From da1a8f12d7a38f67f3f464aaaffa851f929ae4ea Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 12 Jun 2024 19:45:09 +0200 Subject: Adding upstream version 0.10.1. Signed-off-by: Daniel Baumann --- netaddr/ip/__init__.py | 2206 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2206 insertions(+) create mode 100644 netaddr/ip/__init__.py (limited to 'netaddr/ip/__init__.py') diff --git a/netaddr/ip/__init__.py b/netaddr/ip/__init__.py new file mode 100644 index 0000000..0669224 --- /dev/null +++ b/netaddr/ip/__init__.py @@ -0,0 +1,2206 @@ +#----------------------------------------------------------------------------- +# Copyright (c) 2008 by David P. D. Moss. All rights reserved. +# +# Released under the BSD license. See the LICENSE file for details. +#----------------------------------------------------------------------------- +"""Routines for IPv4 and IPv6 addresses, subnets and ranges.""" + +import sys as _sys + +from netaddr.core import AddrFormatError, AddrConversionError, num_bits, \ + DictDotLookup, NOHOST, N, INET_ATON, INET_PTON, P, ZEROFILL, Z + +from netaddr.strategy import ipv4 as _ipv4, ipv6 as _ipv6 + +from netaddr.compat import _sys_maxint, _iter_next, _iter_range, _is_str, _int_type, \ + _str_type + + +class BaseIP(object): + """ + An abstract base class for common operations shared between various IP + related subclasses. + + """ + __slots__ = ('_value', '_module', '__weakref__') + + def __init__(self): + """Constructor.""" + self._value = None + self._module = None + + def _set_value(self, value): + if not isinstance(value, _int_type): + raise TypeError('int argument expected, not %s' % type(value)) + if not 0 <= value <= self._module.max_int: + raise AddrFormatError('value out of bounds for an %s address!' \ + % self._module.family_name) + self._value = value + + value = property(lambda self: self._value, _set_value, + doc='a positive integer representing the value of IP address/subnet.') + + def key(self): + """ + :return: a key tuple that uniquely identifies this IP address. + """ + return NotImplemented + + def sort_key(self): + """ + :return: A key tuple used to compare and sort this `IPAddress` + correctly. + """ + return NotImplemented + + def __hash__(self): + """ + :return: A hash value uniquely identifying this IP object. + """ + return hash(self.key()) + + def __eq__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + equivalent to ``other``, ``False`` otherwise. + """ + try: + return self.key() == other.key() + except (AttributeError, TypeError): + return NotImplemented + + def __ne__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + not equivalent to ``other``, ``False`` otherwise. + """ + try: + return self.key() != other.key() + except (AttributeError, TypeError): + return NotImplemented + + def __lt__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + less than ``other``, ``False`` otherwise. + """ + try: + return self.sort_key() < other.sort_key() + except (AttributeError, TypeError): + return NotImplemented + + def __le__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + less than or equal to ``other``, ``False`` otherwise. + """ + try: + return self.sort_key() <= other.sort_key() + except (AttributeError, TypeError): + return NotImplemented + + def __gt__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + greater than ``other``, ``False`` otherwise. + """ + try: + return self.sort_key() > other.sort_key() + except (AttributeError, TypeError): + return NotImplemented + + def __ge__(self, other): + """ + :param other: an `IPAddress` or `IPNetwork` object. + + :return: ``True`` if this `IPAddress` or `IPNetwork` object is + greater than or equal to ``other``, ``False`` otherwise. + """ + try: + return self.sort_key() >= other.sort_key() + except (AttributeError, TypeError): + return NotImplemented + + def is_unicast(self): + """:return: ``True`` if this IP is unicast, ``False`` otherwise""" + return not self.is_multicast() + + def is_multicast(self): + """:return: ``True`` if this IP is multicast, ``False`` otherwise""" + if self._module == _ipv4: + return self in IPV4_MULTICAST + elif self._module == _ipv6: + return self in IPV6_MULTICAST + + def is_loopback(self): + """ + :return: ``True`` if this IP is loopback address (not for network + transmission), ``False`` otherwise. + References: RFC 3330 and 4291. + + .. note:: |ipv4_in_ipv6_handling| + """ + if self._module.version == 4: + return self in IPV4_LOOPBACK + elif self._module.version == 6: + return self in IPV6_LOOPBACK + + def is_private(self): + """ + :return: ``True`` if this IP is for internal/private use only + (i.e. non-public), ``False`` otherwise. Reference: RFCs 1918, + 3330, 4193, 3879 and 2365. + + .. note:: |ipv4_in_ipv6_handling| + + .. deprecated:: 0.10.0 + The ``is_private`` method has been mixing several different address types together + which could lead to unexpected results. There are more precise + replacements for subset of the addresses handled by ``is_private`` today: + + * :meth:`is_link_local` + * :meth:`is_ipv4_private_use` + * :meth:`is_ipv6_unique_local` + + There is also the :meth:`is_global` method that lets you handle all globally + reachable (or not) addresses. + + The following address blocks currently handled by ``is_private`` have no + convenience methods and you'll have to handle them manually or request a method + addition: + + * ``100.64.0.0/10`` – Shared Address Space + * ``192.0.0.0/24`` – IETF Protocol Assignments + * ``198.18.0.0/15`` – Benchmarking + * ``239.0.0.0``-``239.255.255.255`` + """ + if self._module.version == 4: + for cidr in IPV4_PRIVATEISH: + if self in cidr: + return True + elif self._module.version == 6: + for cidr in IPV6_PRIVATEISH: + if self in cidr: + return True + + if self.is_link_local(): + return True + + return False + + def is_link_local(self): + """ + :return: ``True`` if this IP is link-local address ``False`` otherwise. + Reference: RFCs 3927 and 4291. + + .. note:: |ipv4_in_ipv6_handling| + """ + if self._module.version == 4: + return self in IPV4_LINK_LOCAL + elif self._module.version == 6: + return self in IPV6_LINK_LOCAL + + def is_reserved(self): + """ + :return: ``True`` if this IP is in IANA reserved range, ``False`` + otherwise. Reference: RFCs 3330 and 3171. + + .. note:: |ipv4_in_ipv6_handling| + """ + if self._module.version == 4: + for cidr in IPV4_RESERVED: + if self in cidr: + return True + elif self._module.version == 6: + for cidr in IPV6_RESERVED: + if self in cidr: + return True + return False + + def is_ipv4_mapped(self): + """ + :return: ``True`` if this IP is IPv4-compatible IPv6 address, ``False`` + otherwise. + """ + return self._module.version == 6 and (self._value >> 32) == 0xffff + + def is_ipv4_compat(self): + """ + :return: ``True`` if this IP is IPv4-mapped IPv6 address, ``False`` + otherwise. + """ + return self._module.version == 6 and (self._value >> 32) == 0 + + @property + def info(self): + """ + A record dict containing IANA registration details for this IP address + if available, None otherwise. + """ + # Lazy loading of IANA data structures. + from netaddr.ip.iana import query + return DictDotLookup(query(self)) + + @property + def version(self): + """the IP protocol version represented by this IP object.""" + return self._module.version + + +class IPAddress(BaseIP): + """ + An individual IPv4 or IPv6 address without a net mask or subnet prefix. + + To support these and other network based operations, see `IPNetwork`. + + """ + __slots__ = () + + def __init__(self, addr, version=None, flags=0): + """ + Constructor. + + :param addr: an IPv4 or IPv6 address which may be represented in an + accepted string format, as an unsigned integer or as another + IPAddress object (copy construction). + + :param version: (optional) optimizes version detection if specified + and distinguishes between IPv4 and IPv6 for addresses with an + equivalent integer value. + + :param flags: (optional) decides which rules are applied to the + interpretation of the addr value if passed as a string. + + Matters only in IPv4 context. + + Allowed flag values: + + * The default (``0``) or :data:`INET_ATON`. Follows `inet_aton semantics + `_ and allows all kinds of + weird-looking addresses to be parsed. For example: + + >>> IPAddress('1') + IPAddress('0.0.0.1') + >>> IPAddress('1.0xf') + IPAddress('1.0.0.15') + >>> IPAddress('010.020.030.040') + IPAddress('8.16.24.32') + + * ``INET_ATON | ZEROFILL`` or :data:`ZEROFILL` – like the default, except leading zeros are discarded: + + >>> IPAddress('010', flags=INET_ATON | ZEROFILL) + IPAddress('0.0.0.10') + + * :data:`INET_PTON` – requires four decimal octets: + + >>> IPAddress('10.0.0.1', flags=INET_PTON) + IPAddress('10.0.0.1') + + Leading zeros may be ignored or rejected, depending on the platform. + + * ``INET_PTON | ZEROFILL`` – like :data:`INET_PTON`, except leading zeros are + discarded: + + >>> IPAddress('010.020.030.040', flags=INET_PTON | ZEROFILL) + IPAddress('10.20.30.40') + + .. versionchanged:: 0.10.0 + The default IPv4 parsing mode is scheduled to become :data:`INET_PTON` in the next + major release. + """ + super(IPAddress, self).