Table of contents
5.4 Install all MHA components and test
5.4.2 Use of manager and node tools
5.4.3 Configure passwordless authentication on all servers
5.4.4 Configure MHA on the manager node
5.4.5 The first configuration requires manually opening the virtual IP on the Master node.
5.4.6 Test ssh on the manager node
5.4.7 Test mysql master-slave connection on the manager node
5.4.8 Start MHA on the manager node
5.4.12 To shut down the manager service
1. What is MHA
MHA (Master High Availability) is an excellent set of failover and master-slave replication software in a MySQL high-availability environment. The emergence of MHA is to solve the single point problem of MySQL . During the MySQL failover process, MHA can automatically complete the failover operation within 0-30 seconds. MHA can ensure data consistency to the greatest extent during the failover process to achieve true high availability.
2. Composition of MHA
-
MHA Node (data node) MHA Node runs on every MySQL server .
-
MHA Manager (Management Node) MHA Manager can be deployed on an independent machine to manage multiple master-slave clusters; it can also be deployed on a slave node. MHA Manager will periodically detect the master node in the cluster. When the master fails, it can automatically promote the slave with the latest data to the new master and then redirect all other slaves to the new master. The entire failover process is completely transparent to the application.
3.Features of MHA
-
During the automatic failover process, MHA attempts to save the binary log from the downed main server to ensure that data is not lost to the greatest extent
-
Using semi-synchronous replication can greatly reduce the risk of data loss. If only one slave has received the latest binary log, MHA can apply the latest binary log to all other slave servers, thus ensuring the data consistency of all nodes.
-
Currently, MHA supports one master and multiple slaves architecture, with at least three services, that is, one master and two slaves.
MHA Manger manages multiple sets of master-slave replication.
4. Working principle of MHA
The working principle of MHA is summarized as follows:
1. Save binary log events (binlog events) from the crashed master;
2. Identify slave logs containing the latest updates
3. Apply the difference relay log to other slaves
4. Apply binary log events saved from master
5. Promote a salve to the new master
6. Let other slaves connect to the master to copy.
5. Build MySQL MHA
MHA: In order to solve the problem of failover, data preservation as much as possible, and the consistency of all node logs
5.1 Experimental ideas
5.1.1 MHA architecture
- Database installation
- One master and two slaves
- MHA build
5.1.2 Fault simulation
- Main database failure
- The alternative main library becomes the main library
- The original failed master database is restored and rejoins the MHA to become a slave database.
5.2 Experimental environment
- System, mysql version, IP, components
- MHA manager node server: CentOS7.6 (64-bit) manager/192.168.181.103, install MHA node and manager components
- Master node server: CentOS7.6 (64-bit) mysql1/192.168.181.100, install mysql5.7 and MHA node components
- Slave1 node server: CentOS7.6 (64-bit) mysql2/192.168.181.101, install mysql5.7, MHA node components
