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Netlink FRX6000

Cabletron Systems Netlink FRX6000, Netlink FRX4000, Netlink FRX7000, Netlink FRX8000, SmartSwit, SmartSwitch 1800, SPECTRUM FRX6000, Wch 1800 Reference guide

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MIB Reference Guide
for
Cabletron Frame Relay Products
Document number 09-41-06-149-03
The Complete Networking Solution
TM
MIB Reference Guide iii
Rev Date Reason for Update
01 August 1997 Initial version
02 September 1997 Frame Relay Module
03 March 1998 Release 4.0
Cabletron Systems reserves the right to make changes in specifications and other infor-
mation 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, and/or software described in this manual is subject to change
without notice.
IN NO EVENT SHALL CABLETRON SYSTEMS BE LIABLE FOR ANY INCI-
DENTAL, INDIRECT, SPECIAL, OR CONSEQUENTIAL DAMAGES WHAT-
SOEVER (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, 1998 by Cabletron Systems, Inc. All rights reserved. Printed in the United
States of America.
VxWorks is a copyright of Wind River Systems, Inc.
IP (Internet Protocol) code is copyright 1982, 1986 by Regents of the University of Cali-
fornia. All rights reserved. This Cabletron product includes software developed by the Uni-
versity of California, Berkeley, and its contributors. IP software is provided by the regents
and contributors “as is and any express or implied warranties, including, but not limited
to, the implied warranties of merchantability and fitness for a particular purpose, are dis-
claimed. In no event shall the regents or contributors be liable for any direct, indirect, inci-
dental, special, exemplary, or consequential damages (including, but not limited to,
procurement of substitute goods or services; loss of use, data, or profits; or business inter-
ruption) however caused and on any theory of liability, whether in contract, strict liability,
or tort (including negligence or otherwise) arising in any way out of the use of this software,
even if advised of the possibility of such damage.
Gateway Daemon, Release 3 (GateD) is maintained and developed by Cornell University
and its collaborators. The version of GateD used with this Cabletron product has been mod-
ified.
Netlink is a trademark of Cabletron Systems, Inc. All other product designations are the
property of their respective owners.
iv Cabletron Frame Relay Products
This manual describes the various MIBs supported in Cabletron’s frame relay access
product family (SmartSwitch 1800, FRX, and 9W004). Most of the information is taken
from the MIB documents or Cabletron user documentation.
These appropriate product-specific user guide(s) can be ordered from Cabletron Systems:
SmartSwitch 1800 Release 4.0 User Guide, Cabletron number 09-44-06-018.
9W004 Release 4.0 User Guide, Cabletron number 09-41-06-169.
Netlink FRX4000 & FRX6000 Release 4.0 User Guide, Cabletron number 09-41-06-
162.
Netlink FRX7000 3.3 User Guide, Cabletron number 09-41-06-132.
Netlink FRX8000 3.0 User Guide, Cabletron number 09-41-06-150.
Cabletron Systems, Inc.
