使用Docker部署openGauss国产数据库的操作方法

一、openGauss介绍

1.openGauss简介

openGauss是一款支持SQL2003标准语法，支持主备部署的高可用关系型数据库。

2.openGauss产品定位

多种存储模式支持复合业务场景，新引入提供原地更新存储引擎。
NUMA化数据结构支持高性能。
Paxos一致性日志复制协议，主备模式，CRC校验支持高可用。
支持全密态计算、账本数据库等安全特性，提供全方位端到端的数据安全保护。
通过Table Access Method接口层支持多存储引擎。

3.支持的架构和操作系统版本

x86-64 CentOS 7.6ARM64 openEuler 20.03 LTS

二、检查宿主机环境

1.检查系统版本

[root@node ~]# cat /etc/centos-release
CentOS Linux release 7.6.1810 (Core)

2.检查Docker状态

[root@node ~]# cat /etc/centos-release
CentOS Linux release 7.6.1810 (Core)
[root@node ~]# systemctl status docker
● docker.service – Docker Application Container Engine
Loaded: loaded (/usr/lib/systemd/system/docker.service; enabled; vendor preset: disabled)
Active: active (running) since Tue 2022-10-04 16:38:46 CST; 6min ago
Docs: https://docs.docker.com
Main PID: 10737 (dockerd)
Tasks: 175
Memory: 288.8M
CGroup: /system.slice/docker.service
├─10737 /usr/bin/dockerd -H fd:// –containerd=/run/containerd/containerd.sock
├─21641 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 9000 -container-ip 172.17.0.2 -container-port 9000
├─21647 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 9000 -container-ip 172.17.0.2 -container-port 9000
├─21712 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 6888 -container-ip 172.28.0.2 -container-port 6888
├─21718 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 6888 -container-ip 172.28.0.2 -container-port 6888
├─21727 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 3396 -container-ip 172.27.0.2 -container-port 3306
├─21733 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 3396 -container-ip 172.27.0.2 -container-port 3306
├─21747 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 8012 -container-ip 172.17.0.3 -container-port 80
├─21753 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 8012 -container-ip 172.17.0.3 -container-port 80
├─21781 /usr/bin/docker-proxy -proto udp -host-ip 0.0.0.0 -host-port 6888 -container-ip 172.28.0.2 -container-port 6888
├─21787 /usr/bin/docker-proxy -proto udp -host-ip :: -host-port 6888 -container-ip 172.28.0.2 -container-port 6888
├─21794 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 8129 -container-ip 172.27.0.3 -container-port 80
├─21799 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 8129 -container-ip 172.27.0.3 -container-port 80
├─21848 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 6800 -container-ip 172.28.0.2 -container-port 6800
├─21868 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 9080 -container-ip 172.17.0.4 -container-port 80
├─21874 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 6800 -container-ip 172.28.0.2 -container-port 6800
├─21881 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 9080 -container-ip 172.17.0.4 -container-port 80
├─21885 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 3306 -container-ip 192.168.224.3 -container-port 3306
├─21897 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 3306 -container-ip 192.168.224.3 -container-port 3306
├─21910 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 3544 -container-ip 172.17.0.5 -container-port 3306
├─21920 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 3544 -container-ip 172.17.0.5 -container-port 3306
├─21945 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 8712 -container-ip 172.17.0.6 -container-port 80
├─21951 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 8712 -container-ip 172.17.0.6 -container-port 80
├─23999 /usr/bin/docker-proxy -proto tcp -host-ip 0.0.0.0 -host-port 8987 -container-ip 192.168.224.2 -container-port 8181
└─24005 /usr/bin/docker-proxy -proto tcp -host-ip :: -host-port 8987 -container-ip 192.168.224.2 -container-port 8181

