®
Portable Management Application
for the
7C03, 7C04, and 7C04-R
SmartSwitch Hubs
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: 9031977-E1 October 1996
Cabletron Systems, Inc.
P.O. Box 5005
Rochester, NH 03866-5005
SPECTRUM, MiniMMAC, FNB, Multi Media Access Center, and DNI are registered trademarks,
and Portable Management Application, IRM, IRM2, IRM3, IRBM, ESXMIM, ETSMIM, EMME,
EMM-E6, ETWMIM, FDMMIM, FDCMIM, MicroMMAC, MRXI, MRXI-24, NB20E, NB25E, NB30,
NB35E, NBR, SEHI, STHI, TRBMIM, TRMM, TRMM-2, TRMM-4, TRMMIM, TRXI, Media
Interface Module, MIM, and Flexible Network Bus are trademarks of Cabletron Systems, Inc.
UNIX and OPENLOOK are trademarks of Unix System Laboratories, Inc. OSF/Motif and Motif are
trademarks of the Open Software Foundation, Inc. X Window System is a trademark of X Consortium,
Inc. 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
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Contents
Chapter 1
Introduction to SPMA
for the 7C0x SmartSwitch
Using the 7C0x SmartSwitch User’s Guide............................................................... 1-2
What’s NOT in the 7C0x SmartSwitch User’s Guide . . . ................................. 1-4
Conventions................................................................................................................... 1-5
Screen Displays ...................................................................................................... 1-5
Using the Mouse .................................................................................................... 1-7
Getting Help .................................................................................................................. 1-8
7C0x SmartSwitch Firmware....................................................................................... 1-8
Chapter 2
Using the 7C0x SmartSwitch
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........................................................... 2-4
Monitoring Hub Performance..................................................................................... 2-5
Selecting the Application Display Mode............................................................ 2-6
COM Port and FDDI Front Panel Displays................................................. 2-8
FDDI Port Display Forms....................................................................... 2-8
FDDI Color Codes ................................................................................. 2-10
The Switch Application Display................................................................. 2-10
Switch Port Display Forms .................................................................. 2-11
Switch Port Color Codes ...................................................................... 2-12
The Bridge Application Display................................................................. 2-13
Bridge Port Display Forms................................................................... 2-13
Bridge Port Color Codes....................................................................... 2-15
The Interface Application Display ............................................................. 2-15
Interface Port Display Forms............................................................... 2-16
Interface Port Color Codes................................................................... 2-20
Viewing Device Configuration .......................................................................... 2-20
Viewing the Interface List................................................................................... 2-22
Viewing Switch Status......................................................................................... 2-23
Viewing the Source Address List....................................................................... 2-24
Managing the Hub...................................................................................................... 2-25
Launching SPMA Tools from the Hub View.................................................... 2-25
Module Utilities ............................................................................................ 2-26
MIB I, II .......................................................................................................... 2-26
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Contents
Find MAC Address.......................................................................................2-26
UPS..................................................................................................................2-27
Accessing FDDI Management............................................................................2-27
Accessing ATM Management.............................................................................2-28
Accessing Bridge Management..........................................................................2-28
Setting the Polling Intervals ...............................................................................2-28
Port Configuration...............................................................................................2-30
Configuring Ethernet and FDDI Ports.......................................................2-30
Configuring Fast Ethernet Ports.................................................................2-32
Setting the Desired Operational Mode...............................................2-35
Configuring COM Ports...............................................................................2-36
Enabling and Disabling Bridge Ports................................................................2-38
Chapter 3
Chapter 4
Basic Alarm Configuration
About Basic Alarms ......................................................................................................3-1
Launching the Basic Alarm Application.............................................................3-2
Viewing Alarm Status...................................................................................................3-3
How Rising and Falling Thresholds Work.........................................................3-6
Configuring an Alarm ..................................................................................................3-7
Disabling an Alarm.......................................................................................................3-9
Viewing an Alarm Log ...............................................................................................3-10
FDDI Management
Port Configuration ........................................................................................................4-2
Enabling or Disabling FDDI Ports.......................................................................4-5
Charts, Graphs, and Meters..................................................................................4-5
Viewing the FDDI Port Chart........................................................................4-6
Changing the Measurement of Data.....................................................4-7
Viewing FDDI Port Meters............................................................................4-7
Viewing FDDI Port Graphs ...........................................................................4-8
Alarm Configuration ....................................................................................................4-9
SMT/MAC Configuration .........................................................................................4-13
Charts, Graphs, and Meters................................................................................4-17
Viewing the FDDI MAC Chart ...................................................................4-18
Changing the Measurement of Data...................................................4-19
Viewing FDDI MAC Meters........................................................................4-19
Viewing FDDI MAC Graphs.......................................................................4-20
Configuring the SMT Connection Policy.................................................................4-21
FDDI Connection Rules.......................................................................................4-22
Special Ring Configurations........................................................................4-23
Defining Your Connection Policy ......................................................................4-23
Viewing the Station List .............................................................................................4-24
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Contents
Chapter 5
Chapter 6
ATM Configuration
Accessing the AToM MIB Window............................................................................. 5-1
Configuring Connections............................................................................................. 5-4
Using the 7C0x SmartSwitch
Bridge View
Bridging Basics .............................................................................................................. 6-1
Transparent Bridging............................................................................................. 6-2
Accessing the Bridge Traffic View Window.............................................................. 6-2
Navigating Through the Bridge Traffic View .................................................... 6-3
Bridge Traffic View Front Panel........................................................................... 6-4
The Bridge Port Display........................................................................................ 6-6
Choosing Bridge Traffic Information: Bridge Traffic View Buttons................ 6-6
Using the Detail View Window .................................................................................. 6-8
Changing Ports in the Detail View.................................................................... 6-10
The Bridge Status Window........................................................................................ 6-11
The Bridge Statistics Window ................................................................................... 6-11
The Filtering Database Window ............................................................................... 6-13
Viewing the Filtering Database.......................................................................... 6-14
Changing the Filtering Database Dynamic Ageing Time .............................. 6-17
Changing Forwarding and Static Database Entries........................................ 6-18
Deleting a Static Table Entry....................................................................... 6-19
Finding a Filtering Database MAC Address.................................................... 6-20
The Spanning Tree Protocol Window....................................................................... 6-20
Changing Spanning Tree Parameters................................................................ 6-24
The Spanning Tree Port Parameters Window......................................................... 6-25
Changing a Port’s STA Parameters.................................................................... 6-27
Creating Bridge Traffic Charts, Graphs, and Meters.............................................. 6-27
The Bridge Port Forwarding Statistics Window..................................................... 6-28
Port Forwarding Statistics Window Fields ...................................................... 6-29
Configuring Forwarding Thresholds ....................................................................... 6-30
Viewing the Forwarding Log .................................................................................... 6-33
Changing Polling Intervals........................................................................................ 6-35
Enabling and Disabling Ports.................................................................................... 6-36
Enabling and Disabling a Transparent Bridge Port ........................................ 6-36
Appendix A 7C0x SmartSwitch MIB Structure
IETF MIB Support........................................................................................................ A-1
7C0x SmartSwitch MIB Structure .............................................................................. A-1
A Brief Word About MIB Components and Community Names .................. A-3
Index
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Contents
vi
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Chapter 1
Introduction to SPMA
for the 7C0x SmartSwitch
How to use the 7C0x SmartSwitch User’s Guide; manual conventions; contacting Cabletron Technical
Support; 7C0x SmartSwitch firmware versions supported by SPMA
Your SPMA for the 7C0x SmartSwitch management module provides
management support for all three models in the 7C0x SmartSwitch family. The
7C03 MMAC SmartSwitch functions as a chassis within a chassis; residing in an
MMAC-series hub, it occupies two module slots and provides three slots of its
own — one for the 7X00 SmartSwitch Control Module, and two for its own family
of Network Interface Modules, or NIMs. The 7C04 Workgroup SmartSwitch is a
stand-alone chassis that offers four slots: one for the controller, and three for
NIMs. The 7C04-R Workgroup SmartSwitch supplies all the features of the 7C04
along with the additional fault tolerance provided by a pair of redundant
load-sharing power supplies and a removable fan tray. The 7C04-R can also
accept the new double-wide NIM modules (in slots 3 and 4) for additional front
panel connectivity.
The 7C03 MMAC SmartSwitch chassis provides no network connection to the MMAC
backplane (from which it draws only power). If you wish to connect one or more networks
TIP
from the MMAC chassis to the SmartSwitch chassis, you must do so via the front panel
ports available on both the MMAC MIMs and the SmartSwitch NIMs.
At the heart of each 7C0x SmartSwitch hub is its 7X00 SmartSwitch Control
Module, which supervises access to the switching backplane and performs all
forwarding, filtering, and connection management functions; a variety of NIM
modules provide connectivity for FDDI, Ethernet, Fast Ethernet, and ATM
networks. NIM modules currently available include:
1-1
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Introduction to SPMA for the 7C0x SmartSwitch
•
•
•
The 7E03-24, a single-slot Ethernet module that provides 24 ports via two RJ71
connectors.
The 7E02-24, a double-wide Ethernet module for the 7C04-R which provides
24 ports via RJ45 connectors.
The 7F06-02, which provides connectivity for two FDDI ring networks via its
two front-panel FPIM slots; FPIM modules that support both multi-mode fiber
and single-mode fiber (both with MIC connectors) and both shielded and
unshielded twisted pair (with RJ45 connectors) are available.
•
•
The 7H02-06, which provides six Fast Ethernet connections — the first via a
Fast Ethernet Port Interface Module slot, and an additional five via built-in
Category 5 UTP RJ45 connectors. Two Fast Ethernet port modules are
available: the FE-100FX, which provides a single multi-mode fiber port with an
SC connector; and the FE-100TX, with a single Category 5 UTP RJ45 connector.
The 7H02-12, a double-wide module which provides 12 Fast Ethernet
connections — the first via a Fast Ethernet Port Interface Module slot, and
another 11 via built-in UTP RJ45s.
•
•
The 7H06-02 Fast Ethernet uplink module, which provides two Fast Ethernet
connections via Fast Ethernet Port Interface Module slots.
The 7A06-01, which provides a redundant ATM uplink connection via two
front panel ATM Port Interface Module slots. Available APIMs provide
connectivity for all standard ATM speeds and media types.
The available modules provide your SmartSwitch hub with key mission-critical
features such as redundant links, alarm thresholding, and full error breakdown;
Ethernet modules also provide per-port RMON support. By default, the 7X00
performs traditional switching (or bridging); depending on the version of
firmware you have installed, the 7X00 module can also be configured to perform
Cabletron’s SecureFast switching.
Not all released firmware versions support the ability to select SecureFast switching;
check your hardware manuals to see if your version of firmware supports this feature.
Currently, the toggle from traditional bridging to SecureFast switching is performed via
Local Management; see your Local Management documentation for details.
NOTE
Note that because the 7C03, 7C04, and 7C04-R provide the same functionality and
support the same family of NIM modules (with the exception of the double-wide
modules, which can be installed only in a 7C04-R), they will be referred to
collectively throughout this manual as the 7C0x SmartSwitch. Where significant
differences exist, they will be noted.
1-2
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Introduction to SPMA for the 7C0x SmartSwitch
Using the 7C0x SmartSwitch User’s Guide
Your SPECTRUM Portable Management Application (SPMA) for the 7C0x
SmartSwitch 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) and from the Stand-alone Launcher or the command line (if you are
running in stand-alone mode); in addition, several applications can also be
accessed from within the Hub View, a graphical display of the 7C0x SmartSwitch
hub and its installed modules.
The 7C0x SmartSwitch 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 7C0x SmartSwitch 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 is a description of the applications covered in this guide; while we
provide as much background information as we can, we do assume that you’re
familiar with Ethernet, Fast Ethernet, FDDI, and ATM networks, traditional
bridging and switching, and with general network management concepts:
•
Chapter 1, Introduction to SPMA for the 7C0x SmartSwitch, describes the
7C0x SmartSwitch User’s Guide and the conventions used in this and other
SPMA manuals, explains where to find information about the 7C0x
SmartSwitch, and tells you how to contact Cabletron Systems Technical
Support.
•
Chapter 2, Using the 7C0x SmartSwitch Hub View, describes the visual
display of the Hub and explains how to use the mouse within the Hub View;
some basic functions (changing the Hub View display, opening menus and
windows, enabling and disabling bridge ports, and so on) available only from
within the Hub View are also described. You can access the Hub View
application from the icon menu or the command line.
•
Chapter 3, Alarm Configuration, describes how the 7C0x’s RMON
functionality allows you to set thresholds and enable or disable alarms for any
installed bridging interface based on selected MIB II statistics; this chapter also
describes how to specify a response to an alarm condition. You can access the
Alarm Configuration application from the icon menu, the Hub View, or the
command line.
•
•
Chapter 4, FDDI Management, describes the five applications available for
managing any installed FDDI interfaces. You can access the FDDI applications
from the Hub View or the command line.
Chapter 5, ATM Configuration, describes how to use the ATM configuration
application to view and configure the Permanent Virtual Circuits supported
by any installed 7A06-01 modules.
Using the 7C0x SmartSwitch User’s Guide
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Introduction to SPMA for the 7C0x SmartSwitch
•
Chapter 6, Using the 7C0x SmartSwitch Bridge View, provides detailed
instructions for configuring and managing the 7C0x SmartSwitch’s traditional
bridging capabilities, including monitoring bridge operation, using the special
and filtering data bases, and setting forwarding thresholds and notification
options. You can access the Bridge View from the icon menu, the Hub View, or
the command line.
•
Appendix A, 7C0x SmartSwitch MIB Components, lists the IETF MIBs
supported by the 7C0x SmartSwitch, and describes their arrangement in a
series of MIB components. A description of the objects controlled by each
component is also included.
What’s NOT in the 7C0x SmartSwitch User’s Guide . . .
The following standard SPMA tools are available through the 7C0x SmartSwitch
module and are explained in the SPECTRUM Portable Management Application
Tools Guide:
•
•
•
•
•
•
•
•
•
•
Charts, Graphs, and Meters
Community Names
Global Find MAC Address
MIB I, II
MIBTree
Path
Telnet
TFTP Download
Trap Table
UPS
Charts, Graphs, and Meters are accessible from the Hub View and the command
line; the Global MAC Address tool is accessible from the Hub View, the platform
console window Tools menu, and the command line; the MIBTree application is
available from the platform console window Tools menu, the Stand-alone
Launcher applications menu, or the command line; and the rest of the tool
applications (except Telnet) are available from the icon menu, the Hub View, or
the command line. (The Telnet application is available only from the icon menu or
the command line.)
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 7C0x
SmartSwitch in stand-alone mode — that is, without benefit of a specific network
1-4
Using the 7C0x SmartSwitch User’s Guide
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Introduction to SPMA for the 7C0x SmartSwitch
management system — instructions for starting each application from the
command line are included in each chapter of this guide and the SPMA Tools
Guide.
Conventions
SPECTRUM Portable Management Applications — including the 7C0x
SmartSwitch module — 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.
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
you shrink a window, scroll bars will appear as necessary so that you can scroll to
view all the information that is available.
Conventions
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Introduction to SPMA for the 7C0x SmartSwitch
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
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.
Figure 1-2. The History Window
1-6
Conventions
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Introduction to SPMA for the 7C0x SmartSwitch
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.
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.
Conventions
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Introduction to SPMA for the 7C0x SmartSwitch
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 applications 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:
GO CTRON from any ! prompt
By FTP
Login
ctron.com (134.141.197.25)
anonymous
Password
your email address
By BBS:
(603) 335-3358
8N1: 8 data bits, 1 stop bit, No parity
Modem Setting
For additional information about Cabletron Systems products, visit our World
Wide Web site: http://www.cabletron.com/
7C0x SmartSwitch Firmware
SPMA for the 7C0x SmartSwitch has been tested against released firmware
version 1.02.05 and pre-release version 1.03.00 for the 7X00 Controller Module,
and pre-release version 1.00.04 for the 7A06-01 NIM; if you have an earlier version
of firmware and experience problems running SPMA, contact Cabletron Systems
Technical Support for upgrade information.
As a general rule, firmware versions for new products are liable to change rapidly; contact
Cabletron Systems Technical support for information about the latest customer release of
firmware available.
NOTE
Getting Help
1-8
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Chapter 2
Using the 7C0x SmartSwitch
Hub View
Navigating through the Hub View; monitoring hub performance; managing the hub
The heart of the SPECTRUM Portable Management Application (SPMA) for the
7C0x SmartSwitch is the Hub View, a graphical interface that gives you access to
many of the functions that provide control over the 7C0x hub and its installed
modules.
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 7C0x SmartSwitch icon and accessing the icon
menu can be found in the appropriate Installing and Using... guide. If you are
running the 7C0x SmartSwitch module in a stand-alone mode, type the following
at the command line:
spmarun fps <IP address> <community name>
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... guide, and/or the
Community Names chapter in the SPMA Tools Guide.
2-1
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Using the 7C0x SmartSwitch Hub View
The spmarun script invoked first in the above command temporarily sets the environment
NOTES
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.
If there is a hostname mapped to your 7C0x SmartSwitch’s IP address, you can use
<hostname> in place of <IP address> to launch the Hub View. 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, you can click mouse buttons in different areas of the
window to access various menus and initiate certain management tasks. The
following sections describe the information displayed in the Hub View and show
you how to use the mouse to manipulate the Hub View display.
Front Panel
Device summary information
Figure 2-1. 7C0x SmartSwitch Hub View
2-2
Using the Hub View
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Using the 7C0x SmartSwitch Hub View
Hub View Front Panel
In addition to the graphical display of the modules installed in your 7C0x
SmartSwitch chassis, the Hub View gives you device level summary information.
The following Front Panel information appears to the right of the module display:
Contact Status is a color code that shows the status of the connection between
SPMA and the device:
•
•
Green means a valid connection.
Blue means that SPMAis trying to reach the device but doesn’t yet know if the
connection will be successful.
•
Red means that SPMA is unable to contact or has lost contact with the device.
Uptime
The time that the device has been running without interruption. The counter
resets to 00:00:00 (HH:MM:SS) when one of the following occurs:
•
•
Power to the device is cycled.
The device is reset manually.
Device Name
A text field that you can use to help identify the device; you can assign a device
name via the MIB I, II application (described in the SPMA Tools Guide). To view a
name which is longer than the field, click to place your cursor in the text box, and
use the arrow keys to shift the display.
Device Location
A text field that you can use to help identify the device; you can assign a device
location via the MIB I, II application (described in the SPMA Tools Guide). To
view a location which is longer than the field, click to place your cursor in the text
box, and use the arrow keys to shift the display.
Although you can erase the current name and location and enter new values in the text
fields, you cannot set these values from the Hub View. Any value you attempt to set will
remain in the text field only until the Hub View is closed; to permanently change the
name or location, you must do so via the MIB I, II application.
NOTE
IP Address
The device’s Internet Protocol address; this field will display the IP address you
have used to create the 7C0x SmartSwitch icon (if you are running the Hub View
from a management platform) or the IP address you used to launch the Hub View
program (if you are running in stand-alone mode). You cannot change the 7C0x
SmartSwitch’s IP address from SPMA.
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Figure 2-2. 7C0x SmartSwitch Hub View Device Menu
The Device menu lets you perform the following:
•
•
Open the Device Configuration window
Launch the Global Find MAC Address tool (described in the SPMA Tools
Guide)
•
Open the Polling Intervals window
Note that the Device menu provides access to only a few of the applications
which are available to the 7C0x SmartSwitch; additional applications are available
from the Module, Switch, Bridge, Interface, and Port menus, and many can also
be accessed both from the icon menu (if you are running under a network
management platform) and from the command line (if you are running in
stand-alone mode). See Chapter 1, Introduction to SPMA for the 7C0x
SmartSwitch, for a complete list of applications available to the 7C0x
SmartSwitch and how to access each one.
Clicking mouse button 1 on the Quit button closes all Hub View application
windows; any open applications which can also be accessed from the command
line or from the icon menu will remain open.
Using the Mouse in a Hub View Module
Each network interface module, or NIM, installed in the 7C0x SmartSwitch hub
will be displayed in the hub view; use the mouse as indicated in the illustration
below to access Module, Switch/Bridge/Interface, and Port menus and functions.
Note that slots 3 and 4 of the 7C04-R chassis can accept either the double-wide NIM
modules or the standard-size modules; both module types display as the same size in the
Hub View.
TIP
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Display Mode
Module Index
Indicates the Display Mode
currently in effect; available
modes are Switch or Bridge,
Interface, and None. Click either
mouse button to display the
Switch, Bridge, or Interface
menu; both the menu that
appears and the status displays
will vary based on the mode
selected.
Indicates the module’s slot
number within the 7C0x hub.
(Slots are numbered from left to
right; the controller module slot
is slot #1.) Click button 1 or
button 3 to display the Module
menu.
Module Type
Indicates the module’s type.
Click button 1 or button 3 to
display the Module menu.
Port Display Form
Using the Bridge, Switch,
Interface, or FDDI menus, you
can change the information
displayed in each port status
box; available options vary
according to menu.
Port Index
Click button 1 to toggle the
interface between enabled and
disabled; click button 3 to display
the Port menu (bridge display
mode only).
Port Status
The Port Status display
changes with the type of port
display format selected. Click
button 1 to toggle the interface
between enabled and disabled;
click button 3 to display the Port
menu (bridge display mode
only).
FDDI Front Panel Status
For FDDI modules only, a
separate Front Panel display
shows the status of the
individual A and B ports that
together form a single interface.
Click either button to access the
FDDI menu.
Figure 2-3. Mousing Around a Module Display
Monitoring Hub Performance
The information displayed in the Hub View can give you a quick summary of
device activity, status, and configuration. SPMA can also provide further details
about hub performance via its multi-level menu structure: first, you select the hub
view display mode for the services you want to monitor (Switch, Bridge, or
tools that let you monitor specific aspects of hub performance and set 7C0x
SmartSwitch operating and notification parameters.
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Menus always available:
Switch mode menu:
Bridge mode menus:
Interface mode menus:
Figure 2-4. The 7C0x SmartSwitch’s Device, Module, Switch, Bridge, Interface, FDDI, and Port Menus
Selecting the Application Display Mode
The device information, menus, and applications that are available to you via the
Hub View depend on the Application Display mode you have chosen. For the
7C0x, you can select from a total of four Application Display modes:
•
Switch, which displays switching status in the port displays, and provides
menu access to switch management applications; note that this option is only
available for devices configured to operate in switch mode.
•
Bridge, which displays bridging status in the port displays, and provides
menu access to bridge management; note that this option is only available for
devices configured to operate in bridge mode.
•
•
Interface, which displays each port’s MIB II status and statistics.
None, which removes all interface status information from the Hub View. This
selection primarily effects FDDI modules, whose front panelAand B ports will
continue to display their individual status; Ethernet, Fast Ethernet, and ATM
modules will display as blank under this mode.
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You select the Application Display mode you want via the Module menu
display mode is selected.
