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Windows-powershell / PowerShell-master /src /System.Management.Automation /engine /remoting /fanin /BaseTransportManager.cs
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// Copyright (c) Microsoft Corporation.
// Licensed under the MIT License.
/*
 * Common file that contains interface definitions for generic server and client
 * transport managers.
 *
 */
using System.Management.Automation.Tracing;
using System.Text;
using System.IO;
using System.Xml;
using System.Collections.Generic;
using System.Globalization;
using System.Threading;
using System.Management.Automation.Internal;
#if !UNIX
using System.Security.Principal;
#endif
// Don't expose the System.Management.Automation namespace here. This is transport layer
// and it shouldn't know anything about the engine.
using System.Management.Automation.Remoting.Client;
// TODO: this seems ugly...Remoting datatypes should be in remoting namespace
using System.Management.Automation.Runspaces.Internal;
using PSRemotingCryptoHelper = System.Management.Automation.Internal.PSRemotingCryptoHelper;
using RunspaceConnectionInfo = System.Management.Automation.Runspaces.RunspaceConnectionInfo;
using TypeTable = System.Management.Automation.Runspaces.TypeTable;
using Dbg = System.Management.Automation.Diagnostics;
namespace System.Management.Automation.Remoting
{
 #region TransportErrorOccuredEventArgs
/// <summary>
 /// Transport method for error reporting.
 /// </summary>
 public enum TransportMethodEnum
 {
 /// <summary>
 /// CreateShellEx
 /// </summary>
 CreateShellEx = 0,
/// <summary>
 /// RunShellCommandEx
 /// </summary>
 RunShellCommandEx = 1,
/// <summary>
 /// SendShellInputEx
 /// </summary>
 SendShellInputEx = 2,
/// <summary>
 /// ReceiveShellOutputEx
 /// </summary>
 ReceiveShellOutputEx = 3,
/// <summary>
 /// CloseShellOperationEx
 /// </summary>
 CloseShellOperationEx = 4,
/// <summary>
 /// CommandInputEx
 /// </summary>
 CommandInputEx = 5,
/// <summary>
 /// ReceiveCommandOutputEx
 /// </summary>
 ReceiveCommandOutputEx = 6,
/// <summary>
 /// DisconnectShellEx
 /// </summary>
 DisconnectShellEx = 7,
/// <summary>
 /// ReconnectShellEx
 /// </summary>
 ReconnectShellEx = 8,
/// <summary>
 /// ConnectShellEx
 /// </summary>
 ConnectShellEx = 9,
/// <summary>
 /// ReconnectShellCommandEx
 /// </summary>
 ReconnectShellCommandEx = 10,
/// <summary>
 /// ConnectShellCommandEx
 /// </summary>
 ConnectShellCommandEx = 11,
/// <summary>
 /// Unknown
 /// </summary>
 Unknown = 12,
 }
/// <summary>
 /// Event arguments passed to TransportErrorOccurred handlers.
 /// </summary>
 public sealed class TransportErrorOccuredEventArgs : EventArgs
 {
 /// <summary>
 /// Constructor.
 /// </summary>
 /// <param name="e">
 /// Error occurred.
 /// </param>
 /// <param name="m">
 /// The transport method that raised the error.
 /// </param>
 public TransportErrorOccuredEventArgs(
 PSRemotingTransportException e,
 TransportMethodEnum m)
 {
 Exception = e;
 ReportingTransportMethod = m;
 }
/// <summary>
 /// Gets the error occurred.
 /// </summary>
 internal PSRemotingTransportException Exception { get; set; }
/// <summary>
 /// Transport method that is reporting this error.
 /// </summary>
 internal TransportMethodEnum ReportingTransportMethod { get; }
 }
#endregion
#region ConnectionStatusEventArgs
/// <summary>
 /// Robust Connection notifications.
 /// </summary>
 internal enum ConnectionStatus
 {
 NetworkFailureDetected = 1,
 ConnectionRetryAttempt = 2,
 ConnectionRetrySucceeded = 3,
 AutoDisconnectStarting = 4,
 AutoDisconnectSucceeded = 5,
 InternalErrorAbort = 6
 }
/// <summary>
 /// ConnectionStatusEventArgs.
 /// </summary>
 internal class ConnectionStatusEventArgs : EventArgs
 {
 internal ConnectionStatusEventArgs(ConnectionStatus notification)
 {
 Notification = notification;
 }
internal ConnectionStatus Notification { get; }
 }
#endregion
#region CreateCompleteEventArgs
/// <summary>
 /// CreateCompleteEventArgs.
 /// </summary>
 internal class CreateCompleteEventArgs : EventArgs
 {
 internal RunspaceConnectionInfo ConnectionInfo { get; }
internal CreateCompleteEventArgs(
 RunspaceConnectionInfo connectionInfo)
 {
 ConnectionInfo = connectionInfo;
 }
 }
#endregion
/// <summary>
 /// Contains implementation that is common to both client and server
 /// transport managers.
 /// </summary>
 public abstract class BaseTransportManager : IDisposable
 {
 #region tracer
[TraceSource("Transport", "Traces BaseWSManTransportManager")]
 private static readonly PSTraceSource s_baseTracer = PSTraceSource.GetTracer("Transport", "Traces BaseWSManTransportManager");
#endregion
#region Global Constants
// KeepAlive: Server 4 minutes, Client 3 minutes
 // The server timeout value has to be bigger than the client timeout value.
 // This is due to the WinRM implementation on the Listener.
 // So We added a 1 minute network delay to count for this.
 internal const int ServerDefaultKeepAliveTimeoutMs = 4 * 60 * 1000; // milliseconds = 4 minutes
 internal const int ClientDefaultOperationTimeoutMs = 3 * 60 * 1000; // milliseconds = 3 minutes
 // Close timeout: to prevent unbounded close operation, we set a 1 minute bound.
 internal const int ClientCloseTimeoutMs = 60 * 1000;
// This value instructs the server to use whatever setting it has for idle timeout.
 internal const int UseServerDefaultIdleTimeout = -1;
 internal const uint UseServerDefaultIdleTimeoutUInt = UInt32.MaxValue;
// Minimum allowed idle timeout time is 60 seconds.
 internal const int MinimumIdleTimeout = 60 * 1000;
internal const int DefaultFragmentSize = 32 << 10; // 32KB
// Quota related consts and session variables.
 internal const int MaximumReceivedDataSize = 50 << 20; // 50MB
 internal const int MaximumReceivedObjectSize = 10 << 20; // 10MB
// Session variables supporting powershell quotas.
 internal const string MAX_RECEIVED_DATA_PER_COMMAND_MB = "PSMaximumReceivedDataSizePerCommandMB";
 internal const string MAX_RECEIVED_OBJECT_SIZE_MB = "PSMaximumReceivedObjectSizeMB";
#endregion
#region Private Data
// fragmentor used to fragment & defragment objects added to this collection.
 private readonly ReceiveDataCollection.OnDataAvailableCallback _onDataAvailableCallback;
// crypto helper used for encrypting/decrypting
 // secure string
#endregion
#region EventHandlers
internal event EventHandler<TransportErrorOccuredEventArgs> WSManTransportErrorOccured;
 /// <summary>
 /// Event that is raised when a remote object is available. The event is raised
 /// from a WSMan transport thread. Since this thread can hold on to a HTTP
 /// connection, the event handler should complete processing as fast as possible.
