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# Datatype for storing ip address in SQL Server

What datatype should i choose for storing an Ip Address in a SQL Server?

By selecting the right datatype would it be easy enough to filter by IP address then?

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Have a look at this answer: stackoverflow.com/questions/1038950/… – Mark Redman Sep 6 '09 at 12:32
Duplicate: stackoverflow.com/questions/1038950/… – Jørn Schou-Rode Feb 1 '10 at 8:57

The technically correct way to store IPv4 is Binary(4), since that is what it actually is (no, not even an INT32/INT(4)), the numeric textual form that we all know and love (255.255.255.255) being just the display conversion of it's binary content.

If you do it this way, you will want functions to convert to and from the textual-display format:

Here's how to convert the textual display form to binary:

``````CREATE FUNCTION dbo.fnBinaryIPv4(@ip AS VARCHAR(15)) RETURNS BINARY(4)
AS
BEGIN
DECLARE @bin AS BINARY(4)

SELECT @bin = CAST( CAST( PARSENAME( @ip, 4 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 3 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 2 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 1 ) AS INTEGER) AS BINARY(1))

RETURN @bin
END
go
``````

And here's how to convert the binary back to the textual display form:

``````CREATE FUNCTION dbo.fnDisplayIPv4(@ip AS BINARY(4)) RETURNS VARCHAR(15)
AS
BEGIN
DECLARE @str AS VARCHAR(15)

SELECT @str = CAST( CAST( SUBSTRING( @ip, 1, 1) AS INTEGER) AS VARCHAR(3) ) + '.'
+ CAST( CAST( SUBSTRING( @ip, 2, 1) AS INTEGER) AS VARCHAR(3) ) + '.'
+ CAST( CAST( SUBSTRING( @ip, 3, 1) AS INTEGER) AS VARCHAR(3) ) + '.'
+ CAST( CAST( SUBSTRING( @ip, 4, 1) AS INTEGER) AS VARCHAR(3) );

RETURN @str
END;
go
``````

Here's a demo of how to use them:

``````SELECT dbo.fnBinaryIPv4('192.65.68.201')
--should return 0xC04144C9
go

SELECT dbo.fnDisplayIPv4( 0xC04144C9 )
-- should return '192.65.68.201'
go
``````

Finally, when doing lookups and compares, always use the binary form if you want to be able to leverage your indexes.

UPDATE:

I wanted to add that one way to address the inherent performance problems of scalar UDF's in SQL Server, but still retain the code-reuse of a function is to use an iTVF (inline table-valued function) instead. Here's how the first function above (string to binary) can be re-written as an iTVF:

``````CREATE FUNCTION dbo.itvfBinaryIPv4(@ip AS VARCHAR(15)) RETURNS TABLE
AS RETURN (
SELECT CAST(
CAST( CAST( PARSENAME( @ip, 4 ) AS INTEGER) AS BINARY(1))
+  CAST( CAST( PARSENAME( @ip, 3 ) AS INTEGER) AS BINARY(1))
+  CAST( CAST( PARSENAME( @ip, 2 ) AS INTEGER) AS BINARY(1))
+  CAST( CAST( PARSENAME( @ip, 1 ) AS INTEGER) AS BINARY(1))
AS BINARY(4)) As bin
)
go
``````

Here's it in the example:

``````SELECT bin FROM dbo.fnBinaryIPv4('192.65.68.201')
--should return 0xC04144C9
go
``````

And here's how you would use it in an INSERT

``````INSERT INTo myIpTable
SELECT {other_column_values,...},
(SELECT bin FROM dbo.itvfBinaryIPv4('192.65.68.201'))
``````
-
I think this is only correct in an academic sense. Without knowing the purpose and domain problem for which the poster is trying to solve I suspect this will unnecessarily complicate interacting with the data and potentially degrade performance. – Eric Sabine Sep 6 '09 at 18:02
IPv4 is an ordered sequence of four bytes. That IS it's domain, and in storage format that's a BIN(4). The storage format will not interfere with performance because it's the optimal format. The conversion function might (because udf's suck on SQL server), which can be solved either by in-lineing or doing the conversion on the client. Finally, this approach has the significant advantage that it can search for addresses in Class 1,2, or 3 subnetworks using indexed range scans (WHERE ip BETWEEN fnBinaryIPv4('132.31.55.00') AND fnBinaryIPv4('132.31.55.255') ) – RBarryYoung Sep 6 '09 at 21:31
@RBarryYoung I would store it as integer. could you explain what is the performance advantage of storing it as binary? – Pacerier Oct 15 '11 at 23:19
@Pacerier: 1) see previous comment for an example, and 2) I did not claim that Binary would be faster than Integer. I claimed that A) It is the correct format (and it is), and B) it would not be slower. – RBarryYoung Oct 17 '11 at 0:02
Yes, you are incorrect, that is not what Dan is saying. Also, this is not a discussion forum, and it is not suited for it. Stackoverflow is a Q&A froum, if you have a question then please post it. – RBarryYoung Oct 20 '11 at 1:17

You can use varchar. The length of IPv4 is static, but that of IPv6 may be highly variable.

