| public BeginWaitForConnection ( AsyncCallback callback, object state ) : System.IAsyncResult | ||
| callback | AsyncCallback | |
| state | object | |
| return | System.IAsyncResult | |
private static IEnumerator<Int32> PipeServerAsyncEnumerator(AsyncEnumerator ae) {
// Each server object performs asynchronous operation on this pipe
using (var pipe = new NamedPipeServerStream(
"Echo", PipeDirection.InOut, -1, PipeTransmissionMode.Message,
PipeOptions.Asynchronous | PipeOptions.WriteThrough)) {
// Asynchronously accept a client connection
pipe.BeginWaitForConnection(ae.End(), null);
yield return 1;
// A client connected, let's accept another client
var aeNewClient = new AsyncEnumerator();
aeNewClient.BeginExecute(PipeServerAsyncEnumerator(aeNewClient),
aeNewClient.EndExecute);
// Accept the client connection
pipe.EndWaitForConnection(ae.DequeueAsyncResult());
// Asynchronously read a request from the client
Byte[] data = new Byte[1000];
pipe.BeginRead(data, 0, data.Length, ae.End(), null);
yield return 1;
// The client sent us a request, process it
Int32 bytesRead = pipe.EndRead(ae.DequeueAsyncResult());
// Just change to upper case
data = Encoding.UTF8.GetBytes(
Encoding.UTF8.GetString(data, 0, bytesRead).ToUpper().ToCharArray());
// Asynchronously send the response back to the client
pipe.BeginWrite(data, 0, data.Length, ae.End(), null);
yield return 1;
// The response was sent to the client, close our side of the connection
pipe.EndWrite(ae.DequeueAsyncResult());
} // Close happens in a finally block now!
}
private void WaitForConnectionCallBack(IAsyncResult iar)
{
try
{
// Get the pipe
NamedPipeServerStream pipeServer = (NamedPipeServerStream) iar.AsyncState;
// End waiting for the connection
pipeServer.EndWaitForConnection(iar);
StreamReader sr = new StreamReader(pipeServer);
StreamWriter sw = new StreamWriter(pipeServer);
var response = ProccesQueries(sr.ReadLine());
sw.WriteLine(response);
sw.Flush();
pipeServer.WaitForPipeDrain();
// Kill original sever and create new wait server
pipeServer.Disconnect();
pipeServer.Close();
pipeServer = null;
pipeServer = new NamedPipeServerStream(_pipeName, PipeDirection.InOut, 1, PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
// Recursively wait for the connection again and again....
pipeServer.BeginWaitForConnection(WaitForConnectionCallBack, pipeServer);
}
catch (Exception e)
{
Log.Debug("Pipe server error", e);
}
}
public PipeServer()
{
PipeName = string.Format("exTibiaS{0}", GameClient.Process.Id);
Pipe = new NamedPipeServerStream(PipeName, PipeDirection.InOut, -1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
OnReceive += new PipeListener(PipeServer_OnReceive);
Pipe.BeginWaitForConnection(new AsyncCallback(BeginWaitForConnection), null);
}
// Method ====================================================================================
public void Start(string name)
{
pipeName = name;
isExitThread = false;
Thread thread = new Thread(() =>
{
while (true) {
if (isExitThread == true) {
isExitThread = false;
break;
}
try {
// xp 无法使用pipe,所以加点延迟预防一下...
Thread.Sleep(500);
NamedPipeServerStream pipeServer = new NamedPipeServerStream(pipeName, PipeDirection.InOut, -1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
pipeServer.BeginWaitForConnection(ReadCallback, pipeServer);
} catch (Exception ex) {
Logger.WriteException(ex);
}
}
});
thread.IsBackground = true;
thread.Start();
}
/// <summary>
/// Creates a Pipe to interact with an injected DLL or another program.
