draft-ietf-frnetmib-frmrelay-service-01.txt   draft-ietf-frnetmib-frmrelay-service-02.txt 
Definitions of Managed Objects Definitions of Managed Objects
for Frame Relay Service Level Definitions for Frame Relay Service Level Definitions
June 14, 2000 September 19, 2000
draft-ietf-frnetmib-frmrelay-service-01.txt draft-ietf-frnetmib-frmrelay-service-02.txt
Robert A. Steinberger Robert A. Steinberger
Paradyne Networks Paradyne Networks
rsteinberger@paradyne.com rsteinberger@paradyne.com
Orly Nicklass, Ph.D Orly Nicklass, Ph.D
RAD Data Communications Ltd. RAD Data Communications Ltd.
Orly_n@rad.co.il Orly_n@rad.co.il
Status of this Memo Status of this Memo
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Abstract Abstract
This memo defines an extension of the Management Information Base This memo defines an extension of the Management Information Base
(MIB) for use with network management protocols in TCP/IP-based (MIB) for use with network management protocols in TCP/IP-based
internets. In particular, it defines objects for managing the Frame internets. In particular, it defines objects for managing the Frame
Relay Service Level Definitions. This memo does not specify a Relay Service Level Definitions. This memo does not specify a
standard for the Internet community. standard for the Internet community.
Copyright Notice Copyright Notice
Copyright (C) The Internet Society (2000). All Rights Reserved. Copyright (C) The Internet Society (2001). All Rights Reserved.
Table of Contents Table of Contents
1. The SNMP Management Framework ............................... 3 1. The SNMP Management Framework ............................... 3
2. Conventions ................................................. 4 2. Conventions ................................................. 4
3. Overview .................................................... 4 3. Overview .................................................... 4
3.1. Frame Relay Service Level Definitions ..................... 4 3.1. Frame Relay Service Level Definitions ..................... 4
3.2. Terminology ............................................... 5 3.2. Terminology ............................................... 5
3.3. Network Model ............................................. 5 3.3. Network Model ............................................. 5
3.4. Reference Points .......................................... 6 3.4. Reference Points .......................................... 6
3.5. Measurement Methodology ................................... 8 3.5. Measurement Methodology ................................... 8
3.6. Theory of Operation ....................................... 9 3.6. Theory of Operation ....................................... 9
3.6.1. Capabilities Discovery .................................. 9 3.6.1. Capabilities Discovery .................................. 9
3.6.2. Determining Reference Points for Row Creation ........... 9 3.6.2. Determining Reference Points for Row Creation ........... 9
3.6.3. Creation Process ........................................ 11 3.6.2.1. Graphical Examples of Reference Points ................ 11
3.6.4. Destruction Process ..................................... 11 3.6.2.1.1. Edge-to-Edge Interface Reference Point Example ...... 12
3.6.4.1. Manual Row Destruction ................................ 11 3.6.2.1.2. Edge-to-Edge Egress Queue Reference Point Example ... 13
3.6.4.2. Automatic Row Destruction ............................. 12 3.6.2.1.3. End-to-End Using Reference Point Example ............ 14
3.6.5. Modification Process .................................... 12 3.6.3. Creation Process ........................................ 15
3.6.6. Collection Process ...................................... 12 3.6.4. Destruction Process ..................................... 15
3.6.6.1. Remote Polling ........................................ 12 3.6.4.1. Manual Row Destruction ................................ 15
3.6.6.2. Sampling .............................................. 13 3.6.4.2. Automatic Row Destruction ............................. 15
3.6.6.3. User History .......................................... 14 3.6.5. Modification Process .................................... 16
3.6.7. Use of MIB in Calculation of Service Level Definitions .. 14 3.6.6. Collection Process ...................................... 16
3.6.8. Delay ................................................... 16 3.6.6.1. Remote Polling ........................................ 16
3.6.9. Frame Delivery Ratio .................................... 16 3.6.6.2. Sampling .............................................. 17
3.6.10. Data Delivery Ratio .................................... 17 3.6.6.3. User History .......................................... 17
3.6.11. Service Availability ................................... 17 3.6.7. Use of MIB in Calculation of Service Level Definitions .. 17
4. Relation to Other MIBs ...................................... 18 3.6.8. Delay ................................................... 19
5. Structure of the MIB ........................................ 19 3.6.9. Frame Delivery Ratio .................................... 20
5.1. frsldPvcCtrlTable ......................................... 19 3.6.10. Data Delivery Ratio .................................... 20
5.2. frsldSmplCtrlTable ........................................ 20 3.6.11. Service Availability ................................... 20
5.3. frsldPvcDataTable ......................................... 20 4. Relation to Other MIBs ...................................... 21
5.4. frsldPvcDataSampleTable ................................... 20 5. Structure of the MIB ........................................ 22
5.5. frsldPvcAvailSampleTable .................................. 20 5.1. frsldPvcCtrlTable ......................................... 22
5.6. frsldCapabilities ......................................... 20 5.2. frsldSmplCtrlTable ........................................ 23
6. Object Definitions .......................................... 20 5.3. frsldPvcDataTable ......................................... 23
5.4. frsldPvcSampleTable ....................................... 23
5.5. frsldCapabilities ......................................... 23
6. Object Definitions .......................................... 23
7. Acknowledgments ............................................. 52 7. Acknowledgments ............................................. 52
8. References .................................................. 54 8. References .................................................. 53
9. Security Considerations ..................................... 56 9. Security Considerations ..................................... 55
10. Authors' Addresses ......................................... 56 10. Authors' Addresses ......................................... 55
11. Copyright Section .......................................... 57 11. Copyright Section .......................................... 56
1. The SNMP Management Framework 1. The SNMP Management Framework
The SNMP Management Framework presently consists of five major The SNMP Management Framework presently consists of five major
components: components:
o An overall architecture, described in RFC 2571 [1]. o An overall architecture, described in RFC 2571 [1].
o Mechanisms for describing and naming objects and events for the o Mechanisms for describing and naming objects and events for the
purpose of management. The first version of this Structure of purpose of management. The first version of this Structure of
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of each device. of each device.
3) Locate the best combination of the two devices such that the 3) Locate the best combination of the two devices such that the
necessary reference points are all represented. necessary reference points are all represented.
4) If any one of the necessary reference points does not exist in 4) If any one of the necessary reference points does not exist in
the combination of the two devices, it is not possible to the combination of the two devices, it is not possible to
monitor the FRF.13 defined SLA between the two reference point monitor the FRF.13 defined SLA between the two reference point
on the PVC. on the PVC.
3.6.2.1. Graphical Examples of Reference Points
FRF.13 [17] defines three specific combinations of reference points:
Edge-to-Edge Interface, Edge-to-Edge Egress Queue and End-to-End.
Examples of valid reference points that may be used for each of these
are discussed in the sections below.
It is often the case that a device knows as a minimum either only
local information or both local and remote information. Because
these are two common examples, each will be illustrated below.
3.6.2.1.1. Edge-to-Edge Interface Reference Point Example
Device 1 Device 2
+-------------+ +-------------+
| Ingress | | Egress |
| +-----+ | | +-----+ |
|(A)| | | Traffic Flow | | |(B)|
-->-->-- -->-->-->-->-->-->-->-->-->-->-->- -->-->-->
| | | | From Device 1 to 2 | | | |
| +-----+ | | +-----+ |
| | | |
| Egress | | Ingress |
| +-----+ | | +-----+ |
|(D)| | | Traffic Flow | | |(C)|
<--<--<- -<--<--<--<--<--<--<--<--<--<--<-- --<--<--
| | | | From Device 2 to 1 | | | |
| +-----+ | | +-----+ |
+-------------+ +-------------+
where (A), (B), (C) and (D) are reference points
For devices with only local knowledge, one row is required on each
device as follows:
(A) frsldPvcCtrlTransmitRP for Device 1 = ingTxLocalRP(2)
(B) frsldPvcCtlrReceiveRP for Device 2 = eqoRxLocalRP(5)
(C) frsldPvcCtrlTransmitRP for Device 2 = ingTxLocalRP(2)
(D) frsldPvcCtlrReceiveRP for Device 1 = eqoRxLocalRP(5)
For devices with both local and remote knowledge, the two rows can
exist in any combination on either device. For this example, the
transmitting devices will be responsible for information regarding
the flow for which they are the origin. Only one row is required per
device for this example.
(A) frsldPvcCtrlTransmitRP for Device 1 = ingTxLocalRP(2)
(B) frsldPvcCtlrReceiveRP for Device 1 = eqoRxRemoteRP(11)
(C) frsldPvcCtrlTransmitRP for Device 2 = ingTxLocalRP(2)
(D) frsldPvcCtlrReceiveRP for Device 2 = eqoRxRemoteRP(11)
3.6.2.1.2. Edge-to-Edge Egress Queue Reference Point Example
Device 1 Device 2
+-------------+ +-------------+
| Ingress | | Egress |
| +-----+ | | +-----+ |
|(A)| | | Traffic Flow |(B)| | |
-->-->-- -->-->-->-->-->-->-->-->-->-->-->- -->-->-->
| | | | From Device 1 to 2 | | | |
| +-----+ | | +-----+ |
| | | |
| Egress | | Ingress |
| +-----+ | | +-----+ |
| | |(D)| Traffic Flow | | |(C)|
<--<--<- -<--<--<--<--<--<--<--<--<--<--<-- --<--<--
| | | | From Device 2 to 1 | | | |
| +-----+ | | +-----+ |
+-------------+ +-------------+
where (A), (B), (C) and (D) are reference points
For devices with only local knowledge, one row is required on each
device as follows:
(A) frsldPvcCtrlTransmitRP for Device 1 = ingTxLocalRP(2)
(B) frsldPvcCtlrReceiveRP for Device 2 = eqiRxLocalRP(4)
(C) frsldPvcCtrlTransmitRP for Device 2 = ingTxLocalRP(2)
(D) frsldPvcCtlrReceiveRP for Device 1 = eqiRxLocalRP(4)
For devices with both local and remote knowledge, the two rows can
exist in any combination on either device. For this example, the
transmitting devices will be responsible for information regarding
the flow for which they are the origin. Only one row is required per
device for this example.
