PingCompletedEventArgs Clase
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Proporciona datos para el evento PingCompleted.
public ref class PingCompletedEventArgs : System::ComponentModel::AsyncCompletedEventArgs
public class PingCompletedEventArgs : System.ComponentModel.AsyncCompletedEventArgs
type PingCompletedEventArgs = class
inherit AsyncCompletedEventArgs
Public Class PingCompletedEventArgs
Inherits AsyncCompletedEventArgs
- Herencia
Ejemplos
En el ejemplo de código siguiente se muestra cómo enviar una solicitud de eco ICMP de forma asincrónica.
#using <System.dll>
using namespace System;
using namespace System::Text;
using namespace System::Net;
using namespace System::Net::NetworkInformation;
using namespace System::ComponentModel;
using namespace System::Threading;
void PingCompletedCallback( Object^ sender, PingCompletedEventArgs^ e );
void DisplayReply( PingReply^ reply );
int main()
{
array<String^>^args = Environment::GetCommandLineArgs();
if ( args->Length == 1 )
throw gcnew ArgumentException( "Ping needs a host or IP Address." );
String^ who = args[ 1 ];
AutoResetEvent^ waiter = gcnew AutoResetEvent( false );
Ping ^ pingSender = gcnew Ping;
// When the PingCompleted event is raised,
// the PingCompletedCallback method is called.
pingSender->PingCompleted += gcnew PingCompletedEventHandler( PingCompletedCallback );
// Create a buffer of 32 bytes of data to be transmitted.
String^ data = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa";
array<Byte>^buffer = Encoding::ASCII->GetBytes( data );
// Wait 12 seconds for a reply.
int timeout = 12000;
// Set options for transmission:
// The data can go through 64 gateways or routers
// before it is destroyed, and the data packet
// cannot be fragmented.
PingOptions ^ options = gcnew PingOptions( 64,true );
Console::WriteLine( "Time to live: {0}", options->Ttl );
Console::WriteLine( "Don't fragment: {0}", options->DontFragment );
// Send the ping asynchronously.
// Use the waiter as the user token.
// When the callback completes, it can wake up this thread.
pingSender->SendAsync( who, timeout, buffer, options, waiter );
// Prevent this example application from ending.
// A real application should do something useful
// when possible.
waiter->WaitOne();
Console::WriteLine( "Ping example completed." );
}
void PingCompletedCallback( Object^ /*sender*/, PingCompletedEventArgs^ e )
{
// If the operation was canceled, display a message to the user.
if ( e->Cancelled )
{
Console::WriteLine( "Ping canceled." );
// Let the main thread resume.
// UserToken is the AutoResetEvent object that the main thread
// is waiting for.
(dynamic_cast<AutoResetEvent^>(e->UserState))->Set();
}
// If an error occurred, display the exception to the user.
if ( e->Error != nullptr )
{
Console::WriteLine( "Ping failed:" );
Console::WriteLine( e->Error->ToString() );
// Let the main thread resume.
(dynamic_cast<AutoResetEvent^>(e->UserState))->Set();
}
PingReply ^ reply = e->Reply;
DisplayReply( reply );
// Let the main thread resume.
(dynamic_cast<AutoResetEvent^>(e->UserState))->Set();
}
void DisplayReply( PingReply ^ reply )
{
if ( reply == nullptr )
return;
Console::WriteLine( "ping status: {0}", reply->Status );
if ( reply->Status == IPStatus::Success )
{
Console::WriteLine( "Address: {0}", reply->Address->ToString() );
Console::WriteLine( "RoundTrip time: {0}", reply->RoundtripTime );
Console::WriteLine( "Time to live: {0}", reply->Options->Ttl );
Console::WriteLine( "Don't fragment: {0}", reply->Options->DontFragment );
Console::WriteLine( "Buffer size: {0}", reply->Buffer->Length );
}
}
using System;
using System.Text;
using System.Net;
using System.Net.NetworkInformation;
using System.ComponentModel;
using System.Threading;
namespace Examples.System.Net.NetworkInformation.PingTest
{
public class PingExample
{
public static void Main (string[] args)
{
if (args.Length == 0)
throw new ArgumentException ("Ping needs a host or IP Address.");
string who = args[0];
AutoResetEvent waiter = new AutoResetEvent (false);
Ping pingSender = new Ping ();
// When the PingCompleted event is raised,
// the PingCompletedCallback method is called.
pingSender.PingCompleted += new PingCompletedEventHandler (PingCompletedCallback);
// Create a buffer of 32 bytes of data to be transmitted.
string data = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa";
byte[] buffer = Encoding.ASCII.GetBytes (data);
// Wait 12 seconds for a reply.
int timeout = 12000;
// Set options for transmission:
// The data can go through 64 gateways or routers
// before it is destroyed, and the data packet
// cannot be fragmented.
