Reference record for OID 1.3.6.1.4.1.1751.2.18.6.1.1.30



parent
1.3.6.1.4.1.1751.2.18.6.1.1 (atmPvcVccEntry)
node code
30
node name
atmPvcVccCnfrmTypeA2B
dot oid
1.3.6.1.4.1.1751.2.18.6.1.1.30
type
OBJECT-TYPE
asn1 oid
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) lucent(1751) mibs(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) lucent(1751) lucent-MIB(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • ...skipped...
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) lucent(1751) mibs(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) lucent(1751) lucent-MIB(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) lucent(1751) mibs(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) lucent(1751) lucent-MIB(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • ...skipped...
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) lucent(1751) mibs(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) lucent(1751) lucent-MIB(2) acMIB(18) connectionConfig(6) atmPvcVccTable(1) atmPvcVccEntry(1) atmPvcVccCnfrmTypeA2B(30)}
  • iri oid
  • /iso/identified-organization/dod/internet/private/enterprise/lucent/mibs/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • /iso/identified-organization/dod/internet/private/enterprise/lucent/lucent-MIB/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • ...skipped...
  • /iso/org/dod/internet/private/enterprise/lucent/mibs/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • /iso/org/dod/internet/private/enterprise/lucent/lucent-MIB/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • /iso/org/dod/internet/private/enterprises/lucent/mibs/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • /iso/org/dod/internet/private/enterprises/lucent/lucent-MIB/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • ...skipped...
  • /iso/iso-identified-organization/dod/internet/private/enterprises/lucent/mibs/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • /iso/iso-identified-organization/dod/internet/private/enterprises/lucent/lucent-MIB/acMIB/connectionConfig/atmPvcVccTable/atmPvcVccEntry/atmPvcVccCnfrmTypeA2B
  • iri by oid_info
    /ISO/Identified-Organization/6/1/4/1/1751/2/18/6/1/1/30

    Description by mibdepot

    The following is the description of this field
    This will be used in conjunction with the
    service type field to get the correct
    traffic behaviour. In the conformances the
    the 0 or 0plus1 refers to the clp bit in the
    cells. If 0plus1 is the bucket reference then
    the clp bit is ignored. If 0 is specified for
    the bucket then check only clp=0 cells.
    1: Best Effort will try to send all cellsin a
    best effort way. This will follow the
    Aqueman Algorithm
    2: one_bucket_notag_0plus1 will use 1 bucket
    i.e is the PCR(0+1) bucket and drop all
    cells in excess.
    3: two_bucket_notag_0plus1_0plus1 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0+1).
    All cells conforming to both buckets will be
    passed through. The rest will be dropped.
    4: two_bucket_notag_0plus1_0 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0) or
    pcr(0). Cells which conform to both buckets
    are passed through. The rest are dropped.
    5: two_bucket_tag_0plus1_0 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0) or
    pcr(0). Cells which do not conform to the first
    bucket are dropped. Cells which do not
    conform to the 2nd bucket are tagged.
    6: best_effort_tag. Tag all cells and then
    do a best effort.

    Parsed from file ac120.my.V07.00.C00.mib.txt
    Company: None
    Module: ACMIB

    Description by circitor

    The following is the description of this field
    This will be used in conjunction with the
    service type field to get the correct
    traffic behaviour. In the conformances the
    the 0 or 0plus1 refers to the clp bit in the
    cells. If 0plus1 is the bucket reference then
    the clp bit is ignored. If 0 is specified for
    the bucket then check only clp=0 cells.
    1: Best Effort will try to send all cellsin a
    best effort way. This will follow the
    Aqueman Algorithm
    2: one_bucket_notag_0plus1 will use 1 bucket
    i.e is the PCR(0+1) bucket and drop all
    cells in excess.
    3: two_bucket_notag_0plus1_0plus1 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0+1).
    All cells conforming to both buckets will be
    passed through. The rest will be dropped.
    4: two_bucket_notag_0plus1_0 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0) or
    pcr(0). Cells which conform to both buckets
    are passed through. The rest are dropped.
    5: two_bucket_tag_0plus1_0 uses 2 buckets.
    The 2 buckets are pcr(0+1) and scr(0) or
    pcr(0). Cells which do not conform to the first
    bucket are dropped. Cells which do not
    conform to the 2nd bucket are tagged.
    6: best_effort_tag. Tag all cells and then
    do a best effort.

