k8s集群存储解决方案 GlusterFS
GlusterFS是一个开源的分布式文件系统具有强大的横向扩展能力通过扩展能够支持数PB存储容量和处理数千客户端GlusterFS 借助 TCP/IP 或 InfiniBandRDMA 网络将物理分布的存储资源聚集在一起,使用单一全局命名空间来管理数据。
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k8s集群存储解决方案 GlusterFS
- 一、存储解决方案介绍
- 二、环境说明
- 三、GlusterFS集群部署
- 四、Heketi安装
- 五、K8S集群使用GlusterFS集群
一、存储解决方案介绍
1.1 GlusterFS
- GlusterFS是一个开源的分布式文件系统
- 具有强大的横向扩展能力
- 通过扩展能够支持数PB存储容量和处理数千客户端
- GlusterFS 借助 TCP/IP 或 InfiniBandRDMA 网络将物理分布的存储资源聚集在一起,使用单一全局命名空间来管理数据。
1.2 Heketi
- Heketi(https://github.com/heketi/heketi),是一个基于RESTful API的GlusterFS卷管理框架。
- Heketi 可以方便地和云平台整合,提供RESTful API供Kubernetes调用,实现多GlusterFS集群的卷管理
- Heketi还有保证bricks和它对应的副本均匀分布在集群中的不同可用区的优点。
二、环境说明
2.1 k8s集群
| kubeadm | kubelet | kubectl | docker | 节点数 |
|---|---|---|---|---|
| v1.21.10 | v1.21.10 | v1.21.10 | 20.10-17 | 3;1master2slave |
| 主机 | IP地址 | Heketi |
|---|---|---|
| master01 | 192.168.10.11 | heketi heketi-client |
| worker01 | 192.168.10.12 | heketi-client |
| worker02 | 192.168.10.13 | heketi-client |
2.2 GlusterFS集群
| 主机 | IP地址 | 硬盘 | 硬盘容量 |
|---|---|---|---|
| g1 | 192.168.10.60 | /dev/sdb | 100G |
| g2 | 192.168.10.61 | /dev/sdb | 100G |
| g3 | 192.168.10.62 | /dev/sdb | 100G |
三、GlusterFS集群部署
3.1 主机准备
3.1.1 主机名配置
3.1.2 IP配置
[root@localhost ~]# cat /etc/sysconfig/network-scripts/ifcfg-eth0
DEVICE=eth0
TYPE=Ethernet
ONBOOT=yes
BOOTPROTO=static
IPADDR=192.168.10.6X
NETMASK=255.255.255.0
GATEWAY=192.168.10.2
DNS1=119.29.29.29
X为0,1,2
3.1.4 主机间免密登录设置
在g1主机操作,然后copy到其它主机即可。
3.1.5 硬盘准备
3.1.5.1 查看硬盘
所有GlusterFS集群节点全部操作,仅在g1主机演示操作方法。
[root@gX ~]# lsblk
NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT
vda 252:0 0 20G 0 disk
├─vda1 252:1 0 1G 0 part /boot
└─vda2 252:2 0 19G 0 part
├─centos-root 253:0 0 17G 0 lvm /
└─centos-swap 253:1 0 2G 0 lvm [SWAP]
sdb 252:16 0 100G 0 disk
3.1.5.2 格式化硬盘
[root@gX ~]# mkfs.xfs /dev/sdb
meta-data=/dev/sdb isize=512 agcount=4, agsize=6553600 blks
= sectsz=512 attr=2, projid32bit=1
= crc=1 finobt=0, sparse=0
data = bsize=4096 blocks=26214400, imaxpct=25
= sunit=0 swidth=0 blks
naming =version 2 bsize=4096 ascii-ci=0 ftype=1
log =internal log bsize=4096 blocks=12800, version=2
= sectsz=512 sunit=0 blks, lazy-count=1
realtime =none extsz=4096 blocks=0, rtextents=0
3.1.6 硬盘自动挂载准备
3.1.6.1 准备挂载目录
[root@g1 ~]# mkdir /glustersdb
3.1.6.2 修改/etc/fstab文件实现自动挂载
[root@gX ~]# cat /etc/fstab
......