__init__() + + if flags & ~(INET_PTON | ZEROFILL | INET_ATON): + raise ValueError('Unrecognized IPAddress flags value: %s' % (flags,)) + + if flags & INET_ATON and flags & INET_PTON: + raise ValueError('INET_ATON and INET_PTON are mutually exclusive') + + if isinstance(addr, BaseIP): + # Copy constructor. + if version is not None and version != addr._module.version: + raise ValueError('cannot switch IP versions using ' + 'copy constructor!') + self._value = addr._value + self._module = addr._module + else: + # Explicit IP address version. + if version is not None: + if version == 4: + self._module = _ipv4 + elif version == 6: + self._module = _ipv6 + else: + raise ValueError('%r is an invalid IP version!' % version) + + if _is_str(addr) and '/' in addr: + raise ValueError('%s() does not support netmasks or subnet' \ + ' prefixes! See documentation for details.' + % self.__class__.__name__) + + if self._module is None: + # IP version is implicit, detect it from addr. + if isinstance(addr, _int_type): + try: + if 0 <= int(addr) <= _ipv4.max_int: + self._value = int(addr) + self._module = _ipv4 + elif _ipv4.max_int < int(addr) <= _ipv6.max_int: + self._value = int(addr) + self._module = _ipv6 + except ValueError: + pass + else: + for module in _ipv4, _ipv6: + try: + self._value = module.str_to_int(addr, flags) + except: + continue + else: + self._module = module + break + + if self._module is None: + raise AddrFormatError('failed to detect a valid IP ' \ + 'address from %r' % addr) + else: + # IP version is explicit. + if _is_str(addr): + try: + self._value = self._module.str_to_int(addr, flags) + except AddrFormatError: + raise AddrFormatError('base address %r is not IPv%d' + % (addr, self._module.version)) + else: + if 0 <= int(addr) <= self._module.max_int: + self._value = int(addr) + else: + raise AddrFormatError('bad address format: %r' % (addr,)) + + def __getstate__(self): + """:returns: Pickled state of an `IPAddress` object.""" + return self._value, self._module.version + + def __setstate__(self, state): + """ + :param state: data used to unpickle a pickled `IPAddress` object. + + """ + value, version = state + + self._value = value + + if version == 4: + self._module = _ipv4 + elif version == 6: + self._module = _ipv6 + else: + raise ValueError('unpickling failed for object state: %s' \ + % str(state)) + + def netmask_bits(self): + """ + @return: If this IP is a valid netmask, the number of non-zero + bits are returned, otherwise it returns the width in bits for + the IP address version. + """ + if not self.is_netmask(): + return self._module.width + + # the '0' address (e.g. 0.0.0.0 or 0000::) is a valid netmask with + # no bits set. + if self._value == 0: + return 0 + + i_val = self._value + numbits = 0 + + while i_val > 0: + if i_val & 1 == 1: + break + numbits += 1 + i_val >>= 1 + + mask_length = self._module.width - numbits + + if not 0 <= mask_length <= self._module.width: + raise ValueError('Unexpected mask length %d for address type!' \ + % mask_length) + + return mask_length + + def is_hostmask(self): + """ + :return: ``True`` if this IP address host mask, ``False`` otherwise. + """ + int_val = self._value + 1 + return (int_val & (int_val - 1) == 0) + + def is_netmask(self): + """ + :return: ``True`` if this IP address network mask, ``False`` otherwise. + """ + int_val = (self._value ^ self._module.max_int) + 1 + return (int_val & (int_val - 1) == 0) + + def __iadd__(self, num): + """ + Increases the numerical value of this IPAddress by num. + + An IndexError is raised if result exceeds maximum IP address value or + is less than zero. + + :param num: size of IP address increment. + """ + new_value = int(self._value + num) + if 0 <= new_value <= self._module.max_int: + self._value = new_value + return self + raise IndexError('result outside valid IP address boundary!') + + def __isub__(self, num): + """ + Decreases the numerical value of this IPAddress by num. + + An IndexError is raised if result is less than zero or exceeds maximum + IP address value. + + :param num: size of IP address decrement. + """ + new_value = int(self._value - num) + if 0 <= new_value <= self._module.max_int: + self._value = new_value + return self + raise IndexError('result outside valid IP address boundary!') + + def __add__(self, num): + """ + Add the numerical value of this IP address to num and provide the + result as a new IPAddress object. + + :param num: size of IP address increase. + + :return: a new IPAddress object with its numerical value increased by num. + """ + new_value = int(self._value + num) + if 0 <= new_value <= self._module.max_int: + return self.__class__(new_value, self._module.version) + raise IndexError('result outside valid IP address boundary!') + + __radd__ = __add__ + + def __sub__(self, num): + """ + Subtract the numerical value of this IP address from num providing + the result as a new IPAddress object. + + :param num: size of IP address decrease. + + :return: a new IPAddress object with its numerical value decreased by num. + """ + new_value = int(self._value - num) + if 0 <= new_value <= self._module.max_int: + return self.__class__(new_value, self._module.version) + raise IndexError('result outside valid IP address boundary!') + + def __rsub__(self, num): + """ + Subtract num (lvalue) from the numerical value of this IP address + (rvalue) providing the result as a new IPAddress object. + + :param num: size of IP address decrease. + + :return: a new IPAddress object with its numerical value decreased by num. + """ + new_value = int(num - self._value) + if 0 <= new_value <= self._module.max_int: + return self.