A matrix is expressed using a shorthand that says what
input ports can talk to what output ports.
An examples of a specification is:
11:1; 1:3-5; 2:0,3; 4-7,9:4-7,9; 10:
Semicolons separate expressions. Within each expression,
the colon has a left hand side and a right hand side. Bridge
ports on the left hand side can send packets to bridge ports
on the right hand side. Commas separate items in a list of
bridge ports. Hyphens are short-hand for specifying a range
of numbers. If there is no right hand side, the bridge ports
on the left cannot send packets to any bridge port (unless the
matrix is combined with some some other matrix in a filter
specification, or unless the filter is overridden).
Bridge port numbers are specified in decimal.
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.
If the ebrNportMatrixValue is changed, all filters using it are
immediately updated.
Parsed from file GIGASWITCH-MIB.mib.txt
Company: None
Module: GIGASWITCH-MIB
A matrix is expressed using a shorthand that says what
input ports can talk to what output ports.
An examples of a specification is:
11:1; 1:3-5; 2:0,3; 4-7,9:4-7,9; 10:
Semicolons separate expressions. Within each expression,
the colon has a left hand side and a right hand side. Bridge
ports on the left hand side can send packets to bridge ports
on the right hand side. Commas separate items in a list of
bridge ports. Hyphens are short-hand for specifying a range
of numbers. If there is no right hand side, the bridge ports
on the left cannot send packets to any bridge port (unless the
matrix is combined with some some other matrix in a filter
specification, or unless the filter is overridden).
Bridge port numbers are specified in decimal.
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.
If the ebrNportMatrixValue is changed, all filters using it are
immediately updated.
Parsed from file DEC-ELAN-MIB.mib
Module: DEC-ELAN-MIB
Vendor: DEC
Module: DEC-ELAN-MIB
[Automatically extracted from oidview.com]
ebrNportMatrixValue OBJECT-TYPE SYNTAX DisplayString (SIZE (32)) ACCESS read-write STATUS mandatory DESCRIPTION "A matrix is expressed using a shorthand that says what input ports can talk to what output ports. An examples of a specification is: 11:1; 1:3-5; 2:0,3; 4-7,9:4-7,9; 10: Semicolons separate expressions. Within each expression, the colon has a left hand side and a right hand side. Bridge ports on the left hand side can send packets to bridge ports on the right hand side. Commas separate items in a list of bridge ports. Hyphens are short-hand for specifying a range of numbers. If there is no right hand side, the bridge ports on the left cannot send packets to any bridge port (unless the matrix is combined with some some other matrix in a filter specification, or unless the filter is overridden). Bridge port numbers are specified in decimal. 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. If the ebrNportMatrixValue is changed, all filters using it are immediately updated." ::= { ebrNportMatrixNameEntry 2 }
ebrNportMatrixValue OBJECT-TYPE SYNTAX DisplayString (SIZE (32)) ACCESS read-write STATUS mandatory DESCRIPTION "A matrix is expressed using a shorthand that says what input ports can talk to what output ports. An examples of a specification is: 11:1; 1:3-5; 2:0,3; 4-7,9:4-7,9; 10: Semicolons separate expressions. Within each expression, the colon has a left hand side and a right hand side. Bridge ports on the left hand side can send packets to bridge ports on the right hand side. Commas separate items in a list of bridge ports. Hyphens are short-hand for specifying a range of numbers. If there is no right hand side, the bridge ports on the left cannot send packets to any bridge port (unless the matrix is combined with some some other matrix in a filter specification, or unless the filter is overridden). Bridge port numbers are specified in decimal. 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. If the ebrNportMatrixValue is changed, all filters using it are immediately updated." ::= { ebrNportMatrixNameEntry 2 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.36.2.15.3.3.3.2.1.1.1.1 | ebrNportMatrixName | 0 | 0 | This name for a filter matrix is whatever the user likes, as long as it is a unique filter matrix name. |
| 1.3.6.1.4.1.36.2.15.3.3.3.2.1.1.1.3 | ebrNportMatrixStatus | 0 | 0 | Assigning the value invalid will result in an error while the matrix is still reference by some filter. All matrices are permanen… |
| 1.3.6.1.4.1.36.2.15.3.3.3.2.1.1.1.4 | ebrNportMatrixFppnValue | 0 | 0 | A matrix is expressed using a shorthand that says what input ports can talk to what output ports. An examples of a specification … |