ELS10-26 MIB REFERENCE
GUIDE
9032244-01
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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.
Copyright 1997 by Cabletron Systems, Inc., P.O. Box 5005, Rochester, NH 03866-5005
All Rights Reserved
Printed in the United States of America
Order Number: 9032244-01 September 1997
Cabletron Systems, SPECTRUM, and LANVIEW are registered trademarks and
SmartSTACK, ELS10-26TX, FEPIM, FEPIM-TX and FEPIM-FX are trademarks of
Cabletron Systems, Inc.
All other product names mentioned in this manual may be trademarks or registered trademarks of
their respective companies.
FCC NOTICE
This device complies with Part 15 of the FCC rules. Operation is subject to the following two
conditions: (1) this device may not cause harmful interference, and (2) this device must accept any
interference received, including interference that may cause undesired operation.
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial environment.
This equipment uses, generates, and can radiate radio frequency energy and if not installed in
accordance with the operator’s manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause interference in which case the user
will be required to correct the interference at his own expense.
WARNING: Changes or modifications made to this device which are not expressly approved by the
party responsible for compliance could void the user’s authority to operate the equipment.
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Recycled Paper
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DOC NOTICE
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital
apparatus set out in the Radio Interference Regulations of the Canadian Department of
Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables
aux appareils numériques de la class A prescrites dans le Règlement sur le brouillage radioélectrique
édicté par le ministère des Communications du Canada.
VCCI NOTICE
This is a Class A product based on the standard of the Voluntary Control Council for Interference by
Information Technology Equipment (VCCI). If this equipment is used in a domestic environment,
radio disturbance may arise. When such trouble occurs, the user may be required to take corrective
actions.
CABLETRON SYSTEMS, INC. PROGRAM LICENSE AGREEMENT
IMPORTANT: Before utilizing this product, carefully read this License Agreement.
This document is an agreement between you, the end user, and Cabletron Systems, Inc. (“Cabletron”)
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CABLETRON SOFTWARE PROGRAM LICENSE
1.
LICENSE. You have the right to use only the one (1) copy of the Program provided in this
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You may not copy, reproduce or transmit any part of the Program except as permitted by the
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252.227-7013. Cabletron Systems, Inc., 35 Industrial Way, Rochester, New Hampshire 03867-0505.
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DECLARATION OF CONFORMITY
Application of Council Directive(s): 89/336/EEC
73/23/EEC
Manufacturer’s Name: Cabletron Systems, Inc.
Manufacturer’s Address: 35 Industrial Way
PO Box 5005
Rochester, NH 03867
European Representative Name: Mr. J. Solari
European Representative Address: Cabletron Systems Limited
Nexus House, Newbury Business Park
London Road, Newbury
Berkshire RG13 2PZ, England
Conformance to Directive(s)/Product Standards: EC Directive 89/336/EEC
EC Directive 73/23/EEC
EN 55022
EN 50082-1
EN 60950
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Commercial or Light Industrial
Environment.
We the undersigned, hereby declare, under our sole responsibility, that the equipment packaged
with this notice conforms to the above directives.
Manufacturer
Legal Representative in Europe
Mr. Ronald Fotino
Mr. J. Solari
___________________________________
___________________________________
Full Name
Full Name
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Managing Director - E.M.E.A.
___________________________________
___________________________________
Title
Title
Rochester, NH, USA
Newbury, Berkshire, England
___________________________________
___________________________________
Location
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TABLE OF CONTENTS
Introduction
Chapter 1
1.1 Related Documentation...................................................1-2
1.2 Getting Help....................................................................1-3
1.3 Document Conventions...................................................1-4
1.4 SNMP Primitives ............................................................1-5
1.5 MIB Primitive Types ......................................................1-6
1.6 User Functions ................................................................1-7
1.7 Navigating Through the MIBTree Structure...................1-9
1.8 TFTP ...............................................................................1-13
1.8.1 Retrieving All Parameters...................................1-15
1.8.2 Setting All Parameters ........................................1-15
1.9 Additional Interfaces.......................................................1-16
Chapter 2
TCP/IP MIB-II
2.1 System Group..................................................................2-1
2.2 Interfaces Group..............................................................2-2
2.3 Address Translation Group.............................................2-8
2.4 IP Group..........................................................................2-9
2.4.1 IP Address Table.................................................2-12
2.4.2 IP Routing Table.................................................2-14
2.4.3 IP Address Translation Table..............................2-17
2.4.4 IP Additional Objects..........................................2-18
2.5 ICMP Group....................................................................2-19
2.6 TCP Group......................................................................2-22
2.7 UDP Group .....................................................................2-22
2.7.1 UDP Listener Table ............................................2-23
2.8 EGP Group......................................................................2-24
2.9 OIM Subtree....................................................................2-24
2.10 Transmission Group........................................................2-24
2.11 SNMP Management Group.............................................2-25
2.12 Cabletron Interface Group ..............................................2-29
2.13 Cabletron Interface Port Group.......................................2-32
2.14 Cabletron Com Port Configuration Group......................2-35
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Contents
2.15 SNMP Version Group.....................................................2-37
2.16 Trap Description .............................................................2-38
2.17 Cabletron MIB 2 Extensions...........................................2-39
Chapter 3
Ethernet MIB
3.1 Generic Ethernet-Like Group .........................................3-1
3.2 Ethernet-Like Statistics Group........................................3-2
3.3 Ethernet-Like Collision Statistics Group........................3-5
3.4 Ethernet-Like Tests Group..............................................3-6
3.5 Ethernet-Like Errors Group............................................3-6
3.6 Ethernet-Like Chipsets Group ........................................3-6
Chapter 4
Bridge MIB
4.1 Base Group......................................................................4-1
4.2 Spanning Tree Group......................................................4-3
4.3 Transparent Group ..........................................................4-9
Chapter 5
PPP MIB
5.1 PPP Link Control Table..................................................5-1
5.2 PPP IP Table ...................................................................5-10
Chapter 6
ELS10-26 MIB
6.1 System Group..................................................................6-1
6.1.1 Hardware Configuration Group..........................6-2
6.1.2 LXSW Configuration Group...............................6-4
6.1.3 Administration Group.........................................6-6
6.1.4 Software Distribution Group...............................6-11
6.1.5 Addresses Configuration Group .........................6-13
6.1.6 Cabletron Interfaces Group.................................6-16
6.1.7 Cabletron Dot3 Group.........................................6-20
vi
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Contents
6.1.8 Cabletron UART Interface Group ......................6-23
6.1.9 Cabletron Protocol Group...................................6-24
6.1.10 Cabletron Trunking Group..................................6-26
6.1.11 Cabletron Workgroup Management Group ........6-29
6.1.12 Cabletron Trap Management Group...................6-31
6.1.13 Ping Management MIB.......................................6-35
6.1.14 Traceroute ...........................................................6-41
6.1.15 Traceroute Management MIB.............................6-42
6.1.16 Port Mirroring.....................................................6-47
Chapter 7
Traps
7.1 Generic Traps..................................................................7-1
7.2 Enterprise Specific Traps For The ELS10-26.................7-2
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Contents
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CHAPTER 1
INTRODUCTION
This manual is for system administrators responsible for
configuring, monitoring, and maintaining the ELS10-26. Much of
the configuration of the ELS10-26 needs to be done using an
SNMP-based network management station. This manual contains
the SNMP MIB variables you may need to configure, monitor, and
manage your ELS10-26. You should use this manual with the
ELS10-26 User Guide and with the documentation provided with
your NMS.
The contents of each chapter are described below.
• Chapter 1, Introduction, provides an overview of the SNMP
primitives, describes the functions the MIB variables can be used
to perform, and describes how to use TFTP to download the
ELS10-26 system software.
• Chapter 2, TCP/IP MIB-II, describes the standard TCP/IP MIB
variables.
• Chapter 3, Ethernet MIB, describes the standard Ethernet MIB
variables.
• Chapter 4, Bridge MIB, describes the Bridge MIB variables.
• Chapter 5, PPP MIB, describes the PPP link control and IP table
MIB variables.
• Chapter 6, ELS10-26 MIB, describes the Cabletron enterprise
MIB variables.
• Chapter 7, Traps, describes generic and enterprise-specific
traps.
1-1
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Introduction
1.1 RELATED DOCUMENTATION
You may need to refer to the following Cabletron documentation:
• ELS10-26 User Guide – contains installation, configuration, and
management instructions for the ELS10-26. It also describes how
to use the Local Console Manager (LCM), which is a
non-intelligent terminal interface to the ELS10-26.
If you need internetworking reference material, you may find the
following books helpful:
• Interconnections, Bridges and Routers, Radia Perlman, Addison
Wesley © 1992.
• Internetworking with TCP/IP: Principles, Protocols, and Architecture
(2nd edition), Volumes I and II, Douglas Comer,
Prentice Hall © 1991.
• The Simple Book, An Introduction to Management of TCP/IP-based
internets (2nd edition), Marshall T. Rose, Prentice Hall © 1994.
This manual describes the software interface between the NMS
and the ELS10-26. This is relevant for an ELS10-26 running Version
1.0 software. The NMS communicates with the ELS10-26 software.
The Network Management, or UART, port is the interface to the
Local Console Manager (LCM). LCM is a non-intelligent terminal
interface that can be used to configure and monitor status for the
ELS10-26.
1-2
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Introduction
1.2 GETTING HELP
If you need additional support related to the ELS10-26, or if you
have any questions, comments, or suggestions concerning this
manual, contact Cabletron Systems Global Call Center:
Phone:
(603) 332-9400
Internet mail:
FTP:
ctron.com (134.141.197.25)
anonymous
Login:
Password:
your email address
BBS:
(603) 335-3358
Modem setting:
8N1: 8 data bits, No parity, 1 stop bit
Before calling Cabletron Systems Global Call Center, have the
following information ready:
• Your Cabletron Systems contract number
• A description of the failure
• The serial and revision numbers of all Cabletron Systems
products in the network
• A description of any action(s) already taken to resolve the
problem (e.g., changing mode switches, rebooting the unit, etc.)
• A description of your network environment (layout, cable type,
etc.)
• Network load and frame size at the time of trouble (if known)
• The device history (i.e., have you returned the device before, is
this a recurring problem, etc.)
• Any previous Return Material Authorization (RMA) numbers
For additional information about Cabletron Systems products,
visit our World Wide Web site: http://www.cabletron.com
1-3
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Introduction
1.3 DOCUMENT CONVENTIONS
The following conventions are used throughout this document:
LCM commands, prompts, and information displayed by the
computer appear in Courier typeface, for example:
Current Number of Learned Addresses: 133
Information that you enter appears in Courier bold typeface, for
example:
ELS10-26 >status
Information that you need to enter with a command is enclosed in
angle brackets < >. For example, you must enter a port number
and an IP address to execute the ipaddr <port #> <IP address>
command:
ELS10-26 >ipaddr 6 192.138.217.40
Field value options appear in bold typeface.
The following conventions are also used in this document:
Note: Calls the reader’s attention to any item of information that may be
of special importance.
Tip: Conveys helpful hints concerning procedures or actions.
Caution: Contains information essential to avoid damage to the
equipment.
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Introduction
1.4 SNMP PRIMITIVES
The major software interface between the NMS and ELS10-26
consists of one simple mechanism – the exchange of SNMP (Simple
Network Management Protocol, RFC 1157) datagrams over any
available physical media. The following restrictions apply:
• All datagrams must obey SNMP format.
• All datagrams must be sent via UDP and IP. Thus, all datagrams
will have UDP and IP headers.
• Datagrams may be sent over any of the following physical
media:
-
Ethernet/802.3 LAN - the datagram must have an Ethernet
MAC header, with an Ethernet frame type of IP; or, the
datagram must be in 802.3 format with IP-encapsulation as
defined by RFC 1042.
-
UART (out-of-band management port) - the datagram must
have a PPP header, which indicates that the datagram
contains an IP packet. (The ELS10-26 automatically detects
the presence of a PPP connection versus being connected to
a non-intelligent terminal.)
The NMS must rely on IP, rather than MAC addressing for all
datagrams sent to an ELS10-26. Therefore:
• All datagrams from the ELS10-26 are addressed to either an
NMS or the broadcast IP address.
• Within the context of this document, the terms “datagram,”
“packet,” and “PDU” are synonymous.
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Introduction
1.5 MIB PRIMITIVE TYPES
The MIB definitions in this document may reference the primitive
types that are described in the Structure and Identification of
Management Information for TCP/IP-based Internets, RFC 1155.
RFC 1155 is based on the Specification of Abstract Syntax Notation
One, ASN.1. The primitive types are described in Table 1-1.
Table 1-1 Primitive Descriptions
Primitive
Size
Description
Enumerated Integer with possible true (1)
or false (2) values; note that the ASN.1
BOOLEAN primitive type is not used
Boolean
1 byte
Priority and MAC address used to identify
a spanning tree bridge
BridgeID
8 bytes
Counter
4 bytes max
n X 1 byte
4 bytes
Unsigned value
DisplayString
Gauge
Array of printable ascii characters
Non-negative integer
Signed value
Integer
4 bytes max
4 bytes
IpAddress
MacAddress
OctetString
Internet address
6 bytes
Ethernet address
Array of bytes
n X 1 byte
Array of bytes, using the same as a MAC
Address
PhysAddress
PortID
n X 1 byte
2 bytes
Priority and port number used to identify a
spanning tree port
Max time counter with a granularity of
1/100th of a second (also known as
centiseconds)
TimeTicks
4 bytes
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Introduction
1.6 USER FUNCTIONS
The SNMP primitives may be used to accomplish the following
functions:
• Obtain the ELS10-26’s current value of certain parameters - the
NMS uses the GetRequest or GetNextRequest PDU, and the
ELS10-26 responds with a GetResponse PDU. If the NMS issues
a GetRequest for an unsupported parameter, the ELS10-26 sends
1
a GetResponse with a noSuchName ErrorStatus . If the NMS
issues a GetNextRequest for an unsupported parameter, the
ELS10-26 skips to the next object.
• Change the ELS10-26’s value of certain parameters - the NMS
uses the SetRequest PDU, and the ELS10-26 responds with a
GetResponse PDU. The ELS10-26 will change both its current
value and its local default to be used when the ELS10-26 reboots,
unless noted otherwise.
• Obtain the current value of certain parameters and
simultaneously change the value of other parameters - the NMS
uses the SetRequest PDU, and the ELS10-26 responds with a
GetResponse PDU. For the parameters which are being obtained
rather than changed, the NMS must use the ASN.1 NULL value
with the SetRequest PDU.
• Provide notification of significant events - the ELS10-26 uses the
Trap PDU and/or the GetResponse PDU. The NMS uses the
SetRequest PDU to control the frequency that the ELS10-26 may
send Trap PDUs.
1.
If implementing the parameter is required, it might seem more reasonable to
return a GetResponse with no error and the ASN.1 NULL value as the
parameter’s value; however, leading authorities such as Marshall T. Rose (author
of The Simple Book) suggest that noSuchName be returned, because many
existing SNMP management stations do not handle NULL values correctly.
1-7
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Introduction
The ELS10-26 implements two non-standard features with respect
to the SNMP SetRequest:
• The variable bindings within a SetRequest are sometimes
processed sequentially rather than simultaneously. For example,
if a SetRequest contains two parameters with an incorrect value
specified for the second parameter, the ELS10-26 returns a
badValue error to the NMS; however, the ELS10-26 may have
updated its value for the first parameter.
• The values within the variable bindings of the returned
GetResponse may reflect meaningful information, rather than
being an exact copy of the values from the SetRequest. For
example, if a SetRequest contains two variable bindings, the first
specifying that memory should be examined and the second
specifying the contents of the memory, then the ELS10-26’s
GetResponse will update the value of the second variable
binding to contain the actual contents of the memory.
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Introduction
1.7 NAVIGATING THROUGH THE MIBTREE STRUCTURE
The MIB structure is a hierarchical tree structure. Each MIB
hierarchy. The structure was originally created, and is still
maintained by the International Organization for Standardization
(ISO) and the International Telecommunications Union (ITU), two
international standards organizations. You can get and set MIB
variables by navigating down the tree to a specific MIB, a group or
table within that MIB, and then to the individual variable.
Figure 1-1 shows the path down the MIB tree structure. Under the
“mib-2” and the Cabletron enterprise branch, are all the relevant
MIBs that the ELS10-26 supports.
1-9
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Introduction
iso
1
org
3
dod
6
internet
1
mgmt
2
private
4
experimental
3
enterprise
1
mib-2
1
sigma
97
system
1
interfaces
2
add trans
3
ip
4
rdbmsMIB
39
......
Figure 1-1 MIB Hierarchical Structure
Table 1-2 provides the branch structure that is under MIB-II. To
reach any of the MIB-II objects you would start with the prefix
1.3.6.1.2.1. For example, to reach an object in the system group, you
would start with 1.3.6.1.2.1.1. To find the amount of time the
ELS10-26 had been running, you would want to get the sysUpTime
variable, which is the third object in the system group. So the get
command would look like:
get 1.3.6.1.2.1.1.3.0
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Introduction
The zero at the end (.0), indicates that this is a single instance, and
that only one value can be returned. Whenever you are looking for
a variable with only one value, you must include the .0 at the end.
Some variables may have multiple values, such as an IP address
and an associated port number.
Table 1-2 MIB-II Group Descriptions
MIB-II Group
Number (1.3.6.1.2.1.)
System
1
Interfaces
2
Address Translation
Internet Protocol (IP)
Internet Control Message (ICMP)
Transmission Control Protocol (TCP)
User Datagram Protocol (UDP)
Exterior Gateway Protocol (EGP)
CMIP over TCP (CMOT)
Transmission
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
SNMP
GenericIF
AppleTalk
Open Shortest Path First (OSPF)
Border Gateway Protocol (BGP)
Remote Network Monitoring (RMON)
Bridge
There are additional groups under MIB-II, but all groups are not
supported by the ELS10-26.
1-11
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Introduction
The Cabletron MIB is under the private enterprise MIB branch. To
identify a variable in the Cabletron MIB, you would start with the
private enterprise prefix of 1.3.6.1.4.1, and add the specific
Cabletron ID of 97. The result, 1.3.6.1.4.1.97, is the complete prefix
for a Cabletron MIB variable. You would then add the specific
object ID to complete the MIB variable.
For example, to find the sysID currently defined in the ELS10-26,
you would want to get the sysID variable in the Cabletron MIB
group and add it to the prefix 1.3.6.1.4.97. After the prefix, add the
Cabletron MIB, 1.1. As stated above, the zero {0} indicates that this
variable is a single instance and only one variable can be returned.
The get command would look like:
get 1.3.6.1.4.1.97.1.1
At the beginning of each chapter in this Reference Guide, the prefix
for each MIB group is provided. To calculate the specific MIB
variable, you add the specific object ID to the prefix for that MIB
group.
1-12
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Introduction
1.8 TFTP
TFTP (Trivial File Transfer Protocol, RFC 1350) is used for:
• Distribution of new software.
• Bulk retrieval of all of the parameters of a ELS10-26.
• Bulk setting of all of the parameters of a ELS10-26.
TFTP has no inherent security provision; however, all files have
special data encryption, and the ELS10-26 will reject files that have
not been encrypted. In addition, SNMP primitives may be used to
prevent the ELS10-26 from accepting unauthorized TFTP requests,
even if the files have the special data encryption. Refer to the
description of the sxswdis branch of Cabletron’s private MIB for
TFTP security details.
Software Distribution
TFTP is used for the distribution of new software. The new
software will be automatically invoked when an ELS10-26 reboots.
New software is released in two files:
• dnld_hdr
• dnld_software
To distribute the new software to an ELS10-26, the TFTP procedure
is as follows:
1. Start TFTP on the NMS, or on any other device which can
provide TFTP services. (Typically, TFTP must be started from
the same directory that contains the files to be transferred.)
TFTP must be told the IP address of the remote host (the IP
address of the ELS10-26), and the file transfer mode (which
must be “binary”).
2. Use TFTP to retrieve all of the ELS10-26’s parameters, as
described in a subsection below. This step is not required, but it
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Introduction
is recommended if you need to go back to the version of
software that is currently being executed by the ELS10-26.
3. Tell TFTP to transfer (“put”) the first file, (dnld_hdr).
4. Wait one minute, or until the ELS10-26 sends the SNMP Trap
described in the swdis branch of SMC’s private MIB. (The Trap
will be sent when the ELS10-26 is ready for the second file,
which will be somewhat shorter than three minutes.)
5. Tell TFTP to transfer the second file, (dnld_software). This
transfer should take approximately one minute.
