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We have a postgreql connection pool used by multithreaded application, that permanently inserts some records into big table. So, lets say we have 10 database connections, executing the same function, whcih inserts the record.

The trouble is, we have 10 records inserted as a result meanwhile it should be only 2-3 records inserted, if only transactions could see the records of each other (our function takes decision to do not insert the record according to the date of the last record found).

We can not afford table locking for func execution period. We tried different tecniques to make the database apply our rules to new records immediately despite the fact they are created in parallel transactions, but havent succeeded yet.

So, I would be very grateful for any help or idea!

To be more specific, here is the code: ( evtime TIMESTAMP, ref_id INTEGER, param INTEGER, type INTEGER);

record filter rule:

select count(*) into nCnt
from events e
where e.ref_id = ref_id and e.param = param and e.type = type 
and e.evtime between (evtime - interval '10 seconds') and (evtime + interval '10 seconds')

if nCnt = 0 then 
  insert into values (evtime, ref_id, param, type);
end if;

UPDATE (comment length is not enough unfortunately)

I've applied to production the unique index solution. The results are pretty acceptable, but the initial target has not been achieved. The issue is, with the unique hash I can not control the interval between 2 records with sequential hash_codes.

Here is the code:

CREATE TABLE schm.events_hash (
  hash_code bigint NOT NULL
CREATE UNIQUE INDEX ui_events_hash_hash_code ON its.events_hash
  USING btree (hash_code);

--generate the hash codes data by partioning(splitting) evtime in 10 sec intervals:
INSERT into schm.events_hash 
select distinct ( cast( trunc( extract(epoch from evtime) / 10 ) || cast( ref_id as TEXT) || cast( type as TEXT ) || cast( param as TEXT ) as bigint) )

--and then in a concurrently executed function I insert sequentially:
INSERT into schm.events_hash values ( cast( trunc( extract(epoch from evtime) / 10 ) || cast( ref_id as TEXT) || cast( type as TEXT ) || cast( param as TEXT ) as bigint) );
insert into values (evtime, ref_id, param, type);

In that case, if evtime lies within hash-determined interval, only one record is being inserted. The case is, we can skip records that refer to different determined intervals, but are close to each other (less than 60 sec interval).

insert into values ( '2013-07-22 19:32:37', '123', '10', '20' ); --inserted, test ok, (trunc( extract(epoch from cast('2013-07-22 19:32:37' as timestamp)) / 10 ) = 137450715 )
insert into values ( '2013-07-22 19:32:39', '123', '10', '20' ); --filtered out, test ok, (trunc( extract(epoch from cast('2013-07-22 19:32:39' as timestamp)) / 10 ) = 137450715 )
insert into values ( '2013-07-22 19:32:41', '123', '10', '20' ); --inserted, test fail, (trunc( extract(epoch from cast('2013-07-22 19:32:41' as timestamp)) / 10 ) = 137450716 )

I think there must be a way to modify the hash function to achieve the initial target, but havent found it yet. Maybe, there are some table constraint expressions, that are executed by the postgresql itself, out of the transaction?

share|improve this question
Meanwhile, I tried different tecniques: 1. Table insert trigger - didnt help, trigger is executed at the same transaction the function is executed at, so the commit happens in a parallel way. 2. Create RULE ON INSERT to - it looks brilliant as the idea, but it is executed in the same transaction with the function, that brings us nothing as a result (no inserted data filtration). – xacinay Aug 6 '13 at 12:36
At the moment, the most acceptable solution for me is: adding new hash_data field to the "events" table, calculate hash_data field value f(evtime, ref_id, param, type) according to min_interval between events, build the unique index on hash_data field. So, when an insert is being executed, constraint will preserve the database from inserting improper records. The solution is not so lightweight or flexible, but at least it is something worth trying in production, I suppose. – xacinay Aug 6 '13 at 12:38
Quick tip: Your query is inefficient. Change it to SELECT 1 FROM ... (unchanged)... LIMIT 1 and then test IF NOT FOUND THEN. – Craig Ringer Aug 6 '13 at 16:23
Thanks for the tip! Applied that to production function – xacinay Aug 7 '13 at 13:06
Cool. I should've really just suggested writing IF EXISTS (SELECT ...) since it's clearer what you're trying to do, but currently I think the performance will be much the same. – Craig Ringer Aug 8 '13 at 4:19

1 Answer 1

About your only options are:

  • Using a unique index with a hack to collapse 20-second ranges to a single value;

  • Using advisory locking to control communication; or

  • SERIALIZABLE isolation and intentionally creating a mutual dependency between sessions. Not 100% sure this will be practical in your case.

What you really want is a dirty read, but PostgreSQL does not support dirty reads, so you're kind of stuck there.

You might land up needing a co-ordinator outside the database to manage your requirements.

Unique index

You can truncate your timestamps for the purpose of uniquenes checking, rounding them to regular boundaries so they jump in 20 second chunks. Then add them to a unique index on (chunk_time_seconds(evtime, 20), ref_id, param, type) .

Only one insert will succeed and the rest will fail with an error. You can trap the error in a BEGIN ... EXCEPTION block in PL/PgSQL, or preferably just handle it in the application.

I think a reasonable definition of chunk_time_seconds might be:

CREATE OR REPLACE FUNCTION chunk_time_seconds(t timestamptz, round_seconds integer)
RETURNS bigint
AS $$
SELECT floor(extract(epoch from t) / 20) * 20;

A starting point for advisory locking:

Advisory locks can be taken on a single bigint or a pair of 32-bit integers. Your key is bigger than that, it's three integers, so you can't directly use the simplest approach of:

IF pg_try_advisory_lock(ref_id, param) THEN
   ... do insert ...

then after 10 seconds, on the same connection (but not necessarily in the same transaction) issue pg_advisory_unlock(ref_id_param).

It won't work because you must also filter on type and there's no three-integer-argument form of pg_advisory_lock. If you can turn param and type into smallints you could:

IF pg_try_advisory_lock(ref_id, param << 16 + type) THEN

but otherwise you're in a bit of a pickle. You could hash the values, of course, but then you run the (small) risk of incorrectly skipping an insert that should not be skipped in the case of a hash collision. There's no way to trigger a recheck because the conflicting rows aren't visible, so you can't use the usual solution of just comparing rows.

So ... if you can fit the key into 64 bits and your application can deal with the need to hold the lock for 10-20s before releasing it in the same connection, advisory locks will work for you and will be very low overhead.

share|improve this answer
Well, advisory locking looks close to solution, but as it seems to me, it is applied to already existing records, isn't it? – xacinay Aug 5 '13 at 16:35
@xacinay No, advisory locking just locks arbitrary things. So you can (eg) take an advisory lock just before inserting, and only release it after the time has elapsed. Lots of things you can do. – Craig Ringer Aug 6 '13 at 2:39
Well, I would be grateful if give me a hint, how pg_advisory_locking can help to prevent concurent event insertion in parallel transaction. By now, I've seen it working well on some queue processing only. CREATE RULE for TABLE was almost there, but it is executed at the same transaction with the function(like a trigger). – xacinay Aug 6 '13 at 12:23
@xacinay Thought about it some more and while advisory locks will help in cases with smaller keys, for you they'll be hard to make work. See updated answer. You can however use a unique index; again see updated answer. – Craig Ringer Aug 6 '13 at 16:42

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