リモート処理の例 : 非同期リモート処理
このトピックの対象は、既存のアプリケーションとの下位互換性のために残されているレガシ テクノロジに特定されています。新規の開発には、このトピックを適用しないでください。分散アプリケーションは、現在は Windows Communication Foundation (WCF) を使用して開発する必要があります。
次のサンプル アプリケーションでは、リモート処理のシナリオで非同期プログラミングを使用する例を示します。この例では、最初にリモート オブジェクトに対する同期デリゲートを作成し、それを呼び出して、戻り時のスレッドの待機を示します。次に、非同期デリゲートおよび ManualResetEvent オブジェクトを使用して、リモート オブジェクト メソッドを呼び出し、応答を待機します。
このアプリケーションは、1 台のコンピューター上で、またはネットワーク経由で実行されます。このアプリケーションをネットワーク上で実行する場合、クライアント構成の "localhost" をリモート コンピューターの名前に置き換える必要があります。
注意 : |
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.NET Framework リモート処理は、既定では認証も暗号化も行いません。したがって、クライアントやサーバーとリモートで通信する前に、それらの ID の確認に必要な手順をすべて実行することをお勧めします。.NET Framework リモート処理アプリケーションの実行には、FullTrust アクセス許可が必要です。認証されていないクライアントがサーバーへのアクセスを許可された場合は、完全な信頼を与えられていると見なされ、コードの実行が可能になってしまいます。インターネット インフォメーション サービス (IIS: Internet Information Services) でリモート型をホストするか、リモート型をホストするためのカスタム チャネル シンク ペアを構築することによって、常にエンドポイントを認証し、通信ストリームを暗号化してください。 |
このサンプルをコンパイルするには
コマンド プロンプトで次のコマンドを入力します。
vbc /t:library ServiceClass.vb vbc /r:ServiceClass.dll Server.vb vbc /r:ServiceClass.dll Client.vb
csc /t:library ServiceClass.cs csc /r:ServiceClass.dll Server.cs csc /r:ServiceClass.dll Client.cs
同じディレクトリをポイントする 2 つのコマンド プロンプトを開きます。一方のコマンド プロンプトでは、「server」と入力します。もう一方では、「client」と入力します。
ServiceClass
Imports System
Imports System.Runtime.Remoting
Public Class ServiceClass
Inherits MarshalByRefObject
Public Sub New()
Console.WriteLine("ServiceClass created.")
End Sub
Public Function VoidCall() As String
Console.WriteLine("VoidCall called.")
Return "You are calling the void call on the ServiceClass."
End Function
Public Function GetServiceCode() As Integer
Return Me.GetHashCode()
End Function
Public Function TimeConsumingRemoteCall() As String
Console.WriteLine("TimeConsumingRemoteCall called.")
For i As Integer = 0 To 20000
Console.Write("Counting: " & i.ToString() & vbCr)
Next
Return "This is a time-consuming call."
End Function
End Class
using System;
using System.Runtime.Remoting;
public class ServiceClass : MarshalByRefObject
{
public ServiceClass()
{
Console.WriteLine("ServiceClass created.");
}
public string VoidCall()
{
Console.WriteLine("VoidCall called.");
return "You are calling the void call on the ServiceClass.";
}
public int GetServiceCode()
{
return this.GetHashCode();
}
public string TimeConsumingRemoteCall()
{
Console.WriteLine("TimeConsumingRemoteCall called.");
for (int i = 0; i < 20000; i++)
{
Console.Write("Counting: " + i.ToString());
Console.Write("\r");
}
return "This is a time-consuming call.";
}
}
Server
Imports System
Imports System.Runtime.Remoting
Public Class Server
Public Shared Sub Main()
RemotingConfiguration.Configure("server.exe.config", False)
Console.WriteLine("Waiting...")