 /// Importantly the event handler should not generate any call that results in a
 /// user request like host.ReadLine().
 /// </summary>
 internal event EventHandler<RemoteDataEventArgs> DataReceived;
/// <summary>
 /// Listen to this event to observe the PowerShell guid of the processed object.
 /// </summary>
 public event EventHandler PowerShellGuidObserver;
#endregion
#region Constructor
internal BaseTransportManager(PSRemotingCryptoHelper cryptoHelper)
 {
 CryptoHelper = cryptoHelper;
 // create a common fragmentor used by this transport manager to send and receive data.
 // so type information is serialized only the first time an object of a particular type
 // is sent. only data is serialized for the rest of the objects of the same type.
 Fragmentor = new Fragmentor(DefaultFragmentSize, cryptoHelper);
 ReceivedDataCollection = new PriorityReceiveDataCollection(Fragmentor, (this is BaseClientTransportManager));
 _onDataAvailableCallback = new ReceiveDataCollection.OnDataAvailableCallback(OnDataAvailableCallback);
 }
#endregion
#region Helper Methods
internal Fragmentor Fragmentor { get; set; }
/// <summary>
 /// This is needed to deserialize objects coming from the network.
 /// This may be null..in which case type rehydration does not happen.
 /// At construction time we may not have typetable (server runspace
 /// is created only when a request from the client)..so this is
 /// a property on the base transport manager to allow for setting at
 /// a later time.
 /// </summary>
 internal TypeTable TypeTable
 {
 get { return Fragmentor.TypeTable; }
set { Fragmentor.TypeTable = value; }
 }
/// <summary>
 /// Uses the "OnDataAvailableCallback" to handle Deserialized objects.
 /// </summary>
 /// <param name="data">
 /// data to process
 /// </param>
 /// <param name="stream">
 /// priority stream this data belongs to
 /// </param>
 internal virtual void ProcessRawData(byte[] data, string stream)
 {
 try
 {
 ProcessRawData(data, stream, _onDataAvailableCallback);
 }
 catch (Exception exception)
 {
 // This will get executed on a thread pool thread..
 // so we need to protect that thread, hence catching
 // all exceptions
 s_baseTracer.WriteLine("Exception processing data. {0}", exception.Message);
PSRemotingTransportException e = new PSRemotingTransportException(exception.Message, exception);
 TransportErrorOccuredEventArgs eventargs =
 new TransportErrorOccuredEventArgs(e, TransportMethodEnum.ReceiveShellOutputEx);
 RaiseErrorHandler(eventargs);
 return;
 }
 }
/// <summary>
 /// </summary>
 /// <param name="data">
 /// data to process
 /// </param>
 /// <param name="stream">
 /// priority stream this data belongs to
 /// </param>
 /// <param name="dataAvailableCallback">
 /// used by the caller to supply a callback to handle deserialized object.
 /// </param>
 /// <exception cref="Exception">
 /// Since dataAvailableCallback is called in this method, and the handler
 /// may be handled by 3rd party code (eventually),this may throw any exception.
 /// </exception>
 internal void ProcessRawData(byte[] data,
 string stream,
 ReceiveDataCollection.OnDataAvailableCallback dataAvailableCallback)
 {
 Dbg.Assert(data != null, "Cannot process null data");
s_baseTracer.WriteLine("Processing incoming data for stream {0}.", stream);
bool shouldProcess = false;
DataPriorityType dataPriority = DataPriorityType.Default;
 if (stream.Equals(WSManNativeApi.WSMAN_STREAM_ID_STDIN, StringComparison.OrdinalIgnoreCase) ||
 stream.Equals(WSManNativeApi.WSMAN_STREAM_ID_STDOUT, StringComparison.OrdinalIgnoreCase))
 {
 shouldProcess = true;
 }
 else if (stream.Equals(WSManNativeApi.WSMAN_STREAM_ID_PROMPTRESPONSE, StringComparison.OrdinalIgnoreCase))
 {
 dataPriority = DataPriorityType.PromptResponse;
 shouldProcess = true;
 }
if (!shouldProcess)
 {
 // we dont support this stream..so ignore the data
 Dbg.Assert(false, string.Format(
 CultureInfo.InvariantCulture,
 "Data should be from one of the streams : {0} or {1} or {2}",
 WSManNativeApi.WSMAN_STREAM_ID_STDIN,
 WSManNativeApi.WSMAN_STREAM_ID_STDOUT,
 WSManNativeApi.WSMAN_STREAM_ID_PROMPTRESPONSE));
 s_baseTracer.WriteLine("{0} is not a valid stream", stream);
 }
 // process data
 ReceivedDataCollection.ProcessRawData(data, dataPriority, dataAvailableCallback);
 }
/// <summary>
 /// </summary>
 /// <param name="remoteObject"></param>
 /// <exception cref="Exception">
 /// The handler may be handled by 3rd party code (eventually),
 /// this may throw any exception.
 /// </exception>
 internal void OnDataAvailableCallback(RemoteDataObject<PSObject> remoteObject)
 {
 // log the data to crimson logs
 PSEtwLog.LogAnalyticInformational(PSEventId.TransportReceivedObject, PSOpcode.Open,
 PSTask.None,
 PSKeyword.Transport | PSKeyword.UseAlwaysAnalytic,
 remoteObject.RunspacePoolId.ToString(),
 remoteObject.PowerShellId.ToString(),
 (UInt32)(remoteObject.Destination),
 (UInt32)(remoteObject.DataType),
 (UInt32)(remoteObject.TargetInterface));
// This might throw exceptions which the caller handles.
