操作系统: CentOS 6.6 x64,本文采用rpm方式安装corosync+pacemaker+drbd,采用二进制版本安装mysql-5.6.29。本文是在Corosync+Pacemaker+DRBD+NFS高可用实例配置基础上进行配置修改,然后进行测试的安装过程。
一、双机配置
1. app1,app2配置hosts文件,以及主机名。
[root@app1 soft]# vi /etc/hosts
127.0.0.1 localhost localhost.localdomain localhost4 localhost4.localdomain4
::1 localhost localhost.localdomain localhost6 localhost6.localdomain6
192.168.0.24 app1
192.168.0.25 app2
10.10.10.24 app1-priv
10.10.10.25 app2-priv
说明:10段是心跳IP, 192.168段是业务IP, 采用VIP地址是192.168.0.26。
2. 关闭selinux与防火墙
sed -i '/SELINUX/s/enforcing/disabled/' /etc/selinux/config
setenforce 0
chkconfig iptables off
service iptables stop
3. 配置各节点ssh互信,好像可配\可不配,方便管理。
app1:
[root@app1 ~]# ssh-keygen -t rsa -f ~/.ssh/id_rsa -P ''
[root@app1 ~]# ssh-copy-id -i .ssh/id_rsa.pub root@app2
app2:
[root@app2 ~]# ssh-keygen -t rsa -f ~/.ssh/id_rsa -P ''
[root@app2 ~]# ssh-copy-id -i .ssh/id_rsa.pub root@app1
二、DRDB安装配置
1. app1,app2配置hosts文件以及准备磁盘分区
app1: /dev/sdb1 —> app2: /dev/sdb1
2. app1,app2安装drbd并安装
(1) 下载drbd安装包, CentOS6.6采用kmod-drbd84-8.4.5-504.1安装包才可用。
http://rpm.pbone.net/
drbd84-utils-8.9.1-1.el6.elrepo.x86_64.rpm
kmod-drbd84-8.4.5-504.1.el6.x86_64.rpm
# rpm -ivh drbd84-utils-8.9.5-1.el6.elrepo.x86_64.rpm kmod-drbd84-8.4.5-504.1.el6.x86_64.rpm
Preparing... ########################################### [100%]
1:drbd84-utils ########################################### [ 50%]
2:kmod-drbd84 ########################################### [100%]
Working. This may take some time ...
Done.
#
(2) 加载DRBD到内核模块
app1,app2分别操作,并加入到/etc/rc.local文件中。
modprobe drbd
lsmode |grep drbd
3. 创建修改配置文件。节点1,节点2一样配置。
[root@app1 ~]# vi /etc/drbd.d/global_common.conf
global {
usage-count no;
}
common {
protocol C;
disk {
on-io-error detach;
no-disk-flushes;
no-md-flushes;
}
net {
sndbuf-size 512k;
max-buffers 8000;
unplug-watermark 1024;
max-epoch-size 8000;
cram-hmac-alg "sha1";
shared-secret "hdhwXes23sYEhart8t";
after-sb-0pri disconnect;
after-sb-1pri disconnect;
after-sb-2pri disconnect;
rr-conflict disconnect;
}
syncer {
rate 300M;
al-extents 517;
}
}
resource data {
on app1 {
device /dev/drbd0;
disk /dev/sdb1;
address 10.10.10.24:7788;
meta-disk internal;
}
on app2 {
device /dev/drbd0;
disk /dev/sdb1;
address 10.10.10.25:7788;
meta-disk internal;
}
}
4. 初始化资源
在app1和app2上分别执行:
# drbdadm create-md data
initializing activity log
NOT initializing bitmap
Writing meta data...
New drbd meta data block successfully created.
5. 启动服务
在app1和app2上分别执行:或采用 drbdadm up data
# service drbd start
Starting DRBD resources: [
create res: data
prepare disk: data
adjust disk: data
adjust net: data
]
..........
