SqlCommand.RetryLogicProvider Propiedad

Definición

Espacio de nombres:

Microsoft.Data.SqlClient

Ensamblado:

Microsoft.Data.SqlClient.dll

Paquete:

Microsoft.Data.SqlClient v5.2.0

Obtiene o establece un valor que especifica el objeto SqlRetryLogicBaseProvider enlazado a este comando.

public:
 property Microsoft::Data::SqlClient::SqlRetryLogicBaseProvider ^ RetryLogicProvider { Microsoft::Data::SqlClient::SqlRetryLogicBaseProvider ^ get(); void set(Microsoft::Data::SqlClient::SqlRetryLogicBaseProvider ^ value); };

public Microsoft.Data.SqlClient.SqlRetryLogicBaseProvider RetryLogicProvider { get; set; }

member this.RetryLogicProvider : Microsoft.Data.SqlClient.SqlRetryLogicBaseProvider with get, set

Public Property RetryLogicProvider As SqlRetryLogicBaseProvider

Valor de propiedad

SqlRetryLogicBaseProvider

Cuando se establece en NULL (valor predeterminado), se usará el proveedor no reintenible predeterminado.

Comentarios

Debe establecer el valor de esta propiedad antes de que se ejecute el comando para que surta efecto.

Para aplicar la lógica de reintento, siga estos pasos antes de ejecutar el comando:

1. Defina los parámetros de configuración mediante SqlRetryLogicOption el tipo .
2. Cree un SqlRetryLogicBaseProvider mediante uno de los métodos estáticos siguientes de la SqlConfigurableRetryFactory clase :
   • CreateFixedRetryProvider
   • CreateIncrementalRetryProvider
   • CreateExponentialRetryProvider
   • CreateNoneRetryProvider
3. Asigne el SqlRetryLogicBaseProvider objeto a la RetryLogicProvider propiedad .

Nota:

La detección de excepciones que se pueden reintentar es una parte fundamental del patrón de reintento. Antes de aplicar la lógica de reintento, es importante investigar excepciones y elegir un proveedor de reintentos que mejor se adapte a su escenario. En primer lugar, registre las excepciones y busque errores transitorios.

Nota:

El tiempo de espera del comando se reinicia para cada ejecución de un comando dentro de la lógica de reintento y después de aplicar el retraso de tiempo de reintento. No hay ninguna superposición de tiempo entre estas dos acciones.

Nota:

El proveedor lógico de reintento predeterminado no está habilitado a menos que esté configurado en un archivo de configuración de aplicación. Para obtener más información, consulte Archivo de configuración de lógica de reintento configurable.

Precaución

Un comando con CommandBehavior.CloseConnection no es compatible con la lógica de reintento integrada. La conexión subyacente se cierra inmediatamente después del primer intento de ejecución y ya no está disponible para los reintentos posteriores.

Ejemplo

En el ejemplo siguiente se crea una base de datos y se establece una conexión activa a ella. Mientras la base de datos tiene una conexión activa, intenta quitarla con un nuevo SqlConnection objeto y un SqlCommand que usa .SqlRetryLogicBaseProvider Debe eliminar la conexión activa a través de la base de datos para desbloquear el segundo comando antes de superar el número de reintentos.
La conexión de bloqueo simula una situación como un comando que todavía se ejecuta en la base de datos y es poco probable que finalice.

/// Detecting retriable exceptions is a vital part of the retry pattern.
/// Before applying retry logic it is important to investigate exceptions and choose a retry provider that best fits your scenario.
/// First, log your exceptions and find transient faults.
/// The purpose of this sample is to illustrate how to use this feature and the condition might not be realistic.

    private const string DefaultDB = "Northwind";
    private const string CnnStringFormat = "Server=localhost; Initial Catalog={0}; Integrated Security=true; pooling=false;";
    private const string DropDatabaseFormat = "DROP DATABASE {0}";
    private const string CreateDatabaseFormat = "CREATE DATABASE {0}";

    // For general use
    private static SqlConnection s_generalConnection = new SqlConnection(string.Format(CnnStringFormat, DefaultDB));

    static void Main(string[] args)
    {
        // 1. Define the retry logic parameters
        var options = new SqlRetryLogicOption()
        {
            NumberOfTries = 5,
            MaxTimeInterval = TimeSpan.FromSeconds(20),
            DeltaTime = TimeSpan.FromSeconds(1),
            AuthorizedSqlCondition = null,
            // error number 3702 : Cannot drop database "xxx" because it is currently in use.
            TransientErrors = new int[] {3702}
        };

