详解MeterSphere 配置外部Mysql5.7的全过程
我从cnaaa.com购买了云服务器。
搭建一个主从复制(Master-Slave)的MySQL集群
本地存储原理
这里使用了本地存储,也就是说,用户希望Kubernetes能够直接使用宿主机上的本地磁盘目录,而不依赖于远程存储服务,来提供持久化的容器Volume
1、我们把存储固定在一个节点上,但是Pod在调度的时候,是飘来飘去的,怎么能让Pod通过PVC也能固定在PVC上?
2、给这个Pod加上一个nodeAffinity行不行?
当然行,但是这变相破坏了开发人员对资源对象的定义规范了,开发人员应该不需要时刻考虑调度的细节。调度的改动应该交给运维就行。所以我们为了实现本地存储,我们采用了延迟绑定的方法。方法很简单,我们都知道StorageClass一般由运维人员设计,我们只需要在StorageClass指定no-provisioner。这是因为Local Persistent Volume目前尚不支持Dynamic Provisioning,所以它没办法在用户创建PVC的时候,就自动创建出对应的PV。与此同时,这个StorageClass还定义了一个volumeBindingMode=WaitForFirstConsumer的属性。它是Local Persistent Volume里一个非常重要的特性,即:延迟绑定。
创建PV
先在Node (实验用的Node节点IP是node1)节点上,预先分配几个PV(不建议在生产上这样操作),要保证在node1上有对应的目录
ssh root@node1
mkdir -pv /data/svr/projects/{
mysql,mysql2,mysql3}
vim 01-persistentVolume-1.yaml
apiVersion: v1
kind: PersistentVolume
metadata:
name: example-mysql-pv
spec:
capacity:
storage: 15Gi
volumeMode: Filesystem
accessModes:
- ReadWriteOnce
persistentVolumeReclaimPolicy: Delete
storageClassName: local-storage
local:
path: /data/svr/projects/mysql
nodeAffinity:
required:
nodeSelectorTerms:
- matchExpressions:
- key: kubernetes.io/hostname
operator: In
values:
- node1
vim 01-persistentVolume-2.yaml
apiVersion: v1
kind: PersistentVolume
metadata:
name: example-mysql-pv-2
spec:
capacity:
storage: 15Gi
volumeMode: Filesystem
accessModes:
- ReadWriteOnce
persistentVolumeReclaimPolicy: Delete
storageClassName: local-storage
local:
path: /data/svr/projects/mysql2
nodeAffinity:
required:
nodeSelectorTerms:
- matchExpressions:
- key: kubernetes.io/hostname
operator: In
values:
- node1
vim 01-persistentVolume-3.yaml
apiVersion: v1
kind: PersistentVolume
metadata:
name: example-mysql-pv-3
spec:
capacity:
storage: 15Gi
volumeMode: Filesystem
accessModes:
- ReadWriteOnce
persistentVolumeReclaimPolicy: Delete
storageClassName: local-storage
local:
path: /data/svr/projects/mysql3
nodeAffinity:
required:
nodeSelectorTerms:
- matchExpressions:
- key: kubernetes.io/hostname
operator: In
values:
- node1
记住,这是在生产上不推荐的做法,我只是实验用途才这样手动预先创建,**正规的做法应该通过StorageClass采用Dynamic Provisioning, 而不是Static Provisioning机制生产PV
[root@master mysql]# kubectl apply -f 01-persistentVolume-1.yaml
persistentvolume/example-mysql-pv created
[root@master mysql]# kubectl apply -f 01-persistentVolume-2.yaml
persistentvolume/example-mysql-pv-2 created
[root@master mysql]# kubectl apply -f 01-persistentVolume-3.yaml
persistentvolume/example-mysql-pv-3 created
[root@master mysql]# kubectl get pv
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
example-mysql-pv 15Gi RWO Delete Available local-storage 8s
example-mysql-pv-2 15Gi RWO Delete Available local-storage 6s
