Why does the following query return more than limit records? There are about 272 records that exist but when a limit less than that is provided it always updates and returns all 272 records.

UPDATE thing 
SET status = 'status_2' 
WHERE thing.thing_id in (
  SELECT thing.thing_id 
  FROM thing 
  WHERE thing.status = ('status_1') AND 
  thing.c_id = ('c_id___1') AND 
  thing.name LIKE ('protocol://some/url/location/%')
  ORDER BY thing.status_1_date LIMIT (150) FOR UPDATE
) AND 
thing.c_id = ('c_id___1') AND 
thing.name LIKE ('protocol://some/url/location/%') 

The same result is observed with alternative attempt:

UPDATE thing 
SET status = 'status_2' 
  SELECT thing.thing_id 
  FROM thing 
  WHERE thing.status = ('status_1') AND 
  thing.c_id = ('c_id___1') AND 
  thing.name LIKE ('protocol://some/url/location/%')
  ORDER BY thing.status_1_date LIMIT (150) FOR UPDATE
) AS temp 
WHERE thing.thing_id = temp.thing_id AND 
thing.c_id = ('c_id___1') AND 
thing.name LIKE ('protocol://some/url/location/%') 

Overview of problem: I need to select at most limit thing_ids and update all records containing this subset of thing_ids. For this set of records I am testing with there are no duplicate thing_ids but for others there could be.

Update: To demonstrate there are no duplicates I ran the following query:

SELECT COUNT(thing.thing_id)
FROM thing
WHERE thing.c_id = ('c_id___1') AND 
thing.name LIKE ('protocol://some/url/location/%'))
GROUP BY thing.thing_id``` 

With the results returning 272.

Update: I was able to derive a working solution but I'm going to leave the question open as I would like to understand what is wrong with the previous two implementations.

New Implementation:

UPDATE thing 
SET status = 'status_2' 
WHERE thing.thing_id in (
  SELECT a.thing_id 
  FROM thing a INNER 
  JOIN thing b on b.thing_id = a.thing_id 
  WHERE a.status = ('status_1') AND a.c_id = ('c_id___1') AND a.name LIKE ('protocol://some/url/location/%') 
  ORDER BY a.status_1_date, a.name LIMIT (150) FOR UPDATE

Update: It turns out the join queyr isn't exactly what I need either. It will only update LIMIT rows if the number of unique thing.thing_ids is equal to the number of rows. If there are duplicate thing_ids it will exclude thing_ids so that the number of rows updates is less than limit.

This is the query plan for the join version of the query: QUERY PLAN

Update on thing  (cost=31977.16..47319.15 rows=1 width=764)
"  ->  Hash Semi Join  (cost=31977.16..47319.15 rows=1 width=764)"
"        Hash Cond: ((thing.thing_id)::text = (""ANY_subquery"".thing_id)::text)"
"        ->  Seq Scan on thing  (cost=0.00..14776.23 rows=215523 width=190)"
"        ->  Hash  (cost=31977.15..31977.15 rows=1 width=92)"
"              ->  Subquery Scan on ""ANY_subquery""  (cost=31977.13..31977.15 rows=1 width=92)"
"                    ->  Limit  (cost=31977.13..31977.14 rows=1 width=134)"
"                          ->  LockRows  (cost=31977.13..31977.14 rows=1 width=134)"
"                                ->  Sort  (cost=31977.13..31977.13 rows=1 width=134)"
"                                      Sort Key: a.status_1_date, a.name"
"                                      ->  Hash Join  (cost=16392.67..31977.12 rows=1 width=134)"
"                                            Hash Cond: ((b.thing_id)::text = (a.thing_id)::text)"
"                                            ->  Seq Scan on thing b  (cost=0.00..14776.23 rows=215523 width=40)"
"                                            ->  Hash  (cost=16392.65..16392.65 rows=1 width=128)"
"                                                  ->  Seq Scan on thing a  (cost=0.00..16392.65 rows=1 width=128)"
"                                                        Filter: (((name)::text ~~ 'protocol://path/to/thing/%'::text) AND ((c_id)::text = 'c_id_1'::text) AND ((status)::text = 'status_2'::text))"