(A) frsldPvcCtrlTransmitRP for Device 1 = ingTxLocalRP(2)
(B) frsldPvcCtlrReceiveRP for Device 1 = eqiRxRemoteRP(10)
(C) frsldPvcCtrlTransmitRP for Device 2 = ingTxLocalRP(2)
(D) frsldPvcCtlrReceiveRP for Device 2 = eqiRxRemoteRP(10)
3.6.2.1.3. End-to-End Using Reference Point Example
Device 1 Device 2
+-------------+ +-------------+
| Source | | Destination |
| +-----+ | | +-----+ |
|(A)| | | Traffic Flow | | |(B)|
-->-->-- -->-->-->-->-->-->-->-->-->-->-->- -->-->-->
| | | | From Device 1 to 2 | | | |
| +-----+ | | +-----+ |
| | | |
| Destination | | Source |
| +-----+ | | +-----+ |
|(D)| | | Traffic Flow | | |(C)|
<--<--<- -<--<--<--<--<--<--<--<--<--<--<-- --<--<--
| | | | From Device 2 to 1 | | | |
| +-----+ | | +-----+ |
+-------------+ +-------------+
where (A), (B), (C) and (D) are reference points
For devices with only local knowledge, one row is required on each
device as follows:
(A) frsldPvcCtrlTransmitRP for Device 1 = srcLocalRP(1)
(B) frsldPvcCtlrReceiveRP for Device 2 = desLocalRP(1)
(C) frsldPvcCtrlTransmitRP for Device 2 = srcLocalRP(1)
(D) frsldPvcCtlrReceiveRP for Device 1 = desLocalRP(1)
For devices with both local and remote knowledge, the two rows can
exist in any combination on either device. For this example, the
transmitting devices will be responsible for information regarding
the flow for which they are the origin. Only one row is required per
device for this example.
(A) frsldPvcCtrlTransmitRP for Device 1 = srcLocalRP(1)
(B) frsldPvcCtlrReceiveRP for Device 1 = desRemoteRP(7)
(C) frsldPvcCtrlTransmitRP for Device 2 = srcLocalRP(1)
(D) frsldPvcCtlrReceiveRP for Device 2 = desRemoteRP(7)
3.6.3. Creation Process 3.6.3. Creation Process
In some cases, devices will automatically populate the rows of PVC In some cases, devices will automatically populate the rows of PVC
Control Table and potentially the Sample Control Table. However, in Control Table and potentially the Sample Control Table. However, in
many cases, it may be necessary for a network manager to manually many cases, it may be necessary for a network manager to manually
create rows. create rows.
Manual creation of rows requires the following steps: Manual creation of rows requires the following steps:
1) Ensure the PVC exists between the two devices. 1) Ensure the PVC exists between the two devices.
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This MIB supports data collection through remote polling of the free This MIB supports data collection through remote polling of the free
running counters in the PVC Data Table. Remote polling is a common running counters in the PVC Data Table. Remote polling is a common
method used to capture real-time statistics. A remote management method used to capture real-time statistics. A remote management
station polls the device to collect the desired information. It is station polls the device to collect the desired information. It is
recommended all statistics for a single PVC be collected in a single recommended all statistics for a single PVC be collected in a single
PDU. PDU.
The following objects are designed around the concept of real-time The following objects are designed around the concept of real-time
polling: polling:
o frsldPvcDataDelayMin
o frsldPvcDataDelayMax
o frsldPvcDataDelayAvg
o frsldPvcDataMissedPolls o frsldPvcDataMissedPolls
o frsldPvcDataFrDeliveredC o frsldPvcDataFrDeliveredC
o frsldPvcDataFrDeliveredE o frsldPvcDataFrDeliveredE
o frsldPvcDataFrOfferedC o frsldPvcDataFrOfferedC
o frsldPvcDataFrOfferedE o frsldPvcDataFrOfferedE
o frsldPvcDataDataDeliveredC o frsldPvcDataDataDeliveredC
o frsldPvcDataDataDeliveredE o frsldPvcDataDataDeliveredE
o frsldPvcDataDataOfferedC o frsldPvcDataDataOfferedC
o frsldPvcDataDataOfferedE o frsldPvcDataDataOfferedE
o frsldPvcDataHCFrDeliveredC o frsldPvcDataHCFrDeliveredC
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3.6.6.2. Sampling 3.6.6.2. Sampling
The sample tables provide the ability to historically sample data The sample tables provide the ability to historically sample data
without requiring the additional overhead of polling. At key without requiring the additional overhead of polling. At key
periods, a network management station can collect the samples needed. periods, a network management station can collect the samples needed.
This method allows the manager to perform the collection of data at This method allows the manager to perform the collection of data at
times that will least affect the active network traffic. times that will least affect the active network traffic.
The sample data can be collected using a series of SNMP getNext or The sample data can be collected using a series of SNMP getNext or
getBulk operations. The values of frsldPvcDataSmplIdx and getBulk operations. The value of frsldPvcSmplIdx increments with
frsldPvcAvailSmplIdx increment with each new collection bucket. This each new collection bucket. This allows the managers to skip
allows the managers to skip information that has already been information that has already been collected. However, care should be
collected. However, care should be taken in that the value can roll taken in that the value can roll over after a long period of time.
over after a long period of time.
The start and end times of a collection period allow the manager to The start and end times of a collection period allow the manager to
know what the actual period of collection was. It is possible for know what the actual period of collection was. It is possible for
there to be discontinuities in the sample table, so both start and there to be discontinuities in the sample table, so both start and
end should be referenced. end should be referenced.
3.6.6.3. User History 3.6.6.3. User History
User history, as defined in RFC 2021 [19], is an alternative User history, as defined in RFC 2021 [19], is an alternative
mechanism that can be used to get the same benefits as the sample mechanism that can be used to get the same benefits as the sample
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calculations for one direction of the data flow, i.e. data sent from calculations for one direction of the data flow, i.e. data sent from
local transmitter to a remote receiver. A complete set of local transmitter to a remote receiver. A complete set of
bidirectional information would require calculations based on both bidirectional information would require calculations based on both
directions. For the purposes of this description, the reference directions. For the purposes of this description, the reference
points used SHOULD consistently represent data that is sent by one points used SHOULD consistently represent data that is sent by one
device and received by the other. device and received by the other.
The calculations below use the following terminology: The calculations below use the following terminology:
o DelayAvg o DelayAvg
The average delay on the PVC. This is represented within the The average delay on the PVC. This is represented within the
MIB by either frsldPvcDataDelayAvg or frsldPvcDataSmplDelayAvg. MIB by frsldPvcSmplDelayAvg.
o FrDeliveredC o FrDeliveredC
The number of frames received by the receiving device through The number of frames received by the receiving device through
the receive reference point that were delivered within CIR. the receive reference point that were delivered within CIR.
This is represented within the MIB by one of This is represented within the MIB by one of
frsldPvcDataFrDeliveredC, frsldPvcDataHCFrDeliveredC, frsldPvcDataFrDeliveredC, frsldPvcDataHCFrDeliveredC,
frsldPvcDataSmplFrDeliveredC, or frsldPvcDataSmplHCFrDeliveredC. frsldPvcSmplFrDeliveredC, or frsldPvcSmplHCFrDeliveredC.
o FrDeliveredE o FrDeliveredE
The number of frames received by the receiving device through The number of frames received by the receiving device through
the receive reference point that were delivered in excess of the receive reference point that were delivered in excess of
CIR. This is represented within the MIB by one of CIR. This is represented within the MIB by one of
frsldPvcDataFrDeliveredE, frsldPvcDataHCFrDeliveredE, frsldPvcDataFrDeliveredE, frsldPvcDataHCFrDeliveredE,
frsldPvcDataSmplFrDeliveredE, or frsldPvcDataSmplHCFrDeliveredE. frsldPvcSmplFrDeliveredE, or frsldPvcSmplHCFrDeliveredE.
o FrOfferedC o FrOfferedC
The number of frames offered by the transmitting device through The number of frames offered by the transmitting device through
the transmit reference point that were sent within CIR. This is the transmit reference point that were sent within CIR. This is
represented within the MIB by one of frsldPvcDataFrOfferedC, represented within the MIB by one of frsldPvcDataFrOfferedC,
frsldPvcDataHCFrOfferedC, frsldPvcDataSmplFrOfferedC, or frsldPvcDataHCFrOfferedC, frsldPvcSmplFrOfferedC, or
frsldPvcDataSmplHCFrOfferedC. frsldPvcSmplHCFrOfferedC.
o FrOfferedE o FrOfferedE
The number of frames offered by the transmitting device through The number of frames offered by the transmitting device through
the transmit reference point that were sent in excess of CIR. the transmit reference point that were sent in excess of CIR.
This is represented within the MIB by one of This is represented within the MIB by one of
frsldPvcDataFrOfferedE, frsldPvcDataHCFrOfferedE, frsldPvcDataFrOfferedE, frsldPvcDataHCFrOfferedE,
frsldPvcDataSmplFrOfferedE, or frsldPvcDataSmplHCFrOfferedE. frsldPvcSmplFrOfferedE, or frsldPvcSmplHCFrOfferedE.
o DataDeliveredC o DataDeliveredC
The number of octets received by the receiving device through The number of octets received by the receiving device through
the receive reference point that were delivered within CIR. the receive reference point that were delivered within CIR.
This is represented within the MIB by one of This is represented within the MIB by one of
frsldPvcDataDataDeliveredC, frsldPvcDataHCDataDeliveredC, frsldPvcDataDataDeliveredC, frsldPvcDataHCDataDeliveredC,
frsldPvcDataSmplDataDeliveredC, or frsldPvcSmplDataDeliveredC, or frsldPvcSmplHCDataDeliveredC.
frsldPvcDataSmplHCDataDeliveredC.
o DataDeliveredE o DataDeliveredE
The number of octets received by the receiving device through The number of octets received by the receiving device through
the receive reference point that were delivered in excess of the receive reference point that were delivered in excess of
CIR. This is represented within the MIB by one of CIR. This is represented within the MIB by one of
frsldPvcDataDataDeliveredE, frsldPvcDataHCDataDeliveredE, frsldPvcDataDataDeliveredE, frsldPvcDataHCDataDeliveredE,
frsldPvcDataSmplDataDeliveredE, or frsldPvcSmplDataDeliveredE, or frsldPvcSmplHCDataDeliveredE.
frsldPvcDataSmplHCDataDeliveredE.
o DataOfferedC o DataOfferedC
The number of octets offered by the transmitting device through The number of octets offered by the transmitting device through
the transmit reference point that were sent within CIR. This is the transmit reference point that were sent within CIR. This is
represented within the MIB by one of frsldPvcDataDataOfferedC, represented within the MIB by one of frsldPvcDataDataOfferedC,
frsldPvcDataHCDataOfferedC, frsldPvcDataSmplDataOfferedC, or frsldPvcDataHCDataOfferedC, frsldPvcSmplDataOfferedC, or
frsldPvcDataSmplHCDataOfferedC. frsldPvcSmplHCDataOfferedC.
o DataOfferedE o DataOfferedE
The number of octets offered by the transmitting device through The number of octets offered by the transmitting device through
the transmit reference point that were sent in excess of CIR. the transmit reference point that were sent in excess of CIR.
