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add new blog of rook-on-kubesphere 

Signed-off-by: faweizhao26 <faweizhao@kubesphere.io>
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faweizhao26 2021-12-30 14:30:39 +08:00
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content/zh/blogs/faas-openfunction.md
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@ -5,7 +5,7 @@ keywords: 'Serverless, FaaS, OpenFunction'
description: '本文介绍函数计算概念、参考架构及发展趋势,介绍云原生 Serverless 领域的最新进展,进而阐述如何利用云原生技术从 0 到 1 打造新一代开源函数计算平台 OpenFunction。'
createTime: '2021-12-03'
author: '霍秉杰'
snapshot: 'http://pek3b.qingstor.com/kubesphere-community/images/serverless-faas-openfunction.png'
snapshot: 'https://pek3b.qingstor.com/kubesphere-community/images/serverless-faas-openfunction.png'
---
**无服务器计算**,即通常所说的 Serverless已经成为当前云原生领域炙手可热的名词是继 IaaSPaaS 之后云计算发展的下一波浪潮。Serverless 强调的是一种架构思想和服务模型,让开发者无需关心基础设施(服务器等),而是专注到应用程序业务逻辑上。加州大学伯克利分校在论文 A Berkeley View on Serverless Computing 中给出了两个关于 Serverless 的核心观点:

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@ -0,0 +1,388 @@
---
title: '在 KubeSphere 中使用 Rook 构建生产可用存储环境'
tag: '存储'
keywords: 'Rook, KubeSphere, Ceph, Kubernetes'
description: '本文将介绍如何使用 Rook 来创建维护 Ceph 集群,并作为 Kubernetes 的持久化存储。'
createTime: '2021-12-29'
author: '尹珉'
snapshot: 'https://pek3b.qingstor.com/kubesphere-community/images/rook-on-kubesphere.png'
---
## Rook 介绍
Rook 是一个开源的云原生存储编排器,为各种存储解决方案提供平台、框架和支持,以便与云原生环境进行原生集成。
Rook 将分布式存储系统转变为自管理、自扩展、自修复的存储服务。它使存储管理员的部署、引导、配置、配置、扩展、升级、迁移、灾难恢复、监控和资源管理等任务自动化。
简而言之Rook 就是一组 Kubernetes 的 Operator它可以完全控制多种数据存储解决方案例如 Ceph、EdgeFS、Minio、Cassandra的部署管理以及自动恢复。
到目前为止Rook 支持的最稳定的存储仍然是 Ceph本文将介绍如何使用 Rook 来创建维护 Ceph 集群,并作为 Kubernetes 的持久化存储。
## 环境准备
K8s 环境可以通过安装 KubeSphere 进行部署,我使用的是高可用方案。
在公有云上安装 KubeSphere 参考文档:[多节点安装](https://v3-1.docs.kubesphere.io/zh/docs/installing-on-linux/public-cloud/install-kubesphere-on-huaweicloud-ecs/ "多节点安装")
⚠️ 注意kube-node(5,6,7)的节点上分别有两块数据盘。
```bash
kube-master1 Ready master 118d v1.17.9
kube-master2 Ready master 118d v1.17.9
kube-master3 Ready master 118d v1.17.9
kube-node1 Ready worker 118d v1.17.9
kube-node2 Ready worker 118d v1.17.9
kube-node3 Ready worker 111d v1.17.9
kube-node4 Ready worker 111d v1.17.9
kube-node5 Ready worker 11d v1.17.9
kube-node6 Ready worker 11d v1.17.9
kube-node7 Ready worker 11d v1.17.9
```
安装前请确保 node 节点都安装上了 lvm2否则会报错。
## 部署安装 Rook、Ceph 集群
**1.克隆 Rook 仓库到本地**
```bash
$ git clone -b release-1.4 https://github.com/rook/rook.git
```
**2.切换目录**
```bash
$ cd /root/ceph/rook/cluster/examples/kubernetes/ceph
```
**3.部署 Rook创建 CRD 资源**
```bash
$ kubectl create -f common.yaml -f operator.yaml
# 说明:
# 1.comm.yaml里面主要是权限控制以及CRD资源定义
# 2.operator.yaml是rook-ceph-operator的deloyment
```
**4.创建 Ceph 集群**
```