P.O. Box 5005
Rochester, NH 03866-5005
MIB Reference Guide v
Table of Contents
Introduction .............................................................................................. 1
Netlink MIB .............................................................................................. 3
network Group (netlink.6) ....................................................................3
node Group (netlink.7.1) ......................................................................5
hwcard Group (netlink.7.2) ..................................................................6
rlpConfigTable (hwcard.2)............................................................ 6
port Group (netlink.7.3) ........................................................................9
portX25Group (port.1).................................................................. 9
portPhyX25AdminTable (portX25Group.1)...........................9
portPhyX25OperTable (portX25Group.2)...........................13
portLogicalX25AdminTable (portX25Group.3)...................13
portLogicalX25OperTable (portX25Group.4)......................15
portX25AdminTable (portX25Group.5)...............................15
portX25OperTable ................................................................20
portFrGroup (port.2).................................................................... 20
portFrConfigTable (portFrGroup.1)......................................20
portDLCIConfigTable (portFrGroup.2)...............................25
portFrBackupGroupTable (portFrGroup.3).........................29
portBsciGroup (port.4)................................................................ 32
portBsciAdminTable (portBsciGroup.1)...............................32
portBsciOperTable (portBsciGroup.2)..................................40
bsciSubscrAdminTable (portBsciGroup.3)...........................41
bsciSubscrOperTable (portBsciGroup.4)..............................43
bsciDevAdminTable (portBsciGroup.5)...............................43
bsciDevOperTable (portBsciGroup.6)..................................46
portSdlcGroup (port.5)................................................................ 46
portSdlcAdminTable (portSdlcGroup.1)...............................46
portSdlcOperTable (portSdlcGroup.2)..................................50
lsSdlcAdminTable (portSdlcGroup.3)..................................51
lsSdlcOperTable (portSdlcGroup.4) .....................................54
lsSdlcLlc2AdminTable (portSdlcGroup.5)...........................54
lsSdlcLlc2OperTable (portSdlcGroup.6)..............................60
portT1Group (port.7)................................................................... 60
portT1AdminTable (portT1Group.1)...................................60
portT1OperTable (portT1Group.2)......................................63
nlInterfaces (netlink.7.4) .....................................................................63
nlIfTable (nlInterfaces.1)............................................................. 64
nlIfLlc2Interfaces (nlInterfaces.2)............................................... 66
nlIfLlc2LANTable (nlIfLlc2Interfaces.1).............................66
nlIfLlc2FrTable (nlIfLlc2Interfaces.2)..................................69
ipxConfig (nlInterfaces.3) ........................................................... 73
ipxConfigRouting (ipxConfig.1)...........................................73
vi Netlink Frame Relay Products
ipxConfigInterface (ipxConfig.2).........................................77
ipxConfigNodeDefault (ipxConfig.3) .................................. 85
nlIfIpInterfaces (nlInterfaces.4).................................................. 86
nlIfIpTable (nlIfIpIInterfaces.1)........................................... 86
nlIfIpSecondaryAddrTable (nlIfIpIInterfaces.2)..................93
subscriber (netlink.7.5) ......................................................................95
nlLocalSubscriberTable (subscriber.1)....................................... 95
nlLocalSubscriberRouteTable (subscriber.2)............................. 98
nlLocalSubscriberRedirTable (subscriber.3)............................ 100
LLC2 Group (netlink.7.6) ...............................................................101
nlLlc2HostTable (LLC2.1)...................................................... 101
nlLlc2TermConnectionTable (LLC2.2)................................... 107
nlLlc2OrigConnectionTable (LLC2.3).................................... 109
nlLlc2NextHost......................................................................... 112
pinStatusTable (netlink.7.7.4) ..........................................................112
statistics (netlink.7.8) ....................................................................... 113
statGroup (statistics.1).............................................................. 113
rlpStatsTable (statGroup.2) ................................................113
portStatsTable (statGroup.3) ..............................................115
statFrame (statGroup.4)......................................................117
statT1 (statGroup.7)............................................................ 124
statDS0A (statGroup.8)......................................................127
statVoice (statGroup.9).......................................................129
statThresh (statistics.2)............................................................. 131
rlpThreshTable (statThresh.1)............................................131
portThreshTable (statThresh.2)..........................................133
bridge Group (netlink.7.9) ............................................................... 136
ipNl Group (netlink.7.11) ................................................................. 138