/// </summary>
public Pipe(Client client, string name)
{
this.client = client;
this.name = name;
pipe = new NamedPipeServerStream(name, PipeDirection.InOut, -1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
pipe.BeginWaitForConnection(new AsyncCallback(BeginWaitForConnection), null);
}
private void WaitForConnectionCallBack(IAsyncResult iar)
{
try
{
// Get the pipe
NamedPipeServerStream pipeServer = (NamedPipeServerStream)iar.AsyncState;
// End waiting for the connection
pipeServer.EndWaitForConnection(iar);
byte[] buffer = new byte[10000];
// Read the incoming message
pipeServer.Read(buffer, 0, 10000);
// Convert byte buffer to string
string stringData = Encoding.UTF8.GetString(buffer, 0, buffer.Length);
Debug.WriteLine(stringData + Environment.NewLine);
// Pass message back to calling form
PipeMessage.Invoke(stringData);
// Kill original sever and create new wait server
pipeServer.Close();
pipeServer = null;
pipeServer = new NamedPipeServerStream(_pipeName, PipeDirection.In, 1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
// Recursively wait for the connection again and again....
pipeServer.BeginWaitForConnection(new AsyncCallback(WaitForConnectionCallBack), pipeServer);
}
catch
{
return;
}
}
static void NewAccept()
{
var stream = new NamedPipeServerStream("Dwarrowdelf.Pipe", PipeDirection.InOut, 4, PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
stream.BeginWaitForConnection(AcceptCallback, stream);
}
private static void CreatePipeListener()
{
var pipe = new NamedPipeServerStream("XBEE SAMPLE", PipeDirection.InOut, NamedPipeServerStream.MaxAllowedServerInstances, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
//var security = pipe.GetAccessControl();
//security.AddAccessRule(new PipeAccessRule("rob-pc\\rob", PipeAccessRights.FullControl, AccessControlType.Allow));
//pipe.SetAccessControl(security);
pipe.BeginWaitForConnection(Pipe_Connected, pipe);
}
/// <summary>
/// Initializes a new instance of the <see cref="Pipe"/> class.
/// </summary>
/// <param name="connection">The connection.</param>
/// <param name="name">The name.</param>
public Pipe(ConnectionProvider connection, string name)
{
Connection = connection;
Name = name;
Buffer = new byte[1024];
pipe = new NamedPipeServerStream(name, PipeDirection.InOut, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
pipe.BeginWaitForConnection(new AsyncCallback(BeginWaitForConnection), null);
}
private void StartInteropServer()
{
if (pipeServer != null)
{
pipeServer.Close();
pipeServer = null;
}
pipeServer = new NamedPipeServerStream("SpeditNamedPipeServer", PipeDirection.In, 1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
pipeServer.BeginWaitForConnection(new AsyncCallback(PipeConnection_MessageIn), null);
}
public void Start(string pipeName)
{
_pipeName = pipeName;
var security = new PipeSecurity();
var sid = new SecurityIdentifier(WellKnownSidType.WorldSid, null);
security.AddAccessRule(new PipeAccessRule(sid, PipeAccessRights.FullControl, AccessControlType.Allow));
_pipeServer = new NamedPipeServerStream(_pipeName, PipeDirection.In, 254,
PipeTransmissionMode.Byte, PipeOptions.Asynchronous, 4096, 4096, security);
_pipeServer.BeginWaitForConnection(WaitForConnectionCallBack, _pipeServer);
_logger.Info("Opened named pipe '{0}'", _pipeName);
_closed = false;
}
public NamedPipe(string name, string server, IEnumerable<string[]> dataValueArrays)
{
_dataValueArrays = dataValueArrays;
Name = name;
Server = server;
Stream = new NamedPipeServerStream(name, PipeDirection.Out, 2, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
if (Log.IsDebugEnabled)
{
Log.DebugFormat("Listening on named pipe {0}", Path);
}
