// Copyright (c) Microsoft Corporation.
// Licensed under the MIT License.
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Diagnostics.Tracing;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Management.Automation.Host;
using System.Management.Automation.Internal;
using System.Management.Automation.Runspaces;
using System.Security;
using Microsoft.PowerShell.Commands;
using Microsoft.Win32;
using Dbg = System.Management.Automation.Diagnostics;
namespace System.Management.Automation
{
///
/// EventArgs for the ScriptCmdletVariableUpdate event.
///
public class CommandLookupEventArgs : EventArgs
{
///
/// Constructor for event args object.
///
/// The name of the command we're searching for.
/// The origin of the command internal or runspace (external).
/// The execution context for this command.
internal CommandLookupEventArgs(string commandName, CommandOrigin commandOrigin, ExecutionContext context)
{
CommandName = commandName;
CommandOrigin = commandOrigin;
_context = context;
}
private readonly ExecutionContext _context;
///
/// The name of the command we're looking for.
///
public string CommandName { get; }
///
/// The origin of the command internal or runspace (external)
///
public CommandOrigin CommandOrigin { get; }
///
/// If true on return from event handler, the search is stopped.
///
public bool StopSearch { get; set; }
///
/// The CommandInfo object for the command that was found.
///
public CommandInfo Command { get; set; }
///
/// Scriptblock to be returned as the found command. If it is set to
/// null, then the command to return and the StopSearch flag will be reset.
///
public ScriptBlock CommandScriptBlock
{
get
{
return _scriptBlock;
}
set
{
_scriptBlock = value;
if (_scriptBlock != null)
{
string dynamicName = "LookupHandlerReplacementFor<<" + CommandName + ">>";
Command = new FunctionInfo(dynamicName, _scriptBlock, _context);
StopSearch = true;
}
else
{
Command = null;
StopSearch = false;
}
}
}
private ScriptBlock _scriptBlock;
}
///
/// Defines the preference options for the Module Auto-loading feature.
///
public enum PSModuleAutoLoadingPreference
{
///
/// Do not auto-load modules when a command is not found.
///
None = 0,
///
/// Only auto-load modules when a command is not found, and the command
/// is module-qualified.
///
ModuleQualified = 1,
///
/// Auto-load modules when a command is not found.
///
All = 2
}
///
/// CommandDiscovery...
///
internal class CommandDiscovery
{
[TraceSource("CommandDiscovery", "Traces the discovery of cmdlets, scripts, functions, applications, etc.")]
internal static readonly PSTraceSource discoveryTracer =
PSTraceSource.GetTracer(
"CommandDiscovery",
"Traces the discovery of cmdlets, scripts, functions, applications, etc.",
false);
#region ctor
///
/// Default constructor...
///
///
/// If is null.
///
internal CommandDiscovery(ExecutionContext context)
{
if (context == null)
{
throw PSTraceSource.NewArgumentNullException(nameof(context));
}
Context = context;
discoveryTracer.ShowHeaders = false;
}
///
/// Determines if the cmdlet is a cmdlet that shouldn't be in the discovery list.
///
///
/// Type implementing the cmdlet
///
///
/// True if the cmdlet is a special cmdlet that shouldn't be part of the discovery list. Or false otherwise.
///
private static bool IsSpecialCmdlet(Type implementingType)
{
// These commands should never be put in the discovery list. They are an internal implementation
// detail of the formatting and output component. That component uses these cmdlets by creating
// an instance of the CommandProcessor class directly.
return implementingType == typeof(OutLineOutputCommand) || implementingType == typeof(FormatDefaultCommand);
}
private CmdletInfo NewCmdletInfo(SessionStateCmdletEntry entry)
{
return NewCmdletInfo(entry, Context);
}
internal static CmdletInfo NewCmdletInfo(SessionStateCmdletEntry entry, ExecutionContext context)
{
CmdletInfo ci = new CmdletInfo(entry.Name, entry.ImplementingType, entry.HelpFileName, entry.PSSnapIn, context)
{
Visibility = entry.Visibility,
Module = entry.Module
};
return ci;
}
internal static AliasInfo NewAliasInfo(SessionStateAliasEntry entry, ExecutionContext context)
{
AliasInfo ci = new AliasInfo(entry.Name, entry.Definition, context, entry.Options)
{
Visibility = entry.Visibility,
Module = entry.Module
};
return ci;
}
///
/// Adds the CmdletInfo to the cmdlet cache in the current scope object.
///
///
/// The name of the cmdlet to add.
///
///
/// The CmdletInfo to add.
///
///
/// If true, the cmdlet is added to the Module Scope of the session state.
///
///
/// If a cmdlet with the same module and cmdlet name already exists
/// but has a different implementing type.
///
internal CmdletInfo AddCmdletInfoToCache(string name, CmdletInfo newCmdletInfo, bool isGlobal)
{
if (string.IsNullOrEmpty(name))
{
throw PSTraceSource.NewArgumentException(nameof(name));
}
if (newCmdletInfo == null)
{
throw PSTraceSource.NewArgumentNullException("cmdlet");
}
if (isGlobal)
{
// When cmdlet cache was not scope-based, we used to import cmdlets to the module scope.
// We need to do the same as the default action (setting "isGlobal" is done as a default action in the caller)
return Context.EngineSessionState.ModuleScope.AddCmdletToCache(newCmdletInfo.Name, newCmdletInfo, CommandOrigin.Internal, Context);
}
return Context.EngineSessionState.CurrentScope.AddCmdletToCache(newCmdletInfo.Name, newCmdletInfo, CommandOrigin.Internal, Context);
}
///
/// Add a SessionStateCmdletEntry to the cmdlet cache...
///
///
internal void AddSessionStateCmdletEntryToCache(SessionStateCmdletEntry entry)
{
AddSessionStateCmdletEntryToCache(entry, /*local*/false);
}
///
/// Add a SessionStateCmdletEntry to the cmdlet cache...
///
///
///
internal void AddSessionStateCmdletEntryToCache(SessionStateCmdletEntry entry, bool local)
{
if (!IsSpecialCmdlet(entry.ImplementingType))
{
CmdletInfo nci = NewCmdletInfo(entry);
AddCmdletInfoToCache(nci.Name, nci, !local);
}
}
#endregion ctor
#region internal methods
///
/// Look up a command named by the argument string and return its CommandProcessorBase.
///
///
/// The command name to lookup.
///
/// Location where the command was dispatched from.
///
/// True if command processor should use local scope to execute the command,
/// False if not. Null if command discovery should default to something reasonable
/// for the command discovered.
