MySQL下高可用故障转移方案MHA的超级部署教程
mha介绍
mha是一位日本mysql大牛用perl写的一套mysql故障切换方案,来保证数据库系统的高可用.在宕机的时间内(通常10—30秒内),完成故障切换,部署mha,可避免主从一致性问题,节约购买新服务器的费用,不影响服务器性能,易安装,不改变现有部署。
还支持在线切换,从当前运行master切换到一个新的master上面,只需要很短的时间(0.5-2秒内),此时仅仅阻塞写操作,并不影响读操作,便于主机硬件维护。
在有高可用,数据一致性要求的系统上,mha 提供了有用的功能,几乎无间断的满足维护需要。
优点:
1.master自动监控和故障转移
在当前已存在的主从复制环境中,mha可以监控master主机故障,并且故障自动转移。
即使有一些slave没有接受新的relay log events,mha也会从最新的slave自动识别差异的relay log events,并apply差异的event到其他slaves。因此所有的slave都是一致的。mha秒级别故障转移(9-12秒监测到主机故障,任选7秒钟关闭电源主机避免脑裂,接下来apply差异relay logs,注册到新的master,通常需要时间10-30秒即total downtime)。另外,在配置文件里可以配置一个slave优先成为master。因为mha修复了slave之间的一致性,dba就不用去处理一致性问题。
当迁移新的master之后,并行恢复其他slave。即使有成千上万的slave,也不会影响恢复master时间,slave也很快完成。
dena公司在150+主从环境中用mha。当其中一个master崩溃,mha4秒完成故障转移,这是主动/被动集群解决方案无法完成的。
2.互动(手动)master故障转移
mha可以用来只做故障转移,而不监测master,mha只作为故障转移的交互。
3.非交互式故障转移
非交互式的故障转移也提供(不监控master,自动故障转移)。这个特性很有用,特别是你已经安装了其他软件监控master。比如,用pacemaker(heartbeat)监测master故障和vip接管,用mha故障转移和slave提升。
4.在线切换master到不同主机
在很多情况下,有必要将master转移到其他主机上(如替换raid控制器,提升master机器硬件等等)。这并不是master崩溃,但是计划维护必须去做。计划维护导致downtime,必须尽可能快的恢复。快速的master切换和优雅的阻塞写操作是必需的,mha提供了这种方式。优雅的master切换, 0.5-2秒内阻塞写操作。在很多情况下0.5-2秒的downtime是可以接受的,并且即使不在计划维护窗口。这意味着当需要更换更快机器,升级高版本时,dba可以很容易采取动作。
5.master crash不会导致主从数据不一致性
当master crash后,mha自动识别slave间relay logevents的不同,然后应用与不同的slave,最终所有slave都同步。结合通过半同步一起使用,几乎没有任何数据丢失。
其他高可用方案
6.mha部署不影响当前环境设置
mha最重要的一个设计理念就是尽可能使用简单。使用与5.0+以上主从环境,其他ha方案需要改变mysql部署设置,mha不会让dba做这些部署配置,同步和半同步环境都可以用。启动/停止/升级/降级/安装/卸载 mha都不用改变mysql主从(如启动/停止)。
当你需要升级mha到新版本时,不需要停止mysql,仅仅更新hma版本,然后重新启动mhamanger即可。
mha 支持包含5.0/5/1/5.5(应该也支持5.6,翻译文档时mha开发者没更新对于5.6版本)。有些ha方案要求特定的mysql版本(如mysqlcluster,mysql with global transaction id 等),而且你可能不想仅仅为了masterha而迁移应用。很多情况下,公司已经部署了许多传统的mysql应用,开发或dba不想花太多时间迁移到不同的存储引擎或新的特性(newer bleeding edge distributions 不知道这个是否该这么翻译)。
7.不增加服务器费用
mha 包含mha manager和mha node。mha node运行在每台mysql服务器上,manager可以单独部署一台机器,监控100+以上master,总服务器数量不会有太大增加。需要注意的是manager也可以运行在slaves中的一台机器上。
8.性能无影响
当监控master,mha只是几秒钟(默认3秒)发送ping包,不发送大的查询。主从复制性能不受影响
9.适用任何存储引擎
mysql不仅仅适用于事务安全的innodb引擎,在主从中适用的引擎,mha都可以适用。即使用遗留环境的mysiam引擎,不进行迁移,也可以用mha。
安装配置方法
1、示例环境介绍
- centos 6.4 x64
- mysql-5.6.16-linux-glibc2.5-x86_64.tar.gz
- mha4mysql-manager-0.54.tar.gz
- mha4mysql-node-0.54.tar.gz
2、服务器说明
- masnager 192.168.216.50
- master 192.168.216.51
- slave 192.168.216.52
三台服务器都安装mysql,将manager作为管理节点
3、配置等价性
manager:
ssh-keyger -t rsa ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.50 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.51 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.52 ssh 192.168.216.50 date ssh 192.168.216.51 date ssh 192.168.216.52 date
master:
ssh-keyger -t rsa ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.50 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.51 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.52 ssh 192.168.216.50 date ssh 192.168.216.51 date ssh 192.168.216.52 date
slave:
ssh-keyger -t rsa ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.50 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.51 ssh-coyp-id -i /root/.ssh/id_rsa.pub root@192.168.216.52 ssh 192.168.216.50 date ssh 192.168.216.51 date ssh 192.168.216.52 date
4、安装mysql
groupadd mysql useradd -g mysql -s /bin/nologin -m mysql mkdir -pv /data/mysql tar -zxvf mysql-5.6.16-linux-glibc2.5-x86_64.tar.gz mv mysql-5.6.16-linux-glibc2.5-x86_64 /usr/local/mysql cd /usr/local/mysql/script ./ mysql_install_db –user=mysql –basedir=/usr/local/mysql –datadair=/data/mysql
