about_Functions_Advanced_Parameters

Short description

Explains how to add parameters to advanced functions.

Long description

You can add parameters to the advanced functions that you write, and use parameter attributes and arguments to limit the parameter values that function users submit with the parameter.

When you use the CmdletBinding attribute, PowerShell automatically adds the Common Parameters. You can't create any parameters that use the same names as the Common Parameters. For more information, see about_CommonParameters.

Beginning in PowerShell 3.0, you can use splatting with @Args to represent the parameters in a command. Splatting is valid on simple and advanced functions. For more information, see about_Functions and about_Splatting.

Type conversion of parameter values

When you supply strings as arguments to parameters that expect a different type, PowerShell implicitly converts the strings to the parameter target type. Advanced functions perform culture-invariant parsing of parameter values.

By contrast, a culture-sensitive conversion is performed during parameter binding for compiled cmdlets.

In this example, we create a cmdlet and a script function that take a [datetime] parameter. The current culture is changed to use German settings. A German-formatted date is passed to the parameter.

# Create a cmdlet that accepts a [datetime] argument.
Add-Type @'
  using System;
  using System.Management.Automation;
  [Cmdlet("Get", "Date_Cmdlet")]
  public class GetFooCmdlet : Cmdlet {

    [Parameter(Position=0)]
    public DateTime Date { get; set; }

    protected override void ProcessRecord() {
      WriteObject(Date);
    }
  }
'@ -PassThru | % Assembly | Import-Module

[cultureinfo]::CurrentCulture = 'de-DE'
$dateStr = '19-06-2018'

Get-Date_Cmdlet $dateStr
Dienstag, 19. Juni 2018 00:00:00

As shown above, cmdlets use culture-sensitive parsing to convert the string.

# Define an equivalent function.
function Get-Date_Func {
  param(
    [DateTime] $Date
  )
  process {
    $Date
  }
}

[CultureInfo]::CurrentCulture = 'de-DE'

# This German-format date string doesn't work with the invariant culture.
# E.g., [datetime] '19-06-2018' breaks.
$dateStr = '19-06-2018'

Get-Date_Func $dateStr

Advanced functions use culture-invariant parsing, which results in the following error.

Get-Date_Func: Cannot process argument transformation on parameter 'Date'.
Cannot convert value "19-06-2018" to type "System.DateTime". Error:
"String '19-06-2018' was not recognized as a valid DateTime."

Static parameters

Static parameters are parameters that are always available in the function. Most parameters in PowerShell cmdlets and scripts are static parameters.

The following example shows the declaration of a ComputerName parameter that has the following characteristics:

  • It's mandatory (required).
  • It takes input from the pipeline.
  • It takes an array of strings as input.
param(
    [Parameter(Mandatory=$true, ValueFromPipeline=$true)]
    [string[]]$ComputerName
)

Switch parameters

Switch parameters are parameters that take no parameter value. Instead, they convey a Boolean true-or-false value through their presence or absence, so that when a switch parameter is present it has a true value and when absent it has a false value.

For example, the Recurse parameter of Get-ChildItem is a switch parameter.

To create a switch parameter in a function, specify the switch type in the parameter definition.

For example, your function may have an option to output data as a byte array:

param([switch]$AsByteArray)

Switch parameters are easy to use and are preferred over Boolean parameters, which have a less natural syntax for PowerShell.

For example, to use a switch parameter, the user types the parameter in the command.

-IncludeAll

To use a Boolean parameter, the user types the parameter and a Boolean value.

-IncludeAll $true

When creating switch parameters, choose the parameter name carefully. Be sure that the parameter name communicates the effect of the parameter to the user. Avoid ambiguous terms, such as Filter or Maximum that might imply a value is required.

Switch parameter design considerations

  • Switch parameters shouldn't be given default values. They should always default to false.

  • Switch parameters are excluded from positional parameters by default. Even when other parameters are implicitly positional, switch parameters aren't. You can override that in the Parameter attribute, but it will confuse users.

