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- # Copyright 2007 Google Inc.
- # Licensed to PSF under a Contributor Agreement.
- """A fast, lightweight IPv4/IPv6 manipulation library in Python.
- This library is used to create/poke/manipulate IPv4 and IPv6 addresses
- and networks.
- """
- __version__ = '1.0'
- import functools
- IPV4LENGTH = 32
- IPV6LENGTH = 128
- class AddressValueError(ValueError):
- """A Value Error related to the address."""
- class NetmaskValueError(ValueError):
- """A Value Error related to the netmask."""
- def ip_address(address):
- """Take an IP string/int and return an object of the correct type.
- Args:
- address: A string or integer, the IP address. Either IPv4 or
- IPv6 addresses may be supplied; integers less than 2**32 will
- be considered to be IPv4 by default.
- Returns:
- An IPv4Address or IPv6Address object.
- Raises:
- ValueError: if the *address* passed isn't either a v4 or a v6
- address
- """
- try:
- return IPv4Address(address)
- except (AddressValueError, NetmaskValueError):
- pass
- try:
- return IPv6Address(address)
- except (AddressValueError, NetmaskValueError):
- pass
- raise ValueError(f'{address!r} does not appear to be an IPv4 or IPv6 address')
- def ip_network(address, strict=True):
- """Take an IP string/int and return an object of the correct type.
- Args:
- address: A string or integer, the IP network. Either IPv4 or
- IPv6 networks may be supplied; integers less than 2**32 will
- be considered to be IPv4 by default.
- Returns:
- An IPv4Network or IPv6Network object.
- Raises:
- ValueError: if the string passed isn't either a v4 or a v6
- address. Or if the network has host bits set.
- """
- try:
- return IPv4Network(address, strict)
- except (AddressValueError, NetmaskValueError):
- pass
- try:
- return IPv6Network(address, strict)
- except (AddressValueError, NetmaskValueError):
- pass
- raise ValueError(f'{address!r} does not appear to be an IPv4 or IPv6 network')
- def ip_interface(address):
- """Take an IP string/int and return an object of the correct type.
- Args:
- address: A string or integer, the IP address. Either IPv4 or
- IPv6 addresses may be supplied; integers less than 2**32 will
- be considered to be IPv4 by default.
- Returns:
- An IPv4Interface or IPv6Interface object.
- Raises:
- ValueError: if the string passed isn't either a v4 or a v6
- address.
- Notes:
- The IPv?Interface classes describe an Address on a particular
- Network, so they're basically a combination of both the Address
- and Network classes.
- """
- try:
- return IPv4Interface(address)
- except (AddressValueError, NetmaskValueError):
- pass
- try:
- return IPv6Interface(address)
- except (AddressValueError, NetmaskValueError):
- pass
- raise ValueError(f'{address!r} does not appear to be an IPv4 or IPv6 interface')
- def v4_int_to_packed(address):
- """Represent an address as 4 packed bytes in network (big-endian) order.
- Args:
- address: An integer representation of an IPv4 IP address.
- Returns:
- The integer address packed as 4 bytes in network (big-endian) order.
- Raises:
- ValueError: If the integer is negative or too large to be an
- IPv4 IP address.
- """
- try:
- return address.to_bytes(4) # big endian
- except OverflowError:
- raise ValueError("Address negative or too large for IPv4")
- def v6_int_to_packed(address):
- """Represent an address as 16 packed bytes in network (big-endian) order.
- Args:
- address: An integer representation of an IPv6 IP address.
- Returns:
- The integer address packed as 16 bytes in network (big-endian) order.
- """
- try:
- return address.to_bytes(16) # big endian
- except OverflowError:
- raise ValueError("Address negative or too large for IPv6")
- def _split_optional_netmask(address):
- """Helper to split the netmask and raise AddressValueError if needed"""
- addr = str(address).split('/')
- if len(addr) > 2:
- raise AddressValueError(f"Only one '/' permitted in {address!r}")
- return addr
- def _find_address_range(addresses):
- """Find a sequence of sorted deduplicated IPv#Address.
- Args:
- addresses: a list of IPv#Address objects.
- Yields:
- A tuple containing the first and last IP addresses in the sequence.
- """
- it = iter(addresses)
- first = last = next(it)
- for ip in it:
- if ip._ip != last._ip + 1:
- yield first, last
- first = ip
- last = ip
- yield first, last
- def _count_righthand_zero_bits(number, bits):
- """Count the number of zero bits on the right hand side.
- Args:
- number: an integer.
- bits: maximum number of bits to count.
- Returns:
- The number of zero bits on the right hand side of the number.
- """
- if number == 0:
- return bits
- return min(bits, (~number & (number-1)).bit_length())
- def summarize_address_range(first, last):
- """Summarize a network range given the first and last IP addresses.
- Example:
- >>> list(summarize_address_range(IPv4Address('192.0.2.0'),
- ... IPv4Address('192.0.2.130')))
- ... #doctest: +NORMALIZE_WHITESPACE
- [IPv4Network('192.0.2.0/25'), IPv4Network('192.0.2.128/31'),
- IPv4Network('192.0.2.130/32')]
- Args:
- first: the first IPv4Address or IPv6Address in the range.
- last: the last IPv4Address or IPv6Address in the range.
- Returns:
- An iterator of the summarized IPv(4|6) network objects.
- Raise:
- TypeError:
- If the first and last objects are not IP addresses.
- If the first and last objects are not the same version.
- ValueError:
- If the last object is not greater than the first.
- If the version of the first address is not 4 or 6.
- """
- if (not (isinstance(first, _BaseAddress) and
- isinstance(last, _BaseAddress))):
- raise TypeError('first and last must be IP addresses, not networks')
- if first.version != last.version:
- raise TypeError("%s and %s are not of the same version" % (
- first, last))
- if first > last:
- raise ValueError('last IP address must be greater than first')
- if first.version == 4:
- ip = IPv4Network
- elif first.version == 6:
- ip = IPv6Network
- else:
- raise ValueError('unknown IP version')
- ip_bits = first._max_prefixlen
- first_int = first._ip
- last_int = last._ip
- while first_int <= last_int:
- nbits = min(_count_righthand_zero_bits(first_int, ip_bits),
- (last_int - first_int + 1).bit_length() - 1)
- net = ip((first_int, ip_bits - nbits))
- yield net
- first_int += 1 << nbits
- if first_int - 1 == ip._ALL_ONES:
- break
- def _collapse_addresses_internal(addresses):
- """Loops through the addresses, collapsing concurrent netblocks.
- Example:
- ip1 = IPv4Network('192.0.2.0/26')
- ip2 = IPv4Network('192.0.2.64/26')
- ip3 = IPv4Network('192.0.2.128/26')
- ip4 = IPv4Network('192.0.2.192/26')
- _collapse_addresses_internal([ip1, ip2, ip3, ip4]) ->
- [IPv4Network('192.0.2.0/24')]
- This shouldn't be called directly; it is called via
- collapse_addresses([]).
- Args:
- addresses: A list of IPv4Network's or IPv6Network's
- Returns:
- A list of IPv4Network's or IPv6Network's depending on what we were
- passed.
- """
- # First merge
- to_merge = list(addresses)
- subnets = {}
- while to_merge:
- net = to_merge.pop()
- supernet = net.supernet()
- existing = subnets.get(supernet)
- if existing is None:
- subnets[supernet] = net
- elif existing != net:
- # Merge consecutive subnets
- del subnets[supernet]
- to_merge.append(supernet)
- # Then iterate over resulting networks, skipping subsumed subnets
- last = None
- for net in sorted(subnets.values()):
- if last is not None:
- # Since they are sorted, last.network_address <= net.network_address
- # is a given.
- if last.broadcast_address >= net.broadcast_address:
- continue
- yield net
- last = net
- def collapse_addresses(addresses):
- """Collapse a list of IP objects.
- Example:
- collapse_addresses([IPv4Network('192.0.2.0/25'),
- IPv4Network('192.0.2.128/25')]) ->
- [IPv4Network('192.0.2.0/24')]
- Args:
- addresses: An iterable of IPv4Network or IPv6Network objects.
- Returns:
- An iterator of the collapsed IPv(4|6)Network objects.
- Raises:
- TypeError: If passed a list of mixed version objects.
