UdpClient.JoinMulticastGroup Metoda
Definicja
Ważne
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Dodaje element UdpClient do grupy multiemisji.
Przeciążenia
| JoinMulticastGroup(IPAddress) |
Dodaje element UdpClient do grupy multiemisji. |
| JoinMulticastGroup(Int32, IPAddress) |
Dodaje element UdpClient do grupy multiemisji. |
| JoinMulticastGroup(IPAddress, Int32) |
Dodaje element UdpClient do grupy multiemisji z określonym czasem wygaśnięcia (TTL). |
| JoinMulticastGroup(IPAddress, IPAddress) |
Dodaje element UdpClient do grupy multiemisji. |
JoinMulticastGroup(IPAddress)
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
Dodaje element UdpClient do grupy multiemisji.
public:
void JoinMulticastGroup(System::Net::IPAddress ^ multicastAddr);public void JoinMulticastGroup (System.Net.IPAddress multicastAddr);member this.JoinMulticastGroup : System.Net.IPAddress -> unitPublic Sub JoinMulticastGroup (multicastAddr As IPAddress)Parametry
Wyjątki
Podstawy Socket zostały zamknięte.
Wystąpił błąd podczas uzyskiwania dostępu do gniazda.
Adres IP nie jest zgodny z wartością AddressFamily definiującą schemat adresowania gniazda.
Przykłady
W poniższym przykładzie kodu pokazano, jak dołączyć do grupy multiemisji, podając adres multiemisji.
#using <System.dll>
using namespace System;
using namespace System::Net;
using namespace System::Net::Sockets;
using namespace System::Text;
using namespace System::IO;
using namespace System::Threading;
// The following Receive class is used by both the ClientOriginator and
// the ClientTarget class to receive data from one another..
public ref class Receive
{
public:
// The following static method performs the actual data
// exchange. In particular, it performs the following tasks:
// 1)Establishes a communication endpoint.
// 2)Receive data through this end point on behalf of the
// caller.
// 3) Returns the received data in ASCII format.
static String^ ReceiveUntilStop( UdpClient^ c )
{
String^ strData = "";
String^ Ret = "";
ASCIIEncoding^ ASCII = gcnew ASCIIEncoding;
// Establish the communication endpoint.
IPEndPoint^ endpoint = gcnew IPEndPoint( IPAddress::IPv6Any,50 );
while ( !strData->Equals( "Over" ) )
{
array<Byte>^data = c->Receive( endpoint );
strData = ASCII->GetString( data );
Ret = String::Concat( Ret, strData, "\n" );
}
return Ret;
}
};
// The following Send class is used by both the ClientOriginator and
// ClientTarget classes to send data to one another.
public ref class Send
{
private:
static array<Char>^greetings = {'H','e','l','l','o',' ','T','a','r','g','e','t','->'};
static array<Char>^nice = {'H','a','v','e',' ','a',' ','n','i','c','e',' ','d','a','y','->'};
static array<Char>^eom = {'O','v','e','r'};
static array<Char>^tGreetings = {'H','e','l','l','o',' ','O','r','i','g','i','n','a','t','o','r','!'};
static array<Char>^tNice = {'Y','o','u',' ','t','o','o','->'};
public:
// The following static method sends data to the ClientTarget on
// behalf of the ClientOriginator.
static void OriginatorSendData( UdpClient^ c, IPEndPoint^ ep )
{
Console::WriteLine( gcnew String( greetings ) );
c->Send( GetByteArray( greetings ), greetings->Length, ep );
Thread::Sleep( 1000 );
Console::WriteLine( gcnew String( nice ) );
c->Send( GetByteArray( nice ), nice->Length, ep );
Thread::Sleep( 1000 );
Console::WriteLine( gcnew String( eom ) );
c->Send( GetByteArray( eom ), eom->Length, ep );
}
// The following static method sends data to the ClientOriginator on
// behalf of the ClientTarget.
static void TargetSendData( UdpClient^ c, IPEndPoint^ ep )
{
Console::WriteLine( gcnew String( tGreetings ) );
c->Send( GetByteArray( tGreetings ), tGreetings->Length, ep );
Thread::Sleep( 1000 );
Console::WriteLine( gcnew String( tNice ) );
c->Send( GetByteArray( tNice ), tNice->Length, ep );
Thread::Sleep( 1000 );
Console::WriteLine( gcnew String( eom ) );
c->Send( GetByteArray( eom ), eom->Length, ep );
}
private:
// Internal utility
static array<Byte>^ GetByteArray( array<Char>^ChArray )
{
array<Byte>^Ret = gcnew array<Byte>(ChArray->Length);
for ( int i = 0; i < ChArray->Length; i++ )
Ret[ i ] = (Byte)ChArray[ i ];
return Ret;
}
};
// The ClientTarget class is the receiver of the ClientOriginator
// messages. The StartMulticastConversation method contains the
// logic for exchanging data between the ClientTarget and its
// counterpart ClientOriginator in a multicast operation.
public ref class ClientTarget
{
private:
static UdpClient^ m_ClientTarget;
static IPAddress^ m_GrpAddr;
public:
// The following StartMulticastConversation method connects the UDP
// ClientTarget with the ClientOriginator.
// It performs the following main tasks:
// 1)Creates a UDP client to receive data on a specific port and using
// IPv6 addresses. The port is the same one used by the ClientOriginator
// to define its communication endpoint.
// 2)Joins or creates a multicast group at the specified address.
// 3)Defines the endpoint port to send data to the ClientOriginator.
// 4)Receives data from the ClientOriginator until the end of the
// communication.
// 5)Sends data to the ClientOriginator.