The initial one minute waiting may be omitted and this second
transfer may be initiated immediately following the first
transfer; however, that causes the second transfer to take
approximately two minutes, and creates a slightly heavier
network load during the file transfer.
Note: If the above TFTP sequence is abnormally terminated, there is no
cause for alarm, since the ELS10-26 maintains a back-up set of
software, and the ELS10-26 will not use the incomplete new
software.
Older versions of software may be distributed to an ELS10-26,
provided that the older software is at least Version 2.3. To
distribute the older software to an ELS10-26, the above TFTP
procedure should be altered, with the following step being
performed before the older software is distributed.
If the bulk retrieval of all of the parameters of the ELS10-26 had
been performed while the ELS10-26 was executing that older
software, that retrieved file should be used to do a bulk set of all
parameters (as described below). Otherwise, when the older
software is distributed and the ELS10-26 reboots, the older
software will not understand the format of the ELS10-26’s
2
parameters.
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Introduction
1.8.1 Retrieving All Parameters
TFTP is used for retrieval of the parameters of an ELS10-26, as
follows:
1. Start TFTP (as described earlier). TFTP must be told the IP
address of the remote host (i.e., the ELS10-26), and the file
transfer mode (which must be “binary”).
2. Tell TFTP to retrieve (i.e., “get”) the ELS10-26’s Configuration
file (i.e., file name “config”).
3. After about ten seconds, the TFTP operation will complete.
1.8.2 Setting All Parameters
TFTP is used for bulk setting of all of the parameters of an
ELS10-26, as follows:
1. Start TFTP (as described earlier). TFTP must be told the IP
address of the remote host (i.e., the IP address of the ELS10-26),
and the file transfer mode (which must be “binary”).
2. Tell TFTP to send (i.e., “put”) the ELS10-26’s Configuration file
(i.e., file name “config”).
3. After about twenty seconds, the TFTP operation will complete.
2.
The software will re-initialize all of the ELS10-26’s parameters to the factory
specified defaults.
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Introduction
1.9 ADDITIONAL INTERFACES
In addition to SNMP and TFTP, the ELS10-26 employs the
following protocols, as part of its software interface with an NMS:
• UDP - User Datagram Protocol, RFC 768.
• IP - Internet Protocol, RFC 791.
• ARP - Ethernet Address Resolution Protocol, RFC 826.
• RARP - Reverse Address Resolution Protocol, RFC 903. RARP is
only used when no IP addresses have been assigned to the
ELS10-26.
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CHAPTER 2
TCP/IP MIB-II
The ELS10-26 supports the TCP/IP MIB-II, as defined by
Management Information Base for Network Management of TCP/
IP-based Internets MIB-II, RFC 1213 (K. McCloghrie, editor), dated
March 1991. The MIB is divided into groups of parameters. The
individual groups are described in the subsections below. You may
want to refer to the actual TCP/IP MIB, since this document
paraphrases the standard MIB in order to provide ELS10-26-related
descriptions.
Note: The access types of some of the TCP/IP MIB parameters have been
extended from Read-Only to Read-Write. However, unless
otherwise indicated, the access type of all parameters is as indicated
in the standard MIB.
The MIB tree prefix for reaching the TCP/IP MIB-II is:
1.3.6.1.2.1.
2.1 SYSTEM GROUP
system
{mib-2 1}
The TCP/IP System Group parameters are described below.
sysDescr
{system 1}
DisplayString Read-Only
A textual description of the ELS10-26 is Cabletron “moduleName”
Rev “FirmwareRevision” “LinkTimeandDate” i.e., Cabletron
ELS10-26 Rev xx:xx:xx 03/04/97--11:30:25
sysObjectID
{system 2}
Object Identifier Read-Only
The identifier of the variable used to identify the type of entity.
Cabletron’s MIB sysID parameter will have a value that indicates
that it is a bridge. So sysObjectID contains the object identifier of
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TCP/IP MIB-II
the Cabletron MIB sysID object, i.e., {1 3 6 1 4 1 97 5 7}. Special
versions of the ELS10-26, made for third-party vendors may use
different values for sysID.
sysUpTime
{system 3}
TimeTicks Read-Only
The time, in centiseconds, since the ELS10-26 was last booted.
sysContact
{system 4}
DisplayString Read-Write
The name and address of the contact person for the ELS10-26.
sysName
{system 5}
DisplayString Read-Write
The Internet name of the contact person for the ELS10-26. The
LCM prompt consists of sysName followed by “>”. (LCM is a
non-intelligent terminal interface that can be used to configure and
monitor status for the ELS10-26.)
sysLocation
{system 6}
DisplayString Read-Write
The physical location of the ELS10-26.
sysServices
{system 7}
Integer Read-Only
The sum of the services supported by the ELS10-26. Values
include:
(2)
the ELS10-26 is a bridge only
2.2 INTERFACES GROUP
interfaces
{mib-2 2}
The TCP/IP Interfaces Group parameters are described below.
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TCP/IP MIB-II
ifNumber
{interfaces 1}
Integer Read-Only
The number of ports (whether alive or dead), including the UART.
ifTable
{interfaces 2}
Not Accessible
A list of interface entries; one per port (ifNumber in total).
ifEntry
{ifTable 1}
Not Accessible
A set of objects for an interface entry. The individual components
are described below.
ifIndex
{ifEntry 1}
Integer Read-Only
The port number, beginning with 1 for the first port. This number
always matches the instance of the ifEntry. For example, {ifIndex 3}
contains the value “3”.
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TCP/IP MIB-II
ifDescr
{ifEntry 2}
DisplayString Read-Only
A textual description of the port. One of the following text strings:
• Ethernet/802.3 TP
• Network Management Port (this is the UART port)
• Fast Ethernet/802.3u TP (twisted pair connection)
• Fast Ethernet/802.3u FX (fiber connection)
• Fast Ethenet/802.3u T4 (2 twisted pairs, category 5)
ifType
{ifEntry 3}
Integer Read-Only
The type of the port, i.e., one of the following:
• (6) - ethernet-csmacd
• (23) - ppp (for the UART port).
ifMtu
{ifEntry 4}
Integer Read-Only
The size (in bytes) of the largest network datagram which may be
sent or received on the port. This does not include the MAC
header, LLC header, and FCS. For CSMA/CD ports, the Ethernet
Frame Type is considered part of the MAC header, but there is no
LLC header. Specifying a value of zero in a SetRequest indicates
that the interface is to default to the largest MTU available for that
media. The effective value is always returned in the GetResponse.
ifSpeed
{ifEntry 5}
Integer Read-Only
The port’s estimated MAC-level bandwidth, in bits per second.
The bandwidth will be in the range 1,200 - 100,000,000.
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TCP/IP MIB-II
ifPhysAddress
Physical Address Read-Write
{ifEntry 6}
1
The MAC address of the port. For the UART port, this field should
be an octet string of zero length.
ifAdminStatus
{ifEntry 7}
Integer Read-Write
The desired state of the port, i.e., one of the following:
• up (1) - setting the port’s state to up causes the port’s statistics to
be reset
• down (2) - the port is not to be used
• testing (3) - the port is to be put into local loopback (this value is
not saved if the unit reboots)
ifOperStatus
{ifEntry 8}
Integer Read-Only
The current status of the port, i.e., one of the following:
• up (1) - the port can send/receive NMS packets; however,
whether or not the port has its bridging functions enabled is
unknown.
• down (2) - the port is broken, or is intentionally physically
disabled.
• testing (3) - the port is in local loopback.
ifLastChange
{ifEntry 9}
TimeTicks Read-Only
The time, in centiseconds relative to sysUpTime, since the port
entered its last state (as defined by ifOperStatus).
1.
The standard MIB definition is Read-Only.
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TCP/IP MIB-II
ifInOctets
{ifEntry 10}
Counter Read-Only
The total number of bytes received on the port, counting the MAC
header and FCS, but not counting the bytes in packets that were
rejected due to hardware errors. All counters are 32-bit wide
wrap-around counters which can only be reset by restarting the
port or by rebooting the ELS10-26.
ifInUcastPkts
{ifEntry 11}
Counter Read-Only
The number of non-multicast packets received by the port,
regardless of the packet’s outcome (i.e., whether the packet was
filtered or forwarded).
ifInNUcastPkts
{ifEntry 12}
Counter Read-Only
The number of multicast packets received by the port, regardless of
the packet’s outcome (i.e., whether the packet was filtered or
forwarded).
ifInDiscards
{ifEntry 13}
Counter Read-Only
The number of packets received by the port, which were filtered
because of a lack of resources to receive the packet (see
lxifRxQueues).
ifInErrors
{ifEntry 14}
Counter Read-Only
The number of packets received by the port, which were discarded
due to hardware reception errors.
ifInUnknownProtos
Read-Only
{ifEntry 15}
This value is always zero.
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TCP/IP MIB-II
ifOutOctets
{ifEntry 16}
Counter Read-Only
The total number of bytes transmitted out the port, counting the
MAC header and FCS.
ifOutUcastPkts
{ifEntry 17}
Counter Read-Only
The number of non-multicast packets transmitted out the port,
regardless of whether or not hardware transmission errors were
encountered.
ifOutNUcastPkts
{ifEntry 18}
Counter Read-Only
The number of multicast packets transmitted out the port,
regardless of whether or not hardware transmission errors were
encountered.
ifOutDiscards
{ifEntry 19}
Counter Read-Only
The number of packets to be transmitted out the port, but were not
transmitted due to non-error reasons. The definition of non-error
reasons is implementation dependent. The ELS10-26 defines
non-error reasons as packet congestion. Packet congestion occurs
when too many packets are to be queued for transmission, or when
packets have been awaiting transmission for too long a time
period.
ifOutErrors
{ifEntry 20}
Counter Read-Only
The number of packets that were to be transmitted out the port,
but incurred transmission hardware errors.
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TCP/IP MIB-II
ifOutQLen
{ifEntry 21}
Gauge Read-Only
The maximum length ever obtained by the port’s outbound packet
queue (in packets) is not available, so this value is always one.
ifSpecific
{ifEntry 22}
Object Identifier Read-Only
The object identifier of the MIB for the type of port, i.e., one of the
following:
{dot3}
for Ethernet ports (dot3 is defined
later, as {transmission 7}).
{ppp}
for the UART (ppp is defined later, as
{experimental 18}).
2.3 ADDRESS TRANSLATION GROUP
at
{mib-2 3}
The TCP/IP Address Translation Group parameters are minimally
supported (i.e., for any parameter in this group, the ELS10-26
returns a GetResponse with a noSuchName ErrorStatus). It is
anticipated that the Address Translation Group will be deleted
from TCP/IP MIB III, since there will be separate address
translation tables for every type of network protocol (indeed,
TCP/IP MIB II already defines the IP Address Translation Table).
The TCP/IP Address Translation Group parameters are described
below.
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TCP/IP MIB-II
atTable
{at 1}
Not Accessible
atEntry
Not Accessible
{atTable 1}
{atEntry 1}
atIfIndex
Integer Read-Write
All GetResponse PDUs indicate a noSuchName ErrorStatus.
atPhysAddress
{atEntry 2}
Physical Address Read-Write
All GetResponse PDUs indicate a noSuchName ErrorStatus.
atNetAddress
{atEntry 3}
Network Address Read-Write
All GetResponse PDUs indicate a noSuchName ErrorStatus.
2.4 IP GROUP
ip
{mib-2 4)
The TCP/IP IP Group parameters are described below.
ipForwarding
{ip 1}
Integer Read-Write
Whether the ELS10-26 is an IP router. This value is always host (2).
Attempts to write a different value to this field will not change its
value, and “badValue” GetResponse PDUs are returned for all
such SetRequest PDUs.
ipDefaultTTL
{ip 2}
Integer Read-Write
The value, in seconds, to insert into the Time-To-Live field of the IP
header when this ELS10-26 creates IP datagrams.
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TCP/IP MIB-II
ipInReceives
{ip 3}
Counter Read-Only
The total number of IP packets received from all ports (including
the UART).
ipInHdrErrors
{ip 4}
Counter Read-Only
The number of packets received that were discarded due to errors
in the IP header.
ipInAddrErrors
{ip 5}
Counter Read-Only
The number of packets received that were discarded due to an
invalid (or nonroutable) destination IP address in the IP header.
ipForwDatagrams
Counter Read-Only
{ip 6}
The number of packets received that were routed towards a final
2
IP destination.
ipInUnknownProtos
Counter Read-Only
{ip 7}
The number of packets received that were addressed to this
ELS10-26’s IP, but were discarded because of an unknown or
unsupported protocol.
ipInDiscards
{ip 8}
Counter Read-Only
The number of packets that were received without error, but were
not processed (due to insufficient resources, for example).
2.
This appears to be a typographical error in the TCP/IP MIB, since the name
should be ipInForwDatagrams.
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TCP/IP MIB-II
ipInDelivers
{ip 9}
Counter Read-Only
The total number of input packets successfully delivered to the IP
user-protocol layers.
ipOutRequests
{ip 10}
Counter Read-Only
The total number of IP output packets generated by this ELS10-26.
This count does not include any packets represented in
ipForwDatagrams.
ipOutDiscards
{ip 11}
Counter Read-Only
The total number of output packets which were discarded (due to
lack of resources, for example). This counter includes packets
which would be included in ipForwDatagrams if any such packets
were discarded.
ipOutNoRoutes
{ip 12}
Counter Read-Only
The number of packets which were discarded because no route
could be found to transmit them to their destination. This counter
includes any packets counted in ipForwDatagrams which meet
this “no-route” criterion.
ipReasmTimeout
Integer Read-Only
{ip 13}
The maximum time, in seconds, that received fragments are held
while they are awaiting reassembly within this ELS10-26.
ipReasmReqds
{ip 14}
Counter Read-Only
The number of IP fragments received which needed to be
reassembled within this ELS10-26.
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TCP/IP MIB-II
ipReasmOKs
{ip 15}
Counter Read-Only
The number of IP datagrams which were successfully reassembled.
ipReasmFails
{ip 16}
Counter Read-Only
The number of failures (for whatever reason timed-out, errors, etc.)
detected by the IP reassembly algorithm. This is not necessarily a
count of discarded IP fragments since some algorithms (notably
RFC 815) can lose track of the number of fragments by combining
them as they are received.
ipFragOKs
{ip 17}
Counter Read-Only
The number of IP datagrams that have been successfully
fragmented within this ELS10-26.
ipFragFails
{ip 18}
Counter Read-Only
The number of IP datagrams that have been discarded because
they needed to be fragmented but could not be (e.g., because their
“Don’t Fragment” flag was set).
ipFragCreates
{ip 19}
Counter Read-Only
The number of IP datagram fragments that have been generated
by this ELS10-26.
2.4.1 IP Address Table
The TCP/IP IP Address Table contains the IP addressing
information for each port. The parameters are described below.
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TCP/IP MIB-II
ipAddrTable
{ip 20}
Not Accessible
A list of IP address entries; one per IP address. If a port has not yet
learned its IP address, then an ipAddrEntry might not exist for the
port (i.e., having an ipAddrEntry with an IP address of zero is not
acceptable).
ipAddrEntry
{ipAddrTable 1}
Not Accessible
A set of objects for an ipAddrTable entry. The individual
components are described below.
ipAdEntAddr
{ipAddrEntry 1}
IP Address Read-Only
The IP address itself. Although this field is Read-Only, the
ELS10-26’s lxifIPAddr parameter can be written to affect changes.
ipAdEntIfIndex
{ipAddrEntry 2}
Integer Read-Only
The port number which has the indicated IP address.
ipAdEntNetMask
{ipAddrEntry 3}
IP Address Read-Only
The network/subnet mask associated with the IP address. For
SetRequests, a mask of zero may be specified, in which case, the
ELS10-26 will create the correct network mask for a non-subnetted
network. For GetRequests, the ELS10-26 will always convert a
value of zero into the correct network mask.
ipAdEntBcastAddr
Integer Read-Only
{ipAddrEntry 4}
The value for the least significant bit for broadcasts, i.e., the
constant 1.
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TCP/IP MIB-II
ipAdEntReasmMaxSize
Integer Read-Only
{ipAddrEntry 5}
The largest IP datagram which can be reassembled, i.e., the
constant 4470.
2.4.2 IP Routing Table
The TCP/IP IP routing table contains the routing information for
each route currently known by the ELS10-26. When adding a row,
the entire row must be specified, except for the following defaults:
• ipRouteDest is obtained from the row’s instance identifier.
• ipRouteMetric1 defaults to 0.
• ipRouteMetric2 defaults to lxadminStaticPreference.
• ipRouteMetric3 through ipRouteMetric5 default to -1.
• ipRouteNextHop is obtained from the row’s instance identifier.
• ipRouteType defaults to “direct” if ipRouteNextHop is not
specified, or if ipRouteNextHop is specified and it, combined
with ipRouteMask, equals the same network as that defined by
ipRouteDest.
• ipRouteProto defaults to “netmgmt”.
• ipRouteMask defaults to the standard network class mask based
on the row’s instance identifier (except 255.255.255.255 is used if
the row’s instance identifier contains a non-zero host portion).
Parameters include the following variables:
ipRouteTable
{ip 21}
Not Accessible
A list of routing entries; one per route. An entry is keyed by an IP
address (ipRouteDest, defined below). If there are multiple entries
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TCP/IP MIB-II
for the same IP address, then only the entry being used by the IP
forwarding process is available for SNMP access.
ipRouteEntry
Not Accessible
{ipRouteTable 1}
A set of objects for an ipRouteTable entry. The individual
components are described below.
ipRouteDest
IP Address Read-Write
{ipRouteEntry 1}
{ipRouteEntry 2}
{ipRouteEntry 3}
The destination IP address of this route.
ipRouteIfIndex
Integer Read-Write
The port number of the next hop.
ipRouteMetric1
Integer Read-Write
The primary routing metric for this route. This is the zero-based
hop count to ipRouteDest. That is, a hop count of zero indicates
that ipRouteDest is on a directly connected network.
ipRouteMetric2
{ipRouteEntry 4}
Integer Read-Write
An alternative routing metric for this route. This must be greater
than zero.
ipRouteMetric3
{ipRouteEntry 5}
Integer Read-Write
An alternative routing metric for this route.
ipRouteMetric4
{ipRouteEntry 6}
Integer Read-Write
An alternative routing metric for this route.
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TCP/IP MIB-II
ipRouteNextHop
IP Address Read-Write
{ipRouteEntry 7}
{ipRouteEntry 8}
The IP address of the route’s next hop.
ipRouteType
Integer Read-Write
The type of the route, one of the following:
• other (1) - none of the below.
• invalid (2) - the entry should be considered to be non-existent.
• direct (3) - the entry is a route to a directly connected network.
• indirect (4) - the entry is a route to a remote network.
ipRouteProto
{ipRouteEntry 9}
Integer Read-Only
The manner in which the route was learned.
ipRouteAge
{ipRouteEntry 10}
Integer Read-Write
The number of seconds since the route was last updated or
deemed to be correct.
ipRouteMask
{ipRouteEntry 11}
IP Address Read-Write
The mask to be combined with the destination IP address using the
AND operator, before being compared to the value in the
ipRouteDest field.
ipRouteMetric5
{ipRouteEntry 12}
Integer Read-Write
An alternative routing metric for this route.
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TCP/IP MIB-II
ipRouteInfo
{ipRouteEntry 13}
Object Identifier Read-Write
A reference to additional MIB definitions, specific to the routing
protocol which is responsible for this route. This information is not
present in the ELS10-26, so ipRouteInfo should be set to the object
identifier {0 0}.
2.4.3 IP Address Translation Table
The TCP/IP IP address translation table contains mappings of
Internet addresses to MAC addresses, except for the Internet
addresses of the ELS10-26 itself. The parameters are Read/Write,
according to TCP/IP MIB-II; however, the ELS10-26 has the
restriction that a dynamic entry should not be modified, except to
be made “invalid” (any other modifications will cause a static
entry to be created). When adding a row, the following defaults are
used:
• ipNetToMediaIfIndex is obtained from the row’s instance
identifier.
• ipNetToMediaPhysAddress defaults to 0.
• ipNetToMediaNetAddress is obtained from the row’s instance
identifier.
• ipNetToMediaType defaults to “static”.
Parameters include the following:
ipNetToMediaTable
Not Accessible
{ip 22}
A list of IP address translation entries; one per port number and IP
address.
