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ipaddr.py
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ipaddr.py
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#!/usr/bin/python
#
# Copyright 2007 Google Inc.
# Licensed to PSF under a Contributor Agreement.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied. See the License for the specific language governing
# permissions and limitations under the License.
"""A fast, lightweight IPv4/IPv6 manipulation library in Python.
This library is used to create/poke/manipulate IPv4 and IPv6 addresses
and networks.
"""
__version__ = '2.1.11py3.2'
long = int
xrange = range
import struct
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 IPAddress(address, version=None):
"""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.
version: An Integer, 4 or 6. If set, don't try to automatically
determine what the IP address type is. important for things
like IPAddress(1), which could be IPv4, '0.0.0.1', or IPv6,
'::1'.
Returns:
An IPv4Address or IPv6Address object.
Raises:
ValueError: if the string passed isn't either a v4 or a v6
address.
"""
if version:
if version == 4:
return IPv4Address(address)
elif version == 6:
return IPv6Address(address)
try:
return IPv4Address(address)
except (AddressValueError, NetmaskValueError):
pass
try:
return IPv6Address(address)
except (AddressValueError, NetmaskValueError):
pass
raise ValueError('%r does not appear to be an IPv4 or IPv6 address' %
address)
def IPNetwork(address, version=None, strict=False):
"""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.
version: An Integer, if set, don't try to automatically
determine what the IP address type is. important for things
like IPNetwork(1), which could be IPv4, '0.0.0.1/32', or IPv6,
'::1/128'.
Returns:
An IPv4Network or IPv6Network object.
Raises:
ValueError: if the string passed isn't either a v4 or a v6
address. Or if a strict network was requested and a strict
network wasn't given.
"""
if version:
if version == 4:
return IPv4Network(address, strict)
elif version == 6:
return IPv6Network(address, strict)
try:
return IPv4Network(address, strict)
except (AddressValueError, NetmaskValueError):
pass
try:
return IPv6Network(address, strict)
except (AddressValueError, NetmaskValueError):
pass
raise ValueError('%r does not appear to be an IPv4 or IPv6 network' %
address)
def v4_int_to_packed(address):
"""The binary representation of this address.
Args:
address: An integer representation of an IPv4 IP address.
Returns:
The binary representation of this address.
Raises:
ValueError: If the integer is too large to be an IPv4 IP
address.
"""
if address > _BaseV4._ALL_ONES:
raise ValueError('Address too large for IPv4')
return Bytes(struct.pack('!I', address))
def v6_int_to_packed(address):
"""The binary representation of this address.
Args:
address: An integer representation of an IPv6 IP address.
Returns:
The binary representation of this address.
"""
return Bytes(struct.pack('!QQ', address >> 64, address & (2**64 - 1)))
def _find_address_range(addresses):
"""Find a sequence of addresses.
Args:
addresses: a list of IPv4 or IPv6 addresses.
Returns:
A tuple containing the first and last IP addresses in the sequence.
"""
first = last = addresses[0]
for ip in addresses[1:]:
if ip._ip == last._ip + 1:
last = ip
else:
break
return (first, last)
def _get_prefix_length(number1, number2, bits):
"""Get the number of leading bits that are same for two numbers.
Args:
number1: an integer.
number2: another integer.
bits: the maximum number of bits to compare.
Returns:
The number of leading bits that are the same for two numbers.
"""
for i in range(bits):
if number1 >> i == number2 >> i:
return bits - i
return 0
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
for i in range(bits):
if (number >> i) % 2:
return i
def summarize_address_range(first, last):
"""Summarize a network range given the first and last IP addresses.
Example:
>>> summarize_address_range(IPv4Address('1.1.1.0'),
IPv4Address('1.1.1.130'))
[IPv4Network('1.1.1.0/25'), IPv4Network('1.1.1.128/31'),
IPv4Network('1.1.1.130/32')]
Args:
first: the first IPv4Address or IPv6Address in the range.
last: the last IPv4Address or IPv6Address in the range.
Returns:
The address range collapsed to a list of IPv4Network's or
IPv6Network's.
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 is not 4 or 6.
