Tag Archives: ErrorAction

Import-Csv

NAME
    Import-Csv

SYNOPSIS
    Converts object properties in a comma-separated value (CSV) file into CSV versions of the original objects.

SYNTAX
    Import-Csv [[-Delimiter] <char>] [-Path] <string[]> [-Header <string[]>] [<CommonParameters>]

    Import-Csv -UseCulture [-Path] <string[]> [-Header <string[]>] [<CommonParameters>]

DESCRIPTION
    The Import-Csv cmdlet creates objects from CSV Variable-length files that are generated by the Export-Csv cmdlet.

    You can use the parameters of the Import-Csv cmdlet to specify the column header row, which determines the property names of the resulting objects; to specify the item delimiter; or to direct Import-Csv to use the list separator for the current culture as the item delimiter.

    The objects that Import-Csv creates are CSV versions of the original objects. The property values of the CSV objects are string versions of the property values of the original objects. The CSV versions of the objects do not have any methods.

    You can also use the ConvertTo-Csv and ConvertFrom-Csv cmdlets to convert objects to CSV strings (and back). These cmdlets are the same as the Export-Csv and Import-Csv cmdlets, except that they do not save the CSV strings in a file.

PARAMETERS
    -Delimiter <char>
        Specifies the delimiter that separates the property values in the CSV file. The default is a comma (,). Enter a character, such as a colon (:). To specify a semicolon (;), enclose it in quotation marks.

        If you specify a character other than the actual string delimiter in the file, Import-Csv cannot create objects from the CSV strings. Instead, it returns the strings.

        Required?                    false
        Position?                    2
        Default value                ,
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Header <string[]>
        Specifies an alternate column header row for the imported file. The column header determines the names of the properties of the object that Import-Csv creates.

        Enter a comma-separated list of the column headers. Enclose each item in quotation marks (single or double). Do not enclose the header string in quotation marks. If you enter fewer column headers than there are columns, the remaining columns will have no header. If you enter more headers than there are columns, the extra headers are ignored.

        When using the Header parameter, delete the original header row from the CSV file. Otherwise, Import-Csv creates an extra object from the items in the header row.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Path <string[]>
        Specifies the path to the CSV file to import. You can also pipe a path to Import-Csv.

        Required?                    true
        Position?                    1
        Default value                None
        Accept pipeline input?     true (ByValue, ByPropertyName)
        Accept wildcard characters? false

    -UseCulture [<SwitchParameter>]
        Use the list separator for the current culture as the item delimiter. The default is a comma (,).

        To find the list separator for a culture, use the following command: (Get-Culture).TextInfo.ListSeparator. If you specify a character other than the delimiter used in the CSV strings, ConvertFrom-Csv cannot create objects from the CSV strings. Instead, it returns the strings.

        Required?                    true
        Position?                    named
        Default value                Comma
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    System.String
        You can pipe a string that contains a path to Import-Csv.

OUTPUTS
    Object.
        Import-Csv returns the objects described by the content in the CSV file.

NOTES

        Because the imported objects are CSV versions of the object type, they are not recognized and formatted by the Windows PowerShell type formatting entries that format the non-CSV versions of the object type.

        In the CSV file, each object is represented by a comma-separated list of the property values of the object. The property values are converted to strings (by using the ToString() method of the object), so they are generally represented by the name of the property value. Export-Csv does not export the methods of the object.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Get-Process | Export-Csv processes.csv

    C:\PS> $p = Import-Csv processes.csv

    C:\PS> $p | Get-Member

     TypeName: CSV:System.Diagnostics.Process

    Name                     MemberType Definition
    —-                     ———- ———-
    Equals                     Method     System.Boolean Equals(Object obj)
    GetHashCode                Method     System.Int32 GetHashCode()
    GetType                    Method     System.Type GetType()
    ToString                 Method     System.String ToString()
    BasePriority             NoteProperty System.String BasePriority=8
    Company                    NoteProperty System.String Company=Microsoft Corporation
    …

    C:\PS> $p | Out-GridView

    Description
    ———–
    This example shows how to export and then import a CSV file of Microsoft .NET Framework objects.

    The first command uses the Get-Process cmdlet to get the process on the local computer. It uses a pipeline operator (|) to send the process objects to the Export-Csv cmdlet, which exports the process objects to the Processes.csv file in the current directory.

    The second command uses the Import-Csv cmdlet to import the processes in the Import-Csv file. Then it saves the resulting process objects in the $p Variable.

    The third command uses a pipeline operator to pipe the imported objects to the Get-Member cmdlets. The result shows that they are CSV:System.Diagnostic.Process objects, not the System.Diagnostic.Process objects that Get-Process returns.

    Also, because there is no entry type in the formatting files for the CSV version of the process objects, these objects are not formatted in the same way that standard process objects are formatted.

    To display the objects, use the formatting cmdlets, such as Format-Table and Format-List, or pipe the objects to Out-GridView.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Get-Process | Export-Csv processes.csv -Delimiter :

    C:\PS> $p = Import-Csv processes.csv -Delimiter :

    Description
    ———–
    This example shows how to use the Delimiter parameter of Import-Csv. In this example, the processes are exported to a file that uses a colon (:) as a delimiter.

    When importing, the Import-Csv file uses the Delimiter parameter to indicate the delimiter that is used in the file.

    ————————– EXAMPLE 3 ————————–

    C:\PS>$p = Import-Csv processes.csv -UseCulture

    C:\PS> (Get-Culture).textinfo.listseparator

    ,

    Description
    ———–
    This example shows how to use the UseCulture parameter of Import-Csv.

    The first command imports the objects in the Processes.csv file into the $p Variable. It uses the UseCulture parameter to direct Import-Csv to use the list separator defined for the current culture.

    The second command displays the list separator for the current culture. It uses the Get-Culture cmdlet to get the current culture. It uses the dot (.) method to get the TextInfo property of the current culture and the ListSeparator property of the object in TextInfo. In this example, the command returns a comma.

    ————————– EXAMPLE 4 ————————–

    C:\PS>Start-Job -scriptblock { Get-Process } | Export-Csv jobs.csv

    C:\PS> $header = “MoreData”,”StatusMessage”,”Location”,”Command”,”State”,”Finished”,”InstanceId”,”SessionId”,”Name”,”ChildJobs”,”Output”,”Error”,”Progress”,”Verbose”,”Debug”,”Warning”,”StateChanged”

    # Delete header from file
    C:\PS> $a = (Get-Content jobs.csv)
    C:\PS> $a = $a[0], $a[2..($a.count – 1)]
    C:\PS> $a > jobs.csv

    C:\PS> $j = Import-Csv jobs.csv -Header $header

    C:\PS> $j

    MoreData     : True
    StatusMessage :
    Location     : localhost
    Command     : Get-Process
    State         : Running
    Finished     : System.Threading.ManualResetEvent
    InstanceId    : 135bdd25-40d6-4a20-bd68-05282a59abd6
    SessionId     : 1
    Name         : Job1
    ChildJobs     : System.Collections.Generic.List`1[System.Management.Automation.Job]
    Output        : System.Management.Automation.PSDataCollection`1[System.Management.Automation.PSObject]
    Error         : System.Management.Automation.PSDataCollection`1[System.Management.Automation.ErrorRecord]
    Progress     : System.Management.Automation.PSDataCollection`1[System.Management.Automation.ProgressRecord]
    Verbose     : System.Management.Automation.PSDataCollection`1[System.String]
    Debug         : System.Management.Automation.PSDataCollection`1[System.String]
    Warning     : System.Management.Automation.PSDataCollection`1[System.String]
    StateChanged :

    Description
    ———–
    This example shows how to use the Header parameter of Import-Csv to change the names of properties in the resulting imported object.

    The first command uses the Start-Job cmdlet to start a background job that runs a Get-Process command on the local computer. A pipeline operator (|) sends the resulting job object to the Export-Csv cmdlet, which converts the job object to CSV format. An assignment operator (=) saves the resulting CSV in the Jobs.csv file.

    The second command saves a header in the $header Variable. Unlike the default header, this header uses “MoreData” instead of “HasMoreData” and “State” instead of “JobStateInfo”.

    The next three commands delete the original header (the second line) from the Jobs.csv file.

    The sixth command uses the Import-Csv cmdlet to import the Jobs.csv file and convert the CSV strings into a CSV version of the job object. The command uses the Header parameter to submit the alternate header. The results are stored in the $j Variable.

    The seventh command displays the object in the $j Variable. The resulting object has “MoreData” and “State” properties, as shown in the command output.

    ————————– EXAMPLE 5 ————————–

    C:\PS>”.\processes.csv” | Import-Csv

    Description
    ———–
    This command imports the objects from the Processes.csv file.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=113341
    Export-Csv
    ConvertTo-Csv
    ConvertFrom-Csv

Import-LocalizedData

NAME
    Import-LocalizedData

SYNOPSIS
    Imports language-specific data into scripts and Functions based on the UI culture that is selected for the operating system.

SYNTAX
    Import-LocalizedData [-BindingVariable] <string> [[-UICulture] <string>] [-BaseDirectory <string>] [-FileName <string>] [-SupportedCommand <string[]>] [<CommonParameters>]

DESCRIPTION
    The Import-LocalizedData cmdlet dynamically retrieves strings from a subdirectory whose name matches the UI language set for the current user of the operating system. It is designed to enable scripts to display user messages in the UI language selected by the current user.

    Import-LocalizedData imports data from .psd1 files in language-specific subdirectories of the script directory and saves them in a local Variable that is specified in the command. The cmdlet selects the subdirectory and file based on the value of the $PSUICulture automatic Variable. When you use the local Variable in the script to display a user message, the message appears in the user’s UI language.

    You can use the parameters of Import-LocalizedData to specify an alternate UI culture, path, and file name, to add supported commands, and to suppress the error message that appears if the .psd1 files are not found.

    The Import-LocalizedData cmdlet supports script internationalization in Windows PowerShell 2.0. This initiative aims to better serve users worldwide by making it easy for scripts to display user messages in the UI language of the current user. For more information about this and about the format of the .psd1 files, see about_script_internationalization.

PARAMETERS
    -BaseDirectory <string>
        Specifies the base directory where the .psd1 files are located. The default is the directory where the script is located. Import-LocalizedData searches for the .psd1 file for the script in a language-specific subdirectory of the base directory.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -BindingVariable <string>
        Specifies a Variable into which the text strings are imported. Enter a Variable name without a dollar sign ($).

        When using Import-LocalizedData to replace default text strings specified in the DATA section of a script, assign the DATA section to a Variable and enter the name of the DATA section Variable in the value of the BindingVariable parameter. Then, when Import-LocalizedData saves the imported content in the BindingVariable, the imported data will replace the default text strings. If you are not specifying default text strings, you can select any Variable name.

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

    -FileName <string>
        Specifies the name of the .psd1 file to be imported. Enter a file name without the .psd1 file name extension.

        The default is the name of the script. For example, if the script is FindFiles.ps1, Import-LocalizedData searches for FindFiles.psd1. You can use this parameter to direct Import-LocalizedData to search for a different .psd1 file.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -SupportedCommand <string[]>
        Specifies cmdlets and Functions that generate only data.

        Use this parameter to include cmdlets and Functions that you have written or tested. For more information, see about_script_internationalization.

        Required?                    false
        Position?                    named
        Default value                None
        Accept pipeline input?     false
        Accept wildcard characters? false

    -UICulture <string>
        Specifies an alternate UI culture. The default is the value of the $PsUICulture automatic Variable. Enter a UI culture in “<language>-<region>” format, such as en-US, de-DE, or ar-SA.

        The value of the UICulture parameter determines the language-specific subdirectory (within the base directory) from which Import-LocalizedData gets the .psd1 file for the script.

        The cmdlet searches for a subdirectory with the same name as the value of the UICulture parameter or the $PsUICulture automatic Variable, such as “de-DE” or “ar-SA”. If it cannot find the directory, or the directory does not contain a .psd1 file for the script, it searches for a subdirectory with the name of the language code, such as “de” or “ar”. If it cannot find the subdirectory or .psd1 file, the command fails and the data is displayed in the default language specified in the script.

        Required?                    false
        Position?                    2
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    None
        You cannot pipe input to this cmdlet.

OUTPUTS
    System.Collections.Hashtable
        Import-LocalizedData saves the hash table in the Variable that is specified by the value of the BindingVariable parameter.

NOTES

        Before using Import-LocalizedData, localize your user messages. Format the messages for each locale (UI culture) in a hash table of key/value pairs, and save the hash table in a file with the same name as the script and a .psd1 file name extension. Create a directory under the script directory for each supported UI culture, and then save the .psd1 file for each UI culture in the directory with the UI culture name.

        For example, localize your user messages for the de-DE locale and format them in a hash table. Save the hash table in a <ScriptName>.psd1 file. Then create a de-DE subdirectory under the script directory, and save the de-DE <ScriptName>.psd1 file in the de-DE subdirectory. Repeat this method for each locale that you support.

        Import-LocalizedData performs a structured search for the localized user messages for a script.

        Import-LocalizedData begins the search in the directory where the script file is located (or the value of the BaseDirectory parameter). It then searches within the base directory for a subdirectory with the same name as the value of the $PsUICulture Variable (or the value of the UICulture parameter), such as “de-DE” or “ar-SA”. Then, it searches in that subdirectory for a .psd1 file with the same name as the script (or the value of the FileName parameter).

        If Import-LocalizedData cannot find a subdirectory with the name of the UI culture, or the subdirectory does not contain a .psd1 file for the script, it searches for a .psd1 file for the script in a subdirectory with the name of the language code, such as “de” or “ar”. If it cannot find the subdirectory or .psd1 file, the command fails, the data is displayed in the default language in the script, and an error message is displayed explaining that the data could not be imported. To suppress the message and fail gracefully, use the ErrorAction common parameter with a value of SilentlyContinue.

        If Import-LocalizedData finds the subdirectory and the .psd1 file, it imports the hash table of user messages into the value of the BindingVariable parameter in the command. Then, when you display a message from the hash table in the Variable, the localized message is displayed.

        For more information, see about_script_internationalization.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Import-LocalizedData -BindingVariable messages

    Description
    ———–
    This command imports text strings into the $messages Variable. It uses all of the default values for the cmdlet parameters.

    If the command is included in the Archives.ps1 script in the C:\test directory, and the value of the $PsUICulture automatic Variable is zh-CN, Import-LocalizedData imports the Archives.psd1 file in the C:\test\zh-CN directory.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Import-LocalizedData -BindingVariable msgTbl -UICulture ar-SA -FileName Simple -BaseDirectory C:\Data\Localized

    Description
    ———–
    This command imports text strings into the $msgTbl Variable of a script.

    It uses the UICulture parameter to direct the cmdlet to import data from the Simple.psd1 file in the ar-SA subdirectory of C:\Data\Localized.

    ————————– EXAMPLE 3 ————————–

    C:\PS># In C:\Test\en-US\test.psd1:

    ConvertFrom-StringData @’
     # English strings
    Msg1 = “The Name parameter is missing from the command.”
    Msg2 = “This command requires the credentials of a member of the Administrators group on the computer.”
    Msg3 = “Use $_ to represent the object that is being processed.”
    ‘@

    # In C:\Test\Test.ps1

    Import-LocalizedData -BindingVariable messages
    Write-Host $messages.msg2

    # In Windows PowerShell

    C:\PS> .\test.ps1
    This command requires the credentials of a member of the Administrators group on the computer.

    Description
    ———–
    This example shows how to use localized data in a simple script.

