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What is OUI - Organizationally unique identifier of MAC Address ...
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An organizationally unique identifier (OUI) is a 24-bit number that uniquely identifies a vendor, manufacturer, or other organization.

These are purchased from the Institute of Electrical and Electronics Engineers, Incorporated (IEEE) Registration Authority by the "assignee" (IEEE term for the vendor, manufacturer, or other organization). They are used as the first portion of derivative identifiers to uniquely identify a particular piece of equipment as MAC addresses, Subnetwork Access Protocol protocol identifiers, World Wide Names for Fibre Channel host bus adapters, and other Fibre Channel and Serial Attached SCSI devices.

In MAC addresses, the OUI is combined with a 24-bit number (assigned by the owner or 'assignee' of the OUI) to form the address. The first three octets of the address are the OUI.


Video Organizationally unique identifier



Representational and Formatting Conventions / Standards (IEEE 802-2001)

The following terms are defined (either implicitly or explicitly) in IEEE Standard 802-2001 for use in referring to the various representations and formats of OUIs and the identifiers that may be created using them.

Hexadecimal Representation

"The representation of a sequence of octet values in which the values of the individual octets are displayed in order from left to right, with each octet value represented as a two-digit hexadecimal numeral, and with the resulting pairs of hexadecimal digits separated by hyphens. The order of the hexadecimal digits in each pair, and the mapping between the hexadecimal digits and the bits of the octet value, are derived by interpreting the bits of the octet value as a binary numeral using the normal mathematical rules for digit significance." (See hexadecimal).

Canonical Format

"The format of a MAC data frame in which the octets of any MAC addresses conveyed in the MAC user data field have the same bit ordering as in the Hexadecimal Representation." (See MAC data frame, MAC addresses)

Significance Order

This appears from the context of the IEEE Standard 802-2001 to be another term for the 'Hexadecimal Representation' - i.e., "by interpreting the bits of the octet value as a binary numeral using the normal mathematical rules for digit significance."

Bit-Reversed Representation

"The representation of a sequence of octet values in which the values of the individual octets are displayed in order from left to right, with each octet value represented as a two-digit hexadecimal numeral, and with the resulting pairs of hexadecimal digits separated by colons. The order of the hexadecimal digits in each pair, and the mapping between the hexadecimal digits and the bits of the octet value, are derived by reversing the order of the bits in the octet value and interpreting the resulting bit sequence as a binary numeral using the normal mathematical rules for digit significance."

The bit-reversed representation corresponds to the convention of transmitting the least-significant-bit of each byte first in serial data communications.

Noncanonical Representation

"The format of a MAC data frame in which the octets of MAC addresses conveyed in the MAC user data field have the same bit ordering as in the Bit-reversed representation."

Transmission Order

The order in which an octet or a sequence of octets is transmitted over the transmission medium - this order normally corresponds to the bit-reversed representation.

Example:

An OUI consisting of the hexadecimal digits ACDE4816 would be represented as follows:

  Hexadecimal / Canonical format:    AC-DE-48  |            OUI                 |  | Octet 0  | Octet 1  | Octet 2  |  |  A     C |  D     E |  4     8 |  |1010  1100|1101  1110|0100  1000|    Bit-reversed / Noncanonical format:    35:7B:12  |            OUI                 |  | Octet 0  | Octet 1  | Octet 2  |  |  3     5 |  7     B |  1     2 |  |0011  0101|0111  1011|0001  0010|  

Potential for Confusion in Token Ring Settings

Ethernet users are used to seeing canonical form, such as in the output of the ifconfig command. Canonical form is the intended standard.

However, since 802.3 (Ethernet) and 802.4 (Token Bus) send the bits over the wire with least significant bit first, while 802.5 (Token Ring) and 802.6 (FDDI) send the bits over the wire with most significant bit first, confusion may arise where an OUI in the latter scenario is represented with bits reversed from the canonical representation. So for instance, an OUI whose canonical form is ACDE48 could be seen written as 357B12 if translation is done improperly or inconsistently. The latter form (Bit-Reversed or Noncanonical representation), may also be referred to in the literature as "MSB format", "IBM format", or "Token Ring format" for this reason. RFC2469 explains the problem in more detail.


Maps Organizationally unique identifier



Format

The OUI is normally discussed and represented as a set of octets in hexadecimal notation separated by dashes (i.e., FF-FF-FF) or as a set of octets separated by colons in bit-reversed notation (i.e., FF:FF:FF).

The two least-significant-bits of the second nibble of the first octet of the hexadecimal representation (i.e., the two least significant bits of the first octet) of the OUI are reserved as flag bits for some protocols (e.g., 'M' bit and 'X' bit), flags to indicate whether the address is part of an individual (unicast) or group (multicast) address block (e.g., Individual / Group [I / G] bit or Unicast / Multicast [U / M] bit), flags to indicate whether an address is universally or locally administered (e.g., Universal / Local [U / L] bit), etc., and should not contain the values 1,2,3,5,6,7,9,a, b,d, e, or f, unless these values reflect the true meaning of these flag bits - if the organization that owns the OUI does set one of these bits when creating an identifier, then the value of the second nibble of the first octet changes accordingly in representations of the OUI (e.g., if the hexadecimal value of the second nibble of the first octet is 'C' and the least-significant-bit is set, then the value becomes 'D').

