我一直以来都比较推荐plproxy这个PostgreSQL代理软件, 因为它小巧灵活好用, 效率高.
最近朋友邀请我给他们做个分布式的方案, 所以又把plproxy翻出来了.
本文讲一讲在单节点中如何快速的部署plproxy环境.
PostgreSQL 9.3.1
plproxy 2.x
hostaddr 172.16.3.150
port 1921
user proxy
password proxy
dbname proxy
schema digoal // 这个schema名和数据节点一致, 可以省去写plproxy language target的步骤.
hostaddr 172.16.3.150
port 1921
user digoal // plproxy将使用digoal用户连接数据节点.
password digoal
dbname db0
schema digoal
dbname db1
schema digoal
dbname db2
schema digoal
dbname db3
schema digoal
首先在http://git.postgresql.org/gitweb/?p=plproxy.git;a=summary下载plproxy.
tar -zxvf plproxy-d703683.tar.gz
mv plproxy-d703683 /opt/soft_bak/postgresql-9.3.1/contrib
cd /opt/soft_bak/postgresql-9.3.1/contrib/plproxy-d703683
[root@db-172-16-3-150 plproxy-d703683]# export PATH=/home/pg93/pgsql9.3.1/bin:$PATH
[root@db-172-16-3-150 plproxy-d703683]# which pg_config
[root@db-172-16-3-150 plproxy-d703683]# gmake clean
[root@db-172-16-3-150 plproxy-d703683]# gmake
[root@db-172-16-3-150 plproxy-d703683]# gmake install
创建proxy库, proxy角色, 在proxy库创建plproxy extension.
pg93@db-172-16-3-150-> psql
psql (9.3.1)
Type "help" for help.
postgres=# create role proxy nosuperuser login encrypted password 'proxy';
CREATE ROLE
digoal=# create database proxy;
CREATE DATABASE
digoal=# \c proxy
You are now connected to database "proxy" as user "postgres".
proxy=# create extension plproxy;
CREATE EXTENSION
调整proxy库权限
proxy=# grant all on database proxy to proxy;
GRANT
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "digoal".
创建digoal schema, 目的是和数据节点的schema匹配, 这样的话可以省去在代理函数中写target强行指定schema.
proxy=> create schema digoal;
CREATE SCHEMA
创建节点数据库
proxy=> \c postgres postgres
You are now connected to database "postgres" as user "postgres".
postgres=# create role digoal nosuperuser login encrypted password 'digoal';
postgres=# create database db0;
postgres=# create database db1;
postgres=# create database db2;
postgres=# create database db3;
调整权限, 赋予给后面将要给user mapping中配置的option user权限.
postgres=# grant all on database db0 to digoal;
postgres=# grant all on database db1 to digoal;
postgres=# grant all on database db2 to digoal;
postgres=# grant all on database db3 to digoal;
使用超级用户在proxy数据库中创建server.
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=#
CREATE SERVER cluster_srv1 FOREIGN DATA WRAPPER plproxy options
(connection_lifetime '1800',
p0 'dbname=db0 hostaddr=172.16.3.150 port=1921 application_name=test',
p1 'dbname=db1 hostaddr=172.16.3.150 port=1921',
p2 'dbname=db2 hostaddr=172.16.3.150 port=1921',
p3 'dbname=db3 hostaddr=172.16.3.150 port=1921');
创建server时可以使用libpq中的选项. 例如本例使用了application_name.
将server权限赋予给proxy用户.
proxy=# grant usage on FOREIGN server cluster_srv1 to proxy;
GRANT
配置proxy用户的连接cluster_srv1的选项.
proxy=# create user mapping for proxy server cluster_srv1 options (user 'digoal');
CREATE USER MAPPING
用户proxy连接到cluster_srv1时使用digoal用户连接, 这里不需要配置password, 因为我们将使用trust认证.
