Thread
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inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T11:49:10Z
Hi, I found a case where plan cache all time switching to custom plans forces query replan each call (and thus slows down the whole query for 10x or more). What makes the situation intriguing - that both custom and generic plans are the same. job_stats_master - partitioned table with 24 partitions (per month last 2 year). Problem query: prepare qqq(timestamp, timestamp) AS SELECT * FROM "job_stats_master" WHERE "job_stats_master"."created_at" BETWEEN $1 AND $2 AND "job_stats_master"."job_reference" = '******' AND "job_stats_master"."job_board_id" = 27068 ORDER BY "created_at" DESC LIMIT 1; plan (after 6th execution): explain analyze execute qqq('2025-04-11 09:22:00.193'::timestamp without time zone, '2025-05-12 09:22:00.203'::timestamp without time zone); QUERY PLAN ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Limit (cost=1.14..1.29 rows=1 width=384) (actual time=0.026..0.026 rows=1 loops=1) -> Append (cost=1.14..9.10 rows=50 width=384) (actual time=0.025..0.026 rows=1 loops=1) -> Index Scan Backward using job_stats_new_2025_05_job_board_id_job_reference_created_at_idx on job_stats_new_2025_05 job_stats_master_2 (cost=0.56..3.28 rows=18 width=368) (actual time=0.025..0.025 rows=1 loops=1) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '******'::text) AND (created_at >= '2025-04-11 09:22:00.193'::timestamp without time zone) AND (created_at <= '2025-05-12 09:22:00.203'::timestamp without time zone)) -> Index Scan Backward using job_stats_new_2025_04_job_board_id_job_reference_created_at_idx on job_stats_new_2025_04 job_stats_master_1 (cost=0.57..5.32 rows=32 width=394) (never executed) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '******'::text) AND (created_at >= '2025-04-11 09:22:00.193'::timestamp without time zone) AND (created_at <= '2025-05-12 09:22:00.203'::timestamp without time zone)) Planning Time: 0.611 ms Execution Time: 0.057 ms (8 rows) plan with set plan_cache_mode to force_generic_plan ; explain analyze execute qqq('2025-04-11 09:22:00.193'::timestamp without time zone, '2025-05-12 09:22:00.203'::timestamp without time zone); QUERY PLAN --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Limit (cost=19.06..19.32 rows=1 width=407) (actual time=0.030..0.030 rows=1 loops=1) -> Append (cost=19.06..26.74 rows=29 width=407) (actual time=0.029..0.030 rows=1 loops=1) Subplans Removed: 27 -> Index Scan Backward using job_stats_new_2025_05_job_board_id_job_reference_created_at_idx on job_stats_new_2025_05 job_stats_master_2 (cost=0.56..0.82 rows=1 width=368) (actual time=0.029..0.029 rows=1 loops=1) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '*******'::text) AND (created_at >= $1) AND (created_at <= $2)) -> Index Scan Backward using job_stats_new_2025_04_job_board_id_job_reference_created_at_idx on job_stats_new_2025_04 job_stats_master_1 (cost=0.57..0.83 rows=1 width=394) (never executed) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '*******'::text) AND (created_at >= $1) AND (created_at <= $2)) Planning Time: 0.033 ms Execution Time: 0.086 ms Plan "de facto" the same, performance almost the same but with custom plans there is 20x more time spent on planning. With over 1M RPS - it's become quite an issue even for the best available servers. No playing with cost parameters provides any changes in selection custom plan over generic. As I understand there is an issue with costing model - generic plan thinks it will visit all 24 partitions but custom plan does prune partitions during planning thus custom plan always wins in this case "by cost" and in the same time huge loss in performance (but actual plans are the same in both cases). I suspect this situation should be quite common with queries over partitioned tables (where planning time is usually quite a high). Any suggestions what could be done there outside of using force_generic_plan for a particular db user (which will kill performance in other queries for sure)? -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678 -
Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Andrei Lepikhov <lepihov@gmail.com> — 2025-05-12T12:08:21Z