Stream.BeginWaitForConnection(OnConnection, this);
}
public PipeServer(string serverName)
{
try
{
ServerName = serverName;
_pipe = new NamedPipeServerStream(ServerName, PipeDirection.In, 5, PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
_pipe.BeginWaitForConnection(ConnectionHandler, _pipe);
IsOk = true;
}
catch (Exception e)
{
IsOk = false;
Issue = e;
}
}
private void ServerLoop()
{
while (_stopRequired)
{
_allDone.Reset();
var pipeStream = new NamedPipeServerStream(PipeName, PipeDirection.InOut, -1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
pipeStream.BeginWaitForConnection(asyncResult =>
{
pipeStream.EndWaitForConnection(asyncResult);
_allDone.Set();
var thread = new Thread(ProcessClientThread);
thread.Start(pipeStream);
}, null);
_allDone.WaitOne();
}
}
/// <summary>
/// Start the listening process
/// </summary>
/// <param name="source">Name of pipe to be listend to</param>
public void Listen(string source)
{
try
{
_pipeName = source;
var pipeServer = new NamedPipeServerStream(_pipeName, PipeDirection.In, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
//old school style - may want to go async/await in future
pipeServer.BeginWaitForConnection(new AsyncCallback(ConnectionCallback), pipeServer);
}
catch (Exception ex)
{
Debug.WriteLine(ex.Message);
}
}
public void Listen(string PipeName)
{
try
{
// Set to class level var so we can re-use in the async callback method
_pipeName = PipeName;
// Create the new async pipe
NamedPipeServerStream pipeServer = new NamedPipeServerStream(PipeName, PipeDirection.In, 1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
// Wait for a connection
pipeServer.BeginWaitForConnection(new AsyncCallback(WaitForConnectionCallBack), pipeServer);
}
catch (Exception oEX)
{
Debug.WriteLine(oEX.Message);
}
}
public void Init()
{
lock (pipeServerLock)
{
if (pipeServer != null)
{
return;
}
var sid = new SecurityIdentifier(WellKnownSidType.WorldSid, null);
var rule = new PipeAccessRule(sid, PipeAccessRights.ReadWrite,
System.Security.AccessControl.AccessControlType.Allow);
var sec = new PipeSecurity();
sec.AddAccessRule(rule);
pipeServer = new NamedPipeServerStream(HealthCheckSettings.HEALTH_CHECK_PIPE, PipeDirection.In, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous, 0, 0, sec);
pipeServer.BeginWaitForConnection(new AsyncCallback(WaitForConnectionCallBack), pipeServer);
}
}
private async void ConnectionCallback(IAsyncResult asyncResult)
{
try
{
using (var pipeServer = asyncResult.AsyncState as NamedPipeServerStream) // get the pipeserver
{
if (pipeServer != null)
{
pipeServer.EndWaitForConnection(asyncResult); // finish connection
byte[] buffer = new byte[16 * 1024];
using (MemoryStream memoryStream = new MemoryStream()) // create mem stream to read in bytes from pipe stream
{
int read;
while ((read = await pipeServer.ReadAsync(buffer, 0, buffer.Length)) > 0) // read to the end of the stream
{
memoryStream.Write(buffer, 0, read); // write the bytes to memory
}
var json = GetString(memoryStream.ToArray()); // convert bytes to string
var msg = Newtonsoft.Json.JsonConvert.DeserializeObject<KioskMessage<object>>(json); // deserialize to message with object payload - payload will be a json string when <object> is used as generic type
var assembly = typeof(KioskMessage<object>).Assembly; // find the assembly where are payload types can be found
var dataType = assembly.GetType(msg.DataType); // get the type of the payload
var payload = Newtonsoft.Json.JsonConvert.DeserializeObject(msg.Data.ToString(), dataType); // deserialize the payload json to the correct type
switch (dataType.FullName) // brittle switch statements based on type string - better way?
