Get-Module
List the modules imported in the current session or that can be imported from the PSModulePath.
Syntax
Get-Module
[[-Name] <String[]>]
[-FullyQualifiedName <ModuleSpecification[]>]
[-All]
[<CommonParameters>]
Get-Module
[[-Name] <String[]>]
[-FullyQualifiedName <ModuleSpecification[]>]
[-All]
[-ListAvailable]
[-PSEdition <String>]
[-SkipEditionCheck]
[-Refresh]
[<CommonParameters>]
Get-Module
[[-Name] <String[]>]
[-FullyQualifiedName <ModuleSpecification[]>]
[-ListAvailable]
[-PSEdition <String>]
[-SkipEditionCheck]
[-Refresh]
-PSSession <PSSession>
[<CommonParameters>]
Get-Module
[[-Name] <String[]>]
[-FullyQualifiedName <ModuleSpecification[]>]
[-ListAvailable]
[-SkipEditionCheck]
[-Refresh]
-CimSession <CimSession>
[-CimResourceUri <Uri>]
[-CimNamespace <String>]
[<CommonParameters>]
Description
The Get-Module
cmdlet lists the PowerShell modules that have been imported, or that can be
imported, into a PowerShell session. Without parameters, Get-Module
gets modules that have been
imported into the current session. The ListAvailable parameter is used to list the modules that
are available to be imported from the paths specified in the PSModulePath environment variable
($env:PSModulePath
).
The module object that Get-Module
returns contains valuable information about the module. You can
also pipe the module objects to other cmdlets, such as the Import-Module
and Remove-Module
cmdlets.
Get-Module
lists modules, but it does not import them. Starting in Windows PowerShell 3.0, modules
are automatically imported when you use a command in the module, but a Get-Module
command does not
trigger an automatic import. You can also import the modules into your session using the
Import-Module
cmdlet.
Starting in Windows PowerShell 3.0, you can get and then, import modules from remote sessions into
the local session. This strategy uses the Implicit Remoting feature of PowerShell and is equivalent
to using the Import-PSSession
cmdlet. When you use commands in modules imported from another
session, the commands run implicitly in the remote session. This feature lets you manage the remote
computer from the local session.
Also, starting in Windows PowerShell 3.0, you can use Get-Module
and Import-Module
to get and
import Common Information Model (CIM) modules. CIM modules define cmdlets in Cmdlet Definition XML
(CDXML) files. This feature lets you use cmdlets that are implemented in non-managed code
assemblies, such as those written in C++.
Implicit remoting can be used to manage remote computers that have PowerShell remoting enabled.
Create a PSSession on the remote computer and then use the PSSession parameter of
Get-Module
to get the PowerShell modules in the remote session. When you import a module from the
remote session the imported commands run in the session on the remote computer.
You can use a similar strategy to manage computers that do not have PowerShell remoting enabled. These include computers that are not running the Windows operating system, and computers that have PowerShell but do not have PowerShell remoting enabled.
Start by creating a CIM session on the remote computer. A CIM session is a connection to Windows
Management Instrumentation (WMI) on the remote computer. Then use the CIMSession parameter of
Get-Module
to get CIM modules from the CIM session. When you import a CIM module by using the
Import-Module
cmdlet and then run the imported commands, the commands run implicitly on the remote
computer. You can use this WMI and CIM strategy to manage the remote computer.
Examples
Example 1: Get modules imported into the current session
Get-Module
This command gets modules that have been imported into the current session.
Example 2: Get installed modules and available modules
Get-Module -ListAvailable
This command gets the modules that are installed on the computer and can be imported into the current session.
Get-Module
looks for available modules in the path specified by the $env:PSModulePath
environment variable. For more information about PSModulePath, see
about_Modules and
about_Environment_Variables.
Example 3: Get all exported files
Get-Module -ListAvailable -All
This command gets all of the exported files for all available modules.