- """
- addrs = []
- ips = []
- nets = []
- # split IP addresses and networks
- for ip in addresses:
- if isinstance(ip, _BaseAddress):
- if ips and ips[-1]._version != ip._version:
- raise TypeError("%s and %s are not of the same version" % (
- ip, ips[-1]))
- ips.append(ip)
- elif ip._prefixlen == ip._max_prefixlen:
- if ips and ips[-1]._version != ip._version:
- raise TypeError("%s and %s are not of the same version" % (
- ip, ips[-1]))
- try:
- ips.append(ip.ip)
- except AttributeError:
- ips.append(ip.network_address)
- else:
- if nets and nets[-1]._version != ip._version:
- raise TypeError("%s and %s are not of the same version" % (
- ip, nets[-1]))
- nets.append(ip)
- # sort and dedup
- ips = sorted(set(ips))
- # find consecutive address ranges in the sorted sequence and summarize them
- if ips:
- for first, last in _find_address_range(ips):
- addrs.extend(summarize_address_range(first, last))
- return _collapse_addresses_internal(addrs + nets)
- def get_mixed_type_key(obj):
- """Return a key suitable for sorting between networks and addresses.
- Address and Network objects are not sortable by default; they're
- fundamentally different so the expression
- IPv4Address('192.0.2.0') <= IPv4Network('192.0.2.0/24')
- doesn't make any sense. There are some times however, where you may wish
- to have ipaddress sort these for you anyway. If you need to do this, you
- can use this function as the key= argument to sorted().
- Args:
- obj: either a Network or Address object.
- Returns:
- appropriate key.
- """
- if isinstance(obj, _BaseNetwork):
- return obj._get_networks_key()
- elif isinstance(obj, _BaseAddress):
- return obj._get_address_key()
- return NotImplemented
- class _IPAddressBase:
- """The mother class."""
- __slots__ = ()
- @property
- def exploded(self):
- """Return the longhand version of the IP address as a string."""
- return self._explode_shorthand_ip_string()
- @property
- def compressed(self):
- """Return the shorthand version of the IP address as a string."""
- return str(self)
- @property
- def reverse_pointer(self):
- """The name of the reverse DNS pointer for the IP address, e.g.:
- >>> ipaddress.ip_address("127.0.0.1").reverse_pointer
- '1.0.0.127.in-addr.arpa'
- >>> ipaddress.ip_address("2001:db8::1").reverse_pointer
- '1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.8.b.d.0.1.0.0.2.ip6.arpa'
- """
- return self._reverse_pointer()
- @property
- def version(self):
- msg = '%200s has no version specified' % (type(self),)
- raise NotImplementedError(msg)
- def _check_int_address(self, address):
- if address < 0:
- msg = "%d (< 0) is not permitted as an IPv%d address"
- raise AddressValueError(msg % (address, self._version))
- if address > self._ALL_ONES:
- msg = "%d (>= 2**%d) is not permitted as an IPv%d address"
- raise AddressValueError(msg % (address, self._max_prefixlen,
- self._version))
- def _check_packed_address(self, address, expected_len):
- address_len = len(address)
- if address_len != expected_len:
- msg = "%r (len %d != %d) is not permitted as an IPv%d address"
- raise AddressValueError(msg % (address, address_len,
- expected_len, self._version))
- @classmethod
- def _ip_int_from_prefix(cls, prefixlen):
- """Turn the prefix length into a bitwise netmask
- Args:
- prefixlen: An integer, the prefix length.
- Returns:
- An integer.
- """
- return cls._ALL_ONES ^ (cls._ALL_ONES >> prefixlen)
- @classmethod
- def _prefix_from_ip_int(cls, ip_int):
- """Return prefix length from the bitwise netmask.
- Args:
- ip_int: An integer, the netmask in expanded bitwise format
- Returns:
- An integer, the prefix length.
- Raises:
- ValueError: If the input intermingles zeroes & ones
- """
- trailing_zeroes = _count_righthand_zero_bits(ip_int,
- cls._max_prefixlen)
- prefixlen = cls._max_prefixlen - trailing_zeroes
- leading_ones = ip_int >> trailing_zeroes
- all_ones = (1 << prefixlen) - 1
- if leading_ones != all_ones:
- byteslen = cls._max_prefixlen // 8
- details = ip_int.to_bytes(byteslen, 'big')
- msg = 'Netmask pattern %r mixes zeroes & ones'
- raise ValueError(msg % details)
- return prefixlen
- @classmethod
- def _report_invalid_netmask(cls, netmask_str):
- msg = '%r is not a valid netmask' % netmask_str
- raise NetmaskValueError(msg) from None
- @classmethod
- def _prefix_from_prefix_string(cls, prefixlen_str):
- """Return prefix length from a numeric string
- Args:
- prefixlen_str: The string to be converted
- Returns:
- An integer, the prefix length.
- Raises:
- NetmaskValueError: If the input is not a valid netmask
- """
- # int allows a leading +/- as well as surrounding whitespace,
- # so we ensure that isn't the case
- if not (prefixlen_str.isascii() and prefixlen_str.isdigit()):
- cls._report_invalid_netmask(prefixlen_str)
- try:
- prefixlen = int(prefixlen_str)
- except ValueError:
- cls._report_invalid_netmask(prefixlen_str)
- if not (0 <= prefixlen <= cls._max_prefixlen):
- cls._report_invalid_netmask(prefixlen_str)
- return prefixlen
- @classmethod
- def _prefix_from_ip_string(cls, ip_str):
- """Turn a netmask/hostmask string into a prefix length
- Args:
- ip_str: The netmask/hostmask to be converted
- Returns:
- An integer, the prefix length.
- Raises:
- NetmaskValueError: If the input is not a valid netmask/hostmask
- """
- # Parse the netmask/hostmask like an IP address.
- try:
- ip_int = cls._ip_int_from_string(ip_str)
- except AddressValueError:
- cls._report_invalid_netmask(ip_str)
- # Try matching a netmask (this would be /1*0*/ as a bitwise regexp).
- # Note that the two ambiguous cases (all-ones and all-zeroes) are
- # treated as netmasks.
- try:
- return cls._prefix_from_ip_int(ip_int)
- except ValueError:
- pass
- # Invert the bits, and try matching a /0+1+/ hostmask instead.
- ip_int ^= cls._ALL_ONES
- try:
- return cls._prefix_from_ip_int(ip_int)
- except ValueError:
- cls._report_invalid_netmask(ip_str)
- @classmethod
- def _split_addr_prefix(cls, address):
- """Helper function to parse address of Network/Interface.
- Arg:
- address: Argument of Network/Interface.
- Returns:
- (addr, prefix) tuple.
- """
- # a packed address or integer
- if isinstance(address, (bytes, int)):
- return address, cls._max_prefixlen
- if not isinstance(address, tuple):
- # Assume input argument to be string or any object representation
- # which converts into a formatted IP prefix string.
- address = _split_optional_netmask(address)
- # Constructing from a tuple (addr, [mask])
- if len(address) > 1:
- return address
- return address[0], cls._max_prefixlen
- def __reduce__(self):
- return self.__class__, (str(self),)
- _address_fmt_re = None
- @functools.total_ordering
- class _BaseAddress(_IPAddressBase):
- """A generic IP object.
- This IP class contains the version independent methods which are
- used by single IP addresses.
- """
- __slots__ = ()
- def __int__(self):
- return self._ip
- def __eq__(self, other):
- try:
- return (self._ip == other._ip
- and self._version == other._version)
- except AttributeError:
- return NotImplemented
- def __lt__(self, other):
- if not isinstance(other, _BaseAddress):
- return NotImplemented
- if self._version != other._version:
- raise TypeError('%s and %s are not of the same version' % (
- self, other))
- if self._ip != other._ip:
- return self._ip < other._ip
- return False
- # Shorthand for Integer addition and subtraction. This is not
- # meant to ever support addition/subtraction of addresses.
- def __add__(self, other):
- if not isinstance(other, int):
- return NotImplemented
- return self.__class__(int(self) + other)
- def __sub__(self, other):
- if not isinstance(other, int):
- return NotImplemented
- return self.__class__(int(self) - other)
- def __repr__(self):
- return '%s(%r)' % (self.__class__.__name__, str(self))
- def __str__(self):
- return str(self._string_from_ip_int(self._ip))
- def __hash__(self):
- return hash(hex(int(self._ip)))
- def _get_address_key(self):
- return (self._version, self)
- def __reduce__(self):
- return self.__class__, (self._ip,)
- def __format__(self, fmt):
- """Returns an IP address as a formatted string.
- Supported presentation types are:
- 's': returns the IP address as a string (default)
- 'b': converts to binary and returns a zero-padded string
- 'X' or 'x': converts to upper- or lower-case hex and returns a zero-padded string
- 'n': the same as 'b' for IPv4 and 'x' for IPv6
- For binary and hex presentation types, the alternate form specifier
- '#' and the grouping option '_' are supported.