 PowerShellGuidObserver.SafeInvoke(remoteObject.PowerShellId, EventArgs.Empty);
RemoteDataEventArgs eventArgs = new RemoteDataEventArgs(remoteObject);
 DataReceived.SafeInvoke(this, eventArgs);
 }
/// <summary>
 /// Copy the DataReceived event handlers to the supplied transport Manager.
 /// </summary>
 /// <param name="transportManager"></param>
 public void MigrateDataReadyEventHandlers(BaseTransportManager transportManager)
 {
 foreach (Delegate handler in transportManager.DataReceived.GetInvocationList())
 {
 DataReceived += (EventHandler<RemoteDataEventArgs>)handler;
 }
 }
/// <summary>
 /// Raise the error handlers.
 /// </summary>
 /// <param name="eventArgs"></param>
 public virtual void RaiseErrorHandler(TransportErrorOccuredEventArgs eventArgs)
 {
 WSManTransportErrorOccured.SafeInvoke(this, eventArgs);
 }
/// <summary>
 /// Crypto handler to be used for encrypting/decrypting
 /// secure strings.
 /// </summary>
 internal PSRemotingCryptoHelper CryptoHelper { get; set; }
/// <summary>
 /// A data buffer used to store data received from remote machine.
 /// </summary>
 internal PriorityReceiveDataCollection ReceivedDataCollection { get; }
#endregion
#region IDisposable implementation
/// <summary>
 /// Dispose the transport and release resources.
 /// </summary>
 public void Dispose()
 {
 Dispose(true);
// if already disposing..no need to let finalizer thread
 // put resources to clean this object.
 System.GC.SuppressFinalize(this);
 }
/// <summary>
 /// Dispose resources.
 /// </summary>
 protected virtual void Dispose(bool isDisposing)
 {
 if (isDisposing)
 {
 ReceivedDataCollection.Dispose();
 }
 }
#endregion
 }
}
namespace System.Management.Automation.Remoting.Client
{
 /// <summary>
 /// Remoting base client transport manager.
 /// </summary>
 public abstract class BaseClientTransportManager : BaseTransportManager, IDisposable
 {
 #region Tracer
 [TraceSource("ClientTransport", "Traces ClientTransportManager")]
 internal static PSTraceSource tracer = PSTraceSource.GetTracer("ClientTransport", "Traces ClientTransportManager");
 #endregion
#region Data
internal bool isClosed;
 internal object syncObject = new object();
 internal PrioritySendDataCollection dataToBeSent;
 // used to handle callbacks from the server..these are used to synchronize received callbacks
 private readonly Queue<CallbackNotificationInformation> _callbackNotificationQueue;
 private readonly ReceiveDataCollection.OnDataAvailableCallback _onDataAvailableCallback;
 private bool _isServicingCallbacks;
 private bool _suspendQueueServicing;
 private bool _isDebuggerSuspend;
// this is used log crimson messages.
// keeps track of whether a receive request has been placed on transport
 internal bool receiveDataInitiated;
#endregion
#region Constructors
internal BaseClientTransportManager(Guid runspaceId, PSRemotingCryptoHelper cryptoHelper)
 : base(cryptoHelper)
 {
 RunspacePoolInstanceId = runspaceId;
 dataToBeSent = new PrioritySendDataCollection();
 _onDataAvailableCallback = new ReceiveDataCollection.OnDataAvailableCallback(OnDataAvailableHandler);
 _callbackNotificationQueue = new Queue<CallbackNotificationInformation>();
 }
#endregion
#region Events
 /// <summary>
 /// Event that is raised when a create operation on transport has been successfully completed
 /// The event is raised
 /// from a WSMan transport thread. Since this thread can hold on to a HTTP
 /// connection, the event handler should complete processing as fast as possible.
 /// Importantly the event handler should not generate any call that results in a
 /// user request like host.ReadLine().
 ///
 /// Errors (occurred during connection attempt) are reported through WSManTransportErrorOccured
 /// event.
 /// </summary>
 internal event EventHandler<CreateCompleteEventArgs> CreateCompleted;
 /// <summary>
 /// Event that is raised when a remote connection is successfully closed. The event is raised
 /// from a WSMan transport thread. Since this thread can hold on to a HTTP
 /// connection, the event handler should complete processing as fast as possible.
 /// Importantly the event handler should not generate any call that results in a
 /// user request like host.ReadLine().
 ///
 /// Errors (occurred during connection attempt) are reported through WSManTransportErrorOccured
 /// event.
 /// </summary>
 /// <remarks>
 /// The eventhandler should make sure not to throw any exceptions.
 /// </remarks>
 internal event EventHandler<EventArgs> CloseCompleted;
/// <summary>
 /// Indicated successful completion of a connect operation on transport
 ///
 /// Errors are reported through WSManTransportErrorOccured
 /// event.
 /// </summary>
 internal event EventHandler<EventArgs> ConnectCompleted;
/// <summary>
 /// Indicated successful completion of a disconnect operation on transport
 ///
 /// Errors are reported through WSManTransportErrorOccured
 /// event.
 /// </summary>
 internal event EventHandler<EventArgs> DisconnectCompleted;
/// <summary>
 /// Indicated successful completion of a reconnect operation on transport
 ///
 /// Errors are reported through WSManTransportErrorOccured
 /// event.
 /// </summary>
 internal event EventHandler<EventArgs> ReconnectCompleted;
/// <summary>
 /// Indicates that the transport/command is ready for a disconnect operation.
 ///
 /// Errors are reported through WSManTransportErrorOccured event.
 /// </summary>
 internal event EventHandler<EventArgs> ReadyForDisconnect;
/// <summary>
 /// Event to pass Robust Connection notifications to client.
 /// </summary>
 internal event EventHandler<ConnectionStatusEventArgs> RobustConnectionNotification;
/// <summary>
 /// Indicates successful processing of a delay stream request on a receive operation
 ///
 /// this event is useful when PS wants to invoke a pipeline in disconnected mode.
 /// </summary>
 internal event EventHandler<EventArgs> DelayStreamRequestProcessed;
#endregion
#region Properties
/// <summary>
 /// Gets the data collection which is used by this transport manager to send
 /// data to the server.
 /// </summary>
 internal PrioritySendDataCollection DataToBeSentCollection
 {
 get { return dataToBeSent; }
 }
/// <summary>
 /// Used to log crimson messages.
 /// </summary>
 internal Guid RunspacePoolInstanceId { get; }
/// <summary>
 /// Raise the Connect completed handler.