  • Switch parameters should be designed so that setting them moves a command from its default behavior to a less common or more complicated mode. The simplest behavior of a command should be the default behavior that doesn't require the use of switch parameters.

  • Switch parameters shouldn't be mandatory. The only case where it's necessary to make a switch parameter mandatory is when it's needed to differentiate a parameter set.

  • Explicitly setting a switch from a boolean can be done with -MySwitch:$boolValue and in splatting with $params = @{ MySwitch = $boolValue }.

  • Switch parameters are of type SwitchParameter, which implicitly converts to Boolean. The parameter variable can be used directly in a conditional expression. For example:

    if ($MySwitch) { ... }

    There's no need to write if ($MySwitch.IsPresent) { ... }

Dynamic parameters

Dynamic parameters are parameters of a cmdlet, function, or script that are available only under certain conditions.

For example, several provider cmdlets have parameters that are available only when the cmdlet is used in the provider drive, or in a particular path of the provider drive. For example, the Encoding parameter is available on the Add-Content, Get-Content, and Set-Content cmdlets only when it's used in a file system drive.

You can also create a parameter that appears only when another parameter is used in the function command or when another parameter has a certain value.

Dynamic parameters can be useful, but use them only when necessary, because they can be difficult for users to discover. To find a dynamic parameter, the user must be in the provider path, use the ArgumentList parameter of the Get-Command cmdlet, or use the Path parameter of Get-Help.

To create a dynamic parameter for a function or script, use the dynamicparam keyword.

The syntax is as follows:

dynamicparam {<statement-list>}

In the statement list, use an if statement to specify the conditions under which the parameter is available in the function.

The following example shows a function with standard parameters named Name and Path, and an optional dynamic parameter named KeyCount. The KeyCount parameter is in the ByRegistryPath parameter set and has a type of Int32. The KeyCount parameter is available in the Get-Sample function only when the value of the Path parameter starts with HKLM:, indicating that it's being used in the HKEY_LOCAL_MACHINE registry drive.

function Get-Sample {
  [CmdletBinding()]
  param([string]$Name, [string]$Path)

  dynamicparam
  {
    if ($Path.StartsWith("HKLM:"))
    {
      $parameterAttribute = [System.Management.Automation.ParameterAttribute]@{
          ParameterSetName = "ByRegistryPath"
          Mandatory = $false
      }

      $attributeCollection = [System.Collections.ObjectModel.Collection[System.Attribute]]::new()
      $attributeCollection.Add($parameterAttribute)

      $dynParam1 = [System.Management.Automation.RuntimeDefinedParameter]::new(
        'KeyCount', [Int32], $attributeCollection
      )

      $paramDictionary = [System.Management.Automation.RuntimeDefinedParameterDictionary]::new()
      $paramDictionary.Add('KeyCount', $dynParam1)
      return $paramDictionary
    }
  }
}

For more information, see the documentation for the RuntimeDefinedParameter type.

Attributes of parameters

This section describes the attributes that you can add to function parameters.

All attributes are optional. However, if you omit the CmdletBinding attribute, then to be recognized as an advanced function, the function must include the Parameter attribute.

You can add one or multiple attributes in each parameter declaration. There's no limit to the number of attributes that you can add to a parameter declaration.

Parameter attribute

The Parameter attribute is used to declare the attributes of function parameters.

The Parameter attribute is optional, and you can omit it if none of the parameters of your functions need attributes. But, to be recognized as an advanced function, rather than a simple function, a function must have either the CmdletBinding attribute or the Parameter attribute, or both.

The Parameter attribute has arguments that define the characteristics of the parameter, such as whether the parameter is mandatory or optional.