- """
- # Support string formatting
- if not fmt or fmt[-1] == 's':
- return format(str(self), fmt)
- # From here on down, support for 'bnXx'
- global _address_fmt_re
- if _address_fmt_re is None:
- import re
- _address_fmt_re = re.compile('(#?)(_?)([xbnX])')
- m = _address_fmt_re.fullmatch(fmt)
- if not m:
- return super().__format__(fmt)
- alternate, grouping, fmt_base = m.groups()
- # Set some defaults
- if fmt_base == 'n':
- if self._version == 4:
- fmt_base = 'b' # Binary is default for ipv4
- else:
- fmt_base = 'x' # Hex is default for ipv6
- if fmt_base == 'b':
- padlen = self._max_prefixlen
- else:
- padlen = self._max_prefixlen // 4
- if grouping:
- padlen += padlen // 4 - 1
- if alternate:
- padlen += 2 # 0b or 0x
- return format(int(self), f'{alternate}0{padlen}{grouping}{fmt_base}')
- @functools.total_ordering
- class _BaseNetwork(_IPAddressBase):
- """A generic IP network object.
- This IP class contains the version independent methods which are
- used by networks.
- """
- def __repr__(self):
- return '%s(%r)' % (self.__class__.__name__, str(self))
- def __str__(self):
- return '%s/%d' % (self.network_address, self.prefixlen)
- def hosts(self):
- """Generate Iterator over usable hosts in a network.
- This is like __iter__ except it doesn't return the network
- or broadcast addresses.
- """
- network = int(self.network_address)
- broadcast = int(self.broadcast_address)
- for x in range(network + 1, broadcast):
- yield self._address_class(x)
- def __iter__(self):
- network = int(self.network_address)
- broadcast = int(self.broadcast_address)
- for x in range(network, broadcast + 1):
- yield self._address_class(x)
- def __getitem__(self, n):
- network = int(self.network_address)
- broadcast = int(self.broadcast_address)
- if n >= 0:
- if network + n > broadcast:
- raise IndexError('address out of range')
- return self._address_class(network + n)
- else:
- n += 1
- if broadcast + n < network:
- raise IndexError('address out of range')
- return self._address_class(broadcast + n)
- def __lt__(self, other):
- if not isinstance(other, _BaseNetwork):
- return NotImplemented
- if self._version != other._version:
- raise TypeError('%s and %s are not of the same version' % (
- self, other))
- if self.network_address != other.network_address:
- return self.network_address < other.network_address
- if self.netmask != other.netmask:
- return self.netmask < other.netmask
- return False
- def __eq__(self, other):
- try:
- return (self._version == other._version and
- self.network_address == other.network_address and
- int(self.netmask) == int(other.netmask))
- except AttributeError:
- return NotImplemented
- def __hash__(self):
- return hash(int(self.network_address) ^ int(self.netmask))
- def __contains__(self, other):
- # always false if one is v4 and the other is v6.
- if self._version != other._version:
- return False
- # dealing with another network.
- if isinstance(other, _BaseNetwork):
- return False
- # dealing with another address
- else:
- # address
- return other._ip & self.netmask._ip == self.network_address._ip
- def overlaps(self, other):
- """Tell if self is partly contained in other."""
- return self.network_address in other or (
- self.broadcast_address in other or (
- other.network_address in self or (
- other.broadcast_address in self)))
- @functools.cached_property
- def broadcast_address(self):
- return self._address_class(int(self.network_address) |
- int(self.hostmask))
- @functools.cached_property
- def hostmask(self):
- return self._address_class(int(self.netmask) ^ self._ALL_ONES)
- @property
- def with_prefixlen(self):
- return '%s/%d' % (self.network_address, self._prefixlen)
- @property
- def with_netmask(self):
- return '%s/%s' % (self.network_address, self.netmask)
- @property
- def with_hostmask(self):
- return '%s/%s' % (self.network_address, self.hostmask)
- @property
- def num_addresses(self):
- """Number of hosts in the current subnet."""
- return int(self.broadcast_address) - int(self.network_address) + 1
- @property
- def _address_class(self):
- # Returning bare address objects (rather than interfaces) allows for
- # more consistent behaviour across the network address, broadcast
- # address and individual host addresses.
- msg = '%200s has no associated address class' % (type(self),)
- raise NotImplementedError(msg)
- @property
- def prefixlen(self):
- return self._prefixlen
- def address_exclude(self, other):
- """Remove an address from a larger block.
- For example:
- addr1 = ip_network('192.0.2.0/28')
- addr2 = ip_network('192.0.2.1/32')
- list(addr1.address_exclude(addr2)) =
- [IPv4Network('192.0.2.0/32'), IPv4Network('192.0.2.2/31'),
- IPv4Network('192.0.2.4/30'), IPv4Network('192.0.2.8/29')]
- or IPv6:
- addr1 = ip_network('2001:db8::1/32')
- addr2 = ip_network('2001:db8::1/128')
- list(addr1.address_exclude(addr2)) =
- [ip_network('2001:db8::1/128'),
- ip_network('2001:db8::2/127'),
- ip_network('2001:db8::4/126'),
- ip_network('2001:db8::8/125'),
- ...
- ip_network('2001:db8:8000::/33')]
- Args:
- other: An IPv4Network or IPv6Network object of the same type.
- Returns:
- An iterator of the IPv(4|6)Network objects which is self
- minus other.
- Raises:
- TypeError: If self and other are of differing address
- versions, or if other is not a network object.
- ValueError: If other is not completely contained by self.
- """
- if not self._version == other._version:
- raise TypeError("%s and %s are not of the same version" % (
- self, other))
- if not isinstance(other, _BaseNetwork):
- raise TypeError("%s is not a network object" % other)
- if not other.subnet_of(self):
- raise ValueError('%s not contained in %s' % (other, self))
- if other == self:
- return
- # Make sure we're comparing the network of other.
- other = other.__class__('%s/%s' % (other.network_address,
- other.prefixlen))
- s1, s2 = self.subnets()
- while s1 != other and s2 != other:
- if other.subnet_of(s1):
- yield s2
- s1, s2 = s1.subnets()
- elif other.subnet_of(s2):
- yield s1
- s1, s2 = s2.subnets()
- else:
- # If we got here, there's a bug somewhere.
- raise AssertionError('Error performing exclusion: '
- 's1: %s s2: %s other: %s' %
- (s1, s2, other))
- if s1 == other:
- yield s2
- elif s2 == other:
- yield s1
- else:
- # If we got here, there's a bug somewhere.
- raise AssertionError('Error performing exclusion: '
- 's1: %s s2: %s other: %s' %
- (s1, s2, other))
- def compare_networks(self, other):
- """Compare two IP objects.
- This is only concerned about the comparison of the integer
- representation of the network addresses. This means that the
- host bits aren't considered at all in this method. If you want
- to compare host bits, you can easily enough do a
- 'HostA._ip < HostB._ip'
- Args:
- other: An IP object.
- Returns:
- If the IP versions of self and other are the same, returns:
- -1 if self < other:
- eg: IPv4Network('192.0.2.0/25') < IPv4Network('192.0.2.128/25')
- IPv6Network('2001:db8::1000/124') <
- IPv6Network('2001:db8::2000/124')
- 0 if self == other
- eg: IPv4Network('192.0.2.0/24') == IPv4Network('192.0.2.0/24')
- IPv6Network('2001:db8::1000/124') ==
- IPv6Network('2001:db8::1000/124')
- 1 if self > other
- eg: IPv4Network('192.0.2.128/25') > IPv4Network('192.0.2.0/25')
- IPv6Network('2001:db8::2000/124') >
- IPv6Network('2001:db8::1000/124')
- Raises:
- TypeError if the IP versions are different.
- """
- # does this need to raise a ValueError?
- if self._version != other._version:
- raise TypeError('%s and %s are not of the same type' % (
- self, other))
- # self._version == other._version below here:
- if self.network_address < other.network_address:
- return -1
- if self.network_address > other.network_address:
- return 1
- # self.network_address == other.network_address below here:
- if self.netmask < other.netmask:
- return -1
- if self.netmask > other.netmask:
- return 1
- return 0
- def _get_networks_key(self):
- """Network-only key function.
- Returns an object that identifies this address' network and
- netmask. This function is a suitable "key" argument for sorted()
- and list.sort().
- """
- return (self._version, self.network_address, self.netmask)
- def subnets(self, prefixlen_diff=1, new_prefix=None):
- """The subnets which join to make the current subnet.