#
6. 查看启动状态, 两节点应均处于Secondary状态。
cat /proc/drbd #或者直接使用命令drbd-overview
节点1:
[root@app1 drbd.d]# cat /proc/drbd
version: 8.4.5 (api:1/proto:86-101)
GIT-hash: 1d360bde0e095d495786eaeb2a1ac76888e4db96 build by [email protected], 2015-01-02 12:06:20
0: cs:Connected ro:Secondary/Secondary ds:Inconsistent/Inconsistent C r-----
ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:d oos:20964116
节点2:
[root@app2 drbd.d]# cat /proc/drbd
version: 8.4.5 (api:1/proto:86-101)
GIT-hash: 1d360bde0e095d495786eaeb2a1ac76888e4db96 build by [email protected], 2015-01-02 12:06:20
0: cs:Connected ro:Secondary/Secondary ds:Inconsistent/Inconsistent C r-----
ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:d oos:20964116
7. 将其中一个节点配置为主节点
我们需要将其中一个节点设置为Primary,在要设置为Primary的节点上执行如下两条命令均可:
drbdadm -- --overwrite-data-of-peer primary data
drbdadm primary --force data
主节点查看同步状态:
[root@app1 drbd.d]# cat /proc/drbd
version: 8.4.5 (api:1/proto:86-101)
GIT-hash: 1d360bde0e095d495786eaeb2a1ac76888e4db96 build by [email protected], 2015-01-02 12:06:20
0: cs:SyncSource ro:Primary/Secondary ds:UpToDate/Inconsistent C r-----
ns:1229428 nr:0 dw:0 dr:1230100 al:0 bm:0 lo:0 pe:2 ua:0 ap:0 ep:1 wo:d oos:19735828
[>...................] sync'ed: 5.9% (19272/20472)M
finish: 0:27:58 speed: 11,744 (11,808) K/sec
[root@app1 drbd.d]#
8. 创建文件系统
文件系统的挂载只能在Primary节点进行,只有在设置了主节点后才能对drbd设备进行格式化, 格式化与手动挂载测试。
[root@app1 ~]# mkfs.ext4 /dev/drbd0
[root@app1 ~]# mount /dev/drbd0 /data
三、安装配置Mysql-5.6.x
1. app1\app2下载编译版本mysql安装
wget http://mirrors.sohu.com/mysql/MySQL-5.6/mysql-5.6.29-linux-glibc2.5-x86_64.tar.gz
tar zxvf mysql-5.6.29-linux-glibc2.5-x86_64.tar.gz -C /usr/local
cd /usr/local/
ln -sv mysql-5.6.29-linux-glibc2.5-x86_64 mysql
groupadd mysql
useradd -g mysql -M -s /sbin/nologin mysql
chown -R mysql:mysql /usr/local/mysql
2. app1下初始化数据库(初始化目录为drbd0同步目录中)
/usr/local/mysql/scripts/mysql_install_db --user=mysql --basedir=/usr/local/mysql --datadir=/data/mysql3306
3, app1,app2下创建配置文件及服务
cd /usr/local/mysql
cp support-files/my-default.cnf /etc/my.cnf
cp support-files/mysql.server /etc/rc.d/init.d/mysqld
chkconfig --add mysqld
4. app1,app2配置Mysql命令链接,也可以采用加入环境变量中,该方式可以略过。
ln -sf /usr/local/mysql/bin/mysql /usr/bin/mysql
ln -sf /usr/local/mysql/bin/mysqldump /usr/bin/mysqldump
ln -sf /usr/local/mysql/bin/myisamchk /usr/bin/myisamchk
ln -sf /usr/local/mysql/bin/mysqld_safe /usr/bin/mysqld_safe
或通过加入环境变量中解决。
# vi /etc/profile
export PATH=/usr/local/mysql/bin/:$PATH
# source /etc/profile
ln -sv /usr/local/mysql/include /usr/include/mysql
echo '/usr/local/mysql/lib' > /etc/ld.so.conf.d/mysql.conf
ldconfig
5. app1上Mysql配置文件(两边保持配置文件一致)
vi /etc/my.cnf
[client]
port = 3306
default-character-set = utf8
socket = /tmp/mysql.sock
[mysqld]
character-set-server = utf8
collation-server = utf8_general_ci
port = 3306
socket = /tmp/mysql.sock