For switch-
configured
For bridge-
configured
devices
devices
Figure 2-5. The Hub View Module Menu
Note that, although the Module menu does not change based on the Application Display
mode selected, the ATM option will only appear when a 7A06-01 NIM is installed in the
TIP
By default, the 7C0x Hub View will launch in Switch display mode (for those
devices configured via Local Management to perform SecureFast switching) or
Bridge display mode (for those configured to perform traditional bridging); to
change this:
1. Click mouse button 1 or mouse button 3 in the Module Index or Module Type
Module menu.
2. Drag down to Application Display, then across to select the display mode
you want. Note that only three selections are available at any one time: either
Bridge or Switch (depending on the device’s current configuration),
Interface, and None.
When you change the application display mode, the port display form will
change to the default form for the chosen mode; you can change the port display
form and access various management applications via each mode’s menu
structure, as described in the following sections.
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COM Port and FDDI Front Panel Displays
Note that, like the Module menu, neither the COM port nor the FDDI front panel
displays are affected by changes in the Application Display. The COM port
display always shows each port’s administrative status (ON or OFF), both in the
text display and in the color code (green = ON, blue = OFF); the FDDI front panel
display changes based on the port display form selected via the FDDI menu, as
illustrated below.
Figure 2-6. COM Port and FDDI Front Panel Displays
Both the FDDI and COM port menus are available and display the same options
in all Application Display modes.
Note that, although the COM port menu does not change based on the Application
Display mode selected, the UPS option will only appear for COM ports which have been
TIP
FDDI Port Display Forms
You can display the following information in the front panel port displays for any
installed FDDI NIM:
Admin
Displays the connection state of each port:
•
CON (connecting) — the port is trying to establish a link, but has not yet been
successful. Ports which are not connected and which have not been disabled
by management will display this status.
•
•
ACT (active) — the port has been enabled by management and has
successfully established a link.
SBY (standby) — the port has a physical link, but the SMT Connection Policy
is prohibiting a logical connection to the ring because the attempted
connection is illegal. FDDI protocol always forbids connecting two Master
ports; all other connections are theoretically legal, although some are not
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desirable. You can view and configure the SMT Connection Policy by selecting
the SMT Connection Policy option on the Module —>FDDI Utilities menu;
see Chapter 4, FDDI Management, for more information.
•
DIS (disabled) — the port has been disabled by management; note that this
status does not indicate whether or not there is a physical link connected to the
port.
Port Type
Displays the media type of each A and B port:
•
•
•
•
•
MMF (multi-mode fiber)
SMF (single-mode fiber)
SON (SONET)
LCF (low-cost fiber)
TP (twisted pair)
LER Estimate
The Link Error Rate (LER) Estimate port display form displays a cumulative
long-term average of the bit error rate, which represents the quality of the
physical link. It is computed when the port is connected and every 10 seconds
-4
-15
thereafter. The value of the LER Estimate can range from 10 to 10 , but is
always displayed as the absolute value of the exponent: for example, if the port’s
-5
LER Estimate is computed to be 10 , the value displayed in the Port Status box
will be 5, which represents an actual rate of 1,250 bit errors per second. The lower
LER Estimate numbers represent the highest bit error rates, as summarized in the
figure below:
.000000125
.00000125
.0000125
.000125
.00125
Bit Errors
.0125
per
.125
1.25
Second
12.5
125
1250
12500
4
5
6
7
8
9
10 11 12 13 14 15
Reported LER Estimate
Figure 2-7. LER Estimate Values
You can configure alarm thresholds for the LER Estimate; see Chapter 4, FDDI
Management, for more information.
TIP
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SMT Index
Displays each port’s logical index number, which reflects the port’s logical
position in relation to the SMT entity to which it is assigned. (Each FDDI interface
has its own SMT entity; these are indexed from left to right in the hub, and from
top to bottom on each module.) Note that the assigned logical index numbers do
not necessarily reflect each port’s physical position on the module or in the hub;
for example, an interface whose physical index is 20002 might have individual A
and B logical indices of 1.1 and 1.2, indicating that the A and B ports which
together form the interface are ports number 1 and 2 assigned to SMT number 1.
For more information on all of these FDDI states, see Chapter 4, FDDI Management.
TIP
FDDI Color Codes
For all FDDI port display forms, the color coding is the same:
•
Green indicates that the port is active; this is, the port has been enabled by
management, has a valid Link signal, 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 through management, or that it
is in a standby state.
Yellow indicates that the port is enabled but does not currently have a valid
connection. This usually indicates that the device at the other end of the
segment is turned off, or that no cable segment is attached.
•
Red indicates that port is administratively enabled, but not operational due to
some hardware or network problem.
The Switch Application Display
The Switch Application Display — available only for devices which have been
configured (via Local Management) to operate as SecureFast switches — allows
you to view each switch interface according to switching status and statistics; it
a Switch Status window and change the port display form. This is the default
display mode for devices configured for SecureFast operation.
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Figure 2-8. The Switch Application Display and Menu
For more information about the Switch Status window, see Viewing Switch
Switch Port Display Forms
You can select three port display forms for switch interfaces; note that, although
you can select both Input and Output state for each interface, it is unlikely that
any single interface would have different input and output status values at any
given time.
Admin State
An interface’s Administrative State is the state currently requested by
management; note that this may not always be the same as the actual, or
Operational, state described below:
•
•
ENB (enabled) — the port is administratively enabled.
DIS (disabled) — the port is administratively disabled.
Oper State
An interface’s Operational State is its actual state; note that this may not always be
the same as the requested, or Admin, state described above:
•
•
•
ENB (enabled) — the port is enabled.
DIS (disabled) — the port is disabled.
PDIS (pending disable) — the port is in a transitional state, moving toward a
state of disabled.
•
PENB (pending enable) — the port is in a transitional state, moving toward a
state of enabled.
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•
•
INV (invalid configuration) — the port is in an unrecognized state.
TST (testing) — the port is in a testing mode.
Type
A switch interface’s Type is a dynamic value determined by the type of node to
which the interface is connected:
•
•
Ntwk (network) — a Network interface is connected to another switch.
Access — an Access interface is connected to an end node (a single user, a
shared resources such as a server or print, or a non-switch shared access
interface such as a bridge).
•
Hybrid — though this feature is not yet supported, future firmware versions
will allow a switch interface to service both another switch and an end node.
This kind of configuration could occur, for example, on an FDDI ring.
•
•
GoAcc (going to access) — a transitional state experienced by an interface
which is in the process of switching to access mode.
Unkn (unknown) — on boot-up, all switch interfaces have a type value of
unknown; this value will convert dynamically as required by the connected
node.
Switch Port Color Codes
The color codes assigned to each port interface in Switch Application mode
indicate the following status conditions:
•
Red — the port is administratively enabled, but not operational. This state
generally indicates that a network problem has shut down the port, even
though it is still administratively enabled; it can also indicate an invalid port
configuration.
•
•
•
Blue — the port is both administratively and operationally disabled.
Green — the port is administratively enabled and operational.
Yellow — the port is in a transitional state: an operational status of either
enable or disable is pending, or the port has been administratively disabled,
but is (temporarily) still operational.
•
Magenta — the port is in a transitional testing mode.
Note that the color coding scheme is the same regardless of the port display form
selected.
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The Bridge Application Display
The Bridge Application Display — available only for devices which have been
configured (via Local Management) to operate as traditional bridges — allows
you to view each bridge interface according to bridging status and statistics; it
you can launch the Bridge View application, change the port display form, view a
list of source addresses communicating through a selected interface, and enable
or disable a selected interface. This is the default display mode for devices
configured for traditional bridging.
Figure 2-9. The Bridge Application Display and Menus
For more information about the Bridge View application, see Chapter 6, Using the
7C0x Bridge View; for more information about viewing source addresses, see
enabling and disabling a bridge interface, see Enabling and Disabling Bridge
Bridge Port Display Forms
You can display the following information for each bridging interface:
Admin
Displays the port’s current bridging status:
•
FWD (forwarding) — the port is on-line and ready to forward packets from
one network segment to another. Note that this is the default display for ports
which are administratively enabled but not connected.
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•
•
•
•
•
DIS (disabled) — the port has been disabled by management; no traffic can be
received or forwarded on this port, including configuration information for
the bridged topology.
LIS (listening) — the port is not adding information to the filtering database;
it is monitoring Bridge Protocol Data Unit (BPDU) traffic while preparing to
move to the forwarding state.
LRN (learning) — the filtering database is being created, or the Spanning Tree
Algorithm is being executed because of a network topology change. The port
is monitoring network traffic, learning network addresses.
BLK (blocking) — the port is on-line, but filtering traffic from going across the
7C0x SmartSwitch from one network segment to another. Bridge topology
information is still being forwarded.
BRK (broken) — the physical interface has malfunctioned.
Tp Frames Forwarded
Displays the percentage of total frames received that were transparently
forwarded across the selected interface.
Tp Frames Filtered
Displays the percentage of total frames received that were filtered at the selected
interface.
Sr Frames Forwarded
Displays the rate at which source route frames are being forwarded across the
selected interface, in a frames/second format. Note that this option is currently
grayed out, as no Token Ring NIMs are yet available.
Bridge Port Number
Displays the index number assigned to each bridge port interface. Bridge ports
are indexed from left to right by module, beginning with the module installed in
slot 2; on each module, bridge port numbering follows the physical port indexing.
bridge interfaces: the two interfaces on the FDDI module installed in slot 2 are
bridge port numbers 1 and 2 (corresponding to physical ports 1 and 2); the six
interfaces on the Fast Ethernet module installed in slot 3 are bridge ports 3
through 8 (corresponding to physical ports 1 through 6).
You will note that some Ethernet modules display an upside-down port indexing, with the
highest index numbers at the top of the module, and the lowest ones at the bottom; for
these modules, the bridge port numbers will still follow the physical port indexing, with
the higher bridge port numbers corresponding to the higher physical port indices.
NOTE
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Bridge Port Color Codes
The color codes assigned to each port interface in Bridge Application mode
indicate the following bridging status conditions; note that the color coding is the
same for all port display forms:
•
Green — the port is in a Forwarding state; that is, it is on-line and ready to
forward packets from one network segment to another. Note that this is the
default display for ports which are administratively enabled but not
connected.
•
Blue — the port has been disabled by management; no traffic can be received
or forwarded on this port, including configuration information for the bridged
topology.
•
•
Magenta — the port is in a Listening or Learning state.
Orange — the port is on-line, but filtering (blocking) traffic from going across
the 7C0x SmartSwitch from one network segment to another. Bridge topology
information is still being forwarded.
•
Red — the physical interface has malfunctioned (the port is broken).
The Interface Application Display
The Interface Application Display mode allows you to view the interfaces on all
installed modules according to MIB II status and statistics; it also provides access
launch the MIB I, II application, view the interface list, configure alarms, perform
any available port configuration, and, of course, change the port display form.
Figure 2-10. The Interface Application Display and Menus
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For more information about the MIB I, II application, see the SPMA Tools Guide;
for more information about the interface list, see Viewing the Interface List,
Configuration; and for more information about available port configuration
below.
Interface Port Display Forms
You can display the following information for each available interface:
Oper Status
An interface’s Operational Status is its actual state; note that this may not always
be the same as the requested, or administrative state:
•
•
•
ON — the port is administratively enabled, a link is present, and the port is
functioning normally.
NLK (no link) — the port is administratively enabled, but no link is present.
This typically indicates that no cable is currently connected to the interface.
OFF — the port is not operational; this may be because it has been
administratively disabled, it has malfunctioned in some way, or it is
attempting to move into a testing state. Note that the color code (described in
which of these three conditions has caused the OFF state.
•
TEST — the port is being tested.
Link Status
A port’s Link Status tells you whether or not the port has a valid connection to the
node at the other end of the cable segment. Note that this status does not provide
any indication of administrative (ON or OFF) or operational status.
•
•
NLK (no link) — no link is present.
LNK — a link is present.
Duplex Mode
The Duplex Mode status indicates which interfaces have been configured to
operate in Full Duplex mode, and which are operating in standard mode.
Interfaces which are operating in full duplex mode can both transmit and receive
packets at the same time, effectively doubling the wire speed; interfaces in
standard mode must finish transmitting before they can receive, and vice versa.
•
•
Stand — the interface is operating in standard mode.
Full — the interface is operating in full duplex mode.
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Capability
The Capability display indicates the highest duplex mode of which the interface is
capable. Note that this display does not indicate the current Duplex Mode setting.
•
•
Full — the interface can be configured to operate in Full Duplex mode.
Fast — the interface is a Fast Ethernet port, and can be configured to operate
in Full Duplex mode. Note that, for a Fast Ethernet port, Full Duplex operation
doubles wire speed from 100 Mbps to 200.
•
Stand — the interface can operate only in standard mode.
Type
The Type display indicates each interface’s topology type:
•
•
•
Eth — Ethernet or Fast Ethernet
FDDI
ATM
Speed
This display indicates the defined wire speed for each interface’s topology. Note
that this speed value does not indicate whether or not a selected port is operating
in Full Duplex mode (which effectively doubles the defined wire speed). Possible
values are:
•
•
10M — 10 megabits per second, for standard Ethernet
100M — 100 megabits per second, for Fast Ethernet, FDDI, and ATM
Interface Number
Displays the index number assigned to each interface. Index numbers are
assigned in an XXXXYY format, where X = slot index times 10,000, and Y = port
index. For example, an interface index of 30017 would be assigned to port 17 on
the module installed in slot 3 of the chassis.
MIB II Statistics
You can use the MIB II Statistics options to view selected statistics for each port as
a percentage of the total traffic seen on that interface.
•
Load — shows a value for each active port that represents that port’s traffic as
a percentage of the theoretical maximum load. You can view the load in three
ways:
-
-
-
In — indicates the number of inbound packets as percentage of the
theoretical maximum load.
Out — indicates the number of outbound packets as a percentage of the
theoretical maximum load.
Total — indicates the total number of inbound and outbound packets as a
percentage of the theoretical maximum load.
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For Ethernet ports, the theoretical maximum load is 10 Mbps; for Fast Ethernet,
FDDI, and ATM, it’s 100 Mbps.
•
•
•
Discard — shows a value for each active port that indicates what percentage
of the total packets received at or transmitted by that port were discarded. You
can view the discard percentage in three ways:
-
-
-
In — indicates the number of inbound packets that were discarded, as a
percentage of the total load experienced by that port.
Out — indicates the number of outbound packets that were discarded, as
a percentage of the total load experienced by that port.
Total — indicate the total number of packets that were discarded, as a
percentage of total load.
Errors — shows a value for each active port that indicates what percentage of
the total packets received at or transmitted by that port contained an error. You
can view the error percentage in three ways:
-
-
-
In — indicates the number of inbound packets that contained errors, as a
percentage of the total load experienced by that port.
Out — indicates the number of outbound packets that contained errors, as
a percentage of the total load experienced by that port.
Total — indicate the total number of packets that contained errors, as a
percentage of total load.
Nucast (non-unicast) — shows a value for each active port that indicates what
percentage of the total packets received at or transmitted by that port were
non-unicast (that is, broadcast or multicast) packets. You can view the
non-unicast percentage in three ways:
-
-
-
In — indicates the number of inbound packets that were broadcast or
multicast packets, as a percentage of the total load experienced by that
port.
Out — indicates the number of outbound packets that were broadcast or
multicast packets, as a percentage of the total load experienced by that
port.
Total — indicate the total number of broadcast and multicast packets, as a
percentage of total load.
Ethernet Statistics
For any Ethernet or Fast Ethernet modules installed in your SmartSwitch chassis,
you can view a variety of RMON statistics as a percentage of the total load
experienced by each port. Note that this option will only be available when at
least one Ethernet or Fast Ethernet module is installed in the chassis; when one of
these options is selected, the port displays for any installed FDDI or ATM
modules will display three dashes (---). Ethernet statistical selections available
are:
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•
•
Load — shows a value for each active port that represents that port’s traffic as
a percentage of the theoretical maximum load: either 10 Mbps (for Ethernet),
or 100 Mbps (for Fast Ethernet).
Packets — displays the number of good packets experienced by each interface
in one of four ways:
-
-
Packets/second — the rate of traffic being experienced by the port
Average Packet Size — displayed in bytes; calculated by dividing the total
number of octets by the total number of good packets
-
-
Broadcast — the percentage of good packets on each port that are
broadcast packets
Multicast — the percentage of good packets on each port that are
multicast packets
•
•
Collisions — displays the total number of receive (those the device detects
while receiving a transmission) and transmit (those the device detects while
transmitting) collisions, as a percentage of the total traffic experienced by the
port.
Errors — displays the total number of packets with a specific error type, as a
percentage of the total number of errors experienced by the port. Available
error types are:
-
CRC/Alignment — the number of packets processed by a port that had a
non-integral number of bytes (alignment errors) or a bad frame check
sequence (Cyclic Redundancy Check, or CRC error), expressed as a
percentage of the total number of error packets experienced by the port.
-
Fragments — the number of packets processed by a port that were
undersized (less than 64 bytes in length; a runt packet) and had either a
non-integral number of bytes (alignment error) or a bad frame check
sequence (CRC error), expressed as a percentage of the total number of
error packets experienced by the port.
-
Jabbers — the number of packets processed by a port that were oversized
(greater than 1518 bytes; a giant packet) and had either a non-integral
number of bytes (alignment error) or a bad frame check sequence (CRC
error), expressed as a percentage of the total number of error packets
experienced by the port.
•
Frame Sizes — displays the total number of packets processed by a port that
were of a specific size, expressed as a percentage of the total number of good
packets experienced by the port. Frame size breakdowns available are:
-
-
-
-
-
Runts (packets with fewer than 64 bytes)
64
65-127
128-255
256-511
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-
-
-
512-1023
1024-1518
Giants (packets with more than 1518 bytes)
Note that, for all statistical port display form options (both MIB II and Ethernet), three
dashes (---) will display for all inactive ports; any active (green) port will display a
numeric value, even if it’s zero. In addition, any FDDI or ATM interface will display
three dashes for any Ethernet statistical display selection.
NOTE
Interface Port Color Codes
The color codes assigned to each port interface in the Interface Application
Display mode indicate a combination of administrative (desired) and operational
(actual) status; note that the color coding is the same for all port display forms:
•
•
•
Green — the port is administratively enabled, linked, and operating normally.
Yellow — the port is administratively enabled, but no link is present.
Red — the port is administratively enabled, but not operational; this generally
indicates some kind of malfunction.
•
•
Blue — the port is administratively disabled, and is not operational. Note that
this state does not indicate link status.
Magenta — indicates either that a testing mode has been requested but is not
yet in effect, or that testing is taking place.
Viewing Device Configuration
If you need to call Cabletron’s Technical Support about a problem with the Hub
View application or your 7C0x SmartSwitch hardware, you’ll need the
information provided in the Device Configuration window. To launch the
window:
1. Click on
to display the Device menu; note that this menu is the
same regardless of the Application Display mode currently in effect.
2. Drag down to Configuration, and release. The Device Configuration window,
Figure 2-11, will appear.
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7C0x SmartSwitch firmware
version
SPMA for the 7C0x SmartSwitch
revision number
Firmware boot prom version
Figure 2-11. Device Configuration Window
The Device Configuration window provides the following hardware and software
revision information:
Firmware Version
Displays version information for the firmware currently installed on your 7X00
controller module. To view a truncated description, click to place your cursor in
the text field, then use the arrow keys to shift the display.
Although the text field allows you to edit and/or delete the displayed firmware description,
you cannot set any changes you make. The information appears in a text field only so that
it will be scrollable, allowing you to view the complete description.
NOTE
Software Version
Displays the version of the SPMA Hub View application for the 7C0x
SmartSwitch.
Boot Version
Displays the revision level of the 7X00 controller module’s boot prom.
Top Level Serial Number
Displays the serial number assigned to the 7X00 controller module. This serial
number contains information about the date and location of manufacture, and the
hardware revision level.
Base MAC Address
Displays the MAC address of the 7X00 controller module’s Host interface — the
interface that connects to the 7C0x hub’s switching backplane.
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Viewing the Interface List
You can use the Interface List application to view a complete list of MAC
Addresses assigned to the interfaces installed in your 7C0x SmartSwitch chassis.
To open the Interface List:
1. If necessary, put the Hub View into the Interface Application Display mode
(click either mouse button on the Module Index or Module Type box to display
the Module menu, drag down to Application Display, then across to select
Interface).
2. Click either mouse button on the Display Mode box in the Hub View to launch
the Interface menu; drag down to Interface List, and release. The Interface
Figure 2-12. Interface List Window
The Interface List window displays an IF # for each interface and the MAC
Address (physical address) associated with each interface. The first two interfaces
are the 7X00 controller module’s interfaces to the 7C0x chassis switching
backplane; note that they share a MAC address. The remaining index numbers are
assigned in an XXXXYY format, where X = slot index times 10,000, and Y = port
index. For example, an interface index of 30017 would be assigned to port 17 on
the module installed in slot 3 of the chassis.
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The interface and MAC address information displayed here is taken directly from
the MIB II Interface Table; you can view both the MAC address and the IF index
via the Interface Protocol Status window available in the MIB I, II tool. For more
information on the MIB I, II tool and the Interface Protocol Status window, refer to
Chapter 2 in the SPMA Tools Guide.
Viewing Switch Status
For devices which have been configured to operate as SecureFast switches, you
information about current switching operations.
To launch the Switch Status window:
1. If necessary, put the Hub View into the Switch Application Display mode (click
either mouse button on the Module Index or Module Type box to display the
Module menu, drag down to Application Display, then across to select
Switch).
2. Click either mouse button on the Display Mode box in the Hub View to launch
the Switch menu; drag down to Status, and release. The Switch Status
Figure 2-13. Switch Status Window
The Switch Status window provides the following general information about
your SmartSwitch’s SecureFast switch operation:
Sfs Admin Status
Displays the requested administrative status of the 7C0x’s SecureFast switching
services: Enabled or Disabled. Note that this may not always match the actual, or
operating status, described below.
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Sfs Operating Status
Displays the actual operational status of the 7C0x’s SecureFast switching services:
Enabled, Disabled, Pending Enable (start-up in progress), Pending Disable
(shut-down in progress), or Invalid Configuration. Note that the actual
operational status may not always match the requested administrative status
described above.
For more information about administrative and operational states as they apply to
TIP
Max Connections
Displays the maximum number entries allowed in the Connection Table. Up to
16000 entries can be stored in the SmartSwitch’s Connection Table.
Num Connections
Displays the number of entries currently stored in the Connection Table.
Viewing the Source Address List
For devices which have been configured to operate in traditional bridging mode,
you can use the Source Addresses option available from the Bridge Port menu to
view a list of all the MAC addresses that are communicating through a selected
bridge interface.
To open the Source Addresses window:
1. If necessary, put the Hub View into the Bridge Application Display mode (click
either mouse button on the Module Index or Module Type box to display the
Module menu, drag down to Application Display, then across to select
Bridge).
2. Click mouse button 3 on the Port Index or Port Status display for the bridge
port whose source address list you wish to view; drag down to Source
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Figure 2-14. The Bridge Port Source Address Window
The bridge port Source Address window displays the MAC address of each
device that has transmitted packets that have been forwarded through the
selected bridging interface during the last cycle of the Filtering Database’s defined
ageing timer (learned addresses that have not transmitted a packet during one
complete cycle of the ageing timer are purged from the Source Address Table). For
more information on the Filtering Database, see in Chapter 6, Using the 7C0x
SmartSwitch Bridge View.