Note: "Three-octet values occupying the same fields as OUIs can occupy, but with the next-to-LSB of the first octet set to 1, are locally assigned and have no relationship to the IEEE-assigned values...".

Example:

The following figure shows the position of these bits in significance order:

Note: The OUI of AC-DE-48 is used for illustrative purposes only and this information applies regardless of the actual value of the OUI.

Notes:

  1. The IEEE also refers to the OUI as 'company_id' when the OUI is written as a base 16 number (i.e., as a hexadecimal number with no dashes or colons separating the octets of the OUI).
  2. In the following, 'F' and 'h' represent any hexadecimal number.
  3. In the following, 'c' represents the digits of the 'company_id', and 'e' represents the digits of the extension identifier supplied by the organization to whom the OUI is registered.

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Types of Identifiers

32-bit Context Dependent Identifier (CDI-32)

The CDI-32 is an identifier that is formed by concatenating the 24-bit OUI with an 8-bit extension identifier that is assigned by the organization that purchased the OUI - the resulting identifier is generally represented as a set of octets separated by dashes (hexadecimal notation) or colons (bit-reversed notation) as in FF-FF-FF-FF or FF:FF:FF:FF, as a string of 4 bytes as in {FF,FF,FF,FF}, or as a base 16 number as in FFFFFFFF16.

40-bit Context Dependent Identifier (CDI-40)

The CDI-40 is an identifier that is formed by concatenating the 24-bit OUI with a 16-bit extension or by concatenating a 36-bit OUI-36 with a 4-bit extension. In either case, the extension is assigned by the organization that purchased the OUI. The resulting identifier is generally represented as a set of octets separated by dashes (hexadecimal notation) or colons (bit-reversed notation) as in FF-FF-FF-FF-FF or FF:FF:FF:FF:FF, as a string of 5 bytes as in {FF,FF,FF,FF,FF}, or as a base 16 number as in FFFFFFFFFF16.

48-bit Media Access Control Identifier (MAC-48)

The IEEE now considers the label MAC-48 to be an obsolete term which was previously used to refer to a specific type of EUI-48 identifier used to address hardware interfaces (e.g., Network Interface Controllers and other network hardware) within existing IEEE 802 based networking applications and should not be used in the future. Instead, the term EUI-48 should be used by manufacturers and others in the field for this purpose - i.e., this identifier is identical to the EUI-48 identifier and is an obsolete label for the same identifier, although some distinction is still made when encapsulating MAC-48 and EUI-48 identifiers within EUI-64 identifiers.

48-bit Extended Unique Identifier (EUI-48)

The EUI-48 is an identifier that is formed by concatenating the 24-bit OUI with a 24-bit extension identifier that is assigned by the organization that purchased the OUI - the resulting identifier is generally represented as a set of octets separated by dashes (hexadecimal notation) or colons (bit-reversed notation) as in FF-FF-FF-FF-FF-FF or FF:FF:FF:FF:FF:FF, as a string of 6 bytes as in {FF,FF,FF,FF,FF,FF}, or as a base 16 number as in FFFFFFFFFFFF16.

60-bit Extended Unique Identifier (EUI-60)

The EUI-60 is an identifier that is formed by concatenating the 24-bit OUI with a 36-bit extension identifier that is assigned by the organization that purchased the OUI - the resulting identifier is generally represented by a string of 15 nibbles, as a base 16 number as in FFFFFFFFFFFFFFF16, or as FF-FF-FF:F.F.F.F.F.F.F.F.F as an EUI-64 value.

Note: This identifier was previously used as the worldwide name (WWN) identifier within some storage systems. Its use is now considered deprecated by the IEEE and the EUI-64 identifier should be used in the future for this and all other purposes for which the EUI-60 was previously used. Some of the storage systems in which an OUI based variant was used are Fibre Channel, and Serial Attached SCSI (SAS).

64-bit Extended Unique Identifier (EUI-64)

The EUI-64 is an identifier that is formed by concatenating the 24-bit OUI with a 40-bit extension identifier that is assigned by the organization that purchased the OUI - the resulting identifier is generally represented as a set of octets separated by dashes (hexadecimal notation) or colons (bit-reversed notation) as in FF-FF-FF-FF-FF-FF-FF-FF or FF:FF:FF:FF:FF:FF:FF:FF, as a string of 8 bytes as in {FF,FF,FF,FF,FF,FF,FF,FF}, or as a base 16 number as in FFFFFFFFFFFFFFFF16.

Note: According to the IEEE guidelines, the first four digits of the organizationally assigned identifier (i.e., the first four digits of the extension identifier) portion of an EUI-64 "shall not be FFFE16 or FFFF16" (i.e., EUI-64 identifiers of the form ccccccFFFEeeeeee and ccccccFFFFeeeeee are not allowed) - this is to support the encapsulation of EUI-48 and MAC-48 values into EUI-64 values.

