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Like ``ipaddress``, but for hardware identifiers such as MAC addresses.

Project description

A module for handling hardware identifiers like MAC addresses.

This module makes it easy to:

  1. check if a string represents a valid MAC address, or a similar hardware identifier like an EUI-64, OUI, etc,

  2. convert between string and binary forms of MAC addresses and other hardware identifiers,

and so on.

Heavily inspired by the ipaddress module, but not yet quite as featureful.

Versioning

This library’s version numbers follow the SemVer 2.0.0 specification.

Installation

pip install macaddress

Usage

Import:

import macaddress

Classes are provided for common hardware identifier types (MAC/EUI48, EUI64, OUI, and so on), as well as several less common ones. Others might be added later. You can define ones that you need in your code with just a few lines of code.

Parse or Validate String

When only one address type is valid:

All provided classes support the standard and common formats. For example, the EUI48 and MAC classes support the following formats:

>>> macaddress.MAC('01-23-45-67-89-ab')
MAC('01-23-45-67-89-AB')
>>> macaddress.MAC('01:23:45:67:89:ab')
MAC('01-23-45-67-89-AB')
>>> macaddress.MAC('0123.4567.89ab')
MAC('01-23-45-67-89-AB')
>>> macaddress.MAC('0123456789ab')
MAC('01-23-45-67-89-AB')

You can inspect what formats a hardware address class supports by looking at its formats attribute:

>>> macaddress.OUI.formats
('xx-xx-xx', 'xx:xx:xx', 'xxxxxx')

Each x in the format string matches one hexadecimal “digit”, and all other characters are matched literally.

If the string does not match one of the formats, a ValueError is raised:

>>> try:
...     macaddress.MAC('foo bar')
... except ValueError as error:
...     print(error)
...
'foo bar' cannot be parsed as MAC

If you need to parse in a format that isn’t supported, you can define a subclass and add the format:

>>> class MACAllowsTrailingDelimiters(macaddress.MAC):
...     formats = macaddress.MAC.formats + (
...         'xx-xx-xx-xx-xx-xx-',
...         'xx:xx:xx:xx:xx:xx:',
...         'xxxx.xxxx.xxxx.',
...     )
...
>>> MACAllowsTrailingDelimiters('01-02-03-04-05-06-')
MACAllowsTrailingDelimiters('01-02-03-04-05-06')

When multiple address types are valid:

There is also a parse function for when you have a string which might be one of several classes:

>>> from macaddress import EUI48, EUI64, MAC, OUI

>>> macaddress.parse('01:02:03', OUI, MAC)
OUI('01-02-03')
>>> macaddress.parse('01:02:03:04:05:06', OUI, MAC, EUI64)
MAC('01-02-03-04-05-06')
>>> macaddress.parse('010203040506', EUI64, EUI48)
EUI48('01-02-03-04-05-06')
>>> macaddress.parse('0102030405060708', EUI64, EUI48, OUI, MAC)
EUI64('01-02-03-04-05-06-07-08')

If the input string cannot be parsed as any of the given classes, a ValueError is raised:

>>> try:
...     macaddress.parse('01:23', MAC, OUI)
... except ValueError as error:
...     print(error)
...
'01:23' cannot be parsed as MAC or OUI
>>> try:
...     macaddress.parse('01:23', MAC, OUI, EUI64)
... except ValueError as error:
...     print(error)
...
'01:23' cannot be parsed as MAC, OUI, or EUI64

Note that the message of the ValueError tries to be helpful for developers, but it is not localized, nor is its exact text part of the official public interface covered by SemVer.

Parse from Bytes

All macaddress classes can be constructed from raw bytes:

>>> macaddress.MAC(b'abcdef')
MAC('61-62-63-64-65-66')
>>> macaddress.OUI(b'abc')
OUI('61-62-63')

If the byte string is the wrong size, a ValueError is raised:

>>> try:
...     macaddress.MAC(b'\x01\x02\x03')
... except ValueError as error:
...     print(error)
...
b'\x01\x02\x03' has wrong length for MAC

Parse from Integers

All macaddress classes can be constructed from raw integers:

>>> macaddress.MAC(0x010203ffeedd)
MAC('01-02-03-FF-EE-DD')
>>> macaddress.OUI(0x010203)
OUI('01-02-03')

Note that the least-significant bit of the integer value maps to the last bit in the address type, so the same integer has a different meaning depending on the class you use it with:

>>> macaddress.MAC(1)
MAC('00-00-00-00-00-01')
>>> macaddress.OUI(1)
OUI('00-00-01')

If the integer is too large for the hardware identifier class that you’re trying to construct, a ValueError is raised:

>>> try:
...     macaddress.OUI(1_000_000_000)
... except ValueError as error:
...     print(error)
...
1000000000 is too big for OUI

Get as String

>>> mac = macaddress.MAC('01-02-03-04-05-06')
>>> str(mac)
'01-02-03-04-05-06'
>>> str(mac).replace('-', ':')
'01:02:03:04:05:06'
>>> str(mac).replace('-', '')
'010203040506'

Get as Bytes

>>> mac = macaddress.MAC('61-62-63-04-05-06')
>>> bytes(mac)
b'abc\x04\x05\x06'

Get as Integer

>>> mac = macaddress.MAC('01-02-03-04-05-06')
>>> int(mac)
1108152157446
>>> int(mac) == 0x010203040506
True

Get the OUI

Most classes supplied by this module have the oui attribute, which returns their first three bytes as an OUI object:

>>> macaddress.MAC('01:02:03:04:05:06').oui
OUI('01-02-03')

Compare

Equality

All macaddress classes support equality comparisons:

>>> macaddress.OUI('01-02-03') == macaddress.OUI('01:02:03')
True
>>> macaddress.OUI('01-02-03') == macaddress.OUI('ff-ee-dd')
False
>>> macaddress.OUI('01-02-03') != macaddress.CDI32('01-02-03-04')
True
>>> macaddress.OUI('01-02-03') != macaddress.CDI32('01-02-03-04').oui
False

Ordering

All macaddress classes support total ordering. The comparisons are designed to intuitively sort identifiers that start with the same bits next to each other:

>>> some_values = [
...     MAC('ff-ee-dd-01-02-03'),
...     MAC('ff-ee-00-99-88-77'),
...     MAC('ff-ee-dd-01-02-04'),
...     OUI('ff-ee-dd'),
... ]
>>> for x in sorted(some_values):
...     print(x)
FF-EE-00-01-02-03
FF-EE-DD
FF-EE-DD-01-02-03
FF-EE-DD-01-02-04

Define New Types

This library is designed to make it very easy to use other hardware address types that this library does not currently define for you.

For example, if you want to handle IP-over-InfiniBand link-layer addresses, all you need to define is:

class InfiniBand(macaddress.HWAddress):
    size = 20 * 8  # size in bits; 20 octets

    formats = (
        'xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx-xx',
        'xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx',
        'xxxx.xxxx.xxxx.xxxx.xxxx.xxxx.xxxx.xxxx.xxxx.xxxx',
        'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
        # or whatever formats you want to support
    )
    # All formats are tried when parsing from string,
    # and the first format is used when stringifying.

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