///
///
/// True if this for parameter completion and script requirements should be ignored.
///
///
///
///
/// If the command, , could not be found.
///
///
/// If the security manager is preventing the command from running.
///
internal CommandProcessorBase LookupCommandProcessor(string commandName,
CommandOrigin commandOrigin, bool? useLocalScope, bool forCompletion = false)
{
CommandProcessorBase processor = null;
CommandInfo commandInfo = LookupCommandInfo(commandName, commandOrigin);
if (commandInfo != null)
{
processor = LookupCommandProcessor(commandInfo, commandOrigin, useLocalScope, null, forCompletion);
// commandInfo.Name might be different than commandName - restore the original invocation name
processor.Command.MyInvocation.InvocationName = commandName;
}
return processor;
}
internal static void VerifyRequiredModules(ExternalScriptInfo scriptInfo, ExecutionContext context, bool forCompletion = false)
{
// Check Required Modules
if (scriptInfo.RequiresModules != null)
{
foreach (var requiredModule in scriptInfo.RequiresModules)
{
ErrorRecord error = null;
ModuleCmdletBase.LoadRequiredModule(
context: context,
currentModule: null,
requiredModuleSpecification: requiredModule,
moduleManifestPath: null,
manifestProcessingFlags: ModuleCmdletBase.ManifestProcessingFlags.LoadElements | ModuleCmdletBase.ManifestProcessingFlags.WriteErrors,
error: out error);
if (!forCompletion && error is not null)
{
ScriptRequiresException scriptRequiresException =
new ScriptRequiresException(
scriptInfo.Name,
new Collection { requiredModule.GetRequiredModuleNotFoundVersionMessage() },
"ScriptRequiresMissingModules",
false,
error);
throw scriptRequiresException;
}
}
}
}
private CommandProcessorBase CreateScriptProcessorForSingleShell(ExternalScriptInfo scriptInfo, ExecutionContext context, bool useLocalScope, SessionStateInternal sessionState, bool forCompletion = false)
{
VerifyScriptRequirements(scriptInfo, Context, forCompletion);
if (!string.IsNullOrEmpty(scriptInfo.RequiresApplicationID))
{
ScriptRequiresException sre =
new ScriptRequiresException(
scriptInfo.Name,
string.Empty,
string.Empty,
"RequiresShellIDInvalidForSingleShell");
throw sre;
}
return CreateCommandProcessorForScript(scriptInfo, Context, useLocalScope, sessionState);
}
// This method verifies the following 3 elements of #Requires statement
// #Requires -RunAsAdministrator
// #Requires -PSVersion
// #Requires -PSEdition
// #Requires -Module
internal static void VerifyScriptRequirements(ExternalScriptInfo scriptInfo, ExecutionContext context, bool forCompletion = false)
{
// When completing script parameters we don't care if these requirements are met.
// VerifyRequiredModules will attempt to load the required modules which is useful for completion (so the correct types are loaded).
if (!forCompletion)
{
VerifyElevatedPrivileges(scriptInfo);
VerifyPSVersion(scriptInfo);
VerifyPSEdition(scriptInfo);
}
VerifyRequiredModules(scriptInfo, context, forCompletion);
}
internal static void VerifyPSVersion(ExternalScriptInfo scriptInfo)
{
Version requiresPSVersion = scriptInfo.RequiresPSVersion;
// in single shell mode
if (requiresPSVersion != null)
{
if (!PSVersionInfo.IsValidPSVersion(requiresPSVersion))
{
ScriptRequiresException scriptRequiresException =
new ScriptRequiresException(
scriptInfo.Name,
requiresPSVersion,
PSVersionInfo.PSVersion.ToString(),
"ScriptRequiresUnmatchedPSVersion");
throw scriptRequiresException;
}
}
}
internal static void VerifyPSEdition(ExternalScriptInfo scriptInfo)
{
if (scriptInfo.RequiresPSEditions != null)
{
var isCurrentEditionListed = false;
var isRequiresPSEditionSpecified = false;
foreach (var edition in scriptInfo.RequiresPSEditions)
{
isRequiresPSEditionSpecified = true;
isCurrentEditionListed = Utils.IsPSEditionSupported(edition);
if (isCurrentEditionListed)
{
break;
}
}
// Throw an error if required PowerShell editions are specified and without the current PowerShell Edition.
//
if (isRequiresPSEditionSpecified && !isCurrentEditionListed)
{
var specifiedEditionsString = string.Join(',', scriptInfo.RequiresPSEditions);
var message = StringUtil.Format(DiscoveryExceptions.RequiresPSEditionNotCompatible,
scriptInfo.Name,
specifiedEditionsString,
PSVersionInfo.PSEditionValue);
var ex = new RuntimeException(message);
ex.SetErrorId("ScriptRequiresUnmatchedPSEdition");
ex.SetTargetObject(scriptInfo.Name);
throw ex;
}
}
}
internal static void VerifyElevatedPrivileges(ExternalScriptInfo scriptInfo)
{
bool requiresElevation = scriptInfo.RequiresElevation;
bool isAdministrator = Utils.IsAdministrator();
if (requiresElevation && !isAdministrator)
{
ScriptRequiresException scriptRequiresException =
new ScriptRequiresException(
scriptInfo.Name,
"ScriptRequiresElevation");
throw scriptRequiresException;
}
}
///
/// Look up a command using a CommandInfo object and return its CommandProcessorBase.
///
///
/// The commandInfo for the command to lookup.
///
/// Location where the command was dispatched from.
///
/// True if command processor should use local scope to execute the command,
/// False if not. Null if command discovery should default to something reasonable
/// for the command discovered.
///
///
/// True if this for parameter completion and script requirements should be ignored.
///
/// The session state the commandInfo should be run in.
///
///
///
/// If the command, , could not be found.
///
///
/// If the security manager is preventing the command from running.
///
internal CommandProcessorBase LookupCommandProcessor(CommandInfo commandInfo,
CommandOrigin commandOrigin, bool? useLocalScope, SessionStateInternal sessionState, bool forCompletion = false)
{
CommandProcessorBase processor = null;
HashSet processedAliases = new HashSet(StringComparer.OrdinalIgnoreCase);
while (commandInfo.CommandType == CommandTypes.Alias &&
(!processedAliases.Contains(commandInfo.Name)) &&
(commandOrigin == CommandOrigin.Internal || commandInfo.Visibility == SessionStateEntryVisibility.Public))
{
processedAliases.Add(commandInfo.Name);
AliasInfo aliasCommandInfo = (AliasInfo)commandInfo;
commandInfo = aliasCommandInfo.ResolvedCommand ??