- Slave2 node server: CentOS7.6 (64-bit) mysql3/192.168.181.102, install mysql5.7, MHA node components
5.3 Preparation
systemctl stop firewalld
systemctl disable firewalld
setenforce 0
① Master、Slave1、Slave2 节点上安装 mysql5.7
② 修改 Master、Slave1、Slave2 节点的主机名
hostnamectl set-hostname Master
hostnamectl set-hostname Slave1
hostnamectl set-hostname Slave2
③ 修改 Master、Slave1、Slave2 节点的 Mysql主配置文件/etc/my.cnf
##Master 节点##
vim /etc/my.cnf
[mysqld]
server-id = 1
log_bin = master-bin
log-slave-updates = true
systemctl restart mysqld
##Slave1 节点##
vim /etc/my.cnf
server-id = 2 #三台服务器的 server-id 不能一样
log_bin = master-bin
relay-log = relay-log-bin
relay-log-index = slave-relay-bin.index
systemctl restart mysqld
###Slave2 节点##
vim /etc/my.cnf #三台服务器的 server-id 不能一样
server-id = 3
relay-log = relay-log-bin
relay-log-index = slave-relay-bin.index
systemctl restart mysqld
④ 在 Master、Slave1、Slave2 节点上都创建两个软链接
ln -s /usr/local/mysql/bin/mysql /usr/sbin/
ln -s /usr/local/mysql/bin/mysqlbinlog /usr/sbin/
⑤.配置 mysql 一主两从
(1)所有数据库节点进行 mysql 授权
mysql -uroot -p
grant replication slave on *.* to 'myslave'@'192.168.181.%' identified by 'ztt123'; #从数据库同步使用
grant all privileges on *.* to 'mha'@'192.168.181.%' identified by 'manager'; #manager 使用
grant all privileges on *.* to 'mha'@'master' identified by 'manager'; #防止从库通过主机名连接不上主库
grant all privileges on *.* to 'mha'@'slave1' identified by 'manager';
grant all privileges on *.* to 'mha'@'slave2' identified by 'manager';
flush privileges;
(2)在 Master 节点查看二进制文件和同步点
show master status;
+-------------------+----------+--------------+------------------+-------------------+
| File | Position | Binlog_Do_DB | Binlog_Ignore_DB | Executed_Gtid_Set |
+-------------------+----------+--------------+------------------+-------------------+
| master-bin.000001 | 2045 | | | |
+-------------------+----------+--------------+------------------+-------------------+
(3)在 Slave1、Slave2 节点执行同步操作
change master to master_host='192.168.181.100',master_user='myslave',master_password='ztt123',master_log_file='master-bin.000001',master_log_pos=2045;
start slave;
(4)在 Slave1、Slave2 节点查看数据同步结果
show slave status\G
//确保 IO 和 SQL 线程都是 Yes,代表同步正常。
Slave_IO_Running: Yes
Slave_SQL_Running: Yes
(5)两个从库必须设置为只读模式:
set global read_only=1;
(6)插入数据测试数据库同步
##在 Master 主库插入条数据,测试是否同步##
create database test_db;
use test_db;
create table test(id int);
insert into test(id) values (1);
5.4 Install all MHA components and test
5.4.1 Install MHA software
(1)所有服务器上都安装 MHA 依赖的环境,首先安装 epel 源
yum install epel-release --nogpgcheck -y
yum install -y perl-DBD-MySQL \
perl-Config-Tiny \
perl-Log-Dispatch \
perl-Parallel-ForkManager \
perl-ExtUtils-CBuilder \
perl-ExtUtils-MakeMaker \
perl-CPAN
(2)安装 MHA 软件包,先在所有服务器上必须先安装 node 组件
对于每个操作系统版本不一样,这里 CentOS7.6选择 0.57 版本。
在所有服务器上必须先安装 node 组件,最后在 MHA-manager 节点上安装 manager 组件,因为 manager 依赖 node 组件。
cd /opt
tar zxvf mha4mysql-node-0.57.tar.gz
cd mha4mysql-node-0.57
perl Makefile.PL
make && make install
(3)在 MHA manager 节点上安装 manager 组件
cd /opt
tar zxvf mha4mysql-manager-0.57.tar.gz
cd mha4mysql-manager-0.57
perl Makefile.PL
make && make install
5.4.2 Use of manager and node tools
#manager 组件安装后在/usr/local/bin 下面会生成几个工具,主要包括以下几个:
masterha_check_ssh 检查 MHA 的 SSH 配置状况
masterha_check_repl 检查 MySQL 复制状况
masterha_manger 启动 manager的脚本
