作者简介:
中国比较早的postgresql使用者,2001年就开始使用postgresql,自2003年底至2014年一直担任PGSQL中国社区论坛PostgreSQL的论坛板块版主、管理员,参与Postgresql讨论和发表专题文章7000多贴.拥有15年的erp设计,开发和实施经验,开源mrp系统PostMRP就是我的作品,该应用软件是一套基于Postgresql专业的制造业管理软件系统.目前任职于--中国第一物流控股有限公司/运力宝(北京)科技有限公司,为公司的研发部经理
一、 测试环境
操作系统:CentOS 6.4
Postgresql版本号:10.0
CPU:Intel(R) Xeon(R) CPU E5-2407 v2 @ 2.40GHz 4核心 4线程
内存:32G
硬盘:2T SAS 7200
二、 编译安装PostgreSQL 10
--编译安装及初始化
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[root@ad source ] # git clone git://git.postgresql.org/git/postgresql.git [root@ad source ] # cd postgresql [root@ad source ] # ./configure --prefix=/usr/local/pgsql10 [root@ad postgresql] # gmake -j 4 [root@ad postgresql] # gmake install [root@ad postgresql] # su postgres [postgres@ad postgresql] # /usr/local/pgsql10/bin/initdb --no-locale -E utf8 -D /home/postgres/data10/ -U postgres |
--修改一些参数
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postgresql.conf listen_addresses = '*' port = 10000 shared_buffers = 8096MB maintenance_work_mem = 512MB effective_cache_size = 30GB log_destination = 'csvlog' logging_collector = on log_directory = 'log' log_filename = 'postgresql-%Y-%m-%d_%H%M%S.log' log_file_mode = 0600 log_checkpoints = off log_connections = off log_disconnections = off log_duration = off log_line_prefix = '%m %h %a %u %d %x [%p] ' log_statement = 'none' log_timezone = 'PRC' track_activity_query_size = 4096 max_wal_size = 32GB min_wal_size = 2GB checkpoint_completion_target = 0.5 |
pg_hba.conf增加许可条目
host all all 192.168.1.0/24 trust
--启动服务
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[postgres@ad data10]$ /usr/local/pgsql10/bin/pg_ctl start -D /home/postgres/data10/ --连接数据库 [postgres@ad data10]$ /usr/local/pgsql10/bin/psql -p 10000 -U postgres -h 127.0.0.1 -d postgres psql (10devel) Type "help" for help. postgres= # |
PostgreSQL的分区表跟先前版本一样,也要先建立主表,然后再建立子表,使用继承的特性,但不需要手工写规则了,这个比较赞阿。目前支持range、list分区,10正式版本发布时不知会不会支持其它方法。
range分区表
1、分区主表
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create table order_range(id bigserial not null ,userid integer ,product text, createdate date ) partition by range ( createdate ); |
分区主表不能建立全局约束,使用partition by range(xxx)说明分区的方式,xxx可以是多个字段,表达式……,具体见https://www.postgresql.org/docs/devel/static/sql-createtable.html
2、分区子表
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create table order_range(id bigserial not null ,userid integer ,product text, createdate date not null ) partition by range ( createdate ); create table order_range_201701 partition of order_range(id primary key ,userid,product, createdate) for values from ( '2017-01-01' ) to ( '2017-02-01' ); create table order_range_201702 partition of order_range(id primary key ,userid,product, createdate) for values from ( '2017-02-01' ) to ( '2017-03-01' ); |
- 说明:
- 建立分区表时必需指定主表。
- 分区表和主表的 列数量,定义 必须完全一致。
- 分区表的列可以单独增加Default值,或约束。
- 当用户向主表插入数据库时,系统自动路由到对应的分区,如果没有找到对应分区,则抛出错误。
- 指定分区约束的值(范围,LIST值),范围,LIST不能重叠,重叠的路由会卡壳。
- 指定分区的列必需设置成not null,如建立主表时没设置系统会自动加上。
- Range分区范围为 >=最小值 and <最大值……
- 不支持通过更新的方法把数据从一个区移动到另外一个区,这样做会报错。如果要这样做的话需要删除原来的记录,再INSERT一条新的记录。
- 修改主表的字段名,字段类型时,会自动同时修改所有的分区。
- TRUNCATE 主表时,会清除所有继承表分区的记录,如果要清除单个分区,请对分区进行操作。
- DROP主表时会把所有子表一起给DROP掉,如果drop单个分区,请对分区进行操作。
- 使用psql能查看分区表的详细定义。
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postgres=# \d+ order_range Table "public.order_range" Column | Type | Collation | Nullable | Default | Storage | Stats target | Description ------------+---------+-----------+----------+-----------------------------------------+----------+--------------+------------- id | bigint | | not null | nextval( 'order_range_id_seq' ::regclass) | plain | | userid | integer | | | | plain | | product | text | | | | extended | | createdate | date | | not null | | plain | | Partition key : RANGE (createdate) Partitions: order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ), order_range_201702 FOR VALUES FROM ( '2017-02-01' ) TO ( '2017-03-01' ) postgres=# |
list分区表
1、分区主表
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create table order_list(id bigserial not null ,userid integer ,product text,area text, createdate date ) partition by list( area ); |
2、分区子表
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create table order_list_gd partition of order_list(id primary key ,userid,product,area,createdate) for values in ( '广东' ); create table order_list_bj partition of order_list(id primary key ,userid,product,area,createdate) for values in ( '北京' ); |
多级分区表
先按地区分区,再按日期分区
1、主表
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create table order_range_list(id bigserial not null ,userid integer ,product text,area text, createdate date ) partition by list ( area ); |
2、一级分区表
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create table order_range_list_gd partition of order_range_list for values in ( '广东' ) partition by range(createdate); create table order_range_list_bj partition of order_range_list for values in ( '北京' ) partition by range(createdate); |
3、二级分区表
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create table order_range_list_gd_201701 partition of order_range_list_gd(id primary key ,userid,product,area,createdate) for values from ( '2017-01-01' ) to ( '2017-02-01' ); create table order_range_list_gd_201702 partition of order_range_list_gd(id primary key ,userid,product,area,createdate) for values from ( '2017-02-01' ) to ( '2017-03-01' ); create table order_range_list_bj_201701 partition of order_range_list_bj(id primary key ,userid,product,area,createdate) for values from ( '2017-01-01' ) to ( '2017-02-01' ); create table order_range_list_bj_201702 partition of order_range_list_bj(id primary key ,userid,product,area,createdate) for values from ( '2017-02-01' ) to ( '2017-03-01' ); |
直接操作分区也要受分区规则的约束
postgres=# insert into order_range_201702 (id,userid,product,createdate) values(1,
(random()::numeric(7,6)*1000000)::integer,md5(random()::text),('2017-01-01'));
ERROR: new row for relation "order_range_201702" violates partition constraint
DETAIL: Failing row contains (1, 322345, 51a9357a78416d11a018949a42dd2f8d, 2017-01-01).