- In the case that self contains only one IP
- (self._prefixlen == 32 for IPv4 or self._prefixlen == 128
- for IPv6), yield an iterator with just ourself.
- Args:
- prefixlen_diff: An integer, the amount the prefix length
- should be increased by. This should not be set if
- new_prefix is also set.
- new_prefix: The desired new prefix length. This must be a
- larger number (smaller prefix) than the existing prefix.
- This should not be set if prefixlen_diff is also set.
- Returns:
- An iterator of IPv(4|6) objects.
- Raises:
- ValueError: The prefixlen_diff is too small or too large.
- OR
- prefixlen_diff and new_prefix are both set or new_prefix
- is a smaller number than the current prefix (smaller
- number means a larger network)
- """
- if self._prefixlen == self._max_prefixlen:
- yield self
- return
- if new_prefix is not None:
- if new_prefix < self._prefixlen:
- raise ValueError('new prefix must be longer')
- if prefixlen_diff != 1:
- raise ValueError('cannot set prefixlen_diff and new_prefix')
- prefixlen_diff = new_prefix - self._prefixlen
- if prefixlen_diff < 0:
- raise ValueError('prefix length diff must be > 0')
- new_prefixlen = self._prefixlen + prefixlen_diff
- if new_prefixlen > self._max_prefixlen:
- raise ValueError(
- 'prefix length diff %d is invalid for netblock %s' % (
- new_prefixlen, self))
- start = int(self.network_address)
- end = int(self.broadcast_address) + 1
- step = (int(self.hostmask) + 1) >> prefixlen_diff
- for new_addr in range(start, end, step):
- current = self.__class__((new_addr, new_prefixlen))
- yield current
- def supernet(self, prefixlen_diff=1, new_prefix=None):
- """The supernet containing the current network.
- Args:
- prefixlen_diff: An integer, the amount the prefix length of
- the network should be decreased by. For example, given a
- /24 network and a prefixlen_diff of 3, a supernet with a
- /21 netmask is returned.
- Returns:
- An IPv4 network object.
- Raises:
- ValueError: If self.prefixlen - prefixlen_diff < 0. I.e., you have
- a negative prefix length.
- OR
- If prefixlen_diff and new_prefix are both set or new_prefix is a
- larger number than the current prefix (larger number means a
- smaller network)
- """
- if self._prefixlen == 0:
- return self
- if new_prefix is not None:
- if new_prefix > self._prefixlen:
- raise ValueError('new prefix must be shorter')
- if prefixlen_diff != 1:
- raise ValueError('cannot set prefixlen_diff and new_prefix')
- prefixlen_diff = self._prefixlen - new_prefix
- new_prefixlen = self.prefixlen - prefixlen_diff
- if new_prefixlen < 0:
- raise ValueError(
- 'current prefixlen is %d, cannot have a prefixlen_diff of %d' %
- (self.prefixlen, prefixlen_diff))
- return self.__class__((
- int(self.network_address) & (int(self.netmask) << prefixlen_diff),
- new_prefixlen
- ))
- @property
- def is_multicast(self):
- """Test if the address is reserved for multicast use.
- Returns:
- A boolean, True if the address is a multicast address.
- See RFC 2373 2.7 for details.
- """
- return (self.network_address.is_multicast and
- self.broadcast_address.is_multicast)
- @staticmethod
- def _is_subnet_of(a, b):
- try:
- # Always false if one is v4 and the other is v6.
- if a._version != b._version:
- raise TypeError(f"{a} and {b} are not of the same version")
- return (b.network_address <= a.network_address and
- b.broadcast_address >= a.broadcast_address)
- except AttributeError:
- raise TypeError(f"Unable to test subnet containment "
- f"between {a} and {b}")
- def subnet_of(self, other):
- """Return True if this network is a subnet of other."""
- return self._is_subnet_of(self, other)
- def supernet_of(self, other):
- """Return True if this network is a supernet of other."""
- return self._is_subnet_of(other, self)
- @property
- def is_reserved(self):
- """Test if the address is otherwise IETF reserved.
- Returns:
- A boolean, True if the address is within one of the
- reserved IPv6 Network ranges.
- """
- return (self.network_address.is_reserved and
- self.broadcast_address.is_reserved)
- @property
- def is_link_local(self):
- """Test if the address is reserved for link-local.
- Returns:
- A boolean, True if the address is reserved per RFC 4291.
- """
- return (self.network_address.is_link_local and
- self.broadcast_address.is_link_local)
- @property
- def is_private(self):
- """Test if this network belongs to a private range.
- Returns:
- A boolean, True if the network is reserved per
- iana-ipv4-special-registry or iana-ipv6-special-registry.
- """
- return any(self.network_address in priv_network and
- self.broadcast_address in priv_network
- for priv_network in self._constants._private_networks) and all(
- self.network_address not in network and
- self.broadcast_address not in network
- for network in self._constants._private_networks_exceptions
- )
- @property
- def is_global(self):
- """Test if this address is allocated for public networks.
- Returns:
- A boolean, True if the address is not reserved per
- iana-ipv4-special-registry or iana-ipv6-special-registry.
- """
- return not self.is_private
- @property
- def is_unspecified(self):
- """Test if the address is unspecified.
- Returns:
- A boolean, True if this is the unspecified address as defined in
- RFC 2373 2.5.2.
- """
- return (self.network_address.is_unspecified and
- self.broadcast_address.is_unspecified)
- @property
- def is_loopback(self):
- """Test if the address is a loopback address.
- Returns:
- A boolean, True if the address is a loopback address as defined in
- RFC 2373 2.5.3.
- """
- return (self.network_address.is_loopback and
- self.broadcast_address.is_loopback)
- class _BaseConstants:
- _private_networks = []
- _BaseNetwork._constants = _BaseConstants
- class _BaseV4:
- """Base IPv4 object.
- The following methods are used by IPv4 objects in both single IP
- addresses and networks.
- """
- __slots__ = ()
- _version = 4
- # Equivalent to 255.255.255.255 or 32 bits of 1's.
- _ALL_ONES = (2**IPV4LENGTH) - 1
- _max_prefixlen = IPV4LENGTH
- # There are only a handful of valid v4 netmasks, so we cache them all
- # when constructed (see _make_netmask()).
- _netmask_cache = {}
- def _explode_shorthand_ip_string(self):
- return str(self)
- @classmethod
- def _make_netmask(cls, arg):
- """Make a (netmask, prefix_len) tuple from the given argument.
- Argument can be:
- - an integer (the prefix length)
- - a string representing the prefix length (e.g. "24")
- - a string representing the prefix netmask (e.g. "255.255.255.0")
- """
- if arg not in cls._netmask_cache:
- if isinstance(arg, int):
- prefixlen = arg
- if not (0 <= prefixlen <= cls._max_prefixlen):
- cls._report_invalid_netmask(prefixlen)
- else:
- try:
- # Check for a netmask in prefix length form
- prefixlen = cls._prefix_from_prefix_string(arg)
- except NetmaskValueError:
- # Check for a netmask or hostmask in dotted-quad form.
- # This may raise NetmaskValueError.
- prefixlen = cls._prefix_from_ip_string(arg)
- netmask = IPv4Address(cls._ip_int_from_prefix(prefixlen))
- cls._netmask_cache[arg] = netmask, prefixlen
- return cls._netmask_cache[arg]
- @classmethod
- def _ip_int_from_string(cls, ip_str):
- """Turn the given IP string into an integer for comparison.
- Args:
- ip_str: A string, the IP ip_str.
- Returns:
- The IP ip_str as an integer.
- Raises:
- AddressValueError: if ip_str isn't a valid IPv4 Address.
- """
- if not ip_str:
- raise AddressValueError('Address cannot be empty')
- octets = ip_str.split('.')
- if len(octets) != 4:
- raise AddressValueError("Expected 4 octets in %r" % ip_str)
- try:
- return int.from_bytes(map(cls._parse_octet, octets), 'big')
- except ValueError as exc:
- raise AddressValueError("%s in %r" % (exc, ip_str)) from None
- @classmethod
- def _parse_octet(cls, octet_str):
- """Convert a decimal octet into an integer.
- Args:
- octet_str: A string, the number to parse.
- Returns:
- The octet as an integer.
- Raises:
- ValueError: if the octet isn't strictly a decimal from [0..255].
- """
- if not octet_str:
- raise ValueError("Empty octet not permitted")
- # Reject non-ASCII digits.