Console.ReadLine()
End Sub
End Class
using System;
using System.Runtime.Remoting;
public class Server
{
public static void Main(string[] args)
{
RemotingConfiguration.Configure("server.exe.config", false);
Console.WriteLine("Waiting...");
Console.ReadLine();
}
}
Server.exe.config
<?xml version="1.0" encoding="utf-8" ?>
<configuration>
<system.runtime.remoting>
<application>
<service>
<wellknown
type="ServiceClass, ServiceClass"
mode="Singleton"
objectUri="ServiceClass.rem"
/>
</service>
<channels>
<channel ref="http"
port="8080" />
</channels>
</application>
</system.runtime.remoting>
</configuration>
Client
Imports System
Imports System.Runtime.Remoting
Imports System.Runtime.Remoting.Messaging
Imports System.Threading
Public Class Client
Inherits MarshalByRefObject
Public Shared e As ManualResetEvent
' Declares two delegates, each of which represents
' a function that returns a string. The names are strictly
' for clarity in the code – there is no difference between
' the two delegates. (In fact, the same delegate type
' could be used for both synchronous and asynchronous
' calls.)
Public Delegate Function RemoteSyncDelegate() As String
Public Delegate Function RemoteAsyncDelegate() As String
' This is the call that the AsyncCallback delegate references
<OneWay()> _
Public Sub OurRemoteAsyncCallback(ByVal ar As IAsyncResult)
Dim del As RemoteAsyncDelegate = CType(ar, AsyncResult).AsyncDelegate
Console.WriteLine(vbLf & "**SUCCESS**: Result of the remote AsyncCallBack: " + del.EndInvoke(ar))
' Signal the thread.
e.Set()
Return
End Sub
Public Shared Sub Main()
'IMPORTANT: .NET Framework remoting does not remote
'static members. This class must be an instance before
'the callback from the asynchronous invocation can reach this client.
Dim clientApp As Client = New Client()
clientApp.Run()
End Sub
Public Sub Run()
'Enable this and the e.WaitOne call at the bottom if you
'are going to make more than one asynchronous call.
e = New ManualResetEvent(False)
Console.WriteLine("Remote synchronous and asynchronous delegates.")
Console.WriteLine(New String("_", 80))
Console.WriteLine()
' This is the only thing you must do in a remoting scenario
' for either synchronous or asynchronous programming
' configuration.
RemotingConfiguration.Configure("Client.exe.config", False)
' The remaining steps are identical to single-
' AppDomain programming.
Dim obj As ServiceClass = New ServiceClass()
' This delegate is a remote synchronous delegate.
Dim Remotesyncdel As RemoteSyncDelegate = New RemoteSyncDelegate(AddressOf obj.VoidCall)
' When invoked, program execution waits until the method returns.
' This delegate can be passed to another application domain
' to be used as a callback to the obj.VoidCall method.
Console.WriteLine(Remotesyncdel())
' This delegate is an asynchronous delegate. Two delegates must
' be created. The first is the system-defined AsyncCallback
' delegate, which references the method that the remote type calls
' back when the remote method is done.
Dim RemoteCallback As AsyncCallback = New AsyncCallback(AddressOf OurRemoteAsyncCallback)
' Create the delegate to the remote method you want to use
' asynchronously.
Dim RemoteDel As RemoteAsyncDelegate = New RemoteAsyncDelegate(AddressOf obj.TimeConsumingRemoteCall)
' Start the method call. Note that execution on this
' thread continues immediately without waiting for the return of
' the method call.
Dim RemAr As IAsyncResult = RemoteDel.BeginInvoke(RemoteCallback, Nothing)
' If you want to stop execution on this thread to
' wait for the return from this specific call, retrieve the
' IAsyncResult returned from the BeginIvoke call, obtain its
' WaitHandle, and pause the thread, such as the next line:
' RemAr.AsyncWaitHandle.WaitOne();
' To wait in general, if, for example, many asynchronous calls
' have been made and you want notification of any of them, or,
' like this example, because the application domain can be
' recycled before the callback can print the result to the
' console.
' e.WaitOne();
' This simulates some other work going on in this thread while the
' async call has not returned.
Dim count As Integer = 0
While Not RemAr.IsCompleted
Console.Write("Not completed: " & count & vbCr)
count = count + 1
' Make sure the callback thread can invoke callback.