INSERT提示违反了分区约束
postgres=# update order_range_201701 set createdate='2017-02-01' where createdate='2017-01-17';
ERROR: new row for relation "order_range_201701" violates partition constraint
DETAIL: Failing row contains (1, 163357, 7e8fbe7b632a54ba1ec401d969f3259a, 2017-02-01).
UPDATE提示违反了分区约束
如果分区表是外部表,则约束失效,后面有介绍
使用ALTER TABLE xxx ATTACH[DETACH] PARTITION 增加或删除分区
1、移除分区
录入2条测试数据
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postgres=# insert into order_range (userid,product,createdate) values ((random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' :: date + (random()*31):: integer )); INSERT 0 1 Time : 25.006 ms postgres=# insert into order_range (userid,product,createdate) values ((random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' :: date + (random()*31):: integer )); INSERT 0 1 Time : 7.601 ms postgres=# select * from order_range; id | userid | product | createdate ----+--------+----------------------------------+------------ 1 | 163357 | 7e8fbe7b632a54ba1ec401d969f3259a | 2017-01-17 2 | 349759 | 8095c9036295d3c800dace9069f9c102 | 2017-01-27 (2 rows ) |
删除分区
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postgres=# alter table order_range detach partition order_range_201701; ALTER TABLE Time : 14.129 ms |
查看确认分区没了
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postgres=# \d+ order_range; Table "public.order_range" Column | Type | Collation | Nullable | Default | Storage | Stats target | Description ------------+---------+-----------+----------+-----------------------------------------+----------+--------------+------------- id | bigint | | not null | nextval( 'order_range_id_seq' ::regclass) | plain | | userid | integer | | | | plain | | product | text | | | | extended | | createdate | date | | not null | | plain | | Partition key : RANGE (createdate) Partitions: order_range_201702 FOR VALUES FROM ( '2017-02-01' ) TO ( '2017-03-01' ) postgres=# |
数据也查不出来了
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postgres=# select * from order_range; id | userid | product | createdate ----+--------+---------+------------ (0 rows ) Time : 0.505 ms |
但分区表还在
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postgres=# select * from order_range_201701; id | userid | product | createdate ----+--------+----------------------------------+------------ 1 | 163357 | 7e8fbe7b632a54ba1ec401d969f3259a | 2017-01-17 2 | 349759 | 8095c9036295d3c800dace9069f9c102 | 2017-01-27 (2 rows ) Time : 0.727 ms |
2、添加分区
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postgres=# alter table order_range attach partition order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ); ERROR: column "createdate" in child table must be marked NOT NULL Time : 0.564 ms |
增加子表里,约束需要与主表一致
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postgres=# alter table order_range_201701 alter column createdate set not null ; ALTER TABLE Time : 17.345 ms postgres=# alter table order_range attach partition order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-01-15' ); ERROR: partition constraint is violated by some row Time : 1.276 ms |
加回来时可以修改其约束范围,但数据必需在约束的规则范围内
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postgres=# alter table order_range attach partition order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ); ALTER TABLE Time : 18.407 ms |
分区表又加回来了
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postgres=# \d+ order_range Table "public.order_range" Column | Type | Collation | Nullable | Default | Storage | Stats target | Description ------------+---------+-----------+----------+-----------------------------------------+----------+--------------+------------- id | bigint | | not null | nextval( 'order_range_id_seq' ::regclass) | plain | | userid | integer | | | | plain | | product | text | | | | extended | | createdate | date | | not null | | plain | | Partition key : RANGE (createdate) Partitions: order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ), order_range_201702 FOR VALUES FROM ( '2017-02-01' ) TO ( '2017-03-01' ) postgres=# select * from order_range; id | userid | product | createdate ----+--------+----------------------------------+------------ 1 | 163357 | 7e8fbe7b632a54ba1ec401d969f3259a | 2017-01-17 2 | 349759 | 8095c9036295d3c800dace9069f9c102 | 2017-01-27 (2 rows ) Time : 0.627 ms |
添加外部表作为分区表
--增加一个新库,建立需要的外部表
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[postgres@ad root]$ /usr/ local /pgsql10/bin/psql -p 10000 -U postgres -h 127.0.0.1 -d postgres psql (10devel) Type "help" for help. #建立数据库 postgres=# create database postgres_fdw; CREATE DATABASE postgres_fdw=# create table order_range_fdw(id bigserial not null ,userid integer ,product text, createdate date not null ); CREATE TABLE postgres_fdw=# #录入一条测试数据 postgres_fdw=# insert into order_range_fdw (userid,product,createdate) values ((random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' :: date - (random()*31):: integer )); INSERT 0 1 postgres_fdw=# select * from order_range_fdw; id | userid | product | createdate ----+--------+----------------------------------+------------ 2 | 300686 | 55956a07742d6aebdef7ebb78c2400d7 | 2016-12-22 (1 row) |