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 include setting
polling intervals; launching a variety of SPMA Tool applications (including FDDI
management applications, and the Bridge View application); performing all
available port configuration for Ethernet, FDDI, Fast Ethernet, and COM ports;
and enabling and disabling bridge ports.
Launching SPMA Tools from the Hub View
The 7C0x SmartSwitch Hub View provides access to most of the SPMA Tool
applications available for your SmartSwitch. These tool applications are also
available from the icon menu and the command line; they are described in detail
in the SPMA Tools Guide.
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Module Utilities
Most of the available SPMA Tools can be launched from the Module —> Module
Utilities menu. (Remember, the Module menu is available in any Application
Display mode.) To launch a utility from this menu:
1. Click either mouse button on the Module Index or Module Type box in the Hub
View to display the Module menu.
2. Drag down to Module Utilities, then across to select the tool you want to
launch:
a. Community Names (described in Chapter 3 of the SPMA Tools Guide)
b. TFTP Download (described in Chapter 5 of the SPMA Tools Guide)
c. Trap Table (described in Chapter 6 of the SPMA Tools Guide)
d. Path Tool (described in Chapter 10 of the SPMA Tools Guide)
One tool available for the 7C0x SmartSwitch but not accessible from within the Hub View
is the Telnet application; this application provides remote access to Local Management,
from which you can perform many basic configuration options — including selecting
either SecureFast switching or traditional bridging.
TIP
For more information about the Telnet application, see Chapter 4 of the SPMA Tools
Guide; for more information about Local Management and the configuration options
available there, consult the Local Management documentation shipped with your device.
MIB I, II
The MIB I, II tool — which gives you direct access to the MIB II information stored
in your 7C0x’s MIB — is also available from within the Hub View. To launch it:
1. If necessary, put the Hub View into the Interface Application Display mode
(click either mouse button on the Module Index or Module Type box to display
the Module menu, drag down to Application Display, then across to select
Interface).
2. Click either mouse button on the Display Mode box in the Hub View to launch
the Interface menu; drag down to MIB II, and release.
The MIB I, II tool is described in detail in Chapter 2 of the SPMA Tools Guide.
Find MAC Address
The newest member of the family of SPMA Tool applications, the Global Find
MAC Address tool gives you the ability to locate the hub interface through which
a specific MAC address is communicating. If you are running SPMA from within
a network management platform (HP Network Node Manager, IBM NetView, or
SunNet Manager), launching this tool from the platform’s Console window Tools
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menu allows you to search for a specified MAC address on multiple devices
simultaneously; however, if you launch this tool from the Hub View or from the
command line, only the hub against which you launch the tool will be searched.
To launch the Global Find MAC Address tool from the Hub View:
1. Click on
to display the Device menu; note that this menu is the
same regardless of the Application Display mode currently in effect.
2. Drag down to Find MAC Address, and release.
The Global Find MAC Address tool is described in detail in Chapter 12 of the
SPMA Tools Guide.
UPS
If either of the COM Ports on the 7X00 controller module has been configured for
include a selection that allows you to launch the UPS configuration tool.
To do so:
1. Click either mouse button in the Port Status or Port Index box for the COM
port you wish to configure; the COM port menu will be displayed. (Remember,
the COM port menus are available in all Application Display modes.)
2. Drag down to UPS, and release.
If the COM port menu does not include the UPS selection, that COM port has not
for more information.
The UPS configuration tool is described in detail in Chapter 8 of the SPMA Tools
Guide.
Accessing FDDI Management
If you have any FDDI modules installed in your 7C0x SmartSwitch chassis, the
Module —> FDDI Utilities menu provides access to five applications that allow
you to monitor and manage your FDDI interfaces.
To access FDDI management applications:
1. Click either mouse button on the Module Index or Module Type box in the Hub
View to display the Module menu. (Remember, the Module menu is available
in all Application Display modes.)
2. Drag down to FDDI Utilities, then across to select the FDDI management tool
you need:
a. Port Configuration
b. Alarm Configuration
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c. SMT/MAC Configuration
d. SMT Connection Policy
e. Station List
All of these applications are described in detail in Chapter 4, FDDI Management.
Accessing ATM Management
For 7C0x SmartSwitches which have a 7A06-01 NIM installed, the Module menu
will provide access to the ATM configuration application.
To launch this application:
1. Click either mouse button on the Module Index or Module Type box in the Hub
View to display the Module menu. (Remember, the Module menu is available
in all Application Display modes.)
2. Drag down to ATM, and release.
The ATM Configuration application is described in detail in Chapter 5, ATM
Configuration.
Accessing Bridge Management
For 7C0x SmartSwitches which are configured to operate as traditional bridges,
you can use the Bridge menu to launch the Bridge View application. To do so:
1. If necessary, put the Hub View into the Bridge Application Display mode (click
either mouse button on the Module Index or Module Type box to display the
Module menu, drag down to Application Display, then across to select
Bridge).
2. Click either mouse button on the Display Mode box in the Hub View to launch
the Bridge menu; drag down to Bridge Mgmt, and release.
The Bridge View application is described in detail in Chapter 6, Using the 7C0x
SmartSwitch Bridge View.
Setting the Polling Intervals
To set the polling intervals used by SPMA and the 7C0x SmartSwitch:
1. Click on to display the Device menu.
2. Drag down to Polling Intervals, and release.
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Figure 2-15. 7C0x SmartSwitch Polling Intervals
3. To activate the desired polling, click mouse button 1 on the selection box to
the right of each polling type field.
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 on
, 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 SmartSwitch you are managing, use mouse button 1
to select the Save As Defaults option.
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 intervals for the following:
Contact Status
This polling interval controls how often the 7C0x SmartSwitch is “pinged” to
check SPMA’s ability to maintain a connection with the device.
Device General Status
This polling interval controls how often the Hub View Front Panel Information —
such as Uptime, Device Name, and so forth — and some module and port status
information is updated.
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Device Configuration
This polling interval controls how often a survey is conducted of the type of
equipment installed in the 7C0x SmartSwitch hub; information from this poll
would change the Hub View to reflect the addition and/or removal of a NIM or
NIMs.
Port Operational State
This polling interval controls the update of the information displayed in the Port
Status boxes for each port in the hub. Port state information varies according to
the Port Display Form which is currently selected.
Statistics
This polling interval controls how often the information displayed in the Port
Status boxes is updated when the Port Display Form is set to a rate or percentage.
SPMA generates network traffic when it retrieves the above-described information; 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
Port Configuration
The Port Configuration options available for FDDI, Ethernet, Fast Ethernet, and
COM ports allow you to configure operating parameters specific to each port
type: for FDDI and standard Ethernet ports, you can set the Duplex Mode; for
Fast Ethernet ports, you can set a variety of duplex mode and negotiation
parameters; and for COM ports, you can select the operation you wish the port to
perform, and set any associated speed parameters. FDDI, Ethernet, and Fast
Ethernet Port Configuration windows are available from the Interface Application
Display Port menus; the COM Port menu is available in all Application Display
modes.
Configuring Ethernet and FDDI Ports
The Port Configuration window available for both Ethernet and FDDI ports
allows you to set an interface to either Standard or Full Duplex Mode. Full Duplex
mode effectively doubles the available wire speed by allowing the interface to
both receive and transmit simultaneously. This window will also display the
mode currently in effect on the selected interface.
To access the Port Configuration Window:
1. If necessary, put the Hub View into the Interface Application Display mode
(click either mouse button on the Module Index or Module Type box to display
the Module menu, drag down to Application Display, then across to select
Interface).
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2. Click mouse button 3 on the Port Status box for the Ethernet or FDDI interface
whose mode you wish to change.
3. Drag down to Configuration, and release. The Port Configuration window,
Figure 2-16, will appear.
Figure 2-16. Port Configuration
Note that, if you select the Configuration option available for a Fast Ethernet interface, an
entirely different window will appear; see Configuring Fast Ethernet Ports, below, for
information on configuring these ports.
TIP
Use the options in this window to select the desired mode:
Standard Mode
In Standard Mode, an interface can only either transmit or receive at any given
time, and must wait for one activity to be completed before switching to the next
activity (receive or transmit). In this mode, standard wire speeds (10 Mbps for
Ethernet, 100 Mbps for FDDI) are available.
Full Duplex
In Full Duplex Mode, an interface can both receive and transmit packets at the
same time, effectively doubling the available wire speed to 20 Mbps (for Ethernet)
or 200 Mbps (for FDDI).
Be sure to click on
to set your changes.
Note that the interface’s current mode can be determined by the field selected in
the window; you can also use the Duplex Mode port display form to display the
current mode for all installed interfaces. See Interface Port Display Forms,
page 2-16, for details.
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Configuring Fast Ethernet Ports
If you have any Fast Ethernet NIMs installed in your 7C0x SmartSwitch chassis,
the Port Configuration window available for those ports allows you to both view
and set that port’s available modes. All 100Base-TX Fast Ethernet ports can be
configured to operate in either standard Ethernet (10 Mbps) or Fast Ethernet (100
Mbps) mode, and in each mode can be configured to operate in Full Duplex,
effectively doubling the available wire speed (from 10 to 20 Mbps in standard
Ethernet mode, or from 100 to 200 Mbps in Fast Ethernet mode); 100Base-FX
(fiber) ports can be configured to operate in their standard 100 Mbps mode, or in
full duplex mode. This window also displays the mode currently in effect on the
selected interface, and provides some information (where it is available) about the
interface’s link partner.
To access the Port Configuration Window:
1. If necessary, put the Hub View into the Interface Application Display mode
(click either mouse button on the Module Index or Module Type box to display
the Module menu, drag down to Application Display, then across to select
Interface).
2. Click mouse button 3 on the Port Status box for the Fast Ethernet interface
whose mode you wish to change.
3. Drag down to Configuration, and release. The Fast Ethernet Port
Figure 2-17. Fast Ethernet Configuration
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The Advertised Abilities functionality is not supported by the FE-100FX Fast Ethernet
port module; if you launch the Configuration window for one of these modules, the
Advertised Abilities section of the window will display No Support, and the Remote
Capabilities section will display Unknown. If you launch the window for a port module
slot which has no FE module installed, all fields will display either Unknown or No
Support.
NOTE
Note that, if you select the Configuration option available for a standard Ethernet or
FDDI interface, an entirely different window will appear; see Configuring Ethernet and
TIP
From this window you can manually set the operational mode of the port, or —
for 100Base-TX interfaces — set the port to auto negotiation so that the
appropriate operational mode can be determined automatically. The mode you
set will determine the speed of the port and whether it uses Full Duplex or
Standard Mode bridging.
The following information about the selected Fast Ethernet port is displayed:
Port Type
Displays the port’s type: 100Base-TX RJ-45 (for built-in Fast Ethernet ports and
the FE-100TX Fast Ethernet port module), 100Base-FX MMF SC Connector (for the
FE-100-FX Fast Ethernet port module), or Unknown (for a port slot with no
module installed).
Link State
Displays the current connection status of the selected port: Linked or Not Linked.
Current Operational Mode
Indicates which of the available operational modes is currently in effect: 10Base-T,
10Base-T Full Duplex, 100Base-TX, 100Base-TX Full Duplex, 100Base-FX, or
100Base-FX Full Duplex. If the port is still initializing, not linked, or if there is no
port module installed in the slot, this field will display Unknown.
Desired Operational Mode
Displays the operational mode that you have selected for this port, and allows
you to change that selection. The following operational modes are available for
each port:
100Base-TX
Auto Negotiation, 10Base-T, 10BASE-T Full Duplex,
100Base-TX, and 100Base-TX Full Duplex.
100Base-FX
100Base-FX and 100Base-FX Full Duplex
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If you choose to select a specific mode of operation (rather than auto-negotiation), you
should be sure that the link partner supports the same mode. Otherwise, no link will be
achieved.
!
CAUTION
If you select a Full Duplex mode and the link partner supports the same wire speed but not
Full Duplex, a link will be achieved, but it will be unstable and will behave erratically.
If you select Auto-Negotiation, the local node will try to match the mode of the link
partner, even if the link partner is not set to auto-negotiate, and even if the local node
must use a mode which is it is not currently advertising.
Note that if Auto Negotiation is the selected mode, the Current Operational
Mode field will indicate which mode was selected by the link partners.
Advertised Abilities
For 100Base-TX ports which have been configured to operate in Auto Negotiation
mode, this field allows you to select which of the operational modes available to
the port can be selected by the negotiating link partners. During Auto
Negotiation, each of the link partners will advertise all selected modes in
descending bandwidth order: 100Base-TX Full Duplex, 100Base-TX, 10Base-T Full
Duplex, and 10Base-T. Of the selected abilities, the highest mode mutually
available will automatically be used. If there is no mode mutually advertised, no
link will be achieved.
If you have selected a specific operational mode for your 100Base-TX port, the
Advertised Abilities do not apply; the selected Advertised Abilities also do not
restrict the local node’s ability to set up a link with a partner who is not currently
Auto-Negotiating.
Auto-Negotiation is not currently supported for 100Base-FX ports; for these ports, the
Advertised Abilities section will display No Support.
NOTE
Remote Capabilities
When the local node is set to Auto-Negotiation, this field will display the
advertised abilities of the remote link — even if the remote link is not currently set
to auto-negotiate. Possible values for this field are:
•
•
•
•
100Base-TX Full Duplex
100Base-TX
10Base-T Full Duplex
10Base-T
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•
•
Link Partner does not support auto negotiation — auto negotiation is either
not supported by or is not currently selected on the remote port.
Unknown — the link partner’s capabilities could not be determined.
When the local node is not set to Auto-Negotiation, this field will remain blank,
even if the link partner is set to Auto-Negotiation and is advertising abilities.
If both link partners are set to Auto-Negotiation, but there is no mutually-advertised
operational mode, no link will be achieved, and both nodes may display the message “Link
Partner does not support Auto-Negotiation.” To resolve this situation, be sure both link
partners advertise all their abilities, or be sure they advertise at least one
mutually-available mode.
NOTE
Setting the Desired Operational Mode
For any 100Base-TX port, you can specifically choose any one of the four available
operational modes, or you can select Auto-Negotiation mode, which allows the
port to negotiate with its link partner to find the highest mutually available
bandwidth. If you select Auto Negotiation mode, you must also choose which of
the port’s bandwidth capabilities you wish to advertise to the link partner.
If you select Auto-Negotiation at both ends of a link, be sure at least one
mutually-advertised operational mode is available.
TIP
For a 100Base-FX port, the selection process is somewhat simpler; Auto
Negotiation for these ports is not supported at this time, so you need only choose
between 100Base-FX standard mode and 100Base-FX Full Duplex. However, you
must still be sure that both link partners are set to the same operational mode, or
the link will be unstable.
To set your desired operational mode:
1. Click in the Desired Operational Mode field to display the menu of available
options; drag down to select the operational mode you wish to set.
For 100Base-TX ports, the available options are:
10Base-T — 10 Mbps connection, Standard Mode
10Base-T Full Duplex — 10 Mbps connection, Duplex Mode
100Base-TX — 100 Mbps connection, Standard Mode
100Base-TX Full Duplex — 100 Mbps connection, Duplex Mode
Auto Negotiation — the operational mode will be dynamically set based on
the modes selected in the Advertised Abilities field (where both link partners
are auto-negotiating) and the speeds and modes supported by the attached
device
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For 100Base-FX ports, options are:
100Base-FX — 100 Mbps connection, Standard Mode
100Base-FX Full Duplex — 100 Mbps connection, Duplex Mode
2. If you have selected Auto Negotiation (for 100Base-TX ports only), use the
Advertised Abilities field to select the operational capabilities you wish to
advertise to the port’s link partner. If both link partners will be
auto-negotiating, be sure there is at least one mutually-advertised operational
mode, or no link will be achieved.
The selected Advertised Abilities only come into play when both link partners are
auto-negotiating; if only one link partner is set to auto-negotiate, that node will establish a
link at whatever mode its partner is set to, even if that mode is not currently being
advertised.
TIP
3. Click on
to save your changes. Some window fields will refresh
immediately and display the new settings; to manually refresh the window,
simply close, the re-open it, or just re-select the Configuration option from
the appropriate Port menu. Note that it may take a few minutes for mode
changes to be completely initialized, particularly if the link partners must
negotiate or re-negotiate the mode; you may need to refresh the window a few
times before current operational data is displayed.
Configuring COM Ports
function each of the two RS232 COM ports available on the 7X00 Controller
module will perform. To do so:
1. Click mouse button 3 on the Port Status or Port Index box for the COM port
you wish to configure. The COM Port Menu will appear; remember, this menu
is available in all Application Display modes.
2. Drag down to Configuration, and release. The COM Port Configuration
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Figure 2-18. COM Port Configuration Window
You can use the COM Port Configuration window to set the following operating
parameters:
COM Port Admin
Use this field to administratively enable or disable the COM port.
COM Port Function
Use this field to select the function for which you wish to use the COM port:
LM
Local Management: select this option if you wish to connect a
terminal to the selected COM port from which to run Local
Management.
UPS
Select this option if you wish to connect an uninterruptable
power supply (UPS) to the selected COM Port. Note that if you
select this option, an additional option — UPS — will appear on
the COM Port menu; use the resulting window to configure
specific UPS settings.
SLIP
PPP
Select this option to use the selected COM port as a SLIP
connection for out-of-band SNMP management via direct
connection to a serial port on your network management
workstation. Note that when you configure the port as a SLIP
connection, you must select the desired baud rate in the Speed
Selection field described below.
Select this option to use the selected COM port as a PPP
connection for out-of-band SNMP management via direct
connection to a serial port on your network management
workstation. Note that when you configure the port as a PPP
connection, you must select the desired baud rate in the Speed
Selection field described below.
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Current 7C0x firmware versions support only Local Management and UPS via the COM
port; future versions will add SLIP and PPP support.
NOTE
Speed Selection
If you have configured the selected port as a SLIP or PPP connection, you must
select the appropriate baud rate: 2400, 4800, 9600, 19,200, or Auto-Baud. Note that
this field will default to Auto-Baud and become unselectable when the COM Port
Function is set to LM or UPS.
If the COM port you wish to configure is currently set to LM or UPS, the Speed Selection
field will be unavailable until the COM Port Function is set to SLIP or PPP and that
change is applied. Once available, the Speed Selection field will default to the last known
speed setting; click on the field to change this setting if necessary, then click
again to complete the configuration.
TIP
To change any of the configuration parameters on the selected COM port:
1. Click on the COM Port Admin: or COM Port Function: selection button to
display a menu of available options.
2. Drag down to select the desired setting, then release.
3. Click on
to save your changes.
Enabling and Disabling Bridge Ports
For devices configured to operate as traditional bridges, you can use the Bridge
Port menu (available in the Bridge Application Display mode) or simply click on
any Bridge Port index or display box to enable or disable any bridging interface.
To do so:
1. If necessary, put the Hub View into the Bridge Application Display mode (click
either mouse button on the Module Index or Module Type box to display the
Module menu, drag down to Application Display, then across to select
Bridge).
2. Click mouse button 1 on the bridge interface you wish to enable or disable;
or
Click mouse button 3 on the bridge interface you wish to enable or disable to
display the Bridge Port menu; drag down to Enable or Disable, as desired,
and release.
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3. A window will appear asking you to confirm your selection; click on OK to
continue the enable or disable process, or on Cancel to cancel.
When you disable bridging at a port interface, you disconnect that port’s network
segment from the bridge entirely. The port does not forward any packets, nor
does it participate in Spanning Tree operations. Nodes connected to that network
segment can still communicate with one another, but they can’t communicate
with other networks connected to the bridge.
When you enable bridging for the interface, the port moves from the Disabled
state through the Listening and Learning states to the Forwarding state; bridge
port state color codes will change accordingly.
For more information about bridging functions and how to determine the current state of
7C0x SmartSwitch Bridge View.
NOTE
Managing the Hub
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Chapter 3
Basic Alarm Configuration
Creating alarms; assigning events and actions; viewing an alarm log
Through the RMON Alarm and Event functionality supported by your 7C0x
SmartSwitch, you can configure some basic alarm thresholds for each available
bridge port interface; you can also define a response to each alarm condition.
The current version of the Basic Alarm application can only be used on devices which are
configured to operate as traditional bridges, as it has some dependencies on bridge-specific
table information; if you try to launch the application against a device which is configured
for SecureFast switching, the window will paint, but the interface list box will remain
blank.
!
CAUTION
About Basic Alarms
Using the Basic Alarm Configuration application, you can define both rising and
falling alarm thresholds for three selected MIB-II objects: ifInOctets, ifInNUcast,
and ifInErrors. Because these pre-selected objects are not RMON-specific, you can
configure alarms for all available bridge interfaces in your SmartSwitch chassis —
including those, like FDDI, for which no specific RMON statistics currently exist.
In addition to configuring separate rising and falling thresholds, you can also
configure your device’s response to an alarm condition: when a threshold is
crossed, the SmartSwitch can create a log of alarm events, send a trap notifying
your management workstation that an alarm condition has occurred, or both; you
can even configure an alarm to enable or disable bridging on the offending port in
response to a rising or falling alarm condition.
Current versions of the Basic Alarm Configuration application do not provide a means for
viewing any alarm logs you choose to create; if you wish to use the Log option, you can
view the associated log via the MIBTree or any similar SNMP-based tool. See Viewing an
TIP
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Basic Alarm Configuration
Launching the Basic Alarm Application
You can access the Basic Alarm application in one of two ways:
from the Hub View:
1. If necessary, put the Hub View into the Interface Application Display mode
(click either mouse button on the Module Index or Module Type box to display
the Module menu, drag down to Application Display, then right to select
Interface).
2. Click either mouse button on the Display Mode box to launch the Interface
menu; drag down to Basic Alarm Configuration, and release.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun balarm <IP Address> <read community name>
<write 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 within the Hub View.
NOTES
If you wish to configure alarms via the Basic Alarm Configuration window, be sure to use
a write community name with at least Read/Write access. If you only wish to view
alarms, a community name with Read access will be sufficient.
If there is a hostname mapped to your 7C0x’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.
If you launch the Basic Alarm application (whether from the Interface menu in the Hub
View or from the command line) against a 7C0x whose RMON MIB component has been
disabled, an error window will appear notifying you of that fact.
TIP
In many cases the RMON component is disabled by default when the device is shipped; to
enable it, use the MIBTree or any similar SNMP-based MIB tool to query the
contLogicalEntryTable, and change the contLogicalEntryAdminStatus value for the
RMON component from 7 (disabled) to 3 (enabled). The application should then run
successfully.
3-2
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Basic Alarm Configuration
Figure 3-1. Basic Alarm Configuration
Viewing Alarm Status
need to configure one or more of the three alarms available for each interface
installed in your 7C0x SmartSwitch hub:
In Octets Kb — Total Errors — Broadcast/Multicast
Use these fields at the top of the window to change the alarm type whose status is
displayed in the list box. For example, if the In Octets Kb option is selected, the
information in the list box pertains to the status of the In Octets Kb alarm type for
each installed interface. Before you configure an alarm or alarms, be sure the
appropriate option is selected here.
