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Windows-powershell / PowerShell-master /src /System.Management.Automation /engine /hostifaces /PowerShell.cs
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// Copyright (c) Microsoft Corporation.
// Licensed under the MIT License.
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Diagnostics;
using System.Diagnostics.CodeAnalysis;
using System.Management.Automation;
using System.Management.Automation.Host;
using System.Management.Automation.Internal;
using System.Management.Automation.Runspaces;
using System.Management.Automation.Runspaces.Internal;
using System.Runtime.Serialization;
using System.Threading;
using System.Threading.Tasks;
using Microsoft.Management.Infrastructure;
using Microsoft.PowerShell.Telemetry;
using Dbg = System.Management.Automation.Diagnostics;
#pragma warning disable 1634, 1691 // Stops compiler from warning about unknown warnings
namespace System.Management.Automation
{
 #region Exceptions
/// <summary>
 /// Defines exception which is thrown when state of the PowerShell is different
 /// from the expected state.
 /// </summary>
 public class InvalidPowerShellStateException : SystemException
 {
 /// <summary>
 /// Creates a new instance of InvalidPowershellStateException class.
 /// </summary>
 public InvalidPowerShellStateException()
 : base
 (StringUtil.Format(PowerShellStrings.InvalidPowerShellStateGeneral))
 {
 }
/// <summary>
 /// Creates a new instance of InvalidPowershellStateException class.
 /// </summary>
 /// <param name="message">
 /// The error message that explains the reason for the exception.
 /// </param>
 public InvalidPowerShellStateException(string message)
 : base(message)
 {
 }
/// <summary>
 /// Creates a new instance of InvalidPowershellStateException class.
 /// </summary>
 /// <param name="message">
 /// The error message that explains the reason for the exception.
 /// </param>
 /// <param name="innerException">
 /// The exception that is the cause of the current exception.
 /// </param>
 public InvalidPowerShellStateException(string message, Exception innerException)
 : base(message, innerException)
 {
 }
/// <summary>
 /// Initializes a new instance of the InvalidPowerShellStateException and defines value of
 /// CurrentState.
 /// </summary>
 /// <param name="currentState">Current state of powershell.</param>
 internal InvalidPowerShellStateException(PSInvocationState currentState)
 : base
 (StringUtil.Format(PowerShellStrings.InvalidPowerShellStateGeneral))
 {
 _currState = currentState;
 }
#region ISerializable Members
// No need to implement GetObjectData
 // if all fields are static or [NonSerialized]
/// <summary>
 /// Initializes a new instance of the InvalidPowerShellStateException
 /// class with serialized data.
 /// </summary>
 /// <param name="info">
 /// The <see cref="SerializationInfo"/> that holds the serialized object
 /// data about the exception being thrown.
 /// </param>
 /// <param name="context">
 /// The <see cref="StreamingContext"/> that contains contextual information
 /// about the source or destination.
 /// </param>
 [Obsolete("Legacy serialization support is deprecated since .NET 8", DiagnosticId = "SYSLIB0051")]
 protected
 InvalidPowerShellStateException(SerializationInfo info, StreamingContext context)
 {
 throw new NotSupportedException();
 }
#endregion
/// <summary>
 /// Gets CurrentState of the powershell.
 /// </summary>
 public PSInvocationState CurrentState
 {
 get
 {
 return _currState;
 }
 }
/// <summary>
 /// State of powershell when exception was thrown.
 /// </summary>
 [NonSerialized]
 private readonly PSInvocationState _currState = 0;
 }
#endregion
#region PSInvocationState, PSInvocationStateInfo, PSInvocationStateChangedEventArgs
/// <summary>
 /// Enumerated type defining the state of the PowerShell.
 /// </summary>
 public enum PSInvocationState
 {
 /// <summary>
 /// PowerShell has not been started.
 /// </summary>
 NotStarted = 0,
 /// <summary>
 /// PowerShell is executing.
 /// </summary>
 Running = 1,
 /// <summary>
 /// PowerShell is stoping execution.
 /// </summary>
 Stopping = 2,
 /// <summary>
 /// PowerShell is completed due to a stop request.
 /// </summary>
 Stopped = 3,
 /// <summary>
 /// PowerShell has completed executing a command.
 /// </summary>
 Completed = 4,
 /// <summary>
 /// PowerShell completed abnormally due to an error.
 /// </summary>
 Failed = 5,
 /// <summary>
 /// PowerShell is in disconnected state.
 /// </summary>
 Disconnected = 6
 }
/// <summary>
 /// Enumerated type defining runspace modes for nested pipeline.
 /// </summary>
 public enum RunspaceMode
 {
 /// <summary>
 /// Use current runspace from the current thread of execution.
 /// </summary>
 CurrentRunspace = 0,
/// <summary>
 /// Create new runspace.
 /// </summary>
 NewRunspace = 1
 }
/// <summary>
 /// Type which has information about InvocationState and Exception
 /// associated with InvocationState.
 /// </summary>
 public sealed class PSInvocationStateInfo
 {
 #region Constructors
/// <summary>
 /// Constructor for state changes with an optional error.
 /// </summary>
 /// <param name="state">The new state.</param>
 /// <param name="reason">A non-null exception if the state change was
 /// caused by an error,otherwise; null.
 /// </param>
 internal PSInvocationStateInfo(PSInvocationState state, Exception reason)
 {
 _executionState = state;
 _exceptionReason = reason;
 }
/// <summary>
 /// Construct from PipelineStateInfo.
 /// </summary>
 /// <param name="pipelineStateInfo"></param>
 internal PSInvocationStateInfo(PipelineStateInfo pipelineStateInfo)
 {
 _executionState = (PSInvocationState)((int)pipelineStateInfo.State);
 _exceptionReason = pipelineStateInfo.Reason;
 }
#endregion
#region Public Properties
/// <summary>
 /// The state of the PowerShell instance.
 /// </summary>
 /// <remarks>
 /// </remarks>
 public PSInvocationState State
 {
 get
 {
 return _executionState;
 }
 }
/// <summary>
 /// The reason for the state change, if caused by an error.
 /// </summary>
 /// <remarks>
 /// The value of this property is non-null if the state
 /// changed due to an error. Otherwise, the value of this
 /// property is null.
 /// </remarks>
 public Exception Reason
 {
 get
 {
 return _exceptionReason;
 }
 }
#endregion
/// <summary>
 /// Clone the current instance.
 /// </summary>
 /// <returns>
 /// A copy of the current instance.
 /// </returns>
 internal PSInvocationStateInfo Clone()
 {
 return new PSInvocationStateInfo(
 _executionState,
 _exceptionReason
 );
 }
#region Private data
/// <summary>
 /// The current execution state.
 /// </summary>
 private readonly PSInvocationState _executionState;
/// <summary>
 /// Non-null exception if the execution state change was due to an error.
 /// </summary>
 private readonly Exception _exceptionReason;
#endregion
 }
/// <summary>
 /// Event arguments passed to PowerShell state change handlers
 /// <see cref="PowerShell.InvocationStateChanged"/> event.
 /// </summary>
 public sealed class PSInvocationStateChangedEventArgs : EventArgs
 {
 #region Constructors
/// <summary>
 /// Constructs PSInvocationStateChangedEventArgs from PSInvocationStateInfo.
 /// </summary>
 /// <param name="psStateInfo">
 /// state to raise the event with.
 /// </param>
 internal PSInvocationStateChangedEventArgs(PSInvocationStateInfo psStateInfo)
 {
 Dbg.Assert(psStateInfo != null, "caller should validate the parameter");
 InvocationStateInfo = psStateInfo;
 }
#endregion
#region Public Properties
/// <summary>
 /// Information about current state of a PowerShell Instance.
 /// </summary>
 public PSInvocationStateInfo InvocationStateInfo { get; }
#endregion
 }
#endregion
/// <summary>
 /// Settings to control command invocation.
 /// </summary>
 public sealed class PSInvocationSettings
 {
 #region Private Fields
private PSHost _host;
// the following are used to flow the identity to pipeline execution thread
// Invokes a remote command and immediately disconnects, if transport layer
 // supports this operation.
#endregion
#region Constructors
/// <summary>
 /// Default Constructor.
 /// </summary>
 public PSInvocationSettings()
 {
 this.ApartmentState = ApartmentState.Unknown;
 _host = null;
 RemoteStreamOptions = 0;
 AddToHistory = false;
 ErrorActionPreference = null;
 }
#endregion
/// <summary>
 /// ApartmentState of the thread in which the command
 /// is executed.
 /// </summary>
 public ApartmentState ApartmentState { get; set; }
/// <summary>
 /// Host to use with the Runspace when the command is
 /// executed.
 /// </summary>
 public PSHost Host
 {
 get
 {
 return _host;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Host");
 }
_host = value;
 }
 }
/// <summary>
 /// Options for the Error, Warning, Verbose and Debug streams during remote calls.
 /// </summary>
 public RemoteStreamOptions RemoteStreamOptions { get; set; }
/// <summary>
 /// Boolean which tells if the command is added to the history of the
 /// Runspace the command is executing in. By default this is false.
 /// </summary>
 public bool AddToHistory { get; set; }
/// <summary>
 /// Determines how errors should be handled during batch command execution.
 /// </summary>
 public ActionPreference? ErrorActionPreference { get; set; }
/// <summary>
 /// Used by Powershell remoting infrastructure to flow identity from calling thread to
 /// Pipeline Execution Thread.
 /// </summary>
 /// <remarks>
 /// Scenario: In the IIS hosting model, the calling thread is impersonated with a different
 /// identity than the process identity. However Pipeline Execution Thread always inherits
 /// process's identity and this will create problems related to security. In the IIS hosting
 /// model, we should honor calling threads identity.
 /// </remarks>
 public bool FlowImpersonationPolicy { get; set; }
internal System.Security.Principal.WindowsIdentity WindowsIdentityToImpersonate { get; set; }
/// <summary>
 /// When true, allows an unhandled flow control exceptions to
 /// propagate to a caller invoking the PowerShell object.
 /// </summary>
 public bool ExposeFlowControlExceptions
 {
 get;
 set;
 }
/// <summary>
 /// Invokes a remote command and immediately disconnects, if the transport
 /// layer supports this operation.
 /// </summary>
 internal bool InvokeAndDisconnect { get; set; }
 }
/// <summary>
 /// Batch execution context.
 /// </summary>
 internal class BatchInvocationContext
 {
 private readonly AutoResetEvent _completionEvent;
/// <summary>
 /// Class constructor.
 /// </summary>
 /// <param name="command"></param>
 /// <param name="output"></param>
 internal BatchInvocationContext(PSCommand command, PSDataCollection<PSObject> output)
 {
 Command = command;
 Output = output;
 _completionEvent = new AutoResetEvent(false);
 }
/// <summary>
 /// Invocation output.
 /// </summary>
 internal PSDataCollection<PSObject> Output { get; }
/// <summary>
 /// Command to invoke.
 /// </summary>
 internal PSCommand Command { get; }
/// <summary>
 /// Waits for the completion event.
 /// </summary>
 internal void Wait()
 {
 _completionEvent.WaitOne();
 }
/// <summary>
 /// Signals the completion event.
 /// </summary>
 internal void Signal()
 {
 _completionEvent.Set();
 }
 }
/// <summary>
 /// These flags control whether InvocationInfo is added to items in the Error, Warning, Verbose and Debug
 /// streams during remote calls.
 /// </summary>
 [Flags]
 public enum RemoteStreamOptions
 {
 /// <summary>
 /// If this flag is set, ErrorRecord will include an instance of InvocationInfo on remote calls.
 /// </summary>
 AddInvocationInfoToErrorRecord = 0x01,
/// <summary>
 /// If this flag is set, WarningRecord will include an instance of InvocationInfo on remote calls.
 /// </summary>
 AddInvocationInfoToWarningRecord = 0x02,
/// <summary>
 /// If this flag is set, DebugRecord will include an instance of InvocationInfo on remote calls.
 /// </summary>
 AddInvocationInfoToDebugRecord = 0x04,
/// <summary>
 /// If this flag is set, VerboseRecord will include an instance of InvocationInfo on remote calls.
 /// </summary>
 AddInvocationInfoToVerboseRecord = 0x08,
/// <summary>
 /// If this flag is set, ErrorRecord, WarningRecord, DebugRecord, and VerboseRecord will include an instance of InvocationInfo on remote calls.
 /// </summary>
 AddInvocationInfo = AddInvocationInfoToErrorRecord
 | AddInvocationInfoToWarningRecord
 | AddInvocationInfoToDebugRecord
 | AddInvocationInfoToVerboseRecord
 }
#region PowerShell AsyncResult
/// <summary>
 /// Internal Async result type used by BeginInvoke() and BeginStop() overloads.
 /// </summary>
 internal sealed class PowerShellAsyncResult : AsyncResult
 {
 #region Private Data / Properties
// used to track if this AsyncResult is created by a BeginInvoke operation or
 // a BeginStop operation.
/// <summary>
 /// True if AsyncResult monitors Async BeginInvoke().
 /// false otherwise.
 /// </summary>
 internal bool IsAssociatedWithAsyncInvoke { get; }
/// <summary>
 /// The output buffer for the asynchronous invoke.
 /// </summary>
 internal PSDataCollection<PSObject> Output { get; }
#endregion
#region Constructor
/// <summary>
 /// Constructor.
 /// </summary>
 /// <param name="ownerId">
 /// Instance Id of the Powershell object creating this instance
 /// </param>
 /// <param name="callback">
 /// Callback to call when the async operation completes.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the "callback" with.
 /// </param>
 /// <param name="output">
 /// The output buffer to return from EndInvoke.
 /// </param>
 /// <param name="isCalledFromBeginInvoke">
 /// true if AsyncResult monitors BeginInvoke.
 /// false otherwise
 /// </param>
 internal PowerShellAsyncResult(Guid ownerId, AsyncCallback callback, object state, PSDataCollection<PSObject> output,
 bool isCalledFromBeginInvoke)
 : base(ownerId, callback, state)
 {
 IsAssociatedWithAsyncInvoke = isCalledFromBeginInvoke;
 Output = output;
 }
#endregion
 }
#endregion
/// <summary>
 /// Represents a PowerShell command or script to execute against a
 /// Runspace(Pool) if provided, otherwise execute using a default
 /// Runspace. Provides access to different result buffers
 /// like output, error, debug, verbose, progress, warning, and information.
 ///
 /// Provides a simple interface to execute a powershell command:
 /// <code>
 /// Powershell.Create().AddScript("get-process").Invoke();
 /// </code>
 /// The above statement creates a local runspace using default
 /// configuration, executes the command and then closes the runspace.
 ///
 /// Using RunspacePool property, the caller can provide the runspace
 /// where the command / script is executed.
 /// </summary>
 [SuppressMessage("Microsoft.Naming", "CA1724:TypeNamesShouldNotMatchNamespaces", Justification = "PowerShell is a valid type in SMAR namespace.")]
 public sealed class PowerShell : IDisposable
 {
 #region Private Fields
private PSCommand _psCommand;
 // worker object which does the invoke
 private Worker _worker;
 private PowerShellAsyncResult _invokeAsyncResult;
 private PowerShellAsyncResult _stopAsyncResult;
 private PowerShellAsyncResult _batchAsyncResult;
 private PSInvocationSettings _batchInvocationSettings;
 private PSCommand _backupPSCommand;
 private object _rsConnection;
private PSDataCollection<ErrorRecord> _errorBuffer;
private bool _isDisposed;
 private readonly object _syncObject = new object();
// client remote powershell if the powershell
 // is executed with a remote runspace pool
private ConnectCommandInfo _connectCmdInfo;
 private bool _commandInvokedSynchronously = false;
 private bool _isBatching = false;
 private bool _stopBatchExecution = false;
// Delegates for asynchronous invocation/termination of PowerShell commands
 private readonly Func<IAsyncResult, PSDataCollection<PSObject>> _endInvokeMethod;
 private readonly Action<IAsyncResult> _endStopMethod;
#endregion
#region Internal Constructors
/// <summary>
 /// Constructs PowerShell.
 /// </summary>
 /// <param name="command">
 /// A PSCommand.
 /// </param>
 /// <param name="extraCommands">
 /// A list of extra commands to run
 /// </param>
 /// <param name="rsConnection">
 /// A Runspace or RunspacePool to refer while invoking the command.
 /// This can be null in which case a new runspace is created
 /// whenever Invoke* method is called.
 /// </param>
 private PowerShell(PSCommand command, Collection<PSCommand> extraCommands, object rsConnection)
 {
 Dbg.Assert(command != null, "command must not be null");
 ExtraCommands = extraCommands ?? new Collection<PSCommand>();
 RunningExtraCommands = false;
 _psCommand = command;
 _psCommand.Owner = this;
 RemoteRunspace remoteRunspace = rsConnection as RemoteRunspace;
 _rsConnection = remoteRunspace != null ? remoteRunspace.RunspacePool : rsConnection;
 InstanceId = Guid.NewGuid();
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.NotStarted, null);
 OutputBuffer = null;
 OutputBufferOwner = true;
 _errorBuffer = new PSDataCollection<ErrorRecord>();
 ErrorBufferOwner = true;
 InformationalBuffers = new PSInformationalBuffers(InstanceId);
 Streams = new PSDataStreams(this);
 _endInvokeMethod = EndInvoke;
 _endStopMethod = EndStop;
 ApplicationInsightsTelemetry.SendTelemetryMetric(TelemetryType.PowerShellCreate, "create");
 }
/// <summary>
 /// Constructs a PowerShell instance in the disconnected start state with
 /// the provided remote command connect information and runspace(pool) objects.
 /// </summary>
 /// <param name="connectCmdInfo">Remote command connect information.</param>
 /// <param name="rsConnection">Remote Runspace or RunspacePool object.</param>
 internal PowerShell(ConnectCommandInfo connectCmdInfo, object rsConnection)
 : this(new PSCommand(), null, rsConnection)
 {
 ExtraCommands = new Collection<PSCommand>();
 RunningExtraCommands = false;
 AddCommand(connectCmdInfo.Command);
 _connectCmdInfo = connectCmdInfo;
// The command ID is passed to the PSRP layer through the PowerShell instanceID.