example-mysql-pv-3 15Gi RWO Delete Available local-storage 3s
02-storageclass.yaml
kind: StorageClass
apiVersion: storage.k8s.io/v1
metadata:
name: local-storage
provisioner: kubernetes.io/no-provisioner
volumeBindingMode: WaitForFirstConsumer
[root@master mysql]# kubectl apply -f 02-storageclass.yaml
storageclass.storage.k8s.io/local-storage created
[root@master mysql]# kubectl get sc
NAME PROVISIONER RECLAIMPOLICY VOLUMEBINDINGMODE ALLOWVOLUMEEXPANSION AGE
local-storage kubernetes.io/no-provisioner Delete WaitForFirstConsumer false 5s
创建Namespace
03-mysql-namespace.yaml
apiVersion: v1
kind: Namespace
metadata:
name: mysql
labels:
app: mysql
[root@master mysql]# kubectl apply -f 03-mysql-namespace.yaml
namespace/mysql unchanged
[root@master mysql]# kubectl get ns -n mysql
NAME STATUS AGE
mysql Active 3d
创建数据库的配置文件configmap
使用ConfigMap为Master/Slave节点分配不同的配置文件
vim 04-mysql-configmap.yaml
apiVersion: v1
kind: ConfigMap
metadata:
name: mysql
namespace: mysql
labels:
app: mysql
data:
master.cnf: |
# Master配置
[mysqld]
log-bin=mysqllog
skip-name-resolve
slave.cnf: |
# Slave配置
[mysqld]
super-read-only
skip-name-resolve
log-bin=mysql-bin
replicate-ignore-db=mysql
[root@master mysql]# kubectl apply -f 04-mysql-configmap.yaml
configmap/mysql created
[root@master mysql]# kubectl get cm -n mysql
NAME DATA AGE
mysql 2 5s
创建MySQL密码Secret
05-mysql-secret.yaml
apiVersion: v1
kind: Secret
metadata:
name: mysql-secret
namespace: mysql
labels:
app: mysql
type: Opaque
data:
password: MTIzNDU2 # echo -n "123456" | base64
[root@master mysql]# kubectl apply -f 05-mysql-secret.yaml
secret/mysql-secret created
[root@master mysql]# kubectl get secret -n mysql
NAME TYPE DATA AGE
mysql-secret Opaque 1 18s
使用Service为MySQL提供读写分离
06-mysql-services.yaml
apiVersion: v1
kind: Service
metadata:
name: mysql
namespace: mysql
labels:
app: mysql
spec:
ports:
- name: mysql
port: 3306
clusterIP: None
selector:
app: mysql
---
apiVersion: v1
kind: Service
metadata:
name: mysql-read
namespace: mysql
labels:
app: mysql
spec:
ports:
- name: mysql
port: 3306
selector:
app: mysql
用户所有写请求,必须以DNS记录的方式直接访问到Master节点,也就是mysql-0.mysql这条DNS记录。
用户所有读请求,必须访问自动分配的DNS记录可以被转发到任意一个Master或Slave节点上,也就是mysql-read这条DNS记录。
[root@master mysql]# kubectl apply -f 06-mysql-services.yaml
service/mysql created
service/mysql-read created
[root@master mysql]# kubectl get svc -n mysql
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
mysql ClusterIP None <none> 3306/TCP 3s
mysql-read ClusterIP 10.107.90.19 <none> 3306/TCP 3s
创建MySQL集群实例
使用StatefulSet搭建MySQL主从集群
07-mysql-statefulset.yaml
