Modules/Carbon.ScheduledTasks/1.0.0/Modules/Carbon.Security/1.0.0/Modules/PureInvoke/1.0.0/PureInvoke.psm1
# Copyright WebMD Health Services # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License using namespace PureInvoke using namespace PureInvoke.LsaLookup using namespace PureInvoke.WinNT using namespace System.ComponentModel using namespace System.Runtime.InteropServices using namespace System.Security.Principal using namespace System.Text #Requires -Version 5.1 Set-StrictMode -Version 'Latest' # Functions should use $script:moduleRoot as the relative root from which to find # things. A published module has its function appended to this file, while a # module in development has its functions in the Functions directory. $script:moduleRoot = $PSScriptRoot # There could be multiple PureInvoke.dll assemblies loaded. $pureInvokeDllPath = Join-Path -Path $script:moduleRoot -ChildPath 'bin\PureInvoke.dll' -Resolve $pureInvokeDll = [AppDomain]::CurrentDomain.GetAssemblies() | Where-Object 'Location' -EQ $pureInvokeDllPath $pureInvokeTypes = $pureInvokeDll.GetTypes() $script:advApi32 = $pureInvokeTypes | Where-Object 'Name' -EQ 'AdvApi32' $script:kernel32 = $pureInvokeTypes | Where-Object 'Name' -EQ 'Kernel32' # Constants [IntPtr] $script:invalidHandle = -1 $script:maxPath = 65535 enum PureInvoke_ErrorCode { Ok = 0x000 NERR_Success = 0x000 Success = 0x000 InvalidFunction = 0x001 FileNotFound = 0x002 AccessDenied = 0x005 InvalidHandle = 0x006 HandleEof = 0x026 # 38 InvalidParameter = 0x057 # 87 InsufficientBuffer = 0x07A # 122 AlreadyExists = 0x0B7 # 183 EnvVarNotFound = 0x0cb # 203 MoreData = 0x0ea # 234 NoMoreItems = 0x103 # 259 InvalidFlags = 0x3EC # 1004 ServiceMarkedForDelete = 0x430 # 1072 NoneMapped = 0x534 # 1332 MemberNotInAlias = 0x561 # 1377 MemberInAlias = 0x562 # 1378 NoSuchMember = 0x56B # 1387 InvalidMember = 0x56C # 1388 NERR_GroupNotFound = 0x8AC # 2220 } [Flags()] enum PureInvoke_LsaLookup_PolicyAccessRights { LocalInformation = 0x1 AuditInformation = 0x2 GetPrivateInformation = 0x4 TrustAdmin = 0x8 CreateAccount = 0x10 CreateSecret = 0x20 CreatePrivilege = 0x40 SetQuotaDefaultLimits = 0x80 SetAuditRequirements = 0x100 AuditLogAdmin = 0x200 ServerAdmin = 0x400 LookupNames = 0x800 Notification = 0x1000 } # Store each of your module's functions in its own file in the Functions # directory. On the build server, your module's functions will be appended to # this file, so only dot-source files that exist on the file system. This allows # developers to work on a module without having to build it first. Grab all the # functions that are in their own files. $functionsPath = Join-Path -Path $script:moduleRoot -ChildPath 'Functions\*.ps1' if( (Test-Path -Path $functionsPath) ) { foreach( $functionPath in (Get-Item $functionsPath) ) { . $functionPath.FullName } } function Assert-NTStatusSuccess { [CmdletBinding()] param( [UInt32] $Status, [String] $Message ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState # https://learn.microsoft.com/en-us/windows-hardware/drivers/kernel/using-ntstatus-values if ($Status -le 0x3FFFFFFF -or ($Status -ge 0x40000000 -and $Status -le 0x7FFFFFFF)) { return $true } $win32Err = Invoke-AdvApiLsaNtStatusToWinError -Status $ntstatus Write-Win32Error -ErrorCode $win32Err -Message $Message return $false } function Assert-Win32Error { [CmdletBinding()] param( [Parameter(Mandatory)] [int] $ErrorCode, [String] $Message ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState if ($ErrorCode -eq [PureInvoke_ErrorCode]::Ok) { return $true } Write-Win32Error -ErrorCode $ErrorCode -Message $Message return $false } function ConvertTo-IntPtr { [CmdletBinding()] param( [Parameter(Mandatory, ParameterSetName='SecurityIdentifier')] [SecurityIdentifier] $Sid, [Parameter(Mandatory, ParameterSetName='LUID')] [LUID] $LUID ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState if ($Sid) { $sidBytes = [byte[]]::New($Sid.BinaryLength) $sid.GetBinaryForm($sidBytes, 0); $sidPtr = [Marshal]::AllocHGlobal($sidBytes.Length) [Marshal]::Copy($sidBytes, 