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I need help testing the following code

public virtual void Update(T entity)
    {
        if (entity == null)
        {
            throw new ArgumentNullException("entity");
        }

        int iretries = 0;
        bool success = false;

        do
        {
            try
            {
                this.context.SaveChanges();
                success = true;
            }
            catch (DbUpdateConcurrencyException ex)
            {
                // Get the current entity values and the values in the database
                // as instances of the entity type
                var entry = ex.Entries.Single();
                var databaseValues = entry.GetDatabaseValues();

                // Choose an initial set of resolved values. In this case we
                // make the default be the values currently in the database: StoreWins
                object resolvedValues = ResolveConcurrency(databaseValues.ToObject());

                // Update the original values with the database values and
                // the current values with whatever the user choose.
                entry.OriginalValues.SetValues(databaseValues);
                entry.CurrentValues.SetValues(resolvedValues);

                // give up after n retries
                if (++iretries == NUMBER_OF_CONC_RETRIES)
                    throw;
            }
            catch (Exception)
            {
                //rethrow 
                throw;
            }
        } while (!success);
    }

I want to unit test the DbUpdateConcurrencyException branch.

So, one simple test scenario would be:

  • Creating a new DbUpdateConcurrencyException
  • Mock the SaveChanges to throw the above exception
  • Verify that SaveChanges was called a number of NUMBER_OF_CONC_RETRIES
  • Assert that the Update method re-throws the exception

In the current state, the above test scenario cannot be tested, I cannot mock the exception to contain a IEnumerable<DbEntityEntry> with a single DbEntityEntry; I cannot mock the GetDatabaseValues(), etc.

A simple solution would be to insert a new layer of abstraction; let's say using an interface to abstract the entire code that currently sits in the catch block, and to provide a mock that does nothing.

But then I would end up in the situation when I would want to test the implementation of that interface, and would end up having the same questions as above. How can I mock the DbUpdateConcurrencyException, the GetDatabaseValues, etc.

I am using moq for mocking.

Thank you for your input

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1 Answer

up vote 0 down vote accepted

If you cannot mock something you must hide it behind something else you can mock or override in test. Your test actually doesn't need to use all that stuff for loading values and setting them in the entry - that is all dependent on EF and you will not test it when mocking the context because that would mean to re-implement EF's logic behind SaveChanges. All you need to do is:

catch (DbUpdateConcurrencyException ex) {
    RefreshValues(ex);

    // give up after n retries
    if (++iretries == NUMBER_OF_CONC_RETRIES)
        throw;
}

Where RefreshValues can be protected virtual method and you can override it in your test either by providing test version of the class (you can even achieve this with Moq) or by inheriting the test from this class and overriding the method directly in test class.

To setup Moq you need interface for your context exposing SaveChanges method:

var contextMock = new Mock<IContext>();
contextMock.Setup(m => m.SaveChanges())
           .Callback(m => throw new DbUpdateConcurrencyException());

If you need to test that it works for few throws as well you need to keep counter in the test and use it in the callback to decide if throw or not.

share|improve this answer
    
Hi. Thanks for your input. As you can see, your solution is also what I proposed as the simple solution (paragraph 6). But as stated there, my test policy involves testing all the code that I write, and this solution does not address that. I'm still left with untested code (the method RefreshValues). I do understand your position that testing it in extenso might mean that I am testing EF code, but consider this: What if a developer re-factors the method RefreshValues and accidentally deletes the call entry.CurrentValues.SetValues(resolvedValues);. I want to make sure that will not happen –  Andrei Gavrila Sep 7 '12 at 10:37
    
In such case you need an integration test to test refresh values and save changes = no mocking or faking. –  Ladislav Mrnka Sep 7 '12 at 10:39
    
Integration testing is an option, but in my opinion, not the best, because that would actually mean testing EF code. I am sure that the call to entry.CurrentValues.SetValues(resolvedValues); does what it is expected, all i'm trying to test in my unit test is that such a call will be made, and not accidentally deleted at a future code refactoring –  Andrei Gavrila Sep 7 '12 at 10:45
    
IMHO You are testing too much details (it can be handled by single integration test instead of asserting every framework call) and moreover with wrong tools. If you want to achieve such testing you must either wrap whole EF in to set of mockable wrappers, or you must not use EF, or you must use better mocking framework - MS Fakes (only part of VS2012 Ultimate) or TypeMock isolator (commercial mocking API) - both can "mock" non virtual or even static methods. –  Ladislav Mrnka Sep 7 '12 at 11:25
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