 InstanceId = _connectCmdInfo.CommandId;
InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Disconnected, null);
if (rsConnection is RemoteRunspace)
 {
 _runspace = rsConnection as Runspace;
 _runspacePool = ((RemoteRunspace)rsConnection).RunspacePool;
 }
 else if (rsConnection is RunspacePool)
 {
 _runspacePool = (RunspacePool)rsConnection;
 }
Dbg.Assert(_runspacePool != null, "Invalid rsConnection parameter>");
 RemotePowerShell = new ClientRemotePowerShell(this, _runspacePool.RemoteRunspacePoolInternal);
 }
/// <summary>
 /// </summary>
 /// <param name="inputstream"></param>
 /// <param name="outputstream"></param>
 /// <param name="errorstream"></param>
 /// <param name="runspacePool"></param>
 internal PowerShell(ObjectStreamBase inputstream,
 ObjectStreamBase outputstream, ObjectStreamBase errorstream, RunspacePool runspacePool)
 {
 ExtraCommands = new Collection<PSCommand>();
 RunningExtraCommands = false;
 _rsConnection = runspacePool;
 InstanceId = Guid.NewGuid();
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.NotStarted, null);
 InformationalBuffers = new PSInformationalBuffers(InstanceId);
 Streams = new PSDataStreams(this);
PSDataCollectionStream<PSObject> outputdatastream = (PSDataCollectionStream<PSObject>)outputstream;
 OutputBuffer = outputdatastream.ObjectStore;
PSDataCollectionStream<ErrorRecord> errordatastream = (PSDataCollectionStream<ErrorRecord>)errorstream;
 _errorBuffer = errordatastream.ObjectStore;
if (runspacePool != null && runspacePool.RemoteRunspacePoolInternal != null)
 {
 RemotePowerShell = new ClientRemotePowerShell(this, runspacePool.RemoteRunspacePoolInternal);
 }
_endInvokeMethod = EndInvoke;
 _endStopMethod = EndStop;
 }
/// <summary>
 /// Creates a PowerShell object in the disconnected start state and with a ConnectCommandInfo object
 /// parameter that specifies what remote command to associate with this PowerShell when it is connected.
 /// </summary>
 /// <param name="connectCmdInfo"></param>
 /// <param name="inputstream"></param>
 /// <param name="outputstream"></param>
 /// <param name="errorstream"></param>
 /// <param name="runspacePool"></param>
 internal PowerShell(ConnectCommandInfo connectCmdInfo, ObjectStreamBase inputstream, ObjectStreamBase outputstream,
 ObjectStreamBase errorstream, RunspacePool runspacePool)
 : this(inputstream, outputstream, errorstream, runspacePool)
 {
 ExtraCommands = new Collection<PSCommand>();
 RunningExtraCommands = false;
 _psCommand = new PSCommand();
 _psCommand.Owner = this;
 _runspacePool = runspacePool;
AddCommand(connectCmdInfo.Command);
 _connectCmdInfo = connectCmdInfo;
// The command ID is passed to the PSRP layer through the PowerShell instanceID.
 InstanceId = _connectCmdInfo.CommandId;
InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Disconnected, null);
RemotePowerShell = new ClientRemotePowerShell(this, runspacePool.RemoteRunspacePoolInternal);
 }
/// <summary>
 /// Sets the command collection in this powershell.
 /// </summary>
 /// <remarks>This method will be called by RemotePipeline
 /// before it begins execution. This method is used to set
 /// the command collection of the remote pipeline as the
 /// command collection of the underlying powershell</remarks>
 internal void InitForRemotePipeline(CommandCollection command, ObjectStreamBase inputstream,
 ObjectStreamBase outputstream, ObjectStreamBase errorstream, PSInvocationSettings settings, bool redirectShellErrorOutputPipe)
 {
 Dbg.Assert(command != null, "A command collection need to be specified");
_psCommand = new PSCommand(command[0]);
 _psCommand.Owner = this;
for (int i = 1; i < command.Count; i++)
 {
 AddCommand(command[i]);
 }
RedirectShellErrorOutputPipe = redirectShellErrorOutputPipe;
// create the client remote powershell for remoting
 // communications
 RemotePowerShell ??= new ClientRemotePowerShell(this, ((RunspacePool)_rsConnection).RemoteRunspacePoolInternal);
// If we get here, we don't call 'Invoke' or any of it's friends on 'this', instead we serialize 'this' in PowerShell.ToPSObjectForRemoting.
 // Without the following two steps, we'll be missing the 'ExtraCommands' on the serialized instance of 'this'.
 // This is the last possible chance to call set up for batching as we will indirectly call ToPSObjectForRemoting
 // in the call to ClientRemotePowerShell.Initialize (which happens just below.)
 DetermineIsBatching();
if (_isBatching)
 {
 SetupAsyncBatchExecution();
 }
RemotePowerShell.Initialize(inputstream, outputstream,
 errorstream, InformationalBuffers, settings);
 }
/// <summary>
 /// Initialize PowerShell object for connection to remote command.
 /// </summary>
 /// <param name="inputstream">Input stream.</param>
 /// <param name="outputstream">Output stream.</param>
 /// <param name="errorstream">Error stream.</param>
 /// <param name="settings">Settings information.</param>
 /// <param name="redirectShellErrorOutputPipe">Redirect error output.</param>
 internal void InitForRemotePipelineConnect(ObjectStreamBase inputstream, ObjectStreamBase outputstream,
 ObjectStreamBase errorstream, PSInvocationSettings settings, bool redirectShellErrorOutputPipe)
 {
 // The remotePowerShell and DSHandler cannot be initialized with a disconnected runspace.
 // Make sure the associated runspace is valid and connected.
 CheckRunspacePoolAndConnect();
if (InvocationStateInfo.State != PSInvocationState.Disconnected)
 {
 throw new InvalidPowerShellStateException(InvocationStateInfo.State);
 }
RedirectShellErrorOutputPipe = redirectShellErrorOutputPipe;
RemotePowerShell ??= new ClientRemotePowerShell(this, ((RunspacePool)_rsConnection).RemoteRunspacePoolInternal);
if (!RemotePowerShell.Initialized)
 {
 RemotePowerShell.Initialize(inputstream, outputstream, errorstream, InformationalBuffers, settings);
 }
 }
#endregion
#region Construction Factory
/// <summary>
 /// Constructs an empty PowerShell instance; a script or command must be added before invoking this instance.
 /// </summary>
 /// <returns>
 /// An instance of PowerShell.
 /// </returns>
 public static PowerShell Create()
 {
 return new PowerShell(new PSCommand(), null, null);
 }
/// <summary>
 /// Constructs an empty PowerShell instance; a script or command must be added before invoking this instance.
 /// </summary>
 /// <param name="runspace">Runspace mode.</param>
 /// <returns>An instance of PowerShell.</returns>
 public static PowerShell Create(RunspaceMode runspace)
 {
 PowerShell result = null;
switch (runspace)
 {
 case RunspaceMode.CurrentRunspace:
 if (Runspace.DefaultRunspace == null)
 {
 throw new InvalidOperationException(PowerShellStrings.NoDefaultRunspaceForPSCreate);
 }
result = new PowerShell(new PSCommand(), null, Runspace.DefaultRunspace);
 result.IsChild = true;
 result.IsNested = true;
 result.IsRunspaceOwner = false;
 result._runspace = Runspace.DefaultRunspace;
 break;
 case RunspaceMode.NewRunspace:
 result = new PowerShell(new PSCommand(), null, null);
 break;
 }
return result;
 }
/// <summary>
 /// Constructs an empty PowerShell instance; a script or command must be added before invoking this instance.
 /// </summary>
 /// <param name="initialSessionState">InitialSessionState with which to create the runspace.</param>
 /// <returns>An instance of PowerShell.</returns>
 public static PowerShell Create(InitialSessionState initialSessionState)
 {
 PowerShell result = Create();
result.Runspace = RunspaceFactory.CreateRunspace(initialSessionState);
 result.Runspace.Open();
return result;
 }
/// <summary>
 /// Constructs an empty PowerShell instance and associates it with the provided
 /// Runspace; a script or command must be added before invoking this instance.
 /// </summary>
 /// <param name="runspace">Runspace in which to invoke commands.</param>
 /// <returns>An instance of PowerShell.</returns>
 /// <remarks>
 /// The required Runspace argument is accepted no matter what state it is in.
 /// Leaving Runspace state management to the caller allows them to open their
 /// runspace in whatever manner is most appropriate for their application
 /// (in another thread while this instance of the PowerShell class is being
 /// instantiated, for example).
 /// </remarks>
 public static PowerShell Create(Runspace runspace)
 {
 if (runspace == null)
 {
 throw new PSArgumentNullException(nameof(runspace));
 }
PowerShell result = Create();
 result.Runspace = runspace;
return result;
 }
/// <summary>
 /// Creates a nested powershell within the current instance.
 /// Nested PowerShell is used to do simple operations like checking state
 /// of a variable while another command is using the runspace.
 ///
 /// Nested PowerShell should be invoked from the same thread as the parent
 /// PowerShell invocation thread. So effectively the parent Powershell
 /// invocation thread is blocked until nested invoke() operation is
 /// complete.
 ///
 /// Implement PSHost.EnterNestedPrompt to perform invoke() operation on the
 /// nested powershell.
 /// </summary>
 /// <exception cref="InvalidOperationException">
 /// 1. State of powershell instance is not valid to create a nested powershell instance.
 /// Nested PowerShell should be created only for a running powershell instance.
 /// </exception>
 [SuppressMessage("Microsoft.Naming", "CA1704:IdentifiersShouldBeSpelledCorrectly", MessageId = "ps", Justification = "ps represents PowerShell and is used at many places.")]
 public PowerShell CreateNestedPowerShell()
 {
 if ((_worker != null) && (_worker.CurrentlyRunningPipeline != null))
 {
 PowerShell result = new PowerShell(new PSCommand(),
 null, _worker.CurrentlyRunningPipeline.Runspace);
 result.IsNested = true;
 return result;
 }
throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.InvalidStateCreateNested);
 }
/// <summary>
 /// Method needed when deserializing PowerShell object coming from a RemoteDataObject.
 /// </summary>
 /// <param name="isNested">Indicates if PowerShell object is nested.</param>
 /// <param name="psCommand">Commands that the PowerShell pipeline is built of.</param>
 /// <param name="extraCommands">Extra commands to run.</param>
 private static PowerShell Create(bool isNested, PSCommand psCommand, Collection<PSCommand> extraCommands)
 {
 PowerShell powerShell = new PowerShell(psCommand, extraCommands, null);
 powerShell.IsNested = isNested;
 return powerShell;
 }
#endregion
#region Command / Parameter Construction
/// <summary>
 /// Add a cmdlet to construct a command pipeline.
 /// For example, to construct a command string "Get-Process | Sort-Object",
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddCommand("Get-Process")
 /// .AddCommand("Sort-Object");
 /// </code>
 /// </summary>
 /// <param name="cmdlet">
 /// A string representing cmdlet.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="cmdlet"/> added.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// cmdlet is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddCommand(string cmdlet)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
_psCommand.AddCommand(cmdlet);
return this;
 }
 }
/// <summary>
 /// Add a cmdlet to construct a command pipeline.
 /// For example, to construct a command string "Get-Process | Sort-Object",
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddCommand("Get-Process", true)
 /// .AddCommand("Sort-Object", true);
 /// </code>
 /// </summary>
 /// <param name="cmdlet">
 /// A string representing cmdlet.
 /// </param>
 /// <param name="useLocalScope">
 /// if true local scope is used to run the script command.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="cmdlet"/> added.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// cmdlet is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddCommand(string cmdlet, bool useLocalScope)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
_psCommand.AddCommand(cmdlet, useLocalScope);
return this;
 }
 }
/// <summary>
 /// Add a piece of script to construct a command pipeline.
 /// For example, to construct a command string "Get-Process | ForEach-Object { $_.Name }"
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddScript("Get-Process | ForEach-Object { $_.Name }");
 /// </code>
 /// </summary>
 /// <param name="script">
 /// A string representing a script.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="command"/> added.
 /// </returns>
 /// <remarks>
 /// This method is not thread-safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// command is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddScript(string script)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
_psCommand.AddScript(script);
return this;
 }
 }
/// <summary>
 /// Add a piece of script to construct a command pipeline.
 /// For example, to construct a command string "Get-Process | ForEach-Object { $_.Name }"
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddScript("Get-Process | ForEach-Object { $_.Name }", true);
 /// </code>
 /// </summary>
 /// <param name="script">
 /// A string representing a script.
 /// </param>
 /// <param name="useLocalScope">
 /// if true local scope is used to run the script command.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="command"/> added.
 /// </returns>
 /// <remarks>
 /// This method is not thread-safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// command is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddScript(string script, bool useLocalScope)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
_psCommand.AddScript(script, useLocalScope);
return this;
 }
 }
/// <summary>
 /// Add a <see cref="Command"/> element to the current command
 /// pipeline.
 /// </summary>
 /// <param name="command">
 /// Command to add.
 /// </param>
 /// <returns>
 /// A PSCommand instance with <paramref name="command"/> added.
 /// </returns>
 /// <remarks>
 /// This method is not thread-safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// command is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 internal PowerShell AddCommand(Command command)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
_psCommand.AddCommand(command);
return this;
 }
 }
/// <summary>
 /// CommandInfo object for the command to add.
 /// </summary>
 /// <param name="commandInfo">The CommandInfo object for the command to add.</param>
 /// <returns>
 /// A PSCommand instance with the command added.
 /// </returns>
 /// <remarks>
 /// This method is not thread-safe.
 /// </remarks>
 /// <exception cref="ArgumentNullException">
 /// command is null.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddCommand(CommandInfo commandInfo)
 {
 if (commandInfo == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(commandInfo));
 }
Command cmd = new Command(commandInfo);
 _psCommand.AddCommand(cmd);
 return this;
 }
/// <summary>
 /// Add a parameter to the last added command.
 /// For example, to construct a command string "Get-Process | Select-Object -Property Name"
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddCommand("Get-Process")
 /// .AddCommand("Select-Object").AddParameter("Property", "Name");
 /// </code>
 /// </summary>
 /// <param name="parameterName">
 /// Name of the parameter.
 /// </param>
 /// <param name="value">
 /// Value for the parameter.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="parameterName"/> added
 /// to the parameter list of the last command.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="ArgumentException">
 /// Name is non null and name length is zero after trimming whitespace.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddParameter(string parameterName, object value)
 {
 lock (_syncObject)
 {
 if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
 _psCommand.AddParameter(parameterName, value);
 return this;
 }
 }
/// <summary>
 /// Adds a switch parameter to the last added command.
 /// For example, to construct a command string "get-process | sort-object -descending"
 /// <code>
 /// PSCommand command = new PSCommand("get-process").
 /// AddCommand("sort-object").AddParameter("descending");
 /// </code>
 /// </summary>
 /// <param name="parameterName">
 /// Name of the parameter.
 /// </param>
 /// <returns>
 /// A PowerShell instance with <paramref name="parameterName"/> added
 /// to the parameter list of the last command.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="ArgumentException">
 /// Name is non null and name length is zero after trimming whitespace.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PowerShell AddParameter(string parameterName)
 {
 lock (_syncObject)
 {
 if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
 _psCommand.AddParameter(parameterName);
 return this;
 }
 }
/// <summary>
 /// Adds a <see cref="CommandParameter"/> instance to the last added command.
 /// </summary>
 internal PowerShell AddParameter(CommandParameter parameter)
 {
 lock (_syncObject)
 {
 if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
 _psCommand.AddParameter(parameter);
 return this;
 }
 }
/// <summary>
 /// Adds a set of parameters to the last added command.
 /// </summary>
 /// <param name="parameters">
 /// List of parameters.
 /// </param>
 /// <returns>
 /// A PowerShell instance with the items in <paramref name="parameters"/> added
 /// to the parameter list of the last command.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="PSArgumentNullException">
 /// The function was given a null argument.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 public PowerShell AddParameters(IList parameters)
 {
 lock (_syncObject)
 {
 if (parameters == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(parameters));
 }
if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
foreach (object p in parameters)
 {
 _psCommand.AddParameter(null, p);
 }
return this;
 }
 }
/// <summary>
 /// Adds a set of parameters to the last added command.
 /// </summary>
 /// <param name="parameters">
 /// Dictionary of parameters. Each key-value pair corresponds to a parameter name and its value. Keys must strings.
 /// </param>
 /// <returns>
 /// A PowerShell instance with the items in <paramref name="parameters"/> added
 /// to the parameter list of the last command.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 /// <exception cref="PSArgumentNullException">
 /// The function was given a null argument.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="PSArgumentException">
 /// One of the dictionary keys is not a string.
 /// </exception>
 public PowerShell AddParameters(IDictionary parameters)
 {
 lock (_syncObject)
 {
 if (parameters == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(parameters));
 }
if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
foreach (DictionaryEntry entry in parameters)
 {
 if (entry.Key is not string parameterName)
 {
 throw PSTraceSource.NewArgumentException(nameof(parameters), PowerShellStrings.KeyMustBeString);
 }
_psCommand.AddParameter(parameterName, entry.Value);
 }
return this;
 }
 }
/// <summary>
 /// Adds an argument to the last added command.
 /// For example, to construct a command string "Get-Process | Select-Object Name"
 /// <code>
 /// PowerShell shell = PowerShell.Create()
 /// .AddCommand("Get-Process")
 /// .AddCommand("Select-Object").AddArgument("Name");
 /// </code>
 /// This will add the value "name" to the positional parameter list of "select-object"
 /// cmdlet. When the command is invoked, this value will get bound to positional parameter 0
 /// of the "select-object" cmdlet which is "Property".
 /// </summary>
 /// <param name="value">
 /// Value for the parameter.
 /// </param>
 /// <returns>
 /// A PSCommand instance parameter value <paramref name="value"/> added
 /// to the parameter list of the last command.
 /// </returns>
 /// <remarks>
 /// This method is not thread safe.
 /// </remarks>
 public PowerShell AddArgument(object value)
 {
 lock (_syncObject)
 {
 if (_psCommand.Commands.Count == 0)
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.ParameterRequiresCommand);
 }
AssertChangesAreAccepted();
 _psCommand.AddArgument(value);
 return this;
 }
 }
/// <summary>
 /// Adds an additional statement for execution
 ///
 /// For example,
 /// <code>
 /// Runspace rs = RunspaceFactory.CreateRunspace();
 /// PowerShell ps = PowerShell.Create();
 ///
 /// ps.Runspace = rs;
 /// ps.AddCommand("Get-Process").AddArgument("idle");
 /// ps.AddStatement().AddCommand("Get-Service").AddArgument("audiosrv");
 /// ps.Invoke();
 /// </code>
 /// </summary>
 /// <returns>
 /// A PowerShell instance with the items in <paramref name="parameters"/> added
 /// to the parameter list of the last command.
