Reference record for OID 1.3.6.1.2.1.10.133.1.8.4.1.1



parent
1.3.6.1.2.1.10.133.1.8.4.1 (optIfODUkNimConfigEntry)
node code
1
node name
optIfODUkNimDirectionality
dot oid
1.3.6.1.2.1.10.133.1.8.4.1.1
type
OBJECT-TYPE
asn1 oid
  • {iso(1) identified-organization(3) dod(6) internet(1) mgmt(2) mib-2(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
  • {iso(1) identified-organization(3) dod(6) internet(1) mgmt(2) mib(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
  • {iso(1) org(3) dod(6) internet(1) mgmt(2) mib-2(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
  • {iso(1) org(3) dod(6) internet(1) mgmt(2) mib(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) mgmt(2) mib-2(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) mgmt(2) mib(1) transmission(10) optIfMibModule(133) optIfObjects(1) optIfODUk(8) optIfODUkNimConfigTable(4) optIfODUkNimConfigEntry(1) optIfODUkNimDirectionality(1)}
    • iri oid
  • /iso/identified-organization/dod/internet/mgmt/mib-2/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
  • /iso/identified-organization/dod/internet/mgmt/mib/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
  • /iso/org/dod/internet/mgmt/mib-2/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
  • /iso/org/dod/internet/mgmt/mib/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
  • /iso/iso-identified-organization/dod/internet/mgmt/mib-2/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
  • /iso/iso-identified-organization/dod/internet/mgmt/mib/transmission/optIfMibModule/optIfObjects/optIfODUk/optIfODUkNimConfigTable/optIfODUkNimConfigEntry/optIfODUkNimDirectionality
    • iri by oid_info
    /ISO/Identified-Organization/6/1/2/1/10/133/1/8/4/1/1

    Description by mibdepot

    Specifies the monitor point for the ODUk Path non-intrusive
    monitoring function. The value source(2) is not allowed
    if the corresponding instance of optIfODUkDirectionality
    has the value sink(1), and the value sink(1) is not allowed
    if the corresponding instance of optIfODUkDirectionality
    has the value source(2). Either the value sink(1) or
    source(2) is allowed if the corresponding instance of
    optIfODUkDirectionality has the value bidirectional(3).

    The value sink(1) means monitoring at the sink direction
    path signal of the ODUk CTP.

    The value source(2) means monitoring at the source direction
    path signal of the ODUk CTP. Monitoring the source direction
    of an ODUk CTP is necessary in those cases where the ODUk CTP
    is at an SNCP (Subnetwork Connection Protection) end (e.g., see
    Figure I.1.2/G.874.1). If one would like to get the performance
    of the protected connection, one cannot use the NIM function
    at both ODUk CTP sinks (before the matrix), instead one should
    monitor the signal at the source ODUk CTP after the matrix.

    Parsed from file rfc3591-Optical-Interface-Type.mib.txt
    Company: None
    Module: OPT-IF-MIB

    Description by circitor

    Specifies the monitor point for the ODUk Path non-intrusive
    monitoring function. The value source(2) is not allowed
    if the corresponding instance of optIfODUkDirectionality
    has the value sink(1), and the value sink(1) is not allowed
    if the corresponding instance of optIfODUkDirectionality
    has the value source(2). Either the value sink(1) or
    source(2) is allowed if the corresponding instance of
    optIfODUkDirectionality has the value bidirectional(3).

    The value sink(1) means monitoring at the sink direction
    path signal of the ODUk CTP.

    The value source(2) means monitoring at the source direction



    path signal of the ODUk CTP. Monitoring the source direction
    of an ODUk CTP is necessary in those cases where the ODUk CTP
    is at an SNCP (Subnetwork Connection Protection) end (e.g., see
    Figure I.1.2/G.874.1). If one would like to get the performance
    of the protected connection, one cannot use the NIM function
    at both ODUk CTP sinks (before the matrix), instead one should
    monitor the signal at the source ODUk CTP after the matrix.

    Parsed from file OPT-IF-MIB.mib
    Module: OPT-IF-MIB

    Information by oid_info

    Vendor: IETF RFCs
    Module: OPT-IF-MIB (rfc3591-Optical-Interface-Type.mib)
    Type: TABULAR
    Access: not-accessible
    Syntax: OptIfSinkOrSource

    Automatically extracted from www.mibdepot.com

    Information by mibdepot

    optIfODUkNimDirectionality OBJECT-TYPE
  SYNTAX  OptIfSinkOrSource
  MAX-ACCESS  not-accessible
  STATUS  current
  DESCRIPTION
    "Specifies the monitor point for the ODUk Path non-intrusive
     monitoring function.  The value source(2) is not allowed
     if the corresponding instance of optIfODUkDirectionality
     has the value sink(1), and the value sink(1) is not allowed
     if the corresponding instance of optIfODUkDirectionality
     has the value source(2).  Either the value sink(1) or
     source(2) is allowed if the corresponding instance of
     optIfODUkDirectionality has the value bidirectional(3).