MIB II Groups ..................................................................................... 139
System Group (mib-2.1) ..................................................................139
Interfaces Group (mib-2.2) ..............................................................141
IP Group (mib-2.4) ...........................................................................145
IP Address Table (ip.20)........................................................... 150
IP Routing Table (ip.21)........................................................... 152
IP Address Translation Table (ip.22)........................................ 156
Additional IP objects ................................................................ 157
ICMP Group (mib-2.5) .................................................................... 158
Frame Relay (RFC1315) MIB ............................................................ 164
snaDLC (RFC1747) MIB .................................................................... 166
sdlcPortGroup (snaDLC.1) .............................................................. 166
sdlcPortAdminTable (sdlcPortGroup.1).................................. 166
sdlcPortOperTable (sdlcPortGroup.2)..................................... 169
sdlcPortStatsTable (sdlcPortGroup.3).................................... 172
sdlcLSGroup (snaDLC.2) ................................................................ 177
MIB Reference Guide vii
sdlcLSAdminTable (sdlcLSGroup.1)....................................... 177
sdlcLSOperTable (sdlcLSGroup.2)........................................... 183
sdlcLSStatsTable (sdlcLSGroup.3)........................................... 190
Novell IPX MIB .................................................................................... 200
Basic System Table (ipx.1.1) ................................................... 200
Advanced System Table (ipx.1.2)............................................ 203
Static Routes Table (ipx.3.2).................................................... 206
Services Table (ipx.4.1)............................................................ 207
802.1d Bridge (RFC1493) MIB ........................................................... 209
dot1dBase (dot1dBridge.1) ...............................................................209
dot1dStp Group (dot1dBridge.2) .....................................................211
dot1dStpPortTable (dot1dStp.15)............................................ 215
dot1dTp Group (dot1dBridge.4) ......................................................218
dot1dTpFdbTable (dot1dTp.3) .........................................................219
802.3 Ethernet (RFC1643) MIB Statistics ......................................... 221
802.5 Token Ring (RFC1748) MIB Statistics .................................... 226
viii Netlink Frame Relay Products
Introduction
The SNMP agent in Cabletrons frame relay access product line supports SNMP MIBs
(Message Information Bases) according to the following tables. Note that the columns
list the earliest releases that support each group/table. (These and all subsequent
releases of a product support the groups/tables in the left column.) Each box has two
entries, separated by a slash (/). The first entry is the earliest release to support "Gets"
(Read only); the second is the earliest release to support "Sets" (Read/Write).
Table 1 Netlink MIB
Group/Table
SmartSw.
1800
FRX4000,
FRX6000
Frame Rly.
Module FRX7000 FRX8000
network Group (netlink.6) -------/----- -------/------ -------/----- -------/----- 2.2.1/-----
node Group (netlink.7.1)
4.0.0/4.0.0 3.2.2/3.3.0
1
3.3.1/3.3.1
1
3.3.z/3.3.z
1
2.2.1/2.2.1
1
hwcard Group (netlink.7.2) 4.0.0/4.0.0 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
port Group (netlink.7.3)
see below see below see below see below see below
portX25Group (port.1)
4.0.0/4.0.0
1
4.0.0/4.0.0
1
4.0.0/4.0.0
1
-------/----- -------/-----
portFrGroup (port.2) 4.0.0/4.0.0 3.2.2/3.3.0 3.3.1/3.3.1 3.3.z/3.3.z 2.2.1/2.2.1
portFrBackupGrp. (port.2.3) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 -------/----- -------/-----
portBsciGroup (port.4)
4.0.0/4.0.0
1
4.0.0/4.0.0
1
4.0.0/4.0.0
1
3.3.z/3.3.z
1
-------/-----
portSdlcGroup (port.5)
4.0.0/4.0.0
1
3.2.2/3.3.0
1
3.3.1/3.3.1
1
3.3.z/3.3.z
1
2.2.1/2.2.1
1
portT1Group (port.7) -------/----- 4.0.0/4.0.0 4.0.0/4.0.0 3.3.z/3.3.z -------/-----
nlInterfaces (netlink.7.4)
see below see below see below see below see below
nlIfTable (nlInterfaces.1) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
nlIfLlc2Interfa. (nlInterfaces.2) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 3.3.z/3.3.z -------/-----
ipxConfig (nlInterfaces.3) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 -------/----- -------/-----
nlIfIpInterfa. (nlInterfaces.4) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 -------/----- -------/-----
subscriber (netlink.7.5) 4.0.0/4.0.0 3.2.2/3.3.0 3.3.1/3.3.1 3.3.z/3.3.z 2.2.1/2.2.1
LLC2 Group (netlink.7.6) 4.0.0/4.0.0 3.2.2/3.3.0 3.3.1/3.3.1 3.3.z/3.3.z -------/-----
pinStatusTable (netlink.7.7.4) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
statistics (netlink.7.8)
see below see below see below see below see below
statGroup (statistics.1)
see below see below see below see below see below
rlpStatsTable (statGroup.2) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
portStatsTable (statGroup.3) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
continued on next page
2 Cabletron Relay Access Products
1
Some variables are Read-only. See individual descriptions later in this document. Note that in
the case of the portBsciGroup and portSdlcGroup, all variables are read-write except those in the
"Oper" tables, which have read-write equivalents in the "Admin" tables.