{
case "KinectPOC.Common.Messages.Demographics":
RaiseDemographicsEvent(payload as DemographicData);
break;
}
}
pipeServer.Close();
}
}
var newServer = new NamedPipeServerStream(_pipeName, PipeDirection.In, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
newServer.BeginWaitForConnection(new AsyncCallback(ConnectionCallback), newServer);
}
catch (Exception ex)
{
Debug.WriteLine(ex.Message);
}
}
static void SetupPipeWait(App app)
{
var pipe = new NamedPipeServerStream(IPCName, PipeDirection.InOut, NamedPipeServerStream.MaxAllowedServerInstances, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
pipe.BeginWaitForConnection(result =>
{
pipe.EndWaitForConnection(result);
var buf = new byte[sizeof(int)];
pipe.Read(buf, 0, buf.Length);
var len = BitConverter.ToInt32(buf, 0);
buf = new byte[len];
pipe.Read(buf, 0, buf.Length);
var commandLine = Coder.BytesToString(buf, Coder.CodePage.UTF8);
app.Dispatcher.Invoke(() => app.CreateWindowsFromArgs(commandLine));
SetupPipeWait(app);
}, null);
}
//server
private void Listen(NamedPipeServerStream server, StreamWriter writer)
{
var buffer = new byte[4096];
#region
//server.BeginRead(buffer, 0, 4096, p =>
//{
// Trace.WriteLine(p.IsCompleted);
// server.EndRead(p);
// var reader = new StreamReader(server);
// var temp = string.Empty;
// while (!string.IsNullOrEmpty((temp = reader.ReadLine())))
// {
// Trace.WriteLine("Server:from client " + temp);
// writer.WriteLine("echo:" + temp);
// writer.Flush();
// break;
// }
// server.Disconnect();
// Listen(server, writer);
//}, null);
#endregion
server.BeginWaitForConnection(new AsyncCallback(o =>
{
var pipe = o.AsyncState as NamedPipeServerStream;
pipe.EndWaitForConnection(o);
var reader = new StreamReader(pipe);
var result = reader.ReadLine();
var text = string.Format("connected:receive from client {0}|{1}", result.Length, result);
Trace.WriteLine(text);
writer.WriteLine(result);
writer.Flush();
writer.WriteLine("End");
writer.Flush();
server.WaitForPipeDrain();
server.Disconnect();
Listen(pipe, writer);
}), server);
}
public void StartServer(SelectCounter selectCountersDelegate, ReceivedValues receivedValuesDelegate)
{
selectCounters = selectCountersDelegate;
receivedValues = receivedValuesDelegate;
System.Security.Principal.SecurityIdentifier sid = new System.Security.Principal.SecurityIdentifier(System.Security.Principal.WellKnownSidType.WorldSid, null);
PipeAccessRule pac = new PipeAccessRule(sid, PipeAccessRights.ReadWrite, System.Security.AccessControl.AccessControlType.Allow);
PipeSecurity ps = new PipeSecurity();
ps.AddAccessRule(pac);
sid = null;
pipeServer = new NamedPipeServerStream(serverPipeName,
PipeDirection.InOut,
serverInstances,
PipeTransmissionMode.Message,
PipeOptions.Asynchronous,
1024,
1024,
ps);
AsyncCallback myCallback = new AsyncCallback(AsyncPipeCallback);
pipeServer.BeginWaitForConnection(myCallback, null);
}
void pipeServerThread(object o)
{
NamedPipeServerStream pipeServer = null;
try
{
while (true)
{
pipeServer = new NamedPipeServerStream(
this.ServerName, PipeDirection.InOut, 1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous);
IAsyncResult async = pipeServer.BeginWaitForConnection(null, null);
int index = WaitHandle.WaitAny(new WaitHandle[] { async.AsyncWaitHandle, closeApplicationEvent });
switch (index)
{
case 0:
pipeServer.EndWaitForConnection(async);
using (StreamReader sr = new StreamReader(pipeServer))
using (StreamWriter sw = new StreamWriter(pipeServer))
{
this.Recived(this, new ServerReciveEventArgs(sr, sw));
}
if (pipeServer.IsConnected)
{
pipeServer.Disconnect();
}
break;
case 1:
return;
}
}
}
finally
{
if (pipeServer != null)
{
pipeServer.Close();
}
}
}
/// <summary>
/// Launches the specifies process and sends the dto object to it using a named pipe
/// </summary>
/// <param name="dto">Dto object to send</param>
/// <param name="processStartInfo">Process info for the process to start</param>
/// <param name="syncProcessName">Name of the pipe to write to</param>
/// <returns>The started process</returns>
public static Process LaunchProcessAndSendDto(NauDto dto, ProcessStartInfo processStartInfo, string syncProcessName)
{
Process p;
using (NamedPipeServerStream pipe = new NamedPipeServerStream(syncProcessName, PipeDirection.Out, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous))
{
p = Process.Start(processStartInfo);
if (p == null)
{
throw new ProcessStartFailedException("The process failed to start");
}
var asyncResult = pipe.BeginWaitForConnection(null, null);
if (asyncResult.AsyncWaitHandle.WaitOne(PIPE_TIMEOUT))
{