    The first part of the example shows the contents of the Test.psd1 file. It contains a ConvertFrom-StringData command that converts a series of named text strings into a hash table. The test.psd1 file is located in the en-US subdirectory of the C:\Test directory that contains the script.

    The second part of the example shows the contents of the Test.ps1 script. It contains an Import-LocalizedData command that imports the data from the matching .psd1 file into the $Messages Variable and a Write-Host command that writes one of the messages in the $Messages Variable to the host program.

    The last part of the example runs the script. The output shows that it displays the correct user message in the UI language set for the current user of the operating system.

    ————————– EXAMPLE 4 ————————–

    C:\PS># In TestScript.ps1

    $UserMessages = DATA {
        ConvertFrom-StringData @’
        # English strings
            Msg1 = “Enter a name.”
            Msg2 = “Enter your employee ID.”
            Msg3 = “Enter your building number.”
    ‘@ }

    Import-LocalizedData -BindingVariable UserMessages

    $UserMessages.Msg1
    …

    Description
    ———–
    This example shows how to use Import-LocalizedData to replace default text strings defined in the DATA section of a script.

    In this example, the DATA section of the TestScript.ps1 script contains a ConvertFrom-StringData command that converts the contents of the DATA section to a hash table and stores in the value of the $UserMessages Variable.

    The script also includes an Import-LocalizedData command, which imports a hash table of translated text strings from the TestScript.psd1 file in the subdirectory specified by the value of the $PsUICulture Variable. If the command finds the .psd1 file, it saves the translated strings from the file in the value of the same $UserMessages Variable, overwriting the hash table saved by the DATA section logic.

    The third command displays the first message in the $UserMessages Variable.

    If the Import-LocalizedData command finds a .psd1 file for the $PsUICulture language, the value of the $UserMessages Variable contains the translated text strings. If the command fails for any reason, the command displays the default text strings defined in the DATA section of the script.

    ————————– EXAMPLE 5 ————————–

    C:\PS># In Day1.ps1
    Import-LocalizedData -BindingVariable Day
    Day.MessageDate

    # In Day2.ps1
    Import-LocalizedData -BindingVariable Day -ErrorAction:silentlycontinue
    Day.MessageDate

    C:\PS> .\Day1.ps1

    Import-LocalizedData : Cannot find PowerShell data file ‘Day1.psd1’ in directory ‘C:\ps-test\fr-BE\’ or any parent culture directories.
    At C:\ps-test\Day1.ps1:17 char:21
    + Import-LocalizedData <<<< Day
    Today is Tuesday

    C:\PS> .\Day2.ps1

    Today is Tuesday

    Description
    ———–
    This example shows how to suppress the error messages that appear when Import-LocalizedData cannot find the directories that match the user’s UI culture or cannot find a .psd1 file for the script in those directories.

    You can use the ErrorAction common parameter with a value of “SilentlyContinue” to suppress the error message. This is especially useful when you have provided user messages in a default or “fallback” language, and no error message is needed.

    This example compares two scripts, Day1.ps1 and Day2.ps1, that include an Import-LocalizedData command. The scripts are identical, except that Day2 uses the ErrorAction common parameter with a value of SilentlyContinue.

    The sample output shows the results of running both scripts when the UI culture is set to fr-BE and there are no matching files or directories for that UI culture. Day1.ps1 displays an error message and English output. Day2.ps1 just displays the English output.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=113342
    about_script_internationalization

Import-Module

NAME
    Import-Module

SYNOPSIS
    Adds modules to the current session.

SYNTAX
    Import-Module [-Name] <string[]> [-Alias <string[]>] [-ArgumentList <Object[]>] [-AsCustomObject] [-Cmdlet <string[]>] [-Force] [-Function <string[]>] [-Global] [-PassThru] [-Prefix <string>] [-Variable <string[]>] [-Version <Version>] [<CommonParameters>]

    Import-Module [-Assembly] <Assembly[]> [-Alias <string[]>] [-ArgumentList <Object[]>] [-AsCustomObject] [-Cmdlet <string[]>] [-Force] [-Function <string[]>] [-Global] [-PassThru] [-Prefix <string>] [-Variable <string[]>] [-Version <Version>] [<CommonParameters>]

    Import-Module [-ModuleInfo] <PSModuleInfo[]> [-Alias <string[]>] [-ArgumentList <Object[]>] [-AsCustomObject] [-Cmdlet <string[]>] [-Force] [-Function <string[]>] [-Global] [-PassThru] [-Prefix <string>] [-Variable <string[]>] [-Version <Version>] [<CommonParameters>]

DESCRIPTION
    The Import-Module cmdlet adds one or more modules to the current session.

    A module is a package that contains members (such as cmdlets, providers, scripts, Functions, Variables, and other tools and files) that can be used in Windows PowerShell. After a module is imported, you can use the module members in your session.

    To import a module, use the Name, Assembly, or ModuleInfo parameter to identify the module to import. By default, Import-Module imports all members that the module exports, but you can use the Alias, Function, Cmdlet, and Variable parameters to restrict the members that are imported.

    Import-Module imports a module only into the current session. To import the module into all sessions, add an Import-Module command to your Windows PowerShell profile. For more information about profiles, see about_profiles.

    For more information about modules, see about_modules.

PARAMETERS
    -Alias <string[]>
        Imports only the specified Aliases from the module into the current session. Enter a comma-separated list of Aliases. Wildcard characters are permitted.

        Some modules automatically export selected Aliases into your session when you import the module. This parameter lets you select from among the exported Aliases.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? true

    -ArgumentList <Object[]>
        Specifies arguments (parameter values) that are passed to a script module during the Import-Module command. This parameter is valid only when you are importing a script module.

        You can also refer to ArgumentList by its Alias, “args”. For more information, see about_aliases.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -AsCustomObject [<SwitchParameter>]
        Returns a custom object with members that represent the imported module members. This parameter is valid only for script modules.

        When you use the AsCustomObject parameter, Import-Module imports the module members into the session and then returns a PSCustomObject object instead of a PSModuleInfo object. You can save the custom object in a Variable and use dot notation to invoke the members.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Assembly <Assembly[]>
        Imports the cmdlets and providers implemented in the specified assembly objects. Enter a Variable that contains assembly objects or a command that creates assembly objects. You can also pipe an assembly object to Import-Module.

        When you use this parameter, only the cmdlets and providers implemented by the specified assemblies are imported. If the module contains other files, they are not imported, and you might be missing important members of the module. Use this parameter for debugging and testing the module, or when you are instructed to use it by the module author.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue)
        Accept wildcard characters? false

    -Cmdlet <string[]>
        Imports only the specified cmdlets from the module into the current session. Enter a list of cmdlets. Wildcard characters are permitted.

        Some modules automatically export selected cmdlets into your session when you import the module. This parameter lets you select from among the exported cmdlets.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? true

    -Force [<SwitchParameter>]
        Re-imports a module and its members, even if the module or its members have an access mode of read-only.

        Required?                    false
        Position?                    named
        Default value                False
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Function <string[]>
        Imports only the specified Functions from the module into the current session. Enter a list of Functions. Wildcard characters are permitted.

        Some modules automatically export selected Functions into your session when you import the module. This parameter lets you select from among the exported Functions.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? true

    -Global [<SwitchParameter>]
        When used in a script module (.psm1), this parameter imports modules into the global session state.

        This parameter is effective only when it appears in a script module. Otherwise, it is ignored.

        By default, the commands in a script module, including commands from nested modules, are imported into the caller’s session state. To restrict the commands that a module exports, use an Export-ModuleMember command in the script module.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ModuleInfo <PSModuleInfo[]>
        Specifies module objects to import. Enter a Variable that contains the module objects, or a command that gets the module objects, such as a “Get-Module -listavailable” command. You can also pipe module objects to Import-Module.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue)
        Accept wildcard characters? false

    -Name <string[]>
        Specifies the names of the modules to import. Enter the name of the module or the name of a file in the module, such as a .psd1, .psm1, .dll, or ps1 file. File paths are optional. Wildcards are not permitted. You can also pipe module names and file names to Import-Module.

        If you omit a path, Import-Module looks for the module in the paths saved in the PSModulePath Environment Variable ($env:PSModulePath).

        Specify only the module name whenever possible. When you specify a file name, only the members that are implemented in that file are imported. If the module contains other files, they are not imported, and you might be missing important members of the module.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue)
        Accept wildcard characters? false

    -PassThru [<SwitchParameter>]
        Returns objects that represent the modules that were imported. By default, this cmdlet does not generate any output.

        Notes
        — When you pipe the output of a “Get-Module -listavailable” command to an Import-Module command with the PassThru parameter, Import-Module returns the object that Get-Module passed to it without updating the object. As a result, the Exported and NestedModules properties are not yet populated.

        — When you use the Prefix parameter to specify a prefix for the member, the prefix does not appear in the member names in the properties of the module object. The object records what was exported before the prefix was applied.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Prefix <string>
        Adds the specified prefix to the nouns in the names of imported module members.

        Use this parameter to avoid name conflicts that might occur when different members in the session have the same name. This parameter does not change the module, and it does not affect files that the module imports for its own use (known as “nested modules”). It affects only the names of members in the current session.

        For example, if you specify the prefix “UTC” and then import a Get-Date cmdlet, the cmdlet is known in the session as Get-UTCDate, and it is not confused with the original Get-Date cmdlet.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Variable <string[]>
        Imports only the specified Variables from the module into the current session. Enter a list of Variables. Wildcard characters are permitted.

        Some modules automatically export selected Variables into your session when you import the module. This parameter lets you select from among the exported Variables.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? true

    -Version <Version>
        Specifies the version of the module to import. Use this parameter when you have different versions of the same module on your system.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    System.String, System.Management.Automation.PSModuleInfo, System.Reflection.Assembly
        You can pipe a module name, module object, or assembly object to Import-Module.

OUTPUTS
    None, System.Management.Automation.PSModuleInfo, or System.Management.Automation.PSCustomObject
        By default, Import-Module does not generate any output. If you use the PassThru parameter, it generates a System.Management.Automation.PSModuleInfo object that represents the module. If you use the AsCustomObject parameter, it generates a PSCustomObject object.

NOTES

        You can also refer to Import-Module by its Alias, “ipmo”. For more information, see about_aliases.

        Before you can import a module, the module directory must be copied to a directory that is accessible to your local computer. For more information, see about_modules.

        Module members run in their own private module session state, so the commands that they use for internal processing do not affect your session state.

        If you import members with the same name and the same type into your session, Windows PowerShell uses the member imported last by default. Variables and Aliases are replaced, and the originals are not accessible. Functions, cmdlets and providers are merely “shadowed” by the new members, and they can be accessed by qualifying the command name with the name of its snap-in, module, or Function path.

        To update the formatting data for commands that have been imported from a module, use the Update-FormatData cmdlet. Update-FormatData also updates the formatting data for commands in the session that were imported from modules. If the formatting file for a module changes, you can run an Update-FormatData command to update the formatting data for imported commands. You do not need to import the module again.

        To import a module that is created by Import-PSSession or Export-PSSession, the execution policy in the current session cannot be Restricted or AllSigned, because the modules that Import-PSSession and Export-PSSession create contains unsigned script files that are prohibited by these policies. To use Import-Module without changing the execution policy for the local computer, use the Scope parameter of Set-ExecutionPolicy to set a less restrictive execution policy for a single process.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Import-Module -Name BitsTransfer

    Description
    ———–
    This command imports the members of the BitsTransfer module into the current session.

    The Name parameter name (-Name) is optional and can be omitted.

    By default, Import-Module does not generate any output when it imports a module. To request output, use the PassThru or AsCustomObject parameter, or the Verbose common parameter.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Get-Module -listAvailable | Import-Module

    Description
    ———–
    This command imports all available modules in the path specified by the PSModulePath Environment Variable ($env:psmodulepath) into the current session.

    ————————– EXAMPLE 3 ————————–

    C:\PS>$m = Get-Module -ListAvailable BitsTransfer, ServerBackup

    C:\PS> Import-Module -moduleInfo $m

    Description
    ———–
    These commands import the members of the BitsTransfer and ServerBackup modules into the current session.

    The first command uses the Get-Module cmdlet to get PSModuleInfo objects that represent the BitsTransfer and ServerBackup modules. It saves the objects in the $m Variable. The ListAvailable parameter is required when you are getting modules that are not yet imported into the session.

    The second command uses the ModuleInfo parameter of Import-Module to import the modules into the current session.

    These commands are equivalent to using a pipeline operator (|) to send the output of a Get-Module command to Import-Module.

    ————————– EXAMPLE 4 ————————–

    C:\PS>Import-Module -Name c:\ps-test\modules\test -Verbose

    VERBOSE: Loading module from path ‘C:\ps-test\modules\Test\Test.psm1’.
    VERBOSE: Exporting Function ‘my-parm’.
    VERBOSE: Exporting Function ‘get-parm’.
    VERBOSE: Exporting Function ‘get-spec’.
    VERBOSE: Exporting Function ‘get-specDetails’.

    Description
    ———–
    This command uses an explicit path to identify the module to import.

    It also uses the Verbose common parameter to get a list of the items imported from the module. Without the Verbose, PassThru, or AsCustomObject parameter, Import-Module does not generate any output when it imports a module.

    ————————– EXAMPLE 5 ————————–

    C:\PS>Import-Module BitsTransfer -Cmdlet Add-BitsTransferFile, Get-BitsTransfer

    C:\PS> Get-Module BitsTransfer

    Name             : BitsTransfer
    Path             : C:\Windows\system32\WindowsPowerShell\v1.0\Modules\BitsTransfer\BitsTransfer.psd1
    Description     :
    Guid             : 8fa5064b-8479-4c5c-86ea-0d311fe48875
    Version         : 1.0.0.0
    ModuleBase        : C:\Windows\system32\WindowsPowerShell\v1.0\Modules\BitsTransfer
    ModuleType        : Manifest
    PrivateData     :
    AccessMode        : ReadWrite
    ExportedAliases : {}
    ExportedCmdlets : {[Add-BitsTransfer, Add-BitsTransfer], [Complete-BitsTransfer, Complete-BitsTransfer], [Get-BitsTransfer, Get-BitsTransfer], [Rem
                        ove-BitsTransfer, Remove-BitsTransfer]…}
    ExportedFunctions : {}
    ExportedVariables : {}
    NestedModules     : {Microsoft.BackgroundIntelligentTransfer.Management}

    C:\PS> Get-Command -module BitsTransfer

    CommandType Name                Definition
    ———– —-                ———-
    Cmdlet     Add-BitsTransfer    Add-BitsTransfer [-BitsJob] <BitsJob[]> [-Source] <String[]> [[-Destination] <String[]>] [-Verbose] [-Debug] [-ErrorA…
    Cmdlet     Get-BitsTransfer    Get-BitsTransfer [[-Name] <String[]>] [-AllUsers] [-Verbose] [-Debug] [-ErrorAction <ActionPreference>] [-WarningActi…

    Description
    ———–
    This example shows how to restrict the module members that are imported into the session and the effect of this command on the session.

    The first command imports only the Add-BitsTransfer and Get-BitsTransfer cmdlets from the BitsTransfer module. The command uses the Cmdlet parameter to restrict the cmdlets that the module imports. You can also use the Alias, Variable, and Function parameters to restrict other members that a module imports.

    The second command uses the Get-Module cmdlet to get the object that represents the BitsTransfer module. The ExportedCmdlets property lists all of the cmdlets that the module exports, even when they were not all imported.