LookupCommandInfo(aliasCommandInfo.Definition, commandOrigin, Context);
// If we didn't have the alias target already resolved, see if it can be loaded.
if (commandInfo == null)
{
CommandNotFoundException e =
new CommandNotFoundException(
aliasCommandInfo.Name,
null,
"AliasNotResolvedException",
DiscoveryExceptions.AliasNotResolvedException,
aliasCommandInfo.UnresolvedCommandName);
throw e;
}
}
ShouldRun(Context, Context.EngineHostInterface, commandInfo, commandOrigin);
switch (commandInfo.CommandType)
{
case CommandTypes.Application:
processor = new NativeCommandProcessor((ApplicationInfo)commandInfo, Context);
break;
case CommandTypes.Cmdlet:
processor = new CommandProcessor((CmdletInfo)commandInfo, Context);
break;
case CommandTypes.ExternalScript:
ExternalScriptInfo scriptInfo = (ExternalScriptInfo)commandInfo;
scriptInfo.SignatureChecked = true;
try
{
processor = CreateScriptProcessorForSingleShell(scriptInfo, Context, useLocalScope ?? true, sessionState, forCompletion);
}
catch (ScriptRequiresSyntaxException reqSyntaxException)
{
CommandNotFoundException e =
new CommandNotFoundException(reqSyntaxException.Message, reqSyntaxException);
throw e;
}
break;
case CommandTypes.Filter:
case CommandTypes.Function:
case CommandTypes.Configuration:
FunctionInfo functionInfo = (FunctionInfo)commandInfo;
processor = CreateCommandProcessorForScript(functionInfo, Context, useLocalScope ?? true, sessionState);
break;
case CommandTypes.Script:
processor = CreateCommandProcessorForScript((ScriptInfo)commandInfo, Context, useLocalScope ?? true, sessionState);
break;
case CommandTypes.Alias:
default:
{
CommandNotFoundException e =
new CommandNotFoundException(
commandInfo.Name,
null,
"CommandNotFoundException",
DiscoveryExceptions.CommandNotFoundException);
throw e;
}
}
// Set the internal command origin member on the command object at this point...
processor.Command.CommandOriginInternal = commandOrigin;
processor.Command.MyInvocation.InvocationName = commandInfo.Name;
return processor;
}
internal static void ShouldRun(ExecutionContext context, PSHost host, CommandInfo commandInfo, CommandOrigin commandOrigin)
{
// ShouldRunInternal throws PSSecurityException if run is not allowed
try
{
if (commandOrigin == CommandOrigin.Runspace && commandInfo.Visibility != SessionStateEntryVisibility.Public)
{
CommandNotFoundException e = new CommandNotFoundException(
commandInfo.Name, null, "CommandNotFoundException", DiscoveryExceptions.CommandNotFoundException);
throw e;
}
context.AuthorizationManager.ShouldRunInternal(commandInfo, commandOrigin, host);
}
catch (PSSecurityException reason)
{
MshLog.LogCommandHealthEvent(context,
reason,
Severity.Warning);
MshLog.LogCommandLifecycleEvent(context,
CommandState.Terminated,
commandInfo.Name);
throw;
}
}
private static CommandProcessorBase CreateCommandProcessorForScript(ScriptInfo scriptInfo, ExecutionContext context, bool useNewScope, SessionStateInternal sessionState)
{
sessionState ??= scriptInfo.ScriptBlock.SessionStateInternal ?? context.EngineSessionState;
CommandProcessorBase scriptAsCmdletProcessor = GetScriptAsCmdletProcessor(scriptInfo, context, useNewScope, true, sessionState);
if (scriptAsCmdletProcessor != null)
{
return scriptAsCmdletProcessor;
}
return new DlrScriptCommandProcessor(scriptInfo, context, useNewScope, sessionState);
}
private static CommandProcessorBase CreateCommandProcessorForScript(ExternalScriptInfo scriptInfo, ExecutionContext context, bool useNewScope, SessionStateInternal sessionState)
{
sessionState ??= scriptInfo.ScriptBlock.SessionStateInternal ?? context.EngineSessionState;
CommandProcessorBase scriptAsCmdletProcessor = GetScriptAsCmdletProcessor(scriptInfo, context, useNewScope, true, sessionState);
if (scriptAsCmdletProcessor != null)
{
return scriptAsCmdletProcessor;
}
return new DlrScriptCommandProcessor(scriptInfo, context, useNewScope, sessionState);
}
internal static CommandProcessorBase CreateCommandProcessorForScript(FunctionInfo functionInfo, ExecutionContext context, bool useNewScope, SessionStateInternal sessionState)
{
sessionState ??= functionInfo.ScriptBlock.SessionStateInternal ?? context.EngineSessionState;
CommandProcessorBase scriptAsCmdletProcessor = GetScriptAsCmdletProcessor(functionInfo, context, useNewScope, false, sessionState);
if (scriptAsCmdletProcessor != null)
{
return scriptAsCmdletProcessor;
}
return new DlrScriptCommandProcessor(functionInfo, context, useNewScope, sessionState);
}
internal static CommandProcessorBase CreateCommandProcessorForScript(ScriptBlock scriptblock, ExecutionContext context, bool useNewScope, SessionStateInternal sessionState)
{
sessionState ??= scriptblock.SessionStateInternal ?? context.EngineSessionState;
if (scriptblock.UsesCmdletBinding)
{
FunctionInfo fi = new FunctionInfo(string.Empty, scriptblock, context);
return GetScriptAsCmdletProcessor(fi, context, useNewScope, false, sessionState);
}
return new DlrScriptCommandProcessor(scriptblock, context, useNewScope, CommandOrigin.Internal, sessionState);
}
private static CommandProcessorBase GetScriptAsCmdletProcessor(IScriptCommandInfo scriptCommandInfo, ExecutionContext context, bool useNewScope, bool fromScriptFile, SessionStateInternal sessionState)
{
if (scriptCommandInfo.ScriptBlock == null || !scriptCommandInfo.ScriptBlock.UsesCmdletBinding)
{
return null;
}
sessionState ??= scriptCommandInfo.ScriptBlock.SessionStateInternal ?? context.EngineSessionState;
return new CommandProcessor(scriptCommandInfo, context, useNewScope, fromScriptFile, sessionState);
}
///
/// Look up a command and return its CommandInfo.
///
///
/// The command name to lookup.
