Building a Highly Available MySQL Cluster: Best Practice Guide for Master-Slave Replication and Load Balancing

Building a Highly Available MySQL Cluster: Best Practice Guide for Master-Slave Replication and Load Balancing

In recent years, with the rapid development of the Internet, databases have become a large One of the core data storage and processing engines of some web applications. In this scenario, high availability and load balancing have become important considerations in database architecture design. As one of the most popular open source relational databases, MySQL's cluster deployment solution has attracted much attention.

This article will introduce how to implement a highly available database cluster through MySQL master-slave replication and load balancing. We will first introduce the principle and configuration of MySQL master-slave replication, and then discuss how to use a load balancer to balance database access traffic.

1. The principle and configuration of MySQL master-slave replication

MySQL master-slave replication is a database replication technology based on log transmission, which records modification operations on the master database into binary logs , and then modify the slave database by reading these logs to achieve data synchronization between the master database and the slave database.

Configuring MySQL master-slave replication requires the following steps:

1. Configuring the master database

Add in the configuration file my.cnf of the master database The following configuration:

[mysqld]
server-id=1
log_bin=mysql-bin
binlog_format=ROW

2. Create a replication account and authorize

Log in to the main database, create a replication account and authorize replication permissions:

CREATE USER 'repl'@'slaveip' IDENTIFIED BY 'password';
GRANT REPLICATION SLAVE ON *.* TO 'repl'@'slaveip';
FLUSH PRIVILEGES;

will ## Replace #slaveip with the IP address of the slave database, and password with the password of the copied account.

Start the binary log of the main database

mysql> FLUSH TABLES WITH READ LOCK;
mysql> SHOW MASTER STATUS;

File and Position will be used later when configuring the slave database.

Configuring the slave database

[mysqld]
server-id=2

Start replication from the database

mysql> CHANGE MASTER TO MASTER_HOST='masterip', MASTER_USER='repl', MASTER_PASSWORD='password', MASTER_LOG_FILE='filename', MASTER_LOG_POS=position;
mysql> START SLAVE;

masteripReplace the IP address of the main database, password with the password of the replication account, filename and position with the values ​​recorded in the previous step.

global
    maxconn 4096

defaults
    mode tcp
    timeout connect 5000ms
    timeout client 50000ms
    timeout server 50000ms

listen mysql-cluster
    bind 0.0.0.0:3306
    mode tcp
    balance roundrobin
    option mysql-check user haproxy_check
    server mysql-1 masterip:3306 check
    server mysql-2 slaveip:3306 check

masterip and slaveip with the IP addresses of the master and slave databases.

connect_error) {
    die("Connection failed: " . $conn->connect_error);
}

$sql = "SELECT * FROM users";
$result = $conn->query($sql);

if($result->num_rows > 0) {
    while($row = $result->fetch_assoc()) {
        echo "ID: " . $row["id"] . " - Name: " . $row["name"] . "
";
    }
} else {
    echo "0 results";
}

$conn->close();
?>

Replace load-balancer-ip with the IP address of the load balancer, and username, password, and database with your correct database login credentials.

The above is the detailed content of Building a Highly Available MySQL Cluster: Best Practice Guide for Master-Slave Replication and Load Balancing. For more information, please follow other related articles on the PHP Chinese website!