On 5/12/25 13:49, Maxim Boguk wrote: > I suspect this situation should be quite common with queries over > partitioned tables (where planning time is usually quite a high). > > Any suggestions what could be done there outside of using > force_generic_plan for a particular db user (which will kill performance > in other queries for sure)? Thanks for this puzzle! I suppose, in case generic planning is much faster than custom one, there are two candidates exist: 1. Touching the index during planning causes too much overhead - see get_actual_variable_range 2. You have a massive default_statistics_target for a table involved. So, to clarify the problem, may you provide EXPLAIN (without analyze) with BUFFERS ON ? Also, could you provide extra information on the statistics involved? For each column (I think created_at is the most important one), show the size of MCV and histogram arrays. -- regards, Andrei Lepikhov
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T13:08:09Z
On Mon, May 12, 2025 at 3:08 PM Andrei Lepikhov <lepihov@gmail.com> wrote: > On 5/12/25 13:49, Maxim Boguk wrote: > > I suspect this situation should be quite common with queries over > > partitioned tables (where planning time is usually quite a high). > > > > Any suggestions what could be done there outside of using > > force_generic_plan for a particular db user (which will kill performance > > in other queries for sure)? > Thanks for this puzzle! > I suppose, in case generic planning is much faster than custom one, > there are two candidates exist: > 1. Touching the index during planning causes too much overhead - see > get_actual_variable_range > 2. You have a massive default_statistics_target for a table involved. > > So, to clarify the problem, may you provide EXPLAIN (without analyze) > with BUFFERS ON ? > Also, could you provide extra information on the statistics involved? > For each column (I think created_at is the most important one), show the > size of MCV and histogram arrays. > > -- > regards, Andrei Lepikhov > clickcast=# explain (buffers) execute qqq('2025-04-11 09:22:00.193'::timestamp without time zone, '2025-05-12 09:22:00.203'::timestamp without time zone); QUERY PLAN ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Limit (cost=1.14..1.29 rows=1 width=385) -> Append (cost=1.14..9.10 rows=50 width=385) -> Index Scan Backward using job_stats_new_2025_05_job_board_id_job_reference_created_at_idx on job_stats_new_2025_05 job_stats_master_2 (cost=0.56..3.28 rows=18 width=371) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '*****'::text) AND (created_at >= '2025-04-11 09:22:00.193'::timestamp without time zone) AND (created_at <= '2025-05-12 09:22:00.203'::timestamp without time zone)) -> Index Scan Backward using job_stats_new_2025_04_job_board_id_job_reference_created_at_idx on job_stats_new_2025_04 job_stats_master_1 (cost=0.57..5.32 rows=32 width=394) Index Cond: ((job_board_id = 27068) AND ((job_reference)::text = '*******'::text) AND (created_at >= '2025-04-11 09:22:00.193'::timestamp without time zone) AND (created_at <= '2025-05-12 09:22:00.203'::timestamp without time zone)) Planning: Buffers: shared hit=16 16 buffers - most times, sometimes 12k Buffers: shared hit=12511 (like 5% cases) - I have no idea why. show default_statistics_target ; default_statistics_target --------------------------- 100 No custom statistic targets on this table or partitions. select tablename,attname,inherited,null_frac,n_distinct,array_length(most_common_vals,1) mcv, array_length(histogram_bounds,1) hist from pg_stats where tablename IN ('job_stats_master', 'job_stats_new_2025_04', 'job_stats_new_2025_05') and attname in ('created_at', 'job_board_id', 'job_reference') order by tablename, attname; tablename | attname | inherited | null_frac | n_distinct | mcv | hist -----------------------+---------------+-----------+------------+--------------+-----+------ job_stats_master | created_at | t | 0 | 1.066586e+06 | 15 | 101 job_stats_master | job_board_id | t | 0.52743334 | 1716 | 100 | 101 job_stats_master | job_reference | t | 0 | -0.1 | 39 | 101 job_stats_new_2025_04 | created_at | f | 0 | 832508 | 39 | 101 job_stats_new_2025_04 | job_board_id | f | 0.47096667 | 1096 | 100 | 101 job_stats_new_2025_04 | job_reference | f | 0 | -0.1 | 93 | 101 job_stats_new_2025_05 | created_at | f | 0 | 709166 | 42 | 101 job_stats_new_2025_05 | job_board_id | f | 0.4703 | 1142 | 100 | 101 job_stats_new_2025_05 | job_reference | f | 0 | -0.1 | 100 | 101 PS: problem not with difference between custom and generic planning time but with prepared statements generic plan plans only once, but custom plan plan every call (and plan time cost 95% on total query runtime). -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678 -
Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Andrei Lepikhov <lepihov@gmail.com> — 2025-05-12T13:48:24Z
