Пример #1
0
        public new void BeginOutputReadLine()
        {
            Stream baseStream = StandardOutput.BaseStream;

            this.output = new AsyncStreamReader(this, baseStream, new UserCallBack(this.FixedOutputReadNotifyUser), StandardOutput.CurrentEncoding);
            this.output.BeginReadLine();
        }
Пример #2
0
        public void BeginErrorReadLine()
        {
            Stream baseStream = StandardError.BaseStream;

            this.error = new AsyncStreamReader(this, baseStream, new UserCallBack(this.FixedErrorReadNotifyUser), StandardError.CurrentEncoding);
            this.error.BeginReadLine();
        }
Пример #3
0
        /// <devdoc>
        /// <para>
        /// Instructs the <see cref='System.Diagnostics.Process'/> component to start
        /// reading the StandardError stream asynchronously. The user can register a callback
        /// that will be called when a line of data terminated by \n,\r or \r\n is reached, or the end of stream is reached
        /// then the remaining information is returned. The user can add an event handler to ErrorDataReceived.
        /// </para>
        /// </devdoc>
        public void BeginErrorReadLine()
        {
            if (_errorStreamReadMode == StreamReadMode.Undefined)
            {
                _errorStreamReadMode = StreamReadMode.AsyncMode;
            }
            else if (_errorStreamReadMode != StreamReadMode.AsyncMode)
            {
                throw new InvalidOperationException(SR.CantMixSyncAsyncOperation);
            }

            if (_pendingErrorRead)
            {
                throw new InvalidOperationException(SR.PendingAsyncOperation);
            }

            _pendingErrorRead = true;
            // We can't detect if there's a pending synchronous read, stream also doesn't.
            if (_error == null)
            {
                if (_standardError == null)
                {
                    throw new InvalidOperationException(SR.CantGetStandardError);
                }

                Stream s = _standardError.BaseStream;
                _error = new AsyncStreamReader(s, ErrorReadNotifyUser, _standardError.CurrentEncoding);
            }
            _error.BeginReadLine();
        }
Пример #4
0
 public new void BeginOutputReadLine()
 {
     Stream baseStream = StandardOutput.BaseStream;
        this.output = new AsyncStreamReader(this, baseStream, new UserCallBack(this.FixedOutputReadNotifyUser), StandardOutput.CurrentEncoding);
        this.output.BeginReadLine();
 }
Пример #5
0
 public void BeginErrorReadLine()
 {
     Stream baseStream = StandardError.BaseStream;
        this.error = new AsyncStreamReader(this, baseStream, new UserCallBack(this.FixedErrorReadNotifyUser), StandardError.CurrentEncoding);
        this.error.BeginReadLine();
 }
Пример #6
0
		public void BeginErrorReadLine ()
		{
			if (process_handle == IntPtr.Zero || error_stream == null || StartInfo.RedirectStandardError == false)
				throw new InvalidOperationException ("Standard error has not been redirected or process has not been started.");

			if ((async_mode & AsyncModes.SyncError) != 0)
				throw new InvalidOperationException ("Cannot mix asynchronous and synchonous reads.");

			async_mode |= AsyncModes.AsyncError;

			if (async_error == null)
				async_error = new AsyncStreamReader (this, error_stream.BaseStream, new UserCallBack(this.ErrorReadNotifyUser), error_stream.CurrentEncoding);

			async_error.BeginReadLine ();
		}
        private void OpenConnection(IConnection connection, string data, Action initializeCallback, Action<Exception> errorCallback)
        {
            // If we're reconnecting add /connect to the url
            bool reconnecting = initializeCallback == null;

            var url = (reconnecting ? connection.Url : connection.Url + "connect") + GetReceiveQueryString(connection, data);

            Action<IRequest> prepareRequest = PrepareRequest(connection);

            Debug.WriteLine("SSE: GET {0}", (object)url);

            _httpClient.GetAsync(url, request =>
            {
                prepareRequest(request);

                request.Accept = "text/event-stream";

