Kubernetes 1.5.1 部署
> kubernetes 1.5.0 , 配置文件
# 1 初始化環境
## 1.1 環境:
| 節 點 | I P |
|--------|-------------|
|node-1|10.6.0.140|
|node-2|10.6.0.187|
|node-3|10.6.0.188|
## 1.2 設定hostname
hostnamectl --static set-hostname hostname
| I P | hostname |
|-------------|-------------|
|10.6.0.140|k8s-node-1|
|10.6.0.187|k8s-node-2|
|10.6.0.188|k8s-node-3|
## 1.3 配置 hosts
```
vi /etc/hosts
```
| I P | hostname |
|-------------|-------------|
|10.6.0.140|k8s-node-1|
|10.6.0.187|k8s-node-2|
|10.6.0.188|k8s-node-3|
# 2.0 部署 kubernetes master
## 2.1 新增yum
# 使用我朋友的 yum 源,嘿嘿 cat <<EOF> /etc/yum.repos.d/kubernetes.repo [mritdrepo] name=Mritd Repository baseurl=https://yum.mritd.me/centos/7/x86_64 enabled=1 gpgcheck=1 gpgkey=https://cdn.mritd.me/keys/rpm.public.key EOF yum makecache yum install -y socat kubelet kubeadm kubectl kubernetes-cni
## 2.2 安裝docker
wget -qO- https://get.docker.com/ | sh systemctl enable docker systemctl start docker
## 2.3 安裝 etcd 叢集
yum -y install etcd # 建立etcd data 目錄 mkdir -p /opt/etcd/data chown -R etcd:etcd /opt/etcd/ # 修改配置檔案,/etc/etcd/etcd.conf 需要修改如下引數: ETCD_NAME=etcd1 ETCD_DATA_DIR="/opt/etcd/data/etcd1.etcd" ETCD_LISTEN_PEER_URLS="http://10.6.0.140:2380" ETCD_LISTEN_CLIENT_URLS="http://10.6.0.140:2379,http://127.0.0.1:2379" ETCD_INITIAL_ADVERTISE_PEER_URLS="http://10.6.0.140:2380" ETCD_INITIAL_CLUSTER="etcd1=http://10.6.0.140:2380,etcd2=http://10.6.0.187:2380,etcd3=http://10.6.0.188:2380" ETCD_INITIAL_CLUSTER_STATE="new" ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster" ETCD_ADVERTISE_CLIENT_URLS="http://10.6.0.140:2379"
# 修改 etcd 啟動檔案 sed -i 's/\\\"${ETCD_LISTEN_CLIENT_URLS}\\\"/\\\"${ETCD_LISTEN_CLIENT_URLS}\\\" --listen-client-urls=\\\"${ETCD_LISTEN_CLIENT_URLS}\\\" --advertise-client-urls=\\\"${ETCD_ADVERTISE_CLIENT_URLS}\\\" --initial-cluster-token=\\\"${ETCD_INITIAL_CLUSTER_TOKEN}\\\" --initial-cluster=\\\"${ETCD_INITIAL_CLUSTER}\\\" --initial-cluster-state=\\\"${ETCD_INITIAL_CLUSTER_STATE}\\\"/g' /usr/lib/systemd/system/etcd.service
# 啟動 etcd
systemctl enable etcd
systemctl start etcd
systemctl status etcd
# 檢視叢集狀態
etcdctl cluster-health
## 2.4 下載映象
images=(kube-proxy-amd64:v1.5.1 kube-discovery-amd64:1.0 kubedns-amd64:1.9 kube-scheduler-amd64:v1.5.1 kube-controller-manager-amd64:v1.5.1 kube-apiserver-amd64:v1.5.1 etcd-amd64:3.0.14-kubeadm kube-dnsmasq-amd64:1.4 exechealthz-amd64:1.2 pause-amd64:3.0 kubernetes-dashboard-amd64:v1.5.0 dnsmasq-metrics-amd64:1.0) for imageName in ${images[@]} ; do docker pull jicki/$imageName docker tag jicki/$imageName gcr.io/google_containers/$imageName docker rmi jicki/$imageName done ``` ``` # 如果速度很慢,可配置一下加速 docker 啟動檔案 增加 --registry-mirror="http://b438f72b.m.daocloud.io" ```
## 2.4 啟動 kubernetes
```
systemctl enable kubelet
systemctl start kubelet
```