$ kubectl create -f cluster.yaml
# 重要说明:
# 演示不做定制化操作Ceph集群默认会动态去识别node节点上未格式化的全新空闲硬盘自动会对这些盘进行OSD初始化至少是需要3个节点每个节点至少一块空闲硬盘
```
**5.检查 pod 状态**
```bash
$ kubectl get pod -n rook-ceph -o wide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
csi-cephfsplugin-5fw92 3/3 Running 6 12d 192.168.0.31 kube-node7 <none> <none>
csi-cephfsplugin-78plf 3/3 Running 0 12d 192.168.0.134 kube-node1 <none> <none>
csi-cephfsplugin-bkdl8 3/3 Running 3 12d 192.168.0.195 kube-node5 <none> <none>
csi-cephfsplugin-provisioner-77f457bcb9-6w4cv 6/6 Running 0 12d 10.233.77.95 kube-node4 <none> <none>
csi-cephfsplugin-provisioner-77f457bcb9-q7vxh 6/6 Running 0 12d 10.233.76.156 kube-node3 <none> <none>
csi-cephfsplugin-rqb4d 3/3 Running 0 12d 192.168.0.183 kube-node4 <none> <none>
csi-cephfsplugin-vmrfj 3/3 Running 0 12d 192.168.0.91 kube-node3 <none> <none>
csi-cephfsplugin-wglsw 3/3 Running 3 12d 192.168.0.116 kube-node6 <none> <none>
csi-rbdplugin-4m8hv 3/3 Running 0 12d 192.168.0.91 kube-node3 <none> <none>
csi-rbdplugin-7wt45 3/3 Running 3 12d 192.168.0.195 kube-node5 <none> <none>
csi-rbdplugin-bn5pn 3/3 Running 3 12d 192.168.0.116 kube-node6 <none> <none>
csi-rbdplugin-hwl4b 3/3 Running 6 12d 192.168.0.31 kube-node7 <none> <none>
csi-rbdplugin-provisioner-7897f5855-7m95p 6/6 Running 0 12d 10.233.77.94 kube-node4 <none> <none>
csi-rbdplugin-provisioner-7897f5855-btwt5 6/6 Running 0 12d 10.233.76.155 kube-node3 <none> <none>
csi-rbdplugin-qvksp 3/3 Running 0 12d 192.168.0.183 kube-node4 <none> <none>
csi-rbdplugin-rr296 3/3 Running 0 12d 192.168.0.134 kube-node1 <none> <none>
rook-ceph-crashcollector-kube-node1-64cf6f49fb-bx8lz 1/1 Running 0 12d 10.233.101.46 kube-node1 <none> <none>
rook-ceph-crashcollector-kube-node3-575b75dc64-gxwtp 1/1 Running 0 12d 10.233.76.149 kube-node3 <none> <none>
rook-ceph-crashcollector-kube-node4-78549d6d7f-9zz5q 1/1 Running 0 8d 10.233.77.226 kube-node4 <none> <none>
rook-ceph-crashcollector-kube-node5-5db8557476-b8zp6 1/1 Running 1 11d 10.233.81.239 kube-node5 <none> <none>
rook-ceph-crashcollector-kube-node6-78b7946769-8qh45 1/1 Running 0 8d 10.233.66.252 kube-node6 <none> <none>
rook-ceph-crashcollector-kube-node7-78c97898fd-k85l4 1/1 Running 1 8d 10.233.111.33 kube-node7 <none> <none>
rook-ceph-mds-myfs-a-86bdb684b6-4pbj7 1/1 Running 0 8d 10.233.77.225 kube-node4 <none> <none>
rook-ceph-mds-myfs-b-6697d66b7d-jgnkw 1/1 Running 0 8d 10.233.66.250 kube-node6 <none> <none>
rook-ceph-mgr-a-658db99d5b-jbrzh 1/1 Running 0 12d 10.233.76.162 kube-node3 <none> <none>
rook-ceph-mon-a-5cbf5947d8-vvfgf 1/1 Running 1 12d 10.233.101.44 kube-node1 <none> <none>
rook-ceph-mon-b-6495c96d9d-b82st 1/1 Running 0 12d 10.233.76.144 kube-node3 <none> <none>