 /// </summary>
 internal void RaiseCreateCompleted(CreateCompleteEventArgs eventArgs)
 {
 CreateCompleted.SafeInvoke(this, eventArgs);
 }
internal void RaiseConnectCompleted()
 {
 ConnectCompleted.SafeInvoke(this, EventArgs.Empty);
 }
internal void RaiseDisconnectCompleted()
 {
 DisconnectCompleted.SafeInvoke(this, EventArgs.Empty);
 }
internal void RaiseReconnectCompleted()
 {
 ReconnectCompleted.SafeInvoke(this, EventArgs.Empty);
 }
/// <summary>
 /// Raise the close completed handler.
 /// </summary>
 internal void RaiseCloseCompleted()
 {
 CloseCompleted.SafeInvoke(this, EventArgs.Empty);
 }
/// <summary>
 /// Raise the ReadyForDisconnect event.
 /// </summary>
 internal void RaiseReadyForDisconnect()
 {
 ReadyForDisconnect.SafeInvoke(this, EventArgs.Empty);
 }
/// <summary>
 /// Queue the robust connection notification event.
 /// </summary>
 /// <param name="flags">Determines what kind of notification.</param>
 internal void QueueRobustConnectionNotification(int flags)
 {
 ConnectionStatusEventArgs args = null;
 switch (flags)
 {
 case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_NETWORK_FAILURE_DETECTED:
 args = new ConnectionStatusEventArgs(ConnectionStatus.NetworkFailureDetected);
 break;
case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_RETRYING_AFTER_NETWORK_FAILURE:
 args = new ConnectionStatusEventArgs(ConnectionStatus.ConnectionRetryAttempt);
 break;
case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_RECONNECTED_AFTER_NETWORK_FAILURE:
 args = new ConnectionStatusEventArgs(ConnectionStatus.ConnectionRetrySucceeded);
 break;
case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_SHELL_AUTODISCONNECTING:
 args = new ConnectionStatusEventArgs(ConnectionStatus.AutoDisconnectStarting);
 break;
case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_SHELL_AUTODISCONNECTED:
 args = new ConnectionStatusEventArgs(ConnectionStatus.AutoDisconnectSucceeded);
 break;
case (int)WSManNativeApi.WSManCallbackFlags.WSMAN_FLAG_CALLBACK_RETRY_ABORTED_DUE_TO_INTERNAL_ERROR:
 args = new ConnectionStatusEventArgs(ConnectionStatus.InternalErrorAbort);
 break;
 }
// Queue worker item to raise the event so that all robust connection
 // events are raised in the same order as received.
 EnqueueAndStartProcessingThread(null, null, args);
 }
/// <summary>
 /// Raise the Robust Connection notification event.
 /// </summary>
 /// <param name="args">ConnectionStatusEventArgs.</param>
 internal void RaiseRobustConnectionNotification(ConnectionStatusEventArgs args)
 {
 RobustConnectionNotification.SafeInvoke(this, args);
 }
internal void RaiseDelayStreamProcessedEvent()
 {
 DelayStreamRequestProcessed.SafeInvoke(this, EventArgs.Empty);
 }
#endregion
#region Received Data Processing Thread
internal override void ProcessRawData(byte[] data, string stream)
 {
 if (isClosed)
 {
 return;
 }
try
 {
 base.ProcessRawData(data, stream, _onDataAvailableCallback);
 }
 catch (PSRemotingTransportException pte)
 {
 // PSRemotingTransportException need not be wrapped in another PSRemotingTransportException.
 tracer.WriteLine("Exception processing data. {0}", pte.Message);
 TransportErrorOccuredEventArgs eventargs = new TransportErrorOccuredEventArgs(pte,
 TransportMethodEnum.ReceiveShellOutputEx);
 EnqueueAndStartProcessingThread(null, eventargs, null);
return;
 }
 catch (Exception exception)
 {
 // Enqueue an Exception to process in a thread-pool thread. Processing
 // Exception in a thread pool thread is important as calling
 // WSManCloseShell/Command from a Receive callback results in a deadlock.
 tracer.WriteLine("Exception processing data. {0}", exception.Message);
PSRemotingTransportException e = new PSRemotingTransportException(exception.Message);
 TransportErrorOccuredEventArgs eventargs = new TransportErrorOccuredEventArgs(e,
 TransportMethodEnum.ReceiveShellOutputEx);
 EnqueueAndStartProcessingThread(null, eventargs, null);
 return;
 }
 }
private void OnDataAvailableHandler(RemoteDataObject<PSObject> remoteObject)
 {
 EnqueueAndStartProcessingThread(remoteObject, null, null);
 }
/// <summary>
 /// Enqueue a deserialized object or an Exception to process in a thread pool
 /// thread. Processing Exception in a thread pool thread is important as calling
 /// WSManCloseShell/Command from a Receive callback results in a deadlock.
 /// </summary>
 /// <param name="remoteObject">
 /// Deserialized Object to process in a thread-pool thread. This should be null
 /// when <paramref name="transportException"/> is specified.
 /// </param>
 /// <param name="privateData">
 /// Data that is neither RemoteObject or Exception. This is used by Client Command
 /// Transport manager to raise SignalCompleted callback.
 /// </param>
 /// <param name="transportErrorArgs">
 /// Error containing transport exception.
 /// </param>
 internal void EnqueueAndStartProcessingThread(RemoteDataObject<PSObject> remoteObject,
 TransportErrorOccuredEventArgs transportErrorArgs,
 object privateData)
 {
 if (isClosed)
 {
 return;
 }
lock (_callbackNotificationQueue)
 {
 if ((remoteObject != null) || (transportErrorArgs != null) || (privateData != null))
 {
 CallbackNotificationInformation rcvdDataInfo = new CallbackNotificationInformation();
 rcvdDataInfo.remoteObject = remoteObject;
 rcvdDataInfo.transportError = transportErrorArgs;
 rcvdDataInfo.privateData = privateData;
if (remoteObject != null && (remoteObject.DataType == RemotingDataType.PublicKey ||
 remoteObject.DataType == RemotingDataType.EncryptedSessionKey ||
 remoteObject.DataType == RemotingDataType.PublicKeyRequest))
 {
 CryptoHelper.Session.BaseSessionDataStructureHandler.RaiseKeyExchangeMessageReceived(remoteObject);
 }
 else
 {
 _callbackNotificationQueue.Enqueue(rcvdDataInfo);
 }
 }
if (_suspendQueueServicing && _isDebuggerSuspend)
 {
 // Remove debugger queue suspension if remoteObject requires user response.