Unless you have a good reason to store it as binary, stick with a string (textual) type.

-
The length of IPv6 is very fixed - 128 bits. – Broam Sep 13 '12 at 13:46
Unless you're talking about data a human will never read or a massive amount of data, this is the best answer. – Aren Cambre May 29 '14 at 19:10
One simple reason to use binary and not strings: The binary version allows numeric range checking of IP addresses! The text version does not. This of course depends on the required use, but the binary numbers are more useful as they have actual meaning. – Gone Coding Jul 13 '15 at 14:18
varchar takes up significantly more space in the DB. A 32-bit IPv4 address takes 4 bytes to store numerically, and a 128-bit IPv6 address takes 16 bytes to store numerically. Meanwhile, that IPv4 address takes 15 bytes to store as a string and an IPv6 address could take up to 39 bytes as a string. – Aaron Schultz Feb 9 at 1:08

Here is some code to convert either IPV4 or IPv6 in varchar format to binary(16) and back. This is the smallest form I could think of. It should index well and provide a relatively easy way to filter on subnets. Requires SQL Server 2005 or later. Not sure it's totally bulletproof. Hope this helps.

``````-- SELECT dbo.fn_ConvertIpAddressToBinary('2002:1ff:6c2::1ff:6c2')

(
)
RETURNS BINARY(16) AS
BEGIN
DECLARE
@bytes BINARY(16), @vbytes VARBINARY(16), @vbzone VARBINARY(2)
, @colIndex TINYINT, @prevColIndex TINYINT, @parts TINYINT, @limit TINYINT
, @delim CHAR(1), @token VARCHAR(4), @zone VARCHAR(4)

SELECT
@delim = '.'
, @prevColIndex = 0
, @limit = 4
, @vbytes = 0x
, @parts = 0

IF @colIndex = 0
BEGIN
SELECT
@delim = ':'
, @limit = 8
WHILE @colIndex > 0
SELECT
@parts = @parts + 1
, @colIndex = CHARINDEX(@delim, @ipAddress, @colIndex + 1)

IF @colIndex = 0
RETURN NULL
END

WHILE @colIndex > 0
BEGIN
SET @token = SUBSTRING(@ipAddress, @prevColIndex + 1, @Colindex - @prevColIndex - 1)

IF @delim = ':'
BEGIN
SET  @zone = RIGHT('0000' + @token, 4)

SELECT
@vbzone = CAST('' AS XML).value('xs:hexBinary(sql:variable("@zone"))', 'varbinary(2)')
, @vbytes = @vbytes + @vbzone

IF @token = ''
WHILE @parts + 1 < @limit
SELECT
@vbytes = @vbytes + @vbzone
, @parts = @parts + 1
END
ELSE
BEGIN
SET @zone = SUBSTRING('' + master.sys.fn_varbintohexstr(CAST(@token AS TINYINT)), 3, 2)

SELECT
@vbzone = CAST('' AS XML).value('xs:hexBinary(sql:variable("@zone"))', 'varbinary(1)')
, @vbytes = @vbytes + @vbzone
END

SELECT
@prevColIndex = @colIndex
, @colIndex = CHARINDEX(@delim, @ipAddress, @colIndex + 1)
END

SET @bytes =
CASE @delim
WHEN ':' THEN @vbytes
ELSE 0x000000000000000000000000 + @vbytes
END

RETURN @bytes

END
``````
``````-- SELECT dbo.fn_ConvertBinaryToIpAddress(0x200201FF06C200000000000001FF06C2)

(
@bytes BINARY(16)
)
RETURNS VARCHAR(39) AS
BEGIN
DECLARE
@part VARBINARY(2)
, @colIndex TINYINT

IF SUBSTRING(@bytes, 1, 12) = 0x000000000000000000000000
BEGIN
SET @colIndex = 13
WHILE @colIndex <= 16
SELECT
@part = SUBSTRING(@bytes, @colIndex, 1)
+ CAST(CAST(@part AS TINYINT) AS VARCHAR(3))
+ CASE @colIndex WHEN 16 THEN '' ELSE '.' END
, @colIndex = @colIndex + 1

END
ELSE
BEGIN
SET @colIndex = 1
WHILE @colIndex <= 16
BEGIN
SET @part = SUBSTRING(@bytes, @colIndex, 2)
SELECT
+ CAST('' as xml).value('xs:hexBinary(sql:variable("@part") )', 'varchar(4)')
+ CASE @colIndex WHEN 15 THEN '' ELSE ':' END
, @colIndex = @colIndex + 2
END
END

END
``````
-
indent code 4 spaces for formatting; see stackoverflow.com/editing-help – McDowell Aug 5 '11 at 20:28

`sys.dm_exec_connections` uses varchar(48) after SQL Server 2005 SP1. Sounds good enough for me especially if you want to use it compare to your value.