Viewing Alarm Status
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Basic Alarm Configuration
The available alarm variables are:
•
In Octets Kb (ifInOctets) — tracks the number of octets of data received by the
selected interface. Note that this value has been converted for you from octets
(or bytes) to kilobytes (or units of 1000 bytes); be sure to enter your thresholds
accordingly. For example, to set a rising threshold of 5000 octets, enter a
threshold value of 5; to set a falling threshold of 1000 octets, enter a threshold
value of 1.
•
•
Total Errors (ifInErrors) — tracks the number of error packets received by the
selected interface.
Broadcast/Multicast (ifInNUcast) — tracks the number of non-unicast — that
is, broadcast or multicast — packets received by the selected interface.
Note that the three pre-selected alarm variables are all MIB II variables; this allows you to
configure alarms for any interface installed in your 7C0x SmartSwitch chassis — even
those for which no specific RMON statistics yet exist.
TIP
Port Number
Provides a sequential indexing of the interfaces installed in your 7C0x
SmartSwitch chassis. Available interfaces are indexed from left to right in the hub,
and follow physical port indexing on each individual module. (Note that some
Ethernet modules index ports from bottom to top, rather than top to bottom; the
Port # displayed here will reflect that indexing scheme.)
IF Number
Displays the interface number assigned to each available interface. Interface
indexing follows an XXXXYY scheme, where X = slot index times 10,000, and
Y = port index. For example, an interface index of 30017 would be assigned to
port 17 on the module installed in slot 3 of the chassis.
IF Type
Displays each interface’s type: FDDI, Ethernet, or ATM. Note that there is no type
distinction between standard Ethernet and Fast Ethernet.
Status
Displays the current status of the selected alarm type for each interface: Enabled
or Disabled. Remember, this status refers only to the alarm type which is selected
at the top of the window; each of the other two alarm types can have different
states.
Log
Indicates whether or not each alarm has been configured to create a silent log of
event occurrences and the alarms that triggered them: Yes if it has, No if it hasn’t.
3-4
Viewing Alarm Status
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Basic Alarm Configuration
Current versions of the Basic Alarm Configuration application do not provide a means for
viewing any alarm logs you choose to create; if you wish to use the Log option, you can
view the associated log via the MIBTree or any similar SNMP-based tool. See Viewing an
TIP
Trap
Indicates whether or not each alarm has been configured to issue a trap in
response to a rising or falling alarm condition: Yes if it has, No if it hasn’t.
Remember, if you choose to select this option for your alarms, you must be sure
the 7C0x has been configured to send traps to your management workstation, and
that the management workstation you choose has the ability to accept those trap
messages. See the Trap Table chapter in the SPMA Tools Guide for more
information.
Polling Interval
Displays the amount of time, in seconds, over which the selected alarm variable
will be sampled. At the end of the interval, the sample value will be compared to
both the rising and falling thresholds (described below). You can set any interval
from 1 to 999,999,999 seconds; however, intervals shorter than 10 seconds are not
likely to perform well. The default value is 30 seconds.
Rising Threshold
Displays the high threshold value set for the selected alarm variable. By default,
values used to compare to the thresholds are relative, or delta values (the
difference between the value counted at the end of the current interval and the
value counted at the end of the previous interval); be sure to set your thresholds
accordingly.
Rising Action
Indicates whether or not a rising alarm occurrence will initiate any actions in
response to the alarm condition: Enable if bridging will be enabled at the selected
interface in response to a rising alarm, Disable if bridging will be disabled at the
selected interface in response to a rising alarm, and None if no actions have been
configured for the selected alarm.
Falling Threshold
Displays the low threshold value set for the selected alarm variable. By default,
values used to compare to the thresholds are relative, or delta values (the
difference between the value counted at the end of the current interval and the
value counted at the end of the previous interval); be sure to set your thresholds
accordingly.
Falling Action
Indicates whether or not a falling alarm occurrence will initiate any actions in
response to the alarm condition: Enable if bridging will be enabled at the selected
interface in response to a falling alarm, Disable if bridging will be disabled in
response to a falling alarm, and None if no actions have been configured for the
selected alarm.
Viewing Alarm Status
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Basic Alarm Configuration
Before you decided whether or not to assign an action to a rising or falling alarm, it is
important to understand something about the hysteresis function built in to the RMON
alarm functionality. See How Rising and Falling Thresholds Work, below, for more
information.
TIP
The remainder of the window fields provide the means for configuring alarms for
each available interface. Note that the information provided in this screen is static
once it is displayed; for updated information, click on
modifying an alarm automatically updates the list.
. Adding or
How Rising and Falling Thresholds Work
Rising and falling thresholds are intended to be used in pairs, and can be used to
provide notification of spikes or drops in a monitored value — either of which can
indicate a network problem. To make the best use of this powerful feature, pairs
of thresholds should not be set too far apart, or the alarm notification process may
be defeated: a built-in hysteresis function designed to limit the generation of
events specifies that, once a configured threshold is met or crossed in one
direction, no additional events will be generated until the opposite threshold is
met or crossed. Therefore, if your threshold pair spans a wide range of values,
and network performance is unstable around either threshold, you will only
receive one event in response to what may be several dramatic changes in value.
To monitor both ends of a wide range of values, set up two pairs of thresholds:
such a configuration.
Event
Rising Threshold
Falling Threshold
Event
Event
Rising Threshold
Falling Threshold
Event
Figure 3-2. Sample Rising and Falling Threshold Pairs
The current version of the Basic Alarm application only allows you to configure a single
pair of thresholds for each alarm variable on each interface; be sure to keep this hysteresis
function in mind when configuring those threshold values.
TIP
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Viewing Alarm Status
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Basic Alarm Configuration
Configuring an Alarm
The editable fields at the bottom of the Basic Alarm Configuration window allow
you to configure alarm parameters for each available interface. These fields will
display the alarm parameters for the interface which is currently highlighted (and
the alarm variable currently selected at the top of the window); if more than one
interface is selected in the list box, the parameters displayed will be those
assigned to the selected interface with the lowest index number.
Note that there is no specific “Enable” function; simply configuring thresholds
and/or actions for an alarm and applying those changes enables the alarm. For
To configure an alarm:
1. At the top of the window, click to select the variable to be used for your alarm:
In Octets Kb, Total Errors, or Broadcast/Multicast. The display in the list
box will reflect the current status at each interface of the alarm type you have
selected.
2. In the list box, click to highlight the interface or interfaces for which you would
like to configure an alarm for the selected variable. Note that the editable
fields will display the alarm parameters assigned to the selected interface with
the lowest index number; however, any changes you make in these fields will
be set to all selected interfaces.
3. In the Interval field, enter the amount of time, in seconds, over which the
selected variable will be sampled. At the end of the interval, the sample value
will be compared to both the rising and falling thresholds.You can assign any
interval from 1 to 999,999,999; however, intervals shorter than 10 seconds
are not likely to perform well. The default value is 30.
4. In the Alarm field, click to select one or both of the following options:
a. Select Log if you wish to create a silent log of alarm occurrences.
b. SelectTrap if you wish the 7C0x to issue a trap in response to each alarm
occurrence.
Current versions of the Basic Alarm Configuration application do not provide a means for
viewing any alarm logs you choose to create; if you wish to use the Log option, you can
view the associated log via the MIBTree or any similar SNMP-based tool. See Viewing an
NOTES
If you select the Trap option, be sure your 7C0x SmartSwitch is configured to send traps
to your management workstation, and be sure that workstation has the ability to receive
traps (which SPMA does not provide); for more information, see the Trap Table chapter
in the SPMA Tools Guide.
Configuring an Alarm
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Basic Alarm Configuration
5. If you have selected the Trap option in the Alarm field, the Community field
will become active; any value you enter here will be included in any trap
messages.Your trap utility may use this community name as a means of
filtering traps, or as a means of directing traps within the management
platform; if it does not, you need not enter a value into this field. A value of
“public” will be assigned by default.
6. Click in the Rising Threshold field; enter the high threshold value for this
alarm. Remember, compared values are always relative, or delta values (the
difference between the value counted at the end of the current interval and
the value counted at the end of the previous interval); be sure to set your
thresholds accordingly.
Remember, too, when configuring an In Octets Kb alarm, SPMA converts
octets into kilobytes for you; for example, to set a rising threshold of 5000
octets, enter a threshold value of 5.
7. In the Rising Action field, click to select the action you want your device to
take in response to a rising alarm: Enable Port, Disable Port, or None. Note
that this action enables and disables only bridging at the specified port, and
not the interface itself.
For more information on how actions are triggered, see How Rising and
8. Click in the Falling Threshold field; enter the low threshold value for this
alarm. Remember, compared values are always relative, or delta values (the
difference between the value counted at the end of the current interval and
the value counted at the end of the previous interval); be sure to set your
thresholds accordingly.
Remember, too, when configuring an In Octets Kb alarm, SPMA converts
octets into kilobytes for you; for example, to set a falling threshold of 2000
octets, enter a threshold value of 2.
9. In the Falling Action field, click to select the action you want your device to
take in response to a falling alarm: Enable Port, Disable Port, or None. Note
that this action enables and disables only bridging at the specified port, and
not the interface itself.
For more information on how actions are triggered, see How Rising and
10. Click
to set your changes. If you have made any errors in
configuring alarm parameters (using an invalid rising or falling thresholds, for
example), an error window with the appropriate message will appear. Correct
the noted problem(s), and click
again.
Once you click , the configured alarm parameters will be set for every
selected interface, and the alarms will automatically be enabled; the list box
display will also refresh to reflect these changes.
3-8
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Basic Alarm Configuration
To configure additional alarms, or alarms of a different type, select the
appropriate alarm variable at the top of the window, highlight the appropriate
interface(s), and repeat the procedures outlined above.
Disabling an Alarm
Using the
button at the bottom of the window actually performs two
functions: it both disables the alarm and deletes the alarm entry (and its
associated event and action entries) from device memory to help conserve device
resources. In the list box display, any “disabled” alarm automatically resets to the
default parameters: status disabled, log yes, trap no, rising and falling thresholds
zero, and no action.
To disable an alarm:
1. In the top of the window, click to select the variable for which you wish to
disable an alarm: In Octets Kb, Total Errors, or Broadcast/Multicast.
2. In the list box display, click to highlight the interface(s) for which you wish to
disable the selected alarm type. Remember, the editable fields in the lower
portion of the window will display the alarm parameters for the selected
interface with the lowest index number, but the selected alarm type will be
disabled for all selected interfaces.
3. Click on
. The selected alarm type on the selected interface(s) will
be disabled, and the list box display will refresh to reflect those changes.
When you disable an alarm, the SPMA Basic Alarm Configuration application deletes the
alarm entry and its associated event (log and/or trap) and action (enable or disable port)
entries from device memory. However, if any one of these delete operations fails, some
unused entries may remain in the tables. If this occurs, you will see the following error
message the next time you launch the Basic Alarm application or click the Refresh
button:
NOTE
To delete these unused entries and free up all available device resources, click OK; to leave
the entries there, click Cancel. Note that this message will re-appear each time you launch
the application or click the Refresh button until the unused entries have been removed.
Disabling an Alarm
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Basic Alarm Configuration
Viewing an Alarm Log
The ability to create a log of alarm events is provided by the Event group of the
RMON MIB. If you have selected the Log option for any of your alarms, and you
wish to view the resulting log, you can do so by using MIBTree or any similar
SNMP-based MIB tool to query the RMON MIB’s logTable.
Making sense of a logTable entry by viewing its values straight from the MIB is a tricky
business that requires a good understanding of MIBs and MIB objects, a good
understanding of the RMON alarm and event functionality, and a little bit of luck:
individual returned MIB values must first be sorted into complete entries; each entry
must then be matched to the appropriate interface. This process will require some patience,
especially if you are viewing the logTable for a 7C0x chassis with many installed
interfaces, many of which have enabled alarms. Future releases of SPMA will include
more advanced alarm functionality, including the ability to view alarm logs in an
easy-to-read format.
!
CAUTION
Each entry in the logTable (logEntry) contains the following objects:
logEventIndex
The value of this object reflects the index number assigned to the event whose
occurrences you have chosen to log. (The “event” is the device’s response to the
“alarm” — if an alarm threshold is crossed, the event specifies what action will be
taken. The Basic Alarm application allows you to create three kinds of events:
those that create a log, those that generate a trap, and those that do both.) The
value of this index number won’t tell you which interface the alarm instances
occurred on; however, it will help you to figure out which values of the logIndex,
logTime, and logDescription OIDs go together, as this value becomes part of the
instance assigned to each object in the table.
logIndex
The value of this object uniquely identifies each alarm occurrence that is stored in
a log entry. In combination with the logEventIndex value described above, the
logIndex provides the instance values assigned to each table object; use these
instance values to sort out individual log entries. For example, the values of all
logTable OIDs with the instance 7.1 apply to the first occurrence of alarm index 7;
the values of all OIDs with the instance 7.2 apply to the second occurrence of
alarm index 7; and so on.
Use the instance values assigned to each table object (logEventIndex.logIndex) to arrange
the returned values into complete entries; then, view each entry’s logDescription to match
the entry to a 7C0x interface. See logDescription, below, for more information.
TIP
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Basic Alarm Configuration
logTime
Displays the value of the 7C0x’s sysUpTime when the alarm instance occurred (in
timeticks by default, but perhaps converted by your MIB utility into days
hours:minutes:seconds format). You can compare this value to the device’s
current sysUpTime to get a general idea when the alarm condition occurred.
logDescription
The logDescription object provides a detailed description of the alarm event,
including a piece of information critical to making sense of the logTable
information: the OID of the alarm variable, including its instance — which
corresponds to the 7C0x interface on which the alarm was configured. (The
instance value is the last value in the OID string.) Other descriptive information
provided includes whether it was a rising or falling event, the index number
assigned to the alarm, the alarmSampleType (always 2, or delta), the value that
triggered the alarm, the configured threshold that was crossed, and a description
of the alarm occurrence (either Falling Threshold or Rising Threshold).
Note that each logTable will hold only a finite number of entries, which is
determined by the resources available on the device; when the log is full, the
oldest entries will be replaced by new ones.
Viewing an Alarm Log
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Chapter 4
FDDI Management
Using the FDDI utilities to manage FDDI modules: port configuration, alarm configuration, SMT/MAC
configuration, configuring the connection policy, and viewing the station list
The Module menu FDDI Utilities selections allow you to monitor and manage the
FDDI interfaces installed in your 7C0x SmartSwitch hub. Each of the applications
available via this menu is described in this chapter:
•
Port Configuration lets you view information about the state of the FDDI
interfaces on your module, and allows you to administratively enable or
disable individual A and B ports.
•
•
Alarm Configuration allows you to set the LER Alarm and LER Cutoff
thresholds for the FDDI interfaces installed in the SmartSwitch hub.
SMT/MAC Configuration lets you see information about the configuration of
your FDDI modules’ Station Management (SMT) entities, the operating state
of the ring to which each is connected, the physical state of the PHY A and B
front panel ports, and parameters related to ring initialization.
•
•
SMT Connection Policy lets you determine which types of connections will
be permitted among the four FDDI port types: A, B, M (Master), and S (Slave).
The Station List application allows you to view a list of all stations on the
FDDI ring to which each FDDI interface is connected, along with some general
information about each station.
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FDDI Management
Each of the FDDI applications available for your 7C0x SmartSwitch can be launched
either from within the Hub View or from the command line; note, however, that when an
application is launched from the command line, it cannot perform the same kind of port
mapping the Hub View can provide, so all port indexing will be handled based on SMT
index and port physical index, rather than by front panel index (FP 1 or FP 2) and port
type (A or B). All other functionality is identical.
NOTES
Note, too, that due to a software anomaly, port mapping is not provided for any hub which
contains more than one FDDI module; that is, ports will be indexed by SMT and port
physical index, rather than by front panel index and port type. Future versions of SPMA
will correct this anomaly.
Port Configuration
configuration of the ports on your FDDI modules, and allows you to enable or
disable those ports.
To open the Port Configuration window
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to FDDI Utilities, then across to select Port Configuration.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun fddiptcf <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 within the Hub View.
NOTES
If you wish to enable or disable any ports via the Port Configuration window, be sure to
use a community name with at least Read/Write access. If you only wish to view port
configuration, a community name with Read access will be sufficient.
If there is a hostname mapped to your 7C0x’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.
4-2
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FDDI Management
Figure 4-1. Port Configuration Window
The Port Configuration window displays the following information:
SMT Index
Displays the index number of the Station Management (SMT) entity to which
each port is attached. Each FDDI NIM module has two SMT entities — one for
each front panel interface. If you have launched the Port Configuration
application from the Hub View Module menu, these two SMT entities will be
indexed by front panel interface numbers (FP 1 and FP 2, as illustrated above); if
you have launched the application from the command line (or if your 7C0x hub
has more than one FDDI NIM installed), the front panel designations will not
appear. For multiple NIMs, SMT entities will be indexed from left to right in the
hub, and from top (front panel port 1) to bottom (front panel port 2) on each
module.
Port Index
Displays the index number assigned to each port. If you have launched the Port
Configuration application from the Hub View, each front panel port will be
identified by type (A or B); if you have launched from the command line, each
will be identified by a logical index number (1 or 2) that identifies the port in
relation to its assigned SMT entity.
Port Configuration
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FDDI Management
State
Displays a value that indicates the port’s connection status. There are four
possible connection states:
•
Connecting –– the port is trying to establish a link, but has not yet been
successful. Ports which are not connected and which have not been disabled
by management will display this status.
•
•
Active –– the port has been enabled by management and has successfully
established a link with its downstream neighbor.
Standby –– the port has a physical link, but the SMT Connection Policy is
prohibiting a logical connection to the ring because the attempted connection
is illegal. FDDI protocol always forbids connecting two Master ports; all other
connections are theoretically legal, although some are not desirable.
NOTE
•
Disabled –– the port has been disabled by management; note that this status
does not indicate whether or not there is a physical link connected to the port.
Connection
A port’s connection is defined by its own port type (A or B) and the port type to
which it is connected. For example, a normal connection for a FDDI A port would
be A––>B (a “thru” configuration); a port that has no connection will display as
B––>None.
Media Type
Indicates the type of cable segment connected to the port; possible values are:
•
•
•
•
•
•
•
•
•
Multimode Fiber
Single Mode Fiber 1
Single Mode Fiber 2
SONET
Low-cost Fiber
Twisted Pair
Unknown (firmware can’t locate the information)
Unspecified (information is not included in the firmware)
? (firmware is not responding to the request)
4-4
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FDDI Management
Enabling or Disabling FDDI Ports
You can enable or disable ports individually or as a group, as follows:
1. Highlight the appropriate port or ports in the scroll list.You can select or
de-select any ports by clicking on them, or you can use the Scope field: if you
select All Ports, all available ports will be automatically selected; if you select
Single Port, only the port last selected will remain selected (or all ports will be
de-selected, allowing you to select one). Note that the setting displayed in the
Scope field will automatically adjust as you select and de-select ports.
2. Click on either
or
. The appropriate window shown in
Figure 4-2 will appear.
Figure 4-2. Enable/Disable Confirmation Windows
3. Click
to enable or disable the port, or click
to terminate the
command and exit the window.
Charts, Graphs, and Meters
You can view both an FDDI Port Chart and FDDI Port Meters (and, if you are
running SPMA in conjunction with HP Network Node Manager or IBM NetView,
an FDDI Port Graph) for your module by clicking on the appropriate buttons,
located at the bottom of the Port Configuration window.
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.
NOTES
Only general information about charts, graphs, and meters is provided in the following
sections; for more detailed information, see the SPMA Tools Guide.
Port Configuration
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FDDI Management
Viewing the FDDI Port Chart
To view the FDDI Port Chart window, highlight an entry in the scroll list and click
Figure 4-3. FDDI Port Chart Window
The FDDI Port Chart window displays the following information about the
selected port or ports, in both numeric and graphical format:
LEM Count
The LEM (Link Error Monitor) Count displays the number of times each port’s
Link Error Monitor has detected a link error. A link error occurs when a port’s line
state goes from Idle to Unknown and remains there for at least 80 ns, or when the
line state goes from Active to Unknown and remains there for at least 320 ns. A
growing LEM Count usually indicates a physical problem with the connectors or
the cable between a port and the node at the other end of its cable segment. If you
can wiggle the cable and watch the LEM Count increase, you know you have a
faulty cable or connector. Dirt or film on the connector cable ends can also add to
the LEM Count.
LEM Reject Count
The number of times the port’s link has exceeded the configured LER Cutoff level
and been removed as faulty (disabled by station management). SMT
automatically re-enables a port when the error rate falls below the cutoff value.
Cutoff threshold.
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FDDI Management
Changing the Measurement of Data
Measurement fields located at the bottom of the FDDI Port Chart window allow
you to change how the incoming data is measured:
•
Absolute –– displays the chart variable values recorded in the device MIB
counters.
•
Delta –– displays the difference in value for the selected data between the
current poll interval and the last interval.
•
•
Cumulative –– displays the total since the Cumulative button was selected.
Clear –– resets Cumulative totals to zero; this option is not available in the
Absolute or Delta modes.
To change the type of measurement, or to clear and restart Cumulative totals, click
mouse button 1 on the appropriate shadowed button.
To exit the FDDI Port Chart window, click
.
Viewing FDDI Port Meters
To view the FDDI Port Meters window, highlight one or more ports in the scroll
Each of the meters provided displays a single statistic in a format that lets you
know at a glance if the counter is registering high, medium, or low values.
Figure 4-4. FDDI Port Meters Window
The FDDI Port Meters window graphically displays the following statistics:
LER Estimate
The LER (Link Error Rate) Estimate displays a cumulative long term average of
the bit error rate, which represents the quality of the physical link. It is computed
when the port is connected, and every 10 seconds thereafter. The value of the LER
Port Configuration
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FDDI Management
-4
-15
Estimate can range from 10 to 10 , but is always displayed as the absolute
value of the exponent; for example, if the port’s LER Estimate is computed to be
-5
10 , the value displayed in the Port Status box will be 5, which represents an
actual rate of 1,250 bit errors per second. The lower LER Estimate numbers
represent the highest bit error rates.
LEM Rate
The LEM (Link Error Monitor) Rate displays the number of times each port’s Link
Error Monitor has detected a link error, expressed as link errors per second. A link
error occurs when a port’s line state goes from Idle to Unknown and remains
there for at least 80 ns, or when the line state goes from Active to Unknown and
remains there for at least 320 ns. A growing LEM Count usually indicates a
physical problem with the connectors or the cable between a port and the node at
the other end of its cable segment. If you can wiggle the cable and watch the LEM
Count increase, you know you have a faulty cable or connector. Dirt or film on the
connector cable ends can also add to the LEM Count.
LEM Reject Rate
The number of times the port’s link has exceeded the configured LER Cutoff level
and been removed as faulty (disabled by station management), expressed as
rejects per second. SMT automatically re-enables a port when the error rate falls
below the cutoff value.
To exit the FDDI Port Meters window, click
.
above and their associated alarms.
NOTE
Viewing FDDI Port Graphs
If you are running SPMA in conjunction with HP Network Node Manager or IBM
NetView, the Port Configuration window will include a Graph button; select this
button to display FDDI variables for the selected port via the graphing
application provided by your network management platform.
If you are running SPMA in conjunction with SunNet Manager or in a stand-alone
mode, no graphing capabilities are available, and no graph-related options will
appear.