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TCP/IP MIB-II
ipNetToMediaEntry
Not Accessible
{ipNetToMediaTable 1}
A set of objects for an ipNetToMediaTable entry. The individual
components are described below.
ipNetToMediaIfIndex
Integer Read-Write
{ipNetToMediaEntry 1}
The port number for which this entry is effective.
ipNetToMediaPhysAddress
Physical Address Read-Write
{ipNetToMediaEntry 2}
The MAC address (for the PPP port, this should be a zero length
octet string; for Ethernet ports, this should be a little-endian six
byte address).
ipNetToMediaNetAddress
IP Address Read-Write
{ipNetToMediaEntry 3}
The IP address which corresponds to the ipNetToMediaPhysAddress.
ipNetToMediaType
Integer Read-Write
{ipNetToMediaEntry 4}
The type of address mapping, one of the following:
• other (1) - none of the below.
• invalid (2) - the entry should be considered to be non-existent.
• dynamic (3) - the mapping was dynamically learned.
• static (4) - the mapping was statically configured.
2.4.4 IP Additional Objects
The TCP/IP additional IP objects are described below.
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TCP/IP MIB-II
ipRoutingDiscards
Counter Read-Only
{ip 23}
The number of valid routing entries that were discarded.
2.5 ICMP GROUP
icmp
{mib-2 5}
The TCP/IP ICMP Group parameters are described below.
icmpInMsgs
{icmp 1}
Counter Read-Only
The total number of ICMP messages which were received by this
ELS10-26. This includes all messages represented by icmpInErrors.
icmpInErrors
{icmp 2}
Counter Read-Only
The number of ICMP messages which were received with errors
(bad checksums, bad length, etc.).
icmpInDestUnreachs
Counter Read-Only
{icmp 3}
The number of ICMP “Destination Unreachable” messages
received.
icmpInTimeExcds
Counter Read-Only
{icmp 4}
The number of ICMP “Time Exceeded” messages received.
icmpInParmProbs
Counter Read-Only
{icmp 5}
The number of ICMP “Parameter Problem” messages received.
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TCP/IP MIB-II
icmpInSrcQuenchs
Counter Read-Only
{icmp 6}
The number of ICMP “Source Quench” messages received.
icmpInRedirects
{icmp 7}
Counter Read-Only
The number of ICMP “Redirect” messages received.
icmpInEchos
{icmp 8}
Counter Read-Only
The number of ICMP “Echo (request)” messages received.
icmpInEchoReps
{icmp 9}
Counter Read-Only
The number of ICMP “Echo Reply” messages received.
icmpInTimestamps
Counter Read-Only
{icmp 10}
The number of ICMP “Timestamp (request)” messages received.
icmpInTimestampsReps
Counter Read-Only
{icmp 11}
The number of ICMP “Timestamp Reply” messages received.
icmpInAddrMasks
Counter Read-Only
{icmp 12}
The number of ICMP “Address Mask Request” messages received.
icmpInAddrMaskReps
Counter Read-Only
{icmp 13}
The number of ICMP “Address Mask Reply” messages received.
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TCP/IP MIB-II
icmpOutMsgs
{icmp 14}
Counter Read-Only
The total number of ICMP messages which were sent by this
ELS10-26. This includes all messages counted by icmpOutErrors.
icmpOutErrors
{icmp 15}
Counter Read-Only
The number of ICMP messages which this ELS10-26 did not send
due to problems discovered entirely within the ICMP subsystem
(such as lack of buffers).
icmpOutDestUnreachs
Counter Read-Only
{icmp 16}
The number of ICMP “Destination Unreachable” messages sent.
icmpOutTImeExcds
Counter Read-Only
{icmp 17}
The number of ICMP “Time Exceeded” messages sent.
icmpOutParmProbs
Counter Read-Only
{icmp 18}
The number of ICMP “Parameter Problem” messages sent.
icmpOutSrcQuenchs
Counter Read-Only
{icmp 19}
The number of ICMP “Source Quench” messages sent.
icmpOutRedirects
Counter Read-Only
{icmp 20}
The number of ICMP “Redirect” messages sent.
icmpOutEchos
{icmp 21}
Counter Read-Only
The number of ICMP “Echo (request)” messages sent.
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TCP/IP MIB-II
icmpOutEchoReps
Counter Read-Only
{icmp 22}
The number of ICMP “Echo Reply” messages sent.
icmpOutTimestamps
Counter Read-Only
{icmp 23}
The number of ICMP “Timestamp (request)” messages sent.
icmpOutTimestampReps
Counter Read-Only
{icmp 24}
The number of ICMP “Timestamp Reply” messages sent.
icmpOutAddrMasks
Counter Read-Only
{icmp 25}
The number of ICMP “Address Mask Request” messages sent.
icmpOutAddrMaskReps
Counter Read-Only
{icmp 26}
The number of ICMP “Address Mask Reply” messages sent.
2.6 TCP GROUP
tcp
{mib-2 6}
The TCP Group is not supported since the ELS10-26 does not
support TCP.
2.7 UDP GROUP
udp
{mib-2 7}
The TCP/IP UDP Group parameters are described below.
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udpInDatagrams
{udp 1}
Counter Read-Only
The total number of UDP datagrams delivered to UDP users.
udpNoPorts
{udp 2}
Counter Read-Only
The total number of received UDP datagrams for which there was
no application at the destination port.
udpInErrors
{udp 3}
Counter Read-Only
The number of received UDP datagrams that could not be
delivered for reasons other than the lack of an application at the
destination port.
udpOutDatagrams
Counter Read-Only
{udp 4}
The total number of UDP datagrams sent from this ELS10-26.
2.7.1 UDP Listener Table
The TCP/IP UDP Listener Table parameters are described below.
udpTable
{udp 5}
Not Accessible
A table containing UDP listener information. The table has entries
for the following UDP port numbers port 69 (default TFTP port
number), port 161 (SNMP port number), and port 520 (RIP port
number).
udpEntry
{udpTable 1}
Not Accessible
The entry information of the IP address and UDP port
combination.
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TCP/IP MIB-II
udpLocalAddress
{udpEntry 1}
IP Address Read-Only
The all zeroes IP address (0.0.0.0), which indicates that the UDP
listener is willing to accept UDP datagrams for any IP address
associated with the ELS10-26.
udpLocalPort
{udpEntry 2}
Integer Read-Only
The UDP port number, i.e., one of 69, 161, and 520. Note that
reception of SNMP Traps (UDP port number 162) is not supported
by the ELS10-26.
2.8 EGP GROUP
egp
{mib-2 8}
The EGP Group is not supported since the ELS10-26 does not
support EGP.
2.9 OIM SUBTREE
cmot
{mib-2 9}
The OSI Subtree, as defined in OSI internet management,
Management Information Base, RFC 1214 (L. LaBarre, editor), dated
April 1991, is not supported.
2.10 TRANSMISSION GROUP
transmission
{mib-2 10}
The supported TCP/IP Transmission Group parameters are
described in later sections of this document. The transmission
group supported is:
dot3
{transmission 7}
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TCP/IP MIB-II
2.11 SNMP MANAGEMENT GROUP
snmp
{mib-2 11}
The TCP/IP SNMP Group parameters are described below.
snmpInPkts
{snmp 1}
Counter Read-Only
The number of SNMP PDUs received by the ELS10-26.
snmpOutPkts
{snmp 2}
Counter Read-Only
The number of SNMP PDUs created by the ELS10-26.
snmpInBadVersions
Counter Read-Only
{snmp 3}
The number of SNMP PDUs received by the ELS10-26 which had
an unsupported SNMP version.
snmpInBadCommunityNames
Counter Read-Only
{snmp 4}
The number of SNMP PDUs received by the ELS10-26 which had
an unrecognized SNMP community name.
snmpInBadCommunityUses
Counter Read-Only
{snmp 5}
The number of SNMP PDUs received by the ELS10-26 which had
an authentication failure.
snmpInASNParseErrs
Counter Read-Only
{snmp 6}
The number of SNMP PDUs received by the ELS10-26 which had
an ASN.1 parsing error while being decoded by the ELS10-26.
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snmpInBadTypes
{snmp 7}
Counter Read-Only
All GetResponse PDUs indicate a noSuchName ErrorStatus, since
this variable is no longer used.
snmpInTooBigs
{snmp 8}
Counter Read-Only
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInNoSuchNames
Counter Read-Only
{snmp 9}
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInBadValues
Counter Read-Only
{snmp 10}
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInReadOnlys
Counter Read-Only
{snmp 11}
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInGenErrs
{snmp 12}
Counter Read-Only
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInTotalReqVars
Counter Read-Only
{snmp 13}
The total number of MIB objects which have been successfully
retrieved by the ELS10-26 as a result of SNMP GetRequest or
GetNext PDUs.
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snmpInTotalSetVars
Counter Read-Only
{snmp 14}
The total number of MIB objects which have been successfully
altered by the ELS10-26 as a result of SNMP SetRequest PDUs.
snmpInGetRequests
Counter Read-Only
{snmp 15}
The total number of SNMP GetRequest PDUs received by the
ELS10-26, which have been processed with no errors.
snmpInGetNexts
{snmp 16}
Counter Read-Only
The total number of SNMP GetNext PDUs received by the
ELS10-26, which have been processed with no errors.
snmpInSetRequests
Counter Read-Only
{snmp 17}
The total number of SNMP SetRequest PDUs received by the
ELS10-26, which have been processed with no errors.
snmpInGetResponses
Counter Read-Only
{snmp 18}
Always zero, since the ELS10-26 ignores all SNMP response PDUs.
snmpInTraps
{snmp 19}
Counter Read-Only
Always zero, since the ELS10-26 ignores all SNMP Trap PDUs.
snmpOutTooBigs
{snmp 20}
Counter Read-Only
The total number of SNMP PDUs created by the ELS10-26, with a
value of “tooBig” in the PDU’s “ErrorStatus”.
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snmpOutNoSuchNames
Counter Read-Only
{snmp 21}
The total number of SNMP PDUs created by the ELS10-26, with a
value of “noSuchName” in the PDU’s “ErrorStatus”.
snmpOutBadValues
Counter Read-Only
{snmp 22}
The total number of SNMP PDUs created by the ELS10-26, with a
value of “badValue” in the PDU’s “ErrorStatus”.
snmpOutReadOnlys
Counter Read-Only
{snmp 23}
All GetResponse PDUs indicate a noSuchName ErrorStatus, since
this variable is no longer used.
snmpOutGenErrs
{snmp 24}
Counter Read-Only
The total number of SNMP PDUs created by the ELS10-26, with a
value of “genErr” in the PDU’s “ErrorStatus”.
snmpOutGetRequests
Counter Read-Only
{snmp 25}
Always zero, since the ELS10-26 never creates any SNMP request
PDUs.
snmpOutGetNexts
Counter Read-Only
{snmp 26}
Always zero, since the ELS10-26 never creates any SNMP request
PDUs.
snmpOutSetRequests
Counter Read-Only
{snmp 27}
Always zero, since the ELS10-26 never creates any SNMP request
PDUs.
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TCP/IP MIB-II
snmpOutGetResponses
Counter Read-Only
{snmp 28}
The total number of SNMP GetResponse PDUs created by the
ELS10-26.
snmpOutTraps
{snmp 29}
Counter Read-Only
The total number of SNMP Trap PDUs created by the ELS10-26.
snmpEnableAuthenTraps
Integer Read-Write
{snmp 30}
Whether authentication failures should cause the ELS10-26 to
generate authentication-failure Trap PDUs. Values include:
• enabled (1) - generate traps
• disabled (2) - do not generate traps
2.12 CABLETRON INTERFACE GROUP
ctIfTable
{ctIf 1}
This table defines an extension to the interface table.
SYNTAX SEQUENCE OF ctIfEntry
ACCESS not accessible
STATUS mandatory
ctIfEntry
{ctIfTable 1}
This defines each conceptual row within the ctIfTable.
SYNTAX CtIfEntry
ACCESS not accessible
STATUS mandatory
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ctIfNumber
{ctIfEntry 1}
This defines the interface that is being described. This is the same
as IfIndex.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
ctIfPortCnt
{ctIfEntry 2}
This defines the number of ports on the interface that are being
described.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
ctIfConnectionType
{ctIfEntry 3}
This defines the specific type of interface connection (BRIM, etc.).
This is defined within ctron-oids. This differs from the nature of
the interface as defined by IfType as found in MIB-II.
SYNTAX OBJECT IDENTIFIER
ACCESS read-only
STATUS mandatory
ctIfLAA
{ctIfEntry 4}
This object is used by a device (with Token Ring interface) to set a
Locally Administered Address (LAA) for its MAC hardware
address. When set, this LAA will override the default Universally
Administered Address, or burned in address of the interface. For
devices that do not support LAA, a read will return all zeros. Any
write attempt return BADVALUE. For devices that support LAA,
valid values are 4000 0000 0000 to 4000 7fff ffff, and 0000 0000 0000
(a value of all zeros causes interface to use the burned in address).
A set (write) with an invalid value, returns BADVALUE. After a
write, new values will only become active after the Token Ring
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TCP/IP MIB-II
interface has been closed and then opened again. A read of
ctIfLAA will always return the same values as IfPhysAddress,
except in the case where; o ctIfLAA has been set, but interface has
not yet been closed and reopened, in this case the last set value is
returned. Note that a read of IfPhysAddress will always return the
physical address currently being used by the interface.
SYNTAX OCTET STRING (SIZE (6))
ACCESS read-write
STATUS mandatory
ctIfDuplex
{ctIfEntry 5}
This defines the capability of the underlying hardware in
supporting full duplex. This object will have a value of
fullDuplex(3) if all hardware is capable of supporting full duplex
operation.
SYNTAX INTEGER {other(1), standard(2), full(3)}
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.2.1.1.5
The OID will actually be 1.3.6.1.4.1.52.4.3.3.2.1.1.5.X where X is the
interface number requested. This is what the port is set to, NOT of
what it is capable. It will report full (3) or standard (2) on ethernet
ports, and other (1) for fast ethernet ports. It will report other (1) on
our UART (Local Console Management or PPP) port.
ctIfCapability
{ctIfEntry 6}
DESCRIPTION
Defines the capability of the underlying hardware in supporting
full duplex. This object will have a value of fullDuplex (3) if all
hardware is capable of supporting full duplex operation.
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SYNTAX INTEGER {other (1), standard (2), fullDuplex
(3), fastEthernet (4)}
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.2.1.1.6
The OID will actually be 1.3.6.1.4.1.52.4.3.3.2.1.1.6.X where X is the
interface number (port number) requested. It will report
fullDuplex (3) on our ethernet ports, and fastEthernet (4) on our
fast ethernet ports. It will report other (1) on our UART (Local
Console Management or PPP) port.
2.13 CABLETRON INTERFACE PORT GROUP
ctIfPortTable
{ctIfPort 1}
This table defines an extension to the interface table.
SYNTAX SEQUENCE OF ctIfPortEntry
ACCESS not accessible
STATUS mandatory
ctIfPortEntry
{ctIfPortTable 1}
DESCRIPTION
This defines each conceptual row within the ctIfPortTable.
SYNTAX CtIfPortEntry
ACCESS not-accessible
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.3.1.1
INDEX
ctIfPortIfNumber
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ctIfPortPortNumber
ctIfPortPortNumber
{ctIfPortEntry 1}
This defines the port that is being described.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.3.1.1.1
The OID will actually be 1.3.6.1.4.1.52.4.3.3.3.1.1.1.X.Y where X is
the interface number and Y is the port requested. X will increment
from 1 to 28 (25 Ethernet, 2 Fast Ethernet, and the LCM port). Y
will always be 1 because there is only one port per interface. We
will always return a value of 1, because there is only one port on
the interface.
ctIfPortIfNumber
{ctIfPortEntry 2}
This defines the interface on which the port is being defined.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.3.1.1.2
The OID will actually be 1.3.6.1.4.1.52.4.3.3.3.1.1.1.X.Y where X is
the interface number and Y is the port requested. X will increment
from 1 to 28 (25 Ethernet, 2 Fast Ethernet, and the LCM port). Y
will always be 1 because there is only one port per interface. We
will return our port number, which will actually be the same as X.
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TCP/IP MIB-II
ctIfPortType
{ctIfPortEntry 3}
DESCRIPTION
This defines the specific type of port (EPIM, TPIM). This is defined
within ctron-oids.
SYNTAX OBJECT IDENTIFIER
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.3.1.1.3
The OID will actually be 1.3.6.1.4.1.52.4.3.3.3.1.1.1.X.Y where X is
the interface number and Y is the port requested. X will increment
from 1 to 28 (25 Ethernet, 2 Fast Ethernet, and the LCM port). Y
will always be 1 because there is only one port per interface. This
variable should describe the hardware device itself by media type
and type of connection. We have an Ethernet connection to an
RJ45. This means that we will return an OID of
1.3.6.1.4.1.52.3.8.1.1.1.6 to show portRJ45 (CTRON-OIDS):
oid_value_assignment.
ctIfPortLinkStatus
{ctIfPortEntry 4}
This defines the status of the port connection.
SYNTAX INTEGER {notLinked(1), linked(2), notApplica-
ble(3)}
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.52.4.3.3.3.1.1.4
The OID will actually be 1.3.6.1.4.1.52.4.3.3.3.1.1.1.X.Y where X is
the interface number and Y is the port requested. We will return
the link status for the ethernet and fast ethernet ports. We will
return notApplicable (3) for the UART port.
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TCP/IP MIB-II
2.14 CABLETRON COM PORT CONFIGURATION GROUP
ctCpTable
{ctIfCp 1}
This table defines a Com Port Table.
SYNTAX SEQUENCE OF ctCPEntry
ACCESS not accessible
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1
ctCpEntry
{ctCpTable 1}
This defines each conceptual row within the ctCpTable.
SYNTAX ctCpEntry
ACCESS not accessible
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1
INDEX
ctComPort
ctComPort
{ctCpEntry 1}
This is the index into the Com Port Table and defines the Com Port
that is being described. com1 = 1, com2 = 2.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1.1
We only have one UART port. This means the OID will always be
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1.1.1, and we will
always return a value of 1.
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TCP/IP MIB-II
ctCpFunction
{ctCpEntry 2}
DESCRIPTION
This defines the Com Port Function supported by that Com Port.
SYNTAX INTEGER {lm(1), ups(2), slip(3), ppp(4)}
ACCESS read-write
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1.2
The OID will actually be 1.3.6.1.4.1.52.4.3.3.4.1.1.2.1 because there
is only one UART port. We support LM and PPP simultaneously. If
we detect a PPP packet we do negotiations and enter into PPP
mode. As long as PPP keeps live messages we’ll stay there. If they
don’t we revert back to VT100 emulation. We will sample the port
at the time the request comes in and return a value of LM (1), or
PPP (4) depending on what state the port is in at the time of the
request.
ctIfNum
{ctCpEntry 3}
DESCRIPTION
This defines the interface that is being described. This is the same
as ifIndex. This is only valid if ctCpFunction is PPP, otherwise 0.
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1.3
The OID will actually be 1.3.6.1.4.1.52.4.3.3.4.1.1.3.1 because we
only have the one UART port. We will return our port number for
the UART port.
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ctCpAdminStatus
{ctCpEntry 4}
DESCRIPTION
The administrative state of the Com Port.
SYNTAX INTEGER {disabled(1), enabled(2)}
ACCESS read-only
STATUS mandatory
OBJECT IDENTIFIER: 1.3.6.1.4.1.52.4.3.3.4.1.1.4
The OID will actually be 1.3.6.1.4.1.52.4.3.3.4.1.1.4.1 because we
only have the one UART port.
We don’t allow this port to be turned on or off. Because of this, it
will be READ-ONLY.
It will always return enabled (2).
2.15 SNMP VERSION GROUP
enableSNMPv1 Not Supported
{ctSNMP 1}
This object allows control over the SNMPv1 protocol. If set to a
value of disable(1) then the SNMPv1 protocol will not be accepted
by the device.
SYNTAX INTEGER {disabled(1), enabled(2)}
ACCESS read-write
STATUS mandatory
enableSNMPv2 Not Supported
{ctSNMP 2}
This allows control over the SNMPv2 protocol. If set to a value of
disable(1) then the SNMPv2 protocol will not be accepted by the
device.
SYNTAX INTEGER {disabled(1), enabled(2)}
ACCESS read-write
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TCP/IP MIB-II
STATUS mandatory
2.16 TRAP DESCRIPTION
InterfacePortInsertion Not Supported.
