--
-- *****************************************************************
-- C I S C O A T M R e s o u r c e M a n a g e m e n t M I B
--
-- December 1995, Michael Grobelch
--
-- Copyright (c) 1996-2001 by cisco Systems, Inc.
-- All rights reserved.
-- *****************************************************************
--CISCO-ATM-RM-MIB DEFINITIONS::=BEGINIMPORTSMODULE-IDENTITY,OBJECT-TYPE,Counter32,Gauge32,Unsigned32FROM SNMPv2-SMI
TEXTUAL-CONVENTION,DisplayString,TruthValueFROM SNMPv2-TC
ifIndex FROM RFC1213-MIB
ciscoExperiment FROM CISCO-SMI
MODULE-COMPLIANCE,OBJECT-GROUPFROM SNMPv2-CONF;ciscoAtmRmMIB MODULE-IDENTITYLAST-UPDATED"200206030000Z"ORGANIZATION"Cisco System Inc."CONTACT-INFO" Cisco Systems
Customer Service
Postal: 170 W Tasman Drive
San Jose, CA 95134
USA
Tel: +1 800 553-NETS
E-mail: cs-atm@cisco.com"DESCRIPTION"The MIB module which complements standard ATM MIBs for
Cisco devices, for Resource Management."REVISION"200206030000Z"DESCRIPTION"Added objects to support Per Class Overbooking for
ATM interfaces."REVISION"200101290000Z"DESCRIPTION
"Added a table that contains objects to manage ATM
Traffic Shaper configuration and state information
for ATM interfaces."REVISION"9912220000Z"DESCRIPTION"Fix the errors in the definition of cgrPerVcqAtmRmGroup."REVISION"9907270000Z"DESCRIPTION"Added object to support overbooking of equivalent bandwidth
of an ATM interface."REVISION"9904300000Z"DESCRIPTION" Added objects for the IMA interface support."REVISION"9904140000Z"DESCRIPTION"Added objects to instruct Connection Admission Control to
include framing overhead in the calculation of maximum cell
rate of an ATM interface."REVISION"9903110000Z"DESCRIPTION"Clarified the description for some of the objects that they
are applicable to logical port ATM interfaces too and made
appropriate changes to the Compliance section."REVISION"9811240000Z"DESCRIPTION"Added a table to manage global resources on the Catalyst8540MSR
platform. This was necessary because the Catalyst8540MSR,
has 8 switching modules internally, with each switching
module having its own independent cell memory. Each
switching module performs per-VC queueing for a specific
(fixed in hardware) group of ports, independent of
any other switching module.
The Lightstream 1010 had only one global cell memory
for the entire device. "REVISION"9811030000Z"DESCRIPTION"Specify a range limiting Link Distance object."REVISION"9807260000Z"DESCRIPTION"Added an object to enable Hierarchical Scheduling."REVISION"9712030000Z"DESCRIPTION"Added object to configure Service Category support on
an interface."REVISION"9705260000Z"DESCRIPTION"Added objects for management of new features made possible
on the LS1010 by the Feature Card Plus. This includes
support for per-VC queueing hardware structures,
enhanced UPC, non-zero MCR for ABR, and UBR+."REVISION"9611110000Z"DESCRIPTION"Added objects for management of Cell Loss Ratio for
CLP0+1 cell-streams. Added table for default tolerance."::={ ciscoExperiment 10}--
-- Caution. This MIB is temporary and experimental.
-- In the future willbe removed from products,
-- perhaps with short notice, in favor of more standard
-- or generic MIBs. Application developers should not
-- depend on long-term access to this MIB.
--ciscoAtmRmMIBObjects OBJECTIDENTIFIER::={ ciscoAtmRmMIB 1}ForceValue ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to provide a standard mechanism
for providing protection on writing to objects.
An object of type ForceValue is associated with the
protected object. If an set request is made for the
protected object, the state of the system or the
value to be set may violate the intended protection.
The value of the associated object of type ForceValue
is then used to determine whether the set request
succeeds or fails:
- value is forceChange, request succeeds.
- value is noForceChange, request fails.
An additional characteristic of the ForceValue type is
that the setting of the protected object resets the
value of the protection object to noForceChange.
As an example, take an object limiting the number of
network connections on an interface (named maxNetConn).
If maxNetConn is set below the number of currently active
connections, some of those connections will be cleared.
An associated protection object of type ForceValue
(named maxNetConnForce) is used to protect the setting
of maxNetConn. If the setting of maxNetConn would cause
the clearing of connections, maxNetConnForce must
be set to forceChange. Whenever maxNetConn is successfully
set, maxNetConnForce assumes the value noForceChange."SYNTAXINTEGER{forceChange(1),noForceChange(2)}FineQueueThreshold ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to represent thresholds for
output-queues on a shared memory ATM switch."SYNTAXINTEGER{percent12(1),
percent25(2),percent37(3),percent50(4),percent62(5),percent75(6),percent87(7),percent100(8)}LsPerVcqServiceClass ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to represent one of the
Service Classes."SYNTAXINTEGER{c1(1),-- Service class 1 (highest SP priority)c2(2),-- Service class 2 (2nd highest SP priority)c3(3),-- Service class 3c4(4),-- Service class 4c5(5),-- Service class 5 (lowest SP priority)c6(6),-- reservedc7(7),-- reservedc8(8)-- reserved}LsPerVcqServiceClassNoC1 ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to represent one of the
Service Classes, omitting c1."SYNTAXINTEGER{c2(2),-- Service class 2 (2nd highest SP priority)c3(3),-- Service class 3c4(4),-- Service class 4
c5(5),-- Service class 5 (lowest SP priority)c6(6),-- reservedc7(7),-- reservedc8(8)-- reserved}LsPerVcqThresholdGroup ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to represent one of the
Threshold Groups."SYNTAXINTEGER{tg1(1),-- Threshold Group 1tg2(2),-- Threshold Group 2tg3(3),-- Threshold Group 3tg4(4),-- Threshold Group 4tg5(5),-- Threshold Group 5tg6(6),-- Threshold Group 6tg7(7),-- reservedtg8(8),-- reservedtg9(9),-- reservedtg10(10),-- reservedtg11(11),-- reservedtg12(12),-- reservedtg13(13),-- reservedtg14(14),-- reservedtg15(15),-- reserved
tg16(16)-- reserved}LsPerVcqThresholdGroupService ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This data type is used to specify how VC/VP
queues are assigned to Threshold Groups."SYNTAXINTEGER{cbr(1),vbrRt(2),vbrNrt(3),abr(4),ubr(5)}CgrPerVcqModuleId ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"The Catalyst8540MSR has 8 switching modules. Each
module has its own cell memory, and performs
its own congestion control, independent of
the other switching modules."SYNTAXINTEGER{module1(1),module2(2),module3(3),module4(4),module5(5),module6(6),module7(7),module8(8)}-- This MIB defines the following Groups:
--
-- 1. the ATM Switch Resource Management Configuration Group
-- 2. the Shared-Memory architecture ATM Switch Resource Management Group
-- 3. the ATM Interface Resource Management Configuration Group
-- 4. the ATM Interface Resource Management State Group
-- 5. the ATM Interface Resource Management Statistics Group
-- 6. the Shared-Memory architecture ATM Interface Resource Management Group
-- 7. the Lightstream per-VC queueing chipset ATM Switch Resource
-- Management Group
-- 8. the Lightstream per-VC queueing switch chipset ATM Interface Resource
-- Management Group
-- 9. The Catalyst8540MSR per-VC queueing chipset ATM Switch Resource
-- Management Group
-- 10. The ATM Traffic Shaper Interface Management GroupciscoAtmRmSwitchCfg OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 1}ciscoAtmRmSwitchSharedMem OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 2}ciscoAtmRmIfCfg OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 3}ciscoAtmRmIfState OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 4}ciscoAtmRmIfStatistics OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 5}ciscoAtmRmIfSharedMem OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 6}ciscoLsPerVcqAtmRmSwitch OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 7}ciscoLsPerVcqAtmRmIf OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 8}ciscoCgrPerVcqAtmRmSwitch OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 9}ciscoAtmRmTrafShaperIf OBJECTIDENTIFIER::={ ciscoAtmRmMIBObjects 10}--
-- The ATM Switch Resource Management Configuration Group
--rmSwitchOverSubFactor OBJECT-TYPESYNTAXINTEGER(1..32)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The Over Subscription Factor (OSF) is used on switch startup/OIR
to determine the maximum sizes of VBR-NRT and ABR/UBR queues.
In general, the larger the value of OSF specified, the
larger the queues are made at startup.
Denoting the maximum sizes of CBR,VBR-RT, VBR-NRT, and ABR/UBR
output queues for a physical interface as L1, L2, L3, and L4,
respectively, an example algorithm is:
L3 = .25 * (OSF*(2048-L1 -L2)
L4 = .75 * (OSF*(2048-L1 -L2)"DEFVAL{4}::={ ciscoAtmRmSwitchCfg 1}rmSwitchScrMarginFactor OBJECT-TYPESYNTAXINTEGER(0..100)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The Sustained Cell Rate Margin Factor (SCRMF) is used in
Connection Admission Control (CAC) of VBR connections to
vary the weight given to the difference between Sustained
Cell Rate (scr) and Peak Cell Rate (pcr) specified in the
traffic contract. When calculating the equivalent bandwidth
offered by a connection, SCRMF is used as follows:
eqBw = scr + ((pcr - scr) * rcacVbrScrmf) / 100"DEFVAL{1}::={ ciscoAtmRmSwitchCfg 2}rmSwitchAbrCongNotify OBJECT-TYPESYNTAXINTEGER{relativeRate(1),efci(2),efciAndRelativeRate(3)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The ABR Congestion Notification object determines
the type of congestion notification used on ABR connections
in the switch. This notification can be done either via
relative-rate or Explicit Forward Congestion Indication
marking in ATM cells, or both."DEFVAL{ relativeRate }::={ ciscoAtmRmSwitchCfg 3}rmDefaultQosObjectiveTable OBJECT-TYPESYNTAXSEQUENCEOF RmDefaultQosObjectiveEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
configuration information for default Quality of Service
objective values used when a signalling request is received
on a UNI interface."::={ ciscoAtmRmSwitchCfg 4}rmDefaultQosObjectiveEntry OBJECT-TYPESYNTAX RmDefaultQosObjectiveEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
rmDefaultQosObjectiveTable containing Resource
Management configuration for the default UNI QOS objectives.
Rows are identified by Service Category."INDEX{ rmDefaultQosServiceCategory }::={ rmDefaultQosObjectiveTable 1}
RmDefaultQosObjectiveEntry ::=SEQUENCE{
rmDefaultQosServiceCategory INTEGER,
rmScDefaultQosMaxCtd INTEGER,
rmScDefaultQosPeakToPeakCdv INTEGER,
rmScDefaultQosClr INTEGER,
rmScDefaultQosClrClp01 INTEGER}rmDefaultQosServiceCategory OBJECT-TYPESYNTAXINTEGER{cbr(1),--constant-bit-ratevbrRt(2),--variable-bit-rate-real-timevbrNrt(3)--variable-bit-rate-non-real-time}MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Service Category to which the row applies."::={ rmDefaultQosObjectiveEntry 1}rmScDefaultQosMaxCtd OBJECT-TYPESYNTAXINTEGER(0..16777215)UNITS"microseconds"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The default Maximum Cell Transfer Delay (ctd) for the
Service Category. It applies only to cbr and vbr-rt Service
Categories. Specifying a value of 16777215 signifies that
this parameter should not be checked during connection setup.
The units of this object are microseconds."DEFVAL{16777215}::={ rmDefaultQosObjectiveEntry 2}rmScDefaultQosPeakToPeakCdv OBJECT-TYPESYNTAXINTEGER(0..16777215)UNITS"microseconds"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The default Peak-to-peak cell delay variation (cdv) for
the Service Category. It applies only to cbr and vbr-rt Service
Categories. Specifying a value of 16777215 signifies
that this parameter should not be checked during connection
setup. The units of this object are microseconds."DEFVAL{16777215}::={ rmDefaultQosObjectiveEntry 3}rmScDefaultQosClr OBJECT-TYPESYNTAXINTEGER(0..15)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The default cell-loss-ratio for the Service Category (for
CLP=0 cells only). Specifying a value of 0 signifies that
this parameter should not be checked during connection setup.
The units of this object are negative powers of ten (so
an object value of 8 means 10**(-8))."DEFVAL{0}::={ rmDefaultQosObjectiveEntry 4}rmScDefaultQosClrClp01 OBJECT-TYPESYNTAXINTEGER(0..15)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The default cell-loss-ratio for the Service Category for
CLP=0+1 cells. Specifying a value of 0 signifies that
this parameter should not be checked during connection setup.