Use the following syntax to declare the Parameter attribute, an argument, and an argument value. The parentheses that enclose the argument and its value must follow Parameter with no intervening space.

param(
    [Parameter(Argument=value)]
    $ParameterName
)

Use commas to separate arguments within the parentheses. Use the following syntax to declare two arguments of the Parameter attribute.

param(
    [Parameter(Argument1=value1, Argument2=value2)]
    $ParameterName
)

The boolean argument types of the Parameter attribute default to False when omitted from the Parameter attribute. Set the argument value to $true or just list the argument by name. For example, the following Parameter attributes are equivalent.

param(
    [Parameter(Mandatory=$true)]
)

# Boolean arguments can be defined using this shorthand syntax

param(
    [Parameter(Mandatory)]
)

If you use the Parameter attribute without arguments, as an alternative to using the CmdletBinding attribute, the parentheses that follow the attribute name are still required.

param(
    [Parameter()]
    $ParameterName
)

Mandatory argument

The Mandatory argument indicates that the parameter is required. If this argument isn't specified, the parameter is optional.

The following example declares the ComputerName parameter. It uses the Mandatory argument to make the parameter mandatory.

param(
    [Parameter(Mandatory)]
    [string[]]$ComputerName
)

Position argument

The Position argument determines whether the parameter name is required when the parameter is used in a command. When a parameter declaration includes the Position argument, the parameter name can be omitted and PowerShell identifies the unnamed parameter value by its position, or order, in the list of unnamed parameter values in the command.

If the Position argument isn't specified, the parameter name, or a parameter name alias or abbreviation, must precede the parameter value whenever the parameter is used in a command.

By default, all function parameters are positional. PowerShell assigns position numbers to parameters in the order the parameters are declared in the function. To disable this feature, set the value of the PositionalBinding argument of the CmdletBinding attribute to $False. The Position argument takes precedence over the value of the PositionalBinding argument of the CmdletBinding attribute. For more information, see PositionalBinding in about_Functions_CmdletBindingAttribute.

The value of the Position argument is specified as an integer. A position value of 0 represents the first position in the command, a position value of 1 represents the second position in the command, and so on.

If a function has no positional parameters, PowerShell assigns positions to each parameter based on the order the parameters are declared. However, as a best practice, don't rely on this assignment. When you want parameters to be positional, use the Position argument.

The following example declares the ComputerName parameter. It uses the Position argument with a value of 0. As a result, when -ComputerName is omitted from command, its value must be the first or only unnamed parameter value in the command.

param(
    [Parameter(Position=0)]
    [string[]]$ComputerName
)

ParameterSetName argument

The ParameterSetName argument specifies the parameter set a parameter belongs to. If no parameter set is specified, the parameter belongs to all the parameter sets defined by the function. To be unique, each parameter set must have at least one parameter that isn't a member of any other parameter set.

Note

For a cmdlet or function, there is a limit of 32 parameter sets.

The following example declares a ComputerName parameter in the Computer parameter set, a UserName parameter in the User parameter set, and a Summary parameter in both parameter sets.

param(
    [Parameter(Mandatory, ParameterSetName="Computer")]
    [string[]]$ComputerName,

    [Parameter(Mandatory, ParameterSetName="User")]
    [string[]]$UserName,

    [Parameter()]
    [switch]$Summary
)

You can specify only one ParameterSetName value in each argument and only one ParameterSetName argument in each Parameter attribute. To include a parameter in more than one parameter set, add additional Parameter attributes.

The following example explicitly adds the Summary parameter to the Computer and User parameter sets. The Summary parameter is optional in the Computer parameter set and mandatory in the User parameter set.

param(
    [Parameter(Mandatory, ParameterSetName="Computer")]
    [string[]]$ComputerName,

    [Parameter(Mandatory, ParameterSetName="User")]
    [string[]]$UserName,

    [Parameter(ParameterSetName="Computer")]
    [Parameter(Mandatory, ParameterSetName="User")]
    [switch]$Summary
)

For more information about parameter sets, see About Parameter Sets.

ValueFromPipeline argument

The ValueFromPipeline argument indicates that the parameter accepts input from a pipeline object. Specify this argument if the function accepts the entire object, not just a property of the object.