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FDDI Management
Alarm Configuration
The Alarm Configuration application allows you to set the LER Alarm and LER
Cutoff thresholds for each FDDI interface installed in the SmartSwitch chassis.
Once alarms have been configured, a port will enter an alarm state if its LER
Estimate exceeds the LER Alarm threshold; if the LER Estimate exceeds the LER
Cutoff threshold, the port will be disabled.
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to FDDI Utilities, then across to select Alarm Configuration.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun fddialrm <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 within the Hub View.
NOTES
If you wish to configure any alarm thresholds, be sure to use a community name with at
least Read/Write access. If you only wish to view alarms, a community name with Read
access will be sufficient.
If there is a hostname mapped to your 7C0x’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.
Alarm Configuration
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FDDI Management
Figure 4-5. Alarm Configuration Window
The Port List Box in the upper portion of the window displays the following
information for each FDDI port in the hub:
(Port Alarm Status)
The color displayed in this box indicates the LER Alarm status of each listed port:
green indicates that the port’s LER Estimate is below the LER Alarm threshold;
yellow indicates that the port’s LER Estimate has equaled or exceeded the LER
Alarm threshold, and the port is in an alarm state; and red indicates that the port’s
LER Estimate has equaled or exceeded the LER Cutoff threshold, and the port has
been disabled.
SMT Index
Displays the index number of the Station Management (SMT) entity to which
each port is attached. Each FDDI NIM module has two SMT entities — one for
each front panel interface. If you have launched the Alarm Configuration
application from the Hub View Module menu, these two SMT entities will be
indexed by front panel interface numbers (FP 1 and FP 2, as illustrated above); if
you have launched the application from the command line (or if your 7C0x hub
has more than one FDDI NIM installed), the front panel designations will not
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FDDI Management
appear. For multiple NIMs, SMT entities will be indexed from left to right in the
hub, and from top (front panel port 1) to bottom (front panel port 2) on each
module.
Port
Displays the index number assigned to each port. If you have launched the Alarm
Configuration application from the Hub View, each front panel port will be
identified by type (A or B); if you have launched from the command line, each
will be identified by a logical index number (1 or 2) that identifies the port in
relation to its assigned SMT entity.
LER Estimate
of the bit error rate, which represents the quality of the physical link. It is
computed when the port is connected and every 10 seconds thereafter. The value
-4
-15
of the LER Estimate can range from 10 to 10 , but it is always displayed as the
absolute value of the exponent; for example, if the port’s LER Estimate is
-5
computed to be 10 , the value displayed will be 5, which represents an actual rate
of 1,250 bit errors per second. The lowest LER Estimate numbers represent the
highest bit error rates, as summarized in the figure below.
.000000125
.00000125
.0000125
.000125
.00125
Bit Errors
.0125
per
.125
1.25
Second
12.5
125
1250
12500
4
5
6
7
8
9
10 11 12 13 14 15
Reported LER Estimate
Figure 4-6. LER Estimate Values
LER Alarm
The Link Error Rate (LER) Alarm field displays the threshold at which a port will
enter an alarm condition. A port in an alarm condition will display a yellow status
in the Alarm Configuration window; in addition, you can configure the Meters
application so that a mail message will be generated when the threshold is
crossed. (For more information about the Meters application, see the Charts,
Graphs, and Meters chapter in your SPMA Tools Guide.) The default LER Alarm
value is 8, which represents 1.25 bit errors per second (see the table above). When
configuring the LER Alarm threshold, be sure that the value you set represents a
lower link error rate than the LER Cutoff threshold, explained below. Remember, a
lower link error rate is represented by a higher threshold setting.
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FDDI Management
LER Cutoff
The Link Error Rate (LER) Cutoff field displays the threshold at which a
connection is flagged as faulty and the port is disabled by Station Management
(SMT). SMT automatically re-enables the port when the error rate falls below the
cutoff value. The default LER Cutoff threshold is 7, which represents 12.5 bit
errors per second (see the table above). When configuring the LER Cutoff
threshold, be sure that the value you set represents a higher link error rate than the
LER Alarm threshold, explained above. Remember, a higher link error rate is
represented by a lower threshold setting.
LEM Count
The Link Error Monitor (LEM) Count field displays the number of times each
port’s Link Error Monitor detects a link error. A link error occurs when a port’s
line state goes from Idle to Unknown and remains there for at least 80 ns, or when
the line state goes from Active to Unknown and remains there for at least 320 ns.
A growing LEM Count usually indicates a physical problem with the connectors
or the cable between a port and the node at the other end of its cable segment. If
you can wiggle the cable and watch the LEM Count increase, you know you have
a faulty cable or connector. Dirt or film on the connector cable ends can also add
to the LEM count.
The lower portion of the window provides the fields you need to configure the
alarms:
1. In the Port List Box, select the port or ports for which you would like to edit
the alarm thresholds.You can select or de-select any ports by clicking on
them, or you can use the Configure Alarm For field: if you select All Ports, all
available ports will be automatically selected; if you select Single Port, only
the port last selected will remain selected (or all ports will be de-selected,
allowing you to select one). Note that the setting displayed in the Set Alarm
For field will automatically adjust as you select and de-select ports.
2. In the Alarm Type field, select the alarm variable for which you would like to
configure a new threshold: LER Alarm or LER Cutoff.
3. Enter your desired alarm threshold in the Threshold field. The default LER
Alarm threshold is 8, and the default LER Cutoff threshold is 7; the allowable
range for both is 4-15. When re-configuring thresholds, remember that higher
link error rates are represented by lower threshold settings; also, be sure to
set the threshold for the LER Alarm so that it represents a lower link error rate
(i.e., has a higher setting) than the LER Cutoff threshold. See above for a
complete description of the link error rate and how rates are represented.
4. Click on
to save your changes. If you wish to configure both LER
before
Alarm and LER Cutoff thresholds, be sure to click on
switching from one to the other, or the changes you made to the first alarm will
be lost.
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FDDI Management
SMT/MAC Configuration
The SMT (Station Management)/MAC (Media Access Control) Configuration
window displays information about the configuration of each SMT entity present
in the hub, the operating state of the ring to which that entity is attached, the
physical state of the A and B ports on each module with respect to their MAC
entity, and parameters relating to ring initialization.
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to FDDI Utilities, then across to select SMT/MAC Configuration.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun fddicnfg <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 within the Hub View.
NOTES
A community name with Read access is sufficient to view SMT/MAC configuration.
If there is a hostname mapped to your 7C0x’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.
SMT/MAC Configuration
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FDDI Management
Figure 4-7. SMT/MAC Configuration Window
The SMT Configuration portion of the window provides the following
information about the current configuration of each SMT entity present in the
SmartSwitch chassis:
SMT Index
Displays the index number of the Station Management (SMT) entity to which
each port is attached. Each FDDI NIM module has two SMT entities — one for
each front panel interface. If you have launched the SMT/MAC Configuration
application from the Hub View Module menu, these two SMT entities will be
indexed by front panel interface numbers (FP 1 and FP 2, as illustrated above); if
you have launched the application from the command line (or if your 7C0x hub
has more than one FDDI NIM installed), the front panel designations will not
appear. For multiple NIMs, SMT entities will be indexed from left to right in the
hub, and from top (front panel port 1) to bottom (front panel port 2) on each
module.
Version
Displays the operational SMT version being used by each SMT entity. SMT frames
have a version ID field that identifies the structure of the SMT frame Info field.
The version number is included in the SMT frame so that a receiving station can
determine whether or not its SMT version is able to communicate with the SMT
version of another station. Knowing the version number allows the stations to
handle version mismatches. Each FDDI station supports a range of SMT versions.
4-14
SMT/MAC Configuration
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FDDI Management
The supported version range is identified with the ietf-fddi MIB by two smtTable
attributes: fddimibSMTLoVersionId and fddimibSMTHiVersionId. If a
received frame is not within the supported version range, the frame is discarded.
MAC Cts
Displays the number of Media Access Control (MAC) entities assigned to each
SMT entity.
Optical Bypass Switch
Indicates whether an Optical Bypass Switch is attached to the module’s A and B
ports. An Optical Bypass Switch can prevent a faulty node from causing a wrap
condition or bringing down the ring by bypassing the faulty station and allowing
the signal to continue to the next station in the ring.
CF State
The CF (Configuration Management) State displays a value that represents the
paths — or ring segments — in which the A and B ports are currently inserted;
possible values are:
•
•
Isolated –– the node is isolated from all available rings.
Local-A –– the Aport is inserted into a local path; the B port is not inserted into
a local path.
•
Local-B –– The B port is inserted into a local path; the A port is not inserted
into a local path.
•
•
•
•
Local-AB –– both the A and B ports are inserted into a local path.
Wrap-A –– the secondary path is wrapped to the A port.
Wrap-B –– the secondary path is wrapped to the B port.
Wrap-AB –– the primary path is wrapped to the B port, and the secondary path
is wrapped to the A port.
•
•
•
•
•
C-Wrap-A –– the primary and secondary paths are joined internal to the node,
and wrapped to the A port.
C-Wrap-B –– the primary and secondary paths are joined internal to the node,
and wrapped to the B port.
C-Wrap-AB — The primary path is wrapped to the B port and the secondary
path is wrapped to the A port.
Thru –– the primary path enters the A port, and exits from the B port; the
secondary path enters the B port, and exits from the A port.
? –– SPMA cannot determine the current CF State.
SMT/MAC Configuration
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FDDI Management
The MAC Configuration portion of the window provides the following
information about the current configuration of the selected interface’s MAC
entity:
SMT
Displays the index number assigned to the SMT entity.
MAC
The index number assigned to each MAC entity currently associated with the
noted SMT entity. Currently, no more than one MAC can be assigned to each SMT,
so this field will always display a 1.
MAC Address
Displays the factory-set hardware address of each available MAC interface.
RMT State
Indicates the current state of the noted MAC’s Ring ManagemenT (RMT) state
machine. The RMT state machine reports the MAC’s current state, which includes
Beacon conditions, Trace conditions, and normal conditions.
•
Isolated –– the MAC is not operational because it is not associated with any
physical path. This state is also the first state the MAC enters on power-up.
•
Non-Op –– the MAC being managed is participating in ring recovery, and the
ring is not operational. The RMT state machine transitions into this state on the
loss of Ring_Operational status, and leaves this state on assertion of
Ring_Operational.
•
•
Ring-Op –– the MAC being managed is part of an operational FDDI ring.
Detect –– the ring has not been operational for longer than T_Non_Op time.
Duplicate address conditions that prevent ring operation are detected in the
Detect state.
•
•
•
•
Non-Op-Dup –– positive indications have been received that the address of
the MAC under control is a duplicate of another MAC on the ring. The ring is
not operational in this state.
Ring-Op-Dup –– positive indications have been received that the address of
the MAC under control is a duplicate of another MAC on the ring. The ring is
operational in this state.
Directed –– the beacon process did not complete within 7 seconds; the device
is sending directed beacons to notify the other stations that a serious problem
exists on the ring, and a Trace state is soon to follow.
Trace –– a problem exists on the ring which could not be corrected during the
beaconing process, and a Trace has been initiated. During a Trace, the device
sends a signal that forces its nearest upstream neighbor to remove from the
ring and conduct a self-test. If the ring does not recover, each subsequent
upstream station will be forced to remove from the ring and conduct self-tests
until the problem has been corrected.
•
? –– SPMA cannot determine the current RMT State.
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FDDI Management
TReq (Requested Target Token Rotation Time)
Displays the token rotation time bid made by the noted MAC during ring
initialization, in milliseconds. T-Req is stored within the MIB in nanoseconds
rather than milliseconds; SPMA converts nanoseconds to milliseconds according
to the following formula:
6
(snmpFddiMACTReq) divided by 10 = T-Req msec
You can use any SNMP Set Request tool to edit the T-Req value; just remember
that you must enter your value in nanoseconds, not milliseconds.
TNeg
Displays the winning token rotation time submitted by an FDDI ring station
during the ring initialization, in milliseconds. The station with the lowest token
rotation time bid wins the right to initialize the ring.
Current Path
Indicates which FDDI ring the noted MAC is attached to:
•
•
•
Primary –– the MAC is physically on the primary path.
Secondary –– the MAC is physically on the secondary path.
Local –– the MAC is physically on an internal local path and is not associated
with the dual ring.
•
•
Isolated –– the MAC is not associated with any physical path.
? –– SPMA cannot determine the current MAC path.
Charts, Graphs, and Meters
You can view both an FDDI MAC Chart and FDDI MAC Meters (and, if you are
running SPMA in conjunction with HP Network Node Manager or IBM NetView,
an FDDI MAC Graph) for each available MAC entity by clicking on the
appropriate buttons at the bottom of the SMT/MAC Configuration window.
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.
NOTES
Only general information about charts, graphs, and meters is provided in the following
sections; for more detailed information, see the SPMA Tools Guide.
SMT/MAC Configuration
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FDDI Management
Viewing the FDDI MAC Chart
To view the FDDI MAC Chart window, highlight an entry in the MAC
Configuration scroll list and click . The FDDI MAC Chart window,
Figure 4-8, will appear.
Figure 4-8. FDDI MAC Chart Window
The MAC Chart provides the following information about the selected MAC
entity in both numeric and graphical form:
Frame Count
Displays the total number of frames received by the selected MAC.
Error Count
Displays a count of error frames that were detected by the selected MAC that had
not been detected previously by another station. An error frame is any received
frame that does not meet frame validity criteria: each frame must have a starting
delimiter, a frame control field, zero or more additional data symbols, and an
ending delimiter. The detecting station sets the Frame Status Error Indicator, and
repeats the packet. Subsequent receiving stations do not count the frame as an
error frame.
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FDDI Management
Lost Count
Displays the number of MAC PDUs (Protocol Data Units include both tokens and
frames) that contain an unknown error, so their validity is in doubt. When the
MAC encounters a frame of this type, it increments the Lost Frame counter and
strips the remainder of the frame from the ring, replacing it with idle symbols.
Changing the Measurement of Data
Measurement fields located at the bottom of the FDDI MAC Chart window allow
you to change how the incoming data is measured:
•
Absolute –– displays the chart variable values recorded in the device MIB
counters.
•
Delta –– displays the difference in value for the selected data between the
current poll interval and the last interval.
•
•
Cumulative –– displays the total since the Cumulative button was selected.
Clear –– resets Cumulative totals to zero; this option is not available in the
Absolute or Delta modes.
To change the type of measurement, or to clear and restart Cumulative totals, click
mouse button 1 on the appropriate shadowed button.
To exit the FDDI MAC Chart window, click
.
Viewing FDDI MAC Meters
To view the FDDI MAC Meters window, highlight an entry in the MAC
Configuration scroll list and click . The FDDI MAC Meters window,
Figure 4-9, will appear. Each of the meters provided displays a single statistic in a
format that lets you know at a glance if the counter is registering high, medium,
or low values.
Figure 4-9. FDDI MAC Meters Window
SMT/MAC Configuration
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FDDI Management
The FDDI MAC Meters window graphically and numerically displays the
following statistics:
Frame Rate
Displays the total FDDI network activity, measured in frames per second. The
Frame Rate includes frames, but not tokens.
Frame Error Rate
Displays the total number of MAC Frame errors detected by the module,
measured in frames per second. An error frame is any received frame that does
not meet frame validity criteria: each frame must have a starting delimiter, a
frame control field, zero or more additional data symbols, and an ending
delimiter. The detecting station sets the Frame Status Error Indicator, and repeats
the packet. Subsequent receiving stations do not count the frame as an error
frame.
Lost Frame Rate
Displays the number of MAC PDUs (Protocol Data Units include both tokens and
frames) that contain an unknown error, measured in frames per second. When the
MAC encounters a frame of this type — whose validity is in doubt — it
increments the Lost Frame counter and strips the remainder of the frame from the
ring, replacing it with idle symbols.
Frame Error Ratio
Where the other meters show a snapshot of network performance, the Frame
Error Ratio compares the total number of Lost and Error frames to total number of
received frames, displaying a ratio which provides an overall picture of network
health.
To exit the FDDI MAC Meters window, click
.
Viewing FDDI MAC Graphs
If you are running SPMA in conjunction with HP Network Node Manager or IBM
NetView, the Port Configuration window will include a MAC Graph button;
select this button to display FDDI variables for the selected port via the graphing
application provided by your network management platform.
If you are running SPMA in conjunction with SunNet Manager or in a stand-alone
mode, no graphing capabilities are available, and no graph-related options will
appear.
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FDDI Management
Configuring the SMT Connection Policy
The SMT Connection Policy of an FDDI concentrator determines which types of
connections are allowed among the four FDDI port types: A, B, M (Master), and S
(Slave). FDDI protocol forbids Master—>Master connections; all other connection
types are legal, although some are considered to be undesirable.
To open the SMT Connection Policy window:
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to FDDI Utilities, then across to select SMT Connection Policy.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun fddicpol <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 within the Hub View.
NOTES
If you wish to configure the connection policy, be sure to use a community name with at
least Read/Write access. If you only wish to view the policy, a community name with Read
access will be sufficient.
If there is a hostname mapped to your 7C0x’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.
Configuring the SMT Connection Policy
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FDDI Management
Figure 4-10. SMT Connection Policy Window
FDDI Connection Rules
By default, all connections are allowed except the illegal M—>M connection; the
following table summarizes the FDDI connection rules:
Table 4-1. FDDI Connection Rules
A
B
S
M
V, U (T)
V
V, U
V, DH
A
B
S
V
V, U (T)
V, U
V, U
V
V, DH
V, U
V, DH
V
X
V, DH
V
M
V
X
U
T
— valid connection
illegal connection
— undesirable (but legal) connection
— connection can lead to a twisted ring configuration
—
DH — when both A and B are connected to M ports, a dual-homing configuration
results. See the following page for more information on dual homing.
Though technically legal under FDDI connection rules, the undesirable A—>S and
B—>S connections will deprive your device of the redundancy protection built in to the
FDDI dual-ring configuration. The SMT entity is notified each time an undesirable
connection is made, even when that connection is allowed.
!
CAUTION
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FDDI Management
Each interface controls only its own connection policy; however, when two
interfaces attempt to connect, their combined connection policies dictate the
connections that will be allowed, with the most lenient policy prevailing — in
other words, all connections (except for the illegal M—>M connection) are
allowed unless forbidden by both connecting nodes. For example, if you disallow
the A—>M connection on one node, but attempt to make that connection with
another node which does not forbid it, the connection will be allowed.
Special Ring Configurations
You can use the SMT Connection Policy window to allow or prevent the following
ring configurations:
Dual Homing
Dual homing is a method of configuring concentrators with a redundant topology
that provides a backup data path to protect critical devices from losing contact
with the main ring; dual homing also achieves a kind of separation from the main
ring that makes it easy to bring a critical device down for maintenance without
causing widespread ring failure.
To achieve a dual homing configuration, connect the A port of your critical device
to an M port on one dual-attached concentrator (DAC), and connect the B port of
the same device to an M port on another DAC. SMT will automatically make the
B—>M connection active and place the A—>M connection in stand-by; the
A—>M connection will only become active if the B—>M connection should fail.
(Once the B—>M connection is restored, it is automatically re-activated, and the
A—>M connection goes back into standby mode.) Dual homing will not be
permitted if either the A—>M or B—>M connections have been disallowed for all
involved nodes.
Twisted Ring
When an FDDI ring is in a twisted configuration, at least one station is supporting
both an A—>A connection and a B—>B connection; in this configuration, the
station with the A—>A and B—>B connections is actually residing on the
secondary FDDI ring, and is therefore isolated from the stations on the primary
ring. A wrap condition on a twisted ring will bring the isolated station back into
contact with any stations still connected to the primary ring. You can prevent a
twisted ring configuration by disallowing the A—>A and/or the B—>B
connections for all nodes.
DefiningYour Connection Policy
To configure the connection policy for the selected interface:
1. To disallow any connection types, click mouse button 1 on the appropriate
selection box or boxes; to allow connections which have been previously
disallowed (except for the illegal M—>M connection), click on the selection
box again.
Configuring the SMT Connection Policy
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FDDI Management
2. In the Scope field, click on the selection button to select the front panel
interface (FP) or SMT entity for which you wish to configure connection policy.
(Remember, if you launch from the command line, front panel designations
will not appear, and each interface will be indexed by SMT only.) Changes will
only be applied to those ports associated with the front panel interface or SMT
entity which is listed in the Scope field when
is selected.
3. Click on to put your policy into effect.
4. To make changes to the connection policy for additional front panel interfaces
or SMT entities, change the selection in the Scope field, reject or allow
connections as desired, then click on
again.
Viewing the Station List
Selecting the Station List option from the FDDI Utilities menu allows you to view
a list that shows all the stations on the FDDI ring to which the selected interface is
attached, along with some general information about each station.
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to FDDI Utilities, then across to select Station List.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun fddislst <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 within the Hub View.
NOTES
A community name with Read access is sufficient to view the station list.
If there is a hostname mapped to your 7C0x’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.
4-24
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FDDI Management
Figure 4-11. The Station List Window
Note that the information displayed in the Station List window is static once the
window is opened; for updated information, click mouse button 1 on
Also, note the scroll bar located to the right of the list window; use it to view
additional stations, if necessary. The total number of MAC entities (which may or
may not equal the number of devices or stations) on the listed ring is displayed at
the bottom of the window.
.
The Station List window provides the following information about each node
residing on the same ring as the front panel interface or SMT entity selected in the
Scope field, beginning with the selected interface and traveling upstream.
(Remember, if you launch the Station List application from the command line, no
front panel designations will appear; each FDDI interface will be listed by its SMT
index only.)
Entry
An index number assigned to each station in the ring. The front panel interface or
SMT entity currently selected in the Scope field is always assigned number one.
MAC Address
The MAC, or hardware, address of each station on the ring. You can display the
MAC address in Canonical (FDDI) format or MSB (Ethernet) format by clicking
mouse button 1 on
, then dragging down to select the desired
address mode. The Address Mode field above the button displays the current
setting; the default display mode is Canonical (FDDI).
Viewing the Station List
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FDDI Management
Upstream MAC
Displays the hardware address of the node’s nearest upstream neighbor. Note
that the addresses displayed in this field also respond to any change in display
mode from MSB to Canonical, or vice versa.
Vendor
Displays the name of the vendor that manufactured the device, as determined by
the first three bytes of the MAC address.
Node Class
Indicates the node type: either station or concentrator.
Topology
Indicates the node’s current MAC configuration topology; possible states are:
Thru
The ring is operating normally, with no cable breaks or
bad nodes directly upstream or downstream of the
selected node: the primary path enters the A port and
emerges from the B port, and is currently active; the
secondary path enters the B port and emerges from the A
port, and is not currently in use.
Wrapped
The node is wrapped, due to a cable break, a bad station,
or management action; the secondary path has been
wrapped into the primary path to restore the ring.
Isolated
The node is isolated from the ring; a node in this state
will be the only one displaying in the station list.
A-A Twisted
The ring is in a twisted configuration, because the node’s
A port has been connected to another A; by necessity,
somewhere on the ring a B port is connected to another
B, and a third station has both an A—>A and a B—>B
connection. The ring can operate normally in a twisted
condition, but the station with both an A—>A and B—>B
connection is isolated from the primary ring and residing
alone on the secondary ring.