__class__(new_value, self._module.version) + raise IndexError('result outside valid IP address boundary!') + + def key(self): + """ + :return: a key tuple that uniquely identifies this IP address. + """ + # NB - we return the value here twice because this IP Address may + # be sorted with a list of networks and it should still end up + # in the expected order. + return self._module.version, self._value + + def sort_key(self): + """:return: A key tuple used to compare and sort this `IPAddress` correctly.""" + return self._module.version, self._value, self._module.width + + def __int__(self): + """:return: the value of this IP address as an unsigned integer""" + return self._value + + def __long__(self): + """:return: the value of this IP address as an unsigned integer""" + return self._value + + def __oct__(self): + """:return: an octal string representation of this IP address.""" + # Python 2.x + if self._value == 0: + return '0' + return '0%o' % self._value + + def __hex__(self): + """:return: a hexadecimal string representation of this IP address.""" + # Python 2.x + return '0x%x' % self._value + + def __index__(self): + """ + :return: return the integer value of this IP address when called by \ + hex(), oct() or bin(). + """ + # Python 3.x + return self._value + + def __bytes__(self): + """ + :return: a bytes object equivalent to this IP address. In network + byte order, big-endian. + """ + # Python 3.x + return self._value.to_bytes(self._module.width//8, 'big') + + def bits(self, word_sep=None): + """ + :param word_sep: (optional) the separator to insert between words. + Default: None - use default separator for address type. + + :return: the value of this IP address as a binary digit string.""" + return self._module.int_to_bits(self._value, word_sep) + + @property + def packed(self): + """The value of this IP address as a packed binary string.""" + return self._module.int_to_packed(self._value) + + @property + def words(self): + """ + A list of unsigned integer words (octets for IPv4, hextets for IPv6) + found in this IP address. + """ + return self._module.int_to_words(self._value) + + @property + def bin(self): + """ + The value of this IP address in standard Python binary + representational form (0bxxx). A back port of the format provided by + the builtin bin() function found in Python 2.6.x and higher. + """ + return self._module.int_to_bin(self._value) + + @property + def reverse_dns(self): + """The reverse DNS lookup record for this IP address""" + return self._module.int_to_arpa(self._value) + + def ipv4(self): + """ + Raises an `AddrConversionError` if IPv6 address cannot be converted + to IPv4. + + :return: A numerically equivalent version 4 `IPAddress` object. + """ + ip = None + klass = self.__class__ + + if self._module.version == 4: + ip = klass(self._value, 4) + elif self._module.version == 6: + if 0 <= self._value <= _ipv4.max_int: + ip = klass(self._value, 4) + elif _ipv4.max_int <= self._value <= 0xffffffffffff: + ip = klass(self._value - 0xffff00000000, 4) + else: + raise AddrConversionError('IPv6 address %s unsuitable for ' \ + 'conversion to IPv4!' % self) + return ip + + def ipv6(self, ipv4_compatible=False): + """ + .. note:: The IPv4-mapped IPv6 address format is now considered \ + deprecated. See RFC 4291 or later for details. + + :param ipv4_compatible: If ``True`` returns an IPv4-mapped address + (::ffff:x.x.x.x), an IPv4-compatible (::x.x.x.x) address + otherwise. Default: False (IPv4-mapped). + + :return: A numerically equivalent version 6 `IPAddress` object. + """ + ip = None + klass = self.__class__ + + if self._module.version == 6: + if ipv4_compatible and \ + (0xffff00000000 <= self._value <= 0xffffffffffff): + ip = klass(self._value - 0xffff00000000, 6) + else: + ip = klass(self._value, 6) + elif self._module.version == 4: + # IPv4-Compatible IPv6 address + ip = klass(self._value, 6) + if not ipv4_compatible: + # IPv4-Mapped IPv6 address + ip = klass(0xffff00000000 + self._value, 6) + + return ip + + def format(self, dialect=None): + """ + Only relevant for IPv6 addresses. Has no effect for IPv4. + + :param dialect: One of the :ref:`ipv6_formatting_dialects`. + + :return: an alternate string representation for this IP address. + """ + if dialect is not None: + if not hasattr(dialect, 'word_fmt'): + raise TypeError( + 'custom dialects should subclass ipv6_verbose!') + return self._module.int_to_str(self._value, dialect=dialect) + + def __or__(self, other): + """ + :param other: An `IPAddress` object (or other int-like object). + + :return: bitwise OR (x | y) between the integer value of this IP + address and ``other``. + """ + return self.__class__(self._value | int(other), self._module.version) + + def __and__(self, other): + """ + :param other: An `IPAddress` object (or other int-like object). + + :return: bitwise AND (x & y) between the integer value of this IP + address and ``other``. + """ + return self.__class__(self._value & int(other), self._module.version) + + def __xor__(self, other): + """ + :param other: An `IPAddress` object (or other int-like object). + + :return: bitwise exclusive OR (x ^ y) between the integer value of + this IP address and ``other``. + """ + return self.__class__(self._value ^ int(other), self._module.version) + + def __lshift__(self, numbits): + """ + :param numbits: size of bitwise shift. + + :return: an `IPAddress` object based on this one with its integer + value left shifted by ``numbits``. + """ + return self.__class__(self._value << numbits, self._module.version) + + def __rshift__(self, numbits): + """ + :param numbits: size of bitwise shift. + + :return: an `IPAddress` object based on this one with its integer + value right shifted by ``numbits``. + """ + return self.__class__(self._value >> numbits, self._module.version) + + def __nonzero__(self): + """:return: ``True`` if the numerical value of this IP address is not \ + zero, ``False`` otherwise.""" + # Python 2.x. + return bool(self._value) + + __bool__ = __nonzero__ # Python 3.x. + + def __str__(self): + """:return: IP address in presentational format""" + return self._module.int_to_str(self._value) + + def __repr__(self): + """:return: Python statement to create an equivalent object""" + return "%s('%s')" % (self.__class__.__name__, self) + + def to_canonical(self): + """ + Converts the address to IPv4 if it is an IPv4-mapped IPv6 address (`RFC 4291 + Section 2.5.5.2 `_), + otherwise returns the address as-is. + + >>> # IPv4-mapped IPv6 + >>> IPAddress('::ffff:10.0.0.1').to_canonical() + IPAddress('10.0.0.1') + >>> + >>> # Everything else + >>> IPAddress('::1').to_canonical() + IPAddress('::1') + >>> IPAddress('10.0.0.1').to_canonical() + IPAddress('10.0.0.1') + + .. versionadded:: 0.10.0 + """ + if not self.is_ipv4_mapped(): + return self + return self.ipv4() + + def is_global(self): + """ + Returns ``True`` if this address is considered globally reachable, ``False`` otherwise. + + An address is considered globally reachable if it's not a special-purpose address + or it's a special-purpose address listed as globally reachable in the relevant + registries: + + * |iana_special_ipv4| + * |iana_special_ipv6| + + Addresses for which the ``Globally Reachable`` value is ``N/A`` are not considered + globally reachable. + + Address blocks with set termination date are not taken into consideration. + + Whether or not an address can actually be reached in any local or global context will + depend on the network configuration and may differ from what this method returns. + + Currently there can be addresses that are neither ``is_global()`` nor :meth:`is_private`. + There are also addresses that are both. All things being equal ``is_global()`` should + be considered more trustworthy. + + Examples: + + >>> IPAddress('1.1.1.1').is_global() + True + >>> IPAddress('::1').is_global() + False + + .. note:: |ipv4_in_ipv6_handling| + """ + if self._module.version == 4: + not_reachable = IPV4_NOT_GLOBALLY_REACHABLE + exceptions = IPV4_NOT_GLOBALLY_REACHABLE_EXCEPTIONS + else: + not_reachable = IPV6_NOT_GLOBALLY_REACHABLE + exceptions = IPV6_NOT_GLOBALLY_REACHABLE_EXCEPTIONS + + return ( + not any(self in net for net in not_reachable) + or any(self in net for net in exceptions) + ) + + def is_ipv4_private_use(self): + """ + Returns ``True`` if this address is an IPv4 private-use address as defined in + :rfc:`1918`. + + The private-use address blocks: + + * ``10.0.0.0/8`` + * ``172.16.0.0/12`` + * ``192.168.0.0/16`` + + .. note:: |ipv4_in_ipv6_handling| + + .. versionadded:: 0.10.0 + """ + return self._module.version == 4 and any(self in cidr for cidr in IPV4_PRIVATE_USE) + + def is_ipv6_unique_local(self): + """ + Returns ``True`` if this address is an IPv6 unique local address as defined in + :rfc:`4193` and listed in |iana_special_ipv6|. + + The IPv6 unique local address block: ``fc00::/7``. + + .. versionadded:: 0.10.0 + """ + return self._module.version == 6 and self in IPV6_UNIQUE_LOCAL + + +class IPListMixin(object): + """ + A mixin class providing shared list-like functionality to classes + representing groups of IP addresses. + + """ + __slots__ = () + def __iter__(self): + """ + :return: An iterator providing access to all `IPAddress` objects + within range represented by this ranged IP object. + """ + start_ip = IPAddress(self.first, self._module.version) + end_ip = IPAddress(self.last, self._module.version) + return iter_iprange(start_ip, end_ip) + + @property + def size(self): + """ + The total number of IP addresses within this ranged IP object. + """ + return int(self.last - self.first + 1) + + def __len__(self): + """ + :return: the number of IP addresses in this ranged IP object. Raises + an `IndexError` if size > system max int (a Python 2.x + limitation). Use the .size property for subnets of any size. + """ + size = self.size + if size > _sys_maxint: + raise IndexError(("range contains more than %d (sys.maxint) " + "IP addresses! Use the .size property instead." % _sys_maxint)) + return size + + def __getitem__(self, index): + """ + :return: The IP address(es) in this `IPNetwork` object referenced by + index or slice. As slicing can produce large sequences of objects + an iterator is returned instead of the more usual `list`. + """ + item = None + + if hasattr(index, 'indices'): + if self._module.version == 6: + raise TypeError('IPv6 slices are not supported!') + + (start, stop, step) = index.indices(self.size) + + if (start + step < 0) or (step > stop): + # step value exceeds start and stop boundaries. + item = iter([IPAddress(self.first, self._module.version)]) + else: + start_ip = IPAddress(self.first + start, self._module.version) + end_ip = IPAddress(self.first + stop - step, self._module.version) + item = iter_iprange(start_ip, end_ip, step) + else: + try: + index = int(index) + if (- self.size) <= index < 0: + # negative index. + item = IPAddress(self.last + index + 1, self._module.version) + elif 0 <= index <= (self.size - 1): + # Positive index or zero index. + item = IPAddress(self.first + index, self._module.version) + else: + raise IndexError('index out range for address range size!') + except ValueError: + raise TypeError('unsupported index type %r!' % index) + + return item + + def __contains__(self, other): + """ + :param other: an `IPAddress` or ranged IP object. + + :return: ``True`` if other falls within the boundary of this one, + ``False`` otherwise. + """ + if isinstance(other, BaseIP): + if self._module.version != other._module.version: + return False + if isinstance(other, IPAddress): + return other._value >= self.first and other._value <= self.last + # Assume that we (and the other) provide .first and .last. + return other.first >= self.first and other.last <= self.last + + # Whatever it is, try to interpret it as IPAddress. + return IPAddress(other) in self + + def __nonzero__(self): + """ + Ranged IP objects always represent a sequence of at least one IP + address and are therefore always True in the boolean context. + """ + # Python 2.x. + return True + + __bool__ = __nonzero__ # Python 3.x. + + +def parse_ip_network(module, addr, implicit_prefix=False, flags=0): + if isinstance(addr, tuple): + # CIDR integer tuple + if len(addr) != 2: + raise AddrFormatError('invalid %s tuple!' % module.family_name) + value, prefixlen = addr + + if not(0 <= value <= module.max_int): + raise AddrFormatError('invalid address value for %s tuple!' + % module.family_name) + if not(0 <= prefixlen <= module.width): + raise AddrFormatError('invalid prefix for %s tuple!' \ + % module.family_name) + elif isinstance(addr, _str_type): + # CIDR-like string subnet + if implicit_prefix: + #TODO: deprecate this option in netaddr 0.8.x + addr = cidr_abbrev_to_verbose(addr) + + if '/' in addr: + val1, val2 = addr.split('/', 1) + else: + val1 = addr + val2 = None + + try: + ip = IPAddress(val1, module.version, flags=INET_PTON) + except AddrFormatError: + if module.version == 4: + # Try a partial IPv4 network address... + expanded_addr = _ipv4.expand_partial_address(val1) + ip = IPAddress(expanded_addr, module.version, flags=INET_PTON) + else: + raise AddrFormatError('invalid IPNetwork address %s!' % addr) + value = ip._value + + try: + # Integer CIDR prefix. + prefixlen = int(val2) + except TypeError: + if val2 is None: + # No prefix was specified. + prefixlen = module.width + except ValueError: + # Not an integer prefix, try a netmask/hostmask prefix. + mask = IPAddress(val2, module.version, flags=INET_PTON) + if mask.is_netmask(): + prefixlen = module.netmask_to_prefix[mask._value] + elif mask.is_hostmask(): + prefixlen = module.hostmask_to_prefix[mask._value] + else: + raise AddrFormatError('addr %r is not a valid IPNetwork!' \ + % addr) + + if not 0 <= prefixlen <= module.width: + raise AddrFormatError('invalid prefix for %s address!' \ + % module.family_name) + else: + raise TypeError('unexpected type %s for addr arg' % type(addr)) + + if flags & NOHOST: + # Remove host bits. + netmask = module.prefix_to_netmask[prefixlen] + value = value & netmask + + return value, prefixlen + + +class IPNetwork(BaseIP, IPListMixin): + """ + An IPv4 or IPv6 network or subnet. + + A combination of an IP address and a network mask. + + Accepts CIDR and several related variants : + + a) Standard CIDR:: + + x.x.x.x/y -> 192.0.2.0/24 + x::/y -> fe80::/10 + + b) Hybrid CIDR format (netmask address instead of prefix), where 'y' \ + address represent a valid netmask:: + + x.x.x.x/y.y.y.y -> 192.0.2.0/255.255.255.0 + x::/y:: -> fe80::/ffc0:: + + c) ACL hybrid CIDR format (hostmask address instead of prefix like \ + Cisco's ACL bitmasks), where 'y' address represent a valid netmask:: + + x.x.x.x/y.y.y.y -> 192.0.2.0/0.0.0.255 + x::/y:: -> fe80::/3f:ffff:ffff:ffff:ffff:ffff:ffff:ffff + + d) Abbreviated CIDR format (as of netaddr 0.7.x this requires the \ + optional constructor argument ``implicit_prefix=True``):: + + x -> 192 + x/y -> 10/8 + x.x/y -> 192.168/16 + x.x.x/y -> 192.168.0/24 + + which are equivalent to:: + + x.0.0.0/y -> 192.0.0.0/24 + x.0.0.0/y -> 10.0.0.0/8 + x.x.0.0/y -> 192.168.0.0/16 + x.x.x.0/y -> 192.168.0.0/24 + + .. deprecated:: 0.10.0 + + .. warning:: + + The next release (0.9.0) will contain a backwards incompatible change + connected to handling of RFC 6164 IPv6 addresses (/127 and /128 subnets). + When iterating ``IPNetwork`` and ``IPNetwork.iter_hosts()`` the first + addresses in the networks will no longer be excluded and ``broadcast`` + will be ``None``. + """ + __slots__ = ('_prefixlen',) + + def __init__(self, addr, implicit_prefix=False, version=None, flags=0): + """ + Constructor. + + :param addr: an IPv4 or IPv6 address with optional CIDR prefix, + netmask or hostmask. May be an IP address in presentation + (string) format, an tuple containing and integer address and a + network prefix, or another IPAddress/IPNetwork object (copy + construction). + + :param implicit_prefix: (optional) if True, the constructor uses + classful IPv4 rules to select a default prefix when one is not + provided. If False it uses the length of the IP address version. + (default: False) + + .. deprecated:: 0.10.0 + + :param version: (optional) optimizes version detection if specified + and distinguishes between IPv4 and IPv6 for addresses with an + equivalent integer value. + + :param flags: (optional) decides which rules are applied to the + interpretation of the addr value. Currently only supports the + :data:`NOHOST` option. + + >>> IPNetwork('1.2.3.4/24') + IPNetwork('1.2.3.4/24') + >>> IPNetwork('1.2.3.4/24', flags=NOHOST) + IPNetwork('1.2.3.0/24') + """ + super(IPNetwork, self).