basedir = /usr/local/mysql
datadir = /data/mysql3306
skip-external-locking
key_buffer_size = 16M
max_allowed_packet = 1M
table_open_cache = 64
sort_buffer_size = 512K
net_buffer_length = 8K
read_buffer_size = 256K
read_rnd_buffer_size = 512K
myisam_sort_buffer_size = 8M
log-bin = mysql-bin
binlog_format = mixed
server-id = 1
[mysqldump]
quick
max_allowed_packet = 16M
[mysql]
no-auto-rehash
[myisamchk]
key_buffer_size = 20M
sort_buffer_size = 20M
read_buffer = 2M
write_buffer = 2M
[mysqlhotcopy]
interactive-timeout
6. 启动mysql,不要配置开机自启动。
service mysqld start
7. 修改管理员密码并测试
# /usr/local/mysql/bin/mysqladmin -u root password 'admin' #设置管理员密码
# /usr/local/mysql/bin/mysql -u root -p #测试密码输入
8. 复制配置文件到app2
# scp /etc/my.cnf app2:/etc/
9. app1关闭mysql并设置开机不启动
[root@node1 ~]# service mysqld stop
[root@node1 data]# chkconfig mysqld off
10.将node2节点上的DRBD设置为主节点并挂载
(1) app1卸载/dev/drbd0
# umount /data/
# drbdadm secondary data
# drbd-overview
0:web/0 Connected Secondary/Secondary UpToDate/UpToDate C r-----
(2) app2配置drbd为主后,测试mysql的启动。
# drbdadm primary data
# drbd-overview
0:web/0 Connected Primary/Secondary UpToDate/UpToDate C r-----
# mkdir /data
# mount /dev/drbd0 /data/
# service mysqld start
四、corosync+pacemaker
1. app1,app2配置安装corosync pacemaker
# yum install corosync pacemaker -y
2. app1,app2安装crmsh
RHEL自6.4起不再提供集群的命令行配置工具crmsh,要实现对集群资源管理,还需要独立安装crmsh。
crmsh的rpm安装可从如下地址下载:http://download.opensuse.org/repositories/network:/ha-clustering:/Stable/CentOS_CentOS-6/
[root@app1 crm]# yum install python-dateutil -y
说明:python-pssh、pssh依懒于python-dateutil包
[root@app1 crm]# rpm -ivh pssh-2.3.1-4.2.x86_64.rpm python-pssh-2.3.1-4.2.x86_64.rpm crmsh-2.1-1.6.x86_64.rpm
warning: pssh-2.3.1-4.2.x86_64.rpm: Header V3 RSA/SHA1 Signature, key ID 17280ddf: NOKEY
Preparing... ########################################### [100%]
1:python-pssh ########################################### [ 33%]
2:pssh ########################################### [ 67%]
3:crmsh ########################################### [100%]
[root@app1 crm]#
[root@app1 crm]#
3. 创建corosync配置文件,app1,app2一样。
cd /etc/corosync/
cp corosync.conf.example corosync.conf
vi /etc/corosync/corosync.conf
# Please read the corosync.conf.5 manual page
compatibility: whitetank
totem {
version: 2
secauth: on
threads: 0
interface {
ringnumber: 0
bindnetaddr: 10.10.10.0
mcastaddr: 226.94.8.8
mcastport: 5405
ttl: 1
}
}
logging {
fileline: off
to_stderr: no
to_logfile: yes
to_syslog: no
logfile: /var/log/cluster/corosync.log
debug: off
timestamp: on
logger_subsys {
subsys: AMF
debug: off
}
}
amf {
mode: disabled
}
service {
ver: 1
name: pacemaker
}
aisexec {
user: root
group: root
}
4. 创建认证文件,app1,app2一样
各节点之间通信需要安全认证,需要安全密钥,生成后会自动保存至当前目录下,命名为authkey,权限为400。
[root@app1 corosync]# corosync-keygen
Corosync Cluster Engine Authentication key generator.