- if not (octet_str.isascii() and octet_str.isdigit()):
- msg = "Only decimal digits permitted in %r"
- raise ValueError(msg % octet_str)
- # We do the length check second, since the invalid character error
- # is likely to be more informative for the user
- if len(octet_str) > 3:
- msg = "At most 3 characters permitted in %r"
- raise ValueError(msg % octet_str)
- # Handle leading zeros as strict as glibc's inet_pton()
- # See security bug bpo-36384
- if octet_str != '0' and octet_str[0] == '0':
- msg = "Leading zeros are not permitted in %r"
- raise ValueError(msg % octet_str)
- # Convert to integer (we know digits are legal)
- octet_int = int(octet_str, 10)
- if octet_int > 255:
- raise ValueError("Octet %d (> 255) not permitted" % octet_int)
- return octet_int
- @classmethod
- def _string_from_ip_int(cls, ip_int):
- """Turns a 32-bit integer into dotted decimal notation.
- Args:
- ip_int: An integer, the IP address.
- Returns:
- The IP address as a string in dotted decimal notation.
- """
- return '.'.join(map(str, ip_int.to_bytes(4, 'big')))
- def _reverse_pointer(self):
- """Return the reverse DNS pointer name for the IPv4 address.
- This implements the method described in RFC1035 3.5.
- """
- reverse_octets = str(self).split('.')[::-1]
- return '.'.join(reverse_octets) + '.in-addr.arpa'
- @property
- def max_prefixlen(self):
- return self._max_prefixlen
- @property
- def version(self):
- return self._version
- class IPv4Address(_BaseV4, _BaseAddress):
- """Represent and manipulate single IPv4 Addresses."""
- __slots__ = ('_ip', '__weakref__')
- def __init__(self, address):
- """
- Args:
- address: A string or integer representing the IP
- Additionally, an integer can be passed, so
- IPv4Address('192.0.2.1') == IPv4Address(3221225985).
- or, more generally
- IPv4Address(int(IPv4Address('192.0.2.1'))) ==
- IPv4Address('192.0.2.1')
- Raises:
- AddressValueError: If ipaddress isn't a valid IPv4 address.
- """
- # Efficient constructor from integer.
- if isinstance(address, int):
- self._check_int_address(address)
- self._ip = address
- return
- # Constructing from a packed address
- if isinstance(address, bytes):
- self._check_packed_address(address, 4)
- self._ip = int.from_bytes(address) # big endian
- return
- # Assume input argument to be string or any object representation
- # which converts into a formatted IP string.
- addr_str = str(address)
- if '/' in addr_str:
- raise AddressValueError(f"Unexpected '/' in {address!r}")
- self._ip = self._ip_int_from_string(addr_str)
- @property
- def packed(self):
- """The binary representation of this address."""
- return v4_int_to_packed(self._ip)
- @property
- def is_reserved(self):
- """Test if the address is otherwise IETF reserved.
- Returns:
- A boolean, True if the address is within the
- reserved IPv4 Network range.
- """
- return self in self._constants._reserved_network
- @property
- @functools.lru_cache()
- def is_private(self):
- """``True`` if the address is defined as not globally reachable by
- iana-ipv4-special-registry_ (for IPv4) or iana-ipv6-special-registry_
- (for IPv6) with the following exceptions:
- * ``is_private`` is ``False`` for ``100.64.0.0/10``
- * For IPv4-mapped IPv6-addresses the ``is_private`` value is determined by the
- semantics of the underlying IPv4 addresses and the following condition holds
- (see :attr:`IPv6Address.ipv4_mapped`)::
- address.is_private == address.ipv4_mapped.is_private
- ``is_private`` has value opposite to :attr:`is_global`, except for the ``100.64.0.0/10``
- IPv4 range where they are both ``False``.
- """
- return (
- any(self in net for net in self._constants._private_networks)
- and all(self not in net for net in self._constants._private_networks_exceptions)
- )
- @property
- @functools.lru_cache()
- def is_global(self):
- """``True`` if the address is defined as globally reachable by
- iana-ipv4-special-registry_ (for IPv4) or iana-ipv6-special-registry_
- (for IPv6) with the following exception:
- For IPv4-mapped IPv6-addresses the ``is_private`` value is determined by the
- semantics of the underlying IPv4 addresses and the following condition holds
- (see :attr:`IPv6Address.ipv4_mapped`)::
- address.is_global == address.ipv4_mapped.is_global
- ``is_global`` has value opposite to :attr:`is_private`, except for the ``100.64.0.0/10``
- IPv4 range where they are both ``False``.
- """
- return self not in self._constants._public_network and not self.is_private
- @property
- def is_multicast(self):
- """Test if the address is reserved for multicast use.
- Returns:
- A boolean, True if the address is multicast.
- See RFC 3171 for details.
- """
- return self in self._constants._multicast_network
- @property
- def is_unspecified(self):
- """Test if the address is unspecified.
- Returns:
- A boolean, True if this is the unspecified address as defined in
- RFC 5735 3.
- """
- return self == self._constants._unspecified_address
- @property
- def is_loopback(self):
- """Test if the address is a loopback address.
- Returns:
- A boolean, True if the address is a loopback per RFC 3330.
- """
- return self in self._constants._loopback_network
- @property
- def is_link_local(self):
- """Test if the address is reserved for link-local.
- Returns:
- A boolean, True if the address is link-local per RFC 3927.
- """
- return self in self._constants._linklocal_network
- class IPv4Interface(IPv4Address):
- def __init__(self, address):
- addr, mask = self._split_addr_prefix(address)
- IPv4Address.__init__(self, addr)
- self.network = IPv4Network((addr, mask), strict=False)
- self.netmask = self.network.netmask
- self._prefixlen = self.network._prefixlen
- @functools.cached_property
- def hostmask(self):
- return self.network.hostmask
- def __str__(self):
- return '%s/%d' % (self._string_from_ip_int(self._ip),
- self._prefixlen)
- def __eq__(self, other):
- address_equal = IPv4Address.__eq__(self, other)
- if address_equal is NotImplemented or not address_equal:
- return address_equal
- try:
- return self.network == other.network
- except AttributeError:
- # An interface with an associated network is NOT the
- # same as an unassociated address. That's why the hash
- # takes the extra info into account.
- return False
- def __lt__(self, other):
- address_less = IPv4Address.__lt__(self, other)
- if address_less is NotImplemented:
- return NotImplemented
- try:
- return (self.network < other.network or
- self.network == other.network and address_less)
- except AttributeError:
- # We *do* allow addresses and interfaces to be sorted. The
- # unassociated address is considered less than all interfaces.
- return False
- def __hash__(self):
- return hash((self._ip, self._prefixlen, int(self.network.network_address)))
- __reduce__ = _IPAddressBase.__reduce__
- @property
- def ip(self):
- return IPv4Address(self._ip)
- @property
- def with_prefixlen(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self._prefixlen)
- @property
- def with_netmask(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self.netmask)
- @property
- def with_hostmask(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self.hostmask)
- class IPv4Network(_BaseV4, _BaseNetwork):
- """This class represents and manipulates 32-bit IPv4 network + addresses..
- Attributes: [examples for IPv4Network('192.0.2.0/27')]
- .network_address: IPv4Address('192.0.2.0')
- .hostmask: IPv4Address('0.0.0.31')
- .broadcast_address: IPv4Address('192.0.2.32')
- .netmask: IPv4Address('255.255.255.224')
- .prefixlen: 27
- """
- # Class to use when creating address objects
- _address_class = IPv4Address
- def __init__(self, address, strict=True):
- """Instantiate a new IPv4 network object.
- Args:
- address: A string or integer representing the IP [& network].
- '192.0.2.0/24'
- '192.0.2.0/255.255.255.0'
- '192.0.2.0/0.0.0.255'
- are all functionally the same in IPv4. Similarly,
- '192.0.2.1'
- '192.0.2.1/255.255.255.255'
- '192.0.2.1/32'
- are also functionally equivalent. That is to say, failing to
- provide a subnetmask will create an object with a mask of /32.
- If the mask (portion after the / in the argument) is given in
- dotted quad form, it is treated as a netmask if it starts with a
- non-zero field (e.g. /255.0.0.0 == /8) and as a hostmask if it
- starts with a zero field (e.g. 0.255.255.255 == /8), with the
- single exception of an all-zero mask which is treated as a
- netmask == /0. If no mask is given, a default of /32 is used.
- Additionally, an integer can be passed, so
- IPv4Network('192.0.2.1') == IPv4Network(3221225985)
- or, more generally
- IPv4Interface(int(IPv4Interface('192.0.2.1'))) ==
- IPv4Interface('192.0.2.1')
- Raises:
- AddressValueError: If ipaddress isn't a valid IPv4 address.
- NetmaskValueError: If the netmask isn't valid for
- an IPv4 address.
