1

My problem is that I have a very slow update query on a table with 14 million rows. I tried different things to tune my server which brought good performance but not for update queries.

I have two tables:

  • T1 with 4 columns and 3 indexes on it (530 rows)
  • T2 with 15 columns and 3 indexes on it (14 millions rows)
  • I want to update the field vid (type integer) in T2 by the same value of vid in T1 by joining the two tables on a text field stxt.

Here is my query and its output:

explain analyse 
update T2 
  set vid=T1.vid 
from T1 
where stxt2 ~ stxt1 and T2.vid = 0;

Update on T2  (cost=0.00..9037530.59 rows=2814247 width=131) (actual time=25141785.741..25141785.741 rows=0 loops=1)
 ->  Nested Loop  (cost=0.00..9037530.59 rows=2814247 width=131) (actual time=32.636..25035782.995 rows=679354 loops=1)
             Join Filter: ((T2.stxt2)::text ~ (T1.stxt1)::text)
             ->  Seq Scan on T2  (cost=0.00..594772.96 rows=1061980 width=121) (actual time=0.067..5402.614 rows=1037809 loops=1)
                         Filter: (vid= 1)
             ->  Materialize  (cost=0.00..17.95 rows=530 width=34) (actual time=0.000..0.069 rows=530 loops=1037809)
                         ->  Seq Scan on T1  (cost=0.00..15.30 rows=530 width=34) (actual time=0.019..0.397 rows=530 loops=1)
Total runtime: 25141785.904 ms

As you can see the query took approximately 25141 seconds (~ 7 hours). f I understood well, the planner estimates the execution time to be 9037 seconds (~ 2.5 hours). Am I missing something here?

Here are information about my server config:

  • CentOS 5.8, 20GB of RAM
  • shared_buffers = 12GB
  • work_mem = 64MB
  • maintenance_work_mem = 64MB
  • bgwriter_lru_maxpages = 500
  • checkpoint_segments = 64
  • checkpoint_completion_target = 0.9
  • effective_cache_size = 10GB

I have run vacuum full and analyse several times on table T2 but this still does not improve much the situation.

PS: if I set full_page_writes to off, this improves considerably update queries, but I don't want to risk data loss. Do you please have any recommandations?

| improve this question | |
  • Try using MERGE instead. It links the tables faster. – Samson Jul 8 '12 at 9:15
  • Do you really need the ~ operator ? what is in the stxt1, stxt2 fields, and what are their types ? – wildplasser Jul 8 '12 at 10:15
  • @wildplasser the ~ operator is almost equivalent to stxt2 like '%'||stxt1||'%'. Both fields stxt are character varying. @radashk I tried this link but Postgres keeps telling me ERROR: syntax error at or near "MERGE". How exactly should I try "MERGE"? – datatanger Jul 8 '12 at 10:27
  • 1) I know about what ~ means, but it appears you have the 500 regexes stored in table1. 2) There is no merge in postgresql (and it would not help in this case) – wildplasser Jul 8 '12 at 10:30
  • @wildplasser I don't know if there is another way to join the two tables, that's why I used the ~. If stxt2 contains stxt1, then I want T2.vid to be equal to T1.vid, otherwise nothing should happen. Thank you for your help. – datatanger Jul 8 '12 at 10:40
2

This is not a solution, but a data-modelling work-around

  • break up the urls into {protocol,hostname,pathname} components.
  • Now you can use exact matches to join om the hostname part, avoiding the leading % in the regex-match.
  • the view is intended to demonstrate that the full_url can be reconstructed if needed.

The update could probably take a few minutes.

SET search_path='tmp';

DROP TABLE urls CASCADE;
CREATE TABLE urls
        ( id SERIAL NOT NULL PRIMARY KEY
        , full_url varchar
        , proto varchar
        , hostname varchar
        , pathname varchar
        );

INSERT INTO urls(full_url) VALUES
 ( 'ftp://www.myhost.com/secret.tgz' )
,( 'http://www.myhost.com/robots.txt' )
,( 'http://www.myhost.com/index.php' )
,( 'https://www.myhost.com/index.php' )
,( 'http://www.myhost.com/subdir/index.php' )
,( 'https://www.myhost.com/subdir/index.php' )
,( 'http://www.hishost.com/index.php' )
,( 'https://www.hishost.com/index.php' )
,( 'http://www.herhost.com/index.php' )
,( 'https://www.herhost.com/index.php' )
        ;