On 5/12/25 15:08, Maxim Boguk wrote: > PS: problem not with difference between custom and generic planning time > but with prepared statements > generic plan plans only once, but custom plan plan every call (and plan > time cost 95% on total query runtime). Ah, now I got it. I'm aware of this problem from at least two sources of regular complaints. What can you do here? Let's imagine a palliative solution: Having pg_stat_statements data and the list of prepared statements (see pg_prepared_statement) and queryId enabled, there is a way to force a custom or generic plan in specific cases only: look up into min/max query execution time. If no big difference exists and planning time is sufficient, setting force_generic_plan for this plan makes sense. In another case, if the planning time is too short or the generic plan is unstable - switch to force_custom_plan. It is not hard to write such a tiny extension. As I see, the only extra stored "C" procedure is needed to set up force-plan-type flag employing FetchPreparedStatement(). The rest of the code - querying pg_stat_statements and switching between plan types may be written in plpgsql. If I'm not mistaken, it will work with all PG versions that are currently in support. What do you think? -- regards, Andrei Lepikhov
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T14:04:45Z
On Mon, May 12, 2025 at 4:48 PM Andrei Lepikhov <lepihov@gmail.com> wrote: > On 5/12/25 15:08, Maxim Boguk wrote: > > PS: problem not with difference between custom and generic planning time > > but with prepared statements > > generic plan plans only once, but custom plan plan every call (and plan > > time cost 95% on total query runtime). > Ah, now I got it. > I'm aware of this problem from at least two sources of regular complaints. > What can you do here? Let's imagine a palliative solution: > Having pg_stat_statements data and the list of prepared statements (see > pg_prepared_statement) and queryId enabled, there is a way to force a > custom or generic plan in specific cases only: look up into min/max > query execution time. If no big difference exists and planning time is > sufficient, setting force_generic_plan for this plan makes sense. In > another case, if the planning time is too short or the generic plan is > unstable - switch to force_custom_plan. > > It is not hard to write such a tiny extension. As I see, the only extra > stored "C" procedure is needed to set up force-plan-type flag employing > FetchPreparedStatement(). The rest of the code - querying > pg_stat_statements and switching between plan types may be written in > plpgsql. > > If I'm not mistaken, it will work with all PG versions that are > currently in support. What do you think? Such extension would be very useful (and in general - the solution based on the actual execution data - seems more stable/predictable than the plan cost based selection which is currently used by postgresql). -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T14:21:09Z
On Mon, May 12, 2025 at 4:48 PM Andrei Lepikhov <lepihov@gmail.com> wrote: > On 5/12/25 15:08, Maxim Boguk wrote: > > PS: problem not with difference between custom and generic planning time > > but with prepared statements > > generic plan plans only once, but custom plan plan every call (and plan > > time cost 95% on total query runtime). > Ah, now I got it. > I'm aware of this problem from at least two sources of regular complaints. > What can you do here? Let's imagine a palliative solution: > Having pg_stat_statements data and the list of prepared statements (see > pg_prepared_statement) and queryId enabled, there is a way to force a > custom or generic plan in specific cases only: look up into min/max > query execution time. If no big difference exists and planning time is > sufficient, setting force_generic_plan for this plan makes sense. In > another case, if the planning time is too short or the generic plan is > unstable - switch to force_custom_plan. > > It is not hard to write such a tiny extension. As I see, the only extra > stored "C" procedure is needed to set up force-plan-type flag employing > FetchPreparedStatement(). The rest of the code - querying > pg_stat_statements and switching between plan types may be written in > plpgsql. > > If I'm not mistaken, it will work with all PG versions that are > currently in support. What do you think? But a more general question - this exact issue will affect every prepared query logic which selects only a subset of partitions. In this case - current logic will always select custom plan over generic plan (even in case the both plans are actually the same). E.g. If a fast/cheap query over a partitioned table has conditions that allow use of only a few partitions - custom plan always wins whatever database settings is (outside of force_custom_plan hammer). Seems there could be something done about the cost calculation of generic plan. -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