 _suspendQueueServicing = !CheckForInteractiveHostCall(remoteObject);
 }
if (_isServicingCallbacks || _suspendQueueServicing)
 {
 // a thread pool thread is already processing callbacks or
 // the queue processing is suspended.
 return;
 }
if (_callbackNotificationQueue.Count > 0)
 {
 _isServicingCallbacks = true;
// Start a thread pool thread to process callbacks.
#if !UNIX
 WindowsIdentity identityToImpersonate;
 Utils.TryGetWindowsImpersonatedIdentity(out identityToImpersonate);
Utils.QueueWorkItemWithImpersonation(
 identityToImpersonate,
 new WaitCallback(ServicePendingCallbacks),
 null);
#else
 ThreadPool.QueueUserWorkItem(new WaitCallback(ServicePendingCallbacks));
#endif
 }
 }
 }
/// <summary>
 /// Helper method to check RemoteDataObject for a host call requiring user
 /// interaction.
 /// </summary>
 /// <param name="remoteObject">Remote data object.</param>
 /// <returns>True if remote data object requires a user response.</returns>
 private static bool CheckForInteractiveHostCall(RemoteDataObject<PSObject> remoteObject)
 {
 bool interactiveHostCall = false;
if ((remoteObject != null) &&
 (remoteObject.DataType == RemotingDataType.RemoteHostCallUsingPowerShellHost))
 {
 RemoteHostMethodId methodId = 0;
try
 {
 methodId = RemotingDecoder.GetPropertyValue<RemoteHostMethodId>(remoteObject.Data, RemoteDataNameStrings.MethodId);
 }
 catch (PSArgumentNullException) { }
 catch (PSRemotingDataStructureException) { }
// If new remote host call methods are added then we need to evaluate if they are interactive.
 Dbg.Assert(methodId <= RemoteHostMethodId.PromptForChoiceMultipleSelection, "A new remote host method Id was added. Update switch statement as needed.");
switch (methodId)
 {
 case RemoteHostMethodId.Prompt:
 case RemoteHostMethodId.PromptForChoice:
 case RemoteHostMethodId.PromptForChoiceMultipleSelection:
 case RemoteHostMethodId.PromptForCredential1:
 case RemoteHostMethodId.PromptForCredential2:
 case RemoteHostMethodId.ReadKey:
 case RemoteHostMethodId.ReadLine:
 case RemoteHostMethodId.ReadLineAsSecureString:
 interactiveHostCall = true;
 break;
 }
 }
return interactiveHostCall;
 }
internal void ServicePendingCallbacks(object objectToProcess)
 {
 tracer.WriteLine("ServicePendingCallbacks thread is starting");
 PSEtwLog.ReplaceActivityIdForCurrentThread(RunspacePoolInstanceId,
 PSEventId.OperationalTransferEventRunspacePool,
 PSEventId.AnalyticTransferEventRunspacePool,
 PSKeyword.Transport,
 PSTask.None);
try
 {
 while (true)
 {
 // if the transport manager is closed return.
 if (isClosed)
 {
 return;
 }
CallbackNotificationInformation rcvdDataInfo = null;
 lock (_callbackNotificationQueue)
 {
 // If queue is empty or if queue servicing is suspended
 // then break out of loop.
 if (_callbackNotificationQueue.Count == 0 || _suspendQueueServicing)
 {
 break;
 }
rcvdDataInfo = _callbackNotificationQueue.Dequeue();
 }
 // Handle callback.
 if (rcvdDataInfo != null)
 {
 // Handling transport exception in thread-pool thread
 if (rcvdDataInfo.transportError != null)
 {
 RaiseErrorHandler(rcvdDataInfo.transportError);
 break;
 }
 else if (rcvdDataInfo.privateData != null)
 {
 ProcessPrivateData(rcvdDataInfo.privateData);
 }
 else
 {
 base.OnDataAvailableCallback(rcvdDataInfo.remoteObject);
 }
 }
 }
 }
 catch (Exception exception)
 {
 // This will get executed on a thread pool thread..
 // so we need to protect that thread, hence catching
 // all exceptions
 tracer.WriteLine("Exception processing data. {0}", exception.Message);
PSRemotingTransportException e = new PSRemotingTransportException(exception.Message, exception);
 TransportErrorOccuredEventArgs eventargs =
 new TransportErrorOccuredEventArgs(e, TransportMethodEnum.ReceiveShellOutputEx);
 RaiseErrorHandler(eventargs);
 return;
 }
 finally
 {
 lock (_callbackNotificationQueue)
 {
 tracer.WriteLine("ServicePendingCallbacks thread is exiting");
 _isServicingCallbacks = false;
 // check if any new runspace request has arrived..
 EnqueueAndStartProcessingThread(null, null, null);
 }
 }
 }
internal bool IsServicing
 {
 get
 {
 lock (_callbackNotificationQueue)
 {
 return _isServicingCallbacks;
 }
 }
 }
internal void SuspendQueue(bool debuggerSuspend = false)
 {
 lock (_callbackNotificationQueue)
 {
 _isDebuggerSuspend = debuggerSuspend;
 _suspendQueueServicing = true;
 }
 }
internal void ResumeQueue()
 {
 lock (_callbackNotificationQueue)
 {
 _isDebuggerSuspend = false;
if (_suspendQueueServicing)
 {
 _suspendQueueServicing = false;
// Process any items in queue.
 EnqueueAndStartProcessingThread(null, null, null);
 }
 }
 }
/// <summary>
 /// Used by ServicePendingCallbacks to give the control to derived classes for
 /// processing data that the base class does not understand.
 /// </summary>
 /// <param name="privateData">
 /// Derived class specific data to process. For command transport manager this
 /// should be a boolean.
 /// </param>
 internal virtual void ProcessPrivateData(object privateData)
 {
 }
internal class CallbackNotificationInformation
 {
 // only one of the following 2 should be present..
 // anyway transportException takes precedence over remoteObject.
 internal RemoteDataObject<PSObject> remoteObject;
 internal TransportErrorOccuredEventArgs transportError;
 // Used by ServicePendingCallbacks to give the control to derived classes for
 // processing data that the base class does not understand.
 internal object privateData;
 }
#endregion
#region Abstract / Virtual methods
/// <summary>
 /// Create the transport manager and initiate connection.
 /// </summary>
 public abstract void CreateAsync();
internal abstract void ConnectAsync();
/// <summary>
 /// The caller should make sure the call is synchronized.
 /// </summary>
 public virtual void CloseAsync()
 {
 // Clear the send collection
 dataToBeSent.Clear();
 }
internal virtual void StartReceivingData()
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Method to have transport prepare for a disconnect operation.
