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SqlCommand Class

Definition

Represents a Transact-SQL statement or stored procedure to execute against a SQL Server database. This class cannot be inherited.

public ref class SqlCommand sealed : System::Data::Common::DbCommand, ICloneable
public sealed class SqlCommand : System.Data.Common.DbCommand, ICloneable
type SqlCommand = class
    inherit DbCommand
    interface ICloneable
Public NotInheritable Class SqlCommand
Inherits DbCommand
Implements ICloneable
Inheritance
SqlCommand
Implements

Examples

The following example creates a SqlConnection, a SqlCommand, and a SqlDataReader. The example reads through the data, writing it to the console. Finally, the example closes the SqlDataReader and then the SqlConnection as it exits the Using code blocks.

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


namespace SqlCommandCS
{
    class Program
    {
        static void Main()
        {
            string str = "Data Source=(local);Initial Catalog=Northwind;"
                + "Integrated Security=SSPI";
            ReadOrderData(str);

        }

        private static void ReadOrderData(string connectionString)
        {
            string queryString =
                "SELECT OrderID, CustomerID FROM dbo.Orders;";
            using (SqlConnection connection = new SqlConnection(
                       connectionString))
            {
                SqlCommand command = new SqlCommand(
                    queryString, connection);
                connection.Open();
                using (SqlDataReader reader = command.ExecuteReader())
                {
                    while (reader.Read())
                    {
                        Console.WriteLine(String.Format("{0}, {1}",
                            reader[0], reader[1]));
                    }
                }
            }
        }

The following sample shows how to create and execute different types of SqlCommand objects.

First you must create the sample database, by executing the following script:

USE [master]
GO

CREATE DATABASE [MySchool]
GO

USE [MySchool]
GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE procedure [dbo].[CourseExtInfo] @CourseId int
as
select c.CourseID,c.Title,c.Credits,d.Name as DepartmentName
from Course as c left outer join Department as d on c.DepartmentID=d.DepartmentID
where c.CourseID=@CourseId

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
create procedure [dbo].[DepartmentInfo] @DepartmentId int,@CourseCount int output
as
select @CourseCount=Count(c.CourseID)
from course as c
where c.DepartmentID=@DepartmentId

select d.DepartmentID,d.Name,d.Budget,d.StartDate,d.Administrator
from Department as d
where d.DepartmentID=@DepartmentId

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
Create PROCEDURE [dbo].[GetDepartmentsOfSpecifiedYear]
@Year int,@BudgetSum money output
AS
BEGIN
SELECT @BudgetSum=SUM([Budget])
FROM [MySchool].[dbo].[Department]
Where YEAR([StartDate])=@Year

SELECT [DepartmentID]
,[Name]
,[Budget]
,[StartDate]
,[Administrator]
FROM [MySchool].[dbo].[Department]
Where YEAR([StartDate])=@Year

END
GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE TABLE [dbo].[Course]([CourseID] [nvarchar](10) NOT NULL,
[Year] [smallint] NOT NULL,
[Title] [nvarchar](100) NOT NULL,
[Credits] [int] NOT NULL,
[DepartmentID] [int] NOT NULL,
CONSTRAINT [PK_Course] PRIMARY KEY CLUSTERED
(
[CourseID] ASC,
[Year] ASC
)WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY]) ON [PRIMARY]

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE TABLE [dbo].[Department]([DepartmentID] [int] IDENTITY(1,1) NOT NULL,
[Name] [nvarchar](50) NOT NULL,
[Budget] [money] NOT NULL,
[StartDate] [datetime] NOT NULL,
[Administrator] [int] NULL,
CONSTRAINT [PK_Department] PRIMARY KEY CLUSTERED
(
[DepartmentID] ASC
)WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY]) ON [PRIMARY]

