MHA(Master High Availability)是一套相对成熟的MySQL高可用方案,能做到在0~30s内自动完成数据库的故障切换操作,在master服务器不宕机的情况下,基本能保证数据的一致性。
它由两部分组成:MHA Manager(管理节点)和MHA Node(数据节点)。其中,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上。MHA Node则运行在每个mysql节点上,MHA Manager会定时探测集群中的master节点,当master出现故障时,它自动将最新数据的slave提升为master,然后将其它所有的slave指向新的master。
在MHA自动故障切换过程中,MHA试图保存master的二进制日志,从而最大程度地保证数据不丢失,当这并不总是可行的,譬如,主服务器硬件故障或无法通过ssh访问,MHA就没法保存二进制日志,这样就只进行了故障转移但丢失了最新数据。可结合MySQL 5.5中推出的半同步复制来降低数据丢失的风险。
MHA软件由两部分组成:Manager工具包和Node工具包,具体说明如下:
MHA Manager:
MHA Node:
save_binary_logs:保存或复制master的二进制日志
apply_diff_relay_logs:识别差异的relay log并将差异的event应用到其它slave中
filter_mysqlbinlog:去除不必要的ROLLBACK事件(MHA已不再使用这个工具)
purge_relay_logs:消除中继日志(不会堵塞SQL线程)
另有如下几个脚本需自定义:
集群信息
角色 IP地址 ServerID 类型
Master 192.168.244.10 1 写入
Candicate master 192.168.244.20 2 读
Slave 192.168.244.30 3 读
Monitor host 192.168.244.40 监控集群组
注:操作系统均为RHEL 6.7
其中,master对外提供写服务,备选master提供读服务,slave也提供相关的读服务,一旦master宕机,将会把备选master提升为新的master,slave指向新的master
一、在所有节点上安装MHA node
1. 在MySQL服务器上安装MHA node所需的perl模块(DBD:mysql)
# yum install perl-DBD-MySQL -y
2. 在所有的节点上安装mha node
下载地址为:https://code.google.com/p/mysql-master-ha/wiki/Downloads?tm=2
由于该网址在国内被墙,相关文件下载后,放到了个人网盘中,http://pan.baidu.com/s/1boS31vT,有需要的童鞋可自行下载。
# tar xvf mha4mysql-node-0.56.tar.gz
# cd mha4mysql-node-0.56
# perl Makefile.PL
View Code 通过报错可以看出,是相关依赖包没有安装。
# yum install perl-ExtUtils-MakeMaker -y
# perl Makefile.PL
*** Module::AutoInstall version 1.03 *** Checking for Perl dependencies… Can’t locate CPAN.pm in @INC (@INC contains: inc /usr/local/lib64/perl5 /usr/local/share/perl5 /usr/lib64/perl5/vendor_perl /usr/share/perl5/vendor_perl /usr/lib64/perl5 /usr/share/perl5 .) at inc/Module/AutoInstall.pm line 277. # yum install perl-CPAN -y
# perl Makefile.PL
View Code # make
# make install
至此,MHA node节点安装完毕,会在/usr/local/bin下生成以下脚本文件
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total 44 -r-xr-xr-x 1 root root 16367 Jul 20 07:00 apply_diff_relay_logs -r-xr-xr-x 1 root root 4807 Jul 20 07:00 filter_mysqlbinlog -r-xr-xr-x 1 root root 8261 Jul 20 07:00 purge_relay_logs -r-xr-xr-x 1 root root 7525 Jul 20 07:00 save_binary_logs 复制代码
二、在Monitor host节点上部署MHA Manager
# tar xvf mha4mysql-manager-0.56.tar.gz
# cd mha4mysql-manager-0.56
# perl Makefile.PL
View Code # make
# make install
执行完毕后,会在/usr/local/bin下新增以下几个文件
复制代码 复制代码