The following example declares a ComputerName parameter that's mandatory and accepts an object that's passed to the function from the pipeline.

param(
    [Parameter(Mandatory, ValueFromPipeline)]
    [string[]]$ComputerName
)

ValueFromPipelineByPropertyName argument

The ValueFromPipelineByPropertyName argument indicates that the parameter accepts input from a property of a pipeline object. The object property must have the same name or alias as the parameter.

For example, if the function has a ComputerName parameter, and the piped object has a ComputerName property, the value of the ComputerName property is assigned to the function's ComputerName parameter.

The following example declares a ComputerName parameter that's mandatory and accepts input from the object's ComputerName property that's passed to the function through the pipeline.

param(
    [Parameter(Mandatory, ValueFromPipelineByPropertyName)]
    [string[]]$ComputerName
)

Consider an implementation of a function using this argument:

function Test-ValueFromPipelineByPropertyName{
  param(
      [Parameter(Mandatory, ValueFromPipelineByPropertyName)]
      [string[]]$ComputerName
  )
  Write-Output -InputObject "Saw that ComputerName was '$ComputerName'"
}

Then a demonstration of piping an object with the ComputerName property would be:

[pscustomobject]@{ ComputerName = "HelloWorld" } |
    Test-ValueFromPipelineByPropertyName
Saw that ComputerName was 'HelloWorld'

Note

A typed parameter that accepts pipeline input (by Value) or (by PropertyName) enables use of delay-bind script blocks on the parameter.

The delay-bind script block is run automatically during ParameterBinding. The result is bound to the parameter. Delay binding doesn't work for parameters defined as type ScriptBlock or System.Object. The script block is passed through without being invoked. For more information about delay-bind script blocks, see about_Script_Blocks.

ValueFromRemainingArguments argument

The ValueFromRemainingArguments argument indicates that the parameter accepts all the parameter's values in the command that aren't assigned to other parameters of the function.

The following example declares a Value parameter that's mandatory and a Remaining parameter that accepts all the remaining parameter values that are submitted to the function.

function Test-Remainder {
    param(
        [Parameter(Mandatory, Position=0)]
        [string]$Value,

        [Parameter(Position=1, ValueFromRemainingArguments)]
        [string[]]$Remaining
    )

    "Found $($Remaining.Count) elements"

    for ($i = 0; $i -lt $Remaining.Count; $i++) {
        "${i}: $($Remaining[$i])"
    }
}
Test-Remainder first one,two
Found 2 elements
0: one
1: two

HelpMessage argument

The HelpMessage argument specifies a string that contains a brief description of the parameter or its value. If you run the command without the mandatory parameter, PowerShell prompts you for input. To see the help message, type !? at the prompt and hit Enter.

The following example declares a mandatory ComputerName parameter and a help message that explains the expected parameter value.

param(
    [Parameter(Mandatory,
    HelpMessage="Enter one or more computer names separated by commas.")]
    [string[]]$ComputerName
)

Example output:

cmdlet  at command pipeline position 1
Supply values for the following parameters:
(Type !? for Help.)
ComputerName[0]: !?
Enter one or more computer names separated by commas.
ComputerName[0]: localhost
ComputerName[1]:

If there is no comment-based help for the function then this message is displayed in the Get-Help -Full output.

This argument has no effect on optional parameters.

Alias attribute

The Alias attribute establishes an alternate name for the parameter. There's no limit to the number of aliases that you can assign to a parameter.

The following example shows a parameter declaration that adds the CN and MachineName aliases to the mandatory ComputerName parameter.

param(
    [Parameter(Mandatory)]
    [Alias("CN","MachineName")]
    [string[]]$ComputerName
)

Credential attribute

The Credential attribute is used to indicate that the parameter accepts credentials. The following example shows a parameter declaration that uses the Credential attribute.

param(
    [Parameter()]
    [System.Management.Automation.Credential()]
    [PSCredential]$Credential
)

Experimental attribute

Use the Experimental attribute to declare some code as experimental. For a full description of the attribute, see about_Experimental_Features.

