MHA(Master HighAvailability)目前在MySQL高可用方面是一个相对成熟的解决方案,它由日本DeNA公司youshimaton(现就职于Facebook公司)开发,是一套优秀的作为MySQL高可用性环境下故障切换和主从提升的高可用软件。在MySQL故障切换过程中,MHA能做到在0~30秒之内自动完成数据库的故障切换操作,并且在进行故障切换的过程中,MHA能在最大程度上保证数据的一致性,以达到真正意义上的高可用。
MHA里有两个角色一个是MHA Node(数据节点)另一个是MHA Manager(管理节点)。
MHA Manager可以单独部署在一台独立的机器上管理多个master-slave集群,也可以部署在一台slave节点上。MHA Node运行在每台MySQL服务器上,MHA Manager会定时探测集群中的master节点,当master出现故障时,它可以自动将最新数据的slave提升为新的master,然后将所有其他的slave重新指向新的master。整个故障转移过程对应用程序完全透明。
在MHA自动故障切换过程中,MHA试图从宕机的主服务器上保存二进制日志,最大程度的保证数据的不丢失,但这并不总是可行的。例如,如果主服务器硬件故障或无法通过ssh访问,MHA没法保存二进制日志,只进行故障转移而丢失了最新的数据。使用MySQL 5.5的半同步复制,可以大大降低数据丢失的风险。MHA可以与半同步复制结合起来。如果只有一个slave已经收到了最新的二进制日志,MHA可以将最新的二进制日志应用于其他所有的slave服务器上,因此可以保证所有节点的数据一致性。
注:从MySQL5.5开始,MySQL以插件的形式支持半同步复制。如何理解半同步呢?首先我们来看看异步,全同步的概念:
异步复制(Asynchronous replication)
MySQL默认的复制即是异步的,主库在执行完客户端提交的事务后会立即将结果返给给客户端,并不关心从库是否已经接收并处理,这样就会有一个问题,主如果crash掉了,此时主上已经提交的事务可能并没有传到从上,如果此时,强行将从提升为主,可能导致新主上的数据不完整。
全同步复制(Fully synchronous replication)
指当主库执行完一个事务,所有的从库都执行了该事务才返回给客户端。因为需要等待所有从库执行完该事务才能返回,所以全同步复制的性能必然会受到严重的影响。
半同步复制(Semisynchronous replication)
介于异步复制和全同步复制之间,主库在执行完客户端提交的事务后不是立刻返回给客户端,而是等待至少一个从库接收到并写到relay log中才返回给客户端。相对于异步复制,半同步复制提高了数据的安全性,同时它也造成了一定程度的延迟,这个延迟最少是一个TCP/IP往返的时间。所以,半同步复制最好在低延时的网络中使用。
下面来看看半同步复制的原理图:
总结:异步与半同步异同
默认情况下MySQL的复制是异步的,Master上所有的更新操作写入Binlog之后并不确保所有的更新都被复制到Slave之上。异步操作虽然效率高,但是在Master/Slave出现问题的时候,存在很高数据不同步的风险,甚至可能丢失数据。
MySQL5.5引入半同步复制功能的目的是为了保证在master出问题的时候,至少有一台Slave的数据是完整的。在超时的情况下也可以临时转入异步复制,保障业务的正常使用,直到一台salve追赶上之后,继续切换到半同步模式。
工作原理:
相较于其它HA软件,MHA的目的在于维持MySQL Replication中Master库的高可用性,其最大特点是可以修复多个Slave之间的差异日志,最终使所有Slave保持数据一致,然后从中选择一个充当新的Master,并将其它Slave指向它。
–从宕机崩溃的master保存二进制日志事件(binlogevents)。
–识别含有最新更新的slave。
–应用差异的中继日志(relay log)到其它slave。
–应用从master保存的二进制日志事件(binlogevents)。
–提升一个slave为新master。
–使其它的slave连接新的master进行复制。
目前MHA主要支持一主多从的架构,要搭建MHA,要求一个复制集群中必须最少有三台数据库服务器,一主二从,即一台充当master,一台充当备用master,另外一台充当从库,因为至少需要三台服务器。
部署环境如下:
| 角色 | Ip | 主机名 | os |
| master | 192.168.137.134 | master | centos 6.5 x86_64 |
| Candidate | 192.168.137.130 | Candidate | |
| slave+manage | 192.168.137.146 | slave |
其中master对外提供写服务,Candidate为备选master,管理节点放在纯slave机器上。master一旦宕机,Candidate提升为主库
一、基础环境准备
1、在3台机器上配置epel源
wget -O /etc/yum.repos.d/CentOS-Base.repo http://mirrors.aliyun.com/repo/Centos-6.repo
rpm -ivh http://dl.fedoraproject.org/pub/epel/6/x86_64/epel-release-6-8.noarch.rpm
2、建立ssh无交互登录环境,
[root@master ~]#ssh-keygen -t rsa -P ”
chmod 600 .ssh/*
cat .ssh/id_rsa.pub >.ssh/authorized_keys