///
///
/// An instance of a CommandInfo object that represents the
/// command. If the command is resolved as an alias, an AliasInfo
/// is returned with the ReferencedCommand info intact.
///
///
/// If the command, , could not be found.
///
internal CommandInfo LookupCommandInfo(string commandName)
{
return LookupCommandInfo(commandName, CommandOrigin.Internal);
}
internal CommandInfo LookupCommandInfo(string commandName, CommandOrigin commandOrigin)
{
return LookupCommandInfo(commandName, commandOrigin, Context);
}
internal static CommandInfo LookupCommandInfo(string commandName, CommandOrigin commandOrigin, ExecutionContext context)
{
return LookupCommandInfo(commandName, CommandTypes.All, SearchResolutionOptions.ResolveLiteralThenPathPatterns, commandOrigin, context);
}
internal static CommandInfo LookupCommandInfo(
string commandName,
CommandTypes commandTypes,
SearchResolutionOptions searchResolutionOptions,
CommandOrigin commandOrigin,
ExecutionContext context)
{
if (string.IsNullOrEmpty(commandName))
{
return null;
}
bool etwEnabled = CommandDiscoveryEventSource.Log.IsEnabled();
if (etwEnabled) CommandDiscoveryEventSource.Log.CommandLookupStart(commandName);
CommandInfo result = null;
string originalCommandName = commandName;
Exception lastError = null;
// Check to see if there is a pre-search look-up event handler...
CommandLookupEventArgs eventArgs = null;
EventHandler preCommandLookupEvent = context.EngineIntrinsics.InvokeCommand.PreCommandLookupAction;
if (preCommandLookupEvent != null)
{
discoveryTracer.WriteLine("Executing PreCommandLookupAction: {0}", commandName);
try
{
context.CommandDiscovery.RegisterLookupCommandInfoAction("ActivePreLookup", originalCommandName);
eventArgs = new CommandLookupEventArgs(originalCommandName, commandOrigin, context);
preCommandLookupEvent.Invoke(originalCommandName, eventArgs);
discoveryTracer.WriteLine("PreCommandLookupAction returned: {0}", eventArgs.Command);
}
catch (Exception)
{
}
finally { context.CommandDiscovery.UnregisterLookupCommandInfoAction("ActivePreLookup", commandName); }
}
// Check the module auto-loading preference
PSModuleAutoLoadingPreference moduleAutoLoadingPreference = GetCommandDiscoveryPreference(context, SpecialVariables.PSModuleAutoLoadingPreferenceVarPath, "PSModuleAutoLoadingPreference");
if (eventArgs == null || !eventArgs.StopSearch)
{
do
{
discoveryTracer.WriteLine("Looking up command: {0}", commandName);
// Use the CommandSearcher to find the first command. If there are duplicate
// command names, then take the first one...
result = TryNormalSearch(commandName, context, commandOrigin, searchResolutionOptions, commandTypes, ref lastError);
if (result != null)
break;
// Try the module-qualified auto-loading (unless module auto-loading has been entirely disabled)
if (moduleAutoLoadingPreference != PSModuleAutoLoadingPreference.None)
{
result = TryModuleAutoLoading(commandName, context, originalCommandName, commandOrigin, ref lastError);
}
if (result != null)
break;
// See if the this was not module-qualified. In that case, we should look for the first module
// that contains the command and load that.
if (moduleAutoLoadingPreference == PSModuleAutoLoadingPreference.All)
{
result = TryModuleAutoDiscovery(commandName, context, originalCommandName, commandOrigin,
searchResolutionOptions, commandTypes, ref lastError);
}
// Otherwise, invoke the CommandNotFound handler
result ??= InvokeCommandNotFoundHandler(commandName, context, originalCommandName, commandOrigin);
} while (false);
}
else
{
if (eventArgs.Command != null)
{
result = eventArgs.Command;
}
}
// If we resolved a command, give the PostCommandLookup a chance to change it
if (result != null)
{
System.EventHandler postAction = context.EngineIntrinsics.InvokeCommand.PostCommandLookupAction;
if (postAction != null)
{
discoveryTracer.WriteLine("Executing PostCommandLookupAction: {0}", originalCommandName);
try
{
context.CommandDiscovery.RegisterLookupCommandInfoAction("ActivePostCommand", originalCommandName);
eventArgs = new CommandLookupEventArgs(originalCommandName, commandOrigin, context);
eventArgs.Command = result;
postAction.Invoke(originalCommandName, eventArgs);
if (eventArgs != null)
{
result = eventArgs.Command;
discoveryTracer.WriteLine("PreCommandLookupAction returned: {0}", eventArgs.Command);
}
}
catch (Exception)
{
}
finally
{
context.CommandDiscovery.UnregisterLookupCommandInfoAction("ActivePostCommand", originalCommandName);
}
}
}
// After all command lookup is done, throw a CommandNotFound if we have no result.
if (result == null)
{
discoveryTracer.TraceError(
"'{0}' is not recognized as a cmdlet, function, executable program or script file.",
commandName);
CommandNotFoundException e =
new CommandNotFoundException(
originalCommandName,
lastError,
"CommandNotFoundException",
DiscoveryExceptions.CommandNotFoundException);
throw e;
}
if (etwEnabled) CommandDiscoveryEventSource.Log.CommandLookupStop(commandName);
return result;
}
internal static void AutoloadModulesWithJobSourceAdapters(System.Management.Automation.ExecutionContext context, CommandOrigin commandOrigin)
{
/* This function is used by *-Job cmdlets (JobCmdletBase.BeginProcessing(), StartJobCommand.BeginProcessing())
It attempts to load modules from a fixed ModulesWithJobSourceAdapters list that currently has only `PSScheduledJob` module that is not PS-Core compatible.
Because this function does not check the result of a (currently failing) `PSScheduledJob` module autoload, it provides no value.
