• 二进制搭建kubernetes多master集群【四、配置k8s node】


    上一篇我们部署了kubernetes的master集群,参考:二进制搭建kubernetes多master集群【三、配置k8s master及高可用】

    本文在以下主机上操作部署k8s node

    k8s-node1:192.168.80.10

    k8s-node2:192.168.80.11

    k8s-node3:192.168.80.12

    以下kubeadm和kubectl命令操作都是在k8s-master1上执行的。

    kubernetes work 节点运行如下组件:

    • docker
    • kubelet
    • kube-proxy
    • flannel

    docker和flannel部署参考:二进制搭建kubernetes多master集群【二、配置flannel网络】    、   docker-ce安装

    一、安装依赖包

    yum install -y epel-release wget conntrack ipvsadm ipset jq iptables curl sysstat libseccomp && /usr/sbin/modprobe ip_vs

    二、部署kubelet组件

    kublet 运行在每个 worker 节点上,接收 kube-apiserver 发送的请求,管理 Pod 容器,执行交互式命令,如 exec、run、logs 等。

    kublet 启动时自动向 kube-apiserver 注册节点信息,内置的 cadvisor 统计和监控节点的资源使用情况。

    为确保安全,本文档只开启接收 https 请求的安全端口,对请求进行认证和授权,拒绝未授权的访问(如 apiserver、heapster)。

    1、下载和分发kubelet二进制文件

    wget https://dl.k8s.io/v1.12.3/kubernetes-server-linux-amd64.tar.gz
    tar -xzvf kubernetes-server-linux-amd64.tar.gz
    cp kubernetes/server/bin/
    cp kubelet kube-proxy /usr/local/bin
    scp  kubelet kube-proxy k8s-node2:/usr/local/bin
    scp  kubelet kube-proxy k8s-node3:/usr/local/bin

    2、创建kubelet bootstrap kubeconfig文件 (k8s-master1上执行)

    #创建 token
    export BOOTSTRAP_TOKEN=$(kubeadm token create 
      --description kubelet-bootstrap-token 
      --groups system:bootstrappers:k8s-master1 
      --kubeconfig ~/.kube/config)
    
    # 设置集群参数
    kubectl config set-cluster kubernetes 
      --certificate-authority=/etc/kubernetes/cert/ca.pem 
      --embed-certs=true 
      --server=https://114.67.81.105:8443 
      --kubeconfig=kubelet-bootstrap-k8s-master1.kubeconfig
    
    # 设置客户端认证参数
    kubectl config set-credentials kubelet-bootstrap 
      --token=${BOOTSTRAP_TOKEN} 
      --kubeconfig=kubelet-bootstrap-k8s-master1.kubeconfig
    
    # 设置上下文参数
    kubectl config set-context default 
      --cluster=kubernetes 
      --user=kubelet-bootstrap 
      --kubeconfig=kubelet-bootstrap-k8s-master1.kubeconfig
    
    # 设置默认上下文
    kubectl config use-context default --kubeconfig=kubelet-bootstrap-k8s-master1.kubeconfig
    • kubelet bootstrap kubeconfig文件创建三次,分别把k8s-master1改成k8s-master2、k8s-master3。
    • 证书中写入 Token 而非证书,证书后续由 controller-manager 创建。

    3、查看 kubeadm 为各节点创建的 token:

    [root@k8s-master1 ~]# kubeadm token list --kubeconfig ~/.kube/config
    TOKEN                     TTL       EXPIRES                     USAGES                   DESCRIPTION               EXTRA GROUPS
    8w6j3n.ruh4ne95icbae4ie   23h       2018-12-21T20:42:29+08:00   authentication,signing   kubelet-bootstrap-token   system:bootstrappers:k8s-master3
    e7n0o5.1y8sjblh43z8ftz1   23h       2018-12-21T20:41:53+08:00   authentication,signing   kubelet-bootstrap-token   system:bootstrappers:k8s-master2
    ydbwyk.yz8e97df5d5u2o70   22h       2018-12-21T19:28:43+08:00   authentication,signing   kubelet-bootstrap-token   system:bootstrappers:k8s-master1
    • 创建的 token 有效期为 1 天,超期后将不能再被使用,且会被 kube-controller-manager 的 tokencleaner 清理(如果启用该 controller 的话);
    • kube-apiserver 接收 kubelet 的 bootstrap token 后,将请求的 user 设置为 system:bootstrap:,group 设置为 system:bootstrappers;

    查看各 token 关联的 Secret:(红色的为创建生成的token)