 /// </returns>
 public PowerShell AddStatement()
 {
 lock (_syncObject)
 {
 // for PowerShell.Create().AddStatement().AddCommand("Get-Process");
 // we reduce it to PowerShell.Create().AddCommand("Get-Process");
 if (_psCommand.Commands.Count == 0)
 {
 return this;
 }
AssertChangesAreAccepted();
_psCommand.Commands[_psCommand.Commands.Count - 1].IsEndOfStatement = true;
return this;
 }
 }
#endregion
#region Public Properties
/// <summary>
 /// Gets or sets current powershell command line.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public PSCommand Commands
 {
 get
 {
 return _psCommand;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Command");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 _psCommand = value.Clone();
 _psCommand.Owner = this;
 }
 }
 }
/// <summary>
 /// Streams generated by PowerShell invocations.
 /// </summary>
 public PSDataStreams Streams { get; }
/// <summary>
 /// Gets or sets the error buffer. Powershell invocation writes
 /// the error data into this buffer.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<ErrorRecord> ErrorBuffer
 {
 get
 {
 return _errorBuffer;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Error");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 _errorBuffer = value;
 ErrorBufferOwner = false;
 }
 }
 }
/// <summary>
 /// Gets or sets the progress buffer. Powershell invocation writes
 /// the progress data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<ProgressRecord> ProgressBuffer
 {
 get
 {
 return InformationalBuffers.Progress;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Progress");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 InformationalBuffers.Progress = value;
 }
 }
 }
/// <summary>
 /// Gets or sets the verbose buffer. Powershell invocation writes
 /// the verbose data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<VerboseRecord> VerboseBuffer
 {
 get
 {
 return InformationalBuffers.Verbose;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Verbose");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 InformationalBuffers.Verbose = value;
 }
 }
 }
/// <summary>
 /// Gets or sets the debug buffer. Powershell invocation writes
 /// the debug data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<DebugRecord> DebugBuffer
 {
 get
 {
 return InformationalBuffers.Debug;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Debug");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 InformationalBuffers.Debug = value;
 }
 }
 }
/// <summary>
 /// Gets or sets the warning buffer. Powershell invocation writes
 /// the warning data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<WarningRecord> WarningBuffer
 {
 get
 {
 return InformationalBuffers.Warning;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Warning");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 InformationalBuffers.Warning = value;
 }
 }
 }
/// <summary>
 /// Gets or sets the information buffer. Powershell invocation writes
 /// the information data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 internal PSDataCollection<InformationRecord> InformationBuffer
 {
 get
 {
 return InformationalBuffers.Information;
 }
set
 {
 if (value == null)
 {
 throw PSTraceSource.NewArgumentNullException("Information");
 }
lock (_syncObject)
 {
 AssertChangesAreAccepted();
 InformationalBuffers.Information = value;
 }
 }
 }
/// <summary>
 /// Gets the informational buffers.
 /// </summary>
 internal PSInformationalBuffers InformationalBuffers { get; }
/// <summary>
 /// If this flag is true, the commands in this Pipeline will redirect
 /// the global error output pipe to the command's error output pipe.
 ///
 /// (see the comment in Pipeline.RedirectShellErrorOutputPipe for an
 /// explanation of why this flag is needed)
 /// </summary>
 internal bool RedirectShellErrorOutputPipe { get; set; } = true;
/// <summary>
 /// Get unique id for this instance of runspace pool. It is primarily used
 /// for logging purposes.
 /// </summary>
 public Guid InstanceId { get; private set; }
/// <summary>
 /// Gets the execution state of the current PowerShell instance.
 /// </summary>
 public PSInvocationStateInfo InvocationStateInfo { get; private set; }
/// <summary>
 /// Gets the property which indicates if this PowerShell instance
 /// is nested.
 /// </summary>
 public bool IsNested { get; private set; }
/// <summary>
 /// Gets the property which indicates if this PowerShell instance
 /// is a child instance.
 ///
 /// IsChild flag makes it possible for the pipeline to differentiate between
 /// a true v1 nested pipeline and the cmdlets calling cmdlets case. See bug
 /// 211462.
 /// </summary>
 internal bool IsChild { get; private set; } = false;
/// <summary>
 /// If an error occurred while executing the pipeline, this will be set to true.
 /// </summary>
 public bool HadErrors { get; private set; }
internal void SetHadErrors(bool status)
 {
 HadErrors = status;
 }
/// <summary>
 /// Access to the EndInvoke AsyncResult object. Used by remote
 /// debugging to invoke debugger commands on command thread.
 /// </summary>
 internal AsyncResult EndInvokeAsyncResult
 {
 get;
 private set;
 }
/// <summary>
 /// Event raised when PowerShell Execution State Changes.
 /// </summary>
 public event EventHandler<PSInvocationStateChangedEventArgs> InvocationStateChanged;
/// <summary>
 /// This event gets fired when a Runspace from the RunspacePool is assigned to this PowerShell
 /// instance to invoke the commands.
 /// </summary>
 internal event EventHandler<PSEventArgs<Runspace>> RunspaceAssigned;
#endregion
#region Public Methods
/// <summary>
 /// Sets an associated Runspace for this PowerShell instance.
 /// This can be null in which case a new runspace is created
 /// whenever Invoke* method is called.
 /// </summary>
 /// <remarks>
 /// This property and RunspacePool are mutually exclusive; setting one of them resets the other to null
 /// </remarks>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Naming", "CA1704:IdentifiersShouldBeSpelledCorrectly", MessageId = "Runspace", Justification = "Runspace is a well-known term in PowerShell.")]
 public Runspace Runspace
 {
 get
 {
 if (_runspace == null && _runspacePool == null) // create a runspace only if neither a runspace nor a runspace pool have been set
 {
 lock (_syncObject)
 {
 if (_runspace == null && _runspacePool == null)
 {
 AssertChangesAreAccepted();
 SetRunspace(RunspaceFactory.CreateRunspace(), true);
 this.Runspace.Open();
 }
 }
 }
return _runspace;
 }
set
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
if (_runspace != null && IsRunspaceOwner)
 {
 _runspace.Dispose();
 _runspace = null;
 IsRunspaceOwner = false;
 }
SetRunspace(value, false);
 }
 }
 }
/// <summary>
 /// Internal method to set the Runspace property.
 /// </summary>
 private void SetRunspace(Runspace runspace, bool owner)
 {
 RemoteRunspace remoteRunspace = runspace as RemoteRunspace;
if (remoteRunspace == null)
 {
 _rsConnection = runspace;
 }
 else
 {
 _rsConnection = remoteRunspace.RunspacePool;
if (RemotePowerShell != null)
 {
 RemotePowerShell.Clear();
 RemotePowerShell.Dispose();
 }
RemotePowerShell = new ClientRemotePowerShell(this, remoteRunspace.RunspacePool.RemoteRunspacePoolInternal);
 }
_runspace = runspace;
 IsRunspaceOwner = owner;
 _runspacePool = null;
 }
private Runspace _runspace = null;
/// <summary>
 /// Sets an associated RunspacePool for this PowerShell instance.
 /// A Runspace from this pool is used whenever Invoke* method
 /// is called.
 ///
 /// This can be null in which case a new runspace is created
 /// whenever Invoke* method is called.
 /// </summary>
 /// <remarks>
 /// This property and Runspace are mutually exclusive; setting one of them resets the other to null
 /// </remarks>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Naming", "CA1704:IdentifiersShouldBeSpelledCorrectly", MessageId = "Runspace", Justification = "Runspace is a well-known term in PowerShell.")]
 public RunspacePool RunspacePool
 {
 get
 {
 return _runspacePool;
 }
set
 {
 if (value != null)
 {
 lock (_syncObject)
 {
 AssertChangesAreAccepted();
if (_runspace != null && IsRunspaceOwner)
 {
 _runspace.Dispose();
 _runspace = null;
 IsRunspaceOwner = false;
 }
_rsConnection = value;
 _runspacePool = value;
if (_runspacePool.IsRemote)
 {
 if (RemotePowerShell != null)
 {
 RemotePowerShell.Clear();
 RemotePowerShell.Dispose();
 }
RemotePowerShell = new
 ClientRemotePowerShell(this, _runspacePool.RemoteRunspacePoolInternal);
 }
_runspace = null;
 }
 }
 }
 }
private RunspacePool _runspacePool = null;
/// <summary>
 /// Gets the associated Runspace or RunspacePool for this PowerShell
 /// instance. If this is null, PowerShell instance is not associated
 /// with any runspace.
 /// </summary>
 internal object GetRunspaceConnection()
 {
 return _rsConnection;
 }
#endregion
#region Connect Support
/// <summary>
 /// Synchronously connects to a running command on a remote server.
 /// </summary>
 /// <returns>Command output as a PSDataCollection.</returns>
 public Collection<PSObject> Connect()
 {
 // Regardless of how the command was originally invoked, set this member
 // variable to indicate the command is now running synchronously.
 _commandInvokedSynchronously = true;
IAsyncResult asyncResult = ConnectAsync();
 PowerShellAsyncResult psAsyncResult = asyncResult as PowerShellAsyncResult;
// Wait for command to complete. If an exception was thrown during command
 // execution (such as disconnect occurring during this synchronous execution)
 // then the exception will be thrown here.
 EndInvokeAsyncResult = psAsyncResult;
 psAsyncResult.EndInvoke();
 EndInvokeAsyncResult = null;
Collection<PSObject> results = null;
 if (psAsyncResult.Output != null)
 {
 results = psAsyncResult.Output.ReadAll();
 }
 else
 {
 // Return empty collection.
 results = new Collection<PSObject>();
 }
return results;
 }
/// <summary>
 /// Asynchronously connects to a running command on a remote server.
 /// The returned IAsyncResult object can be used with EndInvoke() method
 /// to wait on command and/or get command returned data.
 /// </summary>
 /// <returns>IAsyncResult.</returns>
 public IAsyncResult ConnectAsync()
 {
 return ConnectAsync(null, null, null);
 }
/// <summary>
 /// Asynchronously connects to a running command on a remote server.
 /// The returned IAsyncResult object can be used with EndInvoke() method
 /// to wait on command and/or get command returned data.
 /// </summary>
 /// <param name="output">The output buffer to return from EndInvoke.</param>
 /// <param name="invocationCallback">An AsyncCallback to be called once the previous invocation has completed.</param>
 /// <param name="state">A user supplied state to call the <paramref name="invocationCallback"/> with.</param>
 /// <returns>IAsyncResult.</returns>
 public IAsyncResult ConnectAsync(
 PSDataCollection<PSObject> output,
 AsyncCallback invocationCallback,
 object state)
 {
 if (InvocationStateInfo.State != PSInvocationState.Disconnected)
 {
 throw new InvalidPowerShellStateException(InvocationStateInfo.State);
 }
// Ensure this is a command invoked on a remote runspace(pool) and connect the
 // runspace if it is currently disconnected.
 CheckRunspacePoolAndConnect();
if (_connectCmdInfo != null)
 {
 //
 // This is a reconstruct/connect scenario and we create new state.
 //
PSDataCollection<PSObject> streamToUse = OutputBuffer;
// The remotePowerShell may have been initialized by InitForRemotePipelineConnect()
 if (!RemotePowerShell.Initialized)
 {
 // Empty input stream.
 ObjectStreamBase inputStream = new ObjectStream();
 inputStream.Close();
// Output stream.
 if (output != null)
 {
 // Use the supplied output buffer.
 OutputBuffer = output;
 OutputBufferOwner = false;
 }
 else if (OutputBuffer == null)
 {
 OutputBuffer = new PSDataCollection<PSObject>();
 OutputBufferOwner = true;
 }
streamToUse = OutputBuffer;
ObjectStreamBase outputStream = new PSDataCollectionStream<PSObject>(InstanceId, streamToUse);
RemotePowerShell.Initialize(inputStream, outputStream,
 new PSDataCollectionStream<ErrorRecord>(InstanceId, _errorBuffer),
 InformationalBuffers, null);
 }
Dbg.Assert((_invokeAsyncResult == null), "Async result should be null in the reconstruct scenario.");
 _invokeAsyncResult = new PowerShellAsyncResult(InstanceId, invocationCallback, state, streamToUse, true);
 }
 else
 {
 // If this is not a reconstruct scenario then this must be a PowerShell object that was
 // previously disconnected, and all state should be valid.
 Dbg.Assert((_invokeAsyncResult != null && RemotePowerShell.Initialized),
 "AsyncResult and RemotePowerShell objects must be valid here.");
if (output != null ||
 invocationCallback != null ||
 _invokeAsyncResult.IsCompleted)
 {
 // A new async object is needed.
 PSDataCollection<PSObject> streamToUse;
 if (output != null)
 {
 streamToUse = output;
 OutputBuffer = output;
 OutputBufferOwner = false;
 }
 else if (_invokeAsyncResult.Output == null ||
 !_invokeAsyncResult.Output.IsOpen)
 {
 OutputBuffer = new PSDataCollection<PSObject>();
 OutputBufferOwner = true;
 streamToUse = OutputBuffer;
 }
 else
 {
 streamToUse = _invokeAsyncResult.Output;
 OutputBuffer = streamToUse;
 OutputBufferOwner = false;
 }
_invokeAsyncResult = new PowerShellAsyncResult(
 InstanceId,
 invocationCallback ?? _invokeAsyncResult.Callback,
 (invocationCallback != null) ? state : _invokeAsyncResult.AsyncState,
 streamToUse,
 true);
 }
 }
try
 {
 // Perform the connect operation to the remote server through the PSRP layer.
 // If this.connectCmdInfo is null then a connection will be attempted using current state.
 // If this.connectCmdInfo is non-null then a connection will be attempted with this info.
 RemotePowerShell.ConnectAsync(_connectCmdInfo);
 }
 catch (Exception exception)
 {
 // allow GC collection
 _invokeAsyncResult = null;
 SetStateChanged(new PSInvocationStateInfo(PSInvocationState.Failed, exception));
// re-throw the exception
 InvalidRunspacePoolStateException poolException = exception as InvalidRunspacePoolStateException;
 if (poolException != null && _runspace != null) // the pool exception was actually thrown by a runspace
 {
 throw poolException.ToInvalidRunspaceStateException();
 }
throw;
 }
return _invokeAsyncResult;
 }
/// <summary>
 /// Checks that the current runspace associated with this PowerShell is a remote runspace,
 /// and if it is in Disconnected state then to connect it.
 /// </summary>
 private void CheckRunspacePoolAndConnect()
 {
 RemoteRunspacePoolInternal remoteRunspacePoolInternal = null;
 if (_rsConnection is RemoteRunspace)
 {
 remoteRunspacePoolInternal = (_rsConnection as RemoteRunspace).RunspacePool.RemoteRunspacePoolInternal;
 }
 else if (_rsConnection is RunspacePool)
 {
 remoteRunspacePoolInternal = (_rsConnection as RunspacePool).RemoteRunspacePoolInternal;
 }
if (remoteRunspacePoolInternal == null)
 {
 throw new InvalidOperationException(PowerShellStrings.CannotConnect);
 }
// Connect runspace if needed.
 if (remoteRunspacePoolInternal.RunspacePoolStateInfo.State == RunspacePoolState.Disconnected)
 {
 remoteRunspacePoolInternal.Connect();
 }
// Make sure runspace is in valid state for connection.
 if (remoteRunspacePoolInternal.RunspacePoolStateInfo.State != RunspacePoolState.Opened)
 {
 throw new InvalidRunspacePoolStateException(RunspacePoolStrings.InvalidRunspacePoolState,
 remoteRunspacePoolInternal.RunspacePoolStateInfo.State, RunspacePoolState.Opened);
 }
 }
#endregion
#region Script Debugger Support
/// <summary>
 /// This method allows the script debugger first crack at evaluating the
 /// command in case it is a debugger command, otherwise the command is
 /// evaluated by PowerShell.
 /// If the debugger evaluated a command then DebuggerCommand.ResumeAction
 /// value will be set appropriately.
 /// </summary>
 /// <param name="input">Input.</param>
 /// <param name="output">Output collection.</param>
 /// <param name="settings">PS invocation settings.</param>
 /// <param name="invokeMustRun">True if PowerShell Invoke must run regardless
 /// of whether debugger handles the command.
 /// </param>
 /// <returns>DebuggerCommandResults.</returns>
 internal void InvokeWithDebugger(
 IEnumerable<object> input,
 IList<PSObject> output,
 PSInvocationSettings settings,
 bool invokeMustRun)
 {
 Debugger debugger = _runspace.Debugger;
 bool addToHistory = true;
if (debugger != null &&
 Commands.Commands.Count > 0)
 {
 Command cmd = this.Commands.Commands[0];
DebuggerCommand dbgCommandResult = debugger.InternalProcessCommand(
 cmd.CommandText, output);
if (dbgCommandResult.ResumeAction != null ||
 dbgCommandResult.ExecutedByDebugger)
 {
 output.Add(new PSObject(dbgCommandResult));
 Commands.Commands.Clear();
 addToHistory = false;
 }
 else if (!dbgCommandResult.Command.Equals(cmd.CommandText, StringComparison.OrdinalIgnoreCase))
 {
 // Script debugger will replace commands, e.g., "k" -> "Get-PSCallStack".
 Commands.Commands[0] = new Command(dbgCommandResult.Command, false, true, true);
// Report that these replaced commands are executed by the debugger.
 DebuggerCommand dbgCommand = new DebuggerCommand(dbgCommandResult.Command, null, false, true);
 output.Add(new PSObject(dbgCommand));
 addToHistory = false;
 }
 }
if (addToHistory && (Commands.Commands.Count > 0))
 {
 addToHistory = DebuggerUtils.ShouldAddCommandToHistory(
 Commands.Commands[0].CommandText);
 }
// Remote PowerShell Invoke must always run Invoke so that the
 // command can complete.
 if (Commands.Commands.Count == 0 &&
 invokeMustRun)
 {
 Commands.Commands.AddScript(string.Empty);
 }
if (Commands.Commands.Count > 0)
 {
 if (addToHistory)
 {
 settings ??= new PSInvocationSettings();
settings.AddToHistory = true;
 }
Invoke<PSObject>(input, output, settings);
 }
 }
#endregion
#region Invoke Overloads
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output PSObject collection.
