If you don't supply the
DbContext with an already opened SQL connection, the
DbContext will open and close the connection for you when you call
SaveChanges. In that case there is no danger in keeping the
DbContext around, except of course that the entities the
DbContext holds on to might be in an invalid state (because this could be the reason that the SQL exception was thrown).
Here's an example of a
DbContext that is suppied by an opened SQL connection and transaction:
using (var connection = new SqlConnection("my connection"))
using (var transaction = connection.BeginTransaction())
using (var context = new DbContext(connection))
// Do useful stuff.
If you supply the
DbContext with a
SqlConnection that runs in the context of a transaction, this answer holds.
Note that Entity Framework will not create a nested transaction. It simply checks whether the connection is "enlisted in user transaction". If
SaveChanges already runs in a transaction, no transaction is started. Entity Framework however is unable to detect if the database has aborted the transaction because of a severe failure (such as a database deadlock). So if a first call to
SaveChanges fails with something like a deadlock and you catch and recall
SaveChanges, Entity Framework still thinks it is running inside a transaction.
This means that this second call is executed without a transaction and this means that when the operation fails halfway, the already executed statements will NOT be rolled back since there is no transaction to rollback.
The problem of the torn
SaveChanges operation could have been prevented if Entity Framework used nested transactions, but it still wouldn't solve the general problem of consistency.
Entity Framework creates connections and transactions for us when we do not supply them explicitly. We only need/want to supply a connection and transaction explicitly when the call to
SaveChanges is part of a bigger overall transaction. So even if EF created a nested transaction for us and committed this before returning from
SaveChanges, we're in trouble if we call
SaveChanges a second time, since this 'nested' transaction actually isn't nested at all. When EF commits this 'nested' transaction, it actually commits the only transaction there is, which means that the entire operation we needed to be atomic is torn; all changes done by
SaveChanges are committed, while the operations that might came after this call didn't run. Obviously this is not a good place to be.
So moral of the story is that either you let Entity Framework handle connections and transactions for you and you can redo calls to
SaveChanges without risk, or you handle transactions yourself and will have to fail fast when the database throws an exception; you shouldn't call