IsolationLevel IsolationLevel IsolationLevel IsolationLevel Enum

Definição

Especifica o comportamento de bloqueio de transação para a conexão.Specifies the transaction locking behavior for the connection.

Esta enumeração tem um atributo FlagsAttribute que permite uma combinação bit a bit dos seus valores membros.

public enum class IsolationLevel
[System.Flags]
public enum IsolationLevel
type IsolationLevel = 
Public Enum IsolationLevel
Herança
IsolationLevelIsolationLevelIsolationLevelIsolationLevel
Atributos

Campos

Chaos Chaos Chaos Chaos 16

As alterações pendentes de transações com maior isolamento não podem ser substituídas.The pending changes from more highly isolated transactions cannot be overwritten.

ReadCommitted ReadCommitted ReadCommitted ReadCommitted 4096

Bloqueios compartilhados são mantidos durante a leitura dos dados para impedir leituras sujas, mas os dados podem ser alterados antes do término da transação, resultando em leituras não repetíveis ou em dados fantasmas.Shared locks are held while the data is being read to avoid dirty reads, but the data can be changed before the end of the transaction, resulting in non-repeatable reads or phantom data.

ReadUncommitted ReadUncommitted ReadUncommitted ReadUncommitted 256

Uma leitura suja é possível, o que significa que nenhum bloqueio compartilhado é emitido e nenhum bloqueio exclusivo é respeitado.A dirty read is possible, meaning that no shared locks are issued and no exclusive locks are honored.

RepeatableRead RepeatableRead RepeatableRead RepeatableRead 65536

Os bloqueios são colocados em todos os dados usados em uma consulta, impedindo que outros usuários atualizem os dados.Locks are placed on all data that is used in a query, preventing other users from updating the data. Evita leituras não repetíveis, mas linhas fantasma ainda são possíveis.Prevents non-repeatable reads but phantom rows are still possible.

Serializable Serializable Serializable Serializable 1048576

Um bloqueio de intervalos é colocado no DataSet, impedindo que outros usuários atualizem ou insiram linhas no conjunto de dados até que a transação seja concluída.A range lock is placed on the DataSet, preventing other users from updating or inserting rows into the dataset until the transaction is complete.

Snapshot Snapshot Snapshot Snapshot 16777216

Reduz o bloqueio armazenando uma versão dos dados que um aplicativo pode ler enquanto outro está modificando os mesmos dados.Reduces blocking by storing a version of data that one application can read while another is modifying the same data. Indica que em uma transação não é possível ver as alterações feitas em outras transações, mesmo que a consulta seja repetida.Indicates that from one transaction you cannot see changes made in other transactions, even if you requery.

Unspecified Unspecified Unspecified Unspecified -1

Um nível de isolamento diferente daquele especificado está sendo usado, mas não é possível determinar o nível.A different isolation level than the one specified is being used, but the level cannot be determined.

Exemplos

Este aplicativo demonstra como usar IsolationLevel em DbTransaction.This application demonstrates how to use IsolationLevel in DbTransaction. O exemplo demonstra que um dos seguintes comportamentos são permitidos em diferentes níveis de isolamento:The sample will demonstrate which of the following behaviors are allowed in the different isolation levels:

  • Leituras sujas.Dirty reads.

  • Leituras não repetíveis.Non-repeatable reads.

  • Fantasmas.Phantoms.

Este aplicativo será executado nos seguintes níveis de isolamento:This application will execute in the following isolation levels:

  • Dicas de ReadUncommittedReadUncommitted

  • ReadCommittedReadCommitted

  • RepeatableReadRepeatableRead

  • SerializávelSerializable

  • InstantâneoSnapshot

A classe PhantomReadThreads demonstra se a transação específica permite que o comportamento de leitura fantasma.The PhantomReadThreads class demonstrates if the specific transaction allows the Phantom Read behavior. Se a transação permite que o comportamento, os threads operará na seguinte ordem:If the transaction allows the behavior, the threads will operate in the following order:

  • No primeiro thread, selecione o products(All).In first thread, select the products(All).

  • No segundo thread, inserir um novo produto.In the second thread, insert a new product.

  • Confirme a transação no segundo thread.Commit the transaction in second thread.

  • Selecione os produtos novamente.Select the products again.

  • Confirme a transação no primeiro thread.Commit the transaction in first thread.

Se a transação permite que o comportamento, as duas operações Select obterá os resultados diferentes.If the transaction allows the behavior, the two Select operations will get the different results.

A classe NonrepeatableReadThreads demonstra se a transação específica permite que o comportamento de leitura não repetível.The NonrepeatableReadThreads class demonstrates if the specific transaction allows the Nonrepeatable Read behavior. Se a transação permite que o comportamento, os threads operará na seguinte ordem:If the transaction allows the behavior, the threads will operate in the following order:

  • No primeiro thread, selecione o product(ProductId=1).In first thread, select the product(ProductId=1).

  • No segundo thread, atualize a quantidade value(ProductId=1).In the second thread, update the Quantity value(ProductId=1).

  • Confirme a transação no segundo thread.Commit the transaction in second thread.