1
Some variables are Read only. See individual descriptions later in this document.
2
Variables
ip.1–ip.19
only.
3
IP routing table only.
4
System Group in Release 3.3.1. System Group, Static Routes Table, and Services Table in Release 4.0.0.
5
Static Routes Table only.
Most of the supported MIB variables are described over the remainder of this doc-
ument. Note that inaccessible variables are not included.
statFrame (statGroup.4) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
statT1 (statGroup.7) -------/----- 4.0.0/4.0.0 4.0.0/4.0.0 3.3.z/----- -------/-----
statDS0A (statGroup.8) -------/----- -------/----- -------/----- 3.3.z/----- -------/-----
statVoice (statGroup.9) 4.0.0/4.0.0 -------/----- -------/----- -------/----- -------/-----
statThresh (statistics.2) 4.0.0/----- 3.2.2/----- 3.3.1/----- 3.3.z/----- 2.2.1/-----
bridge Group (netlink.7.9) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 -------/----- -------/-----
ipNl Group (netlink.7.11) 4.0.0/4.0.0 4.0.0/4.0.0 4.0.0/4.0.0 -------/----- -------/-----
Table 2 Other MIBs
Group/Table
SmartSw.
1800
FRX4000,
FRX6000
Frame Rly.
Module FRX7000 FRX8000
MIB-II (RFC1213) Groups
see below see below see below see below see below
System Group (mib-2.1)
4.0.0/4.0.0
1
3.2.2/3.3.0
1
3.3.1/3.3.1
1
3.3.z/3.3.z
1
2.2.1/2.2.1
1
Interfaces Group (mib-2.2)
4.0.0/4.0.0
1
3.2.2/3.3.0
1
3.3.1/3.3.1
1
3.3.z/3.3.z
1
2.2.1/2.2.1
1
IP Group (mib-2.4)
4.0.0
2
/4.0.0
3
3.3.1
2
/4.0.0
3
3.3.1
2
/4.0.0
3
-------/----- -------/-----
ICMP Group (mib-2.5) 4.0.0/----- 3.3.1/----- 3.3.1/----- -------/----- -------/-----
Frame Relay (RFC1315) MIB 4.0.0/4.0.0 3.2.2/3.3.0 3.3.1/3.3.1 3.3.z/3.3.z 2.2.1/2.2.1
snaDLC (RFC1747) MIB
4.0.0/4.0.0
1
3.2.2/3.3.0
1
3.3.1/3.3.1
1
3.3.z/3.3.z
1
2.2.1/2.2.1
1
Novell IPX MIB
4.0.0
4
/4.0.0
5
3.3.1
4
/4.0.0
5
3.3.1
4
/4.0.0
5
-------/----- -------/-----
802.1d Bridge (RFC1493) MIB 4.0.0/----- 3.3.1/----- 3.3.1/----- -------/----- -------/-----
802.3 Ethernet (RFC1643) MIB
Statistics
4.0.0/----- 3.3.1/----- 3.3.1/----- -------/----- -------/-----
802.5 Token Ring (RFC1748)
MIB Statistics
4.0.0/----- 3.3.1/----- 3.3.1/----- -------/----- -------/-----
Table 1 Netlink MIB
Group/Table
SmartSw.
1800
FRX4000,
FRX6000
Frame Rly.