Gathering 1024 bits for key from /dev/random.
Press keys on your keyboard to generate entropy.
Press keys on your keyboard to generate entropy (bits = 128).
Press keys on your keyboard to generate entropy (bits = 192).
Press keys on your keyboard to generate entropy (bits = 256).
Press keys on your keyboard to generate entropy (bits = 320).
Press keys on your keyboard to generate entropy (bits = 384).
Press keys on your keyboard to generate entropy (bits = 448).
Press keys on your keyboard to generate entropy (bits = 512).
Press keys on your keyboard to generate entropy (bits = 576).
Press keys on your keyboard to generate entropy (bits = 640).
Press keys on your keyboard to generate entropy (bits = 704).
Press keys on your keyboard to generate entropy (bits = 768).
Press keys on your keyboard to generate entropy (bits = 832).
Press keys on your keyboard to generate entropy (bits = 896).
Press keys on your keyboard to generate entropy (bits = 960).
Writing corosync key to /etc/corosync/authkey.
[root@app1 corosync]#
5. 将刚才配置的三个文件同步至app2,同步过去后要修改ha.cf文件中的心跳IP
# scp authkeys corosync.conf root@app2:/etc/corosync/
6. 启动corosync\pacemaker服务,测试能否正常提供服务
节点1:
[root@app1 ~]# service corosync start
Starting Corosync Cluster Engine (corosync): [OK]
[root@app1 ~]# service pacemaker start
Starting Pacemaker Cluster Manager [OK]
配置服务开机自启动:
chkconfig corosync on
chkconfig pacemaker on
节点2:
[root@app2 ~]# service corosync start
Starting Corosync Cluster Engine (corosync): [OK]
[root@app1 ~]# service pacemaker start
Starting Pacemaker Cluster Manager [OK]
配置服务开机自启动:
chkconfig corosync on
chkconfig pacemaker on
7. 测试corosync,pacemaker,crmsh安装情况
(1) 查看节点情况
[root@app1 ~]# crm status
Last updated: Tue Jan 26 13:13:19 2016
Last change: Mon Jan 25 17:46:04 2016 via cibadmin on app1
Stack: classic openais (with plugin)
Current DC: app1 - partition with quorum
Version: 1.1.10-14.el6-368c726
2 Nodes configured, 2 expected votes
0 Resources configured
Online: [ app1 app2 ]
(2) 查看端口启动情况
# netstat -tunlp
Active Internet connections (only servers)
Proto Recv-Q Send-Q Local Address Foreign Address State PID/Program name
udp 0 0 10.10.10.25:5404 0.0.0.0:* 2828/corosync
udp 0 0 10.10.10.25:5405 0.0.0.0:* 2828/corosync
udp 0 0 226.94.8.8:5405 0.0.0.0:* 2828/corosync
(3) 查看日志
[root@app1 corosync]# tail -f /var/log/cluster/corosync.log
可以查看日志中关键信息:
Jan 23 16:09:30 corosync [MAIN ] Corosync Cluster Engine ('1.4.7'): started and ready to provide service.
Jan 23 16:09:30 corosync [MAIN ] Successfully read main configuration file '/etc/corosync/corosync.conf'.
....
Jan 23 16:09:30 corosync [TOTEM ] Initializing transmit/receive security: libtomcrypt SOBER128/SHA1HMAC (mode 0).