            }).ContinueWith(task =>
            {
                if (task.IsFaulted)
                {
                    var exception = task.Exception.GetBaseException();
                    if (!IsRequestAborted(exception))
                    {
                        if (errorCallback != null &&
                            Interlocked.Exchange(ref _initializedCalled, 1) == 0)
                        {
                            errorCallback(exception);
                        }
                        else if (reconnecting)
                        {
                            // Only raise the error event if we failed to reconnect
                            connection.OnError(exception);
                        }
                    }

                    if (reconnecting)
                    {
                        // Retry
                        Reconnect(connection, data);
                        return;
                    }
                }
                else
                {
                    // Get the reseponse stream and read it for messages
                    var response = task.Result;
                    var stream = response.GetResponseStream();
                    var reader = new AsyncStreamReader(stream,
                                                       connection,
                                                       () =>
                                                       {
                                                           if (Interlocked.CompareExchange(ref _initializedCalled, 1, 0) == 0)
                                                           {
                                                               initializeCallback();
                                                           }
                                                       },
                                                       () =>
                                                       {
                                                           response.Close();

                                                           Reconnect(connection, data);
                                                       });

                    if (reconnecting)
                    {
                        // Raise the reconnect event if the connection comes back up
                        connection.OnReconnected();
                    }

                    reader.StartReading();

                    // Set the reader for this connection
                    connection.Items[ReaderKey] = reader;
                }
            });

            if (initializeCallback != null)
            {
                TaskAsyncHelper.Delay(ConnectionTimeout).Then(() =>
                {
                    if (Interlocked.CompareExchange(ref _initializedCalled, 1, 0) == 0)
                    {
                        // Stop the connection
                        Stop(connection);

                        // Connection timeout occured
                        errorCallback(new TimeoutException());
                    }
                });
            }
        }
Пример #8
0
		protected override void Dispose(bool disposing) {
			// Check to see if Dispose has already been called.
			if (disposed != 0 || Interlocked.CompareExchange (ref disposed, 1, 0) != 0)
				return;

			// If this is a call to Dispose,
			// dispose all managed resources.
			if (disposing) {
#if MONO_FEATURE_PROCESS_START
				async_output = null;
				async_error = null;

				if (input_stream != null) {
					if (!input_stream_exposed)
						input_stream.Close ();
					input_stream = null;
				}
				if (output_stream != null) {
					if (!output_stream_exposed)
						output_stream.Close ();
					output_stream = null;
				}
				if (error_stream != null) {
					if (!error_stream_exposed)
						error_stream.Close ();
					error_stream = null;
				}
#endif // MONO_FEATURE_PROCESS_START
			}

			// Release unmanaged resources

			if (process_handle!=IntPtr.Zero) {
				Process_free_internal (process_handle);
				process_handle = IntPtr.Zero;
			}

			base.Dispose (disposing);
		}
Пример #9
0
		public void BeginOutputReadLine ()
		{
			if (process_handle == IntPtr.Zero || output_stream == null || StartInfo.RedirectStandardOutput == false)
				throw new InvalidOperationException ("Standard output has not been redirected or process has not been started.");

			if ((async_mode & AsyncModes.SyncOutput) != 0)
				throw new InvalidOperationException ("Cannot mix asynchronous and synchonous reads.");

			if ((async_mode & AsyncModes.AsyncOutput) != 0)
				throw new InvalidOperationException ("An async read operation has already been started on the stream.");

			async_mode |= AsyncModes.AsyncOutput;

			if (async_output == null)
				async_output = new AsyncStreamReader (this, output_stream.BaseStream, new UserCallBack(this.OutputReadNotifyUser), output_stream.CurrentEncoding);