  • Selecione o produto novamente.Select the product again.

  • Confirme a transação no primeiro thread.Commit the transaction in first thread.

Se a transação permite que o comportamento, as duas operações Select obterá os resultados diferentes.If the transaction allows the behavior, the two Select operations will get the different results.

A classe ExchangeValuesThreads demonstra a diferença entre as transações Serializable e Snapshot.The ExchangeValuesThreads class demonstrates the difference between the Serializable and Snapshot transaction. Para a transação serializável, threads operará na seguinte ordem:For the Serializable transaction, threads will operate in the following order:

  • No primeiro thread, obter o preço do product(ProductId=2) e armazenamento na variável.In first thread, get the Price of product(ProductId=2) and store in the variable.

  • No primeiro thread, atualize o preço do product(ProductId=1) com o preço de product(ProductId=2).In first thread, update the Price of product(ProductId=1) with the price of product(ProductId=2).

  • Confirme a transação no primeiro thread.Commit the transaction in first thread.

  • No segundo thread, obter o preço do product(ProductId=1) e armazenamento na variável.In second thread, get the Price of product(ProductId=1) and store in the variable.

  • No segundo thread, atualize o preço do product(ProductId=2) com o preço de product(ProductId=1).In second thread, update the Price of product(ProductId=2) with the price of product(ProductId=1).

  • Confirme a transação no segundo thread.Commit the transaction in second thread.

Agora, os valores do preço (ProductId = 1 e ProductId = 2) são os mesmos o preço de Product(ProductId=2) original.Now the values of the Price(ProductId=1 and ProductId=2) are as same as the original Price of Product(ProductId=2).

Para a transação de instantâneo, threads operará na seguinte ordem:For the Snapshot transaction, threads will operate in the following order:

  • No primeiro thread, obter o preço do product(ProductId=2) e armazenamento na variável;In first thread, get the Price of product(ProductId=2) and store in the variable;

  • No primeiro thread, atualize o preço do product(ProductId=1) com o preço de product(ProductId=2).In first thread, update the Price of product(ProductId=1) with the price of product(ProductId=2).

  • No segundo thread, obtenha o preço de product(ProductId=1) do instantâneo e armazene na variável.In second thread, get the Price of product(ProductId=1) from the snapshot and store in the variable.

  • No segundo thread, atualize o preço do product(ProductId=2) com o preço de product(ProductId=1).In second thread, update the Price of product(ProductId=2) with the price of product(ProductId=1).

  • Confirme a transação no segundo thread.Commit the transaction in second thread.

  • Confirme a transação no primeiro thread.Commit the transaction in first thread.

Agora o preço de produtos do exchange (ProductId = 1 e ProductId = 2).Now exchange the Price of products(ProductId=1 and ProductId=2).

A classe DirtyReadThreads demonstra se a transação específica permite que o comportamento de leitura suja.The DirtyReadThreads class demonstrates if the specific transaction allows the Dirty Read behavior. Se a transação permite que o comportamento, os threads operará na seguinte ordem:If the transaction allows the behavior, the threads will operate in the following order:

  • No primeiro thread, iniciar uma transação e adicione o value(ProductId=1) quantidade.In first thread, begin a transaction and add the Quantity value(ProductId=1).

  • No segundo thread, ler o valor de quantidade e adicione o valor novamente.In the second thread, read the Quantity value and add the value again.

  • Confirme a transação no segundo thread.Commit the transaction in second thread.

  • Reverta a transação no primeiro thread.Roll back the transaction in first thread.

Se a transação permite que o comportamento, o valor de quantidade será adicionado duas vezes.If the transaction allows the behavior, the Quantity value will be added twice.

Projetos c# e Visual Basic com este exemplo de código podem ser encontrados no exemplos de código do desenvolvedor.C# and Visual Basic projects with this code sample can be found on Developer Code Samples.

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

namespace CSDataIsolationLevel {

   // Use the delegate to call the different threads.
   public delegate void AsyncAccessDatabase(String connString, IsolationLevel level);

   static class DirtyReadThreads {
      public static void DirtyReadFirstThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the DirtyReadFirstThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel; 

                    Update dbo.Products set Quantity=Quantity+100 where ProductId=1;
                    WaitFor Delay '00:00:06';";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "DirtyReadFirst")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;
                  command.ExecuteNonQuery();
               }

               if (tran != null)
                  tran.Rollback();
            }
         }

         Console.WriteLine("Exit from the DirtyReadFirstThread.....");
      }

      public static void DirtyReadSecondThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the DirtyReadSecondThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel;

                    WaitFor Delay '00:00:03'; 

                    Declare @qty int;
                    select @qty=Quantity from dbo.Products where ProductId=1;

                    Update dbo.Products set Quantity=@qty+100 where ProductId=1;";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "DirtyReadSecond")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;
                  command.ExecuteNonQuery();
               }
               tran.Commit();
            }
         }

         Console.WriteLine("Exit from the DirtyReadSecondThread.....");
      }
   }


   static class NonrepeatableReadThreads {
      public static void NonrepeatableReadFirstThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the NonrepeatableReadFirstThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel; 