Module FRX7000 FRX8000
(continued)
MIB Reference 3
Netlink MIB
Inaccessible variables are not included.
network Group (netlink.6)
This group is supported only on the Netlink FRX8000 (as described on page
1), as well as Nucleus 7000 (supported for ease of transition to FRX8000).
nsMaxNeigh
SYNTAX: INTEGER
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Maximum number of "neighbor" nodes. A neighbor is the
closest node in a path from the local node. This variable is
a leaf object, and is identified as such by adding a
0
as the
final digit of the object ID. (This value is currently always
64
for an FRX8000 and
20
for an N7400 or N7500.)
::= { network.1.1}
nsThisNode
SYNTAX: INTEGER (
1–250
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:This node's node number. This variable is a leaf object, and
is identified as such by adding a
0
as the final digit of the
object ID.
::= { network.1.2}
nsNodNum
SYNTAX: INTEGER (
1–250
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Table index to the node whose status and number of
neighbors is being sought.
::= { network.1.3.1.1}
4 Cabletron Relay Access Products
nsStatus
SYNTAX: INTEGER
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Operational status of the node:
Bit 0 on = value
1
= Node is defined in database.
Bits 0 & 7 on = value
9
= Node is operational.
::= { network.1.3.1.2}
nsNumNeigh
SYNTAX: INTEGER
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Current number of neighbor nodes.
::= { network.1.3.1.3}
nsNTNode
SYNTAX: INTEGER (
1–250
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Node number of the node whose neighbor's status is being
sought.
::= { network.1.4.1.1}
nsNTNeigh
SYNTAX: INTEGER (
1–250
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Node number of the neighbor whose status is being sought.
::= { network.1.4.1.2}
nsNTNeighStat
SYNTAX: INTEGER (
0–1
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Status of the neighbor node:
0
= not connected,
1
= connected.
::= { network.1.4.1.3}
MIB Reference 5
node Group (netlink.7.1)
nodeModel
SYNTAX: INTEGER (
2,3,5,6,7,8
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Identification of hardware platform for graphics-based
network manager:
2
= FRX6000/FRX8000 Model 2,
3
= FRX6000/FRX8000 Rackmount chassis or Frame
Relay Module (FRM),
5
= FRX7000,
6
= FRX4000,
7
= SmartSwitch 1800.
::= { node.3.1}
nodeTrapText
SYNTAX: DisplayString
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Text of the last alarm generated.
::= { node.3.2}
tpAdrIdx
SYNTAX: INTEGER
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Index to trap configuration table.
::= { node.3.3.1.1}
tpAddress
SYNTAX: IpAddress
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:IP Address of the end-station to send alarms.
::= { node.3.3.1.2}
tpAdrFlag
SYNTAX: INTEGER { disable traps (
1
), enable traps (
2
),
delete entry from table (
3
) }
ACCESS: Read/Write
STATUS: Mandatory
6 Cabletron Relay Access Products
DESCRIPTION:State of this entry. ("Disable" means "do not send.")
::= { node.3.3.1.3}
tpAdrSLev
SYNTAX: INTEGER (
1–4
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Lowest severity level traps that will be sent:
1
= critical(highest),
2
= major,
3
= minor,
4
= informational.
::= { node.3.3.1.4}
hwcard Group (netlink.7.2)
rlpMaxProtos
SYNTAX: INTEGER
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Maximum number of protocols allowed on each RLP.
::= { hwcard.1}
rlpConfigTable (hwcard.2)
rlpIndex
SYNTAX: INTEGER (
1–8
, which correspond to actual RLP numbers
0–7
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:RLP number in the node.
::= { rlpConfigTable.1.1}
rlpStatus
SYNTAX: INTEGER {installed (
1
), configured (
2
)}
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Current state of the RLP. ("Configured" means that a
database record exists, but the RLP is not physically
present in the node.)
::= { rlpConfigTable.1.2}
MIB Reference 7
rlpMemorySize
SYNTAX: INTEGER (
4
or
8
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Amount of memory installed on this RLP.
::= { rlpConfigTable.1.3}
rlpLIC1Type
SYNTAX: INTEGER (
1–5, 8, 10, 11
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Type of Line Interface Card (LIC) in the upper position on
the RLP for all devices except FRX4000 and SmartSwitch
1800. For those devices, this variable is alway
8
.