Jan 23 16:09:31 corosync [TOTEM ] The network interface [10.10.10.24] is now up.
Jan 23 16:09:31 corosync [TOTEM ] A processor joined or left the membership and a new membership was formed.
Jan 23 16:09:48 corosync [TOTEM ] A processor joined or left the membership and a new membership was formed.
[root@app1 corosync]#
五、配置pacemaker
1. 基本配置
corosync默认启用了stonith功能,而我们要配置的集群并没有stonith设备,因此在配置集群的全局属性时要对其禁用。
# crm
crm(live)# configure ##进入配置模式
crm(live)configure# property stonith-enabled=false ##禁用stonith设备
crm(live)configure# property no-quorum-policy=ignore ##不具备法定票数时采取的动作
crm(live)configure# rsc_defaults resource-stickiness=100 ##设置默认的资源黏性,只对当前节点有效。
crm(live)configure# verify ##校验
crm(live)configure# commit ##校验没有错误再提交
crm(live)configure# show ##查看当前配置
node app1
node app2
property cib-bootstrap-options: \
dc-version=1.1.11-97629de \
cluster-infrastructure="classic openais (with plugin)" \
expected-quorum-votes=2 \
stonith-enabled=false \
default-resource-stickiness=100 \
no-quorum-policy=ignore
2. 资源配置
#命令使用经验说明:verify报错的,可以直接退出,也可以采用edit编辑,修改正确为止。
# crm configure edit 可以直接编辑配置文件
(1) 添加VIP
不要单个资源提交,等所有资源及约束一起建立之后提交。
crm(live)configure# primitive vip ocf:heartbeat:IPaddr params ip=192.168.0.26 cidr_netmask=24 nic=eth0:1 op monitor interval=30s timeout=20s on-fail=restart
crm(live)configure# verify
(2) 添加drdb服务
crm(live)configure# primitive mydrbd ocf:linbit:drbd params drbd_resource=data op monitor role=Master interval=20 timeout=30 op monitor role=Slave interval=30 timeout=30 op start timeout=240 op stop timeout=100
crm(live)configure# verify
把drbd设为主从资源:
crm(live)configure# ms ms_mydrbd mydrbd meta master-max=1 master-node-max=1 clone-max=2 clone-node-max=1 notify=true
crm(live)configure# verify
(3) 文件系统挂载服务:
crm(live)configure# primitive mystore ocf:heartbeat:Filesystem params device=/dev/drbd0 directory=/data fstype=ext4 op start timeout=60s op stop timeout=60s op monitor interval=30s timeout=40s on-fail=restart
crm(live)configure# verify
(4) 创建约束,很关键,VIP,DRBD, 目录挂载均在一台节点上,而且VIP,目录挂载均依懒于主DRBD.