This is represented within the MIB by one of This is represented within the MIB by one of
frsldPvcDataDataOfferedE, frsldPvcDataHCDataOfferedE, frsldPvcDataDataOfferedE, frsldPvcDataHCDataOfferedE,
frsldPvcDataSmplDataOfferedE, or frsldPvcDataSmplHCDataOfferedE. frsldPvcSmplDataOfferedE, or frsldPvcSmplHCDataOfferedE.
o UnavailableTime o UnavailableTime
The amount of time the PVC was not available during the interval The amount of time the PVC was not available during the interval
of interest. This is represented within the MIB by either of interest. This is represented within the MIB by either
frsldPvcDataUnavailableTime or frsldPvcAvailSmplUnavailableTime. frsldPvcDataUnavailableTime or frsldPvcSmplUnavailableTime.
o Unavailables o Unavailables
The number of times the PVC was declared to be unavailable The number of times the PVC was declared to be unavailable
during the interval of interest. This is represented within the during the interval of interest. This is represented within the
MIB by either frsldPvcDataUnavailables or MIB by either frsldPvcDataUnavailables or
frsldPvcAvailSmplUnavailables. frsldPvcSmplUnavailables.
3.6.8. Delay 3.6.8. Delay
The frame transfer delay is defined as the amount of time elapsed, in The frame transfer delay is defined as the amount of time elapsed, in
microseconds, from the time a frame exits the source to the time it microseconds, from the time a frame exits the source to the time it
reaches the destination. The average delay can be found using the MIB reaches the destination. The average delay can be found using the MIB
variable described in DelayAvg above. The delay may be calculated as variable described in DelayAvg above. The delay may be calculated as
either round trip or one way, and this information is held in the either round trip or one way, and this information is held in the
frsldPvcCtrlDelayType MIB variable. If the delay be calculated as frsldPvcCtrlDelayType MIB variable. If the delay be calculated as
round trip, the value of DelayAvg represents the average of the total round trip, the value of DelayAvg represents the average of the total
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(3) The respective DLCI has just been removed. This corresponds to a (3) The respective DLCI has just been removed. This corresponds to a
state in which either frPVCEndptRowStatus is no longer active(1) state in which either frPVCEndptRowStatus is no longer active(1)
or frPVCEndptRcvdSigStatus is no longer active(2) or none(4) for or frPVCEndptRcvdSigStatus is no longer active(2) or none(4) for
the Frame Relay Network Services MIB (RFC 1604) [18]. For the the Frame Relay Network Services MIB (RFC 1604) [18]. For the
Frame Relay DTE MIB, the same state is shown when either Frame Relay DTE MIB, the same state is shown when either
frCircuitRowStatus is no longer active(1) or frCircuitState is no frCircuitRowStatus is no longer active(1) or frCircuitState is no
longer active(2). longer active(2).
For the first case, the row in the frsldPvcDataTable will be filled. For the first case, the row in the frsldPvcDataTable will be filled.
If frsldSmplCtrlStatus in the frsldSmplCtrlTable for the respective If frsldSmplCtrlStatus in the frsldSmplCtrlTable for the respective
DLCI is also `active' the frsldPvcDataSampleTable and DLCI is also `active' the frsldPvcSampleTable will be filled as well.
frsldPvcAvailSampleTable will be filled as well.
For the second case, the respective rows will not be added to any of For the second case, the respective rows will not be added to any of
the data or sample tables and frsldPvcCtrlStatus SHOULD be set to the data or sample tables and frsldPvcCtrlStatus SHOULD be set to
notReady(3). notReady(3).
For the third case, frsldPvcCtrlDeleteOnPurge should direct the For the third case, frsldPvcCtrlDeleteOnPurge should direct the
behavior of the system. If all tables are purged, this case will be behavior of the system. If all tables are purged, this case will be
equivalent to the second case above. Otherwise, frsldPvcCtrlStatus equivalent to the second case above. Otherwise, frsldPvcCtrlStatus
SHOULD remain active(1). SHOULD remain active(1).
5. Structure of the MIB 5. Structure of the MIB
The FRSLD-MIB consists of the following components: The FRSLD-MIB consists of the following components:
o frsldPvcCtrlTable o frsldPvcCtrlTable
o frsldSmplCtrlTable o frsldSmplCtrlTable
o frsldPvcDataTable o frsldPvcDataTable
o frsldPvcDataSampleTable o frsldPvcSampleTable
o frsldPvcAvailSampleTable
o frsldCapabilities o frsldCapabilities
Refer to the compliance statement defined within for a definition of Refer to the compliance statement defined within for a definition of
what objects MUST be implemented. what objects MUST be implemented.
5.1. frsldPvcCtrlTable 5.1. frsldPvcCtrlTable
The frsldPvcCtrlTable is the central control table for operations of The frsldPvcCtrlTable is the central control table for operations of
the Frame Relay Service Level Definitions MIB. It provides variables the Frame Relay Service Level Definitions MIB. It provides variables
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5.2. frsldSmplCtrlTable 5.2. frsldSmplCtrlTable
This is an optional table to allow control of sampling of the data in This is an optional table to allow control of sampling of the data in
the data table. the data table.
5.3. frsldPvcDataTable 5.3. frsldPvcDataTable
This table contains the calculated data. It relies on configuration This table contains the calculated data. It relies on configuration
from the control table. from the control table.
5.4. frsldPvcDataSampleTable 5.4. frsldPvcSampleTable
This table contains samples of the delay and delivery information
from the data table. It relies on configuration from both the
control table and the sample control table.
5.5. frsldPvcAvailSampleTable
This table contains samples of the availability information from the This table contains samples of the delivery and availability
data table. It relies on configuration from both the control table information from the data table as well as delay information
and the sample control table. calculated over the sample period. It relies on configuration from
both the control table and the sample control table.
5.6. frsldCapabilities 5.5. frsldCapabilities
This is a group of objects that define write capabilities of the This is a group of objects that define write capabilities of the
read-create objects in the tables above. read-create objects in the tables above.
6. Object Definitions 6. Object Definitions
FRSLD-MIB DEFINITIONS ::= BEGIN FRSLD-MIB DEFINITIONS ::= BEGIN
IMPORTS IMPORTS
MODULE-IDENTITY, OBJECT-TYPE, MODULE-IDENTITY, OBJECT-TYPE,
Counter32, Gauge32, Integer32, Counter32, Gauge32, Integer32,
Counter64, TimeTicks, mib-2 FROM SNMPv2-SMI Counter64, TimeTicks, mib-2 FROM SNMPv2-SMI
CounterBasedGauge64 FROM HCNUM-TC CounterBasedGauge64 FROM HCNUM-TC
RowStatus, TimeStamp FROM SNMPv2-TC RowStatus, TimeStamp FROM SNMPv2-TC
MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF
ifIndex FROM IF-MIB; ifIndex FROM IF-MIB;
frsldMIB MODULE-IDENTITY frsldMIB MODULE-IDENTITY
LAST-UPDATED "200006141500Z" -- June 14, 2000 LAST-UPDATED "200009191500Z" -- September 19, 2000
ORGANIZATION "IETF Frame Relay Service MIB Working Group" ORGANIZATION "IETF Frame Relay Service MIB Working Group"
CONTACT-INFO CONTACT-INFO
"IETF Frame Relay Service MIB (frnetmib) Working Group "IETF Frame Relay Service MIB (frnetmib) Working Group
WG Charter: http://www.ietf.org/html.charters/ WG Charter: http://www.ietf.org/html.charters/
frnetmib-charter.html frnetmib-charter.html
WG-email: frnetmib@sunroof.eng.sun.com WG-email: frnetmib@sunroof.eng.sun.com
Subscribe: frnetmib-request@sunroof.eng.sun.com Subscribe: frnetmib-request@sunroof.eng.sun.com
Email Archive: ftp://ftp.ietf.org/ietf-mail-archive/frnetmib Email Archive: ftp://ftp.ietf.org/ietf-mail-archive/frnetmib
Chair: Andy Malis Chair: Andy Malis
Lucent Technologies Lucent Technologies
Email: amalis@lucent.com Email: amalis@lucent.com
skipping to change at page 21, line 24 skipping to change at page 24, line 20
WG editor: Robert Steinberger WG editor: Robert Steinberger
Paradyne Networks Paradyne Networks
Email: rsteinberger@paradyne.com Email: rsteinberger@paradyne.com
Co-author: Orly Nicklass Co-author: Orly Nicklass
RAD Data Communications Ltd. RAD Data Communications Ltd.
EMail: Orly_n@rad.co.il" EMail: Orly_n@rad.co.il"
DESCRIPTION DESCRIPTION
"The MIB module to describe generic objects for "The MIB module to describe generic objects for
FRF.13 Frame Relay Service Level Definitions." FRF.13 Frame Relay Service Level Definitions."
REVISION "200009191500Z"
DESCRIPTION
"o Removed frsldPvcCtrlDelayCnt.
o Removed frsldSmplCtrlAvailColPeriod, frsdlSmplCtrl-
AvailBuckets, and frsldSmplCtrlAvailBucketsGranted.
o Changed name of frsldSmplCtrlData* to frsldSmplCtrl*.
o Removed frsldPvcDataDelayMin, frsldPvcDataDelayMax,
and frsldPvcDataDelayAvg.
o Changed frsldPvcDataSample* to frsldPvcSample*.
o Changed frsldPvcDataSmpl* to frsldPvcSmpl*.
o Added frsldPvcSmplUnavailableTime and frsldPvcSmpl-
Unavailables.
o Removed frsldPvcAvailSampleTable and all objects.
o Removed frsldPvcCtrlDelayCnt from frsldPvcCtrlWrite-
Caps.
o Adjusted group definitions for frsldPvcDelayCtrlGroup,
frsldPvc[Data]SampleCtrlGroup, frsldPvcReqDataGroup,
frsldPvcDelayDataGroup, and frsldPvc[Avail]SampleAvail-
Group to reflect above changes."
REVISION "200006141500Z" REVISION "200006141500Z"
DESCRIPTION DESCRIPTION
"o Removed all uses of FrsldLocation by removing objects "o Removed all uses of FrsldLocation by removing objects
frsldPvcCtrlDelayLoc and frsldPvcCtrlDeliveryLoc frsldPvcCtrlDelayLoc and frsldPvcCtrlDeliveryLoc
o Removed FrsldRP TC and distributed source and destination o Removed FrsldRP TC and distributed source and destina-
specific information into index for control table as tion specific information into index for control table
frsldPvcCtrlTransmitRP and frsldPvcCtrlReceiveRP. as frsldPvcCtrlTransmitRP and frsldPvcCtrlReceiveRP.
o Added frsldPvcCtrlDelayCnt to control table. o Added frsldPvcCtrlDelayCnt to control table.
o Changed frsldPvcDataUnavailableTime from TimeStamp to o Changed frsldPvcDataUnavailableTime from TimeStamp to
TimeTicks. TimeTicks.
o Updated text of RowStatus objects o Updated text of RowStatus objects
o Added frsldPvcCtrlTransmitRP and frsldPvcCtrlReceiveRP as o Added frsldPvcCtrlTransmitRP and frsldPvcCtrlReceiveRP
indices to ALL tables. as indices to ALL tables.
o Added HC counters for all data delivery stats and o Added HC counters for all data delivery stats and
samples. samples.
o Adjusted description of sample information for clarity. o Adjusted description of sample information for clarity.
o Adjusted names of sample objects for consistency. o Adjusted names of sample objects for consistency.
o Added frsldRPCaps. o Added frsldRPCaps.
o Changed location to mib-2 o Changed location to mib-2
o Reworked Group Definitions." o Reworked Group Definitions."
