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PostgreSQL中如何监控VACUUM的处理过程

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概览

PG的MVCC要求“过期”的数据不能马上被物理清除,而是标记为dead rows,这些dead rows后续会通过vacuuming过程清理。
vacuuming通过以下方式让数据库保持健康:
1.标记dead rows可用于存储新数据,这样可以避免不必要的磁盘浪费以及可以跳过dead rows以提升顺序扫描的性能;
2.更新vm(用于跟踪过期或已废弃的数据,反应在pages上)。这可以提升index-only scans的性能;
3.避免出现事务ID回卷失败。
PG提供了autovacuum机制,通过周期性的运行ANALYZE来收集最近频繁更新的数据表统计信息。

autovacuum日志信息

这一小节介绍了配置参数中与vacuum相关的参数,包括log_autovacuum_min_duration、autovacuum_naptime等。
log_autovacuum_min_duration
如autovacuum的执行时间超过了该参数配置的时间(ms为单位)则在日志中记录。
设置为较低的阈值:10ms

[pg12@localhost pg121db]$ grep 'log_autovacuum' postgresql.conf 
log_autovacuum_min_duration = 10  # -1 disables, 0 logs all actions and

执行SQL

[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# drop table t_autovacuum_1;
DROP TABLE
[local:/data/run/pg12]:5120 pg12@testdb=# create table t_autovacuum_1(id int,c1 varchar(20),c2 varchar(20));
CREATE TABLE
[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# insert into t_autovacuum_1 select x,'c1'||x,'c2'||x from generate_series(1,10000) as x;
INSERT 0 10000
[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# drop table t_big_autovacuum_1;
DROP TABLE
[local:/data/run/pg12]:5120 pg12@testdb=# create table t_big_autovacuum_1(id int,c1 varchar(20),c2 varchar(20));
CREATE TABLE
[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# insert into  t_big_autovacuum_1 select x,'c1'||x,'c2'||x from generate_series(1,1000000) as x;
INSERT 0 1000000
[local:/data/run/pg12]:5120 pg12@testdb=# 
[local:/data/run/pg12]:5120 pg12@testdb=# explain (analyze,verbose) select * from t_autovacuum_1 a join t_big_autovacuum_1 b on a.id = b.id;
                                                                       QUERY PLAN                                 
------------------------------------------------------------------------------------------------------------------
---------------------------------------
 Merge Join  (cost=63985.35..155911.33 rows=6068861 width=240) (actual time=480.678..492.453 rows=10000 loops=1)
   Output: a.id, a.c1, a.c2, b.id, b.c1, b.c2
   Merge Cond: (a.id = b.id)
   ->  Sort  (cost=301.37..310.03 rows=3465 width=120) (actual time=3.061..3.835 rows=10000 loops=1)
         Output: a.id, a.c1, a.c2
         Sort Key: a.id
         Sort Method: quicksort  Memory: 1213kB
         ->  Seq Scan on public.t_autovacuum_1 a  (cost=0.00..97.65 rows=3465 width=120) (actual time=0.020..1.796
 rows=10000 loops=1)
               Output: a.id, a.c1, a.c2
   ->  Materialize  (cost=63683.99..65435.46 rows=350295 width=120) (actual time=477.603..481.446 rows=10001 loops
=1)
         Output: b.id, b.c1, b.c2
         ->  Sort  (cost=63683.99..64559.72 rows=350295 width=120) (actual time=477.598..479.173 rows=10001 loops=
1)
               Output: b.id, b.c1, b.c2
               Sort Key: b.id
               Sort Method: external merge  Disk: 31144kB
               ->  Seq Scan on public.t_big_autovacuum_1 b  (cost=0.00..9871.95 rows=350295 width=120) (actual tim
e=0.019..176.859 rows=1000000 loops=1)
                     Output: b.id, b.c1, b.c2
 Planning Time: 0.315 ms
 Execution Time: 498.336 ms
(19 rows)
[local:/data/run/pg12]:5120 pg12@testdb=#

日志显示autovacuum的analyze操作

2019-12-11 12:31:48.655 CST,,,57525,,5df07134.e0b5,1,,2019-12-11 12:31:48 CST,4/3,3091,LOG,00000,"automatic analyze of table ""testdb.public.t_autovacuum_1"" system usage: CPU: user: 0.09 s, system: 0.00 s, elapsed: 0.10 s",,,,,,,,,""
2019-12-11 12:31:49.073 CST,,,57525,,5df07134.e0b5,2,,2019-12-11 12:31:48 CST,4/5,3092,LOG,00000,"automatic analyze of table ""testdb.public.t_big_autovacuum_1"" system usage: CPU: user: 0.32 s, system: 0.00 s, elapsed: 0.40 s",,,,,,,,,""