// Note this method is the counterpart of the
// ClientOriginator::ConnectOriginatorAndTarget().
static void StartMulticastConversation()
{
String^ Ret;
// Bind and listen on port 1000. Specify the IPv6 address family type.
m_ClientTarget = gcnew UdpClient( 1000,AddressFamily::InterNetworkV6 );
// Join or create a multicast group
m_GrpAddr = IPAddress::Parse( "FF01::1" );
// Use the overloaded JoinMulticastGroup method.
// Refer to the ClientOriginator method to see how to use the other
// methods.
m_ClientTarget->JoinMulticastGroup( m_GrpAddr );
// Define the endpoint data port. Note that this port number
// must match the ClientOriginator UDP port number which is the
// port on which the ClientOriginator is receiving data.
IPEndPoint^ ClientOriginatordest = gcnew IPEndPoint( m_GrpAddr,2000 );
// Receive data from the ClientOriginator.
Ret = Receive::ReceiveUntilStop( m_ClientTarget );
Console::WriteLine( "\nThe ClientTarget received: \n\n {0}\n", Ret );
// Done receiving, now respond to the ClientOriginator.
// Wait to make sure the ClientOriginator is ready to receive.
Thread::Sleep( 2000 );
Console::WriteLine( "\nThe ClientTarget sent:\n" );
Send::TargetSendData( m_ClientTarget, ClientOriginatordest );
// Exit the multicast conversation.
m_ClientTarget->DropMulticastGroup( m_GrpAddr );
}
};
// The following ClientOriginator class starts the multicast conversation
// with the ClientTarget class..
// It performs the following main tasks:
// 1)Creates a socket and binds it to the port on which to communicate.
// 2)Specifies that the connection must use an IPv6 address.
// 3)Joins or create a multicast group.
// Note that the multicast address ranges to use are specified
// in the RFC#2375.
// 4)Defines the endpoint to send the data to and starts the
// client target (ClientTarget) thread.
public ref class ClientOriginator
{
private:
static UdpClient^ clientOriginator;
static IPAddress^ m_GrpAddr;
static IPEndPoint^ m_ClientTargetdest;
static Thread^ m_t;
public:
// The ConnectOriginatorAndTarget method connects the
// ClientOriginator with the ClientTarget.
// It performs the following main tasks:
// 1)Creates a UDP client to receive data on a specific port
// using IPv6 addresses.
// 2)Joins or create a multicast group at the specified address.
// 3)Defines the endpoint port to send data to on the ClientTarget.
// 4)Starts the ClientTarget thread that also creates the ClientTarget Object*.
// Note this method is the counterpart of the
// ClientTarget::StartMulticastConversation().
static bool ConnectOriginatorAndTarget()
{
try
{
// Bind and listen on port 2000. This constructor creates a socket
// and binds it to the port on which to receive data. The family
// parameter specifies that this connection uses an IPv6 address.
clientOriginator = gcnew UdpClient( 2000,AddressFamily::InterNetworkV6 );
// Join or create a multicast group. The multicast address ranges
// to use are specified in RFC#2375. You are free to use
// different addresses.
// Transform the String* address into the internal format.
m_GrpAddr = IPAddress::Parse( "FF01::1" );
// Display the multicast address used.
Console::WriteLine( "Multicast Address: [ {0}]", m_GrpAddr );
// Exercise the use of the IPv6MulticastOption.
Console::WriteLine( "Instantiate IPv6MulticastOption(IPAddress)" );
// Instantiate IPv6MulticastOption using one of the
// overloaded constructors.
IPv6MulticastOption^ ipv6MulticastOption = gcnew IPv6MulticastOption( m_GrpAddr );
// Store the IPAdress multicast options.
IPAddress^ group = ipv6MulticastOption->Group;
__int64 interfaceIndex = ipv6MulticastOption->InterfaceIndex;
// Display IPv6MulticastOption properties.
Console::WriteLine( "IPv6MulticastOption::Group: [ {0}]", group );
Console::WriteLine( "IPv6MulticastOption::InterfaceIndex: [ {0}]", interfaceIndex );
// Instantiate IPv6MulticastOption using another
// overloaded constructor.
IPv6MulticastOption^ ipv6MulticastOption2 = gcnew IPv6MulticastOption( group,interfaceIndex );
// Store the IPAdress multicast options.
group = ipv6MulticastOption2->Group;
interfaceIndex = ipv6MulticastOption2->InterfaceIndex;
// Display the IPv6MulticastOption2 properties.
Console::WriteLine( "IPv6MulticastOption::Group: [ {0} ]", group );
Console::WriteLine( "IPv6MulticastOption::InterfaceIndex: [ {0} ]", interfaceIndex );
// Join the specified multicast group using one of the
// JoinMulticastGroup overloaded methods.
clientOriginator->JoinMulticastGroup( (int)interfaceIndex, group );
// Define the endpoint data port. Note that this port number
// must match the ClientTarget UDP port number which is the
// port on which the ClientTarget is receiving data.
m_ClientTargetdest = gcnew IPEndPoint( m_GrpAddr,1000 );
// Start the ClientTarget thread so it is ready to receive.
m_t = gcnew Thread( gcnew ThreadStart( ClientTarget::StartMulticastConversation ) );
m_t->Start();
// Make sure that the thread has started.
Thread::Sleep( 2000 );
return true;
}
catch ( Exception^ e )
{
Console::WriteLine( "[ClientOriginator::ConnectClients] Exception: {0}", e );
return false;
}
}
// The SendAndReceive performs the data exchange
// between the ClientOriginator and the ClientTarget classes.
static String^ SendAndReceive()
{
String^ Ret = "";
// Send data to ClientTarget.