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: mysql
namespace: mysql
labels:
app: mysql
spec:
selector:
matchLabels:
app: mysql
serviceName: mysql
replicas: 2
template:
metadata:
labels:
app: mysql
spec:
initContainers:
- name: init-mysql
image: mysql:5.7
env:
- name: MYSQL_ROOT_PASSWORD
valueFrom:
secretKeyRef:
name: mysql-secret
key: password
command:
- bash
- "-c"
- |
set -ex
# 从Pod的序号,生成server-id
[[ $(hostname) =~ -([0-9]+)$ ]] || exit 1
ordinal=${
BASH_REMATCH[1]}
echo [mysqld] > /mnt/conf.d/server-id.cnf
# 由于server-id不能为0,因此给ID加100来避开它
echo server-id=$((100 + $ordinal)) >> /mnt/conf.d/server-id.cnf
# 如果Pod的序号为0,说明它是Master节点,从ConfigMap里把Master的配置文件拷贝到/mnt/conf.d目录下
# 否则,拷贝ConfigMap里的Slave的配置文件
if [[ ${ordinal} -eq 0 ]]; then
cp /mnt/config-map/master.cnf /mnt/conf.d
else
cp /mnt/config-map/slave.cnf /mnt/conf.d
fi
volumeMounts:
- name: conf
mountPath: /mnt/conf.d
- name: config-map
mountPath: /mnt/config-map
- name: clone-mysql
image: gcr.io/google-samples/xtrabackup:1.0
env:
- name: MYSQL_ROOT_PASSWORD
valueFrom:
secretKeyRef:
name: mysql-secret
key: password
command:
- bash
- "-c"
- |
set -ex
# 拷贝操作只需要在第一次启动时进行,所以数据已经存在则跳过
[[ -d /var/lib/mysql/mysql ]] && exit 0
# Master 节点(序号为 0)不需要这个操作
[[ $(hostname) =~ -([0-9]+)$ ]] || exit 1
ordinal=${
BASH_REMATCH[1]}
[[ $ordinal == 0 ]] && exit 0
# 使用ncat指令,远程地从前一个节点拷贝数据到本地
ncat --recv-only mysql-$(($ordinal-1)).mysql 3307 | xbstream -x -C /var/lib/mysql
# 执行 --prepare,这样拷贝来的数据就可以用作恢复了
xtrabackup --prepare --target-dir=/var/lib/mysql
volumeMounts:
- name: data
mountPath: /var/lib/mysql
subPath: mysql
- name: conf
mountPath: /etc/mysql/conf.d
containers:
- name: mysql
image: mysql:5.7
env:
# - name: MYSQL_ALLOW_EMPTY_PASSWORD
# value: "1"
- name: MYSQL_ROOT_PASSWORD
valueFrom:
secretKeyRef:
name: mysql-secret
key: password
ports:
- name: mysql
containerPort: 3306
volumeMounts:
- name: data
mountPath: /var/lib/mysql
subPath: mysql
- name: conf
mountPath: /etc/mysql/conf.d
resources:
requests:
cpu: 500m
memory: 1Gi
livenessProbe:
exec:
command: ["mysqladmin", "ping", "-uroot", "-p${MYSQL_ROOT_PASSWORD}"]
initialDelaySeconds: 30
periodSeconds: 10
timeoutSeconds: 5
readinessProbe:
exec:
command: ["mysqladmin", "ping", "-uroot", "-p${MYSQL_ROOT_PASSWORD}"]
initialDelaySeconds: 5
periodSeconds: 2
timeoutSeconds: 1
- name: xtrabackup
image: gcr.io/google-samples/xtrabackup:1.0
ports:
- name: xtrabackup
containerPort: 3307
env:
- name: MYSQL_ROOT_PASSWORD
valueFrom:
secretKeyRef:
name: mysql-secret
key: password
command:
- bash
- "-c"
- |
set -ex
cd /var/lib/mysql
# 从备份信息文件里读取MASTER_LOG_FILE和MASTER_LOG_POS这2个字段的值,用来拼装集群初始化SQL
if [[ -f xtrabackup_slave_info ]]; then
