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I am developing an application in C# ASP.NET to allow users to customise a number of graphics templates with their company logo.


  1. User uploads their company logo.
  2. User selects a number of templates (through a HTML form) of different file types for customising.
  3. My web application will accept the user's request, go through each individual item requested and determine its file type. It will then call the appropriate module depending on the file type (e.g. to customise a PDF) and finally insert the logo in the template. These steps are repeated for each file requested.
  4. Once all requested templates for a user are generated, they are grouped together in a zip file and a link for downloading is sent via email.

I would like some advice on how best to accept the user's requests and process the files in ASP.NET.

One way of doing this is to keep the user waiting until all files are generated, therefore until the form handling script would have completed its execution. I reckon this is likely to trigger script timeout errors quite easily for requests that take long to be processed (large number of templates requested or sizable number of concurrent users), and as such is not a very efficient solution.

Another option would be to register the user's request, redirect him/her to another page immediately after (explaining that an email will be sent shortly with a download link), and then proceed to process the files on the server using some background job or similar without the risk of script timeouts. An email is sent when all files for that user are generated.

I am familiar with web application development but this is one of my first forays into .NET development so your help is greatly appreciated.

How can I implement the second option in C#?

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1 Answer 1

up vote 1 down vote accepted

It sounds like what you want is a web site which accepts the user input and then passes control to an offline process (such as a Windows Service) to perform the more intensive tasks asynchronously from the site, allowing the user to continue using the site (or go do something else) while processing takes place. Something like this:

  1. User "initiates" a "batch" on the website. Whether it's setting up some values, uploading some kind of batch of things to process, etc. is entirely up to what you're doing. The main point is that the user starts it off.
  2. The necessary information for the process to do its magic is persisted to the database and the user is told that the process has been queued for processing. The user can now go about doing other things.
  3. The back-end application (or multiple applications) polls the database periodically (every minute, every 5 minutes, etc.) or, in the case of an uploaded "batch" file could use something like a FileSystemWatcher, to look for new things to do and does them. Use multi-threading or whatever you need to make that happen, but the main point is that it's an "offline" process that the website isn't waiting on.
  4. When the process completes, some flag is set in the database (on the record being processed, or maybe a "message" record in the user's "inbox" or whatever) indicating that the process is done.
  5. The website UI has some indicator which, any time it's loaded, checks for the aforementioned flag(s) to indicate to the user that a queued process has been completed and is ready to be viewed.

So, essentially, you have a single database accessed by two applications (your web application and your Windows Service (or console app run by a task scheduler, etc.).

Is that basically what you're looking for? I feel like I could be more specific, do you have any specific concerns about the setup?

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Thanks for the detailed reply, David. From an architectural point of view, I'd say you are spot on. I understand the part where the requests are saved in a DB for offline processing. Hopefully I'll be able to convince the server admin to configure the task scheduler to call a C# script every 5 mins. At this point, I'd appreciate some further pointers on using multi-threading for the offline processing (my OOP skills are getting rusty). I'm thinking aloud here -- technically, if the performance is not that sluggish, wouldn't I be able to use multi-threading for 'online' processing right away? – thedarknight Dec 20 '10 at 1:13
Also, while researching about my problem I came across this solution:… Do you think it has any merit, or would the offline processing of requests stored in a DB still be the more elegant/efficient way of doing it? – thedarknight Dec 20 '10 at 1:15
@thedarknight: If you expect the demand on the application to grow then I'd recommend the offline route anyway, even if the online application can be tweaked to just get under the line for performance. If nothing else, it's decent experience for designing such a solution. Keep in mind also that multi-threading isn't a magic wand for improving performance (many people treat it as such). If a series of steps in the process should logically be atomic, then maintaining concurrency of that atomic process could be pretty difficult if done in parallel. – David Dec 20 '10 at 1:18
@thedarknight: If, however, multi-threading does make sense for this application (and it sounds like it might, if it's not over-done) then this would be a great opportunity to pick up a book on C# 4.0 and learn about its new parallelization features. (Features with which I have no direct experience yet, so I can't help you there. However, if Jon Skeet's new C# In Depth book covers the subject, it's likely good coverage and it shouldn't be hard to ask further questions about it and get good answers on SO.) – David Dec 20 '10 at 1:20
@thedarknight: Interesting link, I'll have to look into it some more. From an architectural point of view I personally still prefer the offline application model, but that could just be my own opinion. There's always more than one way to do it. I like keeping hard separations of concerns, pushing Single Responsibility pretty far (that mentality comes from my Unix background), and trying to design things to be very modular and portable. That offline processor may be useful elsewhere, maybe run on different hardware for performance, etc. – David Dec 20 '10 at 1:23

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