    The third command uses the Module parameter of the Get-Command cmdlet to get the commands that were imported from the BitsTransfer module. The results confirm that only the Add-BitsTransfer and Get-BitsTransfer cmdlets were imported.

    ————————– EXAMPLE 6 ————————–

    C:\PS>Import-Module BitsTransfer -Prefix PS -PassThru

    Name             : bitstransfer
    Path             : C:\Windows\system32\WindowsPowerShell\v1.0\Modules\bitstransfer\bitstransfer.psd1
    Description     :
    Guid             : 8fa5064b-8479-4c5c-86ea-0d311fe48875
    Version         : 1.0.0.0
    ModuleBase        : C:\Windows\system32\WindowsPowerShell\v1.0\Modules\bitstransfer
    ModuleType        : Manifest
    PrivateData     :
    AccessMode        : ReadWrite
    ExportedAliases : {}
    ExportedCmdlets : {[Add-BitsTransfer, Add-BitsTransfer], [Remove-BitsTransfer, Remove-BitsTransfer], [Complete-BitsTransfer, Complete-BitsTransfer]
                        , [Get-BitsTransfer, Get-BitsTransfer]…}
    ExportedFunctions : {}
    ExportedVariables : {}
    NestedModules     : {Microsoft.BackgroundIntelligentTransfer.Management}

    C:\PS> Get-Command -module bitstransfer

    CommandType     Name                        Definition
    ———–     —-                        ———-
    Cmdlet         Add-PSBitsTransfer         Add-PSBitsTransfer [-BitsJob] <BitsJob[]> [-Source] <String[]> …
    Cmdlet         Complete-PSBitsTransfer     Complete-PSBitsTransfer [-BitsJob] <BitsJob[]> [-Verbose] [-Deb…
    Cmdlet         Get-PSBitsTransfer         Get-PSBitsTransfer [[-Name] <String[]>] [-AllUsers] [-Verbose] …
    Cmdlet         Remove-PSBitsTransfer     Remove-PSBitsTransfer [-BitsJob] <BitsJob[]> [-Verbose] [-Debug
    Cmdlet         Resume-PSBitsTransfer     Resume-PSBitsTransfer [-BitsJob] <BitsJob[]> [-Asynchronous] [-…
    Cmdlet         Set-PSBitsTransfer         Set-PSBitsTransfer [-BitsJob] <BitsJob[]> [-DisplayName <String…
    Cmdlet         Start-PSBitsTransfer        Start-PSBitsTransfer [[-Source] <String[]>] [[-Destination] <St…
    Cmdlet         Suspend-PSBitsTransfer     Suspend-PSBitsTransfer [-BitsJob] <BitsJob[]> [-Verbose] [-Debu…

    Description
    ———–
    These commands import the BitsTransfer module into the current session, add a prefix to the member names, and then display the prefixed member names.

    The first command uses the Import-Module cmdlet to import the BitsTransfer module. It uses the Prefix parameter to add the PS prefix to all members that are imported from the module and the PassThru parameter to return a module object that represents the imported module.

    The module object that the command returns has an ExportedCmdlets property that lists the exported members. The prefix does not appear in the cmdlet names, because it is applied after the members are exported (but before they are imported).

    The second command uses the Get-Command cmdlet to get the members that have been imported from the module. It uses the Module parameter to specify the module. The output shows that the module members were correctly prefixed.

    The prefix that you use applies only to the members in the current session. It does not change the module.

    ————————– EXAMPLE 7 ————————–

    C:\PS>Get-Module -list | Format-Table -property name, moduletype -auto

    Name         ModuleType
    —-         ———-
    Show-Calendar     Script
    BitsTransfer    Manifest
    PSDiagnostics Manifest
    TestCmdlets     Script

    C:\PS> $a = Import-Module -Name Show-Calendar -AsCustomObject

    C:\PS> $a | Get-Member

     TypeName: System.Management.Automation.PSCustomObject

    Name         MemberType Definition
    —-         ———- ———-
    Equals        Method     bool Equals(System.Object obj)
    GetHashCode Method     int GetHashCode()
    GetType     Method     type GetType()
    ToString     Method     string ToString()
    Show-Calendar ScriptMethod System.Object Show-Calendar();

    C:\PS> $a.”show-calendar”()

    Description
    ———–
    These commands demonstrate how to get and use the custom object that Import-Module returns.

    Custom objects include synthetic members that represent each of the imported module members. For example, the cmdlets and Functions in a module are converted to script methods of the custom object.

    Custom objects are very useful in scripting. They are also useful when several imported objects have the same names. Using the script method of an object is equivalent to specifying the fully qualified name of an imported member, including its module name.

    The AsCustomObject parameter can be used only with a script module, so the first task is to determine which of the available modules is a script module.

    The first command uses the Get-Module cmdlet to get the available modules. The command uses a pipeline operator (|) to pass the module objects to the Format-Table cmdlet, which lists the Name and ModuleType of each module in a table.

    The second command uses the Import-Module cmdlet to import the Show-Calendar script module. The command uses the AsCustomObject parameter to request a custom object. The command saves the resulting custom object in the $a Variable.

    The third command uses a pipeline operator to send the $a Variable to the Get-Member cmdlet, which gets the properties and methods of the PSCustomObject in $a. The output shows a Show-Calendar script method.

    The last command uses the Show-Calendar script method. The method name must be enclosed in quotation marks, because it includes a hyphen.

    ————————– EXAMPLE 8 ————————–

    C:\PS>Import-Module BitsTransfer

    C:\PS> Import-Module BitsTransfer -Force -Prefix PS

    Description
    ———–
    This example shows how to use the Force parameter of Import-Module when you are re-importing a module into the same session.

    The first command imports the BitsTransfer module. The second command imports the module again, this time using the Prefix parameter.

    The second command also includes the Force parameter, which removes the module and then imports it again. Without this parameter, the session would include two copies of each BitsTransfer cmdlet, one with the standard name and one with the prefixed name.

    ————————– EXAMPLE 9 ————————–

    C:\PS>Get-Date

    Saturday, September 12, 2009 6:47:04 PM

    C:\PS> Import-Module TestModule

    C:\PS> Get-Date
    09255

    C:\PS> Get-Command Get-Date | Format-Table -property commandtype, name, pssnapin, module -auto

    CommandType Name     pssnapin                     Module
    ———– —-     ——–                     ——
     Function Get-Date                                 TestModule
         Cmdlet Get-Date Microsoft.PowerShell.Utility

    C:\PS> Microsoft.PowerShell.Utility\Get-Date

    Saturday, September 12, 2009 6:33:23 PM

    Description
    ———–
    This example shows how to run commands that have been hidden by imported commands.

    The first command run the Get-Date cmdlet that comes with Windows PowerShell. It returns a DateTime object with the current date.

    The second command imports the TestModule module. This module includes a Function named Get-Date that returns the Julian date.

    The third command runs the Get-Date command again. Because Functions take precedence over cmdlets, the Get-Date Function from the TestModule module ran, instead of the Get-Date cmdlet.

    The fourth command shows that there are two Get-Date commands in the session, a Function from the TestModule module and a cmdlet from the Microsoft.PowerShell.Utility snap-in.

    The fifth command runs the hidden cmdlet by qualifying the command name with the snap-in name.

    For more information about command precedence in Windows PowerShell, see about_command_precedence.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=141553
    Get-Module
    New-Module
    Remove-Module
    Export-ModuleMember
    about_modules

Import-PSSession

NAME
    Import-PSSession

SYNOPSIS
    Imports commands from another session into the current session.

SYNTAX
    Import-PSSession [-Session] <PSSession> [[-CommandName] <string[]>] [[-FormatTypeName] <string[]>] [-AllowClobber] [-ArgumentList <Object[]>] [-CommandType {Alias | Function | Filter | Cmdlet | ExternalScript | Application | Script | All}] [-Module <string[]>] [-Prefix <string>] [<CommonParameters>]

DESCRIPTION
    The Import-PSSession cmdlet imports commands (such as cmdlets, Functions, and Aliases) from a PSSession on a local or remote computer into the current session. You can import any command that Get-Command can find in the PSSession.

    Use an Import-PSSession command to import commands from a customized shell, such as a Microsoft Exchange Server shell, or from a session that includes Windows PowerShell modules and snap-ins or other elements that are not in the current session.

    To import commands, first use the New-PSSession cmdlet to create a PSSession. Then, use the Import-PSSession cmdlet to import the commands. By default, Import-PSSession imports all commands except for commands that have the same names as commands in the current session. To import all the commands, use the AllowClobber parameter.

    You can use imported commands just as you would use any command in the session. When you use an imported command, the imported part of the command runs implicitly in the session from which it was imported. However, the remote operations are handled entirely by Windows PowerShell. You need not even be aware of them, except that you must keep the connection to the other session (PSSession) open. If you close it, the imported commands are no longer available.

    Because imported commands might take longer to run than local commands, Import-PSSession adds an AsJob parameter to every imported command. This parameter allows you to run the command as a Windows PowerShell background job. For more information, see about_jobs.

    When you use Import-PSSession, Windows PowerShell adds the imported commands to a temporary module that exists only in your session and returns an object that represents the module. To create a persistent module that you can use in future sessions, use the Export-PSSession cmdlet.

    The Import-PSSession cmdlet uses the implicit remoting feature of Windows PowerShell. When you import commands into the current session, they run implicitly in the original session or in a similar session on the originating computer.

PARAMETERS
    -AllowClobber [<SwitchParameter>]
        Imports the specified commands, even if they have the same names as commands in the current session.

        If you import a command with the same name as a command in the current session, the imported command hides or replaces the original commands. For more information, see about_command_precedence.

        By default, Import-PSSession does not import commands that have the same name as commands in the current session.

        Required?                    false
        Position?                    named
        Default value                False
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ArgumentList <Object[]>
        Imports the variant of the command that results from using the specified arguments (parameter values).

        For example, to import the variant of the Get-Item command in the Certificate (Cert:) drive in the PSSession in $s, type “Import-PSSession -Session $s -command Get-Item -ArgumentList cert:”.

        Required?                    false
        Position?                    named
        Default value                All command in the PSSession, except for commands with the same names as commands in the current session.
        Accept pipeline input?     false
        Accept wildcard characters? false

    -CommandName <string[]>
        Imports only the commands with the specified names or name patterns. Wildcards are permitted. Use “CommandName” or its Alias, “Name”.

        By default, Import-PSSession imports all commands from the session, except for commands that have the same names as commands in the current session. This prevents imported commands from hiding or replacing commands in the session. To import all commands, even those that hide or replace other commands, use the AllowClobber parameter.

        If you use the CommandName parameter, the formatting files for the commands are not imported unless you use the FormatTypeName parameter. Similarly, if you use the FormatTypeName parameter, no commands are imported unless you use the CommandName parameter.

        Required?                    false
        Position?                    3
        Default value                All commands in the PSSession, except for commands with the same names as commands in the current session.
        Accept pipeline input?     false
        Accept wildcard characters? true

    -CommandType <CommandTypes>
        Imports only the specified types of command objects. The default value is Cmdlet. Use “CommandType” or its Alias, “Type”.

        Valid values are:
        — Alias: The Windows PowerShell Aliases in the remote session.
        — All: The cmdlets and Functions in the remote session.
        — Application: All the files other than Windows-PowerShell files in the paths that are listed in the Path Environment Variable ($env:path) in the remote session, including .txt, .exe, and .dll files.
        — Cmdlet: The cmdlets in the remote session. “Cmdlet” is the default.
        — ExternalScript: The .ps1 files in the paths listed in the Path Environment Variable ($env:path) in the remote session.
        — Filter and Function: The Windows PowerShell Functions in the remote session.
        — Script: The script blocks in the remote session.

        Required?                    false
        Position?                    named
        Default value                All command in the PSSession, except for commands with the same names as commands in the current session.
        Accept pipeline input?     false
        Accept wildcard characters? false

    -FormatTypeName <string[]>
        Imports formatting instructions for the specified Microsoft .NET Framework types. Enter the type names. Wildcards are permitted.

        The value of this parameter must be the name of a type that is returned by a Get-FormatData command in the session from which the commands are being imported. To get all of the formatting data in the remote session, type *.

        If the command does not include either the CommandName or FormatTypeName parameters, Import-PSSession
        imports formatting instructions for all .NET Framework types returned by a Get-FormatData command in the remote session.

        If you use the FormatTypeName parameter, no commands are imported unless you use the CommandName parameter.
        Similarly, if you use the CommandName parameter, the formatting files for the commands are not imported unless you use the FormatTypeName parameter.

        Required?                    false
        Position?                    4
        Default value                Types in the System.Management.Automation namespace
        Accept pipeline input?     false
        Accept wildcard characters? true

    -Module <string[]>
        Imports only the commands in the specified Windows PowerShell snap-ins and modules. Enter the snap-in and module names. Wildcards are not permitted.

        For more information, see about_PSSnapins and Import-Module.

        Required?                    false
        Position?                    named
        Default value                All command in the PSSession, except for commands with the same names as commands in the current session.
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Prefix <string>
        Adds the specified prefix to the nouns in the names of imported commands.

        Use this parameter to avoid name conflicts that might occur when different commands in the session have the same name.
        For example, if you specify the prefix “Remote” and then import a Get-Date cmdlet, the cmdlet is known in the session as Get-RemoteDate and it is not confused with the original Get-Date cmdlet.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Session <PSSession>
        Specifies the PSSession from which the cmdlets are imported. Enter a Variable that contains a session object or a command that gets a session object, such as a New-PSSession or Get-PSSession command. You can specify only one session. This parameter is required.

        Required?                    true
        Position?                    1
        Default value                None
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    None
        You cannot pipe objects to this cmdlet.

OUTPUTS
    System.Management.Automation.PSModuleInfo
        Import-PSSession returns the same module object that New-Module and Get-Module return. However, the imported module is temporary and exists only in the current session. To create a permanent module on disk, use the Export-PSSession cmdlet.

NOTES

        Import-PSSession relies on the Windows PowerShell remoting infrastructure. To use this cmdlet, the computer must be configured for WS-Management remoting. For more information, see about_remote and about_remote_requirements.

        You cannot use Import-PSSession to import Variables or Windows PowerShell providers.

        When you import commands that have the same names as commands in the current session, the imported commands can hide Aliases, Functions, and cmdlets in the session and they can replace Functions and Variables in the session. For more information, see about_command_precedence.

        Import-PSSession converts all commands into Functions before it imports them. As a result, imported commands behave a bit differently than they would if they retained their original command type. For example, if you import a cmdlet from a PSSession and then import a cmdlet with the same name from a module or snap-in, the cmdlet that is imported from the PSSession always runs by default because Functions take precedence over cmdlets. Conversely, if you import an Alias into a session that has an Alias with the same name, the original Alias is always used, because Aliases take precedence over Functions. For more information, see about_command_precedence.

        Import-PSSession uses the Write-Progress cmdlet to display the progress of the command. You might see the progress bar while the command is running.

        To find the commands to import, Import-PSSession uses the Invoke-Command cmdlet to run a Get-Command command in the PSSession. To get formatting data for the commands, it uses the Get-FormatData cmdlet. You might see error messages from Invoke-Command, Get-Command, and Get-FormatData when you run an Import-PSSession command. Also, Import-PSSession cannot import commands from a PSSession that does not include the Get-Command, Get-FormatData, Select-Object, and Get-Help cmdlets.

        Imported commands have the same limitations as other remote commands, including the inability to start a program with a user interface, such as Notepad.