Console::WriteLine( "\nThe ClientOriginator sent:\n" );
Send::OriginatorSendData( clientOriginator, m_ClientTargetdest );
// Receive data from ClientTarget
Ret = Receive::ReceiveUntilStop( clientOriginator );
// Stop the ClientTarget thread
m_t->Abort();
// Abandon the multicast group.
clientOriginator->DropMulticastGroup( m_GrpAddr );
return Ret;
}
};
//This is the console application entry point.
int main()
{
// Join the multicast group.
if ( ClientOriginator::ConnectOriginatorAndTarget() )
{
// Perform a multicast conversation with the ClientTarget.
String^ Ret = ClientOriginator::SendAndReceive();
Console::WriteLine( "\nThe ClientOriginator received: \n\n {0}", Ret );
}
else
{
Console::WriteLine( "Unable to Join the multicast group" );
}
}
using System;
using System.Net;
using System.Net.Sockets;
using System.Text;
using System.IO;
using System.Threading;
namespace Mssc.TransportProtocols.Utilities
{
// The following Receive class is used by both the ClientOriginator and
// the ClientTarget class to receive data from one another..
public class Receive
{
// The following static method performs the actual data
// exchange. In particular, it performs the following tasks:
// 1)Establishes a communication endpoint.
// 2)Receive data through this end point on behalf of the
// caller.
// 3) Returns the received data in ASCII format.
public static string ReceiveUntilStop(UdpClient c)
{
String strData = "";
String Ret = "";
ASCIIEncoding ASCII = new ASCIIEncoding();
// Establish the communication endpoint.
IPEndPoint endpoint = new IPEndPoint(IPAddress.IPv6Any, 50);
while (!strData.Equals("Over"))
{
Byte[] data = c.Receive(ref endpoint);
strData = ASCII.GetString(data);
Ret += strData + "\n";
}
return Ret;
}
}
// The following Send class is used by both the ClientOriginator and
// ClientTarget classes to send data to one another.
public class Send
{
private static char[] greetings = { 'H', 'e', 'l', 'l', 'o', ' ',
'T', 'a', 'r', 'g', 'e', 't', '.' };
private static char[] nice = { 'H', 'a', 'v', 'e', ' ', 'a', ' ', 'n', 'i',
'c', 'e', ' ', 'd', 'a', 'y', '.' };
private static char [] eom = { 'O', 'v', 'e', 'r'};
private static char[] tGreetings = { 'H', 'e', 'l', 'l', 'o', ' ',
'O', 'r', 'i', 'g', 'i', 'n', 'a', 't', 'o', 'r', '!' };
private static char[] tNice = { 'Y', 'o', 'u', ' ', 't', 'o', 'o', '.'};
// The following static method sends data to the ClientTarget on
// behalf of the ClientOriginator.
public static void OriginatorSendData(UdpClient c, IPEndPoint ep)
{
Console.WriteLine(new string(greetings));
c.Send(GetByteArray(greetings), greetings.Length, ep);
Thread.Sleep(1000);
Console.WriteLine(new String(nice));
c.Send(GetByteArray(nice), nice.Length, ep);
Thread.Sleep(1000);
Console.WriteLine(new String(eom));
c.Send(GetByteArray(eom), eom.Length, ep);
}
// The following static method sends data to the ClientOriginator on
// behalf of the ClientTarget.
public static void TargetSendData(UdpClient c, IPEndPoint ep)
{
Console.WriteLine(new string(tGreetings));
c.Send(GetByteArray(tGreetings), tGreetings.Length, ep);
Thread.Sleep(1000);
Console.WriteLine(new String(tNice));
c.Send(GetByteArray(tNice), tNice.Length, ep);
Thread.Sleep(1000);
Console.WriteLine(new String(eom));
c.Send(GetByteArray(eom), eom.Length, ep);
}
// Internal utility
private static Byte[] GetByteArray(Char[] ChArray)
{
Byte[] Ret = new Byte[ChArray.Length];
for (int i = 0; i < ChArray.Length; i++)
Ret[i] = (Byte) ChArray[i];
return Ret;
}
}
// The ClientTarget class is the receiver of the ClientOriginator
// messages. The StartMulticastConversation method contains the
// logic for exchanging data between the ClientTarget and its
// counterpart ClientOriginator in a multicast operation.
public class ClientTarget
{
private static UdpClient m_ClientTarget;
private static IPAddress m_GrpAddr;
// The following StartMulticastConversation method connects the UDP
// ClientTarget with the ClientOriginator.
// It performs the following main tasks:
// 1)Creates a UDP client to receive data on a specific port and using
// IPv6 addresses. The port is the same one used by the ClientOriginator
// to define its communication endpoint.
// 2)Joins or creates a multicast group at the specified address.
// 3)Defines the endpoint port to send data to the ClientOriginator.
// 4)Receives data from the ClientOriginator until the end of the
// communication.
// 5)Sends data to the ClientOriginator.
// Note this method is the counterpart of the
// ClientOriginator.ConnectOriginatorAndTarget().
public static void StartMulticastConversation()
{
string Ret;
// Bind and listen on port 1000. Specify the IPv6 address family type.
m_ClientTarget = new UdpClient(1000, AddressFamily.InterNetworkV6);
// Join or create a multicast group
m_GrpAddr = IPAddress.Parse("FF01::1");
// Use the overloaded JoinMulticastGroup method.
// Refer to the ClientOriginator method to see how to use the other
// methods.
m_ClientTarget.JoinMulticastGroup(m_GrpAddr);
// Define the endpoint data port. Note that this port number
// must match the ClientOriginator UDP port number which is the
// port on which the ClientOriginator is receiving data.
IPEndPoint ClientOriginatordest = new IPEndPoint(m_GrpAddr, 2000);
// Receive data from the ClientOriginator.
Ret = Receive.ReceiveUntilStop(m_ClientTarget);
Console.WriteLine("\nThe ClientTarget received: " + "\n\n" + Ret + "\n");
// Done receiving, now respond to the ClientOriginator.