--在postgres库中增加外部表order_range_fdw
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[postgres@ad root]$ /usr/ local /pgsql10/bin/psql -p 10000 -U postgres -h 127.0.0.1 -d postgres psql (10devel) Type "help" for help. #增加postgres_fdw模块 postgres=# create extension postgres_fdw; CREATE EXTENSION #建立外部服务器 postgres=# CREATE SERVER foreign_server FOREIGN DATA WRAPPER postgres_fdw OPTIONS (host '192.168.1.10' , port '10000' , dbname 'postgres_fdw' ); CREATE SERVER #建立外部服务器用户标识 postgres=# CREATE USER MAPPING FOR postgres postgres-# SERVER foreign_server postgres-# OPTIONS ( user 'postgres' , password '' ); CREATE USER MAPPING #建立外部表 postgres=# CREATE FOREIGN TABLE order_range_fdw ( postgres(# id bigint not null , postgres(# userid integer , postgres(# product text, postgres(# createdate date not null postgres(# ) postgres-# SERVER foreign_server postgres-# OPTIONS (schema_name 'public' , table_name 'order_range_fdw' ); CREATE FOREIGN TABLE #查询数据 postgres=# select * from order_range_fdw; id | userid | product | createdate ----+--------+----------------------------------+------------ 2 | 300686 | 55956a07742d6aebdef7ebb78c2400d7 | 2016-12-22 (1 row) --将外部表作为分区表添加到order_range下 #添加分区表 postgres=# alter table order_range attach partition order_range_fdw FOR VALUES FROM ( '1900-01-01' ) TO ( '2017-01-01' ); ALTER TABLE #查看order_range下的所有分区表 postgres=# \d+ order_range Table "public.order_range" Column | Type | Collation | Nullable | Default | Storage | Stats target | Description ------------+---------+-----------+----------+-----------------------------------------+----------+--------------+------------- id | bigint | | not null | nextval( 'order_range_id_seq' ::regclass) | plain | | userid | integer | | | | plain | | product | text | | | | extended | | createdate | date | | not null | | plain | | Partition key : RANGE (createdate) Partitions: order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ), order_range_201702 FOR VALUES FROM ( '2017-02-01' ) TO ( '2017-03-01' ), order_range_fdw FOR VALUES FROM ( '1900-01-01' ) TO ( '2017-01-01' ) #查询数据 postgres=# select * from order_range where createdate< '2017-01-01' ; id | userid | product | createdate ----+--------+----------------------------------+------------ 2 | 300686 | 55956a07742d6aebdef7ebb78c2400d7 | 2016-12-22 (1 row) #查看执行计划 postgres=# explain select * from order_range where createdate< '2017-01-01' ; QUERY PLAN -------------------------------------------------------------------------------- Append (cost=100.00..131.79 rows =379 width=48) -> Foreign Scan on order_range_fdw (cost=100.00..131.79 rows =379 width=48) (2 rows ) #测试看看能不能更新数据 postgres=# insert into order_range (userid,product,createdate) values ((random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' :: date - (random()*31):: integer )); ERROR: cannot route inserted tuples to a foreign table postgres=# update order_range set createdate= '2016-12-01' where createdate= '2016-12-22' ; UPDATE 1 postgres=# select * from order_range where createdate< '2017-01-01' ; id | userid | product | createdate ----+--------+----------------------------------+------------ 2 | 300686 | 55956a07742d6aebdef7ebb78c2400d7 | 2016-12-01 (1 row) postgres=# delete from order_range where createdate= '2016-12-01' ; DELETE 1 postgres=# select * from order_range where createdate< '2017-01-01' ; id | userid | product | createdate ----+--------+---------+------------ (0 rows ) postgres=# |
插入数据时竟然不能路由到外部表,这个是处于什么考虑呢???,源码中只是提示 /* We do not yet have a way to insert into a foreign partition */
还没有办法这样做,猜猜后面的版本应该能实现
下面再说说使用外部表作为分区表还有一些问题
1、无法约束向分区表插入约束外的数据,如下所示
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postgres=# \d+ order_range Table "public.order_range" Column | Type | Collation | Nullable | Default | Storage | Stats target | Description ------------+---------+-----------+----------+-----------------------------------------+----------+--------------+------------- id | bigint | | not null | nextval( 'order_range_id_seq' ::regclass) | plain | | userid | integer | | | | plain | | product | text | | | | extended | | createdate | date | | not null | | plain | | Partition key : RANGE (createdate) Partitions: order_range_201701 FOR VALUES FROM ( '2017-01-01' ) TO ( '2017-02-01' ), order_range_201702 FOR VALUES FROM ( '2017-02-01' ) TO ( '2017-03-01' ), order_range_fdw FOR VALUES FROM ( '1900-01-01' ) TO ( '2017-01-01' ) postgres=# postgres=# insert into order_range_fdw (id,userid,product,createdate) values (1, (random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' )); INSERT 0 1 postgres=# select * from order_range; id | userid | product | createdate ----+--------+----------------------------------+------------ 1 | 163357 | 7e8fbe7b632a54ba1ec401d969f3259a | 2017-01-17 2 | 349759 | 8095c9036295d3c800dace9069f9c102 | 2017-01-27 1 | 621895 | 5546c6e2a7006b52b5c2df55e19b3759 | 2017-02-01 4 | 313019 | 445316004208e09fb4e7eda2bf5b0865 | 2017-01-01 1 | 505836 | 6e9232c4863c82a2e97b9157996572ea | 2017-01-01 (5 rows ) postgres=# select * from order_range where createdate = '2017-01-01' ; id | userid | product | createdate ----+--------+---------+------------ (0 rows ) |