Specific Trap Type Code - 0x1A0
This trap will be generated when it is detected that an interface
port has been inserted. The information will include:
ctIfNumber
ctIfPortNumber
ctPortType
{ctIfEntry 1}
{ctIfPortEntry 1}
{ctIfPortEntry 3}
Specific Trap Type Code - 0x1A1
This trap will be generated when it is detected that an interface
port has been removed. The information will include:
ctIfNumber
{ctIfEntry 1}
ctIfPortPortNumber
{ctIfPortEntry 1}
InterfacePortLinkUp
Specific Trap Type Code - 0x1A2
This trap will be generated when it is determined that a port on a
strictly bridging interface (not “repeater”) has been connected to a
LAN. This is only appropriate for ports that support the concept of
a link state. The information will include:
ctIfNumber
{ctIfEntry 1}
ctIfPortPortNumber
{ctIfPortEntry 1}
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InterfacePortLinkDown
Specific Trap Type Code - 0x1A3
This trap will be generated when a previously attached bridging
port has been disconnected from a LAN. This is only appropriate
for ports that support the concept of a link state. The information
will include:
ctIfNumber
{ctIfEntry 1}
ctIfPortPortNumber
{ctIfPortEntry 1}
This trap will be sent when a link goes down.
2.17 CABLETRON MIB 2 EXTENSIONS
ctmib2-ext-mib Cabletron’s extension to the MIB-II
This module provides authoritative definitions for part of the
naming tree below:
cabletron {enterprises 52}
This module will be extended, as additional sub-sections of this
naming tree are defined.
IMPORTS ctronMib2FROM CTRON-MIB-NAMES OBJECT-TYPE
FROM RFC-1212
Textual Convention
DisplayString ::= OCTET STRING
This data type is used to model textual information from the NVT
ASCII character set. By convention, objects of this syntax are
declared as having: SIZE (0.255)
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TCP/IP MIB-II
This MIB defines Cabletron extensions to MIB-II. Groups within
this MIB refer to the group in which the objects pertain within
MIB-II.
Groups within this MIB are:
commonDevOBJECT IDENTIFIER
ctIfPortOBJECT IDENTIFIER
ctIfPortOBJECT IDENTIFIER
ctIfCpOBJECT IDENTIFIER
ctSNMP OBJECT IDENTIFIER
ctSONET OBJECT IDENTIFIER
{ctronMib2 1}
{ctronMib2 2}
{ctronMib2 3}
{ctronMib2 4}
{ctronMib2 5}
{ctronMib2 6}
The commonDevice group of this group is an extension to the
system group MIB2. It contains similar information to that defined
within the system group of MIB-II.
Implementation of this group is optional for Cabletron devices.
comDeviceTime
OBJECT-TYPE
SYNTAX DisplayString(SIZE (8))
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
The current time of day, in 24 hour
format, as measured by the device.
The representation shall use the stan-
dard HHMMSS format.
::= {commonDev 1}
comDeviceDate
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OBJECT-TYPE
SYNTAX DisplayString(SIZE (8))
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
The current date, as measured by the
device. The representation shall use
the standard MMDDYY format.
::= {commonDev 2}
comDeviceBoardMap
OBJECT-TYPE
SYNTAXINTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
Contains a bit encoded representa-
tion of slots that contain MIM
boards. If a bit is one, then that slot is
occupied by a board.
::= {commonDev 3}
ctIF group implementation of this group is optional.
The ctIf group contains information about the type of interface, i.e.
the type of BRIM etc. This information is not available in the
interface group of MIB-II.
ctIfTable
OBJECT-TYPE
SYNTAXSEQUENCE OF CtIfEntry
ACCESS
not accessible
mandatory
STATUS
DESCRIPTION
This table defines an extension to the
interface table.
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::= {ctIf 1}
ctIfEntry
OBJECT-TYPE
SYNTAXCtIfEntry
ACCESS
not accessible
mandatory
STATUS
DESCRIPTION
This defines each conceptual row
within the ctIfTable.
INDEX
{ctIfNumber}
::= {ctIfTable 1}
CtIfEntry::=
SEQUENCE
{ctIfNumber INTEGER,
ctIfPortCnt INTEGER,
ctIfConnectionType OBJECT IDENTIFIER,
ctIfLAA OCTET STRING,
ctIfDuplex INTEGER,
ctIfCapability INTEGER,
ctIfRedundancy INTEGER }
ctIfNumber
OBJECT-TYPE
SYNTAXINTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the interface that is
being described. This is the same as
ifIndex.
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::= {ctIfEntry 1}
ctIfPortCnt
OBJECT-TYPE
SYNTAXINTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the number of ports on
the interface that is being described.
INDEX
{ctIfNumber}
::= {ctIfEntry 2}
ctIfConnectionType
OBJECT-TYPE
SYNTAXOBJECTIDENTIFIER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
Defines the specific type of interface
connection (BRIM etc.). This is
defined within ctron-oids. This dif-
fers from the nature of the interface
as defined by ifType as found in
MIB-II.
INDEX
{ctIfNumber}
::= {ctIfEntry 3}
ctIfLAA
OBJECT-TYPE
SYNTAXOCTET STRING (SIZE (6))
ACCESS read-write
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STATUS
DESCRIPTION
mandatory
This object is used by a device (with
a Token Ring interface) to set a
Locally Administered Address
(LAA) for its MAC hardware
address. When set, this LAA will
override the default Universally
Administered Address or burned-in
address of the interface.
For devices that do not support LAA:
a read will return all zeroes
any write attempt will return BADVALUE
For devices that suport LAA:
valid values are 4000 0000 0000 to 4000 7fff ffff, and 0000
0000 0000 (a value of all zeroes causes interface to use the
burned-in address).
a set (write) with an invalid value returns BADVALUE.
after a write, new values will only become active after
Token Ring interface has been closed and then opened
again.
a read of ctIfLAA will always return the same value as
ifPhysAddress, except in the case where; o ctIfLAA has
been set, but interface has not yet been closed and
re-opened. In this case the last set value is returned.
Note that a read of ifPhysAddress will always return the
physical address currently being used by the interface.
::= {ctIfEntry 4}
ctIfDuplex
OBJECT-TYPE
SYNTAXINTEGER {other (1), standard (2), full (3)}
ACCESS
read-write
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TCP/IP MIB-II
STATUS
mandatory
DESCRIPTION
Defines the specific type of interface
connection (BRIM etc.). Defines the
duplex mode in which the interface
is set to operate.
For devices that do not support this capability:
a read will return standard (2).
any write attempt will return BADVALUE.
fast ethernet devices will report other (1).
::= {ctIfEntry 5}
ctIfCapability
OBJECT-TYPE
SYNTAXINTEGER {other (1), standard (2), full duplex
(3), fastEthernet (4)}
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
Defines the capability of the underly-
ing hardware in supporting full
duplex. This object will have a value
of fullDuplex (3) if all hardware is
capable of supporting full duplex
operation.
::= {ctIfEntry 6}
ctIfRedundancy
OBJECT-TYPE
SYNTAXINTEGER {redundant (1), not-redundant (2)}
ACCESS
STATUS
read-only
mandatory
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TCP/IP MIB-II
DESCRIPTION
Defines whether or not an interface
supports redundancy.
::= {ctIfEntry 7}
ctIfPort group implementation of this group is optional
The ctIfPort group contains information about the type of port on
the interface i.e., the type of EPIM,TPIM etc. This information is
not available in the interface group of MIB-II.
ctIfPortTable
OBJECT-TYPE
SYNTAXSEQUENCEOF CtIfPortEntry
ACCESS
not accessible
mandatory
STATUS
DESCRIPTION
This defines each conceptual row
within the ctIfPortTable.
INDEX
{ctIfPortNumber}
ctIfPortPortNumber
::= {ctIfPortTable 1}
ctIfPortEntry
OBJECT-TYPE
SYNTAX
{CtIfPortPortNumber}
not accessible
ACCESS
STATUS
mandatory
DESCRIPTION
This defines each conceptual row
within the ctIfPortTable.
INDEX
{ctIfPortNumber}
ctIfPortPortNumber
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TCP/IP MIB-II
::= {ctIfPortTable 1}
ctIfPortEntry::=
SEQUENCE
{ctIfPortPortNumber INTEGER,
ctIfPortIfNumber INTEGER,
ctIfPortType OBJECT IDENTIFIER,
ctIfPortLinkStatus INTEGER}
ctIfPortPortNumber
OBJECT-TYPE
SYNTAX
INTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the port being
described.
::= {ctIfPortEntry 1}
ctIfPortIfNumber
OBJECT-TYPE
SYNTAX
INTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the interface that the
port being described is on.
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TCP/IP MIB-II
::= {ctIfPortEntry 2}
ctIfPortType
OBJECT-TYPE
SYNTAX
OBJECT IDENTIFIER
read-only
ACCESS
STATUS
mandatory
DESCRIPTION
Defines the specific type of the port
(EPIM,TPIM). This is defined within
ctron oids.
::= {ctIfPortEntry 3}
ctIfPortLinkStatus
OBJECT-TYPE
SYNTAX
INTEGER
{not linked (1), linked (2), notAppli-
cable (3).}
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
Defines the status of the port connec-
tion.
::= {ctIfPortEntry 4}
ctIfPort group implementation of this group is optional
The ctIfCp group contains information about the com port
configuration on the MMAC Management Modules (i.e., EMME,
TRMM) and on the MMAC-Plus Environmental Module.
ctCpTable
OBJECT-TYPE
SYNTAXSEQUENCEOF CtIfCpEntry
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TCP/IP MIB-II
ACCESS
not accessible
mandatory
STATUS
DESCRIPTION
This table defines a Com Port Table.
::= {ctIfCp 1}
ctCpEntry
OBJECT-TYPE
SYNTAX
CtCpEntry
not accessible
mandatory
ACCESS
STATUS
DESCRIPTION
This defines each conceptual row
within the ctCpTable.
INDEX
{ctComPort}
::= {ctCpTable 1}
ctCpEntry::=
SEQUENCE
{ctComPort INTEGER,
ctCpFunction INTEGER,
ctIfNum INTEGER,
ctCpAdminStatus INTEGER}
ctComPort
OBJECT-TYPE
SYNTAXINTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This is the index into the Com Port
Table and defines the Com Port that
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TCP/IP MIB-II
is being described. com1 = 1,
com2 = 2
{ctCpEntry 1}
ctCpFunction
OBJECT-TYPE
SYNTAXINTEGER {lm(1), Local Management (default),
ups (2) UPS, slip (3) SLIP, ppp
(4) PPP}
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
Defines the Com Port Function sup-
ported by that Com Port.
{ctCpEntry 2}
ctIfNum
OBJECT-TYPE
SYNTAXINTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the interface that is
being described. This is the same as
ifIndex. This is only valid if ctCp-
Function is SLIP or PPP, otherwise 0.
{ctCpEntry 3}
ctCpAdminStatus
OBJECT-TYPE
SYNTAXINTEGER {disabled (1), enabled (2) (default)}
ACCESS read-write
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TCP/IP MIB-II
STATUS
mandatory
DESCRIPTION
The administrative state of the Com
Port.
{ctCpEntry 4}
The SNMP group. Implementation of this group is mandatory
when the SNMPv2 protocol is present within the device.
enableSNMPv1
OBJECT-TYPE
SYNTAXINTEGER {disable (1), enable (2)}
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
This object allows control over the
SNMPv1 protocol. If set to a value of
disable (1) then the SNMPv1 proto-
col will not be accepted by the
device.
{ctSNMP 1}
enableSNMPv2
OBJECT-TYPE
SYNTAXINTEGER {disable (1), enable (2)}
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
This object allows control over the
SNMPv2 protocol. If set to a value of
disable (1) then the SNMPv2 proto-
col will not be accepted by the
device.
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TCP/IP MIB-II
{ctSNMP 2}
{ctSNMP 3} is obsolete
The ctSonet group is an optional group. It contains information
pertaining to the optical connectivity speed.
ctSonetEntry
OBJECT-TYPE
SYNTAXSEQUENCEOF CtSonetEntry
ACCESS
not accessible
STATUS
mandatory
DESCRIPTION
INDEX
This table defines the Sonet table.
{ctSonetIfIndex}
{ctSonetTable 1}
CtSonetEntry::=
SEQUENCE
{ctSonetIfIndex INTEGER,
ctSonetMediumType INTEGER}
ctSonetIfIndex
OBJECT-TYPE
SYNTAX
INTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
This defines the interface being
described. It is the same as IfIndex.
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TCP/IP MIB-II
{ctSonetEntry 1}
ctSonetMediumType
OBJECT-TYPE
SYNTAX
INTEGER
{sonet (1), sdh (2)}
read-write
ACCESS
STATUS
mandatory
DESCRIPTION
This variable identifies whether a
SONET or an SDH signal is used
across this interface.
{ctSonetEntry 2}
Trap description
InterfacePortInsertion
Specific Trap Type Code- 0x1A0
This trap will be generated when it is detected that an interface
port has been inserted. The interesting information will include:
ctIfNumber {ctIfEntry 1}, ctIfPortPortNumber
{ctIfPortEntry 1}, ctIfPortType
{ctIfPortEntry 3}
Trap description
InterfacePortInsertion
Specific Trap Type Code - 0x1A1
This trap will be generated when it is determined that a port has
been removed. The interesting information will include:
ctIfNumber {ctIfEntry 1}, ctIfPortPortNumber
{ctIfPortEntry 1},
Trap description
InterfacePortLinkUp
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TCP/IP MIB-II
Specific Trap Type Code - 0x1A2
This trap will be generated when it is determined that a port on a
strictly bridging interface (not a “repeater”) has been connected to
a LAN. This is only appropriate for ports that support the concept
of a link state. The interesting information will include:
ctIfNumber {ctIfEntry 1}, ctIfPortPortNumber
{ctIfPortEntry 1},
Trap description
InterfacePortLinkDown
Specific Trap Type Code - 0x1A3
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CHAPTER 3
ETHERNET MIB
The ELS10-26 supports the Ethernet MIB as defined in Definitions of
Managed Objects for the Ethernet-like Interface Types, RFC 1284
(J. Cook, editor), dated December 1991.
The MIB tree prefix for reaching the GenericIF group is:
1.3.6.1.2.1.12.
3.1 GENERIC ETHERNET-LIKE GROUP
dot3Table
{dot3 1}
Not Accessible
A list of interface entries; one per Ethernet port. The entry
instances correspond to the ELS10-26’s port numbers.
dot3Entry
{dot3Table 1}
Not Accessible
A set of operational attributes for an Ethernet entry. The individual
components are described below.
dot3Index
{dot3Entry 1}
Integer Read-Only
The ELS10-26’s Ethernet port number.
dot3InitializeMAC
Integer Read-Write
{dot3Entry 2}
Whether the port has been initialized. Initializing a port
automatically resets all of the port’s statistics, and enables transmit
and receive (the receiver will be in promiscuous mode). The value
of dot3InitializeMAC is not saved in the event that the ELS10-26
reboots. Values include:
• initialized (1)
• uninitialized (2)
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Ethernet MIB
dot3MACSubLayerStatus
Integer Read-Write
{dot3Entry 3}
Treated identically to dot3InitializeMAC. Values include:
• enabled (1)
• disabled (2)
dot3MulticastReceiveStatus
Integer Read-Write
{dot3Entry 4}
Whether the port is able to receive multicasts. This is always
enabled when the port is enabled, and always disabled when the
port is disabled. Values include:
• enabled (1)
• disabled (2)
dot3TxEnabled
{dot3Entry 5}
Integer Read-Write
Whether the port is able to transmit. This is always enabled when
the port is enabled, and always disabled when the port is disabled.
Values include:
• true (1)
• false (2)
dot3TestTdrValue
Gauge Read-Only
{dot3Entry 6}
Always zero, since the results of TDR tests are not available.
3.2 ETHERNET-LIKE STATISTICS GROUP
The dot3StatsTable is specified in a unique manner. That is, the
RFC specifies that value of 0 should be returned for counters that
are not implemented.
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Ethernet MIB
dot3StatsTable
Not Accessible
{dot3 2}
A list of interface entries; one per Ethernet port, which correspond
to the dot3Table entries.
dot3StatsEntry
Not Accessible
{dot3StatsTable 1}
A set of statistics for an Ethernet entry. The individual components
are described below.
dot3StatsIndex
{dot3StatsEntry 1}
Integer Read-Only
The ELS10-26’s Ethernet port number.
dot3StatsAlignmentErrors
Counter Read-Only
{dot3StatsEntry 2}
Number of received packets with frame alignment errors since the
port was last enabled.
dot3StatsFCSErrors
Counter Read-Only
{dot3StatsEntry 3}
Number of received packets with FCS errors (and without frame
alignment errors) since the port was last enabled.
dot3StatsSingleCollisionFrames
Counter Read-Only
{dot3StatsEntry 4}
The number of frames that experienced a single collision.
dot3StatsMultipleCollisionFrames
Counter Read-Only
{dot3StatsEntry 5}
The number of successfully transmitted frames that experienced
more than one collision.
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Ethernet MIB
dot3StatsSQETestErrors
Counter Read-Only
{dot3StatsEntry 6}
The number of times an SQE failure (i.e., heartbeat lost) occurred,
since the port was last enabled.
dot3StatsDeferredTransmissions
Counter Read-Only
{dot3StatsEntry 7}
The number of frames for which the first transmission attempt was
successful, but delayed because the medium was busy.
dot3StatsLateCollisions
Counter Read-Only
{dot3StatsEntry 8}
The number of times that a late collision was detected while the
ELS10-26 was transmitting a frame.
dot3StatsExcessiveCollisions
Counter Read-Only
{dot3StatsEntry 9}
The number of times a frame transmission attempt experienced
excessive collisions, since the port was last enabled.
dot3StatsInternalMACTransmitErrors {dot3StatsEntry 10}
Counter Read-Only
The number of times a frame transmission attempt experienced an
error other than dot3StatsSQETestErrors,
dot3StatsExcessiveCollisions, or dot3StatsCarrierSenseErrors,
since the port was last enabled.
dot3StatsCarrierSenseErrors
Counter Read-Only
{dot3StatsEntry 11}
The number of times that a carrier sense condition was lost during
a transmission attempt, since the port was last enabled.
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Ethernet MIB
dot3StatsExcessiveDeferrals
Counter Read-Only
{dot3StatsEntry 12}
The number of times that transmission was deferred for an
excessive period of time.
dot3StatsFrameTooLongs
Counter Read-Only
{dot3StatsEntry 13}
The number of times a received packet was too long, since the port
was last enabled.
dot3StatsInRangeLengthErrors
Counter Read-Only
{dot3StatsEntry 14}
The number of received frames with an incorrect LLC data size.
Zero is always returned.
dot3StatsOutOfRangeLengthErrors
Counter Read-Only
{dot3StatsEntry 15}
The number of received frames with an LLC data size that is too
large (not including frames that have an Ethernet frame type field).
Zero is always returned.
dot3StatsInternalMACReceiveErrors
Counter Read-Only
{dot3StatsEntry 16}
The number of times a frame reception failed due to an error
condition not already accounted for, since the port was last
enabled.
3.3 ETHERNET-LIKE COLLISION STATISTICS GROUP
dot3CollTable
{dot3 5}
This group is minimally supported (i.e., the ELS10-26 returns a
GetResponse with a noSuchName ErrorStatus).
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Ethernet MIB
3.4 ETHERNET-LIKE TESTS GROUP
dot3Tests
{{dot3 6}
There are no MIB variables in this group.
3.5 ETHERNET-LIKE ERRORS GROUP
dot3Errors
{dot3 7}
There are no MIB variables in this group.
3.6 ETHERNET-LIKE CHIPSETS GROUP
dot3ChipSets
{dot3 8}
There are no MIB variables in this group.
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CHAPTER 4
BRIDGE MIB
The ELS10-26 supports the Bridge MIB {mib-2 17} as defined in
Definitions of Managed Objects for Bridges, RFC 1286 (Decker,
Langille, Rijsinghani, and McCloghrie, editors).
The MIB tree prefix for reaching the Bridge MIB-II is:
1.3.6.1.2.1.17
4.1 BASE GROUP
dot1dBase
{dot1dBridge 1}
{dot1dBase 1}
dot1dBaseBridgeAddress
Octet String Read-Only
The MAC address used by this bridge when it must be referred to
in a unique fashion. It is recommended that this be the numerically
smallest MAC address of all ports that belong to this bridge.
However it is only required to be unique. When concatenated with
dot1dStpPriority a unique BridgeIdentifier is formed which is used
in the Spanning Tree Protocol.
The ELS10-26 dot1dBaseBridgeAddress is the MAC address of
port 1.
dot1dBaseNumPorts
Integer Read-Only
{dot1dBase 2}
The number of ports controlled by this bridging entity.
Identical to ifNumber; however, the ELS10-26 prevents bridging
from being enabled for the last (port 25), which is reserved for
out-of-band management.