A-A Twisted,
Wrapped
The ring is twisted due to an A—>A connection on this
node, as described above; the ring is also wrapped. Note
that the wrap condition brings the node with both the
A—>A and B—>B connection back into contact with the
rest of the stations on the ring, since the secondary ring
has become part of the primary ring.
B-B Twisted
The ring is in a twisted configuration, because the node’s
B port has been connected to another B; again, by
necessity, somewhere on the ring an A port has been
connected to another A, and a third station has both and
A—>A and a B—>B connection. The ring can operate
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FDDI Management
normally in a twisted condition, but the station with both
an A—>A and B—>B connection is isolated from the
primary ring and residing alone on the secondary ring.
B-B Twisted,
Wrapped
The ring is twisted due to the node’s B—>B connection,
as above; in addition, the ring is wrapped, bringing any
node isolated by the twist back into contact with the
stations on the main ring.
Unknown
SPMA is unable to determine the node’s topology state.
Viewing the Station List
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FDDI Management
4-28
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Chapter 5
ATM Configuration
Configuring Permanent Virtual Circuits (PVCs); adding and deleting connection entries
The ATM interface available via the 7A06-01 NIM module provides the
connectivity that allows you to merge ATM network segments with traditional
LAN technologies via the SmartSwitch chassis backplane. Current versions of
7A06-01 firmware use 802.3 VC-based multiplexing for bridging protocols to
move PVC traffic between the ATM front panel connection and the SmartSwitch
backplane; future versions will add support for ATM Forum LAN Emulation and
Cabletron’s SecureFast switching.
An ATM network uses two types of virtual channels, or circuits: Switched Virtual
Circuits, or SVCs, and Permanent Virtual Circuits, or PVCs. SVCs are created and
dismantled dynamically on an as-needed basis, and require no management
definition; PVCs, however, must be manually configured. The AToM MIB
window provides the means for accomplishing these configurations.
Accessing the AToM MIB Window
To access the AToM MIB window
from the Hub View:
1. Click either mouse button on any Module Index or Module Type text box to
display the Module Menu (remember, this menu is the same for all application
display modes).
2. Drag down to ATM, and release.
from the command line (stand-alone mode):
1. From the appropriate directory type:
spmarun atmcfg <IP Address> <community name>
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ATM 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 within the Hub View.
NOTES
If you wish to configure or delete any PVCs from the ATom MIB window, be sure to use a
community name with at least Read/Write access. If you only wish to view configured
PVCs, a community name with Read access will be sufficient.
If there is a hostname mapped to your 7C0x’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.
Figure 5-1. The AToM MIB Window
The AToM MIB window provides the following information about the ATM
connections configured for any installed 7A06-01 interfaces:
Each 7A06-01 NIM provides two ATM interfaces; these are intended to serve as
redundant interfaces, and only one may be active at a time. However, any change in the
active interface will be transparent to the ATM application and requires no additional
configuration; both interfaces share an IF index and all ATM configuration settings.
TIP
Max
Displays the maximum number of connections (both SVCs and PVCs) allowed by
current device firmware.
Configured
Displays the number of connections (both SVCs and PVCs) currently configured.
5-2
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ATM Configuration
The remainder of the window contains a list box which displays the following
information about each of the currently configured PVCs; use the scroll bar to the
right of the list to view additional connections, if necessary:
Interface
The device interface on which the PVC was configured. Index numbers are
assigned in an XXXXYY format, where X = slot index times 10,000, and Y = port
index; note that the redundant interfaces on each 7A06-01 NIM share a single IF
index, and changes in the active interface will be transparent to this window.
VPI
Displays the Virtual Path Identifier assigned to the connection; current versions of
7A06-01 firmware allow values from 0–3. Virtual Path Identifiers are used to
group virtual connections, allowing for channel trunking between ATM switches.
Each VPI can be configured to carry many different channels (designated by
VCIs) between two points.
VCI
Displays the Virtual Channel Identifier assigned to the connection; allowable
values are 0–1023 for each VPI. Each assigned VCI must be unique within its
defined VPI: for example, you can assign a VCI of 14 as many as four times: once
with a VPI of 0, once with a VPI of 1, and so on. Remember, it is the combined VPI
and VCI designations assigned to a channel that creates the grouping of virtual
connections.
AAL Type
This field indicates which AAL protocol type is currently in use on the Virtual
Channel Circuit (VCC). An instance of this object only exists when the local VCL
end-point is also the VCC end-point, and the ATM Adaptation Layer (AAL) is in
use. The ATM Adaptation Layer maps user, control, and management data into or
out of the information field of ATM cells of a virtual connection. The possible
Protocol Type Values are:
•
1 (AAL1) — this protocol is used in Constant Bit Rate (CBR) services, which
require information to be transferred at a constant rate after the virtual
connection has been established.
•
•
34 (AAL3/4) — the protocol used for connectionless or connection-oriented
transfer of data which may be sensitive to loss but not to delay.
5 (AAL5) — the protocol used for connection-oriented data transfer that
requires better error detection than available with AAL 3/4. (Note, however,
that the AAL5 protocol itself does not support multiplexing.)
•
•
other — which may indicate a user-defined AAL type.
unknown — which indicates that the AAL type cannot be determined.
Accessing the AToM MIB Window
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ATM Configuration
Encaps
Displays the method used to encapsulate LAN packets on the selected circuit.
Current versions of 7A06-01 firmware use 802.3 VC-based multiplexing for
bridging protocols (designated 802.3); future versions will add support for ATM
Forum LAN Emulation and Cabletron’s SecureFast Switching.
Status
Displays the current administrative status of the connection: Up (enabled) or
Down (disabled). In current versions of firmware, all connections are enabled by
default, and cannot be disabled.
Uptime
The length of time the selected connection has been enabled. This field is not
currently supported by firmware, and will display only a value of 0.
Selecting the Add button launches the Create Channel window, which allows you
to configure additional PVCs.
Selecting the Delete button deletes the selected connection.
Selecting Update refreshes the connection information displayed in the list box.
Configuring Connections
To configure new Permanent Virtual Circuits (PVCs):
1. From the AToM Mib window, click to select
. The Create Channel
Figure 5-2. The ATM Create Channel Window
2. The Interface text box will by default display the index number assigned to the
active ATM front panel interface whose connection was selected in the AToM
MIB window. If you have more than one 7A06-01 installed in your
5-4
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ATM Configuration
SmartSwitch chassis, use this field to enter the interface number for which
you wish to configure a new circuit. (Remember, each pair of redundant
interfaces shares a single IF index.)
3. In the VPI text box, enter the Virtual Path Identifier you wish to assign to this
connection. Allowable values are 0 to 3; remember, the VPI you assign will be
used to group virtual connections, allowing for channel trunking between ATM
switches.
4. In the VCI text box, enter the Virtual Channel Identifier you wish to assign to
this connection. Allowable values are 0 to 1023 for each VPI. For example,
you could assign the same channel identifier — say, 25 — as many as four
times: once with a VPI of 0, once with a VPI of 1, and so on. Again, remember
that it is the combination of VPI and VCI that will be used to direct cells
through the intermediate switches between the source and destination.
5. Click
to add the new permanent circuit to the ATM interface. This
circuit will remain in place until it is manually removed using the
option in the Current Connections window.
Configuring Connections
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ATM Configuration
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Chapter 6
Using the 7C0x SmartSwitch
Bridge View
A brief explanation of bridging methods; a tour of the Bridge Traffic View; using the Detail View;
monitoring bridge operation; using the Filtering Database; configuring bridge operating parameters;
setting forwarding thresholds, statistics, and notification options; setting polling parameters; enabling
and disabling bridge interfaces
The SPECTRUM Portable Management Application (SPMA) Bridge View
presents a series of windows that describe the bridging services available via the
modules installed in your 7C0x SmartSwitch chassis. You can monitor bridge
activity and performance and manage bridge configuration through the Bridge
Traffic View and other related windows.
Bridging Basics
Bridges are used in local area networks to connect two or more network segments
and to control the flow of packets between the segments. Ideally, bridges forward
packets to another network segment only when necessary. Bridges are also used
to increase the fault tolerance in a local area network by creating redundant
bridge paths between network segments. This is so that in the event of a bridge or
bridge segment failure, an alternate bridge path will be available to network
traffic, without significant interruption to its flow.
The method a bridge uses to forward packets, choose a bridge path, and ensure
that a sending station’s messages take only one bridge path depends on the
bridge’s type: Transparent or Source Routing. This chapter describes viewing and
configuration options related to Transparent bridges.
Source route bridging is not yet supported for the 7C0x SmartSwitch, as no Token Ring
NIMs are currently available.
TIP
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Using the 7C0x SmartSwitch Bridge View
Transparent Bridging
Transparent bridges are most common in Ethernet networks. Individual
Transparent bridges monitor packet traffic on attached network segments to learn
their network segment location in terms of which bridge port receives packets
originating from a particular station (determined via the packet’s Source Address
field). This information gets stored in the bridge’s Filtering Database. When in the
Forwarding state, the bridge compares a packet’s destination address to the
information in the Filtering Database to determine if the packet should be
forwarded to another network segment, or filtered (i.e., not forwarded). A bridge
filters a packet if it determines that the packet’s destination address exists on the
same side of the bridge as the source address.
Transparent bridges in a network communicate with one another by exchanging
Bridge Protocol Data Units, or BPDUs, and collectively implement a Spanning
Tree Algorithm (STA) to determine the network topology, to ensure that only a
single data route exists between any two end stations, and to ensure that the
topology information remains current.
Accessing the Bridge Traffic View Window
There are three ways to open the Bridge View: if you are working within a
network management system, you can select the Bridge View option from the
icon menu; specific directions for creating a 7C0x SmartSwitch icon and accessing
the icon menu can be found in the appropriate Installing and Using SPECTRUM
for... guide. If you are using the Hub View, you can select the Bridge Mgmt option
from the Bridge menu (available only in Bridge Application Display mode); or, if
you are running in a stand-alone mode, type the following at the command line:
spmarun bridge <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 Bridge Traffic View.
NOTES
If there is a hostname mapped to your bridging device’s IP address, you can use
<hostname> in place of <IP address> to launch the Bridge View. 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 community name you use to start the Bridge application 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.
6-2
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Using the 7C0x SmartSwitch Bridge View
The Bridge Traffic View is the heart of the Bridge application. The first window to
appear when you start the Bridge application, it contains a status display of the
device’s bridge ports and contains the buttons and menus that provide access to
all bridge monitoring and management functions.
Navigating Through the Bridge Traffic View
Within the Bridge Traffic View, you can click mouse buttons in different areas of
the window to initiate management tasks. The following diagram shows you how
to display the Bridge Traffic View Device and Port menus.
Each box
represents a
bridge port. Click
button 3
anywhere within
a Bridge Port box
to display the
Port menu. Click
button 1 on a
bridge port to
select it for
display in the
Detail View (at
least two must be
selected to
activate the
Detail View
button).
The Front Panel shows
device-level summary
information.
Click on the Device button
to display the Device menu
Figure 6-1. Mousing Around the Bridge Traffic View
To display the Device menu:
1. Click on
in the Bridge Traffic View front panel.
To display a Port menu:
1. Click mouse button 3 in a Bridge Port box.
Accessing the Bridge Traffic View Window
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Using the 7C0x SmartSwitch Bridge View
Bridge Traffic View Front Panel
The right side of the Bridge Traffic View displays device summary information:
Contact Status
Contact Status is a color code that shows the status of the connection between
SPMA and the device:
•
•
Green means a valid connection.
Blue means that SPMAis trying to reach the device but doesn’t yet know if the
connection will be successful.
•
Red means that SPMA has lost contact with the device.
Uptime
The time that the device has been running without interruption. The counter
resets to 0 days 00:00:00 (X days HH:MM:SS) when one of the following occurs:
•
•
Power to the device is cycled.
The device is reset manually.
Time and Date
The date and time are taken from the device’s internal 24-hour clock, which you
Device Name
This field displays the name you’ve assigned to this device in the Bridge Status
Device Location
This field displays the location you’ve assigned to this device in the Bridge Status
If you have assigned a device name or location that contains more than 18 characters, only
the first 18 will be displayed in the Bridge Traffic View. Check the Device Status window
for the complete name and/or location, if necessary.
NOTE
IP Address
The device’s Internet Protocol address. You cannot change the IP address from
SPMA. For multi-interface devices which support multiple IP addresses, this will
be the IP used to define the device icon (if you are using a management platform)
or the IP used to launch the application (if you are running in stand-alone mode).
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Using the 7C0x SmartSwitch Bridge View
MAC Address
The factory-set MAC hardware address assigned to me 7X00 Controller module’s
backplane (or Host) interfaces. (Note that these two internal interfaces share a
MAC address.)
Clicking on the Device button displays the Device menu. The Device menu lets
you perform the following:
•
•
•
•
•
•
•
Open the Bridge Status window
Display a summary of bridge statistics
Open the Filtering Database window
Open the Find MAC Address window
Open the Special Database window
Open the Spanning Tree Protocol window
Open the Polling Intervals window
If you need to call Cabletron’s Technical Support about a problem with the Bridge
View, you’ll need the information provided in the Information window:
Bridge firmware
revision
SPMA Bridge
View version
Figure 6-2. Bridge Information Window
Clicking mouse button 1 on the Bridge Traffic View Quit button closes all Bridge
View windows.
Accessing the Bridge Traffic View Window
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Using the 7C0x SmartSwitch Bridge View
The Bridge Port Display
Each Bridge Port box in the Bridge Traffic View displays information about its
corresponding bridge port.
The Bridge Port boxes are color-coded, reflecting their current status. Bridge Port
boxes for disabled bridge ports are colored blue. Enabled bridge ports are colored
green, yellow, or red, depending on the range in which the traffic volume through
instructions on assigning traffic ranges and their corresponding Bridge Port box
colors.
Bridge Port box fields are as follows:
Port #
The index number assigned to the bridge port.
Type
The bridge port’s interface type (e.g. ethernet-csmacd, fddi, ppp, token ring, etc.).
MAC
The MAC address of the interface associated with the port.
The remaining information displayed in the Bridge Port boxes depends on
selections made using the buttons located at the bottom of the Bridge Traffic View.
See the next section, Choosing Bridge Traffic Information: Bridge Traffic View
Buttons, for instructions on using these buttons.
Choosing Bridge Traffic Information: Bridge Traffic View Buttons
The four buttons at the bottom of the Bridge Traffic View control the type of
information that appears in some of the Bridge Port box fields. (The Port number,
Type, and MAC address fields are not affected by any of these buttons.)
The Frames/Admin, Source Routing/Transparent, and Delta/Percentage buttons
each let you choose one of the two display modes for the Bridge Port boxes. The
display mode visible on a button is the one not currently selected. Clicking on a
button when the button displays the desired mode type chooses that mode type
for the Bridge Port boxes. For example, the Frames/Admin button will display
Frames when the Admin display mode is in effect and Admin when the Frames
display mode is in effect.
The Frames/Admin button allows you to change the information displayed in the
Bridge Port boxes between traffic statistics (when Frames is selected) and port
state/status (when Admin is selected).
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Using the 7C0x SmartSwitch Bridge View
The Frames display mode shows the following Bridge Port information:
•
•
•
Frms In—Displays the total number of frames, including BPDU frames,
received at this bridge port from its attached network segment during the last
polling interval.
Frms Out—Displays the total number of frames, including BPDU frames,
transmitted or forwarded through this port to its attached network segment
during the last polling interval.
Forwarded—Displays frames forwarded by this bridge port to another bridge
port on the device during the last polling interval. You can change this display
using the Delta/Percentage button (described in this section). When Delta is
selected, this field displays the total number of frames forwarded by this
bridge port to another port on the bridge during the last polling interval. When
Percentage is selected, this field displays the percentage of all frames received
by the port from its network segment that were forwarded to another port on
the bridge during the last polling interval.
When the Admin option is selected, the Bridge Port boxes display port Status
—whether the port is enabled or disabled — and port State.
Enabled
The port is able to participate in bridging and the
Spanning Tree Algorithm.
Disabled
The port cannot participate in bridging or Spanning Tree
operations.
A port’s State indicates whether or not the port is forwarding packets and
participating in the exchange of BPDUs. The Spanning Tree Algorithm determines
the state of each port in order to maintain an active topology with no data loops.
As a port moves from the blocking to the forwarding state, it will remain in each
state for the duration of the Forward Delay in order to prevent data loops while
the active topology is changing. Possible port states are as follows:
Disabled
The port has been disabled by management; it cannot
receive or forward traffic, and is not participating in the
exchange of BPDUs.
Blocking
This port is not forwarding or receiving traffic (and
therefore no physical address information is added to the
Filtering Database), but it will still send out and receive
BPDUs. A port will enter the blocking state for two
reasons: if it receives information that another bridge is
the designated bridge to the network segment to which
this port is attached, or immediately after it has been
enabled by management.
Listening
This state is entered from the blocking state when the
STA determines that this port should participate in frame
relay. The port is processing BPDUs, but is not yet
forwarding or receiving traffic or adding information to
the Filtering Database.
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Using the 7C0x SmartSwitch Bridge View
Learning
The port is processing BPDUs, but is not yet relaying
packets. The port is adding address information to the
Filtering Database.
Forwarding
A port enters this state from the Learning state. The port
is relaying frames and processing BPDUs. A port in this
state can enter the Disabled state via by management
action.
Broken
If the port is malfunctioning, this value will display in
the State field.
This button is grayed out because the 7C0x SmartSwitch currently performs
Transparent bridging only (since no Token Ring NIMs are yet available). The title
bar at the top of the Bridge Port display area indicates the frame type described in
the bridge ports.
This two-state button is active when you have bridge statistics displayed in the
Bridge Port boxes (i.e., when Frames is selected); otherwise, it is grayed. When
you click on Delta, the Forward field in the Bridge Port boxes displays the total
number of frames forwarded by this bridge port to another port on the bridge
during the last polling interval. When you click on Percentage, the Forward field
in the Bridge Port boxes displays the percentage of all frames received by the port
from its network segment that were also forwarded to another port on the bridge
during the last polling interval.
The Detail View button lets you take a closer look at traffic between two, three, or
four selected bridge ports. The Detail View button is grayed unless you have at
least two bridge ports selected. For complete instructions on how to use the Detail
View, see the next section.
Using the Detail View Window
The Detail View provides port-level information on any two, three, or four ports.
To open the Detail View:
1. In the Bridge Traffic View, select two, three, or four ports by clicking mouse
button 1 on the desired ports; the selected Port boxes will be outlined, and the
top part of each selected box will be grayed.The Detail View button becomes
active once you select at least two bridge ports.
2. Click on the Detail View button. The Detail View window appears.
6-8
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Each port shows the total frames transmitted and
received by the port.
Port summary information includes Port Index (at
the top of the Bridge Port box), Port Status,
Bridge Port State, and Frames Forwarded.You
can display Frames Forwarded as a delta value
(the total number of frames forwarded by this
bridge port to any other port on the bridge during
the last polling interval) or as a percentage value
(showing the percentage of all frames received by
the port from its attached network segment during
the last polling interval that were forwarded to
another port on the bridge) by clicking the
Delta/Percentage button at the bottom of the
Each corner of the bridge port summarizes
activity to another bridge port.You can display
Forwarded To as a delta value (the total number
of frames forwarded by this bridge port to the
specified port on the bridge during the last polling
interval) or as a percentage value (showing the
percentage of all frames received by the port
during the last polling interval that were forwarded
to the specified port on the bridge) by clicking the
Delta/Percentage button at the bottom of the
Figure 6-4. Port Boxes in the Detail View
Changing Ports in the Detail View
The Detail View can display up to four ports at the same time. If the bridge has
more than four ports, you can show other device ports by exchanging an existing
port in the Detail View for a port that is not displayed.
To select a new port for the Detail View:
1. In the Detail View, click mouse button 3 on the bridge port you want to replace
with another port. The Change Menu appears.
2. Select the range of bridge ports (e.g., Port 1-10) that includes the desired
port. A menu listing the individual ports included in the selected range (i.e.,
Port 1, Port 2, Port 3, and so on) will appear. Ports that are currently
displayed in the Detail View are grayed in the menu.
3. Select the desired Bridge Port index number from the list. The port box will
display information for the newly selected port.
6-10
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The Bridge Status Window
You can set or change the device time, date, name, or location—all of which
display in the Bridge Traffic View Front Panel—in the Bridge Status window.
The Contact field is the only Bridge Status window field not displayed in the
Bridge Traffic View Front Panel. Use the Contact box to record the name and
phone number of the person responsible for the device.
To set or change information for any of the Bridge Status window fields:
1. Display the Device menu by clicking on the Front Panel
button.
2. In the Device menu, drag down to Status and release.
3. In the Status window, highlight a text box, type in the new information; press
Enter or Return on the keyboard to set your changes before selecting a new
field.
Figure 6-5. Bridge Status Window
The Bridge Statistics Window
The Bridge Statistics window displays generic information about all ports
associated with the device.
To open the Bridge Statistics window:
1. In the Bridge Traffic View window, click on
menu.
to display the Device
2. Drag down to Bridge Statistics and release. The Bridge Statistics window
appears.
The Bridge Status Window
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Figure 6-6. Bridge Statistics Window
The Bridge Statistics window displays the following information:
Bridging Type
Type refers to the type of bridging supported by the bridge.
•
•
unknown
transparent-only
Total Ports
Shows the total number of bridge ports installed in the 7C0x SmartSwitch chassis.
Port
Displays each port’s index number.
IfIndex
Interface index; a unique value for each network (interface) to which this port
connects. Only a WAN port will connect to more than one interface
simultaneously.
PortCircuit
When dealing with X.25 virtual circuits, it’s possible for two Port Indexes to have
the same IfIndex. In such a case, Port Circuit contains the value of a MIB object
instance unique to the port; otherwise, Port Circuit is equal to 0.0. For example, if
Port 1 maps to IfIndex 1 and Port 2 maps to Ifindex 1, then the Port Circuits are 1.1
and 1.2 respectively.
DelayExceedDiscard
The number of frames a port has discarded due to an excessive transit time
through the bridge.
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MtuExceedDiscard
Mtu stands for “maximum transfer unit”; it is the largest frame size that can be
processed by the 7C0x SmartSwitch. A port discards any received frames that are
larger than the Mtu; this field lists how many such frames were discarded.
The information in the Bridge Statistics window is a snapshot of the data. When
you open the Bridge Statistics window, the application polls the devices for
information. Devices are not polled again until you click mouse button 1 on the
Update button, or close, then re-open the Statistics window.
When a device is reset, statistics windows and/or statistics displays in the Bridge View
windows may display very large numbers for one polling interval. This is due to the
resetting of counters.
NOTE
The Filtering Database Window
In Transparent bridging, each bridge port uses the device’s Filtering Database to
determine a packet’s route through the bridge. The Filtering Database is created
from permanent entries made via management, and from entries learned as the
bridge collects and stores the source address and port association from each
packet it receives.
