目录
  • 架构图
  • 部署详情
  • postgresql的安装与配置
  • pgpool的安装与配置

写在安装前

postgresql是一款很强大的数据库,具体有多强大呢,请谷歌。。。

网上的相关资料不是很多,参考了大神们的文档,结合自己趟了的坑,写了pg集群的安装文档。可能有一些参数没有配置好,希望大神们指出,谢谢。参照本文档,基本能实现pg的高可用,稍后会写出测试文档。

架构图




 


postgresql集群的搭建_vim


 


部署详情

ip

host

系统

vip

部署

192.168.123.180

master

CentOS 6.8

192.168.123.183

postgresql、pgpool

192.168.123.181

slave1

CentOS 6.8

192.168.123.183

postgresql、pgpool

192.168.123.182

slave2

CentOS 6.8

192.168.123.183

postgresql

postgresql的安装

1、安装

1、Rpm包下载地址:

​https://yum.postgresql.org/rpmchart.php​

下载下面的包:

postgresql95-libs-9.5.8-1PGDG.rhel6.x86_64.rpm

postgresql95-contrib-9.5.8-1PGDG.rhel6.x86_64.rpm

postgresql95-9.5.8-1PGDG.rhel6.x86_64.rpm

postgresql95-server-9.5.8-1PGDG.rhel6.x86_64.rpm

2、安装:

yum install -y postgresql95-libs-9.5.8-1PGDG.rhel6.x86_64.rpm
yum install -y postgresql95-contrib-9.5.8-1PGDG.rhel6.x86_64.rpm
yum install -y postgresql95-9.5.8-1PGDG.rhel6.x86_64.rpm
yum install -y postgresql95-server-9.5.8-1PGDG.rhel6.x86_64.rpm


3、初始化db:

​service postgresql-9.5 initdb​

4、设置为开机启动:

​chkconfig postgresql-9.5 on​

5、安装的目录:

​/var/lib/pgsql/9.5​

配置白名单与流复制

1、 master的配置

PostgreSQL流复制默认是异步的。在主服务器上提交事务和从服务器上变化可见之间有一个小的延迟,这个延迟远小于基于文件日志传送,通常1秒能完成。如果主服务器突然崩溃,可能会有少量数据丢失。

同步复制必须等主服务器和从服务器都写完WAL后才能提交事务。这样在一定程度上会增加事务的响应时间。

配置同步复制仅需要一个额外的配置步骤: synchronous_standby_names必须设置为一个非空值。synchronous_commit也必须设置为on。

这里部署的是异步的流复制

1.2、配置白名单:

​vim /var/lib/pgsql/9.5/data/pg_hba.conf​

在配置文件最后加上:


host all all 192.168.123.180/32 trust
host all all 192.168.123.181/32 trust
host all all 192.168.123.182/32 trust
host replication replica 192.168.123.181/32 trust
host replication replica 192.168.123.182/32 trust


保存退出

我这里由于是内网,全部用的trust,如果要用密码,请修改为passwd

1.3、修改配置文件:

​vim /var/lib/pgsql/9.5/data/postgresql.conf​

data_directory = '/app/pgsql/data'                            #自定义data目录
listen_addresses = '*' #监听所有ip
archive_mode = on #允许归档
archive_command = 'cp %p /app/pgsql/pg_archive/%f' #使用命令归档
wal_level = hot_standby #选择热备
max_wal_senders = 16 #最多多少个流复制链接
wal_keep_segments = 256 #流复制保留最多的xlog数
wal_sender_timeout = 60s #流复制主机发送数据超时时间
max_connections = 99 #从库的max_connections必须大于主库的


1.4、创建data目录,赋权并修改启动文件

mkdir -p /app/pgsql/data && chown postgres:postgres /app/pgsql/data
mkdir -p /app/pgsql/pg_archive && chown postgres:postgres /app/pgsql/pg_archive

cd /app/pgsql && chmod 700 data
cd /app/pgsql && chmod 700 pg_archive


1.5、修改启动文件

vim /etc/init.d/postgresql-9.5

PGDATA=/app/pgsql/data


1.6、把原data目录下的文件copy到新的data的目录下,并改变属组:

cp -r /var/lib/pgsql/9.5/data/* /app/pgsql/data/
cd /app/pgsql && chown -R postgres:postgres data