autovacuum_naptime
该参数控制autovacuum的调度时间,如有多个数据库,则每个数据库每隔一定的时间(autovacuum_naptime/数据库个数)启动autovacuum来进行处理。
从PG的源码可见,通过函数rebuild_database_list来构建出现变化后的DatabaseList,链表中的数据库应出现在pgstats中,在autovacuum_naptime所设定的时间间隔范围内均匀分布。
比如autovacuum_naptime = 60s,有4个数据库db1->db4,那么每隔60s/4就会有启动一个autovacuum worker对相应的DB进行处理。
可能的一个处理时间序列是:db1->XX(时):XX(分):18(秒),db4->XX:XX:33,db4->XX:XX:48,db4->XX:XX:03
后续如需要对db1->db4进行vacuum,那么db1->db4会在下一个18秒、33秒、48秒和03秒触发autovacuum。

测试场景:创建3个数据库,db1 -> db3,每个数据库每隔10s执行全表更新,通过日志观察autovacuum的行为。

-- session 1
\c db1
drop table t_autovacuum_db1;
create table t_autovacuum_db1(id int,c1 varchar(20),c2 varchar(20));
insert into t_autovacuum_db1 select x,'c1'||x,'c2'||x from generate_series(1,500000) as x;
do
$$
declare
begin
  for i in 1..20 loop
    update t_autovacuum_db1 set id = i;
    commit;
    perform pg_sleep(10);
  end loop;
end
$$;
-- session 2
\c db2
drop table t_autovacuum_db2;
create table t_autovacuum_db2(id int,c1 varchar(20),c2 varchar(20));
insert into t_autovacuum_db2 select x,'c1'||x,'c2'||x from generate_series(1,500000) as x;
do
$$
declare
begin
  for i in 1..20 loop
    update t_autovacuum_db2 set id = i;
    commit;
    perform pg_sleep(10);
  end loop;
end
$$;
-- session 3
\c db3
drop table t_autovacuum_db3;
create table t_autovacuum_db3(id int,c1 varchar(20),c2 varchar(20));
insert into t_autovacuum_db3 select x,'c1'||x,'c2'||x from generate_series(1,500000) as x;
do
$$
declare
begin
  for i in 1..20 loop
    update t_autovacuum_db3 set id = i;
    commit;
    perform pg_sleep(10);
  end loop;
end
$$;

