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217 lines
8.0 KiB
Python
217 lines
8.0 KiB
Python
# Copyright 2015 Abhijit Menon-Sen <ams@2ndQuadrant.com>
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#
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# This file is part of Ansible
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#
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# Ansible is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# Ansible is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
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# Make coding more python3-ish
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from __future__ import (absolute_import, division, print_function)
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__metaclass__ = type
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import re
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from ansible.errors import AnsibleParserError, AnsibleError
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# Components that match a numeric or alphanumeric begin:end or begin:end:step
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# range expression inside square brackets.
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numeric_range = r'''
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\[
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(?:[0-9]+:[0-9]+) # numeric begin:end
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(?::[0-9]+)? # numeric :step (optional)
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\]
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'''
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hexadecimal_range = r'''
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\[
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(?:[0-9a-f]+:[0-9a-f]+) # hexadecimal begin:end
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(?::[0-9]+)? # numeric :step (optional)
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\]
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'''
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alphanumeric_range = r'''
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\[
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(?:
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[a-z]:[a-z]| # one-char alphabetic range
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[0-9]+:[0-9]+ # ...or a numeric one
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)
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(?::[0-9]+)? # numeric :step (optional)
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\]
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'''
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# Components that match a 16-bit portion of an IPv6 address in hexadecimal
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# notation (0..ffff) or an 8-bit portion of an IPv4 address in decimal notation
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# (0..255) or an [x:y(:z)] numeric range.
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ipv6_component = r'''
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(?:
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[0-9a-f]{{1,4}}| # 0..ffff
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{range} # or a numeric range
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)
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'''.format(range=hexadecimal_range)
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ipv4_component = r'''
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(?:
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[01]?[0-9]{{1,2}}| # 0..199
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2[0-4][0-9]| # 200..249
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25[0-5]| # 250..255
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{range} # or a numeric range
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)
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'''.format(range=numeric_range)
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# A hostname label, e.g. 'foo' in 'foo.example.com'. Consists of alphanumeric
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# characters plus dashes (and underscores) or valid ranges. The label may not
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# start or end with a hyphen or an underscore. This is interpolated into the
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# hostname pattern below. We don't try to enforce the 63-char length limit.
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label = r'''
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(?:[\w]|{range}) # Starts with an alphanumeric or a range
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(?:[\w_-]|{range})* # Then zero or more of the same or [_-]
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(?<![_-]) # ...as long as it didn't end with [_-]
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'''.format(range=alphanumeric_range)
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patterns = {
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# This matches a square-bracketed expression with a port specification. What
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# is inside the square brackets is validated later.
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'bracketed_hostport': re.compile(
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r'''^
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\[(.+)\] # [host identifier]
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:([0-9]+) # :port number
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$
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''', re.X
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),
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# This matches a bare IPv4 address or hostname (or host pattern including
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# [x:y(:z)] ranges) with a port specification.
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'hostport': re.compile(
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r'''^
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((?: # We want to match:
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[^:\[\]] # (a non-range character
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| # ...or...
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\[[^\]]*\] # a complete bracketed expression)
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)*) # repeated as many times as possible
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:([0-9]+) # followed by a port number
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$
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''', re.X
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),
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# This matches an IPv4 address, but also permits range expressions.
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'ipv4': re.compile(
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r'''^
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(?:{i4}\.){{3}}{i4} # Three parts followed by dots plus one
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$
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'''.format(i4=ipv4_component), re.X | re.I
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),
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# This matches an IPv6 address, but also permits range expressions.
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#
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# This expression looks complex, but it really only spells out the various
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# combinations in which the basic unit of an IPv6 address (0..ffff) can be
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# written, from :: to 1:2:3:4:5:6:7:8, plus the IPv4-in-IPv6 variants such
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# as ::ffff:192.0.2.3.
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#
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# Note that we can't just use ipaddress.ip_address() because we also have to
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# accept ranges in place of each component.
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'ipv6': re.compile(
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r'''^
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(?:{0}:){{7}}{0}| # uncompressed: 1:2:3:4:5:6:7:8
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(?:{0}:){{1,6}}:| # compressed variants, which are all
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(?:{0}:)(?::{0}){{1,6}}| # a::b for various lengths of a,b
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(?:{0}:){{2}}(?::{0}){{1,5}}|
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(?:{0}:){{3}}(?::{0}){{1,4}}|
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(?:{0}:){{4}}(?::{0}){{1,3}}|
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(?:{0}:){{5}}(?::{0}){{1,2}}|
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(?:{0}:){{6}}(?::{0})| # ...all with 2 <= a+b <= 7
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:(?::{0}){{1,6}}| # ::ffff(:ffff...)
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{0}?::| # ffff::, ::
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# ipv4-in-ipv6 variants
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(?:0:){{6}}(?:{0}\.){{3}}{0}|
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::(?:ffff:)?(?:{0}\.){{3}}{0}|
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(?:0:){{5}}ffff:(?:{0}\.){{3}}{0}
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$
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'''.format(ipv6_component), re.X | re.I
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),
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# This matches a hostname or host pattern including [x:y(:z)] ranges.
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#
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# We roughly follow DNS rules here, but also allow ranges (and underscores).
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# In the past, no systematic rules were enforced about inventory hostnames,
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# but the parsing context (e.g. shlex.split(), fnmatch.fnmatch()) excluded
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# various metacharacters anyway.
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#
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# We don't enforce DNS length restrictions here (63 characters per label,
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# 253 characters total) or make any attempt to process IDNs.
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'hostname': re.compile(
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r'''^
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{label} # We must have at least one label
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(?:\.{label})* # Followed by zero or more .labels
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$
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'''.format(label=label), re.X | re.I | re.UNICODE
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),
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}
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def parse_address(address, allow_ranges=False):
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"""
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Takes a string and returns a (host, port) tuple. If the host is None, then
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the string could not be parsed as a host identifier with an optional port
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specification. If the port is None, then no port was specified.
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The host identifier may be a hostname (qualified or not), an IPv4 address,
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or an IPv6 address. If allow_ranges is True, then any of those may contain
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[x:y] range specifications, e.g. foo[1:3] or foo[0:5]-bar[x-z].
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The port number is an optional :NN suffix on an IPv4 address or host name,
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or a mandatory :NN suffix on any square-bracketed expression: IPv6 address,
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IPv4 address, or host name. (This means the only way to specify a port for
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an IPv6 address is to enclose it in square brackets.)
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"""
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# First, we extract the port number if one is specified.
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port = None
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for matching in ['bracketed_hostport', 'hostport']:
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m = patterns[matching].match(address)
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if m:
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(address, port) = m.groups()
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port = int(port)
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continue
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# What we're left with now must be an IPv4 or IPv6 address, possibly with
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# numeric ranges, or a hostname with alphanumeric ranges.
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host = None
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for matching in ['ipv4', 'ipv6', 'hostname']:
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m = patterns[matching].match(address)
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if m:
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host = address
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continue
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# If it isn't any of the above, we don't understand it.
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if not host:
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raise AnsibleError("Not a valid network hostname: %s" % address)
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# If we get to this point, we know that any included ranges are valid.
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# If the caller is prepared to handle them, all is well.
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# Otherwise we treat it as a parse failure.
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if not allow_ranges and '[' in host:
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raise AnsibleParserError("Detected range in host but was asked to ignore ranges")
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return (host, port)
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