1.7、启动

​service postgresql-9.5 start​

以后修改配置文件就在/app/pgsql/data下面修改

1.8、创建一个数据库用户进行主从同步。创建用户replica,并赋予登录和复制的权限

登陆到数据库里:

su postgres
psql
CREATE ROLE replica login replication encrypted password 'replica';




 


postgresql集群的搭建_服务器_02


 


防火墙开放5432端口

在从库上:

​psql -h 192.168.123.180 -U postgres​




 


postgresql集群的搭建_数据库_03


 


 

登陆主库成功

2、从库的配置

2.1、自定义data目录:

mkdir -p /app/pgsql/data/&&chmod 700 /app/pgsql/data/
chown -R postgres:postgres pgsql

mkdir /app/pgsql/pg_archive
cd /app/pgsql
chmod 700 pg_archive && chown postgres:postgres pg_archive/


2.2、切换用户:

​su – postgres​

2.3、备份数据:

​pg_basebackup -h 192.168.123.180 -U replica -D /app/pgsql/data -X stream –P​

2.4、修改启动文件:

vim /etc/init.d/postgresql-9.5

PGDATA=/app/pgsql/data


2.5、配置recovery.conf

su postgres
cp /usr/pgsql-9.5/share/recovery.conf.sample /app/pgsql/data/recovery.conf


​vim /app/pgsql/data/recovery.conf​

standby_mode = on        \#该节点为从
primary_conninfo = 'host=192.168.123.180 port=5432 user=replica password=replica'
\#主服务器的ip、user
recovery_target_timeline = 'latest'
trigger_file = '/tmp/trigger_file0'


2.6、配置postgresql.conf

​vim /app/pgsql/data/postgresql.conf​

max_connections = 999     #大于主的连接数
max_standby_streaming_delay = 30s
wal_receiver_status_interval = 10s
hot_standby_feedback = on


2.7、重启服务:

​service postgresql-9.5 restart​

验证流复制

3.1、在master上登陆psql

查看状态:

​select client_addr,sync_state from pg_stat_replication;​




 


postgresql集群的搭建_数据库_04


 


 

3.2、创建test库

​Create database test;​

3.3、slave上登陆psql

查看库

​playboy => \l​




 


postgresql集群的搭建_postgresql_05


 


 

发现已同步。

pgpool的安装

pgpool-II是PostgreSQL服务器之间一种有效的中间件和PostgreSQL数据库客户端。它提供了以下功能。

连接池

pgpool-II保存到PostgreSQL服务器的连接,当一个相同新连接(如用户名、数据库、协议版本)进来时,重用他们。它减少了连接开销,提高了系统的整体吞吐量。

复制

pgpool-II可以管理多个PostgreSQL服务器。使用复制功能可以使2个或更多的物理磁盘上创建一个实时备份,这样服务不会因服务器的磁盘故障而中断。

负载平衡

如果数据库是复制的,在任何服务器上执行一个SELECT查询会返回相同的结果。pgpool-II复制特性的优势在于减少每个PostgreSQL服务器上的负载,因为它可以使用分布在多个服务器之间进行SELECT查询,从而提高系统的整体吞吐量。最好是查询和PostgreSQL服务器数量成一定比例,多用户同时执行多查询达到负载均衡最好的效果。

限制连接数

PostgreSQL的最大并发连接数有一定限制的,当超过限制的连接数后,连接会被拒绝。然而,设置增加最大连接数又会增加资源消耗,影响系统性能。pgpool-II也有最大连接数限制,但超过的连接进来时是进行立即排队,而不是返回一个错误。

pgpool-II交互PostgreSQL的后端和前端协议时,起着继电器的作用。因此,数据库应用程序(前端)认为pgpool-II是真实的PostgreSQL服务器,服务器(后端)认为pgpool-II是它的客户端之一。因为pgpool-II在服务器和客户端是透明的,所以pgpool-II可以使用现有的数据库应用程序而做到几乎不修改它们。

版本:3.6

机器:192.168.123.180

192.168.123.181

4.1、免密码登陆

安装之前先配置密钥使master和slave1这两台虚拟机的postgres用户能免密连接

先修改postgres的密码,在root用户下

​passwd postgres​

新密码123456

Master到slave1的免密码登陆:

在master上切换至postgres用户,生成密钥

​su postgres ssh-keygen -t rsa​

然后全输入回车

切换到postgres用户:

​su postgres ssh-copy-id -i /var/lib/pgsql/.ssh/id_rsa 192.168.123.181​

然后ssh 192.168.123.181 成功,实现master到slave1的免密码登陆

Slave1到master的免密码登陆:

流程同上

4.2、安装

Rpm包下载地址:

​http://www.pgpool.net/yum/rpms/3.6/redhat/rhel-6-x86_64/pgpool-II-pg95-3.6.0-1pgdg.rhel6.x86_64.rpm​

安装:

​yum install pgpool-II-pg95-3.6.0-1pgdg.rhel6.x86_64.rpm​

4.3、配置

Master的配置:

配置白名单:

要和pg_hba.conf登陆权限一致,这里由于是私有云,都用trust

vim /etc/pgpool-II/pool_hba.conf

在最后改成:




 


postgresql集群的搭建_服务器_06


 


配置pcp管理工具密码:

pg_md5 pwd

密码加密




 


postgresql集群的搭建_数据库_07


 


​vim /etc/pgpool-II/pcp.conf​

把刚才加密的密码粘贴到文件里




 


postgresql集群的搭建_vim_08


 


配置系统命令权限:

Root用户下:

​chmod u+s /sbin/ifconfig &&chmod u+s /usr/sbin​

配置中间件配置文件:

​vim /etc/pgpool-II/pgpool.conf​

# CONNECTIONS
listen_addresses = '*'
port = 9999
pcp_listen_addresses = '*'
pcp_port = 9898


# - Backend Connection Settings -

backend_hostname0 = 'master'
backend_port0 = 5432
backend_weight0 = 1
backend_data_directory0 = ' /app/pgsql/data'
backend_flag0 = 'ALLOW_TO_FAILOVER'

backend_hostname1 = 'slave'
backend_port1 = 5432
backend_weight1 = 1
backend_data_directory1 = ' /app/pgsql/data''
backend_flag1 = 'ALLOW_TO_FAILOVER'

# - Authentication -
enable_pool_hba = off
pool_passwd = 'pool_passwd'

# FILE LOCATIONS
pid_file_name = '/opt/pgpool/pgpool.pid'

replication_mode = off
load_balance_mode = on
master_slave_mode = on
master_slave_sub_mode = 'stream'

sr_check_period = 5
sr_check_user = 'repuser'
sr_check_password = 'repuser'
sr_check_database = 'postgres'

#------------------------------------------------------------------------------
# HEALTH CHECK 健康检查
#------------------------------------------------------------------------------

health_check_period = 10 # Health check period
# Disabled (0) by default
health_check_timeout = 20
# Health check timeout
# 0 means no timeout
health_check_user = ' repuser '
# Health check user
health_check_password = ' repuser ' #数据库密码
# Password for health check user
health_check_database = 'postgres'
#必须设置,否则primary数据库down了,pgpool不知道,不能及时切换。从库流复制还在连接数据,报连接失败。
#只有下次使用pgpool登录时,发现连接不上,然后报错,这时候,才知道挂了,pgpool进行切换。


#主备切换的命令行配置
#------------------------------------------------------------------------------
# FAILOVER AND FAILBACK
#------------------------------------------------------------------------------

failover_command = ' /opt/pgpool/failover_stream.sh %d %H /tmp/trigger_file0 '

#------------------------------------------------------------------------------
# WATCHDOG
#------------------------------------------------------------------------------

# - Enabling -
use_watchdog = on
# - Watchdog communication Settings -

wd_hostname = 'master'
# Host name or IP address of this watchdog
# (change requires restart)
wd_port = 9000
# port number for watchdog service
# (change requires restart)
# - Virtual IP control Setting -

delegate_IP = ' 192.168.123.183 '
# delegate IP address
# If this is empty, virtual IP never bring up.
# (change requires restart)
if_cmd_path = '/sbin'
# path to the directory where if_up/down_cmd
# (change requires restart)
if_up_cmd = 'ifconfig eth0:0 inet $_IP_$ netmask 255.255.255.0'
# startup delegate IP command
# (change requires restart)
if_down_cmd = 'ifconfig eth0:0 down'
# shutdown delegate IP command
# (change requires restart)
# -- heartbeat mode --