Oct 04 16:38:53 node dockerd[10737]: time=\”2022-10-04T16:38:53.566667153+08:00\” level=info msg=\”ignoring event\” container=b2b3518e620d51474c9679c…askDelete\”
Oct 04 16:38:54 node dockerd[10737]: time=\”2022-10-04T16:38:54+08:00\” level=info msg=\”Firewalld: docker zone already exists, returning\”
Oct 04 16:38:54 node dockerd[10737]: time=\”2022-10-04T16:38:54.414988302+08:00\” level=info msg=\”ignoring event\” container=b2b3518e620d51474c9679c…askDelete\”
Oct 04 16:38:55 node dockerd[10737]: time=\”2022-10-04T16:38:55+08:00\” level=info msg=\”Firewalld: docker zone already exists, returning\”
Oct 04 16:38:55 node dockerd[10737]: time=\”2022-10-04T16:38:55.726427597+08:00\” level=info msg=\”ignoring event\” container=b2b3518e620d51474c9679c…askDelete\”
Oct 04 16:38:56 node dockerd[10737]: time=\”2022-10-04T16:38:56+08:00\” level=info msg=\”Firewalld: docker zone already exists, returning\”
Oct 04 16:38:57 node dockerd[10737]: time=\”2022-10-04T16:38:57.225224508+08:00\” level=info msg=\”ignoring event\” container=b2b3518e620d51474c9679c…askDelete\”
Oct 04 16:38:58 node dockerd[10737]: time=\”2022-10-04T16:38:58+08:00\” level=info msg=\”Firewalld: docker zone already exists, returning\”
Oct 04 16:38:58 node dockerd[10737]: time=\”2022-10-04T16:38:58.973644718+08:00\” level=info msg=\”ignoring event\” container=b2b3518e620d51474c9679c…askDelete\”
Oct 04 16:39:01 node dockerd[10737]: time=\”2022-10-04T16:39:01+08:00\” level=info msg=\”Firewalld: docker zone already exists, returning\”
Hint: Some lines were ellipsized, use -l to show in full.

三、下载openGauss镜像

1.进入docker官方镜像仓库

2.openGauss镜像介绍

1.从3.0版本开始（包括3.0版本）2.容器采用openGauss数据库Lite版本3.默认启动后空载内存小于200M4.添加vi，ps，等基础命令

3.下载openGauss镜像

[root@node openguass]# docker pull enmotech/opengauss:3.0.0
3.0.0: Pulling from enmotech/opengauss
22c5ef60a68e: Pull complete
28692a7bf40a: Pull complete
53d8b65999fe: Pull complete
2feb7fb751a7: Pull complete
21970696c490: Pull complete
Digest: sha256:b8a21dfa15d57476528051f1b8b138dac45cfbad3ef97cba2b340433476147f8
Status: Downloaded newer image for enmotech/opengauss:3.0.0
docker.io/enmotech/opengauss:3.0.0

四、创建openGauss单节点容器

1.创建数据目录

mkdir -p /data/openguass/

2.创建openGauss容器

docker run –name opengauss -d –restart always –privileged=true -e GS_PASSWORD=Admin@123456 \\
-v /data/opengauss/mysql:/var/lib/opengauss -u root -p 15432:5432 \\
enmotech/opengauss:3.0.0

GS_PASSWORD：设置openGauss数据库的超级用户omm以及测试用户gaussdb的密码GS_NODENAME：数据库节点名称，默认为gaussdb。GS_USERNAME：数据库连接用户名，默认为gaussdb。GS_PORT：数据库端口，默认为5432。

3.查看openGauss容器状态

[root@node openguass]# docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
b5abda90d924 enmotech/opengauss:3.0.0 \”entrypoint.sh gauss…\” 25 seconds ago Up 24 seconds 0.0.0.0:15432->5432/tcp, :::15432->5432/tcp

4.连接测试openGauss

[root@node openguass]# docker exec -it 360296c286c9 /bin/bash
root@360296c286c9:/# su – omm
omm@360296c286c9:~$ gsql
gsql ((openGauss 3.0.0 build 02c14696) compiled at 2022-04-01 18:12:34 commit 0 last mr )
Non-SSL connection (SSL connection is recommended when requiring high-security)
Type \”help\” for help.

omm=#

5.外部远程连接

[admin@master ~]$ gsql -d postgres -U gaussdb -W\’Admin@123456\’ -h 192.168.3.167 -p15432
gsql ((openGauss 3.1.0 build 4e931f9a) compiled at 2022-09-29 14:19:24 commit 0 last mr )
Non-SSL connection (SSL connection is recommended when requiring high-security)
Type \”help\” for help.

openGauss=>

五、创建主从复制的openGauss容器

1.下载运行脚本

wget https://raw.githubusercontent.com/enmotech/enmotech-docker-opengauss/master/create_master_slave.sh

2.脚本中自定义参数解释

OG_SUBNET (容器所在网段) [172.11.0.0/24]
GS_PASSWORD (定义数据库密码)[Enmo@123]
MASTER_IP (主库IP)[172.11.0.101]
SLAVE_1_IP (备库IP)[172.11.0.102]
MASTER_HOST_PORT (主库数据库服务端口)[5432]
MASTER_LOCAL_PORT (主库通信端口)[5434]
SLAVE_1_HOST_PORT (备库数据库服务端口)[6432]
SLAVE_1_LOCAL_PORT (备库通信端口)[6434]
MASTER_NODENAME (主节点名称)[opengauss_master]
SLAVE_NODENAME （备节点名称）[opengauss_slave1]

3.查看创建脚本

[root@node openguass]# cat create_master_slave.sh
#!/bin/bash -e
# Parameters
#!/bin/bash