 /// </summary>
 /// <returns>
 /// collection of PSObjects.
 /// </returns>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<PSObject> Invoke()
 {
 return Invoke(null, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output PSObject collection.
 /// </summary>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <returns>
 /// Collection of PSObjects representing output.
 /// </returns>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<PSObject> Invoke(IEnumerable input)
 {
 return Invoke(input, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output PSObject collection.
 /// </summary>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <param name="settings">
 /// Invocation Settings
 /// </param>
 /// <returns>
 /// Collection of PSObjects representing output.
 /// </returns>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<PSObject> Invoke(IEnumerable input, PSInvocationSettings settings)
 {
 Collection<PSObject> result = new Collection<PSObject>();
 PSDataCollection<PSObject> listToWriteTo = new PSDataCollection<PSObject>(result);
 CoreInvoke<PSObject>(input, listToWriteTo, settings);
 return result;
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output.
 /// </summary>
 /// <typeparam name="T">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<T> Invoke<T>()
 {
 // We should bind all the results to this instance except
 // for output.
 Collection<T> result = new Collection<T>();
 Invoke<T>(null, result, null);
 return result;
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output.
 /// </summary>
 /// <typeparam name="T">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<T> Invoke<T>(IEnumerable input)
 {
 Collection<T> result = new Collection<T>();
 Invoke<T>(input, result, null);
 return result;
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and return
 /// the output.
 /// </summary>
 /// <typeparam name="T">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <param name="settings">
 /// Invocation Settings
 /// </param>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public Collection<T> Invoke<T>(IEnumerable input, PSInvocationSettings settings)
 {
 Collection<T> result = new Collection<T>();
 Invoke<T>(input, result, settings);
 return result;
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and collect
 /// output data into the buffer <paramref name="output"/>
 /// </summary>
 /// <typeparam name="T">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <param name="output">
 /// A collection supplied by the user where output is collected.
 /// </param>
 /// <exception cref="ArgumentNullException">
 /// <paramref name="output"/> cannot be null.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is
 /// already started.Stop the command and try the operation again.
 /// (or)
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public void Invoke<T>(IEnumerable input, IList<T> output)
 {
 Invoke<T>(input, output, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and collect
 /// output data into the buffer <paramref name="output"/>
 /// </summary>
 /// <typeparam name="T">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <param name="output">
 /// A collection supplied by the user where output is collected.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings to use.
 /// </param>
 /// <exception cref="ArgumentNullException">
 /// <paramref name="output"/> cannot be null.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public void Invoke<T>(IEnumerable input, IList<T> output, PSInvocationSettings settings)
 {
 if (output == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(output));
 }
 // use the above collection as the data store.
 PSDataCollection<T> listToWriteTo = new PSDataCollection<T>(output);
 CoreInvoke<T>(input, listToWriteTo, settings);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> synchronously and stream
 /// output data into the buffer <paramref name="output"/>
 /// </summary>
 /// <typeparam name="TInput">
 /// Type of input object(s) expected from the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command
 /// </param>
 /// <param name="output">
 /// Output of the command.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings to use.
 /// </param>
 /// <exception cref="ArgumentNullException">
 /// <paramref name="output"/> cannot be null.
 /// </exception>
 /// <exception cref="InvalidOperationException">
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 public void Invoke<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings)
 {
 if (output == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(output));
 }
CoreInvoke<TInput, TOutput>(input, output, settings);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> asynchronously.
 /// Use EndInvoke() to obtain the output of the command.
 /// </summary>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginInvoke()
 {
 return BeginInvoke<object>(null, null, null, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> asynchronously.
 /// Use EndInvoke() to obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// When invoked using BeginInvoke, invocation doesn't
 /// finish until Input is closed. Caller of BeginInvoke must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 ///
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling BeginInvoke(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </remarks>
 /// <typeparam name="T">
 /// Type of the input buffer
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginInvoke<T>(PSDataCollection<T> input)
 {
 return BeginInvoke<T>(input, null, null, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> asynchronously.
 /// Use EndInvoke() to obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// When invoked using BeginInvoke, invocation doesn't
 /// finish until Input is closed. Caller of BeginInvoke must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 ///
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling BeginInvoke(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </remarks>
 /// <typeparam name="T">
 /// Type of the input buffer
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings.
 /// </param>
 /// <param name="callback">
 /// An AsyncCallback to call once the BeginInvoke completes.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginInvoke<T>(PSDataCollection<T> input, PSInvocationSettings settings, AsyncCallback callback, object state)
 {
 DetermineIsBatching();
if (OutputBuffer != null)
 {
 if (_isBatching || ExtraCommands.Count != 0)
 {
 return BeginBatchInvoke<T, PSObject>(input, OutputBuffer, settings, callback, state);
 }
return CoreInvokeAsync<T, PSObject>(input, OutputBuffer, settings, callback, state, null);
 }
 else
 {
 OutputBuffer = new PSDataCollection<PSObject>();
 OutputBufferOwner = true;
if (_isBatching || ExtraCommands.Count != 0)
 {
 return BeginBatchInvoke<T, PSObject>(input, OutputBuffer, settings, callback, state);
 }
return CoreInvokeAsync<T, PSObject>(input, OutputBuffer, settings, callback, state, OutputBuffer);
 }
 }
/// <summary>
 /// Invoke the <see cref="Command"/> asynchronously.
 /// When this method is used EndInvoke() returns a null buffer.
 /// </summary>
 /// <remarks>
 /// When invoked using BeginInvoke, invocation doesn't
 /// finish until Input is closed. Caller of BeginInvoke must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 ///
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling BeginInvoke(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </remarks>
 /// <typeparam name="TInput">
 /// Type of input object(s) for the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="output">
 /// A buffer supplied by the user where output is collected.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginInvoke<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output)
 {
 return BeginInvoke<TInput, TOutput>(input, output, null, null, null);
 }
/// <summary>
 /// Invoke the <see cref="Command"/> asynchronously and collect
 /// output data into the buffer <paramref name="output"/>.
 /// When this method is used EndInvoke() returns a null buffer.
 /// </summary>
 /// <remarks>
 /// When invoked using BeginInvoke, invocation doesn't
 /// finish until Input is closed. Caller of BeginInvoke must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 ///
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling BeginInvoke(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </remarks>
 /// <typeparam name="TInput">
 /// Type of input object(s) for the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="output">
 /// A buffer supplied by the user where output is collected.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings.
 /// </param>
 /// <param name="callback">
 /// An AsyncCallback to call once the BeginInvoke completes.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginInvoke<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings, AsyncCallback callback, object state)
 {
 if (output == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(output));
 }
DetermineIsBatching();
if (_isBatching || ExtraCommands.Count != 0)
 {
 return BeginBatchInvoke<TInput, TOutput>(input, output, settings, callback, state);
 }
return CoreInvokeAsync<TInput, TOutput>(input, output, settings, callback, state, null);
 }
/// <summary>
 /// Invoke a PowerShell command asynchronously.
 /// Use await to wait for the command to complete and obtain the output of the command.
 /// </summary>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke.
 /// </returns>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// </exception>
 public Task<PSDataCollection<PSObject>> InvokeAsync()
 => Task<PSDataCollection<PSObject>>.Factory.FromAsync(BeginInvoke(), _endInvokeMethod);
/// <summary>
 /// Invoke a PowerShell command asynchronously.
 /// Use await to wait for the command to complete and obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// <para>
 /// When invoked using InvokeAsync, invocation doesn't
 /// finish until Input is closed. Caller of InvokeAsync must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 /// </para><para>
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling InvokeAsync(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </para>
 /// </remarks>
 /// <typeparam name="T">
 /// Type of the input buffer.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke.
 /// </returns>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// </exception>
 public Task<PSDataCollection<PSObject>> InvokeAsync<T>(PSDataCollection<T> input)
 => Task<PSDataCollection<PSObject>>.Factory.FromAsync(BeginInvoke<T>(input), _endInvokeMethod);
/// <summary>
 /// Invoke a PowerShell command asynchronously.
 /// Use await to wait for the command to complete and obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// <para>
 /// When invoked using InvokeAsync, invocation doesn't
 /// finish until Input is closed. Caller of InvokeAsync must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 /// </para><para>
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling InvokeAsync(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </para>
 /// </remarks>
 /// <typeparam name="T">
 /// Type of the input buffer.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings.
 /// </param>
 /// <param name="callback">
 /// An AsyncCallback to call once the command is invoked.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke.
 /// </returns>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// </exception>
 public Task<PSDataCollection<PSObject>> InvokeAsync<T>(PSDataCollection<T> input, PSInvocationSettings settings, AsyncCallback callback, object state)
 => Task<PSDataCollection<PSObject>>.Factory.FromAsync(BeginInvoke<T>(input, settings, callback, state), _endInvokeMethod);
/// <summary>
 /// Invoke a PowerShell command asynchronously.
 /// Use await to wait for the command to complete and obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// <para>
 /// When invoked using InvokeAsync, invocation doesn't
 /// finish until Input is closed. Caller of InvokeAsync must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 /// </para><para>
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling InvokeAsync(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </para>
 /// </remarks>
 /// <typeparam name="TInput">
 /// Type of input object(s) for the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="output">
 /// A buffer supplied by the user where output is collected.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke,
 /// or null if the caller provided their own buffer.
 /// </returns>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// To collect partial output in this scenario,
 /// supply a <see cref="System.Management.Automation.PSDataCollection{T}" /> for the <paramref name="output"/> parameter,
 /// and either add a handler for the <see cref="System.Management.Automation.PSDataCollection{T}.DataAdding"/> event
 /// or catch the exception and enumerate the object supplied for <paramref name="output"/>.
 /// </exception>
 public Task<PSDataCollection<PSObject>> InvokeAsync<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output)
 => Task<PSDataCollection<PSObject>>.Factory.FromAsync(BeginInvoke<TInput, TOutput>(input, output), _endInvokeMethod);
/// <summary>
 /// Invoke a PowerShell command asynchronously and collect
 /// output data into the buffer <paramref name="output"/>.
 /// Use await to wait for the command to complete and obtain the output of the command.
 /// </summary>
 /// <remarks>
 /// <para>
 /// When invoked using InvokeAsync, invocation doesn't
 /// finish until Input is closed. Caller of InvokeAsync must
 /// close the input buffer after all input has been written to
 /// input buffer. Input buffer is closed by calling
 /// Close() method.
 /// </para><para>
 /// If you want this command to execute as a standalone cmdlet
 /// (that is, using command-line parameters only),
 /// be sure to call Close() before calling InvokeAsync(). Otherwise,
 /// the command will be executed as though it had external input.
 /// If you observe that the command isn't doing anything,
 /// this may be the reason.
 /// </para>
 /// </remarks>
 /// <typeparam name="TInput">
 /// Type of input object(s) for the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="output">
 /// A buffer supplied by the user where output is collected.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings.
 /// </param>
 /// <param name="callback">
 /// An AsyncCallback to call once the command is invoked.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke,
 /// or null if the caller provided their own buffer.
 /// </returns>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// To collect partial output in this scenario,
 /// supply a <see cref="System.Management.Automation.PSDataCollection{T}" /> for the <paramref name="output"/> parameter,
 /// and either add a handler for the <see cref="System.Management.Automation.PSDataCollection{T}.DataAdding"/> event
 /// or catch the exception and use object supplied for <paramref name="output"/>.
 /// </exception>
 public Task<PSDataCollection<PSObject>> InvokeAsync<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings, AsyncCallback callback, object state)
 => Task<PSDataCollection<PSObject>>.Factory.FromAsync(BeginInvoke<TInput, TOutput>(input, output, settings, callback, state), _endInvokeMethod);
/// <summary>
 /// Begins a batch execution.
 /// </summary>
 /// <typeparam name="TInput">
 /// Type of input object(s) for the command invocation.
 /// </typeparam>
 /// <typeparam name="TOutput">
 /// Type of output object(s) expected from the command invocation.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command. See remarks for more details.
 /// </param>
 /// <param name="output">
 /// A buffer supplied by the user where output is collected.
 /// </param>
 /// <param name="settings">
 /// Invocation Settings.
 /// </param>
 /// <param name="callback">
 /// An AsyncCallback to call once the BeginInvoke completes.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 private IAsyncResult BeginBatchInvoke<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings, AsyncCallback callback, object state)
 {
 if ((object)output is not PSDataCollection<PSObject> asyncOutput)
 {
 throw PSTraceSource.NewInvalidOperationException();
 }
if (_isBatching)
 {
 SetupAsyncBatchExecution();
 }
RunspacePool pool = _rsConnection as RunspacePool;
 if ((pool != null) && (pool.IsRemote))
 {
 // Server supports batch invocation, in this case, we just send everything to the server and return immediately
 if (ServerSupportsBatchInvocation())
 {
 try
 {
 return CoreInvokeAsync<TInput, TOutput>(input, output, settings, callback, state, asyncOutput);
 }
 finally
 {
 if (_isBatching)
 {
 EndAsyncBatchExecution();
 }
 }
 }
 }
// Non-remoting case or server does not support batching
 // In this case we execute the cmdlets one by one
RunningExtraCommands = true;
 _batchInvocationSettings = settings;
_batchAsyncResult = new PowerShellAsyncResult(InstanceId, callback, state, asyncOutput, true);
CoreInvokeAsync<TInput, TOutput>(input, output, settings, new AsyncCallback(BatchInvocationCallback), state, asyncOutput);
return _batchAsyncResult;
 }
/// <summary>
 /// Batch invocation callback.
 /// </summary>
 /// <param name="state"></param>
 private void BatchInvocationWorkItem(object state)
 {
 Debug.Assert(ExtraCommands.Count != 0, "This callback is for batch invocation only");
BatchInvocationContext context = state as BatchInvocationContext;
Debug.Assert(context != null, "Context should never be null");
PSCommand backupCommand = _psCommand;
 try
 {
 _psCommand = context.Command;
// Last element
 if (_psCommand == ExtraCommands[ExtraCommands.Count - 1])
 {
 RunningExtraCommands = false;
 }
try
 {
 IAsyncResult cmdResult = CoreInvokeAsync<object, PSObject>(null, context.Output, _batchInvocationSettings,
 null, _batchAsyncResult.AsyncState, context.Output);
EndInvoke(cmdResult);
 }
 catch (ActionPreferenceStopException e)
 {
 // We need to honor the current error action preference here
 _stopBatchExecution = true;
 _batchAsyncResult.SetAsCompleted(e);
 return;
 }
 catch (Exception e)
 {
 SetHadErrors(true);
// Stop if necessarily
 if ((_batchInvocationSettings != null) && _batchInvocationSettings.ErrorActionPreference == ActionPreference.Stop)
 {
 _stopBatchExecution = true;
 AppendExceptionToErrorStream(e);
 _batchAsyncResult.SetAsCompleted(null);
 return;
 }
// If we get here, then ErrorActionPreference is either Continue,
 // SilentlyContinue, or Inquire (Continue), so we just continue....
 if (_batchInvocationSettings == null)
 {
 ActionPreference preference = (ActionPreference)Runspace.SessionStateProxy.GetVariable("ErrorActionPreference");
switch (preference)
 {
 case ActionPreference.SilentlyContinue:
 case ActionPreference.Continue:
 AppendExceptionToErrorStream(e);
 break;
 case ActionPreference.Stop:
 _batchAsyncResult.SetAsCompleted(e);
 return;
 case ActionPreference.Inquire:
 case ActionPreference.Ignore:
 break;
 }
 }
 else if (_batchInvocationSettings.ErrorActionPreference != ActionPreference.Ignore)
 {
 AppendExceptionToErrorStream(e);
 }
// Let it continue
 }
if (_psCommand == ExtraCommands[ExtraCommands.Count - 1])
 {
 _batchAsyncResult.SetAsCompleted(null);
 }
 }
 finally
 {
 _psCommand = backupCommand;
 context.Signal();
 }
 }
/// <summary>
 /// Batch invocation callback.
 /// </summary>
 /// <param name="result"></param>
 private void BatchInvocationCallback(IAsyncResult result)
 {
 Debug.Assert(ExtraCommands.Count != 0, "This callback is for batch invocation only");
PSDataCollection<PSObject> objs = null;
try
 {
 objs = EndInvoke(result) ?? _batchAsyncResult.Output;
DoRemainingBatchCommands(objs);
 }
 catch (PipelineStoppedException e)
 {
 // PowerShell throws the pipeline stopped exception.
 _batchAsyncResult.SetAsCompleted(e);
 return;
 }
 catch (ActionPreferenceStopException e)
 {
 // We need to honor the current error action preference here
 _batchAsyncResult.SetAsCompleted(e);
 return;
 }
 catch (Exception e)
 {
 RunningExtraCommands = false;
SetHadErrors(true);
ActionPreference preference;
 if (_batchInvocationSettings != null)
 {
 preference = _batchInvocationSettings.ErrorActionPreference ?? ActionPreference.Continue;
 }
 else
 {
 preference = (Runspace != null) ?
 (ActionPreference)Runspace.SessionStateProxy.GetVariable("ErrorActionPreference")
 : ActionPreference.Continue;
 }
switch (preference)
 {
 case ActionPreference.SilentlyContinue:
 case ActionPreference.Continue:
 AppendExceptionToErrorStream(e);
 break;
 case ActionPreference.Stop:
 _batchAsyncResult.SetAsCompleted(e);
 return;
 case ActionPreference.Inquire:
 case ActionPreference.Ignore:
 break;
 }
objs ??= _batchAsyncResult.Output;
DoRemainingBatchCommands(objs);
 }
 finally
 {
 if (_isBatching)
 {
 EndAsyncBatchExecution();
 }
 }
 }
/// <summary>
 /// Executes remaining batch commands.
 /// </summary>
 private void DoRemainingBatchCommands(PSDataCollection<PSObject> objs)
 {
 if (ExtraCommands.Count > 1)
 {
 for (int i = 1; i < ExtraCommands.Count; i++)
 {
 if (_stopBatchExecution)
 {
 break;
 }
BatchInvocationContext context = new BatchInvocationContext(ExtraCommands[i], objs);
// Queue a batch work item here.
