drag down to select Last Beaconing Station. If no  
stations have beaconed since the map was invoked, a footer message will  
appear. A footer message will also appear if the last beaconing station is no  
longer on the ring.  
Searching by Highest or Lowest Occurrence of a  
Performance Parameter  
You can use the Find By Highest and Find By Lowest features to search for a  
station by ascending (By Lowest –> Highest) or descending (By Highest –>  
Lowest) order of frames processed, total errors, or specific errors.  
3-28  
Using the Find Options  
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Ring Map  
The statistics used to rank stations in highest—>lowest or lowest—>highest occurrence  
of a particular parameter are measured at the end of the specified polling interval and are  
displayed according to the selected calculation mode. Remember, the calculation mode is  
global in nature; that is, when you change modes, it affects all statistics — including  
those used to rank stations in highest or lowest order.  
NOTE  
When Rate is the selected mode, Find by Highest or Lowest detects the station with the  
greatest or smallest rate of frames processed or errors detected within a polling interval.  
The following formula is used to find the station with the highest or lowest rate of frames  
or errors:  
Frames or Errors measured/Time (in seconds)  
For example, if one station detects 250 total errors over a 10 second poll interval (250/10  
= 25 errors per second), and a second station detects 170 errors over the same 10 second  
interval (170/10 = 17 errors per second), the first station is found to have a higher error  
rate than the second.  
When Cumulative is selected, selecting By Highest or Lowest will display the station  
with the greatest or smallest number of frames or errors detected since the cumulative  
option was last selected.  
When Delta is selected, selecting By Highest or Lowest will display the station with the  
greatest or smallest number of frames or errors detected during the last poll interval.  
Note, too, that changing the calculation mode may change the rankings; a station that has  
had a high rate of traffic in recent polling intervals may or may not have processed the  
greatest cumulative number of packets, and so on.  
To nd the station by Highest or Lowest number of frames processed or errors  
detected:  
1. Click on  
, and drag down to select By Highest or By Lowest.  
2. Drag to the right to select the performance or error parameter of interest, and  
release.  
The station experiencing the highest or lowest number of the selected  
parameter (according to the selected calculation mode) will be highlighted in  
the map, and a window will appear, displaying the MAC address, node name  
(if assigned), board and port index (if the station is connected to the  
monitored hub), and the station’s measurement of the selected parameter.  
See Figure 3-14, following page, for some sample windows.  
Using the Find Options  
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Ring Map  
Figure 3-14. Sample Find Highest and Lowest Windows  
3. To nd the station with the next highest or lowest incidence of the selected  
parameter, click on  
respectively.  
or  
,
Note that you can also click on  
parameter.  
for a brief description of the selected  
Accessing Other SPMA Applications  
The Program menu also provides access other SPMA applications that are specific  
to token ring devices. To launch another application:  
1. Click on  
.
2. Drag down to select one of the following; the selected application will initialize  
in a new window:  
Alarm Configuration (see Chapter 4)  
Statistics (see Chapter 5)  
Security (see Chapter 6)  
Note that the new application launches in its own, independent window, and the  
Ring Map window remains open and available.  
3-30  
Accessing Other SPMA Applications  
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Chapter 4  
Alarm Configuration  
Setting Alarms at the Ring and Station levels; Alarm Types defined  
Alarms work in conjunction with your network management system to let you  
know when certain defined thresholds have been reached. Using this tool, you  
define the condition that will trigger an alarm; the device monitors traffic and,  
when defined thresholds are reached, reports to the network management station  
in the form of a trap. You can set alarms at the Ring and Station levels; the effect of  
an alarm depends on the parameters you have set via your management  
platform.  
SPMA does not accept the trap messages; that task is left to your network management  
system. (See the appropriate network management system documentation for details  
about viewing trap messages.) When this application is used in stand-alone mode, traps  
will either be ignored when they return to the workstation from which you are running  
SPMA for the TRMMIM, or they will turn up at another management workstation  
which has been configured to accept traps. Note also that, regardless of the configuration  
performed using this application, NO traps will be sent by the device unless its trap table  
has been properly configured; see the TRMMIM hardware manual and/or the Trap Table  
chapter in the SPMA Tools Guide for more information.  
NOTE  
At the Ring level, you can set alarm thresholds for the cumulative totals of ring  
purges, active monitor participant errors, token errors, claim token errors, lost  
frames, and frame counts detected on the ring. At the Station level, you can set  
alarm thresholds for each individual station’s count of line, internal, burst, AC,  
and congestion errors.  
To access the main alarm window  
from the icon:  
1. Click on the appropriate device icon to display the Icon menu.  
2. Drag down to Alarm Configuration and release.  
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Alarm Configuration  
from the Hub View:  
1. Click on the Device button to display the Device menu.  
2. Drag down to Alarm Configuration and release.  
from the command line (stand-alone mode):  
1. From the appropriate directory, type  
spmarun e5alarms <IP address> <community name>  
The spmarun script invoked first in the above command temporarily sets the environment  
variables SPMA needs to operate; be sure to use this command any time you launch an  
application from the command line. This script is automatically invoked when you launch  
an application from the icon menu or from within the Hub View.  
NOTES  
If you wish to change any Alarm Configuration settings, be sure to use a community  
name with at least Read/Write access. If you only wish to view current settings, a  
community name with Read access will be sufficient.  
If there is a hostname mapped to your TRMMIM’s IP address, you can use <hostname>  
in place of <IP address> to launch this application. Please note, however, that the  
hostname is not the same as the device name which can be assigned via Local  
Management and/or SPMA; you cannot use the device name in place of the IP address.  
The Ring/Stn Alarms window, Figure 4-1, will appear.  
Figure 4-1. The Ring/Stn Alarms Window  
This window provides a list of the Token Ring interfaces, or networks, available  
on the TRMMIM, as well as command buttons that allow you to display the Ring  
Alarms and Station Alarms windows.  
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Alarm Configuration  
Setting and Viewing Ring Alarms  
To view or set ring-level alarms, highlight the appropriate interface (network),  
then click mouse button 1 on  
will appear.  
; the Ring Alarms window, Figure 4-2,  
Figure 4-2. The Ring Alarms Window  
The alarm Timebase entered here applies to all enabled alarms at both the ring  
and station levels; this is the interval (in seconds) over which the selected  
variable(s) will be counted for comparison to the threshold values. For example, if  
the Ring Purges alarm is enabled, the threshold is set at 70, and the timebase is set  
to 10 seconds, the TRMMIM will generate an alarm if 70 ring purges are detected  
on the ring as a whole within a 10-second time period.  
Alarm conditions which occur over the span of two timebase intervals will not be detected,  
even if the threshold is crossed within a period of time that is less than or equal to the  
defined timebase interval. For example, if you set your timebase to 10 seconds and an  
alarm threshold to 50, an alarm will be generated if 50 of the specified events are detected  
within a specific 10-second interval defined by the device. If, however, those 50 events  
occur in any 10-second time frame which straddles two device-defined intervals — say, 25  
in the last five seconds of one interval, and 25 in the first five seconds of the following  
interval — that condition will not be detected, and no alarm will be generated.  
NOTE  
Setting and Viewing Ring Alarms  
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Alarm Configuration  
The Alarm Type list displays the variables available for alarms, the current status  
of each alarm, and the current threshold setting. To change the status or threshold  
for an alarm, you must first select it in this list. You can set an alarm threshold for  
the following variables:  
Ring Purges  
The number of times the active monitor has purged the  
ring since the network was created, or since the  
TRMMIM was last reset. This includes the purge at the  
end of the active monitor selection process; however, the  
count is not reset when the active monitor changes.  
Active Monitor  
Participant  
Errors  
The number of times a duplicate active monitor has been  
detected on the ring. When any station which considers  
itself to be the active monitor receives a ring purge or  
AMP (active monitor present) frame that it did not  
transmit, it will become a standby monitor. If this process  
leaves the ring without an active monitor (because both  
active monitors have switched to standby mode), the  
monitor contention process will begin.  