masterha_check_status 检测当前 MHA 运行状态
masterha_master_monitor 检测 master 是否宕机
masterha_master_switch 控制故障转移(自动或者 手动)
masterha_conf_host 添加或删除配置的 server 信息
masterha_stop 关闭manager
#node 组件安装后也会在/usr/local/bin 下面会生成几个脚本(这些工具通常由 MHAManager 的脚本触发,无需人为操作)主要如下:
save_binary_logs 保存和复制 master 的二进制日志
apply_diff_relay_logs 识别差异的中继日志事件并将其差异的事件应用于其他的 slave
filter_mysqlbinlog 去除不必要的 ROLLBACK 事件(MHA 已不再使用这个工具)
purge_relay_logs 清除中继日志(不会阻塞 SQL 线程)
5.4.3 Configure passwordless authentication on all servers
(1)在 manager 节点上配置到所有数据库节点的无密码认证
ssh-keygen -t rsa #一路按回车键
ssh-copy-id 192.168.181.101
ssh-copy-id 192.168.181.102
ssh-copy-id 192.168.181.100
(2)在 master 上配置到数据库节点 slave1 和 slave2 的无密码认证
ssh-keygen -t rsa
ssh-copy-id 192.168.181.101
ssh-copy-id 192.168.181.102
(3)在 slave1 上配置到数据库节点 master 和 slave2 的无密码认证
ssh-keygen -t rsa
ssh-copy-id 192.168.181.100
ssh-copy-id 192.168.181.102
(4)在 slave2 上配置到数据库节点 master 和 slave1 的无密码认证
ssh-keygen -t rsa
ssh-copy-id 192.168.181.100
ssh-copy-id 192.168.181.101
5.4.4 Configure MHA on the manager node
(1)在 manager 节点上复制相关脚本到/usr/local/bin 目录
cp -rp /opt/mha4mysql-manager-0.57/samples/scripts /usr/local/bin
//拷贝后会有四个执行文件
ll /usr/local/bin/scripts/
----------------------------------------------------------------------------------------------------------
master_ip_failover #自动切换时 VIP 管理的脚本
master_ip_online_change #在线切换时 vip 的管理
power_manager #故障发生后关闭主机的脚本
send_report #因故障切换后发送报警的脚本
----------------------------------------------------------------------------------------------------------
(2)复制上述的自动切换时 VIP 管理的脚本到 /usr/local/bin 目录,这里使用master_ip_failover脚本来管理 VIP 和故障切换
cp /usr/local/bin/scripts/master_ip_failover /usr/local/bin
(3)修改内容如下:(删除原有内容,直接复制并修改vip相关参数)
vim /usr/local/bin/master_ip_failover
#!/usr/bin/env perl
use strict;
use warnings FATAL => 'all';
use Getopt::Long;
my (
$command, $ssh_user, $orig_master_host, $orig_master_ip,
$orig_master_port, $new_master_host, $new_master_ip, $new_master_port
);
#############################添加内容部分#########################################
my $vip = '192.168.181.88'; #指定vip的地址
my $brdc = '192.168.181.255'; #指定vip的广播地址
my $ifdev = 'ens33'; #指定vip绑定的网卡
my $key = '1'; #指定vip绑定的虚拟网卡序列号
my $ssh_start_vip = "/sbin/ifconfig ens33:$key $vip"; #代表此变量值为ifconfig ens33:1 192.168.181.88
my $ssh_stop_vip = "/sbin/ifconfig ens33:$key down"; #代表此变量值为ifconfig ens33:1 192.168.181.88 down
my $exit_code = 0; #指定退出状态码为0
#my $ssh_start_vip = "/usr/sbin/ip addr add $vip/24 brd $brdc dev $ifdev label $ifdev:$key;/usr/sbin/arping -q -A -c 1 -I $ifdev $vip;iptables -F;";
#my $ssh_stop_vip = "/usr/sbin/ip addr del $vip/24 dev $ifdev label $ifdev:$key";
##################################################################################
GetOptions(
'command=s' => \$command,
'ssh_user=s' => \$ssh_user,
'orig_master_host=s' => \$orig_master_host,
'orig_master_ip=s' => \$orig_master_ip,
'orig_master_port=i' => \$orig_master_port,
'new_master_host=s' => \$new_master_host,
'new_master_ip=s' => \$new_master_ip,
'new_master_port=i' => \$new_master_port,
);
exit &main();
sub main {
print "\n\nIN SCRIPT TEST====$ssh_stop_vip==$ssh_start_vip===\n\n";
if ( $command eq "stop" || $command eq "stopssh" ) {
my $exit_code = 1;
eval {
print "Disabling the VIP on old master: $orig_master_host \n";
&stop_vip();
$exit_code = 0;