    [root@k8s-master1 ~]# kubectl get secrets  -n kube-system
    NAME                                             TYPE                                  DATA   AGE
    attachdetach-controller-token-z2w72              kubernetes.io/service-account-token   3      119m
    bootstrap-signer-token-hz8dr                     kubernetes.io/service-account-token   3      119m
    bootstrap-token-8w6j3n                           bootstrap.kubernetes.io/token         7      20m
    bootstrap-token-e7n0o5                           bootstrap.kubernetes.io/token         7      20m
    bootstrap-token-ydbwyk                           bootstrap.kubernetes.io/token         7      93m
    certificate-controller-token-bjhbq               kubernetes.io/service-account-token   3      119m
    clusterrole-aggregation-controller-token-qkqxg   kubernetes.io/service-account-token   3      119m
    cronjob-controller-token-v7vz5                   kubernetes.io/service-account-token   3      119m
    daemon-set-controller-token-7khdh                kubernetes.io/service-account-token   3      119m
    default-token-nwqsr                              kubernetes.io/service-account-token   3      119m

    4、分发bootstrap kubeconfig文件

    [root@k8s-master1 ~]# scp kubelet-bootstrap-k8s-master1.kubeconfig k8s-node1:/etc/kubernetes/cert/kubelet-bootstrap.kubeconfig
    [root@k8s-master1 ~]# scp kubelet-bootstrap-k8s-master2.kubeconfig k8s-node2:/etc/kubernetes/cert/kubelet-bootstrap.kubeconfig
    [root@k8s-master1 ~]# scp kubelet-bootstrap-k8s-master3.kubeconfig k8s-node3:/etc/kubernetes/cert/kubelet-bootstrap.kubeconfig

    5、创建和分发kubelet参数配置文件

    从 v1.10 开始,kubelet 部分参数需在配置文件中配置,kubelet --help 会提示:

    DEPRECATED: This parameter should be set via the config file specified by the Kubelet's --config flag

    创建 kubelet 参数配置模板文件:(红色字体改成对应node主机ip)

    cat > kubelet.config.json <<EOF
    {
      "kind": "KubeletConfiguration",
      "apiVersion": "kubelet.config.k8s.io/v1beta1",
      "authentication": {
        "x509": {
          "clientCAFile": "/etc/kubernetes/cert/ca.pem"
        },
        "webhook": {
          "enabled": true,
          "cacheTTL": "2m0s"
        },
        "anonymous": {
          "enabled": false
        }
      },
      "authorization": {
        "mode": "Webhook",
        "webhook": {
          "cacheAuthorizedTTL": "5m0s",
          "cacheUnauthorizedTTL": "30s"
        }
      },
      "address": "192.168.80.10",
      "port": 10250,
      "readOnlyPort": 0,
      "cgroupDriver": "cgroupfs",
      "hairpinMode": "promiscuous-bridge",
      "serializeImagePulls": false,
      "featureGates": {
        "RotateKubeletClientCertificate": true,
        "RotateKubeletServerCertificate": true
      },
      "clusterDomain": "cluster.local.",
      "clusterDNS": ["10.254.0.2"]
    }
    EOF
    • address:API 监听地址,不能为 127.0.0.1,否则 kube-apiserver、heapster 等不能调用 kubelet 的 API;
    • readOnlyPort=0:关闭只读端口(默认 10255),等效为未指定;
    • authentication.anonymous.enabled:设置为 false,不允许匿名�访问 10250 端口;
    • authentication.x509.clientCAFile:指定签名客户端证书的 CA 证书,开启 HTTP 证书认证;
    • authentication.webhook.enabled=true:开启 HTTPs bearer token 认证;
    • 对于未通过 x509 证书和 webhook 认证的请求(kube-apiserver 或其他客户端),将被拒绝,提示 Unauthorized;
    • authroization.mode=Webhook:kubelet 使用 SubjectAccessReview API 查询 kube-apiserver 某 user、group 是否具有操作资源的权限(RBAC);
    • featureGates.RotateKubeletClientCertificate、featureGates.RotateKubeletServerCertificate:自动 rotate 证书,证书的有效期取决于 kube-controller-manager 的 --experimental-cluster-signing-duration 参数;
    • 需要 root 账户运行;

    为各节点创建和分发 kubelet 配置文件:

    scp kubelet.config.json k8s-node1:/etc/kubernetes/cert/kubelet.config.json
    scp kubelet.config.json k8s-node2:/etc/kubernetes/cert/kubelet.config.json
    scp kubelet.config.json k8s-node3:/etc/kubernetes/cert/kubelet.config.json

    6、创建和分发kubelet systemd unit文件 (红色字体改成对应node主机ip)

    [root@k8s-node1 ~]# cat /etc/systemd/system/kubelet.service 
    [Unit]
    Description=Kubernetes Kubelet
    Documentation=https://github.com/GoogleCloudPlatform/kubernetes
    After=docker.service
    Requires=docker.service
    
    [Service]
    WorkingDirectory=/var/lib/kubelet
    ExecStart=/usr/local/bin/kubelet 
      --bootstrap-kubeconfig=/etc/kubernetes/cert/kubelet-bootstrap.kubeconfig 
      --cert-dir=/etc/kubernetes/cert 
      --kubeconfig=/etc/kubernetes/cert/kubelet.kubeconfig 
      --config=/etc/kubernetes/cert/kubelet.config.json 
      --hostname-override=192.168.80.10 
      --pod-infra-container-image=registry.cn-hangzhou.aliyuncs.com/google_containers/pause-amd64:3.1 
      --allow-privileged=true 
      --alsologtostderr=true 
      --logtostderr=false 
      --log-dir=/var/log/kubernetes 
      --v=2
    Restart=on-failure
    RestartSec=5
    