Example 4: Get a module by its fully qualified name
$FullyQualifedName = @{ModuleName="Microsoft.PowerShell.Management";ModuleVersion="3.1.0.0"}
Get-Module -FullyQualifiedName $FullyQualifedName | Format-Table -Property Name,Version
Name Version
---- -------
Microsoft.PowerShell.Management 3.1.0.0
This command gets the Microsoft.PowerShell.Management module by specifying the fully qualified
name of the module by using the FullyQualifiedName parameter. The command then pipes the results
into the Format-Table
cmdlet to format the results as a table with Name and Version as the
column headings.
Example 5: Get properties of a module
Get-Module | Get-Member -MemberType Property | Format-Table Name
Name
----
AccessMode
Author
ClrVersion
CompanyName
Copyright
Definition
Description
DotNetFrameworkVersion
ExportedAliases
ExportedCmdlets
ExportedCommands
ExportedFormatFiles
ExportedFunctions
ExportedTypeFiles
ExportedVariables
ExportedWorkflows
FileList
Guid
HelpInfoUri
LogPipelineExecutionDetails
ModuleBase
ModuleList
ModuleType
Name
NestedModules
OnRemove
Path
PowerShellHostName
PowerShellHostVersion
PowerShellVersion
PrivateData
ProcessorArchitecture
RequiredAssemblies
RequiredModules
RootModule
Scripts
SessionState
Version
This command gets the properties of the PSModuleInfo object that Get-Module
returns. There is
one object for each module file.
You can use the properties to format and filter the module objects. For more information about the properties, see PSModuleInfo Properties.
The output includes the new properties, such as Author and CompanyName, that were introduced in Windows PowerShell 3.0.
Example 6: Group all modules by name
Get-Module -ListAvailable -All | Format-Table -Property Name, Moduletype, Path -Groupby Name
Name: AppLocker
Name ModuleType Path
---- ---------- ----
AppLocker Manifest C:\Windows\system32\WindowsPowerShell\v1.0\Modules\AppLocker\AppLocker.psd1
Name: Appx
Name ModuleType Path
---- ---------- ----
Appx Manifest C:\Windows\system32\WindowsPowerShell\v1.0\Modules\Appx\en-US\Appx.psd1
Appx Manifest C:\Windows\system32\WindowsPowerShell\v1.0\Modules\Appx\Appx.psd1
Appx Script C:\Windows\system32\WindowsPowerShell\v1.0\Modules\Appx\Appx.psm1
Name: BestPractices
Name ModuleType Path
---- ---------- ----
BestPractices Manifest C:\Windows\system32\WindowsPowerShell\v1.0\Modules\BestPractices\BestPractices.psd1
Name: BitsTransfer
Name ModuleType Path
---- ---------- ----
BitsTransfer Manifest C:\Windows\system32\WindowsPowerShell\v1.0\Modules\BitsTransfer\BitsTransfer.psd1
This command gets all module files, both imported and available, and then groups them by module name. This lets you see the module files that each script is exporting.
Example 7: Display the contents of a module manifest
These commands display the contents of the module manifest for the Windows PowerShell BitsTransfer module.
Modules are not required to have manifest files. When they do have a manifest file, the manifest file is required only to include a version number. However, manifest files often provide useful information about a module, its requirements, and its contents.
# First command
$m = Get-Module -list -Name BitsTransfer
# Second command
Get-Content $m.Path
@ {
GUID = "{8FA5064B-8479-4c5c-86EA-0D311FE48875}"
Author = "Microsoft Corporation"
CompanyName = "Microsoft Corporation"
Copyright = "Microsoft Corporation. All rights reserved."