REVISION "200002061500Z" REVISION "200002061500Z"
DESCRIPTION DESCRIPTION
skipping to change at page 22, line 31 skipping to change at page 25, line 47
`frsldSmplCtrl' `frsldSmplCtrl'
o Added the sample control index to the indices of the o Added the sample control index to the indices of the
sample tables sample tables
o Changed all occasions of TimeTicks to TimeStamp o Changed all occasions of TimeTicks to TimeStamp
o Added frsldPvcCtrlPurge to aid in control validity o Added frsldPvcCtrlPurge to aid in control validity
of information due to PVC status changes of information due to PVC status changes
o Added frsldPvcCtrlDeleteOnPurge object o Added frsldPvcCtrlDeleteOnPurge object
o Added frsldPvcCtrlLastPurgeTime object o Added frsldPvcCtrlLastPurgeTime object
o Added units clauses to all time related fields. o Added units clauses to all time related fields.
o Reworded the `change in' syntax to be more explicit" o Reworded the `change in' syntax to be more explicit"
::= { mib-2 xxx } -- RFC editor - IANA assigns xxx ::= { mib-2 xxx } -- RFC editor - IANA assigns xxx
frsldObjects OBJECT IDENTIFIER ::= { frsldMIB 1 } frsldObjects OBJECT IDENTIFIER ::= { frsldMIB 1 }
frsldCapabilities OBJECT IDENTIFIER ::= { frsldMIB 2 } frsldCapabilities OBJECT IDENTIFIER ::= { frsldMIB 2 }
frsldConformance OBJECT IDENTIFIER ::= { frsldMIB 3 } frsldConformance OBJECT IDENTIFIER ::= { frsldMIB 3 }
-- The Frame Relay Service Level Definitions PVC Control Table -- The Frame Relay Service Level Definitions PVC Control Table
-- --
-- This table is used to define and display the parameters of -- This table is used to define and display the parameters of
-- service level definitions on individual PVCs. -- service level definitions on individual PVCs.
frsldPvcCtrlTable OBJECT-TYPE frsldPvcCtrlTable OBJECT-TYPE
SYNTAX SEQUENCE OF FrsldPvcCtrlEntry SYNTAX SEQUENCE OF FrsldPvcCtrlEntry
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
STATUS current STATUS current
DESCRIPTION DESCRIPTION
skipping to change at page 23, line 34 skipping to change at page 26, line 48
-- --
-- Service Level Definitions Setup Variables -- Service Level Definitions Setup Variables
-- --
frsldPvcCtrlPacketFreq Integer32, frsldPvcCtrlPacketFreq Integer32,
-- --
-- Delay Specific Setup Variables -- Delay Specific Setup Variables
-- --
frsldPvcCtrlDelayFrSize Integer32, frsldPvcCtrlDelayFrSize Integer32,
frsldPvcCtrlDelayType INTEGER, frsldPvcCtrlDelayType INTEGER,
frsldPvcCtrlDelayTimeOut Integer32, frsldPvcCtrlDelayTimeOut Integer32,
frsldPvcCtrlDelayCnt Integer32,
-- --
-- Data Persistence Control Variables -- Data Persistence Control Variables
-- --
frsldPvcCtrlPurge Integer32, frsldPvcCtrlPurge Integer32,
frsldPvcCtrlDeleteOnPurge INTEGER, frsldPvcCtrlDeleteOnPurge INTEGER,
frsldPvcCtrlLastPurgeTime TimeStamp frsldPvcCtrlLastPurgeTime TimeStamp
} }
frsldPvcCtrlDlci OBJECT-TYPE frsldPvcCtrlDlci OBJECT-TYPE
SYNTAX Integer32 (16..4194303) SYNTAX Integer32 (16..4194303)
skipping to change at page 24, line 39 skipping to change at page 28, line 4
- ingTxLocalRP(2) for the local ingress queue input - ingTxLocalRP(2) for the local ingress queue input
- tpTxLocalRP(3) for the local traffic policing - tpTxLocalRP(3) for the local traffic policing
- eqiTxLocalRP(4) for the local egress queue input - eqiTxLocalRP(4) for the local egress queue input
- eqoTxLocalRP(5) for the local egress queue output - eqoTxLocalRP(5) for the local egress queue output
- otherTxLocalRP(6) for any other local transmit point - otherTxLocalRP(6) for any other local transmit point
- srcRemoteRP(7) for the remote source - srcRemoteRP(7) for the remote source
- ingTxLocalRP(8) for the remote ingress queue input - ingTxLocalRP(8) for the remote ingress queue input
- tpTxLocalRP(9) for the remote traffic policing - tpTxLocalRP(9) for the remote traffic policing
- eqiTxRemoteRP(10) for the remote egress queue input - eqiTxRemoteRP(10) for the remote egress queue input
- eqoTxRemoteRP(11) for the remote egress queue output - eqoTxRemoteRP(11) for the remote egress queue output
- otherTxRemoteRP(12) for any other remote transmit point" - otherTxRemoteRP(12) for any other remote xmit point"
::= { frsldPvcCtrlEntry 2 } ::= { frsldPvcCtrlEntry 2 }
frsldPvcCtrlReceiveRP OBJECT-TYPE frsldPvcCtrlReceiveRP OBJECT-TYPE
SYNTAX INTEGER { SYNTAX INTEGER {
desLocalRP(1), desLocalRP(1),
ingRxLocalRP(2), ingRxLocalRP(2),
tpRxLocalRP(3), tpRxLocalRP(3),
eqiRxLocalRP(4), eqiRxLocalRP(4),
eqoRxLocalRP(5), eqoRxLocalRP(5),
otherRxLocalRP(6), otherRxLocalRP(6),
skipping to change at page 27, line 13 skipping to change at page 30, line 26
UNITS "seconds" UNITS "seconds"
MAX-ACCESS read-create MAX-ACCESS read-create
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A delay frame will count as a missed poll if "A delay frame will count as a missed poll if
it is not updated in the time specified by it is not updated in the time specified by
frsldPvcCtrlDelayTimeOut." frsldPvcCtrlDelayTimeOut."
DEFVAL { 60 } DEFVAL { 60 }
::= { frsldPvcCtrlEntry 8 } ::= { frsldPvcCtrlEntry 8 }
frsldPvcCtrlDelayCnt OBJECT-TYPE
SYNTAX Integer32 (0..32767)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The number of discrete delay measurements that are
used to calculate the free running minimum, maximum
and average. A value of zero indicates that the values
are unbounded."
DEFVAL { 1000 }
::= { frsldPvcCtrlEntry 9 }
frsldPvcCtrlPurge OBJECT-TYPE frsldPvcCtrlPurge OBJECT-TYPE
SYNTAX Integer32 (0..172800) -- up to 48 hours SYNTAX Integer32 (0..172800) -- up to 48 hours
UNITS "seconds" UNITS "seconds"
MAX-ACCESS read-create MAX-ACCESS read-create
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"This object defines the amount of time the device "This object defines the amount of time the device
will wait, after discovering that a DLCI does not exist, will wait, after discovering that a DLCI does not exist,
the DLCI was deleted or the value of frsldPvcCtrlStatus the DLCI was deleted or the value of frsldPvcCtrlStatus
changes from active(1) to either notInService(2) or changes from active(1) to either notInService(2) or
notReady(3), prior to automatically purging the history notReady(3), prior to automatically purging the history
in the sample tables and resetting the data in the data in the sample tables and resetting the data in the data
tables to all zeroes. If frsldPvcCtrlStatus is manually tables to all zeroes. If frsldPvcCtrlStatus is manually
set to destroy(6), this object does not apply." set to destroy(6), this object does not apply."
DEFVAL { 0 } DEFVAL { 0 }
::= { frsldPvcCtrlEntry 10 } ::= { frsldPvcCtrlEntry 9 }
frsldPvcCtrlDeleteOnPurge OBJECT-TYPE frsldPvcCtrlDeleteOnPurge OBJECT-TYPE
SYNTAX INTEGER { SYNTAX INTEGER {
none(1), none(1),
sampleContols(2), sampleContols(2),
all(3) all(3)
} }
MAX-ACCESS read-create MAX-ACCESS read-create
STATUS current STATUS current
DESCRIPTION DESCRIPTION
skipping to change at page 28, line 16 skipping to change at page 31, line 17
- A value of none(1) indicates that no rows - A value of none(1) indicates that no rows
will deleted. The last known values will will deleted. The last known values will
be preserved. be preserved.
- A value of sampleControls(2) indicates - A value of sampleControls(2) indicates
that all associated sample control rows that all associated sample control rows
will be deleted. will be deleted.
- A value of all(3) indicates that all - A value of all(3) indicates that all
associated rows SHOULD be deleted." associated rows SHOULD be deleted."
DEFVAL { all } DEFVAL { all }
::= { frsldPvcCtrlEntry 11 } ::= { frsldPvcCtrlEntry 10 }
frsldPvcCtrlLastPurgeTime OBJECT-TYPE frsldPvcCtrlLastPurgeTime OBJECT-TYPE
SYNTAX TimeStamp SYNTAX TimeStamp
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"This object returns the value of sysUpTime "This object returns the value of sysUpTime
at the time the information was last purged. at the time the information was last purged.
This value SHOULD be set to the sysUpTime This value SHOULD be set to the sysUpTime
upon setting frsldPvcCtrlStatus to active(1) upon setting frsldPvcCtrlStatus to active(1)
for the first time. If frsldPvcCtrlStatus has for the first time. If frsldPvcCtrlStatus has
never been active(1), this object SHOULD return 0." never been active(1), this object SHOULD return 0."
DEFVAL { 0 } DEFVAL { 0 }
::= { frsldPvcCtrlEntry 12 } ::= { frsldPvcCtrlEntry 11 }
-- The Frame Relay Service Level Definitions Sampling Control -- The Frame Relay Service Level Definitions Sampling Control
-- Table -- Table
-- --
-- This table is used to define the sample control parameters -- This table is used to define the sample control parameters
-- of service level definitions on individual PVCs. -- of service level definitions on individual PVCs.
frsldSmplCtrlTable OBJECT-TYPE frsldSmplCtrlTable OBJECT-TYPE
SYNTAX SEQUENCE OF FrsldSmplCtrlEntry SYNTAX SEQUENCE OF FrsldSmplCtrlEntry
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
skipping to change at page 29, line 19 skipping to change at page 32, line 20
::= { frsldSmplCtrlTable 1 } ::= { frsldSmplCtrlTable 1 }
FrsldSmplCtrlEntry ::= FrsldSmplCtrlEntry ::=
SEQUENCE { SEQUENCE {
-- --
-- Index Control Variables -- Index Control Variables
-- --
frsldSmplCtrlIdx Integer32, frsldSmplCtrlIdx Integer32,
frsldSmplCtrlStatus RowStatus, frsldSmplCtrlStatus RowStatus,
-- --
-- Data Collection Control Variables -- Collection Control Variables
--
frsldSmplCtrlDataColPeriod Integer32,
frsldSmplCtrlDataBuckets Integer32,
frsldSmplCtrlDataBucketsGranted Integer32,
--
-- Availability Collection Control Variables
-- --
frsldSmplCtrlAvailColPeriod Integer32, frsldSmplCtrlColPeriod Integer32,
frsldSmplCtrlAvailBuckets Integer32, frsldSmplCtrlBuckets Integer32,
frsldSmplCtrlAvailBucketsGranted Integer32 frsldSmplCtrlBucketsGranted Integer32
} }
frsldSmplCtrlIdx OBJECT-TYPE frsldSmplCtrlIdx OBJECT-TYPE
SYNTAX Integer32 (1..256) SYNTAX Integer32 (1..256)
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The unique index for this row in the "The unique index for this row in the
sample control table." sample control table."