创建mysql配置文件
vim /usr/local/mysql/my.cnf
[mysql] # client # port = 3306 socket = /tmp/mysql.sock [mysqld] # general # user = mysql default-storage-engine = innodb socket = /tmp/mysql.sock pid-file = /data/mysql/mysql.pid # myisam # key-buffer-size = 32m myisam-recover = force,backup # safety # max-allowed-packet = 16m max-connect-errors = 1000000 # data storage # datadir = /data/mysql/ # binary logging # server_id = 1 #不同服务器不一样 log-bin = /data/mysql/mysql-bin expire-logs-days = 14 sync-binlog = 1 # caches and limits # tmp-table-size = 32m max-heap-table-size = 32m query-cache-type = 0 query-cache-size = 0 max-connections = 500 thread-cache-size = 50 open-files-limit = 65535 table-definition-cache = 1024 table-open-cache = 2048 # innodb # innodb-flush-method = o_direct innodb-log-files-in-group = 2 innodb-log-file-size = 64m innodb-flush-log-at-trx-commit = 1 innodb-file-per-table = 1 innodb-buffer-pool-size = 592m # logging # log-error = /data/mysql/mysql-error.log log-queries-not-using-indexes = 1 slow-query-log = 1 slow-query-log-file = /data/mysql/mysql-slow.log
5、配置权限
manager:
grant all privileges on *.* to root@'127.0.0.1' identified by 'root'; grant all privileges on *.* to root@'localhost' identified by 'root'; grant all privileges on *.* to root@'192.168.216.50' identified by 'root'; grant replication slave on *.* to slave@'192.168.216.50' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.51' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.52' identified by 'slave';
master:
grant all privileges on *.* to root@'127.0.0.1' identified by 'root'; grant all privileges on *.* to root@'localhost' identified by 'root'; grant all privileges on *.* to root@'192.168.216.50' identified by 'root'; grant replication slave on *.* to slave@'192.168.216.50' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.51' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.52' identified by 'slave';
slave:
grant all privileges on *.* to root@'127.0.0.1' identified by 'root'; grant all privileges on *.* to root@'localhost' identified by 'root'; grant all privileges on *.* to root@'192.168.216.50' identified by 'root'; grant all privileges on *.* to root@'192.168.216.51' identified by 'root'; grant replication slave on *.* to slave@'192.168.216.50' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.51' identified by 'slave'; grant replication slave on *.* to slave@'192.168.216.52' identified by 'slave';
6、安装依赖包
管理服务器manager需要安装以下全部
perl-config-tiny perl-params-validate perl-parallel-forkmanager perl-log-dispatch |- perl-mime-lite-3.027-2.el6.noarch.rpm |- perl-mime-types-1.28-2.el6.noarch.rpm |- perl-email-date-format-1.002-5.el6.noarch.rpm |- perl-mailtools-2.04-4.el6.noarch.rpm |- perl-timedate-1.16-11.1.el6.noarch.rpm |- perl-data-showtable-3.3-3.4.noarch.rpm |- perl-mail-sender-0.8.22-21.1.noarch.rpm |- perl-io-socket-ssl-1.31-2.el6.noarch.rpm |- perl-net-libidn-0.12-3.el6.x86_64.rpm |- perl-net-ssleay-1.35-9.el6.x86_64.rpm |-perl-win32api-registry |- perl-mail-sendmail-0.79_16-4.2.noarch.rpm
rpm -ivh ncftp-debuginfo-3.2.3-1.3.x86_64.rpm rpm -ivh perl-parallel-forkmanager-0.7.5-2.2.el6.rf.noarch.rpm rpm -ivh perl-params-validate-0.91-2.4.x86_64.rpm rpm -ivh perl-config-tiny-2.12-7.1.el6.noarch.rpm rpm -ivh perl-mime-types-1.28-2.el6.noarch.rpm rpm -ivh perl-email-date-format-1.002-5.el6.noarch.rpm rpm -ivh perl-timedate-1.16-11.1.el6.noarch.rpm rpm -ivh perl-data-showtable-3.3-3.4.noarch.rpm rpm -ivh perl-mailtools-2.04-4.el6.noarch.rpm rpm -ivh perl-mime-lite-3.027-2.el6.noarch.rpm rpm -ivh perl-net-libidn-0.12-3.el6.x86_64.rpm rpm -ivh perl-net-ssleay-1.35-9.el6.x86_64.rpm rpm -ivh perl-io-socket-ssl-1.31-2.el6.noarch.rpm rpm -ivh perl-mail-sendmail-0.79_16-4.2.noarch.rpm rpm -ivh perl-mail-sender-0.8.22-21.1.noarch.rpm rpm -ivh perl-log-dispatch-2.22-7.3.noarch.rpm
