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ip6addr is a small library for manipulating IP addresses in JavaScript. Inspired by ipaddr.js, ip6addr focuses on better IPv6 support, particularly in cases where IPv4 and IPv6 addresses are used together.
If you want to also parse and manipulate MAC addresses, see macaddr.
npm install ip6addr
parse(input)
Parse the input IP address, which can be either a string or an integer, and
return a representative Addr
. When the address is invalid,
an explanatory Error
is thrown.
> var addr1 = ip6addr.parse('fd00::0123')
> addr1.toString()
'fd00::123'
> var addr2 = ip6addr.parse('1.2.3.4')
> addr2.toString()
'1.2.3.4'
> var addr3 = ip6addr.parse('::ffff:127.0.0.1')
> addr3.toString()
'::ffff:127.0.0.1'
createCIDR(cidr, [plen])
Either parse a string in CIDR notation, such as '192.168.1.0/24'
, or, when
given an address and a prefix length, create the representative
CIDR
. When it fails to parse, it throws an Error
.
> var sub1 = ip6addr.createCIDR('fe80::/10')
> sub1.toString()
'fe80::/10'
> var sub2 = ip6addr.createCIDR('fc00::', 7)
> sub2.toString()
'fc00::/7'
> var sub3 = ip6addr.createCIDR('10.0.0.0', 8)
> sub3.toString()
'10.0.0.0/8'
createAddrRange(first, last)
Create an inclusive range of addresses from first
address to last
address,
represented by an AddrRange
. The first
address must
come before or be the same as the last
address.
> var r1 = ip6addr.createAddrRange('fd00::123', 'fd00::ea00')
> r1.first().toString()
'fd00::123'
> r1.last().toString()
'fd00::ea00'
compare(addr1, addr2)
Compares one address with another, and returns:
addr1
comes before addr2
addr1
comes after addr2
IPv4 addresses are compared against IPv6 addresses in their IPv4-mapped form.
> [ 'fc00::123', '192.168.1.50', '10.0.1.76', '8.8.8.8', '::1' ].sort(ip6addr.compare)
[ '::1',
'8.8.8.8',
'10.0.1.76',
'192.168.1.50',
'fc00::123' ]
compareCIDR(cidr1, cidr2)
Compares one subnet with another. Subnets are compared first by their address
component, and then by their prefix length. The network with the smaller prefix
length (the larger subnet) is considered greater than the network with the
larger prefix (the smaller subnet). Like compare()
, this
method returns:
cidr1
comes before cidr2
cidr1
comes after cidr2
> [ 'fc00::/7', '192.168.0.0/24', '192.168.0.0/16', '127.0.0.0/8', '::ffff:0.0.0.0/96' ].sort(ip6addr.compareCIDR)
[ '::ffff:0.0.0.0/96',
'127.0.0.0/8',
'192.168.0.0/24',
'192.168.0.0/16',
'fc00::/7' ]
Addr
An immutable representation of an IP address.
Addr#kind()
Returns the address family of the object, ipv4
or ipv6
.
> ip6addr.parse('::1').kind()
'ipv6'
> ip6addr.parse('127.0.0.1').kind()
'ipv4'
> ip6addr.parse('::ffff:127.0.0.1').kind()
'ipv4'
Addr#toString([opts])
Return the string representation of this address. An options object can be passed to control how the address is formatted. Valid options are:
format
(default: auto
), select the notation style to use when printing.
Available options are:
'auto'
, format using the notation style the address was parsed as'v4'
, format as an IPv4 address'v4-mapped'
, format as an IPv4-mapped IPv6 address'v6'
, format the string as IPv6 addressAttempts to format an IPv6 address with 'v4'
or 'v4-mapped'
will throw an
Error
.
zeroElide
(default: true
), whether to elide the longest run of zeros in
IPv6 addresses as ::
(e.g., '0:0:0:0:0:0:0:1'
becomes '::1'
).
zeroPad
(default: false
), if a field (also referred to as a "group" or
"hextet") would print as less than four characters in an IPv6 address,
whether or not to pad it with leading zeros (e.g., '::1'
becomes '::0001'
)
> var addr = ip6addr.parse('::ffff:127.0.0.1')
> addr.toString({ format: 'auto' })
'::ffff:127.0.0.1'
> addr.toString({ format: 'v4' })
'127.0.0.1'
> addr.toString({ format: 'v4-mapped' })
'::ffff:127.0.0.1'
> addr.toString({ format: 'v6' })
'::ffff:7f00:1'
> addr.toString({ zeroElide: false })
'0:0:0:0:0:ffff:127.0.0.1'
> addr.toString({ zeroElide: false, zeroPad: true })
'0000:0000:0000:0000:0000:ffff:127.0.0.1'
Addr#toBuffer([buf])
Convert the address to a buffer of sixteen 16-bit integers, representing the IPv6 representation of this address. An alternate buffer to write to may be passed in instead, rather than creating a new one.
