313 lines
10 KiB
Python
313 lines
10 KiB
Python
#-----------------------------------------------------------------------------
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# Copyright (c) 2008 by David P. D. Moss. All rights reserved.
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#
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# Released under the BSD license. See the LICENSE file for details.
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#-----------------------------------------------------------------------------
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"""
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Routines and classes for supporting and expressing IP address ranges using a
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glob style syntax.
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"""
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from netaddr.core import AddrFormatError, AddrConversionError
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from netaddr.ip import IPRange, IPAddress, IPNetwork, iprange_to_cidrs
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from netaddr.compat import _is_str
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def valid_glob(ipglob):
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"""
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:param ipglob: An IP address range in a glob-style format.
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:return: ``True`` if IP range glob is valid, ``False`` otherwise.
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"""
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#TODO: Add support for abbreviated ipglobs.
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#TODO: e.g. 192.0.*.* == 192.0.*
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#TODO: *.*.*.* == *
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#TODO: Add strict flag to enable verbose ipglob checking.
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if not _is_str(ipglob):
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return False
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seen_hyphen = False
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seen_asterisk = False
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octets = ipglob.split('.')
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if len(octets) != 4:
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return False
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for octet in octets:
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if '-' in octet:
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if seen_hyphen:
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return False
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seen_hyphen = True
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if seen_asterisk:
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# Asterisks cannot precede hyphenated octets.
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return False
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try:
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(octet1, octet2) = [int(i) for i in octet.split('-')]
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except ValueError:
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return False
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if octet1 >= octet2:
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return False
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if not 0 <= octet1 <= 254:
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return False
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if not 1 <= octet2 <= 255:
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return False
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elif octet == '*':
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seen_asterisk = True
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else:
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if seen_hyphen is True:
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return False
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if seen_asterisk is True:
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return False
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try:
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if not 0 <= int(octet) <= 255:
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return False
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except ValueError:
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return False
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return True
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def glob_to_iptuple(ipglob):
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"""
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A function that accepts a glob-style IP range and returns the component
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lower and upper bound IP address.
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:param ipglob: an IP address range in a glob-style format.
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:return: a tuple contain lower and upper bound IP objects.
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"""
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if not valid_glob(ipglob):
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raise AddrFormatError('not a recognised IP glob range: %r!' % (ipglob,))
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start_tokens = []
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end_tokens = []
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for octet in ipglob.split('.'):
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if '-' in octet:
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tokens = octet.split('-')
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start_tokens.append(tokens[0])
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end_tokens.append(tokens[1])
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elif octet == '*':
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start_tokens.append('0')
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end_tokens.append('255')
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else:
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start_tokens.append(octet)
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end_tokens.append(octet)
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return IPAddress('.'.join(start_tokens)), IPAddress('.'.join(end_tokens))
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def glob_to_iprange(ipglob):
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"""
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A function that accepts a glob-style IP range and returns the equivalent
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IP range.
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:param ipglob: an IP address range in a glob-style format.
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:return: an IPRange object.
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"""
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if not valid_glob(ipglob):
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raise AddrFormatError('not a recognised IP glob range: %r!' % (ipglob,))
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start_tokens = []
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end_tokens = []
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for octet in ipglob.split('.'):
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if '-' in octet:
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tokens = octet.split('-')
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start_tokens.append(tokens[0])
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end_tokens.append(tokens[1])
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elif octet == '*':
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start_tokens.append('0')
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end_tokens.append('255')
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else:
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start_tokens.append(octet)
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end_tokens.append(octet)
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return IPRange('.'.join(start_tokens), '.'.join(end_tokens))
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def iprange_to_globs(start, end):
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"""
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A function that accepts an arbitrary start and end IP address or subnet
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and returns one or more glob-style IP ranges.
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:param start: the start IP address or subnet.
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:param end: the end IP address or subnet.
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:return: a list containing one or more IP globs.
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"""
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start = IPAddress(start)
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end = IPAddress(end)
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if start.version != 4 and end.version != 4:
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raise AddrConversionError('IP glob ranges only support IPv4!')
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def _iprange_to_glob(lb, ub):
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# Internal function to process individual IP globs.
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t1 = [int(_) for _ in str(lb).split('.')]
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t2 = [int(_) for _ in str(ub).split('.')]
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tokens = []
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seen_hyphen = False
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seen_asterisk = False
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for i in range(4):
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if t1[i] == t2[i]:
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# A normal octet.
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tokens.append(str(t1[i]))
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elif (t1[i] == 0) and (t2[i] == 255):
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# An asterisk octet.
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tokens.append('*')
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seen_asterisk = True
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else:
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# Create a hyphenated octet - only one allowed per IP glob.
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if not seen_asterisk:
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if not seen_hyphen:
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tokens.append('%s-%s' % (t1[i], t2[i]))
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seen_hyphen = True
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else:
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raise AddrConversionError(
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'only 1 hyphenated octet per IP glob allowed!')