total 40 -r-xr-xr-x 1 root root 1991 Jul 20 00:50 masterha_check_repl -r-xr-xr-x 1 root root 1775 Jul 20 00:50 masterha_check_ssh -r-xr-xr-x 1 root root 1861 Jul 20 00:50 masterha_check_status -r-xr-xr-x 1 root root 3197 Jul 20 00:50 masterha_conf_host -r-xr-xr-x 1 root root 2513 Jul 20 00:50 masterha_manager -r-xr-xr-x 1 root root 2161 Jul 20 00:50 masterha_master_monitor -r-xr-xr-x 1 root root 2369 Jul 20 00:50 masterha_master_switch -r-xr-xr-x 1 root root 5167 Jul 20 00:50 masterha_secondary_check -r-xr-xr-x 1 root root 1735 Jul 20 00:50 masterha_stop 复制代码 复制代码
三、配置SSH登录无密码验证
1. 在manager上配置到所有Node节点的无密码验证
# ssh-keygen
一路按“Enter”
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.10
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.20
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.30
2. 在Master(192.168.244.10)上配置
# ssh-keygen
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.20
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.30
3. 在Candicate master(192.168.244.20)上配置
# ssh-keygen
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.10
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.30
4. 在Slave(192.168.244.30)上配置
# ssh-keygen
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.10
# ssh-copy-id -i /root/.ssh/id_rsa.pub root@192.168.244.20
四、搭建主从复制环境
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yum -y install mysql-community-libs-5.7.19-1.el7.x86_64.rpm mysql-community-common-5.7.19-1.el7.x86_64.rpm mysql-community-libs-compat-5.7.19-1.el7.x86_64.rpm mysql-community-client-5.7.19-1.el7.x86_64.rpm mysql-community-server-5.7.19-1.el7.x86_64.rpm mysql-community-devel-5.7.19-1.el7.x86_64.rpm
mysqld --defaults-file=/etc/my.cnf --initialize --user=mysql --datadir=/data/mysql
grep ‘temporary password’ /var/log/mysqld.log
mysql_upgrade
mysql> alter user root@localhost identified by 'xx';
ERROR 3009 (HY000): Column count of mysql.user is wrong. Expected 45, found 42. Created with MySQL 50556, now running 50719. Please use mysql_upgrade to fix this error.
问题:ERROR 1819 (HY000): Your password does not satisfy the current policy requirements
解决:SET GLOBAL validate_password_policy='LOW';
flush privileges; alter user root@localhost identified by ‘user_pass’; 或 update mysql.user set authentication_string=password(‘user_pass’) where user=‘root’; flush privileges;
grant all on . to root@127.0.0.1 identified by ‘user_pass’ with grant option;
grant REPLICATION SLAVE, REPLICATION CLIENT on . to ‘tongbushou’@‘172.16.0.%’ identified by ‘sync_pass’; flush privileges;
grant all on . to ‘mymha’@‘172.16.0.%’ identified by ‘JXqqSV63y9Ls8Nq’; flush privileges;
grant select,process,super on . to ‘lepus_monitor’@‘ip’ identified by ‘password’;
# For advice on how to change settings please see
# http://dev.mysql.com/doc/refman/5.7/en/server-configuration-defaults.html
[mysqld]