从proxy节点使用digoal用户连接数据库db0, db1, db2, db3使用trust认证.
vi $PGDATA/pg_hba.conf
host db0 digoal 172.16.3.150/32 trust
host db1 digoal 172.16.3.150/32 trust
host db2 digoal 172.16.3.150/32 trust
host db3 digoal 172.16.3.150/32 trust
pg_ctl reload
使用超级用户创建plproxy函数, 然后把函数权限赋予给proxy权限.
proxy=# CREATE OR REPLACE FUNCTION digoal.dy(sql text)
RETURNS SETOF record
LANGUAGE plproxy
STRICT
AS $function$
cluster 'cluster_srv1';
run on all;
$function$;
proxy=# grant execute on function digoal.dy(text) to proxy;
GRANT
proxy=# \c db0 digoal
db0=#
CREATE OR REPLACE FUNCTION digoal.dy(sql text)
RETURNS SETOF record
LANGUAGE plpgsql
STRICT
AS $function$
declare
rec record;
begin
for rec in execute sql loop
return next rec;
end loop;
return;
end;
$function$;
db0=# \c db1 digoal
...
db1=# \c db2 digoal
...
db2=# \c db3 digoal
...
在proxy节点中就可以访问数据节点了。
例如查询这个动态SQL.
proxy=> select * from digoal.dy('select count(*) from pg_class') as t(i int8);
i
-----
293
293
293
293
(4 rows)
proxy=> select sum(i) from digoal.dy('select count(*) from pg_class') as t(i int8);
sum
------
1172
(1 row)
前面那个会话不要断开, 在另一个会话中观察proxy发起的连接到数据节点的连接.
postgres=# select * from pg_stat_activity where usename='digoal';
datid | datname | pid | usesysid | usename | application_name | client_addr | client_hostname | client_port | backend_sta
rt | xact_start | query_start | state_change | waiting | state | q
uery
-------+---------+------+----------+---------+------------------+--------------+-----------------+-------------+--------------------
-----------+------------+-------------------------------+-------------------------------+---------+-------+-------------------------
----------------------------
91246 | db0 | 8171 | 91250 | digoal | test | 172.16.3.150 | | 47937 | 2013-11-22 17:23:26
.138425+08 | | 2013-11-22 17:27:05.539286+08 | 2013-11-22 17:27:05.539745+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91247 | db1 | 8172 | 91250 | digoal | | 172.16.3.150 | | 47938 | 2013-11-22 17:23:26
.138688+08 | | 2013-11-22 17:27:05.53938+08 | 2013-11-22 17:27:05.539874+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91248 | db2 | 8173 | 91250 | digoal | | 172.16.3.150 | | 47939 | 2013-11-22 17:23:26
.138957+08 | | 2013-11-22 17:27:05.53938+08 | 2013-11-22 17:27:05.539841+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91249 | db3 | 8174 | 91250 | digoal | | 172.16.3.150 | | 47940 | 2013-11-22 17:23:26
.139178+08 | | 2013-11-22 17:27:05.539366+08 | 2013-11-22 17:27:05.539793+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
(4 rows)
再次在proxy的同一会话中查询时, 这些会话会复用, 不会断开. 前面已经讲了plproxy是使用长连接的.
如果修改了server, 那么这些连接会断开, 重新连接. 所以不需要担心修改server带来的连接cache问题.
postgres=# \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# alter server cluster_srv1 options (set p1 'dbname=db1 hostaddr=172.16.3.150 port=1921 application_name=abc');
ALTER SERVER
再次在proxy的同一会话中查询后, 我们发现4个连接都变了, 说明alter server后, 如果再次发起plproxy函数的查询请求, 那么proxy会重置连接.
proxy=> select sum(i) from digoal.dy('select count(*) from pg_class') as t(i int8);
sum
------
1172
(1 row)
在另一会话的查询结果 :
proxy=# select * from pg_stat_activity where usename='digoal';
datid | datname | pid | usesysid | usename | application_name | client_addr | client_hostname | client_port | backend_sta
rt | xact_start | query_start | state_change | waiting | state | q
uery
-------+---------+------+----------+---------+------------------+--------------+-----------------+-------------+--------------------
-----------+------------+-------------------------------+-------------------------------+---------+-------+-------------------------
----------------------------
91246 | db0 | 8245 | 91250 | digoal | test | 172.16.3.150 | | 47941 | 2013-11-22 17:30:36
.933077+08 | | 2013-11-22 17:30:36.936784+08 | 2013-11-22 17:30:36.938837+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91248 | db2 | 8247 | 91250 | digoal | | 172.16.3.150 | | 47943 | 2013-11-22 17:30:36
.933502+08 | | 2013-11-22 17:30:36.936783+08 | 2013-11-22 17:30:36.938981+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91249 | db3 | 8248 | 91250 | digoal | | 172.16.3.150 | | 47944 | 2013-11-22 17:30:36
.933731+08 | | 2013-11-22 17:30:36.937147+08 | 2013-11-22 17:30:36.939015+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
91247 | db1 | 8246 | 91250 | digoal | abc | 172.16.3.150 | | 47942 | 2013-11-22 17:30:36
.933288+08 | | 2013-11-22 17:30:36.93757+08 | 2013-11-22 17:30:36.939299+08 | f | idle | select i::int8 from digo
al.dy($1::text) as (i int8)
(4 rows)
在数据节点创建测试表.