David Rowley <dgrowleyml@gmail.com> — 2025-05-12T15:01:03Z
On Mon, 12 May 2025, 05:08 Andrei Lepikhov, <lepihov@gmail.com> wrote: > Thanks for this puzzle! > I suppose, in case generic planning is much faster than custom one, > there are two candidates exist: > 1. Touching the index during planning causes too much overhead - see > get_actual_variable_range > 2. You have a massive default_statistics_target for a table involved. > This is just an artifact of the fact that runtime pruning is not factored into the costs. Note the cost of the generic plan. The plan_cache_mode GUC is about the only way to overrule the choice to use the custom plan. David >
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T15:18:43Z
On Mon, May 12, 2025 at 6:01 PM David Rowley <dgrowleyml@gmail.com> wrote: > On Mon, 12 May 2025, 05:08 Andrei Lepikhov, <lepihov@gmail.com> wrote: > >> Thanks for this puzzle! >> I suppose, in case generic planning is much faster than custom one, >> there are two candidates exist: >> 1. Touching the index during planning causes too much overhead - see >> get_actual_variable_range >> 2. You have a massive default_statistics_target for a table involved. >> > > This is just an artifact of the fact that runtime pruning is not factored > into the costs. Note the cost of the generic plan. The plan_cache_mode GUC > is about the only way to overrule the choice to use the custom plan. > Situation quite the opposite - I need to force a generic plan because it has the same execution time as a custom plan but performs 20-50x faster (because in custom plan case - 95-98% time spent in planning not in execution). And the problem is that the cost of a custom plan ignores the cost of planning itself (which is like 2x orders of magnitude worse than the cost of real time partition pruning of a generic plan). I started thinking of something like cost_planner GUC to help with similar issues (where planning cost calculated as cost_planned*(some heuristic function with amount involved in query tables). In my case the high cost of planning itself should force the database to use generic plan. -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Tom Lane <tgl@sss.pgh.pa.us> — 2025-05-12T15:33:02Z
Maxim Boguk <maxim.boguk@gmail.com> writes: > And the problem is that the cost of a custom plan ignores the cost of > planning itself (which is like 2x orders of magnitude worse than the cost > of real time partition pruning of a generic plan). False. The estimate is evidently pretty wrong, but it's not that there is no consideration at all. See around line 1370 in src/backend/utils/cache/plancache.c. regards, tom lane
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Andrei Lepikhov <lepihov@gmail.com> — 2025-05-12T17:22:05Z
On 12/5/2025 16:04, Maxim Boguk wrote: > On Mon, May 12, 2025 at 4:48 PM Andrei Lepikhov <lepihov@gmail.com > It is not hard to write such a tiny extension. As I see, the only extra > stored "C" procedure is needed to set up force-plan-type flag employing > FetchPreparedStatement(). The rest of the code - querying > pg_stat_statements and switching between plan types may be written in > plpgsql. > > If I'm not mistaken, it will work with all PG versions that are > currently in support. What do you think? > > > Such extension would be very useful (and in general - the solution based > on the actual execution data - seems more stable/predictable than the > plan cost based selection which is currently used by postgresql). Okay, as far as I can see now, it costs a couple of weeks to develop. It would be more profitable in terms of speed and usage in older versions than any core patch. What's more, if, as you predict, it will work, it may provide a rationale for opening the entire plan cache for extensions and allow a wide audience to impact the extended protocol (and query plans in stored procedures) in many curious ways. As I may envision, a dummy routine providing a link to the saved_plan_list will spend a few lines of code. A subscription to cached statements may cost more time and effort but seems even more profitable. -- regards, Andrei Lepikhov
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-12T17:55:07Z
