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Is there any way to get the functionality of the Sql Server 2005+ Sequential Guid generator without inserting records to read it back on round trip or invoking a native win dll call? I saw someone answer with a way of using rpcrt4.dll but I'm not sure if that would be able to work from my hosted environment for production.

Edit: Working with @John Boker's answer I attempted to turn it into more of a GuidComb generator instead of being dependent on the last generated Guid other than starting over. That for the seed instead of starting with Guid.Empty that I use

public SequentialGuid()
    var tempGuid = Guid.NewGuid();
    var bytes = tempGuid.ToByteArray();
    var time = DateTime.Now;
    bytes[3] = (byte) time.Year;
    bytes[2] = (byte) time.Month;
    bytes[1] = (byte) time.Day;
    bytes[0] = (byte) time.Hour;
    bytes[5] = (byte) time.Minute;
    bytes[4] = (byte) time.Second;
    CurrentGuid = new Guid(bytes);

I based that off the comments on

// 3 - the least significant byte in Guid ByteArray 
        [for SQL Server ORDER BY clause]
// 10 - the most significant byte in Guid ByteArray 
        [for SQL Server ORDERY BY clause]
SqlOrderMap = new[] {3, 2, 1, 0, 5, 4, 7, 6, 9, 8, 15, 14, 13, 12, 11, 10};

Does this look like the way I'd want to seed a guid with the DateTime or does it look like I should do it in reverse and work backwards from the end of the SqlOrderMap indexes? I'm not too concerned about their being a paging break anytime an initial guid would be created since it would only occur during application recycles.

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First of all - what is a purpose for this? I'm asking this because the whole purpose of Guid is to be random and unique. If you just need something incremental, you can use Int type field and set it to be AutoIncremental. –  Vitaly Nov 17 '09 at 21:39
from yafla.com/dennisforbes/Sequential-GUIDs-in-SQL-Server/… : As discussed in the entry on using GUIDs in your database, GUIDs in SQL Server 2000 are, at least from the user's perspective, "random". This can lead to a fragmentation and splits in your data, and it's a common reason to avoid GUIDs in the first place. –  John Boker Nov 17 '09 at 21:41
Vitaly, you are missing the point. SQL200x does have a Sequential Guid generator to optimize indexing based on Guids. Plenty terms to seearch on. –  Henk Holterman Nov 17 '09 at 22:02
The purpose of this to have a guid that will generate keys close to each other from my application to be sent to the database that i can have a clustered index on my primary key column (the guid). –  Chris Marisic Nov 18 '09 at 20:36
Depending on the database to generate my keys for me is not acceptable IMO. –  Chris Marisic Nov 23 '09 at 16:58

7 Answers 7

up vote 9 down vote accepted

this person came up with something to make sequential guids, here's a link


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You could just use the same Win32 API function that SQL Server uses:


And since you want it in C#:

private class NativeMethods
   [DllImport("rpcrt4.dll", SetLastError=true)]
   public static extern int UuidCreateSequential(out Guid guid);

public static Guid CreateGuid()
   const RPC_S_OK = 0;

   Guid guid;
   int result = NativeMethods.UuidCreateSequential(out guid);
   if (result == RPC_S_OK)
      return guid;
      return Guid.New();

See also

Microsoft's UuidCreateSequential is just an implementation of a type 1 uuid from RFC 4122.

A uuid has three important parts:

  • node: (6 bytes) - the computer's MAC address
  • timestamp: (7 bytes) - number of 100 ns intervals since 00:00:00.00, 15 October 1582 (the date of Gregorian reform to the Christian calendar)
  • clockSequenceNumber (2 bytes) - counter in case you generate a guid faster than 100ns, or you change your mac address

The basic algorithm is:

  1. obtain a system-wide lock
  2. read the last node, timestamp and clockSequenceNumber from persistent storage (registry/file)
  3. get the current node (i.e. MAC address)
  4. get the current timestamp
    • a) if the saved state was not available or corrupted, or the mac address has changed, generate a random clockSequenceNumber
    • b) if the state was available, but the current timestamp is the same or older than the saved timestamp, increment the clockSequenceNumber
  5. save node, timestamp and clockSequenceNumber back to persistent storage
  6. release the global lock
  7. format the guid structure according to the rfc

There is a 4-bit version number, and 2 bit variant that also need to be ANDed into the data:

guid = new Guid(
      timestamp & 0xFFFFFFFF,  //timestamp low
      (timestamp >> 32) & 0xFFFF, //timestamp mid
      ((timestamp >> 40) & 0x0FFF), | (1 << 12) //timestamp high and version (version 1)
      (clockSequenceNumber & 0x3F) | (0x80), //clock sequence number and reserved
      node[0], node[1], node[2], node[3], node[4], node[5], node[6]);

Note: Completely untested; i just eyeballed it from the RFC.

