I am refactoring an Analytic system that will do a lot of calculation, and I need some ideas on possible architectural designs to a data consistency issue I am facing.
I have a queue based system, in which different requesting applications create messages that are eventually consumed by workers.
Each "Requesting App" breaks down a large calculation into smaller pieces that will be sent to the queue and processed by the workers.
When all the pieces are finished, the originating "Requesting app" will consolidate the results.
Also, the workers consume information from a centralized database (SQL Server) in order to process the requests (Important: the workers do not change any data on the database, only consume it).
Ok. So far, so good. The problem arises when we include a web service that updates the information on the database. This can happen at any time, but it is critical that each "large calculation" originated from the same "Requesting App" sees the same data on the database.
- App A generates messages A1 and A2, sending it to queue
- Worker W1 picks up message A1 for processing.
- The web server updates the database, changing from state S0 to S1.
- Worker W2 picks up message A2 for processing
I just can´t have worker W2 using state S1 of the database. for the whole calculation to be consistent it should use the previous S0 state.
A lock pattern to prevent the web server from changing the database while there is a worker consuming information from it.
- cons: The lock might be on for a long time, since the calculation form different "Request Apps" might overlap (A1, B1, A2, B2, C1, B3, etc.).
Create new layer between the database and the workers (a server that controls db caching by req. app)
- cons: Adding another layer might impose significant overhead (maybe?), and it is a lot of work, since I will have to rewrite the persistence of the workers (a lot of code).
I am pending to the second solution, but not very confident about it.
Any brilliant ideas ? Am I designing it wrong, or missing something ?
- This is a HUGE 2-tier legacy system (in C#) that we are trying to evolve into a more scalable solution with as minimal effort as possible.
- Each worker is potentially running on different servers.