Token Errors  
The number of times the active monitor either does not  
see a token circulating on the ring before its TVX (Timer,  
Valid Transmission) timer expires (e.g., a Lost Frame  
error has occurred), or sees a recirculating frame or  
token. Each time a token error is noted, the active  
monitor purges the ring and issues a new token.  
Claim Token  
Errors  
The number of times a claim token has been released by a  
station on the ring. A claim token is released when a  
station detects that the active monitor is missing or  
malfunctioning, or following a beaconing condition; the  
issuing of a claim token initiates the monitor contention  
process, through which a new active monitor will be  
chosen.  
Lost Frames  
The number of times a station’s TRR (Timer, Return to  
Repeat) timer expires before the frame it is transmitting  
returns. This timer, which is set to 4.1 milliseconds,  
ensures that each station returns to the data repeat state  
after transmitting: retrieves its token, strips it of data,  
and issues a new token. Lost frame errors will cause the  
active monitor to initiate the ring purge process and issue  
a new token; these errors are usually caused by stations  
entering or leaving the ring while a frame is circulating  
(since stations entering or leaving briefly throw the ring  
out of sync).  
Frame Count  
The number of frames detected on the ring.  
4-4  
Setting and Viewing Ring Alarms  
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Alarm Configuration  
The Threshold field allows you to configure a new threshold for the alarm  
highlighted in the Alarm Type list.  
When setting thresholds for ring-level alarms, keep in mind that the TRMMIM is  
counting all occurrences of the selected variable on the whole ring, not just those  
occurrences on a single station. Note, too, that ring-level alarms can only be set for non-  
isolating errors — that is, those that do not pinpoint a specific trouble spot on the ring.  
NOTE  
The Status field allows you to enable or disable the alarm highlighted in the  
Alarm Type list.  
Click on  
selecting another alarm; click on  
to save any changes you have made to an alarm before  
to exit the window.  
Setting a Ring Level Alarm  
To set an alarm at the ring level:  
1. In the Timebase field, enter the amount of time, in seconds, you want the  
selected variable counted for comparison to your alarm thresholds.  
Remember, this timebase will apply to all enabled alarms at both the ring and  
station levels.  
2. In the Alarm Type list, click mouse button 1 on the alarm type you wish to  
configure.  
3. Enter your desired alarm threshold in the Threshold field, keeping in mind  
that ring-level alarms will count all occurrences of the selected variable on the  
ring as a whole.  
4. Enable or Disable the selected alarm type by clicking mouse button 1 in the  
appropriate Status option.  
5. Click mouse button 1 on  
to save your changes. If you wish to  
before  
configure more than one alarm type, be sure to click on  
selecting another alarm type, or the changes you made to the first alarm will  
be lost.  
Your new alarm status and thresholds will take effect immediately.  
Setting and Viewing Station Alarms  
To view or set station-level alarms, highlight the appropriate interface in the  
Ring/Stn Alarms window, then click mouse button 1 on  
Alarms window, Figure 4-3, will appear.  
; the Station  
Setting and Viewing Station Alarms  
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Alarm Configuration  
You need not close the Ring Alarms window before launching the Station Alarms  
window; just move the Ring Alarms window out of the way, if necessary, to reach the  
main Ring/Stn Alarms window.  
NOTE  
Figure 4-3. The Station Alarms Window  
The alarm Timebase displayed here is defined in the Ring Alarms window and  
applies to all enabled alarms at both the ring and station levels; this is the interval  
(in seconds) over which the selected variable(s) will be counted for comparison to  
the threshold values. For example, if the Burst Errors alarm is enabled, the  
threshold is set at 10, and the timebase is set to 10 seconds, the TRMMIM will  
generate an alarm if 10 burst errors are detected by the selected station(s) within a  
10-second time period.  
4-6  
Setting and Viewing Station Alarms  
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Alarm Configuration  
Alarm conditions which occur over the span of two timebase intervals will not be detected,  
even if the threshold is crossed within a period of time that is less than or equal to the  
defined timebase interval. For example, if you set your timebase to 10 seconds and an  
alarm threshold to 50, an alarm will be generated if 50 of the specified events are detected  
within a specific 10-second interval defined by the device. If, however, those 50 events  
occur in any 10-second time frame which straddles two device-defined intervals — say, 25  
in the last five seconds of one interval, and 25 in the first five seconds of the following  
interval — that condition will not be detected, and no alarm will be generated. These  
conditions are most likely to occur when a large threshold is used with a short timebase  
interval.  
NOTE  
The Alarm Type options at the top of the window represent the variables for  
which you can assign station-level alarm thresholds. To change the status or  
threshold for an alarm type, you must first click on its option at the top of the  
window; threshold and status changes will be applied to the alarm type selected  
at the time the changes are made and to the stations as determined by the current  
setting in the Set Alarm For field. You can set an alarm threshold for the following  
variables:  
Line Errors  
A line error indicates the presence of a coding violation  
between the starting and ending delimiters of data, a  
frame check sequence error, or a code violation in a  
token. These can be caused by power surges on the ring;  
they are counted, but initiate no other recovery  
procedures.  
Internal Errors  
Burst Errors  
An internal error is counted when a station recognizes a  
recoverable internal error in its own adapter (and may  
temporarily remove itself from the ring). A large number  
of internal errors indicates a station in marginal  
operating condition; possible problems include  
inoperable chipset, timers, or counters.  
A burst error occurs when five half-bits of Manchester-  
encoded data are received by a station without a phase  
change (a signal transition from 0 to 1 or from 1 to 0).  
This error is normal when stations enter or leave the ring  
without phantom current; however, it can also indicate a  
problem with the receiver on the reporting node, the  
transmitter on its NAUN, or the cabling or hub hardware  
between them. Burst errors will cause the active monitor  
to initiate the ring purge process.  
Setting and Viewing Station Alarms  
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Alarm Configuration  
AC Errors  
Also known as ARI/FCI errors, AC errors occur during  
the Ring Poll or Neighbor Notification process when one  
station fails to correctly set the ARI (address recognized)  
and FCI (frame copied) indicator bits on the current AMP  
(active monitor present) or SMP (standby monitor  
present) frame intended for it, thus leaving its  
downstream neighbor without an accurate upstream  
neighbor’s address. AC errors are detected when a  
station receives more than one AMP frame with ARI and  
FCI bits still set to 0 without seeing an intervening SMP  
frame with its bits set to 1, or when the station detects an  
SMP frame with its ARI and FCI bits set to 0 without  
having seen an AMP frame with its ARI and FCI bits set  
to 1. When a station detects an AC error, it stops the Ring  
Poll process by not issuing its own SMP frame; no other  
ring recovery procedures are initiated.  
Congestion  
Errors  
A congestion condition occurs when a station recognizes  
a frame addressed to it, but is unable to copy the frame  
because it has no available buffer space. Although this  
may indicate a station which is performing poorly, no  
ring recovery procedures are initiated. Note that the  
count of congestion conditions reflects the number of  
times frames have been dropped, not the number of  
frames dropped.  
The Station List box lists the stations detected on the selected ring, the module  
and port through which they are connected, the name of the station (if one has  
been assigned), and the status and threshold of the alarm type highlighted in the  
alarm list.  
A station listed at module and port 0 is part of the TRMMIM-managed ring, but not  
directly connected to the TRMMIM-controlled hub (or TRMMIM). You can still set  
alarms for these stations.  
NOTE  
The Threshold field allows you to configure a new threshold for the selected  
alarm type; the new threshold will be applied as indicated by the current selection  
in the Set Alarm For field.  
When setting thresholds for station-level alarms, keep in mind that the TRMMIM is  
counting occurrences of the selected variable on individual stations only, not all  
occurrences on the ring. Note, too, that station-level alarms can only be set for isolating  
errors — that is, those that do pinpoint a specific trouble spot on the ring. Station alarm  
notification (traps) will include the address of the offending station.  
NOTE  
4-8  
Setting and Viewing Station Alarms  
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Alarm Configuration  
The Status field allows you to enable or disable the selected alarm; this alarm  
status will be applied as indicated by the current selection in the Set Alarm For  
field.  