After discussion it was decided to comment out this code as it may be useful if ModulesWithJobSourceAdapters list changes in the future.
if (!context.IsModuleWithJobSourceAdapterLoaded)
{
PSModuleAutoLoadingPreference moduleAutoLoadingPreference = GetCommandDiscoveryPreference(context, SpecialVariables.PSModuleAutoLoadingPreferenceVarPath, "PSModuleAutoLoadingPreference");
if (moduleAutoLoadingPreference != PSModuleAutoLoadingPreference.None)
{
CmdletInfo cmdletInfo = context.SessionState.InvokeCommand.GetCmdlet("Microsoft.PowerShell.Core\\Import-Module");
if ((commandOrigin == CommandOrigin.Internal) ||
((cmdletInfo != null) && (cmdletInfo.Visibility == SessionStateEntryVisibility.Public)))
{
foreach (var module in System.Management.Automation.ExecutionContext.ModulesWithJobSourceAdapters)
{
List existingModule = context.Modules.GetModules(new string[] { module }, false);
if (existingModule == null || existingModule.Count == 0)
{
Exception unUsedException = null;
AutoloadSpecifiedModule(module, context, cmdletInfo.Visibility, out unUsedException);
}
}
context.IsModuleWithJobSourceAdapterLoaded = true;
}
}
}*/
}
internal static Collection AutoloadSpecifiedModule(string moduleName, ExecutionContext context, SessionStateEntryVisibility visibility, out Exception exception)
{
exception = null;
Collection matchingModules = null;
CommandInfo commandInfo = new CmdletInfo("Import-Module", typeof(ImportModuleCommand), null, null, context);
commandInfo.Visibility = visibility;
Command importModuleCommand = new Command(commandInfo);
discoveryTracer.WriteLine("Attempting to load module: {0}", moduleName);
PowerShell ps = null;
try
{
ps = PowerShell.Create(RunspaceMode.CurrentRunspace)
.AddCommand(importModuleCommand)
.AddParameter("Name", moduleName)
.AddParameter("Scope", StringLiterals.Global)
.AddParameter("PassThru")
.AddParameter("ErrorAction", ActionPreference.Ignore)
.AddParameter("WarningAction", ActionPreference.Ignore)
.AddParameter("InformationAction", ActionPreference.Ignore)
.AddParameter("Verbose", false)
.AddParameter("Debug", false);
matchingModules = (Collection)ps.Invoke();
}
catch (Exception e)
{
exception = e;
discoveryTracer.WriteLine("Encountered error importing module: {0}", e.Message);
// Call-out to user code, catch-all OK
}
return matchingModules;
}
private static CommandInfo InvokeCommandNotFoundHandler(string commandName, ExecutionContext context, string originalCommandName, CommandOrigin commandOrigin)
{
CommandInfo result = null;
CommandLookupEventArgs eventArgs;
System.EventHandler cmdNotFoundHandler = context.EngineIntrinsics.InvokeCommand.CommandNotFoundAction;
if (cmdNotFoundHandler != null)
{
discoveryTracer.WriteLine("Executing CommandNotFoundAction: {0}", commandName);
try
{
context.CommandDiscovery.RegisterLookupCommandInfoAction("ActiveCommandNotFound", originalCommandName);
eventArgs = new CommandLookupEventArgs(originalCommandName, commandOrigin, context);
cmdNotFoundHandler.Invoke(originalCommandName, eventArgs);
result = eventArgs.Command;
}
catch (Exception)
{
}
finally { context.CommandDiscovery.UnregisterLookupCommandInfoAction("ActiveCommandNotFound", originalCommandName); }
}
return result;
}
private static CommandInfo TryNormalSearch(string commandName,
ExecutionContext context,
CommandOrigin commandOrigin,
SearchResolutionOptions searchResolutionOptions,
CommandTypes commandTypes,
ref Exception lastError)
{
CommandInfo result = null;
CommandSearcher searcher =
new CommandSearcher(
commandName,
searchResolutionOptions,
commandTypes,
context);
searcher.CommandOrigin = commandOrigin;
try
{
if (!searcher.MoveNext())
{
if (!commandName.Contains('-') && !commandName.Contains('\\'))
{
discoveryTracer.WriteLine(
"The command [{0}] was not found, trying again with get- prepended",
commandName);
commandName = StringLiterals.DefaultCommandVerb + StringLiterals.CommandVerbNounSeparator + commandName;
try
{
result = LookupCommandInfo(commandName, commandTypes, searchResolutionOptions, commandOrigin, context);
}
catch (CommandNotFoundException) { }
}
}
else
{
result = ((IEnumerator)searcher).Current;
}
}
catch (ArgumentException argException)
{
lastError = argException;
}
catch (PathTooLongException pathTooLong)
{
lastError = pathTooLong;
}
catch (FileLoadException fileLoadException)
{
lastError = fileLoadException;
}
catch (FormatException formatException)
{
lastError = formatException;
}
catch (MetadataException metadataException)
{
lastError = metadataException;
}
return result;
}
private static CommandInfo TryModuleAutoDiscovery(string commandName,
ExecutionContext context,
string originalCommandName,
CommandOrigin commandOrigin,
SearchResolutionOptions searchResolutionOptions,
CommandTypes commandTypes,
ref Exception lastError)
{
bool etwEnabled = CommandDiscoveryEventSource.Log.IsEnabled();
if (etwEnabled) CommandDiscoveryEventSource.Log.ModuleAutoDiscoveryStart(commandName);
CommandInfo result = null;
try
{
// If commandName had a slash, it was module-qualified or path-qualified.
// In that case, we should not return anything (module-qualified is handled
// by the previous call to TryModuleAutoLoading().
int colonOrBackslash = commandName.AsSpan().IndexOfAny('\\', ':');
if (colonOrBackslash != -1)
return null;
CmdletInfo cmdletInfo = context.SessionState.InvokeCommand.GetCmdlet("Microsoft.PowerShell.Core\\Get-Module");
if (commandOrigin == CommandOrigin.Internal || cmdletInfo?.Visibility == SessionStateEntryVisibility.Public)
{
// Search for a module with a matching command, as long as the user would have the ability to
// import the module.
cmdletInfo = context.SessionState.InvokeCommand.GetCmdlet("Microsoft.PowerShell.Core\\Import-Module");
if (commandOrigin == CommandOrigin.Internal || cmdletInfo?.Visibility == SessionStateEntryVisibility.Public)
{
discoveryTracer.WriteLine("Executing non module-qualified search: {0}", commandName);
context.CommandDiscovery.RegisterLookupCommandInfoAction("ActiveModuleSearch", commandName);
// Get the available module files, preferring modules from $PSHOME so that user modules don't
// override system modules during auto-loading
if (etwEnabled) CommandDiscoveryEventSource.Log.SearchingForModuleFilesStart();
var defaultAvailableModuleFiles = ModuleUtils.GetDefaultAvailableModuleFiles(isForAutoDiscovery: true, context);
if (etwEnabled) CommandDiscoveryEventSource.Log.SearchingForModuleFilesStop();
foreach (string modulePath in defaultAvailableModuleFiles)
{
// WinBlue:69141 - We need to get the full path here because the module path might be C:\Users\User1\DOCUME~1
// While the exportedCommands are cached, they are cached with the full path
string expandedModulePath = Path.GetFullPath(modulePath);
string moduleShortName = Path.GetFileNameWithoutExtension(expandedModulePath);
var exportedCommands = AnalysisCache.GetExportedCommands(expandedModulePath, false, context);
if (exportedCommands == null) { continue; }
// Skip if module only has class or other types and no commands.