scp -p .ssh/id_rsa .ssh/authorized_keys 192.168.137.130:/root/.ssh
scp -p .ssh/id_rsa .ssh/authorized_keys 192.168.137.146:/root/.ssh
二、配置mysql半同步复制
注意:mysql主从复制操作此处不做演示
master授权:
grant replication slave,replication client on *.* to ‘repl’@’192.168.137.%’ identified by ‘123456’;
grant all on *.* to ‘mhauser’@’192.168.137.%’ identified by ‘123456’;
Candidate授权:
grant replication slave,replication client on *.* to ‘repl’@’192.168.137.%’ identified by ‘123456’;
grant all on *.* to ‘mhauser’@’192.168.137.%’ identified by ‘123456’;
slave授权:
grant all on *.* to ‘mhauser’@’192.168.137.%’ identified by ‘123456’;
如果用mysql默认的异步模式,当主库硬件损坏宕机造成的数据丢失,因此在配置MHA的同时建议配置成MySQL的半同步复制。
注:mysql半同步插件是由谷歌提供,具体位置/usr/local/mysql/lib/plugin/下,一个是master用的semisync_master.so,一个是slave用的semisync_slave.so,
mysql> show variables like ‘%plugin_dir%’;
+—————+——————————+
| Variable_name | Value |
+—————+——————————+
| plugin_dir | /usr/local/mysql/lib/plugin/ |
+—————+——————————+
1、分别在主从节点上安装相关的插件(master,Candidate,slave)
在MySQL上安装插件需要数据库支持动态载入。检查是否支持,用如下检测:
mysql> show variables like ‘%have_dynamic_loading%’;
+———————-+——-+
| Variable_name | Value |
+———————-+——-+
| have_dynamic_loading | YES
所有mysql数据库服务器,安装半同步插件(semisync_master.so,semisync_slave.so)
mysql> install plugin rpl_semi_sync_master soname ‘semisync_master.so’;
mysql> install plugin rpl_semi_sync_slave soname ‘semisync_slave.so’;
检查Plugin是否已正确安装:
mysql> show plugins;
或
mysql> select * from information_schema.plugins;
查看半同步相关信息
mysql> show variables like ‘%rpl_semi_sync%’;
rpl_semi_sync_master_enabled | OFF |
| rpl_semi_sync_master_timeout | 10000 |
| rpl_semi_sync_master_trace_level | 32 |
| rpl_semi_sync_master_wait_no_slave | ON |
| rpl_semi_sync_slave_enabled | OFF |
| rpl_semi_sync_slave_trace_level | 32
上图可以看到半同复制插件已经安装,只是还没有启用,所以是OFF
2、修改my.cnf文件,配置主从同步:
注:若主MYSQL服务器已经存在,只是后期才搭建从MYSQL服务器,在置配数据同步前应先将主MYSQL服务器的要同步的数据库拷贝到从MYSQL服务器上(如先在主MYSQL上备份数据库,再用备份在从MYSQL服务器上恢复)
master mysql主机:
server-id = 1
log-bin=mysql-bin
binlog_format=mixed
log-bin-index=mysql-bin.index
rpl_semi_sync_master_enabled=1
rpl_semi_sync_master_timeout=10000
rpl_semi_sync_slave_enabled=1
relay_log_purge=0
relay-log= relay-bin
relay-log-index = relay-bin.index
注:
rpl_semi_sync_master_enabled=1 1表是启用,0表示关闭
rpl_semi_sync_master_timeout=10000:毫秒单位,该参数主服务器等待确认消息10秒后,不再等待,变为异步方式。
Candidate 主机:
server-id = 2
log-bin=mysql-bin
binlog_format=mixed
log-bin-index=mysql-bin.index
relay_log_purge=0