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE TABLE [dbo].[Person]([PersonID] [int] IDENTITY(1,1) NOT NULL,
[LastName] [nvarchar](50) NOT NULL,
[FirstName] [nvarchar](50) NOT NULL,
[HireDate] [datetime] NULL,
[EnrollmentDate] [datetime] NULL,
CONSTRAINT [PK_School.Student] PRIMARY KEY CLUSTERED
(
[PersonID] ASC
)WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY]) ON [PRIMARY]

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE TABLE [dbo].[StudentGrade]([EnrollmentID] [int] IDENTITY(1,1) NOT NULL,
[CourseID] [nvarchar](10) NOT NULL,
[StudentID] [int] NOT NULL,
[Grade] [decimal](3, 2) NOT NULL,
CONSTRAINT [PK_StudentGrade] PRIMARY KEY CLUSTERED
(
[EnrollmentID] ASC
)WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY]) ON [PRIMARY]

GO

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
create view [dbo].[EnglishCourse]
as
select c.CourseID,c.Title,c.Credits,c.DepartmentID
from Course as c join Department as d on c.DepartmentID=d.DepartmentID
where d.Name=N'English'

GO
INSERT [dbo].[Course] ([CourseID], [Year], [Title], [Credits], [DepartmentID]) VALUES (N'C1045', 2012, N'Calculus', 4, 7)
INSERT [dbo].[Course] ([CourseID], [Year], [Title], [Credits], [DepartmentID]) VALUES (N'C1061', 2012, N'Physics', 4, 1)
INSERT [dbo].[Course] ([CourseID], [Year], [Title], [Credits], [DepartmentID]) VALUES (N'C2021', 2012, N'Composition', 3, 2)
INSERT [dbo].[Course] ([CourseID], [Year], [Title], [Credits], [DepartmentID]) VALUES (N'C2042', 2012, N'Literature', 4, 2)
SET IDENTITY_INSERT [dbo].[Department] ON

INSERT [dbo].[Department] ([DepartmentID], [Name], [Budget], [StartDate], [Administrator]) VALUES (1, N'Engineering', 350000.0000, CAST(0x0000999C00000000 AS DateTime), 2)
INSERT [dbo].[Department] ([DepartmentID], [Name], [Budget], [StartDate], [Administrator]) VALUES (2, N'English', 120000.0000, CAST(0x0000999C00000000 AS DateTime), 6)
INSERT [dbo].[Department] ([DepartmentID], [Name], [Budget], [StartDate], [Administrator]) VALUES (4, N'Economics', 200000.0000, CAST(0x0000999C00000000 AS DateTime), 4)
INSERT [dbo].[Department] ([DepartmentID], [Name], [Budget], [StartDate], [Administrator]) VALUES (7, N'Mathematics', 250024.0000, CAST(0x0000999C00000000 AS DateTime), 3)
SET IDENTITY_INSERT [dbo].[Department] OFF
SET IDENTITY_INSERT [dbo].[Person] ON

INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (1, N'Hu', N'Nan', NULL, CAST(0x0000A0BF00000000 AS DateTime))
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (2, N'Norman', N'Laura', NULL, CAST(0x0000A0BF00000000 AS DateTime))
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (3, N'Olivotto', N'Nino', NULL, CAST(0x0000A0BF00000000 AS DateTime))
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (4, N'Anand', N'Arturo', NULL, CAST(0x0000A0BF00000000 AS DateTime))
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (5, N'Jai', N'Damien', NULL, CAST(0x0000A0BF00000000 AS DateTime))
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (6, N'Holt', N'Roger', CAST(0x000097F100000000 AS DateTime), NULL)
INSERT [dbo].[Person] ([PersonID], [LastName], [FirstName], [HireDate], [EnrollmentDate]) VALUES (7, N'Martin', N'Randall', CAST(0x00008B1A00000000 AS DateTime), NULL)
SET IDENTITY_INSERT [dbo].[Person] OFF
SET IDENTITY_INSERT [dbo].[StudentGrade] ON

INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (1, N'C1045', 1, CAST(3.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (2, N'C1045', 2, CAST(3.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (3, N'C1045', 3, CAST(2.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (4, N'C1045', 4, CAST(4.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (5, N'C1045', 5, CAST(3.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (6, N'C1061', 1, CAST(4.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (7, N'C1061', 3, CAST(3.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (8, N'C1061', 4, CAST(2.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (9, N'C1061', 5, CAST(1.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (10, N'C2021', 1, CAST(2.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (11, N'C2021', 2, CAST(3.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (12, N'C2021', 4, CAST(3.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (13, N'C2021', 5, CAST(3.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (14, N'C2042', 1, CAST(2.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (15, N'C2042', 2, CAST(3.50 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (16, N'C2042', 3, CAST(4.00 AS Decimal(3, 2)))
INSERT [dbo].[StudentGrade] ([EnrollmentID], [CourseID], [StudentID], [Grade]) VALUES (17, N'C2042', 5, CAST(3.00 AS Decimal(3, 2)))
SET IDENTITY_INSERT [dbo].[StudentGrade] OFF
ALTER TABLE [dbo].[Course]  WITH CHECK ADD  CONSTRAINT [FK_Course_Department] FOREIGN KEY([DepartmentID])
REFERENCES [dbo].[Department] ([DepartmentID])
GO
ALTER TABLE [dbo].[Course] CHECK CONSTRAINT [FK_Course_Department]
GO
ALTER TABLE [dbo].[StudentGrade]  WITH CHECK ADD  CONSTRAINT [FK_StudentGrade_Student] FOREIGN KEY([StudentID])
REFERENCES [dbo].[Person] ([PersonID])
GO
ALTER TABLE [dbo].[StudentGrade] CHECK CONSTRAINT [FK_StudentGrade_Student]
GO

Next, compile and execute the following:

using System;
using System.Data;
using Microsoft.Data.SqlClient;
using System.Threading.Tasks;

class Program
{

    static class SqlHelper
    {
        // Set the connection, command, and then execute the command with non query.
        public static Int32 ExecuteNonQuery(String connectionString, String commandText,
        CommandType commandType, params SqlParameter[] parameters)
        {
            using (SqlConnection conn = new SqlConnection(connectionString))
            {
                using (SqlCommand cmd = new SqlCommand(commandText, conn))
                {
                    // There're three command types: StoredProcedure, Text, TableDirect. The TableDirect
                    // type is only for OLE DB.
                    cmd.CommandType = commandType;
                    cmd.Parameters.AddRange(parameters);

                    conn.Open();
                    return cmd.ExecuteNonQuery();
                }
            }
        }

        // Set the connection, command, and then execute the command and only return one value.
        public static Object ExecuteScalar(String connectionString, String commandText,
        CommandType commandType, params SqlParameter[] parameters)
        {
            using (SqlConnection conn = new SqlConnection(connectionString))
            {
                using (SqlCommand cmd = new SqlCommand(commandText, conn))
                {
                    cmd.CommandType = commandType;
                    cmd.Parameters.AddRange(parameters);

                    conn.Open();
                    return cmd.ExecuteScalar();
                }
            }
        }

        // Set the connection, command, and then execute the command with query and return the reader.
        public static SqlDataReader ExecuteReader(String connectionString, String commandText,
        CommandType commandType, params SqlParameter[] parameters)
        {
            SqlConnection conn = new SqlConnection(connectionString);

            using (SqlCommand cmd = new SqlCommand(commandText, conn))
            {
                cmd.CommandType = commandType;
                cmd.Parameters.AddRange(parameters);

                conn.Open();
                // When using CommandBehavior.CloseConnection, the connection will be closed when the
                // IDataReader is closed.
                SqlDataReader reader = cmd.ExecuteReader(CommandBehavior.CloseConnection);

                return reader;
            }
        }
    }

    static void Main(string[] args)
    {
        String connectionString = "Data Source=(local);Initial Catalog=MySchool;Integrated Security=True;";

        CountCourses(connectionString, 2012);
        Console.WriteLine();