The units of this object are negative powers of ten (so
an object value of 8 means 10**(-8))."DEFVAL{0}::={ rmDefaultQosObjectiveEntry 5}--
-- The cisco ATM Switch Shared Memory Architecture Resource Management Group
--sharedMemRmSwitchQueuedCellTable OBJECT-TYPESYNTAXSEQUENCEOF SharedMemRmSwitchQueuedCellEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
information on the cells in the output queues of a
shared-memory output-queued ATM switch."::={ ciscoAtmRmSwitchSharedMem 1}sharedMemRmSwitchQueuedCellEntry OBJECT-TYPESYNTAX SharedMemRmSwitchQueuedCellEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
sharedMemRmSwitchQueuedCellTable containing Resource
Management information on the cells in the output
queues of a shared-memory switch. Rows are
indexed by priority."INDEX{ sharedMemRmCellPriority }::={ sharedMemRmSwitchQueuedCellTable 1}
SharedMemRmSwitchQueuedCellEntry ::=SEQUENCE{
sharedMemRmCellPriority INTEGER,
sharedMemRmSwitchQueuedCellLimit INTEGER,
sharedMemRmSwitchQueuedCellCount Gauge32}sharedMemRmCellPriority OBJECT-TYPESYNTAXINTEGER{p1(1),-- Priority 1 (highest priority)p2(2),-- Priority 2 (2nd highest priority)p3(3),-- Priority 3 (3rd highest priority)p4(4)-- Priority 4 (lowest priority)}MAX-ACCESSnot-accessible
STATUScurrentDESCRIPTION"The cell priority. The cell priority maps one-to-one to the
per-interface queues specified by the sharedMemRmIfOutputQ
object. All cells of a connection of a particular Service
Category are given a fixed priority. The Service Categories
allocated to a priority can be determined by querying the
sharedMemRmIfOutputQServCategory object for any physical
interface on the switch."::={ sharedMemRmSwitchQueuedCellEntry 1}sharedMemRmSwitchQueuedCellLimit OBJECT-TYPESYNTAXINTEGER(0..65535)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configured limit on the number of cells on all output queues
of the switch at any time of a particular priority."DEFVAL{65535}::={ sharedMemRmSwitchQueuedCellEntry 2}sharedMemRmSwitchQueuedCellCount OBJECT-TYPESYNTAXGauge32UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Count of the number of cells on all output queues
of the switch at any time of a particular priority."::={ sharedMemRmSwitchQueuedCellEntry 3}--
-- The ATM Interface Resource Management Configuration Group
--rmIfCfgTable OBJECT-TYPESYNTAXSEQUENCEOF RmIfCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
configuration information for whole ATM interfaces."::={ ciscoAtmRmIfCfg 3}rmIfCfgEntry OBJECT-TYPESYNTAX RmIfCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION
"An entry (conceptual row) in the rmIfCfgTable
containing Resource Management configuration for an ATM
interface. The particular interface is identified by the
value of MIB-II's ifIndex."INDEX{ ifIndex }::={ rmIfCfgTable 1}
RmIfCfgEntry ::=SEQUENCE{
rmIfOutPacingRateRequested Unsigned32,
rmIfOutPacingRateInstalled Unsigned32,
rmIfOutPacingForce ForceValue,
rmIfLinkDistance Unsigned32,
rmIfBestEffortLimit Unsigned32,
rmIfCbrDefaultRxUpcTolerance Unsigned32,
rmIfVbrRtDefaultRxUpcTolerance Unsigned32,
rmIfVbrNrtDefaultRxUpcTolerance Unsigned32,
rmIfAbrDefaultRxUpcTolerance Unsigned32,
rmIfUbrDefaultRxUpcTolerance Unsigned32,
rmIfVbrRtDefaultRxUpcCdvt Unsigned32,
rmIfVbrNrtDefaultRxUpcCdvt Unsigned32,
rmIfServCategorySupport INTEGER,
rmIfFramingOverhead TruthValue,
rmIfFramingOverheadForce ForceValue,
rmIfOverBooking INTEGER,
rmIfVbrRtPerClassOverbooking INTEGER,
rmIfVbrNrtPerClassOverbooking INTEGER,
rmIfAbrPerClassOverbooking INTEGER,
rmIfUbrPerClassOverbooking INTEGER}rmIfOutPacingRateRequested OBJECT-TYPESYNTAXUnsigned32UNITS"kilobits-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
state of pacing for this interface. If the value of this
object is 0, pacing is disabled on this interface.
Prior to any user configuration, the value of this object
is 0. If the value not 0, it represents the output pacing
value, in kilobits per second. The hardware is not capable
of providing all possible rates. The rate in place is available
in rmIfOutPacingRateInstalled. If the value specified would
reduce the port rate below that currently allocated to
Guaranteed Service bandwidth for the output flow,
the rmIfOutPacingForce object must be set in conjunction with
this object in order to cause the change to take effect."DEFVAL{0}::={ rmIfCfgEntry 1}rmIfOutPacingRateInstalled OBJECT-TYPESYNTAXUnsigned32UNITS"kilobits-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The output pacing value, in kilobits per second, in effect.
A value of 0 indicates output pacing is disabled.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{0}::={ rmIfCfgEntry 2}rmIfOutPacingForce OBJECT-TYPESYNTAX ForceValue
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"A Set Request for rmIfOutPacingRateRequested that does not
reduce the port rate below the currently allocated bandwidth
guarantees for the output flow always succeeds irrespective
of the value of rmIfOutPacingForce. But a Set Request for
rmIfOutPacingRateRequested that does reduce the port rate
below the currently allocated bandwidth guarantees for the
output flow will succeed only if rmIfOutPacingForce object
is also set to the value forceChange. In either of the above
cases, once rmIfOutPacingRateRequested object is set to the
appropriate value, rmIfOutPacingForce object assumes the
noForceChange value. This object is not instantiated for
interfaces to which it cannot be applied."DEFVAL{ noForceChange }::={ rmIfCfgEntry 3}rmIfLinkDistance OBJECT-TYPESYNTAXUnsigned32(0..65535)UNITS"kilometers"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The link distance defined for the interface, expressed
in kilometers. This is then divided by the speed of light
to determine a propagation delay."DEFVAL{0}::={ rmIfCfgEntry 4}rmIfBestEffortLimit OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The limit on the number of Best Effort connections that
can be established on this interface. Note that a change
to this value affects subsequent connection setup, not
existing connections. A value of 4294967295 disables best-effort
limits."DEFVAL{4294967295}::={ rmIfCfgEntry 5}rmIfCbrDefaultRxUpcTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the GCRA limit parameter used for policing
of a receive cell-stream of a CBR connection on an interface,
if the limit parameter is not specified explicitly in the
connection setup request. It is specified
in cell-times. Note that a change to this value affects
subsequent connection setup, not existing connections."DEFVAL{1024}::={ rmIfCfgEntry 6}rmIfVbrRtDefaultRxUpcTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum burst size parameter used for policing
of a receive cell-stream of a VBR-RT connection on an
interface, if this parameter is not specified
explicitly in the connection setup request. It is
specified in cell-times. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{1024}::={ rmIfCfgEntry 7}rmIfVbrNrtDefaultRxUpcTolerance OBJECT-TYPE
SYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum burst size parameter used for policing
of a receive cell-stream of a VBR-NRT connection on an
interface, if this parameter is not specified
explicitly in the connection setup request. It is
specified in cell-times. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{1024}::={ rmIfCfgEntry 8}rmIfAbrDefaultRxUpcTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the GCRA limit parameter used for policing
of a receive cell-stream of an ABR connection on an interface,
if the limit parameter is not specified explicitly in the
connection setup request. It is specified
in cell-times. Note that a change to this value affects
subsequent connection setup, not existing connections."DEFVAL{1024}::={ rmIfCfgEntry 9}rmIfUbrDefaultRxUpcTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the GCRA limit parameter used for policing
of a receive cell-stream of a UBR connection on an interface,
if the limit parameter is not specified explicitly in the
connection setup request. It is specified
in cell-times. Note that a change to this value affects
subsequent connection setup, not existing connections."DEFVAL{1024}::={ rmIfCfgEntry 10}rmIfVbrRtDefaultRxUpcCdvt OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-write
STATUScurrentDESCRIPTION"Specifies the GCRA limit parameter used for peak-rate
policing of a receive cell-stream of a VBR-RT connection
on an interface, if the CDVT parameter is not specified
explicitly in the connection setup request. It is
specified in cell-times. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{1024}::={ rmIfCfgEntry 11}rmIfVbrNrtDefaultRxUpcCdvt OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the GCRA limit parameter used for peak-rate
policing of a receive cell-stream of a VBR-NRT connection
on an interface, if the CDVT parameter is not specified
explicitly in the connection setup request. It is
specified in cell-times. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{1024}::={ rmIfCfgEntry 12}rmIfServCategorySupport OBJECT-TYPESYNTAXINTEGER(0..31)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The value of this object controls and reflects the
Service Category(s) supported on this ATM interface.
If a bit is set, the corresponding Service Category
is supported on the interface, and CAC will allow
such connections. If a bit is reset, the corresponding
Service Category is not supported on the interface,
and CAC will reject such connections.
Write access may not be supported on all interfaces.
Not all Service Categories may be supported on
an interface. For example, mixing of Service
Categories may not be allowed on a VP tunnel
interface.
The various bit positions are:
1 constant bit rate (cbr)
2 variable bit rate-real time (vbr-rt)
4 variable bit rate-non real time (vbr-nrt)
8 available bit rate (abr)
16 unspecified bit rate (ubr)"::={ rmIfCfgEntry 13}
rmIfFramingOverhead OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If this object is set to true, framing overhead will be taken
into account in determining the Maximum Cell Rate that is
possible on this interface. If this object is set to false,
framing overhead will not figure in the determination of the
Maximum Cell Rate that is possible on this interface. If
setting the value of this object to true results in reducing
the Maximum Guaranteed Services Bandwidth of this interface
below the currently allocated bandwidth guarantees on this
interface, the object rmIfFramingOverheadForce must also be
set in order to cause the change to take effect. This object is
not instantiated for interfaces to which it cannot be applied."DEFVAL{ false }::={ rmIfCfgEntry 14}rmIfFramingOverheadForce OBJECT-TYPESYNTAX ForceValue
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"A Set Request for rmIfFramingOverhead that does not reduce
the Maximum Guaranteed Services Bandwidth of this interface
below the currently allocated bandwidth guarantees always
succeeds irrespective of the value of rmIfFramingOverheadForce.
But a Set Request for rmIfFramingOverhead that does reduce the
Maximum Guaranteed Services Bandwidth of this interface below
the currently allocated bandwidth guarantees will succeed only
if rmIfFramingOverheadForce object is also set to the value
forceChange. In either of the above cases, once the
rmIfFramingOverhead object is set to the appropriate value,
rmIfFramingOverheadForce object assumes the noForceChange
value. This object is not instantiated for interfaces to
which it cannot be applied."DEFVAL{ noForceChange }::={ rmIfCfgEntry 15}rmIfOverBooking OBJECT-TYPESYNTAXINTEGER(100..1000)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION
"This object specifies overbooking on this interface as
a percentage of the Maximum Cell Rate that is possible
on this interface. If the value of this object is 100,
overbooking is disabled on this interface. A set request
for this object will succeed only if the value of the
ifAdminStatus object for this interface is 'down'.