::= { frsldSmplCtrlEntry 1 } ::= { frsldSmplCtrlEntry 1 }
skipping to change at page 30, line 19 skipping to change at page 33, line 14
value of active(1). value of active(1).
The value of frsldPvcCtrlStatus MUST be active(1) The value of frsldPvcCtrlStatus MUST be active(1)
to transition this object to active(1). If to transition this object to active(1). If
the value of frsldPvcCtrlStatus becomes anything the value of frsldPvcCtrlStatus becomes anything
other than active(1) when the state of this object other than active(1) when the state of this object
is not active(1), this object SHOULD be set to is not active(1), this object SHOULD be set to
notReady(3)." notReady(3)."
::= { frsldSmplCtrlEntry 2 } ::= { frsldSmplCtrlEntry 2 }
frsldSmplCtrlDataColPeriod OBJECT-TYPE frsldSmplCtrlColPeriod OBJECT-TYPE
SYNTAX Integer32 (1..2147483647) SYNTAX Integer32 (1..2147483647)
UNITS "seconds" UNITS "seconds"
MAX-ACCESS read-create MAX-ACCESS read-create
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The amount of time in seconds that defines a "The amount of time in seconds that defines a
period of collection for data delivery statistics. period of collection for the statistics.
At the end of each period, the statistics will be At the end of each period, the statistics will be
sampled and a row is added to the sample table." sampled and a row is added to the sample table."
::= { frsldSmplCtrlEntry 3 } ::= { frsldSmplCtrlEntry 3 }
frsldSmplCtrlDataBuckets OBJECT-TYPE frsldSmplCtrlBuckets OBJECT-TYPE
SYNTAX Integer32 (1..65535) SYNTAX Integer32 (1..65535)
MAX-ACCESS read-create MAX-ACCESS read-create
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of discrete buckets over which the "The number of discrete buckets over which the
data statistics are sampled. data statistics are sampled.
When this object is created or modified, the device When this object is created or modified, the device
SHOULD attempt to set the frsldSmplCtrlDataBuckets- SHOULD attempt to set the frsldSmplCtrlBuckets-
Granted to a value as close as is possible Granted to a value as close as is possible
depending upon the implementation and the available depending upon the implementation and the available
resources." resources."
DEFVAL { 60 } DEFVAL { 60 }
::= { frsldSmplCtrlEntry 4 } ::= { frsldSmplCtrlEntry 4 }
frsldSmplCtrlDataBucketsGranted OBJECT-TYPE frsldSmplCtrlBucketsGranted OBJECT-TYPE
SYNTAX Integer32 (0..65535) SYNTAX Integer32 (0..65535)
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of discrete buckets granted. This "The number of discrete buckets granted. This
object will return 0 until frsldSmplCtrlStatus is object will return 0 until frsldSmplCtrlStatus is
set to active(1). At that time the buckets will be set to active(1). At that time the buckets will be
allocated depending upon implementation and allocated depending upon implementation and
available resources." available resources."
::= { frsldSmplCtrlEntry 5 } ::= { frsldSmplCtrlEntry 5 }
frsldSmplCtrlAvailColPeriod OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
UNITS "seconds"
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The amount of time in seconds that defines a
period of collection for availability statistics.
At the end of each period, the statistics will be
sampled and a row is added to the sample table."
::= { frsldSmplCtrlEntry 6 }
frsldSmplCtrlAvailBuckets OBJECT-TYPE
SYNTAX Integer32 (1..65535)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The number of discrete buckets over which the
availability statistics are sampled.
When this object is created or modified, the device
SHOULD attempt to set the frsldSmplCtrlDataBuckets-
Granted to a value as close as is possible
depending upon the implementation and the available
resources."
DEFVAL { 60 }
::= { frsldSmplCtrlEntry 7 }
frsldSmplCtrlAvailBucketsGranted OBJECT-TYPE
SYNTAX Integer32 (0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of discrete buckets granted. This
object will return 0 until frsldSmplCtrlStatus is
set to active(1). At that time the buckets will be
allocated depending upon implementation and
available resources."
::= { frsldSmplCtrlEntry 8 }
-- The Frame Relay Service Level Definitions PVC Data Table -- The Frame Relay Service Level Definitions PVC Data Table
-- --
-- This table contains the accumulated values of -- This table contains the accumulated values of
-- the collected data. This table is the table that should -- the collected data. This table is the table that should
-- be referenced by external polling mechanisms if time -- be referenced by external polling mechanisms if time
-- based polling be desired. -- based polling be desired.
frsldPvcDataTable OBJECT-TYPE frsldPvcDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF FrsldPvcDataEntry SYNTAX SEQUENCE OF FrsldPvcDataEntry
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
skipping to change at page 32, line 36 skipping to change at page 34, line 40
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"An entry in the Frame Relay Service Level "An entry in the Frame Relay Service Level
Definitions data table." Definitions data table."
INDEX { ifIndex, frsldPvcCtrlDlci, INDEX { ifIndex, frsldPvcCtrlDlci,
frsldPvcCtrlTransmitRP, frsldPvcCtrlReceiveRP} frsldPvcCtrlTransmitRP, frsldPvcCtrlReceiveRP}
::= { frsldPvcDataTable 1 } ::= { frsldPvcDataTable 1 }
FrsldPvcDataEntry ::= FrsldPvcDataEntry ::=
SEQUENCE { SEQUENCE {
frsldPvcDataDelayMin Gauge32,
frsldPvcDataDelayMax Gauge32,
frsldPvcDataDelayAvg Gauge32,
frsldPvcDataMissedPolls Counter32, frsldPvcDataMissedPolls Counter32,
frsldPvcDataFrDeliveredC Counter32, frsldPvcDataFrDeliveredC Counter32,
frsldPvcDataFrDeliveredE Counter32, frsldPvcDataFrDeliveredE Counter32,
frsldPvcDataFrOfferedC Counter32, frsldPvcDataFrOfferedC Counter32,
frsldPvcDataFrOfferedE Counter32, frsldPvcDataFrOfferedE Counter32,
frsldPvcDataDataDeliveredC Counter32, frsldPvcDataDataDeliveredC Counter32,
frsldPvcDataDataDeliveredE Counter32, frsldPvcDataDataDeliveredE Counter32,
frsldPvcDataDataOfferedC Counter32, frsldPvcDataDataOfferedC Counter32,
frsldPvcDataDataOfferedE Counter32, frsldPvcDataDataOfferedE Counter32,
frsldPvcDataHCFrDeliveredC Counter64, frsldPvcDataHCFrDeliveredC Counter64,
skipping to change at page 33, line 12 skipping to change at page 35, line 13
frsldPvcDataHCFrOfferedC Counter64, frsldPvcDataHCFrOfferedC Counter64,
frsldPvcDataHCFrOfferedE Counter64, frsldPvcDataHCFrOfferedE Counter64,
frsldPvcDataHCDataDeliveredC Counter64, frsldPvcDataHCDataDeliveredC Counter64,
frsldPvcDataHCDataDeliveredE Counter64, frsldPvcDataHCDataDeliveredE Counter64,
frsldPvcDataHCDataOfferedC Counter64, frsldPvcDataHCDataOfferedC Counter64,
frsldPvcDataHCDataOfferedE Counter64, frsldPvcDataHCDataOfferedE Counter64,
frsldPvcDataUnavailableTime TimeTicks, frsldPvcDataUnavailableTime TimeTicks,
frsldPvcDataUnavailables Counter32 frsldPvcDataUnavailables Counter32
} }
frsldPvcDataDelayMin OBJECT-TYPE
SYNTAX Gauge32
UNITS "microseconds"
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The minimum delay, reported in microseconds, that
has been detected within the frsldPvcCtrlDelayCnt
most recent delay queries.
A value of zero means that no data is available."
::= { frsldPvcDataEntry 1 }
frsldPvcDataDelayMax OBJECT-TYPE
SYNTAX Gauge32
UNITS "microseconds"
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The largest delay, reported in microseconds, that
has been detected within the frsldPvcCtrlDelayCnt
most recent delay queries.
A value of zero means that no data is available."
::= { frsldPvcDataEntry 2 }
frsldPvcDataDelayAvg OBJECT-TYPE
SYNTAX Gauge32
UNITS "microseconds"
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The average delay, reported in microseconds,
calculated over the frsldPvcCtrlDelayCnt most
recent delay queries.
A value of zero means that no data is available."
::= { frsldPvcDataEntry 3 }
frsldPvcDataMissedPolls OBJECT-TYPE frsldPvcDataMissedPolls OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The total number of polls that have been determined "The total number of polls that have been determined
to be missed." to be missed."
::= { frsldPvcDataEntry 4 } ::= { frsldPvcDataEntry 1 }
frsldPvcDataFrDeliveredC OBJECT-TYPE frsldPvcDataFrDeliveredC OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR." sent within CIR."
::= { frsldPvcDataEntry 5 } ::= { frsldPvcDataEntry 2 }
frsldPvcDataFrDeliveredE OBJECT-TYPE frsldPvcDataFrDeliveredE OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR." sent in excess of the CIR."
::= { frsldPvcDataEntry 6 } ::= { frsldPvcDataEntry 3 }
frsldPvcDataFrOfferedC OBJECT-TYPE frsldPvcDataFrOfferedC OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP within CIR." frsldPvcCtrlTransmitRP within CIR."
::= { frsldPvcDataEntry 7 } ::= { frsldPvcDataEntry 4 }
frsldPvcDataFrOfferedE OBJECT-TYPE frsldPvcDataFrOfferedE OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR." frsldPvcCtrlTransmitRP in excess of the CIR."
::= { frsldPvcDataEntry 8 } ::= { frsldPvcDataEntry 5 }
frsldPvcDataDataDeliveredC OBJECT-TYPE frsldPvcDataDataDeliveredC OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR." sent within CIR."
::= { frsldPvcDataEntry 9 } ::= { frsldPvcDataEntry 6 }
frsldPvcDataDataDeliveredE OBJECT-TYPE frsldPvcDataDataDeliveredE OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR." sent in excess of the CIR."