如果这样操作会导致数据查询出现不匹配。
2、sql执行时无法下推
Sql执行无法下推的话对于聚集函数的执行存在很大的性能问题,使用时一定要特别的注意,如下所示
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postgres=# delete from order_range_fdw; DELETE 1 postgres=# insert into order_range_fdw (id,userid,product,createdate) values (1, (random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2016-01-01' )); INSERT 0 1 postgres=# insert into order_range_fdw (id,userid,product,createdate) values (1, (random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2016-02-01' )); INSERT 0 1 #访问order_range,基执行是 postgres=# explain analyze select count (1) from order_range where createdate< '2017-01-01' ; QUERY PLAN ------------------------------------------------------------------------------------------ Aggregate (cost=178.27..178.28 rows =1 width=8) (actual time =0.656..0.656 rows =1 loops=1) -> Append (cost=100.00..175.42 rows =1138 width=0) (actual time =0.647..0.649 rows =2 loops=1) -> Foreign Scan on order_range_fdw (cost=100.00..175.42 rows =1138 width=0) (actual time =0.647..0.648 rows =2 loops=1) Planning time : 0.267 ms Execution time : 1.122 ms (5 rows ) #直接访问外部表 postgres=# explain analyze select count (1) from order_range_fdw where createdate< '2017-01-01' ; QUERY PLAN ------------------------------------------------------------------------------------------- Foreign Scan (cost=102.84..155.54 rows =1 width=8) (actual time =0.661..0.662 rows =1 loops=1) Relations: Aggregate on ( public .order_range_fdw) Planning time : 0.154 ms Execution time : 1.051 ms (4 rows ) |
3、sql查询需要访问的分区表中包含了“外部分区表”和“非外部分区表”时, 无法使用Parallel Seq Scan,如下所示
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#插入100W数据到分区表中 postgres=# insert into order_range (userid,product,createdate) SELECT (random():: numeric (7,6)*1000000):: integer ,md5(random()::text),( '2017-01-01' :: date + (random()*58):: integer ) from generate_series(1,1000000); INSERT 0 1000000 #访问所有的分区表 postgres=# explain select count (1) from order_range; QUERY PLAN --------------------------------------------------------------------------------------- Aggregate (cost=24325.22..24325.23 rows =1 width=8) -> Append (cost=0.00..21558.23 rows =1106797 width=0) -> Seq Scan on order_range_201701 (cost=0.00..11231.82 rows =580582 width=0) -> Seq Scan on order_range_201702 (cost=0.00..10114.02 rows =522802 width=0) -> Foreign Scan on order_range_fdw (cost=100.00..212.39 rows =3413 width=0) (5 rows ) #只访问“非外部分区表” postgres=# explain select count (1) from order_range where createdate>= '2017-01-01' ; QUERY PLAN ------------------------------------------------------------------------------------- Finalize Aggregate (cost=17169.84..17169.85 rows =1 width=8) -> Gather (cost=17169.62..17169.83 rows =2 width=8) Workers Planned: 2 -> Partial Aggregate (cost=16169.62..16169.63 rows =1 width=8) -> Append (cost=0.00..15803.52 rows =146440 width=0) -> Parallel Seq Scan on order_range_201701 (cost=0.00..8449.86 rows =80636 width=0) Filter: (createdate >= '2017-01-01' :: date ) -> Parallel Seq Scan on order_range_201702 (cost=0.00..7353.66 rows =65804 width=0) Filter: (createdate >= '2017-01-01' :: date ) (9 rows ) postgres=# |
外部分区表的应用场景
将业务库上的不再修改的冷数全部分离到另一个节点上面,然后做为外部分区表挂上来。这样可以保持业务库的容量尽可以的轻,同时也不会对业务有侵入,这一点是非常的友好。但要注意Sql执行无法下推的问题,无法使用Parallel Seq Scan问题。
如果在后面版本中能解决fdw partition insert路由问题和sql语句执行下推问题那么就可以拿来做olap应用了。
四、建立测试业务表
下面模似一个用户收支流水表
--非分区表
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create table t_pay_all (id serial not null primary key ,userid integer not null ,pay_money float8 not null ,createdate date not null ); create index t_pay_all_userid_idx on t_pay_all using btree(userid); create index t_pay_all_createdate_idx on t_pay_all using btree(createdate); |
--分区表
生成12个分区,一个月份一个表
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create table t_pay (id serial not null ,userid integer not null ,pay_money float8 not null ,createdate date not null ) partition by range (createdate); create table t_pay_201701 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-01-01' ) to ( '2017-02-01' ); create index t_pay_201701_createdate_idx on t_pay_201701 using btree(createdate); create index t_pay_201701_userid_idx on t_pay_201701 using btree(userid); create table t_pay_201702 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-02-01' ) to ( '2017-03-01' ); create index t_pay_201702_createdate_idx on t_pay_201702 using btree(createdate); create index t_pay_201702_userid_idx on t_pay_201702 using btree(userid); create table t_pay_201703 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-03-01' ) to ( '2017-04-01' ); create index t_pay_201703_createdate_idx on t_pay_201703 using btree(createdate); create index t_pay_201703_userid_idx on t_pay_201703 using btree(userid); create table t_pay_201704 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-04-01' ) to ( '2017-05-01' ); create index t_pay_201704_createdate_idx on t_pay_201704 using btree(createdate); create index t_pay_201704_userid_idx on t_pay_201704 using