        Console.WriteLine("Following result is the departments that started from 2007:");
        GetDepartments(connectionString, 2007);
        Console.WriteLine();

        Console.WriteLine("Add the credits when the credits of course is lower than 4.");
        AddCredits(connectionString, 4);
        Console.WriteLine();

        Console.WriteLine("Please press any key to exit...");
        Console.ReadKey();
    }

    static void CountCourses(String connectionString, Int32 year)
    {
        String commandText = "Select Count([CourseID]) FROM [MySchool].[dbo].[Course] Where Year=@Year";
        SqlParameter parameterYear = new SqlParameter("@Year", SqlDbType.Int);
        parameterYear.Value = year;

        Object oValue = SqlHelper.ExecuteScalar(connectionString, commandText, CommandType.Text, parameterYear);
        Int32 count;
        if (Int32.TryParse(oValue.ToString(), out count))
            Console.WriteLine("There {0} {1} course{2} in {3}.", count > 1 ? "are" : "is", count, count > 1 ? "s" : null, year);
    }

    // Display the Departments that start from the specified year.
    static void GetDepartments(String connectionString, Int32 year)
    {
        String commandText = "dbo.GetDepartmentsOfSpecifiedYear";

        // Specify the year of StartDate
        SqlParameter parameterYear = new SqlParameter("@Year", SqlDbType.Int);
        parameterYear.Value = year;

        // When the direction of parameter is set as Output, you can get the value after
        // executing the command.
        SqlParameter parameterBudget = new SqlParameter("@BudgetSum", SqlDbType.Money);
        parameterBudget.Direction = ParameterDirection.Output;

        using (SqlDataReader reader = SqlHelper.ExecuteReader(connectionString, commandText,
        CommandType.StoredProcedure, parameterYear, parameterBudget))
        {
            Console.WriteLine("{0,-20}{1,-20}{2,-20}{3,-20}", "Name", "Budget", "StartDate",
            "Administrator");
            while (reader.Read())
            {
                Console.WriteLine("{0,-20}{1,-20:C}{2,-20:d}{3,-20}", reader["Name"],
                reader["Budget"], reader["StartDate"], reader["Administrator"]);
            }
        }
        Console.WriteLine("{0,-20}{1,-20:C}", "Sum:", parameterBudget.Value);
    }

    // If credits of course is lower than the certain value, the method will add the credits.
    static void AddCredits(String connectionString, Int32 creditsLow)
    {
        String commandText = "Update [MySchool].[dbo].[Course] Set Credits=Credits+1 Where Credits<@Credits";

        SqlParameter parameterCredits = new SqlParameter("@Credits", creditsLow);

        Int32 rows = SqlHelper.ExecuteNonQuery(connectionString, commandText, CommandType.Text, parameterCredits);

        Console.WriteLine("{0} row{1} {2} updated.", rows, rows > 1 ? "s" : null, rows > 1 ? "are" : "is");
    }
}

Remarks

When an instance of SqlCommand is created, the read/write properties are set to their initial values. For a list of these values, see the SqlCommand constructor.

SqlCommand features the following methods for executing commands at a SQL Server database:

Item Description
BeginExecuteNonQuery Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand, generally executing commands such as INSERT, DELETE, UPDATE, and SET statements. Each call to BeginExecuteNonQuery must be paired with a call to EndExecuteNonQuery which finishes the operation, typically on a separate thread.
BeginExecuteReader Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand and retrieves one or more results sets from the server. Each call to BeginExecuteReader must be paired with a call to EndExecuteReader which finishes the operation, typically on a separate thread.
BeginExecuteXmlReader Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand. Each call to BeginExecuteXmlReader must be paired with a call to EndExecuteXmlReader, which finishes the operation, typically on a separate thread, and returns an XmlReader object.
ExecuteReader Executes commands that return rows. For increased performance, ExecuteReader invokes commands using the Transact-SQL sp_executesql system stored procedure. Therefore, ExecuteReader might not have the effect that you want if used to execute commands such as Transact-SQL SET statements.
ExecuteNonQuery Executes commands such as Transact-SQL INSERT, DELETE, UPDATE, and SET statements.
ExecuteScalar Retrieves a single value (for example, an aggregate value) from a database.
ExecuteXmlReader Sends the CommandText to the Connection and builds an XmlReader object.