PSDefaultValue attribute

The PSDefaultValue specifies the default value of a command parameter in a script. This information is displayed by the Get-Help cmdlet. To see the default value information, the function must include comment-based help. For example:

<#
    .SYNOPSIS
     This is a test script that has a parameter with a default value.
#>
function TestDefaultValue {
    param(
        [PSDefaultValue(Help='Current directory')]
        [string]$Name = $PWD.Path
    )

    $Name
}

Use Get-Help to see the default value information.

Get-Help TestDefaultValue -Parameter name
-Name <String>

    Required?                    false
    Position?                    1
    Default value                Current directory
    Accept pipeline input?       false
    Accept wildcard characters?  false

PSDefaultValue attribute arguments

The PSDefaultValue attribute has two arguments:

  • Help - A string that describes the default value. This information is displayed by the Get-Help cmdlet.
  • Value - The default value of the parameter.

Both arguments are optional. If you don't specify any arguments, then Get-Help shows the value assigned to the parameter.

PSTypeName attribute

You can't use extended type names in a type declaration. The PSTypeName* attribute allows you to restrict the type of the parameter to the extended type.

In this example, the Test-Connection cmdlet returns an extended type. You can use the PSTypeName attribute to restrict the type of the parameter to the extended type.

function TestType {
    param(
        [PSTypeName('Microsoft.PowerShell.Commands.TestConnectionCommand+PingMtuStatus')]
        [psobject]$MtuStatus
    )

    $MtuStatus
}

$mtu = Test-Connection -TargetName bing.com -MtuSize
TestType $mtu

System.Obsolete attribute

Use the System.Obsolete attribute to mark parameters that are no longer supported. This can be useful when you want to remove a parameter from a function but you don't want to break existing scripts that use the function.

For example, consider a function that has a NoTypeInformation switch parameter that controls whether type information is included in the output. You want to make that behavior the default and remove the parameter from the function. However, you don't want to break existing scripts that use the function. You can mark the parameter as obsolete and add a message that explains the change.

param(
    [System.Obsolete("The NoTypeInformation parameter is obsolete.")]
    [SwitchParameter]$NoTypeInformation
)

SupportsWildcards attribute

The SupportsWildcards attribute is used to indicate that the parameter accepts wildcard values. The following example shows a parameter declaration for a mandatory Path parameter that supports wildcard values.

param(
    [Parameter(Mandatory)]
    [SupportsWildcards()]
    [string[]]$Path
)

Using this attribute doesn't automatically enable wildcard support. The cmdlet developer must implement the code to handle the wildcard input. The wildcards supported can vary according to the underlying API or PowerShell provider. For more information, see about_Wildcards.

Argument completion attributes

ArgumentCompletions attribute

The ArgumentCompletions attribute allows you to add tab completion values to a specific parameter. An ArgumentCompletions attribute must be defined for each parameter that needs tab completion. The ArgumentCompletions attribute is similar to ValidateSet. Both attributes take a list of values to be presented when the user presses Tab after the parameter name. However, unlike ValidateSet, the values aren't validated.

This attribute was introduced in PowerShell 6.0.

For more information, see about_Functions_Argument_Completion.

ArgumentCompleter attribute

The ArgumentCompleter attribute allows you to add tab completion values to a specific parameter. An ArgumentCompleter attribute must be defined for each parameter that needs tab completion. Like dynamicparameters, the available values are calculated at runtime when the user presses Tab after the parameter name.

For more information, see about_Functions_Argument_Completion.

Parameter and variable validation attributes

Validation attributes direct PowerShell to test the parameter values that users submit when they call the advanced function. If the parameter values fail the test, an error is generated and the function isn't called. Parameter validation is only applied to the input provided and any other values like default values aren't validated.

You can also use the validation attributes to restrict the values that users can specify for variables.

[AllowNull()] [int]$number = 7

Validation attributes can be applied to any variable, not just parameters. You can define validation for any variable within a script.

