IsolationLevel 열거형
정의
중요
일부 정보는 릴리스되기 전에 상당 부분 수정될 수 있는 시험판 제품과 관련이 있습니다. Microsoft는 여기에 제공된 정보에 대해 어떠한 명시적이거나 묵시적인 보증도 하지 않습니다.
연결에 대한 트랜잭션 잠금 동작을 지정합니다.
이 열거형은 멤버 값의 비트 조합을 지원합니다.
public enum class IsolationLevelpublic enum IsolationLevel[System.Flags]
public enum IsolationLeveltype IsolationLevel = [<System.Flags>]
type IsolationLevel = Public Enum IsolationLevel- 상속
- 특성
필드
| Chaos | 16 | 격리 수준이 높은 트랜잭션에서 보류 중인 변경은 덮어쓸 수 없습니다. |
| ReadCommitted | 4096 | 공유 잠금은 커밋되지 않은 읽기를 방지하기 위해 데이터를 읽는 동안 유지되지만 트랜잭션이 끝나기 전에 데이터가 변경되어 반복되지 않은 읽기나 팬텀 데이터가 생성될 수 있습니다. |
| ReadUncommitted | 256 | 공유 잠금이 발행되지 않았고 단독 잠금이 부여되지 않았음을 의미하는 더티 읽기가 가능합니다. |
| RepeatableRead | 65536 | 잠금은 쿼리에서 사용되는 모든 데이터에 적용되어 데이터를 다른 사용자가 업데이트할 수 없게 합니다. 반복되지 않은 읽기를 금지하지만 팬텀 행의 경우는 가능합니다. |
| Serializable | 1048576 | 범위 잠금을 DataSet에 적용하여 트랜잭션이 완료될 때까지 다른 사용자가 데이터 세트에 행을 삽입하거나 업데이트할 수 없게 합니다. |
| Snapshot | 16777216 | 동일한 데이터에 대해 한 애플리케이션에서 데이터를 수정하고 있을 때 또 다른 애플리케이션에서 읽을 수 있는 데이터 버전을 저장하여 차단을 줄입니다. 다시 쿼리해도 한 트랜잭션에서 다른 트랜잭션의 변경 내용을 볼 수 없음을 나타냅니다. |
| Unspecified | -1 | 지정된 격리 수준과 다른 수준이 사용되지만 수준을 결정할 수는 없습니다. |
예제
이 애플리케이션을 사용 하는 방법을 보여 줍니다 IsolationLevel 에서 DbTransaction합니다. 샘플은 다른 격리 수준에서 허용되는 다음 동작을 보여 줍니다.
더티 읽기.
반복할 수 없는 읽기
팬텀.
이 애플리케이션은 다음 격리 수준에서 실행 됩니다.
ReadUncommitted
ReadCommitted
RepeatableRead
직렬화 가능
스냅샷
PhantomReadThreads 클래스는 특정 트랜잭션이 가상 읽기 동작을 허용하는지 보여 줍니다. 트랜잭션이 동작을 허용하는 경우 스레드는 다음 순서로 작동합니다.
첫 번째 스레드에서 제품(모두)을 선택합니다.
두 번째 스레드에서 새 제품을 삽입합니다.
두 번째 스레드에서 트랜잭션을 커밋합니다.
제품을 다시 선택합니다.
첫 번째 스레드에서 트랜잭션을 커밋합니다.
트랜잭션이 동작을 허용하는 경우 두 가지 선택 작업에서 서로 다른 결과를 가져옵니다.
NonrepeatableReadThreads 클래스는 특정 트랜잭션이 재현할 수 없는 읽기 동작을 허용하는지 보여 줍니다. 트랜잭션이 동작을 허용하는 경우 스레드는 다음 순서로 작동합니다.
첫 번째 스레드에서 product(ProductId=1)를 선택합니다.
두 번째 스레드에서 Quantity 값(ProductId=1)을 업데이트합니다.
두 번째 스레드에서 트랜잭션을 커밋합니다.
제품을 다시 선택합니다.
첫 번째 스레드에서 트랜잭션을 커밋합니다.
트랜잭션이 동작을 허용하는 경우 두 가지 선택 작업에서 서로 다른 결과를 가져옵니다.
ExchangeValuesThreads 클래스는 직렬화 가능 트랜잭션과 스냅샷 트랜잭션 간의 차이를 보여 줍니다. Serializable 트랜잭션의 경우 스레드는 다음 순서로 작동합니다.
첫 번째 스레드에서 제품 가격(ProductId=2)을 가져와 변수에 저장합니다.
첫 번째 스레드에서 제품 가격(ProductId=1)을 제품 가격(ProductId=2)으로 업데이트합니다.
첫 번째 스레드에서 트랜잭션을 커밋합니다.
두 번째 스레드에서 제품 가격(ProductId=1)을 가져와 변수에 저장합니다.
두 번째 스레드에서 제품 가격(ProductId=2)을 제품 가격(ProductId=1)으로 업데이트합니다.
두 번째 스레드에서 트랜잭션을 커밋합니다.
이제 Price(ProductId=1 및 ProductId=2)의 값은 원래 제품 가격(ProductId=2)과 동일합니다.
스냅샷 트랜잭션의 경우 스레드는 다음 순서로 작동합니다.
첫 번째 스레드에서 제품 가격(ProductId=2)을 가져와 변수에 저장합니다.
첫 번째 스레드에서 제품 가격(ProductId=1)을 제품 가격(ProductId=2)으로 업데이트합니다.
두 번째 스레드에서 스냅샷에서 제품 가격(ProductId=1)을 가져와 변수에 저장합니다.
두 번째 스레드에서 제품 가격(ProductId=2)을 제품 가격(ProductId=1)으로 업데이트합니다.
두 번째 스레드에서 트랜잭션을 커밋합니다.
첫 번째 스레드에서 트랜잭션을 커밋합니다.
이제 제품 가격(ProductId=1 및 ProductId=2)을 교환합니다.
DirtyReadThreads 클래스는 특정 트랜잭션이 더티 읽기 동작을 허용하는지 보여 줍니다. 트랜잭션이 동작을 허용하는 경우 스레드는 다음 순서로 작동합니다.
첫 번째 스레드에서 트랜잭션을 시작하고 Quantity 값(ProductId=1)을 추가합니다.
두 번째 스레드에서 Quantity 값을 읽고 값을 다시 추가합니다.
두 번째 스레드에서 트랜잭션을 커밋합니다.
첫 번째 스레드에서 트랜잭션을 롤백합니다.
트랜잭션이 동작을 허용하는 경우 Quantity 값이 두 번 추가됩니다.
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
설명
값은 IsolationLevel 트랜잭션을 수행할 때 .NET 데이터 공급자에서 사용됩니다.
는 IsolationLevel 명시적으로 변경될 때까지 계속 적용되지만 언제든지 변경할 수 있습니다. 새 값은 구문 분석 시간이 아니라 실행 시간에 사용됩니다. 트랜잭션 중에 변경된 경우 서버의 예상 동작은 나머지 모든 문에 새 잠금 수준을 적용하는 것입니다.
를 사용하는 OdbcTransaction경우 를 설정하지 않거나 로 설정 OdbcTransaction.IsolationLevelUnspecified하면 트랜잭션은 사용 중인 드라이버에 의해 결정된 격리 수준에 따라 실행됩니다.
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