if (exportedCommands.TryGetValue(commandName, out CommandTypes exportedCommandTypes))
{
discoveryTracer.WriteLine("Found in module: {0}", expandedModulePath);
Collection matchingModule = AutoloadSpecifiedModule(
expandedModulePath,
context,
cmdletInfo != null ? cmdletInfo.Visibility : SessionStateEntryVisibility.Private,
out lastError);
if (matchingModule is null || matchingModule.Count == 0)
{
string errorMessage = lastError is null
? StringUtil.Format(DiscoveryExceptions.CouldNotAutoImportMatchingModule, commandName, moduleShortName)
: StringUtil.Format(DiscoveryExceptions.CouldNotAutoImportMatchingModuleWithErrorMessage, commandName, moduleShortName, lastError.Message);
throw new CommandNotFoundException(
originalCommandName,
lastError,
"CouldNotAutoloadMatchingModule",
errorMessage);
}
result = LookupCommandInfo(commandName, commandTypes, searchResolutionOptions, commandOrigin, context);
}
if (result != null)
{
break;
}
}
#if !CORECLR
// Close the progress pane that may have popped up from analyzing UNC paths.
if (context.CurrentCommandProcessor != null)
{
ProgressRecord analysisProgress = new ProgressRecord(0, Modules.ScriptAnalysisPreparing, " ");
analysisProgress.RecordType = ProgressRecordType.Completed;
context.CurrentCommandProcessor.CommandRuntime.WriteProgress(analysisProgress);
}
#endif
}
}
}
catch (CommandNotFoundException) { throw; }
catch (Exception)
{
}
finally
{
context.CommandDiscovery.UnregisterLookupCommandInfoAction("ActiveModuleSearch", commandName);
}
if (etwEnabled) CommandDiscoveryEventSource.Log.ModuleAutoDiscoveryStop(commandName);
return result;
}
private static CommandInfo TryModuleAutoLoading(string commandName, ExecutionContext context, string originalCommandName, CommandOrigin commandOrigin, ref Exception lastError)
{
CommandInfo result = null;
// If commandName was module-qualified. In that case, we should load the module.
var colonOrBackslash = commandName.AsSpan().IndexOfAny('\\', ':');
// If we don't see '\', there is no module specified, so no module to load.
// If we see ':' before '\', then we probably have a drive qualified path, not a module name
if (colonOrBackslash == -1 || commandName[colonOrBackslash] == ':')
return null;
string moduleCommandName = commandName.Substring(colonOrBackslash + 1, commandName.Length - colonOrBackslash - 1);
string moduleName;
// Now we check if there exists the second '\'
var secondBackslash = moduleCommandName.IndexOf('\\');
if (secondBackslash == -1)
{
moduleName = commandName.Substring(0, colonOrBackslash);
}
else
{
string versionString = moduleCommandName.Substring(0, secondBackslash);
// The second '\' could be version specified. eg: "Microsoft.PowerShell.Archive\1.0.0.0\Compress-Archive", we need to support this scenario
Version version;
if (Version.TryParse(versionString, out version))
{
moduleCommandName = moduleCommandName.Substring(secondBackslash + 1, moduleCommandName.Length - secondBackslash - 1);
moduleName = commandName.Substring(0, colonOrBackslash) + "\\" + versionString + "\\" + commandName.Substring(0, colonOrBackslash) + ".psd1";
}
else
{
moduleName = commandName.Substring(0, colonOrBackslash);
}
}
if (string.IsNullOrEmpty(moduleName) || string.IsNullOrEmpty(moduleCommandName) || moduleName.EndsWith('.'))
return null;
bool etwEnabled = CommandDiscoveryEventSource.Log.IsEnabled();
if (etwEnabled) CommandDiscoveryEventSource.Log.ModuleAutoLoadingStart(commandName);
try
{
discoveryTracer.WriteLine("Executing module-qualified search: {0}", commandName);
context.CommandDiscovery.RegisterLookupCommandInfoAction("ActiveModuleSearch", commandName);
// Verify that auto-loading is only done on for internal commands if it's not public
CmdletInfo cmdletInfo = context.SessionState.InvokeCommand.GetCmdlet("Microsoft.PowerShell.Core\\Import-Module");
if ((commandOrigin == CommandOrigin.Internal) ||
((cmdletInfo != null) && (cmdletInfo.Visibility == SessionStateEntryVisibility.Public)))
{
List existingModule = context.Modules.GetModules(new string[] { moduleName }, false);
PSModuleInfo discoveredModule = null;
if (existingModule == null || existingModule.Count == 0)
{
discoveryTracer.WriteLine("Attempting to load module: {0}", moduleName);
Exception exception;
Collection importedModule = AutoloadSpecifiedModule(moduleName, context, cmdletInfo.Visibility, out exception);
lastError = exception;
if ((importedModule == null) || (importedModule.Count == 0))
{
string error = StringUtil.Format(DiscoveryExceptions.CouldNotAutoImportModule, moduleName);
CommandNotFoundException commandNotFound = new CommandNotFoundException(
originalCommandName,
lastError,
"CouldNotAutoLoadModule",
error);
throw commandNotFound;
}
discoveredModule = importedModule[0];
}
else
{
discoveredModule = existingModule[0];
}
CommandInfo exportedResult;
if (discoveredModule.ExportedCommands.TryGetValue(moduleCommandName, out exportedResult))
{
// Return the command if we found a module
result = exportedResult;
}
}
}
catch (CommandNotFoundException) { throw; }
catch (Exception)
{
}
finally { context.CommandDiscovery.UnregisterLookupCommandInfoAction("ActiveModuleSearch", commandName); }
if (etwEnabled) CommandDiscoveryEventSource.Log.ModuleAutoLoadingStop(commandName);
return result;
}
internal void RegisterLookupCommandInfoAction(string currentAction, string command)
{
HashSet currentActionSet = null;
switch (currentAction)
{
case "ActivePreLookup": currentActionSet = _activePreLookup; break;
case "ActiveModuleSearch": currentActionSet = _activeModuleSearch; break;
case "ActiveCommandNotFound": currentActionSet = _activeCommandNotFound; break;
case "ActivePostCommand": currentActionSet = _activePostCommand; break;
}
if (!currentActionSet.Add(command))
throw new InvalidOperationException();
}
internal void UnregisterLookupCommandInfoAction(string currentAction, string command)
{
HashSet currentActionSet = null;
switch (currentAction)
{
case "ActivePreLookup": currentActionSet = _activePreLookup; break;
case "ActiveModuleSearch": currentActionSet = _activeModuleSearch; break;
case "ActiveCommandNotFound": currentActionSet = _activeCommandNotFound; break;
case "ActivePostCommand": currentActionSet = _activePostCommand; break;
}
currentActionSet.Remove(command);
}
private readonly HashSet _activePreLookup = new HashSet(StringComparer.OrdinalIgnoreCase);
private readonly HashSet _activeModuleSearch = new HashSet(StringComparer.OrdinalIgnoreCase);
private readonly HashSet _activeCommandNotFound = new HashSet(StringComparer.OrdinalIgnoreCase);
private readonly HashSet _activePostCommand = new HashSet(StringComparer.OrdinalIgnoreCase);
///
/// Gets the resolved paths contained in the PATH environment
/// variable.