The Set Alarm For field features a menu button which allows you to apply new  
alarm status and threshold settings to selected stations only, to all stations on a  
module, or to all stations on the ring.  
Click on  
to save any changes you have made to an alarm before  
to exit the window.  
selecting another alarm and/or station; click on  
Setting a Station Level Alarm  
To set an alarm at the station level:  
1. Select the Alarm Type option (at the top of the window) for the alarm variable  
you would like to apply to a new station and/or for which you would like to  
configure a new threshold.  
2. In the Station List box, click mouse button 1 on the station or stations for  
which you would like to edit the threshold, or to which you would like to apply  
a new alarm type. If the Set Alarms For button displays Selected Stations  
(the default setting), you can select any stations in the list; to de-select any  
highlighted station, click on it again. If the selection All Stations On Module is  
displayed in the Set Alarms For button, you can select only one station at a  
time; alarm parameters will be set for all stations on the same module as the  
selected station. If the selection All Stations on Ring is displayed in the Set  
Alarms For button, all available stations will be automatically selected; if you  
de-select any station, the Set Alarms For button will automatically revert to  
the Selected Stations setting. To change the setting in the Set Alarms For  
button, click mouse button 1 on the button and drag down to select a new  
setting.  
3. Enter your desired alarm threshold in the Threshold field, keeping in mind  
that station-level alarms count variable occurrences on single stations only.  
4. Enable or Disable the selected alarm type by clicking mouse button 1 on the  
appropriate Status option.  
5. Click mouse button 1 on  
to save your changes. If you wish to  
before  
configure more than one alarm type, be sure to click on  
selecting another alarm type, or the changes you made to the first alarm will  
be lost.  
Your new alarm status and thresholds will take effect immediately.  
Setting and Viewing Station Alarms  
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Alarm Configuration  
4-10  
Setting and Viewing Station Alarms  
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Chapter 5  
Statistics  
Using Statistics; Viewing the Ring Station List; Monitoring Ring and Station Statistics, Ring Variables;  
Station Variables  
Using Statistics  
The statistics windows provide you with a variety of information about the ring  
as a whole and each station inserted into the ring, including traffic counts, total  
error counts, and error type breakdowns. These statistics can be displayed via a  
selection of pre-formatted pie charts, or you can design your own graphs or  
meters to display only the ring and station information you want to view.  
Graphing capabilities are provided by an application that is included in HP Network  
Node Manager and IBM NetView; therefore, graphs are only available when SPMA is  
NOTE  
run in conjunction with one of these network management platforms. If you are running  
SPMA in a stand-alone mode or in conjunction with SunNet Manager, no graphing  
capabilities are available and no graph-related options will be displayed on buttons or  
menus. Note that the screens displayed in this guide will include the graph-related  
options where they are available; please disregard these references if they do not apply.  
To open the Ring/Stn Statistics window  
from the icon:  
1. Click on the appropriate Token Ring device icon to display the Icon menu.  
2. Drag down to Statistics and release.  
from the Hub View:  
1. In the Hub View, click on the Device button to display the Device menu.  
2. Drag down to Statistics and release.  
5-1  
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Statistics  
from the command line (stand-alone mode):  
1. From the appropriate directory, type:  
spmarun e5stats <IP Address> <community name>  
The spmarun script invoked first in the above command temporarily sets the environment  
variables SPMA needs to operate; be sure to use this command any time you launch an  
application from the command line. This script is automatically invoked when you launch  
an application from the icon menu or from within the Hub View.  
NOTES  
A community name with Read access will be sufficient to view the statistics.  
If there is a hostname mapped to your TRMMIM’s IP address, you can use <hostname>  
in place of <IP address> to launch this application. Please note, however, that the  
hostname is not the same as the device name which can be assigned via Local  
Management and/or SPMA; you cannot use the device name in place of the IP address.  
The Ring/Stn Statistics window, Figure 5-1, will appear.  
Figure 5-1. The Ring/Stn Statistics Window  
This window lists the interfaces with their corresponding numbers that are  
available on your Token Ring device. Use the scroll bar on the side of the display  
window if necessary to see the full list of Ring Names. This window allows you to  
choose a ring and then display the Ring and Station Statistics window specific to  
that ring. You may also quit the Token Ring statistics tool from this window by  
clicking mouse button 1 on  
.
Viewing the Ring Station List  
From the Ring/Stn Statistics window, select the network from which you would  
like to gather statistics and click mouse button 1 on  
Station Statistics window, Figure 5-2, will appear.  
. The Ring and  
5-2  
Viewing the Ring Station List  
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Statistics  
Figure 5-2. Ring and Station Statistics Window  
The Ring and Station Statistics window lists each active station on the ring; the  
following information is provided for each station:  
MAC Address  
Displays the station’s MAC or hardware address. MAC addresses are usually  
factory set and cannot be changed. (The MAC address will be displayed in Token  
Ring format.)  
Module and Port  
Provides the station’s location in the MMAC chassis by module and port number.  
If module and port equal 0, the station is not physically connected to the  
monitored device (e.g., it is connected via a ring in or ring out port).  
Vendor  
Displays the name of the station’s manufacturer.  
Stn Name  
Displays the name assigned to the station.  
Upstream Addr  
Displays the MAC or physical address of the station’s nearest active upstream  
neighbor (NAUN).  
Downstream Addr  
Displays the MAC or physical address of the station’s downstream neighbor.  
Viewing the Ring Station List  
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Statistics  
Using the Reverse MAC Button  
The Reverse MAC button, available in the Ring and Station Statistics window,  
enables you to toggle between Token Ring and Ethernet MAC address formats.  
Token Ring MAC addresses (the default address format in this window) are  
displayed in the reverse bit order of Ethernet MAC addresses. The Ethernet MAC  
format is the more recognizable format; therefore, the Reverse MAC button can be  
used to enable the network manager to recognize the MAC addresses more easily.  
To use the Reverse MAC button:  
1. Highlight the station whose MAC address format you would like to change.  
2. Click mouse button 1 on  
be changed.  
; the station’s MAC address format will  
3. Repeat the process to toggle back to the original Token Ring MAC address  
format.  
When you toggle the MAC address format, the neighbor and ring port addresses are not  
affected; they will always be displayed in Token Ring format.  
NOTE  
Refreshing the Station List  
Once it is displayed, the information in the station list is static, and will not reflect  
changes to the ring. You can update the station list by clicking mouse button 1 on  
, located at the bottom of the window. Using the Refresh button will  
display the current configuration of your ring.  
Monitoring Ring and Station Statistics  
Ring and Station Statistics can be viewed in pie chart, graph, or meter form. The  
ring statistics will reflect the activity of the entire ring, while the station statistics  
will reflect only the station that is highlighted when you choose the chart, graph,  
or meter you wish to display.  
There are five pre-formatted pie charts you can display to view statistics specific  
to the ring as a whole: general statistics, protocols, frame sizes, isolating errors,  
and non-isolating errors. For viewing statistics specific to an individual station,  
three pre-formatted charts are available: general statistics, isolating errors, and  
non-isolating errors.  
You can customize ring-specific or station-specific meters by using 29 available  
ring-related variables, or 13 available station-related variables. With SPMA, you  
can run up to 25 meters simultaneously.  
5-4  
Monitoring Ring and Station Statistics  
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Statistics  
If you are running SPMA in conjunction with HP Network Node Manager or IBM  
NetView you can also customize ring-specific or station-specific graphs using the  
same variables as are available for the meters. You can graph up to 25 variables in  
a single graph.  
Graphing capabilities are provided by an application that is included in HP Network  
Node Manager and IBM NetView; therefore, graphs are only available when SPMA is  
run in conjunction with one of these network management platforms. If you are running  
SPMA in a stand-alone mode or in conjunction with SunNet Manager, no graphing  
capabilities are available and no graph-related options will be displayed on buttons or  
menus. Note that the screens displayed in this guide will include the graph-related  
options where they are available; please disregard these references if they do not apply.  
NOTE  
Creating a Pie Chart  
To create a pie chart:  
1. Click on either  
or  
.