#
# Remove leading # and set to the amount of RAM for the most important data
# cache in MySQL. Start at 70% of total RAM for dedicated server, else 10%.
# innodb_buffer_pool_size = 128M
#
# Remove leading # to turn on a very important data integrity option: logging
# changes to the binary log between backups.
# log_bin
#
# Remove leading # to set options mainly useful for reporting servers.
# The server defaults are faster for transactions and fast SELECTs.
# Adjust sizes as needed, experiment to find the optimal values.
# join_buffer_size = 128M
# sort_buffer_size = 2M
# read_rnd_buffer_size = 2M
datadir=/var/lib/mysql
socket=/var/lib/mysql/mysql.sock
# Disabling symbolic-links is recommended to prevent assorted security risks
symbolic-links=0
log-error=/var/log/mysqld.log
pid-file=/var/run/mysqld/mysqld.pid
port = 10001
character-set-server = utf8
skip_name_resolve = 1
open_files_limit = 65535
back_log = 1024
max_connections = 512
max_connect_errors = 1000000
table_open_cache = 500
table_definition_cache = 500
table_open_cache_instances = 64
thread_stack = 512K
external-locking = FALSE
max_allowed_packet = 1G
thread_cache_size = 20
query_cache_size = 0
query_cache_type = 0
interactive_timeout = 600
wait_timeout = 600
tmp_table_size = 512M
slow_query_log = 1
long_query_time = 1
innodb_autoinc_lock_mode=2
server-id = 61
log-bin =mybinlog
max_binlog_cache_size = 2G
max_binlog_size = 1G
expire_logs_days = 7
master_info_repository = TABLE
relay_log_info_repository = TABLE
slave_net_timeout=10
gtid_mode = on
enforce_gtid_consistency = 1
log_slave_updates
binlog_format =row
relay_log_recovery = 1
lock_wait_timeout = 3600
explicit_defaults_for_timestamp =1
transaction_isolation = REPEATABLE-READ
innodb_buffer_pool_size = 8G
innodb_buffer_pool_load_at_startup = 1
innodb_buffer_pool_dump_at_shutdown = 1
innodb_flush_log_at_trx_commit = 2
innodb_log_file_size = 1G
innodb_log_files_in_group = 2
innodb_file_per_table = 1
innodb_online_alter_log_max_size = 4G
innodb_flush_method = O_DIRECT
innodb_open_files = 65535
#半同步配置
rpl-semi-sync-master-enabled = 1
rpl-semi-sync-slave-enabled = 1
#半同步超时10s(默认)自动变为异步同步,应尽量避免大事务
rpl_semi_sync_master_timeout=10000
rpl_semi_sync_master_wait_for_slave_count=1
rpl_semi_sync_master_wait_no_slave=ON
#并行复制配置
slave_parallel_type=LOGICAL_CLOCK
#并行复制的进程数
slave_parallel_workers = 8
slave_preserve_commit_order=1
show master status; 记录 File值 和Position值
change master to master_host=‘172.16.0.61’, master_user=‘tongbushou’, master_port=10001,master_password=“sync_pass”,master_auto_position=1; 或 change master to master_host=‘172.16.0.61’, master_user=‘tongbushou’, master_port=10001,master_password=“sync_pass”,MASTER_LOG_FILE=‘mysql-bin.000001’,MASTER_LOG_POS=403;
start slave; show slave status\G; install plugin rpl_semi_sync_master SONAME ‘semisync_master.so’; INSTALL PLUGIN rpl_semi_sync_slave SONAME ‘semisync_slave.so’; 复制代码
1. 在Master上执行备份
# mysqldump --master-data=2 --single-transaction -R --triggers -A > all.sql
其中,-R是备份存储过程,--triggers是备份触发器 -A代表全库
2. 在Master上创建复制用户
mysql> grant replication slave on . to ‘repl’@‘192.168.244.%’ identified by ‘repl’; Query OK, 0 rows affected (0.09 sec) 3. 查看备份文件all.sql中的CHANGE MASTER语句
# head -n 30 all.sql
– CHANGE MASTER TO MASTER_LOG_FILE=‘mysql-bin.000002’, MASTER_LOG_POS=120; 4. 将备份文件复制到Candicate master和Slave上