///
///
/// The contents of the PATH environment variable split on System.IO.Path.PathSeparator.
///
///
/// The result is an ordered list of paths with paths starting with "." unresolved until lookup time.
///
internal LookupPathCollection GetLookupDirectoryPaths()
{
LookupPathCollection result = new LookupPathCollection();
string path = Environment.GetEnvironmentVariable("PATH");
discoveryTracer.WriteLine(
"PATH: {0}",
path);
bool isPathCacheValid =
path != null &&
string.Equals(_pathCacheKey, path, StringComparison.OrdinalIgnoreCase) &&
_cachedPath != null;
if (!isPathCacheValid)
{
// Reset the cached lookup paths
_cachedLookupPaths = null;
// Tokenize the path and cache it
_pathCacheKey = path;
if (_pathCacheKey != null)
{
string[] tokenizedPath = _pathCacheKey.Split(Path.PathSeparator, StringSplitOptions.RemoveEmptyEntries);
_cachedPath = new Collection();
foreach (string directory in tokenizedPath)
{
string tempDir = directory.TrimStart();
if (tempDir.EqualsOrdinalIgnoreCase("~"))
{
tempDir = Environment.GetFolderPath(
Environment.SpecialFolder.UserProfile,
Environment.SpecialFolderOption.DoNotVerify);
}
else if (tempDir.StartsWith("~" + Path.DirectorySeparatorChar))
{
tempDir = Environment.GetFolderPath(
Environment.SpecialFolder.UserProfile,
Environment.SpecialFolderOption.DoNotVerify)
+ Path.DirectorySeparatorChar
+ tempDir.Substring(2);
}
_cachedPath.Add(tempDir);
result.Add(tempDir);
}
}
}
else
{
result.AddRange(_cachedPath);
}
// Cache the new lookup paths
return _cachedLookupPaths ??= result;
}
///
/// The cached list of lookup paths. It can be invalidated by
/// the PATH changing.
///
private LookupPathCollection _cachedLookupPaths;
///
/// The key that determines if the cached PATH can be used.
///
private string _pathCacheKey;
///
/// The cache of the tokenized PATH directories.
///
private Collection _cachedPath;
#endregion internal members
#region environment variable helpers
///
/// Gets the PATHEXT environment variable extensions and tokenizes them.
///
internal static string[] PathExtensionsWithPs1Prepended
{
get
{
var pathExt = Environment.GetEnvironmentVariable("PATHEXT");
if (!string.Equals(pathExt, s_pathExtCacheKey, StringComparison.OrdinalIgnoreCase) ||
s_cachedPathExtCollection == null)
{
InitPathExtCache(pathExt);
}
return s_cachedPathExtCollectionWithPs1;
}
}
///
/// Gets the PATHEXT environment variable extensions and tokenizes them.
///
internal static string[] PathExtensions
{
get
{
var pathExt = Environment.GetEnvironmentVariable("PATHEXT");
if (!string.Equals(pathExt, s_pathExtCacheKey, StringComparison.OrdinalIgnoreCase) ||
s_cachedPathExtCollection == null)
{
InitPathExtCache(pathExt);
}
return s_cachedPathExtCollection;
}
}
private static void InitPathExtCache(string pathExt)
{
lock (s_lockObject)
{
s_cachedPathExtCollection = pathExt != null
? pathExt.ToLower().Split(Path.PathSeparator, StringSplitOptions.RemoveEmptyEntries)
: Array.Empty();
s_cachedPathExtCollectionWithPs1 = new string[s_cachedPathExtCollection.Length + 1];
s_cachedPathExtCollectionWithPs1[0] = StringLiterals.PowerShellScriptFileExtension;
Array.Copy(s_cachedPathExtCollection, 0, s_cachedPathExtCollectionWithPs1, 1, s_cachedPathExtCollection.Length);
s_pathExtCacheKey = pathExt;
}
}
#endregion environment variable helpers
#region private members
private static readonly object s_lockObject = new object();
private static string s_pathExtCacheKey;
private static string[] s_cachedPathExtCollection;
private static string[] s_cachedPathExtCollectionWithPs1;
///
/// Gets the cmdlet information for the specified name.
///
///
/// The name of the cmdlet to return the information for.
///
///
/// True if we should search all scopes, false if we should stop after finding the first.
///
///
/// The CmdletInfo for the cmdlet for all the cmdlets with the specified name.
///
///
/// If is null or empty.
///
internal IEnumerator GetCmdletInfo(string cmdletName, bool searchAllScopes)
{
Dbg.Assert(!string.IsNullOrEmpty(cmdletName), "Caller should verify the cmdletName");
PSSnapinQualifiedName commandName = PSSnapinQualifiedName.GetInstance(cmdletName);
if (commandName == null)
{
yield break;
}
// Check the current cmdlet cache then check the top level
// if we aren't already at the top level.