// Wait to make sure the ClientOriginator is ready to receive.
Thread.Sleep(2000);
Console.WriteLine("\nThe ClientTarget sent:\n");
Send.TargetSendData(m_ClientTarget, ClientOriginatordest);
// Exit the multicast conversation.
m_ClientTarget.DropMulticastGroup(m_GrpAddr);
}
}
// The following ClientOriginator class starts the multicast conversation
// with the ClientTarget class..
// It performs the following main tasks:
// 1)Creates a socket and binds it to the port on which to communicate.
// 2)Specifies that the connection must use an IPv6 address.
// 3)Joins or create a multicast group.
// Note that the multicast address ranges to use are specified
// in the RFC#2375.
// 4)Defines the endpoint to send the data to and starts the
// client target (ClientTarget) thread.
public class ClientOriginator
{
private static UdpClient clientOriginator;
private static IPAddress m_GrpAddr;
private static IPEndPoint m_ClientTargetdest;
private static Thread m_t;
// The ConnectOriginatorAndTarget method connects the
// ClientOriginator with the ClientTarget.
// It performs the following main tasks:
// 1)Creates a UDP client to receive data on a specific port
// using IPv6 addresses.
// 2)Joins or create a multicast group at the specified address.
// 3)Defines the endpoint port to send data to on the ClientTarget.
// 4)Starts the ClientTarget thread that also creates the ClientTarget object.
// Note this method is the counterpart of the
// ClientTarget.StartMulticastConversation().
public static bool ConnectOriginatorAndTarget()
{
try
{
// Bind and listen on port 2000. This constructor creates a socket
// and binds it to the port on which to receive data. The family
// parameter specifies that this connection uses an IPv6 address.
clientOriginator = new UdpClient(2000, AddressFamily.InterNetworkV6);
// Join or create a multicast group. The multicast address ranges
// to use are specified in RFC#2375. You are free to use
// different addresses.
// Transform the string address into the internal format.
m_GrpAddr = IPAddress.Parse("FF01::1");
// Display the multicast address used.
Console.WriteLine("Multicast Address: [" + m_GrpAddr.ToString() + "]");
// Exercise the use of the IPv6MulticastOption.
Console.WriteLine("Instantiate IPv6MulticastOption(IPAddress)");
// Instantiate IPv6MulticastOption using one of the
// overloaded constructors.
IPv6MulticastOption ipv6MulticastOption = new IPv6MulticastOption(m_GrpAddr);
// Store the IPAdress multicast options.
IPAddress group = ipv6MulticastOption.Group;
long interfaceIndex = ipv6MulticastOption.InterfaceIndex;
// Display IPv6MulticastOption properties.
Console.WriteLine("IPv6MulticastOption.Group: [" + group + "]");
Console.WriteLine("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex + "]");
// Instantiate IPv6MulticastOption using another
// overloaded constructor.
IPv6MulticastOption ipv6MulticastOption2 = new IPv6MulticastOption(group, interfaceIndex);
// Store the IPAdress multicast options.
group = ipv6MulticastOption2.Group;
interfaceIndex = ipv6MulticastOption2.InterfaceIndex;
// Display the IPv6MulticastOption2 properties.
Console.WriteLine("IPv6MulticastOption.Group: [" + group + "]");
Console.WriteLine("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex + "]");
// Join the specified multicast group using one of the
// JoinMulticastGroup overloaded methods.
clientOriginator.JoinMulticastGroup((int)interfaceIndex, group);
// Define the endpoint data port. Note that this port number
// must match the ClientTarget UDP port number which is the
// port on which the ClientTarget is receiving data.
m_ClientTargetdest = new IPEndPoint(m_GrpAddr, 1000);
// Start the ClientTarget thread so it is ready to receive.
m_t = new Thread(new ThreadStart(ClientTarget.StartMulticastConversation));
m_t.Start();
// Make sure that the thread has started.
Thread.Sleep(2000);
return true;
}
catch (Exception e)
{
Console.WriteLine("[ClientOriginator.ConnectClients] Exception: " + e.ToString());
return false;
}
}
// The SendAndReceive performs the data exchange
// between the ClientOriginator and the ClientTarget classes.
public static string SendAndReceive()
{
string Ret = "";
// Send data to ClientTarget.
Console.WriteLine("\nThe ClientOriginator sent:\n");
Send.OriginatorSendData(clientOriginator, m_ClientTargetdest);
// Receive data from ClientTarget
Ret = Receive.ReceiveUntilStop(clientOriginator);
// Stop the ClientTarget thread
m_t.Abort();
// Abandon the multicast group.
clientOriginator.DropMulticastGroup(m_GrpAddr);
return Ret;
}
//This is the console application entry point.
public static void Main()
{
// Join the multicast group.
if (ConnectOriginatorAndTarget())
{
// Perform a multicast conversation with the ClientTarget.
string Ret = SendAndReceive();
Console.WriteLine("\nThe ClientOriginator received: " + "\n\n" + Ret);
}
else
{
Console.WriteLine("Unable to Join the multicast group");
}
}
}
}
Imports System.Net
Imports System.Net.Sockets
Imports System.Text
Imports System.IO
Imports System.Threading
' The following Receive class is used by both the ClientOriginator and
' the ClientTarget class to receive data from one another..
Public Class Receive
' The following static method performs the actual data
' exchange. In particular, it performs the following tasks:
' 1)Establishes a communication endpoint.
' 2)Receive data through this end point on behalf of the
' caller.
' 3) Returns the received data in ASCII format.
Public Shared Function ReceiveUntilStop(c As UdpClient) As String
Dim strData As [String] = ""
Dim Ret As [String] = ""
Dim ASCII As New ASCIIEncoding()
' Establish the communication endpoint.