        Because Windows PowerShell profiles are not run in PSSessions, the commands that a profile adds to a session are not available to Import-PSSession. To import commands from a profile, use an Invoke-Command command to run the profile in the PSSession manually before importing commands.

        The temporary module that Import-PSSession creates might include a formatting file, even if the command does not import formatting data. If the command does not import formatting data, any formatting files that are created will not contain formatting data.

        To use Import-PSSession, the execution policy in the current session cannot be Restricted or AllSigned, because the module that Import-PSSession creates contains unsigned script files that are prohibited by these policies. To use Import-PSSession without changing the execution policy for the local computer, use the Scope parameter of Set-ExecutionPolicy to set a less restrictive execution policy for a single process.

    ————————– EXAMPLE 1 ————————–

    C:\PS>$s = New-PSSession -computername Server01

    C:\PS> Import-PSSession -Session $s

    Description
    ———–
    This command imports all commands from a PSSession on the Server01 computer into the current session, except for commands that have the same names as commands in the current session.

    Because this command does not use the CommandName parameter, it also imports all of the formatting data required for the imported commands.

    ————————– EXAMPLE 2 ————————–

    C:\PS>$s = New-PSSession https://ps.testlabs.com/powershell

    C:\PS> Import-PSSession -Session $s -CommandName *-test -FormatTypeName *

    C:\PS> new-test -name test1

    C:\PS> get-test test1 | run-test

    Description
    ———–
    These commands import the commands with names that end in “-test” from a PSSession into the local session, and then they show how to use an imported cmdlet.

    The first command uses the New-PSSession cmdlet to create a PSSession. It saves the PSSession in the $s Variable.

    The second command uses the Import-PSSession cmdlet to import commands from the PSSession in $s into the current session. It uses the CommandName parameter to specify commands with the Test noun and the FormatTypeName parameter to import the formatting data for the Test commands.

    The third and fourth commands use the imported commands in the current session. Because imported commands are actually added to the current session, you use the local syntax to run them. You do not need to use the Invoke-Command cmdlet to run an imported command.

    ————————– EXAMPLE 3 ————————–

    C:\PS>$s1 = New-PSSession -computername s1

    C:\PS> $s2 = New-PSSession -computername s2

    C:\PS> Import-PSSession -Session s1 -type cmdlet -name New-Test, Get-Test -FormatTypeName *

    C:\PS> Import-PSSession -Session s2 -type cmdlet -name Set-Test -FormatTypeName *

    C:\PS> new-test Test1 | set-test -runtype full

    Description
    ———–
    This example shows that you can use imported cmdlets just as you would use local cmdlets.

    These commands import the New-Test and Get-Test cmdlets from a PSSession on the Server01 computer and the Set-Test cmdlet from a PSSession on the Server02 computer.

    Even though the cmdlets were imported from different PSSessions, you can pipe an object from one cmdlet to another without error.

    ————————– EXAMPLE 4 ————————–

    C:\PS>$s = New-PSSession -computername Server01

    C:\PS> Import-PSSession -Session $s -CommandName *-test* -FormatTypeName *

    C:\PS> $batch = new-test -name Batch -asjob

    C:\PS> Receive-Job $batch

    Description
    ———–
    This example shows how to run an imported command as a background job.

    Because imported commands might take longer to run than local commands, Import-PSSession adds an AsJob parameter to every imported command. The AsJob parameter lets you run the command as a background job.

    The first command creates a PSSession on the Server01 computer and saves the PSSession object in the $s Variable.

    The second command uses Import-PSSession to import the Test cmdlets from the PSSession in $s into the current session.

    The third command uses the AsJob parameter of the imported New-Test cmdlet to run a New-Test command as a background job. The command saves the job object that New-Test returns in the $batch Variable.

    The fourth command uses the Receive-Job cmdlet to get the results of the job in the $batch Variable.

    ————————– EXAMPLE 5 ————————–

    C:\PS>$s = New-PSSession -comp Server01

    C:\PS> Invoke-Command -Session $s {Import-Module TestManagement}

    C:\PS> Import-PSSession -Session $s -Module TestManagement

    Description
    ———–
    This example shows how to import the cmdlets and Functions from a Windows PowerShell module on a remote computer into the current session.

    The first command creates a PSSession on the Server01 computer and saves it in the $s Variable.

    The second command uses the Invoke-Command cmdlet to run an Import-Module command in the PSSession in $s.

    Typically, the module would be added to all sessions by an Import-Module command in a Windows PowerShell profile, but profiles are not run in PSSessions.

    The third command uses the Module parameter of Import-PSSession to import the cmdlets and Functions in the module into the current session.

    ————————– EXAMPLE 6 ————————–

    C:\PS>Import-PSSession $s -CommandName Get-Date, SearchHelp -FormatTypeName * -AllowClobber

    Name             : tmp_79468106-4e1d-4d90-af97-1154f9317239_tcw1zunz.ttf
    Path             : C:\Users\User01\AppData\Local\Temp\tmp_79468106-4e1d-4d90-af97-1154f9317239_tcw1zunz.ttf\tmp_79468106-4e1d-4d90-af97-1154f9317239_
                        tcw1zunz.ttf.psm1
    Description     : Implicit remoting for http://server01.corp.fabrikam.com/wsman
    Guid             : 79468106-4e1d-4d90-af97-1154f9317239
    Version         : 1.0
    ModuleBase        : C:\Users\User01\AppData\Local\Temp\tmp_79468106-4e1d-4d90-af97-1154f9317239_tcw1zunz.ttf
    ModuleType        : Script
    PrivateData     : {ImplicitRemoting}
    AccessMode        : ReadWrite
    ExportedAliases : {}
    ExportedCmdlets : {}
    ExportedFunctions : {[Get-Date, Get-Date], [SearchHelp, SearchHelp]}
    ExportedVariables : {}
    NestedModules     : {}

    Description
    ———–
    This example shows that Import-PSSession creates a module in a temporary file on disk. It also shows that all commands are converted into Functions before they are imported into the current session.

    The command uses the Import-PSSession cmdlet to import a Get-Date cmdlet and a SearchHelp Function into the current session.

    The Import-PSSession cmdlet returns a PSModuleInfo object that represents the temporary module. The value of the Path property shows that Import-PSSession created a script module (.psm1) file in a temporary location. The ExportedFunctions property shows that the Get-Date cmdlet and the SearchHelp Function were both imported as Functions.

    ————————– EXAMPLE 7 ————————–

    C:\PS>Import-PSSession $s -CommandName Get-Date -FormatTypeName * -AllowClobber

    C:\PS> Get-Command Get-Date

    CommandType Name     Definition
    ———– —-     ———-
    Function     Get-Date
    Cmdlet        Get-Date Get-Date [[-Date] <DateTime>] [-Year <Int32>] [-Month <Int32>]

    C:\PS> Get-Date
    09074

    C:\PS> (Get-Command -type cmdlet -name Get-Date).pssnapin.name
    Microsoft.PowerShell.Utility

    C:\PS> Microsoft.PowerShell.Utility\Get-Date

    Sunday, March 15, 2009 2:08:26 PM

    Description
    ———–
    This example shows how to run a command that is hidden by an imported command.

    The first command imports a Get-Date cmdlet from the PSSession in the $s Variable. Because the current session includes a Get-Date cmdlet, the AllowClobber parameter is required in the command.

    The second command uses the Get-Command cmdlet to get the Get-Date commands in the current session. The output shows that the session includes the original Get-Date cmdlet and a Get-Date Function. The Get-Date Function runs the imported Get-Date cmdlet in the PSSession in $s.

    The third command runs a Get-Date command. Because Functions take precedence over cmdlets, Windows PowerShell runs the imported Get-Date Function, which returns a Julian date.

    The fourth and fifth commands show how to use a qualified name to run a command that is hidden by an imported command.

    The fourth command gets the name of the Windows PowerShell snap-in that added the original Get-Date cmdlet to the current session.

    The fifth command uses the snap-in-qualified name of the Get-Date cmdlet to run a Get-Date command.

    For more information about command precedence and hidden commands, see about_command_precedence.

    ————————– EXAMPLE 8 ————————–

    C:\PS>Import-PSSession -Session $s -CommandName *Item* -AllowClobber

    Description
    ———–
    This command imports commands whose names include “Item” from the PSSession in $s. Because the command includes the CommandName parameter but not the FormatTypeData parameter, only the command is imported.

    Use this command when you are using Import-PSSession to run a command on a remote computer and you already have the formatting data for the command in the current session.

    ————————– EXAMPLE 9 ————————–

    C:\PS>$m = Import-PSSession -Session $s -CommandName *bits* -FormatTypeName *bits*

    C:\PS> Get-Command -Module $m

    CommandType     Name
    ———–     —-
    Function        Add-BitsFile
    Function        Complete-BitsTransfer
    Function        Get-BitsTransfer
    Function        Remove-BitsTransfer
    Function        Resume-BitsTransfer
    Function        Set-BitsTransfer
    Function        Start-BitsTransfer
    Function        Suspend-BitsTransfer

    Description
    ———–
    This command shows how to use the Module parameter of Get-Command to find out which commands were imported into the session by an Import-PSSession command.

    The first command uses the Import-PSSession cmdlet to import commands whose names include “bits” from the PSSession in the $s Variable. The Import-PSSession command returns a temporary module, and the command saves the module in the $m Variable.

    The second command uses the Get-Command cmdlet to get the commands that are exported by the module in the $m Variable.

    The Module parameter takes a string value, which is designed for the module name. However, when you submit a module object, Windows PowerShell uses the ToString method on the module object, which returns the module name.

    The Get-Command command is the equivalent of “Get-Command $m.name”.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=135221
    about_command_precedence
    New-PSSession
    Export-PSSession
    about_jobs
    about_pssessions

Invoke-Command

NAME
    Invoke-Command

SYNOPSIS
    Runs commands on local and remote computers.

SYNTAX
    Invoke-Command [-ScriptBlock] <scriptblock> [[-ComputerName] <string[]>] [-ApplicationName <string>] [-AsJob] [-Authentication {Default | Basic | Negotiate | NegotiateWithImplicitCredential | Credssp | Digest | Kerberos}] [-CertificateThumbprint <string>] [-ConfigurationName <string>] [-Credential <PSCredential>] [-HideComputerName] [-JobName <string>] [-Port <int>] [-SessionOption <PSSessionOption>] [-ThrottleLimit <int>] [-UseSSL] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-FilePath] <string> [[-ComputerName] <string[]>] [-ApplicationName <string>] [-AsJob] [-Authentication {Default | Basic | Negotiate | NegotiateWithImplicitCredential | Credssp | Digest | Kerberos}] [-ConfigurationName <string>] [-Credential <PSCredential>] [-HideComputerName] [-JobName <string>] [-Port <int>] [-SessionOption <PSSessionOption>] [-ThrottleLimit <int>] [-UseSSL] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-FilePath] <string> [[-Session] <PSSession[]>] [-AsJob] [-HideComputerName] [-JobName <string>] [-ThrottleLimit <int>] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-FilePath] <string> [[-ConnectionURI] <Uri[]>] [-AllowRedirection] [-AsJob] [-Authentication {Default | Basic | Negotiate | NegotiateWithImplicitCredential | Credssp | Digest | Kerberos}] [-ConfigurationName <string>] [-Credential <PSCredential>] [-HideComputerName] [-JobName <string>] [-SessionOption <PSSessionOption>] [-ThrottleLimit <int>] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-ScriptBlock] <scriptblock> [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-ScriptBlock] <scriptblock> [[-Session] <PSSession[]>] [-AsJob] [-HideComputerName] [-JobName <string>] [-ThrottleLimit <int>] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

    Invoke-Command [-ScriptBlock] <scriptblock> [[-ConnectionURI] <Uri[]>] [-AllowRedirection] [-AsJob] [-Authentication {Default | Basic | Negotiate | NegotiateWithImplicitCredential | Credssp | Digest | Kerberos}] [-CertificateThumbprint <string>] [-ConfigurationName <string>] [-Credential <PSCredential>] [-HideComputerName] [-JobName <string>] [-SessionOption <PSSessionOption>] [-ThrottleLimit <int>] [-ArgumentList <Object[]>] [-InputObject <psobject>] [<CommonParameters>]

DESCRIPTION
    The Invoke-Command cmdlet runs commands on a local or remote computer and returns all output from the commands, including errors. With a single Invoke-Command command, you can run commands on multiple computers.

    To run a single command on a remote computer, use the ComputerName parameter. To run a series of related commands that share data, create a PSSession (a persistent connection) on the remote computer, and then use the Session parameter of Invoke-Command to run the command in the PSSession.

    You can also use Invoke-Command on a local computer to evaluate or run a string in a script block as a command. Windows PowerShell converts the script block to a command and runs the command immediately in the current scope, instead of just echoing the string at the command line.

    Before using Invoke-Command to run commands on a remote computer, read about_remote.

PARAMETERS
    -AllowRedirection [<SwitchParameter>]
        Allows redirection of this connection to an alternate URI.

        When you use the ConnectionURI parameter, the remote destination can return an instruction to redirect to a different URI. By default, Windows PowerShell does not redirect connections, but you can use the AllowRedirection parameter to allow it to redirect the connection.

        You can also limit the number of times that the connection is redirected by setting the MaximumConnectionRedirectionCount property of the $PSSessionOption preference Variable, or the MaximumConnectionRedirectionCount property of the value of the SessionOption parameter. The default value is 5. For more information, see the description of the SessionOption parameter and the help topic for the New-PSSessionOption cmdlet.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ApplicationName <string>
        Specifies the application name segment of the connection URI. Use this parameter to specify the application name when you are not using the ConnectionURI parameter in the command.

        The default value is the value of the $PSSessionApplicationName preference Variable on the local computer. If this preference Variable is not defined, the default value is WSMan. This value is appropriate for most uses. For more information, see about_preference_variables.

        The WinRM service uses the application name to select a listener to service the connection request. The value of this parameter should match the value of the URLPrefix property of a listener on the remote computer.

        Required?                    false
        Position?                    named
        Default value                WSMan
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -ArgumentList <Object[]>
        Supplies the values of local Variables in the command. The Variables in the command are replaced by these values before the command is run on the remote computer. Enter the values in a comma-separated list. Values are associated with Variables in the order that they are listed. The Alias for ArgumentList is “Args”.

        The values in ArgumentList can be actual values, such as “1024”, or they can be references to local Variables, such as “$max”.

        To use local Variables in a command, use the following command format:
        {param($<name1>[, $<name2>]…) <command-with-local-variables>} -ArgumentList <value | $local-variable>

        The “param” keyword lists the local Variables that are used in the command. The ArgumentList parameter supplies the values of the Variables, in the order that they are listed.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -AsJob [<SwitchParameter>]
        Runs the command as a background job on a remote computer. Use this parameter to run commands that take an extensive time to complete.

        When you use AsJob, the command returns an object that represents the job, and then displays the command prompt. You can continue to work in the session while the job completes. To manage the job, use the Job cmdlets. To get the job results, use Receive-Job.

        The AsJob parameter is similar to using Invoke-Command to run a Start-Job command remotely. However, with AsJob, the job is created on the local computer, even though the job runs on a remote computer, and the results of the remote job are automatically returned to the local computer.

        For more information about Windows PowerShell background jobs, see about_jobs and about_remote_Jobs.

        Required?                    false
        Position?                    named
        Default value                None
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Authentication <AuthenticationMechanism>
        Specifies the mechanism that is used to authenticate the user’s credentials. Valid values are Default, Basic, Credssp, Digest, Kerberos, Negotiate, and NegotiateWithImplicitCredential. The default value is Default.