    [Install]
    WantedBy=multi-user.target
    • 如果设置了 --hostname-override 选项,则 kube-proxy 也需要设置该选项,否则会出现找不到 Node 的情况;
    • --bootstrap-kubeconfig:指向 bootstrap kubeconfig 文件,kubelet 使用该文件中的用户名和 token 向 kube-apiserver 发送 TLS Bootstrapping 请求;
    • K8S approve kubelet 的 csr 请求后,在 --cert-dir 目录创建证书和私钥文件,然后写入 --kubeconfig 文件;

    为各节点创建和分发 kubelet systemd unit 文件:

    scp /etc/systemd/system/kubelet.service k8s-node2:/etc/systemd/system/kubelet.service
    scp /etc/systemd/system/kubelet.service k8s-node3:/etc/systemd/system/kubelet.service

    7、Bootstrap Token Auth和授予权限

    kublet 启动时查找配置的 --kubeletconfig 文件是否存在,如果不存在则使用 --bootstrap-kubeconfig 向 kube-apiserver 发送证书签名请求 (CSR)。

    kube-apiserver 收到 CSR 请求后,对其中的 Token 进行认证(事先使用 kubeadm 创建的 token),认证通过后将请求的 user 设置为 system:bootstrap:,group 设置为 system:bootstrappers,这一过程称为 Bootstrap Token Auth。

    默认情况下,这个 user 和 group 没有创建 CSR 的权限,kubelet 启动失败,错误日志如下:

    sudo journalctl -u kubelet -a |grep -A 2 'certificatesigningrequests'
    May 06 06:42:36 kube-node1 kubelet[26986]: F0506 06:42:36.314378   26986 server.go:233] failed to run Kubelet: cannot create certificate signing request: certificatesigningrequests.certificates.k8s.io is forbidden: User "system:bootstrap:lemy40" cannot create certificatesigningrequests.certificates.k8s.io at the cluster scope
    May 06 06:42:36 kube-node1 systemd[1]: kubelet.service: Main process exited, code=exited, status=255/n/a
    May 06 06:42:36 kube-node1 systemd[1]: kubelet.service: Failed with result 'exit-code'.

    解决办法是:创建一个 clusterrolebinding,将 group system:bootstrappers 和 clusterrole system:node-bootstrapper 绑定:

    [root@k8s-master1 ~]#  kubectl create clusterrolebinding kubelet-bootstrap --clusterrole=system:node-bootstrapper --group=system:bootstrappers

    8、启动kubelet服务

    mkdir -p /var/log/kubernetes && mkdir -p /var/lib/kubelet
    systemctl daemon-reload 
    systemctl enable kubelet 
    systemctl restart kubelet
    • 关闭 swap 分区,否则 kubelet 会启动失败;
    • 必须先创建工作和日志目录;

    kubelet 启动后使用 --bootstrap-kubeconfig 向 kube-apiserver 发送 CSR 请求,当这个 CSR 被 approve 后,kube-controller-manager 为 kubelet 创建 TLS 客户端证书、私钥和 --kubeletconfig 文件。

    注意:kube-controller-manager 需要配置 --cluster-signing-cert-file 和 --cluster-signing-key-file 参数,才会为 TLS Bootstrap 创建证书和私钥。

    • 三个 work 节点的 csr 均处于 pending 状态;

    此时kubelet的进程有,但是监听端口还未启动,需要进行下面步骤!

    9、approve kubelet csr请求

    可以手动或自动 approve CSR 请求。推荐使用自动的方式,因为从 v1.8 版本开始,可以自动轮转approve csr 后生成的证书。

    i、手动approve csr请求

    查看 CSR 列表:

    [root@k8s-master1 ~]# kubectl get csr
    NAME                                                   AGE   REQUESTOR                 CONDITION
    node-csr-P7XcQAc2yNlXn1pUmQFxXNCdGyyt8ccVuW3bmoUZiK4   30m   system:bootstrap:e7n0o5   Pending
    node-csr-gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM   79m   system:bootstrap:ydbwyk   Pending
    node-csr-u2sVzVkFYnMxPIYWjXHbqRJROtTZBYzA1s2vATPLzyo   30m   system:bootstrap:8w6j3n   Pending

    approve CSR 

    [root@k8s-master1 ~]# kubectl certificate approve node-csr-gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM
    certificatesigningrequest.certificates.k8s.io "node-csr gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM" approved

    查看 Approve 结果:

    [root@k8s-master1 ~]# kubectl describe csr node-csr-gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM
    Name:               node-csr-gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM
    Labels:             <none>
    Annotations:        <none>
    CreationTimestamp:  Thu, 20 Dec 2018 19:55:39 +0800
    Requesting User:    system:bootstrap:ydbwyk
    Status:             Approved,Issued
    Subject:
             Common Name:    system:node:192.168.80.10
             Serial Number:  
             Organization:   system:nodes
    Events:  <none>
    • Requesting User:请求 CSR 的用户,kube-apiserver 对它进行认证和授权;
    • Subject:请求签名的证书信息;
    • 证书的 CN 是 system:node:192.168.80.10, Organization 是 system:nodes,kube-apiserver 的 Node 授权模式会授予该证书的相关权限;

    ii、自动approve csr请求

    创建三个 ClusterRoleBinding,分别用于自动 approve client、renew client、renew server 证书:

    [root@k8s-master1 ~]# cat > csr-crb.yaml <<EOF
     # Approve all CSRs for the group "system:bootstrappers"
     kind: ClusterRoleBinding
     apiVersion: rbac.authorization.k8s.io/v1
     metadata:
       name: auto-approve-csrs-for-group
     subjects:
     - kind: Group
       name: system:bootstrappers
       apiGroup: rbac.authorization.k8s.io
     roleRef:
       kind: ClusterRole
       name: system:certificates.k8s.io:certificatesigningrequests:nodeclient
       apiGroup: rbac.authorization.k8s.io
    ---
     # To let a node of the group "system:nodes" renew its own credentials
     kind: ClusterRoleBinding
     apiVersion: rbac.authorization.k8s.io/v1
     metadata:
       name: node-client-cert-renewal
     subjects:
     - kind: Group
       name: system:nodes
       apiGroup: rbac.authorization.k8s.io
     roleRef:
       kind: ClusterRole
       name: system:certificates.k8s.io:certificatesigningrequests:selfnodeclient
       apiGroup: rbac.authorization.k8s.io
    ---
    # A ClusterRole which instructs the CSR approver to approve a node requesting a
    # serving cert matching its client cert.
    kind: ClusterRole
    apiVersion: rbac.authorization.k8s.io/v1
    metadata:
      name: approve-node-server-renewal-csr
    rules:
    - apiGroups: ["certificates.k8s.io"]
      resources: ["certificatesigningrequests/selfnodeserver"]
      verbs: ["create"]
    ---
     # To let a node of the group "system:nodes" renew its own server credentials
     kind: ClusterRoleBinding
     apiVersion: rbac.authorization.k8s.io/v1
     metadata:
       name: node-server-cert-renewal
     subjects:
     - kind: Group
       name: system:nodes
       apiGroup: rbac.authorization.k8s.io
     roleRef:
       kind: ClusterRole
       name: approve-node-server-renewal-csr
       apiGroup: rbac.authorization.k8s.io
    EOF
    • auto-approve-csrs-for-group:自动 approve node 的第一次 CSR; 注意第一次 CSR 时,请求的 Group 为 system:bootstrappers;
    • node-client-cert-renewal:自动 approve node 后续过期的 client 证书,自动生成的证书 Group 为 system:nodes;
    • node-server-cert-renewal:自动 approve node 后续过期的 server 证书,自动生成的证书 Group 为 system:nodes;

    生效配置:

    [root@k8s-master1 ~]# kubectl apply -f csr-crb.yaml

    10、查看kubelet情况

    等待一段时间(1-10 分钟),三个节点的 CSR 都被自动 approve:

    [root@k8s-master1 ~]# kubectl get csr
    NAME                                                   AGE   REQUESTOR                 CONDITION
    node-csr-P7XcQAc2yNlXn1pUmQFxXNCdGyyt8ccVuW3bmoUZiK4   35m   system:bootstrap:e7n0o5   Approved,Issued
    node-csr-gD18nmcyPUNWNyDQvCo2BMYiiA4K59BNkclFRWv1SAM   84m   system:bootstrap:ydbwyk   Approved,Issued
    node-csr-u2sVzVkFYnMxPIYWjXHbqRJROtTZBYzA1s2vATPLzyo   35m   system:bootstrap:8w6j3n   Approved,Issued

    所有节点均 ready:

    [root@k8s-master1 ~]# kubectl get nodes
    NAME            STATUS   ROLES    AGE   VERSION
    192.168.80.10   Ready    <none>   69m   v1.12.3
    192.168.80.11   Ready    <none>   36m   v1.12.3
    192.168.80.12   Ready    <none>   36m   v1.12.3

     kube-controller-manager 为各 node 生成了 kubeconfig 文件和公私钥:

    [root@k8s-node1 ~]# ll /etc/kubernetes/cert/
    total 40
    -rw------- 1 root root 1675 Dec 20 19:10 ca-key.pem
    -rw-r--r-- 1 root root 1367 Dec 20 19:10 ca.pem
    -rw------- 1 root root 1679 Dec 20 19:10 flanneld-key.pem
    -rw-r--r-- 1 root root 1399 Dec 20 19:10 flanneld.pem
    -rw------- 1 root root 2170 Dec 20 20:43 kubelet-bootstrap.kubeconfig
    -rw------- 1 root root 1277 Dec 20 20:43 kubelet-client-2018-12-20-20-43-59.pem
    lrwxrwxrwx 1 root root   59 Dec 20 20:43 kubelet-client-current.pem -> /etc/kubernetes/cert/kubelet-client-2018-12-20-20-43-59.pem
    -rw-r--r-- 1 root root  800 Dec 20 20:18 kubelet.config.json
    -rw-r--r-- 1 root root 2185 Dec 20 20:43 kubelet.crt
    -rw------- 1 root root 1675 Dec 20 20:43 kubelet.key
    -rw------- 1 root root 2310 Dec 20 20:43 kubelet.kubeconfig
    • kubelet-server 证书会周期轮转;