ModuleVersion = "1.0.0.0"
Description = "Windows PowerShell File Transfer Module"
PowerShellVersion = "2.0"
CLRVersion = "2.0"
NestedModules = "Microsoft.BackgroundIntelligentTransfer.Management"
FormatsToProcess = "FileTransfer.Format.ps1xml"
RequiredAssemblies = Join-Path $psScriptRoot "Microsoft.BackgroundIntelligentTransfer.Management.Interop.dll"
}
The first command gets the PSModuleInfo object that represents BitsTransfer module. It saves the
object in the $m
variable.
The second command uses the Get-Content
cmdlet to get the content of the manifest file in the
specified path. It uses dot notation to get the path to the manifest file, which is stored in the
Path property of the object. The output shows the contents of the module manifest.
Example 8: List files in module directory
dir (Get-Module -ListAvailable FileTransfer).ModuleBase
Directory: C:\Windows\system32\WindowsPowerShell\v1.0\Modules\FileTransfer
Mode LastWriteTime Length Name
---- ------------- ------ ----
d---- 12/16/2008 12:36 PM en-US
-a--- 11/19/2008 11:30 PM 16184 FileTransfer.Format.ps1xml
-a--- 11/20/2008 11:30 PM 1044 FileTransfer.psd1
-a--- 12/16/2008 12:20 AM 108544 Microsoft.BackgroundIntelligentTransfer.Management.Interop.dll
This command lists the files in the directory of the module. This is another way to determine what is in a module before you import it. Some modules might have help files or ReadMe files that describe the module.
Example 9: Get modules installed on a computer
$s = New-PSSession -ComputerName Server01
Get-Module -PSSession $s -ListAvailable
These commands get the modules that are installed on the Server01 computer.
The first command uses the New-PSSession
cmdlet to create a PSSession on the Server01
computer. The command saves the PSSession in the $s
variable.
The second command uses the PSSession and ListAvailable parameters of Get-Module
to get
the modules in the PSSession in the $s
variable.
If you pipe modules from other sessions to the Import-Module
cmdlet, Import-Module
imports the
module into the current session by using the implicit remoting feature. This is equivalent to using
the Import-PSSession
cmdlet. You can use the cmdlets from the module in the current session, but
commands that use these cmdlets actually run the remote session. For more information, see
Import-Module
and
Import-PSSession
.
Example 10: Manage a computer that does not run the Windows operating system
The commands in this example enable you to manage the storage systems of a remote computer that is not running the Windows operating system. In this example, because the administrator of the computer has installed the Module Discovery WMI provider, the CIM commands can use the default values, which are designed for the provider.
$cs = New-CimSession -ComputerName RSDGF03
Get-Module -CimSession $cs -Name Storage | Import-Module
Get-Command Get-Disk
CommandType Name ModuleName
----------- ---- ----------
Function Get-Disk Storage
Get-Disk
Number Friendly Name OperationalStatus Total Size Partition Style
------ ------------- ----------------- ---------- ---------------
0 Virtual HD ATA Device Online 40 GB MBR
The first command uses the New-CimSession
cmdlet to create a session on the RSDGF03 remote
computer. The session connects to WMI on the remote computer. The command saves the CIM session in
the $cs
variable.
The second command uses the CIM session in the $cs
variable to run a Get-Module
command on the
RSDGF03 computer. The command uses the Name parameter to specify the Storage module. The command
uses a pipeline operator (|
) to send the Storage module to the Import-Module
cmdlet, which
imports it into the local session.
The third command runs the Get-Command
cmdlet on the Get-Disk
command in the Storage module.
When you import a CIM module into the local session, PowerShell converts the CDXML files that
represent the CIM module into PowerShell scripts, which appear as functions in the local session.
The fourth command runs the Get-Disk
command. Although the command is typed in the local session,
it runs implicitly on the remote computer from which it was imported. The command gets objects from
the remote computer and returns them to the local session.
Parameters
-All
Indicates that this cmdlet gets all modules in each module folder, including nested modules,
manifest (.psd1
) files, script module (.psm1
) files, and binary module (.dll
) files. Without
this parameter, Get-Module
gets only the default module in each module folder.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-CimNamespace
Specifies the namespace of an alternate CIM provider that exposes CIM modules. The default value is the namespace of the Module Discovery WMI provider.