                    Select ProductId,ProductName,Quantity,Price
                    from dbo.Products
                    where ProductId=1

                    WaitFor Delay '00:00:06';

                    Select ProductId,ProductName,Quantity,Price
                    from dbo.Products
                    where ProductId=1";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "NonrepeatableReadFirst")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;

                  using (SqlDataReader reader = command.ExecuteReader()) {
                     Boolean isFirstReader = true;
                     do {
                        Console.WriteLine("It's the result of {0} read:", isFirstReader ? "first" : "second");
                        TransactionIsolationLevels.DisplayData(reader);
                        isFirstReader = !isFirstReader;
                     } while (reader.NextResult() && !isFirstReader);
                  }
               }

               tran.Commit();
            }
         }

         Console.WriteLine("Exit from the NonrepeatableReadFirstThread.....");
      }

      public static void NonrepeatableReadSecondThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the NonrepeatableReadSecondThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel;

                    WaitFor Delay '00:00:03'; 

                    Update dbo.Products set Quantity=Quantity+100 where ProductId=1;";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "NonrepeatableReadSecond")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;
                  command.ExecuteNonQuery();
               }
               tran.Commit();
            }
         }

         Console.WriteLine("Exit from the NonrepeatableReadSecondThread.....");
      }
   }


   static class PhantomReadThreads {
      public static void PhantomReadFirstThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the PhantomReadFirstThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel; 

                    Select ProductId,ProductName,Quantity,Price
                    from dbo.Products

                    WaitFor Delay '00:00:06';

                    Select ProductId,ProductName,Quantity,Price
                    from dbo.Products";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "PhantomReadFirst")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;

                  using (SqlDataReader reader = command.ExecuteReader()) {
                     Boolean isFirstReader = true;
                     do {
                        Console.WriteLine("It's the result of {0} read:", isFirstReader ? "first" : "second");

                        TransactionIsolationLevels.DisplayData(reader);

                        isFirstReader = !isFirstReader;
                     } while (reader.NextResult() && !isFirstReader);
                  }
               }

               tran.Commit();
            }
         }
         Console.WriteLine("Exit from the PhantomReadFirstThread.....");
      }

      public static void PhantomReadSecondThread(String connStrig, IsolationLevel level) {
         Console.WriteLine("Begin the PhantomReadSecondThread.....");

         using (SqlConnection conn = new SqlConnection(connStrig)) {
            String cmdText = @"Use DbDataIsolationLevel;

                    WaitFor Delay '00:00:03'; 

                    INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) 
                    VALUES (N'White Bike', 843, 1349.00)";

            conn.Open();

            using (SqlTransaction tran = conn.BeginTransaction(level, "PhantomReadSecond")) {
               using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                  command.Transaction = tran;
                  command.ExecuteNonQuery();
               }
               tran.Commit();
            }
         }

         Console.WriteLine("Exit from the PhantomReadSecondThread.....");
      }
   }


   // Demonstrates if the specific transaction allows the following behaviors:
   // 1. Dirty reads;
   // 2. Non-repeatable reads;
   // 3. Phantoms.
   static class TransactionIsolationLevels {
      public static void DemonstrateIsolationLevel(String connString, IsolationLevel level) {
         // Before connect the database, recreate the table.
         OperateDatabase.CreateTable(connString);
         DemonstrateIsolationLevel(connString, level, DirtyReadThreads.DirtyReadFirstThread, DirtyReadThreads.DirtyReadSecondThread);
         DisplayData(connString);
         Console.WriteLine();

         OperateDatabase.CreateTable(connString);
         DemonstrateIsolationLevel(connString, level, NonrepeatableReadThreads.NonrepeatableReadFirstThread, NonrepeatableReadThreads.NonrepeatableReadSecondThread);
         Console.WriteLine();

         OperateDatabase.CreateTable(connString);
         DemonstrateIsolationLevel(connString, level, PhantomReadThreads.PhantomReadFirstThread, PhantomReadThreads.PhantomReadSecondThread);
         Console.WriteLine();
      }

      // Demonstrates if the specific transaction allows the specific behaviors.
      public static void DemonstrateIsolationLevel(String connString, IsolationLevel level,
          AsyncAccessDatabase firstThread, AsyncAccessDatabase secondThread) {
         Task[] tasks ={
                            Task.Factory.StartNew(()=>firstThread(connString, level)),
                            Task.Factory.StartNew(()=>secondThread(connString, level))
                        };

         Task.WaitAll(tasks);
      }

      static class ExchangeValuesThreads {
         public static void ExchangeValuesFirstThread(String connStrig, IsolationLevel level) {
            Console.WriteLine("Begin the ExchangeValuesFirstThread.....");

            using (SqlConnection conn = new SqlConnection(connStrig)) {
               String cmdText = @"Use DbDataIsolationLevel;

                    Declare @price money;
                    select @price=Price from dbo.Products where ProductId=2;

                    Update dbo.Products set Price=@price where ProductId=1;