relay-log= relay-bin
relay-log-index = slave-relay-bin.index
rpl_semi_sync_master_enabled=1
rpl_semi_sync_master_timeout=10000
rpl_semi_sync_slave_enabled=1
注:relay_log_purge=0,禁止 SQL 线程在执行完一个 relay log 后自动将其删除,对于MHA场景下,对于某些滞后从库的恢复依赖于其他从库的relaylog,因此采取禁用自动删除功能
Slave主机:
Server-id = 3
log-bin = mysql-bin
relay-log = relay-bin
relay-log-index = slave-relay-bin.index
read_only = 1
rpl_semi_sync_slave_enabled = 1
查看半同步相关信息
mysql> show variables like ‘%rpl_semi_sync%’;
查看半同步状态:
mysql> show status like ‘%rpl_semi_sync%’;
| Rpl_semi_sync_master_clients | 2 |
重点关注的参数:
rpl_semi_sync_master_status :显示主服务是异步复制模式还是半同步复制模式
rpl_semi_sync_master_clients :显示有多少个从服务器配置为半同步复制模式
rpl_semi_sync_master_yes_tx :显示从服务器确认成功提交的数量
rpl_semi_sync_master_no_tx :显示从服务器确认不成功提交的数量
rpl_semi_sync_master_tx_avg_wait_time :事务因开启 semi_sync ,平均需要额外等待的时间
rpl_semi_sync_master_net_avg_wait_time :事务进入等待队列后,到网络平均等待时间
三、配置mysql-mha
-
所有mysql节点安装
rpm -ivh perl-DBD-MySQL-4.013-3.el6.i686.rpm [yum -y install perl-DBD-MySQL]
rpm -ivh mha4mysql-node-0.56-0.el6.noarch.rpm
2. manage需安装依赖的perl包
rpm -ivh perl-Config-Tiny-2.12-7.1.el6.noarch.rpm
rpm -ivh perl-DBD-MySQL-4.013-3.el6.i686.rpm [yum -y install perl-DBD-MySQL]
rpm -ivh compat-db43-4.3.29-15.el6.x86_64.rpm
rpm -ivh perl-Mail-Sender-0.8.16-3.el6.noarch.rpm
rpm -ivh perl-Parallel-ForkManager-0.7.9-1.el6.noarch.rpm
rpm -ivh perl-TimeDate-1.16-11.1.el6.noarch.rpm
rpm -ivh perl-MIME-Types-1.28-2.el6.noarch.rpm
rpm -ivh perl-MailTools-2.04-4.el6.noarch.rpm
rpm -ivh perl-Email-Date-Format-1.002-5.el6.noarch.rpm
rpm -ivh perl-Params-Validate-0.92-3.el6.x86_64.rpm
rpm -ivh perl-Params-Validate-0.92-3.el6.x86_64.rpm
rpm -ivh perl-MIME-Lite-3.027-2.el6.noarch.rpm
rpm -ivh perl-Mail-Sendmail-0.79-12.el6.noarch.rpm
rpm -ivh perl-Log-Dispatch-2.27-1.el6.noarch.rpm
yum install -y perl-Time-HiRes-1.9721-144.el6.x86_64
rpm -ivh mha4mysql-manager-0.56-0.el6.noarch.rpm
3. 配置mha
配置文件位于管理节点,通常包括每一个mysql server的主机名,mysql用户名,密码,工作目录等等。
mkdir /etc/masterha/
vim /etc/masterha/app1.cnf
[server default]
user=mhauser
password=123456
manager_workdir=/data/masterha/app1
manager_log=/data/masterha/app1/manager.log
remote_workdir=/data/masterha/app1
ssh_user=root
repl_user=repl
repl_password=123456
ping_interval=1
[server1]
hostname=192.168.137.134
port=3306
master_binlog_dir=/usr/local/mysql/data
candidate_master=1
[server2]
hostname=192.168.137.130
port=3306
master_binlog_dir=/usr/local/mysql/data
candidate_master=1
[server3]