SessionStateScopeEnumerator scopeEnumerator =
new SessionStateScopeEnumerator(Context.EngineSessionState.CurrentScope);
foreach (SessionStateScope scope in scopeEnumerator)
{
List cmdlets;
if (!scope.CmdletTable.TryGetValue(commandName.ShortName, out cmdlets))
{
continue;
}
foreach (var cmdletInfo in cmdlets)
{
if (!string.IsNullOrEmpty(commandName.PSSnapInName))
{
if (string.Equals(cmdletInfo.ModuleName, commandName.PSSnapInName, StringComparison.OrdinalIgnoreCase))
{
yield return cmdletInfo;
if (!searchAllScopes)
{
yield break;
}
}
// The engine cmdlets get imported (via Import-Module) once when PowerShell starts and the cmdletInfo is added to PSSnapinHelpers._cmdletcache(static) with ModuleName
// as "System.Management.Automation.dll" instead of the actual snapin name. The next time we load something in an InitialSessionState, we look at this _cmdletcache and
// if the assembly is already loaded, we just return the cmdlets back. So, the CmdletInfo has moduleName has "System.Management.Automation.dll". So, when M3P Activity
// tries to access Microsoft.PowerShell.Core\\Get-Command, it cannot. So, adding an additional check to return the correct cmdletInfo for cmdlets from core modules.
else if (InitialSessionState.IsEngineModule(cmdletInfo.ModuleName))
{
if (string.Equals(
cmdletInfo.ModuleName,
InitialSessionState.GetNestedModuleDllName(commandName.PSSnapInName),
StringComparison.OrdinalIgnoreCase))
{
yield return cmdletInfo;
if (!searchAllScopes)
{
yield break;
}
}
}
}
else
{
yield return cmdletInfo;
if (!searchAllScopes)
{
yield break;
}
}
}
}
}
internal ExecutionContext Context { get; }
internal static PSModuleAutoLoadingPreference GetCommandDiscoveryPreference(ExecutionContext context, VariablePath variablePath, string environmentVariable)
{
Dbg.Assert(context != null, "context cannot be Null");
Dbg.Assert(variablePath != null, "variablePath must be non empty");
Dbg.Assert(!string.IsNullOrEmpty(environmentVariable), "environmentVariable must be non empty");
if (context == null)
{
throw PSTraceSource.NewArgumentNullException(nameof(context));
}
// check the PSVariable
object result = context.GetVariableValue(variablePath);
try
{
if (result != null)
{
return LanguagePrimitives.ConvertTo(result);
}
// check the environment variable
string psEnvironmentVariable = Environment.GetEnvironmentVariable(environmentVariable);
if (!string.IsNullOrEmpty(psEnvironmentVariable))
{
return LanguagePrimitives.ConvertTo(psEnvironmentVariable);
}
}
catch (Exception)
{
return PSModuleAutoLoadingPreference.All;
}
return PSModuleAutoLoadingPreference.All;
}
#endregion
}
///
/// A helper collection of strings that doesn't allow duplicate strings. Comparison
/// is case-insensitive and done in the invariant culture.
///
internal class LookupPathCollection : Collection
{
///
/// Default constructor.
///
internal LookupPathCollection() : base() { }
///
/// Constructs a LookupPathCollection object and adds all the items
/// in the supplied collection to it.
///
///
/// A set of items to be added to the collection.
///
internal LookupPathCollection(IEnumerable collection) : base()
{
foreach (string item in collection)
{
Add(item);
}
}
///
/// Adds the specified string to the collection if its not already
/// a member of the collection.
///
///
/// The string to add to the collection.
///
///
/// The index at which the string was added or -1 if it was not added.
///
public new int Add(string item)
{
int result = -1;
if (!Contains(item))
{
base.Add(item);
result = base.IndexOf(item);
}
return result;
}
///
/// Adds all the strings in the specified collection to this collection.
///
///
/// The collection of strings to add.
///
///
/// Only the strings that are not already in the collection will be added.
///
internal void AddRange(ICollection collection)
{
foreach (string name in collection)
{
Add(name);
}
}
///
/// Determines if the string already exists in the collection
/// using a invariant culture case insensitive comparison.
///
///
/// The string to check for existence.
///
///
/// True if the string already exists in the collection.
///
public new bool Contains(string item)
{
bool result = false;
foreach (string name in this)
{
if (string.Equals(item, name, StringComparison.OrdinalIgnoreCase))
{
result = true;
break;
}
}
return result;
}
///
/// Returns a collection of all the indexes that are relative paths.
///
///
/// A collection of all the indexes that are relative paths.
///
internal Collection IndexOfRelativePath()
{
Collection result = new Collection();
for (int index = 0; index < this.Count; ++index)
{
string path = this[index];
if (!string.IsNullOrEmpty(path) &&
path.StartsWith('.'))
{
result.Add(index);
}
}
return result;
}
///
/// Finds the first index of the specified string. The string
/// is compared in the invariant culture using a case-insensitive comparison.
///
///
/// The string to look for.
///
///
/// The index of the string in the collection or -1 if it was not found.
///
///
/// If is null or empty.
///
public new int IndexOf(string item)
{
if (string.IsNullOrEmpty(item))
{
throw PSTraceSource.NewArgumentException(nameof(item));
}
int result = -1;
for (int index = 0; index < this.Count; ++index)
{
if (string.Equals(this[index], item, StringComparison.OrdinalIgnoreCase))
{
result = index;
break;
}
}
return result;
}
}
// Guid is {ea9e8155-5042-5537-0b73-8c0e6b53f398}
[EventSource(Name = "Microsoft-PowerShell-CommandDiscovery")]
internal class CommandDiscoveryEventSource : EventSource
{
internal static readonly CommandDiscoveryEventSource Log = new CommandDiscoveryEventSource();
public void CommandLookupStart(string CommandName) { WriteEvent(1, CommandName); }
public void CommandLookupStop(string CommandName) { WriteEvent(2, CommandName); }
public void ModuleAutoLoadingStart(string CommandName) { WriteEvent(3, CommandName); }
public void ModuleAutoLoadingStop(string CommandName) { WriteEvent(4, CommandName); }
public void ModuleAutoDiscoveryStart(string CommandName) { WriteEvent(5, CommandName); }
public void ModuleAutoDiscoveryStop(string CommandName) { WriteEvent(6, CommandName); }
public void SearchingForModuleFilesStart() { WriteEvent(7); }
public void SearchingForModuleFilesStop() { WriteEvent(8); }
public void GetModuleExportedCommandsStart(string ModulePath) { WriteEvent(9, ModulePath); }
public void GetModuleExportedCommandsStop(string ModulePath) { WriteEvent(10, ModulePath); }
public void ModuleManifestAnalysisResult(string ModulePath, bool Success) { WriteEvent(11, ModulePath, Success); }
public void ModuleManifestAnalysisException(string ModulePath, string Exception) { WriteEvent(12, ModulePath, Exception); }
}
}