This object is not instantiated for interfaces to which
it cannot be applied."DEFVAL{100}::={ rmIfCfgEntry 16}rmIfVbrRtPerClassOverbooking OBJECT-TYPESYNTAXINTEGER(100..3200)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Per Class Overbooking
percentage for VBR-rt service category on this
interface. If the value of this object is 100,
Per Class Overbooking for VBR-rt is disabled on this
interface. Specifying a value that is greater than 100
causes the CAC to scale down the bandwidth allocated to
a VBR-rt VC on this interface by a factor that is equal
to the inverse of the overbooking percentage specified by
this object. A set request for this object will succeed
only if the value of the ifAdminStatus object for this
interface is 'down' and Interface overbooking
(rmIfOverBooking object) is disabled. A set request for
this object will not succeed if it specifies a value
that would cause the current bandwidth guarantees on
this interface to exceed the maximum bandwidth available
for guaranteed services on this interface."DEFVAL{100}::={ rmIfCfgEntry 17}rmIfVbrNrtPerClassOverbooking OBJECT-TYPESYNTAXINTEGER(100..3200)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Per Class Overbooking
percentage for VBR-Nrt service category on this
interface. If the value of this object is 100,
Per Class Overbooking for VBR-Nrt is disabled on this
interface. Specifying a value that is greater than 100
causes the CAC to scale down the bandwidth allocated to
a VBR-Nrt VC on this interface by a factor that is equal
to the inverse of the overbooking percentage specified by
this object. A set request for this object will succeed
only if the value of the ifAdminStatus object for this
interface is 'down' and Interface overbooking
(rmIfOverBooking object) is disabled. A set request for
this object will not succeed if it specifies a value
that would cause the current bandwidth guarantees on
this interface to exceed the maximum bandwidth available
for guaranteed services on this interface."DEFVAL{100}::={ rmIfCfgEntry 18}rmIfAbrPerClassOverbooking OBJECT-TYPESYNTAXINTEGER(100..3200)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Per Class Overbooking
percentage for ABR service category on this
interface. If the value of this object is 100,
Per Class Overbooking for ABR is disabled on this
interface. Specifying a value that is greater than 100
causes the CAC to scale down the bandwidth allocated to
a ABR VC on this interface by a factor that is equal
to the inverse of the overbooking percentage specified by
this object. A set request for this object will succeed
only if the value of the ifAdminStatus object for this
interface is 'down' and Interface overbooking
(rmIfOverBooking object) is disabled. A set request for
this object will not succeed if it specifies a value
that would cause the current bandwidth guarantees on
this interface to exceed the maximum bandwidth available
for guaranteed services on this interface."DEFVAL{100}::={ rmIfCfgEntry 19}rmIfUbrPerClassOverbooking OBJECT-TYPESYNTAXINTEGER(100..3200)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Per Class Overbooking
percentage for UBR service category on this
interface. If the value of this object is 100,
Per Class Overbooking for UBR is disabled on this
interface. Specifying a value that is greater than 100
causes the CAC to scale down the bandwidth allocated to
a UBR VC on this interface by a factor that is equal
to the inverse of the overbooking percentage specified by
this object. A set request for this object will succeed
only if the value of the ifAdminStatus object for this
interface is 'down' and Interface overbooking
(rmIfOverBooking object) is disabled. A set request for
this object will not succeed if it specifies a value
that would cause the current bandwidth guarantees on
this interface to exceed the maximum bandwidth available
for guaranteed services on this interface."DEFVAL{100}::={ rmIfCfgEntry 20}rmIfDirectionCfgTable OBJECT-TYPESYNTAXSEQUENCEOF RmIfDirectionCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
configuration information for a single direction of
traffic flow on ATM interfaces."::={ ciscoAtmRmIfCfg 4}rmIfDirectionCfgEntry OBJECT-TYPESYNTAX RmIfDirectionCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the rmIfInOutCfgTable
containing Resource Management configuration for a
traffic direction on an ATM interface. The particular
interface is identified by the value of MIB-II's ifIndex,
and the direction of flow."INDEX{ ifIndex, rmIfDirection }::={ rmIfDirectionCfgTable 1}
RmIfDirectionCfgEntry ::=SEQUENCE{
rmIfDirection INTEGER,
rmIfDirControlLinkShareMaxAgg INTEGER,
rmIfDirControlLinkShareMinCbr INTEGER,
rmIfDirControlLinkShareMaxCbr INTEGER,
rmIfDirControlLinkShareMinVbr INTEGER,
rmIfDirControlLinkShareMaxVbr INTEGER,
rmIfDirMaxCbrPcr Unsigned32,
rmIfDirMaxCbrTolerance Unsigned32,
rmIfDirMaxVbrPcr Unsigned32,
rmIfDirMaxVbrScr Unsigned32,
rmIfDirMaxVbrTolerance Unsigned32,
rmIfDirMaxAbrPcr Unsigned32,
rmIfDirMaxAbrTolerance Unsigned32,
rmIfDirMaxUbrPcr Unsigned32,
rmIfDirMaxUbrTolerance Unsigned32,
rmIfDirMaxAbrMcr Unsigned32,
rmIfDirMaxUbrMcr Unsigned32,
rmIfDirMaxVbrCdvt Unsigned32,
rmIfDirControlLinkShareMinAbr INTEGER,
rmIfDirControlLinkShareMaxAbr INTEGER,
rmIfDirControlLinkShareMinUbr INTEGER,
rmIfDirControlLinkShareMaxUbr INTEGER}rmIfDirection OBJECT-TYPESYNTAXINTEGER{receive(1),transmit(2)}MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Selects the traffic direction for which subsequent row
parameters are read or written. In is received from
the port(into the device), Out is transmitted to the
port (from the device)."::={ rmIfDirectionCfgEntry 1}rmIfDirControlLinkShareMaxAgg OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies the maximum aggregate Guaranteed Service
(CBR or VBR) traffic that can be allocated in a
traffic direction on an interface. It is expressed
as a percentage of the maximum traffic direction's
bandwidth (applies after output pacing, for example).
This object interacts with MaxVbr (if specified) such
that MaxVbr <= MaxAgg.
This object interacts with MaxCbr (if specified) such
that MaxCbr <= MaxAgg.
This object interacts with MaxAbr (if specified) such
that MaxAbr <= MaxAgg.
This object interacts with MaxUbr (if specified) such
that MaxUbr <= MaxAgg.
Note that a change to this value affects subsequent
connection setup, not existing connections.
If the object is set to -1, the object is considered
to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 2}rmIfDirControlLinkShareMinCbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies a minimum amount of CBR traffic that can
be reserved in a traffic direction on an interface.
It is expressed as a percentage of the maximum traffic
direction's bandwidth (applies after output pacing,
for example).
This object interacts with MinVbr, MinAbr, MinUbr
(if specified) such that
MinVbr + MinCbr + MinAbr + MinUbr <= 95%.
This object interacts with MaxCbr (if specified) such that
MinCbr < MaxCbr.
Note that a change to this value affects subsequent
connection setup, not existing connections. If the object
is set to -1, the object is considered to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 3}rmIfDirControlLinkShareMaxCbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies the maximum CBR traffic that can be allocated
in a traffic direction on an interface. It is expressed
as a percentage of the maximum traffic direction's
bandwidth (applies after output pacing, for example).
This object interacts with MinCbr (if specified) such that
MinCbr <= MaxCbr.
This object interacts with MaxAgg (if specified) such
that MaxCbr <= MaxAgg.
Note that a change to this value affects subsequent
connection setup, not existing connections. This object is
not instantiated for interfaces to which it cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 4}rmIfDirControlLinkShareMinVbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies a minimum amount of VBR traffic that can
be reserved in a traffic direction on an interface.
It is expressed as a percentage of the maximum traffic
direction's bandwidth (applies after output pacing,
for example).
This object interacts with MinCbr, MinAbr, and MinUbr
(if specified), such that
MinVbr + MinCbr + MinAbr + MinUbr <= 95%.
This object interacts with MaxVbr (if specified) such that
MinVbr <= MaxVbr.
Note that a change to this value affects subsequent
connection setup, not existing connections. If the object
is set to -1, the object is considered to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 5}rmIfDirControlLinkShareMaxVbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies the maximum VBR traffic that can be allocated
in a traffic direction on an interface. It is expressed
as a percentage of the maximum traffic direction's
bandwidth (applies after output pacing, for example).
This object interacts with MinVbr (if specified) such that
MinVbr <= MaxVbr.
This object interacts with MaxAgg (if specified) such
that MaxVbr <= MaxAgg.
Note that a change to this value affects subsequent
connection setup, not existing connections.
If the object is set to -1, the object is considered
to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 6}rmIfDirMaxCbrPcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Peak-cell-rate (pcr) traffic
parameter that can be specified for CBR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 7}rmIfDirMaxCbrTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum limit parameter used in the GCRA
algorithm for traffic policing that can be specified
for CBR connections in a traffic direction on an interface.
It is specified in cell-times. A value of 4294967295 disables
checking of this parameter limit. Note that a change to this
value affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 8}rmIfDirMaxVbrPcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Peak-cell-rate (pcr) traffic
parameter that can be specified for VBR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 9}rmIfDirMaxVbrScr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Sustained-cell-rate (scr) traffic
parameter that can be specified for VBR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 10}rmIfDirMaxVbrTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum limit parameter used in the GCRA
algorithm for traffic policing that can be specified
for VBR connections in a traffic direction on an interface.
It is specified in cell-times. A value of 4294967295 disables
checking of this parameter limit. Note that a change to this
value affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 11}rmIfDirMaxAbrPcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Peak-cell-rate (pcr) traffic
parameter that can be specified for ABR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 12}rmIfDirMaxAbrTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum limit parameter used in the GCRA
algorithm for traffic policing that can be specified
for ABR connections in a traffic direction on an interface.
It is specified in cell-times. A value of 4294967295 disables
checking of this parameter limit. Note that a change to this
value affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 13}rmIfDirMaxUbrPcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Peak-cell-rate (pcr) traffic
parameter that can be specified for UBR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 14}rmIfDirMaxUbrTolerance OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum limit parameter used in the GCRA
algorithm for traffic policing that can be specified
for UBR connections in a traffic direction on an interface.
It is specified in cell-times. A value of 4294967295 disables
checking of this parameter limit. Note that a change to this
value affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 15}rmIfDirMaxAbrMcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Minimum-cell-rate (mcr) traffic
parameter that can be specified for ABR connections
in a traffic direction on an interface. It is specified
in cells-per-second. A value of 4294967295 disables checking
of this parameter limit. Note that a change to this value
affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 16}rmIfDirMaxUbrMcr OBJECT-TYPESYNTAXUnsigned32UNITS"cells-per-second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum Minimum-cell-rate (mcr) traffic
parameter that can be specified for UBR plus (UBR with
an mcr guaranteed) connections in a traffic direction on
an interface. It is specified in cells-per-second. A
value of 4294967295 disables checking of this parameter
limit. Note that a change to this value affects subsequent
connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 17}rmIfDirMaxVbrCdvt OBJECT-TYPESYNTAXUnsigned32UNITS"cell-times"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Specifies the maximum peak-rate CDVT parameter used in
the GCRA algorithm for traffic policing that can be specified
for VBR connections in a traffic direction on an interface.
It is specified in cell-times. A value of 4294967295 disables
checking of this parameter limit. Note that a change to this
value affects subsequent connection setup, not existing
connections."DEFVAL{4294967295}::={ rmIfDirectionCfgEntry 18}rmIfDirControlLinkShareMinAbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies a minimum amount of ABR traffic that can
be reserved in a traffic direction on an interface.
It is expressed as a percentage of the maximum traffic
direction's bandwidth (applies after output pacing,
for example).
This object interacts with MinVbr, MinCbr, and MinUbr
(if specified) such that:
MinVbr + MinCbr + MinAbr + MinUbr <= 95%.
This object interacts with MaxAbr (if specified) such that
MinAbr < MaxAbr.
Note that a change to this value affects subsequent
connection setup, not existing connections. If the object
is set to -1, the object is considered to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 19}rmIfDirControlLinkShareMaxAbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies the maximum ABR traffic that can be allocated
in a traffic direction on an interface. It is expressed
as a percentage of the maximum traffic direction's
bandwidth (applies after output pacing, for example).
This object interacts with MinAbr (if specified) such that
MinAbr <= MaxAbr.
This object interacts with MaxAgg (if specified) such
that MaxAbr <= MaxAgg.
Note that a change to this value affects subsequent
connection setup, not existing connections.
If the object is set to -1, the object is considered
to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}
::={ rmIfDirectionCfgEntry 20}rmIfDirControlLinkShareMinUbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies a minimum amount of UBR plus (UBR with
an mcr guaranteed) traffic that can be reserved in a
traffic direction on an interface. It is expressed as
a percentage of the maximum traffic direction's bandwidth
(applies after output pacing, for example).
This object interacts with MinVbr, MinCbr, and
MinAbr (if specified)
such that:
MinVbr + MinCbr + MinAbr + MinUbr <= 95%.
This object interacts with MaxUbr (if specified) such that
MinUbr < MaxUbr.
Note that a change to this value affects subsequent
connection setup, not existing connections. If the object
is set to -1, the object is considered to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 21}rmIfDirControlLinkShareMaxUbr OBJECT-TYPESYNTAXINTEGER(-1..95)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configuration in the Controller Link Sharing (CLS) scheme.
Specifies the maximum UBR plus traffic that can be allocated
in a traffic direction on an interface. It is expressed
as a percentage of the maximum traffic direction's
bandwidth (applies after output pacing, for example).
This object interacts with MinUbr (if specified) such that
MinUbr <= MaxUbr.
This object interacts with MaxAgg (if specified) such
that MaxUbr <= MaxAgg.
Note that a change to this value affects subsequent
connection setup, not existing connections.
If the object is set to -1, the object is considered
to be unspecified.
This object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{-1}::={ rmIfDirectionCfgEntry 22}
--
-- The ATM Interface Resource Management State Group
--rmIfServiceCategoryStateTable OBJECT-TYPESYNTAXSEQUENCEOF RmIfServiceCategoryStateEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
state information for ATM interfaces by Service Category."::={ ciscoAtmRmIfState 1}rmIfServiceCategoryStateEntry OBJECT-TYPESYNTAX RmIfServiceCategoryStateEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
rmIfServiceCategoryStateTable containing Resource
Management configuration for an ATM interface. Rows
are identified by the value of MIB-II's ifIndex, and
the Service Category."INDEX{ ifIndex, rmIfSc }::={ rmIfServiceCategoryStateTable 1}
RmIfServiceCategoryStateEntry ::=SEQUENCE{
rmIfSc INTEGER,
rmIfScRxAcr Gauge32,
rmIfScTxAcr Gauge32,
rmIfScRxAlcr Gauge32,
rmIfScTxAlcr Gauge32,
rmIfScNumSvxConns Gauge32,
rmIfScNumPvxConns Gauge32,
rmIfScTxMaxCtd Gauge32,
rmIfScTxP2PeakCdv Gauge32,
rmIfScTxClr Gauge32,
rmIfScTxClrClp01 Gauge32,
rmIfScRxDynBwSvcAcr Gauge32,
rmIfScTxDynBwSvcAcr Gauge32}rmIfSc OBJECT-TYPESYNTAXINTEGER{cbr(1),--constant-bit-ratevbrRt(2),--variable-bit-rate-real-time
vbrNrt(3),--variable-bit-rate-non-real-timeabr(4),--available-bit-rateubr(5)--unspecified-bit-rate}MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Service Category to which the row applies."::={ rmIfServiceCategoryStateEntry 1}rmIfScRxAcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Available Cell Rate (specified in cells per second) for
traffic received on the interface for this Service Category.
