Consider the following method that stops a service:
Public Function StopService(ByVal serviceName As String, ByVal timeoutMilliseconds As Double) As Boolean Try Dim service As New ServiceController(serviceName) Dim timeout As TimeSpan = TimeSpan.FromMilliseconds(timeoutMilliseconds) service.[Stop]() If timeoutMilliseconds <= 0 Then service.WaitForStatus(ServiceControllerStatus.Stopped) Else service.WaitForStatus(ServiceControllerStatus.Stopped, timeout) End If Return service.Status = ServiceControllerStatus.Stopped Catch ex As Win32Exception 'error occured when accessing a system API' Return False Catch ex As TimeoutException Return False End Try End Function
In order to unit test the the method I basically have two options:
- Use the Adapter pattern to wrap the
ServiceControllerclass's methods I need into an interface I can control. This interface can then be injected into the service class (a.k.a Inversion of Control). This way I have a loosely coupled code and can use the traditional mocking frameworks to test.
- Keep the class as is and use
Microsoft Moles (or any other code
detouring framework) to intercept
the calls to
ServiceControllerto return canned results for testing purposes.
I agree that for domain model code that using the "traditional" unit testing approach makes the most sense as this would lead to a design that is easiest to maintain. However, for code that deals with the .net implementation of Windows API related stuff (file system, services, etc), is there really an advantage to going thru the extra work to get "traditionally" testable code?
It's hard for me to see the disadvantages of using Microsoft Moles for things such as
ServiceController (or the
File object). I really don't see any advantage of doing the traditional approach in this case. Am I missing anything?