Got the error upon create/delete/update queries:
ERROR: database is not accepting commands to avoid wraparound data loss in database "mydb" HINT: Stop the postmaster and use a standalone backend to vacuum that database. You might also need to commit or roll back old prepared transactions.
So, the database is blocked and it is only possible to perform SELECT queries.
Database's size 350 GB. 1 table(my_table) has ~1 billion rows.
system: "PostgreSQL 9.3.4 on x86_64-unknown-linux-gnu, compiled by gcc (GCC) 4.4.7 20120313 (Red Hat 4.4.7-4), 64-bit"
postgresq.conf some settings:
effective_io_concurrency = 15 # 1-1000; 0 disables prefetching
autovacuum_vacuum_cost_delay = -1
#vacuum_cost_delay = 0 # 0-100 milliseconds
#vacuum_cost_page_hit = 1 # 0-10000 credits
#vacuum_cost_page_miss = 10 # 0-10000 credits
#vacuum_cost_page_dirty = 20 # 0-10000 credits
#vacuum_cost_limit = 200
I do not use prepared transactions. But basic stored procedures are used(which means, automatic tranactions, right?) 50mln times per day.
Сurrently "autovacuum: VACUUM ANALYZE public.my_table (to prevent wraparound)" is perforing, it is almost 12 hours of that query activity.
As far as I understand, the problem with not-vacuumed dead touples, right?
How to resolve this problem and prevent this in the future? Please, help :)
The end of story( ~one month later) Now my big table is partitioned by thousands of tables. Each small table is vacuumed much faster. Autovacuum configuration was set more closer to default. If needed, i could be set to more agressive again, but so far database with billions of rows works pretty well.
So, the problem of the topic should not appear again.
ps now i'm looking at Postgres-XL as a next step of data scalability.
The problem isn't dead tuples, it's transaction ids, which control row visibility. Each transaction gets a sequential XID, since they're 32 bit ints, they will eventually wrap around.
See here for more detail: http://www.postgresql.org/docs/9.3/static/routine-vacuuming.html#VACUUM-FOR-WRAPAROUND, but the short version is that all tables need to be VACUUM
ed (either manually or with autovacuum) at least every 2 billion transactions. The longer you go without vacuuming the longer it takes.
To fix your current problem you don't need to do a VACUUM ANALYZE
, just a VACUUM
- I am not sure how much of a speed difference there is, but it should be faster.
What kind of hardware is this running on, and what's your maintenance_work_mem
set to? You may want to raise it (possibly temporarily) to complete the VACUUM faster.
In the future, you basically just need to VACUUM more: either increase autovacuum frequency (see here: https://dba.stackexchange.com/questions/21068/aggressive-autovacuum-on-postgresql, for example) or even schedule manual VACUUMs with cron. Also look at vacuum_freeze_min_age
and related settings.
What kind of data is it, and what kind of transactions are you running? That's a pretty big table, can it be partitioned (by date, for instance)?
You may also want to enable log_autovacuum_min_duration
(set it to a small value), to see what autovacuum is actually doing when the database is live, and if there are locking issues preventing it from running.
You don't have to run VACUUM
standalone, you can run it now, unless that will interfere too much with your other databases. Just need to do it as superuser, so system tables are also vacuumed.
Doing a dump/restore seems drastic, and I can't imagine it would be faster than completing the VACUUM.
Switching away from stored procedures will not help: any queries that modify data will generate XIDs, it doesn't matter if you use transactions explicitly, they're still transactions.
You're on the right way - getting autovacuum to keep up with your inserts/updates is the best solution (logging its activity should help understand what's going wrong now).
Judging by your table structure, this may be the classic case for table partitioning (http://www.postgresql.org/docs/9.3/static/ddl-partitioning.html) - am I right in thinking that it's all inserts, rather than updates/deletes? If you're always writing to one small partition, you can vacuum it more aggressively (autovacuum can be configured per table), and VACUUM FREEZE the others.