        CredSSP authentication is available only in Windows Vista, Windows Server 2008, and later versions of Windows.

        For information about the values of this parameter, see the description of the System.Management.Automation.Runspaces.AuthenticationMechanism enumeration in MSDN.

        CAUTION: Credential Security Service Provider (CredSSP) authentication, in which the user’s credentials are passed to a remote computer to be authenticated, is designed for commands that require authentication on more than one resource, such as accessing a remote network share. This mechanism increases the security risk of the remote operation. If the remote computer is compromised, the credentials that are passed to it can be used to control the network session.

        Required?                    false
        Position?                    named
        Default value                Default
        Accept pipeline input?     false
        Accept wildcard characters? false

    -CertificateThumbprint <string>
        Specifies the digital public key Certificate (X509) of a user account that has permission to perform this action. Enter the Certificate thumbprint of the Certificate.

        Certificates are used in client Certificate-based authentication. They can only be mapped to local user accounts; they do not work with domain accounts.

        To get a Certificate thumbprint, use the Get-Item or Get-ChildItem commands in the Windows PowerShell Cert: drive.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ComputerName <string[]>
        Specifies the computers on which the command runs. The default is the local computer.

        When you use the ComputerName parameter, Windows PowerShell creates a temporary connection that is used only to run the specified command and is then closed. If you need a persistent connection, use the Session parameter.

        Type the NETBIOS name, IP address, or fully-qualified domain name of one or more computers in a comma-separated list. To specify the local computer, type the computer name, “localhost”, or a dot (.).

        To use an IP address in the value of the ComputerName parameter, the command must include the Credential parameter. Also, the computer must be configured for HTTPS transport or the IP address of the remote computer must be included in the WinRM TrustedHosts list on the local computer. For instructions for adding a computer name to the TrustedHosts list, see “How to Add a Computer to the Trusted Host List” in about_remote_TroubleShooting.

        Note: On Windows Vista, and later versions of Windows, to include the local computer in the value of the ComputerName parameter, you must open Windows PowerShell with the “Run as administrator” option.

        Required?                    false
        Position?                    1
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -ConfigurationName <string>
        Specifies the session configuration that is used for the new PSSession.

        Enter a configuration name or the fully qualified resource URI for a session configuration. If you specify only the configuration name, the following schema URI is prepended: http://schemas.microsoft.com/powershell.

        The session configuration for a session is located on the remote computer. If the specified session configuration does not exist on the remote computer, the command fails.

        The default value is the value of the $PSSessionConfigurationName preference Variable on the local computer. If this preference Variable is not set, the default is Microsoft.PowerShell. For more information, see about_preference_variables.

        Required?                    false
        Position?                    named
        Default value                http://Schemas.Microsoft.com/PowerShell/Microsoft.PowerShell
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -ConnectionURI <Uri[]>
        Specifies a Uniform Resource Identifier (URI) that defines the connection endpoint. The URI must be fully qualified.

        The format of this string is:
            <Transport>://<ComputerName>:<Port>/<ApplicationName>

        The default value is:
            http://localhost:80/WSMAN

        Valid values for the Transport segment of the URI are HTTP and HTTPS. If you do not specify a ConnectionURI, you can use the UseSSL, ComputerName, Port, and ApplicationName parameters to specify the URI values.

        If the destination computer redirects the connection to a different URI, Windows PowerShell prevents the redirection unless you use the AllowRedirection parameter in the command.

        Required?                    false
        Position?                    1
        Default value                http://localhost:80/wsman
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -Credential <PSCredential>
        Specifies a user account that has permission to perform this action. The default is the current user.

        Type a user name, such as “User01” or “Domain01\User01”, or enter a Variable that contains a PSCredential object, such as one generated by the Get-Credential cmdlet. When you type a user name, you will be prompted for a password.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -FilePath <string>
        Runs the specified local script on one or more remote computers. Enter the path and file name of the script, or pipe a script path to Invoke-Command. The script must reside on the local computer or in a directory that the local computer can access. Use the ArgumentList parameter to specify the values of parameters in the script.

        When you use this parameter, Windows PowerShell converts the contents of the specified script file to a script block, transmits the script block to the remote computer, and runs it on the remote computer.

        Required?                    true
        Position?                    2
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -HideComputerName [<SwitchParameter>]
        Omits the computer name of each object from the output display. By default, the name of the computer that generated the object appears in the display.

        This parameter affects only the output display. It does not change the object.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -InputObject <psobject>
        Specifies input to the command. Enter a Variable that contains the objects or type a command or expression that gets the objects.

        When using InputObject, use the $input automatic Variable in the value of the ScriptBlock parameter to represent the input objects.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     true (ByValue)
        Accept wildcard characters? false

    -JobName <string>
        Specifies a friendly name for the background job. By default, jobs are named “Job<n>”, where <n> is an ordinal number. This parameter is valid only with the AsJob parameter.

        If you use the JobName parameter in a command, the command is run as a job, and Invoke-Command returns a job object, even if you do not include the AsJob parameter in the command.

        For more information about Windows PowerShell background jobs, see about_jobs.

        Required?                    false
        Position?                    named
        Default value                Job<n>
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Port <int>
        Specifies the network port on the remote computer used for this command. The default is port 80 (the HTTP port).

        Before using an alternate port, you must configure the WinRM listener on the remote computer to listen at that port. To configure the listener, type the following two commands at the Windows PowerShell prompt:

        Remove-Item -path WSMan:\Localhost\listener\listener* -recurse
        New-Item -path WSMan:\Localhost\listener -Transport http -Address * -port <port-number>

        Do not use the Port parameter unless you must. The Port set in the command applies to all computers or sessions on which the command runs. An alternate port setting might prevent the command from running on all computers.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ScriptBlock <scriptblock>
        Specifies the commands to run. Enclose the commands in curly braces ( { } ) to create a script block. This parameter is required.

        By default, any Variables in the command are evaluated on the remote computer. To include local Variables in the command, use the ArgumentList parameter.

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

    -Session <PSSession[]>
        Runs the command in the specified Windows PowerShell sessions (PSSessions). Enter a Variable that contains the PSSessions or a command that creates or gets the PSSessions, such as a New-PSSession or Get-PSSession command.

        When you create a PSSession, Windows PowerShell establishes a persistent connection to the remote computer. Use a PSSession to run a series of related commands that share data. To run a single command or a series of unrelated commands, use the ComputerName parameter.

        To create a PSSession, use the New-PSSession cmdlet. For more information, see about_pssessions.

        Required?                    false
        Position?                    1
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -SessionOption <PSSessionOption>
        Sets advanced options for the session. Enter a SessionOption object that you create by using the New-PSSessionOption cmdlet.

        The default values for the options are determined by the value of the $PSSessionOption preference Variable, if it is set. Otherwise, the session uses the system defaults.

        For a description of the session options, including the default values, see the help topic for the New-PSSessionOption cmdlet. For information about the $PSSessionOption preference Variable, see about_preference_variables.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ThrottleLimit <int>
        Specifies the maximum number of concurrent connections that can be established to run this command. If you omit this parameter or enter a value of 0, the default value, 32, is used.

        The throttle limit applies only to the current command, not to the session or to the computer.

        Required?                    false
        Position?                    named
        Default value                32
        Accept pipeline input?     false
        Accept wildcard characters? false

    -UseSSL [<SwitchParameter>]
        Uses the Secure Sockets Layer (SSL) protocol to establish a connection to the remote computer. By default, SSL is not used.

        WS-Management encrypts all Windows PowerShell content transmitted over the network. UseSSL is an additional protection that sends the data across an HTTPS, instead of HTTP.

        If you use this parameter, but SSL is not available on the port used for the command, the command fails.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    System.Management.Automation.ScriptBlock
        You can pipe a command in a script block to Invoke-Command. Use the $input automatic Variable to represent the input objects in the command.

OUTPUTS
    System.Management.Automation.PSRemotingJob or the output of the invoked command
        When you use the AsJob parameter, Invoke-Command returns a job object. Otherwise, it returns the output of the invoked command (the value of the ScriptBlock parameter).

NOTES

        — On Windows Vista, and later versions of Windows, to use the ComputerName parameter of Invoke-Command to run a command on the local computer, you must open Windows PowerShell with the “Run as administrator” option.

        — When you run commands on multiple computers, Windows PowerShell connects to the computers in the order in which they appear in the list. However, the command output is displayed in the order that it is received from the remote computers, which might be different.

        — Errors that result from the command that Invoke-Command runs are included in the command results. Errors that would be terminating errors in a local command are treated as non-terminating errors in a remote command. This strategy ensures that terminating errors on one computer do not terminate the command on all computers on which it is run. This practice is used even when a remote command is run on a single computer.

        — If the remote computer is not in a domain that the local computer trusts, the computer might not be able to authenticate the user’s credentials. To add the remote computer to the list of “trusted hosts” in WS-Management, use the following command in the WSMan provider, where <Remote-Computer-Name> is the name of the remote computer:
        Set-Item -path WSMan:\Localhost\Client\TrustedHosts -value <Remote-Computer-Name>.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Invoke-Command -filepath c:\scripts\test.ps1 -computerName Server01

    Disks: C:, D:, E:
    Status: Warning, Normal, Normal

    Description
    ———–
    This command runs the Test.ps1 script on the Server01 computer.

    The command uses the FilePath parameter to specify a script that is located on the local computer. The script runs on the remote computer and the results are returned to the local computer.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Invoke-Command -computername server01 -credential domain01\user01 -ScriptBlock {Get-Culture}

    Description
    ———–
    This command runs a Get-Culture command on the Server01 remote computer.

    It uses the ComputerName parameter to specify the computer name and the Credential parameter to run the command in the security context of “Domain01\User01,” a user with permission to run commands. It uses the ScriptBlock parameter to specify the command to be run on the remote computer.

    In response, Windows PowerShell displays a dialog box that requests the password and an authentication method for the User01 account. It then runs the command on the Server01 computer and returns the result.

    ————————– EXAMPLE 3 ————————–

    C:\PS>$s = New-PSSession -computername server02 -credential domain01\user01

    C:\PS> Invoke-Command -session $s -ScriptBlock {Get-Culture}

    Description
    ———–
    This example runs the same “Get-Culture” command in a session (a persistent connection) on the Server02 remote computer. Typically, you create a session only when you are running a series of commands on the remote computer.

    The first command uses the New-PSSession cmdlet to create a session on the Server02 remote computer. Then, it saves the session in the $s Variable.

    The second command uses the Invoke-Command cmdlet to run the Get-Culture command on Server02. It uses the Session parameter to specify the session saved in the $s Variable.

    In response, Windows PowerShell runs the command in the session on the Server02 computer.

    ————————– EXAMPLE 4 ————————–

    C:\PS>Invoke-Command -computername Server02 -ScriptBlock {$p = Get-Process powershell}

    C:\PS> Invoke-Command -computername Server02 -ScriptBlock {$p.virtualmemorysize}
    C:\PS>

    C:\PS> $s = New-PSSession -computername Server02
    C:\PS> Invoke-Command -session $s -ScriptBlock {$p = Get-Process powershell}
    C:\PS> Invoke-Command -session $s -ScriptBlock {$p.virtualmemorysize}
    17930240

    Description
    ———–
    This example compares the effects of using ComputerName and Session parameters of Invoke-Command. It shows how to use a session to run a series of commands that share the same data.

    The first two commands use the ComputerName parameter of Invoke-Command to run commands on the Server02 remote computer. The first command uses the Get-Process command to get the PowerShell process on the remote computer and to save it in the $p Variable. The second command gets the value of the VirtualMemorySize property of the PowerShell process.

    The first command succeeds. But, the second command fails because when you use the ComputerName parameter, Windows PowerShell creates a connection just to run the command. Then, it closes the connection when the command is complete. The $p Variable was created in one connection, but it does not exist in the connection created for the second command.

    The problem is solved by creating a session (a persistent connection) on the remote computer and by running both of the related commands in the same session.

    The third command uses the New-PSSession cmdlet to create a session on the Server02 computer. Then it saves the session in the $s Variable. The fourth and fifth commands repeat the series of commands used in the first set, but in this case, the Invoke-Command command uses the Session parameter to run both of the commands in the same session.

    In this case, because both commands run in the same session, the commands succeed, and the $p value remains active in the $s session for later use.

    ————————– EXAMPLE 5 ————————–

    C:\PS>$command = { Get-Eventlog -log “windows powershell” | where {$_.message -like “*certificate*”} }

    C:\PS> Invoke-Command -computername S1, S2 -ScriptBlock $command

    Description
    ———–
    This example shows how to enter a command that is saved in a local Variable.

    When the entire command is saved in a local Variable, you can specify the Variable as the value of the ScriptBlock parameter. You do not have to use the “param” keyword or the ArgumentList Variable to submit the value of the local Variable.

    The first command saves a Get-Eventlog command in the $command Variable. The command is formatted as a script block.

    The second command uses the Invoke-Command cmdlet to run the command in $command on the S1 and S2 remote computers.

    ————————– EXAMPLE 6 ————————–

    C:\PS>Invoke-Command -computername server01, server02, TST-0143, localhost -configurationname MySession.PowerShell -ScriptBlock {Get-Eventlog “windows powershell”}

    Description
    ———–
    This example demonstrates how to use the Invoke-Command cmdlet to run a single command on multiple computers.

    The command uses the ComputerName parameter to specify the computers. The computer names are presented in a comma-separated list. The list of computers includes the “localhost” value, which represents the local computer.

    The command uses the ConfigurationName parameter to specify an alternate session configuration for Windows PowerShell and the ScriptBlock parameter to specify the command.

    In this example, the command in the script block gets the events in the Windows PowerShell event log on each remote computer.

    ————————– EXAMPLE 7 ————————–

    C:\PS>$version = Invoke-Command -computername (Get-Content machines.txt) -ScriptBlock {(Get-Host).version}

    Description
    ———–
    This command gets the version of the Windows PowerShell host running on 200 remote computers.

    Because only one command is run, it is not necessary to create persistent connections (sessions) to each of the computers. Instead, the command uses the ComputerName parameter to indicate the computers.

    The command uses the Invoke-Command cmdlet to run a Get-Host command. It uses dot notation to get the Version property of the Windows PowerShell host.

    To specify the computers, it uses the Get-Content cmdlet to get the contents of the Machine.txt file, a file of computer names.

    These commands run synchronously (one at a time). When the commands complete, the output of the commands from all of the computers is saved in the $version Variable. The output includes the name of the computer from which the data originated.

    ————————– EXAMPLE 8 ————————–

    C:\PS>$s = New-PSSession -computername Server01, Server02

    C:\PS> Invoke-Command -session $s -ScriptBlock {Get-Eventlog system} -AsJob

    Id Name    State     HasMoreData Location         Command
    — —-    —–     —–         ———–        ——–             ——-
    1    Job1    Running    True         Server01,Server02 Get-Eventlog system

    C:\PS> $j = Get-Job

    C:\PS> $j | Format-List -property *

    HasMoreData : True
    StatusMessage :
    Location     : Server01,Server02
    Command     : Get-Eventlog system
    JobStateInfo : Running
    Finished     : System.Threading.ManualResetEvent
    InstanceId    : e124bb59-8cb2-498b-a0d2-2e07d4e030ca
    Id            : 1
    Name         : Job1
    ChildJobs     : {Job2, Job3}
    Output        : {}
    Error         : {}
    Progress     : {}
    Verbose     : {}
    Debug         : {}
    Warning     : {}
    StateChanged :

    C:\PS> $results = $j | Receive-Job

    Description
    ———–
    These commands run a background job on two remote computers. Because the Invoke-Command command uses the AsJob parameter, the commands run on the remote computers, but the job actually resides on the local computer and the results are transmitted to the local computer.