Realistically, you won't see IPv6 as mainstream for a while yet, so I'd prefer the 4 tinyint route. Saying that, I'm using varchar(48) because I have to use `sys.dm_exec_connections`...

Otherwise. Mark Redman's answer mentions a previous SO debate question.

-
realistically we will be seeing IPv6 – Pacerier Oct 15 '11 at 23:20
Realistically we won't see the Year 2000 for a while yet, may as well use 2-digit dates to save a few bytes. Oh, wait. – Eric J. May 4 at 0:35

As I want to handle both `IPv4` and `IPv6`, I am using `VARBINARY(16)` and the following `SQL CLR` functions to convert the `text` IP address presentation to bytes and the reverse:

``````[SqlFunction(DataAccess = DataAccessKind.None, IsDeterministic = true)]
public static SqlBytes GetIPAddressBytesFromString (SqlString value)
{

{
}
else
{
return new SqlBytes();
}
}

[SqlFunction(DataAccess = DataAccessKind.None, IsDeterministic = true)]
{
string output;

if (value.IsNull)
{
output = "";
}
else
{
output = IP.ToString();
}

return new SqlString(output);
}
``````
-

I usually use a plain old VARCHAR filtering for an IPAddress works fine.

If you want to filter on ranges of IP address I'd break it into four integers.

-
What is a range? Not all subnets are 8 bytes. What is the range of IP addresses for the network this host is on: 50.50.50.50/20? – Bradley Kreider Apr 5 '11 at 20:41
Integers are too big to store a value of 0-255. Use a tinyint instead. – SandRock Jan 5 '15 at 9:28

Thanks RBarry. I'm putting together an IP block allocation system and storing as binary is the only way to go.

I'm storing the CIDR representation (ex: 192.168.1.0/24) of the IP block in a varchar field, and using 2 calculated fields to hold the binary form of the start and end of the block. From there, I can run fast queries to see if a given block as already been allocated or is free to assign.

I modified your function to calculate the ending IP Address like so:

``````CREATE FUNCTION dbo.fnDisplayIPv4End(@block AS VARCHAR(18)) RETURNS BINARY(4)
AS
BEGIN
DECLARE @bin AS BINARY(4)
DECLARE @ip AS VARCHAR(15)
DECLARE @size AS INT

SELECT @ip = Left(@block, Len(@block)-3)
SELECT @size = Right(@block, 2)

SELECT @bin = CAST( CAST( PARSENAME( @ip, 4 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 3 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 2 ) AS INTEGER) AS BINARY(1))
+ CAST( CAST( PARSENAME( @ip, 1 ) AS INTEGER) AS BINARY(1))

SELECT @bin = CAST(@bin + POWER(2, 32-@size) AS BINARY(4))
RETURN @bin
END;
go
``````
-

For people using .NET can use IPAddress class to parse IPv4/IPv6 string and store it as a `VARBINARY(16)`. Can use the same class to convert `byte[]` to string. If want to convert the `VARBINARY` in SQL:

``````--SELECT
--  dbo.varbinaryToIpString(CAST(0x7F000001 AS VARBINARY(4))) IPv4,
--  dbo.varbinaryToIpString(CAST(0x20010DB885A3000000008A2E03707334 AS VARBINARY(16))) IPv6

--ALTER
CREATE
FUNCTION dbo.varbinaryToIpString
(
@varbinaryValue VARBINARY(16)
)
RETURNS VARCHAR(39)
AS
BEGIN
IF @varbinaryValue IS NULL
RETURN NULL
IF DATALENGTH(@varbinaryValue) = 4
BEGIN
RETURN
CONVERT(VARCHAR(3), CONVERT(INT, SUBSTRING(@varbinaryValue, 1, 1))) + '.' +
CONVERT(VARCHAR(3), CONVERT(INT, SUBSTRING(@varbinaryValue, 2, 1))) + '.' +
CONVERT(VARCHAR(3), CONVERT(INT, SUBSTRING(@varbinaryValue, 3, 1))) + '.' +
CONVERT(VARCHAR(3), CONVERT(INT, SUBSTRING(@varbinaryValue, 4, 1)))
END
IF DATALENGTH(@varbinaryValue) = 16
BEGIN
RETURN
sys.fn_varbintohexsubstring(0, @varbinaryValue,  1, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue,  3, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue,  5, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue,  7, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue,  9, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue, 11, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue, 13, 2) + ':' +
sys.fn_varbintohexsubstring(0, @varbinaryValue, 15, 2)
END

RETURN 'Invalid'
END
``````
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