			async_output.BeginReadLine ();
		}
 /// <summary>
 /// Create the multiplexer and attach it to the specified handler.
 /// </summary>
 /// <param name="readers">Readers to read.</param>
 /// <param name="handler">Called for queued data item.</param>
 /// <param name="complete">Called when all readers complete.</param>
 public AsyncStreamReaderMultiplexer(AsyncStreamReader[] readers,
                                     AsyncStreamReader.Handler handler,
                                     CompletionHandler complete = null)
 {
     queuedItem = new AutoResetEvent(false);
     queue = System.Collections.Queue.Synchronized(new System.Collections.Queue());
     activeStreams = new HashSet<int>();
     foreach (AsyncStreamReader reader in readers)
     {
         reader.DataReceived += HandleRead;
         activeStreams.Add(reader.Handle);
     }
     DataReceived += handler;
     if (complete != null) Complete += complete;
     (new Thread(new ThreadStart(PollQueue))).Start();
 }
Пример #11
0
 public void BeginOutputReadLine()
 {
     if (outputStreamReadMode == Process2.StreamReadMode.undefined)
     {
         outputStreamReadMode = Process2.StreamReadMode.asyncMode;
     }
     else
     {
         if (outputStreamReadMode != Process2.StreamReadMode.asyncMode)
         {
             throw new InvalidOperationException("CantMixSyncAsyncOperation");
         }
     }
     if (pendingOutputRead)
     {
         throw new InvalidOperationException("PendingAsyncOperation");
     }
     pendingOutputRead = true;
     if (output == null)
     {
         if (standardOutput == null)
         {
             throw new InvalidOperationException("CantGetStandardOut");
         }
         Stream baseStream = standardOutput.BaseStream;
         output = new AsyncStreamReader(this, baseStream, new UserCallBack(OutputReadNotifyUser), standardOutput.CurrentEncoding);
     }
     output.BeginReadLine();
 }
 private bool StartWithCreateProcess(ProcessStartInfo startInfo)
 {
     if ((startInfo.StandardOutputEncoding != null) && !startInfo.RedirectStandardOutput)
     {
         throw new InvalidOperationException(SR.GetString("StandardOutputEncodingNotAllowed"));
     }
     if ((startInfo.StandardErrorEncoding != null) && !startInfo.RedirectStandardError)
     {
         throw new InvalidOperationException(SR.GetString("StandardErrorEncodingNotAllowed"));
     }
     if (this.disposed)
     {
         throw new ObjectDisposedException(base.GetType().Name);
     }
     StringBuilder cmdLine = BuildCommandLine(startInfo.FileName, startInfo.Arguments);
     Microsoft.Win32.NativeMethods.STARTUPINFO lpStartupInfo = new Microsoft.Win32.NativeMethods.STARTUPINFO();
     Microsoft.Win32.SafeNativeMethods.PROCESS_INFORMATION lpProcessInformation = new Microsoft.Win32.SafeNativeMethods.PROCESS_INFORMATION();
     Microsoft.Win32.SafeHandles.SafeProcessHandle processHandle = new Microsoft.Win32.SafeHandles.SafeProcessHandle();
     Microsoft.Win32.SafeHandles.SafeThreadHandle handle2 = new Microsoft.Win32.SafeHandles.SafeThreadHandle();
     int error = 0;
     SafeFileHandle parentHandle = null;
     SafeFileHandle handle4 = null;
     SafeFileHandle handle5 = null;
     GCHandle handle6 = new GCHandle();
     lock (s_CreateProcessLock)
     {
         try
         {
             bool flag;
             if ((startInfo.RedirectStandardInput || startInfo.RedirectStandardOutput) || startInfo.RedirectStandardError)
             {
                 if (startInfo.RedirectStandardInput)
                 {
                     this.CreatePipe(out parentHandle, out lpStartupInfo.hStdInput, true);
                 }
                 else
                 {
                     lpStartupInfo.hStdInput = new SafeFileHandle(Microsoft.Win32.NativeMethods.GetStdHandle(-10), false);
                 }
                 if (startInfo.RedirectStandardOutput)
                 {
                     this.CreatePipe(out handle4, out lpStartupInfo.hStdOutput, false);
                 }
                 else
                 {
                     lpStartupInfo.hStdOutput = new SafeFileHandle(Microsoft.Win32.NativeMethods.GetStdHandle(-11), false);
                 }
                 if (startInfo.RedirectStandardError)
                 {
                     this.CreatePipe(out handle5, out lpStartupInfo.hStdError, false);
                 }
                 else
                 {
                     lpStartupInfo.hStdError = new SafeFileHandle(Microsoft.Win32.NativeMethods.GetStdHandle(-12), false);
                 }
                 lpStartupInfo.dwFlags = 0x100;
             }
