We're having some issues when autovacuum triggers on one of our large tables (~100Gb).
Our ETL jobs only hit the last three partition of this table but, from my understanding, when autovacuum is triggered on a partition the whole table is vacuumed and this is causing the ETL job to wait until it's finished.
So far I've tried to set autovacuum_vacuum_scale_factor to both a higher and lower value which yields approximately the same execution time for our job.
Since a rather important number of INSERT/UPDATE is performed on this table, I would like to put a low value for autovacuum_vacuum_scale_factor on the three lasts partitions, but prevent the vacuuming of older partitions.
We are already using a vacuum script that runs every evening so I'm thinking about setting autovacuum_enabled to off on older partitionned and let the script handle the vacuum on these tables, but I'm not sure if it's the right way to treat this problem.
Another parameter I've stumbled upon is the vacuum_freeze_min_age and autovacuum_freeze_max_age, but I'm not sure I understand how to use them.
Related
I have a scenario that repeats itself every few hours. In every few hours, there is a sudden increase in row exclusive locks in PostgreSQL DB. In Meantime there seems that some queries are not responded in time and causes connection exhaustion to happen that PostgreSQL does not accept new clients anymore. After 2-3 minutes locks and connection numbers drops and the system comes back to normal state again.
I wonder if auto vacuum can be the root cause of this? I see analyze and vacuum (NOT FULL VACCUM) take about 20 seconds to complete on one of the tables. I have INSERT,SELECT,UPDATE and DELETE operations going on from my application and I don't have DDL commands (ALTER TABLE, DROP TABLE, CREATE INDEX, ...) going on. Can auto vacuum procedure conflict with queries from my application and cause them to wait until vacuum has completed? Or it's all the applications and my bad design fault? I should say one of my tables has a field of type jsonb that keeps relatively large data for each row (10 MB roughly).
I have attached an image from monitoring application that shows the sudden increase in row exclusive locks.
ROW EXCLUSIVE locks are perfectly harmless; they are taken on tables against which DML statements run. Your graph reveals nothing. You should set log_lock_waits = on and log_min_duration_statement to a reasonable value. Perhaps you can spot something in the logs. Also, watch out for long running transactions.
Postgres doc tells that partitioned tables are not processed by autovacuum. But still I see that last_autovacuum column from pg_stat_user_tables is populated with recent timestamps for live partitions.
Does it mean that these timestamps are set by the background worker which only prevents transaction ID wraparound, without actually performing ANALYZE&VACUUM? Or whatever else could populate them?
Besides, taken that partitions are large and active enough, should I run the both ANALYZE and VACUUM manually on those partitions? If yes, does the order matter?
UPDATE
I'm trying to elaborate, thanks to the comments given.
Taking that vacuum should work the same way on partition as on the regular table, what could be a reason for much faster growth of the occupied disk space after partitioning? Before partitioning it was nearly a linear function of records count.
What is confusing as well, when looking for autovacuum processes running I see that those related to partitions are denoted with "to prevent wraparound", while others are not. Is it absolutely a coincidence or there is something to check?
Documentation describes partitioned table as rather a virtual entity, without its own storage. What is the point in denoting that it is not vacuumed?
The statement from the documentation is true, but misleading. Autovacuum does not process the partitioned table itself, but it processes the partitions, which are regular PostgreSQL tables. So dead tuples get removed, the visibility map gets updated, and so on. In short, there is nothing to worry about as far as vacuuming is concerned. Remember that the partitioned table itself does not hold any data!
What the documentation warns you about is ANALYZE. Autovacuum also launches automatic ANALYZE jobs to collect accurate table statistics. This will be work fine on the partitions, but there are no table statistics collected on the partitioned table itself, so you have to run ANALYZE manually on the partitioned table to get these data. In practice, I find that not to be a problem, since the optimizer generates plans for each individual partition anyway, and there it has accurate statistics.
In postgres, when autovacuum runs and for some reason say its able to perform autovacuum - for example when hot_standby_feedback is set and there are long running queries on standby. Say for example tab1 has been updated and it triggers autovacuum, meanwhile a long running query on standby is running and sends this info to primary which will skip the vacuum on tab1.