/dev/sdb /glustersdb xfs defaults 0 0
挂载所有
[root@gX ~]# mount -a
查看文件系统挂载情况
[root@gX ~]# df -h
文件系统 容量 已用 可用 已用% 挂载点
/dev/mapper/centos-root 17G 1.1G 16G 7% /
devtmpfs 988M 0 988M 0% /dev
tmpfs 1000M 0 1000M 0% /dev/shm
tmpfs 1000M 8.6M 991M 1% /run
tmpfs 1000M 0 1000M 0% /sys/fs/cgroup
/dev/vda1 1014M 133M 882M 14% /boot
tmpfs 98M 0 98M 0% /run/user/0
/dev/sdb 100G 33M 100G 1% /glustersdb
3.2 安全设置
3.2.1 firewalld设置
[root@gX ~]# systemctl disable firewalld
3.2.2 SELinux设置
所有主机均要修改,修改后,请重启系统让修改生效。
[root@gX ~]# sed -ri 's/SELINUX=enforcing/SELINUX=disabled/' /etc/selinux/config
3.3 时间同步设置
[root@gX ~]# crontab -l
0 */1 * * * ntpdate time1.aliyun.com
3.4 GlusterFS安装
3.4.1 YUM源准备
[root@gX ~]# yum -y install centos-release-gluster
[root@gX ~]# ls /etc/yum.repos.d/
CentOS-Gluster-7.repo CentOS-Storage-common.repo tuna.repo
3.4.2 GlusterFS安装
关于软件的依赖,待补充。
[root@gX ~]# yum -y install glusterfs glusterfs-server glusterfs-fuse glusterfs-rdma fuse
[root@gX ~]# systemctl enable glusterd
[root@gX ~]# systemctl start glusterd
3.5 GlusterFS集群配置
在GlusterFS集群g1主机上添加g2和g3 2台主机。
[root@g1 ~]# gluster peer probe g2
peer probe: success.
[root@g1 ~]# gluster peer probe g3
peer probe: success.
[root@g1 ~]# gluster peer status
Number of Peers: 2
Hostname: g2
Uuid: 7660736f-056b-414e-8b0c-b5272265946c
State: Peer in Cluster (Connected)
Hostname: g3
Uuid: 75b7c358-edbe-438c-ad72-2ce16ffabf9d
State: Peer in Cluster (Connected)
[root@g2 ~]# gluster peer status
Number of Peers: 2
Hostname: g1
Uuid: 920e9070-1336-4bff-8bfd-eb6161d035d3
State: Peer in Cluster (Connected)
Hostname: g3
Uuid: 75b7c358-edbe-438c-ad72-2ce16ffabf9d
State: Peer in Cluster (Connected)
[root@g3 ~]# gluster peer status
Number of Peers: 2
Hostname: g1
Uuid: 920e9070-1336-4bff-8bfd-eb6161d035d3
State: Peer in Cluster (Connected)
Hostname: g2
Uuid: 7660736f-056b-414e-8b0c-b5272265946c
State: Peer in Cluster (Connected)
3.6 添加复制卷验证GlusterFS集群可用性
如果是为K8S集群提供持久化存储,请不要再继续验证GlusterFS集群可用性或验证完成后,重新添加硬盘。
在GlusterFS集群任意节点均可完成
3.6.1 创建复制卷
[root@g1 ~]# gluster volume create k8s-test-volume replica 3 g1:/glustersdb/r1 g2:/glustersdb/r2 g3:/glustersdb/r3
volume create: k8s-test-volume: success: please start the volume to access data
[root@g1 ~]# ls /glustersdb
r1
[root@g2 ~]# ls /glustersdb
r2
[root@g3 ~]# ls /glustersdb
r3
3.6.2 启动复制卷
[root@g1 ~]# gluster volume start k8s-test-volume
volume start: k8s-test-volume: success
3.6.3 查询复制卷状态
[root@g1 ~]# gluster volume status k8s-test-volume
Status of volume: k8s-test-volume
Gluster process TCP Port RDMA Port Online Pid
------------------------------------------------------------------------------
Brick g1:/glustersdb/r1 49152 0 Y 6622
Brick g2:/glustersdb/r2 49152 0 Y 6518
Brick g3:/glustersdb/r3 49152 0 Y 6518
Self-heal Daemon on localhost N/A N/A Y 6643
Self-heal Daemon on g3 N/A N/A Y 6539
Self-heal Daemon on g2 N/A N/A Y 6539
Task Status of Volume k8s-test-volume
------------------------------------------------------------------------------
There are no active volume tasks