             int creationFlags = 0;
             if (startInfo.CreateNoWindow)
             {
                 creationFlags |= 0x8000000;
             }
             IntPtr zero = IntPtr.Zero;
             if (startInfo.environmentVariables != null)
             {
                 bool unicode = false;
                 if (ProcessManager.IsNt)
                 {
                     creationFlags |= 0x400;
                     unicode = true;
                 }
                 handle6 = GCHandle.Alloc(EnvironmentBlock.ToByteArray(startInfo.environmentVariables, unicode), GCHandleType.Pinned);
                 zero = handle6.AddrOfPinnedObject();
             }
             string workingDirectory = startInfo.WorkingDirectory;
             if (workingDirectory == string.Empty)
             {
                 workingDirectory = Environment.CurrentDirectory;
             }
             if (startInfo.UserName.Length != 0)
             {
                 Microsoft.Win32.NativeMethods.LogonFlags logonFlags = 0;
                 if (startInfo.LoadUserProfile)
                 {
                     logonFlags = Microsoft.Win32.NativeMethods.LogonFlags.LOGON_WITH_PROFILE;
                 }
                 IntPtr password = IntPtr.Zero;
                 try
                 {
                     if (startInfo.Password == null)
                     {
                         password = Marshal.StringToCoTaskMemUni(string.Empty);
                     }
                     else
                     {
                         password = Marshal.SecureStringToCoTaskMemUnicode(startInfo.Password);
                     }
                     RuntimeHelpers.PrepareConstrainedRegions();
                     try
                     {
                     }
                     finally
                     {
                         flag = Microsoft.Win32.NativeMethods.CreateProcessWithLogonW(startInfo.UserName, startInfo.Domain, password, logonFlags, null, cmdLine, creationFlags, zero, workingDirectory, lpStartupInfo, lpProcessInformation);
                         if (!flag)
                         {
                             error = Marshal.GetLastWin32Error();
                         }
                         if ((lpProcessInformation.hProcess != IntPtr.Zero) && (lpProcessInformation.hProcess != Microsoft.Win32.NativeMethods.INVALID_HANDLE_VALUE))
                         {
                             processHandle.InitialSetHandle(lpProcessInformation.hProcess);
                         }
                         if ((lpProcessInformation.hThread != IntPtr.Zero) && (lpProcessInformation.hThread != Microsoft.Win32.NativeMethods.INVALID_HANDLE_VALUE))
                         {
                             handle2.InitialSetHandle(lpProcessInformation.hThread);
                         }
                     }
                     if (!flag)
                     {
                         if ((error != 0xc1) && (error != 0xd8))
                         {
                             throw new Win32Exception(error);
                         }
                         throw new Win32Exception(error, SR.GetString("InvalidApplication"));
                     }
                     goto Label_03E0;
                 }
                 finally
                 {
                     if (password != IntPtr.Zero)
                     {
                         Marshal.ZeroFreeCoTaskMemUnicode(password);
                     }
                 }
             }
             RuntimeHelpers.PrepareConstrainedRegions();
             try
             {
             }
             finally
             {
                 flag = Microsoft.Win32.NativeMethods.CreateProcess(null, cmdLine, null, null, true, creationFlags, zero, workingDirectory, lpStartupInfo, lpProcessInformation);
                 if (!flag)
                 {
                     error = Marshal.GetLastWin32Error();
                 }
                 if ((lpProcessInformation.hProcess != IntPtr.Zero) && (lpProcessInformation.hProcess != Microsoft.Win32.NativeMethods.INVALID_HANDLE_VALUE))
                 {
                     processHandle.InitialSetHandle(lpProcessInformation.hProcess);
                 }
                 if ((lpProcessInformation.hThread != IntPtr.Zero) && (lpProcessInformation.hThread != Microsoft.Win32.NativeMethods.INVALID_HANDLE_VALUE))
                 {
                     handle2.InitialSetHandle(lpProcessInformation.hThread);
                 }
             }
             if (!flag)
             {
                 if ((error != 0xc1) && (error != 0xd8))