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else:
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raise AddrConversionError(
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"asterisks are not allowed before hyphenated octets!")
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return '.'.join(tokens)
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globs = []
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try:
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# IP range can be represented by a single glob.
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ipglob = _iprange_to_glob(start, end)
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if not valid_glob(ipglob):
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#TODO: this is a workaround, it is produces non-optimal but valid
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#TODO: glob conversions. Fix inner function so that is always
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#TODO: produces a valid glob.
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raise AddrConversionError('invalid ip glob created')
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globs.append(ipglob)
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except AddrConversionError:
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# Break IP range up into CIDRs before conversion to globs.
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#
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#TODO: this is still not completely optimised but is good enough
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#TODO: for the moment.
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#
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for cidr in iprange_to_cidrs(start, end):
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ipglob = _iprange_to_glob(cidr[0], cidr[-1])
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globs.append(ipglob)
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return globs
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def glob_to_cidrs(ipglob):
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"""
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A function that accepts a glob-style IP range and returns a list of one
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or more IP CIDRs that exactly matches it.
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:param ipglob: an IP address range in a glob-style format.
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:return: a list of one or more IP objects.
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"""
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return iprange_to_cidrs(*glob_to_iptuple(ipglob))
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def cidr_to_glob(cidr):
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"""
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A function that accepts an IP subnet in a glob-style format and returns
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a list of CIDR subnets that exactly matches the specified glob.
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:param cidr: an IP object CIDR subnet.
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:return: a list of one or more IP addresses and subnets.
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"""
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ip = IPNetwork(cidr)
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globs = iprange_to_globs(ip[0], ip[-1])
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if len(globs) != 1:
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# There should only ever be a one to one mapping between a CIDR and
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# an IP glob range.
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raise AddrConversionError('bad CIDR to IP glob conversion!')
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return globs[0]
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class IPGlob(IPRange):
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"""
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Represents an IP address range using a glob-style syntax ``x.x.x-y.*``
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Individual octets can be represented using the following shortcuts :
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1. ``*`` - the asterisk octet (represents values ``0`` through ``255``)
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2. ``x-y`` - the hyphenated octet (represents values ``x`` through ``y``)
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A few basic rules also apply :
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1. ``x`` must always be less than ``y``, therefore :
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- ``x`` can only be ``0`` through ``254``
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- ``y`` can only be ``1`` through ``255``
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2. only one hyphenated octet per IP glob is allowed
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3. only asterisks are permitted after a hyphenated octet
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Examples:
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+------------------+------------------------------+
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| IP glob | Description |
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+==================+==============================+
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| ``192.0.2.1`` | a single address |
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+------------------+------------------------------+
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| ``192.0.2.0-31`` | 32 addresses |
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+------------------+------------------------------+
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| ``192.0.2.*`` | 256 addresses |
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+------------------+------------------------------+
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| ``192.0.2-3.*`` | 512 addresses |
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+------------------+------------------------------+
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| ``192.0-1.*.*`` | 131,072 addresses |
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+------------------+------------------------------+
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| ``*.*.*.*`` | the whole IPv4 address space |
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+------------------+------------------------------+
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.. note :: \
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IP glob ranges are not directly equivalent to CIDR blocks. \
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They can represent address ranges that do not fall on strict bit mask \
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boundaries. They are suitable for use in configuration files, being \
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more obvious and readable than their CIDR counterparts, especially for \
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admins and end users with little or no networking knowledge or \
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experience. All CIDR addresses can always be represented as IP globs \
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but the reverse is not always true.
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"""
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__slots__ = ('_glob',)
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def __init__(self, ipglob):
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(start, end) = glob_to_iptuple(ipglob)
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super(IPGlob, self).__init__(start, end)
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self.glob = iprange_to_globs(self._start, self._end)[0]
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def __getstate__(self):
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""":return: Pickled state of an `IPGlob` object."""
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return super(IPGlob, self).__getstate__()
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def __setstate__(self, state):
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""":param state: data used to unpickle a pickled `IPGlob` object."""
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super(IPGlob, self).__setstate__(state)
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self.glob = iprange_to_globs(self._start, self._end)[0]
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def _get_glob(self):
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return self._glob
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def _set_glob(self, ipglob):
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(self._start, self._end) = glob_to_iptuple(ipglob)
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self._glob = iprange_to_globs(self._start, self._end)[0]
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glob = property(_get_glob, _set_glob, None,
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'an arbitrary IP address range in glob format.')
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def __str__(self):
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""":return: IP glob in common representational format."""
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return "%s" % self.glob
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def __repr__(self):
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""":return: Python statement to create an equivalent object"""
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return "%s('%s')" % (self.__class__.__name__, self.glob)
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