UPDATE urls
SET proto = split_part(full_url, '://' , 1)
        , hostname = split_part(full_url, '://' , 2)
        ;

UPDATE urls
SET pathname = substr(hostname, 1+strpos(hostname, '/' ))
        , hostname = split_part(hostname, '/' , 1)
        ;

        -- the full_url field is now redundant: we can drop it
ALTER TABLE urls
        DROP column full_url
        ;
        -- and we could always reconstruct the full_url from its components.
CREATE VIEW vurls AS (
        SELECT id
        , proto || '://' || hostname || '/' || pathname AS full_url
        , proto
        , hostname
        , pathname
        FROM urls
        );

SELECT * FROM urls;
        ;
SELECT * FROM vurls;
        ;

OUTPUT:

INSERT 0 10
UPDATE 10
UPDATE 10
ALTER TABLE
CREATE VIEW
 id | proto |    hostname     |     pathname     
----+-------+-----------------+------------------
  1 | ftp   | www.myhost.com  | secret.tgz
  2 | http  | www.myhost.com  | robots.txt
  3 | http  | www.myhost.com  | index.php
  4 | https | www.myhost.com  | index.php
  5 | http  | www.myhost.com  | subdir/index.php
  6 | https | www.myhost.com  | subdir/index.php
  7 | http  | www.hishost.com | index.php
  8 | https | www.hishost.com | index.php
  9 | http  | www.herhost.com | index.php
 10 | https | www.herhost.com | index.php
(10 rows)

 id |                full_url                 | proto |    hostname     |     pathname     
----+-----------------------------------------+-------+-----------------+------------------
  1 | ftp://www.myhost.com/secret.tgz         | ftp   | www.myhost.com  | secret.tgz
  2 | http://www.myhost.com/robots.txt        | http  | www.myhost.com  | robots.txt
  3 | http://www.myhost.com/index.php         | http  | www.myhost.com  | index.php
  4 | https://www.myhost.com/index.php        | https | www.myhost.com  | index.php
  5 | http://www.myhost.com/subdir/index.php  | http  | www.myhost.com  | subdir/index.php
  6 | https://www.myhost.com/subdir/index.php | https | www.myhost.com  | subdir/index.php
  7 | http://www.hishost.com/index.php        | http  | www.hishost.com | index.php
  8 | https://www.hishost.com/index.php       | https | www.hishost.com | index.php
  9 | http://www.herhost.com/index.php        | http  | www.herhost.com | index.php
 10 | https://www.herhost.com/index.php       | https | www.herhost.com | index.php
(10 rows)
| improve this answer | |
  • Now try to run the two updates to obtain the {protocol, hostname, pathname} components in the temp table. Don't drop the full_url field yet. – wildplasser Jul 8 '12 at 16:21
  • I have an answer to post but I have to wait 27 minutes to do :). I am new and don't have enough reputation – datatanger Jul 8 '12 at 16:35
  • BTW: you could use the above temp table as a junction table; translating full_url to (canonical?) hostnames. – wildplasser Jul 8 '12 at 16:38
  • I think this is in the correct direction. Not only is ~ expensive, but I wonder if it does what you want if T1.stx1 has rows with 'apple' and 'google' while T2.stx2 has 'www.appleiscoolerthangoogle.com'. – Andrew Lazarus Jul 10 '12 at 20:34
  • @Andrew Lazarus You're right about the ~. But for the comparison, I think it should work most of the time because stxt1 contains a domain not a single word. For instance stxt1=somedomain.com and stxt2=sub1.somedomain.com. – datatanger Jul 11 '12 at 10:36
1

Here's an expanded example of my previous comment on a functional index. If you use postgresql and don't know what a functional index is, you're probably suffering because of it.

Let's create a test table put some data in it:

smarlowe=# create table test (a text, b text, c int);
smarlowe=# insert into test select 'abc','z',0 from generate_series(1,1000000); -- 1 million rows that don't match
smarlowe=# insert into test select 'abc','a',0 from generate_series(1,10); -- 10 rows that do match
smarlowe=# insert into test select 'abc','z',1 from generate_series(1,1000000); -- another million rows that won't match.

Now we want to run some queries on it to test:

\timing
select * from test where a ~ b and c=0; -- ignore how long this takes
select * from test where a ~ b and c=0; -- run it twice to get a read with cached data.