Note

When using any attributes with a typed variable, it's best practice to declare the attribute before the type.

If you declare a type with a line break before the attribute and variable name, the type is treated as its own statement.

[string]
[ValidateLength(1,5)] $Text = 'Okay'
IsPublic IsSerial Name                                     BaseType
-------- -------- ----                                     --------
True     True     String                                   System.Object

If you declare a validation attribute after a type, the value being assigned is validated before type conversion, which can lead to unexpected validation failures.

[string] [ValidateLength(1,5)]$TicketIDFromInt        = 43
[string] [ValidateLength(1,5)]$TicketIDFromString     = '43'
[ValidateLength(1,5)] [string]$TicketIDAttributeFirst = 43
MetadataError: The attribute cannot be added because variable
TicketIDFromInt with value 43 would no longer be valid.

AllowNull validation attribute

The AllowNull attribute allows the value of a mandatory parameter to be $null. The following example declares a hashtable ComputerInfo parameter that can have a null value.

param(
    [Parameter(Mandatory)]
    [AllowNull()]
    [hashtable]$ComputerInfo
)

Note

The AllowNull attribute doesn't work if the type converter is set to string as the string type won't accept a null value. You can use the AllowEmptyString attribute for this scenario.

AllowEmptyString validation attribute

The AllowEmptyString attribute allows the value of a mandatory parameter to be an empty string (""). The following example declares a ComputerName parameter that can have an empty string value.

param(
    [Parameter(Mandatory)]
    [AllowEmptyString()]
    [string]$ComputerName
)

AllowEmptyCollection validation attribute

The AllowEmptyCollection attribute allows the value of a mandatory parameter to be an empty collection @(). The following example declares a ComputerName parameter that can have an empty collection value.

param(
    [Parameter(Mandatory)]
    [AllowEmptyCollection()]
    [string[]]$ComputerName
)

ValidateCount validation attribute

The ValidateCount attribute specifies the minimum and maximum number of parameter values that a parameter accepts. PowerShell generates an error if the number of parameter values in the command that calls the function is outside that range.

The following parameter declaration creates a ComputerName parameter that takes one to five parameter values.

param(
    [Parameter(Mandatory)]
    [ValidateCount(1,5)]
    [string[]]$ComputerName
)

ValidateLength validation attribute

The ValidateLength attribute specifies the minimum and maximum number of characters in a parameter or variable value. PowerShell generates an error if the length of a value specified for a parameter or a variable is outside of the range.

In the following example, each computer name must have one to ten characters.

param(
    [Parameter(Mandatory)]
    [ValidateLength(1,10)]
    [string[]]$ComputerName
)

In the following example, the value of the variable $text must be a minimum of one character in length, and a maximum of ten characters.

[ValidateLength(1,10)] [string] $text = 'valid'

ValidatePattern validation attribute

The ValidatePattern attribute specifies a regular expression that's compared to the parameter or variable value. PowerShell generates an error if the value doesn't match the regular expression pattern.

In the following example, the parameter value must contain a four-digit number, and each digit must be a number zero to nine.

param(
    [Parameter(Mandatory)]
    [ValidatePattern("[0-9]{4}")]
    [string[]]$ComputerName
)

In the following example, the value of the variable $ticketID must be exactly a four-digit number, and each digit must be a number zero to nine.

[ValidatePattern("^[0-9]{4}$")] [string]$ticketID = 1111

ValidateRange validation attribute

The ValidateRange attribute specifies a numeric range or a ValidateRangeKind enum value for each parameter or variable value. PowerShell generates an error if any value is outside that range.

The ValidateRangeKind enum allows for the following values:

  • Positive - A number greater than zero.
  • Negative - A number less than zero.
  • NonPositive - A number less than or equal to zero.
  • NonNegative - A number greater than or equal to zero.

In the following example, the value of the Attempts parameter must be between zero and ten.

param(
    [Parameter(Mandatory)]
    [ValidateRange(0,10)]
    [Int]$Attempts
)

In the following example, the value of the variable $number must be between zero and ten.

