How to configure a highly available database cluster on Linux
In modern Internet applications, databases play a very important role. In order to ensure data reliability and high availability, many companies configure highly available database clusters. This article will introduce how to configure a highly available database cluster on Linux to ensure that when the database fails, it can quickly switch to a standby database to ensure the continuous operation of the application.
We will use MySQL as a sample database to demonstrate how to configure a highly available MySQL database cluster on Linux.
First, you need to install MySQL on Linux. You can use the following command:
sudo apt-get install mysql-server
In a high-availability database cluster, master-slave replication is usually used to achieve data synchronization. In this mode, one database server serves as the master server, responsible for writing and updating data, and other database servers serve as slave servers, responsible for reading data and synchronizing the data of the master server in real time.
First, you need to configure it on the main server. Edit the MySQL configuration file my.cnf
, find and modify the following configuration:
server-id=1 log_bin=mysql-bin binlog_format=row
Then, restart the MySQL service.
Next, configure on the slave server. Similarly, you need to edit the MySQL configuration file my.cnf
, find and modify the following configuration:
server-id=2 relay-log=mysql-relay-bin log_slave_updates=1 read_only=1
Then, restart the MySQL service.
Now that the master-slave server has been successfully configured, you need to set up master-slave synchronization. On the master server, use the following command to create a user for synchronization:
CREATE USER 'replication'@'%' IDENTIFIED BY 'your_password'; GRANT REPLICATION SLAVE ON *.* TO 'replication'@'%'; FLUSH PRIVILEGES;
Then, execute the following command to obtain the binary log file and location of the master server:
SHOW MASTER STATUS;
The result is similar to :
+---------------+----------+--------------+------------------+ | File | Position | Binlog_Do_DB | Binlog_Ignore_DB | +---------------+----------+--------------+------------------+ | mysql-bin.0001| 107 | test | | +---------------+----------+--------------+------------------+
Next, execute the following command on the slave server to start master-slave synchronization:
CHANGE MASTER TO MASTER_HOST='master_server_ip', MASTER_USER='replication', MASTER_PASSWORD='your_password', MASTER_LOG_FILE='mysql-bin.0001', MASTER_LOG_POS=107; START SLAVE;
Execute the following command on the slave server to view the master-slave synchronization status:
SHOW SLAVE STATUSG
If both Slave_IO_Running
and Slave_SQL_Running
are displayed as Yes
, it means that the master-slave synchronization has been successfully set up.
When the primary server fails, you need to manually switch to the standby database. To facilitate switching, Keepalived and HAProxy can be used to implement automatic switching.
First, you need to install Keepalived and HAProxy. You can use the following command:
sudo apt-get install keepalived haproxy
Then, edit the Keepalived configuration file /etc/keepalived/keepalived.conf
and modify the following configuration:
vrrp_script chk_mysql { script "killall -0 mysqld" interval 2 weight -2 } vrrp_instance VI_1 { state MASTER interface eth0 virtual_router_id 51 priority 100 advert_int 1 authentication { auth_type PASS auth_pass your_password } track_script { chk_mysql } virtual_ipaddress { 192.168.1.100/24 } }
Save and close the file.
Next, edit the HAProxy configuration file /etc/haproxy/haproxy.cfg
and add the following configuration:
listen mysql-cluster bind 192.168.1.100:3306 mode tcp option mysql-check user haproxy_check balance roundrobin server mysql1 192.168.1.101:3306 check server mysql2 192.168.1.102:3306 check backup
Save and close the file.
Finally, restart the Keepalived and HAProxy services:
sudo service keepalived restart sudo service haproxy restart
Now, when the primary server fails, Keepalived will switch the virtual IP address to the standby database and forward traffic to HAProxy.
Through the above steps, we successfully configured a highly available database cluster on Linux. When the database fails, the system automatically switches to the standby database, ensuring data reliability and high availability. I hope this article can help you configure a highly available database cluster.
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