I have some code in my business logic layer which consume some repositories which in turn use a DbContext (in the data layer). Most of the code is async. At some point in my business logic, I call several async method of the repositories at once (Task.WhenAll...)) And I ran into an error A second operation started on this context before a previous asynchronous operation completed

My point of view is, the business logic should not care/be aware on how the repositories do their job, so it should be able to use parallelism on async Task if "it pleases so".

So I would like to be able to lock in an async/await friendly way the critical moment where A second operation should wait until the previous asynchronous operation complete.

How can this be done?

Current work-arround: forget Task.WhenAll use await like TPL don't even exist

        var postsResult = await _IUserLogic.GetActivePostsAsync();
        var usersResult = await _IUserLogic.SearchUsersWithPostAsync(viewModel.Name, viewModel.PostId);

Code To-be

        var postsTask = _IUserLogic.GetActivePostsAsync();
        var usersTask = _IUserLogic.SearchUsersWithPostAsync(viewModel.Name, viewModel.PostId);
        await Ask.WhenAll(postsTask , usersTask );
        var postsResult = postsTask.Result;
        var usersResult = usersTask.Result;
  • A DbContext is not a thread safe object. You need a separate instance per request. One easy approach is to inject the conn string into your repo and produce your context per request with that. Locking is not going to be your answer here as that is simply another way of forcing sequential processing of the requests, same as awaiting each in turn.
    – JSteward
    Nov 16, 2017 at 14:21
  • using several DbContext to read data would work (and bleed the memory). But as soon as it would involve updating data, they might interfere (runtime exception). So it's not a viable solution for me. Locking would indeed make the whole think actually be sequential, but my Business Logic would not have to deal with it (even if await is simple to use, it doesn't mean it should appear everywhere). If tomorrow I change my data source to something which would support parallel read (ADO.Net?), my business logic would take advantage of it without a whole re factorization. Nov 16, 2017 at 14:49
  • If you really want an async lock you can use a SemaphoreSlim
    – JSteward
    Nov 16, 2017 at 15:03
  • But where to use it then? Nov 17, 2017 at 7:22
  • You use a lock, async or not, around a shared resource. Your shared resource is the DbContext and that is used within your repo. So you can either setup the semaphore in your repo or even decorate it with a LockingRepo<T>, really whatever works best in your project.
    – JSteward
    Nov 17, 2017 at 14:55

1 Answer 1


Each thread needs its own DbContext because DbContext is not thread safe. However, there are a few work-arounds here.

  1. Each repository gets their own, new DbContext. That way, each has their own instance on their own thread. If you need this to be a single transaction, you can use Transaction Scope (newest version allows async calls).
  2. The business layer passes the dbcontext into each repository and will call save changes once at the end. Each repository simply adds their data to the DbSets and you have a single call at the end.
  3. (Worst) Override SaveChanges on DbContext in your instance and create your own lock() so all go through there. However, his pretty much defeats the purpose of Task.WhenAll since you can only save one at a time, anyway.
  4. Do what you did and call them individually.

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.