 /// </summary>
 internal virtual void PrepareForDisconnect()
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Method to resume post disconnect operations.
 /// </summary>
 internal virtual void PrepareForConnect()
 {
 throw new NotImplementedException();
 }
#endregion
#region Clean up
/// <summary>
 /// Finalizes an instance of the <see cref="BaseClientTransportManager"/> class.
 /// </summary>
 ~BaseClientTransportManager()
 {
 if (isClosed)
 {
 Dispose(false);
 }
 else
 {
 // wait for the close to be completed and then release the resources.
 this.CloseCompleted += (object source, EventArgs args) => Dispose(false);
try
 {
 // looks like Dispose is not called for this transport manager
 // try closing the transport manager.
 CloseAsync();
 }
 catch (ObjectDisposedException)
 {
 // intentionally blank
 }
 }
 }
/// <summary>
 /// Dispose resources.
 /// </summary>
 protected override void Dispose(bool isDisposing)
 {
 // clear event handlers
 this.CreateCompleted = null;
 this.CloseCompleted = null;
 this.ConnectCompleted = null;
 this.DisconnectCompleted = null;
 this.ReconnectCompleted = null;
// let base dispose its resources.
 base.Dispose(isDisposing);
 }
#endregion
 }
/// <summary>
 /// Remoting base client session transport manager.
 /// </summary>
 public abstract class BaseClientSessionTransportManager : BaseClientTransportManager, IDisposable
 {
 #region Constructors
internal BaseClientSessionTransportManager(Guid runspaceId, PSRemotingCryptoHelper cryptoHelper)
 : base(runspaceId, cryptoHelper)
 {
 }
#endregion
#region Abstract / Virtual Methods
/// <summary>
 /// Creates a command transport manager. This will create a new PrioritySendDataCollection which should be used to
 /// send data to the server.
 /// </summary>
 /// <param name="connectionInfo">
 /// Connection info to be used for creating the command.
 /// </param>
 /// <param name="cmd">
 /// Command for which transport manager is created.
 /// </param>
 /// <param name="noInput">
 /// true if the command has input.
 /// </param>
 /// <returns></returns>
 internal virtual BaseClientCommandTransportManager CreateClientCommandTransportManager(RunspaceConnectionInfo connectionInfo,
 ClientRemotePowerShell cmd, bool noInput)
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// RunspacePool data structure handler uses this method to remove association of a command transport manager
 /// from a session transport manager.
 /// </summary>
 /// <param name="powerShellCmdId"></param>
 internal virtual void RemoveCommandTransportManager(Guid powerShellCmdId)
 {
 }
/// <summary>
 /// Temporarily disconnect an active session.
 /// </summary>
 internal virtual void DisconnectAsync()
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Reconnect back a temporarily disconnected session.
 /// </summary>
 internal virtual void ReconnectAsync()
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Redirect the transport manager to point to a new URI.
 /// </summary>
 /// <param name="newUri">
 /// Redirect Uri to connect to.
 /// </param>
 /// <param name="connectionInfo">
 /// Connection info object used for retrieving credential, auth. mechanism etc.
 /// </param>
 internal virtual void Redirect(Uri newUri, RunspaceConnectionInfo connectionInfo)
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Used by callers to prepare the session transportmanager for a URI redirection.
 /// This must be called only after Create callback (or Error form create) is received.
 /// Callers must catch the close completed event and call Redirect to perform the redirection.
 /// </summary>
 internal virtual void PrepareForRedirection()
 {
 throw new NotImplementedException();
 }
#endregion
 }
internal abstract class BaseClientCommandTransportManager : BaseClientTransportManager, IDisposable
 {
 #region Private / Protected Data
// pipeline in the form cmd1 | cmd2.. this is used by authz module for early validation.
 protected StringBuilder cmdText;
 protected SerializedDataStream serializedPipeline;
 protected Guid powershellInstanceId;
protected Guid PowershellInstanceId
 {
 get { return powershellInstanceId; }
 }
#endregion
internal bool startInDisconnectedMode = false;
#region Constructors
protected BaseClientCommandTransportManager(ClientRemotePowerShell shell,
 PSRemotingCryptoHelper cryptoHelper,
 BaseClientSessionTransportManager sessnTM) : base(sessnTM.RunspacePoolInstanceId, cryptoHelper)
 {
 Fragmentor.FragmentSize = sessnTM.Fragmentor.FragmentSize;
 Fragmentor.TypeTable = sessnTM.Fragmentor.TypeTable;
 dataToBeSent.Fragmentor = base.Fragmentor;
 // used for Crimson logging.
 powershellInstanceId = shell.PowerShell.InstanceId;
cmdText = new StringBuilder();
 foreach (System.Management.Automation.Runspaces.Command cmd in shell.PowerShell.Commands.Commands)
 {
 cmdText.Append(cmd.CommandText);
 cmdText.Append(" | ");
 }
cmdText.Remove(cmdText.Length - 3, 3); // remove ending " | "
RemoteDataObject message;
 if (shell.PowerShell.IsGetCommandMetadataSpecialPipeline)
 {
 message = RemotingEncoder.GenerateGetCommandMetadata(shell);
 }
 else
 {
 message = RemotingEncoder.GenerateCreatePowerShell(shell);
 }
serializedPipeline = new SerializedDataStream(base.Fragmentor.FragmentSize);
 Fragmentor.Fragment<object>(message, serializedPipeline);
 }
#endregion
#region Events
internal event EventHandler<EventArgs> SignalCompleted;
internal void RaiseSignalCompleted()
 {
 SignalCompleted.SafeInvoke(this, EventArgs.Empty);
 }
#endregion
#region Overrides
protected override void Dispose(bool isDisposing)
 {
 base.Dispose(isDisposing);
if (isDisposing)
 {
 // dispose serialized pipeline
 serializedPipeline.Dispose();
 }
 }
#endregion
#region Abstract / Virtual Methods
/// <summary>
 /// Reconnects a previously disconnected commandTM. Implemented by WSMan transport
 /// Note that there is not explicit disconnect on commandTM. It is implicity disconnected
 /// when disconnect is called on sessionTM . The TM's also dont maintain specific connection state
 /// This is done by DSHandlers.
 /// </summary>
 internal virtual void ReconnectAsync()
 {
 throw new NotImplementedException();
 }
/// <summary>
 /// Used by powershell/pipeline to send a stop message to the server command.