2. A Pie Charts menu will appear. When creating a Ring Pie Chart select one of  
the following menu selections: General, Protocols, Frame Sizes, Isolating  
Errors, or Non-Isolating Errors. When creating a Station Pie Chart select  
one of the following menu selections: General, Isolating Errors, or Non-  
Isolating Errors.  
3. Release the mouse button while highlighting your selection. A pie chart similar  
to the one below will be displayed.  
Monitoring Ring and Station Statistics  
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Statistics  
Figure 5-3. Ring General Pie Chart  
To create Figure 5-3 the following steps were taken:  
1. Click on  
.
2. Select General from the pull down menu.  
3. Release the mouse button. Figure 5-3 will appear.  
Creating a Graph or Meter  
To create a graph or meter:  
1. Click mouse button 1 on either  
or  
. The Ring Graph/Meter Choices or the Station  
Graph/Meter Choices window, as appropriate, will appear.  
2. Choose your variables by clicking mouse button 1 on the radio button next to  
the variable name. Variables are grouped logically.You can pick up to 25  
variables at one time. Either a single graph will be created containing all the  
variables you chose, or each variable will form its own separate meter. (See  
the Ring and Station Variables section of this chapter for descriptions of  
each variable.)  
3. Click mouse button 1 on  
or  
, as desired. A graph or meter  
window similar to the one displayed below will appear.  
5-6  
Monitoring Ring and Station Statistics  
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Statistics  
Ring Meters  
Ring Graph  
Note that the  
graph tool will only  
be available when  
you are running  
SPMA with HP  
Network Node  
Manager or IBM  
NetView.  
Figure 5-4. Ring Graph and Meters  
To create the ring meters in Figure 5-4 the following steps were taken:  
1. Click mouse button 1 on  
.
2. Select Errors, Frames, and KBytes from the Ring Graph/Meter Choices  
window.  
3. Click mouse button 1 on  
Figure 5-4 will appear.  
. Meters similar to those displayed in  
To create the ring graph in Figure 5-4 the following steps were taken:  
1. Click mouse button 1 on  
.
2. Select Frames, Kbytes, SNA, XNS, TCP IP, Banyan, IPX, Netbios, Lan Net  
Manager, and Other from the Ring Graph/Meter Choices window.  
3. Click mouse button 1 on  
will appear.  
. A graph similar to the one in Figure 5-4  
Monitoring Ring and Station Statistics  
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Statistics  
For more information on using pie charts, graphs, and meters and understanding  
how to read the information displayed, see the Charts, Graphs, and Meters  
chapter in the SPMA Tools Guide.  
A brief description of each of the variables available for both Ring and Station Pie  
Charts, Graphs, and Meters follows in the Ring and Station Variables sections.  
Ring and Station Variables  
Although many of the variables are the same for Ring and Station Statistics, it is  
important to note that these statistics are collected from different sources. The ring  
statistics will reflect the activity of the entire ring, while the station statistics will  
reflect the activity of only one station.  
General  
Errors  
Indicates the total number of errors counted on the ring or received by the station.  
Frames  
Indicates the total number of frames received by the device from the ring or  
station.  
KBytes  
Indicates the total number of kilobytes transmitted on the ring or from the station.  
Protocols  
Protocols are only available for Ring Pie Charts and Meters. Use the following  
variables to display the number of packets counted on the ring of the following  
protocols:  
SNA  
IBM’s System Network Architecture.  
XNS  
A Xerox protocol used in early Ethernet networks.  
TCP/IP  
A public domain set of protocols developed by the US  
government.  
Banyan  
IPX  
A proprietary protocol, VINES IP, used by Banyan’s  
VINES network operating system.  
One of the standard protocols for Novell networking  
systems.  
NetBIOS  
Sytek, Inc., and IBM’s Network Basic Input Output  
System, used by many application programs for network  
communication.  
5-8  
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Statistics  
LanNet Manager  
Other  
IBM’s Token Ring LAN Network Manager.  
All other protocols not described above.  
Frame Sizes  
Frame Sizes are only available for Ring Pie Charts and Meters. Frame Sizes  
displays the number of packets counted on the ring of the following sizes:  
Up to 63 bytes  
64 to 127  
128 to 255  
256 to 511  
512 to 1023  
1024 to 2047  
2048 to 4095  
4096 and up  
Isolating Errors  
Isolating errors report the region of a fault, therefore pointing out where on the  
ring the problem is occurring. Isolating errors include line, internal, burst, A/C,  
and abort errors, described below.  
Line Errors  
A line error occurs when there is a coding violation in the data part of the frame.  
A power surge on the ring may cause the data portion of a frame or token to be  
corrupted. It is the equivalent to an Ethernet CRC error in both cause (usually  
electronic noise along the ring medium or other cable problems) and effect. These  
errors are counted, but initiate no other recovery procedures.  
Burst Error  
A burst error occurs when five half-bits of Manchester-encoded data are received  
by a station without a phase change (a signal transition from 0 to 1 or from 1 to 0);  
this typically indicates a clocking error. Usually, burst errors occur when there  
was a brief electrical surge or electronic noise on the network. This error is normal  
when stations enter or leave the ring without phantom current; however, it can  
also indicate a problem with the receiver on the reporting node, the transmitter on  
its NAUN, or the cabling or hub hardware between them. Burst errors will cause  
the active monitor to initiate the ring purge process, and may cause frames to be  
lost on the ring.  
AC Error  
AC errors indicate that the reporting station’s NAUN is faulty, because it is  
unable to report its address.  
Ring and Station Variables  
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Statistics  
If a station receives an AMP or SMP MAC frame with the ARI and FCI bits set to 0  
without first receiving an intervening AMP frame it recognizes that its upstream  
station failed to set the ARI/FCI bits.  
The receiving station will increment an ARI/FCI set error counter, and end the  
ring poll process by not transmitting an SMP MAC frame. Since it has not  
received a valid SMP frame, it does not have a correct NAUN address. However,  
stations between the Active Monitor and the malfunctioning adapter will have  
correct NAUN addresses.  
This error will not cause ring recovery functions to occur. You will probably not  
witness this error often, since it is associated with a station hardware problem  
rather than a “normal” disruption of ring activity. However, if you do note that a  
station’s adapter did not increment the ARI/FCI bits, you might assume that the  
adapter is failing or about to fail. You can isolate this error to the upstream  
adapter of the reporting station.  
Abort Error  
These occur when an adapter has frames to transmit and receives a token, but  
does not detect an ending delimiter on the token after its access control field. This  
indicates that the token is corrupted.  
This error will cause the Active Monitor to detect a lost token (since it was not  
released back onto the ring) and to restore the ring through the ring purge  
process. This error is also somewhat uncommon, and will often indicate a failing  
adapter. A common cause of abort sequences is overheating by the adapter in an  
overloaded system. Note that the adapter may also issue an Internal Error  
simultaneously, which will cause the adapter to remove itself from the ring.  
Internal Error  
An internal error is counted when a station recognizes a recoverable internal error  
in its own adapter (and may temporarily remove itself from the ring). A large  
number of internal errors can indicate that one or more stations on the monitored  
ring are in marginal operating condition.  
Non-Isolating Errors  
Non-isolating errors are conditions that could have been caused by any station on  
the ring, thus their fault domain cannot be detected. Non-isolating errors include  
lost frames, congestion errors, frame copied errors, token errors and frequency  
errors.  
Lost Frames  
A lost frame error is counted each time a station’s TRR (Timer, Return to Repeat)  
timer expires before the frame it is transmitting returns. This timer, which is set to  
4.1 milliseconds, ensures that each station issues a new token after having  
transmitted data.  
5-10  
Ring and Station Variables  
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Statistics  
Lost frames are usually caused by a station entering or leaving the ring as the  
frame is circulating. Lost frames will cause the active monitor to initiate the ring  
purge process and issue a new token.  
Congest  
A congestion error occurs when a station recognizes a frame addressed to it, but is  
unable to copy the frame because it has no available buffer space.  
Although this indicates a station which is performing poorly, it will not adversely  
affect other stations on the network; therefore, no ring recovery procedures are  
initiated.  
