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We are currently enhancing an ASP.NET app that performs quotes on a number of products.

At present the existing quote engine is basically a big stored procedure (2-3 secs per call) followed by a small amount of business logic that runs after the procedure call.

We are looking into multi-threading the call to each product in order to speed up a set of quotes.

Our current approach is to encapsulate each product quote work in a ThreadPool thread. This seems to perform much better, but I'm a little concerned that though it's performing well with a small number of users, will it scale well in a production environment?

Please note at present we are not using async ADO.NET methods.

Note: Our code that calls the ThreadPool has a throttle that queues requests so we can only use a configurable amount of threads from the ThreadPool at one time. We also don't need to wait for the quote results on the same page, we allow the user to progress and check for updates (a quote results page uses AJAX to check for results).

Further note: The preferred solution would be to use a message queue as the quote service is a one-way operation. However, the timescales for the project didn't provide us time to do this.

In the meantime we are going to revise the implementation to use the async methods of ADO.NET (as that is where all the long running aspect of the process is) saving the need to use ThreadPool threads.

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2 Answers 2

up vote 6 down vote accepted

Using ThreadPool threads with long running ADO.NET queries. Is this scalable?

The short answer is no, it's not scalable.

The reason is that ThreadPool threads are also used to process regular ASP.NET requests (the same is true for BeginInvoke). There are a limited number of those threads, and when they're used up, incoming HTTP requests will block until a thread becomes available.

Although you can increase the number of threads in the ASP.NET thread pool, there are other issues, such as the fact that the number of threads isn't fixed; it increases slowly in response to load. You can/should use async Pages, but that still leaves open the question of how you actually run your SP. It would be much better to switch to async ADO.NET methods for that part, if you can. They are also much lighter-weight than using a thread per request.

In case it helps, I cover this subject in detail in my book (Ultra-Fast ASP.NET).

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Hi Rick, I forgot to add, we've basically put a throttle around how many threads from the threadpool. I'll revise my question. –  spooner Nov 18 '09 at 9:00
    
If you have to throttle the number of threads, won't that also limit the number of simultaneous requests you can process? And isn't scalability defined by how many operations you can handle at once? –  RickNZ Nov 18 '09 at 9:31
    
Fair point :) How about this approach then - run all the quotes on a single ThreadPool thread (just to get the page served up and the quotes run in the background). Then in the logic of the quotes we'll just use the Async methods of ADO.NET (which I believe uses IO threads instead). –  spooner Nov 18 '09 at 12:01
    
A scalable approach for apps with long-running queries is often to use an async Page to start the query. That uses a worker thread, but it's OK because it's non-blocking. You run the query itself using a native async call, such as ADO.NET async. When it completes, the EndAsync method on the page gets a callback. Alternatively, if the Page doesn't need to see the results, then you can queue the work to a dedicated thread (not one from the ASP.NET pool). If there are also persistance issues to address (such as if the web server were to crash), then Service Broker is another possible solution. –  RickNZ Nov 18 '09 at 12:45
    
Totally agree Rick. The throttling mechanism mentioned was basically used so we don't need to write a lot of code to provide a custom ThreadPool implementation. It just sits on top of it and queues up requests if there aren't enough free threads and you increment the number ASP.NET threads to compensate. Calling it throttling was possibly a bad choice of words. Would love to go down the MSMQ/Service broker route but this is going to have to wait until a later phase of the work we are doing. Thanks for all your help here. –  spooner Nov 18 '09 at 14:38
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ASP.NET has built-in async handlers that let you kick off a request, it runs on a non-handler thread, and may complete on a 3rd thread (differernt from the original request handler thread) all built-in. I've used it tons of times.

http://msdn.microsoft.com/en-us/magazine/cc163725.aspx

Write yourself a little helper method to hook it all up.

/// <summary>
/// On load event override
/// </summary>
/// <param name="e">arguments to the event</param>
protected override void OnLoad(EventArgs e)
{
    base.OnLoad(e);
    string query = this.Page.Request.QueryString["query"];
    if (!string.IsNullOrEmpty(query))
    {
        var pat = new PageAsyncTask(this.BeginAsync, this.EndAsync, this.TimeOut, query);
        this.Page.RegisterAsyncTask(pat);
    }
    string me = string.Format(Format, System.Threading.Thread.CurrentThread.ManagedThreadId, "Onload");
    Trace.Write(me);
}
protected override void Render(HtmlTextWriter writer)
{
    string me = string.Format(Format, System.Threading.Thread.CurrentThread.ManagedThreadId, "Render");
    Trace.Write(me);
    this.Icompleted.Text = DateTime.Now.ToString();
    base.Render(writer);
}
/// <summary>
/// start the async task
/// </summary>
/// <param name="sender">original caller</param>
/// <param name="e">unused arguments</param>
/// <param name="cb">call back routine</param>
/// <param name="state">saved stated</param>
/// <returns>IAsyncResult to signal ender</returns>
private IAsyncResult BeginAsync(object sender, EventArgs e, AsyncCallback cb, object state)
{
    this.bsc = new YourWebServiceReferenceGoesHere();
    return this.bsc.BeginGetResponseXml("1", (string)state, "10", "1", cb, state);
}

/// <summary>
/// when the task completes
/// </summary>
/// <param name="ar">the async result</param>
private void EndAsync(IAsyncResult ar)
{
    XmlResponse response = this.bsc.EndGetResponseXml(ar);
    this.bsc.Close();
    this.bsc = null;
    this.PostProcess(response);
}

private void TimeOut(IAsyncResult ar)
{
    // currently we do nothing here.
}

/// <summary>
/// 
/// </summary>
private void PostProcess(XmlResponse response )
{
    string me = string.Format(Format, System.Threading.Thread.CurrentThread.ManagedThreadId, "bingsearch");
    Trace.Write(me);
    var xds = new XmlDataSource 
    { 
        EnableCaching = false, 
        CacheDuration = 0, 
        Data = response.Xml, 
        Transform = this.RemoveNamespaces() 
    };
    this.some.DataSource = xds;
    this.some.DataBind();
}
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I did consider using async pages, but we don't need to wait for a response on the page that triggers the quotation process. The idea was you'd basically fire the work off in the background and then the user can view the quote results page when they need to and we use AJAX to check for results on that page. –  spooner Nov 18 '09 at 9:05
    
If you don't want to wait, use the code above but hook up the call to EndAsync yourself. Your page won't wait, you won't create any threads and you subsequent calls will not be blocked. –  No Refunds No Returns Nov 18 '09 at 21:00
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