hostname=192.168.137.146
port=3306
master_binlog_dir=/usr/local/mysql/data
no_master=1
配关配置项的解释:
manager_workdir=/masterha/app1//设置manager的工作目录
manager_log=/masterha/app1/manager.log//设置manager的日志
user=manager//设置监控用户manager
password=123456 //监控用户manager的密码
ssh_user=root //ssh连接用户
repl_user=mharep //主从复制用户
repl_password=123.abc//主从复制用户密码
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
master_binlog_dir=/usr/local/mysql/data //设置master 保存binlog的位置,以便MHA可以找到master的日志,我这里的也就是mysql的数据目录
candidate_master=1//设置为候选master,如果设置该参数以后,发生主从切换以后将会将此从库提升为主库。
检测各节点间ssh互信通信配置是否ok
masterha_check_ssh –conf=/etc/masterha/app1.cnf
结果:All SSH connection tests passed successfully.
检测各节点间主从复制是否ok
masterha_check_repl –conf=/etc/masterha/app1.cnf
结果:MySQL Replication Health is OK.
在验证时,若遇到这个错误:Can’t exec “mysqlbinlog” ……
解决方法是在所有服务器上执行:
ln -s /usr/local/mysql/bin/* /usr/local/bin/
启动manager:
nohup /usr/bin/masterha_manager –conf=/etc/masterha/app1.cnf –remove_dead_master_conf –ignore_last_failover > /etc/masterha/manager.log 2>&1 &
–remove_dead_master_conf 为主从切换后,老的主库IP将会从配置文件中移除
–ignore_last_failover 忽略生成的切换完成文件,若不忽略,则8小时内无法再次切换
–ignore_fail_on_start
##当有slave 节点宕掉时,MHA默认是启动不了的,加上此参数即使有节点宕掉也能启动MHA,
关闭MHA:
masterha_stop –conf=/etc/masterha/app1.cnf
查看MHA状态:
masterha_check_status –conf=/etc/masterha/app1.cnf
app1 (pid:45128) is running(0:PING_OK), master:192.168.137.134
4.模拟故障转移
-
停掉master,
/etc/init.d/mysqld stop
-
查看 MHA 日志 /data/masterha/app1/manager.log
—– Failover Report —–
app1: MySQL Master failover 192.168.137.134(192.168.137.134:3306) to 192.168.137.1
30(192.168.137.130:3306) succeeded
Master 192.168.137.134(192.168.137.134:3306) is down!
Check MHA Manager logs at zifuji:/data/masterha/app1/manager.log for details.
Started automated(non-interactive) failover.
The latest slave 192.168.137.130(192.168.137.130:3306) has all relay logs for reco
very.
Selected 192.168.137.130(192.168.137.130:3306) as a new master.
192.168.137.130(192.168.137.130:3306): OK: Applying all logs succeeded.
192.168.137.146(192.168.137.146:3306): This host has the latest relay log events.
Generating relay diff files from the latest slave succeeded.
192.168.137.146(192.168.137.146:3306): OK: Applying all logs succeeded. Slave star
ted, replicating from 192.168.137.130(192.168.137.130:3306)
192.168.137.130(192.168.137.130:3306): Resetting slave info succeeded.
Master failover to 192.168.137.130(192.168.137.130:3306) completed successfully.