btree(userid); create table t_pay_201705 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-05-01' ) to ( '2017-06-01' ); create index t_pay_201705_createdate_idx on t_pay_201705 using btree(createdate); create index t_pay_201705_userid_idx on t_pay_201705 using btree(userid); create table t_pay_201706 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-06-01' ) to ( '2017-07-01' ); create index t_pay_201706_createdate_idx on t_pay_201706 using btree(createdate); create index t_pay_201706_userid_idx on t_pay_201706 using btree(userid); create table t_pay_201707 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-07-01' ) to ( '2017-08-01' ); create index t_pay_201707_createdate_idx on t_pay_201707 using btree(createdate); create index t_pay_201707_userid_idx on t_pay_201707 using btree(userid); create table t_pay_201708 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-08-01' ) to ( '2017-09-01' ); create index t_pay_201708_createdate_idx on t_pay_201708 using btree(createdate); create index t_pay_201708_userid_idx on t_pay_201708 using btree(userid); create table t_pay_201709 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-09-01' ) to ( '2017-10-01' ); create index t_pay_201709_createdate_idx on t_pay_201709 using btree(createdate); create index t_pay_201709_userid_idx on t_pay_201709 using btree(userid); create table t_pay_201710 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-10-01' ) to ( '2017-11-01' ); create index t_pay_201710_createdate_idx on t_pay_201710 using btree(createdate); create index t_pay_201710_userid_idx on t_pay_201710 using btree(userid); create table t_pay_201711 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-11-01' ) to ( '2017-12-01' ); create index t_pay_201711_createdate_idx on t_pay_201711 using btree(createdate); create index t_pay_201711_userid_idx on t_pay_201711 using btree(userid); create table t_pay_201712 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2017-12-01' ) to ( '2018-01-01' ); create index t_pay_201712_createdate_idx on t_pay_201712 using btree(createdate); create index t_pay_201712_userid_idx on t_pay_201712 using btree(userid); |
五、性能测试
数据导入
--生成测试数据1000W条记录(尽可能平均分布)
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postgres=# copy (select (random()::numeric(7,6)*1000000)::integer as userid,round((random()*100)::numeric,2) as pay_money,('2017-01-01'::date+ (random()*364)::integer) as createtime from generate_series(1,10000000)) to '/home/pg/data.txt'; COPY 10000000 Time: 42674.548 ms (00:42.675) |
--非分区表数据导入测试
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postgres=# copy t_pay_all(userid,pay_money,createdate) from '/home/pg/data.txt'; COPY 10000000 Time: 114258.743 ms (01:54.259) |
--分区表数据导入测试
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postgres=# copy t_pay(userid,pay_money,createdate) from '/home/pg/data.txt'; COPY 10000000 Time: 186358.447 ms (03:06.358) postgres=# |
结论:数据导入时性能相差大约是一半,所以大数据量导入时最好直接导成分区表数据,然后直接对分区表进行操作
查询某一天的数据--直接从cache里取数据
--非分区表
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postgres=# explain (analyze,buffers) select * from t_pay_all where createdate ='2017-06-01'; QUERY PLAN ------------------------------------------------------------------------------------------- Bitmap Heap Scan on t_pay_all (cost=592.06..50797.88 rows=27307 width=20) (actual time=14.544..49.039 rows=27384 loops=1) Recheck Cond: (createdate = '2017-06-01'::date) Heap Blocks: exact=22197 Buffers: shared hit=22289 -> Bitmap Index Scan on t_pay_all_createdate_idx (cost=0.00..585.24 rows=27307 width=0) (actual time=7.121..7.121 rows=27384 loops=1) Index Cond: (createdate = '2017-06-01'::date) Buffers: shared hit=92 Planning time: 0.153 ms Execution time: 51.583 ms (9 rows) Time: 52.272 ms |
--分区表
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postgres=# explain (analyze,buffers) select * from t_pay where createdate = '2017-06-01' ; QUERY PLAN ---------------------------------------------------------------------------------------------- Append (cost=608.92..6212.11 rows =27935 width=20) (actual time =4.880..27.032 rows =27384 loops=1) Buffers: shared hit=5323 -> Bitmap Heap Scan on t_pay_201706 (cost=608.92..6212.11 rows =27935 width=20) (actual time =4.879..21.990 rows =27384 loops=1) Recheck Cond: (createdate = '2017-06-01' :: date ) Heap Blocks: exact=5226 Buffers: shared hit=5323 -> Bitmap Index Scan on t_pay_201706_createdate_idx (cost=0.00..601.94 rows =27935 width=0) (actual time =3.399..3.399 rows =27384 loops=1) Index Cond: (createdate = '2017-06-01' :: date ) Buffers: shared hit=97 Planning time : 0.521 ms Execution time : 30.061 ms (11 rows ) |
结论:分区表的Planning time时间明显比非分区表要高,但比起Execution time基本可以忽略。
查询某个时间范围的数据
1、时间范围落在同一个分区内
--非分区表