You can reset the CommandText property and reuse the SqlCommand object. However, you must close the SqlDataReader before you can execute a new or previous command.

If a SqlException is generated by the method executing a SqlCommand, the SqlConnection remains open when the severity level is 19 or less. When the severity level is 20 or greater, the server ordinarily closes the SqlConnection. However, the user can reopen the connection and continue.

Note

Nameless, also called ordinal, parameters are not supported by the .NET Framework Data Provider for SQL Server.

Constructors

SqlCommand()

Initializes a new instance of the SqlCommand class.

SqlCommand(String, SqlConnection, SqlTransaction, SqlCommandColumnEncryptionSetting)

Initializes a new instance of the SqlCommand class with specified command text, connection, transaction, and encryption setting.

SqlCommand(String, SqlConnection, SqlTransaction)

Initializes a new instance of the SqlCommand class with the text of the query, a SqlConnection , and the SqlTransaction .

SqlCommand(String, SqlConnection)

Initializes a new instance of the SqlCommand class with the text of the query and a SqlConnection .

SqlCommand(String)

Initializes a new instance of the SqlCommand class with the text of the query.

Properties

ColumnEncryptionSetting

Gets the column encryption setting for this command.

CommandText

Gets or sets the Transact-SQL statement, table name or stored procedure to execute at the data source.

CommandTimeout

Gets or sets the wait time (in seconds) before terminating the attempt to execute a command and generating an error. The default is 30 seconds.

CommandType

Gets or sets a value indicating how the CommandText property is to be interpreted.

Connection

Gets or sets the SqlConnection used by this instance of the SqlCommand .

DesignTimeVisible

Gets or sets a value indicating whether the command object should be visible in a Windows Form Designer control.

EnableOptimizedParameterBinding

Gets or sets a value indicating whether the command object should optimize parameter performance by disabling Output and InputOutput directions when submitting the command to the SQL Server.

Notification

Gets or sets a value that specifies the SqlNotificationRequest object bound to this command.

NotificationAutoEnlist

Gets or sets a value indicating whether the application should automatically receive query notifications from a common SqlDependency object.

Parameters

Gets the SqlParameterCollection .

RetryLogicProvider

Gets or sets a value that specifies the SqlRetryLogicBaseProvider object bound to this command.

Transaction

Gets or sets the SqlTransaction within which the SqlCommand executes.

UpdatedRowSource

Gets or sets how command results are applied to the DataRow when used by the Update method of the DbDataAdapter.

Methods

BeginExecuteNonQuery()

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand .

BeginExecuteNonQuery(AsyncCallback, Object)

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand , given a callback procedure and state information.

BeginExecuteReader()

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand and returns results as an XmlReader object.

BeginExecuteReader(AsyncCallback, Object, CommandBehavior)

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand , using one of the CommandBehavior values, and retrieving one or more result sets from the server, given a callback procedure and state information.

BeginExecuteReader(AsyncCallback, Object)

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand and returns results as an XmlReader object, using a callback procedure.

BeginExecuteReader(CommandBehavior)

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand using one of the CommandBehavior values.

BeginExecuteXmlReader()

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand and returns results as an XmlReader object.

BeginExecuteXmlReader(AsyncCallback, Object)

Initiates the asynchronous execution of the Transact-SQL statement or stored procedure that is described by this SqlCommand and returns results as an XmlReader object, using a callback procedure.

Cancel()

Tries to cancel the execution of a SqlCommand .

Clone()

Creates a new SqlCommand object that is a copy of the current instance.

CreateParameter()

Creates a new instance of a SqlParameter object.

EndExecuteNonQuery(IAsyncResult)

Finishes asynchronous execution of a Transact-SQL statement.