This is the bandwidth available for connections. For
CBR and VBR Service Categories, this value decreases as a
result of connection setup and increases as a result of
connection release. For ABR and UBR Service Categories,
this value changes as a result of connection setup
and teardown only if non-zero mcr is specified.."::={ rmIfServiceCategoryStateEntry 2}rmIfScTxAcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Available Cell Rate (specified in cells per second) for
traffic sent out the interface for this Service Category.
This is the bandwidth available for connections. For
CBR and VBR Service Categories, this value decreases as a
result of connection setup and increases as a result of
connection release. For ABR and UBR Service Categories,
this value changes as a result of connection setup
and teardown only if non-zero mcr is specified."::={ rmIfServiceCategoryStateEntry 3}rmIfScRxAlcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Allocated Cell Rate (specified in cells per second) for
traffic received on the interface for this Service Category.
This is the bandwidth allocated-to connections. For
CBR and VBR Service Categories, this value increases as a
result of connection setup and decreases as a result of
connection release. For ABR and UBR Service Categories,
this value changes as a result of connection setup
and teardown only if non-zero mcr is specified."::={ rmIfServiceCategoryStateEntry 4}rmIfScTxAlcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Allocated Cell Rate (specified in cells per second) for
traffic sent out the interface for this Service Category.
This is the bandwidth allocated-to connections. For
Guaranteed Service Categories, this value increases as a
result of connection setup and decreases as a result of
connection release. For ABR and UBR Service Categories,
this value changes as a result of connection setup
and teardown only if non-zero mcr is specified."::={ rmIfServiceCategoryStateEntry 5}rmIfScNumSvxConns OBJECT-TYPESYNTAXGauge32UNITS"number of connections"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of signalled connections (VC or VP) of this
Service Category currently allocated on the interface."::={ rmIfServiceCategoryStateEntry 6}rmIfScNumPvxConns OBJECT-TYPESYNTAXGauge32UNITS"number of connections"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of permanent connections (VC or VP) of this
Service Category currently allocated on the interface."::={ rmIfServiceCategoryStateEntry 7}rmIfScTxMaxCtd OBJECT-TYPE
SYNTAXGauge32UNITS"microseconds"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The maximum Cell Transfer Delay estimated to be experienced by
cells of connections transmitted out this interface of this
Service Category. This is estimate does not distinguish between
clp0 and clp1 cells. This object is valid for Service Category
cbr and vbr-rt. For other Service Categories, the object is not
defined."::={ rmIfServiceCategoryStateEntry 8}rmIfScTxP2PeakCdv OBJECT-TYPESYNTAXGauge32UNITS"microseconds"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Peak-to-Peak Cell Delay Variation estimated to be experienced
by cells of connections transmitted out this interface of this
Service Category. This estimate does not distinguish between
clp0 and clp1 cells. This object is valid for Service Categories
cbr and vbr-rt. For other Service Categories, the object is not
defined."::={ rmIfServiceCategoryStateEntry 9}rmIfScTxClr OBJECT-TYPESYNTAXGauge32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Cell Loss Ratio estimated to be experienced by cells
of connections transmitted out this interface of this Service
Category. This is an estimate for clp0 cells only. The unit of
this object is negative power of ten (so an object value of 8
means 10**(-8)). This object is valid for Service Categories cbr,
vbr-rt, and vbr-nrt. For other Service Categories, the object is
not defined."::={ rmIfServiceCategoryStateEntry 10}rmIfScTxClrClp01 OBJECT-TYPESYNTAXGauge32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Cell Loss Ratio estimated to be experienced by cells
of connections transmitted out this interface of this Service
Category. This is an estimate for clp0+1 cells. The unit of
this object is negative power of ten (so an object value of 8
means 10**(-8)). This object is valid for Service Categories cbr,
vbr-rt, and vbr-nrt. For other Service Categories, the object is
not defined."::={ rmIfServiceCategoryStateEntry 11}rmIfScRxDynBwSvcAcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Available Cell Rate (specified in cells per second) for traffic
received on the interface for this Service Category. This object
is valid only for IMA physical interfaces. This is the bandwidth
available for SVC connections. For CBR and VBR Service Categories,
this value decreases as a result of connection setup and increases
as a result of connection release. For ABR and UBR Service
Categories, this value changes as a result of connection setup and
teardown only if non-zero mcr is specified"::={ rmIfServiceCategoryStateEntry 12}rmIfScTxDynBwSvcAcr OBJECT-TYPESYNTAXGauge32UNITS"cells-per-second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The Available Cell Rate (specified in cells per second) for traffic
transmitted on the interface for this Service Category. This
object is valid only for IMA physical interfaces. This is the
bandwidth available for SVC connections on physical interfaces.
For CBR and VBR Service Categories, this value decreases as a
result of connection setup and increases as a result of connection
release. For ABR and UBR Service Categories, this value changes as
a result of connection setup and teardown only if non-zero mcr is
specified"::={ rmIfServiceCategoryStateEntry 13}--
-- The ATM Interface Resource Management Statistics Group
--rmIfServiceCategoryStatisticsTable OBJECT-TYPESYNTAXSEQUENCEOF RmIfServiceCategoryStatisticsEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing Resource Management
statistics information for ATM interfaces by Service Category."
::={ ciscoAtmRmIfStatistics 1}rmIfServiceCategoryStatisticsEntry OBJECT-TYPESYNTAX RmIfServiceCategoryStatisticsEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
rmIfServiceCategoryStatisticsTable containing Resource
Management configuration for an ATM interface. Rows
are identified by the value of MIB-II's ifIndex, and
the Service Category."INDEX{ ifIndex, rmIfSc }::={ rmIfServiceCategoryStatisticsTable 1}
RmIfServiceCategoryStatisticsEntry ::=SEQUENCE{
rmIfScRcacResultNumAdmit Counter32,
rmIfScRcacResultNumTotalRequests Counter32,
rmIfScRcacResultNumFailTraffComb Counter32,
rmIfScRcacResultNumFailBw Counter32,
rmIfScRcacResultNumFailLoss Counter32,
rmIfScRcacResultNumFailDelay Counter32,
rmIfScRcacResultNumFailCdv Counter32,
rmIfScRcacResultNumFailBeLimit Counter32,
rmIfScRcacResultNumFailParmLimit Counter32,
rmIfScRcacResultNumFailOther Counter32}rmIfScRcacResultNumAdmit OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of successful resource allocation requests for this
interface."::={ rmIfServiceCategoryStatisticsEntry 1}rmIfScRcacResultNumTotalRequests OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The total number of resource allocation requests for this
interface."::={ rmIfServiceCategoryStatisticsEntry 2}rmIfScRcacResultNumFailTraffComb OBJECT-TYPESYNTAXCounter32
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to an unsupported combination of traffic
parameters. An example of this would be, for a VBR connection,
a zero maximum burst-size given a non-zero sustainable-cell-rate."::={ rmIfServiceCategoryStatisticsEntry 3}rmIfScRcacResultNumFailBw OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to a lack of bandwidth. This will never
occur for Best Effort Service Categories."::={ rmIfServiceCategoryStatisticsEntry 4}rmIfScRcacResultNumFailLoss OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to exceeding cell loss criterion."::={ rmIfServiceCategoryStatisticsEntry 5}rmIfScRcacResultNumFailDelay OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to exceeding maximum delay criterion."::={ rmIfServiceCategoryStatisticsEntry 6}rmIfScRcacResultNumFailCdv OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to exceeding cell delay variation criterion."::={ rmIfServiceCategoryStatisticsEntry 7}rmIfScRcacResultNumFailBeLimit OBJECT-TYPE
SYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to exceeding a limit on the number of
Best-Effort connections."::={ rmIfServiceCategoryStatisticsEntry 8}rmIfScRcacResultNumFailParmLimit OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error due to exceeding a traffic parameter limit
criterion."::={ rmIfServiceCategoryStatisticsEntry 9}rmIfScRcacResultNumFailOther OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of resource allocation requests which are considered
to be in error for a reason not enumerated by other counter
objects."::={ rmIfServiceCategoryStatisticsEntry 10}--
-- The Shared-Memory architecture ATM Interface Resource Management Group
--sharedMemRmIfOutputQCfgTable OBJECT-TYPESYNTAXSEQUENCEOF SharedMemRmIfOutputQCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing configuration information
for ATM physical interface output queues. This table is not
instantiated for interfaces to which it cannot be applied."::={ ciscoAtmRmIfSharedMem 1}sharedMemRmIfOutputQCfgEntry OBJECT-TYPESYNTAX SharedMemRmIfOutputQCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the sharedMemRmIfOutputQCfgTable
containing Resource Management configuration for an ATM
interface. A particular row is identified by the
value of MIB-II's ifIndex, and the output queue."
INDEX{ ifIndex, sharedMemRmIfOutputQ }::={ sharedMemRmIfOutputQCfgTable 1}
SharedMemRmIfOutputQCfgEntry ::=SEQUENCE{
sharedMemRmIfOutputQ INTEGER,
sharedMemRmIfOutputQServCategory INTEGER,
sharedMemRmIfOutputQRequestedMaxSize INTEGER,
sharedMemRmIfOutputQInstalledMaxSize INTEGER,
sharedMemRmIfOutputQMaxSizeForce ForceValue,
sharedMemRmIfOutputQCellCount Gauge32}sharedMemRmIfOutputQ OBJECT-TYPESYNTAXINTEGER{q1(1),-- Priority 1 queue (highest priority)q2(2),-- Priority 2 queue (2nd highest priority)q3(3),-- Priority 3 queue (3rd highest priority)q4(4)-- Priority 4 queue (lowest priority)}MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The output queue on this ATM interface."::={ sharedMemRmIfOutputQCfgEntry 1}sharedMemRmIfOutputQServCategory OBJECT-TYPESYNTAXINTEGER(1..31)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The service category(s) sharing this output queue on
this ATM interface.
The various bit positions are:
1 constant bit rate (cbr)
2 variable bit rate-real time (vbr-rt)
4 variable bit rate-non real time (vbr-nrt)
8 available bit rate (abr)
16 unspecified bit rate (ubr)"::={ sharedMemRmIfOutputQCfgEntry 2}sharedMemRmIfOutputQRequestedMaxSize OBJECT-TYPESYNTAXINTEGER(0..65504)
UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
maximum number of cells that may occupy this queue.
If the value of this object is 0, the maximum size in effect
is a default value calculated by software.
Prior to any user configuration, the value of this object
is 0. The actual maximum size is reflected in the object
sharedMemRmIfOutputQInstalledMaxSize (and is a default value
calculated by software). Setting this value to 0 causes the
size to assume it's default value. When changing a port that
is up, must be set in conjunction with the force object
(sharedMemRmIfOutputQMaxSizeForce) to take effect."DEFVAL{0}::={ sharedMemRmIfOutputQCfgEntry 3}sharedMemRmIfOutputQInstalledMaxSize OBJECT-TYPESYNTAXINTEGER(32..65504)UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The maximum number of cells that may occupy this queue.
Will be a multiple of 32. Explicit configuration of maximum
size are made via the object sharedMemrmIfOutputQRequestedMaxSize.
Such requests are rounded up to the nearest multiple of 32
prior to installation."::={ sharedMemRmIfOutputQCfgEntry 4}sharedMemRmIfOutputQMaxSizeForce OBJECT-TYPESYNTAX ForceValue
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Must be set to forceChange to allow changing of
sharedMemRmIfOutputQRequestedMaxSize for a queue on an
interface that is 'up'. This is because such a change
causes the interface to lose data while the size is
changed. Once the change takes place, the force object
assumes the noForceChange value."DEFVAL{ noForceChange }::={ sharedMemRmIfOutputQCfgEntry 5}
sharedMemRmIfOutputQCellCount OBJECT-TYPESYNTAXGauge32UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Count of the number of cells in the output queue."::={ sharedMemRmIfOutputQCfgEntry 6}sharedMemRmIfThresholdCfgTable OBJECT-TYPESYNTAXSEQUENCEOF SharedMemRmIfThresholdCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing the output queue thresholds
used on ATM physical interface output queues. These are specified
per Service Category. This table is not instantiated for interfaces
to which it cannot be applied."::={ ciscoAtmRmIfSharedMem 2}sharedMemRmIfThresholdCfgEntry OBJECT-TYPESYNTAX SharedMemRmIfThresholdCfgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the sharedMemRmIfThresholdCfgTable
containing Resource Management configuration for an ATM
interface. A particular row is identified by the
value of MIB-II's ifIndex, and the Service Category."INDEX{ ifIndex, rmIfSc}::={ sharedMemRmIfThresholdCfgTable 1}
SharedMemRmIfThresholdCfgEntry ::=SEQUENCE{
sharedMemRmIfDiscardThreshold FineQueueThreshold,
sharedMemRmIfEfciThreshold INTEGER,
sharedMemRmIfAbrRelativeRateThreshold FineQueueThreshold
}sharedMemRmIfDiscardThreshold OBJECT-TYPESYNTAX FineQueueThreshold
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue CLP/EPD threshold for this Service
Category on this ATM interface. This is expressed in
percent-of-full. Note that 100% full effectively turns
off the threshold."DEFVAL{ percent50 }::={ sharedMemRmIfThresholdCfgEntry 1}
sharedMemRmIfEfciThreshold OBJECT-TYPESYNTAXINTEGER{percent12(1),percent25(2),percent50(3),percent100(4)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue EFCI marking threshold for this Service
Category on this ATM interface. This is expressed in
percent-of-full. Note that 100% full effectively turns off
the threshold."DEFVAL{ percent25 }::={ sharedMemRmIfThresholdCfgEntry 2}sharedMemRmIfAbrRelativeRateThreshold OBJECT-TYPESYNTAX FineQueueThreshold
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The ABR Relative-rate marking queue congestion threshold
for the ABR queue on this ATM interface. This is expressed in
percent-of-full. Note that 100% full effectively turns off
the threshold. This object is only defined for the abr
service category."DEFVAL{ percent25 }::={ sharedMemRmIfThresholdCfgEntry 3}--
-- The Lightstream per-VC queueing chipset ATM Switch Resource
-- Management Group
--lsPerVcqRmThreshGrpTable OBJECT-TYPESYNTAXSEQUENCEOF LsPerVcqRmThreshGrpEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing information
for Switch Threshold Groups. When cells are
queued in the switch for a direction of cell
traffic on an ATM connection (VC or VP), several
functions related to queueing are dictated
by the congestion state (fullness) of the Threshold
Group. Each connection queue is a member of
a Threshold Group.
