TcpListener.AcceptTcpClient Méthode
Définition
Important
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Accepte une demande de connexion en attente.
public:
System::Net::Sockets::TcpClient ^ AcceptTcpClient();public System.Net.Sockets.TcpClient AcceptTcpClient ();member this.AcceptTcpClient : unit -> System.Net.Sockets.TcpClientPublic Function AcceptTcpClient () As TcpClientRetours
TcpClient utilisé pour envoyer et recevoir des données.
Exceptions
L'écouteur n'a pas démarré avec un appel à la méthode Start().
Utilisez la propriété ErrorCode pour obtenir le code d'erreur spécifique. Une fois que vous avez obtenu ce code, vous pouvez consulter la documentation sur les codes d’erreur de l’API Windows Sockets version 2 pour obtenir une description détaillée de l’erreur.
Exemples
Dans l’exemple de code suivant, la AcceptTcpClient méthode est utilisée pour retourner un TcpClient. Il TcpClient est utilisé pour communiquer avec le client nouvellement connecté.
/**
* This program shows how to use the TcpListener class.
* It creates a TcpListener that listens on the specified port (13000).
* To run this program at the command line you enter:
* cs_tcpserver
* Any TcpClient that wants to use this server
* has to explicitly connect to an address obtained by the combination of
* the server on which this TcpServer is running and the port 13000.
* This TcpServer simply echoes back the message sent by the TcpClient, after
* translating it into uppercase.
**/
#using <System.dll>
using namespace System;
using namespace System::IO;
using namespace System::Net;
using namespace System::Net::Sockets;
using namespace System::Text;
int main()
{
try
{
// Set the TcpListener on port 13000.
Int32 port = 13000;
TcpListener^ server = gcnew TcpListener(IPAddress::Any, port);
// Start listening for client requests.
server->Start();
// Buffer for reading data
array<Byte>^bytes = gcnew array<Byte>(256);
String^ data = nullptr;
// Enter the listening loop.
while ( true )
{
Console::Write( "Waiting for a connection... " );
// Perform a blocking call to accept requests.
// You could also use server.AcceptSocket() here.
TcpClient^ client = server->AcceptTcpClient();
Console::WriteLine( "Connected!" );
data = nullptr;
// Get a stream object for reading and writing
NetworkStream^ stream = client->GetStream();
Int32 i;
// Loop to receive all the data sent by the client.
while ( (i = stream->Read( bytes, 0, bytes->Length )) != 0 )
{
// Translate data bytes to a ASCII string.
data = System::Text::Encoding::ASCII->GetString( bytes, 0, i );
Console::WriteLine( String::Format( "Received: {0}", data ) );
// Process the data sent by the client.
data = data->ToUpper();
array<Byte>^msg = System::Text::Encoding::ASCII->GetBytes( data );
// Send back a response.
stream->Write( msg, 0, msg->Length );
Console::WriteLine( String::Format( "Sent: {0}", data ) );
}
// Shutdown and end connection
client->Close();
}
}
catch ( SocketException^ e )
{
Console::WriteLine( "SocketException: {0}", e );
}
Console::WriteLine( "\nHit enter to continue..." );
Console::Read();
}
/**
* The following sample is intended to demonstrate how to use a
* TcpListener for synchronous communcation with a TCP client
* It creates a TcpListener that listens on the specified port (13000).
* Any TCP client that wants to use this TcpListener has to explicitly connect
* to an address obtained by the combination of the server
* on which this TcpListener is running and the port 13000.
* This TcpListener simply echoes back the message sent by the client
* after translating it into uppercase.
* Refer to the related client in the TcpClient class.
*/
using System;
using System.Text;
using System.IO;
using System.Net;
using System.Net.Sockets;
using System.Threading;
public class TcpListenerSample
{
static void Main(string[] args)
{
try
{
// set the TcpListener on port 13000
int port = 13000;
TcpListener server = new TcpListener(IPAddress.Any, port);
// Start listening for client requests
server.Start();
// Buffer for reading data
byte[] bytes = new byte[1024];
string data;
//Enter the listening loop
while (true)
{
Console.Write("Waiting for a connection... ");
// Perform a blocking call to accept requests.