                    WaitFor Delay '00:00:06'; ";

               conn.Open();
               using (SqlTransaction tran = conn.BeginTransaction(level, "ExchangeValuesFirst")) {

                  using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                     command.Transaction = tran;
                     command.ExecuteNonQuery();
                  }

                  tran.Commit();
               }
            }

            Console.WriteLine("Exit from the ExchangeValuesFirstThread.....");
         }

         public static void ExchangeValuesSecondThread(String connStrig, IsolationLevel level) {
            Console.WriteLine("Begin the ExchangeValuesSecondThread.....");

            using (SqlConnection conn = new SqlConnection(connStrig)) {
               String cmdText = @"Use DbDataIsolationLevel;

                    WaitFor Delay '00:00:03'; 

                    Declare @price money;
                    select @price=Price from dbo.Products where ProductId=1;

                    Update dbo.Products set Price=@price where ProductId=2;";

               conn.Open();

               using (SqlTransaction tran = conn.BeginTransaction(level, "ExchangeValuesSecond")) {
                  using (SqlCommand command = new SqlCommand(cmdText, conn)) {
                     command.Transaction = tran;
                     command.ExecuteNonQuery();
                  }
                  tran.Commit();
               }
            }

            Console.WriteLine("Exit from the ExchangeValuesSecondThread.....");
         }
      }

      // Demonstrates the difference between the Serializable and Snapshot transaction
      public static void DemonstrateBetweenSnapshotAndSerializable(String connString) {
         OperateDatabase.CreateTable(connString);

         Console.WriteLine("Exchange Vaules in the Snapshot transaction:");
         DemonstrateIsolationLevel(connString, IsolationLevel.Snapshot,
             ExchangeValuesThreads.ExchangeValuesFirstThread,
             ExchangeValuesThreads.ExchangeValuesSecondThread);
         DisplayData(connString);
         Console.WriteLine();

         Console.WriteLine("Cannot Exchange Vaules in the Serializable transaction:");
         OperateDatabase.CreateTable(connString);
         DemonstrateIsolationLevel(connString, IsolationLevel.Serializable,
             ExchangeValuesThreads.ExchangeValuesFirstThread,
             ExchangeValuesThreads.ExchangeValuesSecondThread);
         DisplayData(connString);
      }

      public static void DisplayData(String connString) {
         using (SqlConnection conn = new SqlConnection(connString)) {
            String cmdText = @"Use DbDataIsolationLevel; 

                    Select ProductId,ProductName,Quantity,Price
                    from dbo.Products";

            conn.Open();

            using (SqlCommand command = new SqlCommand(cmdText, conn)) {
               using (SqlDataReader reader = command.ExecuteReader()) {
                  DisplayData(reader);
               }
            }
         }
      }

      public static void DisplayData(SqlDataReader reader) {
         Boolean isFirst = true;

         while (reader.Read()) {
            if (isFirst) {
               isFirst = false;

               for (int i = 0; i < reader.FieldCount; i++)
                  Console.Write("{0,-12}   ", reader.GetName(i));
               Console.WriteLine();
            }

            for (int i = 0; i < reader.FieldCount; i++)
               Console.Write("{0,-12}   ", reader[i]);
            Console.WriteLine();
         }
      }
   }

   // This class includes database operations. If there's no database 'DbDataIsolationLevel', create the database.
   static class OperateDatabase {
      public static Boolean CreateDatabase(String connString) {
         using (SqlConnection conn = new SqlConnection(connString)) {
            String cmdText = @"Use Master;

                                     if Db_Id('DbDataIsolationLevel') is null
                                      create Database [DbDataIsolationLevel];";

            using (SqlCommand command = new SqlCommand(cmdText, conn)) {
               conn.Open();
               command.ExecuteNonQuery();
            }

            Console.WriteLine("Create the Database 'DbDataIsolationLevel'");
         }

         return true;
      }


      // If there's no table [dbo].[Products] in DbDataIsolationLevel, create the table; or recreate it.
      public static Boolean CreateTable(String connString) {
         using (SqlConnection conn = new SqlConnection(connString)) {
            String cmdText = @"Use DbDataIsolationLevel

                                    if Object_ID('[dbo].[Products]') is not null
                                    drop table [dbo].[Products]

                                    Create Table [dbo].[Products]
                                    (
                                    [ProductId] int IDENTITY(1,1) primary key,
                                    [ProductName] NVarchar(100) not null,
                                    [Quantity] int null,
                                    [Price] money null
                                    )";

            using (SqlCommand command = new SqlCommand(cmdText, conn)) {
               conn.Open();
               command.ExecuteNonQuery();
            }
         }

         return InsertRows(connString);
      }

      // Insert some rows into [dbo].[Products] table.
      public static Boolean InsertRows(String connString) {
         using (SqlConnection conn = new SqlConnection(connString)) {
            String cmdText = @"Use DbDataIsolationLevel

                    INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Blue Bike', 365,1075.00)
                    INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Red Bike', 159, 1299.00)
                    INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Black Bike', 638, 1159.00)";

            using (SqlCommand command = new SqlCommand(cmdText, conn)) {
               conn.Open();
               command.ExecuteNonQuery();
            }
         }
         return true;
      }