};
if ($@) {
warn "Got Error: $@\n";
exit $exit_code;
}
exit $exit_code;
}
elsif ( $command eq "start" ) {
my $exit_code = 10;
eval {
print "Enabling the VIP - $vip on the new master - $new_master_host \n";
&start_vip();
$exit_code = 0;
};
if ($@) {
warn $@;
exit $exit_code;
}
exit $exit_code;
}
elsif ( $command eq "status" ) {
print "Checking the Status of the script.. OK \n";
exit 0;
}
else {
&usage();
exit 1;
}
}
sub start_vip() {
`ssh $ssh_user\@$new_master_host \" $ssh_start_vip \"`;
}
## A simple system call that disable the VIP on the old_master
sub stop_vip() {
`ssh $ssh_user\@$orig_master_host \" $ssh_stop_vip \"`;
}
sub usage {
print
"Usage: master_ip_failover --command=start|stop|stopssh|status --orig_master_host=host --orig_master_ip=ip --orig_master_port=port --new_master_host=host --new_master_ip=ip --new_master_port=port\n";
}
(4)创建 MHA 软件目录并拷贝配置文件,这里使用app1.cnf配置文件来管理 mysql 节点服务器
mkdir /etc/masterha
cp /opt/mha4mysql-manager-0.57/samples/conf/app1.cnf /etc/masterha
vim /etc/masterha/app1.cnf #删除原有内容,直接复制并修改节点服务器的IP地址
[server default]
manager_log=/var/log/masterha/app1/manager.log
manager_workdir=/var/log/masterha/app1
master_binlog_dir=/usr/local/mysql/data
master_ip_failover_script=/usr/local/bin/master_ip_failover
master_ip_online_change_script=/usr/local/bin/master_ip_online_change
password=manager
ping_interval=1
remote_workdir=/tmp
repl_password=123456
repl_user=myslave
secondary_check_script=/usr/local/bin/masterha_secondary_check -s 192.168.10.101 -s 192.168.10.102
shutdown_script=""
ssh_user=root
user=mha
[server1]
hostname=192.168.181.100
port=3306
[server2]
candidate_master=1
check_repl_delay=0
hostname=192.168.181.101
port=3306
[server3]
hostname=192.168.181.102
port=3306
----------------------------------------------------------------------------------------------------------
[server default]
manager_log=/var/log/masterha/app1/manager.log #manager日志
manager_workdir=/var/log/masterha/app1 #manager工作目录
master_binlog_dir=/usr/local/mysql/data/ #master保存binlog的位置,这里的路径要与master里配置的binlog的路径一致,以便MHA能找到
master_ip_failover_script=/usr/local/bin/master_ip_failover #设置自动failover时候的切换脚本,也就是上面的那个脚本
master_ip_online_change_script=/usr/local/bin/master_ip_online_change #设置手动切换时候的切换脚本
password=manager #设置mysql中root用户的密码,这个密码是前文中创建监控用户的那个密码
ping_interval=1 #设置监控主库,发送ping包的时间间隔,默认是3秒,尝试三次没有回应的时候自动进行failover
remote_workdir=/tmp #设置远端mysql在发生切换时binlog的保存位置
repl_password=123 #设置复制用户的密码
repl_user=myslave #设置复制用户的用户
report_script=/usr/local/send_report #设置发生切换后发送的报警的脚本
secondary_check_script=/usr/local/bin/masterha_secondary_check -s 192.168.181.101 -s 192.168.181.102 #指定检查的从服务器IP地址
shutdown_script="" #设置故障发生后关闭故障主机脚本(该脚本的主要作用是关闭主机防止发生脑裂,这里没有使用)
ssh_user=root #设置ssh的登录用户名
user=mha #设置监控用户root
[server1]
hostname=192.168.181.100
port=3306
[server2]
hostname=192.168.181.101
port=3306
candidate_master=1
#设置为候选master,设置该参数以后,发生主从切换以后将会将此从库提升为主库,即使这个从库不是集群中最新的slave
check_repl_delay=0
#默认情况下如果一个slave落后master 超过100M的relay logs的话,MHA将不会选择该slave作为一个新的master, 因为对于这个slave的恢复需要花费很长时间;通过设置check_repl_delay=0,MHA触发切换在选择一个新的master的时候将会忽略复制延时,这个参数对于设置了candidate_master=1的主机非常有用,因为这个候选主在切换的过程中一定是新的master
[server3]
hostname=192.168.181.102
port=3306
----------------------------------------------------------------------------------------------------------