 /// </summary>
 internal virtual void SendStopSignal()
 {
 throw new NotImplementedException();
 }
#endregion
 }
}
namespace System.Management.Automation.Remoting.Server
{
 /// <summary>
 /// This represents an abstraction for server transport manager.
 /// </summary>
 internal abstract class AbstractServerTransportManager : BaseTransportManager
 {
 #region Private Data
private readonly object _syncObject = new object();
 // used to listen to data available events from serialized datastream.
 private readonly SerializedDataStream.OnDataAvailableCallback _onDataAvailable;
 // the following variable are used by onDataAvailableCallback.
 private bool _shouldFlushData;
 private bool _reportAsPending;
 private Guid _runspacePoolInstanceId;
 private Guid _powerShellInstanceId;
 private RemotingDataType _dataType;
 private RemotingTargetInterface _targetInterface;
 // End: the following variable are used by onDataAvailableCallback.
 private Queue<Tuple<RemoteDataObject, bool, bool>> _dataToBeSentQueue;
 private bool _isSerializing;
 #endregion
#region Constructor
protected AbstractServerTransportManager(int fragmentSize, PSRemotingCryptoHelper cryptoHelper)
 : base(cryptoHelper)
 {
 base.Fragmentor.FragmentSize = fragmentSize;
 _onDataAvailable = new SerializedDataStream.OnDataAvailableCallback(OnDataAvailable);
 }
#endregion
#region Helper Methods
/// <summary>
 /// Sends an object from the server end. The object is fragmented and each fragment is sent
 /// separately. The call blocks until all the fragments are sent to the client. If there
 /// is a failure sending any of the fragments WSManTransportErrorOccured event is raised.
 /// </summary>
 /// <typeparam name="T"></typeparam>
 /// <param name="data"></param>
 /// <param name="flush">
 /// true to immediately send data to client.
 /// </param>
 /// <param name="reportPending">
 /// reported as true when host message requests are sent to client
 /// </param>
 internal void SendDataToClient<T>(RemoteDataObject<T> data, bool flush, bool reportPending = false)
 {
 // make sure only one data packet can be sent in its entirety at any
 // given point of time using this transport manager.
 lock (_syncObject)
 {
 // Win8: 491001 Icm -computername $env:COMPUTERNAME {Get-NetIpInterface} fails with Unexpected ObjectId
 // This is because the output object has some extended script properties. Getter of one of the
 // script properties is calling write-progress. Write-Progress in turn results in a progress record
 // being sent to client. This breaks the fragmentation rule when the original object (without progress)
 // does not fit in fragmented packet.
 // ******************** repro using powershell *********************************
 // icm . {
 // $a = new-object psobject
 // $a.pstypenames.Insert(0, "Microsoft.PowerShell.Test.Bug491001")
 // Update-TypeData -TypeName Microsoft.PowerShell.Test.Bug491001 -MemberType ScriptProperty -MemberName name -Value {( 1..50kb | % { get-random -min 97 -max 122 | % { [char]$psitem } }) -join ""}
 // Update-TypeData -TypeName Microsoft.PowerShell.Test.Bug491001 -MemberType ScriptProperty -MemberName Verbose -Value {write-progress "blah" -Completed; "Some verbose data"}
 // Update-TypeData -TypeName Microsoft.PowerShell.Test.Bug491001 -MemberType ScriptProperty -MemberName zname -Value {( 1..10kb | % { get-random -min 97 -max 122 | % { [char]$psitem } }) -join ""}
 // $a
 // }
 // 1. The value of "name" property is huge 50kb and cannot fit in one fragment (with fragment size 32kb)
 // 2. The value of "Verbose" is actually writing a progress record
 // 3. The value of "zname" property is also huge
 // 4. Notice the ascending order of property names. This is because serializer serializes properties in sort order
 // ******************** End of repro ******************************************
 // To fix the issue, I am creating a Queue and enqueuing the data objects if we are already serializing another data object
 // Notice this is in lock() above. An object is serialized in its entirety in one thread. So, in my example above "name",
 // "verbose","zname" properties are serialized in one thread. So lock() essentially protects from serializing other objects
 // and not this (parent)object.
 RemoteDataObject dataToBeSent = RemoteDataObject.CreateFrom(data.Destination, data.DataType,
 data.RunspacePoolId, data.PowerShellId,
 data.Data);
 if (_isSerializing)
 {
 _dataToBeSentQueue ??= new Queue<Tuple<RemoteDataObject, bool, bool>>();
_dataToBeSentQueue.Enqueue(new Tuple<RemoteDataObject, bool, bool>(dataToBeSent, flush, reportPending));
 return;
 }
_isSerializing = true;
 try
 {
 do
 {
 // tell stream to notify us whenever a fragment is available instead of writing data
 // into internal buffers. This will save write + read + dispose.)
 using (SerializedDataStream serializedData =
 new SerializedDataStream(Fragmentor.FragmentSize, _onDataAvailable))
 {
 _shouldFlushData = flush;
 _reportAsPending = reportPending;
 _runspacePoolInstanceId = dataToBeSent.RunspacePoolId;
 _powerShellInstanceId = dataToBeSent.PowerShellId;
 _dataType = dataToBeSent.DataType;
 _targetInterface = dataToBeSent.TargetInterface;
 Fragmentor.Fragment<object>(dataToBeSent, serializedData);
 }
if ((_dataToBeSentQueue != null) && (_dataToBeSentQueue.Count > 0))
 {
 Tuple<RemoteDataObject, bool, bool> dataToBeSentQueueItem = _dataToBeSentQueue.Dequeue();
 dataToBeSent = dataToBeSentQueueItem.Item1;
 flush = dataToBeSentQueueItem.Item2;
 reportPending = dataToBeSentQueueItem.Item3;
 }
 else
 {
 dataToBeSent = null;
 }
 } while (dataToBeSent != null);
 }
 finally
 {
 _isSerializing = false;
 }
 }
 }
private void OnDataAvailable(byte[] dataToSend, bool isEndFragment)
 {
 Dbg.Assert(dataToSend != null, "ServerTransportManager cannot send null fragment");
 // log to crimson log.
 PSEtwLog.LogAnalyticInformational(PSEventId.ServerSendData, PSOpcode.Send, PSTask.None,
 PSKeyword.Transport | PSKeyword.UseAlwaysAnalytic,
 _runspacePoolInstanceId.ToString(),
 _powerShellInstanceId.ToString(),
 dataToSend.Length.ToString(CultureInfo.InvariantCulture),
 (UInt32)_dataType,
 (UInt32)_targetInterface);
SendDataToClient(dataToSend, isEndFragment && _shouldFlushData, _reportAsPending, isEndFragment);
 }
/// <summary>
 /// Sends an object to the server end. The object is fragmented and each fragment is sent
 /// separately. The call blocks until all the fragments are sent to the client. If there
 /// is a failure sending any of the fragments WSManTransportErrorOccured event is raised.
