I have written a SQL Server CLR User-defined type (UDT) in SQL Server 2012. I have been able to access it though SQL test scripts, and have used it as a local variable, defined it in a table, and tested it through Visual Studio and SQL Server Management Studio.

We have an service that uses SQLBulkCopy in a fairly generalized fashion to pick up files that are placed in a directory, then insert their contents to the appropriate table. When I add my UDT as a column in one of those tables, I receive an error from the WriteToServer( DataTable ) invocation.

The UDT column is being passed as a System.String, in the hope that the UDT's Parse() method will be called within SQL Server to convert it to the internal type. I have also tried declaring the UDT class within this client program, and passing the data as the UDT type directly.

In either case I receive this error message (edited to take out my proprietary names)

Could not find method 'Read' for type 'MyNamespace.MyType' in assembly 'MyType'

I have reviewed as many similar questions that I can find about this error message, and they generally refer to the format of the CREATE statement. Also, they generally refer to CLR functions, not CLR types, which are slightly different. This is mine:

CREATE TYPE [dbo].[MyType]
EXTERNAL NAME [MyType].[MyNamespace.MyType]

I suspect this might not be the issue, and that, instead, it has to do with how SQLBulkCopy interacts with a SQLCLR UDT. For this particular combination it's difficult to find any in-depth explanation.

Edit #1 - It is custom serialization.

[Microsoft.SqlServer.Server.SqlUserDefinedType( Format.UserDefined, MaxByteSize = -1 )]  
public struct MyType: INullable, IBinarySerialize  

Edit #2 - Execute permission is granted

ON TYPE :: MyType

Edit #3 - adapted testing code

CREATE TABLE [dbo].[TestMyType]
    [SourceMachine]       [varchar](32)  NULL,
    [Output]              MyType NULL

and updated by

    DataTable dataTable = new DataTable( "[TestMyType]" );
    dataTable.Columns.Add( "SourceMachine", typeof( System.String ) );
    dataTable.Columns.Add( "Output", typeof( MyNamespace.MyType ) );

    dataTable.Rows.Add( "Ron1", MyNamespace.MyType.Parse( "This is string 1" ) );
    dataTable.Rows.Add( "Ron2", MyNamespace.MyType.Parse( "This is string 2" ) );
    dataTable.Rows.Add( "Ron3", MyNamespace.MyType.Parse( "This is string 3" ) );

    SqlBulkCopy sqlBulkCopy = new SqlBulkCopy( conn );
    sqlBulkCopy.DestinationTableName = "[TestMyType]";
    sqlBulkCopy.WriteToServer( dataTable );
catch ( Exception ex)

This gave the same error message that is shown above.

Edit #4 - Eliminate SqlBulkCopy from the issue
I have recreated the issue using a parameterized INSERT. I set it up to pass the UDT object from the client to the server as a parameter that directly uses an instance of the UDT.

string sInsert = "INSERT INTO TestMyType VALUES (?, ?)";
SqlCommand command = new SqlCommand(sInsert, conn);
SqlParameter parm1 = new SqlParameter("SourceMachine", "This is Machine 01");
SqlParameter parm2 = new SqlParameter("Output", MyNamespace.MyType.Parse( "This is INSERT 01" ) );
parm2.UdtTypeName = "MyType";
int nResult = command.ExecuteNonQuery();


A first chance exception of type 'System.Data.SqlClient.SqlException'
    occurred in System.Data.dll
Additional information: Could not find method 'Read' for 
    type 'MyNamespace.MyType' in assembly 'MyType'
  • Is your UDT using native or custom serialization? – Solomon Rutzky Sep 7 '16 at 20:31
  • It is custom serialization. [Serializable] [Microsoft.SqlServer.Server.SqlUserDefinedType( Format.UserDefined, MaxByteSize = -1 )] public struct MyType: INullable, IBinarySerialize – RonSanderson Sep 7 '16 at 20:57
  • Sorry, I can't figure out how to make this look like a code block in a comment. I've tried everything I can find in the help pages. – RonSanderson Sep 7 '16 at 20:59
  • Is ok ;-). In comments there is only a subset of mark-down allowed. You can use back-quotes for code. Look here: Markdown Help. You can get to that help page by clicking on the ? in the upper-right-hand corner of the editor, then click on "Advanced Help". I will take a look at this later tonight or tomorrow. Also, it helps if you use a person's @ name so that they get notified. Notifications always go to the poster of the Question or Answer that the comment is on. – Solomon Rutzky Sep 7 '16 at 21:08
  • When you say that you tried "declaring the UDT class within this client program, and passing the data as the UDT type directly", do you mean that you set the column type in the DataTable to be your type, and then load the data? Not sure if the Parse method needs to be called directly. But take a look at this answer. Also, to send the data directly via BCP / SqlBulkCopy, it would need to be in binary format, as per the source code. I am testing now. – Solomon Rutzky Sep 8 '16 at 14:45