    Parsed from file ACMIB.mib
    Module: ACMIB

    Information by oid_info

    Vendor: Lucent Technologies
    Module: ACMIB

    [Automatically extracted from oidview.com]

    Information by mibdepot

    atmPvcVccCnfrmTypeA2B OBJECT-TYPE SYNTAX INTEGER { best-effort(1), one-bucket-notag-0plus1(2), two-bucket-notag-0plus1-0plus1(3), two-bucket-notag-0plus1-0(4), two-bucket-tag-0plus1-0(5), best-effort-tag(6) } MAX-ACCESS read-write STATUS current DESCRIPTION "The following is the description of this field This will be used in conjunction with the service type field to get the correct traffic behaviour. In the conformances the the 0 or 0plus1 refers to the clp bit in the cells. If 0plus1 is the bucket reference then the clp bit is ignored. If 0 is specified for the bucket then check only clp=0 cells. 1: Best Effort will try to send all cellsin a best effort way. This will follow the Aqueman Algorithm 2: one_bucket_notag_0plus1 will use 1 bucket i.e is the PCR(0+1) bucket and drop all cells in excess. 3: two_bucket_notag_0plus1_0plus1 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0+1). All cells conforming to both buckets will be passed through. The rest will be dropped. 4: two_bucket_notag_0plus1_0 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0) or pcr(0). Cells which conform to both buckets are passed through. The rest are dropped. 5: two_bucket_tag_0plus1_0 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0) or pcr(0). Cells which do not conform to the first bucket are dropped. Cells which do not conform to the 2nd bucket are tagged. 6: best_effort_tag. Tag all cells and then do a best effort. " DEFVAL { best-effort } ::= { atmPvcVccEntry 30 }

    Information by circitor

    atmPvcVccCnfrmTypeA2B OBJECT-TYPE SYNTAX INTEGER { best-effort(1), one-bucket-notag-0plus1(2), two-bucket-notag-0plus1-0plus1(3), two-bucket-notag-0plus1-0(4), two-bucket-tag-0plus1-0(5), best-effort-tag(6) } MAX-ACCESS read-write STATUS current DESCRIPTION "The following is the description of this field This will be used in conjunction with the service type field to get the correct traffic behaviour. In the conformances the the 0 or 0plus1 refers to the clp bit in the cells. If 0plus1 is the bucket reference then the clp bit is ignored. If 0 is specified for the bucket then check only clp=0 cells. 1: Best Effort will try to send all cellsin a best effort way. This will follow the Aqueman Algorithm 2: one_bucket_notag_0plus1 will use 1 bucket i.e is the PCR(0+1) bucket and drop all cells in excess. 3: two_bucket_notag_0plus1_0plus1 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0+1). All cells conforming to both buckets will be passed through. The rest will be dropped. 4: two_bucket_notag_0plus1_0 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0) or pcr(0). Cells which conform to both buckets are passed through. The rest are dropped. 5: two_bucket_tag_0plus1_0 uses 2 buckets. The 2 buckets are pcr(0+1) and scr(0) or pcr(0). Cells which do not conform to the first bucket are dropped. Cells which do not conform to the 2nd bucket are tagged. 6: best_effort_tag. Tag all cells and then do a best effort. " DEFVAL { best-effort } ::= { atmPvcVccEntry 30 }

    First Registration Authority (recovered by parent 1.3.6.1.4.1.1751)

    Richard Bantel

    Current Registration Authority (recovered by parent 1.3.6.1.4.1.1751)

