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#----------------------------------------------------------------------------- # Copyright (c) 2008 by David P. D. Moss. All rights reserved. # # Released under the BSD license. See the LICENSE file for details. #----------------------------------------------------------------------------- """ IEEE 64-bit EUI (Extended Unique Indentifier) logic. """ import struct as _struct import re as _re from netaddr.core import AddrFormatError from netaddr.strategy import ( valid_words as _valid_words, int_to_words as _int_to_words, words_to_int as _words_to_int, valid_bits as _valid_bits, bits_to_int as _bits_to_int, int_to_bits as _int_to_bits, valid_bin as _valid_bin, int_to_bin as _int_to_bin, bin_to_int as _bin_to_int) # This is a fake constant that doesn't really exist. Here for completeness. AF_EUI64 = 64 #: The width (in bits) of this address type. width = 64 #: The AF_* constant value of this address type. family = AF_EUI64 #: A friendly string name address type. family_name = 'EUI-64' #: The version of this address type. version = 64 #: The maximum integer value that can be represented by this address type. max_int = 2 ** width - 1 #----------------------------------------------------------------------------- # Dialect classes. #----------------------------------------------------------------------------- class eui64_base(object): """A standard IEEE EUI-64 dialect class.""" #: The individual word size (in bits) of this address type. word_size = 8 #: The number of words in this address type. num_words = width // word_size #: The maximum integer value for an individual word in this address type. max_word = 2 ** word_size - 1 #: The separator character used between each word. word_sep = '-' #: The format string to be used when converting words to string values. word_fmt = '%.2X' #: The number base to be used when interpreting word values as integers. word_base = 16 class eui64_unix(eui64_base): """A UNIX-style MAC address dialect class.""" word_size = 8 num_words = width // word_size word_sep = ':' word_fmt = '%x' word_base = 16 class eui64_unix_expanded(eui64_unix): """A UNIX-style MAC address dialect class with leading zeroes.""" word_fmt = '%.2x' class eui64_cisco(eui64_base): """A Cisco 'triple hextet' MAC address dialect class.""" word_size = 16 num_words = width // word_size word_sep = '.' word_fmt = '%.4x' word_base = 16 class eui64_bare(eui64_base): """A bare (no delimiters) MAC address dialect class.""" word_size = 64 num_words = width // word_size word_sep = '' word_fmt = '%.16X' word_base = 16 #: The default dialect to be used when not specified by the user. DEFAULT_EUI64_DIALECT = eui64_base #----------------------------------------------------------------------------- #: Regular expressions to match all supported MAC address formats. RE_EUI64_FORMATS = ( # 2 bytes x 8 (UNIX, Windows, EUI-64) '^' + ':'.join(['([0-9A-F]{1,2})'] * 8) + '$', '^' + '-'.join(['([0-9A-F]{1,2})'] * 8) + '$', # 4 bytes x 4 (Cisco like) '^' + ':'.join(['([0-9A-F]{1,4})'] * 4) + '$', '^' + '-'.join(['([0-9A-F]{1,4})'] * 4) + '$', '^' + r'\.'.join(['([0-9A-F]{1,4})'] * 4) + '$', # 16 bytes (bare, no delimiters) '^(' + ''.join(['[0-9A-F]'] * 16) + ')$', ) # For efficiency, each string regexp converted in place to its compiled # counterpart. RE_EUI64_FORMATS = [_re.compile(_, _re.IGNORECASE) for _ in RE_EUI64_FORMATS] def _get_match_result(address, formats): for regexp in formats: match = regexp.findall(address) if match: return match[0] def valid_str(addr): """ :param addr: An IEEE EUI-64 indentifier in string form. :return: ``True`` if EUI-64 indentifier is valid, ``False`` otherwise. """ try: if _get_match_result(addr, RE_EUI64_FORMATS): return True except TypeError: pass return False def str_to_int(addr): """ :param addr: An IEEE EUI-64 indentifier in string form. :return: An unsigned integer that is equivalent to value represented by EUI-64 string address formatted according to the dialect """ words = [] try: words = _get_match_result(addr, RE_EUI64_FORMATS) if not words: raise TypeError except TypeError: raise AddrFormatError('invalid IEEE EUI-64 identifier: %r!' % (addr,)) if isinstance(words, tuple): pass else: words = (words,) if len(words) == 8: # 2 bytes x 8 (UNIX, Windows, EUI-48) int_val = int(''.join(['%.2x' % int(w, 16) for w in words]), 16) elif len(words) == 4: # 4 bytes x 4 (Cisco like) int_val = int(''.join(['%.4x' % int(w, 16) for w in words]), 16) elif len(words) == 1: # 16 bytes (bare, no delimiters) int_val = int('%016x' % int(words[0], 16), 16) else: raise AddrFormatError( 'bad word count for EUI-64 identifier: %r!' % addr) return int_val def int_to_str(int_val, dialect=None): """ :param int_val: An unsigned integer. :param dialect: (optional) a Python class defining formatting options :return: An IEEE EUI-64 identifier that is equivalent to unsigned integer. """ if dialect is None: dialect = eui64_base words = int_to_words(int_val, dialect) tokens = [dialect.word_fmt % i for i in words] addr = dialect.word_sep.join(tokens) return addr def int_to_packed(int_val): """ :param int_val: the integer to be packed. :return: a packed string that is equivalent to value represented by an unsigned integer. """ words = int_to_words(int_val) return _struct.pack('>8B', *words) def packed_to_int(packed_int): """ :param packed_int: a packed string containing an unsigned integer. It is assumed that string is packed in network byte order. :return: An unsigned integer equivalent to value of network address represented by packed binary string. """ words = list(_struct.unpack('>8B', packed_int)) int_val = 0 for i, num in enumerate(reversed(words)): word = num word = word << 8 * i int_val = int_val | word return int_val def valid_words(words, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _valid_words(words, dialect.word_size, dialect.num_words) def int_to_words(int_val, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _int_to_words(int_val, dialect.word_size, dialect.num_words) def words_to_int(words, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _words_to_int(words, dialect.word_size, dialect.num_words) def valid_bits(bits, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _valid_bits(bits, width, dialect.word_sep) def bits_to_int(bits, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _bits_to_int(bits, width, dialect.word_sep) def int_to_bits(int_val, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _int_to_bits( int_val, dialect.word_size, dialect.num_words, dialect.word_sep) def valid_bin(bin_val, dialect=None): if dialect is None: dialect = DEFAULT_EUI64_DIALECT return _valid_bin(bin_val, width) def int_to_bin(int_val): return _int_to_bin(int_val, width) def bin_to_int(bin_val): return _bin_to_int(bin_val, width)