I'd like to realize following scenario in PosgreSql from java:

  • User selects data
  • User starts transaction: inserts, updates, deletes data
  • User commits transaction

I'd like data not be available for other users during the transaction. It would be enough if I'd get an exception when other user tries to update the table.

I've tried to use select for update or select for share, but it locks data for reading also. I've tried to use lock command, but I'm not able to get a lock (ERROR: could not obtain lock on relation "fppo10") or another transaction gets lock when trying to commit transaction, not when updating the data.

Does it exist a way to lock data in a moment of transaction start to prevent any other call of update, insert or delete statement?

I have this scenario working successfully for a couple of years on DB2 database. Now I need the same application to work also for PostgreSql.

  • On the one hand, you say you want data to be unavailable for others during the transaction. On the other hand, you don't like that select for update locks data for reading, which seems to me to be clearly "unavailable for others". No lock will prevent other clients from trying to execute an update statement; some kinds will make them wait. What do you really want? – Mike Sherrill 'Cat Recall' Dec 24 '15 at 3:22
  • @Mike Sherrill'Cat Recall' The problem is, that I don't know, if user wants to update data in the moment of calling select statement. It's clear after any update. But it's too late. – agad Dec 24 '15 at 13:54
  • You can't know what other users want to do. Read about PostgreSQL transaction isolation levels. – Mike Sherrill 'Cat Recall' Dec 24 '15 at 23:54
  • @Mike Sherrill 'Cat Recall' I've read it. I have working application on db2. Now I want this application to work the same way on postgre. But it seems impossible :(. – agad Dec 25 '15 at 17:36
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    Depending on your version of DB2, Cursor Stability (aka Read Committed) will return the prior value of a cell if the row has been locked for update. That is, it acts as if the row was read and returned before the updating statement took place, even if that wasn't actually the case. So even your DB2 application may not be doing what you expect. IOW, the idea is "fix your application to work in a concurrent environment". – Clockwork-Muse Dec 27 '15 at 12:35

Finally, I think I get what you're going for.
This isn't a "transaction" problem per se (and depending on the number of tables to deal with and the required statements, you may not even need one), it's an application design problem. You have two general ways to deal with this; optimistic and pessimistic locking.

Pessimistic locking is explicitly taking and holding a lock. It's best used when you can guarantee that you will be changing the row plus stuff related to it, and when your transactions will be short. You would use it in situations like updating "current balance" when adding sales to an account, once a purchase has been made (update will happen, short transaction duration time because no further choices to be made at that point). Pessimistic locking becomes frustrating if a user reads a row and then goes to lunch (or on vacation...).

Optimistic locking is reading a row (or set of), and not taking any sort of db-layer lock. It's best used if you're just reading through rows, without any immediate plan to update any of them. Usually, row data will include a "version" value (incremented counter or last updated timestamp). If your application goes to update the row, it compares the original value(s) of the data to make sure it hasn't been changed by something else first, and alerts the user if the data changed. Most applications interfacing with users should use optimistic locking. It does, however, require that users notice and pay attention to updated values.

Note that, because a lock is rarely (and for a short period) taken in optimistic locking, it usually will not conflict with a separate process that takes a pessimistic lock. A pessimistic locking app would prevent an optimistic one from updating locked rows, but not reading them.
Also note that this doesn't usually apply to bulk updates, which will have almost no user interaction (if any).


Don't lock your rows on read. Just compare the old value(s) with what the app last read, and reject the update if they don't match (and alert the user). Train your users to respond appropriately.

  • Although it is not the answer I have looked for I mark this answer as correct. I just can't believe, that a thing, that works so beautifully in DB2 without any effort is not possible in PostgreSql :-( – agad Jan 4 '16 at 8:04
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    @agad - I'm reasonably convinced that your DB2 app is 1] not actually doing what you expect (at least not completely, see my first comment on your question), and 2] not acting in the best interests of your users (lock contention being too likely). Additionally, SELECT FOR UPDATE shouldn't be used to scroll through rows - your current problem is you have two processes doing that for the same row, which of course conflicts. But doing a SELECT without a lock first during scroll puts you right back to this answer again.... – Clockwork-Muse Jan 4 '16 at 9:54
  • Application has worked for a few years (and works still). Nobody has complain about it for this time. Users are happy, that they see actual data and know in case somebody is updating it. The problem raised with the request to make application working on Postgre too. Current application led to db inconsistency, when trying to run against Postgre, because 2 users updated the db in the same time. – agad Jan 4 '16 at 13:29
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    @agad - depending on your actual application design, they might not be seeing "actual" data. For instance, if you scroll through a cursor, CURSOR STABILITY will actually release the lock when fetching the next row (returning multiple rows only locks the last one, essentially). It also doesn't prevent your application from reading a row after another process updates it, but before the new data is committed (it'll see the old data). Nasty race conditions. It gets worse if you're serving this as a web page/over a network, because you have noclue when you're getting a response.... – Clockwork-Muse Jan 4 '16 at 14:19

Instead of select for update try a "row exclusive" table lock:


According to the documentation, this lock:

The commands UPDATE, DELETE, and INSERT acquire this lock mode on the target table (in addition to ACCESS SHARE locks on any other referenced tables). In general, this lock mode will be acquired by any command that modifies data in a table.

Note that the name of the lock is confusing, but it does lock the entire table:

Remember that all of these lock modes are table-level locks, even if the name contains the word "row"; the names of the lock modes are historical

  • According the documentation it looks fine, but when I tried it, the exception wasn't thrown in the moment of updating the table, but when commit was called – agad Dec 24 '15 at 13:46

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