::= { frsldPvcDataEntry 10 } ::= { frsldPvcDataEntry 7 }
frsldPvcDataDataOfferedC OBJECT-TYPE frsldPvcDataDataOfferedC OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP within CIR." frsldPvcCtrlTransmitRP within CIR."
::= { frsldPvcDataEntry 11 } ::= { frsldPvcDataEntry 8 }
frsldPvcDataDataOfferedE OBJECT-TYPE frsldPvcDataDataOfferedE OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR." frsldPvcCtrlTransmitRP in excess of the CIR."
::= { frsldPvcDataEntry 12 } ::= { frsldPvcDataEntry 9 }
frsldPvcDataHCFrDeliveredC OBJECT-TYPE frsldPvcDataHCFrDeliveredC OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR. This object is a 64-bit version sent within CIR. This object is a 64-bit version
of frsldPvcDataFrDeliveredC." of frsldPvcDataFrDeliveredC."
::= { frsldPvcDataEntry 13 } ::= { frsldPvcDataEntry 10 }
frsldPvcDataHCFrDeliveredE OBJECT-TYPE frsldPvcDataHCFrDeliveredE OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR. This object is a 64-bit sent in excess of the CIR. This object is a 64-bit
version of frsldPvcDataFrDeliveredE." version of frsldPvcDataFrDeliveredE."
::= { frsldPvcDataEntry 14 } ::= { frsldPvcDataEntry 11 }
frsldPvcDataHCFrOfferedC OBJECT-TYPE frsldPvcDataHCFrOfferedC OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP within CIR. This object is frsldPvcCtrlTransmitRP within CIR. This object is
a 64-bit version of frsldPvcDataFrOfferedC." a 64-bit version of frsldPvcDataFrOfferedC."
::= { frsldPvcDataEntry 15 } ::= { frsldPvcDataEntry 12 }
frsldPvcDataHCFrOfferedE OBJECT-TYPE frsldPvcDataHCFrOfferedE OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR. This frsldPvcCtrlTransmitRP in excess of the CIR. This
object is a 64-bit version of frsldPvcDataFrOfferedE." object is a 64-bit version of frsldPvcDataFrOfferedE."
::= { frsldPvcDataEntry 16 } ::= { frsldPvcDataEntry 13 }
frsldPvcDataHCDataDeliveredC OBJECT-TYPE frsldPvcDataHCDataDeliveredC OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR. This object is a 64-bit version of sent within CIR. This object is a 64-bit version of
frsldPvcDataDataDeliveredC." frsldPvcDataDataDeliveredC."
::= { frsldPvcDataEntry 17 } ::= { frsldPvcDataEntry 14 }
frsldPvcDataHCDataDeliveredE OBJECT-TYPE frsldPvcDataHCDataDeliveredE OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR. This object is a 64-bit sent in excess of the CIR. This object is a 64-bit
version of frsldPvcDataDataDeliveredE." version of frsldPvcDataDataDeliveredE."
::= { frsldPvcDataEntry 18 } ::= { frsldPvcDataEntry 15 }
frsldPvcDataHCDataOfferedC OBJECT-TYPE frsldPvcDataHCDataOfferedC OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP within CIR. This object is frsldPvcCtrlTransmitRP within CIR. This object is
a 64-bit version of frsldPvcDataDataOfferedC." a 64-bit version of frsldPvcDataDataOfferedC."
::= { frsldPvcDataEntry 19 } ::= { frsldPvcDataEntry 16 }
frsldPvcDataHCDataOfferedE OBJECT-TYPE frsldPvcDataHCDataOfferedE OBJECT-TYPE
SYNTAX Counter64 SYNTAX Counter64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR. frsldPvcCtrlTransmitRP in excess of the CIR.
This object is a 64-bit version of This object is a 64-bit version of
frsldPvcDataDataOfferedE." frsldPvcDataDataOfferedE."
::= { frsldPvcDataEntry 20 } ::= { frsldPvcDataEntry 17 }
frsldPvcDataUnavailableTime OBJECT-TYPE frsldPvcDataUnavailableTime OBJECT-TYPE
SYNTAX TimeTicks SYNTAX TimeTicks
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The amount of time this PVC was declared unavailable "The amount of time this PVC was declared unavailable
for any reason since this row was created." for any reason since this row was created."
::= { frsldPvcDataEntry 21 } ::= { frsldPvcDataEntry 18 }
frsldPvcDataUnavailables OBJECT-TYPE frsldPvcDataUnavailables OBJECT-TYPE
SYNTAX Counter32 SYNTAX Counter32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of times this PVC was declared unavailable "The number of times this PVC was declared unavailable
for any reason since this row was created." for any reason since this row was created."
::= { frsldPvcDataEntry 22 } ::= { frsldPvcDataEntry 19 }
-- The Frame Relay Service Level Definitions PVC -- The Frame Relay Service Level Definitions PVC Sample Table
-- Data Sample Table
-- --
-- This table contains the sampled delay and delivery -- This table contains the sampled delay, delivery and
-- information. -- availability information.
frsldPvcDataSampleTable OBJECT-TYPE frsldPvcSampleTable OBJECT-TYPE
SYNTAX SEQUENCE OF FrsldPvcDataSampleEntry SYNTAX SEQUENCE OF FrsldPvcSampleEntry
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The Frame Relay Service Level Definitions "The Frame Relay Service Level Definitions
data sample table." sample table."
::= { frsldObjects 4 } ::= { frsldObjects 4 }
frsldPvcDataSampleEntry OBJECT-TYPE frsldPvcSampleEntry OBJECT-TYPE
SYNTAX FrsldPvcDataSampleEntry SYNTAX FrsldPvcSampleEntry
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"An entry in the Frame Relay Service Level "An entry in the Frame Relay Service Level
Definitions data sample table." Definitions data sample table."
INDEX { ifIndex, frsldPvcCtrlDlci, INDEX { ifIndex, frsldPvcCtrlDlci,
frsldPvcCtrlTransmitRP, frsldPvcCtrlReceiveRP, frsldPvcCtrlTransmitRP, frsldPvcCtrlReceiveRP,
frsldSmplCtrlIdx, frsldPvcDataSmplIdx } frsldSmplCtrlIdx, frsldPvcSmplIdx }
::= { frsldPvcDataSampleTable 1 } ::= { frsldPvcSampleTable 1 }
FrsldPvcDataSampleEntry ::= FrsldPvcSampleEntry ::=
SEQUENCE { SEQUENCE {
frsldPvcDataSmplIdx Integer32, frsldPvcSmplIdx Integer32,
frsldPvcDataSmplDelayMin Gauge32, frsldPvcSmplDelayMin Gauge32,
frsldPvcDataSmplDelayMax Gauge32, frsldPvcSmplDelayMax Gauge32,
frsldPvcDataSmplDelayAvg Gauge32, frsldPvcSmplDelayAvg Gauge32,
frsldPvcDataSmplMissedPolls Gauge32, frsldPvcSmplMissedPolls Gauge32,
frsldPvcDataSmplFrDeliveredC Gauge32, frsldPvcSmplFrDeliveredC Gauge32,
frsldPvcDataSmplFrDeliveredE Gauge32, frsldPvcSmplFrDeliveredE Gauge32,
frsldPvcDataSmplFrOfferedC Gauge32, frsldPvcSmplFrOfferedC Gauge32,
frsldPvcDataSmplFrOfferedE Gauge32, frsldPvcSmplFrOfferedE Gauge32,
frsldPvcDataSmplDataDeliveredC Gauge32, frsldPvcSmplDataDeliveredC Gauge32,
frsldPvcDataSmplDataDeliveredE Gauge32, frsldPvcSmplDataDeliveredE Gauge32,
frsldPvcDataSmplDataOfferedC Gauge32, frsldPvcSmplDataOfferedC Gauge32,
frsldPvcDataSmplDataOfferedE Gauge32, frsldPvcSmplDataOfferedE Gauge32,
frsldPvcDataSmplHCFrDeliveredC CounterBasedGauge64, frsldPvcSmplHCFrDeliveredC CounterBasedGauge64,
frsldPvcDataSmplHCFrDeliveredE CounterBasedGauge64, frsldPvcSmplHCFrDeliveredE CounterBasedGauge64,
frsldPvcDataSmplHCFrOfferedC CounterBasedGauge64, frsldPvcSmplHCFrOfferedC CounterBasedGauge64,
frsldPvcDataSmplHCFrOfferedE CounterBasedGauge64, frsldPvcSmplHCFrOfferedE CounterBasedGauge64,
frsldPvcDataSmplHCDataDeliveredC CounterBasedGauge64, frsldPvcSmplHCDataDeliveredC CounterBasedGauge64,
frsldPvcDataSmplHCDataDeliveredE CounterBasedGauge64, frsldPvcSmplHCDataDeliveredE CounterBasedGauge64,
frsldPvcDataSmplHCDataOfferedC CounterBasedGauge64, frsldPvcSmplHCDataOfferedC CounterBasedGauge64,
frsldPvcDataSmplHCDataOfferedE CounterBasedGauge64, frsldPvcSmplHCDataOfferedE CounterBasedGauge64,
frsldPvcDataSmplStartTime TimeStamp, frsldPvcSmplUnavailableTime TimeTicks,
frsldPvcDataSmplEndTime TimeStamp frsldPvcSmplUnavailables Gauge32,
frsldPvcSmplStartTime TimeStamp,
frsldPvcSmplEndTime TimeStamp
} }
frsldPvcDataSmplIdx OBJECT-TYPE
frsldPvcSmplIdx OBJECT-TYPE
SYNTAX Integer32 (1..2147483647) SYNTAX Integer32 (1..2147483647)
MAX-ACCESS not-accessible MAX-ACCESS not-accessible
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The bucket index of the current sample. This "The bucket index of the current sample. This
increments once for each new bucket in the increments once for each new bucket in the
table." table."
::= { frsldPvcDataSampleEntry 1 } ::= { frsldPvcSampleEntry 1 }
frsldPvcDataSmplDelayMin OBJECT-TYPE frsldPvcSmplDelayMin OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
UNITS "microseconds" UNITS "microseconds"
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The minimum delay reported in microseconds measured "The minimum delay reported in microseconds measured
for any information packet that arrived during this for any information packet that arrived during this
interval. interval.
A value of zero means that no data is available." A value of zero means that no data is available."
::= { frsldPvcDataSampleEntry 2 } ::= { frsldPvcSampleEntry 2 }
frsldPvcDataSmplDelayMax OBJECT-TYPE frsldPvcSmplDelayMax OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
UNITS "microseconds" UNITS "microseconds"
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The largest delay reported in microseconds measured "The largest delay reported in microseconds measured
for any information packet that arrived during this for any information packet that arrived during this
interval. interval.
A value of zero means that no data is available." A value of zero means that no data is available."