    The first command uses the New-PSSession cmdlet to create sessions on the Server01 and Server02 remote computers.

    The second command uses the Invoke-Command cmdlet to run a background job in each of the sessions. The command uses the AsJob parameter to run the command as a background job. This command returns a job object that contains two child job objects, one for each of the jobs run on the two remote computers.

    The third command uses a Get-Job command to save the job object in the $j Variable.

    The fourth command uses a pipeline operator (|) to send the value of the $j Variable to the Format-List cmdlet, which displays all properties of the job object in a list.

    The fifth command gets the results of the jobs. It pipes the job object in $j to the Receive-Job cmdlet and stores the results in the $results Variable.

    ————————– EXAMPLE 9 ————————–

    C:\PS>$MWFO-LOg = Microsoft-Windows-Forwarding/Operational

    C:\PS> Invoke-Command -computername server01 -ScriptBlock {param($log, $num) Get-Eventlog -logname $log -newest $num} -ArgumentList $MWFO-log, 10

    Description
    ———–
    This example shows how to include the values of local Variables in a command run on a remote computer.

    The first command saves the name of the Microsoft-Windows-Forwarding/Operational event log in the $MWFO-Log Variable.

    The second command uses the Invoke-Command cmdlet to run a Get-EventLog command on the Server01 remote computer that gets the 10 newest events from the Microsoft-Windows-Forwarding/Operational event log on Server01.

    This command uses the “param” keyword to create two Variables, $log and $num, that are used as placeholders in the Get-EventLog command. These placeholders have arbitrary names that do not need to match the names of the local Variables that supply their values.

    The values of the ArgumentList parameter demonstrate the two different ways to specify values in the argument list. The value of the $log placeholder is the $MFWO-Log Variable, which is defined in the first command. The value of the $num Variable is 10.

    Before the command is sent to the remote computer, the Variables are replaced with the specified values.

    ————————– EXAMPLE 10 ————————–

    C:\PS>Invoke-Command -computername S1, S2 -ScriptBlock {Get-Process powershell}

    PSComputerName    Handles NPM(K)    PM(K)     WS(K) VM(M) CPU(s)     Id ProcessName
    ————–    ——- ——    —–     —– —– ——     — ———–
    S1                575     15        45100     40988 200     4.68     1392 powershell
    S2                777     14        35100     30988 150     3.68     67 powershell

    C:\PS> Invoke-Command -computername S1, S2 -ScriptBlock {Get-Process powershell} -HideComputerName

    Handles NPM(K)    PM(K)     WS(K) VM(M) CPU(s)     Id ProcessName
    ——- ——    —–     —– —– ——     — ———–
    575     15        45100     40988 200     4.68     1392 powershell
    777     14        35100     30988 150     3.68     67 powershell

    Description
    ———–
    This example shows the effect of using the HideComputerName parameter of Invoke-Command.

    The first two commands use the Invoke-Command cmdlet to run a Get-Process command for the PowerShell process. The output of the first command includes the PsComputerName property, which contains the name of the computer on which the command ran. The output of the second command, which uses the HideComputerName parameter, does not include the PsComputerName column.

    Using the HideComputerName parameter does not change the object. You can still use the Format cmdlets to display the PsComputerName property of any of the affected objects.

    ————————– EXAMPLE 11 ————————–

    C:\PS>Invoke-Command -comp (Get-Content servers.txt) -filepath c:\scripts\sample.ps1 -ArgumentList Process, Service

    Description
    ———–
    This example uses the Invoke-Command cmdlet to run the Sample.ps1 script on all of the computers listed in the Servers.txt file. The command uses the FilePath parameter to specify the script file. This command allows you to run the script on the remote computers, even if the script file is not accessible to the remote computers.

    When you submit the command, the content of the Sample.ps1 file is copied into a script block and the script block is run on each of the remote computers. This procedure is equivalent to using the ScriptBlock parameter to submit the contents of the script.

    ————————– EXAMPLE 12 ————————–

    C:\PS>$LiveCred = Get-Credential

    C:\PS> Invoke-Command -ConfigurationName Microsoft.Exchange `
             -ConnectionUri https://ps.exchangelabs.com/powershell `
             -Credential $LiveCred -Authentication Basic `
             -ScriptBlock {Invoke-Command {Set-Mailbox dan -DisplayName “Dan Park”}

    Description
    ———–
    This example shows how to run a command on a remote computer that is identified by a URI (Internet address). This particular example runs a Set-Mailbox command on a remote Exchange server. The backtick (`) in the command is the Windows PowerShell continuation character.

    The first command uses the Get-Credential cmdlet to store Windows Live ID credentials in the $LiveCred variab the credentials dialog box appears, enter Windows Live ID credentials.

    The second command uses the Invoke-Command cmdlet to run a Set-Mailbox command. The command uses the ConfigurationName parameter to specify that the command should run in a session that uses the Microsoft.Exchange session configuration. The ConnectionURI parameter specifies the URL of the Exchange server endpoint.

    The credential parameter specifies tle. Whenhe Windows Live credentials stored in the $LiveCred Variable. The AuthenticationMechanism parameter specifies the use of basic authentication. The ScriptBlock parameter specifies a script block that contains the command.

    ————————– EXAMPLE 13 ————————–

    C:\PS>$max = New-PSSessionOption -MaximumRedirection 1

    C:\PS> Invoke-Command -ConnectionUri https://ps.exchangelabs.com/powershell `
             -ScriptBlock {Invoke-Command {Get-Mailbox dan} `
             -AllowRedirection -SessionOption $max

    Description
    ———–
    This command shows how to use the AllowRedirection and SessionOption parameters to manage URI redirection in a remote command.

    The first command uses the New-PSSessionOption cmdlet to create a PSSessionOpption object that it saves in the $max Variable. The command uses the MaximumRedirection parameter to set the MaximumConnectionRedirectionCount property of the PSSessionOption object to 1.

    The second command uses the Invoke-Command cmdlet to run a Get-Mailbox command on a remote server running Microsoft Exchange Server. The command uses the AllowRedirection parameter to provide explicit permission to redirect the connection to an alternate endpoint. It also uses the SessionOption parameter to specify the session object in the $max Variable.

    As a result, if the remote computer specified by the ConnectionURI parameter returns a redirection message, Windows PowerShell will redirect the connection, but if the new destination returns another redirection message, the redirection count value of 1 is exceeded, and Invoke-Command returns a non-terminating error.

    ————————– EXAMPLE 14 ————————–

    C:\PS>$so = New-PSSessionOption -SkipCACheck

    PS C:\> Invoke-Command $s { Get-HotFix } -SessionOption $so -credential server01\user01

    Description
    ———–
    This example shows how to create and use a SessionOption parameter.

    The first command uses the New-PSSessionOption cmdlet to create a session option. It saves the resulting SessionOption object in the $so parameter.

    The second command uses the Invoke-Command cmdlet to run a Get-HotFix command remotely. The value of the SessionOption parameter is the SessionOption object in the $so Variable.

    ————————– EXAMPLE 15 ————————–

    C:\PS>Enable-WSManCredSSP -delegate server02

    C:\PS> Connect-WSMan Server02

    C:\PS> Set-Item WSMan:\server02*\service\auth\credSSP -value $true

    C:\PS> $s = New-PSSession server02

    C:\PS> Invoke-Command -session $s -script {Get-Item \\Net03\Scripts\LogFiles.ps1} -authentication credssp -credential domain01\admin01

    Description
    ———–
    This example shows how to access a network share from within a remote session.

    The command requires that CredSSP delegation be enabled in the client settings on the local computer and in the service settings on the remote computer. To run the commands in this example, you must be a member of the Administrators group on the local computer and the remote computer.

    The first command uses the Enable-WSManCredSSP cmdlet to enable CredSSP delegation from the Server01 local computer to the Server02 remote computer. This configures the CredSSP client setting on the local computer.

    The second command uses the Connect-WSMan cmdlet to connect to the Server02 computer. This action adds a node for the Server02 computer to the WSMan: drive on the local computer, allowing you to view and change the WS-Management settings on the Server02 computer.

    The third command uses the Set-Item cmdlet to change the value of the CredSSP item in the Service node of the Server02 computer to True. This action enables CredSSP in the service settings on the remote computer.

    The fourth command uses the New-PSSession cmdlet to create a PSSession on the Server02 computer. It saves the PSSession in the $s Variable.

    The fifth command uses the Invoke-Command cmdlet to run a Get-Item command in the session in $s that gets a script from the Net03\Scripts network share. The command uses the Credential parameter and it uses the Authentication parameter with a value of CredSSP.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=135225
    about_remote
    about_pssessions
    New-PSSession
    Get-PSSession
    Remove-PSSession
    Enter-PSSession
    Exit-PSSession
    WS-Management Provider

Invoke-Expression

NAME
    Invoke-Expression

SYNOPSIS
    Runs commands or expressions on the local computer.

SYNTAX
    Invoke-Expression [-Command] <string> [<CommonParameters>]

DESCRIPTION
    The Invoke-Expression cmdlet evaluates or runs a specified string as a command and returns the results of the expression or command. Without Invoke-Expression, a string submitted at the command line would be returned (echoed) unchanged.

PARAMETERS
    -Command <string>
        Specifies the command or expression to run. Type the command or expression or enter a Variable that contains the command or expression. The Command parameter is required.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue)
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    System.String or PSObject
        You can pipe an object that represents the command to Invoke-Expression. Use the $input automatic Variable to represent the input objects in the command.

OUTPUTS
    PSObject
        Returns the output that is generated by the invoked command (the value of the Command parameter).

NOTES

        — An expression is a statement that can be evaluated and produces a result, such as a Windows PowerShell command.

        — Take reasonable precautions when using the Invoke-Expression cmdlet in scripts. When using Invoke-Expression to run a command that the user enters, verify that the command is safe to run before running it. In general, it is best to design your script with predefined input options, rather than allowing freeform input.

    ————————– EXAMPLE 1 ————————–

    C:\PS>$command = “Get-Process

    C:\PS> $command
    Get-Process

    C:\PS> Invoke-Expression $command

    Handles NPM(K)    PM(K)     WS(K) VM(M) CPU(s)     Id ProcessName
    ——- ——    —–     —– —– ——     — ———–
        296     4     1572     1956    20     0.53 1348 AdtAgent
        270     6     1328        800    34     0.06 2396 alg
         67     2     620        484    20     0.22    716 ati2evxx
     1060     15    12904     11840    74    11.48    892 CcmExec
     1400     33    25280     37544 223    38.44 2564 communicator
    …

    Description
    ———–
    This example demonstrates the use of Invoke-Expression to evaluate an expression. Without Invoke-Expression, the expression is printed, but not evaluated.

    The first command assigns a value of “Get-Process” (a string) to the $command Variable.

    The second command shows the effect of typing the Variable name at the command line. Windows PowerShell echoes the string.

    The third command uses Invoke-Expression to evaluate the string.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Invoke-Expression -Command “C:\ps-test\testscript.ps1”

    C:\PS> “C:\ps-test\testscript.ps1” | Invoke-Expression

    Description
    ———–
    These commands use Invoke-Expression to run a script, TestScript.ps1, on the local computer. The two commands are equivalent. The first uses the Command parameter to specify the command to run. The second uses a pipeline operator (|) to send the command string to Invoke-Expression.

    ————————– EXAMPLE 3 ————————–

    C:\PS>$cmd = ‘Get-Process | where {$_.cpu -gt 1000}’

    C:\PS> iex $command

    Description
    ———–
    This example runs a command string that is saved in the $cmd Variable.

    The command string is enclosed in single quotation marks because it includes a Variable, $_, which represents the current object. If it were enclosed in double quotation marks, the $_ Variable would be replaced by its value before it was saved in the $command string.

    ————————– EXAMPLE 4 ————————–

    C:\PS>$cmdlet_name = “Get-Eventlog”

    C:\PS> $example_number = 1

    C:\PS> $example_code = (Get-Help $cmdlet_name).examples.example[($example_number-1)].code

    C:\PS> Invoke-Expression $example_code

    Description
    ———–
    This command retrieves and runs the first example in the Get-EventLog cmdlet help topic.

    To run an example of a different cmdlet, change the value of the $cmdlet_name Variable to the name of the cmdlet. And, change the $example_number Variable to the example number you want to run. The command will fail if the example number is not valid.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=113343
    Invoke-Command

Invoke-History

NAME
    Invoke-History

SYNOPSIS
    Runs commands from the session history.

SYNTAX
    Invoke-History [[-Id] <string>] [-Confirm] [-WhatIf] [<CommonParameters>]

DESCRIPTION
    The Invoke-History cmdlet runs commands from the session history. You can pass objects representing the commands from Get-History to Invoke-History, or you can identify commands in the current history by using their ID number. To find the identification number of a command, use Get-History.

PARAMETERS
    -Id <string>
        Identifies a command in the history. You can type the ID number of the command or the first few characters of the command.

        If you type characters, Invoke-History matches the most recent commands first. If you omit this parameter, Invoke-History runs the last (most recent) command. The parameter name (“id”) is optional. To find the ID number of a command, use Get-History.

        Required?                    false
        Position?                    1
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -Confirm [<SwitchParameter>]
        Prompts you for confirmation before executing the command.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -WhatIf [<SwitchParameter>]
        Describes what would happen if you executed the command without actually executing the command.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    None
        You cannot pipe input to this cmdlet.

OUTPUTS
    None
        Invoke-History does not generate any output, but output might be generated by the commands that Invoke-History runs.

NOTES

        The session history is a list of the commands entered during the session along with the ID. The session history represents the order of execution, the status, and the start and end times of the command. As you enter each command, Windows PowerShell adds it to the history so that you can reuse it. For more information about the session history, see about_History.

        You can also refer to Invoke-History by its built-in Aliases, “r” and “ihy”. For more information, see about_aliases.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Invoke-History

    Description
    ———–
    This command runs the last (most recent) command in the session history. You can abbreviate this command as “r” (think “repeat” or “rerun”), the Alias for Invoke-History.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Invoke-History -Id 132

    Description
    ———–
    This command runs the command in the session history with ID 132. Because the name of the Id parameter is optional, you can abbreviate this command as “Invoke-History 132″, “ihy 132”, or “r 132”.

    ————————– EXAMPLE 3 ————————–

    C:\PS>Invoke-History get-pr

    Description
    ———–
    This command runs the most recent Get-Process command in the session history. When you type characters for the Id parameter, Invoke-History runs the first command that it finds that matches the pattern, beginning with the most recent commands. This command uses the ID parameter, but it omits the optional parameter name.

    ————————– EXAMPLE 4 ————————–

    C:\PS>Invoke-History (16..24), 27

    Description
    ———–
    This command runs commands 16 through 24 and 27. You can list multiple IDs and ID ranges separated by commas.

    ————————– EXAMPLE 5 ————————–

    C:\PS>Get-History -Id 255 -count 7 | Invoke-History

    Description
    ———–
    This command runs the 7 commands in the history that end with command 255 (typically 249 through 255). It uses the Get-History cmdlet to retrieve the commands. The pipeline operator (|) passes the commands to Invoke-History, which executes them.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=113344
    about_History
    Get-History
    Add-History
    Clear-History

Invoke-Item

NAME
    Invoke-Item

SYNOPSIS
    Performs the default action on the specified item.