0, $sidPtr, $sidBytes.Length) return $sidPtr } if ($LUID) { $size = [Marshal]::SizeOf($LUID) $luidPtr = [Marshal]::AllocHGlobal($size) $lowBytes = [BitConverter]::GetBytes($LUID.LowPart) [Marshal]::Copy($lowBytes, 0, $luidPtr, $lowBytes.Length) $highBytes = [BitConverter]::GetBytes($LUID.HighPart) [Marshal]::Copy($highBytes, 0, [IntPtr]::Add($luidPtr, $lowBytes.Length), $highBytes.Length) return $luidPtr } } function ConvertTo-LsaUnicodeString { [CmdletBinding()] param( [Parameter(Mandatory, ValueFromPipeline)] [String] $InputObject ) process { Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState [LSA_UNICODE_STRING]::New($InputObject) | Write-Output } } function Invoke-AdvApiLookupAccountName { <# .SYNOPSIS Calls the Advanced Windows 32 Base API (advapi32.dll) `LookupAccountName` function. .DESCRIPTION The `Invoke-AdvApiLookupAccountName` function calls the advapi32.dll API's `LookupAccountName` function, which looks up an account name and returns its domain, SID, and use. Pass the account name to the `AccountName` parameter and the system name to the `ComputerName` parameter, which are passed to `LookupAccountName` as the `lpAccountName` and `lpSystemName` arguments, respectively. The function returns an object with properties for each of the `LookupAccountName` function's out parameters: `DomainName`, `Sid`, and `Use`. .LINK https://learn.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-lookupaccountnamea .EXAMPLE Invoke-AdvApiLookupAccountName -AccountName ([Environment]::UserName) Demonstrates how to call this function by passing a username to the `AccountName` parameter. #> [CmdletBinding()] param( # The account name to lookup. [Parameter(Mandatory)] [String] $AccountName, # The name of the system. [String] $ComputerName ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState [byte[]] $sid = [byte[]]::New(0); # cb = count of bytes [UInt32] $cbSid = 0; [StringBuilder] $sbDomainName = [StringBuilder]::New() # cch = count of chars [UInt32] $cchDomainName = $sbDomainName.Capacity; [SidNameUse] $sidNameUse = [SidNameUse]::Unknown; $result = $script:advapi32::LookupAccountName($ComputerName, $AccountName, $sid, [ref] $cbSid, $sbDomainName, [ref] $cchDomainName, [ref]$sidNameUse) $errCode = [Marshal]::GetLastWin32Error() if (-not $result) { if ($errCode -eq [PureInvoke_ErrorCode]::InsufficientBuffer -or ` $errCode -eq [PureInvoke_ErrorCode]::InvalidFlags) { $sid = [byte[]]::New($cbSid); [void]$sbDomainName.EnsureCapacity([int]$cchDomainName); $result = $script:advapi32::LookupAccountName($ComputerName, $AccountName, $sid, [ref] $cbSid, $sbDomainName, [ref] $cchDomainName, [ref] $sidNameUse) $errCode = [Marshal]::GetLastWin32Error() } if (-not $result -and -not (Assert-Win32Error -ErrorCode $errCode)) { return } } return [pscustomobject]@{ DomainName = $sbDomainName.ToString(); Sid = $sid Use = $sidNameUse } } function Invoke-AdvApiLookupAccountSid { <# .SYNOPSIS Calls the Advanced Windows 32 Base API (advapi32.dll) `LookupAccountSid` function. .DESCRIPTION The `Invoke-AdvApiLookupAccountSid` function calls the advapi32.dll API's `LookupAccountSid` function, which looks up a SID and returns its account name, domain name, and use. Pass the SID as a byte array to the `Sid` parameter and the system name to the `ComputerName` parameter, which are passed to `LookupAccountSid` as the `Sid` and `lpSystemName` arguments, respectively. The function returns an object with properties for each of the `LookupAccountSid` function's out parameters: `Name`, `ReferencedDomainName`, and `Use`. .LINK https://learn.