Reference record for OID 1.3.6.1.4.1.36.2.15.3.3.3.2.1.9



parent
1.3.6.1.4.1.36.2.15.3.3.3.2.1 (filterByReferencedExpression)
node code
9
node name
ebrNportDefaultMatrixFppnValue
dot oid
1.3.6.1.4.1.36.2.15.3.3.3.2.1.9
type
OBJECT-TYPE
asn1 oid
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) dec(36) ema(2) sysobjid(15) bridges(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) dec(36) ema(2) sysobjid(15) subsys(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • ...skipped...
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) dec(36) ema(2) sysObjectIds(15) bridges(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) dec(36) ema(2) sysObjectIds(15) subsys(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) dec(36) ema(2) sysobjid(15) bridges(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) dec(36) ema(2) sysobjid(15) subsys(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • ...skipped...
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) dec(36) ema(2) sysObjectIds(15) bridges(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) dec(36) ema(2) sysObjectIds(15) subsys(3) gigaswitch(3) gigaversion1(3) gigaBridge(2) filterByReferencedExpression(1) ebrNportDefaultMatrixFppnValue(9)}
    • iri oid
  • /iso/identified-organization/dod/internet/private/enterprise/dec/ema/sysobjid/bridges/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • /iso/identified-organization/dod/internet/private/enterprise/dec/ema/sysobjid/subsys/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • ...skipped...
  • /iso/org/dod/internet/private/enterprise/dec/ema/sysObjectIds/bridges/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • /iso/org/dod/internet/private/enterprise/dec/ema/sysObjectIds/subsys/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • /iso/org/dod/internet/private/enterprises/dec/ema/sysobjid/bridges/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • /iso/org/dod/internet/private/enterprises/dec/ema/sysobjid/subsys/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • ...skipped...
  • /iso/iso-identified-organization/dod/internet/private/enterprises/dec/ema/sysObjectIds/bridges/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
  • /iso/iso-identified-organization/dod/internet/private/enterprises/dec/ema/sysObjectIds/subsys/gigaswitch/gigaversion1/gigaBridge/filterByReferencedExpression/ebrNportDefaultMatrixFppnValue
    • iri by oid_info
    /ISO/Identified-Organization/6/1/4/1/36/2/15/3/3/3/2/1/9

    Description by mibdepot

    A matrix is expressed using a shorthand that says what
    input front panel ports can talk to what output front
    panel ports.

    An examples of a specification is:
    1.1,2.1-14.2:1.1-14.2; 2.2:5.3,6.4; 10.3:;

    Semicolons separate expressions. Within each expression,
    the colon has a left hand side and a right hand side. Front
    panel ports on the left hand side can send packets to front
    panel ports on the right hand side. Commas separate items in
    a list of front panel ports. Hyphens are short-hand for
    specifying a range of numbers. If there is no right hand side,
    the front panel ports on the left cannot send packets to any
    front panel port (unless the matrix is combined with some some
    other matrix in a filter specification, or unless the filter is
    overridden).

    Front panel port numbers are of the form (slot.connector),
    where slot is the slot number the module is plugged into,
    and connector is the connector number specified on the
    front of the card.

    A matrix will read back in a form equivalent to the form
    written. It may not read back exactly as written.

    No single matrix defines whether a packet arriving on a port
    is forwarded to its destination. Various destination address,
    source address, protocol, and default filtering specifications
    are combined to determine whether the packet is forwarded.
    Unspecified rows are set to one's, which means that the
    corresponding input ports can communicate with every
    output port.


    Parsed from file GIGASWITCH-MIB.mib.txt
    Company: None
    Module: GIGASWITCH-MIB

    Description by circitor

    A matrix is expressed using a shorthand that says what
    input front panel ports can talk to what output front
    panel ports.

    An examples of a specification is:
    1.1,2.1-14.2:1.1-14.2; 2.2:5.3,6.4; 10.3:;

    Semicolons separate expressions. Within each expression,
    the colon has a left hand side and a right hand side. Front
    panel ports on the left hand side can send packets to front
    panel ports on the right hand side. Commas separate items in
    a list of front panel ports. Hyphens are short-hand for
    specifying a range of numbers. If there is no right hand side,
    the front panel ports on the left cannot send packets to any
    front panel port (unless the matrix is combined with some some
    other matrix in a filter specification, or unless the filter is
    overridden).

    Front panel port numbers are of the form (slot.connector),
    where slot is the slot number the module is plugged into,
    and connector is the connector number specified on the
    front of the card.

    A matrix will read back in a form equivalent to the form
    written. It may not read back exactly as written.

    No single matrix defines whether a packet arriving on a port
    is forwarded to its destination. Various destination address,
    source address, protocol, and default filtering specifications
    are combined to determine whether the packet is forwarded.
    Unspecified rows are set to one's, which means that the
    corresponding input ports can communicate with every
    output port.


    Parsed from file DEC-ELAN-MIB.mib
    Module: DEC-ELAN-MIB

    Information by oid_info

    Vendor: DEC
    Module: DEC-ELAN-MIB

    [Automatically extracted from oidview.com]

    Information by mibdepot

    ebrNportDefaultMatrixFppnValue OBJECT-TYPE
	SYNTAX	DisplayString (SIZE (32))
	ACCESS	read-write
	STATUS	mandatory
	DESCRIPTION
		"A matrix is expressed using a shorthand that says what
		input front panel ports can talk to what output front
		panel ports.