3. 查看slave复制状态
*************************** 1. row ***************************
Slave_IO_State: Waiting for master to send event
Master_Host: 192.168.137.130
Master_User: repl
Master_Port: 3306
Connect_Retry: 60
Master_Log_File: mysql-bin.000003
MHA Manager 端日常主要操作步骤
1)检查是否有下列文件,有则删除。
发生主从切换后,MHAmanager服务会自动停掉,且在manager_workdir(/data/masterha/app1/app1.failover.complete)目录下面生成文件app1.failover.complete,若要启动MHA,必须先确保无此文件)
find / -name ‘app1.failover.complete’
rm -f /data/masterha/app1/app1.failover.complete
2)检查MHA当前置:
# masterha_check_repl –conf=/etc/masterha/app1.cnf
3)启动MHA:
#nohup masterha_manager –conf=/etc/masterha/app1.cnf&>/etc/masterha/manager.log &
当有slave 节点宕掉时,默认是启动不了的,加上 –ignore_fail_on_start即使有节点宕掉也能启动MHA,如下:
#nohup masterha_manager –conf=/etc/masterha/app1.cnf –ignore_fail_on_start&>/etc/masterha/manager.log &
4)停止MHA: masterha_stop –conf=/etc/masterha/app1.cnf
5)检查状态:
# masterha_check_status –conf=/etc/masterha/app1.cnf
6)检查日志:
#tail -f /etc/masterha/manager.log
7)主从切换,原主库后续工作
vim /etc/my.cnf
read_only=ON
relay_log_purge = 0
mysql> reset slave all;
mysql> reset master;
/etc/init.d/mysqld restart
mysql> CHANGE MASTER TO MASTER_HOST=’192.168.137.130′,MASTER_USER=’repl’,MASTER_PASSWORD=’123456′;
##与新主库做主从复制
masterha_check_status –conf=/etc/masterha/app1.cnf
app1 (pid:45950) is running(0:PING_OK), master:192.168.137.130
注意:如果正常,会显示”PING_OK”,否则会显示”NOT_RUNNING”,这代表MHA监控没有开启。
定期删除中继日志
在配置主从复制中,slave上设置了参数relay_log_purge=0,所以slave节点需要定期删除中继日志,建议每个slave节点删除中继日志的时间错开。
corntab -e
0 5 * * * /usr/local/bin/purge_relay_logs – -user=root –password=pwd123 –port=3306 –disable_relay_log_purge >>/var/log/purge_relay.log 2>&1
5、配置VIP
ip配置可以采用两种方式,一种通过keepalived的方式管理虚拟ip的浮动;另外一种通过脚本方式启动虚拟ip的方式(即不需要keepalived或者heartbeat类似的软件)。
1、keepalived方式管理虚拟ip,keepalived配置方法如下:
在master和Candidate主机上安装keepalived
安装依赖包:
[root@master ~]# yum install openssl-devel libnfnetlink-devel libnfnetlink popt-devel kernel-devel -y
wget http://www.keepalived.org/software/keepalived-1.2.20.tar.gz
ln -s /usr/src/kernels/2.6.32-642.1.1.el6.x86_64 /usr/src/linux
tar -xzf keepalived-1.2.20.tar.gz;cd keepalived-1.2.20
./configure –prefix=/usr/local/keepalived;make && make install
ln -s /usr/local/keepalived/sbin/keepalived /usr/bin/keepalived
cp /usr/local/keepalived/etc/rc.d/init.d/keepalived /etc/init.d/keepalived
mkdir /etc/keepalived
ln -s /usr/local/keepalived/etc/keepalived/keepalived.conf /etc/keepalived/keepalived.conf
chmod 755 /etc/init.d/keepalived
chkconfig –add keepalived
cp /usr/local/keepalived/etc/sysconfig/keepalived /etc/sysconfig/
service keepalived restart
echo 1 > /proc/sys/net/ipv4/ip_forward
修改Keepalived的配置文件(在master上配置)
vim /etc/keepalived/keepalived.conf
! Configuration File for keepalived
global_defs {
notification_email {
guopeng@163.com
}
notification_email_from Alexandre.Cassen@firewall.loc
smtp_server 127.0.0.1
smtp_connect_timeout 30
router_id mysql-ha1
}
vrrp_instance VI_1 {
state BACKUP
interface eth0
virtual_router_id 51
priority 100
advert_int 1
authentication {
auth_type PASS
auth_pass 1111
}
virtual_ipaddress {
192.168.137.100
}
}
在候选master(Candidate)上配置
[root@Candidate keepalived-1.2.20]# vim /etc/keepalived/keepalived.conf
! Configuration File for keepalived
global_defs {
notification_email {