      // Turn on or off 'ALLOW_SNAPSHOT_ISOLATION'
      public static Boolean SetSnapshot(String connString, Boolean isOpen) {
         using (SqlConnection conn = new SqlConnection(connString)) {
            String cmdText = null;

            if (isOpen)
               cmdText = @"ALTER DATABASE DbDataIsolationLevel SET ALLOW_SNAPSHOT_ISOLATION ON";
            else
               cmdText = @"ALTER DATABASE DbDataIsolationLevel SET ALLOW_SNAPSHOT_ISOLATION OFF";

            using (SqlCommand command = new SqlCommand(cmdText, conn)) {
               conn.Open();
               command.ExecuteNonQuery();
            }
         }

         return true;
      }
   }
   class Program {
      static void Main(string[] args) {
         String connString = "Data Source=(local);Initial Catalog=master;Integrated Security=True;Asynchronous Processing=true;";

         OperateDatabase.CreateDatabase(connString);
         Console.WriteLine();

         Console.WriteLine("Demonstrate the ReadUncommitted transaction: ");
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString,
             System.Data.IsolationLevel.ReadUncommitted);
         Console.WriteLine("-----------------------------------------------");

         Console.WriteLine("Demonstrate the ReadCommitted transaction: ");
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString,
             System.Data.IsolationLevel.ReadCommitted);
         Console.WriteLine("-----------------------------------------------");

         Console.WriteLine("Demonstrate the RepeatableRead transaction: ");
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString,
             System.Data.IsolationLevel.RepeatableRead);
         Console.WriteLine("-----------------------------------------------");

         Console.WriteLine("Demonstrate the Serializable transaction: ");
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString,
             System.Data.IsolationLevel.Serializable);
         Console.WriteLine("-----------------------------------------------");

         Console.WriteLine("Demonstrate the Snapshot transaction: ");
         OperateDatabase.SetSnapshot(connString, true);
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString,
             System.Data.IsolationLevel.Snapshot);
         Console.WriteLine("-----------------------------------------------");

         Console.WriteLine("Demonstrate the difference between the Snapshot and Serializable transactions:");
         TransactionIsolationLevels.DemonstrateBetweenSnapshotAndSerializable(connString);
         OperateDatabase.SetSnapshot(connString, false);
         Console.WriteLine();
      }
   }
}
Imports System.Data.SqlClient
Imports System.Data
Imports System.Threading
Imports System.Threading.Tasks

Namespace CSDataIsolationLevel

   ' Use the delegate to call the different threads.
   Public Delegate Sub AsyncAccessDatabase(connString As [String], level As IsolationLevel)

   NotInheritable Class DirtyReadThreads
      Private Sub New()
      End Sub
      Public Shared Sub DirtyReadFirstThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the DirtyReadFirstThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel; " & vbCr & vbLf & vbCr & vbLf &
                "Update dbo.Products set Quantity=Quantity+100 where ProductId=1;" & vbCr & vbLf &
                "WaitFor Delay '00:00:06';"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "DirtyReadFirst")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran
                  command.ExecuteNonQuery()
               End Using

               If tran IsNot Nothing Then
                  tran.Rollback()
               End If
            End Using
         End Using

         Console.WriteLine("Exit from the DirtyReadFirstThread.....")
      End Sub

      Public Shared Sub DirtyReadSecondThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the DirtyReadSecondThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel;" & vbCr & vbLf & vbCr & vbLf &
                "WaitFor Delay '00:00:03'; " & vbCr & vbLf & vbCr & vbLf &
                "Declare @qty int;" & vbCr & vbLf &
                "select @qty=Quantity from dbo.Products where ProductId=1;" & vbCr & vbLf & vbCr & vbLf &
                "Update dbo.Products set Quantity=@qty+100 where ProductId=1;"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "DirtyReadSecond")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran
                  command.ExecuteNonQuery()
               End Using
               tran.Commit()
            End Using
         End Using

         Console.WriteLine("Exit from the DirtyReadSecondThread.....")
      End Sub
   End Class


   NotInheritable Class NonrepeatableReadThreads
      Private Sub New()
      End Sub
      Public Shared Sub NonrepeatableReadFirstThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the NonrepeatableReadFirstThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel; " & vbCr & vbLf & vbCr & vbLf &
                "Select ProductId,ProductName,Quantity,Price" & vbCr & vbLf &
                "from dbo.Products" & vbCr & vbLf &
                "where ProductId=1" & vbCr & vbLf & vbCr & vbLf &
                "WaitFor Delay '00:00:06';" & vbCr & vbLf & vbCr & vbLf &
                "Select ProductId,ProductName,Quantity,Price" & vbCr & vbLf &
                "from dbo.Products" & vbCr & vbLf &
                "where ProductId=1"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "NonrepeatableReadFirst")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran

                  Using reader As SqlDataReader = command.ExecuteReader()
                     Dim isFirstReader As [Boolean] = True
                     Do
                        Console.WriteLine("It's the result of {0} read:", If(isFirstReader, "first", "second"))
                        TransactionIsolationLevels.DisplayData(reader)
                        isFirstReader = Not isFirstReader
                     Loop While reader.NextResult() AndAlso Not isFirstReader
                  End Using
               End Using

               tran.Commit()
            End Using
         End Using

         Console.WriteLine("Exit from the NonrepeatableReadFirstThread.....")
      End Sub

      Public Shared Sub NonrepeatableReadSecondThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the NonrepeatableReadSecondThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel;" & vbCr & vbLf & vbCr & vbLf &
                "WaitFor Delay '00:00:03'; " & vbCr & vbLf & vbCr & vbLf &
                "Update dbo.Products set Quantity=Quantity+100 where ProductId=1;"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "NonrepeatableReadSecond")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran
                  command.ExecuteNonQuery()
               End Using
               tran.Commit()
            End Using
         End Using

         Console.WriteLine("Exit from the NonrepeatableReadSecondThread.....")
      End Sub
   End Class


   NotInheritable Class PhantomReadThreads
      Private Sub New()
      End Sub
      Public Shared Sub PhantomReadFirstThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the PhantomReadFirstThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel; " & vbCr & vbLf & vbCr & vbLf &
                "Select ProductId,ProductName,Quantity,Price" & vbCr & vbLf &
                "from dbo.Products" & vbCr & vbLf & vbCr & vbLf &
                "WaitFor Delay '00:00:06';" & vbCr & vbLf & vbCr & vbLf &
                "Select ProductId,ProductName,Quantity,Price" & vbCr & vbLf &
                "from dbo.Products"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "PhantomReadFirst")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran

                  Using reader As SqlDataReader = command.ExecuteReader()
                     Dim isFirstReader As [Boolean] = True
                     Do
                        Console.WriteLine("It's the result of {0} read:", If(isFirstReader, "first", "second"))

                        TransactionIsolationLevels.DisplayData(reader)

                        isFirstReader = Not isFirstReader
                     Loop While reader.NextResult() AndAlso Not isFirstReader
                  End Using
               End Using

               tran.Commit()
            End Using
         End Using
         Console.WriteLine("Exit from the PhantomReadFirstThread.....")
      End Sub

      Public Shared Sub PhantomReadSecondThread(connStrig As [String], level As IsolationLevel)
         Console.WriteLine("Begin the PhantomReadSecondThread.....")

         Using conn As New SqlConnection(connStrig)
            Dim cmdText As [String] = "Use DbDataIsolationLevel;" & vbCr & vbLf & vbCr & vbLf &
                "WaitFor Delay '00:00:03'; " & vbCr & vbLf & vbCr & vbLf &
                "INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) " & vbCr & vbLf &
                "VALUES (N'White Bike', 843, 1349.00)"

            conn.Open()

            Using tran As SqlTransaction = conn.BeginTransaction(level, "PhantomReadSecond")
               Using command As New SqlCommand(cmdText, conn)
                  command.Transaction = tran
                  command.ExecuteNonQuery()
               End Using
               tran.Commit()
            End Using
         End Using

         Console.WriteLine("Exit from the PhantomReadSecondThread.....")
      End Sub
   End Class


   ' Demonstrates if the specific transaction allows the following behaviors:
   ' 1. Dirty reads;
   ' 2. Non-repeatable reads;
   ' 3. Phantoms.
   NotInheritable Class TransactionIsolationLevels
      Private Sub New()
      End Sub
      Public Shared Sub DemonstrateIsolationLevel(connString As [String], level As IsolationLevel)
         ' Before connect the database, recreate the table.
         OperateDatabase.CreateTable(connString)
         DemonstrateIsolationLevel(connString, level, AddressOf DirtyReadThreads.DirtyReadFirstThread, AddressOf DirtyReadThreads.DirtyReadSecondThread)
         DisplayData(connString)
         Console.WriteLine()

         OperateDatabase.CreateTable(connString)
         DemonstrateIsolationLevel(connString, level, AddressOf NonrepeatableReadThreads.NonrepeatableReadFirstThread, AddressOf NonrepeatableReadThreads.NonrepeatableReadSecondThread)
         Console.WriteLine()

         OperateDatabase.CreateTable(connString)
         DemonstrateIsolationLevel(connString, level, AddressOf PhantomReadThreads.PhantomReadFirstThread, AddressOf PhantomReadThreads.PhantomReadSecondThread)
         Console.WriteLine()
      End Sub

      ' Demonstrates if the specific transaction allows the specific behaviors.
      Public Shared Sub DemonstrateIsolationLevel(connString As [String], level As IsolationLevel, firstThread As AsyncAccessDatabase, secondThread As AsyncAccessDatabase)
         ' Dim tasks As Task() = {Task.Factory.StartNew(Function() firstThread(connString, level)), Task.Factory.StartNew(Function() secondThread(connString, level))}

         Dim tasks() As Task = {
                         Task.Factory.StartNew(Sub() firstThread(connString, level)),
                         Task.Factory.StartNew(Sub() secondThread(connString, level))
                                        }

         Task.WaitAll(tasks)
      End Sub

      Private NotInheritable Class ExchangeValuesThreads
         Private Sub New()
         End Sub
         Public Shared Sub ExchangeValuesFirstThread(connStrig As [String], level As IsolationLevel)
            Console.WriteLine("Begin the ExchangeValuesFirstThread.....")