SqlBulkCopy should be able to handle SQLCLR UDT's (User-Defined Types) just fine. I have succeeded using both DbDataReader and DataTable methods.

Here is what worked for me:

C# code (I made the "client" a SQLCLR stored procedure)

using System;
using System.Data.SqlTypes;
using System.Data.SqlClient;
using Microsoft.SqlServer.Server;

public class xtra

    public static void BcpTest(SqlInt32 TheID, SqlString TheConnectionString)
        System.Data.DataTable _DataTable = new System.Data.DataTable();
        _DataTable.Columns.Add("ID", typeof(Int32));
        _DataTable.Columns.Add("SomeDate", typeof(DateTime));
        _DataTable.Columns.Add("SomeData", typeof(Type_HashTable));

        Type_HashTable _Bob = Type_HashTable.Parse(@"testKey=testVal");
        _DataTable.Rows.Add(TheID.Value, DateTime.Now, _Bob);

        _DataTable.Rows.Add(TheID.Value + 1, DateTime.Now,

        SqlBulkCopy _BulkCopy = new SqlBulkCopy(TheConnectionString.Value);
        _BulkCopy.DestinationTableName = "dbo.BulkCopyUDT";


T-SQL code

-- DROP TABLE dbo.BulkCopyUDT;
  SomeDate DATETIME,
  SomeData [SQL#].[Type_HashTable]

GRANT EXECUTE ON TYPE::SQL#.Type_HashTable TO [Public];

    @TheID INT,
    @TheConnectionString NVARCHAR(4000) = 
        N'Data Source=(local); Integrated Security=true; Initial Catalog=my_database;'
AS EXTERNAL NAME [my_assembly].[xtra].[BcpTest];


The Test

EXEC dbo.SqlBulkCopy_Test 1;

SELECT *, SomeData.ToString() FROM dbo.BulkCopyUDT;

EXEC dbo.SqlBulkCopy_Test 3,
       N'Data Source=(local); User=test; Password=test; Initial Catalog=my_database;';

SELECT *, SomeData.ToString() FROM dbo.BulkCopyUDT;

I also got this working from a Console App, using both SqlBulkCopy and a parameterized ad hoc query:

using System;
using System.Data;
using System.Data.SqlClient;

namespace SqlBulkCopyUDT
    class Program
        static void Main(string[] args)
            int _TheID = Int32.Parse(args[0]);

            string _TheConnectionString = 
              @"Data Source=(local); Integrated Security=true; Initial Catalog=my_database;";
            if (args.Length > 1)
                _TheConnectionString = args[1];

            //DataTable _DataTable = new DataTable();
            //_DataTable.Columns.Add("ID", typeof(Int32));
            //_DataTable.Columns.Add("SomeDate", typeof(DateTime));
            //_DataTable.Columns.Add("SomeData", typeof(Type_HashTable));

            //Type_HashTable _Bob = Type_HashTable.Parse(@"testKey=testVal");
            //_DataTable.Rows.Add(_TheID, DateTime.Now, _Bob);

            //_DataTable.Rows.Add(_TheID + 1, DateTime.Now,
            //   Type_HashTable.Parse(@"testKey2=testVal2"));

            //SqlBulkCopy _BulkCopy = new SqlBulkCopy(_TheConnectionString);
            //_BulkCopy.DestinationTableName = "dbo.BulkCopyUDT";