"""
if not (isinstance(first, _BaseIP) and isinstance(last, _BaseIP)):
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" % (
str(first), str(last)))
if first > last:
raise ValueError('last IP address must be greater than first')
networks = []
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 = _count_righthand_zero_bits(first_int, ip_bits)
current = None
while nbits >= 0:
addend = 2**nbits - 1
current = first_int + addend
nbits -= 1
if current <= last_int:
break
prefix = _get_prefix_length(first_int, current, ip_bits)
net = ip('%s/%d' % (str(first), prefix))
networks.append(net)
if current == ip._ALL_ONES:
break
first_int = current + 1
first = IPAddress(first_int, version=first._version)
return networks
def _collapse_address_list_recursive(addresses):
"""Loops through the addresses, collapsing concurrent netblocks.
Example:
ip1 = IPv4Network('1.1.0.0/24')
ip2 = IPv4Network('1.1.1.0/24')
ip3 = IPv4Network('1.1.2.0/24')
ip4 = IPv4Network('1.1.3.0/24')
ip5 = IPv4Network('1.1.4.0/24')
ip6 = IPv4Network('1.1.0.1/22')
_collapse_address_list_recursive([ip1, ip2, ip3, ip4, ip5, ip6]) ->
[IPv4Network('1.1.0.0/22'), IPv4Network('1.1.4.0/24')]
This shouldn't be called directly; it is called via
collapse_address_list([]).
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.
"""
ret_array = []
optimized = False
for cur_addr in addresses:
if not ret_array:
ret_array.append(cur_addr)
continue
if cur_addr in ret_array[-1]:
optimized = True
elif cur_addr == ret_array[-1].supernet().subnet()[1]:
ret_array.append(ret_array.pop().supernet())
optimized = True
else:
ret_array.append(cur_addr)
if optimized:
return _collapse_address_list_recursive(ret_array)
return ret_array
def collapse_address_list(addresses):
"""Collapse a list of IP objects.
Example:
collapse_address_list([IPv4('1.1.0.0/24'), IPv4('1.1.1.0/24')]) ->
[IPv4('1.1.0.0/23')]
Args:
addresses: A list of IPv4Network or IPv6Network objects.
Returns:
A list of IPv4Network or IPv6Network objects depending on what we
were passed.
Raises:
TypeError: If passed a list of mixed version objects.
"""
i = 0
addrs = []
ips = []
nets = []
# split IP addresses and networks
for ip in addresses:
if isinstance(ip, _BaseIP):
if ips and ips[-1]._version != ip._version:
raise TypeError("%s and %s are not of the same version" % (
str(ip), str(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" % (
str(ip), str(ips[-1])))
ips.append(ip.ip)
else:
if nets and nets[-1]._version != ip._version:
raise TypeError("%s and %s are not of the same version" % (
str(ip), str(nets[-1])))
nets.append(ip)
# sort and dedup
ips = sorted(set(ips))
nets = sorted(set(nets))
while i < len(ips):
(first, last) = _find_address_range(ips[i:])
i = ips.index(last) + 1
addrs.extend(summarize_address_range(first, last))
return _collapse_address_list_recursive(sorted(
addrs + nets, key=_BaseNet._get_networks_key))
# backwards compatibility
CollapseAddrList = collapse_address_list
# We need to distinguish between the string and packed-bytes representations
# of an IP address. For example, b'0::1' is the IPv4 address 48.58.58.49,
# while '0::1' is an IPv6 address.
#
# In Python 3, the native 'bytes' type already provides this functionality,
# so we use it directly. For earlier implementations where bytes is not a
# distinct type, we create a subclass of str to serve as a tag.
#
# Usage example (Python 2):
# ip = ipaddr.IPAddress(ipaddr.Bytes('xxxx'))
#
# Usage example (Python 3):
# ip = ipaddr.IPAddress(b'xxxx')
try:
if bytes is str:
raise TypeError("bytes is not a distinct type")
Bytes = bytes
except (NameError, TypeError):
class Bytes(str):
def __repr__(self):
return 'Bytes(%s)' % str.__repr__(self)
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('1.1.1.1') <= IPv4Network('1.1.1.1/24')
doesn't make any sense. There are some times however, where you may wish
to have ipaddr 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, _BaseNet):
return obj._get_networks_key()
elif isinstance(obj, _BaseIP):
return obj._get_address_key()
return NotImplemented
class _IPAddrBase(object):
"""The mother class."""
def __index__(self):
return self._ip
def __int__(self):
return self._ip
def __hex__(self):
return hex(self._ip)
@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)
class _BaseIP(_IPAddrBase):
"""A generic IP object.
