I frequently use async/await to ensure ASP.NET MVC Web API threads are not blocked by longer-running I/O and network operations, specifically database calls.

The System.Data.Entity namespace provides a variety of helper extensions here, such as FirstOrDefaultAsync, ContainsAsync, CountAsync and so forth.

However, since data contexts are not thread safe, this means that the following code is problematic:

var dbContext = new DbContext();
var something = await dbContext.someEntities.FirstOrDefaultAsync(e => e.Id == 1);
var morething = await dbContext.someEntities.FirstOrDefaultAsync(e => e.Id == 2);

In fact, I'm sometimes seeing exceptions such as:

System.InvalidOperationException: The connection was not closed. The connection's current state is open.

Is the correct pattern then to use a separate using(new DbContext...) block for each asynchronous call to the database? Is it potentially more beneficial to just execute synchronous then instead?


We have a stalemate situation here. AspNetSynchronizationContext, which is responsible for the threading model of an ASP.NET Web API execution environment, does not guarantee that asynchronous continuation after await will take place on the same thread. The whole idea of this is to make ASP.NET apps more scalable, so less threads from ThreadPool are blocked with pending synchronous operations.

However, the DataContext class (part of LINQ to SQL ) is not thread-safe, so it shouldn't be used where a thread switch may potentially occurr across DataContext API calls. A separate using construct per asynchronous call will not help, either:

var something;
using (var dataContext = new DataContext())
    something = await dataContext.someEntities.FirstOrDefaultAsync(e => e.Id == 1);

That's because DataContext.Dispose might be executed on a different thread from the one the object was originally created on, and this is not something DataContext would expect.

If you like to stick with the DataContext API, calling it synchronously appears to be the only feasible option. I'm not sure if that statement should be extended to the whole EF API, but I suppose any child objects created with DataContext API are probably not thread-safe, either. Thus, in ASP.NET their using scope should be limited to that of between two adjacent await calls.

It might be tempting to offload a bunch of synchronous DataContext calls to a separate thread with await Task.Run(() => { /* do DataContext stuff here */ }). However, that'd be a known anti-pattern, especially in the context of ASP.NET where it might only hurt performance and scalability, as it would not reduce the number of threads required to fulfill the request.

Unfortunately, while the asynchronous architecture of ASP.NET is great, it remains being incompatible with some established APIs and patterns (e.g., here is a similar case). That's especially sad, because we're not dealing with concurrent API access here, i.e. no more than one thread is trying to access a DataContext object at the same time.

Hopefully, Microsoft will address that in the future versions of the Framework.

[UPDATE] On a large scale though, it might be possible to offload the EF logic to a separate process (run as a WCF service) which would provide a thread-safe async API to the ASP.NET client logic. Such process can be orchestrated with a custom synchronization context as an event machine, similar to Node.js. It may even run a pool of Node.js-like apartments, each apartment maintaining the thread affinity for EF objects. That would allow to still benefit from the async EF API.

[UPDATE] Here is some attempt to find a solution to this problem.

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    That's really disappointing. The one element where web applications could have real gains from asynchronicity are database calls... but that's not supported w/ EF. – Alex Jan 6 '14 at 22:57
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    "on a different thread from the one the object was originally created on, and this is not something DataContext would expect." Can you please explain, does DbContext remembers the thread that created it? What exactly is the problem? – alpha-mouse Jun 17 '15 at 10:32
  • @alpha-mouse, AFAIR without diving into the sources, it depends on some helper classes which in turn use thread local storage (TLS). This might have changed in the recent EF versions. – noseratio Jun 17 '15 at 17:34
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    @Simon_Weaver, TransactionScopeAsyncFlowOption would solve a similar problem for TransactionScope, but AFAIK it has nothing to do with DataContext. Note the OP has edited the question and replaced DataContext with DbContext, and DbContext is already async friendly (but not cuncurrency-frienldy, see Stephen's answer). – noseratio Jan 17 '17 at 7:01
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    @Noseratio thanks. I just cheated for now and removed the sync but yes I meant DbContext. Trying to optimize some ancient Linq2Sql – Simon_Weaver Jan 17 '17 at 7:03

The DataContext class is part of LINQ to SQL. It does not understand async/await AFAIK, and should not be used with the Entity Framework async extension methods.

The DbContext class will work fine with async as long as you are using EF6 or higher; however, you can only have one operation (sync or async) per DbContext instance running at a time. If your code is actually using DbContext, then examine the call stack of your exception and check for any concurrent usage (e.g., Task.WhenAll).

If you are sure that all access is sequential, then please post a minimal repro and/or report it as a bug to Microsoft Connect.

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    I wasn't able to find anything specific, but the example they provide does jump threads at await. They did state that they are not making it fully threadsafe. – Stephen Cleary Jan 8 '14 at 12:37
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    @Noseratio Wow, so you can't wait for two pending SQL requests to complete using Task.WhenAll? I didn't tried using async EF yet, but this seems a bit disappointing to me. – ken2k Jan 8 '14 at 13:53
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    @Noseratio So the unique point in using async API with EF is to have more scalability for long running requests (as you don't need to block a thread in the threadpool waiting for the request to complete). That's just one of the two important advantages of async/await, i.e. scalability AND performance. If you can't improve performance by querying multiple requests at the same time (SQL Server would handle this just perfectly), it's very disappointing. Thanks for all the questions/answers about this subject anyway, that's very interesting. – ken2k Jan 8 '14 at 14:03
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    I believe you can do multiple simultaneous requests, as long as they each have their own DbContext. – Stephen Cleary Jan 9 '14 at 0:10
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    @AnshulNigam: If by "it", you mean DbContext, then you just ensure you're targeting .NET 4.5 and use async/await, and it'll work fine. – Stephen Cleary May 26 '14 at 13:59

Asynchronous programming is a means of parallel programming in which a unit of work runs separately from the main application thread and notifies the calling thread of its completion, failure or progress. The main benefits one can gain from using asynchronous programming are improved application performance and responsiveness.

Entity Framework 6.0 supports asynchronous Programming, it means asynchronously you can query data and save data. By using async/await you can easily write the asynchronous programming for entity framework.


public async Task<Project> GetProjectAsync(string name) 
    DBContext _localdb = new DBContext();
    return await _localdb.Projects.FirstOrDefaultAsync(x => x.Name == name);


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    OP is not asking what asynchronous programming is! This has nothing to do with the question – user3559349 Sep 29 '18 at 23:13
  • Not an answer to the question. – whipdancer May 1 '19 at 19:32

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