# scp all.sql 192.168.244.20:/root/
# scp all.sql 192.168.244.30:/root/
5. 在Candicate master上搭建从库
# mysql < all.sql
设置复制信息
复制代码 复制代码 mysql> CHANGE MASTER TO -> MASTER_HOST=‘192.168.244.10’, -> MASTER_USER=‘repl’, -> MASTER_PASSWORD=‘repl’, -> MASTER_LOG_FILE=‘mysql-bin.000002’, -> MASTER_LOG_POS=120; Query OK, 0 rows affected, 2 warnings (0.19 sec)
mysql> start slave; Query OK, 0 rows affected (0.02 sec)
mysql> show slave status\G 复制代码 复制代码 6. 在Slave上搭建从库
7. slave服务器设置为read only
mysql> set global read_only=1; Query OK, 0 rows affected (0.04 sec) 8. 在Master中创建监控用户
mysql> grant all privileges on . to ‘monitor’@’%’ identified by ‘monitor123’; Query OK, 0 rows affected (0.07 sec)
五、 配置MHA
1. 在Monitor host(192.168.244.40)上创建MHA工作目录,并且创建相关配置文件
# mkdir -p /etc/masterha
# vim /etc/masterha/app1.cnf
复制代码 复制代码 [server default] manager_log=/masterha/app1/manager.log //设置manager的日志 manager_workdir=/masterha/app1 //设置manager的工作目录 master_binlog_dir=/var/lib/mysql //设置master默认保存binlog的位置,以便MHA可以找到master的日志 master_ip_failover_script= /usr/local/bin/master_ip_failover //设置自动failover时候的切换脚本 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 user=monitor // 设置监控用户 password=monitor123 //设置监控用户的密码 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进行自动failover remote_workdir=/tmp //设置远端mysql在发生切换时binlog的保存位置 repl_user=repl //设置复制环境中的复制用户名 repl_password=repl //设置复制用户的密码 report_script=/usr/local/bin/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 192.168.244.20 -s 192.168.244.30 --user=root --master_host=192.168.244.10 --master_ip=192.168.244.10 --master_port=3306 //一旦MHA到master的监控之间出现问题,MHA Manager将会判断其它两个slave是否能建立到master_ip 3306端口的连接 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) ssh_user=root //设置ssh的登录用户名
[server1] hostname=192.168.244.10 port=3306
[server2] hostname=192.168.244.20 port=3306 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,即使这个主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 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,因为它保证了这个候选主在切换过程中一定是最新的master
[server3] hostname=192.168.244.30 port=3306 复制代码 复制代码 注意:
1> 在编辑该文件时,后面的注释切记要去掉,MHA并不会将后面的内容识别为注释。
2> 配置文件中设置了master_ip_failover_script,secondary_check_script,master_ip_online_change_script,report_script,对应的文件见文章末 尾。
2. 设置relay log清除方式(在每个Slave上)
mysql> set global relay_log_purge=0; Query OK, 0 rows affected (0.00 sec) MHA在发生切换过程中,从库在恢复的过程中,依赖于relay log的相关信息,所以我们这里要将relay log的自动清楚设置为OFF,采用手动清楚relay log的方式。
在默认情况下,从服务器上的中继日志会在SQL线程执行完后被自动删除。但是在MHA环境中,这些中继日志在恢复其它从服务器时可能会被用到,因此需要禁用中继日志的自动清除。改为定期手动清除SQL线程应用完的中继日志。
在ext3文件系统下,删除大的文件需要一定的时间,这样会导致严重的复制延迟,所以在Linux中,一般都是通过硬链接的方式来删除大文件。
3. 设置定期清理relay脚本
MHA节点中包含了purge_relay_logs脚本,它可以为relay log创建硬链接,执行set global relay_log_purge=1,等待几秒钟以便SQL线程切换到新的中继日志,再执行set global relay_log_purge=0。
下面看看脚本的使用方法:
# purge_relay_logs --user=monitor --password=monitor123 -disable_relay_log_purge --workdir=/tmp/
复制代码 复制代码 2017-04-24 20:27:46: purge_relay_logs script started. Found relay_log.info: /var/lib/mysql/relay-log.info Opening /var/lib/mysql/mysqld-relay-bin.000001 … Opening /var/lib/mysql/mysqld-relay-bin.000002 … Opening /var/lib/mysql/mysqld-relay-bin.000003 … Opening /var/lib/mysql/mysqld-relay-bin.000004 … Opening /var/lib/mysql/mysqld-relay-bin.000005 … Opening /var/lib/mysql/mysqld-relay-bin.000006 … Executing SET GLOBAL relay_log_purge=1; FLUSH LOGS; sleeping a few seconds so that SQL thread can delete older relay log files (if i t keeps up); SET GLOBAL relay_log_purge=0; … ok.2017-04-24 20:27:50: All relay log purging operations succeeded. 复制代码 复制代码 其中,