On Mon, May 12, 2025 at 6:33 PM Tom Lane <tgl@sss.pgh.pa.us> wrote: > Maxim Boguk <maxim.boguk@gmail.com> writes: > > And the problem is that the cost of a custom plan ignores the cost of > > planning itself (which is like 2x orders of magnitude worse than the cost > > of real time partition pruning of a generic plan). > > False. The estimate is evidently pretty wrong, but it's not that > there is no consideration at all. See around line 1370 in > src/backend/utils/cache/plancache.c. > > regards, tom lane > Thank you. Reading the code - probably the lowest hanging fruit is to make 'The current multiplier of 1000 * cpu_operator_cost' configurable in the future versions. PS: it's always nice to see when my ad-hoc idea (about N*nrelations as cost planner estimate) is already implemented. -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Tom Lane <tgl@sss.pgh.pa.us> — 2025-05-12T18:07:54Z
Maxim Boguk <maxim.boguk@gmail.com> writes: > Reading the code - probably the lowest hanging fruit is to make > 'The current multiplier of 1000 * cpu_operator_cost' configurable in the > future versions. I'm wondering whether we should try to make the planner not expend the effort in the first place, but leave partition pruning to the executor, at least in cases where it can determine that that will be possible. regards, tom lane
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Andrei Lepikhov <lepihov@gmail.com> — 2025-05-13T04:25:17Z
On 5/12/25 20:07, Tom Lane wrote: > Maxim Boguk <maxim.boguk@gmail.com> writes: >> Reading the code - probably the lowest hanging fruit is to make >> 'The current multiplier of 1000 * cpu_operator_cost' configurable in the >> future versions. > > I'm wondering whether we should try to make the planner not expend > the effort in the first place, but leave partition pruning to the > executor, at least in cases where it can determine that that will be > possible. Significant planning time is a sorting out lots of scan paths, applying partition statistics etc. planner-stage partitioning reduces these efforts drastically. -- regards, Andrei Lepikhov
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
David Rowley <dgrowleyml@gmail.com> — 2025-05-13T11:20:21Z
On Tue, 13 May 2025 at 03:19, Maxim Boguk <maxim.boguk@gmail.com> wrote: > On Mon, May 12, 2025 at 6:01 PM David Rowley <dgrowleyml@gmail.com> wrote: >> This is just an artifact of the fact that runtime pruning is not factored into the costs. Note the cost of the generic plan. The plan_cache_mode GUC is about the only way to overrule the choice to use the custom plan. > > Situation quite the opposite - I need to force a generic plan because it has the same execution time as a custom plan but performs 20-50x faster (because in custom plan case - 95-98% time spent in planning not in execution). You misunderstood. The choice the planner (or choose_custom_plan) made to use the custom plan can be overridden with SET plan_cache_mode = force_generic_plan;, which seems to be what performs better for you, per your example EXPLAIN ANALYZE outputs. > And the problem is that the cost of a custom plan ignores the cost of planning itself (which is like 2x orders of magnitude worse than the cost of real time partition pruning of a generic plan). I started thinking of something like cost_planner GUC to help with similar issues (where planning cost calculated as cost_planned*(some heuristic function with amount involved in query tables). > > In my case the high cost of planning itself should force the database to use generic plan. Certainly the cost estimate for planning there is quite crude. I doubt you'll find anyone arguing that it's not. It is however designed to be low-overhead. The estimated planning cost isn't the issue here. It's (as I mentioned) related to no cost consideration being given to run-time pruning. We could certainly adjust things so that is accounted for, and we (I think Robert and I) have talked about it in the past. The problem is that doing that is a wild stab in the dark, especially so for your range partitioned case where the amount of actual partitions pruned during executor startup could range from 0 to all of them. Unfortunately when we tag those costs onto the plan, we've no idea what the parameter values are going to be when the plan is executed. I think Robert suggested multiplying the Append cost by DEFAULT_INEQ_SEL for this bounded range type pruning. Whether that will help you or not depends on how many partitions you have and how evenly populated they are. In order words, it's a tricky problem with no one-size-fits-all solution. David
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Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Maxim Boguk <maxim.boguk@gmail.com> — 2025-05-14T00:47:30Z