Use this parameter to get CIM modules from computers and devices that are not running the Windows operating system.
This parameter was introduced in Windows PowerShell 3.0.
Type: | String |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-CimResourceUri
Specifies an alternate location for CIM modules. The default value is the resource URI of the Module Discovery WMI provider on the remote computer.
Use this parameter to get CIM modules from computers and devices that are not running the Windows operating system.
This parameter was introduced in Windows PowerShell 3.0.
Type: | Uri |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-CimSession
Specifies a CIM session on the remote computer. Enter a variable that contains the CIM session or a command that gets the CIM session, such as a Get-CimSession command.
Get-Module
uses the CIM session connection to get modules from the remote computer. When you
import the module by using the Import-Module
cmdlet and use the commands from the imported module
in the current session, the commands actually run on the remote computer.
You can use this parameter to get modules from computers and devices that are not running the Windows operating system, and computers that have PowerShell, but do not have PowerShell remoting enabled.
The CimSession parameter gets all modules in the CIMSession. However, you can import only CIM-based and Cmdlet Definition XML (CDXML)-based modules.
Type: | CimSession |
Position: | Named |
Default value: | None |
Required: | True |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-FullyQualifiedName
Specifies modules with names that are specified in the form of ModuleSpecification objects. See the Remarks section of ModuleSpecification Constructor (Hashtable).
For example, the FullyQualifiedModule parameter accepts a module name that is specified in either of these formats:
@{ModuleName = "modulename"; ModuleVersion = "version_number"}
@{ModuleName = "modulename"; ModuleVersion = "version_number"; Guid = "GUID"}
ModuleName and ModuleVersion are required, but Guid is optional. You cannot specify the FullyQualifiedModule parameter in the same command as a Module parameter. the two parameters are mutually exclusive.
Note
This parameter also accepts simpler forms of input:
- A module name
- A fully-qualified path to the module
- A relative path to the module. When used in a script, the relative path is resolved to a fully-qualified path relative to the location of the script file.
Type: | ModuleSpecification[] |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | True |
Accept wildcard characters: | False |
-ListAvailable
Indicates that this cmdlet gets all installed modules. Get-Module
gets modules in paths listed in
the PSModulePath environment variable. Without this parameter, Get-Module
gets only the
modules that are both listed in the PSModulePath environment variable, and that are loaded in
the current session. ListAvailable does not return information about modules that are not found
in the PSModulePath environment variable, even if those modules are loaded in the current
session.
Type: | SwitchParameter |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Name
Specifies names or name patterns of modules that this cmdlet gets. Wildcard characters are
permitted. You can also pipe the names to Get-Module
. You cannot specify the
FullyQualifiedName parameter in the same command as a Name parameter.
Name cannot accept a module GUID as a value. To return modules by specifying a GUID, use FullyQualifiedName instead.
Type: | String[] |
Position: | 0 |
Default value: | None |
Required: | False |
Accept pipeline input: | True |
Accept wildcard characters: | True |
-PSEdition
Gets the modules that support specified edition of PowerShell.
The acceptable values for this parameter are:
Desktop
Core
The Get-Module
cmdlet checks CompatiblePSEditions property of PSModuleInfo object for the
specified value and returns only those modules that have it set.
Note
- Desktop Edition: Built on .NET Framework and provides compatibility with scripts and modules targeting versions of PowerShell running on full footprint editions of Windows such as Server Core and Windows Desktop.
- Core Edition: Built on .NET Core and provides compatibility with scripts and modules targeting versions of PowerShell running on reduced footprint editions of Windows such as Nano Server and Windows IoT.
Type: | String |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-PSSession
Gets the modules in the specified user-managed PowerShell session (PSSession). Enter a variable
that contains the session, a command that gets the session, such as a Get-PSSession
command, or a
command that creates the session, such as a New-PSSession
command.