3.6.4 查看复制卷信息
[root@g1 ~]# gluster volume info k8s-test-volume
Volume Name: k8s-test-volume
Type: Replicate #复制卷
Volume ID: 0529c5f6-1ac0-40ea-a29c-6c4f85dc54cb
Status: Started
Snapshot Count: 0 #快照
Number of Bricks: 1 x 3 = 3
Transport-type: tcp
Bricks:
Brick1: g1:/glustersdb/r1
Brick2: g2:/glustersdb/r2
Brick3: g3:/glustersdb/r3
Options Reconfigured:
transport.address-family: inet
storage.fips-mode-rchecksum: on
nfs.disable: on
performance.client-io-threads: off
3.6.5 如果某一个brick不在线会影响客户端挂载(可选)
设置后,可以允许volume中的某块brick不在线的情况
[root@g1 glusterfs]# gluster volume set k8s-test-volume cluster.server-quorum-type none
volume set: success
[root@g1 glusterfs]# gluster volume set k8s-test-volume cluster.quorum-type none
volume set: success
3.6.6 限额问题(可选)
[root@g1 ~]# gluster volume quota k8s-test-volume enable
volume quota : success
[root@g1 ~]# gluster volume quota k8s-test-volume limit-usage / 10GB
volume quota : success
3.7 在k8s集群工作节点验证GlusterFS集群可用性
由于仅使用一个工作节点验证GlusterFS集群可用性,因此没有必要为所有工作节点全部安装GlusterFS客户端。
[root@worker01 ~]# yum -y install centos-release-gluster
[root@worker01 ~]# yum -y install glusterfs glusterfs-fuse
[root@worker01 ~]# mkdir /k8s-glusterfs-test-volume
> 如果使用主机名挂载,g1,g2,g3主机名需要添加到解析。
[root@worker01 ~]# mount -t glusterfs g1:/k8s-test-volume /k8s-glusterfs-test-volume
[root@worker01 ~]# df -h
文件系统 容量 已用 可用 已用% 挂载点
......
g1:/k8s-test-volume 100G 1.1G 99G 2% /k8s-glusterfs-test-volume
[root@worker01 ~]# umount /k8s-glusterfs-test-volume
四、Heketi安装
heketi是为glusterfs提供RESETFUL的API, 相当于给glusterfs和k8s之间架通了桥梁。k8s集群可以通过heketi提供的RESETFUL API完成对Glusterfs的PV申请和管理。
4.1 配置Heketi YUM源
k8s集群所有节点均需要
[root@master01 ~]# yum -y install centos-release-gluster
4.2 安装Heketi
4.2.1 k8s集群master节点安装
[root@master01 ~]# yum -y install heketi heketi-client
4.2.2 k8s集群工作节点安装
[root@worker01 ~]# yum -y install heketi-client
[root@worker02 ~]# yum -y install heketi-client
4.3 在k8s集群master节点修改Heketi配置文件
4.3.1 在k8s集群master节点查看并备份文件
[root@master01 ~]# ls /etc/heketi/
heketi.json
[root@master01 ~]# cp /etc/heketi/heketi.json{,.bak}
[root@master01 ~]# ls /etc/heketi/
heketi.json heketi.json.bak
4.3.2 在k8s集群master节点修改配置文件
[root@master01 ~]# cat /etc/heketi/heketi.json
{
"_port_comment": "Heketi Server Port Number",
"port": "18080", 修改为18080,防止与其它端口冲突
"_use_auth": "Enable JWT authorization. Please enable for deployment",
"use_auth": true, 开启用户认证
"_jwt": "Private keys for access",
"jwt": {
"_admin": "Admin has access to all APIs",
"admin": {
"key": "adminkey" 用户认证的key
},
"_user": "User only has access to /volumes endpoint",
"user": {
"key": "My Secret"
}
},
"_glusterfs_comment": "GlusterFS Configuration",
"glusterfs": {
"_executor_comment": [
"Execute plugin. Possible choices: mock, ssh",
"mock: This setting is used for testing and development.",
" It will not send commands to any node.",
"ssh: This setting will notify Heketi to ssh to the nodes.",
" It will need the values in sshexec to be configured.",
"kubernetes: Communicate with GlusterFS containers over",
" Kubernetes exec api."