__init__() + + if flags & ~NOHOST: + raise ValueError('Unrecognized IPAddress flags value: %s' % (flags,)) + + value, prefixlen, module = None, None, None + + if hasattr(addr, '_prefixlen'): + # IPNetwork object copy constructor + value = addr._value + module = addr._module + prefixlen = addr._prefixlen + elif hasattr(addr, '_value'): + # IPAddress object copy constructor + value = addr._value + module = addr._module + prefixlen = module.width + elif version == 4: + value, prefixlen = parse_ip_network(_ipv4, addr, + implicit_prefix=implicit_prefix, flags=flags) + module = _ipv4 + elif version == 6: + value, prefixlen = parse_ip_network(_ipv6, addr, + implicit_prefix=implicit_prefix, flags=flags) + module = _ipv6 + else: + if version is not None: + raise ValueError('%r is an invalid IP version!' % version) + try: + module = _ipv4 + value, prefixlen = parse_ip_network(module, addr, + implicit_prefix, flags) + except AddrFormatError: + try: + module = _ipv6 + value, prefixlen = parse_ip_network(module, addr, + implicit_prefix, flags) + except AddrFormatError: + pass + + if value is None: + raise AddrFormatError('invalid IPNetwork %s' % (addr,)) + + self._value = value + self._prefixlen = prefixlen + self._module = module + + def __getstate__(self): + """:return: Pickled state of an `IPNetwork` object.""" + return self._value, self._prefixlen, self._module.version + + def __setstate__(self, state): + """ + :param state: data used to unpickle a pickled `IPNetwork` object. + + """ + value, prefixlen, version = state + + self._value = value + + if version == 4: + self._module = _ipv4 + elif version == 6: + self._module = _ipv6 + else: + raise ValueError('unpickling failed for object state %s' \ + % (state,)) + + if 0 <= prefixlen <= self._module.width: + self._prefixlen = prefixlen + else: + raise ValueError('unpickling failed for object state %s' \ + % (state,)) + + def _set_prefixlen(self, value): + if not isinstance(value, _int_type): + raise TypeError('int argument expected, not %s' % type(value)) + if not 0 <= value <= self._module.width: + raise AddrFormatError('invalid prefix for an %s address!' \ + % self._module.family_name) + self._prefixlen = value + + prefixlen = property(lambda self: self._prefixlen, _set_prefixlen, + doc='size of the bitmask used to separate the network from the host bits') + + @property + def ip(self): + """ + The IP address of this `IPNetwork` object. This is may or may not be + the same as the network IP address which varies according to the value + of the CIDR subnet prefix. + """ + return IPAddress(self._value, self._module.version) + + @property + def network(self): + """The network address of this `IPNetwork` object.""" + return IPAddress(self._value & self._netmask_int, self._module.version) + + @property + def broadcast(self): + """The broadcast address of this `IPNetwork` object. + + .. warning:: + + The next release (0.9.0) will contain a backwards incompatible change + connected to handling of RFC 6164 IPv6 addresses (/127 and /128 subnets). + ``broadcast`` will be ``None`` when dealing with those networks. + """ + if (self._module.width - self._prefixlen) <= 1: + return None + else: + return IPAddress(self._value | self._hostmask_int, self._module.version) + + @property + def first(self): + """ + The integer value of first IP address found within this `IPNetwork` + object. + """ + return self._value & (self._module.max_int ^ self._hostmask_int) + + @property + def last(self): + """ + The integer value of last IP address found within this `IPNetwork` + object. + """ + hostmask = (1 << (self._module.width - self._prefixlen)) - 1 + return self._value | hostmask + + @property + def netmask(self): + """The subnet mask of this `IPNetwork` object.""" + netmask = self._module.max_int ^ self._hostmask_int + return IPAddress(netmask, self._module.version) + + @netmask.setter + def netmask(self, value): + """Set the prefixlen using a subnet mask""" + ip = IPAddress(value) + + if ip.version != self.version: + raise ValueError("IP version mismatch: %s and %s" % (ip, self)) + + if not ip.is_netmask(): + raise ValueError("Invalid subnet mask specified: %s" % str(value)) + + self.prefixlen = ip.netmask_bits() + + @property + def _netmask_int(self): + """Same as self.netmask, but in integer format""" + return self._module.max_int ^ self._hostmask_int + + @property + def hostmask(self): + """The host mask of this `IPNetwork` object.""" + hostmask = (1 << (self._module.width - self._prefixlen)) - 1 + return IPAddress(hostmask, self._module.version) + + @property + def _hostmask_int(self): + """Same as self.hostmask, but in integer format""" + return (1 << (self._module.width - self._prefixlen)) - 1 + + @property + def cidr(self): + """ + The true CIDR address for this `IPNetwork` object which omits any + host bits to the right of the CIDR subnet prefix. + """ + return IPNetwork( + (self._value & self._netmask_int, self._prefixlen), + version=self._module.version) + + def __iadd__(self, num): + """ + Increases the value of this `IPNetwork` object by the current size + multiplied by ``num``. + + An `IndexError` is raised if result exceeds maximum IP address value + or is less than zero. + + :param num: (optional) number of `IPNetwork` blocks to increment \ + this IPNetwork's value by. + """ + new_value = int(self.network) + (self.size * num) + + if (new_value + (self.size - 1)) > self._module.max_int: + raise IndexError('increment exceeds address boundary!') + if new_value < 0: + raise IndexError('increment is less than zero!') + + self._value = new_value + return self + + def __isub__(self, num): + """ + Decreases the value of this `IPNetwork` object by the current size + multiplied by ``num``. + + An `IndexError` is raised if result is less than zero or exceeds + maximum IP address value. + + :param num: (optional) number of `IPNetwork` blocks to decrement \ + this IPNetwork's value by. + """ + new_value = int(self.network) - (self.size * num) + + if new_value < 0: + raise IndexError('decrement is less than zero!') + if (new_value + (self.size - 1)) > self._module.max_int: + raise IndexError('decrement exceeds address boundary!') + + self._value = new_value + return self + + def __contains__(self, other): + """ + :param other: an `IPAddress` or ranged IP object. + + :return: ``True`` if other falls within the boundary of this one, + ``False`` otherwise. + """ + if isinstance(other, BaseIP): + if self._module.version != other._module.version: + return False + + # self_net will contain only the network bits. + shiftwidth = self._module.width - self._prefixlen + self_net = self._value >> shiftwidth + if isinstance(other, IPRange): + # IPRange has no _value. + # (self_net+1)< other._end._value)) + + other_net = other._value >> shiftwidth + if isinstance(other, IPAddress): + return other_net == self_net + if isinstance(other, IPNetwork): + return self_net == other_net and self._prefixlen <= other._prefixlen + + # Whatever it is, try to interpret it as IPNetwork + return IPNetwork(other) in self + + def key(self): + """ + :return: A key tuple used to uniquely identify this `IPNetwork`. + """ + return self._module.version, self.first, self.last + + def sort_key(self): + """ + :return: A key tuple used to compare and sort this `IPNetwork` correctly. + """ + net_size_bits = self._prefixlen - 1 + first = self._value & (self._module.max_int ^ self._hostmask_int) + host_bits = self._value - first + return self._module.version, first, net_size_bits, host_bits + + def ipv4(self): + """ + :return: A numerically equivalent version 4 `IPNetwork` object. \ + Raises an `AddrConversionError` if IPv6 address cannot be \ + converted to IPv4. + """ + ip = None + klass = self.__class__ + + if self._module.version == 4: + ip = klass('%s/%d' % (self.ip, self.prefixlen)) + elif self._module.version == 6: + if 0 <= self._value <= _ipv4.max_int: + addr = _ipv4.int_to_str(self._value) + ip = klass('%s/%d' % (addr, self.prefixlen - 96)) + elif _ipv4.max_int <= self._value <= 0xffffffffffff: + addr = _ipv4.int_to_str(self._value - 0xffff00000000) + ip = klass('%s/%d' % (addr, self.prefixlen - 96)) + else: + raise AddrConversionError('IPv6 address %s unsuitable for ' \ + 'conversion to IPv4!' % self) + return ip + + def ipv6(self, ipv4_compatible=False): + """ + .. note:: the IPv4-mapped IPv6 address format is now considered \ + deprecated. See RFC 4291 or later for details. + + :param ipv4_compatible: If ``True`` returns an IPv4-mapped address + (::ffff:x.x.x.x), an IPv4-compatible (::x.x.x.x) address + otherwise. Default: False (IPv4-mapped). + + :return: A numerically equivalent version 6 `IPNetwork` object. + """ + ip = None + klass = self.