## 2.5 建立叢集
``` kubeadm init --api-advertise-addresses=10.6.0.140 \ --external-etcd-endpoints=http://10.6.0.140:2379,http://10.6.0.187:2379,http://10.6.0.188:2379 \ --use-kubernetes-version v1.5.1 \ --pod-network-cidr 10.244.0.0/16 ``` ``` Flag --external-etcd-endpoints has been deprecated, this flag will be removed when componentconfig exists [kubeadm] WARNING: kubeadm is in alpha, please do not use it for production clusters. [preflight] Running pre-flight checks [preflight] Starting the kubelet service [init] Using Kubernetes version: v1.5.1 [tokens] Generated token: "c53ef2.d257d49589d634f0" [certificates] Generated Certificate Authority key and certificate. [certificates] Generated API Server key and certificate [certificates] Generated Service Account signing keys [certificates] Created keys and certificates in "/etc/kubernetes/pki" [kubeconfig] Wrote KubeConfig file to disk: "/etc/kubernetes/kubelet.conf" [kubeconfig] Wrote KubeConfig file to disk: "/etc/kubernetes/admin.conf" [apiclient] Created API client, waiting for the control plane to become ready [apiclient] All control plane components are healthy after 15.299235 seconds [apiclient] Waiting for at least one node to register and become ready [apiclient] First node is ready after 1.002937 seconds [apiclient] Creating a test deployment [apiclient] Test deployment succeeded [token-discovery] Created the kube-discovery deployment, waiting for it to become ready [token-discovery] kube-discovery is ready after 2.502881 seconds [addons] Created essential addon: kube-proxy [addons] Created essential addon: kube-dns Your Kubernetes master has initialized successfully! You should now deploy a pod network to the cluster. Run "kubectl apply -f [podnetwork].yaml" with one of the options listed at: http://kubernetes.io/docs/admin/addons/ You can now join any number of machines by running the following on each node: kubeadm join --token=c53ef2.d257d49589d634f0 10.6.0.140 ```
## 2.6 記錄 token
You can now join any number of machines by running the following on each node: kubeadm join --token=c53ef2.d257d49589d634f0 10.6.0.140
## 2.7 配置網路
``` # 建議先下載映象,否則容易下載不到 docker pull quay.io/coreos/flannel-git:v0.6.1-28-g5dde68d-amd64 # 或者這樣 docker pull jicki/flannel-git:v0.6.1-28-g5dde68d-amd64 docker tag jicki/flannel-git:v0.6.1-28-g5dde68d-amd64 quay.io/coreos/flannel-git:v0.6.1-28-g5dde68d-amd64 docker rmi jicki/flannel-git:v0.6.1-28-g5dde68d-amd64 ``` ``` # http://kubernetes.io/docs/admin/addons/ 這裡有多種網路模式,選擇一種 # 這裡選擇 Flannel 選擇 Flannel init 時必須配置 --pod-network-cidr kubectl create -f https://raw.githubusercontent.com/coreos/flannel/master/Documentation/kube-flannel.yml ```
## 2.8 檢查 kubelet 狀態
systemctl status kubelet
# 3.0 部署 kubernetes node
## 3.1 安裝docker
``` wget -qO- https://get.docker.com/ | sh systemctl enable docker systemctl start docker ```
## 3.2 下載映象
``` images=(kube-proxy-amd64:v1.5.1 kube-discovery-amd64:1.0 kubedns-amd64:1.9 kube-scheduler-amd64:v1.5.1 kube-controller-manager-amd64:v1.5.1 kube-apiserver-amd64:v1.5.1 etcd-amd64:3.0.14-kubeadm kube-dnsmasq-amd64:1.4 exechealthz-amd64:1.2 pause-amd64:3.0 kubernetes-dashboard-amd64:v1.5.0 dnsmasq-metrics-amd64:1.0) for imageName in ${images[@]} ; do docker pull jicki/$imageName docker tag jicki/$imageName gcr.io/google_containers/$imageName docker rmi jicki/$imageName done ```
## 3.3 啟動 kubernetes
systemctl enable kubelet
systemctl start kubelet
## 3.4 加入叢集
kubeadm join --token=c53ef2.d257d49589d634f0 10.6.0.140
Node join complete: * Certificate signing request sent to master and response received. * Kubelet informed of new secure connection details. Run 'kubectl get nodes' on the master to see this machine join.