SYNTAX
    Invoke-Item [-LiteralPath] <string[]> [-Credential <PSCredential>] [-Exclude <string[]>] [-Filter <string>] [-Include <string[]>] [-Confirm] [-WhatIf] [-UseTransaction] [<CommonParameters>]

    Invoke-Item [-Path] <string[]> [-Credential <PSCredential>] [-Exclude <string[]>] [-Filter <string>] [-Include <string[]>] [-Confirm] [-WhatIf] [-UseTransaction] [<CommonParameters>]

DESCRIPTION
    The Invoke-Item cmdlet performs the default action on the specified item. For example, it runs an executable file or opens a document file in the application associated with the document file type. The default action depends on the type of item and is determined by the Windows PowerShell provider that provides access to the data.

PARAMETERS
    -Credential <PSCredential>
        Specifies a user account that has permission to perform this action. The default is the current user.

        Type a user name, such as “User01” or “Domain01\User01”, or enter a PSCredential object, such as one generated by the Get-Credential cmdlet. If you type a user name, you will be prompted for a password.

        This parameter is not supported by any providers installed with Windows PowerShell.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -Exclude <string[]>
        Omits the specified items. The value of this parameter qualifies the Path parameter. Enter a path element or pattern, such as “*.txt”. Wildcards are permitted.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Filter <string>
        Specifies a filter in the provider’s format or language. The value of this parameter qualifies the Path parameter. The syntax of the filter, including the use of wildcards, depends on the provider. Filters are more efficient than other parameters, because the provider applies them when retrieving the objects rather than having Windows PowerShell filter the objects after they are retrieved.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Include <string[]>
        Performs the default action only on the specified items. The value of this parameter qualifies the Path parameter. Enter a path element or pattern, such as “*.txt”. Wildcards are permitted.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -LiteralPath <string[]>
        Specifies a path to the item. The value of LiteralPath is used exactly as it is typed. No characters are interpreted as wildcards. If the path includes escape characters, enclose it in single quotation marks. Single quotation marks tell Windows PowerShell not to interpret any characters as escape sequences.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByPropertyName)
        Accept wildcard characters? false

    -Path <string[]>
        Specifies the path to the selected item.

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue, ByPropertyName)
        Accept wildcard characters? false

    -Confirm [<SwitchParameter>]
        Prompts you for confirmation before executing the command.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -WhatIf [<SwitchParameter>]
        Describes what would happen if you executed the command without actually executing the command.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -UseTransaction [<SwitchParameter>]
        Includes the command in the active transaction. This parameter is valid only when a transaction is in progress. For more information, see about_transactions.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    System.String
        You can pipe a string that contains a path to Invoke-Item.

OUTPUTS
    None
        The command does not generate any output. However, output might be generated by the item that it invokes.

NOTES

        The Invoke-Item cmdlet is designed to work with the data exposed by any provider. To list the providers available in your session, type “Get-PsSProvider”. For more information, see about_providers.

    ————————– EXAMPLE 1 ————————–

    C:\PS>Invoke-Item C:\Test\aliasApr04.doc

    Description
    ———–
    This command opens the file AliasApr04.doc in Microsoft Office Word. In this case, opening in Word is the default action for .doc files.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Invoke-Item “C:\Documents and Settings\Lister\My Documents\*.xls”

    Description
    ———–
    This command opens all of the Microsoft Office Excel spreadsheets in the C:\Documents and Settings\Lister\My Documents folder. Each spreadsheet is opened in a new instance of Excel. In this case, opening in Excel is the default action for .xls files.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkID=113345
    about_providers
    Clear-Item
    Get-Item
    Move-Item
    Set-Item
    New-Item
    Remove-Item
    Rename-Item
    Copy-Item

Get-WSManCredSSP

NAME
    Get-WSManCredSSP

SYNOPSIS
    Gets the Credential Security Service Provider-related configuration for the client.

SYNTAX
    Get-WSManCredSSP [<CommonParameters>]

DESCRIPTION
    The Get-WSManCredSPP cmdlet gets the Credential Security Service Provider-related configuration of the client and the server. The output indicates whether Credential Security Service Provider (CredSSP) authentication is enabled or disabled. It also displays configuration information for the AllowFreshCredentials policy of CredSSP. When you use CredSSP authentication, the user’s credentials are passed to a remote computer to be authenticated. This type of authentication is designed for commands that create a remote session from within another remote session. For example, you use this type of authentication if you want to run a background job on a remote computer.

    The cmdlet performs the following actions:

        – Gets the WS-Management CredSSP setting on the client (<localhost|computername>\Client\Auth\CredSSP).
        – Gets the Windows CredSSP policy setting AllowFreshCredentials.
        – Gets the WS-Management CredSSP setting on the server (<localhost|computername>\Service\Auth\CredSSP).

    Caution: CredSSP authentication delegates the user’s credentials from the local computer to a remote computer. This practice increases the security risk of the remote operation. If the remote computer is compromised, when credentials are passed to it, the credentials can be used to control the network session.

    To disable CredSSP authentication, use the Disable-WSManCredSSP cmdlet. To enable CredSSP authentication, use the Enable-WSManCredSSP cmdlet.

PARAMETERS
    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    None
        This cmdlet does not accept any input.

OUTPUTS
    None
        This cmdlet does not generate any output.

NOTES

    ————————– EXAMPLE 1 ————————–

    C:\PS>Get-WSManCredSSP

    Description
    ———–
    This command displays CredSSP configuration information for both the client and server.

    The output identifies that this computer is or is not configured for CredSSP.

    If the computer is configured for CredSSP, this is the output:

    “The machine is configured to allow delegating fresh credentials to the following target(s): WSMan/server02.accounting.fabrikam.com”

    If the computer is not configured for CredSSP, this is the output:

    “The machine is not configured to allow delegating fresh credentials.”

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkId=141443
    Connect-WSMan
    Disable-WSManCredSSP
    Disconnect-WSMan
    Enable-WSManCredSSP
    Get-WSManInstance
    Invoke-WSManAction
    New-WSManInstance
    New-WSManSessionOption
    Remove-WSManInstance
    Set-WSManInstance
    Set-WSManQuickConfig
    Test-WSMan

Get-WSManInstance

NAME
    Get-WSManInstance

SYNOPSIS
    Displays management information for a resource instance specified by a Resource URI.

SYNTAX
    Get-WSManInstance -SelectorSet <hashtable> [-ApplicationName <string>] [-ComputerName <string>] [-Credential <PSCredential>] [-Fragment <string>] [-Port <int>] [-UseSSL] [-ResourceURI] <Uri> [-Authentication <Authentication>] [-Dialect <Uri>] [-OptionSet <hashtable>] [-SessionOption <hashtable>] [<CommonParameters>]

    Get-WSManInstance [-ApplicationName <string>] [-BasePropertiesOnly <switch>] [-ComputerName <string>] [-Credential <PSCredential>] [-Enumerate] [-filter <string>] [-Port <int>] [-References <switch>] [-ReturnType <string>] [-Shallow <switch>] [-UseSSL] [-ResourceURI] <Uri> [-Authentication <Authentication>] [-Dialect <Uri>] [-OptionSet <hashtable>] [-SessionOption <hashtable>] [<CommonParameters>]

    Get-WSManInstance -ConnectionURI <Uri> -SelectorSet <hashtable> [-Fragment <string>] [-ResourceURI] <Uri> [-Authentication <Authentication>] [-Dialect <Uri>] [-OptionSet <hashtable>] [-SessionOption <hashtable>] [<CommonParameters>]

    Get-WSManInstance -ConnectionURI <Uri> [-BasePropertiesOnly <switch>] [-Enumerate] [-filter <string>] [-References <switch>] [-ReturnType <string>] [-Shallow <switch>] [-ResourceURI] <Uri> [-Authentication <Authentication>] [-Dialect <Uri>] [-OptionSet <hashtable>] [-SessionOption <hashtable>] [<CommonParameters>]

DESCRIPTION
    The Get-WSManInstance cmdlet retrieves an instance of a management resource that is specified by a resource URI. The information that is retrieved can be a complex XML information set (an object) or a simple value. This cmdlet is the equivalent to the standard WS-Management Get command.

    This cmdlet uses the WS-Management connection/transport layer to retrieve information.

PARAMETERS
    -ApplicationName <string>
        Specifies the application name in the connection. The default value of the ApplicationName parameter is “WSMAN”. The complete identifier for the remote endpoint is in the following format:

             <transport>://<server>:<port>/<ApplicationName>

        For example:

             http://server01:8080/WSMAN

        Internet Information Services (IIS), which hosts the session, forwards requests with this endpoint to the specified application. This default setting of “WSMAN” is appropriate for most uses. This parameter is designed to be used when numerous computers establish remote connections to one computer that is running Windows PowerShell. In this case, IIS hosts Web Services for Management (WS-Management) for efficiency.

        Required?                    false
        Position?                    named
        Default value                WSMan
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Authentication <Authentication>
        Specifies the authentication mechanism to be used at the server. Possible values are:

        – Basic: Basic is a scheme in which the user name and password are sent in clear text to the server or proxy.
        – Default : Use the authentication method implemented by the WS-Management protocol. This is the default.
        – Digest: Digest is a challenge-response scheme that uses a server-specified data string for the challenge.
        – Kerberos: The client computer and the server mutually authenticate by using Kerberos Certificates.
        – Negotiate: Negotiate is a challenge-response scheme that negotiates with the server or proxy to determine the scheme to use for authentication. For example, this parameter value allows negotiation to determine whether the Kerberos protocol or NTLM is used.
        – CredSSP: Use Credential Security Service Provider (CredSSP) authentication, which allows the user to delegate credentials. This option is designed for commands that run on one remote computer but collect data from or run additional commands on other remote computers.

        Caution: CredSSP delegates the user’s credentials from the local computer to a remote computer. This practice increases the security risk of the remote operation. If the remote computer is compromised, when credentials are passed to it, the credentials can be used to control the network session.

        Required?                    false
        Position?                    named
        Default value                Default
        Accept pipeline input?     false
        Accept wildcard characters? false

    -BasePropertiesOnly <switch>
        Enumerates only the properties that are part of the base class that is specified by the ResourceURI parameter. This parameter has no effect if the Shallow parameter is specified.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ComputerName <string>
        Specifies the computer against which you want to run the management operation. The value can be a fully qualified domain name, a NetBIOS name, or an IP address. Use the local computer name, use localhost, or use a dot (.) to specify the local computer. The local computer is the default. When the remote computer is in a different domain from the user, you must use a fully qualified domain name must be used. You can pipe a value for this parameter to the cmdlet.

        Required?                    false
        Position?                    named
        Default value                localhost
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ConnectionURI <Uri>
        Specifies the connection endpoint. The format of this string is:

             <Transport>://<Server>:<Port>/<ApplicationName>

        The following string is a properly formatted value for this parameter:

             http://Server01:8080/WSMAN

        The URI must be fully qualified.

        Required?                    true
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Credential <PSCredential>
        Specifies a user account that has permission to perform this action. The default is the current user. Type a user name, such as “User01”, “Domain01\User01”, or “User@Domain.com”. Or, enter a PSCredential object, such as one returned by the Get-Credential cmdlet. When you type a user name, you will be prompted for a password.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Dialect <Uri>
        Specifies the dialect to use in the filter predicate. This can be any dialect that is supported by the remote service. The following Aliases can be used for the dialect URI:

        – WQL: http://schemas.microsoft.com/wbem/wsman/1/WQL
        – Selector: http://schemas.microsoft.com/wbem/wsman/1/wsman/SelectorFilter
        – Association: http://schemas.dmtf.org/wbem/wsman/1/cimbinding/associationFilter

        Required?                    false
        Position?                    named
        Default value                http://schemas.microsoft.com/wbem/wsman/1/WQL
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Enumerate [<SwitchParameter>]
        Returns all of the instances of a management resource.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -filter <string>
        Specifies the filter expression for the enumeration. If you use this parameter, you must also specify the Dialect parameter.

        The valid values of this parameter depend on the dialect that is specified in the Dialect parameter. For example, if the Dialect parameter is set to WQL, the Filter parameter must contain a string, and the string must contain a valid WQL query such as the following query:

             “Select * from Win32_Service where State != Running”

        If the Dialect parameter is set to Association, the Filter parameter must contain a string, and the string must contain a valid filter, such as the following filter:

        -filter:Object=EPR[;AssociationClassName=AssocClassName][;ResultClassName=ClassName][;Role=RefPropertyName][;ResultRole=RefPropertyName]}

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Fragment <string>
        Specifies a section inside the instance that is to be updated or retrieved for the specified operation. For example, to get the status of a spooler service, specify “-Fragment Status”.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -OptionSet <hashtable>
        Passes a set of switches to a service to modify or refine the nature of the request. These are similar to switches used in command-line shells because they are service specific. Any number of options can be specified.

        The following example demonstrates the syntax that passes the values 1, 2, and 3 for the a, b, and c parameters:

             -OptionSet @{a=1;b=2;c=3}

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     true (ByValue, ByPropertyName)
        Accept wildcard characters? false

    -Port <int>
        Specifies the port to use when the client connects to the WinRM service. When the transport is HTTP, the default port is 80. When the transport is HTTPS, the default port is 443. When you use HTTPS as the transport, the value of the ComputerName parameter must match the server’s Certificate common name (CN). However, if the SkipCNCheck parameter is specified as part of the SessionOption parameter, then the Certificate common name of the server does not have to match the host name of the server. The SkipCNCheck parameter should be used only for trusted computers.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -References <switch>
        Indicates that association instances (not associated instances) should be retrieved. You can use this parameter only when the Dialect parameter is set to a value of “Association”.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -ResourceURI <Uri>
        Contains the Uniform Resource Identifier (URI) of the resource class or instance. The URI is used to identify a specific type of resource, such as disks or processes, on a computer.

        A URI consists of a prefix and a path to a resource. For example:

             http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_LogicalDisk
             http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_NumericSensor

        Required?                    true
        Position?                    1
        Default value
        Accept pipeline input?     true (ByValue, ByPropertyName)
        Accept wildcard characters? false

    -ReturnType <string>
        Specifies the type of data to be returned. The valid values are:

            Object (the default)
            EPR
            ObjectAndEPR

        If Object is specified or if this parameter is not used, only objects are returned. If EPR (endpoint reference) is specified, only the endpoint references of the objects are returned. Endpoint references contain information about the resource URI and the selectors for the instance. If ObjectAndEPR is specified, both the object and its associated endpoint references are returned.

        Required?                    false
        Position?                    named
        Default value                Object
        Accept pipeline input?     false
        Accept wildcard characters? false

    -SelectorSet <hashtable>
        Specifies a set of value pairs that are used to select particular management resource instances. The SelectorSet parameter is used when more than one instance of the resource exists. The value of the SelectorSet parameter must be a hash table.

        The following example shows how to enter a value for this parameter:

            -SelectorSet @{Name=”WinRM”;ID=”yyy”}

        Required?                    true
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -SessionOption <hashtable>
        Defines a set of extended options for the WS-Management session. Enter a SessionOption object that you create by using the New-WSManSessionOption cmdlet. For more information about the options that are available, see New-WSManSessionOption.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -Shallow <switch>
        Causes only instances of the base class that is specified in the resource URI to be returned. If this switch is not specified, instances of the base class that is specified in the URI and in all its derived classes is returned.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    -UseSSL [<SwitchParameter>]
        Specifies that the Secure Sockets Layer (SSL) protocol should be used to establish a connection to the remote computer. By default, SSL is not used.