Other Identifiers

IPv6 uses a 64-bit Modified Extended Unique Identifier (Modified EUI-64) in the lower half of some IPv6 addresses. A Modified EUI-64 is an EUI-64 with the U/L bit inverted.

There are other identifiers that may be formed using the OUI but those listed above are the most commonly used.


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Encapsulating

Other identifiers, such as MAC-48 and EUI-48 values, can be contained within a larger identifier or 'container', such as EUI-64, by creating the larger identifier through a process of combining the smaller identifier with specified values placed in specified bit-positions within the larger identifier - this process is known as 'encapsulation' and is provided for the purpose of easing the transition from MAC-48 and EUI-48 to EUI-64 and to provide a mechanism for the conversion of MAC-48 and EUI-48 identifiers to EUI-64 in such a way that duplicate or conflicting values are avoided.

Encapsulation Examples

Encapsulation of MAC-48 within EUI-64 Example:

Assuming that an organization has registered the OUI of AC-DE-48 and that the organization has created the MAC-48 value of AC-DE-48-23-45-67 by concatenating the extension identifier 23-45-67, this MAC-48 identifier has the following binary transmission order:

The same MAC-48 identifier after encapsulation within an EUI-64 has the following transmission order:

The same MAC-48 identifier after encapsulation within an EUI-64 has the following significance order:

Encapsulation of EUI-48 within EUI-64 Example:

Assuming that an organization has registered the OUI of AC-DE-48 and that the organization has created the EUI-48 value of AC-DE-48-23-45-67 by concatenating the extension identifier 23-45-67, this EUI-48 identifier has the following format in significance order:

The same EUI-48 identifier after encapsulation within an EUI-64 has the following format in significance order:

Encapsulation of MAC-48 or EUI-48 within Modified EUI-64 Example:

In the encapsulation within a Modified EUI-64 a MAC-48 is treated as an EUI-48 and the U/L bit is inverted. Assuming that an organization has registered the OUI of AC-DE-48 and that the organization has created the MAC-48 or EUI-48 value of AC-DE-48-23-45-67 by concatenating the extension identifier 23-45-67, this MAC-48 or EUI-48 identifier has the following format in significance order:

The same MAC-48 or EUI-48 identifier after encapsulation within a Modified EUI-64 has the following format in significance order:

NAA Name_Identifier

Network Address Authority (NAA) Name_Identifier formats define the first nibble (4 bits) to define the format of the identifier:

This encapsulation is used in Fibre Channel and SAS, and is also supported in iSCSI in RFC 3980. This addition requires either a shortened vendor-specific identifier field, or some OUI bits are assumed to be 0, such as when using EUI-64 Mapped format.


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Individual Address Block

The Individual Address Block (IAB) is a block of identifiers that is formed by concatenating a 24-bit Organizationally Unique Identifier (OUI) that is owned by the IEEE Registration Authority with an additional 12-bit extension identifier that is assigned by the IEEE Registration Authority and then reserving an additional 12 bits for use by the assignee. The resulting 48-bit identifier uniquely identifies the assignee of the IAB and provides 4096 unique EUI-48 numbers for use by the organization that purchased the IAB. The assignee may create unique identifiers by concatenating a 12-bit extension identifier that is assigned by the organization that purchases the IAB in the bit positions occupied by the 12 additional bits mentioned previously. The purpose of the IAB is to allow organizations to purchase smaller blocks of identifiers.

The IEEE Registration Authority distinguishes between IABs and OUI-36 values. Both are 36-bit values which may be used to generate EUI-48 values, but IABs may not be used to generate EUI-64 values.

Example of EUI-48 created within an IAB: An EUI-48 identifier is formed by combining the 36-bit IEEE assigned IAB base value with a 12-bit extension identifier assigned by the organization - e.g., if the IEEE assigned IAB base value is FF-FF-FF-FF-F0-00 and the 12-bit extension identifier is hhh16, then the EUI-48 value generated by combining these two numbers is FF-FF-FF-FF-Fh-hh.

Note: There are also IAB based CDI-40 sequences that are formed by combining the 36-bit IEEE assigned IAB base value with the 4-bit extension identifier assigned by the organization - e.g., if the IEEE assigned IAB base value is FF-FF-FF-FF-F0-00 and the 4-bit extension identifier is 0h16, then the CDI-40 value generated by combining these two numbers is FF-FF-FF-FF-Fh.


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Compare to

  • Globally Unique Identifier (GUID)
  • Object identifier (OID)
  • Private Enterprise numbers (PEN)

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See also

  • MAC address
  • Individual Address Block

Organizationally Unique Identifier in the form of binary code, 3D ...
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References


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External links

  • IEEE Registration Authority Tutorials
  • IEEE Registration Authority - Frequently Asked Questions
  • IEEE Public OUI and Company_id Assignment lookup
  • IEEE Public OUI list
  • IEEE Public IAB list
  • IEEE IAB and OUI MAC Address Lookup Database and API
  • IANA Considerations and IETF Protocol Usage for IEEE 802 Parameters
  • IANA list of Ethernet Numbers
  • Wireshark's OUI Lookup Tool and MAC address list
  • Mac address vendor lookup (OUI Lookup)

Source of the article : Wikipedia

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