],
"executor": "ssh", 访问glusterfs集群的方法
"_sshexec_comment": "SSH username and private key file information",
"sshexec": {
"keyfile": "/etc/heketi/heketi_key",
访问glusterfs集群使用的私钥,需要提前在k8s集群master节点生成
并copy到glusterfs集群所有节点,需要从/root/.ssh/id_rsa复制到此处才可以使用。
"user": "root", 认证使用的用户
"port": "22", ssh连接使用的端口
"fstab": "/etc/fstab" 挂载的文件系统
},
"_kubeexec_comment": "Kubernetes configuration",
"kubeexec": {
"host" :"https://kubernetes.host:8443",
"cert" : "/path/to/crt.file",
"insecure": false,
"user": "kubernetes username",
"password": "password for kubernetes user",
"namespace": "OpenShift project or Kubernetes namespace",
"fstab": "Optional: Specify fstab file on node. Default is /etc/fstab"
},
"_db_comment": "Database file name",
"db": "/var/lib/heketi/heketi.db", 数据库位置
"_loglevel_comment": [
"Set log level. Choices are:",
" none, critical, error, warning, info, debug",
"Default is warning"
],
"loglevel" : "warning" 修改日志级别
}
}
需要说明的是,heketi有三种executor,分别为mock、ssh、kubernetes,建议在测试环境使用mock,生产环境使用ssh,当glusterfs以容器的方式部署在kubernetes上时,才使用kubernetes。我们这里将glusterfs和heketi独立部署,使用ssh的方式。
4.4 配置ssh密钥
在上面我们配置heketi的时候使用了ssh的executor,那么就需要heketi服务器能通过ssh密钥的方式连接到所有glusterfs节点进行管理操作,所以需要先生成ssh密钥
4.4.1 生成密钥并验证
[root@master01 ~]# ssh-keygen -t rsa -f /root/.ssh/id_rsa -N ''
[root@master01 ~]# ssh-copy-id 192.168.10.60
[root@master01 ~]# ssh-copy-id 192.168.10.61
[root@master01 ~]# ssh-copy-id 192.168.10.62
验证密钥的可用性
[root@master01 ~]# ssh 192.168.10.60
Last login: Wed Jan 29 20:17:39 2020 from 192.168.10.1
[root@g1 ~]# exit
登出
Connection to 192.168.10.60 closed.
[root@master01 ~]# ssh 192.168.10.61
[root@master01 ~]# ssh 192.168.10.62
### 复制私密到/etc/heketi目录
[root@master01 ~]# cp .ssh/id_rsa /etc/heketi/heketi_key
[root@master01 ~]# ls /etc/heketi/
heketi.json heketi.json.bak heketi_key
4.5 启动Heketi
默认yum安装后,/etc/heketi及/var/lib/heketi目录所有者是root, 但是安装提供的service文件的user又是heketi. 导致不修改权限就是启动不起来,因此需要修改权限再启动服务。
[root@master01 heketi]# chown heketi:heketi /etc/heketi/ -R || chown heketi:heketi /var/lib/heketi -R
[root@master01 ~]# systemctl enable heketi
[root@master01 ~]# systemctl start heketi
[root@master01 ~]# systemctl status heketi
● heketi.service - Heketi Server
Loaded: loaded (/usr/lib/systemd/system/heketi.service; enabled; vendor preset: disabled)
Active: active (running) since 三 2020-01-29 22:13:52 CST; 2min 31s ago
Main PID: 23664 (heketi)
Tasks: 11
Memory: 8.8M
CGroup: /system.slice/heketi.service
└─23664 /usr/bin/heketi --config=/etc/heketi/heketi.json
4.6 验证Heketi
验证是否可以创建集群
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json cluster create
{"id":"1c8824939237ea79aa17a127e958fc92","nodes":[],"volumes":[],"block":true,"file":true,"blockvolumes":[]}
删除已创建的集群
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json cluster delete 1c8824939237ea79aa17a127e958fc92
Cluster 1c8824939237ea79aa17a127e958fc92 deleted
4.7 创建集群
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json cluster create
{"id":"dd456dbc15f1206e980fdb5345117085","nodes":[],"volumes":[],"block":true,"file":true,"blockvolumes":[]}
说明
192.168.10.11 为在k8s集群master节点IP
4.8 添加节点
添加g1
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json node add --cluster "dd456dbc15f1206e980fdb5345117085" --management-host-name 192.168.10.60 --storage-host-name 192.168.10.60 --zone 1