::= { frsldPvcDataSampleEntry 3 } ::= { frsldPvcSampleEntry 3 }
frsldPvcSmplDelayAvg OBJECT-TYPE
frsldPvcDataSmplDelayAvg OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
UNITS "microseconds" UNITS "microseconds"
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The average delay reported in microseconds measured "The average delay reported in microseconds measured
for all delay packets that arrived during this for all delay packets that arrived during this
interval. interval.
A value of zero means that no data is available." A value of zero means that no data is available."
::= { frsldPvcDataSampleEntry 4 } ::= { frsldPvcSampleEntry 4 }
frsldPvcDataSmplMissedPolls OBJECT-TYPE
frsldPvcSmplMissedPolls OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The total number of polls that were missed during "The total number of polls that were missed during
this interval." this interval."
::= { frsldPvcDataSampleEntry 5 } ::= { frsldPvcSampleEntry 5 }
frsldPvcDataSmplFrDeliveredC OBJECT-TYPE frsldPvcSmplFrDeliveredC OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR during this interval." sent within CIR during this interval."
::= { frsldPvcDataSampleEntry 6 } ::= { frsldPvcSampleEntry 6 }
frsldPvcDataSmplFrDeliveredE OBJECT-TYPE frsldPvcSmplFrDeliveredE OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR during this interval." sent in excess of the CIR during this interval."
::= { frsldPvcDataSampleEntry 7 } ::= { frsldPvcSampleEntry 7 }
frsldPvcDataSmplFrOfferedC OBJECT-TYPE frsldPvcSmplFrOfferedC OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP within CIR during this frsldPvcCtrlTransmitRP within CIR during this
interval." interval."
::= { frsldPvcDataSampleEntry 8 } ::= { frsldPvcSampleEntry 8 }
frsldPvcDataSmplFrOfferedE OBJECT-TYPE frsldPvcSmplFrOfferedE OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR frsldPvcCtrlTransmitRP in excess of the CIR
during this interval." during this interval."
::= { frsldPvcDataSampleEntry 9 } ::= { frsldPvcSampleEntry 9 }
frsldPvcDataSmplDataDeliveredC OBJECT-TYPE
frsldPvcSmplDataDeliveredC OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR during this interval." sent within CIR during this interval."
::= { frsldPvcDataSampleEntry 10 } ::= { frsldPvcSampleEntry 10 }
frsldPvcDataSmplDataDeliveredE OBJECT-TYPE frsldPvcSmplDataDeliveredE OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlDeliveredRP and determined to have been frsldPvcCtrlDeliveredRP and determined to have been
sent in excess of the CIR during this interval." sent in excess of the CIR during this interval."
::= { frsldPvcDataSampleEntry 11 } ::= { frsldPvcSampleEntry 11 }
frsldPvcDataSmplDataOfferedC OBJECT-TYPE frsldPvcSmplDataOfferedC OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP within CIR during this frsldPvcCtrlTransmitRP within CIR during this
interval." interval."
::= { frsldPvcDataSampleEntry 12 } ::= { frsldPvcSampleEntry 12 }
frsldPvcDataSmplDataOfferedE OBJECT-TYPE frsldPvcSmplDataOfferedE OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR frsldPvcCtrlTransmitRP in excess of the CIR
during this interval." during this interval."
::= { frsldPvcDataSampleEntry 13 } ::= { frsldPvcSampleEntry 13 }
frsldPvcDataSmplHCFrDeliveredC OBJECT-TYPE frsldPvcSmplHCFrDeliveredC OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR during this interval. This object sent within CIR during this interval. This object
is a 64-bit version of frsldPvcDataSmplFrDeliveredC." is a 64-bit version of frsldPvcSmplFrDeliveredC."
::= { frsldPvcDataSampleEntry 14 } ::= { frsldPvcSampleEntry 14 }
frsldPvcDataSmplHCFrDeliveredE OBJECT-TYPE frsldPvcSmplHCFrDeliveredE OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were received at "The number of frames that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR during this interval. sent in excess of the CIR during this interval.
This object is a 64-bit version of frsldPvcDataSmpl- This object is a 64-bit version of frsldPvcSmpl-
FrDeliveredE." FrDeliveredE."
::= { frsldPvcDataSampleEntry 15 } ::= { frsldPvcSampleEntry 15 }
frsldPvcDataSmplHCFrOfferedC OBJECT-TYPE frsldPvcSmplHCFrOfferedC OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP within CIR during this frsldPvcCtrlTransmitRP within CIR during this
interval. This object is a 64-bit version of interval. This object is a 64-bit version of
frsldPvcDataSmplFrOfferedC." frsldPvcSmplFrOfferedC."
::= { frsldPvcDataSampleEntry 16 } ::= { frsldPvcSampleEntry 16 }
frsldPvcDataSmplHCFrOfferedE OBJECT-TYPE frsldPvcSmplHCFrOfferedE OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of frames that were offered through "The number of frames that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR frsldPvcCtrlTransmitRP in excess of the CIR
during this interval. This object is a 64-bit during this interval. This object is a 64-bit
version of frsldPvcDataSmplFrOfferedE." version of frsldPvcSmplFrOfferedE."
::= { frsldPvcDataSampleEntry 17 } ::= { frsldPvcSampleEntry 17 }
frsldPvcDataSmplHCDataDeliveredC OBJECT-TYPE frsldPvcSmplHCDataDeliveredC OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent within CIR during this interval. This value sent within CIR during this interval. This value
is a 64-bit version of frsldPvcDataSmplDataDeliveredC." is a 64-bit version of frsldPvcSmplDataDeliveredC."
::= { frsldPvcDataSampleEntry 18 } ::= { frsldPvcSampleEntry 18 }
frsldPvcDataSmplHCDataDeliveredE OBJECT-TYPE
frsldPvcSmplHCDataDeliveredE OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were received at "The number of octets that were received at
frsldPvcCtrlReceiveRP and determined to have been frsldPvcCtrlReceiveRP and determined to have been
sent in excess of the CIR during this interval. This sent in excess of the CIR during this interval. This
value is a 64-bit version of frsldPvcDataSmplData- value is a 64-bit version of frsldPvcSmplData-
DeliveredE." DeliveredE."
::= { frsldPvcDataSampleEntry 19 } ::= { frsldPvcSampleEntry 19 }
frsldPvcDataSmplHCDataOfferedC OBJECT-TYPE frsldPvcSmplHCDataOfferedC OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP within CIR during this frsldPvcCtrlTransmitRP within CIR during this
interval. This value is a 64-bit version of interval. This value is a 64-bit version of
frsldPvcDataSmplDataOfferedC." frsldPvcSmplDataOfferedC."
::= { frsldPvcDataSampleEntry 20 } ::= { frsldPvcSampleEntry 20 }
frsldPvcDataSmplHCDataOfferedE OBJECT-TYPE frsldPvcSmplHCDataOfferedE OBJECT-TYPE
SYNTAX CounterBasedGauge64 SYNTAX CounterBasedGauge64
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of octets that were offered through "The number of octets that were offered through
frsldPvcCtrlTransmitRP in excess of the CIR frsldPvcCtrlTransmitRP in excess of the CIR
during this interval. This object is a 64-bit during this interval. This object is a 64-bit
version of frsldPvcDataSmplDataOfferedE." version of frsldPvcSmplDataOfferedE."
::= { frsldPvcDataSampleEntry 21 } ::= { frsldPvcSampleEntry 21 }
frsldPvcSmplUnavailableTime OBJECT-TYPE
frsldPvcDataSmplStartTime OBJECT-TYPE
SYNTAX TimeStamp
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value of sysUpTime when this sample interval
started."
::= { frsldPvcDataSampleEntry 22 }
frsldPvcDataSmplEndTime OBJECT-TYPE
SYNTAX TimeStamp
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value of sysUpTime when this sample interval
ended. No data will be reported and the row will
not appear in the table until the sample has
been collected."
::= { frsldPvcDataSampleEntry 23 }
-- The Frame Relay Service Level Definitions PVC
-- Availability Sample Table
--
-- This table contains the sampled availability information.
frsldPvcAvailSampleTable OBJECT-TYPE
SYNTAX SEQUENCE OF FrsldPvcAvailSampleEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Frame Relay Service Level Definitions
availability sample table."
::= { frsldObjects 5 }
frsldPvcAvailSampleEntry OBJECT-TYPE
SYNTAX FrsldPvcAvailSampleEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry in the Frame Relay Service Level
Definitions availability sample table."
INDEX { ifIndex, frsldPvcCtrlDlci,
frsldPvcCtrlTransmitRP, frsldPvcCtrlReceiveRP,
frsldSmplCtrlIdx, frsldPvcAvailSmplIdx }
::= { frsldPvcAvailSampleTable 1 }
FrsldPvcAvailSampleEntry ::=
SEQUENCE {
frsldPvcAvailSmplIdx Integer32,
frsldPvcAvailSmplUnavailableTime TimeTicks,
frsldPvcAvailSmplUnavailables Gauge32,
frsldPvcAvailSmplStartTime TimeStamp,
frsldPvcAvailSmplEndTime TimeStamp
}
frsldPvcAvailSmplIdx OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The bucket index of the current sample. This
increments once for each new bucket in the
table."
::= { frsldPvcAvailSampleEntry 1 }
frsldPvcAvailSmplUnavailableTime OBJECT-TYPE
SYNTAX TimeTicks SYNTAX TimeTicks
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The amount of time this PVC was declared "The amount of time this PVC was declared
unavailable for any reason during this interval." unavailable for any reason during this interval."
::= { frsldPvcAvailSampleEntry 2 } ::= { frsldPvcSampleEntry 22 }
frsldPvcAvailSmplUnavailables OBJECT-TYPE frsldPvcSmplUnavailables OBJECT-TYPE
SYNTAX Gauge32 SYNTAX Gauge32
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The number of times this PVC was declared "The number of times this PVC was declared
unavailable for any reason during this interval." unavailable for any reason during this interval."
::= { frsldPvcAvailSampleEntry 3 } ::= { frsldPvcSampleEntry 23 }
frsldPvcAvailSmplStartTime OBJECT-TYPE frsldPvcSmplStartTime OBJECT-TYPE
SYNTAX TimeStamp SYNTAX TimeStamp
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The value of sysUpTime when this sample interval "The value of sysUpTime when this sample interval
started." started."
::= { frsldPvcAvailSampleEntry 4 } ::= { frsldPvcSampleEntry 24 }
frsldPvcAvailSmplEndTime OBJECT-TYPE frsldPvcSmplEndTime OBJECT-TYPE
SYNTAX TimeStamp SYNTAX TimeStamp
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"The value of sysUpTime when this sample interval "The value of sysUpTime when this sample interval
ended. No data will be reported and the row will ended. No data will be reported and the row will
not appear in the table until the sample has not appear in the table until the sample has
been collected." been collected."