Thread.Sleep(1)
End While
End Sub
End Class
using System;
using System.Runtime.Remoting;
using System.Runtime.Remoting.Messaging;
using System.Threading;
using Shared;
public class Client : MarshalByRefObject
{
public static ManualResetEvent e;
// Declares two delegates, each of which represents
// a function that returns a string. The names are strictly
// for clarity in the code – there is no difference between
// the two delegates. (In fact, the same delegate type could
// be used for both synchronous and asynchronous calls.
public delegate string RemoteSyncDelegate();
public delegate string RemoteAsyncDelegate();
// This is the call that the AsyncCallBack delegate references.
[OneWayAttribute]
public void OurRemoteAsyncCallBack(IAsyncResult ar)
{
RemoteAsyncDelegate del = (RemoteAsyncDelegate)((AsyncResult)ar).AsyncDelegate;
Console.WriteLine("\r\n**SUCCESS**: Result of the remote AsyncCallBack: " + del.EndInvoke(ar));
// Signal the thread.
e.Set();
return;
}
public static void Main(string[] Args)
{
// IMPORTANT: .NET Framework remoting does not remote
// static members. This class must be an instance before
// the callback from the asynchronous invocation can reach this client.
Client clientApp = new Client();
clientApp.Run();
}
public void Run()
{
// Enable this and the e.WaitOne call at the bottom if you
// are going to make more than one asynchronous call.
e = new ManualResetEvent(false);
Console.WriteLine("Remote synchronous and asynchronous delegates.");
Console.WriteLine(new String('-', 80));
Console.WriteLine();
// This is the only thing you must do in a remoting scenario
// for either synchronous or asynchronous programming
// configuration.
RemotingConfiguration.Configure("Client.exe.config", false);
// The remaining steps are identical to single-
// AppDomain programming.
ServiceClass obj = new ServiceClass();
// This delegate is a remote synchronous delegate.
RemoteSyncDelegate Remotesyncdel = new RemoteSyncDelegate(obj.VoidCall);
// When invoked, program execution waits until the method returns.
// This delegate can be passed to another application domain
// to be used as a callback to the obj.VoidCall method.
Console.WriteLine(Remotesyncdel());
// This delegate is an asynchronous delegate. Two delegates must
// be created. The first is the system-defined AsyncCallback
// delegate, which references the method that the remote type calls
// back when the remote method is done.
AsyncCallback RemoteCallback = new AsyncCallback(this.OurRemoteAsyncCallBack);
// Create the delegate to the remote method you want to use
// asynchronously.
RemoteAsyncDelegate RemoteDel = new RemoteAsyncDelegate(obj.TimeConsumingRemoteCall);
// Start the method call. Note that execution on this
// thread continues immediately without waiting for the return of
// the method call.
IAsyncResult RemAr = RemoteDel.BeginInvoke(RemoteCallback, null);
// If you want to stop execution on this thread to
// wait for the return from this specific call, retrieve the
// IAsyncResult returned from the BeginIvoke call, obtain its
// WaitHandle, and pause the thread, such as the next line:
// RemAr.AsyncWaitHandle.WaitOne();
// To wait in general, if, for example, many asynchronous calls
// have been made and you want notification of any of them, or,
// like this example, because the application domain can be
// recycled before the callback can print the result to the
// console.
//e.WaitOne();
// This simulates some other work going on in this thread while the
// async call has not returned.
int count = 0;
while (!RemAr.IsCompleted)
{
Console.Write("\rNot completed: " + (++count).ToString());
// Make sure the callback thread can invoke callback.
Thread.Sleep(1);
}
}
}
Client.exe.config
<?xml version="1.0" encoding="utf-8" ?>
<configuration>
<system.runtime.remoting>
<application>
<client>
<wellknown
type="ServiceClass, ServiceClass"
url="https://localhost:8080/ServiceClass.rem"
/>
</client>
<channels>
<channel
ref="http"
port="0"
/>
</channels>
</application>
</system.runtime.remoting>
</configuration>