Frame Copy  
An FC error is counted each time a station recognizes a frame addressed to itself  
and detects that the Frame Status field’s ARI bits are already set to 1, indicating  
that there has possibly been a line surge, or that another station is duplicating its  
address.  
Note that it is virtually impossible to have a ring with duplicate addresses, since  
most of the time the ring uses the hard-coded address on the adapter, and  
duplicate addresses are checked for when a station inserts itself into the ring.  
However, a system administrator can pass a locally assigned address to the  
adapter, so it is possible to unintentionally administer a duplicate address while a  
device is on a ring. This error is more commonly caused by transparent bridging  
on a Token Ring network.  
Token Errors  
A token error is counted when the active monitor either does not see a token  
circulating on the ring before its TVX (Timer, Valid Transmission) timer expires  
(e.g., a lost Frame error has occurred), or sees a recirculating frame or token. Each  
time a token error is noted, the active monitor purges the ring and issues a new  
token.  
As in lost frames, the major cause for token errors is the disruption of the ring as  
stations enter or leave the ring. Note that token errors are only reported by an  
active monitor. If you see a token error reported by another station, it was serving  
as active monitor at some previous time.  
Frequency Errors  
A frequency error occurs when the ring clock frequency and a station’s internal  
crystal clock frequency differ by an excessive amount. This type of error happens  
more often on 16 Mbps rings than on 4 Mbps rings; it can also be a symptom of  
too many stations on the ring.  
Detection of a frequency error initiates the monitor contention process, since this  
typically indicates that the active monitor is not present or is malfunctioning.  
Ring and Station Variables  
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Statistics  
5-12  
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Chapter 6  
Ring Security Configuration  
Selecting a ring for which to set security; configuring the Allowed and Disallowed Station Lists;  
selecting ring security levels  
About Ring Security  
The Ring Security application allows you to control access to the Token Ring  
networks being managed by the TRMMIM by specifying an “Allowed List” of  
stations permitted to enter the ring, a “Disallowed List” of stations removed from  
the Allowed List, and a security mode which controls the ring’s response to  
stations illegally attempting to enter the ring.  
The Allowed List, which by default contains the MAC address of each station  
known or permitted on the ring network when security is enabled, is a database  
stored at the TRMMIM itself. Each Token Ring hub can store up to 250 station  
MAC addresses in the Allowed List, which is maintained in its battery-backed  
Non-Volatile Random Access Memory (NVRAM). When you power up or reset  
the TRMMIM, all MAC addresses will be retained and ring security resumes its  
previous state.  
You first build the Allowed List either by enabling ring security with the “Warn”  
security mode activated (as described in Configuring Security, page 6-7) —  
which will add the MAC addresses of all stations currently detected on the ring to  
the Allowed List — or by individually entering the MAC addresses of each station  
using the Add button. Once the list has been built and updated, you can switch  
the security mode to “Warn and Remove,” which will issue a trap to your  
management station and send a Remove MAC frame to any unauthorized station  
(that is, one not in the Allowed List) which tries to enter the ring. You can add to  
the allowed list at any time.  
The Disallowed List acts as a repository for the MAC addresses of stations that  
have been removed from the Allowed List, or station addresses that you  
administratively enter. These addresses are stored in a “Disallowed” database  
that is maintained at your management workstation. The number of entries in the  
database is limited only by disk space. You can add to the Disallowed List either  
6-1  
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Ring Security Configuration  
manually (by entering the address of a disallowed station), or by moving an entry  
from the Allowed List. You can also restore a station from the Disallowed List to  
the Allowed List, if desired.  
Once Security has been configured and enabled, the TRMMIM acts as the Ring  
Security Monitor and provides security for the entire ring.  
The Token Ring Security application is intended to be used by a knowledgeable network  
administrator. In the hands of an inexperienced user, it could severely impact your  
network by creating beaconing conditions on the ring. The Security application posts  
confirmation messages to forestall any indiscriminate actions; however, you should still  
use care when running the application.  
!
CAUTION  
We also recommend that you configure and enable security on only one device per ring, to  
reduce the possibility of conflicting security information on the network.  
Launching the Security Configuration Window  
To launch the security application  
from the icon:  
1. Click on the appropriate TRMMIM icon to display the icon menu.  
2. Drag down to Security and release.  
from the Hub View:  
1. Click on  
to display the Device menu.  
2. Drag down to Security and release.  
from the command line (stand-alone mode):  
1. From the appropriate directory, type:  
spmarun e5sec <IP Address> <community name>  
6-2  
Launching the Security Configuration Window  
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Ring Security Configuration  
The spmarun script invoked first in the above command temporarily sets the environment  
variables SPMA needs to operate; be sure to use this command any time you launch an  
application from the command line. This script is automatically invoked when you launch  
an application from the icon menu or from within the Hub View.  
NOTES  
If you wish to change any Security settings, be sure to use a community name with at  
least Read/Write access. If you only wish to view current settings, a community name  
with Read access will be sufficient.  
If there is a hostname mapped to your TRMMIM’s IP address, you can use <hostname>  
in place of <IP address> to launch this application. Please note, however, that the  
hostname is not the same as the device name which can be assigned via Local  
Management and/or SPMA; you cannot use the device name in place of the IP address.  
The Security Configuration Ring Selection window, Figure 6-1, will appear.  
Figure 6-1. The Security Configuration Ring Selection Window  
The Ring Selection window displays each manageable network supported by the  
monitored device, and lets you access a Security Config window to configure  
security for the selected ring. Networks are identified by the following two fields:  
No.  
The index number assigned to each ring network.  
Ring Name  
This field displays the ring name assigned to each network.  
To set up security for the ring network being managed by the TRMMIM, click  
mouse button 1 to select the desired ring, then click mouse button 1 on  
. The Security Config window (Figure 6-2) will appear.  
Launching the Security Configuration Window  
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Ring Security Configuration  
Figure 6-2. The Security Config Window  
The Security Config window is where you actually configure security for the  
selected ring; it contains the following information:  
Allowed Station List  
This list box displays the MAC address of each station in the ring security  
Allowed List database — that is, those that have security authorization to enter  
the selected ring. This database is maintained in the TRMMIM itself.  
Note that the current Active Monitor will be indicated by an asterisk (*) next to its  
MAC address. The Active Monitor cannot be removed from the Allowed List.  
Allowed Count  
This field shows the number of stations currently on the Allowed List. The  
allowed range is from 1-250 stations.  
Disallowed Station List  
This list box displays the station MAC address entries in the Disallowed List  
database — all those addresses which have been removed from the Allowed List,  
plus any additional addresses which have been added manually. This database is  
stored on your network management station.  
Disallowed Count  
This field shows the number of stations currently on the Disallowed List.  
6-4  
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Ring Security Configuration  
Vendor  
This field, visible in both list boxes, displays the vendor associated with each list  
entry, as determined by the first three bytes in its MAC address.  
Security Mode Options  
The Security Mode options at the top of the Security Config window display the  
current security configuration, and allow you to reconfigure security. When you  
select the Warn mode, that level of security will immediately be set at the device;  
when you select the Warn and Remove mode, you will be asked to confirm your  
selection.  
Disable Security  
If this option is selected, no security is set at the device. Any station can attempt to  
enter the ring without security action being taken. Security is disabled by default.  
Enable Security  
If Enable Security is selected, one of two Security Mode options is in effect; these  
modes determine what action will be taken when an unknown MAC address (i.e.,  
one not in the Allowed List) is detected trying to enter the ring. The two Security  
Mode options are:  
Warn  
In Warn mode, new stations can enter the ring, but a  
“Station Added” trap will be sent to the network  
management station in response. This trap message is  
only sent once, and it includes the new station’s MAC  
address. Because new stations can still be added to the  
Allowed List in Warn Mode, you can use this mode to  
allow new users to enter the ring; while in Warn mode,  
the TRMMIM automatically enters the MAC address of  
each inserted station on the ring in the Allowed List. This  
saves you from entering MAC addresses one at time  
using the Add button.  