    11、Kubelet提供的API接口

    kublet 启动后监听多个端口,用于接收 kube-apiserver 或其它组件发送的请求:

    [root@k8s-node1 ~]# netstat -lnpt|grep kubelet
    tcp        0      0 127.0.0.1:41980         0.0.0.0:*               LISTEN      7891/kubelet        
    tcp        0      0 127.0.0.1:10248         0.0.0.0:*               LISTEN      7891/kubelet        
    tcp        0      0 192.168.80.10:10250     0.0.0.0:*               LISTEN      7891/kubelet
    • 4194: cadvisor http 服务;
    • 10248: healthz http 服务;
    • 10250: https API 服务;注意:未开启只读端口 10255;

    例如执行 kubectl ec -it nginx-ds-5rmws -- sh 命令时,kube-apiserver 会向 kubelet 发送如下请求:

    POST /exec/default/nginx-ds-5rmws/my-nginx?command=sh&input=1&output=1&tty=1

    kubelet 接收 10250 端口的 https 请求:

    • /pods、/runningpods
    • /metrics、/metrics/cadvisor、/metrics/probes
    • /spec
    • /stats、/stats/container
    • /logs
    • /run/、"/exec/", "/attach/", "/portForward/", "/containerLogs/" 等管理;

    详情参考:https://github.com/kubernetes/kubernetes/blob/master/pkg/kubelet/server/server.go#L434:3

    由于关闭了匿名认证,同时开启了 webhook 授权,所有访问 10250 端口 https API 的请求都需要被认证和授权。

    预定义的 ClusterRole system:kubelet-api-admin 授予访问 kubelet 所有 API 的权限:

    [root@k8s-master1 ~]# kubectl describe clusterrole system:kubelet-api-admin
    Name:         system:kubelet-api-admin
    Labels:       kubernetes.io/bootstrapping=rbac-defaults
    Annotations:  rbac.authorization.kubernetes.io/autoupdate: true
    PolicyRule:
      Resources      Non-Resource URLs  Resource Names  Verbs
      ---------      -----------------  --------------  -----
      nodes/log      []                 []              [*]
      nodes/metrics  []                 []              [*]
      nodes/proxy    []                 []              [*]
      nodes/spec     []                 []              [*]
      nodes/stats    []                 []              [*]
      nodes          []                 []              [get list watch proxy]

    12、kubet api认证和授权

    kublet的配置文件kubelet.config.json配置了如下认证参数:

    • authentication.anonymous.enabled:设置为 false,不允许匿名访问 10250 端口;
    • authentication.x509.clientCAFile:指定签名客户端证书的 CA 证书,开启 HTTPs 证书认证;
    • authentication.webhook.enabled=true:开启 HTTPs bearer token 认证;

    同时配置了如下授权参数:

    • authroization.mode=Webhook:开启 RBAC 授权;

    kubelet 收到请求后,使用 clientCAFile 对证书签名进行认证,或者查询 bearer token 是否有效。如果两者都没通过,则拒绝请求,提示 Unauthorized

    [root@k8s-node1 ~]# curl -s --cacert /etc/kubernetes/cert/ca.pem https://192.168.80.10:10250/metrics
    Unauthorized
    [root@k8s-node1 ~]# curl -s --cacert /etc/kubernetes/cert/ca.pem -H "Authorization: Bearer 123456"  https://192.168.80.10:10250/metrics
    Unauthorized

    通过认证后,kubelet 使用 SubjectAccessReview API 向 kube-apiserver 发送请求,查询证书或 token 对应的 user、group 是否有操作资源的权限(RBAC);

    证书认证和授权:

    # 权限不足的证书;
    $ curl -s --cacert /etc/kubernetes/cert/ca.pem --cert /etc/kubernetes/cert/kube-controller-manager.pem --key /etc/kubernetes/cert/kube-controller-manager-key.pem https://192.168.80.10:10250/metrics
    Forbidden (user=system:kube-controller-manager, verb=get, resource=nodes, subresource=metrics)
    