1
= Other,
2
= RS-232,
3
= RS-422,
4
= V.35,
5
= High-
speed RS-232,
8
= Universal (FRX4000 only—not an
actual LIC, but identifies ports 03),
10
= T1,
11
= E1.
::= { rlpConfigTable.1.4}
rlpLIC2Type
SYNTAX: INTEGER (
1–5, 10, 11
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Type of Line Interface Card (LIC) in the lower position on
the RLP for all devices except FRX4000 and SmartSwitch
1800. For FRX4000, this variable identifies the four-port
expansion card. For SmartSwitch 1800, this variable has
no significance.
1
= Other,
2
= RS-232,
3
= RS-422,
4
= V.35,
5
= High-speed RS-232,
10
= T1,
11
= E1.
::= { rlpConfigTable.1.5}
rlpProtocol
SYNTAX: OCTET STRING (13 octets)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Protocols configured on this RLP. Each octet represents a
protocol type:
00
= none,
01
= X.25,
02
= Frame relay,
03
= Async,
04
= SDLC,
05
= BSC Interactive,
06
= BSC
Batch,
07
= IP,
08
= SNMP,
09
= RIP,
0A
= LLC2,
0B
= Trunk,
0C
= IPX,
0D
= Config (not valid on
8 Cabletron Relay Access Products
FRX8000),
0E
= LLC2-R (FRX4000 and SmartSwitch
1800 only),
10
= NetView Service Point.
::= { rlpConfigTable.1.6}
rlpGroupNumber
(FRX7000 only)
SYNTAX: INTEGER (
1–4
)
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Group to which this RLP belongs. Up to six RLPs can be
assigned to a group, for the purpose of providing backup
functionality and isolation of problems.
::= { rlpConfigTable.1.7}
rlpGroupResponsibility
(FRX7000 only)
SYNTAX: INTEGER {primary
(1)
or secondary (
4
)}
ACCESS: Read only
STATUS: Mandatory
DESCRIPTION:Responsibility of this RLP within its group. Certain
protocols will be loaded onto the primary RLP in each
group, and will be shared with other RLPs in the group.
::= { rlpConfigTable.1.8}
MIB Reference 9
port Group (netlink.7.3)
portX25Group (port.1)
portPhyX25AdminTable (portX25Group.1)
This table contains Netlink enterprise-specific objects to manage a physical X.25 port.
Changing one of these parameters may take effect on the operating port immediately
or may wait until the interface is restarted, depending on the details of the implemen-
tation. Most of the objects in this read/write table have corresponding read-only objects
in the
portPhyX25OperTable
that return the current operating value. The operating
values may be different from the admin values if an admin variable was configured
after the interface was started.
portPhyX25AdminConnector
SYNTAX: INTEGER {rs232 (
3
), v35 (
5
), rs449 (
6
), rs530 (
7
), x21 (
8
),
t1 (
10
), e1 (
11
)}
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Physical port interface connector type.
::= { portPhyX25AdminTable.1.1 }
portPhyX25AdminSpeed
SYNTAX: INTEGER
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Data transmission rate in bits per second. The valid values
depend on the physical interface type
(
portPhyX25AdminConnector
). Select the value from the
below list that most closely matches the connected device.
All possible speeds in bits per second (irrespective of
physical interface type) are:
75 150 300 600 1200
2400 4800 9600 14.4K 19.2K
24K 28.8K 38.4K 48K 56K
64K 72K 112K 128K 168K
192K 224K 256K 280K 320K
336K 384K 392K 448K 504K
512K 560K 576K 616K 640K
672K 704K 728K 768K 784K
832K 840K 896K 952K 960K
1.008M 1.024M 1.064M 1.088M 1.12M
1.152M 1.176M 1.216M 1.232M 1.28M
10 Cabletron Relay Access Products
1.288M 1.344M 1.4M 1.408M 1.456M
1.472M 1.512M 1.536M 1.568M 1.6M
1.624M 1.664M 1.668M 1.728M 1.792M
1.856M 1.92M 1.984M 2.048M
If an RS-232 DCE port is directly connected to
the DTE via the standard Cabletron cable, the
maximum supported speed is 64K. If longer
cabling is used, the maximum speed is 19.2K.