rook-ceph-mon-d-dc4c6f4f9-rdfpg 1/1 Running 1 12d 10.233.66.219 kube-node6 <none> <none>
rook-ceph-operator-56fc54bb77-9rswg 1/1 Running 0 12d 10.233.76.138 kube-node3 <none> <none>
rook-ceph-osd-0-777979f6b4-jxtg9 1/1 Running 1 11d 10.233.81.237 kube-node5 <none> <none>
rook-ceph-osd-10-589487764d-8bmpd 1/1 Running 0 8d 10.233.111.59 kube-node7 <none> <none>
rook-ceph-osd-11-5b7dd4c7bc-m4nqz 1/1 Running 0 8d 10.233.111.60 kube-node7 <none> <none>
rook-ceph-osd-2-54cbf4d9d8-qn4z7 1/1 Running 1 10d 10.233.66.222 kube-node6 <none> <none>
rook-ceph-osd-6-c94cd566-ndgzd 1/1 Running 1 10d 10.233.81.238 kube-node5 <none> <none>
rook-ceph-osd-7-d8cdc94fd-v2lm8 1/1 Running 0 9d 10.233.66.223 kube-node6 <none> <none>
rook-ceph-osd-prepare-kube-node1-4bdch 0/1 Completed 0 66m 10.233.101.91 kube-node1 <none> <none>
rook-ceph-osd-prepare-kube-node3-bg4wk 0/1 Completed 0 66m 10.233.76.252 kube-node3 <none> <none>
rook-ceph-osd-prepare-kube-node4-r9dk4 0/1 Completed 0 66m 10.233.77.107 kube-node4 <none> <none>
rook-ceph-osd-prepare-kube-node5-rbvcn 0/1 Completed 0 66m 10.233.81.73 kube-node5 <none> <none>
rook-ceph-osd-prepare-kube-node5-rcngg 0/1 Completed 5 10d 10.233.81.98 kube-node5 <none> <none>
rook-ceph-osd-prepare-kube-node6-jc8cm 0/1 Completed 0 66m 10.233.66.109 kube-node6 <none> <none>
rook-ceph-osd-prepare-kube-node6-qsxrp 0/1 Completed 0 11d 10.233.66.109 kube-node6 <none> <none>
rook-ceph-osd-prepare-kube-node7-5c52p 0/1 Completed 5 8d 10.233.111.58 kube-node7 <none> <none>
rook-ceph-osd-prepare-kube-node7-h5d6c 0/1 Completed 0 66m 10.233.111.110 kube-node7 <none> <none>
rook-ceph-osd-prepare-kube-node7-tzvp5 0/1 Completed 0 11d 10.233.111.102 kube-node7 <none> <none>
rook-ceph-osd-prepare-kube-node7-wd6dt 0/1 Completed 7 8d 10.233.111.56 kube-node7 <none> <none>
rook-ceph-tools-64fc489556-5clvj 1/1 Running 0 12d 10.233.77.118 kube-node4 <none> <none>
rook-discover-6kbvg 1/1 Running 0 12d 10.233.101.42 kube-node1 <none> <none>
rook-discover-7dr44 1/1 Running 2 12d 10.233.66.220 kube-node6 <none> <none>
rook-discover-dqr82 1/1 Running 0 12d 10.233.77.74 kube-node4 <none> <none>
rook-discover-gqppp 1/1 Running 0 12d 10.233.76.139 kube-node3 <none> <none>
rook-discover-hdkxf 1/1 Running 1 12d 10.233.81.236 kube-node5 <none> <none>
rook-discover-pzhsw 1/1 Running 3 12d 10.233.111.36 kube-node7 <none> <none>
```
以上是所有组件的 pod 完成后的状态,其中 rook-ceph-osd-prepare 开头的 pod 是自动感知集群新挂载硬盘的,只要有新硬盘挂载到集群自动会触发 OSD。
**6.配置 Ceph 集群 dashboard**
Ceph Dashboard 是一个内置的基于 Web 的管理和监视应用程序,它是开源 Ceph 发行版的一部分。通过 Dashboard 可以获取 Ceph 集群的各种基本状态信息。
默认的 ceph 已经安装的 ceph-dashboard其 SVC 地址是 service clusterIP并不能被外部访问需要创建 service 服务
```bash
$ kubectl apply -f dashboard-external-http.yaml
```
```bash
apiVersion: v1
kind: Service
metadata:
name: rook-ceph-mgr-dashboard-external-https
namespace: rook-ceph # namespace:cluster
labels:
app: rook-ceph-mgr
rook_cluster: rook-ceph # namespace:cluster
spec:
ports:
- name: dashboard
port: 7000
protocol: TCP
targetPort: 7000
selector:
app: rook-ceph-mgr
rook_cluster: rook-ceph
sessionAffinity: None
type: NodePort
```
**说明**:由于 8443 是 https 访问端口需要配置证书,本教程只展示 http 访问 port 上只配置了 7000
**7.查看 svc 状态**
```bash
$ kubectl get svc -n rook-ceph
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
csi-cephfsplugin-metrics ClusterIP 10.233.3.172 <none> 8080/TCP,8081/TCP 12d
csi-rbdplugin-metrics ClusterIP 10.233.43.23 <none> 8080/TCP,8081/TCP 12d
rook-ceph-mgr ClusterIP 10.233.63.85 <none> 9283/TCP 12d
rook-ceph-mgr-dashboard ClusterIP 10.233.20.159 <none> 7000/TCP 12d
rook-ceph-mgr-dashboard-external-https NodePort 10.233.56.73 <none> 7000:31357/TCP 12d
rook-ceph-mon-a ClusterIP 10.233.30.222 <none> 6789/TCP,3300/TCP 12d
rook-ceph-mon-b ClusterIP 10.233.55.25 <none> 6789/TCP,3300/TCP 12d
rook-ceph-mon-d ClusterIP 10.233.0.206 <none> 6789/TCP,3300/TCP 12d
```
**8.验证访问 dashboard**
打开 KubeSphere 平台开启外网服务
![](https://pek3b.qingstor.com/kubesphere-community/images/7ca284ce-49d9-4ba4-ba10-8ffbaacac98c.png)
![](https://pek3b.qingstor.com/kubesphere-community/images/d9a616b7-44f6-4a5c-85c8-e37ac9e00576.png)
访问方式:
```bash
http://{master1-ip:31357}
```
用户名获取方法:
```bash
$ kubectl -n rook-ceph get secret rook-ceph-dashboard-password -o jsonpath="{['data']['password']}"|base64 --decode && echo
```
![](https://pek3b.qingstor.com/kubesphere-community/images/5f1f856f-6bf8-42ed-9d2a-c2ef1c88f8e8.png)
![](https://pek3b.qingstor.com/kubesphere-community/images/72082e58-7a68-4e07-80d7-34f05d34e03f.png)
**说明**dashboard 显示 HEALTH_WARN 警告可以通过 seelog 的方式查看具体的原因,一般是 osd down、pg 数量不够等
**9.部署 rook 工具箱**
Rook 工具箱是一个包含用于 Rook 调试和测试的常用工具的容器
```bash
$ kubectl apply -f toolbox.yaml
```
进入工具箱查看 Ceph 集群状态
```bash
$ kubectl -n rook-ceph exec -it $(kubectl -n rook-ceph get pod -l "app=rook-ceph-tools" -o jsonpath='{.items[0].metadata.name}') -- bash
```
```bash
$ ceph -s
cluster:
id: 1457045a-4926-411f-8be8-c7a958351a38
health: HEALTH_WARN
mon a is low on available space
2 osds down
Degraded data redundancy: 25/159 objects degraded (15.723%), 16 pgs degraded, 51 pgs undersized
3 daemons have recently crashed
services:
mon: 3 daemons, quorum a,b,d (age 9d)
mgr: a(active, since 4h)
mds: myfs:1 {0=myfs-b=up:active} 1 up:standby-replay
osd: 12 osds: 6 up (since 8d), 8 in (since 8d); 9 remapped pgs
data:
pools: 5 pools, 129 pgs
objects: 53 objects, 37 MiB
usage: 6.8 GiB used, 293 GiB / 300 GiB avail
pgs: 25/159 objects degraded (15.723%)
5/159 objects misplaced (3.145%)
69 active+clean
35 active+undersized
16 active+undersized+degraded