    $ # 使用部署 kubectl 命令行工具时创建的、具有最高权限的 admin 证书;
    $ curl -s --cacert /etc/kubernetes/cert/ca.pem --cert ./admin.pem --key ./admin-key.pem https://192.168.80.10:10250/metrics|head
    # HELP apiserver_client_certificate_expiration_seconds Distribution of the remaining lifetime on the certificate used to authenticate a request.
    # TYPE apiserver_client_certificate_expiration_seconds histogram
    apiserver_client_certificate_expiration_seconds_bucket{le="0"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="21600"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="43200"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="86400"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="172800"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="345600"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="604800"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="2.592e+06"} 0
    • --cacert--cert--key 的参数值必须是文件路径,如上面的 ./admin.pem 不能省略 ./,否则返回 401 Unauthorized

    bear token 认证和授权:

    创建一个 ServiceAccount,将它和 ClusterRole system:kubelet-api-admin 绑定,从而具有调用 kubelet API 的权限:

    kubectl create sa kubelet-api-test
    kubectl create clusterrolebinding kubelet-api-test --clusterrole=system:kubelet-api-admin --serviceaccount=default:kubelet-api-test
    SECRET=$(kubectl get secrets | grep kubelet-api-test | awk '{print $1}')
    TOKEN=$(kubectl describe secret ${SECRET} | grep -E '^token' | awk '{print $2}')
    echo ${TOKEN}
    
    $ curl -s --cacert /etc/kubernetes/cert/ca.pem -H "Authorization: Bearer ${TOKEN}" https://192.168.80.10:10250/metrics|head
    # HELP apiserver_client_certificate_expiration_seconds Distribution of the remaining lifetime on the certificate used to authenticate a request.
    # TYPE apiserver_client_certificate_expiration_seconds histogram
    apiserver_client_certificate_expiration_seconds_bucket{le="0"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="21600"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="43200"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="86400"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="172800"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="345600"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="604800"} 0
    apiserver_client_certificate_expiration_seconds_bucket{le="2.592e+06"} 0

    注意:

    • kublet.config.json 设置 authentication.anonymous.enabled 为 false,不允许匿名证书访问 10250 的 https 服务;
    • 参考A.浏览器访问kube-apiserver安全端口.md,创建和导入相关证书,然后访问上面的 10250 端口;

     三、部署kube-proxy组件

    kube-proxy 运行在所有 worker 节点上,,它监听 apiserver 中 service 和 Endpoint 的变化情况,创建路由规则来进行服务负载均衡。

    本文档讲解部署 kube-proxy 的部署,使用 ipvs 模式。

    1、创建kube-proxy证书

    [root@k8s-master1 cert]# cat > kube-proxy-csr.json <<EOF
    {
      "CN": "system:kube-proxy",
      "key": {
        "algo": "rsa",
        "size": 2048
      },
      "names": [
        {
          "C": "CN",
          "ST": "BeiJing",
          "L": "BeiJing",
          "O": "k8s",
          "OU": "4Paradigm"
        }
      ]
    }
    EOF
    • CN:指定该证书的 User 为 system:kube-proxy
    • 预定义的 RoleBinding system:node-proxier 将User system:kube-proxy 与 Role system:node-proxier 绑定,该 Role 授予了调用 kube-apiserver Proxy 相关 API 的权限;
    • 该证书只会被 kube-proxy 当做 client 证书使用,所以 hosts 字段为空;

    生成证书和私钥:

    [root@k8s-master1 cert]# cfssl gencert -ca=/etc/kubernetes/cert/ca.pem 
      -ca-key=/etc/kubernetes/cert/ca-key.pem 
      -config=/etc/kubernetes/cert/ca-config.json 
      -profile=kubernetes  kube-proxy-csr.json | cfssljson -bare kube-proxy

    2、创建和分发kubeconfig文件

    [root@k8s-master1 cert]#kubectl config set-cluster kubernetes 
      --certificate-authority=/etc/kubernetes/cert/ca.pem 
      --embed-certs=true 
      --server=https://114.67.81.105:8443 
      --kubeconfig=kube-proxy.kubeconfig
    
    [root@k8s-master1 cert]#kubectl config set-credentials kube-proxy 
      --client-certificate=kube-proxy.pem 
      --client-key=kube-proxy-key.pem 
      --embed-certs=true 
      --kubeconfig=kube-proxy.kubeconfig
    
    [root@k8s-master1 cert]#kubectl config set-context default 
      --cluster=kubernetes 
      --user=kube-proxy 
      --kubeconfig=kube-proxy.kubeconfig
    
    [root@k8s-master1 cert]#kubectl config use-context default --kubeconfig=kube-proxy.kubeconfig
    • --embed-certs=true:将 ca.pem 和 admin.pem 证书内容嵌入到生成的 kubectl-proxy.kubeconfig 文件中(不加时,写入的是证书文件路径);

    分发kubeconfig文件

    [root@k8s-master1 cert]# scp kube-proxy.kubeconfig k8s-node1:/etc/kubernetes/cert/
    [root@k8s-master1 cert]# scp kube-proxy.kubeconfig k8s-node2:/etc/kubernetes/cert/
    [root@k8s-master1 cert]# scp kube-proxy.kubeconfig k8s-node3:/etc/kubernetes/cert/