    Håkon Helmers

    Brothers (40)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.4.1.1751.2.18.6.1.1.1 atmPvcVccIfA 0 0 Interface index for side A of an ATM-to-ATM PVC VCC
    connection. Number value is interpreted as an
    interface of the form, SSPPCCC…
    1.3.6.1.4.1.1751.2.18.6.1.1.2 atmPvcVccVpiA 0 0 VPI value for side A of an ATM-to-ATM PVC VCC
    connection. Valid range is a number between 0 and
    4095.
    1.3.6.1.4.1.1751.2.18.6.1.1.3 atmPvcVccVciA 0 0 VCI value for side A of an ATM-to-ATM PVC VCC
    connection. Valid range is a number between 0 and
    65535.
    1.3.6.1.4.1.1751.2.18.6.1.1.4 atmPvcVccIfB 0 0 Interface index for side B of an ATM-to-ATM PVC VCC
    connection. Number value is interpreted as an
    interface of the form, SSPPCCC…
    1.3.6.1.4.1.1751.2.18.6.1.1.5 atmPvcVccVpiB 0 0 VPI value for side B of an ATM-to-ATM PVC VCC
    connection. Valid range is a number between 0 and
    4095.
    1.3.6.1.4.1.1751.2.18.6.1.1.6 atmPvcVccVciB 0 0 VCI value for side B of an ATM-to-ATM PVC VCC
    connection. Valid range is a number between 0 and
    65535.
    1.3.6.1.4.1.1751.2.18.6.1.1.7 atmPvcVccServiceTypeA2B 0 0 service type
    1.3.6.1.4.1.1751.2.18.6.1.1.8 atmPvcVccSarTypeA2B 0 0 SAR type used in atm adaption
    1.3.6.1.4.1.1751.2.18.6.1.1.10 atmPvcVccPeakCellRateA2B 0 0 peak cell rate - side A, in cell per second
    1.3.6.1.4.1.1751.2.18.6.1.1.11 atmPvcVccSusCellRateA2B 0 0 sustained rate - side A, in cell per second
    1.3.6.1.4.1.1751.2.18.6.1.1.12 atmPvcVccMaxBurstSizeA2B 0 0 maximum burst size - side A, in cells
    1.3.6.1.4.1.1751.2.18.6.1.1.13 atmPvcVccServiceTypeB2A 0 0 service type
    1.3.6.1.4.1.1751.2.18.6.1.1.14 atmPvcVccSarTypeB2A 0 0 sar type used in atm adaption
    1.3.6.1.4.1.1751.2.18.6.1.1.16 atmPvcVccPeakCellRateB2A 0 0 peak rate - side B, in cell per second.
    1.3.6.1.4.1.1751.2.18.6.1.1.17 atmPvcVccSusCellRateB2A 0 0 sustained rate - side B, in cell per second.
    1.3.6.1.4.1.1751.2.18.6.1.1.18 atmPvcVccMaxBurstSizeB2A 0 0 maximum burst size - side B, in cells.
    1.3.6.1.4.1.1751.2.18.6.1.1.20 atmPvcVccType 0 0 type of connection
    1.3.6.1.4.1.1751.2.18.6.1.1.21 atmPvcVccFlow 0 0 type of flow
    1.3.6.1.4.1.1751.2.18.6.1.1.22 atmPvcVccRowStatus 0 0 row status
    1.3.6.1.4.1.1751.2.18.6.1.1.23 atmPvcVccFrwdErrCorrectionA2B 0 0 Forward error correction scheme
    1.3.6.1.4.1.1751.2.18.6.1.1.24 atmPvcVccFrwdErrCorrectionB2A 0 0 Forward error correction scheme
    1.3.6.1.4.1.1751.2.18.6.1.1.25 atmPvcVccConnectionStatus 0 0 Indicates the current connections status.
    Active: All interfaces through which the
    connection is going are in service.
    Inactive: …
    1.3.6.1.4.1.1751.2.18.6.1.1.26 atmPvcVccOamStatus 0 0 Indicates the OAM monitoring status of side A.
    The 5 possible states are:
    Unsupp: No monitoring enabled.
    End-Pt: A side is only …
    1.3.6.1.4.1.1751.2.18.6.1.1.27 atmPvcVccDualHomed 0 0 Does this PVC need a backup Dual homing PVC.
    1.3.6.1.4.1.1751.2.18.6.1.1.28 atmPvcVccViA 0 0 VI to associate the Egress part of the
    B2A connection .
    1.3.6.1.4.1.1751.2.18.6.1.1.29 atmPvcVccViB 0 0 VI to associate the Egress part of the
    A2B connection .
    1.3.6.1.4.1.1751.2.18.6.1.1.31 atmPvcVccCnfrmTypeB2A 0 0 The following is the description of this field
    This will be used in conjunction with the
    service type field to get the correct
    tra…
    1.3.6.1.4.1.1751.2.18.6.1.1.32 atmPvcVccVUNIA 0 0 VUNI to associate the Egress part of the
    B2A connection .
    1.3.6.1.4.1.1751.2.18.6.1.1.33 atmPvcVccVUNIB 0 0 VUNI to associate the Egress part of the
    A2B connection .
    1.3.6.1.4.1.1751.2.18.6.1.1.34 atmPvcVccOamStatusB 0 0 Indicates the Oam monitoring status of side B
    of an internal connection. Refer to ITU I.610 and
    Bellcore GR1248-CORE for definiti…
    1.3.6.1.4.1.1751.2.18.6.1.1.35 atmPvcVccOAMConnEndPtStatusA 0 0 Connection endpoint side A status. Valid only at
    connection endpoint.
    1.3.6.1.4.1.1751.2.18.6.1.1.36 atmPvcVccOAMConnEndPtStatusB 0 0 Connection endpoint side B status. Valid only at
    connection endpoint.
    1.3.6.1.4.1.1751.2.18.6.1.1.37 atmPvcVccOAMConnSegEndPtStatusA 0 0 Segment endpoint side A status. Valid only at
    segment endpoints.
    1.3.6.1.4.1.1751.2.18.6.1.1.38 atmPvcVccOAMConnSegEndPtStatusB 0 0 Segment endpoint side B status. Valid only at
    segment endpoints.
    1.3.6.1.4.1.1751.2.18.6.1.1.39 atmPvcVccMfsA2B 0 0 Maximum Frame Size for GFR traffic for A2B dir
    1.3.6.1.4.1.1751.2.18.6.1.1.40 atmPvcVccMfsB2A 0 0 Maximum Frame Size for GFR traffic for B2A dir
    1.3.6.1.4.1.1751.2.18.6.1.1.41 atmPvcVccConnFailureCauseA 0 0 connestion status reason code
    1.3.6.1.4.1.1751.2.18.6.1.1.42 atmPvcVccConnFailureCauseB 0 0 connection status reason code
    1.3.6.1.4.1.1751.2.18.6.1.1.43 atmPvcVccTrafficShapingA2B 0 0 Traffic Shaping Support in the A2B direction.
    1.3.6.1.4.1.1751.2.18.6.1.1.44 atmPvcVccTrafficShapingB2A 0 0 Traffic Shaping Support in the B2A direction.