            Using conn As New SqlConnection(connStrig)
               Dim cmdText As [String] = "Use DbDataIsolationLevel;" & vbCr & vbLf & vbCr & vbLf &
                   "Declare @price money;" & vbCr & vbLf &
                   "select @price=Price from dbo.Products where ProductId=2;" & vbCr & vbLf & vbCr & vbLf &
                   "Update dbo.Products set Price=@price where ProductId=1;" & vbCr & vbLf & vbCr & vbLf &
                   "WaitFor Delay '00:00:06'; "

               conn.Open()
               Using tran As SqlTransaction = conn.BeginTransaction(level, "ExchangeValuesFirst")

                  Using command As New SqlCommand(cmdText, conn)
                     command.Transaction = tran
                     command.ExecuteNonQuery()
                  End Using

                  tran.Commit()
               End Using
            End Using

            Console.WriteLine("Exit from the ExchangeValuesFirstThread.....")
         End Sub

         Public Shared Sub ExchangeValuesSecondThread(connStrig As [String], level As IsolationLevel)
            Console.WriteLine("Begin the ExchangeValuesSecondThread.....")

            Using conn As New SqlConnection(connStrig)
               Dim cmdText As [String] = "Use DbDataIsolationLevel;" & vbCr & vbLf & vbCr & vbLf &
                   "WaitFor Delay '00:00:03'; " & vbCr & vbLf & vbCr & vbLf &
                   "Declare @price money;" & vbCr & vbLf &
                   "select @price=Price from dbo.Products where ProductId=1;" & vbCr & vbLf & vbCr & vbLf &
                   "Update dbo.Products set Price=@price where ProductId=2;"

               conn.Open()

               Using tran As SqlTransaction = conn.BeginTransaction(level, "ExchangeValuesSecond")
                  Using command As New SqlCommand(cmdText, conn)
                     command.Transaction = tran
                     command.ExecuteNonQuery()
                  End Using
                  tran.Commit()
               End Using
            End Using

            Console.WriteLine("Exit from the ExchangeValuesSecondThread.....")
         End Sub
      End Class

      ' Demonstrates the difference between the Serializable and Snapshot transaction
      Public Shared Sub DemonstrateBetweenSnapshotAndSerializable(connString As [String])
         OperateDatabase.CreateTable(connString)

         Console.WriteLine("Exchange Vaules in the Snapshot transaction:")
         DemonstrateIsolationLevel(connString, IsolationLevel.Snapshot, AddressOf ExchangeValuesThreads.ExchangeValuesFirstThread, AddressOf ExchangeValuesThreads.ExchangeValuesSecondThread)
         DisplayData(connString)
         Console.WriteLine()

         Console.WriteLine("Cannot Exchange Vaules in the Serializable transaction:")
         OperateDatabase.CreateTable(connString)
         DemonstrateIsolationLevel(connString, IsolationLevel.Serializable, AddressOf ExchangeValuesThreads.ExchangeValuesFirstThread, AddressOf ExchangeValuesThreads.ExchangeValuesSecondThread)
         DisplayData(connString)
      End Sub

      Public Shared Sub DisplayData(connString As [String])
         Using conn As New SqlConnection(connString)
            Dim cmdText As [String] = "Use DbDataIsolationLevel; " & vbCr & vbLf & vbCr & vbLf &
                "Select ProductId,ProductName,Quantity,Price" & vbCr & vbLf &
                "from dbo.Products"

            conn.Open()

            Using command As New SqlCommand(cmdText, conn)
               Using reader As SqlDataReader = command.ExecuteReader()
                  DisplayData(reader)
               End Using
            End Using
         End Using
      End Sub

      Public Shared Sub DisplayData(reader As SqlDataReader)
         Dim isFirst As [Boolean] = True

         While reader.Read()
            If isFirst Then
               isFirst = False

               For i As Integer = 0 To reader.FieldCount - 1
                  Console.Write("{0,-12}   ", reader.GetName(i))
               Next
               Console.WriteLine()
            End If

            For i As Integer = 0 To reader.FieldCount - 1
               Console.Write("{0,-12}   ", reader(i))
            Next
            Console.WriteLine()
         End While
      End Sub
   End Class

   ' This class includes database operations. If there's no database 'DbDataIsolationLevel', create the database.
   NotInheritable Class OperateDatabase
      Private Sub New()
      End Sub
      Public Shared Function CreateDatabase(connString As [String]) As [Boolean]
         Using conn As New SqlConnection(connString)
            Dim cmdText As [String] = "Use Master;" & vbCr & vbLf & vbCr & vbLf &
                "if Db_Id('DbDataIsolationLevel') is null" & vbCr & vbLf &
                "create Database [DbDataIsolationLevel];"

            Using command As New SqlCommand(cmdText, conn)
               conn.Open()
               command.ExecuteNonQuery()
            End Using