5.4.5 The first configuration requires manually opening the virtual IP on the Master node.
/sbin/ifconfig ens33:1 192.168.181.88/245.4.6 Test ssh on the manager node
在 manager 节点上测试 ssh 无密码认证,如果正常最后会输出 successfully,如下所示。
masterha_check_ssh -conf=/etc/masterha/app1.cnf
Tue Nov 26 23:09:45 2020 - [warning] Global configuration file /etc/masterha_default.cnf not found. Skipping.
Tue Nov 26 23:09:45 2020 - [info] Reading application default configuration from /etc/masterha/app1.cnf..
Tue Nov 26 23:09:45 2020 - [info] Reading server configuration from /etc/masterha/app1.cnf..
Tue Nov 26 23:09:45 2020 - [info] Starting SSH connection tests..
Tue Nov 26 23:09:46 2020 - [debug]
Tue Nov 26 23:09:45 2020 - [debug] Connecting via SSH from [email protected](192.168.80.11:22) to [email protected](192.168.80.12:22)..
Tue Nov 26 23:09:46 2020 - [debug] ok.
Tue Nov 26 23:09:47 2020 - [debug]
Tue Nov 26 23:09:46 2020 - [debug] Connecting via SSH from [email protected](192.168.80.12:22) to [email protected](192.168.80.11:22)..
Tue Nov 26 23:09:47 2020 - [debug] ok.
Tue Nov 26 23:09:47 2020 - [info] All SSH connection tests passed successfully.
5.4.7 Test mysql master-slave connection on the manager node
在 manager 节点上测试 mysql 主从连接情况,最后出现 MySQL Replication Health is OK 字样说明正常。如下所示。
masterha_check_repl -conf=/etc/masterha/app1.cnf
Tue Nov 26 23:10:29 2020 - [info] Slaves settings check done.
Tue Nov 26 23:10:29 2020 - [info]
192.168.80.11(192.168.80.11:3306) (current master)
+--192.168.80.12(192.168.80.12:3306)
Tue Nov 26 23:10:29 2020 - [info] Checking replication health on 192.168.80.12..
Tue Nov 26 23:10:29 2020 - [info] ok.
Tue Nov 26 23:10:29 2020 - [info] Checking master_ip_failover_script status:
Tue Nov 26 23:10:29 2020 - [info] /usr/local/bin/master_ip_failover --command=status --ssh_user=root --orig_master_host=192.168.80.11 --orig_master_ip=192.168.80.11 --orig_master_port=3306
IN SCRIPT TEST====/sbin/ifconfig ens33:1 down==/sbin/ifconfig ens33:1 192.168.80.200===
Checking the Status of the script.. OK
Tue Nov 26 23:10:29 2020 - [info] OK.
Tue Nov 26 23:10:29 2020 - [warning] shutdown_script is not defined.
Tue Nov 26 23:10:29 2020 - [info] Got exit code 0 (Not master dead).
MySQL Replication Health is OK.