# 如果xtrabackup_slave_info文件存在,说明这个备份数据来自于另一个Slave节点
# 这种情况下,XtraBackup工具在备份的时候,就已经在这个文件里自动生成了“CHANGE MASTER TO”SQL语句
# 所以,只需要把这个文件重命名为change_master_to.sql.in,后面直接使用即可
mv xtrabackup_slave_info change_master_to.sql.in
# 所以,也就用不着xtrabackup_binlog_info了
rm -f xtrabackup_binlog_info
elif [[ -f xtrabackup_binlog_info ]]; then
# 如果只是存在xtrabackup_binlog_info文件,说明备份来自于Master节点,就需要解析这个备份信息文件,读取所需的两个字段的值
[[ $(cat xtrabackup_binlog_info) =~ ^(.*?)[[:space:]]+(.*?)$ ]] || exit 1
rm xtrabackup_binlog_info
# 把两个字段的值拼装成SQL,写入change_master_to.sql.in文件
echo "CHANGE MASTER TO MASTER_LOG_FILE='${
BASH_REMATCH[1]}',\
MASTER_LOG_POS=${
BASH_REMATCH[2]}" > change_master_to.sql.in
fi
# 如果存在change_master_to.sql.in,就意味着需要做集群初始化工作
if [[ -f change_master_to.sql.in ]]; then
# 但一定要先等MySQL容器启动之后才能进行下一步连接MySQL的操作
echo "Waiting for mysqld to be ready(accepting connections)"
until mysql -h 127.0.0.1 -uroot -p${MYSQL_ROOT_PASSWORD} -e "SELECT 1"; do sleep 1; done
echo "Initializing replication from clone position"
# 将文件change_master_to.sql.in改个名字
# 防止这个Container重启的时候,因为又找到了change_master_to.sql.in,从而重复执行一遍初始化流程
mv change_master_to.sql.in change_master_to.sql.orig
# 使用change_master_to.sql.orig的内容,也就是前面拼装的SQL,组成一个完整的初始化和启动Slave的SQL语句
mysql -h 127.0.0.1 -uroot -p${MYSQL_ROOT_PASSWORD} << EOF
$(< change_master_to.sql.orig),
MASTER_HOST='mysql-0.mysql.mysql',
MASTER_USER='root',
MASTER_PASSWORD='${MYSQL_ROOT_PASSWORD}',
MASTER_CONNECT_RETRY=10;
START SLAVE;
EOF
fi
# 使用ncat监听3307端口。
# 它的作用是,在收到传输请求的时候,直接执行xtrabackup --backup命令,备份MySQL的数据并发送给请求者
exec ncat --listen --keep-open --send-only --max-conns=1 3307 -c \
"xtrabackup --backup --slave-info --stream=xbstream --host=127.0.0.1 --user=root --password=${MYSQL_ROOT_PASSWORD}"
volumeMounts:
- name: data
mountPath: /var/lib/mysql
subPath: mysql
- name: conf
mountPath: /etc/mysql/conf.d
volumes:
- name: conf
emptyDir: {
}
- name: config-map
configMap:
name: mysql
volumeClaimTemplates:
- metadata:
name: data
spec:
accessModes:
- "ReadWriteOnce"
storageClassName: local-storage
resources:
requests:
storage: 3Gi
整体的StatefulSet有两个Replicas,一个Master,一个Slave,然后使用init-mysql这个initContainers进行配置文件的初始化。接着使用clone-mysql这个initContainers进行数据的传输;同时使用xtrabackup这个sidecar容器进行SQL初始化和数据传输功能。
创建 StatefulSet
kubectl apply -f 07-mysql-statefulset.yaml
可以看到,StatefulSet启动成功后,会有两个Pod运行。接下来,我们可以尝试向这个MySQL集群发起请求,执行一些SQL操作来验证它是否正常。整个过程因为拉取mysql和一个gcr.io/google-samples/xtrabackup:1.0国外的镜像会很慢,但是在创建mysql-0拉取一次之后,后续创建m>ysql-1就相对很快了。
最后,容器检查pod的运行状态
[root@master mysql]# kubectl get po -n mysql
NAME READY STATUS RESTARTS AGE
mysql-0 2/2 Running 0 2m7s
