簡介
本文章介紹如何使用glusterfs為k8s提供動态申請pv的功能。glusterfs 提供底層存儲功能,heketi為glusterfs提供restful風格的api,友善管理glusterfs。支援k8s的pv的3種通路模式
ReadWriteOnce,ReadOnlyMany ,ReadWriteMany
通路模式隻是能力描述,并不是強制執行的,對于沒有按pvc聲明的方式使用pv,存儲提供者應該負責通路時的運作錯誤。例如如果設定pvc的通路模式為
ReadOnlyMany
,pod挂載後依然可寫,如果需要真正的不可寫,申請pvc是需要指定
readOnly: true
參數
安裝
實驗用的Vagrantfile
# -*- mode: ruby -*-
# vi: set ft=ruby :
ENV["LC_ALL"] = "en_US.UTF-8"
Vagrant.configure("2") do |config|
(1..3).each do |i|
config.vm.define "lab#{i}" do |node|
node.vm.box = "centos-7.4-docker-17"
node.ssh.insert_key = false
node.vm.hostname = "lab#{i}"
node.vm.network "private_network", ip: "11.11.11.11#{i}"
node.vm.provision "shell",
inline: "echo hello from node #{i}"
node.vm.provider "virtualbox" do |v|
v.cpus = 2
v.customize ["modifyvm", :id, "--name", "lab#{i}", "--memory", "3096"]
file_to_disk = "lab#{i}_vdb.vdi"
unless File.exist?(file_to_disk)
# 50GB
v.customize ['createhd', '--filename', file_to_disk, '--size', 50 * 1024]
end
v.customize ['storageattach', :id, '--storagectl', 'IDE', '--port', 1, '--device', 0, '--type', 'hdd', '--medium', file_to_disk]
end
end
end
end
複制代碼
環境配置說明
# 安裝 glusterfs 每節點需要提前加載 dm_thin_pool 子產品
modprobe dm_thin_pool
# 配置開啟自加載
cat >/etc/modules-load.d/glusterfs.conf<<EOF
dm_thin_pool
EOF
# 安裝 glusterfs-fuse
yum install -y glusterfs-fuse
複制代碼
安裝glusterfs與heketi
# 安裝 heketi client
# https://github.com/heketi/heketi/releases
# 去github下載下傳相關的版本
wget https://github.com/heketi/heketi/releases/download/v7.0.0/heketi-client-v7.0.0.linux.amd64.tar.gz
tar xf heketi-client-v7.0.0.linux.amd64.tar.gz
cp heketi-client/bin/heketi-cli /usr/local/bin
# 檢視版本
heketi-cli -v
# 如下部署步驟都在如下目錄執行
cd heketi-client/share/heketi/kubernetes
# 在k8s中部署 glusterfs
kubectl create -f glusterfs-daemonset.json
# 檢視 node 節點
kubectl get nodes
# 給提供存儲 node 節點打 label
kubectl label node lab1 lab2 lab3 storagenode=glusterfs
# 檢視 glusterfs 狀态
kubectl get pods -o wide
# 部署 heketi server
# 配置 heketi server 的權限
kubectl create -f heketi-service-account.json
kubectl create clusterrolebinding heketi-gluster-admin --clusterrole=edit --serviceaccount=default:heketi-service-account
# 建立 cofig secret
kubectl create secret generic heketi-config-secret --from-file=./heketi.json
# 初始化部署
kubectl create -f heketi-bootstrap.json
# 檢視 heketi bootstrap 狀态
kubectl get pods -o wide
kubectl get svc
# 配置端口轉發 heketi server
HEKETI_BOOTSTRAP_POD=$(kubectl get pods | grep deploy-heketi | awk '{print $1}')
kubectl port-forward $HEKETI_BOOTSTRAP_POD 58080:8080
# 測試通路
# 另起一終端
curl http://localhost:58080/hello
# 配置 glusterfs
# hostnames/manage 字段裡必須和 kubectl get node 一緻
# hostnames/storage 指定存儲網絡 ip 本次實驗使用與k8s叢集同一個ip
cat >topology.json<<EOF
{
"clusters": [
{
"nodes": [
{
"node": {
"hostnames": {
"manage": [
"lab1"
],
"storage": [
"11.11.11.111"
]
},
"zone": 1
},
"devices": [
{
"name": "/dev/sdb",
"destroydata": false
}
]
},
{
"node": {
"hostnames": {
"manage": [
"lab2"