__class__ + + if self._module.version == 6: + if ipv4_compatible and \ + (0xffff00000000 <= self._value <= 0xffffffffffff): + ip = klass((self._value - 0xffff00000000, self._prefixlen), + version=6) + else: + ip = klass((self._value, self._prefixlen), version=6) + elif self._module.version == 4: + if ipv4_compatible: + # IPv4-Compatible IPv6 address + ip = klass((self._value, self._prefixlen + 96), version=6) + else: + # IPv4-Mapped IPv6 address + ip = klass((0xffff00000000 + self._value, + self._prefixlen + 96), version=6) + + return ip + + def previous(self, step=1): + """ + :param step: the number of IP subnets between this `IPNetwork` object + and the expected subnet. Default: 1 (the previous IP subnet). + + :return: The adjacent subnet preceding this `IPNetwork` object. + """ + ip_copy = self.__class__('%s/%d' % (self.network, self.prefixlen), + self._module.version) + ip_copy -= step + return ip_copy + + def next(self, step=1): + """ + :param step: the number of IP subnets between this `IPNetwork` object + and the expected subnet. Default: 1 (the next IP subnet). + + :return: The adjacent subnet succeeding this `IPNetwork` object. + """ + ip_copy = self.__class__('%s/%d' % (self.network, self.prefixlen), + self._module.version) + ip_copy += step + return ip_copy + + def supernet(self, prefixlen=0): + """ + Provides a list of supernets for this `IPNetwork` object between the + size of the current prefix and (if specified) an endpoint prefix. + + :param prefixlen: (optional) a CIDR prefix for the maximum supernet. + Default: 0 - returns all possible supernets. + + :return: a tuple of supernet `IPNetwork` objects. + """ + if not 0 <= prefixlen <= self._module.width: + raise ValueError('CIDR prefix /%d invalid for IPv%d!' \ + % (prefixlen, self._module.version)) + + supernets = [] + # Use a copy of self as we'll be editing it. + supernet = self.cidr + supernet._prefixlen = prefixlen + while supernet._prefixlen != self._prefixlen: + supernets.append(supernet.cidr) + supernet._prefixlen += 1 + return supernets + + def subnet(self, prefixlen, count=None, fmt=None): + """ + A generator that divides up this IPNetwork's subnet into smaller + subnets based on a specified CIDR prefix. + + :param prefixlen: a CIDR prefix indicating size of subnets to be + returned. + + :param count: (optional) number of consecutive IP subnets to be + returned. + + :return: an iterator containing IPNetwork subnet objects. + """ + if not 0 <= self.prefixlen <= self._module.width: + raise ValueError('CIDR prefix /%d invalid for IPv%d!' \ + % (prefixlen, self._module.version)) + + if not self.prefixlen <= prefixlen: + # Don't return anything. + return + + # Calculate number of subnets to be returned. + width = self._module.width + max_subnets = 2 ** (width - self.prefixlen) // 2 ** (width - prefixlen) + + if count is None: + count = max_subnets + + if not 1 <= count <= max_subnets: + raise ValueError('count outside of current IP subnet boundary!') + + base_subnet = self._module.int_to_str(self.first) + i = 0 + while(i < count): + subnet = self.__class__('%s/%d' % (base_subnet, prefixlen), + self._module.version) + subnet.value += (subnet.size * i) + subnet.prefixlen = prefixlen + i += 1 + yield subnet + + def iter_hosts(self): + """ + A generator that provides all the IP addresses that can be assigned + to hosts within the range of this IP object's subnet. + + - for IPv4, the network and broadcast addresses are excluded, excepted \ + when using /31 or /32 subnets as per RFC 3021. + + - for IPv6, only Subnet-Router anycast address (first address in the \ + network) is excluded as per RFC 4291 section 2.6.1, excepted when using \ + /127 or /128 subnets as per RFC 6164. + + .. warning:: + + The next release (0.9.0) will contain a backwards incompatible change + connected to handling of RFC 6164 IPv6 addresses (/127 and /128 subnets). + When iterating ``IPNetwork`` and ``IPNetwork.iter_hosts()`` the first + addresses in the networks will no longer be excluded. + + :return: an IPAddress iterator + """ + it_hosts = iter([]) + + # Common logic, first IP is always reserved. + first_usable_address = self.first + 1 + if self._module.version == 4: + # IPv4 logic, last address is reserved for broadcast. + last_usable_address = self.last - 1 + else: + # IPv6 logic, no broadcast address reserved. + last_usable_address = self.last + + # If subnet has a size of less than 4, then it is a /31, /32, /127 or /128. + # Handle them as per RFC 3021 (IPv4) or RFC 6164 (IPv6), and don't reserve + # first or last IP address. + if self.size >= 4: + it_hosts = iter_iprange( + IPAddress(first_usable_address, self._module.version), + IPAddress(last_usable_address, self._module.version)) + else: + it_hosts = iter_iprange( + IPAddress(self.first, self._module.version), + IPAddress(self.last, self._module.version)) + + return it_hosts + + def __str__(self): + """:return: this IPNetwork in CIDR format""" + addr = self._module.int_to_str(self._value) + return "%s/%s" % (addr, self.prefixlen) + + def __repr__(self): + """:return: Python statement to create an equivalent object""" + return "%s('%s')" % (self.__class__.__name__, self) + + +class IPRange(BaseIP, IPListMixin): + """ + An arbitrary IPv4 or IPv6 address range. + + Formed from a lower and upper bound IP address. The upper bound IP cannot + be numerically smaller than the lower bound and the IP version of both + must match. + + """ + __slots__ = ('_start', '_end') + + def __init__(self, start, end, flags=0): + """ + Constructor. + + :param start: an IPv4 or IPv6 address that forms the lower + boundary of this IP range. + + :param end: an IPv4 or IPv6 address that forms the upper + boundary of this IP range. + + :param flags: (optional) decides which rules are applied to the + interpretation of the start and end values. Refer to the :meth:`IPAddress.__init__` + documentation for details. + + """ + self._start = IPAddress(start, flags=flags) + self._module = self._start._module + self._end = IPAddress(end, self._module.version, flags=flags) + if int(self._start) > int(self._end): + raise AddrFormatError('lower bound IP greater than upper bound!') + + def __getstate__(self): + """:return: Pickled state of an `IPRange` object.""" + return self._start.value, self._end.value, self._module.version + + def __setstate__(self, state): + """ + :param state: data used to unpickle a pickled `IPRange` object. + """ + start, end, version = state + + self._start = IPAddress(start, version) + self._module = self._start._module + self._end = IPAddress(end, version) + + def __contains__(self, other): + if isinstance(other, BaseIP): + if self._module.version != other._module.version: + return False + if isinstance(other, IPAddress): + return (self._start._value <= other._value and + self._end._value >= other._value) + if isinstance(other, IPRange): + return (self._start._value <= other._start._value and + self._end._value >= other._end._value) + if isinstance(other, IPNetwork): + shiftwidth = other._module.width - other._prefixlen + other_start = (other._value >> shiftwidth) << shiftwidth + # Start of the next network after other + other_next_start = other_start + (1 << shiftwidth) + + return (self._start._value <= other_start and + self._end._value > other_next_start) + + # Whatever it is, try to interpret it as IPAddress. + return IPAddress(other) in self + + @property + def first(self): + """The integer value of first IP address in this `IPRange` object.""" + return int(self._start) + + @property + def last(self): + """The integer value of last IP address in this `IPRange` object.""" + return int(self._end) + + def key(self): + """ + :return: A key tuple used to uniquely identify this `IPRange`. + """ + return self._module.version, self.first, self.last + + def sort_key(self): + """ + :return: A key tuple used to compare and sort this `IPRange` correctly. + """ + skey = self._module.width - num_bits(self.size) + return self._module.version, self._start._value, skey + + def cidrs(self): + """ + The list of CIDR addresses found within the lower and upper bound + addresses of this `IPRange`. + """ + return iprange_to_cidrs(self._start, self._end) + + def __str__(self): + """:return: this `IPRange` in a common representational format.""" + return "%s-%s" % (self._start, self._end) + + def __repr__(self): + """:return: Python statement to create an equivalent object""" + return "%s('%s', '%s')" % (self.