PingOptions options = new PingOptions (64, true);
Console.WriteLine ("Time to live: {0}", options.Ttl);
Console.WriteLine ("Don't fragment: {0}", options.DontFragment);
// Send the ping asynchronously.
// Use the waiter as the user token.
// When the callback completes, it can wake up this thread.
pingSender.SendAsync(who, timeout, buffer, options, waiter);
// Prevent this example application from ending.
// A real application should do something useful
// when possible.
waiter.WaitOne ();
Console.WriteLine ("Ping example completed.");
}
private static void PingCompletedCallback (object sender, PingCompletedEventArgs e)
{
// If the operation was canceled, display a message to the user.
if (e.Cancelled)
{
Console.WriteLine ("Ping canceled.");
// Let the main thread resume.
// UserToken is the AutoResetEvent object that the main thread
// is waiting for.
((AutoResetEvent)e.UserState).Set ();
}
// If an error occurred, display the exception to the user.
if (e.Error != null)
{
Console.WriteLine ("Ping failed:");
Console.WriteLine (e.Error.ToString ());
// Let the main thread resume.
((AutoResetEvent)e.UserState).Set();
}
PingReply reply = e.Reply;
DisplayReply (reply);
// Let the main thread resume.
((AutoResetEvent)e.UserState).Set();
}
public static void DisplayReply (PingReply reply)
{
if (reply == null)
return;
Console.WriteLine ("ping status: {0}", reply.Status);
if (reply.Status == IPStatus.Success)
{
Console.WriteLine ("Address: {0}", reply.Address.ToString ());
Console.WriteLine ("RoundTrip time: {0}", reply.RoundtripTime);
Console.WriteLine ("Time to live: {0}", reply.Options.Ttl);
Console.WriteLine ("Don't fragment: {0}", reply.Options.DontFragment);
Console.WriteLine ("Buffer size: {0}", reply.Buffer.Length);
}
}
}
}
Comentarios
Las instancias de esta clase se pasan a un PingCompletedEventHandler método al que se llama cuando se completa una SendAsync llamada. Los SendAsync métodos envían una solicitud de eco del Protocolo de mensajes de control de Internet (ICMP) de forma asincrónica y esperan un mensaje de respuesta de eco ICMP correspondiente. La Reply propiedad contiene los resultados de la solicitud de eco ICMP.
Propiedades
Cancelled |
Obtiene un valor que indica si se ha cancelado una operación asincrónica. (Heredado de AsyncCompletedEventArgs) |
Error |
Obtiene un valor que indica el error que se produjo durante una operación asincrónica. (Heredado de AsyncCompletedEventArgs) |
Reply |
Obtiene un objeto que contiene datos que describen un intento de enviar un mensaje de solicitud de eco del Protocolo de mensajes de control de Internet (ICMP) y recibir un mensaje de respuesta de eco ICMP correspondiente. |
UserState |
Obtiene el identificador único de la tarea asincrónica. (Heredado de AsyncCompletedEventArgs) |
Métodos
Equals(Object) |
Determina si el objeto especificado es igual que el objeto actual. (Heredado de Object) |
GetHashCode() |
Sirve como la función hash predeterminada. (Heredado de Object) |
GetType() |
Obtiene el Type de la instancia actual. (Heredado de Object) |
MemberwiseClone() |
Crea una copia superficial del Object actual. (Heredado de Object) |
RaiseExceptionIfNecessary() |
Genera una excepción proporcionada por el usuario si se ha producido un error en una operación asincrónica. (Heredado de AsyncCompletedEventArgs) |
ToString() |
Devuelve una cadena que representa el objeto actual. (Heredado de Object) |