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postgres=# explain (analyze,buffers) select * from t_pay_all where createdate >= '2017-06-01' AND createdate< '2017-07-01' ; QUERY PLAN ------------------------------------------------------------------------------------------ Bitmap Heap Scan on t_pay_all (cost=19802.01..95862.00 rows =819666 width=20) (actual time =115.210..459.547 rows =824865 loops=1) Recheck Cond: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Heap Blocks: exact=63701 Buffers: shared read =66578 -> Bitmap Index Scan on t_pay_all_createdate_idx (cost=0.00..19597.10 rows =819666 width=0) (actual time =101.453..101.453 rows =825865 loops=1) Index Cond: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared read =2877 Planning time : 0.166 ms Execution time : 504.297 ms (9 rows ) Time : 505.021 ms postgres=# explain (analyze,buffers) select count (1) from t_pay_all where createdate >= '2017-06-01' AND createdate< '2017-07-01' ; QUERY PLAN ---------------------------------------------------------------------------------------------- Finalize Aggregate (cost=90543.96..90543.97 rows =1 width=8) (actual time =335.334..335.335 rows =1 loops=1) Buffers: shared hit=351 read =66593 -> Gather (cost=90543.74..90543.95 rows =2 width=8) (actual time =334.988..335.327 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 Buffers: shared hit=351 read =66593 -> Partial Aggregate (cost=89543.74..89543.75 rows =1 width=8) (actual time =330.796..330.797 rows =1 loops=3) Buffers: shared read =66578 -> Parallel Bitmap Heap Scan on t_pay_all (cost=19802.01..88689.92 rows =341528 width=0) (actual time =124.126..303.125 rows =274955 loops=3) Recheck Cond: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Heap Blocks: exact=25882 Buffers: shared read =66578 -> Bitmap Index Scan on t_pay_all_createdate_idx (cost=0.00..19597.10 rows =819666 width=0) (actual time =111.233..111.233 rows =825865 loops=1) Index Cond: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared read =2877 Planning time : 0.213 ms Execution time : 344.013 ms (17 rows ) Time : 344.759 ms postgres=# |
--分区表
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postgres=# explain (analyze,buffers) select * from t_pay where createdate >= '2017-06-01' AND createdate< '2017-07-01' ; QUERY PLAN ------------------------------------------------------------------------------------------- Append (cost=0.00..17633.97 rows =824865 width=20) (actual time =0.020..272.926 rows =824865 loops=1) Buffers: shared hit=5261 -> Seq Scan on t_pay_201706 (cost=0.00..17633.97 rows =824865 width=20) (actual time =0.019..170.128 rows =824865 loops=1) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared hit=5261 Planning time : 0.779 ms Execution time : 335.351 ms (7 rows ) Time : 336.676 ms postgres=# explain (analyze,buffers) select count (1) from t_pay where createdate >= '2017-06-01' AND createdate< '2017-07-01' ; QUERY PLAN -------------------------------------------------------------------------------------------- Finalize Aggregate (cost=12275.86..12275.87 rows =1 width=8) (actual time =144.023..144.023 rows =1 loops=1) Buffers: shared hit=5429 -> Gather (cost=12275.64..12275.85 rows =2 width=8) (actual time =143.966..144.016 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 Buffers: shared hit=5429 -> Partial Aggregate (cost=11275.64..11275.65 rows =1 width=8) (actual time =140.230..140.230 rows =1 loops=3) Buffers: shared hit=5261 -> Append (cost=0.00..10416.41 rows =343694 width=0) (actual time =0.022..106.973 rows =274955 loops=3) Buffers: shared hit=5261 -> Parallel Seq Scan on t_pay_201706 (cost=0.00..10416.41 rows =343694 width=0) (actual time =0.020..68.952 rows =274955 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared hit=5261 Planning time : 0.760 ms Execution time : 145.289 ms (15 rows ) Time : 146.610 ms |
在同一个分区内查询优势明显
2、不在同一个分区内
--非分区表
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postgres=# explain (analyze,buffers) select count (1) from t_pay_all where createdate >= '2017-06-01' AND createdate< '2017-12-01' ; QUERY PLAN ------------------------------------------------------------------------------------------- Finalize Aggregate (cost=132593.42..132593.43 rows =1 width=8) (actual time =717.848..717.848 rows =1 loops=1) Buffers: shared hit=33571 read =30446 dirtied=9508 written=4485 -> Gather (cost=132593.20..132593.41 rows =2 width=8) (actual time =717.782..717.841 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 Buffers: shared hit=33571 read =30446 dirtied=9508 written=4485 -> Partial Aggregate (cost=131593.20..131593.21 rows =1 width=8) (actual time =714.096..714.097 rows =1 loops=3) Buffers: shared hit=33319 read =30446 dirtied=9508 written=4485 -> Parallel Seq Scan on t_pay_all (cost=0.00..126330.64 rows =2105024 width=0) (actual time =0.059..545.016 rows =1675464 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Rows Removed by Filter: 1661203 Buffers: shared hit=33319 read =30446 dirtied=9508 written=4485 Planning time : 0.178 ms Execution time : 721.822 ms (14 rows ) Time : 722.521 ms |
--分区表