{"zone":1,"hostnames":{"manage":["192.168.10.60"],"storage":["192.168.10.60"]},"cluster":"dd456dbc15f1206e980fdb5345117085","id":"217899105fa01434f9f29625e7ad9cfb","state":"online","devices":[]}
添加g2
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json node add --cluster "dd456dbc15f1206e980fdb5345117085" --management-host-name 192.168.10.61 --storage-host-name 192.168.10.61 --zone 1
{"zone":1,"hostnames":{"manage":["192.168.10.61"],"storage":["192.168.10.61"]},"cluster":"dd456dbc15f1206e980fdb5345117085","id":"b8cb7ce3f753fea41bb170f2639a1554","state":"online","devices":[]}
添加g3
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 --json node add --cluster "dd456dbc15f1206e980fdb5345117085" --management-host-name 192.168.10.62 --storage-host-name 192.168.10.62 --zone 1
{"zone":1,"hostnames":{"manage":["192.168.10.62"],"storage":["192.168.10.62"]},"cluster":"dd456dbc15f1206e980fdb5345117085","id":"bd7637215a852092583d7e5cd84b6c9e","state":"online","devices":[]}
查看集群中node列表
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 node list
Id:217899105fa01434f9f29625e7ad9cfb Cluster:dd456dbc15f1206e980fdb5345117085
Id:b8cb7ce3f753fea41bb170f2639a1554 Cluster:dd456dbc15f1206e980fdb5345117085
Id:bd7637215a852092583d7e5cd84b6c9e Cluster:dd456dbc15f1206e980fdb5345117085
4.9 添加设备
4.9.1 错误的示范
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 device add --name "/dev/sdb" --node 217899105fa01434f9f29625e7ad9cfb
Error: Setup of device /dev/sdb failed (already initialized or contains data?): Can't open /dev/sdb exclusively. Mounted filesystem?
Can't open /dev/sdb exclusively. Mounted filesystem?
4.9.2 添加新硬盘
如果没有做使用测试,可以不操作此步骤。
[root@g1 ~]# lsblk
NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT
vda 252:0 0 20G 0 disk
├─vda1 252:1 0 1G 0 part /boot
└─vda2 252:2 0 19G 0 part
├─centos-root 253:0 0 17G 0 lvm /
└─centos-swap 253:1 0 2G 0 lvm [SWAP]
sdb 252:16 0 100G 0 disk /glustersdb
sdc 252:32 0 50G 0 disk
[root@g2 ~]# lsblk
[root@g3 ~]# lsblk
4.9.3 添加GlusterFS集群节点中的设备到Heketi集群
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 device add --name "/dev/sdc" --node 217899105fa01434f9f29625e7ad9cfb
Device added successfully
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 device add --name "/dev/sdc" --node b8cb7ce3f753fea41bb170f2639a1554
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 device add --name "/dev/sdc" --node bd7637215a852092583d7e5cd84b6c9e
4.9.4 验证节点及设备添加情况
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 topology info
或
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 topology info --json
4.10 测试通过Heketi在GlusterFS集群中添加volume
### 在k8s集群master节点查看是否有volume
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 volume list
### 在k8s集群master节点创建volume
获取帮助
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 volume create -h
创建一个复制卷,共5G大小。卷的名称自动生成。
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 volume create --size=5 --replica=2
Name: vol_80539c6510a73f70ad3453c221901334
Size: 5
Volume Id: 80539c6510a73f70ad3453c221901334
Cluster Id: dd456dbc15f1206e980fdb5345117085
Mount: 192.168.10.60:vol_80539c6510a73f70ad3453c221901334
