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Maximum length of the textual representation of an IPv6 address?

What would you recommend as the maximum size for a database column storing client ip addresses? I have it set to 16 right now, but could I get an ip address that is longer than that with IPv6, etc?

  • Its already covered here. Check stackoverflow.com/questions/1038950/…
    – Arnkrishn
    Jul 2, 2009 at 21:23
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    Actually, that post is not very helpful. We are not using Sql Server and the answers to this post have been concise and to the point, exactly what I was looking for. Jul 2, 2009 at 21:40
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    @Andriyev that post refers to IPv4 only. Oct 21, 2010 at 19:40
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    For anyone coming here later - if you happen to be blessed with the ability to use Postgres, they have a built-in IP data type, so there's that. Feb 11, 2015 at 14:38

8 Answers 8


There's a caveat with the general 39 character IPv6 structure. For IPv4 mapped IPv6 addresses, the string can be longer (than 39 characters). An example to show this:

IPv6 (39 characters) :


IPv4-mapped IPv6 (45 characters) :


Note: the last 32-bits (that correspond to IPv4 address) can need up to 15 characters (as IPv4 uses 4 groups of 1 byte and is formatted as 4 decimal numbers in the range 0-255 separated by dots (the . character), so the maximum is DDD.DDD.DDD.DDD).

The correct maximum IPv6 string length, therefore, is 45.

This was actually a quiz question in an IPv6 training I attended. (We all answered 39!)


For IPv4, you could get away with storing the 4 raw bytes of the IP address (each of the numbers between the periods in an IP address are 0-255, i.e., one byte). But then you would have to translate going in and out of the DB and that's messy.

IPv6 addresses are 128 bits (as opposed to 32 bits of IPv4 addresses). They are usually written as 8 groups of 4 hex digits separated by colons: 2001:0db8:85a3:0000:0000:8a2e:0370:7334. 39 characters is appropriate to store IPv6 addresses in this format.

Edit: However, there is a caveat, see @Deepak's answer for details about IPv4-mapped IPv6 addresses. (The correct maximum IPv6 string length is 45 characters.)

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    Some databases (postgres at least) have a native IP column type, and does the conversion for you.
    – gnud
    Jul 2, 2009 at 21:32
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    I would avoid mixing IPv4 and IPv6 in the same filed of a database for "a while." IPv4 is still the default standard, and will continue to be used for years to come. In legacy applications I have worked with, when it became necessary to add IPv6 addresses to the database, this was done as a separate entry. This allowed existing code that expected IPv4 address to be left in place, and allowed code to continue to only get an IPv4 address. For new portions of the code, they had an option to specifically get IPv4, IPV6, or a mix from the query. Jul 2, 2009 at 22:07
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    Why 39 bytes when IPv6 is 128 bit, ie takes at most 16 bytes?
    – Christian
    Jun 5, 2012 at 12:51
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    Same reason you don't store IPv4 as 4 bytes. Jun 6, 2012 at 12:43
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    If you plan to query via bitmask, then obviously store as bytes. If The extra 23 bytes per row are an issue for you, then obviously store as bytes. Not sure what the problem is here. Feb 17, 2014 at 1:42

If you want to handle IPV6 in standard notation there are 8 groups of 4 hex digits:


32 hex digits + 7 separators = 39 characters.

CAUTION: If you also want to hold IPV4 addresses mapped as IPV6 addresses, use 45 characters as @Deepak suggests.


Take it from someone who has tried it all three ways... just use a varchar(39)

The slightly less efficient storage far outweighs any benefit of having to convert it on insert/update and format it when showing it anywhere.


As described in the IPv6 Wikipedia article,

IPv6 addresses are normally written as eight groups of four hexadecimal digits, where each group is separated by a colon (:)

A typical IPv6 address:


This is 39 characters long. IPv6 addresses are 128 bits long, so you could conceivably use a binary(16) column, but I think I'd stick with an alphanumeric representation.


If you are just storing it for reference, you can store it as a string, but if you want to do a lookup, for example, to see if the IP address is in some table, you need a "canonical representation." Converting the entire thing to a (large) number is the right thing to do. IPv4 addresses can be stored as a long int (32 bits) but you need a 128 bit number to store an IPv6 address.

For example, all these strings are really the same IP address:,, ::1, 0:0:0:0:0:0:0:1


IPv4 uses 32 bits, in the form of:

I suppose it depends on your datatype, whether you're just storing as a string with a CHAR type or if you're using a numerical type.

IPv6 uses 128 bits. You won't have IPs longer than that unless you're including other information with them.

IPv6 is grouped into sets of 4 hex digits seperated by colons, like (from wikipedia):


You're safe storing it as a 39-character long string, should you wish to do that. There are other shorthand ways to write addresses as well though. Sets of zeros can be truncated to a single 0, or sets of zeroes can be hidden completely by a double colon.


People are talking about characters when one can compress an IP address into raw data.

So in principle, since we only use IPv4 (32bit) or IPv6 (128bit), that means you need at most 128 bits of space, or 128/8 = 16 bytes!

Which is much less than the suggested 39 bytes (assuming charset is ascii).

That said, you will have to decode and encode the IP address into/from the raw data, which in itself is a trivial thing to do (I've done it before, see PHP's ip2long() for 32-bit IPs).

Edit: inet_pton (and its opposite, inet_ntop()) does what you need, and works with both address types. But beware, on Windows it's available since PHP 5.3.

  • @Elipticalview I don't think you read my answer at all. I've never even mentioned 45 bytes anywhere! If you convert any IPv4 value (even bad ones like you mentioned) to raw data, they should never exceed 4 bytes - because no matter the amount of dots you have, they should always amount to 4 numbers each up to at most 255.
    – Christian
    Feb 14, 2014 at 17:04

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