This question is in regards to the best practice for handling many inserts or updates using Microsoft Entity Framework. The problem is that we wrote a long-running program which pulls back thousands of records from the database, and then updates a single field on each of those records, one-by-one. Much to our dismay, we realized that each of these records that were updated were locked for the duration of the time in which the ObjectContext was not disposed. Below is some pseudocode (doesn't actually run) to illustrate:

using(ObjectContext context = new ObjectContext())

    var myRecords = context.CreateObjectSet<MyType>().AsQueryable();

    foreach(var record in myRecords)
       record.MyField = "updated!";

       //--do something really slow like call an external web service

The problem is that we need to do many updates without any regard for transactions. We were surprised to realize that calling context.SaveChanges() actually creates the lock on the records and does not release it until the ObjectContext is disposed. We especially do NOT want to lock the records in the database as this is a high-traffic system and the program could potentially run for hours.

So the question is: what is the optimal way to do many updates in Microsoft Entity Framework 4 WITHOUT doing them all on one long transaction that locks the DB? We are hoping that the answer is not to create a new ObjectContext for every single update...

  • Are you seeing record locks or lock escalations to pages or tables? Mar 16, 2011 at 20:49
  • 1
    The entire table appears to be locked so that you cannot insert or update records. However, you can select records so long as you don't select one of the records that has been pulled back. In our pseudo-example above we pulled back all records, however. In reality, we were only pulling back a sub-set of the total records and just those records were locked from being read. However, the entire table is locked from writes. Mar 16, 2011 at 21:02

4 Answers 4


Entity framework on top of SQL server by default uses read committed transaction isolation level and transaction is committed at the end of SaveChanges. If you suspect other behavior it must be by the rest of your code (are you using TransactionScope? - you didn't show it in your code) or it must be some bug.

Also your approach is wrong. If you want to save each record separately you should also load each record separately. EF is definitely bad choice for this type of applications. Even if you use only single SaveChange for updating all your records it will still make single roundtrip to database for each update.

  • 1
    Your second paragraph is similar to what we ultimately decided to do. We ended up creating a new ObjectContext, retreive the record, update it, save it, and the dispose of the ObjectContext so that each update occured on its own little transaction. Entity Framework does not in fact appear to be the best solution for this kind of application. Mar 22, 2011 at 17:03

Those locks are not created by Entity Framework. EF only supports optimistic concurrency, pessimistic locking is not supported with EF.

I think the locking you experience is a result of your SQL Server configuration. Perhaps if your Transaction Isolation Level on the server is set to REPEATABLE READ this might cause the locks after each query. But I am not sure which configuration setting could be exactly the problem. More details are here.


Another helpful article about transactions and transaction isolation in EF is here. It strongly recommends to always set the isolation level explicitely. Quote from the article:

If you don't take control of [the isolation level], you have no idea in which transaction isolation level your queries will be running. After all, you don't know where the connection that you got from the pool has been [...] You simply inherit the last used isolation level on the connection, so you have no idea which type of locks are taken (or worse: ignored) by your queries and for how long these locks will be held. On a busy database, this will definitely lead to random errors, time-outs and deadlocks.

  • 1
    I'm a co-worker of the question asker (FYI) and I don't understand how this could be the case. The database which he is hitting has dozens of updates occuring per second (for YEARS) from NON-Entity Framework sources and we've never had this issue prior to using Entity Framework to access the DB.... we are at a loss as this point. Mar 16, 2011 at 20:34
  • @jakejgordon: Can you check the current settings with for instance SQL Server management studio by executing DBCC USEROPTIONS in a query window. This should list some settings, one of them is isolation level. By default it should be "read committed". Do you have perhaps another setting here?
    – Slauma
    Mar 16, 2011 at 20:42
  • Isolation level is "read committed". Thanks for your help so far by the way, we really appreciate it! Mar 16, 2011 at 20:57
  • @jakejgordon: Ouch, this stuff is much more complicated than I thought. I've found an interesting article which might help to solve your problem, see the Edit section in my answer.
    – Slauma
    Mar 16, 2011 at 21:30

I may be wrong, but I believe you should not be calling SaveChanges() every single time since that applies the changes to the database at that point. Instead, apply SaveChanges() at the end of your object changes, or use a counter to do it less frequently.

  • 1
    You are right--however it doesn't release the lock on the record. The question is about how to commit immediately without keeping the lock for the whole lifecycle of the ObjectContext. Mar 16, 2011 at 19:49

In our application we had a similar scenario, avoid locking as much as possible running a massive select and then creating a lot of inserts after some in memory operation.

  1. If you want to read everything upfront

Solution A) Use a transaction scope that includes read and update PRO: Data safely updated CONS: Locks caused by read (repeatable reads) and update

Solution B) Do not use a transaction and update all the data together PRO: Data safely updated, but the data you read may have been changed in the meanwhile CONS: Locks caused by the update for the entire duration (EF create by default a transaction)

Solution C) Update in batches instead of all the data all together (usable only if the select is not locking the tables, otherwise you get the same behaviour as B PRO: Shorter and smaller locks in the updated tables CONS: You increase the change of being affected by data obsolescence

  1. If you want (and can) read in batches

Solution D) Breaking down the problem and splitting the reads can facilitate you to reduce lock so you can use a transaction scope to wrap both read and write (as sol. A) PRO: Data safely updated CONS: Locks caused by read (repeatable reads) and update, the impacts vary based on the batch size and nature of the query itself

Solution E) Do not use transactions, so only the update will produce small locks (as sol. B) PRO: Data safely updated, but the data you read may have been changed in the meanwhile CONS: Locks caused by the updates

As @Ladislav correctly pointed, multiple inserts are really inefficient and a quick profiling on the database shows you how the ORM magic fails in this case. If you want to use EF to perform batch operations such inserts, update and deletes, I recommend you to have a look at this: EF Utilities

I tend to test locks using this query, I hope may help to understand better what is going on.

    sys.dm_tran_locks l JOIN 
    sys.partitions p ON 
    l.resource_associated_entity_id = p.hobt_id

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