- ValueError: If strict is True and a network address is not
- supplied.
- """
- addr, mask = self._split_addr_prefix(address)
- self.network_address = IPv4Address(addr)
- self.netmask, self._prefixlen = self._make_netmask(mask)
- packed = int(self.network_address)
- if packed & int(self.netmask) != packed:
- if strict:
- raise ValueError('%s has host bits set' % self)
- else:
- self.network_address = IPv4Address(packed &
- int(self.netmask))
- if self._prefixlen == (self._max_prefixlen - 1):
- self.hosts = self.__iter__
- elif self._prefixlen == (self._max_prefixlen):
- self.hosts = lambda: [IPv4Address(addr)]
- @property
- @functools.lru_cache()
- def is_global(self):
- """Test if this address is allocated for public networks.
- Returns:
- A boolean, True if the address is not reserved per
- iana-ipv4-special-registry.
- """
- return (not (self.network_address in IPv4Network('100.64.0.0/10') and
- self.broadcast_address in IPv4Network('100.64.0.0/10')) and
- not self.is_private)
- class _IPv4Constants:
- _linklocal_network = IPv4Network('169.254.0.0/16')
- _loopback_network = IPv4Network('127.0.0.0/8')
- _multicast_network = IPv4Network('224.0.0.0/4')
- _public_network = IPv4Network('100.64.0.0/10')
- # Not globally reachable address blocks listed on
- # https://www.iana.org/assignments/iana-ipv4-special-registry/iana-ipv4-special-registry.xhtml
- _private_networks = [
- IPv4Network('0.0.0.0/8'),
- IPv4Network('10.0.0.0/8'),
- IPv4Network('127.0.0.0/8'),
- IPv4Network('169.254.0.0/16'),
- IPv4Network('172.16.0.0/12'),
- IPv4Network('192.0.0.0/24'),
- IPv4Network('192.0.0.170/31'),
- IPv4Network('192.0.2.0/24'),
- IPv4Network('192.168.0.0/16'),
- IPv4Network('198.18.0.0/15'),
- IPv4Network('198.51.100.0/24'),
- IPv4Network('203.0.113.0/24'),
- IPv4Network('240.0.0.0/4'),
- IPv4Network('255.255.255.255/32'),
- ]
- _private_networks_exceptions = [
- IPv4Network('192.0.0.9/32'),
- IPv4Network('192.0.0.10/32'),
- ]
- _reserved_network = IPv4Network('240.0.0.0/4')
- _unspecified_address = IPv4Address('0.0.0.0')
- IPv4Address._constants = _IPv4Constants
- IPv4Network._constants = _IPv4Constants
- class _BaseV6:
- """Base IPv6 object.
- The following methods are used by IPv6 objects in both single IP
- addresses and networks.
- """
- __slots__ = ()
- _version = 6
- _ALL_ONES = (2**IPV6LENGTH) - 1
- _HEXTET_COUNT = 8
- _HEX_DIGITS = frozenset('0123456789ABCDEFabcdef')
- _max_prefixlen = IPV6LENGTH
- # There are only a bunch of valid v6 netmasks, so we cache them all
- # when constructed (see _make_netmask()).
- _netmask_cache = {}
- @classmethod
- def _make_netmask(cls, arg):
- """Make a (netmask, prefix_len) tuple from the given argument.
- Argument can be:
- - an integer (the prefix length)
- - a string representing the prefix length (e.g. "24")
- - a string representing the prefix netmask (e.g. "255.255.255.0")
- """
- if arg not in cls._netmask_cache:
- if isinstance(arg, int):
- prefixlen = arg
- if not (0 <= prefixlen <= cls._max_prefixlen):
- cls._report_invalid_netmask(prefixlen)
- else:
- prefixlen = cls._prefix_from_prefix_string(arg)
- netmask = IPv6Address(cls._ip_int_from_prefix(prefixlen))
- cls._netmask_cache[arg] = netmask, prefixlen
- return cls._netmask_cache[arg]
- @classmethod
- def _ip_int_from_string(cls, ip_str):
- """Turn an IPv6 ip_str into an integer.
- Args:
- ip_str: A string, the IPv6 ip_str.
- Returns:
- An int, the IPv6 address
- Raises:
- AddressValueError: if ip_str isn't a valid IPv6 Address.
- """
- if not ip_str:
- raise AddressValueError('Address cannot be empty')
- parts = ip_str.split(':')
- # An IPv6 address needs at least 2 colons (3 parts).
- _min_parts = 3
- if len(parts) < _min_parts:
- msg = "At least %d parts expected in %r" % (_min_parts, ip_str)
- raise AddressValueError(msg)
- # If the address has an IPv4-style suffix, convert it to hexadecimal.
- if '.' in parts[-1]:
- try:
- ipv4_int = IPv4Address(parts.pop())._ip
- except AddressValueError as exc:
- raise AddressValueError("%s in %r" % (exc, ip_str)) from None
- parts.append('%x' % ((ipv4_int >> 16) & 0xFFFF))
- parts.append('%x' % (ipv4_int & 0xFFFF))
- # An IPv6 address can't have more than 8 colons (9 parts).
- # The extra colon comes from using the "::" notation for a single
- # leading or trailing zero part.
- _max_parts = cls._HEXTET_COUNT + 1
- if len(parts) > _max_parts:
- msg = "At most %d colons permitted in %r" % (_max_parts-1, ip_str)
- raise AddressValueError(msg)
- # Disregarding the endpoints, find '::' with nothing in between.
- # This indicates that a run of zeroes has been skipped.
- skip_index = None
- for i in range(1, len(parts) - 1):
- if not parts[i]:
- if skip_index is not None:
- # Can't have more than one '::'
- msg = "At most one '::' permitted in %r" % ip_str
- raise AddressValueError(msg)
- skip_index = i
- # parts_hi is the number of parts to copy from above/before the '::'
- # parts_lo is the number of parts to copy from below/after the '::'
- if skip_index is not None:
- # If we found a '::', then check if it also covers the endpoints.
- parts_hi = skip_index
- parts_lo = len(parts) - skip_index - 1
- if not parts[0]:
- parts_hi -= 1
- if parts_hi:
- msg = "Leading ':' only permitted as part of '::' in %r"
- raise AddressValueError(msg % ip_str) # ^: requires ^::
- if not parts[-1]:
- parts_lo -= 1
- if parts_lo:
- msg = "Trailing ':' only permitted as part of '::' in %r"
- raise AddressValueError(msg % ip_str) # :$ requires ::$
- parts_skipped = cls._HEXTET_COUNT - (parts_hi + parts_lo)
- if parts_skipped < 1:
- msg = "Expected at most %d other parts with '::' in %r"
- raise AddressValueError(msg % (cls._HEXTET_COUNT-1, ip_str))
- else:
- # Otherwise, allocate the entire address to parts_hi. The
- # endpoints could still be empty, but _parse_hextet() will check
- # for that.
- if len(parts) != cls._HEXTET_COUNT:
- msg = "Exactly %d parts expected without '::' in %r"
- raise AddressValueError(msg % (cls._HEXTET_COUNT, ip_str))
- if not parts[0]:
- msg = "Leading ':' only permitted as part of '::' in %r"
- raise AddressValueError(msg % ip_str) # ^: requires ^::
- if not parts[-1]:
- msg = "Trailing ':' only permitted as part of '::' in %r"
- raise AddressValueError(msg % ip_str) # :$ requires ::$
- parts_hi = len(parts)
- parts_lo = 0
- parts_skipped = 0
- try:
- # Now, parse the hextets into a 128-bit integer.
- ip_int = 0
- for i in range(parts_hi):
- ip_int <<= 16
- ip_int |= cls._parse_hextet(parts[i])
- ip_int <<= 16 * parts_skipped
- for i in range(-parts_lo, 0):
- ip_int <<= 16
- ip_int |= cls._parse_hextet(parts[i])
- return ip_int
- except ValueError as exc:
- raise AddressValueError("%s in %r" % (exc, ip_str)) from None
- @classmethod
- def _parse_hextet(cls, hextet_str):
- """Convert an IPv6 hextet string into an integer.
- Args:
- hextet_str: A string, the number to parse.
- Returns:
- The hextet as an integer.
- Raises:
- ValueError: if the input isn't strictly a hex number from
- [0..FFFF].
- """
- # Reject non-ASCII digits.