This IP class contains the version independent methods which are
used by single IP addresses.
"""
def __eq__(self, other):
try:
return (self._ip == other._ip
and self._version == other._version)
except AttributeError:
return NotImplemented
def __ne__(self, other):
eq = self.__eq__(other)
if eq is NotImplemented:
return NotImplemented
return not eq
def __le__(self, other):
gt = self.__gt__(other)
if gt is NotImplemented:
return NotImplemented
return not gt
def __ge__(self, other):
lt = self.__lt__(other)
if lt is NotImplemented:
return NotImplemented
return not lt
def __lt__(self, other):
if self._version != other._version:
raise TypeError('%s and %s are not of the same version' % (
str(self), str(other)))
if not isinstance(other, _BaseIP):
raise TypeError('%s and %s are not of the same type' % (
str(self), str(other)))
if self._ip != other._ip:
return self._ip < other._ip
return False
def __gt__(self, other):
if self._version != other._version:
raise TypeError('%s and %s are not of the same version' % (
str(self), str(other)))
if not isinstance(other, _BaseIP):
raise TypeError('%s and %s are not of the same type' % (
str(self), str(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 IPAddress(int(self) + other, version=self._version)
def __sub__(self, other):
if not isinstance(other, int):
return NotImplemented
return IPAddress(int(self) - other, version=self._version)
def __repr__(self):
return '%s(%r)' % (self.__class__.__name__, str(self))
def __str__(self):
return '%s' % self._string_from_ip_int(self._ip)
def __hash__(self):
return hash(hex(long(self._ip)))
def _get_address_key(self):
return (self._version, self)
@property
def version(self):
raise NotImplementedError('BaseIP has no version')
class _BaseNet(_IPAddrBase):
"""A generic IP object.
This IP class contains the version independent methods which are
used by networks.
"""
def __init__(self, address):
self._cache = {}
def __repr__(self):
return '%s(%r)' % (self.__class__.__name__, str(self))
def iterhosts(self):
"""Generate Iterator over usable hosts in a network.
This is like __iter__ except it doesn't return the network
or broadcast addresses.
"""
cur = int(self.network) + 1
bcast = int(self.broadcast) - 1
while cur <= bcast:
cur += 1
yield IPAddress(cur - 1, version=self._version)
def __iter__(self):
cur = int(self.network)
bcast = int(self.broadcast)
while cur <= bcast:
cur += 1
yield IPAddress(cur - 1, version=self._version)
def __getitem__(self, n):
network = int(self.network)
broadcast = int(self.broadcast)
if n >= 0:
if network + n > broadcast:
raise IndexError
return IPAddress(network + n, version=self._version)
else:
n += 1
if broadcast + n < network:
raise IndexError
return IPAddress(broadcast + n, version=self._version)
def __lt__(self, other):
if self._version != other._version:
raise TypeError('%s and %s are not of the same version' % (
str(self), str(other)))
if not isinstance(other, _BaseNet):
raise TypeError('%s and %s are not of the same type' % (
str(self), str(other)))
if self.network != other.network:
return self.network < other.network
if self.netmask != other.netmask:
return self.netmask < other.netmask
return False
def __gt__(self, other):
if self._version != other._version:
raise TypeError('%s and %s are not of the same version' % (
str(self), str(other)))
if not isinstance(other, _BaseNet):
raise TypeError('%s and %s are not of the same type' % (
str(self), str(other)))
if self.network != other.network:
return self.network > other.network
if self.netmask != other.netmask:
return self.netmask > other.netmask
return False
def __le__(self, other):
gt = self.__gt__(other)
if gt is NotImplemented:
return NotImplemented
return not gt
def __ge__(self, other):
lt = self.__lt__(other)
if lt is NotImplemented:
return NotImplemented
return not lt
def __eq__(self, other):
try:
return (self._version == other._version
and self.network == other.network
and int(self.netmask) == int(other.netmask))
except AttributeError:
if isinstance(other, _BaseIP):
return (self._version == other._version
and self._ip == other._ip)
def __ne__(self, other):
eq = self.__eq__(other)
if eq is NotImplemented:
return NotImplemented
return not eq
def __str__(self):
return '%s/%s' % (str(self.ip),
str(self._prefixlen))
def __hash__(self):
return hash(int(self.network) ^ 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, _BaseNet):
return (self.network <= other.network and
self.broadcast >= other.broadcast)
# dealing with another address
else:
return (int(self.network) <= int(other._ip) <=
int(self.broadcast))
def overlaps(self, other):
"""Tell if self is partly contained in other."""
