Adding Non-Terminating Error Reporting to Your Cmdlet
Cmdlets can report non-terminating errors by calling the System.Management.Automation.Cmdlet.WriteError method and still continue to operate on the current input object or on further incoming pipeline objects. This section explains how to create a cmdlet that reports non-terminating errors from its input processing methods.
For non-terminating errors (as well as terminating errors), the cmdlet must pass an
System.Management.Automation.ErrorRecord object identifying the error. Each error
record is identified by a unique string called the "error identifier". In addition to the
identifier, the category of each error is specified by constants defined by a
System.Management.Automation.ErrorCategory enumeration. The user can view errors
based on their category by setting the $ErrorView
variable to "CategoryView".
For more information about error records, see Windows PowerShell Error Records.
Defining the Cmdlet
The first step in cmdlet creation is always naming the cmdlet and declaring the .NET class that implements the cmdlet. This cmdlet retrieves process information, so the verb name chosen here is "Get". (Almost any sort of cmdlet that is capable of retrieving information can process command-line input.) For more information about approved cmdlet verbs, see Cmdlet Verb Names.
The following is the definition for this Get-Proc
cmdlet. Details of this definition are given in
Creating Your First Cmdlet.
[Cmdlet(VerbsCommon.Get, "proc")]
public class GetProcCommand: Cmdlet
<Cmdlet(VerbsCommon.Get, "Proc")> _
Public Class GetProcCommand
Inherits Cmdlet
Defining Parameters
If necessary, your cmdlet must define parameters for processing input. This Get-Proc cmdlet defines a Name parameter as described in Adding Parameters that Process Command-Line Input.
Here is the parameter declaration for the Name parameter of this Get-Proc cmdlet.
[Parameter(
Position = 0,
ValueFromPipeline = true,
ValueFromPipelineByPropertyName = true
)]
[ValidateNotNullOrEmpty]
public string[] Name
{
get { return processNames; }
set { processNames = value; }
}
private string[] processNames;
<Parameter(Position:=0, ValueFromPipeline:=True, _
ValueFromPipelineByPropertyName:=True), ValidateNotNullOrEmpty()> _
Public Property Name() As String()
Get
Return processNames
End Get
Set(ByVal value As String())
processNames = value
End Set
End Property
Overriding Input Processing Methods
All cmdlets must override at least one of the input processing methods provided by the System.Management.Automation.Cmdlet class. These methods are discussed in Creating Your First Cmdlet.
Note
Your cmdlet should handle each record as independently as possible.
This Get-Proc cmdlet overrides the System.Management.Automation.Cmdlet.ProcessRecord method to handle the Name parameter for input provided by the user or a script. This method will get the processes for each requested process name or all processes if no name is provided. Details of this override are given in Creating Your First Cmdlet.
Things to Remember When Reporting Errors
The System.Management.Automation.ErrorRecord object that the cmdlet passes when writing an error requires an exception at its core. Follow the .NET guidelines when determining the exception to use. Basically, if the error is semantically the same as an existing exception, the cmdlet should use or derive from that exception. Otherwise, it should derive a new exception or exception hierarchy directly from the System.Exception class.
When creating error identifiers (accessed through the FullyQualifiedErrorId property of the ErrorRecord class) keep the following in mind.
Use strings that are targeted for diagnostic purposes so that when inspecting the fully qualified identifier you can determine what the error is and where the error came from.
A well formed fully qualified error identifier might be as follows.
CommandNotFoundException,Microsoft.PowerShell.Commands.GetCommandCommand
Notice that in the previous example, the error identifier (the first token) designates what the error is and the remaining part indicates where the error came from.
- For more complex scenarios, the error identifier can be a dot separated token that can be parsed on inspection. This allows you too branch on the parts of the error identifier as well as the error identifier and error category.
The cmdlet should assign specific error identifiers to different code paths. Keep the following information in mind for assignment of error identifiers:
- An error identifier should remain constant throughout the cmdlet life cycle. Do not change the semantics of an error identifier between cmdlet versions.
- Use text for an error identifier that tersely corresponds to the error being reported. Do not use white space or punctuation.
- Have your cmdlet generate only error identifiers that are reproducible. For example, it should not generate an identifier that includes a process identifier. Error identifiers are useful to a user only when they correspond to identifiers that are seen by other users experiencing the same problem.
Unhandled exceptions are not caught by PowerShell in the following conditions:
- If a cmdlet creates a new thread and code running in that thread throws an unhandled exception, PowerShell will not catch the error and will terminate the process.
- If an object has code in its destructor or Dispose methods that causes an unhandled exception, PowerShell will not catch the error and will terminate the process.
Reporting Non-terminating Errors
Any one of the input processing methods can report a non-terminating error to the output stream using the System.Management.Automation.Cmdlet.WriteError method.
Here is a code example from this Get-Proc cmdlet that illustrates the call to System.Management.Automation.Cmdlet.WriteError from within the override of the System.Management.Automation.Cmdlet.ProcessRecord method. In this case, the call is made if the cmdlet cannot find a process for a specified process identifier.
protected override void ProcessRecord()
{
// If no name parameter passed to cmdlet, get all processes.
if (processNames == null)
{
WriteObject(Process.GetProcesses(), true);
}
else
{
// If a name parameter is passed to cmdlet, get and write
// the associated processes.
// Write a non-terminating error for failure to retrieve
// a process.
foreach (string name in processNames)
{
Process[] processes;
try
{
processes = Process.GetProcessesByName(name);
}
catch (InvalidOperationException ex)
{
WriteError(new ErrorRecord(
ex,
"NameNotFound",
ErrorCategory.InvalidOperation,
name));
continue;
}
WriteObject(processes, true);
} // foreach (...
} // else
}
Things to Remember About Writing Non-terminating Errors
For a non-terminating error, the cmdlet must generate a specific error identifier for each specific input object.
A cmdlet frequently needs to modify the PowerShell action produced by a non-terminating error. It can
do this by defining the ErrorAction
and ErrorVariable
parameters. If defining the ErrorAction
parameter, the cmdlet presents the user options
System.Management.Automation.ActionPreference, you can also directly influence
the action by setting the $ErrorActionPreference
variable.
The cmdlet can save non-terminating errors to a variable using the ErrorVariable
parameter, which
is not affected by the setting of ErrorAction
. Failures can be appended to an existing error
variable by adding a plus sign (+) to the front of the variable name.
Code Sample
For the complete C# sample code, see GetProcessSample04 Sample.
Define Object Types and Formatting
PowerShell passes information between cmdlets using .NET objects. Consequently, a cmdlet might need to define its own type, or the cmdlet might need to extend an existing type provided by another cmdlet. For more information about defining new types or extending existing types, see Extending Object Types and Formatting.
Building the Cmdlet
After implementing a cmdlet, you must register it with Windows PowerShell through a Windows PowerShell snap-in. For more information about registering cmdlets, see How to Register Cmdlets, Providers, and Host Applications.
Testing the Cmdlet
When your cmdlet has been registered with PowerShell, you can test it by running it on the command line. Let's test the sample Get-Proc cmdlet to see whether it reports an error:
Start PowerShell, and use the Get-Proc cmdlet to retrieve the processes named "TEST".
get-proc -name test
The following output appears.
get-proc : Operation is not valid due to the current state of the object. At line:1 char:9 + get-proc <<<< -name test
See Also
PowerShell