对应的日志输出

2019-12-11 15:34:05.298 CST,,,1870,,5df09bec.74e,1,,2019-12-11 15:34:04 CST,6/37,3406,LOG,00000,"automatic analyze of table ""db2.public.t_autovacuum_db2"" system usage: CPU: user: 0.38 s, system: 0.01 s, elapsed: 0.52 s",,,,,,,,,""
2019-12-11 15:34:20.528 CST,,,1884,,5df09bfb.75c,1,,2019-12-11 15:34:19 CST,6/41,3412,LOG,00000,"automatic analyze of table ""db1.public.t_autovacuum_db1"" system usage: CPU: user: 0.51 s, system: 0.01 s, elapsed: 0.71 s",,,,,,,,,""
2019-12-11 15:34:35.482 CST,,,1897,,5df09c0a.769,1,,2019-12-11 15:34:34 CST,6/45,3416,LOG,00000,"automatic analyze of table ""db3.public.t_autovacuum_db3"" system usage: CPU: user: 0.40 s, system: 0.01 s, elapsed: 0.61 s",,,,,,,,,""
2019-12-11 15:35:05.904 CST,,,1924,,5df09c28.784,1,,2019-12-11 15:35:04 CST,6/51,0,LOG,00000,"automatic vacuum of table ""db2.public.t_autovacuum_db2"": index scans: 0
pages: 0 removed, 25467 remain, 0 skipped due to pins, 0 skipped frozen
tuples: 500149 removed, 500000 remain, 0 are dead but not yet removable, oldest xmin: 3422
buffer usage: 50964 hits, 2 misses, 6 dirtied
avg read rate: 0.015 MB/s, avg write rate: 0.044 MB/s
system usage: CPU: user: 0.43 s, system: 0.00 s, elapsed: 1.07 s",,,,,,,,,""
2019-12-11 15:35:21.297 CST,,,1937,,5df09c37.791,1,,2019-12-11 15:35:19 CST,6/55,0,LOG,00000,"automatic vacuum of table ""db1.public.t_autovacuum_db1"": index scans: 0
pages: 0 removed, 31832 remain, 0 skipped due to pins, 0 skipped frozen
tuples: 500270 removed, 500000 remain, 0 are dead but not yet removable, oldest xmin: 3427
buffer usage: 63695 hits, 2 misses, 6 dirtied
avg read rate: 0.010 MB/s, avg write rate: 0.031 MB/s
system usage: CPU: user: 0.51 s, system: 0.04 s, elapsed: 1.52 s",,,,,,,,,""
2019-12-11 15:35:36.250 CST,,,1950,,5df09c46.79e,1,,2019-12-11 15:35:34 CST,6/59,0,LOG,00000,"automatic vacuum of table ""db3.public.t_autovacuum_db3"": index scans: 0
pages: 0 removed, 29875 remain, 1 skipped due to pins, 0 skipped frozen
tuples: 270 removed, 499874 remain, 0 are dead but not yet removable, oldest xmin: 3430
buffer usage: 59780 hits, 2 misses, 6 dirtied
avg read rate: 0.011 MB/s, avg write rate: 0.034 MB/s
system usage: CPU: user: 0.43 s, system: 0.03 s, elapsed: 1.38 s",,,,,,,,,""
2019-12-11 15:38:07.146 CST,,,2081,,5df09cdc.821,1,,2019-12-11 15:38:04 CST,6/81,0,LOG,00000,"automatic vacuum of table ""db2.public.t_autovacuum_db2"": index scans: 0
pages: 0 removed, 44551 remain, 0 skipped due to pins, 0 skipped frozen
tuples: 500509 removed, 500000 remain, 0 are dead but not yet removable, oldest xmin: 3463
buffer usage: 89140 hits, 1 misses, 5 dirtied
avg read rate: 0.003 MB/s, avg write rate: 0.017 MB/s
system usage: CPU: user: 0.58 s, system: 0.11 s, elapsed: 2.28 s",,,,,,,,,""
2019-12-11 15:38:07.963 CST,,,2081,,5df09cdc.821,2,,2019-12-11 15:38:04 CST,6/82,3463,LOG,00000,"automatic analyze of table ""db2.public.t_autovacuum_db2"" system usage: CPU: user: 0.38 s, system: 0.00 s, elapsed: 0.81 s",,,,,,,,,""
2019-12-11 15:38:25.836 CST,,,2094,,5df09ceb.82e,1,,2019-12-11 15:38:19 CST,6/86,0,LOG,00000,"automatic vacuum of table ""db1.public.t_autovacuum_db1"": index scans: 0
pages: 0 removed, 38185 remain, 0 skipped due to pins, 0 skipped frozen
tuples: 500585 removed, 500000 remain, 0 are dead but not yet removable, oldest xmin: 3464
buffer usage: 76407 hits, 1 misses, 15391 dirtied
avg read rate: 0.001 MB/s, avg write rate: 19.978 MB/s
system usage: CPU: user: 0.66 s, system: 0.03 s, elapsed: 6.01 s",,,,,,,,,""
2019-12-11 15:38:26.593 CST,,,2094,,5df09ceb.82e,2,,2019-12-11 15:38:19 CST,6/87,3464,LOG,00000,"automatic analyze of table ""db1.public.t_autovacuum_db1"" system usage: CPU: user: 0.35 s, system: 0.00 s, elapsed: 0.75 s",,,,,,,,,""
2019-12-11 15:38:36.546 CST,,,2107,,5df09cfa.83b,1,,2019-12-11 15:38:34 CST,6/91,0,LOG,00000,"automatic vacuum of table ""db3.public.t_autovacuum_db3"": index scans: 0
pages: 0 removed, 41365 remain, 0 skipped due to pins, 0 skipped frozen
tuples: 500758 removed, 500000 remain, 0 are dead but not yet removable, oldest xmin: 3465
buffer usage: 82768 hits, 1 misses, 2 dirtied
avg read rate: 0.005 MB/s, avg write rate: 0.010 MB/s
system usage: CPU: user: 0.58 s, system: 0.03 s, elapsed: 1.63 s",,,,,,,,,""
2019-12-11 15:38:37.276 CST,,,2107,,5df09cfa.83b,2,,2019-12-11 15:38:34 CST,6/92,3465,LOG,00000,"automatic analyze of table ""db3.public.t_autovacuum_db3"" system usage: CPU: user: 0.37 s, system: 0.00 s, elapsed: 0.72 s",,,,,,,,,""

从日志可见,PG认为目前有4个数据库(60s/4)需要处理,每个15s调度一个数据库。

感谢各位的阅读,以上就是“PostgreSQL中如何监控VACUUM的处理过程”的内容了,经过本文的学习后,相信大家对PostgreSQL中如何监控VACUUM的处理过程这一问题有了更深刻的体会,具体使用情况还需要大家实践验证。这里是创新互联,小编将为大家推送更多相关知识点的文章,欢迎关注!


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