Dim endpoint As New IPEndPoint(IPAddress.IPv6Any, 50)
While Not strData.Equals("Over")
Dim data As [Byte]() = c.Receive(endpoint)
strData = ASCII.GetString(data)
Ret += strData + ControlChars.Lf
End While
Return Ret
End Function 'ReceiveUntilStop
End Class
' The following Send class is used by both the ClientOriginator and
' ClientTarget classes to send data to one another.
Public Class Send
Private Shared greetings As Char() = {"H"c, "e"c, "l"c, "l"c, "o"c, " "c, "T"c, "a"c, "r"c, "g"c, "e"c, "t"c, "."c}
Private Shared nice As Char() = {"H"c, "a"c, "v"c, "e"c, " "c, "a"c, " "c, "n"c, "i"c, "c"c, "e"c, " "c, "d"c, "a"c, "y"c, "."c}
Private Shared eom As Char() = {"O"c, "v"c, "e"c, "r"c}
Private Shared tGreetings As Char() = {"H"c, "e"c, "l"c, "l"c, "o"c, " "c, "O"c, "r"c, "i"c, "g"c, "i"c, "n"c, "a"c, "t"c, "o"c, "r"c, "!"c}
Private Shared tNice As Char() = {"Y"c, "o"c, "u"c, " "c, "t"c, "o"c, "o"c, "."c}
' The following static method sends data to the ClientTarget on
' behalf of the ClientOriginator.
Public Shared Sub OriginatorSendData(c As UdpClient, ep As IPEndPoint)
Console.WriteLine(New String(greetings))
c.Send(GetByteArray(greetings), greetings.Length, ep)
Thread.Sleep(1000)
Console.WriteLine(New [String](nice))
c.Send(GetByteArray(nice), nice.Length, ep)
Thread.Sleep(1000)
Console.WriteLine(New [String](eom))
c.Send(GetByteArray(eom), eom.Length, ep)
End Sub
' The following static method sends data to the ClientOriginator on
' behalf of the ClientTarget.
Public Shared Sub TargetSendData(c As UdpClient, ep As IPEndPoint)
Console.WriteLine(New String(tGreetings))
c.Send(GetByteArray(tGreetings), tGreetings.Length, ep)
Thread.Sleep(1000)
Console.WriteLine(New [String](tNice))
c.Send(GetByteArray(tNice), tNice.Length, ep)
Thread.Sleep(1000)
Console.WriteLine(New [String](eom))
c.Send(GetByteArray(eom), eom.Length, ep)
End Sub
' Internal utility
Public Shared Function GetByteArray(ChArray() As [Char]) As [Byte]()
Dim Ret(ChArray.Length) As [Byte]
Dim i As Integer
For i = 0 To ChArray.Length - 1
Ret(i) = AscW(ChArray(i))
Next i
Return Ret
End Function 'GetByteArray
End Class
' The ClientTarget class is the receiver of the ClientOriginator
' messages. The StartMulticastConversation method contains the
' logic for exchanging data between the ClientTarget and its
' counterpart ClientOriginator in a multicast operation.
Public Class ClientTarget
Private Shared m_ClientTarget As UdpClient
Private Shared m_GrpAddr As IPAddress
' The following StartMulticastConversation method connects the UDP
' ClientTarget with the ClientOriginator.
' It performs the following main tasks:
' 1)Creates a UDP client to receive data on a specific port and using
' IPv6 addresses. The port is the same one used by the ClientOriginator
' to define its communication endpoint.
' 2)Joins or creates a multicast group at the specified address.
' 3)Defines the endpoint port to send data to the ClientOriginator.
' 4)Receives data from the ClientOriginator until the end of the
' communication.
' 5)Sends data to the ClientOriginator.
' Note this method is the counterpart of the
' ClientOriginator.ConnectOriginatorAndTarget().
Public Shared Sub StartMulticastConversation()
Dim Ret As String
' Bind and listen on port 1000. Specify the IPv6 address family type.
m_ClientTarget = New UdpClient(1000, AddressFamily.InterNetworkV6)
' Join or create a multicast group
m_GrpAddr = IPAddress.Parse("FF01::1")
' Use the overloaded JoinMulticastGroup method.
' Refer to the ClientOriginator method to see how to use the other
' methods.
m_ClientTarget.JoinMulticastGroup(m_GrpAddr)
' Define the endpoint data port. Note that this port number
' must match the ClientOriginator UDP port number which is the
' port on which the ClientOriginator is receiving data.
Dim ClientOriginatordest As New IPEndPoint(m_GrpAddr, 2000)
' Receive data from the ClientOriginator.
Ret = Receive.ReceiveUntilStop(m_ClientTarget)
Console.WriteLine((ControlChars.Lf + "The ClientTarget received: " + ControlChars.Lf + ControlChars.Lf + Ret + ControlChars.Lf))
' Done receiving, now respond to the ClientOriginator.
' Wait to make sure the ClientOriginator is ready to receive.
Thread.Sleep(2000)
Console.WriteLine(ControlChars.Lf + "The ClientTarget sent:" + ControlChars.Lf)
Send.TargetSendData(m_ClientTarget, ClientOriginatordest)
' Exit the multicast conversation.
m_ClientTarget.DropMulticastGroup(m_GrpAddr)
End Sub
End Class
' The following ClientOriginator class starts the multicast conversation
' with the ClientTarget class..
' It performs the following main tasks:
' 1)Creates a socket and binds it to the port on which to communicate.
' 2)Specifies that the connection must use an IPv6 address.
' 3)Joins or create a multicast group.
' Note that the multicast address ranges to use are specified
' in the RFC#2375.
' 4)Defines the endpoint to send the data to and starts the
' client target (ClientTarget) thread.