Warn and Remove  
This is the highest level of ring security, which will lock  
the ring to new stations. While in the Warn and Remove  
mode, the TRMMIM sends a “Remove MAC Frame”  
command to any unauthorized station attempting to  
enter the ring, and a trap to your management station  
informing it of the action taken. The TRMMIM will try  
three times to remove an unauthorized station from the  
ring; if after three attempts the station cannot be  
removed, a trap will be sent to the management station  
informing it that the station could not be removed.  
Launching the Security Configuration Window  
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Ring Security Configuration  
Allowed/Disallowed List Configuration Buttons  
The following buttons are used to manipulate the Allowed and Disallowed Lists  
and to set the security mode at the device:  
This button moves a selected address(es) from the  
Allowed List to the Disallowed List.  
Note that if you are in the Warn mode, removing a  
station from the Allowed List will have little effect,  
because the station will remain on the ring and  
automatically be re-added to the Allowed List (although  
a trap will be sent to your management workstation  
when the station is re-added to the list). Note that the  
Allowed and Disallowed Lists will refresh automatically  
when a station reinserts into the ring.  
If no items in the Allowed List are selected, this button  
will be grayed out.  
This button moves a selected address(es) from the  
Disallowed List to the Allowed List. If there are no items  
selected in the Disallowed List, this button will be grayed  
out.  
Selecting this button will delete selected address(es) from  
the Allowed or Disallowed Station Lists.  
This button is active in all security modes; however, if  
you have Enable Security-Warn mode selected, the  
station will automatically be re-added to the Allowed  
List. Note that the Allowed List will automatically  
refresh when a station is re-added.  
Selecting this button will invoke a pop-up window  
which allows you to add a station to the Allowed or  
Disallowed Station List (as described in the following  
section). This button is only active if security is enabled.  
When pressed, this button will invoke a pop-up window  
that allows you to remove all address(es) from the  
Allowed List.  
This button is active in all security modes; however, if  
you have Enable Security-Warn mode selected, the  
cleared stations will simply be re-added to the list. Note  
that the Allowed List refreshes automatically when  
stations are re-added.  
Selecting this button will refresh both the Allowed List  
(stored on the TRMMIM itself) and the Disallowed List  
(stored on your management workstation). Should any  
6-6  
Launching the Security Configuration Window  
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Ring Security Configuration  
duplication exist between the lists, the duplicate entries  
will be removed from the Disallowed List. There will not  
be any alert if this occurs.  
Selecting this button closes the Security Config window.  
Any sets you have made in the window before closing  
will have taken effect.  
Configuring Security  
Before configuring security, be sure that your network meets the requirements  
and conditions specified in your TRMMIM’s hardware Installation and User’s  
Guide.  
Your TRMMIM must also be properly configured to send traps to the appropriate  
network management station; this will ensure that traps generated by ring  
security arrive at the appropriate destination. Refer to the SPMA Tools Guide for  
information on using the Trap Table tool.  
Building the Allowed List Automatically  
When security is set to Warn mode, any station which inserts onto the ring is  
automatically added to the Allowed List. You can use this feature to build the  
Allowed List automatically, as follows:  
1. Click to select the Enable Security-Warn option. The TRMMIM will enable  
ring security and automatically generate the Allowed List, adding to it each  
station which is currently inserted on the ring. If your network management  
station address is entered into the TRMMIM’s trap table, you will receive a trap  
informing you of each device which is added to the list.  
2. The Allowed Station List display will update to show you new entries.  
Adding New Stations to the Allowed or Disallowed Stations List  
To add an individual station to the Allowed or Disallowed Stations List:  
All entries to the Allowed and Disallowed Lists are verified for proper MAC format and  
list duplication. Should you add an entry which already exists in the Allowed or  
NOTE  
Disallowed List to the other list, the address will be removed from the original list and  
added to the new one.  
1. Click on  
. The Station Addition window (Figure 6-3) will appear.  
Configuring Security  
6-7  
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Ring Security Configuration  
Figure 6-3. The Station Addition Window  
2. Enter the MAC address of the station you want to add to the Allowed or  
Disallowed Stations List, as follows:  
a. In the MAC Address field, type the address in XX-XX-XX-XX-XX-XX  
hexadecimal format.  
b. Using the buttons at the bottom of the window, select the Allowed or  
Disallowed List option, as appropriate.  
c. Click on  
to enter the new stations in the appropriate list, then  
to exit the window.  
Deleting Stations from the Allowed or Disallowed Lists  
You must set ring security to the Warn and Remove mode to delete a station from the  
Allowed List and keep it off the ring; remember, in Warn mode, any station entering the  
NOTE  
ring is automatically added to the Allowed List, and permitted to stay on the ring.  
To remove an individual station or a range of stations from the Allowed Stations  
List:  
1. Make sure that the security mode is set to Warn and Remove to be sure a  
station is permanently removed from the Allowed List.  
2. Click mouse button 1 on an individual station in the appropriate list, or click  
and drag to select a range of stations you want to delete. A station will be  
highlighted to show it is selected.  
3. Click on  
to remove the stations from the list.  
6-8  
Configuring Security  
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Ring Security Configuration  
Moving a Station Between the Allowed and Disallowed Stations List  
You can move an individual station or a range of stations between the Allowed  
and Disallowed Stations Lists, as follows:  
1. Click mouse button 1 on an individual station in the appropriate list, or click  
and drag to select a range of stations you want to switch to the opposite list. A  
station will be highlighted to show it is selected.  
2. Use the Arrow buttons to switch addresses between the Allowed and  
Disallowed List, as follows:  
a. Click  
to move the currently selected address(es) from the  
Disallowed List to the Allowed List. If no items in the Disallowed List are  
selected, this button will be grayed out.  
b. Click  
to move the currently selected address(es) from the  
Allowed List to the Disallowed List. If no items in the Allowed List are  
selected, nothing will occur.  
Clearing All Entries in the Allowed or Disallowed List  
To remove all entries from the Allowed or Disallowed List:  
1. Click on  
. The following window will be displayed.  
Figure 6-4. Clear List Window  
2. Click mouse button 1 to select the appropriate option: Allowed or  
Disallowed.  
3. Click on  
to remove all entries from the list, or  
to exit  
the window without making changes.  
Configuring Security  
6-9  
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Ring Security Configuration  
Changing the Ring Security Mode  
Use the Enable Security and Disable Security options at the top of the Security  
Config window turn security on and off; use the Security Mode options to select  
the level of security you wish to activate:  
Disable Security  
Selecting this option disables ring security so that any station can attempt to enter  
the ring. The Security Mode selections — those which determine the action that  
will be taken when an unauthorized station attempts to enter the ring — are  
de-activated (grayed out) when security is disabled. Security is disabled by  
default.  
Enable Security  
Selecting this option enables you to choose one of two Security Mode options  
which determine the actions that will be taken when an unauthorized MAC  
address (i.e., one not in the “Allowed List”) is detected trying to enter the ring.  
The two Security Mode options are:  
Warn  
This is the default Enable Security mode. In Warn mode, new  
stations can enter the ring, but a “Station Added” trap will be  
sent to the network management station in response. This trap  
message is only sent once, and it includes the new station’s MAC  
address. Because new stations can still be added to the Allowed  
List in Warn Mode, you can use this mode to allow new users to  
enter the ring; while in Warn mode, the TRMMIM automatically  
adds every inserted station to the Allowed List. This saves you  
from entering MAC addresses one at time using the Add button.  
Note that this option will be set as soon as it is selected; there is  
no confirmation required.  
Warn and  
Remove  
This is the highest level of ring security, which will lock the ring  
to new stations. The Alarm/Remove mode sends a “Remove  
MAC Frame” command to a new station attempting to enter the  
ring, and a trap to your management station informing it of the  
action taken. If, after three attempts the station cannot be  
removed from the ring, a trap is sent to the management station  
informing it that the station could not be removed.  
Note that, because of the potentially serious consequences of  
setting this high level of security, you will be asked to confirm  
this selection before it is set.  