## 3.5 檢視叢集狀態
[[email protected]1 ~]#kubectl get node NAME STATUS AGE k8s-node-1 Ready,master 27m k8s-node-2 Ready 6s k8s-node-3 Ready 9s
## 3.6 檢視服務狀態
[[email protected]1 ~]#kubectl get pods --all-namespaces NAMESPACE NAME READY STATUS RESTARTS AGE kube-system dummy-2088944543-qrp68 1/1 Running 1 1h kube-system kube-apiserver-k8s-node-1 1/1 Running 2 1h kube-system kube-controller-manager-k8s-node-1 1/1 Running 2 1h kube-system kube-discovery-1769846148-g2lpc 1/1 Running 1 1h kube-system kube-dns-2924299975-xbhv4 4/4 Running 3 1h kube-system kube-flannel-ds-39g5n 2/2 Running 2 1h kube-system kube-flannel-ds-dwc82 2/2 Running 2 1h kube-system kube-flannel-ds-qpkm0 2/2 Running 2 1h kube-system kube-proxy-16c50 1/1 Running 2 1h kube-system kube-proxy-5rkc8 1/1 Running 2 1h kube-system kube-proxy-xwrq0 1/1 Running 2 1h kube-system kube-scheduler-k8s-node-1 1/1 Running 2 1h
# 4.0 設定 kubernetes
## 4.1 其他主機控制叢集
``` # 備份master節點的 配置檔案 /etc/kubernetes/admin.conf # 儲存至 其他電腦, 通過執行配置檔案控制叢集 kubectl --kubeconfig ./admin.conf get nodes ```
## 4.2 配置dashboard
``` #下載 yaml 檔案, 直接匯入會去官方拉取images curl -O https://rawgit.com/kubernetes/dashboard/master/src/deploy/kubernetes-dashboard.yaml #編輯 yaml 檔案 vi kubernetes-dashboard.yaml image: gcr.io/google_containers/kubernetes-dashboard-amd64:v1.4.0 修改為 image: gcr.io/google_containers/kubernetes-dashboard-amd64:v1.5.0 imagePullPolicy: Always 修改為 imagePullPolicy: IfNotPresent ``` ``` kubectl create -f ./kubernetes-dashboard.yaml deployment "kubernetes-dashboard" created service "kubernetes-dashboard" created ``` ``` # 檢視 NodePort ,既外網訪問埠 kubectl describe svc kubernetes-dashboard --namespace=kube-system NodePort: <unset> 31736/TCP ``` ``` # 訪問 dashboard http://10.6.0.140:31736 ```
# 5.0 kubernetes 應用部署
## 5.1 部署一個 nginx rc
> 編寫 一個 nginx yaml
``` apiVersion: v1 kind: ReplicationController metadata: name: nginx-rc spec: replicas: 2 selector: name: nginx template: metadata: labels: name: nginx spec: containers: - name: nginx image: nginx:alpine imagePullPolicy: IfNotPresent ports: - containerPort: 80 ``` ``` [[email protected]-node-1 ~]#kubectl get rc NAME DESIRED CURRENT READY AGE nginx-rc 2 2 2 2m [[email protected]-node-1 ~]#kubectl get pod -o wide NAME READY STATUS RESTARTS AGE IP NODE nginx-rc-2s8k9 1/1 Running 0 10m 10.32.0.3 k8s-node-1 nginx-rc-s16cm 1/1 Running 0 10m 10.40.0.1 k8s-node-2
> 編寫一個 nginx service 讓叢集內部容器可以訪問 (ClusterIp)
``` apiVersion: v1 kind: Service metadata: name: nginx-svc spec: ports: - port: 80 targetPort: 80 protocol: TCP selector: name: nginx ``` ``` [[email protected]-node-1 ~]#kubectl create -f nginx-svc.yaml service "nginx-svc" created [[email protected]-node-1 ~]#kubectl get svc -o wide NAME CLUSTER-IP EXTERNAL-IP PORT(S) AGE SELECTOR kubernetes 10.0.0.1 <none> 443/TCP 2d <none> nginx-svc 10.6.164.79 <none> 80/TCP 29s name=nginx ``` > 編寫一個 curl 的pods ``` apiVersion: v1 kind: Pod metadata: name: curl spec: containers: - name: curl image: radial/busyboxplus:curl command: - sh - -c - while true; do sleep 1; done ``` ``` # 測試pods 內部通訊 [[email protected]-node-1 ~]#kubectl exec curl curl nginx ``` ``` # 在任何node節點中,可使用ip訪問 [[email protected]-node-2 ~]# curl 10.6.164.79 [[email protected]-node-3 ~]# curl 10.6.164.79 ```
