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There are limited options for working with binary large objects (BLOBs) in versions of SQL Server earlier than SQL Server 2005. You can write a BLOB to a database by inserting or updating a field with a string value or byte array, depending on the type of field in your database. However, a BLOB can be quite large and therefore might consume significant system memory when written as a single value, decreasing application performance.

A common practice to reduce the amount of memory used when writing a BLOB value is to write the BLOB to the database in "chunks". The process of writing a BLOB to a database in this way depends on the capabilities of your database.

The following sample demonstrates how to write a BLOB in chunks to SQL Server. The sample adds a new record to the Employees table of the Northwind database, including an image of the employee, which is a BLOB. The sample uses the UPDATETEXT function of SQL Server to write the image of the newly added employee to the Photo field in chunks of a specified size.

The UPDATETEXT function requires a pointer to the BLOB field being updated. In this sample, when the new employee record is added, the SQL Server TEXTPTR function is called to return a pointer to the Photo field of the new record. The returned pointer value is passed back as an output parameter. The code in the sample retains this pointer and passes it to UPDATETEXT when appending the chunks of data.

The Transact-SQL used to insert the new employee record and retain the pointer to the Photo field is shown in the following example (where @Identity and @Pointer are identified as output parameters for the SqlCommand).

INSERT INTO Employees (LastName, FirstName, Title, HireDate, ReportsTo, Photo) 
  Values(@LastName, @FirstName, @Title, @HireDate, @ReportsTo, 0x0)
SELECT @Pointer = TEXTPTR(Photo) FROM Employees WHERE EmployeeID = @Identity

Note that an initial value of 0x0 (null) is inserted into the Photo field. This ensures that a pointer value can be retrieved for the Photo field of the newly inserted record. However, the null value will not affect the appended chunks of data.

Having retained a pointer to the Photo field in the newly inserted record, the sample can then append chunks of data to the BLOB field using the UPDATETEXT function of SQL Server. The UPDATETEXT function takes as input the field identifier (Employees.Photo), the pointer to the BLOB field, an offset value that represents the location in the BLOB where the current chunk will be written, and the chunk of data to append. The following code example shows the syntax for the UPDATETEXT function (where @Pointer, @Offset, and @Bytes are identified as input parameters for the SqlCommand).

UPDATETEXT Employees.Photo @Pointer @Offset 0 @Bytes

The offset value is determined by the size of the memory buffer, which you determine based on the needs of your application. A large buffer size will write the BLOB faster, but will use more system memory. This sample uses a rather small buffer size of 128 bytes. The offset value starts at 0 for the first chunk of data, and is incremented by the size of the buffer for each consecutive chunk.

This example retrieves the employee photo, from a supplied file path, in chunks. Each chunk is read into a byte array per the specified buffer size. The byte array is then set as the value of the @Bytes input parameter of the SqlCommand. The @Offset parameter value is updated and the SqlCommand is executed, which appends the current chunk of bytes to the Photo field of the employee record.

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

public class EmployeeData
    public static void Main()
        DateTime hireDate = DateTime.Parse("4/27/98");
        int newID = AddEmployee("Smith", "John", "Sales Representative",
            hireDate, 5, "smith.bmp");
        Console.WriteLine("New Employee added. EmployeeID = " + newID);

    public static int AddEmployee(string lastName, string firstName,
        string title, DateTime hireDate, int reportsTo, string photoFilePath)
        using (SqlConnection connection = new SqlConnection(
            "Data Source=(local);Integrated Security=true;Initial Catalog=Northwind;"))

            SqlCommand addEmp = new SqlCommand(
                "INSERT INTO Employees (LastName, FirstName, Title, HireDate, ReportsTo, Photo) " +
                "Values(@LastName, @FirstName, @Title, @HireDate, @ReportsTo, 0x0);" +
                "SELECT @Identity = SCOPE_IDENTITY();" +
                "SELECT @Pointer = TEXTPTR(Photo) FROM Employees WHERE EmployeeID = @Identity", 

            addEmp.Parameters.Add("@LastName", SqlDbType.NVarChar, 20).Value = lastName;
            addEmp.Parameters.Add("@FirstName", SqlDbType.NVarChar, 10).Value = firstName;
            addEmp.Parameters.Add("@Title", SqlDbType.NVarChar, 30).Value = title;
            addEmp.Parameters.Add("@HireDate", SqlDbType.DateTime).Value = hireDate;
            addEmp.Parameters.Add("@ReportsTo", SqlDbType.Int).Value = reportsTo;

            SqlParameter idParm = addEmp.Parameters.Add("@Identity", SqlDbType.Int);
            idParm.Direction = ParameterDirection.Output;
            SqlParameter ptrParm = addEmp.Parameters.Add("@Pointer", SqlDbType.Binary, 16);
            ptrParm.Direction = ParameterDirection.Output;



            int newEmpID = (int)idParm.Value;

            StorePhoto(photoFilePath, (byte[])ptrParm.Value, connection);

            return newEmpID;

    public static void StorePhoto(string fileName, byte[] pointer, 
        SqlConnection connection)
        // The size of the "chunks" of the image.
        int bufferLen = 128;  

        SqlCommand appendToPhoto = new SqlCommand(
            "UPDATETEXT Employees.Photo @Pointer @Offset 0 @Bytes", 

        SqlParameter ptrParm = appendToPhoto.Parameters.Add(
            "@Pointer", SqlDbType.Binary, 16);
        ptrParm.Value = pointer;
        SqlParameter photoParm = appendToPhoto.Parameters.Add(
            "@Bytes", SqlDbType.Image, bufferLen);
        SqlParameter offsetParm = appendToPhoto.Parameters.Add(
            "@Offset", SqlDbType.Int);
        offsetParm.Value = 0;

        // Read the image in and write it to the database 128 (bufferLen) bytes at a time.
        // Tune bufferLen for best performance. Larger values write faster, but
        // use more system resources.
        FileStream fs = new FileStream(fileName, FileMode.Open, FileAccess.Read);
        BinaryReader br = new BinaryReader(fs);

        byte[] buffer = br.ReadBytes(bufferLen);
        int offset_ctr = 0;

        while (buffer.Length > 0)
            photoParm.Value = buffer;
            offset_ctr += bufferLen;
            offsetParm.Value = offset_ctr;
            buffer = br.ReadBytes(bufferLen);