sysadmin@firewall.loc
}
notification_email_from Alexandre.Cassen@firewall.loc
smtp_server 127.0.0.1
smtp_connect_timeout 30
router_id mysql-ha2
}
vrrp_instance VI_1 {
state BACKUP
interface eth0
virtual_router_id 51
priority 90
advert_int 1
authentication {
auth_type PASS
auth_pass 1111
}
virtual_ipaddress {
192.168.137.100
}
}
启动keepalived服务,在master上启动并查看日志
/etc/init.d/keepalived start
tail -f/var/log/messages
Aug 14 01:05:25 minion Keepalived_vrrp[39720]: VRRP_Instance(VI_1) Sending gratuitous ARPs on eth0 for 192.168.137.100
[root@master ~]# ip addr show dev eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:57:66:49 brd ff:ff:ff:ff:ff:ff
inet 192.168.137.134/24 brd 192.168.137.255 scope global eth0
inet 192.168.137.100/32 scope global eth0
inet6 fe80::20c:29ff:fe57:6649/64 scope link
valid_lft forever preferred_lft forever
[root@Candidate ~]# ip addr show dev eth0 ##此时备选master上是没有虚拟ip的
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:a5:b4:85 brd ff:ff:ff:ff:ff:ff
inet 192.168.137.130/24 brd 192.168.137.255 scope global eth0
inet6 fe80::20c:29ff:fea5:b485/64 scope link
valid_lft forever preferred_lft forever
注意:
上面两台服务器的keepalived都设置为了BACKUP模式,在keepalived中2种模式,分别是master->backup模式和backup->backup模式。这两种模式有很大区别。在master->backup模式下,一旦主库宕机,虚拟ip会自动漂移到从库,当主库修复后,keepalived启动后,还会把虚拟ip抢占过来,即使设置了非抢占模式(nopreempt)抢占ip的动作也会发生。在backup->backup模式下,当主库宕机后虚拟ip会自动漂移到从库上,当原主库恢复和keepalived服务启动后,并不会抢占新主的虚拟ip,即使是优先级高于从库的优先级别,也不会发生抢占。为了减少ip漂移次数,通常是把修复好的主库当做新的备库。
2、MHA引入keepalived(MySQL服务进程挂掉时通过MHA 停止keepalived):
要想把keepalived服务引入MHA,我们只需要修改切换时触发的脚本文件master_ip_failover即可,在该脚本中添加在master发生宕机时对keepalived的处理。
编辑脚本/scripts/master_ip_failover,修改后如下。
manager编辑脚本文件:
mkdir /scripts
vim /scripts/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
);
my $vip = ‘192.168.137.100’;
my $ssh_start_vip = “/etc/init.d/keepalived start”;
my $ssh_stop_vip = “/etc/init.d/keepalived stop”;
GetOptions(
‘command=s’ => \$command,
‘ssh_user=s’ => \$ssh_user,
‘orig_master_host=s’ => \$orig_master_host,
‘orig_master_ip=s’ => \$orig_master_ip,
‘orig_master_port=i’ => \$orig_master_port,
‘new_master_host=s’ => \$new_master_host,
‘new_master_ip=s’ => \$new_master_ip,
‘new_master_port=i’ => \$new_master_port,
);
exit &main();
sub main {
print “\n\nIN SCRIPT TEST====$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 {
“Usage: master_ip_failover –command=start|stop|stopssh|status –orig_master_h
ost=host –orig_master_ip=ip –orig_master_port=port –new_master_host=host –new_
master_ip=ip –new_master_port=port\n”;
}
现在已经修改这个脚本了,接下来我们在/etc/masterha/app1.cnf 中调用故障切换脚本
停止MHA:
masterha_stop –conf=/etc/masterha/app1.cnf
在配置文件/etc/masterha/app1.cnf 中启用下面的参数(在[server default下面添加])
master_ip_failover_script=/scripts/master_ip_failover
启动MHA:
#nohup masterha_manager –conf=/etc/masterha/app1.cnf &>/etc/masterha/manager.log &
检查状态:
]# masterha_check_status –conf=/etc/masterha/app1.cnf
app1 (pid:51284) is running(0:PING_OK), master:192.168.137.134
检查集群复制状态是否有报错:
]# masterha_check_repl –conf=/etc/masterha/app1.cnf
192.168.137.134(192.168.137.134:3306) (current master)
+–192.168.137.130(192.168.137.130:3306)
+–192.168.137.146(192.168.137.146:3306)
Tue May 9 14:40:57 2017 – [info] Checking replication health on 192.168.137.130..