Public Class ClientOriginator
Private Shared clientOriginator As UdpClient
Private Shared m_GrpAddr As IPAddress
Private Shared m_ClientTargetdest As IPEndPoint
Private Shared m_t As Thread
' The ConnectOriginatorAndTarget method connects the
' ClientOriginator with the ClientTarget.
' It performs the following main tasks:
' 1)Creates a UDP client to receive data on a specific port
' using IPv6 addresses.
' 2)Joins or create a multicast group at the specified address.
' 3)Defines the endpoint port to send data to on the ClientTarget.
' 4)Starts the ClientTarget thread that also creates the ClientTarget object.
' Note this method is the counterpart of the
' ClientTarget.StartMulticastConversation().
Public Shared Function ConnectOriginatorAndTarget() As Boolean
Try
' Bind and listen on port 2000. This constructor creates a socket
' and binds it to the port on which to receive data. The family
' parameter specifies that this connection uses an IPv6 address.
clientOriginator = New UdpClient(2000, AddressFamily.InterNetworkV6)
' Join or create a multicast group. The multicast address ranges
' to use are specified in RFC#2375. You are free to use
' different addresses.
' Transform the string address into the internal format.
m_GrpAddr = IPAddress.Parse("FF01::1")
' Display the multicast address used.
Console.WriteLine(("Multicast Address: [" + m_GrpAddr.ToString() + "]"))
' Exercise the use of the IPv6MulticastOption.
Console.WriteLine("Instantiate IPv6MulticastOption(IPAddress)")
' Instantiate IPv6MulticastOption using one of the
' overloaded constructors.
Dim ipv6MulticastOption As New IPv6MulticastOption(m_GrpAddr)
' Store the IPAdress multicast options.
Dim group As IPAddress = ipv6MulticastOption.Group
Dim interfaceIndex As Long = ipv6MulticastOption.InterfaceIndex
' Display IPv6MulticastOption properties.
Console.WriteLine(("IPv6MulticastOption.Group: [" + group.ToString() + "]"))
Console.WriteLine(("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex.ToString() + "]"))
' Instantiate IPv6MulticastOption using another
' overloaded constructor.
Dim ipv6MulticastOption2 As New IPv6MulticastOption(group, interfaceIndex)
' Store the IPAdress multicast options.
group = ipv6MulticastOption2.Group
interfaceIndex = ipv6MulticastOption2.InterfaceIndex
' Display the IPv6MulticastOption2 properties.
Console.WriteLine(("IPv6MulticastOption.Group: [" + group.ToString() + "]"))
Console.WriteLine(("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex.ToString() + "]"))
' Join the specified multicast group using one of the
' JoinMulticastGroup overloaded methods.
clientOriginator.JoinMulticastGroup(Fix(interfaceIndex), group)
' Define the endpoint data port. Note that this port number
' must match the ClientTarget UDP port number which is the
' port on which the ClientTarget is receiving data.
m_ClientTargetdest = New IPEndPoint(m_GrpAddr, 1000)
' Start the ClientTarget thread so it is ready to receive.
m_t = New Thread(New ThreadStart(AddressOf ClientTarget.StartMulticastConversation))
m_t.Start()
' Make sure that the thread has started.
Thread.Sleep(2000)
Return True
Catch e As Exception
Console.WriteLine(("[ClientOriginator.ConnectClients] Exception: " + e.ToString()))
Return False
End Try
End Function 'ConnectOriginatorAndTarget
' The SendAndReceive performs the data exchange
' between the ClientOriginator and the ClientTarget classes.
Public Shared Function SendAndReceive() As String
Dim Ret As String = ""
' Send data to ClientTarget.
Console.WriteLine(ControlChars.Lf + "The ClientOriginator sent:" + ControlChars.Lf)
Send.OriginatorSendData(clientOriginator, m_ClientTargetdest)
' Receive data from ClientTarget
Ret = Receive.ReceiveUntilStop(clientOriginator)
' Stop the ClientTarget thread
m_t.Abort()
' Abandon the multicast group.
clientOriginator.DropMulticastGroup(m_GrpAddr)
Return Ret
End Function 'SendAndReceive
'This is the console application entry point.
Public Shared Sub Main()
' Join the multicast group.
If ConnectOriginatorAndTarget() Then
' Perform a multicast conversation with the ClientTarget.
Dim Ret As String = SendAndReceive()
Console.WriteLine((ControlChars.Lf + "The ClientOriginator received: " + ControlChars.Lf + ControlChars.Lf + Ret))
Else
Console.WriteLine("Unable to Join the multicast group")
End If
End Sub
End Class
Uwagi
Metoda JoinMulticastGroup subskrybuje UdpClient grupę multiemisji przy użyciu określonego IPAddresselementu . Po wywołaniu JoinMulticastGroup metody bazowe Socket wysyła pakiet protokołu IGMP (Internet Group Management Protocol) do routera żądającego członkostwa w grupie multiemisji. Zakres adresów multiemisji to 224.0.0.0 do 239.255.255.255. Jeśli określisz adres poza tym zakresem lub jeśli router, do którego zostało wykonane żądanie, nie jest włączony multiemisji, UdpClient zgłosi błąd SocketException. Jeśli zostanie wyświetlony komunikat SocketException, użyj polecenia SocketException.ErrorCode , aby uzyskać określony kod błędu. Po uzyskaniu tego kodu możesz zapoznać się z dokumentacją kodu błędu interfejsu API gniazd systemu Windows w wersji 2 , aby uzyskać szczegółowy opis błędu. UdpClient Po wybraniu routera jako członka grupy multiemisji będzie on mógł odbierać multiemisji datagramy wysyłane do określonego IPAddresselementu .
Uwaga
Musisz utworzyć UdpClient numer portu multiemisji. W przeciwnym razie nie będzie można odbierać multiemisji datagramów. Nie należy wywoływać metody przed wywołaniem ConnectJoinMulticastGroup metody lub Receive metoda nie będzie działać. Nie musisz należeć do grupy multiemisji, aby wysyłać datagramy do adresu IP multiemisji.