pipe.EndWaitForConnection(asyncResult);
BinaryFormatter formatter = new BinaryFormatter();
formatter.Serialize(pipe, dto);
}
else if (p.HasExited)
{
Type exceptionType = Marshal.GetExceptionForHR(p.ExitCode).GetType();
throw new TimeoutException(string.Format("The NamedPipeServerStream timed out waiting for a named pipe connection, " +
"but the process has exited with exit code: {0} ({1})", p.ExitCode, exceptionType.FullName));
}
else
{
throw new TimeoutException("The NamedPipeServerStream timed out waiting for a named pipe connection.");
}
}
return p;
}
public ShellCommandHandler(CommandHandler cmdHandler)
{
pipeServer = new NamedPipeServerStream("sciGitPipe", PipeDirection.In, 1, PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
pipeThread = new Thread(() => {
while (true) {
try {
var ar = pipeServer.BeginWaitForConnection(null, null);
pipeServer.EndWaitForConnection(ar);
var ss = new StreamString(pipeServer);
string verb = ss.ReadString();
string filename = ss.ReadString();
cmdHandler(verb, filename);
pipeServer.Disconnect();
} catch (ObjectDisposedException) {
break;
} catch (IOException) {
break;
} catch (Exception e) {
Logger.LogException(e);
}
}
});
}
private void ServerMain()
{
while (pipeServer.ThreadState != System.Threading.ThreadState.AbortRequested)
{
PipeSecurity security = new PipeSecurity();
security.AddAccessRule(new PipeAccessRule(
WindowsIdentity.GetCurrent().User,
PipeAccessRights.FullControl, AccessControlType.Allow));
using (NamedPipeServerStream server = new NamedPipeServerStream(instanceID,
PipeDirection.In, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous,
128, 128, security))
{
ServerAsyncInfo async = new ServerAsyncInfo();
async.Server = server;
async.WaitHandle = new AutoResetEvent(false);
IAsyncResult result = server.BeginWaitForConnection(WaitForConnection, async);
if (result.AsyncWaitHandle.WaitOne())
async.WaitHandle.WaitOne();
}
}
}
private async void ConnectionCallback(IAsyncResult asyncResult)
{
try
{
using (var pipeServer = asyncResult.AsyncState as NamedPipeServerStream) // get the pipeserver
{
if (pipeServer != null)
{
pipeServer.EndWaitForConnection(asyncResult); // finish connection
byte[] buffer = new byte[16 * 1024];
using (MemoryStream memoryStream = new MemoryStream()) // create mem stream to read in bytes from pipe stream
{
int read;
while ((read = await pipeServer.ReadAsync(buffer, 0, buffer.Length)) > 0) // read to the end of the stream
{
memoryStream.Write(buffer, 0, read); // write the bytes to memory
}
var json = GetString(memoryStream.ToArray()); // convert bytes to string
var msg = Newtonsoft.Json.JsonConvert.DeserializeObject<KioskMessage<object>>(json); // deserialize to message with object payload - payload will be a json string when <object> is used as generic type
var assembly = typeof(KioskMessage<object>).Assembly; // find the assembly where are payload types can be found
var dataType = assembly.GetType(msg.DataType); // get the type of the payload
var payload = Newtonsoft.Json.JsonConvert.DeserializeObject(msg.Data.ToString(), dataType); // deserialize the payload json to the correct type
switch (dataType.FullName) // brittle switch statements based on type string - better way?
{
case "KinectPOC.Common.Messages.Demographics":
DemographicData demographics = (DemographicData)payload;
RaiseDemographicsEvent(demographics);
UserExperienceContext uec = new UserExperienceContext();
uec.Age = ((DemographicData)payload).Age;
uec.Gender = ((DemographicData)payload).Gender;
uec.FaceID = ((DemographicData)payload).FaceID;
uec.InteractionCount = 1;
if(demographics.FaceMatch)
{
//Find out if we've already seen this person
var orginalUser = (from users in _userExperiences where users.FaceID == demographics.FaceID select users).FirstOrDefault();
if (orginalUser == null)
{
uec.TrackingId = demographics.TrackingId;
_userExperiences.Add(uec);
}
else
{
orginalUser.TrackingId = demographics.TrackingId;
orginalUser.InteractionCount++;
}
}
else
{
uec.TrackingId = demographics.TrackingId;
_userExperiences.Add(uec);
}
break;
}
}
pipeServer.Close();
}
}
var newServer = new NamedPipeServerStream(_pipeName, PipeDirection.In, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
newServer.BeginWaitForConnection(new AsyncCallback(ConnectionCallback), newServer);
}
catch (Exception ex)
{
Debug.WriteLine(ex.Message);
}
}
public void Start(Boolean isClient)
{
if (isClient) {
NamedPipeClientStream client = new NamedPipeClientStream(".", _pipeName, PipeDirection.InOut, PipeOptions.Asynchronous);
client.Connect(10000); // 10 second timeout.