            Console.WriteLine("Create the Database 'DbDataIsolationLevel'")
         End Using

         Return True
      End Function


      ' If there's no table [dbo].[Products] in DbDataIsolationLevel, create the table; or recreate it.
      Public Shared Function CreateTable(connString As [String]) As [Boolean]
         Using conn As New SqlConnection(connString)
            Dim cmdText As [String] = "Use DbDataIsolationLevel" & vbCr & vbLf & vbCr & vbLf &
                "if Object_ID('[dbo].[Products]') is not null" & vbCr & vbLf &
                "drop table [dbo].[Products]" & vbCr & vbLf & vbCr & vbLf &
                "Create Table [dbo].[Products]" & vbCr & vbLf &
                "(" & vbCr & vbLf &
                "[ProductId] int IDENTITY(1,1) primary key," & vbCr & vbLf &
                "[ProductName] NVarchar(100) not null," & vbCr & vbLf &
                "[Quantity] int null," & vbCr & vbLf &
                "[Price] money null" & vbCr & vbLf & "                                    )"

            Using command As New SqlCommand(cmdText, conn)
               conn.Open()
               command.ExecuteNonQuery()
            End Using
         End Using

         Return InsertRows(connString)
      End Function

      ' Insert some rows into [dbo].[Products] table.
      Public Shared Function InsertRows(connString As [String]) As [Boolean]
         Using conn As New SqlConnection(connString)
            Dim cmdText As [String] = "Use DbDataIsolationLevel" & vbCr & vbLf & vbCr & vbLf &
                "INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Blue Bike', 365,1075.00)" & vbCr & vbLf &
                "INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Red Bike', 159, 1299.00)" & vbCr & vbLf &
                "INSERT [dbo].[Products] ([ProductName], [Quantity], [Price]) VALUES (N'Black Bike', 638, 1159.00)"

            Using command As New SqlCommand(cmdText, conn)
               conn.Open()
               command.ExecuteNonQuery()
            End Using
         End Using
         Return True
      End Function

      ' Turn on or off 'ALLOW_SNAPSHOT_ISOLATION'
      Public Shared Function SetSnapshot(connString As [String], isOpen As [Boolean]) As [Boolean]
         Using conn As New SqlConnection(connString)
            Dim cmdText As [String] = Nothing

            If isOpen Then
               cmdText = "ALTER DATABASE DbDataIsolationLevel SET ALLOW_SNAPSHOT_ISOLATION ON"
            Else
               cmdText = "ALTER DATABASE DbDataIsolationLevel SET ALLOW_SNAPSHOT_ISOLATION OFF"
            End If

            Using command As New SqlCommand(cmdText, conn)
               conn.Open()
               command.ExecuteNonQuery()
            End Using
         End Using

         Return True
      End Function
   End Class
   Class Program
      Public Shared Sub Main(args As String())
         Dim connString As [String] = "Data Source=(local);Initial Catalog=master;Integrated Security=True;Asynchronous Processing=true;"

         OperateDatabase.CreateDatabase(connString)
         Console.WriteLine()

         Console.WriteLine("Demonstrate the ReadUncommitted transaction: ")
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString, System.Data.IsolationLevel.ReadUncommitted)
         Console.WriteLine("-----------------------------------------------")

         Console.WriteLine("Demonstrate the ReadCommitted transaction: ")
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString, System.Data.IsolationLevel.ReadCommitted)
         Console.WriteLine("-----------------------------------------------")

         Console.WriteLine("Demonstrate the RepeatableRead transaction: ")
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString, System.Data.IsolationLevel.RepeatableRead)
         Console.WriteLine("-----------------------------------------------")

         Console.WriteLine("Demonstrate the Serializable transaction: ")
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString, System.Data.IsolationLevel.Serializable)
         Console.WriteLine("-----------------------------------------------")

         Console.WriteLine("Demonstrate the Snapshot transaction: ")
         OperateDatabase.SetSnapshot(connString, True)
         TransactionIsolationLevels.DemonstrateIsolationLevel(connString, System.Data.IsolationLevel.Snapshot)
         Console.WriteLine("-----------------------------------------------")

         Console.WriteLine("Demonstrate the difference between the Snapshot and Serializable transactions:")
         TransactionIsolationLevels.DemonstrateBetweenSnapshotAndSerializable(connString)
         OperateDatabase.SetSnapshot(connString, False)
         Console.WriteLine()
      End Sub
   End Class
End Namespace

Comentários

O IsolationLevel valores são usados por um provedor de dados .NET Framework ao realizar uma transação.The IsolationLevel values are used by a .NET Framework data provider when performing a transaction.

O IsolationLevel permanece em vigor até que explicitamente alterados, mas ele pode ser alterado a qualquer momento.The IsolationLevel remains in effect until explicitly changed, but it can be changed at any time. O novo valor é usado em tempo de execução, não o tempo de análise.The new value is used at execution time, not parse time. Se alterado durante uma transação, o comportamento esperado do servidor é aplicar o novo nível de bloqueio para todas as instruções restantes.If changed during a transaction, the expected behavior of the server is to apply the new locking level to all statements remaining.

Aplica-se a