     The value sink(1) means monitoring at the sink direction
     path signal of the ODUk CTP.

     The value source(2) means monitoring at the source direction
     path signal of the ODUk CTP.  Monitoring the source direction
     of an ODUk CTP is necessary in those cases where the ODUk CTP
     is at an SNCP (Subnetwork Connection Protection) end (e.g., see
     Figure I.1.2/G.874.1).  If one would like to get the performance
     of the protected connection, one cannot use the NIM function
     at both ODUk CTP sinks (before the matrix), instead one should
     monitor the signal at the source ODUk CTP after the matrix."
  ::= { optIfODUkNimConfigEntry 1 }

    Information by circitor

    optIfODUkNimDirectionality OBJECT-TYPE
  SYNTAX  OptIfSinkOrSource
  MAX-ACCESS  not-accessible
  STATUS  current
  DESCRIPTION
    "Specifies the monitor point for the ODUk Path non-intrusive
     monitoring function.  The value source(2) is not allowed
     if the corresponding instance of optIfODUkDirectionality
     has the value sink(1), and the value sink(1) is not allowed
     if the corresponding instance of optIfODUkDirectionality
     has the value source(2).  Either the value sink(1) or
     source(2) is allowed if the corresponding instance of
     optIfODUkDirectionality has the value bidirectional(3).

     The value sink(1) means monitoring at the sink direction
     path signal of the ODUk CTP.

     The value source(2) means monitoring at the source direction



     path signal of the ODUk CTP.  Monitoring the source direction
     of an ODUk CTP is necessary in those cases where the ODUk CTP
     is at an SNCP (Subnetwork Connection Protection) end (e.g., see
     Figure I.1.2/G.874.1).  If one would like to get the performance
     of the protected connection, one cannot use the NIM function
     at both ODUk CTP sinks (before the matrix), instead one should
     monitor the signal at the source ODUk CTP after the matrix."
  ::= { optIfODUkNimConfigEntry 1 }

    First Registration Authority (recovered by parent 1.3.6)

    Defense Communication Agency

    Current Registration Authority (recovered by parent 1.3.6.1.2)

    Internet Assigned Numbers Authority

    Brothers (9)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.2.1.10.133.1.8.4.1.2 optIfODUkNimDAPIExpected 0 0 The DAPI expected by the receiver.
    This object has no effect if optIfODUkNimTIMDetMode has
    the value off(1) or sapi(3).
    1.3.6.1.2.1.10.133.1.8.4.1.3 optIfODUkNimSAPIExpected 0 0 The SAPI expected by the receiver.
    This object has no effect if optIfODUkNimTIMDetMode has
    the value off(1) or dapi(2).
    1.3.6.1.2.1.10.133.1.8.4.1.4 optIfODUkNimTraceIdentifierAccepted 0 0 The actual trace identifier accepted. The value of
    this object is unspecified if optIfODUkNimCurrentStatus
    has any of the bit po…
    1.3.6.1.2.1.10.133.1.8.4.1.5 optIfODUkNimTIMDetMode 0 0 Indicates the mode of the Trace Identifier Mismatch (TIM)
    Detection function.
    1.3.6.1.2.1.10.133.1.8.4.1.6 optIfODUkNimTIMActEnabled 0 0 Indicates whether the Trace Identifier Mismatch (TIM)
    Consequent Action function is enabled.
    1.3.6.1.2.1.10.133.1.8.4.1.7 optIfODUkNimDEGThr 0 0 Indicates the threshold level for declaring a performance
    monitoring (PM) Second to be bad. A PM Second is declared bad
    if the p…
    1.3.6.1.2.1.10.133.1.8.4.1.8 optIfODUkNimDEGM 0 0 Indicates the threshold level for declaring a Degraded Signal
    defect (dDEG). A dDEG shall be declared if optIfODUkNimDEGM
    consec…
    1.3.6.1.2.1.10.133.1.8.4.1.9 optIfODUkNimCurrentStatus 0 0 Indicates the defect condition of the entity, if
    any. The value of this object is unspecified if
    optIfODUkNimRowStatus has any v…
    1.3.6.1.2.1.10.133.1.8.4.1.10 optIfODUkNimRowStatus 0 0 This columnar object is used for creating and deleting
    a conceptual row of the optIfODUkNim config table.
    It is used to model the…