> 編寫一個 nginx service 讓外部可以訪問 (NodePort)
``` apiVersion: v1 kind: Service metadata: name: nginx-svc-node spec: ports: - port: 80 targetPort: 80 protocol: TCP type: NodePort selector: name: nginx ``` ``` [[email protected]-node-1 ~]#kubectl get svc -o wide NAME CLUSTER-IP EXTERNAL-IP PORT(S) AGE SELECTOR kubernetes 10.0.0.1 <none> 443/TCP 2d <none> nginx-svc 10.6.164.79 <none> 80/TCP 29m name=nginx nginx-svc-node 10.12.95.227 <nodes> 80/TCP 17s name=nginx [[email protected]-node-1 ~]#kubectl describe svc nginx-svc-node |grep NodePort Type: NodePort NodePort: <unset> 32669/TCP ``` ``` # 使用 ALL node節點物理IP + 埠訪問 http://10.6.0.140:32669 http://10.6.0.187:32669 http://10.6.0.188:32669 ```
## 5.2 部署一個 zookeeper 叢集
> 編寫 一個 zookeeper-cluster.yaml
``` apiVersion: extensions/v1beta1 kind: Deployment metadata: name: zookeeper-1 spec: replicas: 1 template: metadata: labels: name: zookeeper-1 spec: containers: - name: zookeeper-1 image: zk:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "1" - name: NODES value: "0.0.0.0,zookeeper-2,zookeeper-3" ports: - containerPort: 2181 --- apiVersion: extensions/v1beta1 kind: Deployment metadata: name: zookeeper-2 spec: replicas: 1 template: metadata: labels: name: zookeeper-2 spec: containers: - name: zookeeper-2 image: zk:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "2" - name: NODES value: "zookeeper-1,0.0.0.0,zookeeper-3" ports: - containerPort: 2181 --- apiVersion: extensions/v1beta1 kind: Deployment metadata: name: zookeeper-3 spec: replicas: 1 template: metadata: labels: name: zookeeper-3 spec: containers: - name: zookeeper-3 image: zk:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "3" - name: NODES value: "zookeeper-1,zookeeper-2,0.0.0.0" ports: - containerPort: 2181 --- apiVersion: v1 kind: Service metadata: name: zookeeper-1 labels: name: zookeeper-1 spec: ports: - name: client port: 2181 protocol: TCP - name: followers port: 2888 protocol: TCP - name: election port: 3888 protocol: TCP selector: name: zookeeper-1 --- apiVersion: v1 kind: Service metadata: name: zookeeper-2 labels: name: zookeeper-2 spec: ports: - name: client port: 2181 protocol: TCP - name: followers port: 2888 protocol: TCP - name: election port: 3888 protocol: TCP selector: name: zookeeper-2 --- apiVersion: v1 kind: Service metadata: name: zookeeper-3 labels: name: zookeeper-3 spec: ports: - name: client port: 2181 protocol: TCP - name: followers port: 2888 protocol: TCP - name: election port: 3888 protocol: TCP selector: name: zookeeper-3 ``` ``` [[email protected]-node-1 ~]#kubectl create -f zookeeper-cluster.yaml --record [[email protected]-node-1 ~]#kubectl get pods -o wide NAME READY STATUS RESTARTS AGE IP NODE zookeeper-1-2149121414-cfyt4 1/1 Running 0 51m 10.32.0.3 k8s-node-2 zookeeper-2-2653289864-0bxee 1/1 Running 0 51m 10.40.0.1 k8s-node-3 zookeeper-3-3158769034-5csqy 1/1 Running 0 51m 10.40.0.2 k8s-node-3 [[email protected]-node-1 ~]#kubectl get deployment -o wide NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE zookeeper-1 1 1 1 1 51m zookeeper-2 1 1 1 1 51m zookeeper-3 1 1 1 1 51m [[email protected]-node-1 ~]#kubectl get svc -o wide NAME CLUSTER-IP EXTERNAL-IP PORT(S) AGE SELECTOR zookeeper-1 10.8.111.19 <none> 2181/TCP,2888/TCP,3888/TCP 51m name=zookeeper-1 zookeeper-2 10.6.10.124 <none> 2181/TCP,2888/TCP,3888/TCP 51m name=zookeeper-2 zookeeper-3 10.0.146.143 <none> 2181/TCP,2888/TCP,3888/TCP 51m name=zookeeper-3