],
"storage": [
"11.11.11.112"
]
},
"zone": 1
},
"devices": [
{
"name": "/dev/sdb",
"destroydata": false
}
]
},
{
"node": {
"hostnames": {
"manage": [
"lab3"
],
"storage": [
"11.11.11.113"
]
},
"zone": 1
},
"devices": [
{
"name": "/dev/sdb",
"destroydata": false
}
]
}
]
}
]
}
EOF
export HEKETI_CLI_SERVER=http://localhost:58080
heketi-cli topology load --json=topology.json
# 使用 Heketi 建立一個用于存儲 Heketi 資料庫的 volume
heketi-cli setup-openshift-heketi-storage
kubectl create -f heketi-storage.json
# 檢視狀态
# 等所有job完成 即狀态為 Completed
# 才能進行如下的步驟
kubectl get pods
kubectl get job
# 删除部署時産生的相關資源
kubectl delete all,service,jobs,deployment,secret --selector="deploy-heketi"
# 部署 heketi server
kubectl create -f heketi-deployment.json
# 檢視 heketi server 狀态
kubectl get pods -o wide
kubectl get svc
# 檢視 heketi 狀态資訊
# 配置端口轉發 heketi server
HEKETI_BOOTSTRAP_POD=$(kubectl get pods | grep heketi | awk '{print $1}')
kubectl port-forward $HEKETI_BOOTSTRAP_POD 58080:8080
export HEKETI_CLI_SERVER=http://localhost:58080
heketi-cli cluster list
heketi-cli volume list
複制代碼
測試
# 建立 StorageClass
# 由于沒有開啟認證
# restuser restuserkey 可以随意寫
HEKETI_SERVER=$(kubectl get svc | grep heketi | head -1 | awk '{print $3}')
echo $HEKETI_SERVER
cat >storageclass-glusterfs.yaml<<EOF
kind: StorageClass
apiVersion: storage.k8s.io/v1
metadata:
name: gluster-heketi
provisioner: kubernetes.io/glusterfs
parameters:
resturl: "http://$HEKETI_SERVER:8080"
restauthenabled: "false"
restuser: "will"
restuserkey: "will"
gidMin: "40000"
gidMax: "50000"
volumetype: "replicate:3"
EOF
kubectl create -f storageclass-glusterfs.yaml
# 檢視
kubectl get sc
# 建立pvc測試
cat >gluster-pvc-test.yaml<<EOF
apiVersion: v1
kind: PersistentVolumeClaim
metadata:
name: gluster1
annotations:
volume.beta.kubernetes.io/storage-class: gluster-heketi
spec:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 5Gi
EOF
kubectl apply -f gluster-pvc-test.yaml
# 檢視
kubectl get pvc
kubectl get pv
# 建立 nginx pod 挂載測試
cat >nginx-pod.yaml<<EOF
apiVersion: v1
kind: Pod
metadata:
name: nginx-pod1
labels:
name: nginx-pod1
spec:
containers:
- name: nginx-pod1
image: nginx:alpine
ports:
- name: web
containerPort: 80
volumeMounts:
- name: gluster-vol1
mountPath: /usr/share/nginx/html
volumes:
- name: gluster-vol1
persistentVolumeClaim:
claimName: gluster1
EOF
kubectl apply -f nginx-pod.yaml
# 檢視
kubectl get pods -o wide
# 修改檔案内容
kubectl exec -ti nginx-pod1 -- /bin/sh -c 'echo Hello World from GlusterFS!!! > /usr/share/nginx/html/index.html'
# 通路測試
POD_ID=$(kubectl get pods -o wide | grep nginx-pod1 | awk '{print $(NF-1)}')
curl http://$POD_ID
# node 節點檢視檔案内容
GLUSTERFS_POD=$(kubectl get pod | grep glusterfs | head -1 | awk '{print $1}')
kubectl exec -ti $GLUSTERFS_POD /bin/sh
mount | grep heketi
cat /var/lib/heketi/mounts/vg_56033aa8a9131e84faa61a6f4774d8c3/brick_1ac5f3a0730457cf3fcec6d881e132a2/brick/index.html
複制代碼
本文轉自掘金-
k8s使用glusterfs實作動态持久化存儲