Mount Options: backup-volfile-servers=192.168.10.61,192.168.10.62
Block: false
Free Size: 0
Reserved Size: 0
Block Hosting Restriction: (none)
Block Volumes: []
Durability Type: replicate
Distribute Count: 1
Replica Count: 2
验证卷是否创建
[root@master01 ~]# heketi-cli --user admin --secret adminkey --server http://192.168.10.11:18080 volume list
Id:80539c6510a73f70ad3453c221901334 Cluster:dd456dbc15f1206e980fdb5345117085 Name:vol_80539c6510a73f70ad3453c221901334
在GlusterFS集群节点中验证即可看到已创建的卷。
[root@g1 ~]# gluster volume list
k8s-test-volume
vol_80539c6510a73f70ad3453c221901334
五、K8S集群使用GlusterFS集群
提示:k8s中使用glusterfs的时候, 会根据pvc的申请自动创建对应的pv, 然后绑定。
5.1 在k8s集群master节点创建storageclass资源清单文件
[root@master01 yaml]# cat storageclass-gluserfs.yaml
apiVersion: storage.k8s.io/v1
kind: StorageClass
metadata:
name: glusterfs
provisioner: kubernetes.io/glusterfs #表示存储分配器,需要根据后端存储的不同而变更
parameters:
resturl: "http://192.168.10.11:18080" #heketi API服务提供的URL,为k8s集群master节点IP
restauthenabled: "true" #可选参数,默认为"false",heketi服务开启认证时,必须设置为"true"
restuser: "admin" #可选参数,开启认证时设置相应用户名
restuserkey: "adminkey" #可选,开启认证时设置密码
volumetype: "replicate:2" #
可选参数,设置卷类型及其参数,如果未分配卷类型,则有分配器决定卷类型;
如”volumetype: replicate:3”表示3副本的replicate卷,
”volumetype: disperse:4:2”表示disperse卷,其中‘4’是数据,’2’是冗余校验,
”volumetype: none”表示distribute卷
5.2 在k8s集群master节点应用上述资源清单文件
[root@master01 yaml]# kubectl apply -f storageclass-gluserfs.yaml
storageclass.storage.k8s.io/glusterfs created
5.3 在k8s集群master节点验证是否创建storageclass存储对象
[root@master01 yaml]# kubectl get sc
NAME PROVISIONER RECLAIMPOLICY VOLUMEBINDINGMODE ALLOWVOLUMEEXPANSION AGE
glusterfs kubernetes.io/glusterfs Delete Immediate false 48s
5.4 在k8s集群master节点创建用于创建PVC的资源清单文件
[root@master01 yaml]# cat glusterfs-pvc.yaml
kind: PersistentVolumeClaim
apiVersion: v1
metadata:
name: glusterfs-mysql
namespace: default
annotations:
volume.beta.kubernetes.io/storage-class: "glusterfs"
spec:
accessModes:
- ReadWriteMany
resources:
requests:
storage: 2Gi
5.5 在k8s集群master节点应用上述资源清单文件
[root@master01 yaml]# kubectl apply -f glusterfs-pvc.yaml
persistentvolumeclaim/glusterfs-mysql created
5.6 在k8s集群master节点验证是否创建PVC
[root@master01 yaml]# kubectl get pv,pvc
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
persistentvolume/pvc-77d6fca6-f284-49fb-a0f3-8f5664690562 2Gi RWX Delete Bound default/glusterfs-mysql glusterfs 2s
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
persistentvolumeclaim/glusterfs-mysql Bound pvc-77d6fca6-f284-49fb-a0f3-8f5664690562 2Gi RWX glusterfs 3s
5.7 在k8s集群master节点创建Pod时使用上述创建的PVC
[root@master01 yaml]# cat mysql.yaml
apiVersion: v1
kind: Service
metadata:
name: mysql-svc
labels:
app: mysql-svc
spec:
ports:
- port: 3306
name: mysql
clusterIP: None
selector:
name: mysql
---
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: mysql
namespace: default
spec:
serviceName: mysql-svc
selector:
matchLabels:
name: mysql
replicas: 1
template:
metadata:
labels:
name: mysql
spec:
containers:
- name: mysql
image: mysql:5.7
imagePullPolicy: IfNotPresent
env:
- name: MYSQL_ROOT_PASSWORD
value: "123456"
ports:
- containerPort: 3306
name: mysql
volumeMounts:
- name: glusterfs-mysql-data
mountPath: "/var/lib/mysql"
volumes:
- name: glusterfs-mysql-data
persistentVolumeClaim:
claimName: glusterfs-mysql