        // 2. Create a retry provider
        var provider = SqlConfigurableRetryFactory.CreateExponentialRetryProvider(options);

        // define the retrying event to report execution attempts
        provider.Retrying += (object s, SqlRetryingEventArgs e) =>
            {
                int attempts = e.RetryCount + 1;
                Console.ForegroundColor = ConsoleColor.Yellow;
                Console.WriteLine($"attempt {attempts} - current delay time:{e.Delay} \n");
                Console.ForegroundColor = ConsoleColor.DarkGray;
                if (e.Exceptions[e.Exceptions.Count - 1] is SqlException ex)
                {
                    Console.WriteLine($"{ex.Number}-{ex.Message}\n");
                }
                else
                {
                    Console.WriteLine($"{e.Exceptions[e.Exceptions.Count - 1].Message}\n");
                }

                // It is not good practice to do time-consuming tasks inside the retrying event which blocks the running task.
                // Use parallel programming patterns to mitigate it.
                if (e.RetryCount == provider.RetryLogic.NumberOfTries - 1)
                {
                    Console.WriteLine("This is the last chance to execute the command before throwing the exception.");
                    Console.WriteLine("Press Enter when you're ready:");
                    Console.ReadLine();
                    Console.WriteLine("continue ...");
                }
            };

        // Open a general connection.
        s_generalConnection.Open();

        try
        {
            // Assume the database is creating and other services are going to connect to it.
            RetryCommand(provider);
        }
        catch
        {
            s_generalConnection.Close();
            // exception is thrown if connecting to the database isn't successful.
            throw;
        }
        s_generalConnection.Close();
    }

    private static void ExecuteCommand(SqlConnection cn, string command)
    {
        using var cmd = cn.CreateCommand();
        cmd.CommandText = command;
        cmd.ExecuteNonQuery();
    }

    private static void FindActiveSessions(SqlConnection cnn, string dbName)
    {
        using var cmd = cnn.CreateCommand();
        cmd.CommandText = "DECLARE @query NVARCHAR(max) = '';" + Environment.NewLine +
            $"SELECT @query = @query + 'KILL ' + CAST(spid as varchar(50)) + ';' FROM sys.sysprocesses WHERE dbid = DB_ID('{dbName}')" + Environment.NewLine +
            "SELECT @query AS Active_sessions;";
        var reader = cmd.ExecuteReader();
        if (reader.Read())
        {
            Console.ForegroundColor = ConsoleColor.Green;
            Console.Write($">> Execute the '{reader.GetString(0)}' command in SQL Server to unblock the running task.");
            Console.ResetColor();
        }
        reader.Close();
    }

Uso con comandos sincrónicos

private static void RetryCommand(SqlRetryLogicBaseProvider provider)
{
    // Change this if you already have a database with the same name in your database.
    string dbName = "RetryCommand_TestDatabase";

    // Subscribe a new event on retry event and discover the active sessions on a database
    EventHandler<SqlRetryingEventArgs> retryEvent = (object s, SqlRetryingEventArgs e) =>
    {
        // Run just at first execution
        if (e.RetryCount == 1)
        {
            FindActiveSessions(s_generalConnection, dbName);
            Console.WriteLine($"Before exceeding {provider.RetryLogic.NumberOfTries} attempts.");
        }
    };

    provider.Retrying += retryEvent;

    // Create a new database.
    ExecuteCommand(s_generalConnection, string.Format(CreateDatabaseFormat, dbName));
    Console.WriteLine($"The '{dbName}' database is created.");

    // Open a connection to the newly created database to block it from being dropped.
    using var blockingCnn = new SqlConnection(string.Format(CnnStringFormat, dbName));
    blockingCnn.Open();
    Console.WriteLine($"Established a connection to '{dbName}' to block it from being dropped.");

    Console.WriteLine($"Dropping `{dbName}`...");
    // Try to drop the new database.
    RetryCommandSync(provider, dbName);

    Console.WriteLine("Command executed successfully.");

    provider.Retrying -= retryEvent;
}

private static void RetryCommandSync(SqlRetryLogicBaseProvider provider, string dbName)
{
    using var cmd = s_generalConnection.CreateCommand();
    cmd.CommandText = string.Format(DropDatabaseFormat, dbName);
    // 3. Assign the `provider` to the command
    cmd.RetryLogicProvider = provider;
    Console.WriteLine("The first attempt, before getting into the retry logic.");
    cmd.ExecuteNonQuery();
}

