The transposed MAC address is the MAC address
with the bits in each byte of the address reversed, so
that the least significant bit is now the most significant
bit and vice versa. This is useful for token ring
addresses since these addresses are usually represented
in non-canonical form rather than the canonical form
specified in the IEEE 802 specification and used by
Ethernet, where the bit that travels first on the LAN
is placed in the least significant bit as it appears
in memory.
Parsed from file ibm-midlevelmgr.mib.txt
Company: None
Module: MIDLEVELMGR-MIB
The transposed MAC address is the MAC address
with the bits in each byte of the address reversed, so
that the least significant bit is now the most significant
bit and vice versa. This is useful for token ring
addresses since these addresses are usually represented
in non-canonical form rather than the canonical form
specified in the IEEE 802 specification and used by
Ethernet, where the bit that travels first on the LAN
is placed in the least significant bit as it appears
in memory.
Parsed from file MIDLEVELMGR-MIB.mib
Module: MIDLEVELMGR-MIB
Vendor: IBM
Module: MIDLEVELMGR-MIB
[Automatically extracted from oidview.com]
smMlmDiscoveryRawTransposedMACAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The transposed MAC address is the MAC address with the bits in each byte of the address reversed, so that the least significant bit is now the most significant bit and vice versa. This is useful for token ring addresses since these addresses are usually represented in non-canonical form rather than the canonical form specified in the IEEE 802 specification and used by Ethernet, where the bit that travels first on the LAN is placed in the least significant bit as it appears in memory." ::= { smMlmDiscoveryEntry 6 }
smMlmDiscoveryRawTransposedMACAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The transposed MAC address is the MAC address with the bits in each byte of the address reversed, so that the least significant bit is now the most significant bit and vice versa. This is useful for token ring addresses since these addresses are usually represented in non-canonical form rather than the canonical form specified in the IEEE 802 specification and used by Ethernet, where the bit that travels first on the LAN is placed in the least significant bit as it appears in memory." ::= { smMlmDiscoveryEntry 6 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.2.6.12.13.50.1.1 | smMlmDiscoveryAddressFamily | 0 | 0 | This indicates the transport protocol used and determines the output format of the network address. |
| 1.3.6.1.4.1.2.6.12.13.50.1.2 | smMlmDiscoveryRawNetAddress | 0 | 0 | This field specifies the address of the discovered node as octets. |
| 1.3.6.1.4.1.2.6.12.13.50.1.3 | smMlmDiscoveryNetAddress | 0 | 0 | This field specifies the printable address of the discovered node. |
| 1.3.6.1.4.1.2.6.12.13.50.1.4 | smMlmDiscoveryRawMACAddress | 0 | 0 | This field specifies the MAC Address of the discovered node as octets. |
| 1.3.6.1.4.1.2.6.12.13.50.1.5 | smMlmDiscoveryMACAddress | 0 | 0 | This field specifies the printable MAC Address of the node. |
| 1.3.6.1.4.1.2.6.12.13.50.1.7 | smMlmDiscoveryTransposedMACAddress | 0 | 0 | This field is the printable form of the transposed MAC address. |
| 1.3.6.1.4.1.2.6.12.13.50.1.8 | smMlmDiscoveryTimeLastSeen | 0 | 0 | This field specifies the last time that the discovery process encountered this address. Addresses that are are not seen for the … |
| 1.3.6.1.4.1.2.6.12.13.50.1.9 | smMlmDiscoveryRawRoutingInformation | 0 | 0 | This field specifies the routing information to a node; it is valid only for token ring interfaces. It contains multiple routing… |
| 1.3.6.1.4.1.2.6.12.13.50.1.10 | smMlmDiscoveryRoutingInformation | 0 | 0 | This field displays the known routes to a node, in the form: [Route 1] [Route 2] ... [Route n]. Each route entry has the form: [RC… |