These functions include:
- The limit on the number of cells that can
be queued. Cells exceeding this limit are
discarded.
- The discard threshold, used for CLP/EPD
discard when the fullness of the queue exceeds
the threshold.
- The marking threshold, used for EFCI
and ABR-RR marking.
Each Threshold Group has a maximum number of cells
that can be resident in it at any one time. The
number of cells in a Group consists of the number
of cells in all the queues that are a member of
the Group. As the number of cells in a Group
approaches the maximum number for the Group,
the queue limits may be decreased. This limits
the share of buffering available to each
connection as cell-memory is used."::={ ciscoLsPerVcqAtmRmSwitch 1}lsPerVcqRmThreshGrpEntry OBJECT-TYPESYNTAX LsPerVcqRmThreshGrpEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the lsPerVcqRmThreshGrpTable
containing Resource Management configuration for a
Threshold Group. All entries ever in the table are
present at startup, none are created dynamically."INDEX{ lsPerVcqRmThreshGrp }::={ lsPerVcqRmThreshGrpTable 1}
LsPerVcqRmThreshGrpEntry ::=SEQUENCE{
lsPerVcqRmThreshGrp LsPerVcqThresholdGroup,
lsPerVcqRmThreshGrpMaxSize INTEGER,
lsPerVcqRmThreshGrpQMaxSize INTEGER,
lsPerVcqRmThreshGrpQMinSize INTEGER,
lsPerVcqRmThreshGrpDiscThreshold INTEGER,
lsPerVcqRmThreshGrpMarkThreshold INTEGER,
lsPerVcqRmThreshGrpName DisplayString,
lsPerVcqRmThreshGrpCellCount Gauge32}lsPerVcqRmThreshGrp OBJECT-TYPESYNTAX LsPerVcqThresholdGroup
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Threshold Group specified by this entry."::={ lsPerVcqRmThreshGrpEntry 1}lsPerVcqRmThreshGrpMaxSize OBJECT-TYPESYNTAXINTEGER(-1..65535)
UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the maximum number of cells that may
occupy this Threshold Group. While any integer in the range
can be set, the hardware granularity is in 64-cell units.
Therefore, the value installed is [(value / 64) * 64] + 63.
If the value of this object is set to -1, the default
value for the threshold-group is restored."DEFVAL{65535}::={ lsPerVcqRmThreshGrpEntry 2}lsPerVcqRmThreshGrpQMaxSize OBJECT-TYPESYNTAXINTEGER(31..16383)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
maximum limit on the number of cells that may occupy
connection queues that are a member of this Threshold
Group. A connection queue that is a member of this
Threshold Group will never have more cells resident
in it than this limit. This is the queue limit applied
when the Threshold Group is uncongested. The QMaxSize
must be greater than or equal to the Threshold Group
QMinSize. QMaxSize should be less than MaxSize for the
Threshold Group.
While any integer in the range can be set, the hardware
granularity is in 16-cell units. Therefore, the
largest possible queue size installed is:
[(value / 16) * 16]+15"::={ lsPerVcqRmThreshGrpEntry 3}lsPerVcqRmThreshGrpQMinSize OBJECT-TYPESYNTAXINTEGER(1..1023)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
minimum limit on the number of cells that may occupy
connection queues that are a member of this Threshold
Group. The Threshold Group at it's most congested will
not limit a connection queue to fewer than this number
of cells. The QMinSize must be less than or equal to
the Threshold Group QMaxSize. The hardware granularity
is in units of one cell."::={ lsPerVcqRmThreshGrpEntry 4}lsPerVcqRmThreshGrpDiscThreshold OBJECT-TYPESYNTAXINTEGER(-1..100)UNITS"percentage"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue CLP/EPD threshold for this Threshold
Group. This is expressed in percent-of-full. Note that
100% full effectively turns off the threshold. Setting
this object to -1 restores the default value for the
Threshold Group. The granularity of the fill-level of
a queue installed in hardware is the same as that for
queue limits."::={ lsPerVcqRmThreshGrpEntry 5}lsPerVcqRmThreshGrpMarkThreshold OBJECT-TYPESYNTAXINTEGER(-1..100)UNITS"percentage"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue EFCI/ABR-RR marking threshold for
this Threshold Group. This is expressed in
percent-of-full. Note that 100% full effectively turns
off the threshold. Setting this object to -1 restores
the default value for the Threshold Group. The
granularity of the fill-level of a queue installed in
hardware is the same as that for queue limits."::={ lsPerVcqRmThreshGrpEntry 6}lsPerVcqRmThreshGrpName OBJECT-TYPESYNTAXDisplayString(SIZE(0..20))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The name associated with the threshold-group. If
this is set to the null-string, the default
name for the Threshold Group is assigned."::={ lsPerVcqRmThreshGrpEntry 7}
lsPerVcqRmThreshGrpCellCount OBJECT-TYPESYNTAXGauge32UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Count of the number of cells in the Threshold
Group."::={ lsPerVcqRmThreshGrpEntry 8}lsPerVcqRmThreshGrpServiceTable OBJECT-TYPESYNTAXSEQUENCEOF LsPerVcqRmThreshGrpServiceEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table specifying which
VC or VP queues are assigned to a Threshold
Group."::={ ciscoLsPerVcqAtmRmSwitch 2}lsPerVcqRmThreshGrpServiceEntry OBJECT-TYPESYNTAX LsPerVcqRmThreshGrpServiceEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
lsPerVcqRmThreshGrpServiceTable. All entries
ever in the table are present at startup, none
are created dynamically."INDEX{ lsPerVcqRmThreshGrpService }::={ lsPerVcqRmThreshGrpServiceTable 1}
LsPerVcqRmThreshGrpServiceEntry ::=SEQUENCE{
lsPerVcqRmThreshGrpService LsPerVcqThresholdGroupService,
lsPerVcqRmThreshGrpServGroup LsPerVcqThresholdGroup
}lsPerVcqRmThreshGrpService OBJECT-TYPESYNTAX LsPerVcqThresholdGroupService
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Service specified by this entry."::={ lsPerVcqRmThreshGrpServiceEntry 1}lsPerVcqRmThreshGrpServGroup OBJECT-TYPESYNTAX LsPerVcqThresholdGroup
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The Threshold Group to which VC/VP queues specified
by the service are assigned. Changing the assignment
of service to Threshold Group does not alter the
assignment for connections currently installed in
hardware, but those connections that are subsequently
installed."::={ lsPerVcqRmThreshGrpServiceEntry 2}lsPerVcqRmHierarchicalSchedulingMode OBJECT-TYPESYNTAXINTEGER{ enabled(1), disabled(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"On a LS1010 equipped with the Lightstream per-VC
queueing chipset, the
user can define Hierarchical VP-Tunnels. Each such
tunnel has its own dedicated scheduler, programmed
to output data at a configurable maximum rate.
Therefore, the overall output of the Hierarchical
VP-tunnel is rate-limited. In addition, Virtual
Circuits of different service categories can
traverse through such a tunnel, and each of these
Virtual Circuits are guaranteed their individual
contracted bandwidth agreement.
This object must be set to enabled before any
Hierarchical VP-tunnels can be defined on the device.
Any setting of this variable requires a reload
of the device to be effective.
Setting this object to enabled will cause the
software to initialize the additional schedulers
needed by the Hierarchical VP-Tunnels. Other
limited scheduler resources are therefore used by a
larger number of schedulers (as compared to the case
when Hierarchical Scheduling is disabled on the device).
This may result in fewer number of connections
passing Connection Admission Control.
This object is therefore provided so that the
user can make an informed decision as to whether
Hierarchical Scheduling is to be used.
This object is defined on a LS1010 only when
the switch is equipped with the Lightstream
per-VC queueing chipset."DEFVAL{ disabled }
::={ ciscoLsPerVcqAtmRmSwitch 3}--
-- The Catalyst8540MSR per-VC queueing chipset ATM Switch Resource
-- Management Group
--cgrPerVcqRmThreshGrpTable OBJECT-TYPESYNTAXSEQUENCEOF CgrPerVcqRmThreshGrpEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing information
for Switch Threshold Groups. When cells are
queued in the switch for a direction of cell
traffic on an ATM connection (VC or VP), several
functions related to queueing are dictated
by the congestion state (fullness) of the Threshold
Group. Each connection queue is a member of
a Threshold Group.
These functions include:
- The limit on the number of cells that can
be queued. Cells exceeding this limit are
discarded.
- The discard threshold, used for CLP/EPD
discard when the fullness of the queue exceeds
the threshold.
- The marking threshold, used for EFCI marking.
Each Threshold Group has a maximum number of cells
that can be resident in it at any one time. The
number of cells in a Group consists of the number
of cells in all the queues that are a member of
the Group. As the number of cells in a Group
approaches the maximum number for the Group,
the queue limits may be decreased. This limits
the share of buffering available to each
connection as cell-memory is used.
On the Catalyst8540MSR platform, there are a
maximum of 8 switching modules. Each switching
module services a certain group of ports (this
mapping is fixed in hardware). Each module also
has its own cell memory (for per VC queueing),
and hence performs its own congestion control,
independent of any other switching module.
Each switching module has its own set of
Switch Threshold Groups, which are
independently programmable and readable.
This table is supported only on the Catalyst8540MSR
platform."::={ ciscoCgrPerVcqAtmRmSwitch 1}cgrPerVcqRmThreshGrpEntry OBJECT-TYPESYNTAX CgrPerVcqRmThreshGrpEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the cgrPerVcqRmThreshGrpTable
containing Resource Management configuration for a
Threshold Group. All entries ever in the table are
present at startup, none are created dynamically."INDEX{ cgrPerVcqModuleId, cgrPerVcqRmThreshGrp }::={ cgrPerVcqRmThreshGrpTable 1}
CgrPerVcqRmThreshGrpEntry ::=SEQUENCE{
cgrPerVcqModuleId CgrPerVcqModuleId,
cgrPerVcqRmThreshGrp LsPerVcqThresholdGroup,
cgrPerVcqRmThreshGrpMaxSize INTEGER,
cgrPerVcqRmThreshGrpQMaxSize INTEGER,
cgrPerVcqRmThreshGrpQMinSize INTEGER,
cgrPerVcqRmThreshGrpDiscThreshold INTEGER,
cgrPerVcqRmThreshGrpMarkThreshold INTEGER,
cgrPerVcqRmThreshGrpName DisplayString,
cgrPerVcqRmThreshGrpCellCount Gauge32}cgrPerVcqModuleId OBJECT-TYPESYNTAX CgrPerVcqModuleId
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The switching module specified by this entry."::={ cgrPerVcqRmThreshGrpEntry 1}cgrPerVcqRmThreshGrp OBJECT-TYPESYNTAX LsPerVcqThresholdGroup
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Threshold Group specified by this entry."::={ cgrPerVcqRmThreshGrpEntry 2}cgrPerVcqRmThreshGrpMaxSize OBJECT-TYPESYNTAXINTEGER(-1..131071)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the maximum number of cells that may
occupy this Threshold Group. While any integer in the range
can be set, the hardware granularity is in 64-cell units.
Therefore, the value installed is [(value / 64) * 64] + 63.
Even though the maximum value for this object is 131071,
the cell memory actually present in hardware can be
less.
The agent will allow values for this object not exceeding
the actual cell memory present in hardware.
If the value of this object is set to -1, the default
value for the threshold-group is restored."DEFVAL{131071}::={ cgrPerVcqRmThreshGrpEntry 3}cgrPerVcqRmThreshGrpQMaxSize OBJECT-TYPESYNTAXINTEGER(31..16383)UNITS"cells"MAX-ACCESSread-write
STATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
maximum limit on the number of cells that may occupy
connection queues that are a member of this Threshold
Group. A connection queue that is a member of this
Threshold Group will never have more cells resident
in it than this limit. This is the queue limit applied
when the Threshold Group is uncongested. The QMaxSize
must be greater than or equal to the Threshold Group
QMinSize. QMaxSize should be less than MaxSize for the
Threshold Group.