proxy=# \c db0 digoal
db0=> create table t(id int);
CREATE TABLE
db0=> \c db1
You are now connected to database "db1" as user "digoal".
db1=> create table t(id int);
CREATE TABLE
db1=> \c db2
You are now connected to database "db2" as user "digoal".
db2=> create table t(id int);
CREATE TABLE
db2=> \c db3
You are now connected to database "db3" as user "digoal".
db3=> create table t(id int);
CREATE TABLE
在数据节点创建插入数据的实体函数, 每个节点返回不一样的数字.
\c db0 digoal
db0=> create or replace function digoal.f_test4() returns int as
$$
declare
begin
insert into t(id) values (1);
return 0;
end;
$$
language plpgsql strict;
db1=> create or replace function digoal.f_test4() returns int as
$$
declare
begin
insert into t(id) values (1);
return 1;
end;
$$
language plpgsql strict;
db2=> create or replace function digoal.f_test4() returns int as
$$
declare
begin
insert into t(id) values (1);
return 2;
end;
$$
language plpgsql strict;
db3=> create or replace function digoal.f_test4() returns int as
$$
declare
begin
insert into t(id) values (1);
return 3;
end;
$$
language plpgsql strict;
在proxy节点创建代理函数, 并且将执行权限赋予给proxy用户.
proxy=> \c proxy postgres
create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on 0; -- 在指定的数据节点上运行, 本例可以设置为0到3, 顺序和创建的server中的配置顺序一致. p0, p1, p2, p3
$$
language plproxy strict;
proxy=# grant execute on function digoal.f_test4() to proxy;
GRANT
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select * from digoal.f_test4();
f_test4
---------
0
(1 row)
如果run on 的数字改成0-3以外的数字, 运行时将报错, 符合预期.
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on 4;
$$
language plproxy strict;
CREATE FUNCTION
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select * from digoal.f_test4();
ERROR: PL/Proxy function digoal.f_test4(0): part number out of range
run on any表示随机的选择一个数据节点运行.
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on any;
$$
language plproxy strict;
CREATE FUNCTION
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select * from digoal.f_test4();
f_test4
---------
0
(1 row)
proxy=> select * from digoal.f_test4();
f_test4
---------
3
(1 row)
proxy=> select * from digoal.f_test4();
f_test4
---------
2
(1 row)
proxy=> select * from digoal.f_test4();
f_test4
---------
3
(1 row)
run on function() 则使用函数结果的hash值计算得到运行节点.
proxy=> create or replace function digoal.f(int) returns int as
$$
select $1;
$$
language sql strict;
CREATE FUNCTION
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on digoal.f(10);
$$
language plproxy strict;
CREATE FUNCTION
proxy=> select digoal.f_test4();
f_test4
---------
2
(1 row)
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on digoal.f(11);
$$
language plproxy strict;
CREATE FUNCTION
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select digoal.f_test4();
f_test4
---------
3
(1 row)
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on digoal.f(-11);
$$
language plproxy strict;
CREATE FUNCTION
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select digoal.f_test4();
f_test4
---------
1
(1 row)
run on all表示所有数据节点运行. 代理函数必须使用returns setof返回.
proxy=> \c proxy postgres
You are now connected to database "proxy" as user "postgres".
proxy=# create or replace function digoal.f_test4() returns int as
$$
cluster 'cluster_srv1';
run on all;
$$
language plproxy strict;
ERROR: PL/Proxy function digoal.f_test4(0): RUN ON ALL requires set-returning function
proxy=# drop function digoal.f_test4();
DROP FUNCTION
proxy=# create or replace function digoal.f_test4() returns setof int as
$$
cluster 'cluster_srv1';
run on all;
$$
language plproxy strict;
CREATE FUNCTION
proxy=# grant execute on function digoal.f_test4() to proxy;
GRANT
proxy=# \c proxy proxy
You are now connected to database "proxy" as user "proxy".
proxy=> select digoal.f_test4();
f_test4
---------
0
1
2
3
(4 rows)
1. 设计时需要注意
plproxy函数所在的schema尽量和数据节点上实际函数的schema一致.
