The question was updated in a big way, so bear with me...
Given that no threads are being created directly\indirectly by your web method code:
Quesiton So you are not explicitly creating any new threads or using ThreadPool threads directly\indirectly, you are simply receiving calls to your web method and executing your code synchronously?
Answer Yes, you are correct. There is a client API which calls the webservice. Then the webservice manages the threads automatically(creats/allocates etc) inresponse to the client's demands.The webservice talks to a smart card by opening multiple sessions for encryption/decryption.
It is more helpful to rephrase the original question along the lines of "requests" rather than threads, e.g.
When the system date changes I want to re-start my ASP.NET application and ensure that all requests that are currently executing are completed, and that any outstanding\queued requests are completed as well.
This is handled automatically as there is a concept of a request queue and active requests. When your ASP.NET application is restarted, all current and queued requests are completed (unless they do not complete in a timely fashion), and new requests are queued and then serviced when a new worker process comes back up. This process is followed when you recycle the Application Pool that your ASP.NET application belongs to.
You can configure your application pool to recycle at a set time in IIS Manager via the "Recycle" settings for the associated Application Pool. Presumably you want to do this at "00:00".
I think I can glean from your comments that you need to run some cleanup code when all requests have been serviced and then the application is about to shut down. You should place this code in the global "Application_End" event handler.
In answer to your updated question. Your requirements are:
When the application is restarted:
- New request from the clients are made to wait
- Current work between webservice and smart card should get completed
- If there is any prior pending requests then they should get completed.
This is supported by the standard recycling pattern that I have described. You do not need to deal with request threads yourself - this is one of the pillars of the ASP.NET framework, it deals with this for you. It is request orientated and abstracts how requests are handled i.e. serviced on multiple threads. It manages putting requests onto threads and manages the lifeclyle of those requests when the application is recycled.
OK, I think we have the final piece of the scenario here. You are trying to shut down ASP.NET from your client by issuing a "CLOSED" web service call. Basically
you want to implement your own ASP.NET shut down behaviour by making sure that all current and queued request are dealt with before you then execute your clean-up code.
You are trying to re-invent the wheel.
ASP.NET already has this behaviour and it is supported by:
a. Application Recycling It will service outstanding requests cleanly and start-up a new process to serve new requests. It will even queue any new requests that are received whilst this process is going on.
b. Application_End A global application event handler where you can put your clean-up code. It will execute after recycling has cleanly dealt with your outstanding requests.
You do not need your "CLOSED" command.
You should consider letting IIS recycle your application as it has support for recycling at a specified daily time(s). If you cannot configure IIS due to deployment reasons then you can you use web.config "touching" to force a recycle out-of-bounds of IIS:
a. Have a timer running in the server which can check for the date change condtion and then touch the web.config file.
b. Still have the client call a "CLOSED" web method, but have the "CLOSED" method just touch the web.config file.
IIS, then "a" are the most desirable.
Honestly Microsoft have already thought about it. :)
@Raj OK, let me try and rephrase this again.
Your conditions are:
- You have a requirement to reset your smartcard once a day.
- Before resetting your smartcard, all current and queued web service requests must be completed i.e. the outstanding requests.
- After outstanding requests are completed, you reset your smartcard.
- Any new requests that come in whilst this process is happening should be queued and then serviced after the smartcard has been reset.
These conditions allow you to complete existing requests, queue any new requests, reset your smartcard, and then start processing new requests after the card has been reset.
What I am suggesting is:
- Place your smartcard reset code in "Application_End".
- Configure IIS to recycle your application at "00:00". Ensure that in advanced settings for the associated Application Pool that you configure "Disable Overlapped Recycle = True".
- At "00:00" application recycling ensures that all current and queued requests will be completed.
- After "00:00" application recycling ensures that all new requests will be queued whilst requests in "3" are completed and the application performs shutdown steps.
- After requests in "3" are completed, "Applicaton_End" will be called automatically. This ensures that your smartcard is reset after all current requests are completed.
- Application recycling ensures that your application is re-started in a new process, and that new requests queued in step "4" start to be processed. The important thing here is that your reset code has been called in "5".
Unless there is some detail missing from your question, the above appears to meet your conditions. You wish to do "x,y,z" and ASP.NET has built-in support which can be used to achieve "x,y,z" and gives you mature, guaranteed and well-documented implementations.
I am still struggling to understand why you are talking about threads. I do multi-threaded development, but talking about threads instead of requests when thinking about ASP.NET adds unnecessary complexity to this discussion. Unless your question is still unclear.
Perhaps you are missing the point I'm making here. I am drawing a parallel between the behaviour you require when you call "CLOSED" from your client application, and what happens when you recycle an application. You can use recycling and "Application_End" to achieve the required results.
I am trying to help you out here, as trying to implement this behaviour yourself is unnecessary and non-trivial.