 /// </summary>
 /// <param name="psObjectData"></param>
 /// <param name="flush">
 /// true to immediately send data to client.
 /// </param>
 /// <param name="reportAsPending">
 /// reported as true when sending host message requests are reported true
 /// </param>
 internal void SendDataToClient(RemoteDataObject psObjectData, bool flush, bool reportAsPending = false)
 {
 SendDataToClient<object>((RemoteDataObject<object>)(psObjectData), flush, reportAsPending);
 }
/// <summary>
 /// Reports error from a thread pool thread. Thread Pool is used in order to
 /// not block Pipeline closing. This method is generally called when the
 /// TransportManager fails to Send data (SendDataToClient). Pipeline Execution
 /// Thread directly calls SendDataToClient method from its execution thread,
 /// so we cannot call Stop from the same thread (as it will result in a deadlock)
 /// </summary>
 internal void ReportError(int errorCode, string methodName)
 {
 string messageResource = RemotingErrorIdStrings.GeneralError;
 string errorMessage = string.Format(CultureInfo.InvariantCulture,
 messageResource, new object[] { errorCode, methodName });
PSRemotingTransportException e = new PSRemotingTransportException(errorMessage);
 e.ErrorCode = errorCode;
// Use thread-pool thread to raise the error handler..see explanation
 // in the method summary
 ThreadPool.QueueUserWorkItem(new WaitCallback(
 (object state) =>
 {
 TransportErrorOccuredEventArgs eventArgs = new TransportErrorOccuredEventArgs(e,
 TransportMethodEnum.Unknown);
 RaiseErrorHandler(eventArgs);
 }));
 }
/// <summary>
 /// Raises the closing event.
 /// </summary>
 internal void RaiseClosingEvent()
 {
 Closing.SafeInvoke(this, EventArgs.Empty);
 }
#endregion
#region Event Handlers
/// <summary>
 /// Event that is raised when this transport manager is closing.
 /// </summary>
 internal event EventHandler Closing;
#endregion
#region Abstract interfaces
/// <summary>
 /// </summary>
 /// <param name="data"></param>
 /// <param name="flush">
 /// flush data by sending data immediately to the client.
 /// </param>
 /// <param name="reportAsPending">
 /// reported as true when sending host message requests to client
 /// </param>
 /// <param name="reportAsDataBoundary">
 /// reported as true when data being reported is as object boundary, i.e the corresponding fragment is an end fragment
 /// </param>
 protected abstract void SendDataToClient(byte[] data, bool flush, bool reportAsPending, bool reportAsDataBoundary);
/// <summary>
 /// </summary>
 internal abstract void ReportExecutionStatusAsRunning();
/// <summary>
 /// </summary>
 /// <param name="reasonForClose">
 /// message describing why the transport manager must be closed
 /// </param>
 internal abstract void Close(Exception reasonForClose);
/// <summary>
 /// Prepare the transport manager to send data (because a command
 /// is about to start). This is used by underlying infrastructure
 /// to send ACK to client..so client can start sending input and
 /// other data to server.
 /// </summary>
 internal virtual void Prepare()
 {
 // command may hijack the calling thread to run the command
 // so this method call notifies the ReceivedData buffer to
 // allow another thread to ProcessRawData.
 ReceivedDataCollection.AllowTwoThreadsToProcessRawData();
 }
#endregion
 }
/// <summary>
 /// This represents an abstraction for server session transport manager.
 /// </summary>
 internal abstract class AbstractServerSessionTransportManager : AbstractServerTransportManager
 {
 #region Constructors
protected AbstractServerSessionTransportManager(int fragmentSize, PSRemotingCryptoHelper cryptoHelper)
 : base(fragmentSize, cryptoHelper)
 {
 }
#endregion
#region Abstract interfaces
/// <summary>
 /// Server RunspacePool driver uses this method to attach to a server transport manager.
 /// </summary>
 /// <param name="powerShellCmdId"></param>
 /// <returns></returns>
 internal abstract AbstractServerTransportManager GetCommandTransportManager(Guid powerShellCmdId);
 /// <summary>
 /// Server RunspacePool driver uses this method to remove association of a command transport manager
 /// from a session transport manager.
 /// </summary>
 /// <param name="powerShellCmdId"></param>
 internal abstract void RemoveCommandTransportManager(Guid powerShellCmdId);
#endregion
 }
/// <summary>
 /// A container for helper functions that accomplish common client and server tasks.
 /// </summary>
 internal static class ServerOperationHelpers
 {
 #region Public Helper Methods
/// <summary>
 /// A helper method to extract a base-64 encoded XML element from a specified input
 /// buffer. The calls required are not compatible with the Managed C++ CoreCLR
 /// mscorlib, but this operation is supported as managed C# code.
 /// </summary>
 /// <param name="xmlBuffer">The input buffer to search. It must be base-64 encoded XML.</param>
 /// <param name="xmlTag">The XML tag used to identify the value to extract.</param>
 /// <returns>The extracted tag converted from a base-64 string.</returns>
 internal static byte[] ExtractEncodedXmlElement(string xmlBuffer, string xmlTag)
 {
 if (xmlBuffer == null || xmlTag == null)
 return new byte[1];
// the inboundShellInformation is in Xml format as per the SOAP WSMan spec.
 // Retrieve the string (Base64 encoded) we are interested in.
 XmlReaderSettings readerSettings = new XmlReaderSettings();
 readerSettings.CheckCharacters = false;
 readerSettings.IgnoreComments = true;
 readerSettings.IgnoreProcessingInstructions = true;
 readerSettings.XmlResolver = null;
 readerSettings.ConformanceLevel = ConformanceLevel.Fragment;
 readerSettings.MaxCharactersFromEntities = 1024;
 readerSettings.DtdProcessing = System.Xml.DtdProcessing.Prohibit;
 XmlReader reader = XmlReader.Create(new StringReader(xmlBuffer), readerSettings);
string additionalData;
 if (reader.MoveToContent() == XmlNodeType.Element)
 {
 additionalData = reader.ReadElementContentAsString(xmlTag, reader.NamespaceURI);
 }
 else // No element found, so return a default value
 {
 return new byte[1];
 }
return Convert.FromBase64String(additionalData);
 }
 #endregion
 }
}