 // Calling CoreInvokeAsync / CoreInvoke here directly doesn't work and causes the thread to not respond.
 ThreadPool.QueueUserWorkItem(new WaitCallback(BatchInvocationWorkItem), context);
 context.Wait();
 }
 }
 }
/// <summary>
 /// </summary>
 private void DetermineIsBatching()
 {
 foreach (Command command in _psCommand.Commands)
 {
 if (command.IsEndOfStatement)
 {
 _isBatching = true;
 return;
 }
 }
_isBatching = false;
 }
/// <summary>
 /// Prepare for async batch execution.
 /// </summary>
 private void SetupAsyncBatchExecution()
 {
 Debug.Assert(_isBatching);
_backupPSCommand = _psCommand.Clone();
 ExtraCommands.Clear();
PSCommand currentPipe = new PSCommand();
 currentPipe.Owner = this;
foreach (Command command in _psCommand.Commands)
 {
 if (command.IsEndOfStatement)
 {
 currentPipe.Commands.Add(command);
 ExtraCommands.Add(currentPipe);
 currentPipe = new PSCommand();
 currentPipe.Owner = this;
 }
 else
 {
 currentPipe.Commands.Add(command);
 }
 }
if (currentPipe.Commands.Count != 0)
 {
 ExtraCommands.Add(currentPipe);
 }
_psCommand = ExtraCommands[0];
 }
/// <summary>
 /// Ends an async batch execution.
 /// </summary>
 private void EndAsyncBatchExecution()
 {
 Debug.Assert(_isBatching);
_psCommand = _backupPSCommand;
 }
/// <summary>
 /// Appends an exception to the error stream.
 /// </summary>
 /// <param name="e"></param>
 private void AppendExceptionToErrorStream(Exception e)
 {
 IContainsErrorRecord er = e as IContainsErrorRecord;
if (er != null && er.ErrorRecord != null)
 {
 this.Streams.Error.Add(er.ErrorRecord);
 }
 else
 {
 this.Streams.Error.Add(new ErrorRecord(e,
 "InvalidOperation", ErrorCategory.InvalidOperation, null));
 }
 }
/// <summary>
 /// Waits for the pending asynchronous BeginInvoke to complete.
 /// </summary>
 /// <param name="asyncResult">
 /// Instance of IAsyncResult returned by BeginInvoke.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke, or null if the caller provided their own buffer.
 /// </returns>
 /// <exception cref="ArgumentNullException">
 /// asyncResult is a null reference.
 /// </exception>
 /// <exception cref="ArgumentException">
 /// asyncResult object was not created by calling BeginInvoke
 /// on this PowerShell instance.
 /// </exception>
 /// <exception cref="System.Management.Automation.PipelineStoppedException">
 /// The running PowerShell pipeline was stopped.
 /// This occurs when <see cref="PowerShell.Stop"/> or <see cref="PowerShell.StopAsync(AsyncCallback, object)"/> is called.
 /// To collect partial output in this scenario,
 /// supply a <see cref="System.Management.Automation.PSDataCollection{T}" /> to <see cref="PowerShell.BeginInvoke"/> for the <paramref name="output"/> parameter
 /// and either add a handler for the <see cref="System.Management.Automation.PSDataCollection{T}.DataAdding"/> event
 /// or catch the exception and enumerate the object supplied.
 /// </exception>
 public PSDataCollection<PSObject> EndInvoke(IAsyncResult asyncResult)
 {
 try
 {
 _commandInvokedSynchronously = true;
if (asyncResult == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(asyncResult));
 }
PowerShellAsyncResult psAsyncResult = asyncResult as PowerShellAsyncResult;
if ((psAsyncResult == null) ||
 (psAsyncResult.OwnerId != InstanceId) ||
 (!psAsyncResult.IsAssociatedWithAsyncInvoke))
 {
 throw PSTraceSource.NewArgumentException(nameof(asyncResult),
 PowerShellStrings.AsyncResultNotOwned, "IAsyncResult", "BeginInvoke");
 }
EndInvokeAsyncResult = psAsyncResult;
 psAsyncResult.EndInvoke();
 EndInvokeAsyncResult = null;
// PowerShell no longer owns the output buffer when it is passed back to the caller.
 ResetOutputBufferAsNeeded();
 return psAsyncResult.Output;
 }
 catch (InvalidRunspacePoolStateException exception)
 {
 SetHadErrors(true);
 if (_runspace != null) // the pool exception was actually thrown by a runspace
 {
 throw exception.ToInvalidRunspaceStateException();
 }
throw;
 }
 }
#endregion
#region Stop Overloads
/// <summary>
 /// Stop the currently running command synchronously.
 /// </summary>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <remarks>
 /// When used with <see cref="PowerShell.Invoke()"/>, that call will return a partial result.
 /// When used with <see cref="PowerShell.InvokeAsync"/>, that call will throw a <see cref="System.Management.Automation.PipelineStoppedException"/>.
 /// </remarks>
 public void Stop()
 {
 try
 {
 IAsyncResult asyncResult = CoreStop(true, null, null);
 // This is a sync call..Wait for the stop operation to complete.
 asyncResult.AsyncWaitHandle.WaitOne();
// PowerShell no longer owns the output buffer when the pipeline is stopped by caller.
 ResetOutputBufferAsNeeded();
 }
 catch (ObjectDisposedException)
 {
 // If it's already disposed, then the client doesn't need to know.
 }
 }
/// <summary>
 /// Stop the currently running command asynchronously. If the command is not started,
 /// the state of PowerShell instance is changed to Stopped and corresponding events
 /// will be raised.
 ///
 /// The returned IAsyncResult object can be used to wait for the stop operation
 /// to complete.
 /// </summary>
 /// <param name="callback">
 /// A AsyncCallback to call once the BeginStop completes.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 public IAsyncResult BeginStop(AsyncCallback callback, object state)
 {
 return CoreStop(false, callback, state);
 }
/// <summary>
 /// Waits for the pending asynchronous BeginStop to complete.
 /// </summary>
 /// <param name="asyncResult">
 /// Instance of IAsyncResult returned by BeginStop.
 /// </param>
 /// <exception cref="ArgumentNullException">
 /// asyncResult is a null reference.
 /// </exception>
 /// <exception cref="ArgumentException">
 /// asyncResult object was not created by calling BeginStop
 /// on this PowerShell instance.
 /// </exception>
 /// <remarks>
 /// When used with <see cref="PowerShell.Invoke()"/>, that call will return a partial result.
 /// When used with <see cref="PowerShell.InvokeAsync"/>, that call will throw a <see cref="System.Management.Automation.PipelineStoppedException"/>.
 /// </remarks>
 public void EndStop(IAsyncResult asyncResult)
 {
 if (asyncResult == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(asyncResult));
 }
PowerShellAsyncResult psAsyncResult = asyncResult as PowerShellAsyncResult;
if ((psAsyncResult == null) ||
 (psAsyncResult.OwnerId != InstanceId) ||
 (psAsyncResult.IsAssociatedWithAsyncInvoke))
 {
 throw PSTraceSource.NewArgumentException(nameof(asyncResult),
 PowerShellStrings.AsyncResultNotOwned, "IAsyncResult", "BeginStop");
 }
psAsyncResult.EndInvoke();
// PowerShell no longer owns the output buffer when the pipeline is stopped by caller.
 ResetOutputBufferAsNeeded();
 }
/// <summary>
 /// Stop a PowerShell command asynchronously.
 /// Use await to wait for the command to stop.
 /// </summary>
 /// <remarks>
 /// <para>
 /// If the command is not started, the state of the PowerShell instance
 /// is changed to Stopped and corresponding events will be raised.
 /// </para>
 /// </remarks>
 /// <param name="callback">
 /// An AsyncCallback to call once the command is invoked.
 /// Note: when using this API in script, don't pass in a delegate that is cast from a script block.
 /// The callback could be invoked from a thread without a default Runspace and a delegate cast from
 /// a script block would fail in that case.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <returns>
 /// The output buffer created to hold the results of the asynchronous invoke,
 /// or null if the caller provided their own buffer.
 /// </returns>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 /// <remarks>
 /// When used with <see cref="PowerShell.Invoke()"/>, that call will return a partial result.
 /// When used with <see cref="PowerShell.InvokeAsync"/>, that call will throw a <see cref="System.Management.Automation.PipelineStoppedException"/>.
 /// </remarks>
 public Task StopAsync(AsyncCallback callback, object state)
 => Task.Factory.FromAsync(BeginStop(callback, state), _endStopMethod);
#endregion
#region Event Handlers
/// <summary>
 /// Handler for state changed events for the currently running pipeline.
 /// </summary>
 /// <param name="source">
 /// Source of the event.
 /// </param>
 /// <param name="stateEventArgs">
 /// Pipeline State.
 /// </param>
 private void PipelineStateChanged(object source, PipelineStateEventArgs stateEventArgs)
 {
 // we need to process the pipeline event.
 PSInvocationStateInfo targetStateInfo = new PSInvocationStateInfo(stateEventArgs.PipelineStateInfo);
 SetStateChanged(targetStateInfo);
 }
#endregion
#region IDisposable Overrides
/// <summary>
 /// Release all resources.
 /// </summary>
 public void Dispose()
 {
 lock (_syncObject)
 {
 // if already disposed return
 if (_isDisposed)
 {
 return;
 }
 }
// Stop the currently running command outside of the lock
 if (InvocationStateInfo.State == PSInvocationState.Running ||
 InvocationStateInfo.State == PSInvocationState.Stopping)
 {
 Stop();
 }
lock (_syncObject)
 {
 _isDisposed = true;
 }
if (OutputBuffer != null && OutputBufferOwner)
 {
 OutputBuffer.Dispose();
 }
if (_errorBuffer != null && ErrorBufferOwner)
 {
 _errorBuffer.Dispose();
 }
if (IsRunspaceOwner)
 {
 _runspace.Dispose();
 }
RemotePowerShell?.Dispose();
_invokeAsyncResult = null;
 _stopAsyncResult = null;
 }
#endregion
#region Internal / Private Methods / Properties
/// <summary>
 /// Indicates if this PowerShell object is the owner of the
 /// runspace or RunspacePool assigned to this object.
 /// </summary>
 public bool IsRunspaceOwner { get; internal set; } = false;
internal bool ErrorBufferOwner { get; set; } = true;
internal bool OutputBufferOwner { get; set; } = true;
/// <summary>
 /// OutputBuffer.
 /// </summary>
 internal PSDataCollection<PSObject> OutputBuffer { get; private set; }
/// <summary>
 /// Reset the output buffer to null if it's owned by the current powershell instance.
 /// </summary>
 private void ResetOutputBufferAsNeeded()
 {
 if (OutputBufferOwner)
 {
 OutputBufferOwner = false;
 OutputBuffer = null;
 }
 }
/// <summary>
 /// Get a steppable pipeline object.
 /// </summary>
 /// <returns>A steppable pipeline object.</returns>
 /// <exception cref="InvalidOperationException">An attempt was made to use the scriptblock outside of the engine.</exception>
 public SteppablePipeline GetSteppablePipeline()
 {
 ExecutionContext context = GetContextFromTLS();
 SteppablePipeline spl = GetSteppablePipeline(context, CommandOrigin.Internal);
 return spl;
 }
/// <summary>
 /// Returns the current execution context from TLS, or raises an exception if it is null.
 /// </summary>
 /// <exception cref="InvalidOperationException">An attempt was made to use the scriptblock outside of the engine.</exception>
 internal ExecutionContext GetContextFromTLS()
 {
 ExecutionContext context = LocalPipeline.GetExecutionContextFromTLS();
// If ExecutionContext from TLS is null then we are not in powershell engine thread.
 if (context == null)
 {
 string scriptText = this.Commands.Commands.Count > 0 ? this.Commands.Commands[0].CommandText : null;
 PSInvalidOperationException e = null;
if (scriptText != null)
 {
 scriptText = ErrorCategoryInfo.Ellipsize(System.Globalization.CultureInfo.CurrentUICulture, scriptText);
 e = PSTraceSource.NewInvalidOperationException(
 PowerShellStrings.CommandInvokedFromWrongThreadWithCommand,
 scriptText);
 }
 else
 {
 e = PSTraceSource.NewInvalidOperationException(
 PowerShellStrings.CommandInvokedFromWrongThreadWithoutCommand);
 }
e.SetErrorId("CommandInvokedFromWrongThread");
 throw e;
 }
return context;
 }
/// <summary>
 /// Gets the steppable pipeline from the powershell object.
 /// </summary>
 /// <param name="context">Engine execution context.</param>
 /// <param name="commandOrigin">Command origin.</param>
 /// <returns>Steppable pipeline object.</returns>
 private SteppablePipeline GetSteppablePipeline(ExecutionContext context, CommandOrigin commandOrigin)
 {
 // Check for an empty pipeline
 if (Commands.Commands.Count == 0)
 {
 return null;
 }
PipelineProcessor pipelineProcessor = new PipelineProcessor();
 bool failed = false;
try
 {
 foreach (Command cmd in Commands.Commands)
 {
 CommandProcessorBase commandProcessorBase =
 cmd.CreateCommandProcessor
 (
 Runspace.DefaultRunspace.ExecutionContext,
 false,
 IsNested ? CommandOrigin.Internal : CommandOrigin.Runspace
 );
commandProcessorBase.RedirectShellErrorOutputPipe = RedirectShellErrorOutputPipe;
pipelineProcessor.Add(commandProcessorBase);
 }
 }
 catch (RuntimeException)
 {
 failed = true;
 throw;
 }
 catch (Exception e)
 {
 failed = true;
 throw new RuntimeException(PipelineStrings.CannotCreatePipeline, e);
 }
 finally
 {
 if (failed)
 {
 pipelineProcessor.Dispose();
 }
 }
return new SteppablePipeline(context, pipelineProcessor);
 }
internal bool IsGetCommandMetadataSpecialPipeline { get; set; }
/// <summary>
 /// Checks if the command is running.
 /// </summary>
 /// <returns></returns>
 private bool IsCommandRunning()
 {
 if (InvocationStateInfo.State == PSInvocationState.Running)
 {
 return true;
 }
return false;
 }
/// <summary>
 /// Checks if the current state is Disconnected.
 /// </summary>
 /// <returns></returns>
 private bool IsDisconnected()
 {
 return (InvocationStateInfo.State == PSInvocationState.Disconnected);
 }
/// <summary>
 /// Checks if the command is already running.
 /// If the command is already running, throws an
 /// exception.
 /// </summary>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 private void AssertExecutionNotStarted()
 {
 AssertNotDisposed();
 if (IsCommandRunning())
 {
 string message = StringUtil.Format(PowerShellStrings.ExecutionAlreadyStarted);
 throw new InvalidOperationException(message);
 }
if (IsDisconnected())
 {
 string message = StringUtil.Format(PowerShellStrings.ExecutionDisconnected);
 throw new InvalidOperationException(message);
 }
if (InvocationStateInfo.State == PSInvocationState.Stopping)
 {
 string message = StringUtil.Format(PowerShellStrings.ExecutionStopping);
 throw new InvalidOperationException(message);
 }
 }
/// <summary>
 /// Checks if the current powershell instance can accept changes like
 /// changing one of the properties like Output, Command etc.
 /// If changes are not allowed, throws an exception.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 internal void AssertChangesAreAccepted()
 {
 lock (_syncObject)
 {
 AssertNotDisposed();
 if (IsCommandRunning() || IsDisconnected())
 {
 throw new InvalidPowerShellStateException(InvocationStateInfo.State);
 }
 }
 }
/// <summary>
 /// Checks if the current powershell instance is disposed.
 /// If disposed, throws ObjectDisposedException.
 /// </summary>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 private void AssertNotDisposed()
 {
 if (_isDisposed)
 {
 throw PSTraceSource.NewObjectDisposedException("PowerShell");
 }
 }
/// <summary>
 /// Clear the internal elements.
 /// </summary>
 private void InternalClearSuppressExceptions()
 {
 lock (_syncObject)
 {
 _worker?.InternalClearSuppressExceptions();
 }
 }
/// <summary>
 /// Raise the execution state change event handlers.
 /// </summary>
 /// <param name="stateInfo">
 /// State Information
 /// </param>
 private void RaiseStateChangeEvent(PSInvocationStateInfo stateInfo)
 {
 // First update the runspace availability.
 // The Pipeline class takes care of updating local runspaces.
 // Don't update for RemoteRunspace and nested PowerShell since this is used
 // only internally by the remote debugger.
 RemoteRunspace remoteRunspace = _runspace as RemoteRunspace;
 if (remoteRunspace != null && !this.IsNested)
 {
 _runspace.UpdateRunspaceAvailability(InvocationStateInfo.State, true, InstanceId);
 }
if (stateInfo.State == PSInvocationState.Running)
 {
 AddToRemoteRunspaceRunningList();
 }
 else if (stateInfo.State == PSInvocationState.Completed || stateInfo.State == PSInvocationState.Stopped ||
 stateInfo.State == PSInvocationState.Failed)
 {
 RemoveFromRemoteRunspaceRunningList();
 }
InvocationStateChanged.SafeInvoke(this, new PSInvocationStateChangedEventArgs(stateInfo));
 }
/// <summary>
 /// Sets the state of this powershell instance.