否则需要在plproxy函数中使用target指定 schema.functionname;
2. 数据节点的个数请保持2^n,
这么做有利于后期的节点扩展, 例如2个节点扩展到4个节点时, 数据不需要发生跨节点的重分布.
例如
mod(x,2)=0 那么mod(x,4)=0或2
mod(x,2)=1 那么mod(x,4)=1或3
比较适合位运算的分布算法.
当然我们也可以使用一致性哈希的设计思路,参考
《一致性哈希在分布式数据库中的应用探索》
https://yq.aliyun.com/articles/57954
3. 如果业务为短连接的形式, 那么需要1层连接池, 在应用程序和plproxy数据库之间. 而不是plproxy和数据节点之间.
在应用程序和plproxy之间加连接池后, 其实对于plproxy来说就是长连接了, 所以在plproxy和数据节点之间也就不需要连接池了.
4. 长连接不需要连接池, 因为plproxy和数据节点之间的连接是长连接.
5. plproxy语法非常简洁,而且函数调用彻底避免了事务的问题
connect, cluster, run, select, split, target.
6. 关于连接密码
出于安全考虑, 建议在任何配置中不要出现明文密码, 所以最好是plproxy服务器到数据节点是trust验证, 保护好plproxy即可.
假设plproxy在172.16.3.2上. 数据节点有4个, 库名和用户名都为digoal. 那么在4个节点上配置pg_hba.conf如下.
node0
host digoal digoal 172.16.3.2/32 trust
node1
host digoal digoal 172.16.3.2/32 trust
node2
host digoal digoal 172.16.3.2/32 trust
node3
host digoal digoal 172.16.3.2/32 trust
7. run 详解:
run on , 是数字常量, 范围是0 到 nodes-1; 例如有4个节点 run on 0; (run on 4则报错).
run on ANY,
run on function(...), 这里用到的函数返回结果必须是int2, int4 或 int8.
run on ALL, 这种的plproxy函数必须是returns setof..., 实体函数没有setof的要求.
8. 一个plproxy中只能出现一条connect语句, 符合预期, 否则报错.
digoal=# create or replace function f_test3() returns setof int8 as
$$
connect 'hostaddr=172.16.3.150 dbname=db0 user=digoal port=1921';
connect 'hostaddr=172.16.3.150 dbname=db1 user=digoal port=1921';
select count(*) from pg_class;
$$
language plproxy strict;
ERROR: PL/Proxy function postgres.f_test3(0): Compile error at line 2: Only one CONNECT statement allowed
9. 不要把plproxy语言的权限赋予给普通用户, 因为开放了trust认证, 如果再开放plproxy语言的权限是非常危险的.
正确的做法是使用超级用户创建plproxy函数, 然后把函数的执行权限赋予给普通用户.
千万不要这样省事 :
update pg_language set lanpltrusted='t' where lanname='plproxy';
10. 如果有全局唯一的序列需求, 可以将序列的步调调整一下, 每个数据节点使用不同的初始值.
例如
db0=# create sequence seq1 increment by 4 start with 0;
CREATE SEQUENCE
db1=# create sequence seq1 increment by 4 start with 1;
db2=# create sequence seq1 increment by 4 start with 2;
db3=# create sequence seq1 increment by 4 start with 3;
考虑到扩容, 可以将步调调比较大, 例如1024. 那么可以容纳1024个节点.
1. http://kaiv.wordpress.com/2007/07/27/postgresql-cluster-partitioning-with-plproxy-part-i/
2. http://kaiv.wordpress.com/2007/09/02/postgresql-cluster-partitioning-with-plproxy-part-ii/
3. http://blog.163.com/digoal@126/blog/static/163877040201041111304328/
4. http://blog.163.com/digoal@126/blog/static/1638770402010411113114315/
5. http://blog.163.com/digoal@126/blog/static/163877040201192535630895/
6. http://www.postgresql.org/docs/9.3/static/libpq-connect.html#LIBPQ-CONNSTRING
7. http://git.postgresql.org/gitweb/?p=plproxy.git;a=summary