Przed dołączeniem do grupy multiemisji upewnij się, że gniazdo jest powiązane z portem lub punktem końcowym. Można to zrobić, wywołując jeden z konstruktorów, który akceptuje port lub punkt końcowy jako parametr.
Aby przestać odbierać multiemisji datagramy, wywołaj metodę DropMulticastGroup i podaj IPAddress grupę, z której chcesz wycofać.
Uwaga
W przypadku protokołu IPv6 istnieje kilka zakresów adresów multiemisji, które można wybrać. Zapoznaj się z dokumentem IETF RFC 2375.
Uwaga
Nie można wywołać JoinMulticastGroup konstrukcji bez określonego UdpClient portu lokalnego (czyli przy użyciu konstruktora UdpClient() lub UdpClient(AddressFamily) ).
Zobacz też
Dotyczy
JoinMulticastGroup(Int32, IPAddress)
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
Dodaje element UdpClient do grupy multiemisji.
public:
void JoinMulticastGroup(int ifindex, System::Net::IPAddress ^ multicastAddr);public void JoinMulticastGroup (int ifindex, System.Net.IPAddress multicastAddr);member this.JoinMulticastGroup : int * System.Net.IPAddress -> unitPublic Sub JoinMulticastGroup (ifindex As Integer, multicastAddr As IPAddress)Parametry
- ifindex
- Int32
Indeks interfejsu skojarzony z lokalnym adresem IP, na którym ma być przyłączona do grupy multiemisji.
Wyjątki
Podstawy Socket zostały zamknięte.
Wystąpił błąd podczas uzyskiwania dostępu do gniazda.
Przykłady
// Instantiate IPv6MulticastOption using another
// overloaded constructor.
IPv6MulticastOption^ ipv6MulticastOption2 = gcnew IPv6MulticastOption( group,interfaceIndex );
// Store the IPAdress multicast options.
group = ipv6MulticastOption2->Group;
interfaceIndex = ipv6MulticastOption2->InterfaceIndex;
// Display the IPv6MulticastOption2 properties.
Console::WriteLine( "IPv6MulticastOption::Group: [ {0} ]", group );
Console::WriteLine( "IPv6MulticastOption::InterfaceIndex: [ {0} ]", interfaceIndex );
// Join the specified multicast group using one of the
// JoinMulticastGroup overloaded methods.
clientOriginator->JoinMulticastGroup( (int)interfaceIndex, group );
// Instantiate IPv6MulticastOption using another
// overloaded constructor.
IPv6MulticastOption ipv6MulticastOption2 = new IPv6MulticastOption(group, interfaceIndex);
// Store the IPAdress multicast options.
group = ipv6MulticastOption2.Group;
interfaceIndex = ipv6MulticastOption2.InterfaceIndex;
// Display the IPv6MulticastOption2 properties.
Console.WriteLine("IPv6MulticastOption.Group: [" + group + "]");
Console.WriteLine("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex + "]");
// Join the specified multicast group using one of the
// JoinMulticastGroup overloaded methods.
clientOriginator.JoinMulticastGroup((int)interfaceIndex, group);
' Instantiate IPv6MulticastOption using another
' overloaded constructor.
Dim ipv6MulticastOption2 As New IPv6MulticastOption(group, interfaceIndex)
' Store the IPAdress multicast options.
group = ipv6MulticastOption2.Group
interfaceIndex = ipv6MulticastOption2.InterfaceIndex
' Display the IPv6MulticastOption2 properties.
Console.WriteLine(("IPv6MulticastOption.Group: [" + group.ToString() + "]"))
Console.WriteLine(("IPv6MulticastOption.InterfaceIndex: [" + interfaceIndex.ToString() + "]"))
' Join the specified multicast group using one of the
' JoinMulticastGroup overloaded methods.
clientOriginator.JoinMulticastGroup(Fix(interfaceIndex), group)
Uwagi
Przed dołączeniem do grupy multiemisji upewnij się, że gniazdo jest powiązane z portem lub punktem końcowym. Można to zrobić, wywołując jeden z konstruktorów, który akceptuje port lub punkt końcowy jako parametr.
Parametr infindex służy do identyfikowania interfejsu sprzętowego w tym samym linku.
Uwaga
Istnieje kilka zakresów adresów multiemisji do wyboru. Zapoznaj się z dokumentem IETF RFC 2375.
Uwaga
Nie można wywołać JoinMulticastGroup konstrukcji bez określonego UdpClient portu lokalnego (czyli przy użyciu konstruktora UdpClient.UdpClient() lub UdpClient.UdpClient(AddressFamily) ).
Dotyczy
JoinMulticastGroup(IPAddress, Int32)
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
Dodaje element UdpClient do grupy multiemisji z określonym czasem wygaśnięcia (TTL).
public:
void JoinMulticastGroup(System::Net::IPAddress ^ multicastAddr, int timeToLive);public void JoinMulticastGroup (System.Net.IPAddress multicastAddr, int timeToLive);member this.JoinMulticastGroup : System.Net.IPAddress * int -> unitPublic Sub JoinMulticastGroup (multicastAddr As IPAddress, timeToLive As Integer)Parametry
- timeToLive
- Int32
Czas wygaśnięcia (TTL), mierzony w przeskokach routera.
Wyjątki
Podany czas wygaśnięcia nie mieści się w zakresie od 0 do 255
Podstawy Socket zostały zamknięte.
Wystąpił błąd podczas uzyskiwania dostępu do gniazda.
multicastAddr to null.
Adres IP nie jest zgodny z wartością AddressFamily definiującą schemat adresowania gniazda.