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-lookupaccountsida .EXAMPLE Invoke-AdvApiLookupAccountSid -Sid $sid Demonstrates how to call this function by passing a sid to the `Sid` parameter. #> [CmdletBinding()] param( # The security identifier whose account to lookup. [Parameter(Mandatory)] [byte[]] $Sid, # The computer's name on which to lookup the SID. Defaults to the current computer. Passed to the # `LookupAccountSid` method's `SystemName` parameter. [String] $ComputerName ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState [StringBuilder] $name = [StringBuilder]::New() # cch = count of chars [UInt32] $cchName = $name.Capacity; [StringBuilder] $domainName = [StringBuilder]::New() [UInt32] $cchDomainName = $domainName.Capacity; [SidNameUse] $sidNameUse = [SidNameUse]::Unknown; $result = $script:advapi32::LookupAccountSid($ComputerName, $sid, $name, [ref] $cchName, $domainName, [ref] $cchDomainName, [ref] $sidNameUse) $errCode = [Marshal]::GetLastWin32Error() if (-not $result) { if ($errCode -eq [PureInvoke_ErrorCode]::InsufficientBuffer) { [void]$name.EnsureCapacity($cchName); [void]$domainName.EnsureCapacity($cchName); $result = $script:advapi32::LookupAccountSid($ComputerName, $sid, $name, [ref] $cchName, $domainName, [ref] $cchDomainName, [ref] $sidNameUse) $errCode = [Marshal]::GetLastWin32Error() } if (-not $result -and -not (Assert-Win32Error -ErrorCode $errCode)) { return } } return [pscustomobject]@{ Name = $name.ToString(); DomainName = $domainName.ToString(); Use = $sidNameUse; } } function Invoke-AdvApiLookupPrivilegeName { <# .SYNOPSIS Calls the advapi32.dll library's `LookupPrivilegeName` function to lookup a privilege name from its local unique identifier. .DESCRIPTION The `Invoke-AdvApiLookupPrivilegeName` function calls the advapi32.dll library's `LookupPrivilegeName` function to lookup a privilege name from its local unique identifier. Pass the privilege's LUID to the `LUID` parameter. If the privilege exists, its name is returned. Otherwise nothing is returned and an error is written. .EXAMPLE Invoke-AdvapiLookupPrivilegeName -Luid $luid Demonstrates how to call this function. #> [CmdletBinding()] param( [Parameter(Mandatory)] [LUID] $LUID, [String] $ComputerName ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $sbName = [StringBuilder]::New(1) $nameLength = $sbName.Capacity $ptrLuid = ConvertTo-IntPtr -LUID $LUID try { $result = $script:advApi32::LookupPrivilegeName($ComputerName, $ptrLuid, $sbName, [ref] $nameLength) $errCode = [Marshal]::GetLastWin32Error() if (-not $result) { if ($errCode -eq [PureInvoke_ErrorCode]::InsufficientBuffer) { [void]$sbName.EnsureCapacity($nameLength) $result = $script:advApi32::LookupPrivilegeName($ComputerName, $ptrLuid, $sbName, [ref] $nameLength) $errCode = [Marshal]::GetLastWin32Error() } if (-not $result -and -not (Assert-Win32Error -ErrorCode $errCode)) { return } } return $sbName.ToString() } finally { [Marshal]::FreeHGlobal($ptrLuid) } } function Invoke-AdvApiLookupPrivilegeValue { <# .SYNOPSIS Calls the advapi32.dll library's `LookupPrivilegeValue` function to lookup a privilege's local unique identifier. .DESCRIPTION The `Invoke-AdvApiLookupPrivilegeValue` function calls the advapi32.dll library's `LookupPrivilegeValue` function to lookup a privilege's LUID from its name. Pass the privilege's name to the `Name` parameter. If the privilege exists, its LUID is returned. Otherwise nothing is returned and an error is written. Privilege names are case-sensitive. Also, privilege names *do not* include account rights, even though the names look similar. The following [known account rights](https://learn.microsoft.com/en-us/windows/win32/secauthz/account-rights-constants) are not supported by `LookupPrivilegeValue`: * SeBatchLogonRight * SeDenyBatchLogonRight * SeDenyInteractiveLogonRight * SeDenyNetworkLogonRight * SeDenyRemoteInteractiveLogonRight * SeDenyServiceLogonRight * SeInteractiveLogonRight * SeNetworkLogonRight * SeRemoteInteractiveLogonRight * SeServiceLogonRight * SeUnsolicitedInputPrivilege .EXAMPLE Invoke-AdvapiLookupPrivilegeName -Name SeDebugPrivilege Demonstrates how to call this function. #> [CmdletBinding()] param( [Parameter(Mandatory)] [String] $Name, [String] $ComputerName ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState [LUID] $luid = [LUID]::New() $result = $script:advApi32::LookupPrivilegeValue($ComputerName, $Name, [ref] $luid) $errCode = [Marshal]::GetLastWin32Error() if (-not $result -and -not (Assert-Win32Error -ErrorCode $errCode)) { return } return $luid } function Invoke-AdvApiLsaAddAccountRights { <# .SYNOPSIS Calls the advapi32.dll library's `LsaAddAccountRights` function. .DESCRIPTION The `Invoke-AdvApiLsaAddAccountRights` function calls the advapi32.dll `LsaAddAccountRights` function. Pass a policy handle to the `PolicyHandle` parameter (use `Invoke-AdvApiLsaOpenPolicy` to create a policy handle), the security identifier for the account receiving rights to the `Sid` parameter, and a list of privileges/rights to add to the `Privilege` parameter. The account is granted the given rights. If the call succeeds, returns `$true`. Otherwise, returns `$false` and an error is written. .EXAMPLE Invoke-AdvApiLsaAddAccountRights -PolicyHandle $handle -Sid $sid -Privilege 'SeBatchLogonRight' Demonstrates how to call `Invoke-AdvApiLsaAddAccountRights`. #> [CmdletBinding()] param( # A handle to the policy. Use `Invoke-AdvApiLsaOpenPolicy` to get a handle. When opening the handle to add # account rights, you must use `LookupNames` and `CreateAccount` to the desired access. [Parameter(Mandatory)] [IntPtr] $PolicyHandle, # The account security identifier receiving the rights/privileges. [Parameter(Mandatory)] [SecurityIdentifier] $Sid, # The list of privileges to add. [Parameter(Mandatory)] [String[]] $Privilege ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $sidPtr = ConvertTo-IntPtr -Sid $Sid [LSA_UNICODE_STRING[]] $lsaPrivs = $Privilege | ConvertTo-LsaUnicodeString try { $ntstatus = $script:advApi32::LsaAddAccountRights($PolicyHandle, $sidPtr, $lsaPrivs, $lsaPrivs.Length) Assert-NTStatusSuccess -Status $ntstatus -Message 'LsaAddAccountRights failed' } finally { [Marshal]::FreeHGlobal($sidPtr) } } function Invoke-AdvApiLsaClose { <# .SYNOPSIS Calls the advapi32.dll library's `LsaClose` method to close an LSA policy handle. .DESCRIPTION The `Invoke-AdvApiLsaClose` function calls the advapi32.dll library's `LsaClose` method to close an LSA policy handle that was created with `Invoke-AdvApiLsaOpenPolicy`. Pass the policy handle to the `PolicyHandle` parameter. The function closes the policy and returns `$true` if the close succeeded. If the close fails, returns `$false` and writes an error. Closing a handle more than once may result in a process crash. After closing a handle, it is recommended to set it to `[IntPtr]::Zero` as a precaution. This function will ignore a policy handle set to `[IntPtr]::Zero`. .EXAMPLE Invoke-AdvApiLsaClose -PolicyHandle $handle Demonstrates how to call `Invoke-AdvApiLsaClose`. #> [CmdletBinding()] param( # The policy handle to close. Use `Invoke-AdvApiLsaOpenPolicy` to create policy handles. [Parameter(Mandatory)] [IntPtr] $PolicyHandle ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState if ($PolicyHandle -eq [IntPtr]::Zero) { return $true } $ntstatus = $script:advApi32::LsaClose($PolicyHandle) Assert-NTStatusSuccess -Status $ntstatus -Message 'Invoke-AdvApiLsaClose failed' } function Invoke-AdvApiLsaEnumerateAccountRights { <# .SYNOPSIS Calls the advapi32.dll assembly's `LsaEnumerateAccountRights` function to get the list of an account's rights/privileges. .DESCRIPTION The `Invoke-AdvApiLsaEnumerateAccountRights` function calls the advapi32.dll assembly's `LsaEnumerateAccountRights` function to get the list of an account's rights/privileges. Pass a handle to the LSA policy to the `PolicyHandle` parameter (use `Invoke-AdvApiLsaOpenPolicy` to create a policy handle). Pass the security identifier for the account to the `Sid` parameter. The account's rights are returned. If the account has no rights, then nothing is returned. If getting the account's rights fails, nothing is returned and the function writes an error. In order to read an account's rights, the policy must be opened with the `LookupNames` access right. .EXAMPLE Invoke-AdvApiLsaEnumerateAccountRights -PolicyHandle $handle -Sid $sid Demonstrates how to call `Invoke-AdvApiLsaEnumerateAccountRights` #> [CmdletBinding()] param( # A policy handle. Use `Invoke-AdvApiLsaOpenPolicy` to get a handle. When opening the handle to get account # rights, you must request `LookupNames` access. [Parameter(Mandatory)] [IntPtr] $PolicyHandle, # The security identifier of the account whose rights/privileges to get. [Parameter(Mandatory)] [SecurityIdentifier] $Sid ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $sidPtr = ConvertTo-IntPtr -Sid $Sid [IntPtr] $rightsPtr = [IntPtr]::Zero try { [UInt32] $rightsCount = 0 $ntstatus = $script:advApi32::LsaEnumerateAccountRights($PolicyHandle, $sidPtr, [ref] $rightsPtr, [ref] $rightsCount) $win32Err = Invoke-AdvApiLsaNtStatusToWinError -Status $ntstatus if ($win32Err -eq [PureInvoke_ErrorCode]::FileNotFound) { return } if (-not (Assert-NtStatusSuccess -Status $ntstatus -Message 'Invoke-AdvApiLsaEnumerateAccountRights failed')) { return } [LSA_UNICODE_STRING[]] $lsaPrivs = [LSA_UNICODE_STRING]::PtrToLsaUnicodeStrings($rightsPtr, $rightsCount) foreach ($lsaPriv in $lsaPrivs) { $lsaPrivLength = $lsaPriv.Length/[Text.UnicodeEncoding]::CharSize $cvt = [char[]]::New($lsaPrivLength) [Marshal]::Copy($lsaPriv.Buffer, $cvt, 0, $lsaPrivLength); [String]::New($cvt) | Write-Output } } finally { Invoke-AdvApiLsaFreeMemory -Handle $rightsPtr | Out-Null [Marshal]::FreeHGlobal($sidPtr) } } function Invoke-AdvApiLsaFreeMemory { <# .SYNOPSIS Calls the advapi32.dll library's `LsaFreeMemory` function. .DESCRIPTION The `Invoke-AdvApiLsaFreeMemory` function calls the advapi32.dll library's `LsaFreeMemory` function. Pass the pointer whose memory to free to the `Handle` parameter. If the operation succeeds, the function returns `$true`, otherwise it returns `$false` and writes an error. .EXAMPLE Invoke-AdvApiLsaFreeMemory -Handle $rightsPtr Demonstrates how to call `Invoke-AdvApiLsaFreeMemory`. #> [CmdletBinding()] param( # The handle whose memory should be freed. [Parameter(Mandatory)] [IntPtr] $Handle ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $ntstatus = $script:advApi32::LsaFreeMemory($Handle) Assert-NTStatusSuccess -Status $ntstatus -Message 'Invoke-AdvApiLsaFreeMemory failed' } function Invoke-AdvApiLsaNtStatusToWinError { <# .SYNOPSIS Calls the advapi32.dll library's `LsaNtStatusToWinError` function to convert an NTSTATUS error code into a Win32 error code. .DESCRIPTION The `Invoke-AdvApiLsaNtStatusToWinError` function calls the advapi32.dll library's `LsaNtStatusToWinError` function to convert an NTSTATUS error code into a Win32 error code. Pass the NTSTATUS code to the `Status` parameter. The equivalent Win32 error code is returned. .EXAMPLE Invoke-AdvApiLsaNtStatusToWinError -Status $ntstatus #> [CmdletBinding()] param( [Parameter(Mandatory)] [UInt32] $Status ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState return $script:advApi32::LsaNtStatusToWinError($Status) } function Invoke-AdvApiLsaOpenPolicy { <# .SYNOPSIS Calls the advapi32.dll library's `LsaOpenPolicy` function to open a handle to a computer's LSA policy. .DESCRIPTION The `Invoke-AdvApiLsaOpenPolicy` function calls the advapi32.dll library's `LsaOpenPolicy` function to open a handle to a computer's LSA policy. Pass the desired access to the `DesiredAccess` parameter. The function returns a handle to the policy if opening succeeds or, if opening fails, returns nothing and writes an error. You can open the LSA policy on a different computer by passing the computer's name to the `ComputerName` parameter. .EXAMPLE Invoke-AdvApiLsaOpenPolicy -DesiredAccess LookupNames,CreateAccount Demonstrates how to open a policy handle that allows reading and setting privileges. #> [CmdletBinding()] param( # The desired access for the policy handle. See the documentation for the LSA function/method the policy will # be used with to discover what rights are needed. [Parameter(Mandatory)] [PureInvoke_LsaLookup_PolicyAccessRights[]] $DesiredAccess, # The optional computer name whose LSA policy to open. The default is the local computer. [String] $ComputerName, # The