5.4.8 Start MHA on the manager node
nohup masterha_manager --conf=/etc/masterha/app1.cnf --remove_dead_master_conf --ignore_last_failover < /dev/null > /var/log/masterha/app1/manager.log 2>&1 &
#生产中java 服务启动的方式
nohup java -jar 微服务名称-( war jar) &
----------------------------------------------------------------------------------------------------------
--remove_dead_master_conf:该参数代表当发生主从切换后,老的主库的 ip 将会从配置文件中移除。
--manger_log:日志存放位置。
--ignore_last_failover:在缺省情况下,如果 MHA 检测到连续发生宕机,且两次宕机间隔不足 8 小时的话,则不会进行 Failover, 之所以这样限制是为了避免 ping-pong 效应。该参数代表忽略上次 MHA 触发切换产生的文件,默认情况下,MHA 发生切换后会在日志记录,也就是上面设置的日志app1.failover.complete文件,下次再次切换的时候如果发现该目录下存在该文件将不允许触发切换,除非在第一次切换后收到删除该文件,为了方便,这里设置为--ignore_last_failover。
----------------------------------------------------------------------------------------------------------5.4.9 Check MHA status
Looking at the MHA status, you can see that the current master is the master node.
masterha_check_status --conf=/etc/masterha/app1.cnf5.4.10 View MHA logs
Looking at the MHA log, we can also see that the current master is 192.168.181.100, as shown below.
cat /var/log/masterha/app1/manager.log | grep "current master"5.4.11 View master VIP
查看master 的 VIP 地址 192.168.181.88 是否存在,这个 VIP 地址不会因为 manager 节点停止 MHA 服务而消失。
ifconfig5.4.12 To shut down the manager service
//若要关闭 manager 服务,可以使用如下命令。
masterha_stop --conf=/etc/masterha/app1.cnf
或者可以直接采用 kill 进程 ID 的方式关闭。5.5 MHA simulated fault
---------------------- 故障模拟 --------------------------------
#在 manager 节点上监控观察日志记录
tail -f /var/log/masterha/app1/manager.log
#在 Master 节点 master 上停止mysql服务
systemctl stop mysqld
或
pkill -9 mysql
#正常自动切换一次后,MHA 进程会退出。HMA 会自动修改 app1.cnf 文件内容,将宕机的 master 节点删除。查看 slave1 是否接管 VIP
ifconfig
故障切换备选主库的算法:
1.一般判断从库的是从(position/GTID)判断优劣,数据有差异,最接近于master的slave,成为备选主。
2.数据一致的情况下,按照配置文件顺序,选择备选主库。
3.设定有权重(candidate_master=1),按照权重强制指定备选主。
(1)默认情况下如果一个slave落后master 100M的relay logs的话,即使有权重,也会失效。
(2)如果check_repl_delay=0的话,即使落后很多日志,也强制选择其为备选主。
故障修复步骤:
1.修复mysql
systemctl restart mysqld
2.修复主从
#在现主库服务器 Mysql2 查看二进制文件和同步点
show master status;
#在原主库服务器 mysql1 执行同步操作
change master to master_host='192.168.181.101',master_user='myslave',master_password='ztt123',master_log_file='master-bin.000001',master_log_pos=1745;
start slave;
3.在 manager 节点上修改配置文件app1.cnf(再把这个记录添加进去,因为它检测掉失效时候会自动消失)
vi /etc/masterha/app1.cnf
......
secondary_check_script=/usr/local/bin/masterha_secondary_check -s 192.168.181.101 -s 192.168.181.102
......
[server1]
hostname=192.168.181.100
port=3306
[server2]
candidate_master=1
check_repl_delay=0
hostname=192.168.181.101
port=3306
[server3]
hostname=192.168.181.102
port=3306
4.在 manager 节点上启动 MHA
nohup masterha_manager --conf=/etc/masterha/app1.cnf --remove_dead_master_conf --ignore_last_failover < /dev/null > /var/log/masterha/app1/manager.log 2>&1 &
#解决中英字不兼容报错的问题
dos2unix /usr/local/bin/master_ip_failover