                 {
                     throw new Win32Exception(error);
                 }
                 throw new Win32Exception(error, SR.GetString("InvalidApplication"));
             }
         }
         finally
         {
             if (handle6.IsAllocated)
             {
                 handle6.Free();
             }
             lpStartupInfo.Dispose();
         }
     }
 Label_03E0:
     if (startInfo.RedirectStandardInput)
     {
         this.standardInput = new StreamWriter(new FileStream(parentHandle, FileAccess.Write, 0x1000, false), Console.InputEncoding, 0x1000);
         this.standardInput.AutoFlush = true;
     }
     if (startInfo.RedirectStandardOutput)
     {
         Encoding encoding = (startInfo.StandardOutputEncoding != null) ? startInfo.StandardOutputEncoding : Console.OutputEncoding;
         this.standardOutput = new StreamReader(new FileStream(handle4, FileAccess.Read, 0x1000, false), encoding, true, 0x1000);
     }
     if (startInfo.RedirectStandardError)
     {
         Encoding encoding2 = (startInfo.StandardErrorEncoding != null) ? startInfo.StandardErrorEncoding : Console.OutputEncoding;
         this.standardError = new StreamReader(new FileStream(handle5, FileAccess.Read, 0x1000, false), encoding2, true, 0x1000);
     }
     bool flag3 = false;
     if (!processHandle.IsInvalid)
     {
         this.SetProcessHandle(processHandle);
         this.SetProcessId(lpProcessInformation.dwProcessId);
         handle2.Close();
         flag3 = true;
     }
     return flag3;
 }
 public void Close()
 {
     if (this.Associated)
     {
         if (this.haveProcessHandle)
         {
             this.StopWatchingForExit();
             this.m_processHandle.Close();
             this.m_processHandle = null;
             this.haveProcessHandle = false;
         }
         this.haveProcessId = false;
         this.isRemoteMachine = false;
         this.machineName = ".";
         this.raisedOnExited = false;
         this.standardOutput = null;
         this.standardInput = null;
         this.standardError = null;
         this.output = null;
         this.error = null;
         this.Refresh();
     }
 }
 public void BeginOutputReadLine()
 {
     if (this.outputStreamReadMode == StreamReadMode.undefined)
     {
         this.outputStreamReadMode = StreamReadMode.asyncMode;
     }
     else if (this.outputStreamReadMode != StreamReadMode.asyncMode)
     {
         throw new InvalidOperationException(SR.GetString("CantMixSyncAsyncOperation"));
     }
     if (this.pendingOutputRead)
     {
         throw new InvalidOperationException(SR.GetString("PendingAsyncOperation"));
     }
     this.pendingOutputRead = true;
     if (this.output == null)
     {
         if (this.standardOutput == null)
         {
             throw new InvalidOperationException(SR.GetString("CantGetStandardOut"));
         }
         Stream baseStream = this.standardOutput.BaseStream;
         this.output = new AsyncStreamReader(this, baseStream, new UserCallBack(this.OutputReadNotifyUser), this.standardOutput.CurrentEncoding);
     }
     this.output.BeginReadLine();
 }
Пример #15
0
        /// <summary>
        /// Run Pscp synchronously
        /// </summary>
        /// <param name="result">Result object where results </param>
        /// <param name="args">The args to send to pscp</param>
        /// <param name="argsToLog">The args that are logged or can be returned in status messages</param>
        /// <param name="inlineOutHandler">Inline handler for output</param>
        /// <param name="inlineErrHandler">Inline handler for error</param>
        /// <param name="successOutHandler">Handler for output of successful operation</param>
        void RunPscp(
            PscpResult result,
            string args,
            string argsToLog,
            Func<string, bool> inlineOutHandler,
            Func<string, bool> inlineErrHandler,
            Action<string[]> successOutHandler)
        {
            if (!File.Exists(this.Options.PscpLocation))
            {
                result.SetError(string.Format("Pscp missing, path={0}.", this.Options.PscpLocation), null);
            }
            else if (this.Session.Username == null)
            {
                result.SetError("UserName is null", null);
            }
            else if (this.Session.Host == null)
            {
                result.SetError("Host is null", null);
            }
            else if (this.Session.Port < 0)
            {
                result.SetError("Invalid port: " + this.Session.Port, null);
            }
            else
            {