#set OG_SUBNET,GS_PASSWORD,MASTER_IP,SLAVE_1_IP,MASTER_HOST_PORT,MASTER_LOCAL_PORT,SLAVE_1_HOST_PORT,SLAVE_1_LOCAL_PORT,MASTER_NODENAME,SLAVE_NODENAME

read -p \”Please input OG_SUBNET (容器所在网段) [172.11.0.0/24]: \” OG_SUBNET
OG_SUBNET=${OG_SUBNET:-172.11.0.0/24}
echo \”OG_SUBNET set $OG_SUBNET\”

read -p \”Please input GS_PASSWORD (定义数据库密码)[Enmo@123]: \” GS_PASSWORD
GS_PASSWORD=${GS_PASSWORD:-Enmo@123}
echo \”GS_PASSWORD set $GS_PASSWORD\”

read -p \”Please input MASTER_IP (主库IP)[172.11.0.101]: \” MASTER_IP
MASTER_IP=${MASTER_IP:-172.11.0.101}
echo \”MASTER_IP set $MASTER_IP\”

read -p \”Please input SLAVE_1_IP (备库IP)[172.11.0.102]: \” SLAVE_1_IP
SLAVE_1_IP=${SLAVE_1_IP:-172.11.0.102}
echo \”SLAVE_1_IP set $SLAVE_1_IP\”

read -p \”Please input MASTER_HOST_PORT (主库数据库服务端口)[5432]: \” MASTER_HOST_PORT
MASTER_HOST_PORT=${MASTER_HOST_PORT:-5432}
echo \”MASTER_HOST_PORT set $MASTER_HOST_PORT\”

read -p \”Please input MASTER_LOCAL_PORT (主库通信端口)[5434]: \” MASTER_LOCAL_PORT
MASTER_LOCAL_PORT=${MASTER_LOCAL_PORT:-5434}
echo \”MASTER_LOCAL_PORT set $MASTER_LOCAL_PORT\”

read -p \”Please input SLAVE_1_HOST_PORT (备库数据库服务端口)[6432]: \” SLAVE_1_HOST_PORT
SLAVE_1_HOST_PORT=${SLAVE_1_HOST_PORT:-6432}
echo \”SLAVE_1_HOST_PORT set $SLAVE_1_HOST_PORT\”

read -p \”Please input SLAVE_1_LOCAL_PORT (备库通信端口)[6434]: \” SLAVE_1_LOCAL_PORT
SLAVE_1_LOCAL_PORT=${SLAVE_1_LOCAL_PORT:-6434}
echo \”SLAVE_1_LOCAL_PORT set $SLAVE_1_LOCAL_PORT\”

read -p \”Please input MASTER_NODENAME [opengauss_master]: \” MASTER_NODENAME
MASTER_NODENAME=${MASTER_NODENAME:-opengauss_master}
echo \”MASTER_NODENAME set $MASTER_NODENAME\”

read -p \”Please input SLAVE_NODENAME [opengauss_slave1]: \” SLAVE_NODENAME
SLAVE_NODENAME=${SLAVE_NODENAME:-opengauss_slave1}
echo \”SLAVE_NODENAME set $SLAVE_NODENAME\”

read -p \”Please input openGauss VERSION [3.0.0]: \” VERSION
VERSION=${VERSION:-3.0.0}
echo \”openGauss VERSION set $VERSION\”

echo \”starting \”

docker network create –subnet=$OG_SUBNET opengaussnetwork \\
|| {
echo \”\”
echo \”ERROR: OpenGauss Database Network was NOT successfully created.\”
echo \”HINT: opengaussnetwork Maybe Already Exsist Please Execute \’docker network rm opengaussnetwork\’ \”
exit 1
}
echo \”OpenGauss Database Network Created.\”

docker run –network opengaussnetwork –ip $MASTER_IP –privileged=true \\
–name $MASTER_NODENAME -h $MASTER_NODENAME -p $MASTER_HOST_PORT:$MASTER_HOST_PORT -d \\
-e GS_PORT=$MASTER_HOST_PORT \\
-e OG_SUBNET=$OG_SUBNET \\
-e GS_PASSWORD=$GS_PASSWORD \\
-e NODE_NAME=$MASTER_NODENAME \\
-e REPL_CONN_INFO=\”replconninfo1 = \’localhost=$MASTER_IP localport=$MASTER_LOCAL_PORT localservice=$MASTER_HOST_PORT remotehost=$SLAVE_1_IP remoteport=$SLAVE_1_LOCAL_PORT remoteservice=$SLAVE_1_HOST_PORT\’\\n\” \\
enmotech/opengauss:$VERSION -M primary \\
|| {
echo \”\”
echo \”ERROR: OpenGauss Database Master Docker Container was NOT successfully created.\”
exit 1
}
echo \”OpenGauss Database Master Docker Container created.\”