 /// </summary>
 /// <param name="stateInfo">The state info to set.</param>
 internal void SetStateChanged(PSInvocationStateInfo stateInfo)
 {
 PSInvocationStateInfo copyStateInfo = stateInfo;
 PSInvocationState previousState;
// copy pipeline HasdErrors property to PowerShell instance...
 if (_worker != null && _worker.CurrentlyRunningPipeline != null)
 {
 SetHadErrors(_worker.CurrentlyRunningPipeline.HadErrors);
 }
// win281312: Usig temporary variables to avoid thread
 // synchronization issues between Dispose and transition
 // to Terminal States (Completed/Failed/Stopped)
 PowerShellAsyncResult tempInvokeAsyncResult;
 PowerShellAsyncResult tempStopAsyncResult;
lock (_syncObject)
 {
 previousState = InvocationStateInfo.State;
// Check the current state and see if we need to process this pipeline event.
 switch (InvocationStateInfo.State)
 {
 case PSInvocationState.Completed:
 case PSInvocationState.Failed:
 case PSInvocationState.Stopped:
 // if the current state is already completed..then no need to process state
 // change requests. This will happen if another thread calls BeginStop
 return;
 case PSInvocationState.Running:
 if (stateInfo.State == PSInvocationState.Running)
 {
 return;
 }
break;
 case PSInvocationState.Stopping:
 // We are in stopping state and we should not honor Running state
 // here.
 if (stateInfo.State == PSInvocationState.Running ||
 stateInfo.State == PSInvocationState.Stopping)
 {
 return;
 }
 else if (stateInfo.State == PSInvocationState.Completed ||
 stateInfo.State == PSInvocationState.Failed)
 {
 copyStateInfo = new PSInvocationStateInfo(PSInvocationState.Stopped, stateInfo.Reason);
 }
break;
 default:
 break;
 }
tempInvokeAsyncResult = _invokeAsyncResult;
 tempStopAsyncResult = _stopAsyncResult;
 InvocationStateInfo = copyStateInfo;
 }
bool isExceptionOccured = false;
 switch (InvocationStateInfo.State)
 {
 case PSInvocationState.Running:
 CloseInputBufferOnReconnection(previousState);
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
 break;
 case PSInvocationState.Stopping:
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
 break;
 case PSInvocationState.Completed:
 case PSInvocationState.Failed:
 case PSInvocationState.Stopped:
 // Clear Internal data
 InternalClearSuppressExceptions();
// Ensure remote receive queue is not blocked.
 if (RemotePowerShell != null)
 {
 ResumeIncomingData();
 }
try
 {
 if (RunningExtraCommands)
 {
 tempInvokeAsyncResult?.SetAsCompleted(InvocationStateInfo.Reason);
RaiseStateChangeEvent(InvocationStateInfo.Clone());
 }
 else
 {
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
tempInvokeAsyncResult?.SetAsCompleted(InvocationStateInfo.Reason);
 }
tempStopAsyncResult?.SetAsCompleted(null);
 }
 catch (Exception)
 {
 // need to release asyncresults if there is an
 // exception from the eventhandlers.
 isExceptionOccured = true;
 SetHadErrors(true);
 throw;
 }
 finally
 {
 // takes care exception occurred with invokeAsyncResult
 if (isExceptionOccured && (tempStopAsyncResult != null))
 {
 tempStopAsyncResult.Release();
 }
 }
break;
 case PSInvocationState.Disconnected:
 try
 {
 // Ensure remote receive queue is not blocked.
 if (RemotePowerShell != null)
 {
 ResumeIncomingData();
 }
// If this command was disconnected and was also invoked synchronously then
 // we throw an exception on the calling thread.
 if (_commandInvokedSynchronously && (tempInvokeAsyncResult != null))
 {
 tempInvokeAsyncResult.SetAsCompleted(new RuntimeException(PowerShellStrings.DiscOnSyncCommand));
 }
// This object can be disconnected even if "BeginStop" was called if it is a remote object
 // and robust connections is retrying a failed network connection.
 // In this case release the stop wait handle to prevent not responding.
 tempStopAsyncResult?.SetAsCompleted(null);
// Only raise the Disconnected state changed event if the PowerShell state
 // actually transitions to Disconnected from some other state. This condition
 // can happen when the corresponding runspace disconnects/connects multiple
 // times with the command remaining in Disconnected state.
 if (previousState != PSInvocationState.Disconnected)
 {
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
 }
 }
 catch (Exception)
 {
 // need to release asyncresults if there is an
 // exception from the eventhandlers.
 isExceptionOccured = true;
 SetHadErrors(true);
 throw;
 }
 finally
 {
 // takes care exception occurred with invokeAsyncResult
 if (isExceptionOccured && (tempStopAsyncResult != null))
 {
 tempStopAsyncResult.Release();
 }
 }
// Make sure the connect command information is null when going to Disconnected state.
 // This parameter is used to determine reconnect/reconstruct scenarios. Setting to null
 // means we have a reconnect scenario.
 _connectCmdInfo = null;
 break;
default:
 return;
 }
 }
/// <summary>
 /// Helper function to close the input buffer after command is reconnected.
 /// </summary>
 /// <param name="previousState">Previous state.</param>
 private void CloseInputBufferOnReconnection(PSInvocationState previousState)
 {
 // If the previous state was disconnected and we are now running (reconnected),
 // and we reconnected synchronously with pending input, then we need to close
 // the input buffer to allow the remote command to complete. Otherwise the
 // synchronous Connect() method will wait indefinitely for the command to complete.
 if (previousState == PSInvocationState.Disconnected &&
 _commandInvokedSynchronously &&
 RemotePowerShell.InputStream != null &&
 RemotePowerShell.InputStream.IsOpen &&
 RemotePowerShell.InputStream.Count > 0)
 {
 RemotePowerShell.InputStream.Close();
 }
 }
/// <summary>
 /// Clear the internal reference to remote powershell.
 /// </summary>
 internal void ClearRemotePowerShell()
 {
 lock (_syncObject)
 {
 RemotePowerShell?.Clear();
 }
 }
/// <summary>
 /// Sets if the pipeline is nested, typically used by the remoting infrastructure.
 /// </summary>
 /// <param name="isNested"></param>
 internal void SetIsNested(bool isNested)
 {
 AssertChangesAreAccepted();
IsNested = isNested;
 }
/// <summary>
 /// Performs the actual synchronous command invocation. The caller
 /// should check if it safe to call this method.
 /// </summary>
 /// <typeparam name="TOutput">
 /// Type of objects to return.
 /// </typeparam>
 /// <param name="input">
 /// Input to the command.
 /// </param>
 /// <param name="output">
 /// output from the command
 /// </param>
 /// <param name="settings">
 /// Invocation settings.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// No commands are specified.
 /// </exception>
 /// <exception cref="ScriptCallDepthException">
 /// The script recursed too deeply into script functions.
 /// There is a fixed limit on the depth of recursion.
 /// </exception>
 /// <exception cref="System.Security.SecurityException">
 /// A CLR security violation occurred. Typically, this happens
 /// because the current CLR permissions do not allow adequate
 /// reflection access to a cmdlet assembly.
 /// </exception>
 /// <exception cref="RuntimeException">
 /// PowerShell.Invoke can throw a variety of exceptions derived
 /// from RuntimeException. The most likely of these exceptions
 /// are listed below.
 /// </exception>
 /// <exception cref="ParameterBindingException">
 /// One of more parameters or parameter values specified for
 /// a cmdlet are not valid, or mandatory parameters for a cmdlet
 /// were not specified.
 /// </exception>
 /// <exception cref="CmdletInvocationException">
 /// A cmdlet generated a terminating error.
 /// </exception>
 /// <exception cref="CmdletProviderInvocationException">
 /// A provider generated a terminating error.
 /// </exception>
 /// <exception cref="ActionPreferenceStopException">
 /// The ActionPreference.Stop or ActionPreference.Inquire policy
 /// triggered a terminating error.
 /// </exception>
 /// <exception cref="PipelineStoppedException">
 /// The pipeline was terminated asynchronously.
 /// </exception>
 /// <exception cref="MetadataException">
 /// If there is an error generating the metadata for dynamic parameters.
 /// </exception>
 private void CoreInvoke<TOutput>(IEnumerable input, PSDataCollection<TOutput> output, PSInvocationSettings settings)
 {
 PSDataCollection<object> inputBuffer = null;
 if (input != null)
 {
 inputBuffer = new PSDataCollection<object>();
 foreach (object o in input)
 {
 inputBuffer.Add(o);
 }
inputBuffer.Complete();
 }
CoreInvoke(inputBuffer, output, settings);
 }
/// <summary>
 /// Core invocation helper method.
 /// </summary>
 /// <typeparam name="TInput">input type</typeparam>
 /// <typeparam name="TOutput">output type</typeparam>
 /// <param name="input">Input objects.</param>
 /// <param name="output">Output object.</param>
 /// <param name="settings">Invocation settings.</param>
 private void CoreInvokeHelper<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings)
 {
 RunspacePool pool = _rsConnection as RunspacePool;
// Prepare the environment...non-remoting case.
 Prepare<TInput, TOutput>(input, output, settings, true);
try
 {
 // Invoke in the same thread as the calling thread.
 Runspace rsToUse = null;
 if (!IsNested)
 {
 if (pool != null)
 {
#if !UNIX
 VerifyThreadSettings(settings, pool.ApartmentState, pool.ThreadOptions, false);
#endif
// getting the runspace asynchronously so that Stop can be supported from a different
 // thread.
 _worker.GetRunspaceAsyncResult = pool.BeginGetRunspace(null, null);
 _worker.GetRunspaceAsyncResult.AsyncWaitHandle.WaitOne();
 rsToUse = pool.EndGetRunspace(_worker.GetRunspaceAsyncResult);
 }
 else
 {
 rsToUse = _rsConnection as Runspace;
 if (rsToUse != null)
 {
#if !UNIX
 VerifyThreadSettings(settings, rsToUse.ApartmentState, rsToUse.ThreadOptions, false);
#endif
if (rsToUse.RunspaceStateInfo.State != RunspaceState.Opened)
 {
 string message = StringUtil.Format(PowerShellStrings.InvalidRunspaceState, RunspaceState.Opened, rsToUse.RunspaceStateInfo.State);
InvalidRunspaceStateException e = new InvalidRunspaceStateException(message,
 rsToUse.RunspaceStateInfo.State,
 RunspaceState.Opened
 );
throw e;
 }
 }
 }
// perform the work in the current thread
 _worker.CreateRunspaceIfNeededAndDoWork(rsToUse, true);
 }
 else
 {
 rsToUse = _rsConnection as Runspace;
 Dbg.Assert(rsToUse != null,
 "Nested PowerShell can only work on a Runspace");
// Perform work on the current thread. Nested Pipeline
 // should be invoked from the same thread that the parent
 // pipeline is executing in.
 _worker.ConstructPipelineAndDoWork(rsToUse, true);
 }
 }
 catch (Exception exception)
 {
 SetStateChanged(new PSInvocationStateInfo(PSInvocationState.Failed, exception));
// re-throw the exception
 InvalidRunspacePoolStateException poolException = exception as InvalidRunspacePoolStateException;
if (poolException != null && _runspace != null) // the pool exception was actually thrown by a runspace
 {
 throw poolException.ToInvalidRunspaceStateException();
 }
throw;
 }
 }
/// <summary>
 /// Core invocation helper method for remoting.
 /// </summary>
 /// <typeparam name="TInput">input type</typeparam>
 /// <typeparam name="TOutput">output type</typeparam>
 /// <param name="input">Input objects.</param>
 /// <param name="output">Output object.</param>
 /// <param name="settings">Invocation settings.</param>
 private void CoreInvokeRemoteHelper<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings)
 {
 RunspacePool pool = _rsConnection as RunspacePool;
// For remote calls..use the infrastructure built in CoreInvokeAsync..
 IAsyncResult asyncResult = CoreInvokeAsync<TInput, TOutput>(input, output, settings,
 null, null, null);
 _commandInvokedSynchronously = true;
 PowerShellAsyncResult psAsyncResult = asyncResult as PowerShellAsyncResult;
// Wait for command to complete. If an exception was thrown during command
 // execution (such as disconnect occurring during this synchronous execution)
 // then the exception will be thrown here.
 EndInvokeAsyncResult = psAsyncResult;
 psAsyncResult.EndInvoke();
 EndInvokeAsyncResult = null;
if ((InvocationStateInfo.State == PSInvocationState.Failed) &&
 (InvocationStateInfo.Reason != null))
 {
 throw InvocationStateInfo.Reason;
 }
return;
 }
/// <summary>
 /// Core invocation method.
 /// </summary>
 /// <typeparam name="TInput">input type</typeparam>
 /// <typeparam name="TOutput">output type</typeparam>
 /// <param name="input">Input objects.</param>
 /// <param name="output">Output object.</param>
 /// <param name="settings">Invocation settings.</param>
 private void CoreInvoke<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings)
 {
 bool isRemote = false;
DetermineIsBatching();
if (_isBatching)
 {
 SetupAsyncBatchExecution();
 }
SetHadErrors(false);
 RunspacePool pool = _rsConnection as RunspacePool;
 if ((pool != null) && (pool.IsRemote))
 {
 if (ServerSupportsBatchInvocation())
 {
 try
 {
 CoreInvokeRemoteHelper(input, output, settings);
 }
 finally
 {
 if (_isBatching)
 {
 EndAsyncBatchExecution();
 }
 }
return;
 }
isRemote = true;
 }
if (_isBatching)
 {
 try
 {
 foreach (PSCommand command in ExtraCommands)
 {
 // Last element
 if (_psCommand != ExtraCommands[ExtraCommands.Count - 1])
 {
 RunningExtraCommands = true;
 }
 else
 {
 RunningExtraCommands = false;
 }
try
 {
 _psCommand = command;
if (isRemote)
 {
 CoreInvokeRemoteHelper(input, output, settings);
 }
 else
 {
 CoreInvokeHelper(input, output, settings);
 }
 }
 catch (ActionPreferenceStopException)
 {
 // We need to honor the current error action preference here
 throw;
 }
 catch (Exception e)
 {
 SetHadErrors(true);
// Stop if necessarily
 if ((settings != null) && settings.ErrorActionPreference == ActionPreference.Stop)
 {
 throw;
 }
// Ignore the exception if necessary.
 if ((settings != null) && settings.ErrorActionPreference == ActionPreference.Ignore)
 {
 continue;
 }
// If we get here, then ErrorActionPreference is either Continue,
 // SilentlyContinue, or Inquire (Continue), so we just continue....
IContainsErrorRecord er = e as IContainsErrorRecord;
if (er != null && er.ErrorRecord != null)
 {
 this.Streams.Error.Add(er.ErrorRecord);
 }
 else
 {
 this.Streams.Error.Add(new ErrorRecord(e,
 "InvalidOperation", ErrorCategory.InvalidOperation, null));
 }
continue;
 }
 }
 }
 finally
 {
 RunningExtraCommands = false;
 EndAsyncBatchExecution();
 }
 }
 else
 {
 RunningExtraCommands = false;
if (isRemote)
 {
 CoreInvokeRemoteHelper(input, output, settings);
 }
 else
 {
 CoreInvokeHelper(input, output, settings);
 }
 }
 }
/// <summary>
 /// Performs the actual asynchronous command invocation.
 /// </summary>
 /// <typeparam name="TInput">Type of the input buffer</typeparam>
 /// <typeparam name="TOutput">Type of the output buffer</typeparam>
 /// <param name="input">
 /// input can be null
 /// </param>
 /// <param name="output"></param>
 /// <param name="settings"></param>
 /// <param name="callback">
 /// A AsyncCallback to call once the BeginInvoke completes.
 /// </param>
 /// <param name="state">
 /// A user supplied state to call the <paramref name="callback"/>
 /// with.
 /// </param>
 /// <param name="asyncResultOutput">
 /// The output buffer to attach to the IAsyncResult returned by this method
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// (or)
 /// No command is added.
 /// (or)
 /// BeginInvoke is called on nested powershell. Nested
 /// Powershell cannot be executed Asynchronously.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Maintainability", "CA1506:AvoidExcessiveClassCoupling")]
 private IAsyncResult CoreInvokeAsync<TInput, TOutput>(PSDataCollection<TInput> input,
 PSDataCollection<TOutput> output, PSInvocationSettings settings,
 AsyncCallback callback, object state, PSDataCollection<PSObject> asyncResultOutput)
 {
 RunspacePool pool = _rsConnection as RunspacePool;
// We dont need to create worker if pool is remote
 Prepare<TInput, TOutput>(input, output, settings, (pool == null || !pool.IsRemote));
_invokeAsyncResult = new PowerShellAsyncResult(InstanceId, callback, state, asyncResultOutput, true);
try
 {
 // IsNested is true for the icm | % { icm } scenario
 if (!IsNested || (pool != null && pool.IsRemote))
 {
 if (pool != null)
 {
#if !UNIX
 VerifyThreadSettings(settings, pool.ApartmentState, pool.ThreadOptions, pool.IsRemote);
#endif
pool.AssertPoolIsOpen();
// for executing in a remote runspace pool case
 if (pool.IsRemote)
 {
 _worker = null;
lock (_syncObject)
 {
 // for remoting case, when the state is set to
 // Running, the message should have been sent
 // to the server. In order to ensure the same
 // all of the following are placed inside the
 // lock
 // 1. set the state to Running
 // 2. create remotePowerShell
 // 3. Send message to server
// set the execution state to running.. so changes
 // to the current instance of powershell
 // are blocked.
 AssertExecutionNotStarted();
InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Running, null);
ObjectStreamBase inputStream = null;
if (input != null)
 {
 inputStream = new PSDataCollectionStream<TInput>(InstanceId, input);
 }
if (!RemotePowerShell.Initialized)
 {
 if (inputStream == null)
 {
 inputStream = new ObjectStream();
 inputStream.Close();
 }
RemotePowerShell.Initialize(
 inputStream, new PSDataCollectionStream<TOutput>(InstanceId, output),
 new PSDataCollectionStream<ErrorRecord>(InstanceId, _errorBuffer),
 InformationalBuffers, settings);
 }
 else
 {
 if (inputStream != null)
 {
 RemotePowerShell.InputStream = inputStream;
 }
if (output != null)
 {
 RemotePowerShell.OutputStream =
 new PSDataCollectionStream<TOutput>(InstanceId, output);
 }
 }
pool.RemoteRunspacePoolInternal.CreatePowerShellOnServerAndInvoke(RemotePowerShell);
 }
RaiseStateChangeEvent(InvocationStateInfo.Clone());
 }
 else
 {
 _worker.GetRunspaceAsyncResult = pool.BeginGetRunspace(
 new AsyncCallback(_worker.RunspaceAvailableCallback), null);
 }
 }
 else
 {
 LocalRunspace rs = _rsConnection as LocalRunspace;
 if (rs != null)
 {
#if !UNIX
 VerifyThreadSettings(settings, rs.ApartmentState, rs.ThreadOptions, false);
#endif
if (rs.RunspaceStateInfo.State != RunspaceState.Opened)
 {
 string message = StringUtil.Format(PowerShellStrings.InvalidRunspaceState, RunspaceState.Opened, rs.RunspaceStateInfo.State);
InvalidRunspaceStateException e = new InvalidRunspaceStateException(message,
 rs.RunspaceStateInfo.State,
 RunspaceState.Opened
 );
throw e;
 }
_worker.CreateRunspaceIfNeededAndDoWork(rs, false);
 }
 else
 {
 // create a new runspace and perform invoke..
