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With SQL Server's transaction isolation levels, you can avoid certain unwanted concurrency issues, like dirty reads and so forth.

The one I'm interested in right now is lost updates - the fact two transactions can overwrite one another's updates without anyone noticing it. I see and hear conflicting statements as to which isolation level at a minimum I have to choose to avoid this.

Kalen Delaney in her "SQL Server Internals" book says (Chapter 10 - Transactions and Concurrency - Page 592):

In Read Uncommitted isolation, all the behaviors described previously, except lost updates, are possible.

On the other hand, an independent SQL Server trainer giving us a class told us that we need at least "Repeatable Read" to avoid lost updates.

So who's right?? And why??

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4 Answers 4

up vote 5 down vote accepted

The example in the book is of Clerk A and Clerk B receiving shipments of Widgets.

They both check the current inventory, see 25 is in stock. Clerk A has 50 widgets and updates to 75, Clerk B has 20 widgets and so updates to 45 overwriting the previous update.

I assume she meant this phenomena can be avoided at all isolation levels by Clerk A doing

UPDATE Widgets
SET StockLevel = StockLevel + 50
WHERE ...

and Clerk B doing

UPDATE Widgets
SET StockLevel = StockLevel + 20
WHERE ...

Certainly if the SELECT and UPDATE are done as separate operations you would need repeatable read to avoid this so the S lock on the row is held for the duration of the transaction (which would lead to deadlock in this scenario)

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Having the initial SELECT use a WITH (UPDLOCK) hint also seems to work just fine, for any isolation level - thanks for your input! –  marc_s Nov 20 '11 at 16:50
1  
@marc_s - Yes. That avoids the deadlock risk as well. –  Martin Smith Nov 20 '11 at 17:12

I dont know if it is too late to answer but I am just learning about transaction isolation levels in college and as part of my research I came across this link:

Microsoft Technet

Specifically the paragraph in question is:

Lost Update

A lost update can be interpreted in one of two ways. In the first scenario, a lost update is considered to have taken place when data that has been updated by one transaction is overwritten by another transaction, before the first transaction is either committed or rolled back. This type of lost update cannot occur in SQL Server 2005 because it is not allowed under any transaction isolation level.

The other interpretation of a lost update is when one transaction (Transaction #1) reads data into its local memory, and then another transaction (Transaction #2) changes this data and commits its change. After this, Transaction #1 updates the same data based on what it read into memory before Transaction #2 was executed. In this case, the update performed by Transaction #2 can be considered a lost update.

So in essence both people are right.

Personally (and I am open to being wrong, so please correct me as I am just learning this) I take from this the following two points:

  1. The whole point of a transaction enviorment is to prevent lost updates as described in the top paragraph. So if even the most basic transaction level cant do that then why bother using it.

  2. When people talk about lost updates, they know the first paragraph applies, and so generally speaking mean the second type of lost update.

Again, please correct me if anything here is wrong as I would like to understand this too.

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Lost updates may occur even if reads and writes are in separate transactions, like when users read data into Web pages, then update. In such cases no isolation level can protect you, especially when connections are reused from a connection pool. We should use other approaches, such as rowversion. Here is my canned answer.

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My understanding was that with Read Uncommitted you no longer get 'lost updates', you can however still get 'lost rollbacks'. The SQL trainer was probably referring to that concurrency issue, so the answer you're likely looking for is Repeatable Read.

That said, I would be very interested if anyone has experience that goes against this.

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It seems if I try this scenario with Read Uncommitted or Read Committed, it fails - I can have "lost updates", indeed. With Repeatable Read, there's a deadlock and one of the two transactions will be rolled back, so there's no "lost update" in the end (but one transaction is killed as the deadlock victim) –  marc_s Nov 20 '11 at 12:49
    
But I'm puzzled that a well-know expert like Kalen Delaney would write in her book (that definitely was reviewed intensively) that "lost updates" don't occur even with Read Uncommitted - makes me wonder if she talks about a different sceneario....(and if so: wonder what that scenario is) –  marc_s Nov 20 '11 at 12:51
2  
Maybe she meant because an UPDATE statement can be atomic and do the read and write in one operation. –  Martin Smith Nov 20 '11 at 13:07
1  
But if we're just talking exclusively about atomic UPDATE statements, then can you ever really have a "lost update" scenario by definition? –  Seph Nov 20 '11 at 13:16
    
@Seph - No. Which is presumably why she says that this situation can't occur under any of the isolation levels, even readuncommitted –  Martin Smith Nov 20 '11 at 13:17

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