pipe = client;
isReady = true;
} else {
// Grant read/write access to everyone, so the pipe can be written to from impersonated processes
PipeSecurity pipeSecurity = new PipeSecurity();
pipeSecurity.SetAccessRule(new PipeAccessRule(new SecurityIdentifier(WellKnownSidType.WorldSid, null), PipeAccessRights.ReadWrite, AccessControlType.Allow));
NamedPipeServerStream server = new NamedPipeServerStream(_pipeName, PipeDirection.InOut, 1, PipeTransmissionMode.Byte, PipeOptions.Asynchronous, 4096, 4096, pipeSecurity);
server.BeginWaitForConnection(new AsyncCallback(WaitForConnection), server);
}
}
//Opens a new pipe to search for clients (other instances of Albedo)
static void NewPipe()
{
server = new NamedPipeServerStream(identifier, PipeDirection.InOut, 5, PipeTransmissionMode.Message, PipeOptions.Asynchronous);
server.BeginWaitForConnection(new AsyncCallback(ClientDetect), null);
return;
}
public ServerRunner(String pipeName, Action<string> actionPrimaryReceiveMessage)
{
Debug.Assert(pipeName != null);
Debug.Assert(actionPrimaryReceiveMessage != null);
for (uint n = 0; n < ServerCount; ++n)
{
_threads[n] = new Thread(() =>
{
while (!_shutdown)
{
try
{
using (var server = new NamedPipeServerStream(pipeName, PipeDirection.In, ServerCount,
PipeTransmissionMode.Byte,
PipeOptions.Asynchronous))
{
var connectEvent = new AutoResetEvent(false);
// note: unfortunately, WaitForConnection() does not put the current
// thread in an interruptible state. This is based on
// http://stackoverflow.com/questions/607872 and achieves this
// by using the async version, BeginWaitForConnection, in conjunction
// with an event.
server.BeginWaitForConnection(ar => {
// without this guard, unsafe access to a disposed closure can happen
if (_shutdown)
{
return;
}
// ReSharper disable AccessToDisposedClosure
Debug.Assert(server != null);
server.EndWaitForConnection(ar);
using (var sr = new StreamReader(server))
{
var line = sr.ReadLine();
if (!_shutdown)
{
// note: there is a small window in which the callback
// is called even though the application is likely no longer
// prepared for it. This needs to be checked for in the callback.
actionPrimaryReceiveMessage(line);
}
}
// ReSharper restore AccessToDisposedClosure
connectEvent.Set();
}, null);
connectEvent.WaitOne();
}
}
catch (IOException xc)
{
// ignore any IO exceptions happening here. We do not
// want to interrupt or crash the primary instance.
Console.WriteLine("Ignoring IOException in NamedPipe Server: " + xc.ToString());
}
catch (ThreadInterruptedException)
{
return;
}
}
});
_threads[n].Start();
}
}
private void ListenNamedPipe()
{
var np = new System.IO.Pipes.NamedPipeServerStream(id.ToString(), System.IO.Pipes.PipeDirection.In, 1, System.IO.Pipes.PipeTransmissionMode.Byte, System.IO.Pipes.PipeOptions.Asynchronous);
np.BeginWaitForConnection(AsyncCallback, np);
}
public static void Start()
{
if (pipeServer != null)
throw new InvalidOperationException("Server already started. First call Close.");
PipeSecurity ps = new PipeSecurity();
PipeAccessRule par = new PipeAccessRule("Everyone", PipeAccessRights.ReadWrite, System.Security.AccessControl.AccessControlType.Allow);
ps.AddAccessRule(par);
pipeServer = new NamedPipeServerStream(SERVERNAME,
PipeDirection.InOut, 1, PipeTransmissionMode.Message, PipeOptions.Asynchronous, 4096, 4096, ps);
Log.Write("NamedPipeServerStream object created, waiting for client connection...");
pipeServer.BeginWaitForConnection(onReceive, new object());
}