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Bridge MIB
dot1dBaseType
{dot1dBase 3}
Integer Read-Only
Indicates what type of bridging this bridge can perform. If a bridge
is actually performing a certain type of bridging this will be
indicated by entries in the port table for the given type.
The ELS10-26 is always transparent-only (2).
dot1dBasePortTable
Not Accessible
{dot1dBase 4}
A table that contains generic information about every port that is
associated with this bridge.
All ELS10-26 Ethernet ports are included in this table, regardless of
whether any form of bridging is currently enabled for the ports.
dot1dBasePortEntry
Not Accessible
{dot1dBasePortTable 1}
A list of information for each port of the bridge.
dot1dBasePort
{dot1dBasePortEntry 1}
Integer Read-Only
The port number of the port for which this entry contains bridge
management information.
Identical to dot1dBasePortIfIndex.
dot1dBasePortIfIndex
Integer Read-Only
{dot1dBasePortEntry 2}
The value of the instance of the ifIndex object for the interface
corresponding to this port.
dot1dBasePortCircuit
{dot1dBasePortEntry 3}
Object Identifier Read-Only
For a port which (potentially) has the same value of
dot1dBasePortIfIndex as another port on the same bridge, this
object contains the name of an object instance unique to this port.
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Bridge MIB
For example, in the case where multiple ports correspond
one-to-one with multiple X.25 virtual circuits, this value might
identify an (e.g., the first) object instance associated with the X.25
virtual circuit corresponding to this port. For a port which has a
unique value of dot1dBasePortIfIndex, this object can have the
value {0 0}.
Always {0 0}.
dot1dBasePortDelayExceededDiscards {dot1dBasePortEntry 4}
Counter Read-Only
The number of frames discarded by this port due to excessive
transit delay through the bridge.
dot1dBasePortMtuExceededDiscards
Counter Read-Only
{dot1dBasePortEntry 5}
The number of frames discarded by this port due to an excessive
size.
4.2 SPANNING TREE GROUP
dot1dStp
{dot1dBridge 2}
{dot1dStp 1}
dot1dStpProtocolSpecification
Integer Read-Only
An indication of what version of the Spanning Tree Protocol is
being run. The value decLb100(2) indicates the DEC LANbridge
100 Spanning Tree protocol. IEEE 802.1d implementations will
return ieee8021d(3). If future versions of the IEEE Spanning Tree
Protocol are released that are incompatible with the current
version a new value will be defined.
Always iee8021d (3).
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Bridge MIB
dot1dStpPriority
{dot1dStp 2}
Integer Read-Write
The value of the write-able portion of the Bridge ID, i.e., the first
two octets of the (8 octet long) Bridge ID. The other (last) 6 octets of
the Bridge ID are given by the value of dot1dBaseBridgeAddress.
Any value from 0 to 65535 may be specified.
dot1dStpTimeSinceTopologyChange
Time Ticks Read-Only
{dot1dStp 3}
The time (in hundredths of a second) since the last time a topology
change was detected by the bridge entity.
Zero if a topology change is in progress; otherwise, the time since
the topology last stabilized.
dot1dStpTopChanges
Counter Read-Only
{dot1dStp 4}
The total number of topology changes detected by this bridge since
the management entity was last reset or initialized.
dot1dStpDesignatedRoot
Octet String Read-Only
{dot1dStp 5}
The bridge identifier of the root of the spanning tree as determined
by the Spanning Tree Protocol as executed by this node. This value
is used as the Root Identifier parameter in all Configuration Bridge
PDUs originated by this node.
dot1dStpRootCost
Integer Read-Only
{dot1dStp 6}
The cost of the path to the root as seen from this bridge.
dot1dStpRootPort
Integer Read-Only
{dot1dStp 7}
The port number of the port which offers the lowest cost path from
this bridge to the root bridge.
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Bridge MIB
Port number of this bridge’s current spanning tree root port, or 0, if
this bridge is the current spanning tree root bridge.
dot1dStpMaxAge
Integer Read-Only
{dot1dStp 8}
The maximum age of Spanning Tree Protocol information learned
from the network on any port before it is discarded, in units of
hundredths of a second. This is the actual value that this bridge is
currently using.
dot1dStpHelloTime
Integer Read-Only
{dot1dStp 9}
The amount of time between the transmission of Configuration
bridge PDUs by this node on any port when it is the root of the
spanning tree or trying to become so, in units of hundredths of a
second. This is the actual value that this bridge is currently using.
dot1dStpHoldTime
Integer Read-Only
{dot1dStp 10}
This time value determines the interval length during which no
more than two Configuration bridge PDUs shall be transmitted by
this node, in units of hundredths of a second.
dot1dStpForwardDelay
Integer Read-Only
{dot1dStp 11}
This time value, measured in units of hundredths of a second,
controls how fast a port changes its spanning state when moving
towards the Forwarding state. The value determines how long the
port stays in a particular state before moving to the next state. For
example, how long a port stays in the Listening state when moving
from Blocking to Learning. This value is also used, when a
topology change has been detected and is underway, to age all
dynamic entries in the Forwarding Database.
Note: This value is the one that this bridge is currently using, in contrast
to dot1dStpBridgeForwardDelay which is the value that this bridge
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Bridge MIB
and all others would start using if/when this bridge were to become
the root.
dot1dStpBridgeMaxAge
Time Ticks Read-Write
{dot1dStp 12}
The value that all bridges use for MaxAge when this bridge is
acting as the root. Note that 802.1d/D9 specifies that the range for
this parameter is related to the value of dot1dStpBridgeHelloTime.
The granularity of this timer is specified by 802.1d/D9 to be 1
second. An agent may return a badValue error if a set is attempted
to a value which is not a whole number of seconds.
The Max Age Time must be at least 6 seconds, and must adhere to
the following equations involving Max Age Time, Forward Delay
Time, and Hello Time:
2 x (Forward Delay Time - 1) >= Max Age Time
Max Age >= 2 x (Hello Time + 1)
dot1dStpBridgeHelloTime
Time Ticks Read-Write
{dot1dStp 13}
The value that all bridges use for HelloTime when this bridge is
acting as the root. The granularity of this timer is specified by
802.1d/D9 to be 1 second. An agent may return a badValue error if
a set is attempted to a value which is not a whole number of
seconds.
The Hello Time must adhere to the equation described in the
variable dot1dStpBridgeMaxAge, involving Max Age Time and
Hello Time.
dot1dStpBridgeForwardDelay
Time Ticks Read-Write
{dot1dStp 14}
The value that all bridges use for ForwardDelay when this bridge
is acting as the root. Note that 802.1d/D9 specifies that the range
for this parameter is related to the value of
dot1dStpBridgeMaxAge. The granularity of this timer is specified
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Bridge MIB
by 802.1d/D9 to be 1 second. An agent may return a badValue
error if a set is attempted to a value which is not a whole number
of seconds.
The Forward Delay Time must be at least 4 seconds, and must
adhere to the aforementioned equation involving Max Age Time
and Forward Delay Time.
dot1dStpPortTable
Not Accessible
{dot1dStp 15}
A table that contains port-specific information for the Spanning
Tree Protocol.
All ELS10-26 ports, except for the last port (port 25), are included
in this table, regardless of whether the Spanning Tree Protocol is
currently enabled for the ports.
dot1dStpPortEntry
Not Accessible
{dot1dStpTable 1}
A list of information maintained by every port about the Spanning
Tree Protocol state for that port.
dot1dStpPort
{dot1dStpPortEntry 1}
Integer Read-Only
The port number of the port for which this entry contains
Spanning Tree Protocol management information.
dot1dStpPortPriority
Integer Read-Write
{dot1dStpPortEntry 2}
The value of the priority field which is contained in the first (in
network byte order) octet of the (2 octet long) Port ID. The other
octet of the Port ID is given by the value of dot1dStpPort.
Any value from 0 to 255 may be specified.
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Bridge MIB
dot1dStpPortState
Integer Read-Only
{dot1dStpPortEntry 3}
The port’s current state as defined by application of the Spanning
Tree Protocol. This state controls what action a port takes on
reception of a frame. If the bridge has detected a port that is
malfunctioning it will place that port into the broken (6) state. For
ports which are disabled (see dot1dStpPortEnable), this object will
have a value of disabled (1).
dot1dStpPortEnable
Integer Read-Write
{dot1dStpPortEntry 4}
The enabled/disabled status of the port.
The ELS10-26 does not change the parameter’s value when
processing a SetRequest - refer to the lxsprotoBridge parameter in
Cabletron’s enterprise-specific MIB for the SetRequest capabilities.
dot1dStpPortPathCost
Integer Read-Write
{dot1dStpPortEntry 5}
The contribution of this port to the path cost of paths towards the
spanning tree root which include this port.
Any value from 0 to 65535 may be specified; specifying a value of 0
will cause the ELS10-26 to automatically compute the proper
1
default value.
dot1dStpPortDesignatedRoot
Octet String Read-Only
{dot1dStpPortEntry 6}
The unique Bridge Identifier of the Bridge recorded as the Root in
the Configuration BPDUs transmitted by the Designated Bridge
for the segment to which the port is attached.
1.
The proper default is the inverse of the media baud rate (e.g., 10 for FDDI, 100
for Ethernet). The effective value is always returned in the GetResponse.
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Bridge MIB
dot1dStpPortDesignatedCost
Integer Read-Only
{dot1dStpPortEntry 7}
The path cost of the Designated Port of the segment connected to
this port. This value is compared to the Root Path Cost field in
received bridge PDUs.
dot1dStpPortDesignatedBridge
Octet String Read-Only
{dot1dStpPortEntry 8}
The Bridge Identifier of the bridge which this port considers to be
the Designated Bridge for this port’s segment.
dot1dStpPortDesignatedPort
Octet String Read-Only
{dot1dStpPortEntry 9}
The Port Identifier of the port on the Designated Bridge for this
port’s segment.
dot1dStpPortForwardTransitions
Counter Read-Only
{dot1dStpPortEntry 10}
The number of times this port has transitioned from the Learning
state to the Forwarding state.
4.3 TRANSPARENT GROUP
do1dTp
{dot1dBridge 4}
{dot1dTp 1}
dot1dTpLearnedEntryDiscards
Counter Read-Only
The total number of Forwarding Database entries, which have
been or would have been learned, but have been discarded due to
a lack of space to store them in the Forwarding Database. If this
counter is increasing, it indicates that the Forwarding Database is
regularly becoming full (a condition which has unpleasant
performance effects on the subnetwork). If this counter has a
significant value but is not presently increasing, it indicates that
the problem has been occurring but is not persistent.
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Bridge MIB
dot1dTpAgingTime
Integer Read-Write
{dot1dTp 2}
The timeout period in seconds for aging out dynamically learned
forwarding information.
dot1dTpFdbTable
Not Accessible
{dot1dTp 3}
A table that contains information about unicast entries for which
the bridge has forwarding and/or filtering information. This
information is used by the transparent bridging function in
determining how to propagate a received frame.
A superset of this table’s information can be found by using
Cabletron’s enterprise-specific Addresses Configuration Group.
dot1dTpFdbEntry
Not Accessible
{dot1dTpFdbTable 1}
Information about a specific unicast MAC address for which the
bridge has some forwarding and/or filtering information.
dot1dTpFdbAddress
{dot1dTpFdbEntry 1}
Octet String Read-Only
A unicast MAC address for which the bridge has forwarding and/
or filtering information.
dot1dTpFdbPort
{dot1dTpFdbEntry 2}
Integer Read-Only
Either the value 0, or the port number of the port on which a frame
having a source address equal to the value of the corresponding
instance of dot1dTpFdbAddress has been seen. A value of 0
indicates that the port number has not been learned but that the
bridge does have some forwarding/filtering information about
this address (e.g., in the dot1dStaticTable). Implementors are
encouraged to assign the port value to this object whenever it is
learned even for addresses for which the corresponding value of
dot1dTpFdbStatus is not learned(3).
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Bridge MIB
dot1dTpFdbStatus
Integer Read-Only
{dot1dTpFdbEntry 3}
The status of this entry. The meanings of the values are other (1)
none of the following. This would include the case where some
other MIB object (not the corresponding instance of
dot1dTpFdbPort, nor an entry in the dot1dStaticTable) is being
used to determine if and how frames addressed to the value of the
corresponding instance of dot1dTpFdbAddress are being
forwarded. invalid (2) this entry is not longer valid (e.g., it was
learned but has since aged-out), but has not yet been flushed from
the table. learned (3) the value of the corresponding instance of
dot1dTpFdbPort was learned, and is being used. self (4) the value
of the corresponding instance of dot1dTpFdbAddress represents
one of the bridge’s addresses. The corresponding instance of
dot1dTpFdbPort indicates which of the bridge’s ports has this
address. mgmt (5) the value of the corresponding instance of
dot1dTpFdbAddress is also the value of an existing instance of
dot1dStaticAddress.
dot1dTpPortTable
Not Accessible
{dot1dTp 4}
A table that contains information about every port that is
associated with this transparent bridge.
A table that contains all Ethernet ports, not just those enabled for
bridging.
dot1dTpPortEntry
Not Accessible
{dot1dTpPortTable 1}
A list of information for each port of a transparent bridge.
dot1dTpPort
{dot1dTpPortEntry 1}
Integer Read-Only
The port number of the port for which this entry contains
Transparent bridging management information.
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Bridge MIB
dot1dTpPortMaxInfo
Integer Read-Only
{dot1dTpPortEntry 2}
The maximum size of the INFO (non-MAC) field that this port will
receive or transmit.
The type/length field (2 octets) in Ethernet/802.3 packets are
considered to be part of the MAC header.
dot1dTpPortInFrames
Counter Read-Only
{dot1dTpPortEntry 3}
The number of frames that have been received by this port from its
segment. Note that a frame received on the interface
corresponding to this port is only counted by this object if and only
if it is for a protocol being processed by the local bridging function.
dot1dTpPortOutFrames
Counter Read-Only
{dot1dTpPortEntry 4}
The number of frames that have been transmitted by this port to its
segment. Note that a frame transmitted on the interface
corresponding to this port is only counted by this object if and only
if it is for a protocol being processed by the local bridging function.
dot1dTpPortInDiscards
Counter Read-Only
{dot1dTpPortEntry 5}
Count of valid frames received which were discarded (i.e., filtered)
by the Forwarding Process.
Count of valid frames which were discarded, including local traffic
that was discarded.
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CHAPTER 5
PPP MIB
The ELS10-26 supports RFC 1471 for PPP link control and RFC
1473 for PPP IP support.
The MIB tree for reaching the PPP group is:
1.3.6.1.2.1.10
ppp
{transmission 23}
5.1 PPP LINK CONTROL TABLE
pppLCP
{ppp 1}
pppLinkStatusTable
Not-Accessible
{pppLink1}
A table containing PPP-Link specific variables for this PPP
implementation.
pppLinkStatusEntry
Not-Accessible
{pppLinkStatusTable 1}
Management information about a particular PPP Link.
pppLinkStatusPhysicalIndex
Integer Read-only
{pppLinkStatusEntry 1}
The value of ifIndex that identifies the lower-level interface over
which this PPP Link is operating. This interface would usually be
an HDLC or RS-232 type of interface. If there is no lower layer
interface element, or there is no ifEntry for the element, or the
element can not be identified, then the value of this object is 0. For
example, suppose that PPP is operating over a serial port. This
would use two entries in the ifTable. The PPP could be running
over ‘interface’ number 123 and the serial port could be running
over ‘interface’ number 987. Therefore, ifSpecific.123 would
contain the OBJECT IDENTIFIER ppp
pppLinkStatusPhysicalIndex.123 would contain 987, and
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PPP MIB
ifSpecific.987 would contain the OBJECT IDENTIFIER for the
serial-port’s media-specific MIB.
pppLinkStatusBadAddresses
Counter Read-only
{pppLinkStatusEntry 2}
The number of packets received with an incorrect address field.
This counter is a component of the ifInErrors variable that is
associated with the interface that represents this PPP Link.
pppLinkStatusBadControls
Counter Read-only
{pppLinkStatusEntry 3}
The number of packets received on this link with an incorrect
control field. This counter is a component of the ifInErrors variable
that is associated with the interface that represents this PPP Link.
pppLinkStatusPacketTooLongs
Counter Read-only
{pppLinkStatusEntry 4}
The number of received packets that have been discarded because
their length exceeded the MRU. This counter is a component of the
ifInErrors variable that is associated with the interface that
represents this PPP Link.
Note: Packets which are longer than the MRU but which are successfully
received and processed are NOT included in this count.
pppLinkStatusBadFCSs
Counter Read-only
{pppLinkStatusEntry 5}
The number of received packets that have been discarded due to
having an incorrect FCS. This counter is a component of the
ifInErrors variable that is associated with the interface that
represents this PPP Link.
pppLinkStatusLocalMRU
Integer Read-only
{pppLinkStatusEntry 6}
The current value of the MRU for the local PPP Entity. This value is
the MRU that the remote entity is using when sending packets to
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PPP MIB
the local PPP entity. The value of this object is meaningful only
when the link has reached the open state (ifOperStatus is up).
Set to 8192 for the maximum HIOM frame size.
pppLinkStatusRemoteMRU
Integer Read-only
{pppLinkStatusEntry 7}
The current value of the MRU for the remote PPP Entity. This value
is the MRU that the local entity is using when sending packets to
the remote PPP entity. The value of this object is meaningful only
when the link has reached the open state (ifOperStatus is up).
pppLinkStatusLocalToPeerACCMap
Octet String Read-only
{pppLinkStatusEntry 8}
The current value of the ACC Map used for sending packets from
the local PPP entity to the remote PPP entity. The value of this
object is meaningful only when the link has reached the open state
(ifOperStatus is up).
Value of 0 indicates that ACC Map is not supported.
pppLinkStatusPeerToLocalACCMap
Octet String Read-only
{pppLinkStatusEntry 9}
The ACC Map used by the remote PPP entity when transmitting
packets to the local PPP entity. The value of this object is
meaningful only when the link has reached the open state
(ifOperStatus is up).
pppLinkStatusLocalToRemoteProtocolCompression
{pppLinkStatusEntry 10}
Integer Read-only
Indicates whether the local PPP entity will use protocol
compression when transmitting packets to the remote PPP entity.
The value of this object is meaningful only when the link has
reached the open state (ifOperStatus is up).
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PPP MIB
• enabled (1) - supports protocol compression.
• disabled (2) - no support for protocol compression.
pppLinkStatusRemoteToLocalProtocolCompression
{pppLinkStatusEntry 11}
Integer Read-only
Indicates whether the remote PPP entity will use Protocol
Compression when transmitting packets to the local PPP entity.
The value of this object is meaningful only when the link has
reached the open state (ifOperStatus is up).
• enabled (1) - supports protocol compression.
• disabled (2) - no support for protocol compression.
pppLinkStatusLocalToRemoteACCompression
{pppLinkStatusEntry 12}
Integer Read-only
Indicates whether the local PPP entity will use Address and
Control Compression when transmitting packets to the remote
PPP entity. The value of this object is meaningful only when the
link has reached the open state (ifOperStatus is up).
• enabled (1) - supports ACC map compression.
• disabled (2) - no support for ACC map compression.
pppLinkStatusRemoteToLocalACCompression
{pppLinkStatusEntry 13}
Integer Read-only
Indicates whether the remote PPP entity will use address and
control compression when transmitting packets to the local PPP
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PPP MIB
entity. The value of this object is meaningful only when the link
has reached the open state (ifOperStatus is up).
• enabled (1) - supports ACC map compression.
• disabled (2) - no support for ACC map compression.
pppLinkStatusTransmitFcsSize
Integer Read-only
{pppLinkStatusEntry 14}
The size of the Frame Check Sequence (FCS) in bits that the local
node will generate when sending packets to the remote node. The
value of this object is meaningful only when the link has reached
the open state (ifOperStatus is up). 16 bit FCS is the only FCS
supported.
pppLinkStatusReceiveFcsSize
Integer Read-only
{pppLinkStatusEntry 15}
The size of the Frame Check Sequence (FCS) in bits that the remote
node will generate when sending packets to the local node. The
value of this object is meaningful only when the link has reached
the open state (ifOperStatus is up).
pppLinkConfigTable
Not-Accessible
{pppLink 2}
A table containing the LCP configuration parameters for this PPP
Link. These variables represent the initial configuration of the PPP
Link. The actual values of the parameters may be changed when
the Link is brought up via the LCP options negotiation
mechanism.
pppLinkConfigEntry
Not-Accessible
{pppLinkConfigTable 1}
Configuration information about a particular PPP Link.