    3、创建kube-proxy配置文件

    从 v1.10 开始,kube-proxy 部分参数可以配置文件中配置。可以使用 --write-config-to 选项生成该配置文件,或者参考 kubeproxyconfig 的类型定义源文件 :https://github.com/kubernetes/kubernetes/blob/master/pkg/proxy/apis/kubeproxyconfig/types.go

    创建 kube-proxy config 文件模板:

    [root@k8s-master1 cert]# cat >kube-proxy.config.yaml <<EOF
    apiVersion: kubeproxy.config.k8s.io/v1alpha1
    bindAddress: 192.168.80.10
    clientConnection:
    kubeconfig: /etc/kubernetes/cert/kube-proxy.kubeconfig
    clusterCIDR: 172.30.0.0/16
    healthzBindAddress: 192.168.80.10:10256
    hostnameOverride: k8s-node1
    kind: KubeProxyConfiguration
    metricsBindAddress: 192.168.80.10:10249
    mode: "ipvs"
    EOF
    • bindAddress: 监听地址;
    • clientConnection.kubeconfig: 连接 apiserver 的 kubeconfig 文件;
    • clusterCIDR: kube-proxy 根据 --cluster-cidr 判断集群内部和外部流量,指定 --cluster-cidr 或 --masquerade-all选项后 kube-proxy 才会对访问 Service IP 的请求做 SNAT;
    • hostnameOverride: 参数值必须与 kubelet 的值一致,否则 kube-proxy 启动后会找不到该 Node,从而不会创建任何 ipvs 规则;
    • mode: 使用 ipvs 模式;
    • 红色字体改成对应主机的信息。其中clusterc idr为flannel网络地址。

    为各节点创建和分发 kube-proxy 配置文件:

    [root@k8s-master1 cert]# scp kube-proxy.config.yaml k8s-node1:/etc/kubernetes/cert/
    [root@k8s-master1 cert]# scp kube-proxy.config.yaml k8s-node2:/etc/kubernetes/cert/
    [root@k8s-master1 cert]# scp kube-proxy.config.yaml k8s-node3:/etc/kubernetes/cert/

    4、创建和分发kube-proxy systemd unit文件

    [root@k8s-node1 cert]# cat /etc/systemd/system/kube-proxy.service 
    [Unit]
    Description=Kubernetes Kube-Proxy Server
    Documentation=https://github.com/GoogleCloudPlatform/kubernetes
    After=network.target
    
    [Service]
    WorkingDirectory=/var/lib/kube-proxy
    ExecStart=/usr/local/bin/kube-proxy 
      --config=/etc/kubernetes/cert/kube-proxy.config.yaml 
      --alsologtostderr=true 
      --logtostderr=false 
      --log-dir=/var/lib/kube-proxy/log 
      --v=2
    Restart=on-failure
    RestartSec=5
    LimitNOFILE=65536
    
    [Install]
    WantedBy=multi-user.target

    分发 kube-proxy systemd unit 文件:

    [root@k8s-master1 cert]# scp /etc/systemd/system/kube-proxy.service k8s-node1:/etc/systemd/system/kube-proxy.service
    [root@k8s-master1 cert]# scp /etc/systemd/system/kube-proxy.service k8s-node2:/etc/systemd/system/kube-proxy.service
    [root@k8s-master1 cert]# scp /etc/systemd/system/kube-proxy.service k8s-node3:/etc/systemd/system/kube-proxy.service

    5、启动kube-proxy服务

    [root@k8s-node1 cert]# mkdir -p /var/lib/kube-proxy/log
    [root@k8s-node1 cert]# systemctl daemon-reload
    [root@k8s-node1 cert]# systemctl enable kube-proxy
    [root@k8s-node1 cert]# systemctl restart kube-proxy
    • 必须先创建工作和日志目录;

    6、检查启动结果

    [root@k8s-node1 cert]# systemctl status kube-proxy|grep Active

    确保状态为 active (running),否则查看日志,确认原因:

    journalctl -u kube-proxy

    查看监听端口状态

    [root@k8s-node1 cert]# netstat -lnpt|grep kube-proxy
    tcp        0      0 192.168.80.10:10256     0.0.0.0:*               LISTEN      9617/kube-proxy     
    tcp        0      0 192.168.80.10:10249     0.0.0.0:*               LISTEN      9617/kube-proxy
    • 10249:http prometheus metrics port;
    • 10256:http healthz port;

    7、查看ipvs路由规则

    [root@k8s-node1 cert]# yum install ipvsadm
    [root@k8s-node1 cert]#ipvsadm -ln
    IP Virtual Server version 1.2.1 (size=4096)
    Prot LocalAddress:Port Scheduler Flags
      -> RemoteAddress:Port           Forward Weight ActiveConn InActConn
    TCP  10.254.0.1:443 rr
      -> 192.168.80.7:6443            Masq    1      0          0         
      -> 192.168.80.8:6443            Masq    1      0          0         
      -> 192.168.80.9:6443            Masq    1      0          0 