::= { frsldPvcAvailSampleEntry 5 } ::= { frsldPvcSampleEntry 25 }
-- Capabilities Group -- Capabilities Group
-- This group provides capabilities objects for the tables -- This group provides capabilities objects for the tables
-- that control configuration. -- that control configuration.
frsldPvcCtrlWriteCaps OBJECT-TYPE frsldPvcCtrlWriteCaps OBJECT-TYPE
SYNTAX BITS { SYNTAX BITS {
frsldPvcCtrlStatus(0), frsldPvcCtrlStatus(0),
frsldPvcCtrlPacketFreq(1), frsldPvcCtrlPacketFreq(1),
frsldPvcCtrlDelayFrSize(2), frsldPvcCtrlDelayFrSize(2),
frsldPvcCtrlDelayType(3), frsldPvcCtrlDelayType(3),
frsldPvcCtrlDelayTimeOut(4), frsldPvcCtrlDelayTimeOut(4),
frsldPvcCtrlDelayCnt(5), frsldPvcCtrlPurge(5),
frsldPvcCtrlPurge(6), frsldPvcCtrlDeleteOnPurge(6)
frsldPvcCtrlDeleteOnPurge(7)
} }
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"This object specifies the write capabilities "This object specifies the write capabilities
for the read-create objects of the PVC Control for the read-create objects of the PVC Control
table. If the corresponding bit is enabled (1), table. If the corresponding bit is enabled (1),
the agent supports writes to that object." the agent supports writes to that object."
::= { frsldCapabilities 1 } ::= { frsldCapabilities 1 }
skipping to change at page 47, line 11 skipping to change at page 47, line 7
otherTxRemoteRP(11), otherTxRemoteRP(11),
desLocalRP(12), desLocalRP(12),
ingRxLocalRP(13), ingRxLocalRP(13),
tpRxLocalRP(14), tpRxLocalRP(14),
eqiRxLocalRP(15), eqiRxLocalRP(15),
eqoRxLocalRP(16), eqoRxLocalRP(16),
otherRxLocalRP(17), otherRxLocalRP(17),
desRemoteRP(18), desRemoteRP(18),
ingRxRemoteRP(19), ingRxRemoteRP(19),
tpRxRemoteRP(20), tpRxRemoteRP(20),
eqiRxLocalRP(21), eqiRxRemoteRP(21),
eqoRxLocalRP(22), eqoRxRemoteRP(22),
otherRxRemoteRP(23) otherRxRemoteRP(23)
} }
MAX-ACCESS read-only MAX-ACCESS read-only
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"This object specifies the reference points that "This object specifies the reference points that
the agent supports. This object allows the management the agent supports. This object allows the management
application to discover which rows can be created on application to discover which rows can be created on
a specific device." a specific device."
::= { frsldCapabilities 3 } ::= { frsldCapabilities 3 }
skipping to change at page 48, line 48 skipping to change at page 48, line 45
DESCRIPTION DESCRIPTION
"A collection of optional objects providing packet "A collection of optional objects providing packet
level control information applicable to a PVC which level control information applicable to a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 2 } ::= { frsldMIBGroups 2 }
frsldPvcDelayCtrlGroup OBJECT-GROUP frsldPvcDelayCtrlGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcCtrlDelayFrSize, frsldPvcCtrlDelayFrSize,
frsldPvcCtrlDelayType, frsldPvcCtrlDelayType,
frsldPvcCtrlDelayTimeOut, frsldPvcCtrlDelayTimeOut
frsldPvcCtrlDelayCnt
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing delay "A collection of optional objects providing delay
control information applicable to a PVC which control information applicable to a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 3 } ::= { frsldMIBGroups 3 }
frsldPvcDataSampleCtrlGroup OBJECT-GROUP frsldPvcSampleCtrlGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldSmplCtrlStatus, frsldSmplCtrlStatus,
frsldSmplCtrlDataColPeriod, frsldSmplCtrlColPeriod,
frsldSmplCtrlDataBuckets, frsldSmplCtrlBuckets,
frsldSmplCtrlDataBucketsGranted, frsldSmplCtrlBucketsGranted
frsldSmplCtrlAvailColPeriod,
frsldSmplCtrlAvailBuckets,
frsldSmplCtrlAvailBucketsGranted
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing sample "A collection of optional objects providing sample
control information applicable to a PVC which control information applicable to a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 4 } ::= { frsldMIBGroups 4 }
frsldPvcReqDataGroup OBJECT-GROUP frsldPvcReqDataGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataDelayAvg,
frsldPvcDataFrDeliveredC, frsldPvcDataFrDeliveredC,
frsldPvcDataFrDeliveredE, frsldPvcDataFrDeliveredE,
frsldPvcDataFrOfferedC, frsldPvcDataFrOfferedC,
frsldPvcDataFrOfferedE, frsldPvcDataFrOfferedE,
frsldPvcDataDataDeliveredC, frsldPvcDataDataDeliveredC,
frsldPvcDataDataDeliveredE, frsldPvcDataDataDeliveredE,
frsldPvcDataDataOfferedC, frsldPvcDataDataOfferedC,
frsldPvcDataDataOfferedE, frsldPvcDataDataOfferedE,
frsldPvcDataUnavailableTime, frsldPvcDataUnavailableTime,
frsldPvcDataUnavailables frsldPvcDataUnavailables
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of required objects providing data "A collection of required objects providing data
collected on a PVC which implements Service collected on a PVC which implements Service
Level Definitions." Level Definitions."
::= { frsldMIBGroups 5 } ::= { frsldMIBGroups 5 }
frsldPvcDelayDataGroup OBJECT-GROUP frsldPvcDelayDataGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataDelayMin,
frsldPvcDataDelayMax,
frsldPvcDataMissedPolls frsldPvcDataMissedPolls
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing delay "A collection of optional objects providing delay
data collected on a PVC which implements Service data collected on a PVC which implements Service
Level Definitions." Level Definitions."
::= { frsldMIBGroups 6 } ::= { frsldMIBGroups 6 }
frsldPvcHCFrameDataGroup OBJECT-GROUP frsldPvcHCFrameDataGroup OBJECT-GROUP
skipping to change at page 50, line 41 skipping to change at page 50, line 31
frsldPvcDataHCDataOfferedC, frsldPvcDataHCDataOfferedC,
frsldPvcDataHCDataOfferedE frsldPvcDataHCDataOfferedE
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing high "A collection of optional objects providing high
capacity octet data collected on a PVC which capacity octet data collected on a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 8 } ::= { frsldMIBGroups 8 }
frsldPvcDataSampleDelayGroup OBJECT-GROUP frsldPvcSampleDelayGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataSmplDelayMin, frsldPvcSmplDelayMin,
frsldPvcDataSmplDelayMax, frsldPvcSmplDelayMax,
frsldPvcDataSmplDelayAvg, frsldPvcSmplDelayAvg,
frsldPvcDataSmplMissedPolls frsldPvcSmplMissedPolls
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing delay "A collection of optional objects providing delay
sample data collected on a PVC which implements sample data collected on a PVC which implements
Service Level Definitions." Service Level Definitions."
::= { frsldMIBGroups 9 } ::= { frsldMIBGroups 9 }
frsldPvcDataSampleDataGroup OBJECT-GROUP frsldPvcSampleDataGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataSmplFrDeliveredC, frsldPvcSmplFrDeliveredC,
frsldPvcDataSmplFrDeliveredE, frsldPvcSmplFrDeliveredE,
frsldPvcDataSmplFrOfferedC, frsldPvcSmplFrOfferedC,
frsldPvcDataSmplFrOfferedE, frsldPvcSmplFrOfferedE,
frsldPvcDataSmplDataDeliveredC, frsldPvcSmplDataDeliveredC,
frsldPvcDataSmplDataDeliveredE, frsldPvcSmplDataDeliveredE,
frsldPvcDataSmplDataOfferedC, frsldPvcSmplDataOfferedC,
frsldPvcDataSmplDataOfferedE frsldPvcSmplDataOfferedE
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing data "A collection of optional objects providing data
and frame delivery sample data collected on a PVC and frame delivery sample data collected on a PVC
which implements Service Level Definitions." which implements Service Level Definitions."
::= { frsldMIBGroups 10 } ::= { frsldMIBGroups 10 }
frsldPvcDataSampleHCFrameGroup OBJECT-GROUP frsldPvcSampleHCFrameGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataSmplHCFrDeliveredC, frsldPvcSmplHCFrDeliveredC,
frsldPvcDataSmplHCFrDeliveredE, frsldPvcSmplHCFrDeliveredE,
frsldPvcDataSmplHCFrOfferedC, frsldPvcSmplHCFrOfferedC,
frsldPvcDataSmplHCFrOfferedE frsldPvcSmplHCFrOfferedE
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing high "A collection of optional objects providing high
capacity frame delivery sample data collected on a PVC capacity frame delivery sample data collected on a PVC
which implements Service Level Definitions." which implements Service Level Definitions."
::= { frsldMIBGroups 11 } ::= { frsldMIBGroups 11 }
frsldPvcDataSampleHCDataGroup OBJECT-GROUP frsldPvcSampleHCDataGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataSmplHCDataDeliveredC, frsldPvcSmplHCDataDeliveredC,
frsldPvcDataSmplHCDataDeliveredE, frsldPvcSmplHCDataDeliveredE,
frsldPvcDataSmplHCDataOfferedC, frsldPvcSmplHCDataOfferedC,
frsldPvcDataSmplHCDataOfferedE frsldPvcSmplHCDataOfferedE
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing high "A collection of optional objects providing high
capacity data delivery sample data collected on a PVC capacity data delivery sample data collected on a PVC
which implements Service Level Definitions." which implements Service Level Definitions."
::= { frsldMIBGroups 12 } ::= { frsldMIBGroups 12 }
frsldPvcAvailSampleAvailGroup OBJECT-GROUP
frsldPvcSampleAvailGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcAvailSmplUnavailableTime, frsldPvcSmplUnavailableTime,
frsldPvcAvailSmplUnavailables, frsldPvcSmplUnavailables
frsldPvcAvailSmplStartTime,
frsldPvcAvailSmplEndTime
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing "A collection of optional objects providing
availability sample data collected on a PVC which availability sample data collected on a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 13 } ::= { frsldMIBGroups 13 }
frsldPvcDataSampleGeneralGroup OBJECT-GROUP frsldPvcSampleGeneralGroup OBJECT-GROUP
OBJECTS { OBJECTS {
frsldPvcDataSmplStartTime, frsldPvcSmplStartTime,
frsldPvcDataSmplEndTime frsldPvcSmplEndTime
} }
STATUS current STATUS current
DESCRIPTION DESCRIPTION
"A collection of optional objects providing "A collection of optional objects providing
general sample data collected on a PVC which general sample data collected on a PVC which
implements Service Level Definitions." implements Service Level Definitions."
::= { frsldMIBGroups 14 } ::= { frsldMIBGroups 14 }
frsldCapabilitiesGroup OBJECT-GROUP frsldCapabilitiesGroup OBJECT-GROUP
OBJECTS { OBJECTS {
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