Addr#toLong()
Return the address represented as a 32-bit integer. If this address cannot be represented as a 32-bit integer (i.e., it's an IPv6 address), then this method will throw an Error.
> var addr = ip6addr.parse('127.0.0.1')
> addr.toLong()
2130706433
Addr#offset(num)
Calculate the offset by num
from this address. If the offset would result
in wrap-around, then this method returns null
.
> var addr1 = ip6addr.parse('fd20::5')
> addr1.offset(1).toString()
'fd20::6'
> addr1.offset(-1).toString()
'fd20::4'
> addr1.offset(20).toString()
'fd20::19'
> addr1.offset(-20).toString()
'fd1f:ffff:ffff:ffff:ffff:ffff:ffff:fff1'
> ip6addr.parse('255.255.255.255').offset(1)
null
> ip6addr.parse('0.0.0.0').offset(-1)
null
> ip6addr.parse('::').offset(-1)
null
Addr#compare(other)
Compare another address to this one in the same manner as
compare()
.
CIDR
An immutable representation of a subnet.
CIDR#contains(input)
Checks if this subnet contains the address input
.
> var sub = ip6addr.createCIDR('fe80::', 10)
> sub.contains('fe80::92b8:d0ff:fe81:f590')
true
> sub.contains('fe80::507f:baff:fe85:92eb')
true
> sub.contains('2001:4860:4860::8888')
false
> sub.contains('172.16.20.5')
false
> sub.contains('::ffff:127.0.0.1')
false
CIDR#first()
Returns the first address in this subnet.
> var sub = ip6addr.createCIDR('fe80::', 10)
> sub.first().toString()
'fe80::1'
CIDR#last()
Returns the last address in this subnet. For IPv4 subnets, this is the address just before the broadcast address.
> var sub1 = ip6addr.createCIDR('fe80::', 10)
> sub1.last().toString()
'febf:ffff:ffff:ffff:ffff:ffff:ffff:ffff'
> var sub2 = ip6addr.createCIDR('192.168.1.0', 24)
> sub2.last().toString()
'192.168.1.254'
CIDR#broadcast()
Returns the broadcast address for this subnet. If the subnet doesn't have a broadcast address (i.e., it's an IPv6 subnet and therefore uses multicast), then this method throws an Error.
> var sub1 = ip6addr.createCIDR('192.168.1.0', 24)
> sub1.broadcast().toString()
'192.168.1.255'
> var sub2 = ip6addr.createCIDR('192.168.0.0', 16)
> sub2.broadcast().toString()
'192.168.255.255'
CIDR#compare(other)
Compare another subnet to this one in the same manner as
compareCIDR()
.
CIDR#prefixLength()
Returns the prefix length of this subnet.
CIDR#address()
Returns the address component of this subnet.
CIDR#toString([opts])
Returns the string representation of this subnet. An options object can be
passed to control how the subnet is formatted, using the same options that
Addr#toString()
takes.
AddrRange
An immutable representation of a range of addresses.
AddrRange#contains(addr)
Determines whether the input address falls within this address range.
> var range = ip6addr.createAddrRange('fd00::123', 'fd00::ea00')
undefined
> range.contains('fd00::123')
true
> range.contains('fd00::ea00')
true
> range.contains('fd00::b000')
true
> range.contains('fd00::122')
false
> range.contains('fd00::ea01')
false
> range.contains('8.8.8.8')
false
AddrRange#first()
Returns the first address in this range.
AddrRange#last()
Returns the last address in this range.
This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. For the full license text see LICENSE, or http://mozilla.org/MPL/2.0/.
Copyright (c) 2019, Joyent, Inc.
0.2.5
FAQs
IPv6/IPv4 address parsing and manipulation
The npm package ip6addr receives a total of 82,967 weekly downloads. As such, ip6addr popularity was classified as popular.
We found that ip6addr demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 10 open source maintainers collaborating on the project.
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