--user:mysql用户名
--password:mysql用户的密码
--host: mysqlserver地址
--workdir:指定创建relay log的硬链接的位置,默认的是/var/tmp。由于系统不同分区创建硬链接文件会失败,故需要指定具体的硬链接的位置。
--disable_relay_log_purge:默认情况下,如果relay_log_purge=1,则脚本会直接退出。通过设置这个参数,该脚本会首先将relay_log_purge设置为1,清除掉relay log后,再将该参数设置为0。
设置crontab来定期清理relay log
MHA在切换的过程中会直接调用mysqlbinlog命令,故需要在环境变量中指定mysqlbinlog的具体路径。
# vim /etc/cron.d/purge_relay_logs
0 4 * * * /usr/local/bin/purge_relay_logs --user=monitor --password=monitor123 -disable_relay_log_purge --workdir=/tmp/ >> /tmp/purge _relay_logs.log 2>&1 注意:最好是每台slave服务器在不同时间点执行该计划任务。
4. 将mysqlbinlog的路径添加到环境变量中
六、 检查SSH的配置
在Monitor host上执行
# masterha_check_ssh --conf=/etc/masterha/app1.cnf
View Code
七、查看整个集群的状态
在Monitor host上执行
# masterha_check_repl --conf=/etc/masterha/app1.cnf
View Code 报错很明显,Candicate master和Slave都没有启动log-bin,如果没有启动的话,后续就无法提升为主
设置log-bin后,重新执行:
View Code 检查通过~
八、 检查MHA Manager的状态
app1 is stopped(2:NOT_RUNNING). 如果正常,会显示“PING_OK”,否则会显示“NOT_RUNNING”,代表MHA监控还没有开启。
九、开启MHA Manager监控
# nohup masterha_manager --conf=/etc/masterha/app1.cnf --remove_dead_master_conf --ignore_last_failover < /dev/null > /masterha/app1/manager.log 2>&1 &
其中,
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。
ignore_last_failover:在默认情况下,MHA发生切换后将会在/masterha/app1下产生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且两次切换的时间间隔不足8小时的话,将不允许触发切换。除非在第一次切换后手动rm -rf /masterha/app1/app1.failover.complete。该参数代表忽略上次MHA触发切换产生的文件。
查看MHA Manager监控是否正常
app1 (pid:1873) is running(0:PING_OK), master:192.168.244.10
十、 关闭MHA Manager监控
Stopped app1 successfully. [1]+ Exit 1 nohup masterha_manager --conf=/etc/masterha/app1.cnf --remove_dead_master_conf --ignore_last_failover < /dev/null > /masterha/app1/manager.log 2>&1 至此,MHA部分配置完毕,下面,来配置VIP。
十一、VIP配置
VIP配置可以采用两种方式,一是通过引入Keepalived来管理VIP,另一种是在脚本中手动管理。
对于keepalived管理VIP,存在脑裂情况,即当主从网络出现问题时,slave会抢占VIP,这样会导致主从数据库都持有VIP,造成IP冲突,所以在网络不是很好的情况下,不建议采用keepalived服务。
在实际生产中使用较多的也是第二种,即在脚本中手动管理VIP,所以,对keepalived不感兴趣的童鞋可直接跳过第一种方式。
1> 安装keepalived
因为我这里设置了Candicate master,故只在Master和Candicate master上安装。
如果没有Candicate master,两个Slave的地位平等,则两个Slave上都需安装keepalived。
# wget http://www.keepalived.org/software/keepalived-1.2.24.tar.gz
# tar xvf keepalived-1.2.24.tar.gz
# cd keepalived-1.2.24
# ./configure --prefix=/usr/local/keepalived
# make
# make install
# cp /usr/local/keepalived/etc/rc.d/init.d/keepalived /etc/rc.d/init.d/
# cp /usr/local/keepalived/etc/sysconfig/keepalived /etc/sysconfig/
# mkdir /etc/keepalived
# cp /usr/local/keepalived/etc/keepalived/keepalived.conf /etc/keepalived/
# cp /usr/local/keepalived/sbin/keepalived /usr/sbin/
2> 为keepalived设置单独的日志文件(非必需)
keepalived的日志默认是输出到/var/log/message中
# vim /etc/sysconfig/keepalived
KEEPALIVED_OPTIONS="-D -d -S 0" 设置syslog
# vim /etc/rsyslog.conf
添加如下内容:
local0.* /var/log/keepalived.log # service rsyslog restart
2> 配置keepalived
在Master上修改
# vim /etc/keepalived/keepalived.conf
View Code 关于keepalived的参数的详细介绍,可参考:
LVS+Keepalived搭建MyCAT高可用负载均衡集群
keepalived工作原理和配置说明
将配置文件scp到Candicate master上
# scp /etc/keepalived/keepalived.conf 192.168.244.20:/etc/keepalived/
只需将配置文件中的priority设置为90
注意:我们为什么在这里设置keepalived为backup模式呢?