mysql-1 2/2 Running 0 116s
服务验证
验证主从状态
[root mysql]# kubectl -n mysql exec mysql-1 -c mysql -- bash -c "mysql -uroot -p123456 -e 'show slave status \G'"
*************************** 1. row ***************************
Slave_IO_State: Waiting for master to send event
Master_Host: mysql-0.mysql.mysql
Master_User: root
Master_Port: 3306
Connect_Retry: 10
Master_Log_File: mysqllog.000003
Read_Master_Log_Pos: 154
Relay_Log_File: mysql-1-relay-bin.000002
Relay_Log_Pos: 319
Relay_Master_Log_File: mysqllog.000003
Slave_IO_Running: Yes
Slave_SQL_Running: Yes
Replicate_Do_DB:
Replicate_Ignore_DB: mysql0
Replicate_Do_Table:
Replicate_Ignore_Table:
Replicate_Wild_Do_Table:
Replicate_Wild_Ignore_Table:
Last_Errno: 0
Last_Error:
Skip_Counter: 0
Exec_Master_Log_Pos: 154
Relay_Log_Space: 528
Until_Condition: None
Until_Log_File:
Until_Log_Pos: 0
Master_SSL_Allowed: No
Master_SSL_CA_File:
Master_SSL_CA_Path:
Master_SSL_Cert:
Master_SSL_Cipher:
Master_SSL_Key:
Seconds_Behind_Master: 0
Master_SSL_Verify_Server_Cert: No
Last_IO_Errno: 0
Last_IO_Error:
Last_SQL_Errno: 0
Last_SQL_Error:
Replicate_Ignore_Server_Ids:
Master_Server_Id: 100
Master_UUID: f8c7768a-6702-11ec-a648-c204e42fb62e
Master_Info_File: /var/lib/mysql/master.info
SQL_Delay: 0
SQL_Remaining_Delay: NULL
Slave_SQL_Running_State: Slave has read all relay log; waiting for more updates
Master_Retry_Count: 86400
Master_Bind:
Last_IO_Error_Timestamp:
Last_SQL_Error_Timestamp:
Master_SSL_Crl:
Master_SSL_Crlpath:
Retrieved_Gtid_Set:
Executed_Gtid_Set:
Auto_Position: 0
Replicate_Rewrite_DB:
Channel_Name:
Master_TLS_Version:
mysql: [Warning] Using a password on the command line interface can be insecure.
接下来,我们通过Master容器创建数据库和表、插入数据库
[root@master mysql]# kubectl -n mysql exec mysql-0 -c mysql -- bash -c "mysql -uroot -p123456 -e 'create database test'"
[root@master mysql]# kubectl -n mysql exec mysql-0 -c mysql -- bash -c "mysql -uroot -p123456 -e 'use test;create table counter(c int);'"
[root@master mysql]# kubectl -n mysql exec mysql-0 -c mysql -- bash -c "mysql -uroot -p123456 -e 'use test;insert into counter values(123)'"
[root@master mysql]# kubectl -n mysql exec mysql-1 -c mysql -- bash -c "mysql -uroot -p123456 -e 'use test;select * from counter'"
c
123
当看到输出结果,主从同步正常了
扩展节点
[root@master mysql]# kubectl -n mysql scale statefulset mysql -—replicas=3
[root@master mysql]# kubectl get po -n mysql
NAME READY STATUS RESTARTS AGE
mysql-0 2/2 Running 0 11m
mysql-1 2/2 Running 0 11m
mysql-2 2/2 Running 0 20s
查看扩容节点数据是否已同步
kubectl -n mysql exec mysql-2 -c mysql -- bash -c "mysql -uroot -p123456 -e 'use test;select * from counter’"
c
123