创建组资源,vip与mystore一起。
crm(live)configure# group g_service vip mystore
crm(live)configure# verify
创建位置约束,组资源的启动依懒于drbd主节点
crm(live)configure# colocation c_g_service inf: g_service ms_mydrbd:Master
创建位置约整,mystore存储挂载依赖于drbd主节点
crm(live)configure# colocation mystore_with_drbd_master inf: mystore ms_mydrbd:Master
启动顺序依懒,drbd启动后,创建g_service组资源
crm(live)configure# order o_g_service inf: ms_mydrbd:promote g_service:start
crm(live)configure# verify
crm(live)configure# commit
(5) 增加mysql资源
crm(live)# configure
crm(live)configure# primitive mysqld lsb:mysqld op monitor interval=20 timeout=20 on-fail=restart
创建mysql服务与g_service组在一起
crm(live)configure# colocation mysqld_with_g_service inf: mysqld g_service
crm(live)configure# verify
crm(live)configure# show
创建启动顺序,mysql服务在g_service组启动之后再启动
crm(live)configure# order mysqld_after_g_service mandatory: g_service mysqld
crm(live)configure# verify
crm(live)configure# show
crm(live)configure# commit
3. 配置完成后,查看状态
[root@app1 ~]# crm status
Last updated: Fri Apr 29 14:59:14 2016
Last change: Fri Apr 29 14:59:05 2016 via cibadmin on app1
Stack: classic openais (with plugin)
Current DC: app1 - partition with quorum
Version: 1.1.10-14.el6-368c726
2 Nodes configured, 2 expected votes
5 Resources configured
Online: [ app1 app2 ]
Master/Slave Set: ms_mydrbd [mydrbd]
Masters: [ app1 ]
Slaves: [ app2 ]
mysqld (lsb:mysqld): Started app1
Resource Group: g_service
vip (ocf::heartbeat:IPaddr): Started app1
mystore (ocf::heartbeat:Filesystem): Started app1
[root@app1 ~]#
4. 模拟故障切换
(1) app1上操作standby
[root@app1 mysql]# crm node standby app1
(2) app1再查看切换状态:状态转移都很成功。
[root@app1 ~]# crm status
Last updated: Fri Apr 29 15:12:01 2016
Last change: Fri Apr 29 15:01:49 2016 via crm_attribute on app1
Stack: classic openais (with plugin)
Current DC: app1 - partition with quorum
Version: 1.1.10-14.el6-368c726
2 Nodes configured, 2 expected votes
5 Resources configured
Node app1: standby
Online: [ app2 ]
Master/Slave Set: ms_mydrbd [mydrbd]
Masters: [ app2 ]
Stopped: [ app1 ]
mysqld (lsb:mysqld): Started app2
Resource Group: g_service
vip (ocf::heartbeat:IPaddr): Started app2
mystore (ocf::heartbeat:Filesystem): Started app2
[root@app1 ~]#
(3) app2上就可以测试mysql登录了:
[root@app2 ~]# mysql -uroot -padmin
Warning: Using a password on the command line interface can be insecure.
Welcome to the MySQL monitor. Commands end with ; or \g.
Your MySQL connection id is 1
Server version: 5.6.29-log MySQL Community Server (GPL)
Copyright (c) 2000, 2016, Oracle and/or its affiliates. All rights reserved.
Oracle is a registered trademark of Oracle Corporation and/or its
affiliates. Other names may be trademarks of their respective
owners.
Type 'help;' or '\h' for help. Type '\c' to clear the current input statement.
mysql> \q
Bye
(4) app2上查看drbd挂载目录情况
[root@app2 ~]# df -h
Filesystem Size Used Avail Use% Mounted on
/dev/mapper/vg_app2-lv_root 36G 5.0G 29G 16% /
tmpfs 1004M 29M 976M 3% /dev/shm
/dev/sda1 485M 39M 421M 9% /boot
/dev/drbd0 5.0G 249M 4.5G 6% /data
[root@app2 ~]#
[root@app2 ~]#
#说明:切换测试时有时会出现警告提示,影响真实状态查看,可以采用如下方式清除,提示哪个资源报警就清哪个,清理后,再次crm status查看状态显示正常。
Failed actions:
mystore_stop_0 on app1 'unknown error' (1): call=97, status=complete, last-rc-change='Tue Jan 26 14:39:21 2016', queued=6390ms, exec=0ms
[root@app1 ~]# crm resource cleanup mystore
Cleaning up mystore on app1
Cleaning up mystore on app2
Waiting for 2 replies from the CRMd.. OK
[root@app1 ~]#
5. 配置小结
在切换的过程中最大的问题就是DRBD的同步问题,必竟数据都在磁盘上,如果不同步就会造成数据不一致的问题,standby模拟切换其实不能真实模拟drbd的故障转移的。因为在故障转移之后,drbd被stop之后,从库接管主节点会从因stop之后会出现unknownn状态,这时候需要做会数据初始化同步。