在master-backup模式下,如果主库宕掉,VIP会自动漂移到Slave上,当主库修复,keepalived启动后,还会将VIP抢过来,即使设置了nopreempt(不抢占)的方
式,该动作仍会发生。但在backup-backup模式下,当主库修改,并启动keepalived后,并不会抢占新主的VIP,即便原主的priority高于新主的。
3> 启动keepalived
先在Master上启动
# service keepalived start
env: /etc/init.d/keepalived: Permission denied # chmod +x /etc/init.d/keepalived
# service keepalived start
查看绑定情况
# ip a
View Code 可见,VIP(192168.244.188)已经绑定到Master的eth0网卡上了。
启动Candicate master的keepalived
# service keepalived start
4> MHA中引入keepalived
编辑/usr/local/bin/master_ip_failover
相对于原文件,修改地方为93-95行
View Code
复制代码 复制代码 #!/usr/bin/env perl
use strict; use warnings FATAL => ‘all’;
use Getopt::Long; use MHA::DBHelper; my ( command, ssh_user, orig_master_host, orig_master_ip, orig_master_port, new_master_host, new_master_ip, new_master_port, new_master_user, new_master_password );
my vip = ‘192.168.244.188’; my key = “2”; my s s h s t a r t v i p = " / s b i n / i f c o n f i g e t h 0 : ssh_start_vip = "/sbin/ifconfig eth0: sshstartvip="/sbin/ifconfigeth0:key vip/24"; my s s h s t o p v i p = " / s b i n / i f c o n f i g e t h 0 : ssh_stop_vip = "/sbin/ifconfig eth0: sshstopvip="/sbin/ifconfigeth0:key down"; my
GetOptions( ‘command=s’ => orig_master_host, ‘orig_master_ip=s’ => orig_master_port, ‘new_master_host=s’ => new_master_ip, ‘new_master_port=i’ => new_master_user, ‘new_master_password=s’ =>
exit &main();
sub main { if ( command eq “stop” || command eq “stopssh” ) {
# $orig_master_host, $orig_master_ip, $orig_master_port are passed.
# If you manage master ip address at global catalog database,
# invalidate orig_master_ip here.
my $exit_code = 1;
eval {
print "Disabling the VIP an 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” ) {
# all arguments are passed.
# If you manage master ip address at global catalog database,
# activate new_master_ip here.
# You can also grant write access (create user, set read_only=0, etc) here.
my $exit_code = 10;
eval {
my $new_master_handler = new MHA::DBHelper();
# args: hostname, port, user, password, raise_error_or_not
$new_master_handler->connect( $new_master_ip, $new_master_port,
$new_master_user, $new_master_password, 1 );
## Set read_only=0 on the new master
$new_master_handler->disable_log_bin_local();
print "Set read_only=0 on the new master.\n";
$new_master_handler->disable_read_only();
## Creating an app user on the new master
# print "Creating app user on the new master..\n";
# FIXME_xxx_create_user( $new_master_handler->{dbh} );
$new_master_handler->enable_log_bin_local();
$new_master_handler->disconnect();
print "Enabling the VIP $vip on the new master: $new_master_host \n";
&start_vip();
$exit_code = 0;
};
if ($@) {
warn $@;
# If you want to continue failover, exit 10.
exit $exit_code;
}
exit $exit_code;
} elsif ( $command eq “status” ) {
# do nothing
exit 0;
} else { &usage(); exit 1; } }
sub start_vip(){ ssh ssh_user\@new_master_host \" ssh_start_vip \"; ssh new_master_host \"
sub stop_vip(){ return 0 unless (ssh_user); ssh ssh_user\@orig_master_host \"
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”; } 复制代码 复制代码
实际生产环境中,推荐这种方式来管理VIP,可有效防止脑裂情况的发生。
至此,MHA高可用环境基本搭建完毕。
关于MHA的常见操作,包括自动Failover,手动Failover,在线切换,可参考另一篇博客:
MHA在线切换的步骤和原理
MHA自动Failover与手动Failover的实践及原理
总结:
/usr/local/bin/master_ip_online_change --command=stop --orig_master_ip=192.168.244.10 --orig_master_host=192.168.244.10 --orig_master_port=3306 --orig_master_user=monitor --orig_master_password=monitor123 --orig_master_ssh_user=root --new_master_host=192.168.244.20 --new_master_ip=192.168.244.20 --new_master_port=3306 --new_master_user=monitor --new_master_password=monitor123 --new_master_ssh_user=root
/usr/local/bin/master_ip_failover --command=start --ssh_user=root --orig_master_host=192.168.244.10 --orig_master_ip=192.168.244.10 --orig_master_port=3306 --new_master_host=192.168.244.20 --new_master_ip=192.168.244.20 --new_master_port=3306 --new_master_user=‘monitor’ --new_master_password=‘monitor123’
复制代码 复制代码 [root@node4 ~]# cat test.pl #!/usr/bin/perl use strict; my c m d = ′ p y t h o n / r o o t / t e s t . p y ′ ; s y s t e m ( cmd='python /root/test.py'; system( cmd=′python/root/test.py′;system(cmd);
[root@node4 ~]# cat test.py #!/usr/bin/python print “hello,python”
[root@node4 ~]# perl test.pl hello,python