return self.network in other or self.broadcast in other or (
other.network in self or other.broadcast in self)
@property
def network(self):
x = self._cache.get('network')
if x is None:
x = IPAddress(self._ip & int(self.netmask), version=self._version)
self._cache['network'] = x
return x
@property
def broadcast(self):
x = self._cache.get('broadcast')
if x is None:
x = IPAddress(self._ip | int(self.hostmask), version=self._version)
self._cache['broadcast'] = x
return x
@property
def hostmask(self):
x = self._cache.get('hostmask')
if x is None:
x = IPAddress(int(self.netmask) ^ self._ALL_ONES,
version=self._version)
self._cache['hostmask'] = x
return x
@property
def with_prefixlen(self):
return '%s/%d' % (str(self.ip), self._prefixlen)
@property
def with_netmask(self):
return '%s/%s' % (str(self.ip), str(self.netmask))
@property
def with_hostmask(self):
return '%s/%s' % (str(self.ip), str(self.hostmask))
@property
def numhosts(self):
"""Number of hosts in the current subnet."""
return int(self.broadcast) - int(self.network) + 1
@property
def version(self):
raise NotImplementedError('BaseNet has no version')
@property
def prefixlen(self):
return self._prefixlen
def address_exclude(self, other):
"""Remove an address from a larger block.
For example:
addr1 = IPNetwork('10.1.1.0/24')
addr2 = IPNetwork('10.1.1.0/26')
addr1.address_exclude(addr2) =
[IPNetwork('10.1.1.64/26'), IPNetwork('10.1.1.128/25')]
or IPv6:
addr1 = IPNetwork('::1/32')
addr2 = IPNetwork('::1/128')
addr1.address_exclude(addr2) = [IPNetwork('::0/128'),
IPNetwork('::2/127'),
IPNetwork('::4/126'),
IPNetwork('::8/125'),
...
IPNetwork('0:0:8000::/33')]
Args:
other: An IPvXNetwork object of the same type.
Returns:
A sorted list of IPvXNetwork objects addresses which is self
minus other.
Raises:
TypeError: If self and other are of difffering 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" % (
str(self), str(other)))
if not isinstance(other, _BaseNet):
raise TypeError("%s is not a network object" % str(other))
if other not in self:
raise ValueError('%s not contained in %s' % (str(other),
str(self)))
if other == self:
return []
ret_addrs = []
# Make sure we're comparing the network of other.
other = IPNetwork('%s/%s' % (str(other.network), str(other.prefixlen)),
version=other._version)
s1, s2 = self.subnet()
while s1 != other and s2 != other:
if other in s1:
ret_addrs.append(s2)
s1, s2 = s1.subnet()
elif other in s2:
ret_addrs.append(s1)
s1, s2 = s2.subnet()
else:
# If we got here, there's a bug somewhere.
assert True == False, ('Error performing exclusion: '
's1: %s s2: %s other: %s' %
(str(s1), str(s2), str(other)))
if s1 == other:
ret_addrs.append(s2)
elif s2 == other:
ret_addrs.append(s1)
else:
# If we got here, there's a bug somewhere.
assert True == False, ('Error performing exclusion: '
's1: %s s2: %s other: %s' %
(str(s1), str(s2), str(other)))
return sorted(ret_addrs, key=_BaseNet._get_networks_key)
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: IPv4('1.1.1.0/24') < IPv4('1.1.2.0/24')
IPv6('1080::200C:417A') < IPv6('1080::200B:417B')
0 if self == other
eg: IPv4('1.1.1.1/24') == IPv4('1.1.1.2/24')
IPv6('1080::200C:417A/96') == IPv6('1080::200C:417B/96')
1 if self > other
eg: IPv4('1.1.1.0/24') > IPv4('1.1.0.0/24')
IPv6('1080::1:200C:417A/112') >
IPv6('1080::0:200C:417A/112')
If the IP versions of self and other are different, returns:
-1 if self._version < other._version
eg: IPv4('10.0.0.1/24') < IPv6('::1/128')
1 if self._version > other._version
eg: IPv6('::1/128') > IPv4('255.255.255.0/24')
"""
if self._version < other._version:
return -1
if self._version > other._version:
return 1
# self._version == other._version below here:
if self.network < other.network:
return -1
if self.network > other.network:
return 1
# self.network == other.network below here:
if self.netmask < other.netmask:
return -1
if self.netmask > other.netmask:
return 1
# self.network == other.network and self.netmask == other.netmask
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, self.netmask)
def _ip_int_from_prefix(self, prefixlen):
"""Turn the prefix length into a bitwise netmask.
Args:
prefixlen: An integer, the prefix length.
Returns:
An integer.
"""
return self._ALL_ONES ^ (self._ALL_ONES >> prefixlen)
def _prefix_from_ip_int(self, ip_int):
"""Return prefix length from a bitwise netmask.
Args:
ip_int: An integer, the netmask in expanded bitwise format.
Returns:
An integer, the prefix length.
Raises:
NetmaskValueError: If the input is not a valid netmask.
"""
prefixlen = self._max_prefixlen
while prefixlen:
if ip_int & 1:
break
ip_int >>= 1
prefixlen -= 1
if ip_int == (1 << prefixlen) - 1:
return prefixlen
else:
raise NetmaskValueError('Bit pattern does not match /1*0*/')
def _prefix_from_prefix_int(self, prefixlen):
"""Validate and return a prefix length integer.
Args:
prefixlen: An integer containing the prefix length.
Returns:
The input, possibly converted from long to int.
Raises:
NetmaskValueError: If the input is not an integer, or out of range.
"""
if not isinstance(prefixlen, (int, long)):
raise NetmaskValueError('%r is not an integer' % prefixlen)
prefixlen = int(prefixlen)
if not (0 <= prefixlen <= self._max_prefixlen):
raise NetmaskValueError('%d is not a valid prefix length' %
prefixlen)
return prefixlen
def _prefix_from_prefix_string(self, prefixlen_str):
"""Turn a prefix length string into an integer.
Args:
prefixlen_str: A decimal string containing the prefix length.
Returns:
The prefix length as an integer.
Raises:
NetmaskValueError: If the input is malformed or out of range.
"""
try:
if not _BaseV4._DECIMAL_DIGITS.issuperset(prefixlen_str):
raise ValueError
prefixlen = int(prefixlen_str)
except ValueError:
raise NetmaskValueError('%s is not a valid prefix length' %
prefixlen_str)
return self._prefix_from_prefix_int(prefixlen)
def _prefix_from_ip_string(self, ip_str):
"""Turn a netmask/hostmask string into a prefix length.
Args:
ip_str: A netmask or hostmask, formatted as an IP address.
Returns:
The prefix length as an integer.
Raises:
NetmaskValueError: If the input is not a netmask or hostmask.
"""
# Parse the netmask/hostmask like an IP address.
try:
ip_int = self._ip_int_from_string(ip_str)
except AddressValueError:
raise NetmaskValueError('%s is not a valid 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 self._prefix_from_ip_int(ip_int)
except NetmaskValueError:
pass
# Invert the bits, and try matching a /0+1+/ hostmask instead.
ip_int ^= self._ALL_ONES
try:
return self._prefix_from_ip_int(ip_int)
except NetmaskValueError:
raise NetmaskValueError('%s is not a valid netmask' % ip_str)
def iter_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), return a list 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(