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I'm using Castle Windsor 2.5.3 in an ASP.NET 4.0 Web Application (not ASP.NET MVC)

I have an interceptor which is being used to intercept calls to a data access component. The interceptor depends on a cache manager. The cache manager is used by the interceptor to avoid calling the data access component if the cache manager has the required data.

Even though the cache manager is registered as a Singleton, it is being instantiated multiple times. I can prove this with a debug message or a hit-count breakpoint in its default constructor.

A new requirement is for the cache to be clearable on demand, so I thought it would be a simple matter of resolving the Cache Manager and calling EmptyCache. What is happening is that the container is creating a new instance of the Cache Manager on which the call to EmptyCache has no effect (since the new cache manager has no cached data). Here is the code in the web page for clearing the cache:

protected void flushButton_Click(object sender, EventArgs e)
{
    ICacheManager cacheManager = null;

    try
    {
        cacheManager = Global.Container.Resolve<ICacheManager>();
        cacheManager.EmptyCache();
        resultLabel.Text = "Cache has been flushed";
    }
    catch (Exception ex)
    {
        resultLabel.Text = "An error occurred. The reason given was: " + ex.Message;
    }
    finally
    {
        if (cacheManager != null)
            Global.Container.Release(cacheManager);
    }
}

When I hover over the Container in Visual Studio and drill into the Components, the CacheManager is marked as Singleton. How can this be happening?

My Cache Manager is registered like this:

public class WindsorComponentInstaller : IWindsorInstaller
{
    public void Install(IWindsorContainer container, IConfigurationStore store)
    {
        container.Register(
            Component.For(typeof(Data.Common.Cache.ICacheManager))
                .ImplementedBy(typeof(Data.Common.Cache.CacheManager))
                .LifeStyle.Singleton
        );
        container.Register(
            Component.For<Data.Common.CachingInterceptor>()
        );
    }
}

The Cache Manager interface looks like this:

public interface ICacheManager 
{
    object CacheItem(string cacheKey, DateTime absoluteExpiration, CacheItemPriority priority, Func<object> itemProvider);
    object CacheItem(string cacheKey, TimeSpan slidingExpiration, CacheItemPriority priority, Func<object> itemProvider);
    void EmptyCache();
}

The interceptor looks like this:

public class CachingInterceptor : IInterceptor
{
    private ILogger logger = NullLogger.Instance;
    private ICacheManager cacheManager;

    public CachingInterceptor(ICacheManager cacheManager)
    {
        this.cacheManager = cacheManager;
    }

    public ILogger Logger
    {
        set
        {
            if (value != null) logger = value;
        }
    }

    public void Intercept(IInvocation invocation)
    {
        try
        {
            string cacheItemKey = MakeCacheItemKey(invocation);
            //Debug.WriteLine("Cache Key: {0}", cacheItemKey);
            TimeSpan lifespan = TimeSpan.Parse("00:20:00");
            bool cacheHit = true;

            object result = cacheManager.CacheItem(cacheItemKey, lifespan, CacheItemPriority.Low,
                () =>
                {
                    invocation.Proceed();
                    //Debug.WriteLine(String.Format("populate-the-cache callback was invoked and returned a {0}", invocation.ReturnValue ?? "null"));
                    cacheHit = false;
                    return invocation.ReturnValue;
                }
            );

            logger.DebugFormat("Interceptor {0} Cache Hit: {1}", (invocation.Method.Name ?? "null"), cacheHit.ToString());
            invocation.ReturnValue = result;
        }
        catch (Exception ex)
        {
            logger.Error("Intercept Error", ex);
        }
    }

    private string MakeCacheItemKey(IInvocation invocation)
    {
        StringBuilder sb = new StringBuilder();
        sb.Append(invocation.InvocationTarget);
        sb.Append("|" + invocation.MethodInvocationTarget.Name);
        sb.Append("|" + invocation.MethodInvocationTarget.ReturnType);

        foreach (ParameterInfo pi in invocation.MethodInvocationTarget.GetParameters())
            sb.Append("|" + pi.ParameterType.ToString());

        foreach (var arg in invocation.Arguments)
        {
            sb.Append("|");
            sb.Append(arg ?? "null");
        }

        return sb.ToString();   
    }
}

The data components are registered like this:

    public void Install(IWindsorContainer container, IConfigurationStore store)
    {
        string connStr = ConfigurationManager.ConnectionStrings["Database"].ConnectionString;

        container.Register(
            Component.For<IActualCostsVersusBudgetDataProvider>()
                .ImplementedBy<ActualCostsVersusBudgetDataProvider>()
                .DependsOn(Property.ForKey("connectionString").Eq(connStr))
                .LifeStyle.Transient
                .Interceptors(InterceptorReference.ForType<CachingInterceptor>())
                .Anywhere
        );
        /* Many calls to .Register omitted */
    }

The business objects that depend on data providers are registered like this:

public void Install(IWindsorContainer container, IConfigurationStore store)
{
    container.Register(
        AllTypes.FromThisAssembly()
            .Where(t => t.Name.EndsWith("Manager"))
            .Configure(c => c.LifeStyle.Transient)
    );
}

The container is initialized like this in global.asax:

public static IWindsorContainer Container { get; private set; }

public Global()
{
    Container = BootstrapContainer();
}

private IWindsorContainer BootstrapContainer()
{
    WindsorContainer container = new WindsorContainer();

    container.AddFacility<LoggingFacility>(f => f.LogUsing(LoggerImplementation.Log4net).WithAppConfig());

    container.Install(
        new Data.Common.Installers.WindsorComponentInstaller(),
        new Data.Installers.WindsorComponentInstaller(),
        new Business.Installers.WindsorComponentInstaller()
    );

    return container;
}
share|improve this question
1  
A guess: CacheManager ends with "Manager" and so is matched by the installer that configures all those components as transient. –  Mauricio Scheffer Jul 27 '11 at 0:22
    
I'll experiment. Can you point me at the correct documentation for installers that describes this behavior; I was not aware of it. Thanks. –  IanT8 Aug 3 '11 at 8:06
    
I don't understand... it's you who defined this behavior in the installer... –  Mauricio Scheffer Aug 3 '11 at 12:55
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