When in the Forwarding state, the bridge examines each received packet and
compares the destination address to the contents of the Filtering Database. If the
destination address is located on the network from which the packet was
received, the bridge filters (does not forward) the packet. If the destination
address is located on a different network, the bridge forwards the packet to the
appropriate network. If the destination address isn’t found in the Filtering
Database, the bridge forwards the packet to all networks. To keep Filtering
Database entries current, older entries are purged after a period of time, which is
called the Dynamic Ageing Time.
The Filtering Database has two types of entries: Forwarding and Static. The
Forwarding view of the Filtering Database contain addresses that the bridge
learns from network traffic (also known as dynamic entries) as well as all the
static entries. Learned entries are subject to the bridge’s Dynamic Ageing Timer;
entries that aren’t accessed within the time specified by the ageing timer are
purged. Static entries may be subject to the ageing timer, depending on how the
entries were added. Static entries enter the Filtering Database in two ways: either
automatically, when permanent database entries are copied to the Filtering
Database, or manually when you move a Forwarding entry to the Static Table.
The Filtering Database Window
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Using the 7C0x SmartSwitch Bridge View
Viewing the Filtering Database
To open the Filtering Database window:
1. Display the Device menu by clicking on the Front Panel
button.
2. Drag down to Filtering Database, and release.
3. At the top of the Filtering Database window, click mouse button 1 on the
appropriate selection box to view either the Forwarding or Static database.
Click mouse button 1 on
the type of entry you want
to display, either
Forwarding
Static.
or
Figure 6-7. Filtering Database Window
Two fields at the top of the Filtering Database window provide information about
the Filtering Database:
Ageing Time (secs)
The current setting of the bridge’s Dynamic Ageing Timer, used to purge
Forwarding entries from the Filtering Database, or to purge static entries subject
to the ageing timer.
6-14
The Filtering Database Window
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Learned Entry Discards
The number of database entries that never made it into the Filtering Database due
to a lack of buffer space. Ideally, this number should be 0. If this number grows, it
indicates a very busy network. A value other than 0 is acceptable as long as it isn’t
increasing, indicating that the lack of buffer space is sometimes causing problems,
but that the condition is not persistent.
For each entry in the Forwarding database, the window displays the following:
Source Address
Displays the MAC addresses of devices that have transmitted frames to the
bridge.
Port
Identifies the bridge port where frames from the noted source address are
received. A value of 0 indicates that the address exists within the Filtering
Database, but the database has not yet learned the corresponding port number.
Status
Indicates how the entry got into the database:
•
learned—The address was copied into the database from the source address
field of a received frame.
•
•
self—Identifies one of the bridge ports.
management—Indicates an entry that was entered into the database manually.
The status field of all static entries in the Forwarding Table will display
management.
•
•
invalid—The entry is a learned entry that has aged out, but has not yet been
flushed from the table.
other—The bridge is unable to determine the entry’s status.
The information displayed for the Static database is somewhat different; for each
entry, the window displays the following:
Source Address
Displays the MAC addresses of devices that have transmitted frames to the
bridge.
Receive Port
Displays the port on which a packet with the specified source address must be
received in order for the filtering actions specified in the Destination Port field to
take place. A setting of 0 will apply the filtering action anytime a packet with the
specified source address is received by any of the bridge ports.
The Filtering Database Window
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Destination Port
Displays the port or ports to which frames that have the specified source address
and were received on the specified port or ports will be forwarded. Note that
packets with the specified source address received on the specified port or ports
will be blocked from any ports not listed in this field.
If the number of Destination Ports exceeds what the Destination Ports column is
able to display, Destination Ports for that filter appear as a hex string that maps to
actual port numbers.
For example, a Destination Port entry of B54180E0 represents ports 1, 3, 4, 6, 8, 10,
16, 17, 25, 26, and 27. Here’s how to translate the hex string to port numbers:
1. Translate each hex integer into a four-digit binary value:
B
5
4
1
8
0
E
0
1011 0101
0100
0001
1000
0000
1110
0000
2. Each “1” in the binary bitmask represents a Destination Port number:
B
5
4
1
8
0
E
0
1011 0101
0100
0001
1000
0000
1110
0000
1,X,3,4 X,6,X,8 X,10,X,X X,X,X,16 17,X,X,X X,X,X,X 25,26,27,X X,X,X,X
Status
Indicates the assigned permanence of the entry:
•
•
•
permanent—The entry won’t be aged out or deleted on reset.
deleteOnReset—The entry will be deleted when the bridge is reset.
deleteOnTimeout—The entry is subject to the ageing timer.
The buttons at the bottom of the window provide the following functions:
The Delete button is only available when the Filtering Database window is
showing Static entries and one entry in the list is selected. Use the Delete button to
remove an entry from the Static Table; see Deleting a Static Table Entry,
The Change button is only available when the Filtering Database window is
showing Static entries and one entry in the list is selected. Use the Change button
to change the selected port’s receive port/destination ports settings; see
The Add to Static Table button is only available when the Filtering Database
window is showing Forwarding entries and one entry in the list is selected. Use it
to add a forwarding entry to the static database. Since the Forwarding table
cannot be edited, you must add an entry to the Static Table in order to change or
delete it, as desired.
6-16
The Filtering Database Window
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The Ageing Time determines how long a Forwarding entry (or a Static entry with
deleteOnTimeout status) is retained before being discarded due to inactivity. Use
the Change Ageing Time button to set a new Ageing Time; see the following
section for details.
Use the Find button to search the Filtering Database for a specific MAC address;
The Filtering Database window shows a snapshot of the database. Clicking
mouse button 1 on the Update button displays the current database.
Changing the Filtering Database Dynamic Ageing Time
The Dynamic Ageing Time determines how long an entry remains in the Filtering
Database before being purged due to inactivity. Purging older entries ensures that
the Filtering Database is always using current information to make filter/forward
decisions.
During a topology change, the Forward Delay is used as the Filtering Database Ageing
Time, which ensures that the Filtering Database will contain current topology
NOTE
information.
To change the Dynamic Ageing Time:
1. In the Filtering Database window, click mouse button 1 on the Change
Ageing Time button to open the Change Ageing Time window.
2. Highlight and edit the Ageing Time
(in seconds), and then click mouse
button 1 on the Apply button.
or
Use mouse button 1 to drag the slide
bar, then click Apply.
or
Click mouse button 1 next to the slide
to increment the time in 100 second
jumps, then click Apply.
As you change the ageing time,
SPMA converts seconds to
days:hours:minutes:seconds.
Figure 6-8. Changing the Filtering Database Ageing Time
The Filtering Database Window
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Changing Forwarding and Static Database Entries
The only entries that can be changed or deleted in the Filtering Database are static
entries. If the entry you wish to change or delete is a forwarding entry, you must
forwarding entry to a static or permanent entry, or make changes to existing static
entries. To open the Static Table window:
1. Open the Filtering Database window by clicking on the Front Panel
button; drag down to Filtering Database to display the Filtering Database
window.
2. If the Filtering Database window displays Forwarding entries, highlight the
entry you want to change and click on the Add to Static Table button.
or
If the Filtering Database window displays Static entries, highlight an entry and
click on the Change button.
It is also possible to open the Static Table in either case without highlighting an entry, by
clicking on the Add To Static Table button. The static address field will appear blank.
Enter the MAC address that you want to add to the Static Table.
NOTE
Figure 6-9. Static Table Window
6-18
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Static Address
The Static Address field will display the MAC address of the entry you
highlighted in the Filtering Database window. If no entry was selected, the
address field will contain zeros, and a valid MAC address may be entered.
Receive Port
The Receive Port list box specifies the port on which packets from the specified
static address must be received in order for the static database entry to apply. If
All is selected, the entry will be applied to packets forwarded to any port.
Forward To Ports
The Forward To Ports list box specifies the ports to which packets with the
specified source address received on the specified ports will be forwarded. The
port or ports selected in this list will be displayed in the Filtering Database
window as the Destination Port.
To change an entry:
1. Click mouse button 1 on the port in the Receive Port list box that you want to
specify as the receive port for the entry in the Static Address field (remember
that if All is selected, the entry will be applied to packets received on any
port).
2. Click mouse button 1 on any port or ports in the Forward To Ports list that
you want to be displayed in the Filtering Database window as the destination
port.
3. Click mouse button 1 on the Status button and choose one of the following:
permanent—The entry won’t be aged out or deleted on reset.
deleteOnReset—The entry will deleted when the bridge is reset.
deleteOnTimeout—The entry is subject to the ageing timer.
4. After you set the entry’s status, click mouse button 1 on the Apply button.
Deleting a Static Table Entry
To delete a Static Table entry:
1. In the Filtering Database window, click mouse button 1 in the appropriate
selection box to display the Static database.
2. Select the entry you want to delete by clicking it with mouse button 1.
3. Click on the Delete button.
The Filtering Database Window
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Finding a Filtering Database MAC Address
To find a source address in the Filtering Database:
1. In the Filtering Database window, click on the
Find MAC Address window.
button to open the
or
In the Bridge Traffic View, display the Device menu by clicking on the Front
Panel button. Drag down to Find MAC Address.
2. In the edit box, enter a valid MAC
address and then press the
Return key. If the address is found
in the Filtering Database, its port
location and status will appear in
the list box. If it is not found, a
separate window will appear with
a “Not Found” message.
Figure 6-10. Find MAC Address Window
The Spanning Tree Protocol Window
Bridges in a network collectively implement a Spanning Tree Algorithm (STA) to
detect and eliminate data loops in a network containing parallel bridges.
In a network designed with multiple bridges placed in parallel (i.e., attached to
the same network segment), Spanning Tree selects a controlling Root Bridge and
Port for the entire bridged local area network, and a Designated Bridge and Port
for each individual network segment. The Root bridge is the one that selects one
of two or more available bridge paths between two end stations, basing its
decision on factors associated with each of the bridges in the path. A Designated
Port/Bridge for a network segment relays frames toward the Root Bridge, or from
the Root Bridge onto the network segment. When data passes from one end
station to another across a bridged local area network, it is forwarded through the
Designated Bridge/Port for each network segment towards the Root Bridge,
which in turn forwards frames towards Designated Bridges/Ports on its opposite
side.
During the Root Bridge selection process, all bridges on the network
communicate STA information via Bridge Protocol Data Units (BPDUs). It is with
BPDUs that the bridges collectively determine the current network topology and
ensure that all bridges have current topology information.
6-20
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The Spanning Tree Protocol window displays information used by the network
bridges to select the Root Bridge and parameters that affect the bridge’s
participation in Spanning Tree operations.
To open the Spanning Tree Protocol window:
1. Click on the Front Panel
button.
2. Drag down to Spanning Tree and release.
Figure 6-11. Spanning Tree Protocol Window
The Spanning Tree Protocol window displays the following information:
Spanning Tree Version
The version shows the Spanning Tree Protocol type employed by this bridge:
•
•
•
IEEE 802.1d
DEC LAN 100
None
You must use either 802.1d or DEC to interconnect all bridges in a network using
parallel bridges. By default, a Cabletron bridge turns on the 802.1d Spanning Tree.
All of Cabletron’s bridge products have the ability to use either the 802.1d or DEC
Spanning Tree version, or they can be set so that no version is in effect. (A bridge
should be set to None if there are no redundant loops incorporated within the
network.)
The Spanning Tree Protocol Window
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All bridges in a network must use the same Spanning Tree version. Mixing Spanning Tree
Algorithm protocols will cause an unstable network.
!
CAUTION
Designated Root
This value represents the bridge that is the current Root Bridge as determined by
the STA. The Designated Root value consists of the configurable portion of the
bridge ID (i.e., the first two octets of the eight-octet-long bridge ID) and the root
bridge device’s MAC address (the last six octets of the bridge ID). This value is
used as the Root Identifier parameter in all configuration BPDUs originated from
this node.
Num.Topology Chgs.
Indicates the number of times the bridge’s Topology Change flag has been
changed since the bridge was powered up or initialized. The Topology Change
flag increments each time any of the network’s bridges enters or leaves the
network or when the Root Bridge ID changes.
The values for the following three fields—Forward Delay, Max Age, and Hello
Time—represent the values that are currently being used by all bridges, as
dictated by the Root bridge. In the Spanning Tree Protocol window, you can view
and set the values—Root Forward Delay, Root Max Age, Root Hello Time—that
will be in effect when the bridge for which you are setting the parameters
becomes the Root Bridge.
Forward Delay
The length of time, in seconds, that controls how long a bridge port remains in
each state (Forwarding, Learning, Listening, etc.) when moving toward the
Forwarding state. During a topology change, the Forward Delay is also used as
the Filtering Database Ageing Time, which ensures that the Filtering Database
will contain current topology information. The Root Bridge sets the Forward
Delay.
Max Age
The current setting for the bridge’s BPDU ageing timer, in seconds. The ageing
timer defines the maximum number of seconds that a Configuration BPDU is
retained by the bridge before it is discarded. During normal operation, each
bridge in the network receives a new Configuration BPDU before the ageing timer
expires. If the timer expires before a new Configuration BPDU is received, it
indicates that the former Root is no longer active. The remaining bridges begin
Spanning Tree operation to select a new Root. The Root Bridge determines the
Max Age. The range for this field is from 6 to 40 seconds, with a default value of
20 seconds.
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Hello Time
Indicates, in seconds, the length of time the Root Bridge, or bridge attempting to
become the Root, waits before resending a Configuration BPDU. The Root Bridge
determines the Hello Time.
Priority
The Spanning Tree Algorithm assigns each bridge a unique identifier, which is
derived from the individual port’s MAC address and its priority as determined
by the Spanning Tree Algorithm or your setting. The bridge with the lowest value
of bridge identifier is selected as the Root. A lower priority number indicates a
higher priority; a higher priority enhances a bridge’s chance of being selected as
the Root.
Acceptable values range from 0-FFFF and can be edited to change the network
topology, if needed. The default is 8000.
Root Port
The port identifier (i.e., the physical index number) for the port that provides the
lowest cost path to the Root Bridge. The Root Port field displays 0 if this bridging
device is the Root Bridge.
Root Cost
Indicates the cost of the data path from this bridge to the Root Bridge. Each port
on each bridge adds a “cost” to a particular path that a frame must travel. For
example, if each port in a particular path has a Path Cost of 1, the Root Cost
would be a count of the number of bridges along the path. This field will read 0 if
an interface on the 7C0x SmartSwitch is the Root Bridge. See Changing a Port’s
Hold Time
The minimum time, in seconds, that can elapse between the transmission of
Configuration BPDUs. The Hold Time ensures that Configuration BPDUs are not
transmitted too frequently through any bridge port. Receipt of a Configuration
BPDU starts the Hold Time count at a device. If the Hold Time expires, the port
invokes the Transmit Configuration BPDU procedure, which sends configuration
change information to the Root. The Hold Time is a fixed value, as specified by
the IEEE 802.1d specification.
The values for the Forward Delay, Max Age, Hold Time, and Hello Time fields are stored
within the MIB in units of hundredths of a second rather than seconds; your Cabletron
management application converts hundredths of a second to seconds for display purposes.
You can use any SNMP Set Request tool to edit the values for these three fields; just
remember that you must enter your values in hundredths of seconds, rather than in
seconds.
NOTE
The Spanning Tree Protocol Window
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Root Forward Delay
The Forward Delay (in seconds) that will be implemented by this bridge if it is the
Root or becomes the Root. (The Root Bridge in the network sets the Forward
Delay for all bridges in the Spanning Tree network.)
The IEEE 802.1d specification recommends that Forward Delay = 15 seconds, with
an allowable range of 4 to 30 seconds.
To ensure proper operation of the Spanning Tree Algorithm, the IEEE 802.1d specification
recommends that you always observe the following relationship between Forward Delay
and Max Age:
TIP
2 x (Forward Delay - 1.0) > Max Age
Root Max Age
The Max Age value (in seconds) that will be implemented if this bridge is the Root
or becomes the Root. (The Root Bridge in the network sets the Max Age for all
bridges in the Spanning Tree network.)
The IEEE 802.1d specification recommends that Max Age = 20 seconds, with an
allowable range of 6 to 40 seconds.
Root Hello Time
The Hello Time that will be implemented if this bridge is the Root or becomes the
Root.
The IEEE 802.1d specification recommends that Hello Time = 2 seconds, with an
allowable range of 1 to 10 seconds.
The Spanning Tree Port Table button opens the window in which you set
Changing Spanning Tree Parameters
To change the Bridge Priority, Root Forward Delay, Root Max Age, or Root Hello
Time:
1. In the Spanning Tree Protocol window, highlight the current value of the field
you want to change.
2. Type the new value in the appropriate text box and press Enter or Return on
the keyboard.
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The Spanning Tree Protocol Window
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The Spanning Tree Port Parameters Window
The Spanning Tree Algorithm ensures that only a single bridge path exists
between any two end stations in a network designed with multiple bridges
placed in parallel; it also ensures that on any given bridge, only one port path
exists between the bridge and any one network segment. In the Spanning Tree
Port Table you can view and edit the Spanning Tree values for individual ports;
the Spanning Tree Port parameters affect a port’s participation in the Spanning
Tree.
Setting Spanning Tree Port Parameters only affects port selection on a particular bridge;
settings do not affect the 7C0x SmartSwitch’s device-level priority in the network’s
Spanning Tree.
NOTE
To open the Spanning Tree Port Table window:
1. Display the Device menu by clicking on the Front Panel
button.
2. Drag down to Spanning Tree to open the Spanning Tree Protocol window.
3. In the Spanning Tree Protocol window, click on the SpanningTree PortTable
button.
or
1. In the Bridge Traffic View, click mouse button 3 on a port to display the Port
menu and drag down to Spanning Tree.
The scroll list at the top of the window lists each bridge port available on the
device and its current port priority. Below the Port List, the window includes the
following:
Priority (Port)
If two or more ports on the same bridge are connected to the same network
segment, each port will receive the same device-level values for Root ID, Root
Cost, and Bridge ID in Configuration BPDUs. In this case, the BPDU’s port-level
information—the transmitting port’s identifier and its manageable Priority
component— is used to determine which port on this bridge will be the
Designated Port for that segment. A lower number indicates a higher priority; the
default is 80. The allowable range is 0 to FF.
Path Cost
The portion of the total path cost associated with this port. Lowering a port’s Path
Cost makes a port more competitive in the selection of the Designated Port. The
default value is 100 for Cabletron bridges. The allowable range is from 1 to 65535.
The Spanning Tree Port Parameters Window
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Figure 6-12. Spanning Tree Port Parameters Window
Designated Cost
The cost of the path from this port to the Root Bridge on the network. If the
highlighted port is the Root Port, the Designated Cost is 0. If this bridge is the
Root Bridge, all its bridge ports have a Designated Cost of 0. This value is
compared to the Root Path Cost field in received configuration BPDUs.
Designated Root
The unique Bridge Identifier of the bridge that is assumed to be the Root Bridge
on the network; this information is contained in the Configuration BPDUs.
Designated Bridge
Displays the MAC address and priority component of the Bridge ID for the bridge
that is believed to be the Designated Bridge for the network segment associated
with this port.
The Designated Bridge ID, along with the Designated Port and Port Identifier
parameters for the port, is used to determine whether this port should be the
Designated Port for the network segment to which it is attached.
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Designated Port
The Port ID of the port on the Designated Bridge for this port’s segment. The
Designated Port is the bridge port that offers the lowest path cost to the Root
Bridge.
Forward Transitions
The number of times this port has moved from the Learning state to the
Forwarding state since the device was started or since it was last reset.
Changing a Port’s STA Parameters
To change a port’s Priority or Path Cost:
1. In the scroll list, click mouse button 1 on the port you want to change (use the
scroll bar if necessary to display the desired port).You can only select one
port at a time. The highlighted port’s Spanning Tree parameters appear in the
boxes below the list.
2. Highlight and edit the Priority and Path Cost boxes as required. After you
type in the new value in a box, press Enter or Return on the keyboard.
Creating Bridge Traffic Charts, Graphs, and Meters
The Bridge application uses the SPMA Charts, Graphs and Meters tools to depict
bridge statistics describing activity at the bridge-port level. Once running,
however, a pie chart, graph or meter is independent from the application where it
was started. Although the windows you open to create pie charts, graphs and
meters have unique variable lists, the procedures for creating a pie chart, a graph
or a meter are the same.
To access the Pie Chart, Graph, and Meters tools from the Bridge Traffic View Port
menus:
1. Click mouse button 3 on a Bridge Port box to display the Bridge Port menu.
2. Drag down to select Pie Chart or Graphs/Meters—>Transparent.
Creating Bridge Traffic Charts, Graphs, and Meters
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Figure 6-13. Pie Chart Window
For complete descriptions of chart, graph, and meter variables and details on how
to create and control a pie chart, graph or meter, see the chapter on charts, graphs
and meters in the SPMA Tools Guide.
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
The Bridge Port Forwarding Statistics Window
The Bridge Port Forwarding Statistics window displays a breakdown of activity
between the selected port and each of the other bridge ports.
To view statistics for a particular bridge port:
1. In the Bridge Traffic View, click mouse button 3 on a bridge port to display the
Port menu.
2. Drag down to Forwarding Statistics —>Transparent and release to open
the Statistics window.
6-28
The Bridge Port Forwarding Statistics Window
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Indicates the port from
which the Statistics
window was opened.
The two windows show
forwarding activity
between the selected
port and each of the
other bridge ports.
Port summary statistics.
The Frame Type
Breakdown button is
only available for
bridges performing
Source Routing.
Figure 6-14. Bridge Port Forwarding Statistics Window
Port Forwarding Statistics Window Fields
The Bridge Port Statistics window contains two list boxes detailing port
forwarding activity to and from the currently selected port:
•
The leftmost list box shows frames forwarded to each of the other bridge ports
from the currently selected port.
•
The rightmost list box shows frames forwarded to the currently selected port
from each of the other bridge ports.
The list box detail fields are:
Port
The port number to/from which frames are being forwarded.
Frms Fwd
The total number of frames forwarded to/from the selected port to/from the
other bridge ports during the last polling interval.
% of Total
In the Frames forwarded to each Bridge Port list box, this is the percentage of all
frames forwarded to the selected port that were then forwarded to other bridge
ports during the last polling interval. In the Frames forwarded from each Bridge
Port list box, this is the percentage of all frames received by the selected bridge
port that were forwarded to that port by other bridge ports.
The Bridge Port Forwarding Statistics Window
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Using the 7C0x SmartSwitch Bridge View
The four statistics shown beneath the list boxes are the port summary statistics,
which consist of:
Total Frames Forwarded
The total number of frames forwarded through the bridge to another segment.
Total Frames Received
The number of frames, of all types, received at the port.
Total Frames Transmitted
The number of Bridge Protocol Data Units (BPDUs) transmitted by the bridge.
Total Frames Filtered
The total number of frames not forwarded through the bridge.
The statistics shown in the Bridge Port Statistics window reflect a “snapshot” of the
statistics from the time the window was opened. To refresh the statistics, you must close
this window and open it again.
NOTE
Configuring Forwarding Thresholds
You can define notification thresholds for bridge port forwarding levels and then
have SPMA use those thresholds to do one or more of the following:
•
•
•
Color code the Bridge Port display boxes
Send Internet mail to a registered user
Launch a program on your management workstation
To open the Forwarding Thresholds window:
1. Click button 3 anywhere within a Bridge Port display box in the Bridge View to
display the Port menu.