            //    _BulkCopy.WriteToServer(_DataTable);
            //    _BulkCopy.Close();

            using (SqlConnection _Connection = new SqlConnection(_TheConnectionString))
                using (SqlCommand _Command = _Connection.CreateCommand())
                    _Command.CommandType = CommandType.Text;
                    _Command.CommandText =
                        @"INSERT INTO dbo.BulkCopyUDT (ID, SomeDate, SomeData)
                         VALUES (@MyID, GETDATE(), @MyData);";

                    SqlParameter _ParamMyID = new SqlParameter("@MyID", SqlDbType.Int);
                    _ParamMyID.Value = _TheID;

                    SqlParameter _ParamMyData = new SqlParameter("@MyData", SqlDbType.Udt);
                    _ParamMyData.UdtTypeName = "SQL#.Type_HashTable";
                    _ParamMyData.Value = Type_HashTable.Parse(@"testKey3=testVal3");


P.S. If sending the data directly to a UDT column, then it needs to be in binary form as that is the only way that SqlBulkCopy transports it, as per the source code.

  • There may be a difference if your stored procedure executes within the SQL Server process instead of from a separate process, as in my tests. The call from within SQL Server may not need to invoke the same processing path as when the INSERT or SqlBulkCopy deliver a binary image of the same object from a client application. – RonSanderson Sep 8 '16 at 18:38
  • @RonSanderson I wish that were a potential problem ;-). But sadly no, you cannot use the internal Context Connection=true; as a Destination connection string for SqlBulkCopy. It is a full external connection, and I tried as both a privileged user and a "test" user that has no rights outside of what I granted to Public. The fact that you are getting an error about it not finding the Read method that is clearly there is quite odd, which is why I am asking to see the StackTrace, and if permissions or versioning might be an issue. – Solomon Rutzky Sep 8 '16 at 19:12
  • There is no stack trace returned from the SQL Server side where the SQLException is generated, and no InnerException or server-side stack trace is available on the client. – RonSanderson Sep 8 '16 at 20:13
  • By a different processing path, I did not mean to imply that the connection or permissions might be an issue. Instead, I was more concerned that the stored procedure code actually executes within the same CLRSQL environment as the UDT, and that may allow SQL Server to short-cut the resolution of the MyType UDT in some way, allowing the Read method to be resolved. For a call from an external process the CLR is presented with a binary image that purports to be an instance of MyType, and maybe casting it to the proper object and invoking the Read() is somehow going through a different resolution. – RonSanderson Sep 8 '16 at 20:18
  • The next step is to move my test code inside of SQL Server, as a stored procedure or function, and see if it can be invoked with a string, then transformed a MyType object and INSERTed successfully. – RonSanderson Sep 8 '16 at 20:21

I used an explicit interface notation on two methods in the UDT, like this.

void IBinarySerialize.Read( BinaryReader r )

void IBinarySerialize.Write( BinaryWriter w )

But they had to be defined like this:

public void Read( BinaryReader r )

public void Write( BinaryWriter w )

The difference was enough to keep SQL Server from identifying the correct method to use on the UDT during SqlBulkCopy and paramaterized INSERT when passed the complete MyType object.

The issue started when I used Visual Studio to add the stub routines that implemented the IBinarySerialize interface. I right-clicked on the interface name at the top of the struct definition and chose "Implement Interface Explicitly". I should have selected "Implement Interface", to generate the method stubs without the qualifiers.

  • I had no idea that you could use that other syntax. What is the benefit of implementing an interface explicitly? Could you just add the public keyword to the explicit implementation? And why does implementing it explicitly get around the requirement for it to be public? I tried compiling it yesterday, not explicitly, without the public and got an error, so I thought it was not possible to compile the UDT without the Read and Write methods being public, which is why I said in a comment or two that the Read method had to be there and be visible. – Solomon Rutzky Sep 9 '16 at 15:04
  • I really do not know the implications of defining an explicit interface. But once I had it, I did try adding public and it gave a compilation error. I need to learn this subtle area of C# a little better to see under what situations an explicit interface implementation is appropriate. I have used it before, but only because I liked having the interface's methods self-documenting by having the interface name qualifying the method name. It seems there are implications beyond that which I do know yet. – RonSanderson Sep 9 '16 at 21:27
  • Ok. Yes, I am curious about those "implications" and why one would choose to use the explicit declaration. Thanks for mentioning that adding public to the explicit declaration is not an option. – Solomon Rutzky Sep 9 '16 at 21:40

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