9 active+clean+remapped
```
工具箱相关查询命令
```bash
ceph status
ceph osd status
ceph df
rados df
```
## 部署 StorageClass
**1.rbd 块存储简介**
Ceph 可以同时提供对象存储 RADOSGW、块存储 RBD、文件系统存储 Ceph FS。 RBD 即 RADOS Block Device 的简称RBD 块存储是最稳定且最常用的存储类型。RBD 块设备类似磁盘可以被挂载。 RBD 块设备具有快照、多副本、克隆和一致性等特性,数据以条带化的方式存储在 Ceph 集群的多个 OSD 中。
![](https://pek3b.qingstor.com/kubesphere-community/images/499b9863-ea8e-4244-b092-21a728833fe1.png)
**2.创建 StorageClass**
```bash
[root@kube-master1 rbd]# kubectl apply -f storageclass.yaml
```
**3.查看 StorageClass 部署状态**
![](https://pek3b.qingstor.com/kubesphere-community/images/c47bf4ea-d371-4714-b07a-b3ecefeb40db.png)
**4.创建 pvc**
```bash
$ kubectl apply -f pvc.yaml
```
```
apiVersion: v1
kind: PersistentVolumeClaim
metadata:
name: rbd-pvc
spec:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 2Gi
storageClassName: rook-ceph-block
~
```
**5.创建带有 pvc 的 pod**
```bash
$ kubectl apply -f pod.yaml
```
```bash
apiVersion: v1
kind: Pod
metadata:
name: csirbd-demo-pod
spec:
containers:
- name: web-server
image: nginx
volumeMounts:
- name: mypvc
mountPath: /var/lib/www/html
volumes:
- name: mypvc
persistentVolumeClaim:
claimName: rbd-pvc
readOnly: false
```
**6.查看 pod、pvc、pv 状态**
![](https://pek3b.qingstor.com/kubesphere-community/images/c47bf4ea-d371-4714-b07a-b3ecefeb40db.png)
![](https://pek3b.qingstor.com/kubesphere-community/images/b5695378-a271-4389-933f-4808d472fceb.png)
![](https://pek3b.qingstor.com/kubesphere-community/images/668ec96d-c099-4482-b0d2-73300b0803ef.png)
## 总结
对于首次接触 rook+Ceph 部署体验的同学来说需要了解的内容较多,遇到的坑也会比较的多。希望通过以上的部署过程记录可以帮助到大家。
**1.Ceph 集群一直提示没有可 osd 的盘**
答:这里遇到过几个情况,查看下挂载的数据盘是不是以前已经使用过虽然格式化了但是以前的 raid 信息还存在?可以使用一下脚本进行清理后在格式化在进行挂载。
```bash
#!/usr/bin/env bash
DISK="/dev/vdc" #按需修改自己的盘符信息
# Zap the disk to a fresh, usable state (zap-all is important, b/c MBR has to be clean)
# You will have to run this step for all disks.
sgdisk --zap-all $DISK
# Clean hdds with dd
dd if=/dev/zero of="$DISK" bs=1M count=100 oflag=direct,dsync
# Clean disks such as ssd with blkdiscard instead of dd
blkdiscard $DISK
# These steps only have to be run once on each node
# If rook sets up osds using ceph-volume, teardown leaves some devices mapped that lock the disks.
ls /dev/mapper/ceph-* | xargs -I% -- dmsetup remove %
# ceph-volume setup can leave ceph-<UUID> directories in /dev and /dev/mapper (unnecessary clutter)
rm -rf /dev/ceph-*
rm -rf /dev/mapper/ceph--*
# Inform the OS of partition table changes
partprobe $DISK
~
```
**2.Ceph 支持哪些存储类型?**
rdb 块存储、cephfs 文件存储、s3 对象存储等
**3.部署中出现各种坑应该怎么排查?**
答:强烈建议通过 rook、ceph 官网去查看相关文档进行排错
- https://rook.github.io/docs/rook/
- https://docs.ceph.com/en/pacific/
**4.访问 dashboard 失败**
答:如果是公有云搭建的 KubeSphere 或 K8s 请把 nodeport 端口在安全组里放行即可