- if not cls._HEX_DIGITS.issuperset(hextet_str):
- raise ValueError("Only hex digits permitted in %r" % hextet_str)
- # We do the length check second, since the invalid character error
- # is likely to be more informative for the user
- if len(hextet_str) > 4:
- msg = "At most 4 characters permitted in %r"
- raise ValueError(msg % hextet_str)
- # Length check means we can skip checking the integer value
- return int(hextet_str, 16)
- @classmethod
- def _compress_hextets(cls, hextets):
- """Compresses a list of hextets.
- Compresses a list of strings, replacing the longest continuous
- sequence of "0" in the list with "" and adding empty strings at
- the beginning or at the end of the string such that subsequently
- calling ":".join(hextets) will produce the compressed version of
- the IPv6 address.
- Args:
- hextets: A list of strings, the hextets to compress.
- Returns:
- A list of strings.
- """
- best_doublecolon_start = -1
- best_doublecolon_len = 0
- doublecolon_start = -1
- doublecolon_len = 0
- for index, hextet in enumerate(hextets):
- if hextet == '0':
- doublecolon_len += 1
- if doublecolon_start == -1:
- # Start of a sequence of zeros.
- doublecolon_start = index
- if doublecolon_len > best_doublecolon_len:
- # This is the longest sequence of zeros so far.
- best_doublecolon_len = doublecolon_len
- best_doublecolon_start = doublecolon_start
- else:
- doublecolon_len = 0
- doublecolon_start = -1
- if best_doublecolon_len > 1:
- best_doublecolon_end = (best_doublecolon_start +
- best_doublecolon_len)
- # For zeros at the end of the address.
- if best_doublecolon_end == len(hextets):
- hextets += ['']
- hextets[best_doublecolon_start:best_doublecolon_end] = ['']
- # For zeros at the beginning of the address.
- if best_doublecolon_start == 0:
- hextets = [''] + hextets
- return hextets
- @classmethod
- def _string_from_ip_int(cls, ip_int=None):
- """Turns a 128-bit integer into hexadecimal notation.
- Args:
- ip_int: An integer, the IP address.
- Returns:
- A string, the hexadecimal representation of the address.
- Raises:
- ValueError: The address is bigger than 128 bits of all ones.
- """
- if ip_int is None:
- ip_int = int(cls._ip)
- if ip_int > cls._ALL_ONES:
- raise ValueError('IPv6 address is too large')
- hex_str = '%032x' % ip_int
- hextets = ['%x' % int(hex_str[x:x+4], 16) for x in range(0, 32, 4)]
- hextets = cls._compress_hextets(hextets)
- return ':'.join(hextets)
- def _explode_shorthand_ip_string(self):
- """Expand a shortened IPv6 address.
- Returns:
- A string, the expanded IPv6 address.
- """
- if isinstance(self, IPv6Network):
- ip_str = str(self.network_address)
- elif isinstance(self, IPv6Interface):
- ip_str = str(self.ip)
- else:
- ip_str = str(self)
- ip_int = self._ip_int_from_string(ip_str)
- hex_str = '%032x' % ip_int
- parts = [hex_str[x:x+4] for x in range(0, 32, 4)]
- if isinstance(self, (_BaseNetwork, IPv6Interface)):
- return '%s/%d' % (':'.join(parts), self._prefixlen)
- return ':'.join(parts)
- def _reverse_pointer(self):
- """Return the reverse DNS pointer name for the IPv6 address.
- This implements the method described in RFC3596 2.5.
- """
- reverse_chars = self.exploded[::-1].replace(':', '')
- return '.'.join(reverse_chars) + '.ip6.arpa'
- @staticmethod
- def _split_scope_id(ip_str):
- """Helper function to parse IPv6 string address with scope id.
- See RFC 4007 for details.
- Args:
- ip_str: A string, the IPv6 address.
- Returns:
- (addr, scope_id) tuple.
- """
- addr, sep, scope_id = ip_str.partition('%')
- if not sep:
- scope_id = None
- elif not scope_id or '%' in scope_id:
- raise AddressValueError('Invalid IPv6 address: "%r"' % ip_str)
- return addr, scope_id
- @property
- def max_prefixlen(self):
- return self._max_prefixlen
- @property
- def version(self):
- return self._version
- class IPv6Address(_BaseV6, _BaseAddress):
- """Represent and manipulate single IPv6 Addresses."""
- __slots__ = ('_ip', '_scope_id', '__weakref__')
- def __init__(self, address):
- """Instantiate a new IPv6 address object.
- Args:
- address: A string or integer representing the IP
- Additionally, an integer can be passed, so
- IPv6Address('2001:db8::') ==
- IPv6Address(42540766411282592856903984951653826560)
- or, more generally
- IPv6Address(int(IPv6Address('2001:db8::'))) ==
- IPv6Address('2001:db8::')
- Raises:
- AddressValueError: If address isn't a valid IPv6 address.
- """
- # Efficient constructor from integer.
- if isinstance(address, int):
- self._check_int_address(address)
- self._ip = address
- self._scope_id = None
- return
- # Constructing from a packed address
- if isinstance(address, bytes):
- self._check_packed_address(address, 16)
- self._ip = int.from_bytes(address, 'big')
- self._scope_id = None
- return
- # Assume input argument to be string or any object representation
- # which converts into a formatted IP string.
- addr_str = str(address)
- if '/' in addr_str:
- raise AddressValueError(f"Unexpected '/' in {address!r}")
- addr_str, self._scope_id = self._split_scope_id(addr_str)
- self._ip = self._ip_int_from_string(addr_str)
- def __str__(self):
- ip_str = super().__str__()
- return ip_str + '%' + self._scope_id if self._scope_id else ip_str
- def __hash__(self):
- return hash((self._ip, self._scope_id))
- def __eq__(self, other):
- address_equal = super().__eq__(other)
- if address_equal is NotImplemented:
- return NotImplemented
- if not address_equal:
- return False
- return self._scope_id == getattr(other, '_scope_id', None)
- def __reduce__(self):
- return (self.__class__, (str(self),))
- @property
- def scope_id(self):
- """Identifier of a particular zone of the address's scope.
- See RFC 4007 for details.
- Returns:
- A string identifying the zone of the address if specified, else None.
- """
- return self._scope_id
- @property
- def packed(self):
- """The binary representation of this address."""
- return v6_int_to_packed(self._ip)
- @property
- def is_multicast(self):
- """Test if the address is reserved for multicast use.
- Returns:
- A boolean, True if the address is a multicast address.
- See RFC 2373 2.7 for details.
- """
- return self in self._constants._multicast_network
- @property
- def is_reserved(self):
- """Test if the address is otherwise IETF reserved.
- Returns:
- A boolean, True if the address is within one of the
- reserved IPv6 Network ranges.
- """
- return any(self in x for x in self._constants._reserved_networks)
- @property
- def is_link_local(self):
- """Test if the address is reserved for link-local.
- Returns:
- A boolean, True if the address is reserved per RFC 4291.
- """
- return self in self._constants._linklocal_network
- @property
- def is_site_local(self):
- """Test if the address is reserved for site-local.
- Note that the site-local address space has been deprecated by RFC 3879.
- Use is_private to test if this address is in the space of unique local
- addresses as defined by RFC 4193.
- Returns:
- A boolean, True if the address is reserved per RFC 3513 2.5.6.
- """
- return self in self._constants._sitelocal_network
- @property
- @functools.lru_cache()
- def is_private(self):
- """``True`` if the address is defined as not globally reachable by
- iana-ipv4-special-registry_ (for IPv4) or iana-ipv6-special-registry_
- (for IPv6) with the following exceptions:
- * ``is_private`` is ``False`` for ``100.64.0.0/10``
- * For IPv4-mapped IPv6-addresses the ``is_private`` value is determined by the
- semantics of the underlying IPv4 addresses and the following condition holds
- (see :attr:`IPv6Address.ipv4_mapped`)::
- address.is_private == address.ipv4_mapped.is_private
- ``is_private`` has value opposite to :attr:`is_global`, except for the ``100.64.0.0/10``
- IPv4 range where they are both ``False``.
- """
- ipv4_mapped = self.ipv4_mapped
- if ipv4_mapped is not None:
- return ipv4_mapped.is_private
- return (
- any(self in net for net in self._constants._private_networks)
- and all(self not in net for net in self._constants._private_networks_exceptions)
- )
- @property
- def is_global(self):
- """``True`` if the address is defined as globally reachable by
- iana-ipv4-special-registry_ (for IPv4) or iana-ipv6-special-registry_
- (for IPv6) with the following exception:
- For IPv4-mapped IPv6-addresses the ``is_private`` value is determined by the
- semantics of the underlying IPv4 addresses and the following condition holds
- (see :attr:`IPv6Address.ipv4_mapped`)::
- address.is_global == address.ipv4_mapped.is_global
- ``is_global`` has value opposite to :attr:`is_private`, except for the ``100.64.0.0/10``
- IPv4 range where they are both ``False``.