wd_heartbeat_port = 9694
# Port number for receiving heartbeat signal
# (change requires restart)
wd_heartbeat_keepalive = 2
# Interval time of sending heartbeat signal (sec)
# (change requires restart)
wd_heartbeat_deadtime = 30
# Deadtime interval for heartbeat signal (sec)
# (change requires restart)
heartbeat_destination0 = 'slave1'
# Host name or IP address of destination 0
# for sending heartbeat signal.
# (change requires restart)
heartbeat_destination_port0 = 9694
# Port number of destination 0 for sending
# heartbeat signal. Usually this is the
# same as wd_heartbeat_port.
# (change requires restart)
heartbeat_device0 = 'eth0'
# Name of NIC device (such like 'eth0')
# used for sending/receiving heartbeat
# signal to/from destination 0.
# This works only when this is not empty
# and pgpool has root privilege.
# (change requires restart)
# - Other pgpool Connection Settings -

other_pgpool_hostname0 = 'slave' #对端
# Host name or IP address to connect to for
# (change requires restart)
other_pgpool_port0 = 9999
# Port number for othet pgpool 0
# (change requires restart)
other_wd_port0 = 9000
# Port number for othet watchdog 0
# (change requires restart)



4.4、Slave1的配置:

配置白名单:

要和pg_hba.conf登陆权限一致,这里由于是私有云,都用trust

​vim /etc/pgpool-II/pool_hba.conf​

在最后改成:

配置pcp管理工具密码:

​pg_md5 pwd​

密码加密

​vim /etc/pgpool-II/pcp.conf​

把刚才加密的密码粘贴到文件里

配置系统命令权限:

Root用户下:

​chmod u+s /sbin/ifconfig &&chmod u+s /usr/sbin​

配置中间件配置文件:

​vim /etc/pgpool-II/pgpool.conf​

# CONNECTIONS
listen_addresses = '*'
port = 9999
pcp_listen_addresses = '*'
pcp_port = 9898

# - Backend Connection Settings -

backend_hostname0 = 'master'
backend_port0 = 5432
backend_weight0 = 1
backend_data_directory0 = ' /app/pgsql/data'
backend_flag0 = 'ALLOW_TO_FAILOVER'

backend_hostname1 = 'slave1'
backend_port1 = 5432
backend_weight1 = 1
backend_data_directory1 = '/app/pgsql/data '
backend_flag1 = 'ALLOW_TO_FAILOVER'

# - Authentication -
enable_pool_hba = off
pool_passwd = 'pool_passwd'

# FILE LOCATIONS
pid_file_name = '/opt/pgpool/pgpool.pid'

replication_mode = off
load_balance_mode = on
master_slave_mode = on
master_slave_sub_mode = 'stream'

sr_check_period = 5
sr_check_user = 'repuser'
sr_check_password = 'repuser'
sr_check_database = 'postgres'

#------------------------------------------------------------------------------
# HEALTH CHECK 健康检查
#------------------------------------------------------------------------------

health_check_period = 10 # Health check period
# Disabled (0) by default
health_check_timeout = 20
# Health check timeout
# 0 means no timeout
health_check_user = ' repuser '
# Health check user
health_check_password = ' repuser ' #数据库密码
# Password for health check user
health_check_database = 'postgres'
#必须设置,否则primary数据库down了,pgpool不知道,不能及时切换。从库流复制还在连接数据,报连接失败。
#只有下次使用pgpool登录时,发现连接不上,然后报错,这时候,才知道挂了,pgpool进行切换。


#主备切换的命令行配置
#------------------------------------------------------------------------------
# FAILOVER AND FAILBACK
#------------------------------------------------------------------------------

failover_command = '/opt/pgpool/failover_stream.sh %d %H /tmp/trigger_file0 '

#------------------------------------------------------------------------------
# WATCHDOG
#------------------------------------------------------------------------------

# - Enabling -
use_watchdog = on
# - Watchdog communication Settings -

wd_hostname = 'slave1' #本端
# Host name or IP address of this watchdog
# (change requires restart)
wd_port = 9000
# port number for watchdog service
# (change requires restart)
# - Virtual IP control Setting -

delegate_IP = '192.168.123.183'
# delegate IP address
# If this is empty, virtual IP never bring up.
# (change requires restart)
if_cmd_path = '/sbin'
# path to the directory where if_up/down_cmd exists
# (change requires restart)
if_up_cmd = 'ifconfig eth0:0 inet $_IP_$ netmask 255.255.255.0'
# startup delegate IP command
# (change requires restart)
if_down_cmd = 'ifconfig eth0:0 down'
# shutdown delegate IP command
# (change requires restart)
# -- heartbeat mode --