On Mon, May 12, 2025 at 9:07 PM Tom Lane <tgl@sss.pgh.pa.us> wrote: > Maxim Boguk <maxim.boguk@gmail.com> writes: > > Reading the code - probably the lowest hanging fruit is to make > > 'The current multiplier of 1000 * cpu_operator_cost' configurable in the > > future versions. Is the 100x backend memory usage per cached plan difference expected between generic and custom plans? There are sample memory context dump with alter role app_server set plan_cache_mode to force_custom_plan ; reconnect pgbouncers/wait 5 min/check sample ***=> begin; BEGIN ****=*> select count(*), count(*) filter (where generic_plans>0) as generic_plans, count(*) filter (where custom_plans>0) as custom_plans from pg_prepared_statements ; count | generic_plans | custom_plans -------+---------------+-------------- 177 | 3 | 174 (1 row) ***=*> select name,parent,level,count(*), pg_size_pretty(sum(total_bytes)) as bytes, sum(total_nblocks) as nblocks, pg_size_pretty(sum(free_bytes)) as free_bytes, sum(free_chunks) as free_chunks, pg_size_pretty(sum(used_bytes)) as used_bytes from pg_backend_memory_contexts group by 1,2,3 having sum(total_bytes)>128*1024 order by 3, sum(total_bytes) desc; name | parent | level | count | bytes | nblocks | free_bytes | free_chunks | used_bytes -------------------------+--------------------+-------+-------+---------+---------+------------+-------------+------------ TopMemoryContext | | 0 | 1 | 769 kB | 15 | 236 kB | 574 | 532 kB CacheMemoryContext | TopMemoryContext | 1 | 1 | 9856 kB | 125 | 223 kB | 2 | 9633 kB CachedPlanSource | CacheMemoryContext | 2 | 264 | 5228 kB | 1142 | 2142 kB | 456 | 3086 kB index info | CacheMemoryContext | 2 | 776 | 1612 kB | 1483 | 575 kB | 908 | 1037 kB CachedPlan | CacheMemoryContext | 2 | 62 | 154 kB | 137 | 41 kB | 31 | 113 kB CachedPlanQuery | CachedPlanSource | 3 | 264 | 4777 kB | 1147 | 1628 kB | 133 | 3149 kB And with: alter role app_server set plan_cache_mode to force_generic_plan ; reconnect pgbouncers/wait 5 min/check sample ***=> begin; BEGIN ***=*> select count(*), count(*) filter (where generic_plans>0) as generic_plans, count(*) filter (where custom_plans>0) as custom_plans from pg_prepared_statements ; count | generic_plans | custom_plans -------+---------------+-------------- 165 | 165 | 0 (1 row) ***=*> select name,parent,level,count(*), pg_size_pretty(sum(total_bytes)) as bytes, sum(total_nblocks) as nblocks, pg_size_pretty(sum(free_bytes)) as free_bytes, sum(free_chunks) as free_chunks, pg_size_pretty(sum(used_bytes)) as used_bytes from pg_backend_memory_contexts group by 1,2,3 having sum(total_bytes)>128*1024 order by 3, sum(total_bytes) desc; name | parent | level | count | bytes | nblocks | free_bytes | free_chunks | used_bytes -------------------------+--------------------+-------+-------+---------+---------+------------+-------------+------------ TopMemoryContext | | 0 | 1 | 809 kB | 16 | 236 kB | 712 | 573 kB CacheMemoryContext | TopMemoryContext | 1 | 1 | 18 MB | 126 | 8137 kB | 3 | 9910 kB CachedPlan | CacheMemoryContext | 2 | 252 | 73 MB | 1490 | 29 MB | 127 | 43 MB CachedPlanSource | CacheMemoryContext | 2 | 252 | 4942 kB | 1095 | 1926 kB | 381 | 3016 kB index info | CacheMemoryContext | 2 | 794 | 1655 kB | 1516 | 579 kB | 926 | 1076 kB CachedPlanQuery | CachedPlanSource | 3 | 252 | 4502 kB | 1096 | 1460 kB | 134 | 3041 kB In the first case 2.5Kb per CachedPlan in the second case 300Kb per CachedPlan Problem with force_generic_plan that backends quickly eat up 1GB per backend exhausting available server memory. Postgresql version 17.4 and no complicated query in this workload (1-2-3 tables per query, sometimes two tables could be partitioned to 24 partitions each, third table always monolitic). Regards, Maxim -- Maxim Boguk Senior Postgresql DBA Phone UA: +380 99 143 0000 Phone AU: +61 45 218 5678 -
Re: inefficient/wrong plan cache mode selection for queries with partitioned tables (postgresql 17)
Andrei Lepikhov <lepihov@gmail.com> — 2025-05-18T16:54:24Z
On 5/12/25 16:04, Maxim Boguk wrote: > On Mon, May 12, 2025 at 4:48 PM Andrei Lepikhov <lepihov@gmail.com > If I'm not mistaken, it will work with all PG versions that are > currently in support. What do you think? > > > Such extension would be very useful (and in general - the solution based > on the actual execution data - seems more stable/predictable than the > plan cost based selection which is currently used by postgresql). I've written a sketch of such an extension; see [1]. A trivial strategy is implemented to force prepared statements to use a generic plan if the planning time exceeds the maximum execution time. It is just an example - it is written in plpgsql, and you can implement alternative strategies independently. I would be happy if it covered your use case. Any feedback is welcome. [1] https://github.com/danolivo/pg_mentor/tree/main -- regards, Andrei Lepikhov