__class__.__name__, + self._start, self._end) + + +def iter_unique_ips(*args): + """ + :param args: A list of IP addresses and subnets passed in as arguments. + + :return: A generator that flattens out IP subnets, yielding unique + individual IP addresses (no duplicates). + """ + for cidr in cidr_merge(args): + for ip in cidr: + yield ip + + +def cidr_abbrev_to_verbose(abbrev_cidr): + """ + A function that converts abbreviated IPv4 CIDRs to their more verbose + equivalent. + + :param abbrev_cidr: an abbreviated CIDR. + + Uses the old-style classful IP address rules to decide on a default + subnet prefix if one is not explicitly provided. + + Only supports IPv4 addresses. + + Examples :: + + 10 - 10.0.0.0/8 + 10/16 - 10.0.0.0/16 + 128 - 128.0.0.0/16 + 128/8 - 128.0.0.0/8 + 192.168 - 192.168.0.0/16 + + :return: A verbose CIDR from an abbreviated CIDR or old-style classful \ + network address. The original value if it was not recognised as a \ + supported abbreviation. + """ + # Internal function that returns a prefix value based on the old IPv4 + # classful network scheme that has been superseded (almost) by CIDR. + def classful_prefix(octet): + octet = int(octet) + if not 0 <= octet <= 255: + raise IndexError('Invalid octet: %r!' % octet) + if 0 <= octet <= 127: # Legacy class 'A' classification. + return 8 + elif 128 <= octet <= 191: # Legacy class 'B' classification. + return 16 + elif 192 <= octet <= 223: # Legacy class 'C' classification. + return 24 + elif 224 <= octet <= 239: # Multicast address range. + return 4 + return 32 # Default. + + if _is_str(abbrev_cidr): + if ':' in abbrev_cidr or abbrev_cidr == '': + return abbrev_cidr + + try: + # Single octet partial integer or string address. + i = int(abbrev_cidr) + return "%s.0.0.0/%s" % (i, classful_prefix(i)) + except ValueError: + # Multi octet partial string address with optional prefix. + if '/' in abbrev_cidr: + part_addr, prefix = abbrev_cidr.split('/', 1) + + # Check prefix for validity. + try: + if not 0 <= int(prefix) <= 32: + raise ValueError('prefixlen in address %r out of range' \ + ' for IPv4!' % (abbrev_cidr,)) + except ValueError: + return abbrev_cidr + else: + part_addr = abbrev_cidr + prefix = None + + tokens = part_addr.split('.') + if len(tokens) > 4: + # Not a recognisable format. + return abbrev_cidr + for i in range(4 - len(tokens)): + tokens.append('0') + + if prefix is None: + try: + prefix = classful_prefix(tokens[0]) + except ValueError: + return abbrev_cidr + + return "%s/%s" % ('.'.join(tokens), prefix) + except (TypeError, IndexError): + # Not a recognisable format. + return abbrev_cidr + + + +def cidr_merge(ip_addrs): + """ + A function that accepts an iterable sequence of IP addresses and subnets + merging them into the smallest possible list of CIDRs. It merges adjacent + subnets where possible, those contained within others and also removes + any duplicates. + + :param ip_addrs: an iterable sequence of IP addresses, subnets or ranges. + + :return: a summarized list of `IPNetwork` objects. + """ + # The algorithm is quite simple: For each CIDR we create an IP range. + # Sort them and merge when possible. Afterwars split them again + # optimally. + if not hasattr(ip_addrs, '__iter__'): + raise ValueError('A sequence or iterator is expected!') + + ranges = [] + + for ip in ip_addrs: + if isinstance(ip, (IPNetwork, IPRange)): + net = ip + else: + net = IPNetwork(ip) + # Since non-overlapping ranges are the common case, remember the original + ranges.append( (net.version, net.last, net.first, net) ) + + ranges.sort() + i = len(ranges) - 1 + while i > 0: + if ranges[i][0] == ranges[i - 1][0] and ranges[i][2] - 1 <= ranges[i - 1][1]: + ranges[i - 1] = (ranges[i][0], ranges[i][1], min(ranges[i - 1][2], ranges[i][2])) + del ranges[i] + i -= 1 + merged = [] + for range_tuple in ranges: + # If this range wasn't merged we can simply use the old cidr. + if len(range_tuple) == 4: + original = range_tuple[3] + if isinstance(original, IPRange): + merged.extend(original.cidrs()) + else: + merged.append(original) + else: + version = range_tuple[0] + range_start = IPAddress(range_tuple[2], version=version) + range_stop = IPAddress(range_tuple[1], version=version) + merged.extend(iprange_to_cidrs(range_start, range_stop)) + return merged + + +def cidr_exclude(target, exclude): + """ + Removes an exclude IP address or subnet from target IP subnet. + + :param target: the target IP address or subnet to be divided up. + + :param exclude: the IP address or subnet to be removed from target. + + :return: list of `IPNetwork` objects remaining after exclusion. + """ + left, _, right = cidr_partition(target, exclude) + + return left + right + +def cidr_partition(target, exclude): + """ + Partitions a target IP subnet on an exclude IP address. + + :param target: the target IP address or subnet to be divided up. + + :param exclude: the IP address or subnet to partition on + + :return: list of `IPNetwork` objects before, the partition and after, sorted. + + Adding the three lists returns the equivalent of the original subnet. + """ + + target = IPNetwork(target) + exclude = IPNetwork(exclude) + + if exclude.last < target.first: + # Exclude subnet's upper bound address less than target + # subnet's lower bound. + return [], [], [target.cidr] + elif target.last < exclude.first: + # Exclude subnet's lower bound address greater than target + # subnet's upper bound. + return [target.cidr], [], [] + + if target.prefixlen >= exclude.prefixlen: + # Exclude contains the target + return [], [target], [] + + left = [] + right = [] + + new_prefixlen = target.prefixlen + 1 + # Some @properties that are expensive to get and don't change below. + target_module_width = target._module.width + + target_first = target.first + version = exclude.version + i_lower = target_first + i_upper = target_first + (2 ** (target_module_width - new_prefixlen)) + + while exclude.prefixlen >= new_prefixlen: + if exclude.first >= i_upper: + left.append(IPNetwork((i_lower, new_prefixlen), version=version)) + matched = i_upper + else: + right.append(IPNetwork((i_upper, new_prefixlen), version=version)) + matched = i_lower + + new_prefixlen += 1 + + if new_prefixlen > target_module_width: + break + + i_lower = matched + i_upper = matched + (2 ** (target_module_width - new_prefixlen)) + + return left, [exclude], right[::-1] + + +def spanning_cidr(ip_addrs): + """ + Function that accepts a sequence of IP addresses and subnets returning + a single `IPNetwork` subnet that is large enough to span the lower and + upper bound IP addresses with a possible overlap on either end. + + :param ip_addrs: sequence of IP addresses and subnets. + + :return: a single spanning `IPNetwork` subnet. + """ + ip_addrs_iter = iter(ip_addrs) + try: + network_a = IPNetwork(_iter_next(ip_addrs_iter)) + network_b = IPNetwork(_iter_next(ip_addrs_iter)) + except StopIteration: + raise ValueError('IP sequence must contain at least 2 elements!') + + if network_a < network_b: + min_network = network_a + max_network = network_b + else: + min_network = network_b + max_network = network_a + + for ip in ip_addrs_iter: + network = IPNetwork(ip) + if network < min_network: + min_network = network + if network > max_network: + max_network = network + + if min_network.version != max_network.version: + raise TypeError('IP sequence cannot contain both IPv4 and IPv6!') + + ipnum = max_network.last + prefixlen = max_network.prefixlen + lowest_ipnum = min_network.first + width = max_network._module.width + + while prefixlen > 0 and ipnum > lowest_ipnum: + prefixlen -= 1 + ipnum &= -(1<<(width-prefixlen)) + + return IPNetwork( (ipnum, prefixlen), version=min_network.version ) + + +def iter_iprange(start, end, step=1): + """ + A generator that produces IPAddress objects between an arbitrary start + and stop IP address with intervals of step between them. Sequences + produce are inclusive of boundary IPs. + + :param start: start IP address. + + :param end: end IP address. + + :param step: (optional) size of step between IP addresses. Default: 1 + + :return: an iterator of one or more `IPAddress` objects. + """ + start = IPAddress(start) + end = IPAddress(end) + + if start.version != end.version: + raise TypeError('start and stop IP versions do not match!') + version = start.version + + step = int(step) + if step == 0: + raise ValueError('step argument cannot be zero') + + # We don't need objects from here, just integers. + start = int(start) + stop = int(end) + + negative_step = False + + if step < 0: + negative_step = True + + index = start - step + while True: + index += step + if negative_step: + if not index >= stop: + break + else: + if not index <= stop: + break + yield IPAddress(index, version) + + + +def iprange_to_cidrs(start, end): + """ + A function that accepts an arbitrary start and end IP address or subnet + and returns a list of CIDR subnets that fit exactly between the boundaries + of the two with no overlap. + + :param start: the start IP address or subnet. + + :param end: the end IP address or subnet. + + :return: a list of one or more IP addresses and subnets. + """ + cidr_list = [] + + start = IPNetwork(start) + end = IPNetwork(end) + + iprange = [start.first, end.last] + + # Get spanning CIDR covering both addresses. + cidr_span = spanning_cidr([start, end]) + width = start._module.width + + if cidr_span.first < iprange[0]: + exclude = IPNetwork((iprange[0]-1, width), version=start.version) + cidr_list = cidr_partition(cidr_span, exclude)[2] + cidr_span = cidr_list.pop() + if cidr_span.last > iprange[1]: + exclude = IPNetwork((iprange[1]+1, width), version=start.version) + cidr_list += cidr_partition(cidr_span, exclude)[0] + else: + cidr_list.append(cidr_span) + + return cidr_list + + +def smallest_matching_cidr(ip, cidrs): + """ + Matches an IP address or subnet against a given sequence of IP addresses + and subnets. + + :param ip: a single IP address or subnet. + + :param cidrs: a sequence of IP addresses and/or subnets. + + :return: the smallest (most specific) matching IPAddress or IPNetwork + object from the provided sequence, None if there was no match. + """ + match = None + + if not hasattr(cidrs, '__iter__'): + raise TypeError('IP address/subnet sequence expected, not %r!' + % (cidrs,)) + + ip = IPAddress(ip) + for cidr in sorted([IPNetwork(cidr) for cidr in cidrs]): + if ip in cidr: + match = cidr + else: + if match is not None and cidr.network not in match: + break + + return match + + +def largest_matching_cidr(ip, cidrs): + """ + Matches an IP address or subnet against a given sequence of IP addresses + and subnets. + + :param ip: a single IP address or subnet. + + :param cidrs: a sequence of IP addresses and/or subnets. + + :return: the largest (least specific) matching IPAddress or IPNetwork + object from the provided sequence, None if there was no match. + """ + match = None + + if not hasattr(cidrs, '__iter__'): + raise TypeError('IP address/subnet sequence expected, not %r!' + % (cidrs,)) + + ip = IPAddress(ip) + for cidr in sorted([IPNetwork(cidr) for cidr in cidrs]): + if ip in cidr: + match = cidr + break + + return match + + +def all_matching_cidrs(ip, cidrs): + """ + Matches an IP address or subnet against a given sequence of IP addresses + and subnets. + + :param ip: a single IP address. + + :param cidrs: a sequence of IP addresses and/or subnets. + + :return: all matching IPAddress and/or IPNetwork objects from the provided + sequence, an empty list if there was no match. + """ + matches = [] + + if not hasattr(cidrs, '__iter__'): + raise TypeError('IP address/subnet sequence expected, not %r!' + % (cidrs,)) + + ip = IPAddress(ip) + for cidr in sorted([IPNetwork(cidr) for cidr in cidrs]): + if ip in cidr: + matches.append(cidr) + else: + if matches and cidr.network not in matches[-1]: + break + + return matches + +#----------------------------------------------------------------------------- +# Cached IPv4 address range lookups. +#----------------------------------------------------------------------------- +IPV4_LOOPBACK = IPNetwork('127.0.0.0/8') # Loopback addresses (RFC 990) + +IPV4_PRIVATE_USE = [ + IPNetwork('10.0.0.0/8'), # Class A private network local communication (RFC 1918) + IPNetwork('172.16.0.0/12'), # Private network - local communication (RFC 1918) + IPNetwork('192.168.0.0/16'), # Class B private network local communication (RFC 1918) +] + +IPV4_PRIVATEISH = tuple(IPV4_PRIVATE_USE) + ( + IPNetwork('100.64.0.0/10'), # Carrier grade NAT (RFC 6598) + IPNetwork('192.0.0.0/24'), # IANA IPv4 Special Purpose Address Registry (RFC 5736) + # protocol assignments + + # benchmarking + IPNetwork('198.18.0.0/15'), # Testing of inter-network communications between subnets (RFC 2544) + IPRange('239.0.0.0', '239.255.255.255'), # Administrative Multicast +) + +IPV4_LINK_LOCAL = IPNetwork('169.254.0.0/16') + +IPV4_MULTICAST = IPNetwork('224.0.0.0/4') + +IPV4_6TO4 = IPNetwork('192.88.99.0/24') # 6to4 anycast relays (RFC 3068) + +IPV4_RESERVED = ( + IPNetwork('0.0.0.0/8'), # Broadcast message (RFC 1700) + IPNetwork('192.0.2.0/24'), # TEST-NET examples and documentation (RFC 5737) + IPNetwork('240.0.0.0/4'), # Reserved for multicast assignments (RFC 5771) + IPNetwork('198.51.100.0/24'), # TEST-NET-2 examples and documentation (RFC 5737) + IPNetwork('203.0.113.0/24'), # TEST-NET-3 examples and documentation (RFC 5737) + + # Reserved multicast + IPNetwork('233.252.0.0/24'), # Multicast test network + IPRange('234.0.0.0', '238.255.255.255'), + IPRange('225.0.0.0', '231.255.255.255'), +) + (IPV4_LOOPBACK, IPV4_6TO4) + +IPV4_NOT_GLOBALLY_REACHABLE = [ + IPNetwork(net) for net in [ + '0.0.0.0/8', + '10.0.0.0/8', + '100.64.0.0/10', + '127.0.0.0/8', + '169.254.0.0/16', + '172.16.0.0/12', + '192.0.0.0/24', + '192.0.0.170/31', + '192.0.2.0/24', + '192.168.0.0/16', + '198.18.0.0/15', + '198.51.100.0/24', + '203.0.113.0/24', + '240.0.0.0/4', + '255.255.255.255/32', + ] +] + +IPV4_NOT_GLOBALLY_REACHABLE_EXCEPTIONS = [ + IPNetwork(net) for net in ['192.0.0.9/32', '192.0.0.10/32'] +] + +#----------------------------------------------------------------------------- +# Cached IPv6 address range lookups. +#----------------------------------------------------------------------------- +IPV6_LOOPBACK = IPNetwork('::1/128') + +IPV6_UNIQUE_LOCAL = IPNetwork('fc00::/7') + +IPV6_PRIVATEISH = ( + IPV6_UNIQUE_LOCAL, + IPNetwork('fec0::/10'), # Site Local Addresses (deprecated - RFC 3879) +) + +IPV6_LINK_LOCAL = IPNetwork('fe80::/10') + +IPV6_MULTICAST = IPNetwork('ff00::/8') + +IPV6_RESERVED = ( + IPNetwork('ff00::/12'), IPNetwork('::/8'), + IPNetwork('0100::/8'), IPNetwork('0200::/7'), + IPNetwork('0400::/6'), IPNetwork('0800::/5'), + IPNetwork('1000::/4'), IPNetwork('4000::/3'), + IPNetwork('6000::/3'), IPNetwork('8000::/3'), + IPNetwork('A000::/3'), IPNetwork('C000::/3'), + IPNetwork('E000::/4'), IPNetwork('F000::/5'), + IPNetwork('F800::/6'), IPNetwork('FE00::/9'), +) + +IPV6_NOT_GLOBALLY_REACHABLE = [ + IPNetwork(net) + for net in [ + '::1/128', + '::/128', + '::ffff:0:0/96', + '64:ff9b:1::/48', + '100::/64', + '2001::/23', + '2001:db8::/32', + '2002::/16', + 'fc00::/7', + 'fe80::/10', + ] +] + +IPV6_NOT_GLOBALLY_REACHABLE_EXCEPTIONS = [ + IPNetwork(net) + for net in [ + '2001:1::1/128', + '2001:1::2/128', + '2001:3::/32', + '2001:4:112::/48', + '2001:20::/28', + '2001:30::/28', +] ] -- cgit v1.2.3