wd_heartbeat_port = 9694
# Port number for receiving heartbeat signal
# (change requires restart)
wd_heartbeat_keepalive = 2
# Interval time of sending heartbeat signal (sec)
# (change requires restart)
wd_heartbeat_deadtime = 30
# Deadtime interval for heartbeat signal (sec)
# (change requires restart)
heartbeat_destination0 = 'master' #对端
# Host name or IP address of destination 0
# for sending heartbeat signal.
# (change requires restart)
heartbeat_destination_port0 = 9694
# Port number of destination 0 for sending
# heartbeat signal. Usually this is the
# same as wd_heartbeat_port.
# (change requires restart)
heartbeat_device0 = 'eth0'
# Name of NIC device (such like 'eth0')
# used for sending/receiving heartbeat
# signal to/from destination 0.
# This works only when this is not empty
# and pgpool has root privilege.
# (change requires restart)
# - Other pgpool Connection Settings -

other_pgpool_hostname0 = 'master' #对端
# Host name or IP address to connect to for
# (change requires restart)
other_pgpool_port0 = 9999
# Port number for othet pgpool 0
# (change requires restart)
other_wd_port0 = 9000
# Port number for othet watchdog 0
# (change requires restart)



下面在master和slave1这两台机器上

​mkdir /opt/pgpool &&chown postgres:postgres /opt/pgpool​

master上:

cd /opt/pgpool
vim failover_stream.sh
# Failover command for streaming replication.
# This script assumes that DB node 0 is primary, and 1 is standby.
#
# If standby goes down, do nothing. If primary goes down, create a
# trigger file so that standby takes over primary node.
#
# Arguments: $1: failed node id. $2: new master hostname. $3: path to
# trigger file.
failed_node=192.168.123.180
new_master=192.168.123.181
trigger_file=$3
# Do nothing if standby goes down.
if [ $failed_node = 1 ]; then
exit 0;
fi
# Create the trigger file.
/usr/bin/ssh -T $new_master /bin/touch $trigger_file
exit 0;



保存退出,并赋权

​chown postgres:postgres failover_stream.sh &&chmod 777 failover_stream.sh​

slave1上:

cd /opt/pgpool
vim failover_stream.sh
#! /bin/sh


# Failover command for streaming replication.
# This script assumes that DB node 0 is primary, and 1 is standby.
#
# If standby goes down, do nothing. If primary goes down, create a
# trigger file so that standby takes over primary node.
#
# Arguments: $1: failed node id. $2: new master hostname. $3: path to
# trigger file.
failed_node=192.168.123.181
new_master=192.168.123.180
trigger_file=$3
# Do nothing if standby goes down.
if [ $failed_node = 1 ]; then
exit 0;
fi
# Create the trigger file.
/usr/bin/ssh -T $new_master /bin/touch $trigger_file
exit 0;


保存退出并赋权:

​chown postgres:postgres failover_stream.sh &&chmod 777 failover_stream.sh​

在master和salve1上创建日志文件:

mkdir /var/log/pgpool
chown -R postgres.postgres /var/log/pgpool
mkdir /var/run/pgpool
chown -R postgres.postgres /var/run/pgpool


配置host:

在master、slave1、slave2的/etc/hosts配置ip映射

192.168.123.180 master
192.168.123.181 slave1
192.168.123.182 slave2


在master上创建repusr账号:

su postgres
psql
create user repuser with password 'repuser';


防火墙开放:5432 9999 9898 9000 9694

4.5、启动pgpool

先在master上启动pgpool:

​pgpool -n -d -D > /var/log/pgpool/pgpool.log 2>&1 &​

再在slave1上启动pgpool:

​pgpool -n -d -D > /var/log/pgpool/pgpool.log 2>&1 &​

Master上的ifconfig会多一个虚拟ip出来

快速停止pgpool的指令:

​pgpool -m fast stop​

连接虚拟ip进入数据库:

Su postgres
psql -h 192.168.123.183 -p 9999


查看集群节点状态:

​show pool_nodes;​

写在安装后

写文档才发现,边安装边趟坑边记录,还要注意格式是多么愉(xin)快(ku)的事,本着开源精神,贴出来给要用到pg集群的小伙伴们参考,本文侵删