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We have a number of databases which store 10s to 100s of gigabytes of data in one of the tables. It contains image data. The problem is that a lot of these databases were created improperly. Basically the primary key isn't actually a primary key. The were created with a unique index on a nullable column. And some of them have an int as a primary key instead of a bigint.

So we've been slowly going through and fixing these databases. They run on SQL Server 2000 through SQL Server 2008, although most of the ones with primary key issues are on SQL Server 2000. The problem is, we don't want to lock down the database for a whole day while it converts the table. We've gone through several strategies:

  1. Tell SQL Server to directly change the column type. This locks the table until it's complete, and after leaving it overnight in many cases, it still wasn't finished.

  2. Insert all the images into a new table in one go. This was more easily interrupted, but the whole table basically gets written to the log file in the process.

  3. Insert 100 rows at a time where the rows don't exist in the target table. The upside is that they can continue using the database while this is going on (with a big performance hit) and that it can be stopped and restarted arbitrarily at any point, and it prevents the 100GB+ log files. This is what we're currently doing, but finding the top 100 rows that don't exist gets really really slow as the target table gets bigger and bigger. UPDATE STATISTICS and DBCC INDEXDEFRAG help considerably, but in the most recent attempt, we got to the point even 100 images at a time was sitting there not responding.

    INSERT INTO %s  
      SELECT TOP 100 Source.*  
      FROM %s AS Source WITH (NOLOCK)  
      LEFT OUTER JOIN %s AS Target WITH (NOLOCK) ON Source.DocumentID = Target.DocumentID  
      WHERE Target.DocumentID IS NULL  
      ORDER BY Source.DocumentID  

So the question is, is there an option which can copy bulk data in an efficient and resumable manner? It doesn't have to be 100% accurate, we can always go back and fix any discrepancies at the end, as long as it does 99% of the work.

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1 Answer 1

up vote 3 down vote accepted

The join is the problem. Don't do that. Just loop through your current table using some reasonable interval, using the current clustered index. Something like:

Declare @idrange int;
Set @idrange = 1;

WHILE @idrange < 10000000

INSERT INTO Destination
  SELECT *  
  FROM Source
  WHERE DocumentID between @idrange and @idrange + 999
  ORDER BY Source.DocumentID  

Set @idrange = @idrange + 1000

Note that for best speed, remove all indexes (including the clustered index) from the destination table, then add the indexes once all rows have been inserted.

EDIT: changed the range interval to prevent an overlap (since BETWEEN includes the endpoints)

One final clarification: the overall point of my sample script is that you simply want to walk through your current records in some reasonable order, and put them all into the new table in batches. There's no reason to continue checking the destination table each time, since you should already know what you've put there, and what is still left. Most of the time, it makes sense to use the clustered index (if there is one), since this means it can walk through the physical order of the table without doing bookmark lookups. If the table has no cluster, then just use whatever makes the most sense (your PK, probably).

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The primary key on this table is non-clustered. Converting to a clustered index would be almost as painful as recreating the table, because it has to physically re-arrange all the data. –  Bryce Wagner Sep 13 '10 at 22:11
Doing it by ranges is definitely more efficient than the join method. I'll have to see how it performs in practice, but what I was hoping was that there was some way to execute the inserts in a non-atomic manner, where if it gets stopped partway through, it would leave what's already done, and avoid the extra writing to the log file. –  Bryce Wagner Sep 13 '10 at 22:13
@Bryce Wagner - So if its not clustered on the PK, then do an equivalent range or grouping on whatever it is clustered on. (Please tell me it does have a cluster, and that its not just a HEAP) –  BradC Sep 13 '10 at 22:29
My WHILE loop does do atomic inserts. If you want to be really explicit about it, just put a BEGIN TRAN and COMMIT TRAN around the insert. If it does get interrupted, you'll have to query the table to find out for sure where it left off, so you can restart it in the right place. –  BradC Sep 13 '10 at 22:32
It is not clustered, because outside of this situation, we're only ever pulling a single row from this table at a time. And I think you misread my second comment, go back and read it again: I was hoping for a solution that DOESN'T involve all the transaction machinery. I want speed over accuracy (and then do cleanup at the end). But your answer is far better than what I was doing before. –  Bryce Wagner Sep 14 '10 at 13:14

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