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postgres=# explain (analyze,buffers) select count (1) from t_pay where createdate >= '2017-06-01' AND createdate< '2017-12-01' ; QUERY PLAN ------------------------------------------------------------------------------------------ Finalize Aggregate (cost=69675.98..69675.99 rows =1 width=8) (actual time =714.560..714.560 rows =1 loops=1) Buffers: shared hit=27002 read =5251 -> Gather (cost=69675.77..69675.98 rows =2 width=8) (actual time =714.426..714.551 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 Buffers: shared hit=27002 read =5251 -> Partial Aggregate (cost=68675.77..68675.78 rows =1 width=8) (actual time =710.416..710.416 rows =1 loops=3) Buffers: shared hit=26774 read =5251 -> Append (cost=0.00..63439.94 rows =2094330 width=0) (actual time =0.023..536.033 rows =1675464 loops=3) Buffers: shared hit=26774 read =5251 -> Parallel Seq Scan on t_pay_201706 (cost=0.00..10416.41 rows =343694 width=0) (actual time =0.021..67.935 rows =274955 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared hit=5261 -> Parallel Seq Scan on t_pay_201707 (cost=0.00..10728.06 rows =354204 width=0) (actual time =0.007..54.999 rows =283363 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared hit=5415 -> Parallel Seq Scan on t_pay_201708 (cost=0.00..10744.08 rows =354738 width=0) (actual time =0.007..55.117 rows =283791 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared hit=5423 -> Parallel Seq Scan on t_pay_201709 (cost=0.00..10410.71 rows =343714 width=0) (actual time =0.007..53.402 rows =274971 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared hit=5255 -> Parallel Seq Scan on t_pay_201710 (cost=0.00..10737.41 rows =354494 width=0) (actual time =0.007..55.475 rows =283595 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared hit=5420 -> Parallel Seq Scan on t_pay_201711 (cost=0.00..10403.29 rows =343486 width=0) (actual time =0.036..57.635 rows =274789 loops=3) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-12-01' :: date )) Buffers: shared read =5251 Planning time : 1.217 ms Execution time : 718.372 ms (30 rows ) |
跨分区查询,大约在跨一半分区时性能相当。
查询某个月里某个用户数据--直接从cache里取数据
1、数据都落在所在分区,并且数据量极少
--非分区表
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postgres=# explain (analyze,buffers) select * from t_pay_all where createdate>= '2017-06-01' AND createdate< '2017-07-01' and userid=268460; QUERY PLAN -------------------------------------------------------------------------------------------- Index Scan using t_pay_all_userid_idx on t_pay_all (cost=0.43..48.68 rows =1 width=20) (actual time =0.053..0.071 rows =7 loops=1) Index Cond: (userid = 268460) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Rows Removed by Filter: 10 Buffers: shared hit=20 Planning time : 0.149 ms Execution time : 0.101 ms (7 rows ) Time : 0.676 ms |
--分区表
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postgres=# explain (analyze,buffers) select * from t_pay where createdate >= '2017-06-01' AND createdate< '2017-07-01' and userid=268460; QUERY PLAN ------------------------------------------------------------------------------------------ Append (cost=0.42..12.47 rows =2 width=20) (actual time =0.019..0.032 rows =7 loops=1) Buffers: shared hit=10 -> Index Scan using t_pay_201706_userid_idx on t_pay_201706 (cost=0.42..12.47 rows =2 width=20) (actual time =0.018..0.029 rows =7 loops=1) Index Cond: (userid = 268460) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared hit=10 Planning time : 0.728 ms Execution time : 0.064 ms (8 rows ) Time : 1.279 ms |
在返回记录极少的情况下由于分布表的Planning time开销较大,所以非分区表有优势
2、数据落在其它分区,并且数据量比较大
--非分区表
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postgres=# explain (analyze,buffers) select * from t_pay_all where createdate >= '2017-06-01' AND createdate< '2017-07-01' and userid=302283 ; QUERY PLAN --------------------------------------------------------------------------------------------- Bitmap Heap Scan on t_pay_all (cost=19780.69..22301.97 rows =683 width=20) (actual time =91.778..91.803 rows =2 loops=1) Recheck Cond: ((userid = 302283) AND (createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Heap Blocks: exact=9 Buffers: shared hit=2927 -> BitmapAnd (cost=19780.69..19780.69 rows =683 width=0) (actual time =91.767..91.767 rows =0 loops=1) Buffers: shared hit=2918 -> Bitmap Index Scan on t_pay_all_userid_idx (cost=0.00..183.00 rows =8342 width=0) (actual time =0.916..0.916 rows =11013 loops=1) Index Cond: (userid = 302283) Buffers: shared hit=41 -> Bitmap Index Scan on t_pay_all_createdate_idx (cost=0.00..19597.10 rows =819666 width=0) (actual time =90.837..90.837 rows =825865 loops=1) Index Cond: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared hit=2877 Planning time : 0.172 ms Execution time : 91.851 ms (14 rows ) Time : 92.534 ms |
--分区表
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postgres=# explain (analyze,buffers) select * from t_pay where createdate >= '2017-06-01' AND createdate< '2017-07-01' and userid=302283 ; QUERY PLAN ------------------------------------------------------------------------------------------- Append (cost=0.42..12.47 rows =2 width=20) (actual time =0.042..0.046 rows =2 loops=1) Buffers: shared hit=7 -> Index Scan using t_pay_201706_userid_idx on t_pay_201706 (cost=0.42..12.47 rows =2 width=20) (actual time =0.041..0.045 rows =2 loops=1) Index Cond: (userid = 302283) Filter: ((createdate >= '2017-06-01' :: date ) AND (createdate < '2017-07-01' :: date )) Buffers: shared hit=7 Planning time : 0.818 ms Execution time : 0.096 ms (8 rows ) Time : 1.499 ms |