Since the autovacuum got skipped for tab1, When does autovacuum run vacuum on the table again? Or it will not run autovacuum again on it and we would need to manually run vacuum on that table. Basically does autovacuum retry autovacuum on tables that could not be vacuumed for the first time?
Autovacuum does not get skipped due to hot_standby_feedback. It still runs, it just might not accomplish anything if no rows can be removed. If this is the case, then pg_stat_all_tables.n_dead_tup does not get decremented, which means that the table will probably get autovacuumed again the next time the database is assessed for autovacuuming as the stats that make it eligible have not changed. On an otherwise idle system, this will happen about once every however long it takes to scan not-all-visible part of the table, rounded up to the next increment of autovacuum_naptime.
It might be a good idea (although the use case is narrow enough that I doubt it) to suppress repeat autovacuuming of a table until the horizon has advanced far enough to make it worthwhile, but currently there is no code to do this.
Note that this differs from INSERT driven autovacuums. There, n_ins_since_vacuum does get reset, even if none of the tuples were marked all visible. So that vacuum will not get run again until the table cross some other threshold to make it eligible.
On my primary I ran a VACUUM then an ANALYZE on all databases, then when I check pg_stat_user_tables, the last_analyze column shows a current timestamp which is great.
When I check my replication instance, there are no values in the last_analyze column. I was assuming this timestamp would also eventually populate? Is this known behaviour?
The reason I ask is that after that VACUUM/ANALYZE on the primary, I'm running into some extremely slow queries on the replication instance. I ran an EXPLAIN plan prior to the VACUUM/ANALYZE on a query and it ran in 5 seconds... now it's taking 65 seconds. The EXPLAIN shows it's not using a lot of indexes that it should be.
PostgreSQL has two different stats systems. One records data about the distribution of values in the columns, this is transactional. It propagates to the replica via the WAL.
The other system records data about turn over on the tables and data on when the last vac/an was done. This system is used to determine when to schedule new vac/an (to prevent the first system from getting too out of date). This one is not transactional, and does not propagate to the replica.
So the replica has the latest column value distribution statistics (as soon as the WAL replays, anyway), but it doesn't know how recent they are.
We have on RDS a main Postgres server and a read replica.
We constantly write and update new data for the last couple of days.
Reading from the read-replica works fine when looking at older data but when trying to read from the last couple of days, where we keep updating the data on the main server, is painfully slow.
Queries that take 2-3 minutes on old data can timeout after 20 minutes when querying data from the last day or two.
Looking at the monitors like CPU I don't see any extra load on the read replica.
Is there a solution for this?
You are accessing over 65 buffers for ever 1 visible row found in the index scan (and over 500 buffers for each row which is returned by the index scan, since 90% are filtered out by the mmsi criterion).
One issue is that your index is not as well selective as it could be. If you had the index on (day, mmsi) rather than just (day) it should be about 10 times faster.
But it also looks like you have a massive amount of bloat.
You are probably not vacuuming the table often enough. With your described UPDATE pattern, all the vacuum needs are accumulating in the newest data, but the activity counters are evaluated based on the full table size, so autovacuum is not done often enough to suit the needs of the new data. You could lower the scale factor for this table:
alter table simplified_blips set (autovacuum_vacuum_scale_factor = 0.01)
Or if you partition the data based on "day", then the partitions for newer days will naturally get vacuumed more often because the occurrence of updates will be judged against the size of each partition, it won't get diluted out by the size of all the older inactive partitions. Also, each vacuum run will take less work, as it won't have to scan all of the indexes of the entire table, just the indexes of the active partitions.
As suggested, the problem was bloat.
When you update a record in an ACID database the database creates a new version of the record with the new updated record.
After the update you end with a "dead record" (AKA dead tuple)
Once in a while the database will do autovacuum and clean the table from the dead tuples.
Usually the autovacuum should be fine but if your table is really large and updated often you should consider changing the autovacuum analysis and size to be more aggressive.