                Process proc = NewProcess(this.Options.PscpLocation, args);
                Timer timeoutTimer = null;
                AsyncStreamReader outReader = null;
                AsyncStreamReader errReader = null;
                try
                {
                    // Start pscp
                    Log.InfoFormat("Starting process: file={0}, args={1}", this.Options.PscpLocation, argsToLog);
                    proc.Start();

                    // Timeout when no output is received
                    timeoutTimer = new Timer(
                        (x) =>
                        {
                            // timeout
                            SafeKill(proc);
                            result.SetErrorFormat("Process timed out, args={0}", argsToLog);
                        },
                        null, this.Options.TimeoutMs, Timeout.Infinite);

                    // Async read output/err.  Inline actions to quick kill the process when pscp prompts user.
                    // NOTE: Using BeginReadOutput/ErrorReadLine doesn't work here.  Calls to read an empty stream
                    //       will block (e.g. "user's password:"******"OUT",
                        proc.StandardOutput,
                        strOut =>
                        {
                            bool keepReading = true;
                            bool completed = false;
                            if (strOut == PUTTY_INTERACTIVE_AUTH || strOut.Contains("assword:"))
                            {
                                result.StatusCode = ResultStatusCode.RetryAuthentication;
                                Log.Debug("Username/Password invalid or not sent");
                                SafeKill(proc);
                                keepReading = false;
                            }
                            else if (inlineOutHandler != null)
                            {
                                completed = inlineOutHandler(strOut);
                            }
                            timeoutTimer.Change(completed ? Timeout.Infinite : this.Options.TimeoutMs, Timeout.Infinite);
                            return keepReading;
                        });
                    errReader = new AsyncStreamReader(
                        "ERR",
                        proc.StandardError,
                        strErr =>
                        {
                            bool keepReading = true;
                            bool completed = false;
                            if (strErr != null && strErr.Contains(PUTTY_NO_KEY))
                            {
                                result.SetError("Host key not cached.  Connect via putty to cache key then try again", null);
                                SafeKill(proc);
                                keepReading = false;
                            }
                            else if (inlineErrHandler != null)
                            {
                                completed = inlineErrHandler(strErr);
                            }
                            timeoutTimer.Change(completed ? Timeout.Infinite : this.Options.TimeoutMs, Timeout.Infinite);
                            return keepReading;
                        });

                    // start process and wait for results
                    Log.DebugFormat("WaitingForExit");
                    proc.WaitForExit();