如果安perl-dbd-mysql-4.013-3.el6.x86_64.rpm在检查rep是报错则需要手动编译安装
tar -zxvf dbd-mysql-4.027.tar.gz cd dbd-mysql-4.0.27 perl makefile.pl make && make install
节点服务器安装
rpm -ivh ncftp-debuginfo-3.2.3-1.3.x86_64.rpm rpm -ivh perl-dbd-mysql-4.013-3.el6.x86_64.rpm
7、创建软连接
ln -s /usr/local/mysql/bin/mysqlbinlog /usr/bin/mysqlbinlog ln -s /usr/local/mysql/bin/mysql /usr/bin/mysql
导出mysql库搜索路径
vim /etc/ld.so.conf.d/mysql-x86_64.conf /usr/local/mysql/lib ldconfig
8、在所有服务器上安装mha4mysql-node-0.54.tar.gz
tar -zxvf mha4mysql-node-0.54.tar.gz cd mha4mysql-node-0.54 perl makefile.pl make && make install
9、在管理服务上安装 mha4mysql-manager-0.54.tar.gz
tar -zxvf mha4mysql-manager-0.54.tar.gz cd mha4mysql-manager-0.54 perl makefile.pl make && make install mkdir -pv /etc/masterha mkdir -pv /masterha/app1 cp samples/conf/* /etc/masterha cp samples/scripts/* /usr/local/bin
vim /etc/masterha/app1.cnf
[server default] manager_workdir=/masterha/app1 manager_log=/masterha/app1/manager.log user=root password=root ssh_user=root repl_user=slave repl_password=slave shutdown_script="" #master_ip_failover_script="/usr/local/bin/masterha_ip_failover" master_ip_online_change_script="/usr/local/bin/masterha_ip_failover " report_script="" [server1] hostname=192.168.216.50 master_binlog_dir="/data/mysql/" candidate_master=1 [server2] hostname=192.168.216.51 master_binlog_dir="/data/mysql/" candidate_master=1 [server3] hostname=192.168.216.52 master_binlog_dir="/data/mysql/" candidate_master=1
10、测试ssh连接
masterha_check_ssh –conf=/etc/masterha/app1.cnf
11、测试replication
masterha_check_repl –conf=/etc/masterha/app1.cnf
12、开启管理节点进程
masterha_manager –conf=/etc/masterha/app1.cnf
13、测试故障转移
关闭主库mysql,查看从库的的状态是否将同步ip切换到新的主库
14、设置故障转移的ip
vim /etc/masterha/app1.cnf
master_ip_failover_script="/usr/local/bin/masterha_ip_failover " master_ip_online_change_script="/usr/local/bin/masterha_ip_failover "
编辑故障转移脚本,将vip设置成192.168.216.100
vim /usr/local/bin/masterha_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 = '172.16.21.119/24'; # virtual ip my $vip = '192.168.216.100/24'; # virtual ip my $key = "1"; my $ssh_start_vip = "/sbin/ifconfig eth0:$key $vip"; my $ssh_stop_vip = "/sbin/ifconfig eth0:$key down"; 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" ) { # $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 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" ) { # 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 { 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"; `ssh $ssh_user\@cluster1 \" $ssh_start_vip \"`; exit 0; } else { &usage(); exit 1; } } # a simple system call that enable the vip on the new master 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"; }
测试脚本
/usr/local/bin/masterha_ip_failover –command=status –ssh_user=root –orig_master_host=192.168.216.51 –orig_master_ip=192.168.216.51 –orig_master_port=3306
虚拟ip要手动启动,在主库故障后会自动转移。
/usr/local/bin/masterha_ip_failover –command=start –ssh_user=root –orig_master_host=192.168.216.51 –orig_master_ip=192.168.216.51 –orig_master_port=3306 –new_master_host=192.168.216.51
测试ip故障转移:
关闭主库mysql,查看vip是否转移的新的主库上。