Query for table creation:

  thing_id VARCHAR(255),
  c_id VARCHAR(255),
  status VARCHAR(255),
  etag VARCHAR(255),
  last_modified VARCHAR(255),
  size VARCHAR(255),
  status_1_date DATE

Query to insert sample data:

INSERT INTO thing (name,thing_id, c_id,status, etag, last_modified, size, status_1_date)
('protocol://full/path/to/thing/thing_1.file1', 'thing_1','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:01'),
('protocol://full/path/to/thing/thing_1.file2', 'thing_1','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:02'),
('protocol://full/path/to/thing/thing_2.file1', 'thing_2','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:03'),
('protocol://full/path/to/thing/thing_2.file2', 'thing_2','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:04'),
('protocol://full/path/to/thing/thing_2.file3', 'thing_2','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:05'),
('protocol://full/path/to/thing/thing_3.file1', 'thing_3','c_id', 'status_1', 'etag', '1111', 200, '2023-09-29 09:00:06');

With LIMIT 2 the desired results to be returned would be as follows:

('protocol://full/path/to/thing/thing_1.file1', 'thing_1','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:01'),
('protocol://full/path/to/thing/thing_1.file2', 'thing_1','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:02'),
('protocol://full/path/to/thing/thing_2.file1', 'thing_2','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:03'),
('protocol://full/path/to/thing/thing_2.file2', 'thing_2','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:04'),
('protocol://full/path/to/thing/thing_2.file3', 'thing_2','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:05'),


('protocol://full/path/to/thing/thing_3.file1', 'thing_3','c_id', 'status_2', 'etag', '1111', 200, '2023-09-29 09:00:06')
  • 2
    1) Are you sure thing.thing_id is unique? If there are duplicates, that could explain it. 2) Have you tried running the select subquery and verifying its results?
    – Schwern
    Sep 29, 2023 at 16:56
  • @Schwern I had considered that, it seems like there is something very obvious I am missing but I am sure there are no duplicates. It's like LIMIT is completely ignored even for the subquery. I'm not sure if it is the addition of the FOR UPDATE that breaks it. Sep 29, 2023 at 17:10
  • @Schwern Okay, I just confirmed, removing the FOR UPDATE allows it to work. I think I need this though as there could be concurrent access to the same rows. Sep 29, 2023 at 17:15
  • 1
    @CogitoErgoSum So thing.thing_id is not unique. That's likely to cause your problem. Lemme try some things. Could you supply a schema as well?
    – Schwern
    Sep 29, 2023 at 19:55
  • 1
    Found a thread about this behavior.
    – Schwern
    Sep 29, 2023 at 20:06

1 Answer 1


It's the select for update in a sub-query. A thread on pgsql-bugs explains...

The issue here is that the sub-SELECT is, in principle, executed afresh for every row of the outer query, and you do not have a guarantee that each such execution returns the same single row. Ordinary query execution would provide such a guarantee, but you're using FOR UPDATE on a table that's being modified concurrently (including by this query itself), and therefore the guarantee disappears.

You might think that since the sub-SELECT is uncorrelated with the outer query, there's no need to execute it more than once ... but that's an optimization, not part of the guaranteed semantics. Without seeing an EXPLAIN for this query on your system, we can't know whether it's being done like that (though the fact that you're complaining suggests that it isn't).

And we can see from the explain that the subquery is inside a nested loop.

Update on thing  (cost=16.14..31.42 rows=1 width=94)
  ->  Nested Loop Semi Join  (cost=16.14..31.42 rows=1 width=94)
        Join Filter: (thing.thing_id = "ANY_subquery".thing_id)
        ->  Seq Scan on thing  (cost=0.00..15.25 rows=1 width=38)
              Filter: ((name ~~ 'protocol://full/path/to/thing/%'::text) AND (c_id = 'c_id'::text))
        ->  Subquery Scan on "ANY_subquery"  (cost=16.14..16.16 rows=1 width=88)
              ->  Limit  (cost=16.14..16.15 rows=1 width=46)
                    ->  LockRows  (cost=16.14..16.15 rows=1 width=46)
                          ->  Sort  (cost=16.14..16.14 rows=1 width=46)
                                Sort Key: thing_1.status_1_date
                                ->  Seq Scan on thing thing_1  (cost=0.00..16.12 rows=1 width=46)
                                      Filter: ((name ~~ 'protocol://full/path/to/thing/%'::text) AND (status = 'status_1'::text) AND (c_id = 'c_id'::text))

later in the thread there is a more detailed explanation.

