Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The problem:

Given tables table_a and table_b, I need to reliably (and concurrently) perform an operation like this whenever table_a is updated:

  1. SELECT some rows from table_a.
  2. Compute something in application code.
  3. UPDATE a row in table_b.

I need to guard against something like this happening (call this scenario A), where table_b winds up reflecting an old version of table_a:

  • worker1 gets rows from table_a.
  • table_a is updated.
  • worker2 gets rows from table_a.
  • worker2 updates table_b.
  • worker1 updates table_b.

But this is fine (call this scenario B) because table_b winds up in the right state:

  • worker1 gets rows from table_a.
  • table_a is updated.
  • worker2 gets rows from table_a.
  • worker1 updates table_b.
  • worker2 updates table_b.

Transactions:

One solution is to wrap the whole thing in a REPEATABLE READ transaction. Then worker1's transaction fails in scenario A and worker2's transaction fails in scenario B. Without a way to distinguish the scenarios, the only choice is to retry the failed transactions.

But it's wasteful in both scenarios: In scenario A, we'd rather not retry worker1's transaction because table_b is already fully updated. And in scenario B, we'd rather not fail worker2's transaction in the first place because it was doing the right thing.

Row marking:

If we know the primary key of the row in table_b from the start (:b_id) and each worker has some unique ID (:worker_id), we can try something else. Add a mark column to table_b and let each worker do this before step 1:

UPDATE table_b SET mark = :worker_id WHERE id = :b_id;

Then in step 3 add a WHERE clause:

UPDATE table_b SET ... WHERE ... AND mark = :worker_id;

Now worker1 updates no rows in step 3 in both scenarios, as desired.

Is row marking a reasonable approach here? What drawbacks am I missing? What's the "canonical" solution to this problem?

Clarification: I'm using PostgreSQL.

share|improve this question
    
Which DBMS are you using? –  ypercube Sep 11 '12 at 7:20
    
I suggest you flag your question (to be migrated to dba.stackexchange.com ) –  ypercube Sep 11 '12 at 7:20
    
Does the computation have to be done in app code, and/or does it have to be stored? Best approaches are usually to avoid storing calculated data, or to have (if possible) the value calculated by the server automatically. –  Damien_The_Unbeliever Sep 11 '12 at 7:27
    
@ypercube This is much more coding than DBA; it's not running the DB, rather it's correct concurrent programming. –  Craig Ringer Sep 11 '12 at 8:38
    
@Craig: The name (dba.stackexchange.com) was a rather poor choice: What kind of questions can I ask here? –  ypercube Sep 11 '12 at 11:57
show 1 more comment

1 Answer 1

up vote 2 down vote accepted

Use transactions and SELECT ... FOR UPDATE on table b.

This will cause row locking which will prevent worker two from updating table b until worker 1 commits. If you start your workflow with the select for update, then worker 2 cannot start until worker 1 commits.

A second approach (probably better) would be to wrap the update in a statement that would do the select so it is a single statement, and would handle the locking automatically.

Row marking needs to be discarded as an idea because worker two won't see the marked row until worker 1 commits....

share|improve this answer
    
How can it be a single statement when there's some in-app computation (not in the DB) at step 2? And can you elaborate on the issue with row marking? As I described it row marking doesn't use transactions. –  Mike Craig Sep 11 '12 at 14:43
    
You can move the in-app computation into the database. As for row-marking it does use transactions always. at least in theory you are locking the rows during the updates for update and forcing that into a serial approach. The problem is that depending on how you implement this you could still get timing issues. If you commit before you go on to your transaction then you create timing issues. If you don't commit then you are just locking the row as I was suggesting, but you have furthermore the possibility of accidently committing to an invalid state. –  Chris Travers Sep 11 '12 at 15:11
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.