2. In the Port menu, click button 3 on Forwarding Thresholds —>Transparent
to open the Forwarding Thresholds window.
6-30
Configuring Forwarding Thresholds
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Using the 7C0x SmartSwitch Bridge View
A traffic level is the specified
value of forwarded frames as a
percentage of total received
frames.
You can specify traffic levels that
define the boundary between the
low and medium ranges and
between the medium and high
ranges.
When SPMA polls the device and
detects that the percentage of
forwarded frames has moved into
a new range, heading either up or
down, the notification options and
conditions in use for that port take
place.
Figure 6-15. Port Forwarding Thresholds Window
SPMA polls a bridge at preset intervals, as defined in the Polling Intervals window
accessed from the Bridge View Device menu. A port’s traffic level can pass from one range
to the next and then back to the original level between polls from SPMA. When this
occurs, SPMA won’t record that the threshold has been passed because the event was
never observed.
NOTE
To set bridge port thresholds, notification options, and notification conditions:
1. In the Forwarding Thresholds window, highlight the port where you want to set
thresholds.You can select multiple ports by clicking button 1 on each one. To
deselect a port, click it again. To apply the settings to all bridge ports, you can
use the options provided at the bottom of the screen rather than selecting all
ports in the scroll list.
Configuring Forwarding Thresholds
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Using the 7C0x SmartSwitch Bridge View
2. In the Modify Range section of the Forwarding Thresholds window, you can
edit the line that displays the high end of the Low and Mid ranges, or you can
use the slide bars to specify the thresholds.You can also assign a color to
each of the three ranges.The Bridge Port boxes on the Bridge Traffic View will
be colored according to the settings made here (i.e., if you assign the color
red to the High traffic range, then a Bridge Port box will be colored red when
its traffic range is High). To set the high end of the Low and Mid ranges, and
assign color codes to all three ranges:
a. Change the upper limit of the Low and Mid traffic ranges by highlighting
the value, typing the new value, and pressing Enter or Return.You may
also change the value by moving the slide bar next to the value you wish
to change until the desired range is reached.
b. By default, bridge ports are color coded in the Bridge Traffic View
according to their traffic level: Low range is green; Mid range is yellow;
High range is red. To assign color codes to the three traffic ranges, click
on the Low, Mid, or High buttons to the left of the range fields, drag to
highlight the desired color, and release. The selected color will be
displayed on the button, and will be used in the Bridge Port boxes when
the color’s corresponding range is reached.
3. In the Notification Options section, you can enable/disable threshold event
logging, enable/disable the Bridge Port box colors, and assign threshold
events (send mail or execute a program) to the different (or to all) threshold
ranges. To do so:
a. To disable threshold event logging, deselect the Log Changes in State
checkbox. By default, all threshold events are logged. For more
information about the Forwarding Log, see Viewing the Forwarding Log
b. To enable/disable the colors, click button 1 on the Color box.When colors
are disabled, the Bridge Port box colors in the Bridge Traffic View remain
as they were when the colors were last enabled.
c. To send mail or execute a program when a threshold range is reached,
first click the Threshold Range button to which you want to apply the
threshold event. To send mail for a threshold event, select the Send Mail
box and enter the name of a registered mail user. To have a threshold
event launch a program, select the Execute Program (Args) box and
enter the name of an executable file, including required arguments.
6-32
Configuring Forwarding Thresholds
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Using the 7C0x SmartSwitch Bridge View
4. Notification Conditions make your Notification Options subject to defined
conditions:
a. If you check the In—Out—In box, notification takes place when the
threshold passes from one range to another and then back. The number
in the Delay box specifies the number of times this transition is to take
place before notification is launched. The Current box counts down the
transitions.
b. If you select the Remain—In box, notification takes place when the
threshold passes from one range to another, and stays in that range for
the number of polling cycles specified in the Delay box.
c. If you check the Once Only box, notification only takes place the first time
the Delay count is reached.
5. The Save option gives you three choices as to how the options and conditions
you have selected will be saved.
a. If you choose Disabled, none of the options and conditions you have
chosen will be saved to the bridge database.
b. If you select As Default, the chosen options and conditions will be saved
as default values.The saved information will be used for any IP not having
an entry in the bridge database.
c. If you select By IP, the options and conditions chosen for that IP will be
saved to the bridge database, and the next time the application is run for
this device the saved values will be used.
6. When you’re finished setting thresholds and notification options, click button 3
on the Apply button and choose either Selected Only or All. Selected Only
applies the selected Forwarding Thresholds settings to the ports that are
highlighted in the scroll list near the top of the Forwarding Thresholds window.
Viewing the Forwarding Log
The Forwarding Log records an entry each time a bridge port’s traffic passes a
preset traffic threshold. By default, logging is enabled for all bridge ports.
To open the Forwarding Log window:
1. In the Bridge Traffic View, click mouse button 3 in one of the bridge ports to
display the Port menu.
2. In the Port menu, click button 3 on Forwarding Log and then drag right to
Transparent.
Viewing the Forwarding Log
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Figure 6-16. Sample Forwarding Log Window
To select a different Bridge Port log:
1. Use the slide bar at the top of the Forwarding Log window to select a different
port.
To clear all logs or just the current log:
1. Click on the Clear button and then select the appropriate choice, either
Current Log or All Logs.
To change the number of entries retained by the log:
1. Highlight the Max Number line, type a new number and press Return on the
keyboard.
Log entries are stored in the SPMA software. When the maximum number of entries is
reached, the entries get aged out as necessary, starting with the oldest entry first.
NOTE
6-34
Viewing the Forwarding Log
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Using the 7C0x SmartSwitch Bridge View
To save log files:
1. Click on the Save button and select either Current Log or All Logs to open
the Save Log window.
2. In the Save Log window, enter a file name for the file to be saved and then
click on the OK button. The default directory for saved log files is the current
directory. To specify a different directory, include the path name with the log
file name.
To disable the Forwarding Log of all bridge ports or individual bridge ports:
1. Click button 3 on the appropriate Bridge Port box to display the Port menu.
2. In the Port menu, click button 3 on Forwarding Thresholds and then drag
right to Transparent.
3. In the Forwarding Thresholds window, deselect the Log Changes in State
box.
4. Click on the Apply button and then click on either Selected Only or All.
Changing Polling Intervals
Much of the information displayed in the Bridge Traffic View is gathered
periodically rather than continuously. You can edit the times between these
periodic polls.
To edit the polling times:
1. Display the Device menu by clicking on the Front Panel
button.
2. Drag down to Polling Intervals and release. The Polling Intervals window
displays.
Figure 6-17. The Polling Intervals Window
3. Highlight and edit the Device Info and Bridge Port Display Info boxes and
then click on the Apply button to save changes.
Changing Polling Intervals
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Using the 7C0x SmartSwitch Bridge View
You can change values for the following polling interval fields:
Device Info
Specifies the time, in seconds, that SPMA waits before updating the Front Panel
information (Uptime, Location, and so forth) in the Bridge Traffic View.
Bridge Port Display Info
Specifies the time, in seconds, that SPMA waits before updating statistical and
status information in the Bridge Traffic View port display boxes.
Enabling and Disabling Ports
When you disable a bridge port, you disconnect that port’s network from the
bridge entirely. Nodes connected to the network can still communicate with each
other, but they can’t communicate with the bridge and other networks connected
to the bridge.
In Transparent bridges, the disabled port does not forward any packets, nor does
it participate in Spanning Tree operations. When you enable a port on a
Transparent bridge, the port moves from the Disabled state through the Blocking,
Learning, and Listening states to the Forwarding state.
Enabling and disabling a port changes its Port Status, not its Port State. An enabled port
is able to participate in bridging and Spanning Tree operations. A disabled port on a
Transparent bridge does not participate in bridging or Spanning Tree operations.
NOTE
Enabling and Disabling a Transparent Bridge Port
To enable or disable a Transparent bridge port:
1. In the Bridge Traffic View, display the Port menu by clicking mouse button 3 in
a Bridge Port box. Select the port that connects to the network that you want
to enable or disable.
2. In the Port menu, click button 3 on Enable or Disable, drag right to
Transparent, and release.
6-36
Enabling and Disabling Ports
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Using the 7C0x SmartSwitch Bridge View
When you disable a Transparent bridge port, the port’s display box turns blue.
When you enable a Transparent bridge port, the port’s color changes to indicate
the forwarding threshold range. (Port color codes are only active if the Color box
is selected in the Forwarding Thresholds window. Color codes are on by default.)
Enabling and Disabling Ports
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Using the 7C0x SmartSwitch Bridge View
6-38
Enabling and Disabling Ports
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Appendix A
7C0x SmartSwitch
MIB Structure
7C0x SmartSwitch management information base configuration
IETF MIB Support
In addition to its proprietary features, the 7C0x SmartSwitch currently supports
the following IETF MIBs:
•
•
•
•
RFC 1213 MIB for Network Management of TCP/IP-based Internets: MIB-II
RFC 1493 Definitions of Managed Objects for Bridges
RFC 1512 FDDI Management Information Base
RFC 1757 Remote Network Monitoring MIB
7C0x SmartSwitch MIB Structure
Cabletron’s newer intelligent devices — like the 7C0x SmartSwitch — 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, 7C0x
bridging information is organized into its own component, and SecureFast
switching resides in a separate component; RMON functionality is contained
within its own component; and an ATM component will be instantiated whenever
a 7A06-01 NIM is installed in the SmartSwitch chassis.
The 7C0x SmartSwitch MIB consists of up to nine components, each of which is
described below. Note, however, that at any given time, the MIB component list
displayed by your 7C0x may not include some of the components described
below, since the SmartSwitch has the ability to alter the components which make
up its MIB in response to changes in the chassis. For example, if no FDDI or ATM
NIMs are installed, the related MIB components will not appear in the list;
similarly, either the bridge or the switch component will be instantiated,
A-1
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7C0x SmartSwitch MIB Structure
depending on which functionality the device has been configured to use. To see
which MIB components are currently being used in your 7C0x SmartSwitch, bring
up the Community Names application, or use any SNMP Get operation that will
allow you to view the contents of the contLogicalEntryTable.
The 7C0x SmartSwitch MIB consists of the following components:
Chassis MGR
The Chassis MGR MIB component contains most of the basic information about
the 7X00 SmartSwitch Controller module, 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
7C0x’s MIB component information (in the contLogicalEntryTable), device and
module names, hardware revision numbers, MAC and IP addresses, the current
time and date, and information related to connected uninterruptable power
supplies and TFTP download. The system, interfaces, at, ip, icmp, udp, and snmp
groups from MIB-II and the objects that provide Local Management functionality
are also included. 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.
CTATM_MIB
The ATM_MIB component contains the objects that provide the ATM NIM’s
uplink port with its network functionality.
Transparent Bridge
The Transparent Bridge MIB component — instantiated only when the 7C0x has
been configured (currently via Local Management) to operate in traditional
bridging mode — controls all of the 7C0x’s transparent bridging functions,
including bridge port description and status, bridging statistics (frames
forwarded, frames blocked, etc.), and bridge configuration information.
Since there are currently no Token Ring NIMs available for the 7C0x SmartSwitch
chassis, no source route bridging functions are supported at this time.
NOTE
IP Services
Like the Host Services MIB component, the IP Services MIB component contains
some objects related to basic IP functionality.
A-2
7C0x SmartSwitch MIB Structure
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7C0x SmartSwitch MIB Structure
RMON Default
The RMON, or Remote Network Monitoring, Default MIB component contains
the statistics, history, alarm, and event groups from the RMON MIB (RFC 1757).
This component is shipped in an inactive state, and can be activated and
deactivated as necessary.
Host Services
The Host Services MIB component contains the objects that provide the 7C0x with
its IP functionality — essentially, those functions which allow the 7C0x to operate
over a network — including functions such as ping, Telnet, and TFTP.
MIB Navigator
The MIB Navigator component provides a command set from which you can
configure and manage your 7C0x SmartSwitch by telnetting directly into the
device and viewing and modifying the objects in the device’s MIB. The MIB
Navigator is accessible through SPMA via the Telnet application; see the SPMA
Tools Guide and/or your 7C0x hardware manual for more information.
FDDI SMT
The FDDI SMT (Station ManagemenT) MIB component contains the objects that
allow the FDDI NIM ports to function as stations on the FDDI ring, including
information regarding connection policy, configuration, T-Req and T-Neg values,
the TVX timer value, duplicate address testing, frame status, version IDs, and
upstream neighbor addresses.
SWITCH Services
The SWITCH Services MIB component — instantiated only when the 7C0x has
been configured (currently via Local Management) to operate in SecureFast
switching mode — provides the objects necessary for SecureFast switching
operation, including administrative and operational status, port types, switch
capacity, connection table data, a variety of switching-related statistics, and
switch configuration parameters.
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 may occur if multiple instances
of the same component are required).
7C0x SmartSwitch MIB Structure
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7C0x SmartSwitch MIB Structure
Newer versions of devices with this component-based MIB architecture — like
the 7C0x SmartSwitch — 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
(where necessary). 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
the new global community names — like the 7C0x SmartSwitch — this only
means that you must make note of the automatic modifications that are made for
multiple instances of the same component, 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 both view and set the community names which apply to your device.
A-4
7C0x SmartSwitch MIB Structure
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Index
bridge port state 6-7
blocking 6-7
Numerics
7C0x MIB components A-2
7C0x SmartSwitch family 1-1
7C03 MMAC SmartSwitch 1-1
7C04 Workgroup SmartSwitch 1-1
7C04-R Workgroup SmartSwitch 1-1
NIM modules 1-1
broken 6-8
disabled 6-7
forwarding 6-8
learning 6-8
listening 6-7
bridge port status 6-7
disabled 6-7
7C0x SmartSwitch firmware versions 1-8
enabled 6-7
bridge port Traffic levels 6-31
A
AAL Type 5-3
Bridge Protocol Data Units (BPDUs) 6-2, 6-20
Bridge Statistics window 6-11
Bridge Status window
setting and changing information 6-11
Bridge Traffic View buttons 6-6
Bridge View
Add to Static Table button 6-18
Admin button 6-6
Admin status
Bridge 2-13
FDDI 2-8
Switch 2-11
access levels 6-2
changing front panel information 6-11
launching 6-2
Ageing Time 6-14, 6-17
Alarm Configuration (FDDI) 2-27
alarm log 3-4
alarm parameters (default) 3-9
alarmSampleType 3-11
ATM 5-1
bridging (traditional) 2-13
bridging type 6-12
transparent-only 6-12
unknown 6-12
Broadcast/Multicast 3-3
ATM Adaptation Layer 5-3
ATM_MIB A-2
atmcfg 5-1
auto-negotiation 2-30
Average Packet Size 2-19
C
Canonical (FDDI) address mode 4-25
Capability 2-17
change the Dynamic Ageing Time 6-17
channel trunking 5-3
Charts, Graphs, and Meters 1-4, 4-5, 4-17
Chassis MGR A-2
clear network logs 6-34
Collisions 2-19
COM port administrative display 2-8
community names 1-4, 2-1, 2-26, 3-2, 4-2, 4-9,
4-13, 4-21, 4-24, 5-2, A-3
component-based MIB architecture A-3
Configuration BPDU 6-22, 6-23
configuring an alarm 3-7
Connection 4-4
B
balarm 3-2
Base MAC Address 2-21
Boot Version 2-21
BPDU ageing timer 6-22
bridge 6-2
Bridge display mode 2-6
bridge port Color codes 6-6, 6-32
Bridge Port Display Info 6-36
Bridge Port Number 2-14
Index-1
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Index
connection rules 4-22
Contact Status 2-3, 6-4
contLogicalEntryTable 3-2
CRC/Alignment errors 2-19
Current box 6-33
F
falling action 3-5, 3-8
falling alarm threshold 3-1
falling threshold 3-5, 3-7, 3-8
FDDI connection rules 4-22
FDDI Front Panel Status 2-5
FDDI MAC Chart Window 4-18
FDDI SMT A-3
D
decLb100 6-21
fddialrm 4-9
fddicnfg 4-13
fddicpol 4-21
fddiptcf 4-2
fddislst 4-24
Filtering Database 6-2
accessing 6-14
fInNUcast 3-4
firmware version 1-8, 2-21
bridge 6-5
Delay box 6-33
DelayExceedDiscard 6-12
deleteOnReset entry status 6-16, 6-19
deleteOnTimeout entry status 6-16, 6-19
Delta button 6-7, 6-8
delta values 3-5, 3-8
Designated Bridge 6-20, 6-26
Designated Cost 6-26
Designated Port 6-20, 6-27
Designated Root 6-22, 6-26
Destination Ports 6-16
Detail View 6-8
Change Menu 6-10
port summary information 6-10
Device button
bridge 6-5
Device Configuration 2-4
Device Info 6-36
Forward 6-7
Forward Delay 6-7, 6-17, 6-22
Forward Transitions 6-27
forwarding entry 6-13
Forwarding Log 6-33
Forwarding state 6-13
Forwarding Threshold Log window
accessing 6-33
Forwarding Thresholds window
accessing 6-30
fps 2-1
Fragments 2-19
Frame Sizes 2-19
Frames button 6-6
Frms In 6-7
Frms Out 6-7
Device Location 2-3, 6-4
Device menu 2-4
bridge 6-5
Device Name 2-3, 6-4
disable a bridge network 6-36
disable the Forwarding Log 6-35
disabling an alarm 3-9
Discard 2-18
Front Panel 6-3
Display Mode 2-5
double-wide NIM modules 2-4
dual-homing 4-22
Duplex Mode 2-16, 2-30
Dynamic Ageing Time 6-13, 6-17
G
Getting Help 1-8
global community names A-4
Global Find MAC Address tool 1-4, 2-4, 2-26
grouping of virtual connections 5-3
E
Enabling or Disabling FDDI Ports 4-5
Encapsulation Type 5-4
Errors
H
Hello Time 6-23
Help 1-8
Ethernet (RMON) 2-19
MIB II 2-18
Execute Program 6-32
History button 1-6
Hold Time 6-23
Host interface 2-21
Host Services A-3
Index-2
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Index
hostname 2-2, 6-2
how rising and falling thresholds work 3-6
hysteresis 3-6
M
MAC Address 4-25, 6-5
management entry status 6-15
manipulating the Hub View display 2-2
Max Age 6-22
Max Connections 2-24
maximum log entries 6-34
maximum transfer unit 6-13
Media Type 4-4
I
IETF MIBs, supported by EMM-E6 A-1
IF Number 3-4
IF Type 3-4
IfIndex 6-12
ifInErrors 3-4
ifInOctets 3-4
In Octets Kb 3-3
Info button
Menus
always available 2-6
Bridge mode 2-6
Interface mode 2-6
Switch mode 2-6
bridge 6-5
Meters tool
In—Out—In box 6-33
Interface display mode 2-6
Interface Number 2-17
invalid entry status 6-15
IP address 2-3, 6-4
IP Services A-2
accessing 6-27
MIB component A-1
descriptions A-4
MIB I, II 1-4, 2-3, 2-26
MIB II variables 3-4
MIB Navigator A-3
MIBTree 1-4
Module Index 2-5
Module menu 2-7
Module Type 2-5
J
Jabbers 2-19
MSB (Ethernet) address mode 4-25
MtuExceedDiscard 6-13
L
Learned Entry Discards 6-15
learned entry status 6-15
LEM Count 4-6, 4-12
LEM Rate 4-8
N
Node Class 4-26
LEM Reject Count 4-6
LEM Reject Rate 4-8
LER Alarm 4-9, 4-11
LER Cutoff 4-9, 4-12
LER Estimate 2-9, 4-7, 4-9, 4-11
Link Status 2-16
Load
Ethernet (RMON) 2-19
MIB II 2-17
Log 3-4
notification conditions 6-31
notification options 6-31
Nucast (non-unicast) 2-18
Num Connections 2-24
Number of Topology Changes 6-22
O
Once only 6-33
open the Filtering Database window 6-14
Oper State
Interface 2-16
Switch 2-11
other entry status 6-15
log files
saving 6-35
logDescription 3-11
logEventIndex 3-10
logIndex 3-10
logTime 3-11
P
Packets/second 2-19
Path 1-4
Path Cost 6-25
Index-3
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Index
Path Tool 2-26
S
Percentage button 6-7, 6-8
permanent entry status 6-16, 6-19
Permanent Virtual Circuits (PVCs) 5-1
Pie Chart tool
accessing 6-27
Polling Intervals 2-4, 2-28, 3-5
editing 6-36
SecureFast switching 1-2, 2-10, 2-26
self entry status 6-15
Send Mail 6-32
set bridge port thresholds 6-31
Sfs Admin Status 2-23
Sfs Operating Status 2-24
SMT Connection Policy 2-28
SMT Index 2-10, 4-3, 4-10
SMT/MAC Configuration 2-28
Software Version 2-21
Source Address 6-15
Source Routing button 6-8
Spanning Tree Algorithm (STA) 6-2, 6-20
version 6-21
Port
Changing Path Cost 6-27
Changing Priority 6-27
Designated 6-27
Designated Cost 6-26
Path Cost 6-25
Port Configuration (FDDI) 2-27
Port Display Form 2-5
Port Index 2-5, 4-3, 4-11
Port Number 3-4
Port State 4-4
Spanning Tree Port Table 6-26
accessing 6-25
Spanning Tree Protocol window 6-21
accessing 6-21
Port Status 2-5
Port Type
Speed 2-17
SPMA Tool applications 2-25
spmarun 2-1, 3-2, 4-2, 4-9, 4-13, 4-21, 4-24, 5-1,
6-2
Sr Frames Forwarded 2-14
static entry 6-13
Station List 2-28
Statistics
FDDI 2-9
Interface 2-17
Switch 2-12
PortCircuit 6-12
Priority 6-23
Priority (Port) 6-25
Ethernet (RMON) 2-18
MIB II 2-17
Status (alarm) 3-4
Switch display mode 2-6
SWITCH Services A-3
Switched Virtual Circuits (SVCs) 5-1
sysUpTime 3-11
Q
Quit button
bridge 6-5
R
Receive Port 6-15
Remain—In box 6-33
rising action 3-5, 3-8
rising alarm threshold 3-1
rising threshold 3-5, 3-7, 3-8
RMON Default A-3
RMON MIB component 3-2
Root
T
Technical Support 1-8
Telnet 1-4, 2-26
TFTP Download 1-4, 2-26
threshold pairs 3-6
Top Level Serial Number 2-21
Topology 4-26
Topology Change flag 6-22
Total Errors 3-3
Tp Frames forwarded and filterd 2-14
traditional bridging 2-13, 2-26, 2-28, 2-38
traditional switching (or bridging) 1-2
Transparent Bridge A-2
Transparent button 6-8
Cost 6-23
Forward Delay 6-24
Hello Time 6-24
Max Age 6-24
Port 6-23
Root Bridge 6-20
selection process 6-20
Index-4
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Index
Trap 3-5
Trap Table 1-4, 2-26
U
unique community names A-3
unused resources 3-9
UPS 1-4
configuration tool 2-27
Uptime 6-4
V
VC MUX 802.3 Bridging 5-4
viewing an alarm log 3-1, 3-5, 3-10
Virtual Channel Identifier (VCI) 5-3
Virtual Path Identifier (VPI) 5-3
W
Web site 1-8
Index-5
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Index
Index-6
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