(The EIA standard for RS-232 addresses speeds
up to 19.2 Kbps.)
T1, E1 port speeds cannot be set here.
::= { portPhyX25AdminTable.1.2 }
portPhyX25AdminGenerateClock
SYNTAX: INTEGER { no (
1
), yes (
2
) }
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Specifies whether the port will generate the clock
necessary to synchronize traffic over the link.
::= { portPhyX25AdminTable.1.3 }
portPhyX25AdminRcvClockFromDTE
SYNTAX: INTEGER {no (
1
), yes (
2
) }
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Specifies whether the receive clock will be used from the
DTE.
::= { portPhyX25AdminTable.1.4 }
portPhyX25AdminDialOut
SYNTAX: INTEGER {none (
1
), dialIn (
2
), dialOut (
3
) }
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Flag that indicates whether the port is connected to a dial
modem, and whether connections will be initiated through
dial-in or dial-out calls.
::= { portPhyX25AdminTable.1.5 }
MIB Reference 11
portPhyX25AdminInactivityTimer
SYNTAX: INTEGER (
1–30
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Period (in minutes) of inactivity allowed between calls.
Once the timer expires, the port is disabled until the next
call is placed, if a dial-out port, or the Disconnect Timer
expires, if a dial-in port. This variable is meaningful only
if the port is a dial port.
::= { portPhyX25AdminTable.1.6 }
portPhyX25AdminDisconnectTimer
SYNTAX: INTEGER (
1–255
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Time (in seconds) a dial-in port will remain disabled after
expiration of the Inactivity Timer.
::= { portPhyX25AdminTable.1.7 }
portPhyX25AdminSetupTimer
SYNTAX: INTEGER (
1–255
)
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Maximum time (in seconds) within which a response must
be received by the port, after entering the Linkup state. If a
response is not received, the port enters a Failed state.
::= { portPhyX25AdminTable.1.8 }
portPhyX25AdminTrunkFlag
SYNTAX: INTEGER { no (
1
), yes (
2
) }
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Flag that indicates whether the port is associated with a
network trunk group. It will be disabled/enabled if the
network trunk is not operational.
::= { portPhyX25AdminTable.1.9 }
portPhyX25AdminTrunkGroup
SYNTAX: OCTET STRING
ACCESS: Read/Write
12 Cabletron Relay Access Products
STATUS: Mandatory
DESCRIPTION:String of 8 bytes, with each byte indicating 8 ports on an
RLP that may be a part of a trunk group. Since the
SmartSwitch 1800 and FRX4000 do not have multiple
RLPs, only the first byte is valid for these devices. Each
port is represented by a single bit within the RLP byte. The
bit position represents the port number; for example, if port
2 on RLP 0 was in a trunk group, the first byte of the string
would contain
x04
and all other bytes would be
0
.
::= { portPhyX25AdminTable.1.10 }
portPhyX25AdminRowStatus
SYNTAX: RowStatus
ACCESS: Read/Write
STATUS: Mandatory
DESCRIPTION:Used to manage the creation and deletion of conceptual
rows in the
portPhyX25AdminTable
, and follows the
SNMPv2
RowStatus
conventions by supporting the
following values:
active
, which means the conceptual row is available for
use by the managed device, and which is supplied
by a management station wishing to exercise an
on-line update of the existing conceptual row. For a
management protocol set operation, a
genErr
response is returned when the row does not exist.
createAndGo
, which is supplied by a management
station wishing to create a new instance of a con-
ceptual row and to have its status automatically set
to active, making it available for use by the
managed device. For a management protocol set
operation, a
genErr
response is returned when the
row already exists.
destroy
, which is supplied by a management station
wishing to delete all of the instances associated with
an existing conceptual row.
Note that all of the above values may be specified in a man-
agement protocol set operation, and only the
active
value
will be returned in response to a management protocol
retrieval operation. For a management protocol set opera-
tion, if other variable bindings are included in the same
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