 ThreadPool.QueueUserWorkItem(
 new WaitCallback(_worker.CreateRunspaceIfNeededAndDoWork),
 _rsConnection);
 }
 }
 }
 else
 {
 // Nested PowerShell
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.NestedPowerShellInvokeAsync);
 }
 }
 catch (Exception exception)
 {
 // allow GC collection
 _invokeAsyncResult = null;
 SetStateChanged(new PSInvocationStateInfo(PSInvocationState.Failed, exception));
 // re-throw the exception
 InvalidRunspacePoolStateException poolException = exception as InvalidRunspacePoolStateException;
if (poolException != null && _runspace != null) // the pool exception was actually thrown by a runspace
 {
 throw poolException.ToInvalidRunspaceStateException();
 }
throw;
 }
return _invokeAsyncResult;
 }
// Apartment thread state does not apply to non-Windows platforms.
#if !UNIX
 /// <summary>
 /// Verifies the settings for ThreadOptions and ApartmentState.
 /// </summary>
 private static void VerifyThreadSettings(PSInvocationSettings settings, ApartmentState runspaceApartmentState, PSThreadOptions runspaceThreadOptions, bool isRemote)
 {
 ApartmentState apartmentState;
if (settings != null && settings.ApartmentState != ApartmentState.Unknown)
 {
 apartmentState = settings.ApartmentState;
 }
 else
 {
 apartmentState = runspaceApartmentState;
 }
if (runspaceThreadOptions == PSThreadOptions.ReuseThread)
 {
 if (apartmentState != runspaceApartmentState)
 {
 throw new InvalidOperationException(PowerShellStrings.ApartmentStateMismatch);
 }
 }
 else if (runspaceThreadOptions == PSThreadOptions.UseCurrentThread)
 {
 if (!isRemote) // on remote calls this check needs to be done by the server
 {
 if (apartmentState != ApartmentState.Unknown && apartmentState != Thread.CurrentThread.GetApartmentState())
 {
 throw new InvalidOperationException(PowerShellStrings.ApartmentStateMismatchCurrentThread);
 }
 }
 }
 }
#endif
/// <summary>
 /// </summary>
 /// <typeparam name="TInput">Type for the input collection</typeparam>
 /// <typeparam name="TOutput">Type for the output collection</typeparam>
 /// <param name="input"></param>
 /// <param name="output"></param>
 /// <param name="settings"></param>
 /// <param name="shouldCreateWorker"></param>
 /// <exception cref="InvalidOperationException">
 /// Cannot perform the operation because the command is already started.
 /// Stop the command and try the operation again.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 private void Prepare<TInput, TOutput>(PSDataCollection<TInput> input, PSDataCollection<TOutput> output, PSInvocationSettings settings, bool shouldCreateWorker)
 {
 Dbg.Assert(output != null, "Output cannot be null");
lock (_syncObject)
 {
 if ((_psCommand == null) || (_psCommand.Commands == null) || (_psCommand.Commands.Count == 0))
 {
 throw PSTraceSource.NewInvalidOperationException(PowerShellStrings.NoCommandToInvoke);
 }
 // If execution has already started this will throw
 AssertExecutionNotStarted();
if (shouldCreateWorker)
 {
 // set the execution state to running.. so changes
 // to the current instance of powershell
 // are blocked.
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Running, null);
// update settings for impersonation policy
 if ((settings != null) && (settings.FlowImpersonationPolicy))
 {
 // get the identity of the thread.
 // false behavior: If the thread is impersonating the WindowsIdentity for the
 // thread is returned. If the thread is not impersonating, the WindowsIdentity of
 // the process is returned.
 settings.WindowsIdentityToImpersonate =
 System.Security.Principal.WindowsIdentity.GetCurrent(false);
 }
// Create the streams and handoff these to the pipeline
 // this way pipeline will not waste resources creating
 // the same.
 ObjectStreamBase inputStream;
 if (input != null)
 {
 inputStream = new PSDataCollectionStream<TInput>(InstanceId, input);
 }
 else
 {
 inputStream = new ObjectStream();
 inputStream.Close();
 }
ObjectStreamBase outputStream = new PSDataCollectionStream<TOutput>(InstanceId, output);
 _worker = new Worker(inputStream, outputStream, settings, this);
 }
 }
// Only one thread will be running after this point
 // so no need to lock.
if (shouldCreateWorker)
 {
 // Raise the state change events outside of the lock
 // send a cloned copy..this way the handler will
 // not see changes happening to the instance's execution state.
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
 }
 }
/// <summary>
 /// Called by both Sync Stop and Async Stop.
 /// If isSyncCall is false, then an IAsyncResult object is returned which
 /// can be passed back to the user.
 /// </summary>
 /// <param name="isSyncCall">
 /// true if pipeline to be stopped synchronously,
 /// false otherewise.
 /// </param>
 /// <param name="callback">
 /// Valid for asynchronous stop
 /// </param>
 /// <param name="state">
 /// Valid for asynchronous stop
 /// </param>
 private IAsyncResult CoreStop(bool isSyncCall, AsyncCallback callback, object state)
 {
 bool isRunning = false;
 bool isDisconnected = false;
 Queue<PSInvocationStateInfo> events = new Queue<PSInvocationStateInfo>();
// Acquire lock as we are going to change state here..
 lock (_syncObject)
 {
 // BUGBUG: remote powershell appears to handle state change's differently
 // Need to speak with remoting dev and resolve this.
 switch (InvocationStateInfo.State)
 {
 case PSInvocationState.NotStarted:
 // Stopped is called before operation started..we need to change
 // state to stopping and then to stopped... so that future stops
 // dont affect the state.
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Stopping,
 null);
events.Enqueue(new PSInvocationStateInfo(PSInvocationState.Stopped,
 null));
 break;
case PSInvocationState.Completed:
 case PSInvocationState.Failed:
 case PSInvocationState.Stopped:
 _stopAsyncResult = new PowerShellAsyncResult(InstanceId, callback, state, null, false);
 _stopAsyncResult.SetAsCompleted(null);
 return _stopAsyncResult;
case PSInvocationState.Stopping:
 // Create new stop sync object if none exists. Otherwise return existing.
 if (_stopAsyncResult == null)
 {
 _stopAsyncResult = new PowerShellAsyncResult(InstanceId, callback, state, null, false);
 _stopAsyncResult.SetAsCompleted(null);
 }
return _stopAsyncResult;
case PSInvocationState.Running:
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Stopping,
 null);
 isRunning = true;
 break;
case PSInvocationState.Disconnected:
 // Stopping a disconnected command results in a failed state.
 InvocationStateInfo = new PSInvocationStateInfo(PSInvocationState.Failed, null);
 isDisconnected = true;
 break;
 }
_stopAsyncResult = new PowerShellAsyncResult(InstanceId, callback, state, null, false);
 }
// If in the Disconnected state then stopping simply cuts loose the PowerShell object
 // so that a new one can be connected. The state is set to Failed since the command
 // cannot complete with this object.
 if (isDisconnected)
 {
 // Since object is stopped, allow result wait to end.
 _invokeAsyncResult?.SetAsCompleted(null);
_stopAsyncResult.SetAsCompleted(null);
// Raise event for failed state change.
 RaiseStateChangeEvent(InvocationStateInfo.Clone());
return _stopAsyncResult;
 }
// Ensure the runspace is not blocking in a debug stop.
 ReleaseDebugger();
RaiseStateChangeEvent(InvocationStateInfo.Clone());
bool shouldRunStopHelper = false;
 RunspacePool pool = _rsConnection as RunspacePool;
if (pool != null && pool.IsRemote)
 {
 if ((RemotePowerShell != null) && RemotePowerShell.Initialized)
 {
 RemotePowerShell.StopAsync();
if (isSyncCall)
 {
 _stopAsyncResult.AsyncWaitHandle.WaitOne();
 }
 }
 else
 {
 shouldRunStopHelper = true;
 }
 }
 else if (isRunning)
 {
 _worker.Stop(isSyncCall);
 }
 else
 {
 shouldRunStopHelper = true;
 }
if (shouldRunStopHelper)
 {
 if (isSyncCall)
 {
 StopHelper(events);
 }
 else
 {
 ThreadPool.QueueUserWorkItem(new WaitCallback(StopThreadProc), events);
 }
 }
return _stopAsyncResult;
 }
private void ReleaseDebugger()
 {
 LocalRunspace localRunspace = _runspace as LocalRunspace;
 localRunspace?.ReleaseDebugger();
 }
/// <summary>
 /// If there is no worker assigned yet, we need to emulate stop here.
 /// In Asynchronous stop case, we need to send event change notifications
 /// from a different thread.
 /// </summary>
 /// <param name="state"></param>
 private void StopHelper(object state)
 {
 Queue<PSInvocationStateInfo> events = state as Queue<PSInvocationStateInfo>;
 Dbg.Assert(events != null,
 "StopImplementation expects a Queue<PSInvocationStateInfo> as parameter");
// Raise the events outside of the lock..this way 3rd party callback
 // cannot hold our lock.
 while (events.Count > 0)
 {
 PSInvocationStateInfo targetStateInfo = events.Dequeue();
 SetStateChanged(targetStateInfo);
 }
// Clear internal resources
 InternalClearSuppressExceptions();
 }
private void StopThreadProc(object state)
 {
 // variable to keep track of exceptions.
 Exception exception = null;
try
 {
 StopHelper(state);
 }
 catch (Exception e)
 {
 // report non-severe exceptions to the user via the
 // asyncresult object
 exception = e;
 throw;
 }
 }
/// <summary>
 /// The client remote powershell associated with this
 /// powershell object.
 /// </summary>
 internal ClientRemotePowerShell RemotePowerShell { get; private set; }
/// <summary>
 /// The history string to be used for displaying
 /// the history.
 /// </summary>
 public string HistoryString { get; set; }
/// <summary>
 /// Extra commands to run in a single invocation.
 /// </summary>
 internal Collection<PSCommand> ExtraCommands { get; }
/// <summary>
 /// Currently running extra commands.
 /// </summary>
 internal bool RunningExtraCommands { get; private set; }
private bool ServerSupportsBatchInvocation()
 {
 if (_runspace != null)
 {
 return _runspace.RunspaceStateInfo.State != RunspaceState.BeforeOpen &&
 _runspace.GetRemoteProtocolVersion() >= RemotingConstants.ProtocolVersion_2_2;
 }
RemoteRunspacePoolInternal remoteRunspacePoolInternal = null;
 if (_rsConnection is RemoteRunspace)
 {
 remoteRunspacePoolInternal = (_rsConnection as RemoteRunspace).RunspacePool.RemoteRunspacePoolInternal;
 }
 else if (_rsConnection is RunspacePool)
 {
 remoteRunspacePoolInternal = (_rsConnection as RunspacePool).RemoteRunspacePoolInternal;
 }
return remoteRunspacePoolInternal != null &&
 remoteRunspacePoolInternal.PSRemotingProtocolVersion >= RemotingConstants.ProtocolVersion_2_2;
 }
/// <summary>
 /// Helper method to add running remote PowerShell to the remote runspace list.
 /// </summary>
 private void AddToRemoteRunspaceRunningList()
 {
 if (_runspace != null)
 {
 _runspace.PushRunningPowerShell(this);
 }
 else
 {
 RemoteRunspacePoolInternal remoteRunspacePoolInternal = GetRemoteRunspacePoolInternal();
 remoteRunspacePoolInternal?.PushRunningPowerShell(this);
 }
 }
/// <summary>
 /// Helper method to remove running remote PowerShell from the remote runspacelist.
 /// </summary>
 private void RemoveFromRemoteRunspaceRunningList()
 {
 if (_runspace != null)
 {
 _runspace.PopRunningPowerShell();
 }
 else
 {
 RemoteRunspacePoolInternal remoteRunspacePoolInternal = GetRemoteRunspacePoolInternal();
 remoteRunspacePoolInternal?.PopRunningPowerShell();
 }
 }
private RemoteRunspacePoolInternal GetRemoteRunspacePoolInternal()
 {
 RunspacePool runspacePool = _rsConnection as RunspacePool;
 return runspacePool?.RemoteRunspacePoolInternal;
 }
#endregion
#region Worker
/// <summary>
 /// AsyncResult object used to monitor pipeline creation and invocation.
 /// This is needed as a Runspace may not be available in the RunspacePool.
 /// </summary>
 private sealed class Worker
 {
 private readonly ObjectStreamBase _inputStream;
 private readonly ObjectStreamBase _outputStream;
 private readonly ObjectStreamBase _errorStream;
 private readonly PSInvocationSettings _settings;
 private bool _isNotActive;
 private readonly PowerShell _shell;
 private readonly object _syncObject = new object();
/// <summary>
 /// </summary>
 /// <param name="inputStream"></param>
 /// <param name="outputStream"></param>
 /// <param name="settings"></param>
 /// <param name="shell"></param>
 internal Worker(ObjectStreamBase inputStream,
 ObjectStreamBase outputStream,
 PSInvocationSettings settings,
 PowerShell shell)
 {
 _inputStream = inputStream;
 _outputStream = outputStream;
 _errorStream = new PSDataCollectionStream<ErrorRecord>(shell.InstanceId, shell._errorBuffer);
 _settings = settings;
 _shell = shell;
 }
/// <summary>
 /// Sets the async result object that monitors a
 /// BeginGetRunspace async operation on the
 /// RunspacePool.
 /// </summary>
 internal IAsyncResult GetRunspaceAsyncResult { get; set; }
/// <summary>
 /// Gets the currently running pipeline.
 /// </summary>
 internal Pipeline CurrentlyRunningPipeline { get; private set; }
/// <summary>
 /// This method gets invoked from a ThreadPool thread.
 /// </summary>
 /// <param name="state"></param>
 internal void CreateRunspaceIfNeededAndDoWork(object state)
 {
 Runspace rsToUse = state as Runspace;
 CreateRunspaceIfNeededAndDoWork(rsToUse, false);
 }
/// <summary>
 /// This method gets invoked when PowerShell is not associated
 /// with a RunspacePool.
 /// </summary>
 /// <param name="rsToUse">
 /// User supplied Runspace if any.
 /// </param>
 /// <param name="isSync">
 /// true if Invoke() should be used to invoke pipeline
 /// false if InvokeAsync() should be used.
 /// </param>
 /// <remarks>
 /// All exceptions are caught and reported via a
 /// PipelineStateChanged event.
 /// </remarks>
 internal void CreateRunspaceIfNeededAndDoWork(Runspace rsToUse, bool isSync)
 {
#pragma warning disable 56500
 try
 {
 // Set the host for this local runspace if user specified one.
 LocalRunspace rs = rsToUse as LocalRunspace;
 if (rs == null)
 {
 lock (_shell._syncObject)
 {
 if (_shell._runspace != null)
 {
 rsToUse = _shell._runspace;
 }
 else
 {
 Runspace runspace = null;
if ((_settings != null) && (_settings.Host != null))
 {
 runspace = RunspaceFactory.CreateRunspace(_settings.Host);
 }
 else
 {
 runspace = RunspaceFactory.CreateRunspace();
 }
_shell.SetRunspace(runspace, true);
rsToUse = (LocalRunspace)runspace;
 rsToUse.Open();
 }
 }
 }
ConstructPipelineAndDoWork(rsToUse, isSync);
 }
 catch (Exception e)
 {
 // PipelineStateChangedEvent is not raised
 // if there is an exception calling BeginInvoke
 // So raise the event here and notify the caller.
 lock (_syncObject)
 {
 if (_isNotActive)
 return;
 _isNotActive = true;
 }
_shell.PipelineStateChanged(this,
 new PipelineStateEventArgs(
 new PipelineStateInfo(PipelineState.Failed,
 e)));
if (isSync)
 {
 throw;
 }
 }
#pragma warning restore 56500
 }
/// <summary>
 /// This method gets called from a ThreadPool thread.
 /// This method gets called from a RunspacePool thread when a
 /// Runspace is available.
 /// </summary>
 /// <param name="asyncResult">
 /// AsyncResult object which monitors the asyncOperation.
 /// </param>
 /// <remarks>
 /// All exceptions are caught and reported via a
 /// PipelineStateChanged event.
 /// </remarks>
 internal void RunspaceAvailableCallback(IAsyncResult asyncResult)
 {
#pragma warning disable 56500
 try
 {
 RunspacePool pool = _shell._rsConnection as RunspacePool;
 Dbg.Assert(pool != null, "RunspaceConnection must be a runspace pool");
// get the runspace..this will throw if there is an exception
 // occurred while getting the runspace.
 Runspace pooledRunspace = pool.EndGetRunspace(asyncResult);
bool isPipelineCreated = ConstructPipelineAndDoWork(pooledRunspace, false);
 if (!isPipelineCreated)
 {
 pool.ReleaseRunspace(pooledRunspace);
 }
 }
 catch (Exception e)
 {
 // PipelineStateChangedEvent is not raised
 // if there is an exception calling BeginInvoke
 // So raise the event here and notify the caller.
 lock (_syncObject)
 {
 if (_isNotActive)
 return;
 _isNotActive = true;
 }
_shell.PipelineStateChanged(this,
 new PipelineStateEventArgs(
 new PipelineStateInfo(PipelineState.Failed,
 e)));
 }
#pragma warning restore 56500
 }
/// <summary>
 /// Constructs a pipeline from the supplied runspace and invokes
 /// pipeline either synchronously or asynchronously identified by
 /// <paramref name="performSyncInvoke"/>.
 /// </summary>
 /// <param name="rs">
 /// Runspace to create pipeline. Cannot be null.
 /// </param>
 /// <param name="performSyncInvoke">
 /// if true, Invoke() is called
 /// BeginInvoke() otherwise.
 /// </param>
 /// <exception cref="InvalidOperationException">
 /// 1.BeginInvoke is called on nested powershell. Nested
 /// Powershell cannot be executed Asynchronously.
 /// </exception>
 /// <returns>
 /// true if the pipeline is created/invoked successfully.
 /// false otherwise.
 /// </returns>
 internal bool ConstructPipelineAndDoWork(Runspace rs, bool performSyncInvoke)
 {
 Dbg.Assert(rs != null, "Runspace cannot be null in ConstructPipelineAndDoWork");
 _shell.RunspaceAssigned.SafeInvoke(this, new PSEventArgs<Runspace>(rs));
// lock is needed until a pipeline is created to
 // make stop() cleanly release resources.