[ValidateRange(0,10)] [int]$number = 5

In the following example, the value of the variable $number must be greater than zero.

[ValidateRange("Positive")] [int]$number = 1

ValidateScript validation attribute

The ValidateScript attribute specifies a script that's used to validate a parameter or variable value. PowerShell pipes the value to the script, and generates an error if the script returns $false or if the script throws an exception.

When you use the ValidateScript attribute, the value that's being validated is mapped to the $_ variable. You can use the $_ variable to refer to the value in the script.

In the following example, the value of the EventDate parameter must be greater than or equal to the current date.

param(
    [Parameter(Mandatory)]
    [ValidateScript({$_ -ge (Get-Date)})]
    [DateTime]$EventDate
)

In the following example, the value of the variable $date must be less than or equal to the current date and time.

[ValidateScript({$_ -le (Get-Date)})] [DateTime]$date = (Get-Date)

Note

If you use ValidateScript, you can't pass a $null value to the parameter. When you pass a null value ValidateScript can't validate the argument.

Overriding the default error message

Starting in PowerShell 6, you can override the default error message generated when a specified value is invalid with the ErrorMessage argument. Specify a composite format string. The 0 index component uses the input value. The 1 index component uses the ScriptBlock used to validate the input value.

In the following example, the value of the EventDate parameter must be greater than or equal to the current date and time. If the value is invalid, the error message reports that the specified date and time is too old.

param(
    [Parameter(Mandatory)]
    [ValidateScript(
        {$_ -ge (Get-Date)},
        ErrorMessage = "{0} isn't a future date. Specify a later date."
    )]
    [DateTime]$EventDate
)

When the specified value is a past date, the custom error message is returned.

Cannot validate argument on parameter 'EventDate'. 1/1/1999 12:00:00 AM
isn't a future date. Specify a later date.

You can apply further formatting in the string with optional format string components.

In the following example, the value of the EventDate parameter must be greater than or equal to the current date and time. If the value is invalid, the error message reports that the specified date is too old.

param(
    [Parameter(Mandatory)]
    [ValidateScript(
        {$_ -ge (Get-Date).Date},
        ErrorMessage = "{0:d} isn't a future date. Specify a later date."
    )]
    [DateTime]$EventDate
)

When the specified value is a past date, the custom error message is returned.

Cannot validate argument on parameter 'EventDate'. 1/1/1999 isn't a future
date. Specify a later date.

ValidateSet attribute

The ValidateSet attribute specifies a set of valid values for a parameter or variable and enables tab completion. PowerShell generates an error if a parameter or variable value doesn't match a value in the set. In the following example, the value of the Detail parameter can only be Low, Average, or High.

param(
    [Parameter(Mandatory)]
    [ValidateSet("Low", "Average", "High")]
    [string[]]$Detail
)

In the following example, the value of the variable $flavor must be either Chocolate, Strawberry, or Vanilla.

[ValidateSet("Chocolate", "Strawberry", "Vanilla")]
[string]$flavor = "Strawberry"

The validation occurs whenever that variable is assigned even within the script. For example, the following results in an error at runtime:

param(
    [ValidateSet("hello", "world")]
    [string]$Message
)

$Message = "bye"

This example returns the following error at runtime:

MetadataError: The attribute cannot be added because variable Message with
value bye would no longer be valid.

Using ValidateSet also enable tab expansion of values for that parameter. For more information, see about_Tab_Expansion.