    可见将所有到 kubernetes cluster ip 443 端口的请求都转发到 kube-apiserver 的 6443 端口。

     恭喜!至此node节点部署完成。

    四、验证集群功能

    1、查看节点状况

    [root@k8s-master1 cert]# kubectl get nodes
    NAME            STATUS   ROLES    AGE   VERSION
    192.168.80.10   Ready    <none>   15h   v1.12.3
    192.168.80.11   Ready    <none>   14h   v1.12.3
    192.168.80.12   Ready    <none>   14h   v1.12.3

    都为 Ready 时正常。

    2、创建nginx web测试文件

    [root@k8s-master1 ~]# cat nginx-web.yml 
    apiVersion: v1
    kind: Service
    metadata:
      name: nginx-web
      labels:
        tier: frontend
    spec:
      type: NodePort
      selector:
        tier: frontend
      ports:
      - name: http
        port: 80
        targetPort: 80
    ---
    apiVersion: extensions/v1beta1
    kind: Deployment
    metadata:
      name: nginx-con
      labels:
        tier: frontend
    spec:
      replicas: 3
      template:
        metadata:
          labels:
            tier: frontend
        spec:
          containers:
          - name: nginx-pod
            image: nginx
            ports:
            - containerPort: 80

    执行nginx-web.yaml文件

    [root@k8s-master1 ~]# kubectl create -f nginx-web.yml

    3、查看各个Node上Pod IP的连通性

    [root@k8s-master1 ~]# kubectl get pod -o wide
    NAME                         READY   STATUS    RESTARTS   AGE   IP            NODE            NOMINATED NODE
    nginx-con-594b8d6b48-9p9sf   1/1     Running   0          37s   172.30.70.2   192.168.80.12   <none>
    nginx-con-594b8d6b48-rxzwx   1/1     Running   0          37s   172.30.67.2   192.168.80.11   <none>
    nginx-con-594b8d6b48-zd9g7   1/1     Running   0          37s   172.30.6.2    192.168.80.10   <none>

    可见,nginx 的 Pod IP 分别是 172.30.70.2172.30.67.2172.30.6.2,在所有 Node 上分别 ping 这三个 IP,看是否连通:

    [root@k8s-node1 cert]# ping 172.30.6.2
    PING 172.30.6.2 (172.30.6.2) 56(84) bytes of data.
    64 bytes from 172.30.6.2: icmp_seq=1 ttl=64 time=0.058 ms
    64 bytes from 172.30.6.2: icmp_seq=2 ttl=64 time=0.053 ms
    
    [root@k8s-node1 cert]# ping 172.30.67.2
    PING 172.30.67.2 (172.30.67.2) 56(84) bytes of data.
    64 bytes from 172.30.67.2: icmp_seq=1 ttl=63 time=0.467 ms
    64 bytes from 172.30.67.2: icmp_seq=1 ttl=63 time=0.425 ms
    
    
    [root@k8s-node1 cert]# ping 172.30.70.2
    PING 172.30.70.2 (172.30.70.2) 56(84) bytes of data.
    64 bytes from 172.30.70.2: icmp_seq=1 ttl=63 time=0.562 ms
    64 bytes from 172.30.70.2: icmp_seq=2 ttl=63 time=0.451 ms

    4、查看server的集群ip

    [root@k8s-master1 ~]# kubectl get svc
    NAME         TYPE        CLUSTER-IP      EXTERNAL-IP   PORT(S)        AGE
    kubernetes   ClusterIP   10.254.0.1      <none>        443/TCP        17h
    nginx-web    NodePort    10.254.88.134   <none>        80:30164/TCP   47m
    • 10.254.88.134为nginx service的集群ip,代理的是前面的三个pod容器应用。
    • PORT 80是集群IP的端口,30164是node节点上的端口,可以用nodeip:nodeport方式访问服务

    5、访问服务可达性

    #1、用局域网的任意其他主机访问应用,nodeip:nodeprot方式 (这里nodeip是私网,所以用局域网的其他主机访问)
    [root@etcd1 ~]# curl -I 192.168.80.10:30164
    HTTP/1.1 200 OK
    Server: nginx/1.15.7
    Date: Fri, 21 Dec 2018 04:32:58 GMT
    Content-Type: text/html
    Content-Length: 612
    Last-Modified: Tue, 27 Nov 2018 12:31:56 GMT
    Connection: keep-alive
    ETag: "5bfd393c-264"
    Accept-Ranges: bytes

    #2、在flannel网络的主机上使用集群ip访问应用

      [root@k8s-node1 cert]# curl -I 10.254.88.134
      HTTP/1.1 200 OK
      Server: nginx/1.15.7
      Date: Fri, 21 Dec 2018 04:35:26 GMT
      Content-Type: text/html
      Content-Length: 612
      Last-Modified: Tue, 27 Nov 2018 12:31:56 GMT
      Connection: keep-alive
      ETag: "5bfd393c-264"
      Accept-Ranges: bytes

    结果访问都正确,状态码200。集群功能正常。

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  • 原文地址:https://www.cnblogs.com/harlanzhang/p/10152508.html
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