Przykłady
W poniższym przykładzie pokazano, jak dołączyć do grupy multiemisji, podając dwa parametry, adres multiemisji i liczbę reprezentującą czas wygaśnięcia.
UdpClient^ udpClient = gcnew UdpClient;
// Creates an IPAddress to use to join and drop the multicast group.
IPAddress^ multicastIpAddress = IPAddress::Parse( "239.255.255.255" );
try
{
// The packet dies after 50 router hops.
udpClient->JoinMulticastGroup( multicastIpAddress, 50 );
}
catch ( Exception^ e )
{
Console::WriteLine( e->ToString() );
}
UdpClient udpClient = new UdpClient();
// Creates an IPAddress to use to join and drop the multicast group.
IPAddress multicastIpAddress = IPAddress.Parse("239.255.255.255");
try{
// The packet dies after 50 router hops.
udpClient.JoinMulticastGroup(multicastIpAddress, 50);
}
catch ( Exception e ){
Console.WriteLine( e.ToString());
}
Dim udpClient As New UdpClient()
' Creates an IP address to use to join and drop the multicast group.
Dim multicastIpAddress As IPAddress = IPAddress.Parse("239.255.255.255")
Try
' The packet dies after 50 router hops.
udpClient.JoinMulticastGroup(multicastIpAddress, 50)
Catch e As Exception
Console.WriteLine(e.ToString())
End Try
Uwagi
Metoda JoinMulticastGroup subskrybuje UdpClient grupę multiemisji przy użyciu określonego IPAddresselementu . Po wywołaniu JoinMulticastGroup metody bazowe Socket wysyła pakiet protokołu IGMP (Internet Group Management Protocol) do routera żądającego członkostwa w grupie multiemisji. Zakres adresów multiemisji to 224.0.0.0 do 239.255.255.255. Jeśli określisz adres poza tym zakresem lub jeśli router, do którego zostało wykonane żądanie, nie jest włączony multiemisji, UdpClient zgłosi błąd SocketException. Jeśli zostanie wyświetlony komunikat SocketException, użyj polecenia SocketException.ErrorCode , aby uzyskać określony kod błędu. Po uzyskaniu tego kodu możesz zapoznać się z dokumentacją kodu błędu interfejsu API gniazd systemu Windows w wersji 2 , aby uzyskać szczegółowy opis błędu. Parametr timeToLive określa, ile przeskoków routera będzie dozwolonych dla multiemisji datagramu przed odrzuceniem. UdpClient Po wybraniu routera jako członka grupy multiemisji będzie on mógł odbierać multiemisji datagramy wysyłane do określonego IPAddresselementu .
Uwaga
Musisz utworzyć UdpClient numer portu multiemisji, w przeciwnym razie nie będzie można odbierać multiemisji datagramów. Nie należy wywoływać metody przed wywołaniem ConnectJoinMulticastGroup metody lub metoda odbierania nie będzie działać. Nie musisz należeć do grupy multiemisji, aby wysyłać datagramy do adresu IP multiemisji.
Przed dołączeniem do grupy multiemisji upewnij się, że gniazdo jest powiązane z portem lub punktem końcowym. Można to zrobić, wywołując jeden z konstruktorów, które akceptują jako port lub punkt końcowy.
Aby przestać odbierać multiemisji datagramy, wywołaj metodę DropMulticastGroup i podaj IPAddress grupę, z której chcesz wycofać.
Uwaga
Nie można wywołać JoinMulticastGroup konstrukcji bez określonego UdpClient portu lokalnego (czyli przy użyciu konstruktora UdpClient() lub UdpClient(AddressFamily) ).
Zobacz też
Dotyczy
JoinMulticastGroup(IPAddress, IPAddress)
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
- Źródło:
- UDPClient.cs
Dodaje element UdpClient do grupy multiemisji.
public:
void JoinMulticastGroup(System::Net::IPAddress ^ multicastAddr, System::Net::IPAddress ^ localAddress);public void JoinMulticastGroup (System.Net.IPAddress multicastAddr, System.Net.IPAddress localAddress);member this.JoinMulticastGroup : System.Net.IPAddress * System.Net.IPAddress -> unitPublic Sub JoinMulticastGroup (multicastAddr As IPAddress, localAddress As IPAddress)Parametry
Wyjątki
Podstawy Socket zostały zamknięte.
Wystąpił błąd podczas uzyskiwania dostępu do gniazda.
Przykłady
Poniższy przykład kodu przedstawia użycie JoinMulticastGroup metody .
// Subscribe to a multicast group.
static void DoJoinMulticastGroup( UdpClient^ u, String^ mcast, String^ local )
{
array<IPAddress^>^ multicastAddress = Dns::GetHostAddresses( mcast );
u->JoinMulticastGroup( multicastAddress[0] );
Console::WriteLine( "Joined multicast Address {0}", multicastAddress );
}
// Subscribe to a multicast group.
public static void DoJoinMulticastGroup(UdpClient u, string mcast)
{
IPAddress[] multicastAddress = Dns.GetHostAddresses(mcast);
u.JoinMulticastGroup(multicastAddress[0]);
Console.WriteLine("Joined multicast Address {0}",
multicastAddress[0]);
}
Uwagi
Przed dołączeniem do grupy multiemisji upewnij się, że gniazdo jest powiązane z portem lub punktem końcowym. Można to zrobić, wywołując jeden z konstruktorów, który akceptuje port lub punkt końcowy jako parametr.
Uwaga
Istnieje kilka zakresów adresów multiemisji do wyboru. Można je znaleźć w IETF RFC 2375.
Uwaga
Nie można wywołać JoinMulticastGroup konstrukcji bez określonego UdpClient portu lokalnego (czyli przy użyciu konstruktora UdpClient() lub UdpClient(AddressFamily) ).
Dotyczy
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