As many knows, TransactionScope were forgotten when the async await pattern was introduced in .Net. They were broken if we were trying to use some await call inside a transaction scope.

Now this is fixed thanks to a scope constructor option.

But it looks to me there is still a missing piece, at least I am unable to find how to do that in a simple "transaction scope like" way: how to await the commit or rollback of a scope?

Commit and rollback are IO operations too, they should be awaitable. But since they happen on scope disposal, we have to await the dispose. That is not doable without having IAsyncDisposable implemented by transaction scopes, which is not currently the case.

I had a look at the System.Transactions.Transaction interface too: no awaitable methods there either.

I understand that committing and rollbacking is almost just sending a flag to the database, so it should be fast. But with distributed transactions, that could be less fast. And anyway, that is still some blocking IO.

About distributed cases, remember this may trigger a two phases commit. In some cases additional durable resources are enlisted during the first phase (prepare). It then usually means some additional queries are issued against those lately enlisted resources. All that happening during the commit.

So is there any way to await a transaction scope? Or a System.Transactions.Transaction instead?

Note: I do not consider this to be a duplicate of "Is it possible to commit/rollback SqlTransaction in asynchronous?". SqlTransaction are more limited than system transactions. They can address only SQL-Server and are never distributed. Some other transactions do have async methods, such as Npgsql. Now for having async methods on transaction scopes/system transaction, DbTransaction may be required to have async methods. (I do not know the internals of system transaction, but it is maybe using this ADO.NET contract. The way we enlist connection into system transaction does let me think it does not use it though.)
Update: DbTransaction does have them in .Net Core 3.0, see #35012 (notably thanks to Roji).

  • 4
    using and async/await are, today, competing code generators (github.com/dotnet/roslyn/issues/114). Are you talking about an imaginary syntactic sugar? How would you see it? As you say, all happens in the Dispose() implementation, and only Microsoft can change that. You can always fire & forget the last Dispose() call manually w/o using if that's what you're after. Jun 1, 2017 at 6:53
  • 1
    Async methods weren't forgotten. There never were any non-blocking commit/rollback functions, eg BeginCommit/EndCommit for TransactionScope or SqlTransaction. Most likely because a transaction is a hard computation boundary, not just a remote call. Jun 7, 2017 at 12:59
  • 2
    @PanagiotisKanavos True, but aren't those non blocking functions missing too? I do not really get why the semantic (hard boundary) should deter from allowing an async call. When async programming was not very practical in .Net, that was maybe not much a concern, but now that it gets more mainstream, maybe is it more debatable to lack them. By the way some other data providers do offer async methods for transaction, see Npgsql .Net provider by example.
    – Frédéric
    Jun 7, 2017 at 13:10
  • 5
    Well, going that route, why having bothered having async methods on sql objects at all? An IO never cost nothing, especially when network comes into play, even if the payload is tiny and the process to be carried on distant server too. There are even async methods on datareader for reading a single column value or just testing whether a column is null. Granted, their are truly async only with a dedicated mode, useful mostly when the row contains blobs. But as tiny as an IsNull test should be, it has still an async version available.
    – Frédéric
    Jun 7, 2017 at 13:41
  • 4
    And as for the why, it is just for curiosity. Is it that bad to seek underlying reasons to a design? The near dup you point to has an answer having seemingly thoroughly analyzed the SqlTransaction code, but that does not really give the rationals behind that, excepted considering it should not be a very long synchronous block. That reason does not seem enough alone, since there is an async method just for testing null on a single column of a result set.
    – Frédéric
    Jun 7, 2017 at 13:47

2 Answers 2


There's no way to implement it so far. But they work on it

  • I should have opened that one myself. But no, they are not working on it, they just do not reject it yet. We didn't have plans to do this, but we will consider it for 5.0.0. We need to do some investigation first to see how complicated the work will be.
    – Frédéric
    Dec 12, 2019 at 13:12
  • @Frédéric well, as they said - they considering and investigating and it's also a work. And I don't think they'll just throw it away. Let's hope for the best.
    – Gleb
    Dec 12, 2019 at 13:17
  • He only states they need to investigate. That does not mean anyone is currently investigating. They tend to assign people to issues when they actually start anything on it. Currently it has no one assigned. I am a bit pessimist on this one due to the mess the distributed case seems to be.Thanks anyway for pointing this issue.
    – Frédéric
    Dec 12, 2019 at 13:28
  • 1
    And now, they have removed it from the 5.0.0 milestone and put it in the backlog (Future milestone).
    – Frédéric
    Jul 28, 2020 at 21:20

Maybe a late answer, but what you want basically boils down to a kind of syntactic sugar that can be easily created on your own.

Generalizing your problem, I implemented an "async using" syntax, which allows both the body and the "dispose" part of the "using" to be awaitable. Here is how it looks:

async Task DoSomething()
    await UsingAsync.Do(
        // this is the disposable usually passed to using(...)
        new TransactionScope(TransactionScopeAsyncFlowOption.Enabled), 
        // this is the body of the using() {...}
        async transaction => {
            await Task.Delay(100);   // do any async stuff here...
            transaction.Complete();  // mark transaction for Commit
        } // <-- the "dispose" part is also awaitable

The implementation is as simple as this:

public static class UsingAsync
    public static async Task Do<TDisposable>(
        TDisposable disposable, 
        Func<TDisposable, Task> body)
        where TDisposable : IDisposable
            await body(disposable);
            if (disposable != null)
                await Task.Run(() => disposable.Dispose());

There is a difference in error handling, compared to the regular using clause. When using UsingAsync.Do, any exception thrown by the body or the dispose will be wrapped inside an AggregateException. This is useful when both body and dispose each throw an exception, and both exceptions can be examined in an AggregateException. With the regular using clause, only the exception thrown by dispose will be caught, unless the body is explicitly wrapped in try..catch.

  • 3
    No, I do not want that. I want a way to asynchronously commit or rollback a transaction scope (or a system transaction). You do not answer that point. It seems there are no way to do that. I do not want to just encapsulate it in some awaitable wrapper (Task.Run in your code) while the scope is still synchronously committed indeed. That would be just overhead without actually releasing the thread used for commit during the call to server.
    – Frédéric
    Oct 29, 2017 at 17:39
  • Yep. What I did releases your thread and uses another one to perform commit/rollback. What you want requires TransactionScope to truly support async, which is not the case. Probably the only option is implementing own version of TransactionScope that truly supports async -- after all, it is just a wrapper around MSDTC API.
    – felix-b
    Oct 29, 2017 at 18:07
  • 3
    "await Task.Run(() => disposable.Dispose());" << BAD. The whole entire purpose of using 'await' is to RELEASE YOUR CURRENT THREAD back to the threadpool while waiting on I/O operation to complete so some other task can use the thread. That's why it's a carefully managed pool. All you're doing here with this await Task.Run is freeing your current thread while CONSUMING ANOTHER ONE which you're then blocking with Dispose. You're blocking one thread instead of another, which does not achieve anything. Returning one thread to pool only to grab another and block it makes no sense at all.
    – Triynko
    Feb 12, 2019 at 18:49
  • @Triynko yep :) that's what I tried to point out in my comment above: OP's intent cannot be solved without inventing a truly async version of TransactionScope.
    – felix-b
    Feb 24, 2019 at 7:19

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