                    Log.InfoFormat("Process exited, pid={0}, exitCode={1}", proc.Id, proc.ExitCode);
                    timeoutTimer.Change(Timeout.Infinite, Timeout.Infinite);
                    string[] output = outReader.StopAndGetData();
                    string[] err = errReader.StopAndGetData();

                    string outputStr = String.Join("\r\n", output);
                    if (proc.ExitCode == 0 && outputStr.Contains(PUTTY_UNABLE_TO_OPEN))
                    {
                        // bad path
                        int idx = outputStr.IndexOf(PUTTY_UNABLE_TO_OPEN);
                        result.SetErrorFormat(outputStr.Substring(idx));
                    }
                    else if (proc.ExitCode == 0)
                    {
                        // successful operation
                        if (successOutHandler != null)
                        {
                            successOutHandler(output);
                        }
                    }
                    else
                    {
                        // some kind of error
                        if (result.StatusCode != ResultStatusCode.Success)
                        {
                            Log.Debug("Skipping output check since proactively killed process.");
                        }
                        else if (output.Contains(PUTTY_ARGUMENTS_HELP_HEADER))
                        {
                            result.SetErrorFormat("Invalid arguments sent to pscp, args={0}, output={1}", args, output);
                        }
                        else if (err.Contains(PUTTY_HOST_DOES_NOT_EXIST))
                        {
                            result.SetErrorFormat("Host does not exist.  {0}:{1}", this.Session.Host, this.Session.Port);
                        }
                        else
                        {
                            result.SetErrorFormat("Unknown error.  exitCode={0}, out='{1}', err='{2}'", proc.ExitCode, String.Join("|", output), String.Join("|", err));
                        }
                    }
                }
                finally
                {
                    SafeKill(proc);
                    SafeDispose(timeoutTimer, proc, outReader, errReader);
                }

            }
        }
Пример #16
0
        /// <devdoc>
        ///    <para>
        ///       Frees any resources associated with this component.
        ///    </para>
        /// </devdoc>
        public void Close()
        {
            if (Associated)
            {
                if (_haveProcessHandle)
                {
                    // We need to lock to ensure we don't run concurrently with CompletionCallback.
                    // Without this lock we could reset _raisedOnExited which causes CompletionCallback to
                    // raise the Exited event a second time for the same process.
                    lock (this)
                    {
                        // This sets _waitHandle to null which causes CompletionCallback to not emit events.
                        StopWatchingForExit();
                    }
                    _processHandle.Dispose();
                    _processHandle     = null;
                    _haveProcessHandle = false;
                }
                _haveProcessId   = false;
                _isRemoteMachine = false;
                _machineName     = ".";
                _raisedOnExited  = false;

                // Only call close on the streams if the user cannot have a reference on them.
                // If they are referenced it is the user's responsibility to dispose of them.
                try
                {
                    if (_standardOutput != null && (_outputStreamReadMode == StreamReadMode.AsyncMode || _outputStreamReadMode == StreamReadMode.Undefined))
                    {
                        if (_outputStreamReadMode == StreamReadMode.AsyncMode)
                        {
                            _output.CancelOperation();
                        }
                        _standardOutput.Close();
                    }

                    if (_standardError != null && (_errorStreamReadMode == StreamReadMode.AsyncMode || _errorStreamReadMode == StreamReadMode.Undefined))
                    {
                        if (_errorStreamReadMode == StreamReadMode.AsyncMode)
                        {
                            _error.CancelOperation();
                        }
                        _standardError.Close();
                    }

                    if (_standardInput != null && !_standardInputAccessed)
                    {
                        _standardInput.Close();
                    }
                }
                finally
                {
                    _standardOutput = null;
                    _standardInput  = null;
                    _standardError  = null;

                    _output = null;
                    _error  = null;

                    CloseCore();
                    Refresh();
                }
            }
        }
 /// <summary>
 /// Create a set of readers to read the specified streams, handles are assigned
 /// based upon the index of each stream in the provided array.
 /// </summary>
 /// <param name="streams">Streams to read.</param>
 /// <param name="bufferSize">Size of the buffer to use to read each stream.</param>
 public static AsyncStreamReader[] CreateFromStreams(Stream[] streams, int bufferSize)
 {
     AsyncStreamReader[] readers = new AsyncStreamReader[streams.Length];
     for (int i = 0; i < streams.Length; i++)
     {
         readers[i] = new AsyncStreamReader(i, streams[i], bufferSize);
     }
     return readers;
 }