  • the byte order might have to be changed
  • you might want to create your own version, e.g. Version 6 (version 1-5 are defined). That way you're guaranteed to be universally unique
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This is useful for others, I had originally asked how to NOT do it with the DLL call. –  Chris Marisic Mar 5 '12 at 3:34
Oh, sorry, i completely missed that. Re-reading the question i...sorta see it. –  Ian Boyd Mar 5 '12 at 3:48

A Sequential guid that updates often (at least 3 times per milisecond), can be found here. It is create with regular C# code (no native code call).

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Looks very interesting, i wonder if it could be updated to user interlocked instead of a lock object. –  Chris Marisic Nov 5 '13 at 16:27
@ChrisMarisic Thanks! Without locking 3.000.000 new SequentialGuid's is only about one second faster than locking (11 seconds compared to 12 seconds). The Increment is done conditionally. Interlocked is hard to use in this case because there is no Interlocked.CompareIncrement (only Interlocked.CompareExchange and Interlocked.Increment). The SequentialGuid is used in scenario's that inserting takes hours. I'm afraid I will make the method less safe when using Interlocked and it is not really faster. –  Alex Siepman Nov 6 '13 at 15:52
I really recommend creating a nuget package with it. I bet you'd get a good bit of downloads! –  Chris Marisic Nov 7 '13 at 18:45
@ChrisMarisic I will seriously consider doing that. And when it it ready I will ad a new comment to tell it is available. –  Alex Siepman Nov 12 '13 at 10:31
No nuget package then :) –  lordkain Dec 9 '13 at 12:22

As far I know NHibernate have special generator, called GuidCombGenerator. You can look on it.

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Here is how NHibernate implements the Guid.Comb algorithm:

private Guid GenerateComb()
    byte[] guidArray = Guid.NewGuid().ToByteArray();

    DateTime baseDate = new DateTime(1900, 1, 1);
    DateTime now = DateTime.Now;

    // Get the days and milliseconds which will be used to build the byte string 
    TimeSpan days = new TimeSpan(now.Ticks - baseDate.Ticks);
    TimeSpan msecs = now.TimeOfDay;

    // Convert to a byte array 
    // Note that SQL Server is accurate to 1/300th of a millisecond so we divide by 3.333333 
    byte[] daysArray = BitConverter.GetBytes(days.Days);
    byte[] msecsArray = BitConverter.GetBytes((long) (msecs.TotalMilliseconds / 3.333333));

    // Reverse the bytes to match SQL Servers ordering 

    // Copy the bytes into the guid 
    Array.Copy(daysArray, daysArray.Length - 2, guidArray, guidArray.Length - 6, 2);
    Array.Copy(msecsArray, msecsArray.Length - 4, guidArray, guidArray.Length - 4, 4);

    return new Guid(guidArray);
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C# Version

    public static Guid ToSeqGuid()
        Int64 lastTicks = -1;
        long ticks = System.DateTime.UtcNow.Ticks;

        if (ticks <= lastTicks)
            ticks = lastTicks + 1;

        lastTicks = ticks;

        byte[] ticksBytes = BitConverter.GetBytes(ticks);


        Guid myGuid = new Guid();
        byte[] guidBytes = myGuid.ToByteArray();

        Array.Copy(ticksBytes, 0, guidBytes, 10, 6);
        Array.Copy(ticksBytes, 6, guidBytes, 8, 2);

        Guid newGuid = new Guid(guidBytes);

        string filepath = @"C:\temp\TheNewGuids.txt";
        using (StreamWriter writer = new StreamWriter(filepath, true))
            writer.WriteLine("GUID Created =  " + newGuid.ToString());

        return newGuid;




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My solution (in VB but easy to convert). It changes the most significant (for SQL Server sorting) first 8 bytes of the GUID to DateTime.UtcNow.Ticks and also has extra code to help the issue of getting the same Ticks multiple times if you call for a new GUID faster than the system clock updates.

Private ReadOnly _toSeqGuidLock As New Object()
''' <summary>
''' Replaces the most significant eight bytes of the GUID (according to SQL Server ordering) with the current UTC-timestamp.
''' </summary>
''' <remarks>Thread-Safe</remarks>
<System.Runtime.CompilerServices.Extension()> _
Public Function ToSeqGuid(ByVal guid As Guid) As Guid

    Static lastTicks As Int64 = -1

    Dim ticks = DateTime.UtcNow.Ticks

    SyncLock _toSeqGuidLock

        If ticks <= lastTicks Then
            ticks = lastTicks + 1
        End If

        lastTicks = ticks

    End SyncLock

    Dim ticksBytes = BitConverter.GetBytes(ticks)


    Dim guidBytes = guid.ToByteArray()

    Array.Copy(ticksBytes, 0, guidBytes, 10, 6)
    Array.Copy(ticksBytes, 6, guidBytes, 8, 2)

    Return New Guid(guidBytes)

End Function
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