The seqscan+sort is going to find and return all the rows that meet that "filter" condition as of the start of the query. The LockRows node is going to take the first of those and lock it, which will include finding and locking any newer version of the row that exists due to a concurrent update. If there is a newer version, it then rechecks whether that version still satisfies the filter condition (via some magic we needn't get into here). If so, it returns the row to the LIMIT node, which returns it up and then declares it's done, so we have found and locked exactly one row. However, if that first row has been updated to a state that doesn't satisfy the filter condition, the LockRows node will advance to the next row of the seqscan+sort output, and lock and retest that one. This repeats till it finds a row that does still satisfy the filter condition post-locking.

So it's fairly easy to see how concurrent updates could cause this query to lock N rows, for some N larger than one. But by itself this isn't a very satisfactory explanation for the query locking all the rows as you state happened. All of them would've had to be concurrently updated to states that no longer satisfy the filter condition, and that seems pretty unlikely to happen as a consequence of a few other transactions individually doing the same type of query.

Their suggestion is to instead replace it with a CTE. That's generally good advice to use a CTE rather than a sub-query FROM, even if because it's just easier to read.

Note, your query will be faster and simpler if thing is given a primary key. Then you can identify individual rows and there's no need to repeat the where clause.


with these_things as (
  SELECT thing.id 
  FROM thing 
  WHERE thing.status = ('status_1') AND 
  thing.c_id = ('c_id') AND 
  thing.name LIKE ('protocol://full/path/to/thing/%')
  ORDER BY thing.status_1_date LIMIT (2)
UPDATE thing 
SET status = 'status_2'
from these_things
where thing.id = these_things.id
  • Perhaps there is something I don't understand but if I use LIMIT 3 it updates all of the rows for thing_1 and thing_2. So 5 rows are updates for two thing_ids. The ultimate goal would be to update as many rows as necessary to update LIMIT unique thing_ids. Sep 29, 2023 at 20:44
  • @CogitoErgoSum If you use limit 3 on which query? limit 3 works fine on the CTE because it is passing primary keys referring to specific rows between the select and update. The core problem is things lacks a way to refer to specific rows: a primary key. You want to select a set of rows, and then update only those specific rows. You're using thing_id to pass between the select and update, but thing_id is not unique to any row, so you risk updating other rows with the same thing_id. Instead, add a primary key to things, as I did, and update using the primary key.
    – Schwern
    Sep 29, 2023 at 21:29
  • @CogitoErgoSum Even if you repeat the whole where clause in both the select and update, there's no guarantee they will match the same rows; there's no order by in an update. Use a primary key.
    – Schwern
    Sep 29, 2023 at 21:31
  • I copied your query and ran it getting the results. LIMIT 3 updates 5 rows that share 2 thing_ids. I don't understand what exactly is being limited. From the perspective of postgresql what is it limiting to 3? I altered your query by SELECT DISTINCT thing.thing_id, thing.status_1_date and ORDER BY thing.status_1_date, thing.thing_id LIMIT (2) and this seems to produce the results I'm after though. Sep 29, 2023 at 21:40
  • @CogitoErgoSum 1) Works for me™. Can you provide a demonstration in DBFiddle? 2) Without a limit, select would return all rows matching your query. With limit 3 it only returns the first 3 matching rows. 3) I cannot stress enough that if you want to refer to specific rows, things needs a primary key. select distinct thing_id, status_1_date is only giving you the illusion of uniqueness. Consider if you have two rows with the same thing_id and same status_1_date, your work around will fail.
    – Schwern
    Sep 30, 2023 at 3:49

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