value of the `LsaOpenPolicy` method's `ObjectAttribute` parameter. [LSA_OBJECT_ATTRIBUTES] $ObjectAttribute ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $lsaSystemName = [LSA_UNICODE_STRING]::New([Environment]::MachineName) if ($ComputerName) { $lsaSystemName = [LSA_UNICODE_STRING]::New($ComputerName) } if (-not $ObjectAttribute) { $ObjectAttribute = [LSA_OBJECT_ATTRIBUTES]::New() $ObjectAttribute.Length = 0 $ObjectAttribute.RootDirectory = [IntPtr]::Zero $ObjectAttribute.Attributes = 0 $ObjectAttribute.SecurityDescriptor = [IntPtr]::Zero $ObjectAttribute.SecurityQualityOfService = [IntPtr]::Zero } $policyHandle = [IntPtr]::Zero $accessMask = 0x0 $DesiredAccess | ForEach-Object { $accessMask = $accessMask -bor $_ } $ntstatus = $script:advApi32::LsaOpenPolicy([ref] $lsaSystemName, [ref] $ObjectAttribute, $accessMask, [ref] $policyHandle) if (-not (Assert-NtStatusSuccess -Status $ntstatus -Message "Invoke-AdvApiLsaOpenPolicy failed")) { return } return $policyHandle } function Invoke-AdvApiLsaRemoveAccountRights { <# .SYNOPSIS Calls the advapi32.dll library's `LsaRemoveAccountRights` method which removes rights/privileges for an account. .DESCRIPTION The `Invoke-AdvApiLsaRemoveAccountRights` function calls the advapi32.dll library's `LsaRemoveAccountRights` method which removes rights/privileges for an account. Pass the LSA policy handle to the `PolicyHandle` parameter. Pass the security identifier for the account to the `Sid` parameter. To remove *all* of the account's rights, use the `All` switch. Otherwise, pass the specific rights to remove to the `Privilege` parameter. If the removal succeeds, the function returns `$true`, otherwise it returns `$false` and writes an error. In order to remove rights, the policy must be opened with the `LookupNames` access right. .EXAMPLE Invoke-AdvApiLsaRemoveAccountRights -PolicyHandle $handle -Sid $sid -All Demonstrates how to remove all of an account's privileges. .EXAMPLE Invoke-AdvApiLsaRemoveAccountRights -PolicyHandle $handle -Sid $sid -Privilege 'SeBatchLogonRight' Demonstrates how to remove a specific prilevege for an account. #> [CmdletBinding()] param( # A policy handle. Use `Invoke-AdvApiLsaOpenPolicy` to get a handle. When opening the handle to remove account # rights, you must request `LookupNames` access. [Parameter(Mandatory)] [IntPtr] $PolicyHandle, # The security identifier of the account whose rights/privileges to remove. [Parameter(Mandatory)] [SecurityIdentifier] $Sid, # If set, removes all of the account's privileges. [Parameter(Mandatory, ParameterSetName='All')] [switch] $All, # A list of the account's specific privileges to remove. [Parameter(Mandatory, ParameterSetName='Specific')] [String[]] $Privilege ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $sidPtr = ConvertTo-IntPtr -Sid $Sid try { if ($All) { $ntstatus = $script:advApi32::LsaRemoveAccountRights($PolicyHandle, $sidPtr, $true, [LSA_UNICODE_STRING[]]::New(0), 0) } else { [LSA_UNICODE_STRING[]] $lsaPrivs = $Privilege | ConvertTo-LsaUnicodeString $ntstatus = $script:advApi32::LsaRemoveAccountRights($PolicyHandle, $sidPtr, $false, $lsaPrivs, $lsaPrivs.Length) } $winErr = Invoke-AdvApiLsaNtStatusToWinError -Status $ntstatus if ($winErr -eq [PureInvoke_ErrorCode]::FileNotFound) { return $true } Assert-NTStatusSuccess -Status $ntstatus -Message 'LsaRemoveAccountRights failed' } finally { [Marshal]::FreeHGlobal($sidPtr) } } function Invoke-KernelFindFileName { <# .SYNOPSIS Calls the Win32 `FindFirstFileNameW` and `FindNextFileNameW` functions to get the hardlinks to a file. .DESCRIPTION The `Invoke-KernelFindFileName` function finds all the hardlinks to a file. It calls the Win32 `FindFirstFileNameW` and `FindNextFileNameW` functions to get the paths. It returns the path to each hardlink, which includes the path to the file itself. The paths are returned *without* drive qualifiers at the beginning. Since hardlinks can't cross physical file systems, their drives will be the same as the source path. .LINK https://learn.