[root@master01 yaml]# kubectl apply -f mysql.yaml
service/mysql-svc created
statefulset.apps/mysql created
[root@master01 ~]# kubectl get pods
NAME READY STATUS RESTARTS AGE
busybox-pod 1/1 Running 247 14d
mysql-0 1/1 Running 0 27s
nfs-client-provisioner-5786f95795-x7bcs 1/1 Running 1 30h
[root@master01 ~]# kubectl exec -it mysql-0 sh
# mysql -uroot -p123456
mysql: [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 2
Server version: 5.7.29 MySQL Community Server (GPL)
Copyright (c) 2000, 2020, 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> show databases;
+--------------------+
| Database |
+--------------------+
| information_schema |
| mysql |
| performance_schema |
| sys |
+--------------------+
4 rows in set (0.01 sec)
mysql> create database k8sonline;
Query OK, 1 row affected (0.01 sec)
mysql> show databases;
+--------------------+
| Database |
+--------------------+
| information_schema |
| k8sonline |
| mysql |
| performance_schema |
| sys |
+--------------------+
5 rows in set (0.01 sec)
查看GlusterFS集群数据存储位置
在g1节点
[root@g1 ~]# gluster volume list
vol_80539c6510a73f70ad3453c221901334
[root@g1 ~]# gluster volume info vol_80539c6510a73f70ad3453c221901334
Volume Name: vol_80539c6510a73f70ad3453c221901334
Type: Replicate
Volume ID: 5df33cf0-093d-4a6c-9a2c-d2b4ec195c9e
Status: Started
Snapshot Count: 0
Number of Bricks: 1 x 2 = 2
Transport-type: tcp
Bricks:
Brick1: 192.168.10.61:/var/lib/heketi/mounts/vg_d62a7a4a632dd4864edc367c952d0fa9/brick_f7d134a34348c334a369b84604db9a40/brick
Brick2: 192.168.10.60:/var/lib/heketi/mounts/vg_6e8d391aec35995a4ee82e53e986bf70/brick_b4caa8e338233c536fd98966eeccce98/brick
Options Reconfigured:
user.heketi.id: 80539c6510a73f70ad3453c221901334
transport.address-family: inet
storage.fips-mode-rchecksum: on
nfs.disable: on
performance.client-io-threads: off
在g2节点
[root@g2 ~]# ls /var/lib/heketi/mounts/vg_d62a7a4a632dd4864edc367c952d0fa9/brick_834718f2a0236b913b3aa14609b34819/brick/
auto.cnf ib_buffer_pool k8sonline server-cert.pem
ca-key.pem ibdata1 mysql server-key.pem
ca.pem ib_logfile0 performance_schema sys
client-cert.pem ib_logfile1 private_key.pem
client-key.pem ibtmp1 public_key.pem
5.8 关于storageclass资源清单的扩展
以上将userkey明文写入配置文件创建storageclass的方式,官方推荐将key使用secret保存。
# glusterfs-secret.yaml内容如下:
apiVersion: v1
kind: Secret
metadata:
name: heketi-secret
namespace: default
data:
# base64 encoded password. E.g.: echo -n "mypassword" | base64
key: TFRTTkd6TlZJOEpjUndZNg==
type: kubernetes.io/glusterfs
# storageclass-glusterfs.yaml内容修改如下:
apiVersion: storage.k8s.io/v1beta1
kind: StorageClass
metadata:
name: glusterfs
provisioner: kubernetes.io/glusterfs
parameters:
resturl: "http://192.168.10.11:18080"
clusterid: "dd456dbc15f1206e980fdb5345117085"
restauthenabled: "true"
restuser: "admin"
secretNamespace: "default"
secretName: "heketi-secret"
#restuserkey: "adminkey"
gidMin: "40000"
gidMax: "50000"
volumetype: "replicate:2"
5.9 FAQ
问题
- heketi有些卷明明存在但是却删不了
直接删除heketi存储目录/var/lib/heketi/ 下的mounts/文件夹,然后> heketi.db 清空db文件,重新来 - Can’t initialize physical volume “/dev/sdb1” of volume group “vg1” without –ff
这是因为没有卸载之前的vg和pv,使用命令vgremove,pvremove依次删除卷组,逻辑卷即可
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