sleep 30s

docker run –network opengaussnetwork –ip $SLAVE_1_IP –privileged=true \\
–name $SLAVE_NODENAME -h $SLAVE_NODENAME -p $SLAVE_1_HOST_PORT:$SLAVE_1_HOST_PORT -d \\
-e GS_PORT=$SLAVE_1_HOST_PORT \\
-e OG_SUBNET=$OG_SUBNET \\
-e GS_PASSWORD=$GS_PASSWORD \\
-e NODE_NAME=$SLAVE_NODENAME \\
-e REPL_CONN_INFO=\”replconninfo1 = \’localhost=$SLAVE_1_IP localport=$SLAVE_1_LOCAL_PORT localservice=$SLAVE_1_HOST_PORT remotehost=$MASTER_IP remoteport=$MASTER_LOCAL_PORT remoteservice=$MASTER_HOST_PORT\’\\n\” \\
enmotech/opengauss:$VERSION -M standby \\
|| {
echo \”\”
echo \”ERROR: OpenGauss Database Slave1 Docker Container was NOT successfully created.\”
exit 1
}
echo \”OpenGauss Database Slave1 Docker Container created.\”

4.运行创建脚本

[root@node openguass]# sh create_master_slave.sh
Please input OG_SUBNET (容器所在网段) [172.11.0.0/24]:
OG_SUBNET set 172.11.0.0/24
Please input GS_PASSWORD (定义数据库密码)[Enmo@123]:
GS_PASSWORD set Enmo@123
Please input MASTER_IP (主库IP)[172.11.0.101]:
MASTER_IP set 172.11.0.101
Please input SLAVE_1_IP (备库IP)[172.11.0.102]:
SLAVE_1_IP set 172.11.0.102
Please input MASTER_HOST_PORT (主库数据库服务端口)[5432]:
MASTER_HOST_PORT set 5432
Please input MASTER_LOCAL_PORT (主库通信端口)[5434]:
MASTER_LOCAL_PORT set 5434
Please input SLAVE_1_HOST_PORT (备库数据库服务端口)[6432]:
SLAVE_1_HOST_PORT set 6432
Please input SLAVE_1_LOCAL_PORT (备库通信端口)[6434]:
SLAVE_1_LOCAL_PORT set 6434
Please input MASTER_NODENAME [opengauss_master]:
MASTER_NODENAME set opengauss_master
Please input SLAVE_NODENAME [opengauss_slave1]:
SLAVE_NODENAME set opengauss_slave1
Please input openGauss VERSION [3.0.0]:
openGauss VERSION set 3.0.0
starting
97d6c3667b72511c0f09eea31b54b6c5d315af06252db1a7961b0861069f2b5a
OpenGauss Database Network Created.
24c3c7ba6b162fabbe9ac4e21f4b188ebd49acbbba91e7458d287ad6731ce48f
OpenGauss Database Master Docker Container created.
0376996ac00d91173e24ebea274d0750be9093269dcfdf479722c68952aa93a1
OpenGauss Database Slave1 Docker Container created.

5.查看容器状态

[root@node openguass]# docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
0376996ac00d enmotech/opengauss:3.0.0 \”entrypoint.sh -M st…\” About a minute ago Up About a minute 5432/tcp, 0.0.0.0:6432->6432/tcp, :::6432->6432/tcp opengauss_slave1
24c3c7ba6b16 enmotech/opengauss:3.0.0 \”entrypoint.sh -M pr…\” 2 minutes ago Up 2 minutes 0.0.0.0:5432->5432/tcp, :::5432->5432/tcp opengauss_master

6.验证主从状态

[root@node openguass]# docker exec -it 24c3c7ba6b16 /bin/bash
root@opengauss_master:/# su – omm
omm@opengauss_master:~$ gs_ctl query -D /var/lib/opengauss/data/
[2022-10-04 10:13:45.084][346][][gs_ctl]: gs_ctl query ,datadir is /var/lib/opengauss/data
HA state:
local_role : Primary
static_connections : 1
db_state : Normal
detail_information : Normal

Senders info:
sender_pid : 319
local_role : Primary
peer_role : Standby
peer_state : Normal
state : Streaming
sender_sent_location : 0/40002E8
sender_write_location : 0/40002E8
sender_flush_location : 0/40002E8
sender_replay_location : 0/40002E8
receiver_received_location : 0/40002E8
receiver_write_location : 0/40002E8
receiver_flush_location : 0/40002E8
receiver_replay_location : 0/40002E8
sync_percent : 100%
sync_state : Sync
sync_priority : 1
sync_most_available : On
channel : 172.11.0.101:5434–>172.11.0.102:35454