Uso con comandos asincrónicos

private static void RetryCommand(SqlRetryLogicBaseProvider provider)
{
    // Change this if you already have a database with the same name in your database.
    string dbName = "RetryCommand_TestDatabase";

    // Subscribe to the retry event and discover active sessions in a database
    EventHandler<SqlRetryingEventArgs> retryEvent = (object s, SqlRetryingEventArgs e) =>
    {
        // Run just at first execution
        if (e.RetryCount == 1)
        {
            FindActiveSessions(s_generalConnection, dbName);
            Console.WriteLine($"Before exceeding {provider.RetryLogic.NumberOfTries} attempts.");
        }
    };

    provider.Retrying += retryEvent;

    // Create a new database.
    ExecuteCommand(s_generalConnection, string.Format(CreateDatabaseFormat, dbName));
    Console.WriteLine($"The '{dbName}' database is created.");

    // Open a connection to the newly created database to block it from being dropped.
    using var blockingCnn = new SqlConnection(string.Format(CnnStringFormat, dbName));
    blockingCnn.Open();
    Console.WriteLine($"Established a connection to '{dbName}' to block it from being dropped.");

    Console.WriteLine("Dropping the database...");
    // Try to drop the new database.
    RetryCommandAsync(provider, dbName).Wait();

    Console.WriteLine("Command executed successfully.");

    provider.Retrying -= retryEvent;
}

private static async Task RetryCommandAsync(SqlRetryLogicBaseProvider provider, string dbName)
{
    using var cmd = s_generalConnection.CreateCommand();
    cmd.CommandText = string.Format(DropDatabaseFormat, dbName);
    // 3. Assign the `provider` to the command
    cmd.RetryLogicProvider = provider;
    Console.WriteLine("The first attempt, before getting into the retry logic.");
    await cmd.ExecuteNonQueryAsync();
}

Uso con comandos asincrónicos heredados

Además de asignar el proveedor al comando y ejecutar el comando, es posible ejecutarlo directamente mediante los métodos siguientes SqlRetryLogicBaseProvider :

• Execute<TResult>(Object, Func<TResult>)
• ExecuteAsync(Object, Func<Task>, CancellationToken)
• ExecuteAsync<TResult>(Object, Func<Task<TResult>>, CancellationToken)

private static void RetryCommand(SqlRetryLogicBaseProvider provider)
{
    // Change this if you already have a database with the same name in your database.
    string dbName = "RetryCommand_TestDatabase";

    // Subscribe to the retry event and discover the active sessions in a database
    EventHandler<SqlRetryingEventArgs> retryEvent = (object s, SqlRetryingEventArgs e) =>
    {
        // Run just at first execution
        if (e.RetryCount == 1)
        {
            FindActiveSessions(s_generalConnection, dbName);
            Console.WriteLine($"Before exceeding {provider.RetryLogic.NumberOfTries} attempts.");
        }
    };

    provider.Retrying += retryEvent;

    // Create a new database.
    ExecuteCommand(s_generalConnection, string.Format(CreateDatabaseFormat, dbName));
    Console.WriteLine($"The '{dbName}' database is created.");

    // Open a connection to the newly created database to block it from being dropped.
    using var blockingCnn = new SqlConnection(string.Format(CnnStringFormat, dbName));
    blockingCnn.Open();
    Console.WriteLine($"Established a connection to '{dbName}' to block it from being dropped.");

    Console.WriteLine("Dropping the database...");
    // Try to drop the new database.
    RetryCommandBeginExecuteAsync(provider, dbName).Wait();

    Console.WriteLine("Command executed successfully.");

    provider.Retrying -= retryEvent;
}

private static async Task RetryCommandBeginExecuteAsync(SqlRetryLogicBaseProvider provider, string dbName)
{
    using var cmd = s_generalConnection.CreateCommand();
    cmd.CommandText = string.Format(DropDatabaseFormat, dbName);
    // Execute the BeginExecuteXXX and EndExecuteXXX functions by using Task.Factory.FromAsync().
    // Apply the retry logic by using the ExecuteAsync function of the configurable retry logic provider.
    Console.WriteLine("The first attempt, before getting into the retry logic.");
    await provider.ExecuteAsync(cmd, () => Task.Factory.FromAsync(cmd.BeginExecuteNonQuery(), cmd.EndExecuteNonQuery));
}

Nota:

El modelo de programación asincrónica (APM) es un patrón heredado que usa un par de métodos a partir Begin de y End, y una interfaz denominada IAsyncResult. No se recomienda usar este patrón en nuevas aplicaciones. Estos métodos son para la compatibilidad con versiones anteriores.