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-findfirstfilenamew .LINK https://learn.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-findnextfilenamew .EXAMPLE Invoke-KernelFindFileName -Path 'C:\link.txt' Demonstrates how to get the hardlinks to a file by passing its path to the `Invoke-KernelFindFileName` function's `Path` parameter. #> [CmdletBinding()] param( # The path to the file. [Parameter(Mandatory)] [String] $Path ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState [PureInvoke_ErrorCode] $errCode = [PureInvoke_ErrorCode]::Ok # Loop over and collect all hard links as their full paths. [IntPtr]$findHandle = [IntPtr]::Zero [StringBuilder] $sbLinkName = [Text.StringBuilder]::New() [UInt32] $cchLinkName = $sbLinkName.Capacity $findHandle = $script:kernel32::FindFirstFileNameW($Path, 0, [ref]$cchLinkName, $sbLinkName) $errCode = [Marshal]::GetLastWin32Error() Write-Debug "[Kernel32]::FindFirstFileNameW(""${Path}"", 0, ${cchLinkName}, ""${sbLinkName}"") return ${findHandle} GetLastError() ${errCode}" if ($script:invalidHandle -eq $findHandle) { if ($errCode -eq [PureInvoke_ErrorCode]::MoreData) { [void]$sbLinkName.EnsureCapacity($cchLinkName) $findHandle = $script:kernel32::FindFirstFileNameW($Path, 0, [ref]$cchLinkName, $sbLinkName) $errCode = [Marshal]::GetLastWin32Error() Write-Debug "[Kernel32]::FindFirstFileNameW(""${Path}"", 0, ${cchLinkName}, ""${sbLinkName}"")) return ${findHandle} GetLastError() ${errCode}" if ($script:invalidHandle -eq $findHandle) { Write-Win32Error -ErrorCode $errCode return } } else { Write-Win32Error -ErrorCode $errCode return } } $linkName = $sbLinkName.ToString() if (-not $linkName) { Write-Win32Error -ErrorCode $errCode return } $linkName | Write-Output try { do { [void]$sbLinkName.Clear() $result = $script:kernel32::FindNextFileNameW($findHandle, [ref]$cchLinkName, $sbLinkName) $errCode = [Marshal]::GetLastWin32Error() Write-Debug "[Kernel32]::FindNextFileNameW(${findHandle}, ${cchLinkName}, ""${sbLinkName}"")) return ${result} GetLastError() ${errCode}" if (-not $result -and $errCode -eq [PureInvoke_ErrorCode]::MoreData) { [void]$sbLinkName.EnsureCapacity($cchLinkName) $result = $script:kernel32::FindNextFileNameW($findHandle, [ref]$cchLinkName, $sbLinkName) $errCode = [Marshal]::GetLastWin32Error() Write-Debug "[Kernel32]::FindNextFileNameW(${findHandle}, ${cchLinkName}, ""${sbLinkName}"")) return ${result} GetLastError() ${errCode}" } if ($result) { $linkName = $sbLinkName.ToString() if (-not $linkName) { Write-Win32Error -ErrorCode $errCode return } $linkName | Write-Output continue } if ($errCode -eq [PureInvoke_ErrorCode]::HandleEof) { return } if($errCode -eq [PureInvoke_ErrorCode]::InvalidHandle) { $msg = 'No matching files found.' Write-Error -Message $msg -ErrorAction $ErrorActionPreference return } Write-Win32Error -ErrorCode $errCode return } while ($true) } finally { [void]$script:kernel32::FindClose($findHandle); } } function Invoke-KernelGetVolumePathName { <# .SYNOPSIS Calls the kernel32.dll libary's `GetVolumePathName` function. .DESCRIPTION The `Invoke-KernelGetVolumePathName` function calls the kernel32.dll libary's `GetVolumePathName` function which gets the volume mount point of the path. Pass the path to the `Path` parameter. .EXAMPLE Invoke-KernelGetVolumePathName -Path $path Demonstrates how to call this function. #> [CmdletBinding()] param( # The path whose volume mount point to get. [Parameter(Mandatory)] [String] $Path ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $sbPath = [StringBuilder]::New($script:maxPath) $cchPath = [UInt32]$sbPath.Capacity # in/out character-count variable for the WinAPI calls. $result = $script:kernel32::GetVolumePathName($Path, $sbPath, $cchPath) $errCode = [Marshal]::GetLastWin32Error() $msg = "[Kernel32]::GetVolumePathName(""${Path}"", [out] ""${sbPath}"", ${cchPath}) return ${result} " + "GetLastError() ${errCode}" Write-Debug $msg if (-not $result -and -not (Assert-Win32Error -ErrorCode $errCode)) { return } return $sbPath.ToString() } function Use-CallerPreference { <# .SYNOPSIS Sets the PowerShell preference variables in a module's function based on the callers preferences. .DESCRIPTION Script module functions do not automatically inherit their caller's variables, including preferences set by common parameters. This means if you call a script with switches like `-Verbose` or `-WhatIf`, those that parameter don't get passed into any function that belongs to a module. When used in a module function, `Use-CallerPreference` will grab the value of these common parameters used by the function's caller: * ErrorAction * Debug * Confirm * InformationAction * Verbose * WarningAction * WhatIf This function should be used in a module's function to grab the caller's preference variables so the caller doesn't have to explicitly pass common parameters to the module function. This function is adapted from the [`Get-CallerPreference` function written by David Wyatt](https://gallery.technet.microsoft.com/scriptcenter/Inherit-Preference-82343b9d). There is currently a [bug in PowerShell](https://connect.microsoft.com/PowerShell/Feedback/Details/763621) that causes an error when `ErrorAction` is implicitly set to `Ignore`. If you use this function, you'll need to add explicit `-ErrorAction $ErrorActionPreference` to every `Write-Error` call. Please vote up this issue so it can get fixed. .LINK about_Preference_Variables .LINK about_CommonParameters .LINK https://gallery.technet.microsoft.com/scriptcenter/Inherit-Preference-82343b9d .LINK http://powershell.org/wp/2014/01/13/getting-your-script-module-functions-to-inherit-preference-variables-from-the-caller/ .EXAMPLE Use-CallerPreference -Cmdlet $PSCmdlet -SessionState $ExecutionContext.SessionState Demonstrates how to set the caller's common parameter preference variables in a module function. #> [CmdletBinding()] param ( [Parameter(Mandatory)] #[Management.Automation.PSScriptCmdlet] # The module function's `$PSCmdlet` object. Requires the function be decorated with the `[CmdletBinding()]` # attribute. $Cmdlet, [Parameter(Mandatory)] # The module function's `$ExecutionContext.SessionState` object. Requires the function be decorated with the # `[CmdletBinding()]` attribute. # # Used to set variables in its callers' scope, even if that caller is in a different script module. [Management.Automation.SessionState]$SessionState ) Set-StrictMode -Version 'Latest' # List of preference variables taken from the about_Preference_Variables and their common parameter name (taken # from about_CommonParameters). $commonPreferences = @{ 'ErrorActionPreference' = 'ErrorAction'; 'DebugPreference' = 'Debug'; 'ConfirmPreference' = 'Confirm'; 'InformationPreference' = 'InformationAction'; 'VerbosePreference' = 'Verbose'; 'WarningPreference' = 'WarningAction'; 'WhatIfPreference' = 'WhatIf'; } foreach( $prefName in $commonPreferences.Keys ) { $parameterName = $commonPreferences[$prefName] # Don't do anything if the parameter was passed in. if( $Cmdlet.MyInvocation.BoundParameters.ContainsKey($parameterName) ) { continue } $variable = $Cmdlet.SessionState.PSVariable.Get($prefName) # Don't do anything if caller didn't use a common parameter. if( -not $variable ) { continue } if( $SessionState -eq $ExecutionContext.SessionState ) { Set-Variable -Scope 1 -Name $variable.Name -Value $variable.Value -Force -Confirm:$false -WhatIf:$false } else { $SessionState.PSVariable.Set($variable.Name, $variable.Value) } } } function Write-Win32Error { [CmdletBinding()] param( [Parameter(Mandatory)] [int] $ErrorCode, [String] $Message ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState if ($Message) { $Message = $Message.TrimEnd('.') $Message = "${Message}: " } $win32Ex = [Win32Exception]::New($ErrorCode) $period = '.' if ($win32ex.Message.EndsWith('.')) { $period = '' } $msg = "${Message}$($win32Ex.Message)${period} (0x$($win32Ex.ErrorCode.ToString('x'))/$($win32Ex.NativeErrorCode))" Write-Error -Message $msg -ErrorAction $ErrorActionPreference } |