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PPP MIB
pppLinkConfigInitialMRU
Integer Read-Write
{pppLinkConfigEntry 1}
The initial Maximum Receive Unit (MRU) that the local PPP entity
will advertise to the remote entity. If the value of this variable is 0
then the local PPP entity will not advertise any MRU to the remote
entity and the default MRU will be assumed. Changes to this
object take effect when the link is next restarted.
Currently, only 8192 is supported and read-only access.
pppLinkConfigReceiveACCMap
Octet String Read-Write
{pppLinkConfigEntry 2}
The Asynchronous Control Character Map (ACC) that the local
PPP entity requires for use on its receive side. In effect, this is the
ACC Map that is required in order to ensure that the local modem
will successfully receive all characters. The actual ACC map used
on the receive side of the link will be a combination of the local
node’s pppLinkConfigReceiveACCMap and the remote node’s
pppLinkConfigTransmitACCMap. Changes to this object take
effect when the link is next restarted. The only value supported is
(0) no ACC map.
pppLinkConfigTransmitACCMap
Octet String Read-Write
{pppLinkConfigEntry 3}
The Asynchronous Control Character Map (ACC) that the local
PPP entity requires for use on its transmit side. In effect, this is the
ACC Map that is required in order to ensure that all characters can
be successfully transmitted through the local modem. The actual
ACC map used on the transmit side of the link will be a
combination of the local node’s pppLinkConfigTransmitACCMap
and the remote node’s pppLinkConfigReceiveACCMap. Changes
to this object take effect when the link is next restarted. The only
value supported is (0) no ACC map.
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PPP MIB
pppLinkConfigMagicNumber
Integer Read-Write
{pppLinkConfigEntry 4}
If true (2) then the local node will attempt to perform magic
number negotiation with the remote node. If false (1) then this
negotiation is not performed. In any event, the local node will
comply with any magic number negotiations attempted by the
remote node, per the PPP specification. Changes to this object take
effect when the link is next restarted.
• true (2) - ELS10-26 will attempt to perform magic number
negotiation
• false (1) - will not attempt to perform Magic Number negotiation
pppLinkConfigFcsSize
Integer Read-Write
{pppLinkConfigEntry 5}
The size of the FCS, in bits, the local node will attempt to negotiate
for use with the remote node. Regardless of the value of this object,
the local node will comply with any FCS size negotiations initiated
by the remote node, per the PPP specification. Changing this object
will have effect when the link is next restarted.
Currently only 16 bit FCS is supported.
pppLqrTable
{pppLqr 1}
Not-Accessible
Table containing the LQR parameters and statistics for the local
PPP entity.
The ELS10-26 always has an empty table.
pppLQREntry
Not-Accessible
{pppLqrTable 1}
LQR information for a particular PPP Link. A PPP Link will have
an entry in this table if and only if LQR quality monitoring has
been successfully negotiated for the specified link.
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PPP MIB
pppLqrQuality
{pppLqrEntry 1}
Integer Read-only
The current quality of the link as declared by the local PPP entity’s
Link-Quality Management modules. No effort is made to define
good or bad, nor the policy used to determine it. The
not-determined value indicates that the entity does not actually
evaluate the link’s quality. This value is used to distinguish the
‘determined to be good’ case from the ‘no determination made and
presumed to be good’ case.
pppLqrInGoodOctets
Counter Read-only
{pppLqrEntry 2}
The LQR InGoodOctets counter for this link.
pppLqrLocalPeriod
Integer Read-only
{pppLqrEntry 3}
The LQR reporting period, in hundredths of a second that is in
effect for the local PPP entity.
pppLqrRemotePeriod
Integer Read-only
{pppLqrEntry 4}
The LQR reporting period, in hundredths of a second, that is in
effect for the remote PPP entity.
pppLqrOutLQRs
{pppLqrEntry 5}
Counter Read-only
The value of the OutLQRs counter on the local node for the link
identified by ifIndex.
pppLqrInLQRs
{pppLqrEntry 6}
Counter Read-only
The value of the InLQRs counter on the local node for the link
identified by ifIndex.
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PPP MIB
pppLqrConfigTable
Not-Accessible
{pppLqr 2}
Table containing the LQR configuration parameters for the local
PPP entity.
The ELS10-26 always has an empty table.
pppLqrConfigEntry
Not-Accessible
{pppLqrConfigTable 1}
LQR configuration information for a particular PPP link.
pppLqrConfigPeriod
Integer Read-Write
{pppLqrConfigEntry 1}
The LQR reporting period that the local PPP entity will attempt to
negotiate with the remote entity, in units of hundredths of a
second. Changes to this object take effect when the link is next
restarted.
pppLqrConfigStatus
Integer Read-Write
{pppLqrConfigEntry 2}
If enabled (2) then the local node will attempt to perform LQR
negotiation with the remote node. If disabled (1) then this
negotiation is not performed. In any event, the local node will
comply with any magic number negotiations attempted by the
remote node, per the PPP specification. Changing this object will
have effect when the link is next restarted. Setting this object to the
value disabled (1) has the effect of invalidating the corresponding
entry in the pppLqrConfigTable object. It is an
implementation-specific matter as to whether the agent removes
an invalidated entry from the table. Accordingly, management
stations must be prepared to receive tabular information from
agents that corresponds to entries not currently in use.
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PPP MIB
pppLqrExtnsTable
Not-Accessible
{pppLqr 3}
Table containing additional LQR information for the local PPP
entity.
The ELS10-26 always has an empty table.
pppLqrExtnsEntry
Not-Accessible
{pppLqrExtnsTable 1}
Extended LQR information for a particular PPP Link. Assuming
that this group has been implemented, a PPP Link will have an
entry in this table if and only if LQR Quality Monitoring has been
successfully negotiated for the specified link.
pppLqrExtnsLastReceivedLqrPacket
Octet String Read-only
{pppLqrExtnsEntry 1}
This object contains the most recently received LQR packet. The
format of the packet is as described in the LQM Protocol
specification. All fields of the packet, including the ‘save’ fields, are
stored in this object. The LQR packet is stored in network byte
order. The LAP-B and PPP headers are not stored in this object; the
first four octets of this variable contain the magic number field, the
second four octets contain the LastOutLQRs field and so on. The
last four octets of this object contain the SaveInOctets field of the
LQR packet.
5.2 PPP IP TABLE
pppIp
[ppp 3]
pppIpTable
{pppIp 1}
Not-Accessible
Table containing the IP parameters and statistics for the local PPP
entity.
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PPP MIB
pppIpEntry
{pppIpTable 1}
Not-Accessible
IPCP status information for a particular PPP link.
pppIpOperStatus
Integer Read-only
{pppIpEntry 1}
The operational status of the IP network protocol. If the value of
this object is up, then the finite state machine for the IP network
protocol has reached the Opened state.
• opened (1) - the IPCP protocol is in open state.
• not-opened (2) - the IPCP protocol is in anything but the open
state.
pppIpLocalToRemoteCompressionProtocol{pppIpEntry 2}
Integer Read-only
The IP compression protocol that the local PPP-IP entity uses when
sending packets to the remote PPP-IP entity. The value of this
object is meaningful only when the link has reached the open state
(pppIpOperStatus is opened).
• none (1) - no IP compression protocol supported.
• vj-tcp(2) - the Van Jacobsen TCP/IP header compression
protocol is supported.
The ELS10-26 does not support protocol compression.
pppIpRemoteToLocalCompressionProtocol{pppIpEntry 3}
Integer Read-only
The IP compression protocol that the remote PPP-IP entity uses
when sending packets to the local PPP-IP entity. The value of this
object is meaningful only when the link has reached the open state
(pppIpOperStatus is opened).
• none (1) - no IP compression protocol supported.
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PPP MIB
• vj-tcp(2) - the Van Jacobsen TCP/IP header compression
protocol is supported.
pppIpRemoteMaxSlotId
Integer Read-only
{pppIpEntry 4}
The Max-Slot-Id parameter that the remote node has advertised
and that is in use on the link. If vj-tcp header compression is not in
use on the link then the value of this object shall be 0. The value of
this object is meaningful only when the link has reached the open
state (pppIpOperStatus is opened).
pppIpLocalMaxSlotId
Integer Read-only
{pppIpEntry 5}
The Max-Slot-Id parameter that the local node has advertised and
that is in use on the link. If vj-tcp header compression is not in use
on the link then the value of this object shall be 0. The value of this
object is meaningful only when the link has reached the open state
(pppIpOperStatus is opened).
pppIpConfigTable
Not-Accessible
{pppIp 2}
Table containing configuration variables for the IPCP for the local
PPP entity.
pppIpConfigEntry
Not-Accessible
{pppIpConfigTable 1}
IPCP information for a particular PPP link.
pppIpConfigAdminStatus
Integer Read-Write
{pppIpConfigEntry 1}
The immediate desired status of the IP network protocol. Setting
this object to open (1) will inject an administrative open event into
the IP network protocol’s finite state machine. Setting this object to
close (2) will inject an administrative close event into the IP
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PPP MIB
network protocol’s finite state machine. The ELS10-26 only
supports open (1).
pppIpConfigCompression
Integer Read-Write
{pppIpConfigEntry 2}
If none (1), then the local node will not attempt to negotiate any IP
Compression option. Otherwise, the local node will attempt to
negotiate compression mode indicated by the enumerated value.
Changes to this object take effect when the link is next restarted.
The other option Van-Jacobsen TCP/IP header compression (2), is
not supported on the ELS10-26.
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PPP MIB
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CHAPTER 6
ELS10-26 MIB
The Cabletron MIB {enterprise 97} is divided into several groups of
parameters. The individual groups are described in the subsections
below.
The MIB tree prefix for reaching the private enterprise ELS10-26
MIB is:
1.3.6.1.4.1.97.
6.1 SYSTEM GROUP
sigma
{enterprise 97}
{sigma 1}
sys
The System Group contains those parameters which are likely to be
applicable to Fast Network product lines. A detailed description of
the parameters follows.
sysID
{sys 1}
Integer Read-Only
An integer which serves to identify the type of hardware platform.
This document describes the es-1xe-bridge, which uses the value
(7) for sysID. Special third-party versions of the ELS10-26 may use
different values (3, 4,
or 5).
sysReset
{sys 2}
Time Ticks Read-Write
The time, in centiseconds, before the ELS10-26 should reboot. A
GetResponse value of zero indicates that no reboot time has been
specified.
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ELS10-26 MIB
sysTrapPort
{sys 6}
Integer Read-Write
zero, or the UDP port number to which a second copy of SNMP
traps should be sent. Valid values are 0 through 65535.
6.1.1 Hardware Configuration Group
lxhwDiagCode
{lxhw 1}
Octet String Read-Only
This variable is for Cabletron internal use only.
lxhwManufData
{lxhw 2}
DisplayString Read-Only
This is a 64-byte array which contains the part number, serial
number, and hardware revision level of this unit.
lxhwPortCount
{lxhw 3}
Integer Read-Only
The number of ports, including the out-of-band management port.
lxhwPortTable
Not Accessible
{lxhw 4}
A table that includes information for each port.
lxhwPortEntry
Not Accessible
{lxhwPortTable 1}
An entry for an individual port, keyed by lxhwPortIndex.
lxhwPortIndex
{lxhwPortEntry 1}
Integer Read-Only
The port number. The value is from 1 to 25.
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lxhwPortType
{lxhwPortEntry 2}
Integer Read-Only
A value indicating the type of port. The values are defined as:
• csma (1) - Ethernet or 802.3 port
• uart (6) - UART port
lxhwPortSubType
Integer Read-Only
{lxhwPortEntry 3}
An integer representing port type. The following values have been
defined:
• csmacd-tpx (13) – 10BASE-T with crossover
• uart-female-9pin (80)
• csmacd-100-tfx (17) – 100BASE-F
• csmacd-100-tpx (16) – 100BASE-T with crossover
lxhwPortDiagPassed
Integer Read-Only
{lxhwPortEntry 4}
An integer representing the status of the port. The following values
have been defined:
• diag-passed (1)
• diag-failed (2)
lxhwAddr
{lxhwPortEntry 5}
Octet String Read-Only
The unique hard-wired 48 bit MAC address for the port.
lxhwUpLink
{lxhw 5}
Integer Read-Only
An integer that specifies if the Fast Ethernet (FE) Up-Link module
is installed. The following values have been defined:
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ELS10-26 MIB
• true (1)
• false (2)
lxhwUpLinkManufData
Octet String Read-Only
{lxhw 6}
A 32-byte array that contains the part number, serial number, and
hardware revision level of the Up-Link I/O module. The array is
valid only when the lxhwUpLink value is true. If lxhwUplink is
false, it returns an error.
6.1.2 LXSW Configuration Group
lxswNumber
{lxsw 1}
Integer Read-Only
The number of file sets. This number is fixed as 2.
lxswFilesetTable
Not Accessible
{lxsw 2}
lxswFileset
{lxswFilesetTable 1}
Not Accessible
A set of objects for each file set. The individual components are
described below.
lxswIndex
{lxswFilesetEntry 1}
Integer Read-Only
The file set number, beginning with 1 for the first file set. This
number always matches the instance of the lxswFiles. For example,
{lxswIndex 2} contains the value “2”.
lxswDesc
{lxswFilesetEntry 2}
Octet String Read-Only
The description (1-255 bytes) of the software file set.
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lxswCount
{lxswFilesetEntry 3}
Integer Read-Only
The number of files in the file set. This number may range from 1
to 255.
lxswType
{lxswFilesetEntry 4}
Octet String Read-Only
The types of files within the file set. The size of lxswType may be
determined by lxswCount, since 1 octet is required for each file.
The possible file types are:
• file-nam (1) - the operational software for the ELS10-26’s NAM
processor.
• file-powerup (10) - power-up diagnostics for the entire
ELS10-26.
• file-diagnostics (11) - manufacturing diagnostics for the entire
ELS10-26.
lxswSizes
{lxswFilesetEntry 5}
Octet String Read-Only
An array (4 octets per file), containing the size of each of the files.
Each size is encoded as a series of 4 bytes, which should be
converted into a 32-bit integer.
lxswStarts
{lxswFilesetEntry 6}
Octet String Read-Only
An array (4 octets per file), containing the software’s execution
starting address of each of the files. Each address is encoded as a
series of 4 bytes, which should be converted into a 32-bit integer.
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lxswBases
{lxswFilesetEntry 7}
Octet String Read-Only
An array (4 octets per file), containing the software’s base loading
address of each of the files. Each address is encoded as a series of 4
bytes, which should be converted into a 32-bit integer.
lxswFlashBank
{lxswFilesetEntry 8}
Integer Read-Only
The bank number where the software file set resides. The possible
values are:
• first-bank (1)
• second-bank (2)
6.1.3 Administration Group
lxadminFatalErr
{lxadmin 1}
Octet String Read-Only
This is a 32-byte array which contains information about the cause
of the previous system reset. This will describe the circumstances
which forced the system software to perform a reboot. The values
in the first byte have the following meanings:
• (0) - Power failure
• (1) - Watchdog Timeout
• (2) - NMS Requested Shutdown; next three bytes are not
applicable; next four bytes contain the NMS’s IP address;
remaining 24 bytes are not applicable)
• (3-255) - Fatal Error
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lxadminAnyPass
{lxadmin 2}
Octet String Read-Write
The authentication password (0-24 bytes) which must match the
community name in an SNMP Get, Getnext, or Set PDU, in order
for the operation to be performed. A zero length password
indicates that any community name is acceptable.
lxadminGetPass
{lxadmin 3}
Octet String Read-Write
The authentication password (0-24 bytes) which must match the
community name in an SNMP Get or Getnext PDU (except for
debug or password parameters). A zero length password indicates
that any community name is acceptable. Alternatively, it is
acceptable if the community name matches lxsdminAnyPass,
1
defined above.
lxadminNMSIPAddr
IP Address Read-Write
{lxadmin 4}
The address of the NMS to which Trap PDUs are to be sent. A
value of zero indicates that Trap PDUs should be sent to the NMS
last heard from.
lxadminStorageFailure
Integer Read-Only
{lxadmin 7}
Whether the ELS10-26’s storage facility for its configuration
parameters has failed during the last update operation (if the
ELS10-26 reboots after such a failure, it will use the factory
specified defaults for all MIB parameters). Values include:
• true (1)
1.
Certain SetRequest PDUs are used for read operations and using
lxadminGetPass for the community name is sufficient. Those special conditions
consist of SetRequest PDUs for lxaddrOperation (for read-random, read-next,
and read-block only), and for all MIB variables in the lxaddr group described as
Write-Ignore.
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• false (2)
lxadminAuthenticationFailure
IP Address Read-Only
{lxadmin 8}
All nulls, or the IP source address within the last SNMP PDU
which caused an SNMP authentication failure.
lxadminNAMReceiveCongests
Counter Read-Only
{lxadmin 10}
Number of packets not received due to internal buffer congestion.
lxadminArpEntries
Counter Read-Only
{lxadmin 11}
The number of ARP entries for all interfaces.
lxadminArpStatics
Counter Read-Only
{lxadmin 12}
The number of statically defined ARP entries for all interfaces.
lxadminArpOverflows
Counter Read-Only
{lxadmin 13}
The number of times an ARP entry could not be learned due to
insufficient address table space.
lxadminIpEntries
{lxadmin 14}
Counter Read-Only
The number of IP Routing Database entries.
lxadminIpStatics
{lxadmin 15}
Counter Read-Only
The number of statically defined IP Routing Database entries.
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lxadminStaticPreference
Integer Read-Write
{lxadmin 16}
2
The value to assign to ipRouteMetric2, when adding a
statically-defined entry to the IP Routing Table.
lxadminRipPreference
Integer Read-Write
{lxadmin 17}
The value to assign to ipRouteMetric2, when adding a RIP-learned
entry to the IP Routing Table.
lxadminRipRouteDiscards
Counter Read-Only
{lxadmin 18}
The number of times a route learned via RIP was not added to the
IP Routing Table due to insufficient Routing Table space.
lxadminRebootConfig
Integer Read-Write
{lxadmin 19}
The configuration file that will be used when the ELS10-26 reboots.
This parameter is normally set by the ELS10-26 automatically;
however, an NMS may explicitly set it to either no-change (1) or
revert-to-defaults (3). The possible values include:
• no-change (1) – the ELS10-26 will not change its configuration
parameters when it reboots.
• tftp-config (2) – the ELS10-26 will use a file that was sent via
TFTP when it reboots .
• revert-to-defaults (3) – the ELS10-26 will revert to its factory
specified defaults when it reboots .
Setting this parameter to a value of 2 will result in an error
condition.
2.
If a value for ipRouteMetric2 is explicitly provided when an entry is created,
then lxadminStaticPreference will be ignored.
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lxadminDisableButton
Integer Read-Write
{lxadmin 21}
An integer that can be set to prevent the push button on the front
of the ELS10-26 from controlling the LED display. Values include:
• true (1)
• false (2)
lxadminButtonSelection
Integer Read-Write
{lxadmin 22}
An integer that indicates which statistic has been selected. Values
include:
• led-any activity (1)
• led-rx-activity (2)
• led-tx-activity (3)
• led-any-collision (4)
• led-programmed (5)
• led-duplex (6)
When illuminated indicates Full Duplex, when dark indicates Half
Duplex.
• led-speed (7)
When illuminated indicates 100MB speed when dark indicates 10
MB speed.
• led-mirror (8)
Used to indicate which port is being mirrored by the Mirror port.
Both the MON port and the port being monitored are illuminated.
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lxadminLEDProgramOption
Integer Read-Write
{lxadmin 23}
Meaning of the LED display when led-programmed has been
selected for lxadminButtonSelection. Value is:
program-led-any-error (1)
6.1.4 Software Distribution Group
lxswdisDesc
{lxswdis 1}
Octet String Read-Only
The description (0-32 bytes) of the software set currently being
downloaded, or a description of the software set last downloaded
since the ELS10-26 booted.
lxswdisAccess
{lxswdis 2}
Integer Read-Write
The version of software that may be downloaded. Attempts to
download other versions of software will be rejected. The value for
lxswdisAccess is embedded within the software files that are to be
distributed via TFTP. Its value may be derived from the names of
the software files. For example, file name dnld_hdr.10.2 indicates
that the file contains Version 10.2 software. The corresponding
value for lxswdisAccess would be 523, and can be determined by
the following algorithm start with the number 1, add the first
number, add 256 times the second number, add 256 times 256 times
the third number (if present), and add 256 times 256 times 256
times the fourth number (if present). In addition, the NMS
operator may wish to use the following special values:
• protected (1) - No software downloads will be accepted.
• any-software (2) - A software download of any version of new
software will be accepted - this is the factory default.