 LocalRunspace lrs = rs as LocalRunspace;
lock (_syncObject)
 {
 if (_isNotActive)
 {
 return false;
 }
if (lrs != null)
 {
 LocalPipeline localPipeline = new LocalPipeline(
 lrs,
 _shell.Commands.Commands,
 (_settings != null && _settings.AddToHistory),
 _shell.IsNested,
 _inputStream,
 _outputStream,
 _errorStream,
 _shell.InformationalBuffers);
localPipeline.IsChild = _shell.IsChild;
if (!string.IsNullOrEmpty(_shell.HistoryString))
 {
 localPipeline.SetHistoryString(_shell.HistoryString);
 }
localPipeline.RedirectShellErrorOutputPipe = _shell.RedirectShellErrorOutputPipe;
CurrentlyRunningPipeline = localPipeline;
 // register for pipeline state changed events within a lock...so that if
 // stop is called before invoke, we can listen to state transition and
 // take appropriate action.
 CurrentlyRunningPipeline.StateChanged += _shell.PipelineStateChanged;
 }
 else
 {
 throw PSTraceSource.NewNotImplementedException();
 }
 }
// Set pipeline specific settings
 CurrentlyRunningPipeline.InvocationSettings = _settings;
Dbg.Assert(lrs != null, "LocalRunspace cannot be null here");
if (performSyncInvoke)
 {
 CurrentlyRunningPipeline.Invoke();
 }
 else
 {
 CurrentlyRunningPipeline.InvokeAsync();
 }
return true;
 }
/// <summary>
 /// Stops the async operation.
 /// </summary>
 /// <param name="isSyncCall"></param>
 internal void Stop(bool isSyncCall)
 {
 lock (_syncObject)
 {
 if (_isNotActive)
 {
 return;
 }
_isNotActive = true;
 if (CurrentlyRunningPipeline != null)
 {
 if (isSyncCall)
 {
 CurrentlyRunningPipeline.Stop();
 }
 else
 {
 CurrentlyRunningPipeline.StopAsync();
 }
return;
 }
if (GetRunspaceAsyncResult != null)
 {
 RunspacePool pool = _shell._rsConnection as RunspacePool;
 Dbg.Assert(pool != null, "RunspaceConnection must be a runspace pool");
 pool.CancelGetRunspace(GetRunspaceAsyncResult);
 }
 }
// Pipeline is not yet associated with PowerShell..so emulate stop
 // locally
 Queue<PSInvocationStateInfo> events = new Queue<PSInvocationStateInfo>();
 events.Enqueue(new PSInvocationStateInfo(PSInvocationState.Stopped, null));
if (isSyncCall)
 {
 _shell.StopHelper(events);
 }
 else
 {
 ThreadPool.QueueUserWorkItem(new WaitCallback(_shell.StopThreadProc), events);
 }
 }
/// <summary>
 /// Internal clear is called when the invoke operation
 /// is completed or failed or stopped.
 /// </summary>
 internal void InternalClearSuppressExceptions()
 {
 try
 {
 if ((_settings != null) && (_settings.WindowsIdentityToImpersonate != null))
 {
 _settings.WindowsIdentityToImpersonate.Dispose();
 _settings.WindowsIdentityToImpersonate = null;
 }
_inputStream.Close();
 _outputStream.Close();
 _errorStream.Close();
if (CurrentlyRunningPipeline == null)
 {
 return;
 }
// Detach state changed handler so that runspace.close
 // and pipeline.dispose will not change powershell instances state
 CurrentlyRunningPipeline.StateChanged -= _shell.PipelineStateChanged;
if ((GetRunspaceAsyncResult == null) && (_shell._rsConnection == null))
 {
 // user did not supply a runspace..Invoke* method created
 // a new runspace..so close it.
 CurrentlyRunningPipeline.Runspace.Close();
 }
 else
 {
 RunspacePool pool = _shell._rsConnection as RunspacePool;
 pool?.ReleaseRunspace(CurrentlyRunningPipeline.Runspace);
 }
CurrentlyRunningPipeline.Dispose();
 }
 catch (ArgumentException)
 {
 }
 catch (InvalidOperationException)
 {
 }
 catch (InvalidRunspaceStateException)
 {
 }
 catch (InvalidRunspacePoolStateException)
 {
 }
CurrentlyRunningPipeline = null;
 }
#if !CORECLR // PSMI Not Supported On CSS
 internal void GetSettings(out bool addToHistory, out bool noInput, out uint apartmentState)
 {
 addToHistory = _settings.AddToHistory;
 noInput = false;
 apartmentState = (uint)_settings.ApartmentState;
 }
#endif
 }
#endregion
#region Serialization / deserialization for remoting
/// <summary>
 /// Creates a PowerShell object from a PSObject property bag.
 /// PSObject has to be in the format returned by ToPSObjectForRemoting method.
 /// </summary>
 /// <param name="powerShellAsPSObject">PSObject to rehydrate.</param>
 /// <returns>
 /// PowerShell rehydrated from a PSObject property bag
 /// </returns>
 /// <exception cref="ArgumentNullException">
 /// Thrown if the PSObject is null.
 /// </exception>
 /// <exception cref="System.Management.Automation.Remoting.PSRemotingDataStructureException">
 /// Thrown when the PSObject is not in the expected format
 /// </exception>
 internal static PowerShell FromPSObjectForRemoting(PSObject powerShellAsPSObject)
 {
 if (powerShellAsPSObject == null)
 {
 throw PSTraceSource.NewArgumentNullException(nameof(powerShellAsPSObject));
 }
Collection<PSCommand> extraCommands = null;
 ReadOnlyPSMemberInfoCollection<PSPropertyInfo> properties = powerShellAsPSObject.Properties.Match(RemoteDataNameStrings.ExtraCommands);
if (properties.Count > 0)
 {
 extraCommands = new Collection<PSCommand>();
foreach (PSObject extraCommandsAsPSObject in RemotingDecoder.EnumerateListProperty<PSObject>(powerShellAsPSObject, RemoteDataNameStrings.ExtraCommands))
 {
 PSCommand cmd = null;
 foreach (PSObject extraCommand in RemotingDecoder.EnumerateListProperty<PSObject>(extraCommandsAsPSObject, RemoteDataNameStrings.Commands))
 {
 System.Management.Automation.Runspaces.Command command =
 System.Management.Automation.Runspaces.Command.FromPSObjectForRemoting(extraCommand);
if (cmd == null)
 {
 cmd = new PSCommand(command);
 }
 else
 {
 cmd.AddCommand(command);
 }
 }
extraCommands.Add(cmd);
 }
 }
PSCommand psCommand = null;
 foreach (PSObject commandAsPSObject in RemotingDecoder.EnumerateListProperty<PSObject>(powerShellAsPSObject, RemoteDataNameStrings.Commands))
 {
 System.Management.Automation.Runspaces.Command command =
 System.Management.Automation.Runspaces.Command.FromPSObjectForRemoting(commandAsPSObject);
if (psCommand == null)
 {
 psCommand = new PSCommand(command);
 }
 else
 {
 psCommand.AddCommand(command);
 }
 }
bool isNested = RemotingDecoder.GetPropertyValue<bool>(powerShellAsPSObject, RemoteDataNameStrings.IsNested);
 PowerShell shell = PowerShell.Create(isNested, psCommand, extraCommands);
 shell.HistoryString = RemotingDecoder.GetPropertyValue<string>(powerShellAsPSObject, RemoteDataNameStrings.HistoryString);
 shell.RedirectShellErrorOutputPipe = RemotingDecoder.GetPropertyValue<bool>(powerShellAsPSObject, RemoteDataNameStrings.RedirectShellErrorOutputPipe);
 return shell;
 }
/// <summary>
 /// Returns this object as a PSObject property bag
 /// that can be used in a remoting protocol data object.
 /// </summary>
 /// <returns>This object as a PSObject property bag.</returns>
 internal PSObject ToPSObjectForRemoting()
 {
 PSObject powerShellAsPSObject = RemotingEncoder.CreateEmptyPSObject();
 Version psRPVersion = RemotingEncoder.GetPSRemotingProtocolVersion(_rsConnection as RunspacePool);
// Check if the server supports batch invocation
 if (ServerSupportsBatchInvocation())
 {
 if (ExtraCommands.Count > 0)
 {
 List<PSObject> extraCommandsAsListOfPSObjects = new List<PSObject>(ExtraCommands.Count);
 foreach (PSCommand extraCommand in ExtraCommands)
 {
 PSObject obj = RemotingEncoder.CreateEmptyPSObject();
obj.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.Commands, CommandsAsListOfPSObjects(extraCommand.Commands, psRPVersion)));
extraCommandsAsListOfPSObjects.Add(obj);
 }
powerShellAsPSObject.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.ExtraCommands, extraCommandsAsListOfPSObjects));
 }
 }
List<PSObject> commandsAsListOfPSObjects = CommandsAsListOfPSObjects(Commands.Commands, psRPVersion);
powerShellAsPSObject.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.Commands, commandsAsListOfPSObjects));
 powerShellAsPSObject.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.IsNested, this.IsNested));
 powerShellAsPSObject.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.HistoryString, HistoryString));
 powerShellAsPSObject.Properties.Add(new PSNoteProperty(RemoteDataNameStrings.RedirectShellErrorOutputPipe, this.RedirectShellErrorOutputPipe));
 return powerShellAsPSObject;
 }
private static List<PSObject> CommandsAsListOfPSObjects(CommandCollection commands, Version psRPVersion)
 {
 List<PSObject> commandsAsListOfPSObjects = new List<PSObject>(commands.Count);
 foreach (Command command in commands)
 {
 commandsAsListOfPSObjects.Add(command.ToPSObjectForRemoting(psRPVersion));
 }
return commandsAsListOfPSObjects;
 }
#endregion
#region Remote data drain/block methods
/// <summary>
 /// Suspends data arriving from remote session.
 /// </summary>
 internal void SuspendIncomingData()
 {
 if (RemotePowerShell == null)
 {
 throw new PSNotSupportedException();
 }
RemotePowerShell.DataStructureHandler?.TransportManager.SuspendQueue(true);
 }
/// <summary>
 /// Resumes data arriving from remote session.
 /// </summary>
 internal void ResumeIncomingData()
 {
 if (RemotePowerShell == null)
 {
 throw new PSNotSupportedException();
 }
RemotePowerShell.DataStructureHandler?.TransportManager.ResumeQueue();
 }
/// <summary>
 /// Blocking call that waits until the *current remote* data
 /// queue at the transport manager is empty. This affects only
 /// the current queue until it is empty.
 /// </summary>
 internal void WaitForServicingComplete()
 {
 if (RemotePowerShell == null)
 {
 throw new PSNotSupportedException();
 }
if (RemotePowerShell.DataStructureHandler != null)
 {
 int count = 0;
 while (++count < 2 &&
 RemotePowerShell.DataStructureHandler.TransportManager.IsServicing)
 {
 // Try waiting for 50 ms, then continue.
 Threading.Thread.Sleep(50);
 }
 }
 }
#endregion
#if !CORECLR // PSMI Not Supported On CSS
 #region Win Blue Extensions
internal CimInstance AsPSPowerShellPipeline()
 {
 CimInstance c = InternalMISerializer.CreateCimInstance("PS_PowerShellPipeline");
 CimProperty instanceIdProperty = InternalMISerializer.CreateCimProperty("InstanceId",
 this.InstanceId.ToString(),
 Microsoft.Management.Infrastructure.CimType.String);
 c.CimInstanceProperties.Add(instanceIdProperty);
 CimProperty isNestedProperty = InternalMISerializer.CreateCimProperty("IsNested",
 this.IsNested,
 Microsoft.Management.Infrastructure.CimType.Boolean);
 c.CimInstanceProperties.Add(isNestedProperty);
bool addToHistoryValue = false, noInputValue = false;
 uint apartmentStateValue = 0;
 if (_worker != null)
 {
 _worker.GetSettings(out addToHistoryValue, out noInputValue, out apartmentStateValue);
 }
CimProperty addToHistoryProperty = InternalMISerializer.CreateCimProperty("AddToHistory",
 addToHistoryValue,
 Microsoft.Management.Infrastructure.CimType.Boolean);
 c.CimInstanceProperties.Add(addToHistoryProperty);
 CimProperty noInputProperty = InternalMISerializer.CreateCimProperty("NoInput",
 noInputValue,
 Microsoft.Management.Infrastructure.CimType.Boolean);
 c.CimInstanceProperties.Add(noInputProperty);
 CimProperty apartmentStateProperty = InternalMISerializer.CreateCimProperty("ApartmentState",
 apartmentStateValue,
 Microsoft.Management.Infrastructure.CimType.UInt32);
 c.CimInstanceProperties.Add(apartmentStateProperty);
if (this.Commands.Commands.Count > 0)
 {
 List<CimInstance> commandInstances = new List<CimInstance>();
 foreach (var command in this.Commands.Commands)
 {
 commandInstances.Add(command.ToCimInstance());
 }
CimProperty commandsProperty = InternalMISerializer.CreateCimProperty("Commands",
 commandInstances.ToArray(),
 Microsoft.Management.Infrastructure.CimType.ReferenceArray);
 c.CimInstanceProperties.Add(commandsProperty);
 }
return c;
 }
 #endregion Win Blue Extensions
#endif
 }
/// <summary>
 /// Streams generated by PowerShell invocations.
 /// </summary>
 public sealed class PSDataStreams
 {
 /// <summary>
 /// PSDataStreams is the public interface to access the *Buffer properties in the PowerShell class.
 /// </summary>
 internal PSDataStreams(PowerShell powershell)
 {
 _powershell = powershell;
 }
/// <summary>
 /// Gets or sets the error buffer. Powershell invocation writes
 /// the error data into this buffer.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<ErrorRecord> Error
 {
 get
 {
 return _powershell.ErrorBuffer;
 }
set
 {
 _powershell.ErrorBuffer = value;
 }
 }
/// <summary>
 /// Gets or sets the progress buffer. Powershell invocation writes
 /// the progress data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<ProgressRecord> Progress
 {
 get
 {
 return _powershell.ProgressBuffer;
 }
set
 {
 _powershell.ProgressBuffer = value;
 }
 }
/// <summary>
 /// Gets or sets the verbose buffer. Powershell invocation writes
 /// the verbose data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<VerboseRecord> Verbose
 {
 get
 {
 return _powershell.VerboseBuffer;
 }
set
 {
 _powershell.VerboseBuffer = value;
 }
 }
/// <summary>
 /// Gets or sets the debug buffer. Powershell invocation writes
 /// the debug data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<DebugRecord> Debug
 {
 get
 {
 return _powershell.DebugBuffer;
 }
set
 {
 _powershell.DebugBuffer = value;
 }
 }
/// <summary>
 /// Gets or sets the warning buffer. Powershell invocation writes
 /// the warning data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<WarningRecord> Warning
 {
 get
 {
 return _powershell.WarningBuffer;
 }
set
 {
 _powershell.WarningBuffer = value;
 }
 }
/// <summary>
 /// Gets or sets the information buffer. Powershell invocation writes
 /// the warning data into this buffer. Can be null.
 /// </summary>
 /// <exception cref="ArgumentNullException">
 /// Cannot set to a null value.
 /// </exception>
 /// <exception cref="InvalidPowerShellStateException">
 /// Powershell instance cannot be changed in its
 /// current state.
 /// </exception>
 /// <exception cref="ObjectDisposedException">
 /// Object is disposed.
 /// </exception>
 [SuppressMessage("Microsoft.Usage", "CA2227:CollectionPropertiesShouldBeReadOnly", Justification = "We want to allow callers to change the backing store.")]
 public PSDataCollection<InformationRecord> Information
 {
 get
 {
 return _powershell.InformationBuffer;
 }
set
 {
 _powershell.InformationBuffer = value;
 }
 }
/// <summary>
 /// Removes all items from all the data streams.
 /// </summary>
 public void ClearStreams()
 {
 this.Error.Clear();
 this.Progress.Clear();
 this.Verbose.Clear();
 this.Information.Clear();
 this.Debug.Clear();
 this.Warning.Clear();
 }
private readonly PowerShell _powershell;
 }
/// <summary>
 /// Helper class for making sure Ctrl-C stops an active powershell invocation.
 /// </summary>
 /// <example>
 /// powerShell = PowerShell.Create();
 /// powerShell.AddCommand("Start-Sleep");
 /// powerShell.AddParameter("Seconds", 10);
 /// powerShell.Runspace = remoteRunspace;
 /// Collection&lt;PSObject&gt; result;
 /// using (new PowerShellStopper(context, powerShell))
 /// {
 /// result = powerShell.Invoke();
 /// }
 /// </example>
 internal class PowerShellStopper : IDisposable
 {
 private readonly PipelineBase _pipeline;
 private readonly PowerShell _powerShell;
 private EventHandler<PipelineStateEventArgs> _eventHandler;
internal PowerShellStopper(ExecutionContext context, PowerShell powerShell)
 {
 ArgumentNullException.ThrowIfNull(context);
ArgumentNullException.ThrowIfNull(powerShell);
_powerShell = powerShell;
if ((context.CurrentCommandProcessor != null) &&
 (context.CurrentCommandProcessor.CommandRuntime != null) &&
 (context.CurrentCommandProcessor.CommandRuntime.PipelineProcessor != null) &&
 (context.CurrentCommandProcessor.CommandRuntime.PipelineProcessor.LocalPipeline != null))
 {
 _eventHandler = new EventHandler<PipelineStateEventArgs>(LocalPipeline_StateChanged);
 _pipeline = context.CurrentCommandProcessor.CommandRuntime.PipelineProcessor.LocalPipeline;
 _pipeline.StateChanged += _eventHandler;
 }
 }
private void LocalPipeline_StateChanged(object sender, PipelineStateEventArgs e)
 {
 if ((e.PipelineStateInfo.State == PipelineState.Stopping) &&
 (_powerShell.InvocationStateInfo.State == PSInvocationState.Running))
 {
 _powerShell.Stop();
 }
 }
private bool _isDisposed;
public void Dispose()
 {
 if (!_isDisposed)
 {
 if (_eventHandler != null)
 {
 _pipeline.StateChanged -= _eventHandler;
 _eventHandler = null;
 }
GC.SuppressFinalize(this);
 _isDisposed = true;
 }
 }
 }
}