6-10  
Configuring Security  
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Appendix A  
TRMMIM MIB Structure  
TRMMIM management information base configuration  
IETF MIB Support  
In addition to its proprietary features, the TRMMIM currently supports the  
following IETF MIBs:  
RFC 1213 MIB for Network Management of TCP/IP-based Internets: MIB-II  
RFC 1271 Remote Network Monitoring MIB  
RFC 1757 Token Ring Extensions to RMON  
TRMMIM MIB Structure  
Cabletron’s newer intelligent devices — like the TRMMIM — organize MIB data  
into a series of “components.” A MIB component is a logical grouping of MIB  
data, and each group controls a defined set of objects. For example, for each ring  
that is formed in the MMAC chassis, there will be an individual network  
component that contains all management information specific to that particular  
ring.  
The TRMMIM MIB consists of six component groups, each of which is described  
below. Note, however, that at any given time, the MIB component list displayed  
by your TRMMIM may not include some of the components described below,  
since the TRMMIM has the ability to alter the components which make up its MIB  
in response to changes in the chassis. For example, if you have two rings formed  
in the hub, you will see two “Network” components; if at any time you form a  
third logical ring, the necessary MIB component will automatically appear in the  
chCompTable. To see which MIB components are currently being used in your  
TRMMIM, bring up the Community Names application, or use any SNMP Get  
operation that will allow you to view the contents of the chCompTable.  
A-1  
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TRMMIM MIB Structure  
The TRMMIM MIB consists of the following components:  
Chassis MGR  
The Chassis MGR MIB component contains most of the basic information about  
the TRMMIM, the chassis it is controlling, and the other modules installed in that  
chassis, including: chassis type, backplane type, number of slots, which module  
types and names are installed in which slots, the TRMMIM’s MIB component  
information (in the chCompTable), device and module names, hardware revision  
numbers, MAC and IP addresses, the current time and date, and information  
related to alarms, ring security, and TFTP download. The following groups from  
MIB-II are also included: system, interfaces, at, ip, icmp, udp, and snmp. The  
community names assigned to this MIB component provide the gateway that all  
SPMA applications use to access all information in the other components, even if  
those components have different community names; the Chassis MGR  
community names are the same as those assigned via Local Management.  
LM  
The TRMMIM LM, or Local Management, component contains the objects that  
provide out-of-band management via the Console port on the TRMMIM’s front  
panel. No objects from this component are used for remote management.  
Protocol Stack  
The Protocol Stack MIB component is the IP stack for in-band communication  
which provides the TRMMIM with its IP functionality.  
SNMP Agent  
The SNMP agent MIB component contains the objects that provide the TRMMIM  
with its IP functionality - essentially, those functions which allow the device to  
operate over a network - including functions such as ping, Telnet, and TFTP.  
Network One, Network Two  
The Network MIB components contain all of the objects related to basic Token  
Ring operation, including ring name, port counts, port enable and disable, ring  
state, ring speed, active monitor, information about each station inserted on the  
ring, error status, and packet, byte, and error counts. Also included are the objects  
related to the alarms function. The default community names for the Network  
MIB components will always be different from one another and from the default  
names assigned to all the other components; if you change community names,  
remember that no network component may ever share a community name with  
any other network component on the same device.  
Note that the only fully implemented Network MIB component will be  
Network 1 - the one that applies to the ring of which the management device  
is a part. Each additional Network component - indexed 2, 3, 4, etc. - supplies  
only minimal, physical management for each independent ring installed in the  
same chassis.  
A-2  
TRMMIM MIB Structure  
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TRMMIM MIB Structure  
RMON  
The RMON, or Remote Network Monitoring, MIB component contains the  
statistics, history, alarm, event, and Token Ring groups from the RMON MIB  
(RFC 1271 and 1757).  
Telnet  
The Telnet component provides a means by which you can remotely access the  
TRMMIM’s Local Management screens, including MIB Navigator — a command  
set from which you can configure and manage your TRMMIM by viewing and  
modifying the objects in the device’s MIB. Local management and the MIB  
Navigator are accessible through SPMA via the Telnet application; see the SPMA  
Tools Guide and/or your TRMMIM hardware manual for more information.  
A Brief Word About MIB Components and Community Names  
In the original version of the component MIB architecture, each MIB component is  
protected by its own set of user-configurable Read-Only, Read/Write, and Super-  
User community names. These names determine the level of access that will be  
granted to the information controlled by each individual component. For these  
devices, the central point of access for remote management is provided by the  
Chassis MGR MIB component — that is, if you define your device icon or launch  
a management application using the read-only, read/write, or super-user  
community name assigned to the Chassis MGR MIB component, your SPMA  
application is granted the appropriate level of access (read-only, read/write, or  
super-user) to all of that device’s MIB information — even if the other MIB  
components have different community names (as will occur of necessity with the  
TRMMIM’s multiple Network MIB components, each of which must have a  
unique set of community names).  
The set of community names you assign via Local Management are those which apply to  
the Chassis MGR MIB component.  
NOTE  
Newer versions of devices with this component-based MIB architecture have  
been simplified somewhat; these devices support a single, global set of community  
names, with small modifications added automatically to accommodate multiple  
instances of the same MIB component (as occurs with the TRMMIM’s Network  
components). Again, defining your device icon or launching a management  
application with one of these global community names gives SPMA access to all  
MIB information.  
Where community names may become an issue, however, is when you are using  
the MIBTree or any similar MIB-based tool (such as those provided by SunNet  
Manager or HP Network Node Manager) to access MIB information. For these  
kinds of tools, you must supply the precise community name assigned to the  
component that contains the information you want. For devices which support  
TRMMIM MIB Structure  
A-3  
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TRMMIM MIB Structure  
the original component-based MIB architecture, this means you must use the  
exact community name you have assigned to a specific component to access that  
component’s MIB information. (Again, note that the TRMMIM’s Network  
components always have unique community names.) For devices which support  
the new global community names, you must make note of the automatic  
modifications that are made for network components, and use those specific  
community names when trying to access information stored in those components.  
The MIB component descriptions provided above will serve as a roadmap for  
determining where the information you’re interested in is located; you can use the  
SPMA Community Names tool (described in Chapter 3 of the SPMA Tools Guide)  
to determine whether your version of firmware supports the original component-  
based MIB architecture, or the new global community names. The Community  
Names tools also allows you to both view and set the community names which  
apply to your device.  