                An examples of a specification is:
                        1.1,2.1-14.2:1.1-14.2; 2.2:5.3,6.4; 10.3:;

                Semicolons separate expressions.  Within each expression,
                the colon has a left hand side and a right hand side.  Front
                panel ports on the left hand side can send packets to front
                panel ports on the right hand side.  Commas separate items in
                a list of front panel ports.  Hyphens are short-hand for
                specifying a range of numbers.  If there is no right hand side,
                the front panel ports on the left cannot send packets to any
                front panel port (unless the matrix is combined with some some
                other matrix in a filter specification, or unless the filter is
                overridden).

                Front panel port numbers are of the form (slot.connector),
		where slot is the slot number the module is plugged into,
		and connector is the connector number specified on the
		front of the card.

		A matrix will read back in a form equivalent to the form
		written.  It may not read back exactly as written.

		No single matrix defines whether a packet arriving on a port
		is forwarded to its destination.  Various destination address,
		source address, protocol, and default filtering specifications
		are combined to determine whether the packet is forwarded.
		Unspecified rows are set to one's, which means that the
		corresponding input ports can communicate with every 
		output port.
		"
	::= { filterByReferencedExpression 9 }

    Information by circitor

    ebrNportDefaultMatrixFppnValue OBJECT-TYPE
	SYNTAX	DisplayString (SIZE (32))
	ACCESS	read-write
	STATUS	mandatory
	DESCRIPTION
		"A matrix is expressed using a shorthand that says what
		input front panel ports can talk to what output front
		panel ports.

                An examples of a specification is:
                        1.1,2.1-14.2:1.1-14.2; 2.2:5.3,6.4; 10.3:;

                Semicolons separate expressions.  Within each expression,
                the colon has a left hand side and a right hand side.  Front
                panel ports on the left hand side can send packets to front
                panel ports on the right hand side.  Commas separate items in
                a list of front panel ports.  Hyphens are short-hand for
                specifying a range of numbers.  If there is no right hand side,
                the front panel ports on the left cannot send packets to any
                front panel port (unless the matrix is combined with some some
                other matrix in a filter specification, or unless the filter is
                overridden).

                Front panel port numbers are of the form (slot.connector),
		where slot is the slot number the module is plugged into,
		and connector is the connector number specified on the
		front of the card.

		A matrix will read back in a form equivalent to the form
		written.  It may not read back exactly as written.

		No single matrix defines whether a packet arriving on a port
		is forwarded to its destination.  Various destination address,
		source address, protocol, and default filtering specifications
		are combined to determine whether the packet is forwarded.
		Unspecified rows are set to one's, which means that the
		corresponding input ports can communicate with every 
		output port.
		"
	::= { filterByReferencedExpression 9 }

    First Registration Authority (recovered by parent 1.3.6.1.4.1.36)

    Ron Bhanukitsiri

    Children (1)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.9.0 ebrNportDefaultMatrixFppnValue 0 0 None

    Brothers (16)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.1 ebrNportMatrixNameTable 1 5 This table allows filter matrices to be succinctly
    specified and named. These matrices may later be used
    and combined in filter …
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.2 ebrNportSapNameTable 1 6 The filters specified by SAP protocol.
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.3 ebrNportSnapNameTable 1 6 The filters specified by Protocol ID for the SNAP SAP.
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.4 ebrNportDANameTable 1 6 The filters specified by destination address.
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.5 ebrNportSANameTable 1 6 The filters specified by source address.
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.6 ebrNportDefaultMatrixValue 1 1 A matrix is expressed using a shorthand that says what
    input ports can talk to what output ports.

    An examples of a specification …
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.7 ebrNportManualFilter 1 1 The list of bridge ports in manual mode is listed.


    Manual mode means that the bridge purges the learned entries
    for that port fro…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.8 ebrNportMatrixNameRowTable 1 5 This table is another view of ebrNportMatrixNameTable. The
    tables side-effect one another.

    Users or programs can choose whicheve…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.10 ebrNportFppnManualFilter 1 1 The list of front panel ports in manual mode is listed.


    Manual mode means that the bridge purges the learned entries
    for that por…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.11 ebrNportMatrixFppnRowTable 1 5 This table is yet another view of ebrNportMatrixNameTable. The
    tables side-effect one another.

    Users or programs can choose whic…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.12 ebrNportNamedDefaultMatrix 1 1 When a matrix name is written to this object, the default
    matrix is set to the matrix if and only if the matrix
    exists.

    Unspecifie…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.13 ebrNportDefaultMatrixRowTable 1 3 This table is another view of ebrNportDefaultMatrixValue.
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.14 ebrNportFloodMatrixValue 1 1 A flood matrix is expressed using a shorthand that says
    what input ports can be flooded to what output ports.
    Unspecified rows ar…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.15 ebrNportFloodMatrixFppnValue 1 1 A flood matrix is expressed using a shorthand that says
    what input front panel ports can be flooded to what output
    front panel po…
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.16 ebrNportNamedFloodMatrix 1 1 When a matrix name is written to this object, the flood
    matrix is set to the matrix if and only if the matrix
    exists.
    Unspecified …
    1.3.6.1.4.1.36.2.15.3.3.3.2.1.17 ebrNportFloodMatrixRowTable 1 3 This table is another view of ebrNportFloodMatrixValue.