While any integer in the range can be set, the hardware
granularity is in 16-cell units. Therefore, the
largest possible queue size installed is:
[(value / 16) * 16]+15"::={ cgrPerVcqRmThreshGrpEntry 4}cgrPerVcqRmThreshGrpQMinSize OBJECT-TYPESYNTAXINTEGER(1..1023)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects an explicit configuration of the
minimum limit on the number of cells that may occupy
connection queues that are a member of this Threshold
Group. The Threshold Group at it's most congested will
not limit a connection queue to fewer than this number
of cells. The QMinSize must be less than or equal to
the Threshold Group QMaxSize. The hardware granularity
is in units of one cell."::={ cgrPerVcqRmThreshGrpEntry 5}cgrPerVcqRmThreshGrpDiscThreshold OBJECT-TYPESYNTAXINTEGER(-1..100)UNITS"percentage"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue CLP/EPD threshold for this Threshold
Group. This is expressed in percent-of-full. Note that
100% full effectively turns off the threshold. Setting
this object to -1 restores the default value for the
Threshold Group. The granularity of the fill-level of
a queue installed in hardware is the same as that for
queue limits."::={ cgrPerVcqRmThreshGrpEntry 6}
cgrPerVcqRmThreshGrpMarkThreshold OBJECT-TYPESYNTAXINTEGER(-1..100)UNITS"percentage"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The output queue EFCI/ABR-RR marking threshold for
this Threshold Group. This is expressed in
percent-of-full. Note that 100% full effectively turns
off the threshold. Setting this object to -1 restores
the default value for the Threshold Group. The
granularity of the fill-level of a queue installed in
hardware is the same as that for queue limits."::={ cgrPerVcqRmThreshGrpEntry 7}cgrPerVcqRmThreshGrpName OBJECT-TYPESYNTAXDisplayString(SIZE(0..20))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The name associated with the threshold-group. If
this is set to the null-string, the default
name for the Threshold Group is assigned."::={ cgrPerVcqRmThreshGrpEntry 8}cgrPerVcqRmThreshGrpCellCount OBJECT-TYPESYNTAXGauge32UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Count of the number of cells in the Threshold
Group."::={ cgrPerVcqRmThreshGrpEntry 9}cgrPerVcqRmThreshGrpServiceTable OBJECT-TYPESYNTAXSEQUENCEOF CgrPerVcqRmThreshGrpServiceEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table specifying which
VC or VP queues are assigned to a Threshold
Group.
This table is supported only on the Catalyst8540MSR
Platform."::={ ciscoCgrPerVcqAtmRmSwitch 2}
cgrPerVcqRmThreshGrpServiceEntry OBJECT-TYPESYNTAX CgrPerVcqRmThreshGrpServiceEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the
cgrPerVcqRmThreshGrpServiceTable. All entries
ever in the table are present at startup, none
are created dynamically."INDEX{ cgrPerVcqRmThreshGrpService }::={ cgrPerVcqRmThreshGrpServiceTable 1}
CgrPerVcqRmThreshGrpServiceEntry ::=SEQUENCE{
cgrPerVcqRmThreshGrpService LsPerVcqThresholdGroupService,
cgrPerVcqRmThreshGrpServGroup LsPerVcqThresholdGroup
}cgrPerVcqRmThreshGrpService OBJECT-TYPESYNTAX LsPerVcqThresholdGroupService
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The Service specified by this entry."::={ cgrPerVcqRmThreshGrpServiceEntry 1}cgrPerVcqRmThreshGrpServGroup OBJECT-TYPESYNTAX LsPerVcqThresholdGroup
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The Threshold Group to which VC/VP queues specified
by the service are assigned. Changing the assignment
of service to Threshold Group does not alter the
assignment for connections currently installed in
hardware, but those connections that are subsequently
installed."::={ cgrPerVcqRmThreshGrpServiceEntry 2}cgrPerVcqRmHierarchicalSchedulingMode OBJECT-TYPESYNTAXINTEGER{ enabled(1), disabled(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"On a Catalyst8540 MSR, the user can define Hierarchical
VP-Tunnels. Each such tunnel has its own dedicated
scheduler, programmed to output data at a configurable
maximum rate.
Therefore, the overall output of the Hierarchical
VP-tunnel is rate-limited. In addition, Virtual
Circuits of different service categories can
traverse through such a tunnel, and each of these
Virtual Circuits are guaranteed their individual
contracted bandwidth agreement.
This object must be set to enabled before any
Hierarchical VP-tunnels can be defined on the device.
Any setting of this variable requires a reload
of the device to be effective.
Setting this object to enabled will cause the
software to initialize the additional schedulers
needed by the Hierarchical VP-Tunnels. Other
limited scheduler resources are therefore used by a
larger number of schedulers (as compared to the case
when Hierarchical Scheduling is disabled on the device).
This may result in fewer number of connections
passing Connection Admission Control.
This object is therefore provided so that the
user can make an informed decision as to whether
Hierarchical Scheduling is to be used.
This object is supported only on the Catalyst8540MSR
platform."DEFVAL{ disabled }::={ ciscoCgrPerVcqAtmRmSwitch 3}--
-- The Lightstream per-VC queueing switch chipset ATM Interface Resource
-- Management Group
--lsPerVcqRmIfTable OBJECT-TYPESYNTAXSEQUENCEOF LsPerVcqRmIfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing configuration information
for ATM physical interfaces."::={ ciscoLsPerVcqAtmRmIf 1}lsPerVcqRmIfEntry OBJECT-TYPESYNTAX LsPerVcqRmIfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the lsPerVcqRmIfTable
containing Resource Management configuration for an ATM
interface. An entry in the table is present when an
entry in the ifTable is created for an ATM interface
that uses the Lighstream per-VC queueing chipset."INDEX{ ifIndex }::={ lsPerVcqRmIfTable 1}
LsPerVcqRmIfEntry ::=SEQUENCE{
lsPerVcqRmIfMinWrrServiceClass LsPerVcqServiceClass
}lsPerVcqRmIfMinWrrServiceClass OBJECT-TYPESYNTAX LsPerVcqServiceClass
UNITS"service class"
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The service classes on an interface are partitioned
into two subsets, dictating how a service class
with a cell ready to transmit is chosen (subsequently
a connection is chosen within the selected service
class). There are two subsets: Strict Priority (SP),
and Weighted Round Robin (WRR). The SP subset
service classes are selected by strict priority (highest
priority with available cell wins). If there are any SP
service classes, they take precedence over any WRR
classes.
A WRR subset service class is chosen from among the
WRR service classes with an available cell using a
WRR algorithm.
The SP service classes (if any) include a contiguous
range of classes, starting with c2 (c1 is dedicated to
CBR, which doesn't use SP/WRR). The WRR service
classes (if any) include a contiguous range of classes,
ending with c5.
This object specifies the break-point between SP and WRR
service classes. Note that (assuming all service classes
are used) specifying c2 indicates all service classes are
WRR, and specifying c5 indicates all service classes
are SP."::={ lsPerVcqRmIfEntry 1}lsPerVcqRmIfServiceClassTable OBJECT-TYPESYNTAXSEQUENCEOF LsPerVcqRmIfServiceClassEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing configuration information
for ATM physical interface Service Classes (not
logical port ATM interfaces). An ATM connection (VC or VP)
on an interface is a member of a Service Class. The
Service Class is used in the scheduling discipline that
determines which cell is next transmitted on the
interface. If the rate scheduler has no cell
to be sent in the guaranteed cell-flow on an interface,
a decision is made between all Service Classes with
VCs with cells ready for transmit."::={ ciscoLsPerVcqAtmRmIf 2}lsPerVcqRmIfServiceClassEntry OBJECT-TYPESYNTAX LsPerVcqRmIfServiceClassEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the lsPerVcqRmIfServiceClassTable
containing Resource Management configuration for an ATM
interface. A particular row is identified by the
value of MIB-II's ifIndex, and the output queue.
An entry in the table is present when an entry in
the ifTable is created for an ATM interface that
uses the Lighstream per-VC queueing chipset."INDEX{ ifIndex, lsPerVcqRmIfServiceClass }::={ lsPerVcqRmIfServiceClassTable 1}
LsPerVcqRmIfServiceClassEntry ::=SEQUENCE{
lsPerVcqRmIfServiceClass LsPerVcqServiceClass,
lsPerVcqRmIfServClassConnType INTEGER,
lsPerVcqRmIfServClassWrrWeight INTEGER}lsPerVcqRmIfServiceClass OBJECT-TYPESYNTAX LsPerVcqServiceClass
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The service class on this ATM interface."::={ lsPerVcqRmIfServiceClassEntry 1}lsPerVcqRmIfServClassConnType OBJECT-TYPESYNTAXINTEGER(1..31)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The types of connections using this service class on
this ATM interface.
The various bit positions are:
1 constant bit rate (cbr)
2 variable bit rate-real time (vbr-rt)
4 variable bit rate-non real time (vbr-nrt)
8 available bit rate (abr)
16 unspecified bit rate (ubr)"::={ lsPerVcqRmIfServiceClassEntry 2}lsPerVcqRmIfServClassWrrWeight OBJECT-TYPESYNTAXINTEGER(1..15)UNITS"weight"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Configure the weighting specified for a service class
to make the scheduling decision among active service
classes in the WRR subset."::={ lsPerVcqRmIfServiceClassEntry 3}--
-- The ATM Resource Management Traffic Shaper Interface Objects
--rmTrafficShaperIfTable OBJECT-TYPESYNTAXSEQUENCEOF RmTrafficShaperIfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The (conceptual) table containing ATM Traffic
Shaper configuration and state information for
ATM interfaces."::={ ciscoAtmRmTrafShaperIf 1}rmTrafficShaperIfEntry OBJECT-TYPESYNTAX RmTrafficShaperIfEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry (conceptual row) in the rmTrafficShaperIfTable
containing Traffic Shaper configuration and state
information for an ATM interface. The particular
interface is identified by the value of MIB-II's
ifIndex."INDEX{ ifIndex }::={ rmTrafficShaperIfTable 1}
RmTrafficShaperIfEntry ::=SEQUENCE{
rtsIfMaxThreshold Unsigned32,
rtsIfCellCount Gauge32,
rtsIfVbrCfgRequested INTEGER,
rtsIfVbrCfgInstalled INTEGER,
rtsIfBeCfgRequested INTEGER,
rtsIfBeCfgInstalled INTEGER,
rtsIfVbrClassMaxThrshRequested INTEGER,
rtsIfVbrClassMaxThrshInstalled Unsigned32,
rtsIfBeClassMaxThrshRequested INTEGER,
rtsIfBeClassMaxThrshInstalled Unsigned32,
rtsIfVbrVcMaxThrshRequested Unsigned32,
rtsIfVbrVcMaxThrshInstalled Unsigned32,
rtsIfBeVcMaxThrshRequested Unsigned32,
rtsIfBeVcMaxThrshInstalled Unsigned32}rtsIfMaxThreshold OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-only
STATUScurrentDESCRIPTION"This object reflects the value of the Maximum
Threshold installed in the traffic shaper hardware
for this interface. This object is expressed in
number of cell buffers. This object is not
instantiated for interfaces to which it cannot
be applied."::={ rmTrafficShaperIfEntry 1}rtsIfCellCount OBJECT-TYPESYNTAXGauge32UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object contains the count of cells queued to
this interface in the traffic shaping hardware.
This object is not instantiated for interfaces to
which it cannot be applied."::={ rmTrafficShaperIfEntry 2}rtsIfVbrCfgRequested OBJECT-TYPESYNTAXINTEGER{shapingDisable(1),-- Shaping disabledshapeToPcr(2),-- Shape to PCR only.shapeToScrAndPcr(3)-- Shape to PCR, SCR and MBS}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If this object is set to the value 'shapingDisable',
VBR connections(VC or VP) on this interface will not
be shaped. If the object is set to the value
'shapeToScrAndPcr', the VBR (VC or VP) connections on
this interface will be shaped to conform to their
respective SCR, PCR and MBS traffic parameters. If
this object is set to the value 'shapeToPcr', the VBR
(VC or VP) connections on this interface will be shaped
to conform to their respective PCR traffic parameter.
Depending on the capabilities of the traffic shaping
hardware, the changes to the traffic shaping
configuration may or may not take effect immediately
and may require that the traffic shaping hardware be
reset to effect the change. The value of the object
rtsIfVbrCfgInstalled will reflect the actual VBR
Traffic Shaping configuration installed in the
hardware currently. Depending on the capabilities of
the traffic shaping hardware, the value of this object
may or may not apply to terminating VBR VPs on this
interface. This object is not instantiated for
interfaces to which it cannot be applied."DEFVAL{ shapingDisable }::={ rmTrafficShaperIfEntry 3}rtsIfVbrCfgInstalled OBJECT-TYPESYNTAXINTEGER{shapingDisable(1),-- Shaping disabledshapeToPcr(2),-- Shape to PCR only.shapeToScrAndPcr(3)-- Shape to PCR, SCR and MBS}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the current VBR Traffic Shaping
configuration installed in the hardware. This object
is not instantiated for interfaces to which it cannot
be applied."::={ rmTrafficShaperIfEntry 4}rtsIfBeCfgRequested OBJECT-TYPESYNTAXINTEGER{shapingDisable(1),-- Shaping disabledshapeToPcr(2)-- Shape to PCR only.}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects the traffic shaping configuration
applied to Best-Effort Connections(VC or VP) belonging
to UBR and ABR service categories on this interface.