## 5.3 部署一個 kafka 叢集
> 編寫 一個 kafka-cluster.yaml
``` apiVersion: extensions/v1beta1 kind: Deployment metadata: name: kafka-deployment-1 spec: replicas: 1 template: metadata: labels: name: kafka-1 spec: containers: - name: kafka-1 image: kafka:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "1" - name: ZK_NODES value: "zookeeper-1,zookeeper-2,zookeeper-3" ports: - containerPort: 9092 --- apiVersion: extensions/v1beta1 kind: Deployment metadata: name: kafka-deployment-2 spec: replicas: 1 template: metadata: labels: name: kafka-2 spec: containers: - name: kafka-2 image: kafka:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "2" - name: ZK_NODES value: "zookeeper-1,zookeeper-2,zookeeper-3" ports: - containerPort: 9092 --- apiVersion: extensions/v1beta1 kind: Deployment metadata: name: kafka-deployment-3 spec: replicas: 1 template: metadata: labels: name: kafka-3 spec: containers: - name: kafka-3 image: kafka:alpine imagePullPolicy: IfNotPresent env: - name: NODE_ID value: "3" - name: ZK_NODES value: "zookeeper-1,zookeeper-2,zookeeper-3" ports: - containerPort: 9092 --- apiVersion: v1 kind: Service metadata: name: kafka-1 labels: name: kafka-1 spec: ports: - name: client port: 9092 protocol: TCP selector: name: kafka-1 --- apiVersion: v1 kind: Service metadata: name: kafka-2 labels: name: kafka-2 spec: ports: - name: client port: 9092 protocol: TCP selector: name: kafka-2 --- apiVersion: v1 kind: Service metadata: name: kafka-3 labels: name: kafka-3 spec: ports: - name: client port: 9092 protocol: TCP selector: name: kafka-3 ```
# FAQ:
## kube-discovery error
failed to create "kube-discovery" deployment [deployments.extensions "kube-discovery" already exists] kubeadm reset kubeadm init
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方法一:首先我們先觀察這個數學式子的規律,可以發現奇數項均為正數,偶數項均為負數。則我們可以利用條件語句if來判斷奇偶,最後分別對奇數項和偶數項求和。 原始碼: #include<stdio.h> #include<stdlib.h> int main() {
pow函式(數學次方)在c語言的用法,兩種編寫方法例項( 計算1/1-1/2+1/3-1/4+1/5 …… + 1/99 - 1/100 的值)
關於c語言裡面pow函式,下面借鑑了某位博主的一篇文章: 標頭檔案:#include <math.h> pow() 函式用來求 x 的 y 次冪(次方),x、y及函式值都是double型 ,其原型為: double pow(double x, double y
計算1/1-1/2+1/3-1/4+1/5······+1/99-1/100的值
#include <stdio.h> #include <stdlib.h> void main() { int i, n; double num = 0.0, sum = 0.0; for (i = 1; i <= 100;i++ ) { if (i%2=
1.計算1/1-1/2+1/3-1/4+1/5 …… + 1/99 - 1/100 的值2.實現陣列中值的交換
#include <stdio.h> #include<math.h> int main(){ int i=0; for (i = 0; i < 101; i++){ if (i % 2 == 0){ printf("%d\n",
第一章 計算機系統漫遊(1.5-1.7)
1.5快取記憶體 ☆原理:較大的儲存裝置要比較小的儲存裝置執行的慢,而快速裝置的造價遠高於同類的低速裝置。 ☆舉例:暫存器檔案儲存幾百位元組的資訊,而主存可以存放幾十億位元組。然而,處理器從暫存器檔案中讀一個字的時間開銷要比主存中讀取要快100倍。 ☆措施:針對
計算1/1-1/2+1/3-1/4+1/5 …… + 1/99
分析: 將式子拆分成兩部分:正數相加部分、負數相加部分。利用for迴圈分別求得第一部分和第二部分之和,再將兩個和相減。 #include <stdio.h> #include <stdlib.h> double add(double a, dou