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lxswdisWriteStatus
Integer Read-Only
{lxswdis 3}
The status of the erase/write operation. The possible values are:
• in-progress (1) - An operation is currently in progress.
• success (2) - The last operation completed successfully.
• config-error (3) - Configuration EPROM encountered an error.
• flash-error (4) - Flash EPROM encountered an error.
• config-and-flash-errors (5) - Both Configuration EPROM and
Flash EPROM encountered errors.
lxswdisConfigIp
{lxswdis 4}
IP Address Read-Write
The IP address of the NMS (i.e., any IP host) that is allowed to use
TFTP to send/retrieve the configuration file of the ELS10-26. A
value of 0.0.0.0 (which is the factory specified default) prevents
any NMS from obtaining access, while a value of 255.255.255.255
gives every NMS permission.
lxswdisConfigRetryTime
Integer Read-Write
{lxswdis 5}
The number of seconds that the ELS10-26 will wait for an
acknowledgment before it retransmits an unacknowledged TFTP
data block. The factory specified default is 5 seconds.
slxwdisConfigTotalTimeout
Integer Read-Write
{lxswdis 6}
The number of seconds that the ELS10-26 will wait for an
acknowledgment to a data block before it cancels a TFTP session.
The factory specified default is 25 seconds.
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6.1.5 Addresses Configuration Group
The Addresses Configuration Group consists of the parameters
described below.
lxaddrStatics
{lxaddr 1}
Counter Read-Only
The number of static addresses which are currently stored in the
ELS10-26.
lxaddrDynamics
{lxaddr 2}
Counter Read-Only
The number of learned addresses in the ELS10-26’s address table.
lxaddrDynamicMax
Gauge Read-Write
{lxaddr 3}
The maximum number of spanning tree addresses which have
been learned since the ELS10-26 was last booted (or this parameter
was last reset by the NMS).
lxaddrDynamicOverflows
Counter Read-Write
{lxaddr 4}
The number times an address was not learned due to insufficient
address table space.
lxaddrFlags
{lxaddr 5}
Integer Read-Write
Flags to describe the use and control of this address entry. Each bit
has a different meaning. The NMS must always set either
entry-static or entry-none; however, for GetRequests, the NMS will
see either no bits set (if the entry does not exist), or exactly one of
the following bits set:
• bit 29 is reserved.
• entry-static = 28, if set then this is a pre-defined customer
address, e.g., an IEEE Spanning Tree static address.
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• entry-none = 26, or this address does not exist.
• bit 25 is reserved.
• bit 24 is reserved.
• bit 31 is reserved.
Any combination of the restriction bits (bits 23-21) may be set for
any type of entry, except entry-other:
• Bit 21 is reserved.
• Bits 20-18 are reserved.
Exactly one of the special entry bits (bits 17-10) must be set for
entry-other entries, and none of the bits may be set for other than
entry-other entries:
• entry-lma = 15, reserved for future enhancements.
• Bits 11-10 are reserved for future expansion.
• Bits 9-0 are reserved.
lxaddrMAC
{lxaddr 6}
MAC Address Read-Write
The MAC address for this address definition.
lxaddrPort
{lxaddr 7}
Integer Write-Ignore
The port through which this address is connected to the ELS10-26
(only valid for entry-dynamic-local, entry-static and entry-port
entries).
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lxaddrOperation
{lxaddr 8}
Integer Read-Write
The operation to be performed upon the described address. The
possibilities include:
• read-random (1)
• read-next (2)
• update (4)
• delete (5)
• read-block (6)
lxaddrIndex
{lxaddr 9}
Integer Read-Write
The index number to be used for read-next and read-block
operations. When the ELS10-26 boots, lxaddrIndex is initialized
to -1
lxaddrNext
{lxaddr 10}
Integer Write-Ignore
The next value to use for lxaddrIndex, when you use read-next or
read-block operations to read the address table. When the
ELS10-26 boots, lxaddrNext is initialized to -1.
lxaddrBlockSize
{lxaddr 19}
Integer Write-Ignore
The number of addresses contained by lxaddrBlock, defined
below. This parameter is only used for dumping blocks of MAC
addresses.
lxaddrBlock
{lxaddr 20}
Octet String Write-Ignore
A series of 0-700 octets, which represents 0-100 addresses. Each
address consists of a 6 octet MAC Address followed by a 1 byte
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ELS10-26 MIB
port number. If the port number is zero, then the address is that of
a specially configured address; otherwise, the address is a
dynamically learned address. This parameter is only used for
dumping blocks of MAC addresses.
6.1.6 Cabletron Interfaces Group
lxifTable
{lxif 1}
Not Accessible
A list of interface entries; one per port.
lxifEntry
{lxifTable 1}
Not Accessible
A set of objects for an interface entry. The individual components
are described below.
lxifIndex
{lxifEntry 1}
Integer Read-Only
The port number, beginning with 1 for the first port.
lxifRxCnt
{lxifEntry 2}
Integer Read-Only
The number of data buffers for receiving packets. This value is the
same for all Ethernet ports.
lxifTxCnt
{lxifEntry 3}
Integer Read-Only
The maximum size of the port’s transmit queue, i.e., the number of
packets that can be in the port’s transmit queue, waiting to be
transmitted.
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lxifThreshold
{lxifEntry 4}
Integer Read-Write
Reserved. Maximum number of combined receive and transmit
packet hardware errors before an alarm should be generated. See
ifInErrors.
lxifThresholdTime
Integer Read-Write
{lxifEntry 5}
Reserved. The time period (in seconds) to which sifThreshold
applies. A value of zero will disable the sifThresholdalarm.
lxifRxQueueThresh
Integer Read-Write
{lxifEntry 6}
Reserved. Maximum number of receive packet queue overflow
errors before an alarm should be generated.
lxifRxQueueThreshTime
Integer Read-Write
{lxifEntry 7}
Reserved. The time period (in seconds) to which sifRxQueueThresh
applies. A value of zero will disable the sifRxQueueThreshalarm.
lxifTxStormCnt
{lxifEntry 8}
Integer Read-Write
The maximum number of multicasts to transmit with a certain
period of time (not applicable for the UART port).
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lxifTxStormTime
{lxifEntry 9}
Time Ticks Read-Write
The period of time, in centiseconds, which qualifies sifTxStormCnt
(not applicable for the UART port).
llxifFunction
{lxifEntry 16}
Integer Read-Only
The current functional state (protocols which have been activated
and are operational) of the port. The following values or
combinations thereof are supported:
0x0001
0x0002
0x0020
NMS - the port may be used for communicating with
the NMS (see ifOperStatus).
TBRIDGE - use the port for Transparent IEEE 802.1d
bridging (see lxsprotoBridge).
NO_BPDU - if TBRIDGE is set, this disables the
sending of BPDUs (see lxsprotoSuppressBpdu) and
keeps the port in forwarding state (this is to provide
interoperability with non-compliant IEEE 802.1d
implementations; however, if the physical topology
has any loops, then LAN segments will most likely be
flooded with duplicates of packets).
0x0040
RIP_LISTENER - use RIP on the port for IP Routing
(see sprotoRip).
0x0800
ARP - use the port for resolving ARP.
0x10000
TRUNKING - use the port for Trunking Protocol.
These values can be configured through the lxsprotoTable.
lxifRxHwFCSs
{lxifEntry 18}
Counter Read-Only
Number of received packets discarded due to FCS errors.
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lxifRxQueues
{lxifEntry 19}
Counter Read-Only
Number of received packets lost because of insufficient receive
buffers.
lxifStatisticsTime
{lxifEntry 27}
Time Ticks Read-Only
Length of time during which statistics were collected. In particular,
the following statistics may be examined to determine the exact
utilization rate of a port:
• ifInOctets
• ifInUcastPkts
• ifInNUcastPkts
• ifOutOctets
• ifOutUcastPkts
• ifOutNUcastPkts
• lxifForwardedChars
• lxifFilteredChars
lxifIpAddr
{lxifEntry 28}
IP Address Read-Write
The IP address assigned to the port. If this is zero, then the port
must learn its IP address via Reverse ARP or PPP’s IPCP.
lxifIpGroupAddr
{lxifEntry 29}
IP Address Read-Write
Zero, or an IP group address assigned to the port.
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lxifForwardedChars
Counter Read-Only
{lxifEntry 30}
Number of characters in the forwarded received packets.
lxifDesc
{lxifEntry 32}
{lxifEntry 33}
lxifGoodRxFrames
Counter Read-Only
lxifGoodTxFrames
Counter Read-Only
{lxifEntry 34}
6.1.7 Cabletron Dot3 Group
This group provides additional objects that are not part of the
standard dot3 MIB.
lxdot3Table
{lxdot3 1}
Not Accessible
A list of dot3 interfaces entries, one per dot3 port.
lxdot3Index
{lxdot3Entry 1}
Integer Read-Only
The port number that identifies the entry.
lxdot3TPLinkOK
Integer Read-Only
{lxdot3Entry 2}
An integer that indicates if the port’s 10BASE-T link is okay. It also
indicates if the port’s Link LED is on. Values include:
• true (1)
• false (2)
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lxdot3LedOn
{lxdot3Entry 3}
Integer Read-Only
An integer indicating whether the port’s programmable LED is on.
Values include:
• led-on (1)
• led-off (2)
lxdot3RxCollisions
Counter Read-Only
{lxdot3Entry 4}
Counter indicating the number of receive collisions.
Note: 10BASE-T cannot count received collisions.
lxdot3RxRunts
{lxdot3Entry 5}
Counter Read-Only
Counter indicating the number of runt packets received (and
discarded).
lxdot3RxLateColls
Counter Read-Only
{lxdot3Entry 6}
Counter indicating the number of packets received with a late
collision (and discarded).
lxdot3TxJabbers
Counter Read-Only
{lxdot3Entry 7}
3
Counter indicating the number of packets transmitted with jabber
errors.
3.
These statistics are only updated if the ELS10-26 has been configured to gather
extended statistics (lxadminStatsExtended).
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lxdot3TxBabbles
Counter Read-Only
{lxdot3Entry 8}
4
Counter indicating the number of packets transmitted with babble
errors.
lxdot3TxCollisions
Counter Read-Only
{lxdot3Entry 9}
Counter indicating the total number of transmit collisions.
lxdot3SpeedSelection
Integer Read-Write
{lxdot3Entry 13}
Speed may only be selected for the Fast Ethernet Ports. In addition,
the speed -10 mbit option (2) may only be selected for Fast
Ethernet copper ports.
The returned value reflects what has been selected, not the actual
speed value; e.g. the port may actually be 10 or 100 Mbps, but
speed-auto will be the value returned if it was previously selected.
• speed - 10mbit (1)
• speed - 100mbit (2)
• speed - auto (3)
lxdot3DuplexSelection
Integer Read-Write
{lxdot3Entry 14}
All duplex options are valid for all 10 and 100 Mbps ports. The
returned value reflects what has been selected, not the actual
duplex value; e.g. the port may actually be in half-duplex or full
duplex mode, but duplex-auto will be the value returned if it was
previously selected.
• duplex-auto (1)
4.
These statistics are only updated if the ELS10-26 has been configured to gather
extended statistics (lxadminStatsExtended).
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• duplex-half (2)
• duplex-full (3)
6.1.8 Cabletron UART Interface Group
lxuartTable
{lxuart 1}
Not Accessible
A list of interface entries; one per UART port.
lxuartEntry
{lxuartTable 1}
Not Accessible
A set of objects for an interface entry. The individual components
are described below.
lxuartIndex
{lxuartEntry 1}
Integer Read-Only
The ELS10-26’s port number of the port. This is always 25.
lxuartBaud
{suartEntry 2}
Integer Read-Write
This is the desired baud rate. Only 1200 baud through 19,200 baud
are supported by the ELS10-26, but the complete set of possibilities
is:
• external-clock (1)
• 1200-baud (2)
• 2400-baud (3)
• 4800-baud (4)
• 9600-baud (5)
• 19200-baud (6)
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• 38400-baud (7)
• 56-kilobits (8)
• 1.544-megabits (9)
• 2.048-megabits (10)
• 45-megabits (11)
lxsuartAlignmentErrors
Counter Read-Only
{lxuartEntry 3}
Number of received packets with frame alignment errors, since the
port was last enabled.
lxsuartOverrunErrors
Counter Read-Only
{lxuartEntry 4}
Number of received packets with data overrun errors, since the
port was last enabled.
6.1.9 Cabletron Protocol Group
This group specifies which protocols apply to each interface.
lxprotoTable
{lxsproto 1}
Not Accessible
This table contains configuration information specifying the types
of protocols used for each port.
lxprotoEntry
{lxsprotoTable 1}
Not Accessible
Each entry in this table specifies which protocols are used by a
particular port in the ELS10-26.
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lxprotoIfIndex
{lxsprotoEntry 1}
Integer Read-Only
Identifies the interface (port) to which this entry’s information
belongs. The value of this variable corresponds to lxifIndex, as well
as to most of the other port identification values in related MIBs.
lxprotoBridge
{lxsprotoEntry 2}
Integer Read-Write
Defines the bridging method to be applied to frames received at, or
destined for this port. Ethernet and FDDI ports may be configured
for transparent, srt, or none. Token Ring ports may be configured
for any of the four options. The UART may only be configured to
none.
lxprotoSuppressBpdu
Integer Read-Write
{lxsprotoEntry 3}
Allows transmission of spanning tree protocol packets to be
suppressed. Values include:
• normal (1) – 802.1d Spanning Tree protocol packets are
transmitted as usual
• suppressed (2) – these packets are not transmitted. This option
may be useful for interoperability with non-802.1d spanning
tree protocols.
lxprotoRipListen
{lxsprotoEntry 4}
Integer Read-Write
Specifies whether the port should listen for internet RIP packets so
the ELS10-26 can build a routing table for the unit. Values include:
• enabled (1)
• disabled (2)
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lxprotoTrunking
{lxsprotoEntry 5}
Integer Read-Write
Specifies whether Cabletron’s trunking protocol (an extension to
the standard Spanning Tree) is to be used over this port. Values
include:
• enabled (1)
• disabled (2)
lxprotoTransmitPacing
Integer Read-Write
{lxprotoEntry 6}
When enabled, introduces delays into normal transmission of
frames to reduce the probability of collisions during heavy traffic.
• enabled (1)
• disabled (2)
6.1.10 Cabletron Trunking Group
lxtrunkTable
{lxtrunk 1}
Not Accessible
This table describes the trunking status and attributes of the
interfaces that are configured for bridge trunking.
lxtrunkEntry
{lxtrunkTable 1}
Not Accessible
An entry exists for every port that has trunking enabled.
lxtrunkIfIndex
{lxtrunkEntry 1}
Integer Read-Only
Identifies the port that is configured for trunking.
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lxtrunkState
{lxtrunkEntry 2}
Integer Read-Only
Indicates the trunking condition for this port. Values include:
• off (1) – this link has not been enabled for trunking.
• closed (2) – this link has not yet received any PDUs.
• oneway (3) – incoming trunking PDUs do not indicate that the
ELS10-26’s PDUs are being successfully received by the far end.
• joined (4) – this link is actively participating in the trunk group.
• perturbed (5) – this link is actively participating in the trunk
group; however, the transmission of data packets has been
temporarily stopped due to a change in membership of the
trunk group.
• helddown (6) – an error has been detected and this link is being
held out of service until the error clears.
• broken (7) – this link has been configured for trunking but the
port is physically non-operational.
lxtrunkRemoteBridgeAddr
Octet String Read-Only
{lxtrunkEntry 3}
The MAC address portion of the bridge ID of the remote bridge.
lxtrunkRemoteIp
{lxtrunkEntry 4}
IP Address Read-Only
The IP address of the remote bridge.
lxtrunkLastError
{lxtrunkEntry 5}
Integer Read-Only
The reason for failure when the link is in the held-down state.
Values include:
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• none (1) – no error; the trunking protocol may re-start with no
error conditions when trunking is turned on for a port, or when
the MIB variable that controls extra trunk groups is modified.
• in-bpdu (2) – a Spanning Tree BPDU was received, indicating
that the connection is not point-to-point, or the far end does not
have trunking turned on.
• multiple-bridges (3) – a different bridge has been connected at
the far end and the trunking protocol will re-start.
• ack-lost (4) – the far end has detected a problem, and the
trunking protocol will re-start.
• standby (5) – this trunk group is filled to capacity using other
ports; this port is now a hot standby.
• too-many-groups(6) – the maximum number of groups a
ELS10-26 can handle has been reached and a new group cannot
be added. This port will not be used until the condition clears.
• no-ack (7) – this port has not received a valid trunking packet,
and the trunking protocol will re-start.
• perturbed-threshold (8) – errors are preventing stabilization,
and the trunking protocol will re-start.
• self-connect (9) – this port is connected to another port on the
same ELS10-26 and cannot be used until this condition clears.
• port-moved (10) – a different port has been connected at the far
end, and the trunking protocol will re-start.
lxtrunkLinkOrdinal
Integer Read-Only
{lxtrunkEntry 6}
The position of this link within the trunk group.
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ELS10-26 MIB
lxtrunkLinkCount
Integer Read-Only
{lxtrunkEntry 7}
The number of links with the trunk group.
lxtrunkLastChange
Integer Read-Only
{lxtrunkEntry 8}
The number of seconds since lxtrunkState changed.
6.1.11 Cabletron Workgroup Management Group
lxWorkGroupNextNumber
Integer Read-Only
{lxworkgroup 1}
The next available workgroup number to be used. When creating a
new workgroup, it is recommended to read the value and use it as
a workgroup table key.
lxWorkGroupCurrentCount
Integer Read-Only
{lxworkgroup 2}
The total number of workgroups currently defined.
lxWorkGroupMaxCount
Integer Read-Only
{lxworkgroup 3}
The maximum number of workgroups allowed.
lxWorkGroupTable
Not Accessible
{lxworkgroup 4}
This table contains workgroup definitions for the interfaces.
lxWorkGroupEntry
Not Accessible
{lxWorkGroupTable 1}
Each entry in this table contains a definition of a workgroup. The
lxWorkGroupNumber serves as the table index. The sequence of
elements in the table is as follows:
• lxWorkGroupNumber Integer Read-Write
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ELS10-26 MIB
• lxWorkGroupName Display String Read-Write
• lxWorkGroupPorts Octet String Read-Write
• lxWorkGroupType Integer Read-Write
• lxWorkGroupIpAddress IP Address Read-Write
• lxWorkGroupIpMask IP Address Read-Write
• lxWorkGroupIpxNetwork Octet String Read-write
lxWorkGroupNumber
Integer Read-Write
{lxWorkGroupEntry 1}
An integer that identifies the workgroup and is used as an index to
this table.
lxWorkGroupName
{lxWorkGroupEntry 2}
Display string Read-Write
A 1-16 character workgroup name.
lxWorkGroupPorts
{lxWorkGroupEntry 3}
Octet String Read-Write
A list of all ports within the group. The first octet specifies ports
1-8, the second 9-16, etc.
lxWorkGroupType
Integer Read-Write
{lxWorkGroupEntry 4}
The type of work group, as indicated by the following values:
all (3)- all broadcast packets.
invalid (4)- not a valid workgroup type.
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ELS10-26 MIB
6.1.12 Cabletron Trap Management Group
This group presents the Cabletron MIB variables that are included
as varbinds with the traps generated by the ELS10-26. Chapter 7 of
this manual describes the traps generated by the ELS10-26.
lxtrapControlTable
Not Accessible
{lxtrapMgt 1}
This table contains information about the severity of each trap and
whether the trap is currently enabled.
lxtrapControlEntry
Not Accessible
{lxtrapControlTable 1}
The sequence of elements in the lxtrapControlTable are shown
below:
• lxtrapIndex Integer Read-Only
• lxtrapEnabled Integer Read-Write
• lxtrapSeverity Integer Read-Write
• lxtrapTex Display String Read-Only
lxtrapIndex
Integer Read-Only
{lxtrapControl 1}
{lxtrapControl 2}
Identifies the specific trap number.
lxtrapEnabled
Read-Write
Allows you to enable or disable the generation of this trap.
lxtrapSeverity
{lxtrapControl 3}
Integer Read-Write
A user-definable severity indicating the importance of the trap.
The severity levels are defined as follows:
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ELS10-26 MIB
• informational (1)
• warning (2)
• minor (3)
• major (4)
• critical (5)
lxtrapText
Display String Read-Only
{lxtrapControl 4}
{lxtrapMgt 2}
Provides a description of the trap.
lxtrapSeverityControlTable
Not Accessible
This table contains information about whether traps of a particular
severity are enabled or disabled.
lxtrapSeverityControl
Not Accessible
{lxtrapControlTable 1}
The sequence of elements in the lxtrapSeverityControlTable are as
follows:
lxtrapSeverity
Integer Read-Only
lxtrapSeverityControl
Integer Read-Only
{lxtrapSeverityControl 1}
A user-definable severity indicating the importance of the trap.
