Carbon.Cryptography/Modules/Carbon.Security/1.0.0/Modules/Carbon.Accounts/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 System.ComponentModel using namespace System.Runtime.InteropServices #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 = $PSScriptRoot foreach ($csFile in (Get-ChildItem -Path (Join-Path -Path $script:moduleRoot -ChildPath 'src') -Filter '*.cs')) { Add-Type -TypeDefinition (Get-Content -Raw -Path $csFile.FullName) } # 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 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 `SystemName` 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: `ReferencedDomainName`, `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 name of the system. [String] $SystemName, # The account name to lookup. [Parameter(Mandatory)] [String] $AccountName ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $result = [pscustomobject]@{ ReferencedDomainName = ''; Sid = [byte[]]::New(0); Use = [PureInvoke.AdvApi32+SidNameUse]::Unknown } [byte[]] $sid = [byte[]]::New(0); # cb = count of bytes [UInt32] $cbSid = 0; [Text.StringBuilder] $domainName = [Text.StringBuilder]::New() # cch = count of chars [UInt32] $cchDomainName = $domainName.Capacity; [PureInvoke.AdvApi32+SidNameUse] $sidNameUse = [PureInvoke.AdvApi32+SidNameUse]::Unknown; $err = [PureInvoke.WinError]::Ok if ([PureInvoke.AdvApi32]::LookupAccountName($SystemName, $AccountName, $sid, [ref] $cbSid, $domainName, [ref] $cchDomainName, [ref]$sidNameUse)) { Write-Win32Error return } $err = [Marshal]::GetLastWin32Error(); if ($err -eq [PureInvoke.WinError]::InsufficientBuffer -or $err -eq [PureInvoke.WinError]::InvalidFlags) { $sid = [byte[]]::New($cbSid); [void]$domainName.EnsureCapacity([int]$cchDomainName); if (-not [PureInvoke.AdvApi32]::LookupAccountName($SystemName, $AccountName, $sid, [ref] $cbSid, $domainName, [ref] $cchDomainName, [ref] $sidNameUse)) { Write-Win32Error return } } else { Write-Win32Error return } $result.ReferencedDomainName = $domainName.ToString() $result.Sid = $sid $result.Use = $sidNameUse return $result } 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 `SystemName` 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( [String] $SystemName, [Parameter(Mandatory)] [byte[]] $Sid ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState $result = [pscustomobject]@{ Name = ''; ReferencedDomainName = '' Use = [PureInvoke.AdvApi32+SidNameUse]::Unknown } [Text.StringBuilder] $name = [Text.StringBuilder]::New() # cch = count of chars [UInt32] $cchName = $name.Capacity; [Text.StringBuilder] $domainName = [Text.StringBuilder]::New() [UInt32] $cchDomainName = $domainName.Capacity; [PureInvoke.AdvApi32+SidNameUse] $sidNameUse = [PureInvoke.AdvApi32+SidNameUse]::Unknown; $err = [PureInvoke.WinError]::Ok if (-not ([PureInvoke.AdvApi32]::LookupAccountSid($SystemName, $sid, $name, [ref] $cchName, $domainName, [ref] $cchDomainName, [ref] $sidNameUse))) { $err = [Marshal]::GetLastWin32Error(); if ($err -eq [PureInvoke.WinError]::InsufficientBuffer) { [void]$name.EnsureCapacity([int]$cchName); [void]$domainName.EnsureCapacity([int]$cchName); $err = 0 if (-not [PureInvoke.AdvApi32]::LookupAccountSid($SystemName, $sid, $name, [ref] $cchName, $domainName, $cchDomainName, [ref] $sidNameUse)) { $err = [Marshal]::GetLastWin32Error() } } } if ($err) { Write-Win32Error return } $result.ReferencedDomainName = $domainName.ToString() $result.Name = $name.ToString() $result.Use = $sidNameUse return $result } 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( [String] $Message ) Set-StrictMode -Version 'Latest' Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState if ($Message) { $Message.TrimEnd('.') $Message = "${Message}: " } $win32Ex = [Win32Exception]::New() $msg = "${Message}$($win32Ex.Message) (0x$($win32Ex.ErrorCode.ToString('x'))/$($win32Ex.NativeErrorCode))." Write-Error -Message $msg -ErrorAction $ErrorActionPreference } |