这是分区表最大的优势体现了,性能提升不是一般的大
索引维护
--非分区表
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postgres=# REINDEX INDEX t_pay_all_createdate_idx; REINDEX Time: 11827.344 ms (00:11.827) |
--分区表
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postgres=# REINDEX INDEX t_pay_201706_createdate_idx; REINDEX Time: 930.439 ms postgres=# |
这个也是分区表的优势,可以针对某个分区的索引进行重建。
删除整个分区数据
--非分区表
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postgres=# delete from t_pay_all where createdate >= '2017-06-01' and createdate< '2017-07-01' ; DELETE 824865 Time : 5775.545 ms (00:05.776) |
--分区表
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postgres=# truncate table t_pay_201706; TRUNCATE TABLE Time : 177.809 ms |
个也是分区表的优势,可以对某个分区直接truncate
全表扫描
--非分区表
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postgres=# explain analyze select count (1) from t_pay; QUERY PLAN --------------------------------------------------------------------------------------------- Finalize Aggregate (cost=107370.96..107370.97 rows =1 width=8) (actual time =971.561..971.561 rows =1 loops=1) -> Gather (cost=107370.75..107370.96 rows =2 width=8) (actual time =971.469..971.555 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 -> Partial Aggregate (cost=106370.75..106370.76 rows =1 width=8) (actual time =967.378..967.378 rows =1 loops=3) -> Append (cost=0.00..96800.40 rows =3828141 width=0) (actual time =0.019..698.882 rows =3061712 loops=3) -> Parallel Seq Scan on t_pay_201701 (cost=0.00..8836.14 rows =349414 width=0) (actual time =0.017..48.716 rows =279531 loops=3) -> Parallel Seq Scan on t_pay_201702 (cost=0.00..8119.94 rows =321094 width=0) (actual time =0.007..33.072 rows =256875 loops=3) -> Parallel Seq Scan on t_pay_201703 (cost=0.00..9079.47 rows =359047 width=0) (actual time =0.006..37.153 rows =287238 loops=3) -> Parallel Seq Scan on t_pay_201704 (cost=0.00..8672.67 rows =342968 width=0) (actual time =0.006..35.317 rows =274374 loops=3) -> Parallel Seq Scan on t_pay_201705 (cost=0.00..8975.23 rows =354923 width=0) (actual time =0.006..36.571 rows =283938 loops=3) -> Parallel Seq Scan on t_pay_201706 (cost=0.00..20.00 rows =1000 width=0) (actual time =0.000..0.000 rows =0 loops=3) -> Parallel Seq Scan on t_pay_201707 (cost=0.00..8957.04 rows =354204 width=0) (actual time =0.006..36.393 rows =283363 loops=3) -> Parallel Seq Scan on t_pay_201708 (cost=0.00..8970.38 rows =354738 width=0) (actual time =0.006..37.015 rows =283791 loops=3) -> Parallel Seq Scan on t_pay_201709 (cost=0.00..8692.14 rows =343714 width=0) (actual time =0.006..35.187 rows =274971 loops=3) -> Parallel Seq Scan on t_pay_201710 (cost=0.00..8964.94 rows =354494 width=0) (actual time =0.006..36.566 rows =283595 loops=3) -> Parallel Seq Scan on t_pay_201711 (cost=0.00..8685.86 rows =343486 width=0) (actual time =0.006..35.198 rows =274789 loops=3) -> Parallel Seq Scan on t_pay_201712 (cost=0.00..8826.59 rows =349059 width=0) (actual time =0.006..36.523 rows =279247 loops=3) Planning time : 0.706 ms Execution time : 977.364 ms (20 rows ) Time : 978.705 ms postgres=# |
--分区表
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postgres=# explain analyze select count (1) from t_pay_all; QUERY PLAN ------------------------------------------------------------------------------------------------- Finalize Aggregate (cost=116900.63..116900.64 rows =1 width=8) (actual time =644.093..644.093 rows =1 loops=1) -> Gather (cost=116900.42..116900.63 rows =2 width=8) (actual time =644.035..644.087 rows =3 loops=1) Workers Planned: 2 Workers Launched: 2 -> Partial Aggregate (cost=115900.42..115900.43 rows =1 width=8) (actual time =640.587..640.587 rows =1 loops=3) -> Parallel Seq Scan on t_pay_all (cost=0.00..105473.33 rows =4170833 width=0) (actual time =0.344..371.965 rows =3061712 loops=3) Planning time : 0.164 ms Execution time : 645.438 ms (8 rows ) Time : 646.027 ms |
全扫描时分区表落后,但还基本上能接收。
增加新的分区并导入数据
--生成新的分区数据
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copy ( select userid,pay_money,createdate+31 as createdate from t_pay_201712) to '/home/pg/201801.txt' ; |
--建立新的分区
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create table t_pay_201801 partition of t_pay(id primary key ,userid,pay_money,createdate) for values from ( '2018-01-01' ) to ( '2018-02-01' ); create index t_pay_201801_createdate_idx on t_pay_201801 using btree(createdate); create index t_pay_201801_userid_idx on t_pay_201801 using btree(userid); |
--非分区表
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postgres=# copy t_pay_all(userid,pay_money,createdate) from '/home/pg/201801.txt'; COPY 837741 Time: 18105.024 ms (00:18.105) |
--分区表
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postgres=# copy t_pay(userid,pay_money,createdate) from '/home/pg/201801.txt'; COPY 837741 Time: 13864.950 ms (00:13.865) postgres=# |
新的分区数据导入保持优势
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原文链接:https://www.cnblogs.com/88223100/p/PostgreSQL_Partitioning_Benchmark.html