When the session is connected to a remote computer, you must specify the ListAvailable parameter.
A Get-Module
command that uses the PSSession parameter is equivalent to using the
Invoke-Command
cmdlet to run a Get-Module -ListAvailable
command in a PSSession.
This parameter was introduced in Windows PowerShell 3.0.
Type: | PSSession |
Position: | Named |
Default value: | None |
Required: | True |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Refresh
Indicates that this cmdlet refreshes the cache of installed commands. The command cache is created
when the session starts. It enables the Get-Command
cmdlet to get commands from modules that are
not imported into the session.
This parameter is designed for development and testing scenarios in which the contents of modules have changed since the session started.
When you specify the Refresh parameter in a command, you must specify ListAvailable.
This parameter was introduced in Windows PowerShell 3.0.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-SkipEditionCheck
Skips the check of the CompatiblePSEditions field.
By default, Get-Module
omits modules in the %windir%\System32\WindowsPowerShell\v1.0\Modules
directory that do not specify Core
in the CompatiblePSEditions field. When this switch is set,
modules without Core
are included, so that modules under the Windows PowerShell module path
that are incompatible with PowerShell v6 and higher are returned.
On macOS and Linux, this parameter does nothing.
See about_PowerShell_Editions for more information.
Type: | SwitchParameter |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
Inputs
You can pipe module names to this cmdlet.
Outputs
This cmdlet returns objects that represent modules. When you specify the ListAvailable
parameter, Get-Module
returns a ModuleInfoGrouping object, which is a type of PSModuleInfo
object that has the same properties and methods.
Notes
Beginning in Windows PowerShell 3.0, the core commands that are included in PowerShell are packaged in modules. The exception is Microsoft.PowerShell.Core, which is a snap-in (PSSnapin). By default, only the Microsoft.PowerShell.Core snap-in is added to the session. Modules are imported automatically on first use and you can use the
Import-Module
cmdlet to import them.In Windows PowerShell 2.0, and in host programs that create older-style sessions in later versions of PowerShell, the core commands are packaged in snap-ins (PSSnapins). The exception is Microsoft.PowerShell.Core, which is always a snap-in. Also, remote sessions, such as those started by the
New-PSSession
cmdlet, are older-style sessions that include core snap-ins.For information about the CreateDefault2 method that creates newer-style sessions with core modules, see CreateDefault2 Method.
Get-Module
only gets modules in locations that are stored in the value of the PSModulePath environment variable ($env:PSModulePath
). TheImport-Module
cmdlet can import modules in other locations, but you cannot use theGet-Module
cmdlet to get them.Also, starting in PowerShell 3.0, new properties have been added to the object that
Get-Module
returns that make it easier to learn about modules even before they are imported. All properties are populated before importing. These include the ExportedCommands, ExportedCmdlets and ExportedFunctions properties that list the commands that the module exports.The ListAvailable parameter gets only well-formed modules, that is, folders that contain at least one file whose base name is the same as the name of the module folder. The base name is the name without the file name extension. Folders that contain files that have different names are considered to be containers, but not modules.
To get modules that are implemented as DLL files, but are not enclosed in a module folder, specify both the ListAvailable and All parameters.
To use the CIM session feature, the remote computer must have WS-Management remoting and Windows Management Instrumentation (WMI), which is the Microsoft implementation of the Common Information Model (CIM) standard. The computer must also have the Module Discovery WMI provider or an alternate WMI provider that has the same basic features.
You can use the CIM session feature on computers that are not running the Windows operating system and on Windows computers that have PowerShell, but do not have PowerShell remoting enabled.
You can also use the CIM parameters to get CIM modules from computers that have PowerShell remoting enabled. This includes the local computer. When you create a CIM session on the local computer, PowerShell uses DCOM, instead of WMI, to create the session.