A-4  
TRMMIM MIB Structure  
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Index  
Automatic Beacon Recovery Process  
(ABRP) 3-23  
A
Abort 2-23  
abort error 5-10  
Abort Sequence 3-17  
AC 2-23  
AC error 5-9  
AC Errors 3-17  
AC errors 4-8  
accessing Module and Port menus 2-6  
ACT 2-10  
Active Monitor 3-27  
active monitor 3-4, 3-12  
active monitor changes 3-21  
active monitor participant errors 4-4  
Active Ports 2-10  
Active Users 2-14  
Address Recognized Indicator (ARI) 3-17  
Admin 2-8, 2-10  
B
Bad Param 3-11  
Beacon Configuration 3-23  
beacon configuration 3-23  
beacon events 3-21  
Beacon History 3-1, 3-21  
beacon history 3-21  
beaconing 3-5, 3-11, 3-22, 3-28  
Burst 2-23  
burst error 5-9  
Burst Errors 3-16  
burst errors 4-7  
BYP 2-9, 2-29  
Bytes 2-23  
Admin State 2-16  
Admin status 2-8  
C
calculation mode 3-6, 3-14, 3-29  
Changing the port display form 2-8  
changing the ring speed 2-32  
Charts, Graphs, and Meters 1-2  
Chassis MGR A-2  
Chassis Type 2-14  
claim token errors 4-4  
Class 2-21  
community name 3-2  
Community Names 1-2  
community names A-3  
component-based MIB architecture A-3  
Congest 2-23  
Admin/Link 2-9  
Admin/Link status 2-8  
alarm limits 4-1  
Alarm List Box 4-4  
alarm response 4-1  
alarm threshold 4-5, 4-8  
alarm timebase 4-3, 4-5, 4-6  
alarm variables 4-4  
alarms  
ring level 4-3  
station level 4-5  
Allowed Count 6-4  
Allowed List 6-1  
Allowed Station List 6-4  
Allowed Stations List  
Adding Stations 6-7  
Clearing 6-9  
Deleting Stations 6-8  
Moving a station from 6-9  
Auto 2-32  
congest 5-11  
Congestion Errors 3-17  
congestion errors 4-8  
connection 2-8  
Contact 2-14  
Contact Status 2-3, 2-26  
contention 3-5  
conventions 1-3  
Automatic Beacon Recovery Process 2-19  
Index-1  
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Index  
find parameters 3-26  
finding nearest neighbor 3-26  
firmware version 1-7, 3-19  
FNB Bypass State 2-7  
FNB connection symbols 2-28  
FNB Display 2-10  
FNB Multiplexer 2-28  
FNB Status 2-7  
frame check sequence error 3-16  
Frame Copied Errors 3-18  
Frame Copied Indicator (FCI) 3-17  
Frame Copy 2-24  
frame copy 5-11  
frame count 4-4  
Frame Sizes 5-9  
Frames 2-23  
frames 5-8  
Frequency 2-24  
frequency error 5-11  
Frequency Errors 3-18  
D
Date 2-14  
Device button 2-4  
Device Configuration 2-27  
device date 2-4  
Device General Status 2-27  
Device Information 3-19  
Device menu 2-5  
Device Name 2-4  
Device Status Window 2-13  
device time 2-4  
Device, Module and Port Menus 2-12  
Disable Ring Out 2-33  
Disable Security 6-10  
Disallowed Count 6-4  
Disallowed List 6-1  
Disallowed Station List 6-4  
Disallowed Stations List  
Adding Stations 6-7  
Clearing 6-9  
Deleting Stations 6-8  
Moving a station from 6-9  
Duplicate MAC Address 3-11  
G
General/Error Statistics 2-24  
Getting Help 1-6  
global community names A-3  
Global Find MAC Address Tool 1-2  
graph 5-6  
E
e5alarms 4-2  
e5hub 2-1  
e5map 3-2  
e5sec 6-2  
e5stats 5-2  
H
hard errors 3-23  
Help 1-6  
Enable Ring Out 2-33  
Enable Security 6-5, 6-10  
enabling and disabling ports 2-33  
Enabling and Disabling the Phantom  
Current 2-17, 2-22  
enabling token ring ports 2-32  
ENB 2-9  
Error Report Timer 3-13  
Error Status 3-11  
Error Table 3-1, 3-14  
Errors 2-23  
History window 1-4  
hostname 2-2  
Hub Configuration View  
Device Name 2-4  
IP Address 2-4  
Hub View 2-2  
HW Reset 3-10  
I
IETF MIBs, supported by TRMMIM A-1  
Infinite 3-24  
errors 5-8  
Info window 2-6  
INS 2-10, 2-29  
Insertion Timeout 3-11  
Insertion Trap 2-17  
Internal 2-23  
F
fault region 2-19  
Fault Start Time 2-21  
Find Highest/Lowest windows 3-30  
find MAC address 2-24  
Find options 3-25  
Internal Error 3-17  
Index-2  
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Index  
internal error 5-10  
internal errors 4-7  
IP Address 2-4  
N
NADN (nearest active downstream  
neighbor) 3-26  
Isolating Errors 3-16, 5-9  
Name 2-13  
NAUN (nearest active upstream neighbor)  
3-26  
Network 1 2-31  
Network One, Two A-2  
No Open 3-11  
Non-Isolating Errors 3-17, 5-10  
non-isolating errors 4-5  
Normal Token Protocols 3-5  
K
Kbytes 5-8  
L
Last Beacon Type 3-22  
LIM A-2  
Line 2-23  
Line Errors 3-16  
line errors 4-7, 5-9  
Link State 2-16  
Link State Time 2-17  
LM A-2  
O
opening the Device Status window 2-13  
opening the Hub View 2-1  
opening the Module Status window 2-14  
opening the ring Port Status window 2-20  
opening the station Port Status window 2-16  
opening the Station Status window 2-17  
OSF/Motif 1-3  
lobe fail 3-5  
Lobe Test Failed 3-11  
Local Management A-2  
Location 2-13  
Lost Frame Errors 3-17  
Lost Frames 2-23  
lost frames 4-4, 5-10  
P
Parameter Requested 3-11  
Phantom Current 2-21  
physical drop 3-7, 3-9, 3-19, 3-26  
Physical Location 2-19  
Pie Chart 5-5  
M
MAC Address 2-4, 2-18  
Management 2-32  
poll interval  
management station 3-28  
Management Station Configuration 3-1  
management station configuration 3-9  
Media Fault 2-21  
Media Type 2-10, 2-21  
Meter 5-6  
ring map 3-20  
Port 2-18, 2-21  
Port Display Form 2-7  
Port Index 2-7  
Port Location Configuration 2-20  
Port Mapping 2-19  
Port Name 2-16  
Port Name Configuratin 2-20  
Port Operational State 2-27  
Port Physical Location 2-19  
Port Priority 2-19  
MGT 2-32  
MIB component A-1  
MIB component descriptions A-4  
MIB I, II 1-2  
MIBTree 1-2  
Module 2-15  
Port Priority Configuration 2-20  
Port Status 2-7, 2-8  
Port Status Window 2-16  
Port Type 2-9  
Protocols 5-8  
purge 3-5  
Module (board) 2-16, 2-18, 2-21  
Module Index 2-7  
Module Management Mode 2-7  
Module Name 2-15  
Module Ring Speed 2-7  
Module Status 2-14  
Module Type 2-7  
Purge Failed 3-11  
Motif 1-3  
Index-3  
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Index  
Streaming Signal Not Claim Token 3-22  
SW Reset 3-10  
Q
Quick Info 3-6  
Quit button 2-6  
T
Technical Support 1-6  
Telnet 1-2, A-3  
TFTP Download 1-3  
threshold 4-5, 4-8  
Time 2-14  
timebase 4-3, 4-5, 4-6  
Token 2-24  
token  
R
ranking, by errors 3-14  
Recovery Mode Set 3-22  
Remove MAC Frame 2-34, 6-5  
Remove Received 3-11  
Remove Station 2-34  
Re-sizing a window 1-4  
Reverse MAC button 5-4  
Ring and Station Statistics Variables 5-8  
Ring and Station Statistics window 5-3  
Ring Map 3-1  
Ring Name 3-3, 6-3  
Ring Port Name 2-20  
Ring Port Status Window 2-20  
Ring Ports 2-7  
ring purges 3-21, 4-4  
Ring Security – Warn and Remove Mode 6-1  
Ring Security – Warn Mode 6-1  
Ring Security Mode – Changing 6-10  
Ring Security Monitor 6-2  
ring-level alarms 4-3  
corrupted 3-17  
token error 5-11  
Token Errors 3-18  
token errors 4-4  
Token Ring MIM Management Mode 2-32  
Token Ring Statistics 5-1  
Trap Table 1-3  
TRMMIM MIB components A-2  
TRXMIM 2-33  
U
unique community names A-3  
Upstream Neighbor/Downstream  
Neighbor 2-18  
Ring-out Port 2-33  
RMON A-3  
Uptime 2-4  
Utilization 3-5  
S
Security Configuration – Ring Selection 6-3  
Security Mode Buttons 6-5  
Set Alarm For 4-7, 4-8  
Setting a Port’s Trunk Type 2-28  
Setting the Polling Intervals 2-25  
Signal Loss 3-11  
V
Vendor 2-18, 6-5  
version numbers 1-6  
viewing trap messages 2-17, 4-1  
stand-alone mode 2-17, 4-1  
Signal Loss Error 3-22  
soft errors 3-15  
Speed Fault 2-15, 2-17  
Speed Fault Location 2-15  
spmarun 3-2, 6-2  
W
Warn and Remove Mode 6-5  
Warn Mode 6-5, 6-10  
WRAP 2-10  
Station Added 6-5, 6-10  
station labels 3-18  
Station Name 2-18  
Station Priority 2-19  
Station Status Window 2-18  
station-level alarms 4-5  
Statistics 2-22, 2-27  
Statistics Calculation Mode 3-13  
Streaming Signal Claim Token 3-22  
Index-4  
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