I have a system, that has 3 general parts to aid my description.

1) DATABASE- to store all tables, this same database will store data for other services as well including a web application, silverlight etc... (Needs to be flexible, if on a remote server, can be exposed via a web service, if locally, can connect locally or via TCP to the windows service)

2) BLACK BOX - process ONE item at a time by injecting in the list of required items from the database, like a pipe, where u put in a set of conditions, values for a single item, and returns the results for that single processed item.

3) WINDOWS SERVICE- to retrieve data from the database, injects into the black box, saves results from black box to the database at predefined intervals. The service might be sitting on a different server to the database. Will log error and continue should an error occur.

On average, the windows service will have to process about 5000 items, and it will take the black box about 1.5 second to process 5000 items.

My questions are:

a) Should the windows service get a batch list of items to process from the database, or should it get a list of ids, and in a loop get each individual items from the database before passing on to the black box? Note that the same database is being used by other applications as well. Tentatively, I am guessing the database should be a web service call of some sort.

b) Should an individual item be saved immediately after processing? Or should it wait for the batch to finish processing before saving? As saving each individual item after processing is good when the systems suddenly fails in the middle of the process, at least the processed ones are saved, but at the cost of performance due to its 5000 calls to the web service?

Any advice on an optimum solution?


  • 1
    can you to consider working with a MSMQ queue, processing one item at time, and just removing it after processing is done? – Rubens Farias Dec 30 '09 at 2:11
  • I am not so familiar with MSMQ, can you briefly explain how it can be applicable? – Joshscorp Dec 30 '09 at 2:14
  • msmq would guarantee delivery of items. not sure it's totally applicable here, but it could be useful, but it would complicate the design – Luke Schafer Dec 30 '09 at 2:22
  1. you should pull your items in a batch so you don't clog the network with requests. grabbing a list of IDs, then looping them and pulling the full item each time is N extra database calls.

    • you can use a webservice to handle calling the database, if you think you will benefit from the abstraction. otherwise you'll just create unnecessary complexity.

  2. update the databse as you finish each item. the finished items can be used further down the line as soon as they are ready, instead of having to wait for batches of 5000 to finish.

    • this assumes you will be saving data for each item

    • you need to make N calls (to save each item) no matter what, so you don't gain much by waiting and then updating at the end of each batch.

    • if it crashes, you'll lose all the unsaved data.

    • if you don't need to store per-item results from the black box then you'd have a good reason to consider updating everything as a batch.

I've written a bunch of apps like this for a bank. My usual approach is as follows-- It's simple, fault-tolerant, and efficient. (assuming you need to process sets of items and save data for each one)

  1. the database has a table representing the status of processing an item, in addition to the items table. for a little extra work upfront, this will make debugging and auditing the process a breeze:

    table ItemsProcessStatus  -- feel free to improve upon the name
    int orderID (auto increment)
    int itemID  (fk to items)
    datetime pulledForProcessing null
    datetime finishedProcessing null
  2. windows service runs on a timer, say once every X minutes and pulls limit(Y) items to process. this marks the pulledForProcessing flag with a timestamp in the ItemsProcessStatus table.

    • You want to pull items where the pulled date is null [and also those that have been pulled, but not completed, and are older than Z minutes (I usually pick 15 to 30 minutes)]

    • Be careful with the procedure that pulls these. you need to use locks

    • You can refine this further: On the first iteration, grab Y items, where Y is a decent guess at how much you can process in that time span. The next iteration, you calculate the rate that it is processesing (as a sliding average) and adjust the the number of items to pull. this way it will continuously adjust itself to process at full capacity.

  3. the windows service processes these one by one (well, usually it's multithreaded, so many at once) by sending them to the black box.

    • I put them in a threadsafe Queue<> (not to be confused with msmq). Worker threads loop, pulling from the queue, processing the item in the black box, and then updating the database.

    • you can use any of the typical multithreading techniques here (wait/pulse, reader/writer lock slim, wait handles), or just have the worker thread sleep for a few seconds if the queue is empty

  4. after each item finishes, call the updates proc for that item, which also updates the ItemsProcessStatus table (signifying that it has finished processing)

  5. When your service is stopped, finish processing any items that are being processed and update them in the db.

    • For all the items that haven't been sent to the black box, you unmark them in the process table by setting pulledForProcessing to null.

  6. if your service crashes, you don't 'lose' a lot of data. items that didn't get unmarked will get pulled again when they are over a certain age (process table)

This works with multiple instances of the windows service installed on an array of servers (though you'll want to add ComputerName to the process table to identify which computer each service is running on). this works because each service just grabs the 'next set of items' to process--there's no need for any kind of routing or for the processes to communicate with each other.

  • Fantastic, thanks, I think its a very reasonable solution and it does make sense. – Joshscorp Dec 30 '09 at 4:48
  • Ouch. Not a good solution -- the queues are a standard way of doing things, and almost more important than the webservers, app servers, databases in a way ... in terms of having a good implementation ... it's like the nervous system of the entire system. You don't want to roll your own. – Larry Watanabe Dec 30 '09 at 13:49
  • His 'black box' processing of each item is dependent on the state of the database. thus if the db goes down, he can't process any more, regardless of whether he is using message queues. If he can re-work the processing to be completely independent of the db, then using queues would make sense. – dan Dec 30 '09 at 19:15

MSMQ is Microsoft's queuing approach. I agree a queuing approach should be used - this is done in most systems handling large number of transactions. For example, at the bank I used to workfor we used MQ as our middleware solution.

The advantage is that the next step in the proces can begin immediately processing after the first, without waiting for all 5000 entries to be processed. What if the number increases to 500,000,000? Then the wait time for the first item to complete will go up enormously. Using a queuing approach, it wouldn't change at all.

There are other advantages - scaleability, robustness, things like guaranteed delivery - but you can learn about those issues later.

Also, a well-implemented queue produces very little wait overhead in the processes that use it, since they almost always support multiple threads accessing the queues. (There will be overhead, but there won't a greatly increased wait time).

  • Still not very sure how queuing would help, in fact, I am queuing the jobs in a loop in my windows service, or I can multithread in the service, whats the difference? Its only after processing that I will save the state into the database as processed, with its results, calculated hours etc... So if the MSMQ is sitting in the middle, between the Windows service and Database, my questions a) and b) still stands. And wait time in queue = access to database to get the required item? as processing one item in the black box is very fast. – Joshscorp Dec 30 '09 at 2:39
  • Put it this way, Dunno how MSMQ works but doesn't it equate to 5000 items = 5000 retrievals/service calls at least (if not batched and not including other conditions to retrieve together with the items) + 5000 save calls (if not batched), as each queue = each item. – Joshscorp Dec 30 '09 at 2:45
  • i used msmq at a bank too :) though the way they used it, it was always more of a problem than a solution – dan Dec 30 '09 at 2:51
  • The queueing is just much more flexible. Will your system work without losing any transactions if one component of the system goes down for an hour? – Larry Watanabe Dec 30 '09 at 3:43
  • One benefit you get from MSMQ is significantly higher throughput. It's faster to dump data there than write to a database. If your database server is down, you can still keep processing as long as your queue is up. Another benefit is that you don't store half-baked data in your database. If it isn't processed, why is it persisted? This is where you dump the data in the queue, let your queue worker process it and persist it. If it can't, it can move the data to the 'poison' queue where you can have another service running to evaluate erroneous data and do something with it (workflow?) – Sergey Dec 30 '09 at 5:33

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.