        WS-Management encrypts all the Windows PowerShell content that is transmitted over the network. The UseSSL parameter lets you specify the additional protection of HTTPS instead of HTTP. If SSL is not available on the port that is used for the connection and you specify this parameter, the command fails.

        Required?                    false
        Position?                    named
        Default value
        Accept pipeline input?     false
        Accept wildcard characters? false

    <CommonParameters>
        This cmdlet supports the common parameters: Verbose, Debug,
        ErrorAction, ErrorVariable, WarningAction, WarningVariable,
        OutBuffer and OutVariable. For more information, type,
        “Get-Help about_CommonParameters“.

INPUTS
    None
        This command does not accept any input.

OUTPUTS
    System.Xml.XmlElement
        The Get-WSManInstance cmdlet generates an XMLElement object.

NOTES

    ————————– EXAMPLE 1 ————————–

    C:\PS>Get-WSManInstance wmicimv2/win32_service -SelectorSet @{name=”winrm”} -ComputerName server01

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                     : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_Service
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                    : p:Win32_Service_Type
    lang                    : en-US
    AcceptPause             : false
    AcceptStop             : true
    Caption                 : Windows Remote Management (WS-Management)
    CheckPoint             : 0
    CreationClassName     : Win32_Service
    Description             : Windows Remote Management (WinRM) service implements the WS-Management protocol for remote
                             management. WS-Management is a standard web services protocol used for remote software and
                             hardware management. The WinRM service listens on the network for WS-Management requests
                             and processes them. The WinRM Service needs to be configured with a listener using the
                             winrm.cmd command line tool or through Group Policy in order for it to listen over the
                             network. The WinRM service provides access to WMI data and enables event collection. Event
                             collection and subscription to events require that the service is running. WinRM messages
                             use HTTP and HTTPS as transports. The WinRM service does not depend on IIS but is
                             preconfigured to share a port with IIS on the same machine. The WinRM service reserves the
                             /wsman URL prefix. To prevent conflicts with IIS, administrators should ensure that any
                             websites hosted on IIS do not use the /wsman URL prefix.
    DesktopInteract         : false
    DisplayName             : Windows Remote Management (WS-Management)
    ErrorControl            : Normal
    ExitCode                : 0
    InstallDate             : InstallDate
    Name                    : winrm
    PathName                : C:\Windows\System32\svchost.exe -k NetworkService
    ProcessId             : 948
    ServiceSpecificExitCode : 0
    ServiceType             : Share Process
    Started                 : true
    StartMode             : Auto
    StartName             : NT AUTHORITY\NetworkService
    State                 : Running
    Status                 : OK
    SystemCreationClassName : Win32_ComputerSystem
    SystemName             : SERVER01
    TagId                 : 0
    WaitHint                : 0

    Description
    ———–
    This command returns all of the information that Windows Management Instrumentation (WMI) exposes about the WinRM service on the remote server01 computer.

    ————————– EXAMPLE 2 ————————–

    C:\PS>Get-WSManInstance wmicimv2/win32_service -SelectorSet @{name=”spooler”} -Fragment status -ComputerName server01

    XmlFragment=OK

    Description
    ———–
    This command returns only the status of the Spooler service on the remote server01 computer.

    ————————– EXAMPLE 3 ————————–

    C:\PS>Get-WSManInstance -enumerate wmicimv2/win32_process

    OSName                     : Microsoft Windows Vista Ultimate |C:\Windows|\Device\Harddisk0\Partition3
    OtherOperationCount        : 11441
    OtherTransferCount         : 428570
    PageFaults                 : 27346
    PageFileUsage             : 16428
    ParentProcessId            : 604
    PeakPageFileUsage         : 17588
    PeakVirtualSize            : 93876224
    PeakWorkingSetSize         : 12472
    Priority                 : 8
    PrivatePageCount         : 16822272
    ProcessId                 : 1160
    QuotaNonPagedPoolUsage     : 14
    QuotaPagedPoolUsage        : 126
    QuotaPeakNonPagedPoolUsage : 16
    QuotaPeakPagedPoolUsage    : 159
    ReadOperationCount         : 29568
    ReadTransferCount         : 1660581404
    SessionId                 : 0
    Status                     : Status
    TerminationDate            : TerminationDate
    ThreadCount                : 23
    UserModeTime             : 763156892
    VirtualSize                : 80846848
    WindowsVersion             : 6.0.6001
    WorkingSetSize             : 11624448
    WriteOperationCount        : 1913
    WriteTransferCount         : 6825768

    xsi                        : http://www.w3.org/2001/XMLSchema-instance
    p                         : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_Process
    cim                        : http://schemas.dmtf.org/wbem/wscim/1/common
    type                     : p:Win32_Process_Type
    lang                     : en-US
    Caption                    : svchost.exe
    CommandLine                : C:\Windows\System32\svchost.exe -k LocalSystemNetworkRestricted
    CreationClassName         : Win32_Process
    CreationDate             : CreationDate
    CSCreationClassName        : Win32_ComputerSystem
    CSName                     : COMPUTER01
    Description                : svchost.exe
    ExecutablePath             : C:\Windows\System32\svchost.exe
    ExecutionState             : ExecutionState
    Handle                     : 1192
    HandleCount                : 832

    …

    Description
    ———–
    This command returns all the instances of the WMI Win32_Process class on the local computer.

    ————————– EXAMPLE 4 ————————–

    C:\PS>Get-WSManInstance -enumerate wmicimv2/win32_service -returntype epr

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                     : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_Service
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                    : p:Win32_Service_Type
    lang                    : en-US
    AcceptPause             : false
    AcceptStop             : false
    Caption                 : Visual Studio 2008 Remote Debugger
    CheckPoint             : 0
    CreationClassName     : Win32_Service
    Description             : Allows members of the Administrators group to remotely debug server applications using Visual
                             Studio 2008. Use the Visual Studio 2008 Remote Debugging Configuration Wizard to enable this
                             service.
    DesktopInteract         : false
    DisplayName             : Visual Studio 2008 Remote Debugger
    ErrorControl            : Ignore
    ExitCode                : 1077
    InstallDate             : InstallDate
    Name                    : msvsmon90
    PathName                : “C:\Program Files\Microsoft Visual Studio 9.0\Common7\IDE\Remote Debugger\x86\msvsmon.exe” /s
                             ervice msvsmon90
    ProcessId             : 0
    ServiceSpecificExitCode : 0
    ServiceType             : Own Process
    Started                 : false
    StartMode             : Disabled
    StartName             : LocalSystem
    State                 : Stopped
    Status                 : OK
    SystemCreationClassName : Win32_ComputerSystem
    SystemName             : COMPUTER01
    TagId                 : 0
    WaitHint                : 0

    …

    Description
    ———–
    This command returns endpoint references that correspond to all the services on the local computer.

    ————————– EXAMPLE 5 ————————–

    C:\PS>Get-WSManInstance -Enumerate wmicimv2/* -filter “select * from win32_service where StartMode = ‘Auto’ and State = ‘Stopped'” -ComputerName server01

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                     : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_Service
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                    : p:Win32_Service_Type
    lang                    : en-US
    AcceptPause             : false
    AcceptStop             : false
    Caption                 : Windows Media Center Service Launcher
    CheckPoint             : 0
    CreationClassName     : Win32_Service
    Description             : Starts Windows Media Center Scheduler and Windows Media Center Receiver services
                             at startup if TV is enabled within Windows Media Center.
    DesktopInteract         : false
    DisplayName             : Windows Media Center Service Launcher
    ErrorControl            : Ignore
    ExitCode                : 0
    InstallDate             : InstallDate
    Name                    : ehstart
    PathName                : C:\Windows\system32\svchost.exe -k LocalServiceNoNetwork
    ProcessId             : 0
    ServiceSpecificExitCode : 0
    ServiceType             : Share Process
    Started                 : false
    StartMode             : Auto
    StartName             : NT AUTHORITY\LocalService
    State                 : Stopped
    Status                 : OK
    SystemCreationClassName : Win32_ComputerSystem
    SystemName             : Server01
    TagId                 : 0
    WaitHint                : 0

    …

    Description
    ———–
    This command lists all of the services that meet the following criteria on the remote server01 computer:

     – The startup type of the service is “Automatic”.
     – The service is stopped.

    ————————– EXAMPLE 6 ————————–

    C:\PS>Get-WSManInstance winrm/config/listener -SelectorSet @{Address=”*”;Transport=”http”}

    cfg                 : http://schemas.microsoft.com/wbem/wsman/1/config/listener
    xsi                 : http://www.w3.org/2001/XMLSchema-instance
    lang                 : en-US
    Address             : *
    Transport             : HTTP
    Port                 : 80
    Hostname             :
    Enabled             : true
    URLPrefix             : WSMan
    CertificateThumbprint :
    ListeningOn         : {100.0.0.1, 123.123.123.123, ::1, 2001:4898:0:fff:0:5efe:123.123.123.123…}

    Description
    ———–
    This command lists the WS-Management listener configuration on the local computer for the listener that matches the criteria in the selector set.

    ————————– EXAMPLE 7 ————————–

    C:\PS>Get-WSManInstance winrm/config/listener -SelectorSet @{Address=”*”;Transport=”http”} -ComputerName server01

    cfg                 : http://schemas.microsoft.com/wbem/wsman/1/config/listener
    xsi                 : http://www.w3.org/2001/XMLSchema-instance
    lang                 : en-US
    Address             : *
    Transport             : HTTP
    Port                 : 80
    Hostname             :
    Enabled             : true
    URLPrefix             : WSMan
    CertificateThumbprint :
    ListeningOn         : {100.0.0.1, 123.123.123.124, ::1, 2001:4898:0:fff:0:5efe:123.123.123.124…}

    Description
    ———–
    This command lists the WS-Management listener configuration on the remote server01 computer for the listener that matches the criteria in the selector set.

    ————————– EXAMPLE 8 ————————–

    C:\PS>Get-WSManInstance -Enumerate -Dialect association -filter “{Object=win32_service?name=winrm}” -res wmicimv2/*

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                         : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_ComputerSystem
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                     : p:Win32_ComputerSystem_Type
    lang                     : en-US
    AdminPasswordStatus     : 1
    AutomaticManagedPagefile : true
    AutomaticResetBootOption : true
    AutomaticResetCapability : true
    BootOptionOnLimit         : BootOptionOnLimit
    BootOptionOnWatchDog     : BootOptionOnWatchDog
    BootROMSupported         : true
    BootupState             : Normal boot
    Caption                 : SERVER01
    ChassisBootupState        : 3
    CreationClassName         : Win32_ComputerSystem
    CurrentTimeZone         : -480
    DaylightInEffect         : false
    Description             : AT/AT COMPATIBLE
    DNSHostName             : server01
    Domain                    : site01.corp.fabrikam.com
    DomainRole                : 1
    EnableDaylightSavingsTime : true
    FrontPanelResetStatus     : 2
    InfraredSupported         : false
    InstallDate             : InstallDate
    KeyboardPasswordStatus    : 2
    LastLoadInfo             : LastLoadInfo
    Manufacturer             : Dell Inc.
    Model                     : OptiPlex 745
    Name                     : SERVER01
    NameFormat                : NameFormat
    NetworkServerModeEnabled : true
    NumberOfLogicalProcessors : 2
    NumberOfProcessors        : 1
    OEMStringArray            : www.dell.com
    PartOfDomain             : true
    PauseAfterReset         : -1
    PCSystemType             : 5
    PowerManagementSupported : PowerManagementSupported
    PowerOnPasswordStatus     : 1
    PowerState                : 0
    PowerSupplyState         : 3
    PrimaryOwnerContact     : PrimaryOwnerContact
    PrimaryOwnerName         : testuser01
    ResetCapability         : 1
    ResetCount                : -1
    ResetLimit                : -1
    Roles                     : {LM_Workstation, LM_Server, SQLServer, NT}
    Status                    : OK
    SystemStartupDelay        : SystemStartupDelay
    SystemStartupSetting     : SystemStartupSetting
    SystemType                : X86-based PC
    ThermalState             : 3
    TotalPhysicalMemory     : 3217760256
    UserName                 : FABRIKAM\testuser01
    WakeUpType                : 6
    Workgroup                 : Workgroup

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                     : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_Service
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                    : p:Win32_Service_Type
    lang                    : en-US
    AcceptPause             : false
    AcceptStop             : false
    Caption                 : Remote Procedure Call (RPC)
    CheckPoint             : 0
    CreationClassName     : Win32_Service
    Description             : Serves as the endpoint mapper and COM Service Control Manager. If this service is stopped
                             or disabled, programs using COM or Remote Procedure Call (RPC) services will not Function
                             properly.
    DesktopInteract         : false
    DisplayName             : Remote Procedure Call (RPC)
    ErrorControl            : Normal
    ExitCode                : 0
    InstallDate             : InstallDate
    Name                    : RpcSs
    PathName                : C:\Windows\system32\svchost.exe -k rpcss
    ProcessId             : 1100
    ServiceSpecificExitCode : 0
    ServiceType             : Share Process
    Started                 : true
    StartMode             : Auto
    StartName             : NT AUTHORITY\NetworkService
    State                 : Running
    Status                 : OK
    SystemCreationClassName : Win32_ComputerSystem
    SystemName             : SERVER01
    TagId                 : 0
    WaitHint                : 0

    xsi                     : http://www.w3.org/2001/XMLSchema-instance
    p                     : http://schemas.microsoft.com/wbem/wsman/1/wmi/root/cimv2/Win32_SystemDriver
    cim                     : http://schemas.dmtf.org/wbem/wscim/1/common
    type                    : p:Win32_SystemDriver_Type
    lang                    : en-US
    AcceptPause             : false
    AcceptStop             : true
    Caption                 : HTTP
    CreationClassName     : Win32_SystemDriver
    Description             : HTTP
    DesktopInteract         : false
    DisplayName             : HTTP
    ErrorControl            : Normal
    ExitCode                : 0
    InstallDate             : InstallDate
    Name                    : HTTP
    PathName                : C:\Windows\system32\drivers\HTTP.sys
    ServiceSpecificExitCode : 0
    ServiceType             : Kernel Driver
    Started                 : true
    StartMode             : Manual
    StartName             :
    State                 : Running
    Status                 : OK
    SystemCreationClassName : Win32_ComputerSystem
    SystemName             : SERVER01
    TagId                 : 0

    Description
    ———–
    This command gets the associated instances that are related to the specified instance (winrm).

    Important: You must enclose the filter in quotation marks, as shown in the example.

    ————————– EXAMPLE 9 ————————–

    C:\PS>Get-WSManInstance -Enumerate -Dialect association -References -filter “{Object=win32_service?name=winrm}” -res wmicimv2/*

    Description
    ———–
    This command gets association instances that are related to the specified instance (winrm). Because the Dialect parameter is set to “association” and the Reference parameter is used, this command returns association instances, not associated instances.

    Important: You must enclose the filter in quotation marks, as shown in the example.

RELATED LINKS
    Online version: http://go.microsoft.com/fwlink/?LinkId=141444
    Connect-WSMan
    Disable-WSManCredSSP
    Disconnect-WSMan
    Enable-WSManCredSSP
    Get-WSManCredSSP
    Invoke-WSManAction
    New-WSManInstance
    New-WSManSessionOption
    Remove-WSManInstance
    Set-WSManInstance
    Set-WSManQuickConfig
    Test-WSMan