If this object is set to the value 'shapingDisable',
best-effort connections(VC or VP) on this interface
will not be shaped. If this object is set to the value
'shapeToPcr', the best-effort connections(VC or VP) on
this interface will be shaped to conform to their
respective PCR traffic parameter. Depending on the
capabilities of the traffic shaping hardware, the
changes to the traffic shaping configuration may or
may not take effect immediately and may require that
the traffic shaping hardware be reset to effect the
change. The object rtsIfBeCfgInstalled will reflect
the actual best-effort Traffic Shaping configuration
installed in the hardware currently. Depending on the
capabilities of the traffic shaping hardware, the value
of this object may or may not apply to terminating
best-effort VPs on this interface. This object is
not instantiated for interfaces to which it cannot
be applied."DEFVAL{ shapingDisable }::={ rmTrafficShaperIfEntry 5}rtsIfBeCfgInstalled OBJECT-TYPESYNTAXINTEGER{shapingDisable(1),-- Shaping disabledshapeToPcr(2)-- Shape to PCR only.}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the current Best-Effort Traffic
Shaping configuration installed in the hardware.
This object is not instantiated for interfaces to
which it cannot be applied."::={ rmTrafficShaperIfEntry 6}rtsIfVbrClassMaxThrshRequested OBJECT-TYPESYNTAXINTEGER(1..95)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Traffic Shaper Maximum
Cell Buffer Threshold for the VBR Traffic Class.
The value of this object is expressed as a percent
of the value of rtsIfMaxThreshold object. A set
request for this object will succeed only if the
value of the ifAdminStatus object for this
interface is 'down'. The Traffic Shaping hardware
may not have the support to represent all the
values and hence the value installed in hardware
could be different. And the value installed in
hardware will be available through the object
rtsIfVbrClassMaxThrshInstalled. This object is
not instantiated for interfaces to which
it cannot be applied."::={ rmTrafficShaperIfEntry 7}rtsIfVbrClassMaxThrshInstalled OBJECT-TYPE
SYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the value of Maximum Class
Threshold for VBR Traffic Class, in number of
cell buffers, that is installed in the Traffic
Shaping hardware. This object is not instantiated
for interfaces to which it cannot be applied."::={ rmTrafficShaperIfEntry 8}rtsIfBeClassMaxThrshRequested OBJECT-TYPESYNTAXINTEGER(1..95)UNITS"percent"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Traffic Shaper Maximum Cell
Buffer Threshold for the Best-Effort Traffic Class.
The value of this object is expressed as a percent of
the value of rtsIfMaxThreshold object. A set request
for this object will succeed only if the value of the
ifAdminStatus object for this interface is 'down'.
The Traffic Shaping hardware may not have the support
to represent all the values and hence the value
installed in hardware could be different. And this
installed value will be available through the object
rtsIfBeClassMaxThrshInstalled. This object is not
instantiated for interfaces to which it cannot
be applied."::={ rmTrafficShaperIfEntry 9}rtsIfBeClassMaxThrshInstalled OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the value of Maximum Class
Threshold for Best-Effort Traffic Class, in number
of cell buffers, that is installed in the Traffic
Shaping hardware. This object is not instantiated
for interfaces to which it cannot be applied."::={ rmTrafficShaperIfEntry 10}
rtsIfVbrVcMaxThrshRequested OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects the Maximum Threshold of the
per-connection queues of VBR connections(VCs or VPs) in
the traffic shaping hardware. The value of this object
is expressed in number of cell buffers. Any change made
to the value of this object will only effect subsequently
established VBR connections and will not impact already
existing VBR connections. The Traffic Shaping hardware
may not have the support to represent all the values and
hence the value installed in hardware could be different.
And the value installed in hardware will be available
through the object rtsIfVbrVcMaxThrshInstalled. This
object is not instantiated for interfaces to which it
cannot be applied."DEFVAL{512}::={ rmTrafficShaperIfEntry 11}rtsIfVbrVcMaxThrshInstalled OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the Maximum Threshold for the
per-connection queues of VBR connections(VCs or VPs)
that is installed in the Traffic Shaping hardware.
The value of this object is expressed in number of
cell buffers. This object is not instantiated for
interfaces to which it cannot be applied."::={ rmTrafficShaperIfEntry 12}rtsIfBeVcMaxThrshRequested OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object reflects the Maximum Threshold of the
per-connection queues of best-effort connections(VCs
or VPs) in the traffic shaping hardware. The value
of this object is expressed in number of cell
buffers. Any change made to the value of this
object will only effect subsequently established
best-effort connections and will not impact already
existing best-effort connections. The Traffic Shaping
hardware may not have the support to represent all
the values and hence the value installed in hardware
could be different. And the value installed in
hardware will be available through the object
rtsIfBeVcMaxThrshInstalled. This object is not
instantiated for interfaces to which it cannot
be applied."DEFVAL{1024}::={ rmTrafficShaperIfEntry 13}rtsIfBeVcMaxThrshInstalled OBJECT-TYPESYNTAXUnsigned32(0..4294967295)UNITS"cells"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object reflects the Maximum Threshold for the
per-connection queues of Best-Effort connections(VCs
or VPs) that is installed in the Traffic Shaping
hardware. The value of this object is expressed
in number of cell buffers. This object is not
instantiated for interfaces to which it cannot
be applied."::={ rmTrafficShaperIfEntry 14}-- conformance informationciscoAtmRmMIBConformance
OBJECTIDENTIFIER::={ ciscoAtmRmMIB 3}ciscoAtmRmMIBCompliances
OBJECTIDENTIFIER::={ ciscoAtmRmMIBConformance 1}ciscoAtmRmMIBGroups
OBJECTIDENTIFIER::={ ciscoAtmRmMIBConformance 2}-- compliance statementsciscoAtmRmMIBCompliance MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance2DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this module
MANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup, atmRmPhyIfCfgMIBGroup,
atmRmAllIfCfgMIBGroup, atmRmIfAllStateMIBGroup,
atmRmIfStatsMIBGroup }::={ ciscoAtmRmMIBCompliances 1}ciscoAtmRmMIBCompliance2 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance3DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup2,
atmRmAllIfCfgMIBGroup, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup }::={ ciscoAtmRmMIBCompliances 2}ciscoAtmRmMIBCompliance3 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance4DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup3,
atmRmAllIfCfgMIBGroup2, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup }::={ ciscoAtmRmMIBCompliances 3}ciscoAtmRmMIBCompliance4 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance5DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup3,
atmRmAllIfCfgMIBGroup3, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup }::={ ciscoAtmRmMIBCompliances 4}ciscoAtmRmMIBCompliance5 MODULE-COMPLIANCESTATUSobsolete
DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup3,
atmRmAllIfCfgMIBGroup3, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2 }::={ ciscoAtmRmMIBCompliances 5}ciscoAtmRmMIBCompliance6 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance7DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup3,
atmRmAllIfCfgMIBGroup3, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup }::={ ciscoAtmRmMIBCompliances 6}ciscoAtmRmMIBCompliance7 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance8DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup4,
atmRmAllIfCfgMIBGroup4, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup }::={ ciscoAtmRmMIBCompliances 7}ciscoAtmRmMIBCompliance8 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance9DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup4, atmRmIfAllStateMIBGroup2,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup }::={ ciscoAtmRmMIBCompliances 8}ciscoAtmRmMIBCompliance9 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance10DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup4, atmRmIfAllStateMIBGroup3,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup }::={ ciscoAtmRmMIBCompliances 9}ciscoAtmRmMIBCompliance10 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance11DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup5, atmRmIfAllStateMIBGroup3,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup }::={ ciscoAtmRmMIBCompliances 10}ciscoAtmRmMIBCompliance11 MODULE-COMPLIANCESTATUSobsolete-- superceded by ciscoAtmRmMIBCompliance12DESCRIPTION"The compliance statement for the Cisco ATM Resource Management
MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup5, atmRmIfAllStateMIBGroup3,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup2 }
::={ ciscoAtmRmMIBCompliances 11}ciscoAtmRmMIBCompliance12 MODULE-COMPLIANCESTATUSdeprecated-- superceded by ciscoAtmRmMIBCompliance13DESCRIPTION"The compliance statement for the Cisco ATM Resource
Management MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup5, atmRmIfAllStateMIBGroup3,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup2, atmRmTrafficShaperIfGroup }::={ ciscoAtmRmMIBCompliances 12}ciscoAtmRmMIBCompliance13 MODULE-COMPLIANCESTATUScurrentDESCRIPTION"The compliance statement for the Cisco ATM Resource
Management MIB."MODULE-- this moduleMANDATORY-GROUPS{ atmRmSwitchCfgMIBGroup2, atmRmPhyIfCfgMIBGroup5,
atmRmAllIfCfgMIBGroup6, atmRmIfAllStateMIBGroup3,
atmRmIfStatsMIBGroup, lsPerVcqAtmRmGroup2,
cgrPerVcqAtmRmGroup2, atmRmTrafficShaperIfGroup,
sharedMemAtmRmSwitchMIBGroup,
sharedMemAtmRmPhyIfMIBGroup }::={ ciscoAtmRmMIBCompliances 13}-- units of conformanceatmRmSwitchCfgMIBGroup OBJECT-GROUPOBJECTS{ rmSwitchOverSubFactor, rmSwitchScrMarginFactor,
rmSwitchAbrCongNotify, rmScDefaultQosMaxCtd,
rmScDefaultQosPeakToPeakCdv, rmScDefaultQosClr
}STATUSobsolete-- superceded by atmRmSwitchCfgMIBGroup2DESCRIPTION"A collection of objects which provide ATM Switch Resource
Management configuration."::={ ciscoAtmRmMIBGroups 1}sharedMemAtmRmSwitchMIBGroup OBJECT-GROUPOBJECTS{ sharedMemRmSwitchQueuedCellLimit, sharedMemRmSwitchQueuedCellCount
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Switch Resource
Management information global to a shared-memory ATM switch."::={ ciscoAtmRmMIBGroups 2}atmRmPhyIfCfgMIBGroup OBJECT-GROUPOBJECTS{ rmIfOutPacingRateRequested, rmIfOutPacingRateInstalled,
rmIfOutPacingForce, rmIfDirControlLinkShareMaxAgg,
rmIfDirControlLinkShareMinCbr, rmIfDirControlLinkShareMaxCbr,
rmIfDirControlLinkShareMinVbr, rmIfDirControlLinkShareMaxVbr
}STATUSobsolete-- superceded by atmRmPhyIfCfgMIBGroup2DESCRIPTION"A collection of objects which provide ATM interface
Resource Management configuration for physical interfaces."::={ ciscoAtmRmMIBGroups 3}atmRmAllIfCfgMIBGroup OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance, rmIfDirMaxVbrPcr,