EndExecuteReader(IAsyncResult)

Finishes asynchronous execution of a Transact-SQL statement, returning the requested SqlDataReader .

EndExecuteXmlReader(IAsyncResult)

Finishes asynchronous execution of a Transact-SQL statement, returning the requested data as XML.

ExecuteNonQuery()

Executes a Transact-SQL statement against the connection and returns the number of rows affected.

ExecuteNonQueryAsync(CancellationToken)

An asynchronous version of ExecuteNonQuery() , which executes a Transact-SQL statement against the connection and returns the number of rows affected. The cancellation token can be used to request that the operation be abandoned before the command timeout elapses. Exceptions will be reported via the returned Task object.

ExecuteReader()

Sends the CommandText to the Connection and builds a SqlDataReader .

ExecuteReader(CommandBehavior)

Sends the CommandText to the Connection , and builds a SqlDataReader using one of the CommandBehavior values.

ExecuteReaderAsync()

An asynchronous version of ExecuteReader() , which sends the CommandText to the Connection and builds a SqlDataReader . Exceptions will be reported via the returned Task object.

ExecuteReaderAsync(CancellationToken)

An asynchronous version of ExecuteReader() , which sends the CommandText to the Connection and builds a SqlDataReader .

The cancellation token can be used to request that the operation be abandoned before the command timeout elapses. Exceptions will be reported via the returned Task object.

ExecuteReaderAsync(CommandBehavior, CancellationToken)

An asynchronous version of ExecuteReader(CommandBehavior) , which sends the CommandText to the Connection , and builds a SqlDataReader The cancellation token can be used to request that the operation be abandoned before the command timeout elapses. Exceptions will be reported via the returned Task object.

ExecuteReaderAsync(CommandBehavior)

An asynchronous version of ExecuteReader(CommandBehavior) , which sends the CommandText to the Connection , and builds a SqlDataReader . Exceptions will be reported via the returned Task object.

ExecuteScalar()

Executes the query, and returns the first column of the first row in the result set returned by the query. Additional columns or rows are ignored.

ExecuteScalarAsync(CancellationToken)

An asynchronous version of ExecuteScalar() , which executes the query asynchronously and returns the first column of the first row in the result set returned by the query. Additional columns or rows are ignored.

The cancellation token can be used to request that the operation be abandoned before the command timeout elapses. Exceptions will be reported via the returned Task object.

ExecuteXmlReader()

Sends the CommandText to the Connection and builds an XmlReader object.

ExecuteXmlReaderAsync()

An asynchronous version of ExecuteXmlReader() , which sends the CommandText to the Connection and builds an XmlReader object.

Exceptions will be reported via the returned Task object.

ExecuteXmlReaderAsync(CancellationToken)

An asynchronous version of ExecuteXmlReader() , which sends the CommandText to the Connection and builds an XmlReader object.

The cancellation token can be used to request that the operation be abandoned before the command timeout elapses. Exceptions will be reported via the returned Task object.

Prepare()

Creates a prepared version of the command on an instance of SQL Server.

RegisterColumnEncryptionKeyStoreProvidersOnCommand(IDictionary<String,SqlColumnEncryptionKeyStoreProvider>)

Registers the encryption key store providers on the SqlCommand instance. If this function has been called, any providers registered using the RegisterColumnEncryptionKeyStoreProviders(IDictionary<String,SqlColumnEncryptionKeyStoreProvider>) or RegisterColumnEncryptionKeyStoreProvidersOnConnection(IDictionary<String,SqlColumnEncryptionKeyStoreProvider>) methods will be ignored. This function can be called more than once. This does shallow copying of the dictionary so that the app cannot alter the custom provider list once it has been set.

ResetCommandTimeout()

Resets the CommandTimeout property to its default value.

Events

StatementCompleted

Occurs when the execution of a Transact-SQL statement completes.

Explicit Interface Implementations

ICloneable.Clone()

Applies to