On my laptop this takes ~750ms. This classic index on c:

smarlowe=# create index test_c on test(c);
smarlowe=# select * from test where a ~ b and c=0;

takes ~400ms on my laptop.

This functional index tho: 

smarlowe=# drop index test_c ;
smarlowe=# create index test_regex on test (c) where (a~b);
smarlowe=# select * from test where a ~ b and c=0;

Now runs in 1.3ms.

Of course there's no such thing as a free lunch, and you WILL pay for this index during updates / inserts.

| improve this answer | |
  • There is a cost, of course, but a partial index with a selective WHERE clause like in your example is very cheap in comparison and leads to a tiny index. Very useful. – Erwin Brandstetter Jul 11 '12 at 21:21
  • @Scott Marlowe Thank you for the hint. So functional indexes are partial indexes? I think I've read about them in the official documentation but never used them. I'm not sure but I thnik they only are usefull in some specefic cases. – datatanger Jul 12 '12 at 8:58
0

Thank you, this brings some help. So here's what I did:

  • I created the table urls as you mentioned
  • I've added a vid column of type integer to it
  • I inserted 1000000 rows in full_url column from T2
  • I enabled timing, and updated the hostname column with full_url that do not contain neither 'http' nor 'www' update urls set hostname=full_url where full_url not like '%/%' and full_url not like 'www\.%';

Time: 112435.192 ms

Then I run this query:

    mydb=> explain analyse update urls set vid=vid from T1 where hostname=stxt1; 
             QUERY PLAN                                                          
            -----------------------------------------------------------------------------------------------------------------------------
             Update on urls  (cost=21.93..37758.76 rows=864449 width=124) (actual time=767.793..767.793 rows=0 loops=1)
                 ->  Hash Join  (cost=21.93..37758.76 rows=864449 width=124) (actual time=102.324..430.448 rows=94934 loops=1)
                             Hash Cond: ((urls.hostname)::text = (T1.stxt1)::text)
                             ->  Seq Scan on urls  (cost=0.00..25612.52 rows=927952 width=114) (actual time=0.009..265.962 rows=927952 loops=1)
                             ->  Hash  (cost=15.30..15.30 rows=530 width=34) (actual time=0.444..0.444 rows=530 loops=1)
                                         Buckets: 1024  Batches: 1  Memory Usage: 35kB
                                         ->  Seq Scan on T1  (cost=0.00..15.30 rows=530 width=34) (actual time=0.002..0.181 rows=530 loops=1)
             Total runtime: 767.860 ms

I was really surprised by the total runtime! less than 1 sec which confirms what you said about updates with exact matches. Now I searched for exacts matches between xtxt1 and stxt2 this way:

mydb=> select count(*) from T2 where vid is null and exists(select null from T1 where stxt1=stxt2);
 count  
--------
 308486
(1 row)

Thus I tried the update on T2 table, and got this:

mydb=> explain analyse update T2 set vid = T1.vid from T1 where T2.vid is null and stxt2=stxt1;
                                                                                                                            QUERY PLAN                                                               
---------------------------------------------------------------------------------------------------------------------------------------
 Update on T2  (cost=21.93..492023.13 rows=2106020 width=131) (actual time=252395.118..252395.118 rows=0 loops=1)
     ->  Hash Join  (cost=21.93..492023.13 rows=2106020 width=131) (actual time=1207.897..4739.515 rows=308486 loops=1)
                 Hash Cond: ((T2.stxt2)::text = (T1.stxt1)::text)
                 ->  Seq Scan on T2  (cost=0.00..455452.09 rows=4130377 width=121) (actual time=158.773..3915.379 rows=4103865 loops=1)
                             Filter: (vid IS NULL)
                 ->  Hash  (cost=15.30..15.30 rows=530 width=34) (actual time=0.293..0.293 rows=530 loops=1)
                             Buckets: 1024  Batches: 1  Memory Usage: 35kB
                             ->  Seq Scan on T1  (cost=0.00..15.30 rows=530 width=34) (actual time=0.005..0.121 rows=530 loops=1)
 Total runtime: 252395.204 ms
(9 rows)

Time: 255389.704 ms

Actually 255 sec seems to be a very good time for such a query. I'll try to extract the hostname part from all urls and make the update. I still should make sure that updating with exact matches is fast cause I had bad experience with it.

Thank you for your support.

| improve this answer | |

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