// You could also use server.AcceptSocket() here.
TcpClient client = server.AcceptTcpClient();
Console.WriteLine("Connected!");
// Get a stream object for reading and writing
NetworkStream stream = client.GetStream();
int i;
// Loop to receive all the data sent by the client.
i = stream.Read(bytes, 0, bytes.Length);
while (i != 0)
{
// Translate data bytes to a ASCII string.
data = System.Text.Encoding.ASCII.GetString(bytes, 0, i);
Console.WriteLine(String.Format("Received: {0}", data));
// Process the data sent by the client.
data = data.ToUpper();
byte[] msg = System.Text.Encoding.ASCII.GetBytes(data);
// Send back a response.
stream.Write(msg, 0, msg.Length);
Console.WriteLine(String.Format("Sent: {0}", data));
i = stream.Read(bytes, 0, bytes.Length);
}
// Shutdown and end connection
client.Close();
}
}
catch (SocketException e)
{
Console.WriteLine("SocketException: {0}", e);
}
Console.WriteLine("Hit enter to continue...");
Console.Read();
}
}
' The following sample is intended to demonstrate how to use a
' TcpListener for synchronous communcation with a TCP client
' It creates a TcpListener that connects to the specified port (13000).
' Any TCP client that wants to use this TcpListener has to explicitly connect
' to an address obtained by the combination of the server
' on which this TcpListener is running and the port 13000.
' This TcpListener simply echoes back the message sent by the client
' after translating it into uppercase.
' Refer to the related client in the TcpClient class.
'/
Imports System.IO
Imports System.Net
Imports System.Net.Sockets
Imports System.Text
_
Class MyTcpListener
Public Shared Sub Main()
Try
' Set the TcpListener on port 13000.
Dim port As Int32 = 13000
Dim server As New TcpListener(IPAddress.Any, port)
' Start listening for client requests.
server.Start()
' Buffer for reading data
Dim bytes(1024) As [Byte]
Dim data As [String] = Nothing
' Enter the listening loop.
While True
Console.Write("Waiting for a connection... ")
' Perform a blocking call to accept requests.
' You could also use server.AcceptSocket() here.
Dim client As TcpClient = server.AcceptTcpClient()
Console.WriteLine("Connected!")
data = Nothing
' Get a stream object for reading and writing
Dim stream As NetworkStream = client.GetStream()
Dim i As Int32
' Loop to receive all the data sent by the client.
i = stream.Read(bytes, 0, bytes.Length)
While (i <> 0)
' Translate data bytes to a ASCII string.
data = System.Text.Encoding.ASCII.GetString(bytes, 0, i)
Console.WriteLine([String].Format("Received: {0}", data))
' Process the data sent by the client.
data = data.ToUpper()
Dim msg As [Byte]() = System.Text.Encoding.ASCII.GetBytes(data)
' Send back a response.
stream.Write(msg, 0, msg.Length)
Console.WriteLine([String].Format("Sent: {0}", data))
i = stream.Read(bytes, 0, bytes.Length)
End While
' Shutdown and end connection
client.Close()
End While
Catch e As SocketException
Console.WriteLine("SocketException: {0}", e)
End Try
Console.WriteLine(ControlChars.Cr + "Hit enter to continue...")
Console.Read()
End Sub
End Class
Remarques
AcceptTcpClient est une méthode de blocage qui retourne un TcpClient que vous pouvez utiliser pour envoyer et recevoir des données. Utilisez la Pending méthode pour déterminer si les demandes de connexion sont disponibles dans la file d’attente de connexion entrante si vous souhaitez éviter le blocage.
Utilisez la TcpClient.GetStream méthode pour obtenir le sous-jacent NetworkStream du retourné TcpClient. vous NetworkStream fournira des méthodes d’envoi et de réception avec l’hôte distant. Lorsque vous utilisez le TcpClient, veillez à appeler sa Close méthode. Si vous souhaitez plus de flexibilité qu’une TcpClient offre, envisagez d’utiliser AcceptSocket.
Notes
Ce membre génère des informations de traçage lorsque vous activez le traçage réseau dans votre application. Pour plus d’informations, consultez Suivi réseau dans .NET Framework.