- """
- return not self.is_private
- @property
- def is_unspecified(self):
- """Test if the address is unspecified.
- Returns:
- A boolean, True if this is the unspecified address as defined in
- RFC 2373 2.5.2.
- """
- return self._ip == 0
- @property
- def is_loopback(self):
- """Test if the address is a loopback address.
- Returns:
- A boolean, True if the address is a loopback address as defined in
- RFC 2373 2.5.3.
- """
- ipv4_mapped = self.ipv4_mapped
- if ipv4_mapped is not None:
- return ipv4_mapped.is_loopback
- return self._ip == 1
- @property
- def ipv4_mapped(self):
- """Return the IPv4 mapped address.
- Returns:
- If the IPv6 address is a v4 mapped address, return the
- IPv4 mapped address. Return None otherwise.
- """
- if (self._ip >> 32) != 0xFFFF:
- return None
- return IPv4Address(self._ip & 0xFFFFFFFF)
- @property
- def teredo(self):
- """Tuple of embedded teredo IPs.
- Returns:
- Tuple of the (server, client) IPs or None if the address
- doesn't appear to be a teredo address (doesn't start with
- 2001::/32)
- """
- if (self._ip >> 96) != 0x20010000:
- return None
- return (IPv4Address((self._ip >> 64) & 0xFFFFFFFF),
- IPv4Address(~self._ip & 0xFFFFFFFF))
- @property
- def sixtofour(self):
- """Return the IPv4 6to4 embedded address.
- Returns:
- The IPv4 6to4-embedded address if present or None if the
- address doesn't appear to contain a 6to4 embedded address.
- """
- if (self._ip >> 112) != 0x2002:
- return None
- return IPv4Address((self._ip >> 80) & 0xFFFFFFFF)
- class IPv6Interface(IPv6Address):
- def __init__(self, address):
- addr, mask = self._split_addr_prefix(address)
- IPv6Address.__init__(self, addr)
- self.network = IPv6Network((addr, mask), strict=False)
- self.netmask = self.network.netmask
- self._prefixlen = self.network._prefixlen
- @functools.cached_property
- def hostmask(self):
- return self.network.hostmask
- def __str__(self):
- return '%s/%d' % (super().__str__(),
- self._prefixlen)
- def __eq__(self, other):
- address_equal = IPv6Address.__eq__(self, other)
- if address_equal is NotImplemented or not address_equal:
- return address_equal
- try:
- return self.network == other.network
- except AttributeError:
- # An interface with an associated network is NOT the
- # same as an unassociated address. That's why the hash
- # takes the extra info into account.
- return False
- def __lt__(self, other):
- address_less = IPv6Address.__lt__(self, other)
- if address_less is NotImplemented:
- return address_less
- try:
- return (self.network < other.network or
- self.network == other.network and address_less)
- except AttributeError:
- # We *do* allow addresses and interfaces to be sorted. The
- # unassociated address is considered less than all interfaces.
- return False
- def __hash__(self):
- return hash((self._ip, self._prefixlen, int(self.network.network_address)))
- __reduce__ = _IPAddressBase.__reduce__
- @property
- def ip(self):
- return IPv6Address(self._ip)
- @property
- def with_prefixlen(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self._prefixlen)
- @property
- def with_netmask(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self.netmask)
- @property
- def with_hostmask(self):
- return '%s/%s' % (self._string_from_ip_int(self._ip),
- self.hostmask)
- @property
- def is_unspecified(self):
- return self._ip == 0 and self.network.is_unspecified
- @property
- def is_loopback(self):
- return super().is_loopback and self.network.is_loopback
- class IPv6Network(_BaseV6, _BaseNetwork):
- """This class represents and manipulates 128-bit IPv6 networks.
- Attributes: [examples for IPv6('2001:db8::1000/124')]
- .network_address: IPv6Address('2001:db8::1000')
- .hostmask: IPv6Address('::f')
- .broadcast_address: IPv6Address('2001:db8::100f')
- .netmask: IPv6Address('ffff:ffff:ffff:ffff:ffff:ffff:ffff:fff0')
- .prefixlen: 124
- """
- # Class to use when creating address objects
- _address_class = IPv6Address
- def __init__(self, address, strict=True):
- """Instantiate a new IPv6 Network object.
- Args:
- address: A string or integer representing the IPv6 network or the
- IP and prefix/netmask.
- '2001:db8::/128'
- '2001:db8:0000:0000:0000:0000:0000:0000/128'
- '2001:db8::'
- are all functionally the same in IPv6. That is to say,
- failing to provide a subnetmask will create an object with
- a mask of /128.
- Additionally, an integer can be passed, so
- IPv6Network('2001:db8::') ==
- IPv6Network(42540766411282592856903984951653826560)
- or, more generally
- IPv6Network(int(IPv6Network('2001:db8::'))) ==
- IPv6Network('2001:db8::')
- strict: A boolean. If true, ensure that we have been passed
- A true network address, eg, 2001:db8::1000/124 and not an
- IP address on a network, eg, 2001:db8::1/124.
- Raises:
- AddressValueError: If address isn't a valid IPv6 address.
- NetmaskValueError: If the netmask isn't valid for
- an IPv6 address.
- ValueError: If strict was True and a network address was not
- supplied.
- """
- addr, mask = self._split_addr_prefix(address)
- self.network_address = IPv6Address(addr)
- self.netmask, self._prefixlen = self._make_netmask(mask)
- packed = int(self.network_address)
- if packed & int(self.netmask) != packed:
- if strict:
- raise ValueError('%s has host bits set' % self)
- else:
- self.network_address = IPv6Address(packed &
- int(self.netmask))
- if self._prefixlen == (self._max_prefixlen - 1):
- self.hosts = self.__iter__
- elif self._prefixlen == self._max_prefixlen:
- self.hosts = lambda: [IPv6Address(addr)]
- def hosts(self):
- """Generate Iterator over usable hosts in a network.
- This is like __iter__ except it doesn't return the
- Subnet-Router anycast address.
- """
- network = int(self.network_address)
- broadcast = int(self.broadcast_address)
- for x in range(network + 1, broadcast + 1):
- yield self._address_class(x)
- @property
- def is_site_local(self):
- """Test if the address is reserved for site-local.
- Note that the site-local address space has been deprecated by RFC 3879.
- Use is_private to test if this address is in the space of unique local
- addresses as defined by RFC 4193.
- Returns:
- A boolean, True if the address is reserved per RFC 3513 2.5.6.
- """
- return (self.network_address.is_site_local and
- self.broadcast_address.is_site_local)
- class _IPv6Constants:
- _linklocal_network = IPv6Network('fe80::/10')
- _multicast_network = IPv6Network('ff00::/8')
- # Not globally reachable address blocks listed on
- # https://www.iana.org/assignments/iana-ipv6-special-registry/iana-ipv6-special-registry.xhtml
- _private_networks = [
- IPv6Network('::1/128'),
- IPv6Network('::/128'),
- IPv6Network('::ffff:0:0/96'),
- IPv6Network('64:ff9b:1::/48'),
- IPv6Network('100::/64'),
- IPv6Network('2001::/23'),
- IPv6Network('2001:db8::/32'),
- # IANA says N/A, let's consider it not globally reachable to be safe
- IPv6Network('2002::/16'),
- IPv6Network('fc00::/7'),
- IPv6Network('fe80::/10'),
- ]
- _private_networks_exceptions = [
- IPv6Network('2001:1::1/128'),
- IPv6Network('2001:1::2/128'),
- IPv6Network('2001:3::/32'),
- IPv6Network('2001:4:112::/48'),
- IPv6Network('2001:20::/28'),
- IPv6Network('2001:30::/28'),
- ]
- _reserved_networks = [
- IPv6Network('::/8'), IPv6Network('100::/8'),
- IPv6Network('200::/7'), IPv6Network('400::/6'),
- IPv6Network('800::/5'), IPv6Network('1000::/4'),
- IPv6Network('4000::/3'), IPv6Network('6000::/3'),
- IPv6Network('8000::/3'), IPv6Network('A000::/3'),
- IPv6Network('C000::/3'), IPv6Network('E000::/4'),
- IPv6Network('F000::/5'), IPv6Network('F800::/6'),
- IPv6Network('FE00::/9'),
- ]
- _sitelocal_network = IPv6Network('fec0::/10')
- IPv6Address._constants = _IPv6Constants
- IPv6Network._constants = _IPv6Constants
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