Dynamic ValidateSet values using classes

You can use a Class to dynamically generate the values for ValidateSet at runtime. In the following example, the valid values for the variable $Sound are generated via a Class named SoundNames that checks three filesystem paths for available sound files:

Class SoundNames : System.Management.Automation.IValidateSetValuesGenerator {
    [string[]] GetValidValues() {
        $SoundPaths = '/System/Library/Sounds/',
            '/Library/Sounds','~/Library/Sounds'
        $SoundNames = ForEach ($SoundPath in $SoundPaths) {
            If (Test-Path $SoundPath) {
                (Get-ChildItem $SoundPath).BaseName
            }
        }
        return [string[]] $SoundNames
    }
}

The [SoundNames] class is then implemented as a dynamic ValidateSet value as follows:

param(
    [ValidateSet([SoundNames])]
    [string]$Sound
)

Note

The IValidateSetValuesGenerator class was introduced in PowerShell 6.0

ValidateNotNull validation attribute

The ValidateNotNull attribute specifies that the parameter value can't be $null. When the value is $null, PowerShell raises an exception.

The ValidateNotNull attribute is designed to be used when the parameter is optional and the type is undefined or has a type converter that can't implicitly convert a null value like object. If you specify a type that that implicitly converts a null value, such as a string, the null value is converted to an empty string even when using the ValidateNotNull attribute. For this scenario use the ValidateNotNullOrEmpty attribute.

In the following example, the value of the ID parameter can't be $null.

param(
    [Parameter()]
    [ValidateNotNull()]
    $ID
)

ValidateNotNullOrEmpty validation attribute

The ValidateNotNullOrEmpty attribute specifies that the assigned value can't be any of the following values:

  • $null
  • an empty string ("")
  • an empty array (@())

When the value is invalid, PowerShell raises an exception.

param(
    [Parameter(Mandatory)]
    [ValidateNotNullOrEmpty()]
    [string[]]$UserName
)

ValidateNotNullOrWhiteSpace validation attribute

The ValidateNotNullOrWhiteSpace attribute specifies that the assigned value can't be any of the following values:

  • $null
  • an empty string ("")
  • an empty array @()
  • a string that contains only whitespace characters, like tabs, spaces, carriage returns, and newlines
  • an array that contains any strings that are empty or contain only whitespace characters

When the value is invalid, PowerShell raises an exception.

param(
    [Parameter(Mandatory)]
    [ValidateNotNullOrWhiteSpace()]
    [string[]]$UserName
)

ValidateDrive validation attribute

The ValidateDrive attribute specifies that the parameter value must represent the path, that's referring to allowed drives only. PowerShell generates an error if the parameter value refers to drives other than the allowed. Existence of the path, except for the drive itself, isn't verified.

If you use relative path, the current drive must be in the allowed drive list.

param(
    [ValidateDrive("C", "D", "Variable", "Function")]
    [string]$Path
)

ValidateUserDrive validation attribute

The ValidateUserDrive attribute specifies that the parameter value must represent in the User drive. PowerShell generates an error if the path refers to a different drive. The validation attribute only tests for the existence of the drive prefix of the path.

If you use relative path, the current drive must be User.

function Test-UserDrivePath{
    [OutputType([bool])]
    param(
        [Parameter(Mandatory, Position=0)]
        [ValidateUserDrive()]
        [string]$Path
    )
    $True
}

Test-UserDrivePath -Path C:\
Test-UserDrivePath: Cannot validate argument on parameter 'Path'. The path
argument drive C does not belong to the set of approved drives: User.
Supply a path argument with an approved drive.
Test-UserDrivePath -Path 'User:\A_folder_that_does_not_exist'
Test-UserDrivePath: Cannot validate argument on parameter 'Path'. Cannot
find drive. A drive with the name 'User' does not exist.

You can define User drive in Just Enough Administration (JEA) session configurations. For this example, we create the User: drive.

New-PSDrive -Name 'User' -PSProvider FileSystem -Root $env:HOMEPATH
Name           Used (GB)     Free (GB) Provider      Root
----           ---------     --------- --------      ----
User               75.76         24.24 FileSystem    C:\Users\ExampleUser
Test-UserDrivePath -Path 'User:\A_folder_that_does_not_exist'
True

ValidateTrustedData validation attribute

This attribute was added in PowerShell 6.1.1.

At this time, the attribute is used internally by PowerShell itself and isn't intended for external usage.

See also