rmIfDirMaxVbrScr, rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr, rmIfDirMaxUbrTolerance
}STATUSobsolete-- superceded by atmRmAllIfCfgMIBGroup2DESCRIPTION"A collection of objects which provide ATM interface Resource
Management configuration for all interfaces."::={ ciscoAtmRmMIBGroups 4}atmRmIfAllStateMIBGroup OBJECT-GROUPOBJECTS{ rmIfScRxAcr, rmIfScTxAcr, rmIfScRxAlcr, rmIfScTxAlcr,
rmIfScNumSvxConns, rmIfScNumPvxConns, rmIfScTxMaxCtd,
rmIfScTxP2PeakCdv, rmIfScTxClr
}STATUSobsolete-- superceded by atmRmIfAllStateMIBGroup2
DESCRIPTION"A collection of objects which provide ATM interface Resource
Management status for all interfaces."::={ ciscoAtmRmMIBGroups 5}atmRmIfStatsMIBGroup OBJECT-GROUPOBJECTS{ rmIfScRcacResultNumAdmit, rmIfScRcacResultNumTotalRequests,
rmIfScRcacResultNumFailTraffComb, rmIfScRcacResultNumFailBw,
rmIfScRcacResultNumFailLoss, rmIfScRcacResultNumFailDelay,
rmIfScRcacResultNumFailCdv, rmIfScRcacResultNumFailBeLimit,
rmIfScRcacResultNumFailParmLimit, rmIfScRcacResultNumFailOther
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Switch Resource
Management statistics."::={ ciscoAtmRmMIBGroups 6}sharedMemAtmRmPhyIfMIBGroup OBJECT-GROUPOBJECTS{ sharedMemRmIfOutputQServCategory, sharedMemRmIfOutputQRequestedMaxSize,
sharedMemRmIfOutputQInstalledMaxSize, sharedMemRmIfOutputQMaxSizeForce,
sharedMemRmIfOutputQCellCount, sharedMemRmIfDiscardThreshold,
sharedMemRmIfEfciThreshold, sharedMemRmIfAbrRelativeRateThreshold
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM interface
Resource Management information for physical interfaces
of a shared-memory ATM switch."::={ ciscoAtmRmMIBGroups 7}atmRmSwitchCfgMIBGroup2 OBJECT-GROUPOBJECTS{ rmSwitchOverSubFactor, rmSwitchScrMarginFactor,
rmSwitchAbrCongNotify, rmScDefaultQosMaxCtd,
rmScDefaultQosPeakToPeakCdv, rmScDefaultQosClr,
rmScDefaultQosClrClp01
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Switch Resource
Management configuration."::={ ciscoAtmRmMIBGroups 8}
atmRmPhyIfCfgMIBGroup2 OBJECT-GROUPOBJECTS{ rmIfOutPacingRateRequested, rmIfOutPacingRateInstalled,
rmIfOutPacingForce, rmIfDirControlLinkShareMaxAgg,
rmIfDirControlLinkShareMinCbr, rmIfDirControlLinkShareMaxCbr,
rmIfDirControlLinkShareMinVbr, rmIfDirControlLinkShareMaxVbr,
rmIfCbrDefaultRxUpcTolerance, rmIfVbrRtDefaultRxUpcTolerance,
rmIfVbrNrtDefaultRxUpcTolerance, rmIfAbrDefaultRxUpcTolerance,
rmIfUbrDefaultRxUpcTolerance
}STATUSobsolete-- superceded by atmRmPhyIfCfgMIBGroup2DESCRIPTION"A collection of objects which provide ATM interface
Resource Management configuration for physical interfaces."::={ ciscoAtmRmMIBGroups 9}atmRmIfAllStateMIBGroup2 OBJECT-GROUPOBJECTS{ rmIfScRxAcr, rmIfScTxAcr, rmIfScRxAlcr, rmIfScTxAlcr,
rmIfScNumSvxConns, rmIfScNumPvxConns, rmIfScTxMaxCtd,
rmIfScTxP2PeakCdv, rmIfScTxClr, rmIfScTxClrClp01
}STATUSobsolete-- superceded by atmRmIfAllStateMIBGroup3DESCRIPTION"A collection of objects which provide ATM interface Resource
Management status for all interfaces."::={ ciscoAtmRmMIBGroups 10}lsPerVcqAtmRmGroup OBJECT-GROUPOBJECTS{ lsPerVcqRmIfMinWrrServiceClass, lsPerVcqRmIfServClassConnType,
lsPerVcqRmIfServClassWrrWeight, lsPerVcqRmThreshGrpMaxSize,
lsPerVcqRmThreshGrpQMaxSize, lsPerVcqRmThreshGrpQMinSize,
lsPerVcqRmThreshGrpDiscThreshold, lsPerVcqRmThreshGrpMarkThreshold,
lsPerVcqRmThreshGrpName, lsPerVcqRmThreshGrpCellCount,
lsPerVcqRmThreshGrpServGroup
}STATUSobsoleteDESCRIPTION"A collection of objects which provide ATM Resource
Management status on platforms using the Lightstream
per-VC queueing chipset."::={ ciscoAtmRmMIBGroups 11}atmRmPhyIfCfgMIBGroup3 OBJECT-GROUPOBJECTS{ rmIfOutPacingRateRequested, rmIfOutPacingRateInstalled,
rmIfOutPacingForce, rmIfDirControlLinkShareMaxAgg,
rmIfDirControlLinkShareMinCbr, rmIfDirControlLinkShareMaxCbr,
rmIfDirControlLinkShareMinVbr, rmIfDirControlLinkShareMaxVbr,
rmIfCbrDefaultRxUpcTolerance, rmIfVbrRtDefaultRxUpcTolerance,
rmIfVbrNrtDefaultRxUpcTolerance, rmIfAbrDefaultRxUpcTolerance,
rmIfUbrDefaultRxUpcTolerance, rmIfVbrRtDefaultRxUpcCdvt,
rmIfVbrNrtDefaultRxUpcCdvt, rmIfDirControlLinkShareMinAbr,
rmIfDirControlLinkShareMaxAbr, rmIfDirControlLinkShareMinUbr,
rmIfDirControlLinkShareMaxUbr
}STATUSobsolete-- superceded by atmRmPhyIfCfgMIBGroup4DESCRIPTION"A collection of objects which provide ATM interface
Resource Management configuration for physical interfaces."::={ ciscoAtmRmMIBGroups 12}atmRmAllIfCfgMIBGroup2 OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance, rmIfDirMaxVbrPcr,
rmIfDirMaxVbrScr, rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr, rmIfDirMaxUbrTolerance,
rmIfDirMaxAbrMcr, rmIfDirMaxUbrMcr, rmIfDirMaxVbrCdvt
}STATUSobsolete-- superceded by atmRmAllIfCfgMIBGroup3DESCRIPTION"A collection of objects which provide ATM interface Resource
Management configuration for all interfaces."::={ ciscoAtmRmMIBGroups 13}atmRmAllIfCfgMIBGroup3 OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance, rmIfDirMaxVbrPcr,
rmIfDirMaxVbrScr, rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr, rmIfDirMaxUbrTolerance,
rmIfDirMaxAbrMcr, rmIfDirMaxUbrMcr, rmIfDirMaxVbrCdvt,
rmIfServCategorySupport
}STATUSobsolete-- superceded by atmRmAllIfCfgMIBGroup4DESCRIPTION"A collection of objects which provide ATM interface Resource
Management configuration for all interfaces."::={ ciscoAtmRmMIBGroups 14}lsPerVcqAtmRmGroup2 OBJECT-GROUPOBJECTS{ lsPerVcqRmIfMinWrrServiceClass, lsPerVcqRmIfServClassConnType,
lsPerVcqRmIfServClassWrrWeight, lsPerVcqRmThreshGrpMaxSize,
lsPerVcqRmThreshGrpQMaxSize, lsPerVcqRmThreshGrpQMinSize,
lsPerVcqRmThreshGrpDiscThreshold, lsPerVcqRmThreshGrpMarkThreshold,
lsPerVcqRmThreshGrpName, lsPerVcqRmThreshGrpCellCount,
lsPerVcqRmThreshGrpServGroup,
lsPerVcqRmHierarchicalSchedulingMode
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Resource
Management status on platforms using the Lightstream
per-VC queueing chipset."::={ ciscoAtmRmMIBGroups 15}cgrPerVcqAtmRmGroup OBJECT-GROUPOBJECTS{ cgrPerVcqRmThreshGrpQMaxSize, cgrPerVcqRmThreshGrpQMinSize,
cgrPerVcqRmThreshGrpDiscThreshold, cgrPerVcqRmThreshGrpMarkThreshold,
cgrPerVcqRmThreshGrpName, cgrPerVcqRmThreshGrpCellCount,
cgrPerVcqRmThreshGrpServGroup,
cgrPerVcqRmHierarchicalSchedulingMode
}STATUSobsolete-- superceded by cgrPerVcqAtmRmGroup2DESCRIPTION"A collection of objects which provide ATM Resource
Management status on the Catalyst8540MSR platform."
::={ ciscoAtmRmMIBGroups 16}atmRmAllIfCfgMIBGroup4 OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance, rmIfDirMaxVbrPcr,
rmIfDirMaxVbrScr, rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr, rmIfDirMaxUbrTolerance,
rmIfDirMaxAbrMcr, rmIfDirMaxUbrMcr, rmIfDirMaxVbrCdvt,
rmIfServCategorySupport, rmIfCbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcTolerance, rmIfVbrNrtDefaultRxUpcTolerance,
rmIfAbrDefaultRxUpcTolerance, rmIfUbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcCdvt, rmIfVbrNrtDefaultRxUpcCdvt
}STATUSobsolete-- superceded by atmRmAllIfCfgMIBGroup5DESCRIPTION"A collection of objects which provide ATM interface Resource
Management configuration for all interfaces."::={ ciscoAtmRmMIBGroups 17}atmRmPhyIfCfgMIBGroup4 OBJECT-GROUPOBJECTS{ rmIfOutPacingRateRequested, rmIfOutPacingRateInstalled,
rmIfOutPacingForce, rmIfDirControlLinkShareMaxAgg,
rmIfDirControlLinkShareMinCbr, rmIfDirControlLinkShareMaxCbr,
rmIfDirControlLinkShareMinVbr, rmIfDirControlLinkShareMaxVbr,
rmIfDirControlLinkShareMinAbr, rmIfDirControlLinkShareMaxAbr,
rmIfDirControlLinkShareMinUbr, rmIfDirControlLinkShareMaxUbr
}STATUSobsolete-- superceded by atmRmPhyIfCfgMIBGroup5DESCRIPTION"A collection of objects which provide ATM interface
Resource Management configuration for physical interfaces."::={ ciscoAtmRmMIBGroups 18}atmRmPhyIfCfgMIBGroup5 OBJECT-GROUPOBJECTS{ rmIfOutPacingRateRequested, rmIfOutPacingRateInstalled,
rmIfOutPacingForce, rmIfDirControlLinkShareMaxAgg,
rmIfDirControlLinkShareMinCbr, rmIfDirControlLinkShareMaxCbr,
rmIfDirControlLinkShareMinVbr, rmIfDirControlLinkShareMaxVbr,
rmIfDirControlLinkShareMinAbr, rmIfDirControlLinkShareMaxAbr,
rmIfDirControlLinkShareMinUbr, rmIfDirControlLinkShareMaxUbr,
rmIfFramingOverhead, rmIfFramingOverheadForce
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM interface
Resource Management configuration for physical interfaces."::={ ciscoAtmRmMIBGroups 19}atmRmIfAllStateMIBGroup3 OBJECT-GROUPOBJECTS{ rmIfScRxAcr, rmIfScTxAcr, rmIfScRxAlcr, rmIfScTxAlcr,
rmIfScNumSvxConns, rmIfScNumPvxConns, rmIfScTxMaxCtd,
rmIfScTxP2PeakCdv, rmIfScTxClr,rmIfScTxClrClp01,
rmIfScRxDynBwSvcAcr, rmIfScTxDynBwSvcAcr
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM interface Resource
Management status for all interfaces."::={ ciscoAtmRmMIBGroups 20}atmRmAllIfCfgMIBGroup5 OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance, rmIfDirMaxVbrPcr,
rmIfDirMaxVbrScr, rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr, rmIfDirMaxUbrTolerance,
rmIfDirMaxAbrMcr, rmIfDirMaxUbrMcr, rmIfDirMaxVbrCdvt,
rmIfServCategorySupport, rmIfCbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcTolerance, rmIfVbrNrtDefaultRxUpcTolerance,
rmIfAbrDefaultRxUpcTolerance, rmIfUbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcCdvt, rmIfVbrNrtDefaultRxUpcCdvt,
rmIfOverBooking
}STATUSdeprecated-- superceded by atmRmAllIfCfgMIBGroup6DESCRIPTION"A collection of objects which provide ATM interface Resource
Management configuration for all interfaces."::={ ciscoAtmRmMIBGroups 21}cgrPerVcqAtmRmGroup2 OBJECT-GROUPOBJECTS{ cgrPerVcqRmThreshGrpQMaxSize, cgrPerVcqRmThreshGrpQMinSize,
cgrPerVcqRmThreshGrpDiscThreshold, cgrPerVcqRmThreshGrpMaxSize,
cgrPerVcqRmThreshGrpMarkThreshold, cgrPerVcqRmThreshGrpName,
cgrPerVcqRmThreshGrpCellCount, cgrPerVcqRmThreshGrpServGroup,
cgrPerVcqRmHierarchicalSchedulingMode
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Resource
Management status on the Catalyst8540MSR platform."::={ ciscoAtmRmMIBGroups 22}atmRmTrafficShaperIfGroup OBJECT-GROUPOBJECTS{ rtsIfMaxThreshold, rtsIfCellCount,
rtsIfVbrCfgRequested,
rtsIfVbrCfgInstalled,
rtsIfBeCfgRequested,
rtsIfBeCfgInstalled,
rtsIfVbrClassMaxThrshRequested,
rtsIfVbrClassMaxThrshInstalled,
rtsIfBeClassMaxThrshRequested,
rtsIfBeClassMaxThrshInstalled,
rtsIfVbrVcMaxThrshRequested,
rtsIfVbrVcMaxThrshInstalled,
rtsIfBeVcMaxThrshRequested,
rtsIfBeVcMaxThrshInstalled
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM Traffic Shaper
configuration and state information for ATM interfaces."::={ ciscoAtmRmMIBGroups 23}atmRmAllIfCfgMIBGroup6 OBJECT-GROUPOBJECTS{ rmIfLinkDistance, rmIfBestEffortLimit,
rmIfDirMaxCbrPcr, rmIfDirMaxCbrTolerance,
rmIfDirMaxVbrPcr, rmIfDirMaxVbrScr,
rmIfDirMaxVbrTolerance, rmIfDirMaxAbrPcr,
rmIfDirMaxAbrTolerance, rmIfDirMaxUbrPcr,
rmIfDirMaxUbrTolerance, rmIfDirMaxAbrMcr,
rmIfDirMaxUbrMcr, rmIfDirMaxVbrCdvt,
rmIfServCategorySupport,
rmIfCbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcTolerance,
rmIfVbrNrtDefaultRxUpcTolerance,
rmIfAbrDefaultRxUpcTolerance,
rmIfUbrDefaultRxUpcTolerance,
rmIfVbrRtDefaultRxUpcCdvt,
rmIfVbrNrtDefaultRxUpcCdvt,
rmIfOverBooking,
rmIfVbrRtPerClassOverbooking,
rmIfVbrNrtPerClassOverbooking,
rmIfAbrPerClassOverbooking,
rmIfUbrPerClassOverbooking
}STATUScurrentDESCRIPTION"A collection of objects which provide ATM
interface Resource Management configuration
for all interfaces."::={ ciscoAtmRmMIBGroups 24}END