Tue May 9 14:40:57 2017 – [info] ok.
Tue May 9 14:40:57 2017 – [info] Checking replication health on 192.168.137.146..
Tue May 9 14:40:57 2017 – [info] ok.
Tue May 9 14:40:57 2017 – [info] Checking master_ip_failover_script status:
Tue May 9 14:40:57 2017 – [info] /scripts/master_ip_failover –command=status –ssh_user=root –orig_master_host=192.168.137.134 –orig_master_ip=192.168.137.134 –orig_master_port=3306
IN SCRIPT TEST====/etc/init.d/keepalived stop==/etc/init.d/keepalived start===
Checking the Status of the script.. OK
Tue May 9 14:40:57 2017 – [info] OK.
Tue May 9 14:40:57 2017 – [warning] shutdown_script is not defined.
Tue May 9 14:40:57 2017 – [info] Got exit code 0 (Not master dead).
MySQL Replication Health is OK.
注意: /scripts/master_ip_failover添加或者修改的内容意思是当主库数据库发生故障时,会触发MHA切换,MHA Manager会停掉主库上的keepalived服务,触发虚拟ip漂移到备选从库,从而完成切换。
当然可以在keepalived里面引入脚本,这个脚本监控mysql是否正常运行,如果不正常,则调用该脚本杀掉keepalived进程(参考MySQL 高可用性keepalived+mysql双主)。
测试:在master上停掉mysql
[root@master ~]# /etc/init.d/mysqld stop
Shutting down MySQL………… [ OK ]
到slave(192.168.137.146)查看slave的状态:
mysql> show slave status\G
*************************** 1. row ***************************
Slave_IO_State: Waiting for master to send event
Master_Host: 192.168.137.130
Master_User: repl
Master_Port: 3306
Connect_Retry: 60
从上图可以看出slave指向了新的master服务器192.168.137.130(在故障切换前指向的是192.168.137.134)
查看vip绑定:
在192.168.137.134上查看vip绑定
[root@master ~]# ip addr show dev eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:57:66:49 brd ff:ff:ff:ff:ff:ff
inet 192.168.137.134/24 brd 192.168.137.255 scope global eth0
inet6 fe80::20c:29ff:fe57:6649/64 scope link
valid_lft forever preferred_lft forever
在192.168.137.130上查看vip绑定
[root@Candidate ~]# ip addr show dev eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:a5:b4:85 brd ff:ff:ff:ff:ff:ff
inet 192.168.137.130/24 brd 192.168.137.255 scope global eth0
inet 192.168.137.100/32 scope global eth0
从上面的显示结果可以看出vip地址漂移到了192.168.137.130
主从切换后续工作:现在Candidate变成主,需对原master重新做只从复制操作
-
修复成从库
-
启动keepalived
-
rm -fr app1.failover.complete
-
启动manager
3、通过脚本实现VIP切换
如果使用脚本管理vip的话,需要手动在master服务器上绑定一个vip
]#/sbin/ifconfig eth0:0 192.168.137.100/24
vim /scripts/master_ip_failover
my $vip = ‘192.168.137.100/24’;
my $key = ‘0’;
my $ssh_start_vip = “/sbin/ifconfigeth0:$key $vip”;
my $ssh_stop_vip = “/sbin/ifconfigeth0:$key down”;
之后的操作同上述keepalived操作
为了防止脑裂发生,推荐生产环境采用脚本的方式来管理虚拟ip,而不是使用keepalived来完成。到此为止,基本MHA集群已经配置完毕。