The severity levels are defined as follows:
• informational (1)
• warning (2)
• minor (3)
• major (4)
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ELS10-26 MIB
• critical (5)
lxtrapSeverityEnable
Integer Read-Write
{lxtrapSeverityControl 2}
Allows you to enable or disable all traps of a given security level.
The values are as follows:
• enabled (1)
• disabled (2)
lxtrapIncludeText
Integer Read-Write
{lxtrapMgt 3}
Indicates whether or not a formatted text string is included in the
trap PDU. Values include:
• true (1)
• false (2)
lxtrapTime
{lxtrapMgt 4}
Time Ticks Read-Write
The time, in centiseconds, which should expire between the
sending of traps. The default value is 100 centiseconds.
Note: This MIB variable (lxtrapTime) replaces sysTrapTime.
lxtrapRetry
{lxtrapMgt 5}
Integer Read-Write
The number of times any enterprise-specific trap is to be sent for a
given event. PDUs are retried using a truncated exponential back
off: 2 seconds, 4 seconds, 8 seconds, 16 seconds and then 32
seconds for all succeeding intervals. The default value is 1 retry.
lxtrapEntryNumber
Integer Read-Only
{lxtrapMgt 6}
The number of traps that are in the lxtrapTable.
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ELS10-26 MIB
lxtrapTable
{lxtrapMgt 7}
Not Accessible
This table contains the latest traps that have been generated.
lxtrapEntryIndex
Integer Read-Only
{lxtrapEntry 1}
The sequence of elements in the lxtrapControlTable 1 are shown
below.
A number representing the order (in time) in which the trap
occurred. This 32-bit number can wrap.
lxtrapEntryTimeStamp
Time Ticks Read-Only
{lxtrapEntry 2}
{lxtrapEntry 3}
{lxtrapEntry 4}
The time the trap occurred.
lxtrapEntryText
Display String Read-Only
Provides a description of the trap.
lxtrapEntryNumber
Integer Read-Only
The trap number specified in the trap PDU.
lxtrapEntrySeverity
Integer Read-Only
{lxtrapEntry 5}
A user-definable severity indicating the importance of the trap.
The severity levels are defined as follows:
• informational (1)
• warning (2)
• minor (3)
• major (4)
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ELS10-26 MIB
• critical (5)
6.1.13 Ping Management MIB
lxpingDataTimeout OBJECT-TYPE
SYNTAX
TimeTicks
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
The time, in centiseconds, from
the last ping activity (a send or
receive of an ECHO_RESPONSE
or ECHO_REQUEST message),
to when the lxpingEntry infor-
mation for that ping request will
be deleted.
::={lxpingMgt 1}
lxpingTable OBJECT-TYPE
SYTAX
SEQUENCE OF lxpingEntry
not-accessible
ACCESS
STATUS
mandatory
DESCRIPTION
The set of information describing
the active ping requests and their
results.
::={lxpingMgt2}
lxpingEntry OBJECT-TYPE
SYNTAX
lxpingEntry
not-accessible
mandatory
ACCESS
STATUS
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ELS10-26 MIB
DESCRIPTION
The parameters, state, and
results of a ping request.
INDEX
{lxpingNMSAddr,lxpingDes-
tAddr}
::= {lxpingTable 1}
lxpingEntry
::= SEQUENCE
IpAddress,
IpAddress,
INTEGER,
{lxpingNMSAddr
lxpingDestAddr
lxpingState
lxpingCount
lxpingDataSize
lxpingWait
INTEGER,
INTEGER,
TimeTicks,
TimeTicks,
INTEGER,
lxpingTimeOut
lxpingOperation
lxpingMin
TimeTicks,
TimeTicks,
TimeTicks,
lxpingMax
lxpingAvg
lxpingNumTransmittedINTEGER,
lxpingNumReceived INTEGER}
lxpingNMSAddr OBJECT-TYPE
SYNTAX
IpAddress
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The IP address of the NMS, used
to determine on which ping
request to return information.
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ELS10-26 MIB
::= {lxpingEntry 1}
lxpingDestAddr OBJECT-TYPE
SYNTAX
IpAddress
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The IP address which is to be the
destination of the ping
ECHO_REQUEST. This variable
cannot be set while lxpingOpera-
tion is on.
::= {lxpingEntry 2}
lxpingState OBJECT_TYPE
SYNTAX
INTEGER
{not-started (1)
active (2)
timed-out (3)
completed (3)}
read-only
ACCESS
STATUS
mandatory
DESCRIPTION
The current state of the ping
request.
::= {lxpingEntry 3}
lxcpingCount OBJECT -TYPE
SYTAX
INTEGER
read-write
mandatory
ACCESS
STATUS
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ELS10-26 MIB
DESCRIPTION
The number of ping requests
which are to be sent. This vari-
able cannot be set while lxping-
Operation is on.
::= {lxpingEntry 4}
lxpingDataSize OBJECT-TYPE
SYNTAX
INTEGER
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The datagram packet size which
will be sent with the
ECHO_REQUEST in bytes. This
variable cannot be set while
lxpingOperation is on.
::= {lxpingEntry 5}
lxpingWait OBJECT-TYPE
SYNTAX
TimeTicks
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The time, in centiseconds,
between the sending of each
ECHO_REQUESTmessage. This
variable cannot be set while
lxpingOperation is on.
::= {lxpingEntry 6}
lxping TimeOut OBJECT-TYPE
SYNTAX
TimeTicks
read-write
ACCESS
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ELS10-26 MIB
STATUS
mandatory
DESCRIPTION
The time, in centiseconds, since
the last ECHO-RESPONSE was
received (or the last
ECHO-RESPONSE was sent, if
there have been no responses)
when the ping request will time
out. This variable cannot be set
while the lxpingOperation is on.
::= {lxpingEntry 7}
lxpingOperation OBJECT-TYPE
SYNTAX
INTEGER {on (1), off (2) }
read-write
ACCESS
STATUS
mandatory
DESCRIPTION
Setting lxpingOperation to on
will begin the ping request. Set-
ting lxpingOperation to off will
terminate the ping request.
::= {lxpingEntry 8}
lxpingMin OBJECT-TYPE
SYNTAX
TimeTicks
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The minimum round trip time
for the ping requests and
responses, in centiseconds.
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ELS10-26 MIB
::= {lxpingEntry 9}
lxpingMax OBJECT-TYPE
SYNTAX
TimeTicks
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The maximum round trip time
for the ping requests and
responses, in centiseconds.
::= {lxpingEntry 10}
lxpingAvg OBJECT-TYPE
SYNTAX
TimeTicks
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The average round trip time for
the ping requests and responses,
in centiseconds.
::= {lxpingEntry 11}
lxpingNumTransmitted OBJECT-TYPE
SYTAX
INTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
The number of ICMP
ECHO_REQUEST messages that
have been transmitted during
this ping request.
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ELS10-26 MIB
::= {lxpingEntry 12}
lxpingNumReceived OBJECT-TYPE
SYTAX
INTEGER
ACCESS
read-only
STATUS
mandatory
DESCRIPTION
The number of ICMP
ECHO_RESPONSE messages
that have been received as a
result of this ping request.
::= {lxpingEntry 13}
6.1.14 Traceroute
An implementation of traceroute was added in order to add the
ability to orginate a traceroute request from the ELS10-26. The
request can be started from LCM, or from SNMP. If the request is
originated from the LCM, the results are printed out on the LCM
console.
The LCM command is as follows:
traceroute [-m max_ttl] [-q nqueries] [-w wait] host_IP
[data_size]
The traceroute MIB has a variable which indicates the amount of
time the results of a traceroute request is accessible from SNMP. It
also has a table, indexed by NMS IP address, ping destination IP
address, hop count, and probe count which is used to start the
traceroute request and fetch the results. Each entry in the table will
contain the round trip time and state of each particular probe in
each hop.
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ELS10-26 MIB
6.1.15 Traceroute Management MIB
lxtraceDataTimout OBJECT-TYPE
SYNTAX
TimeTicks
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
The time, in centiseconds, from
the last traceroute activity, (the
response to, or timeout of the last
probe sent) to when the lxtra-
ceEntry information for that trac-
eroute request will be deleted.
::= {lxtraceMgt 1}
lxtraceTable OBJECT-TYPE
SYNTAX
SEQUENCE OF lxtraceEntry
not accessible
ACCESS
STATUS
mandatory
DESCRIPTION
The set of information describing
the active traceroute request.
::= {lxtraceMgt 2}
lxtraceEntry OBJECT-TYPE
SYNTAX
lxtraceEntry
not accessible
mandatory
ACCESS
STATUS
DESCRIPTION
The parameters, state, and
results of a traceroute request.
INDEX
{lxtraceNMSAddr, lxtraceDes-
tAddr, lxtraceHop, lxtraceProbe}
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ELS10-26 MIB
::= {lxtraceTable 1}
lxtraceEntry ::= SEQUENCE
{lxtraceNMSAddr
lxtraceDsetAddr
lxtraceMaxTTL
lxtraceDataSize
lxtraceNumProbes
lxtraceWait
IpAddress
IpAddress
INTEGER
INTEGER
INTEGER
TimeTicks
INTEGER
INTEGER
IpAddress
INTEGER
INTEGER
TimeTicks}
lxtraceOperation
lxtraceHop
lxtraceHopAddr
lxtraceProbe
lxtraceState
lxtraceTime
traceNMSAddr OBJECT-TYPE
SYNTAX
IpAddress
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The IP address of the NMS, used
to determine on which traceroute
request to return information.
::= {lxtraceEntry 1}
lxtraceDsetAddr OBJECT-TYPE
SYNTAX
ACCESS
STATUS
IpAddress
read-write
mandatory
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ELS10-26 MIB
DESCRIPTION
The IP address which is to be the
destination of the traceroute
request. This variable cannot be
set while traceOperation is on.
::= {lxtraceEntry 2}
lxtraceMaxTTL OBJECT-TYPE
SYNTAX
INTEGER
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The maximum time-to-live for
outgoing traceroute probe pack-
ets. This determines the number
of hops that can be in a tracer-
oute. This variable cannot be set
while lxtraceOperation is on.
::= {lxtraceEntry 3}
lxtraceDataSize OBJECT-TYPE
SYNTAX
INTEGER
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The size of the datagram sent
with each probe. This variable
cannot be set while lxtraceOpera-
tion is on.
::= {lxtraceEntry 4}
lxtraceNumProbes OBJECT-TYPE
SYNTAX
ACCESS
INTEGER
read-write
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ELS10-26 MIB
STATUS
mandatory
DESCRIPTION
The number of probes which are
sent for each hop. This variable
cannot be set while lxtraceOpera-
tion is on.
::= {lxtraceEntry 5}
lxtraceWait OBJECT-TYPE
SYNTAX
TimeTicks
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
The time to wait in response to a
probe. This variable cannot be set
while lxOperation is on.
::= {lxtraceEntry 6}
lxtraceOperation OBJECT-TYPE
SYNTAX
INTEGER {on (1), off (2) }
read-write
ACCESS
STATUS
mandatory
DESCRIPTION
Setting lxtraceOperation to on
will begin the traceroute request.
Setting lxtraceOperation to off
will terminate the traceroute
request.
::= {lxtraceEntry 7}
lxtraceHop OBJECT-TYPE
SYNTAX
INTEGER
read-only
ACCESS
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ELS10-26 MIB
STATUS
DESCRIPTION
mandatory
The hop count for a set of probes
with a particular TTL.
::= {lxtraceEntry 8}
lxtraceHopAddress OBJECT-TYPE
SYNTAX
IpAddress
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The IP address of the host which
responded for a probe with a
particular TTL.
::= {lxtraceEntry 9}
lxtraceProbe OBJECT-TYPE
SYNTAX
INTEGER
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
The probe instance for a particu-
lar hop.
::= {lxtraceEntry 10}
lxtraceState OBJECT-TYPE
SYNTAX
INTEGER
{not-started (0),
active (1),
time-exceeded (2)
host-unreachable (3)
net-reachable (4),
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ELS10-26 MIB
completed (5)}
read-only
ACCESS
STATUS
mandatory
DESCRIPTION
The current state of the
traceroute.
::={lxtraceEntry 11}
lxtraceProbe OBJECT-TYPE
SYNTAX
TimeTicks
read-only
mandatory
ACCESS
STATUS
DESCRIPTION
Round trip time of a probe for a
particular hop.
::= {lxtraceEntry 12}
6.1.16 Port Mirroring
lxmirrorMode OBJECT-TYPE
SYNTAX
INTEGER
{off (0),
tx (1),
rx (2)
rx and tx (4)
read-write
mandatory
ACCESS
STATUS
DESCRIPTION
To turn off port mirroring, or
turn on by specifying rx, tx or
rxandtx, which is the type of data
to be mirrored.
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ELS10-26 MIB
::= {lxmirrorgroup 1}
lxmirrorTargetPort OBJECT-TYPE
SYNTAX
INTEGER
ACCESS
read-write
mandatory
STATUS
DESCRIPTION
The number of the port whose
data will be mirrored by the spe-
cial mirror port.
::= {lxmirrorgroup 2}
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CHAPTER 7
TRAPS
The unit sends Trap PDUs to the NMS, using the pre-configured
NMS IP address (see lxadminNMSIPAddr). If no address has been
pre-configured, then the unit sends the Traps to the source IP
address of the last SNMP datagram received from an NMS. If no
address has been pre-configured, and if no datagrams have been
received since the unit was booted, then the unit uses the broadcast
IP address.
The Trap PDUs are sent from source UDP port number 161, to
destination UDP port number 162, which are the SNMP standard
numbers reserved for Trap PDUs. The unit may be configured to
send an additional copy of each Trap PDU to a user specified
1
destination UDP port number (see sysTrapPort).
7.1 GENERIC TRAPS
The ELS10-26 issues generic and enterprise-specific (Cabletron)
traps. SNMP defines the generic traps below.
coldStart (0) - The ELS10-26 has restarted.
warmStart (1) - Not used by the ELS10-26.
linkDown (2) - A port has failed, and ELS10-26’s response is to
automatically disable usage of the port. If the port comes back to
life, ELS10-26 will automatically re-enable usage of the port. The
“variable-bindings” portion of the trap contains the ifIndex of the
port.
linkUp (3) - A port has come back to life, and the ELS10-26’s local
management agent has re-enabled usage of the port. The
“variable-bindings” portion of the trap contains the ifIndex of the
port.
1.
The additional traps are not sent when the ELS10-26 is using the broadcast IP
address.
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Traps
authenticationFailure (4) - This trap is generated whenever the
community name in a PDU does not match the corresponding
password. All SetRequest PDUs must match the configAnyPass
(refer to the of lxadminGetPass for SetRequest exceptions),
GetRequest PDUs must match either the lxadminGetPass or the
configAnyPass. The GetRequest exception is for one of the
debugging attributes; those PDUs must always provide the
lxadminAnyPass.
egpNeighborLoss (5) - Not used by the ELS10-26.
7.2 ENTERPRISE SPECIFIC TRAPS FOR THE ELS10-26
This section lists the enterprise-specific traps that can be generated
by the ELS10-26. ELS10-26 traps contain enterprise-specific
variables that are defined in the system group of the Cabletron
MIB in Chapter 6 of this manual.
lxWriteStatusTrap (2) - Sent when a bank of Flash EPROM has been
erased. If lxswdisWriteStatus indicates success, then the unit is
ready to be downloaded with the new software.
Cabletron MIB variables include:
• lxTrapSeverity
• lxswdisWriteStatus
• lxwdisDesc
lxPortFunctionsTrap (3) - Sent whenever the current functional
state (active protocols) of the port has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• lxifFunction
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Traps
lxRxQuesTrap (4) - Sent whenever the number of times that the
port’s receiver has missed receiving packets due to buffer space
shortages has exceeded the port’s limit.
Cabletron MIB variables include:
• lxTrapSeverity
• lxifRxQueues
lxTxStormFlagTrap (5) - Sent whenever multicast storm protection
has been invoked for the port.
Cabletron MIB variables include:
• lxTrapSeverity
lxTxCongestsTrap (6) - Sent whenever packets destined for the unit
itself were discarded due to lack of buffer space.
Cabletron MIB variables include:
• lxTrapSeverity
• lxadminNamReceiveCongests
lxDebugStringIdTrap (8) - Send whenever the unit has a debug text
string to be displayed. The text strings are sent in a stream-like
fashion.
Cabletron MIB variables include:
• lxTrapSeverity
• lxdebugStringId
• lxdebugString
lxLpbkOperationTrap (9) - Send whenever the unit has finished a
loop back test, or a loop back error has been detected.
Cabletron MIB variables include:
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Traps
• lxTrapSeverity
• lxlpbkOperation
• lxlpbkErrorNoReceives
• lxlpbkErrorBadReceives
lxTrunkStateTrap (10) - A trunking state change transition has
occurred. The possible transitions are:
• CLOSED-ONWAY
•
•
•
•
•
•
ONEWAY-PERTURBED
PERTURBED-JOINED
JOINED-HELDDOWN
CLOSED-HELDDOWN
ONEWAY-HELDDOWN
PERTURBED-HELDDOWN
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkState
lxTrunkBridgeAddrTrap (11) - The associated trunking MAC
address of the remote bridge ID has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkRemoteBridgeAddr
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Traps
lxTrunkIPAddrTrap (12) - The associated trunking IP address of
the remote bridge has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkRemoteIP
lxTrunkErrorTrap (13) - An error has occurred in trunking.
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkLastError
lxTrunkLinkOrdinalTrap (14) - The port’s index in the trunking
group has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkLinkOrdinal
lxTrunkLinkCountTrap (15) - The number of ports in the trunking
group has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• lxtrunkLinkCount
lxDiagUnitBootedTrap (16) - The unit has booted. Variable lxad-
minFatalErr contains information about why the unit rebooted.
Cabletron MIB variables include:
• lxTrapSeverity
• lxadminFatalError
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Traps
lxStorageFailureTrap (17) - Sent if the unit’s Configuration
EEPROM has failed.
Cabletron MIB variables include:
• lxTrapSeverity
lxPortCongestionTrap (18) - Sent whenever outbound congestion
control has been invoked for the port.
Cabletron MIB variables include:
• lxTrapSeverity
• ifOutDiscards
lxTopChangeBegunTrap (19) - The spanning tree topology has
begun to change.
Cabletron MIB variables include:
• lxTrapSeverity
lxTopChangeEndTrap (20) - The spanning tree topology has
stopped changing.
Cabletron MIB variables include:
• lxTrapSeverity
lxIfErrorsTrap (21) - Sent whenever the number of hardware errors
in received and transmitted packets has exceeded the port’s limit.
Cabletron MIB variables include:
• lxTrapSeverity
• ifInErrors
• ifOutErrors
7-6
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Traps
lxStRootIDTrap (22) - The spanning tree root bridge ID has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpDesignatedRoot
lxStRootCostTrap (23) - The unit’s spanning tree cost to the root
bridge has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpDesignatedRoot
lxStRootPortTrap (24) - The unit’s spanning tree root port has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpRootPort
lxStMaxAgeTrap (25) - The spanning tree maximum age has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpMaxAge
lxStHelloTimeTrap (26) - The spanning tree hello time has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
7-7
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Traps
• dot1dStpHelloTime
lxStForwardDelayTrap (27) - The spanning tree forward delay time
has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1StpForwardDelay
lxStDesigRootTrap (28) - The root bridge ID in received spanning
tree configuration BPDUs from the port has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpPortDesignatedRoot
lxStPortDesigBridgeTrap (29) - The bridge ID of the spanning tree
designated bridge of the LAN to which the port is attached has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpPortDesignatedBridge
lxStPortDisgCostTrap (30) - The cost to the spanning tree root
bridge from the designated port of the LAN/WAN to which the
port is attached has changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpPortDesignatedCost
7-8
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Traps
lxStPortDesigPortTrap (31) - The port ID of the spanning tree des-
ignated port of the LAN/WAN to which the port is attached has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpPortDesignatedPort
lxStPortStateTrap (32) - The spanning tree state of the port has
changed.
Cabletron MIB variables include:
• lxTrapSeverity
• dot1dStpPortState
lxhwDiagTrap (100) - Sent whenever the unit’s diagnostics have
indicated an error.
Cabletron MIB variables include:
• lxTrapSeverity
• lxhwDiagCode
7-9
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Traps
7-10
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