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K8S1.14高可用生產集群部署方案

發布時間:2020-08-20 01:43:45 來源:網絡 閱讀:8274 作者:酥心糖 欄目:云計算

系統說明

系統組件版本
  • 操作系統: CentOS 7.6
  • Kernel: 4.4
  • Kubernetes: v1.14.1
  • Docker: 18.09 (支持 1.13.1, 17.03, 17.06, 17.09, 18.06, 18.09 )
  • Etcd: v3.3.12
  • Flannel: v0.11
  • cni-plugins: v0.7.5
  • CoreDNS: 1.4.0
架構示意圖

K8S1.14高可用生產集群部署方案

架構說明:

  1. 使用六臺主機,三臺Master節點, 三臺node節點
  2. Master節點上部署的Kubernetes組件有kube-apiserver, kube-scheduler, kube-controller-manager,kube-proxy。部署網絡組件flannel,數據存儲集群Etcd.
  3. Master的兩個高可用節點部署Haproxy和keepalived
  4. Node 節點部署的Kubernetes組件有Kubelet,kube-proxy。 容器組件Docker,網絡組件Flannel
  5. 集群IP和主機名信息:
集群角色 主機名 IP
Master master-1 192.168.20.44
Master master-2 192.168.20.45
Master master-3 192.168.20.46
Node k8s-node-1 192.168.20.47
Node k8s-node-2 192.168.20.48
Node k8s-node-3 192.168.20.49
  1. Ceph 需要一個可用的Ceph集群

系統初始化

1. 主機初始化

安裝好CentOS7的系統,做以下操作:

  • 關閉firewalld,Selinux。
  • 更新系統軟件包,執行yum update
  • 安裝elrepo的源,更新內核為4.4或以上版本,并重啟生效
  • 分別設置主機名為,并在本地hosts文件中解析。
  • 安裝NTP服務
  • 設置內核參數

設置內核參數的部分,要確認執行如下操作:


# 高可用Master節點設置內核參數
cat <<EOF >  /etc/sysctl.d/k8s.conf
net.ipv4.ip_nonlocal_bind = 1    
net.ipv4.ip_forward = 1
net.bridge.bridge-nf-call-ip6tables = 1
net.bridge.bridge-nf-call-iptables = 1
net.ipv4.ip_local_port_range = 10000 65000
fs.file-max = 2000000
net.ipv4.ip_forward = 1
vm.swappiness = 0
EOF

# 其他Master節點和計算節點設置內核參數
cat <<EOF >  /etc/sysctl.d/k8s.conf
net.ipv4.ip_forward = 1
net.bridge.bridge-nf-call-ip6tables = 1
net.bridge.bridge-nf-call-iptables = 1
net.ipv4.ip_local_port_range = 10000 65000
fs.file-max = 2000000
net.ipv4.ip_forward = 1
vm.swappiness = 0
EOF
2. 安裝Docker

由于在Kubernetes1.14的版本中,支持的版本有 1.13.1, 17.03, 17.06, 17.09, 18.06, 18.09,所以這里統一使用Docker 18.09。

下載docker-ce-18.09的rpm包和阿里云上對應的docker-ce.repo的源,在所有node節點上直接安裝:

mv docker-ce.repo /etc/yum.repos.d/
yum install docker-ce-18.09.5-3.el7.x86_64.rpm -y

在所有node節點啟動docker,并配置自啟動:

systemctl start docker
systemctl enable docker
3. 創建目錄

在所有主機上執行如下命令,創建所需目錄:

mkdir -p /opt/kubernetes/{cfg,bin,ssl,log}
4. 準備Kubernetes軟件包

從github下載kubernetes 1.14版本的二進制軟件包,下載地址: https://github.com/kubernetes/kubernetes/blob/master/CHANGELOG-1.14.md#server-binaries

下載如下軟件包:

[root@master-1 tmp]# ll
total 537520
-rw-r--r-- 1 root root 113938518 Jul 24 19:15 kubernetes-node-linux-amd64.tar.gz
-rw-r--r-- 1 root root 433740362 Jul 24 19:09 kubernetes-server-linux-amd64.tar.gz

解壓:

tar xf kubernetes-server-linux-amd64.tar.gz
5.準備etcd和flannel組件

從github下載etcd v3.3.12和flannel v0.11.0 :

wget https://github.com/etcd-io/etcd/releases/download/v3.3.12/etcd-v3.3.12-linux-amd64.tar.gz
wget https://github.com/coreos/flannel/releases/download/v0.11.0/flannel-v0.11.0-linux-amd64.tar.gz

制作CA證書

Kubernetes支持使用多種方式生成證書,可以使用easyrsa, openssl 或 cfssl任一一種生成。
參考鏈接

這里使用cfssl創建CA證書。

1.安裝CFSSL

使用cfssl生成CA證書需要單獨安裝cfssl。

[root@master-1 ~]# cd /usr/local/src/

curl -L https://pkg.cfssl.org/R1.2/cfssl_linux-amd64 -o /opt/kubernetes/bin/cfssl
curl -L https://pkg.cfssl.org/R1.2/cfssljson_linux-amd64 -o /opt/kubernetes/bin/cfssljson
curl -L https://pkg.cfssl.org/R1.2/cfssl-certinfo_linux-amd64 -o /opt/kubernetes/bin/cfssl-certinfo
chmod +x /opt/kubernetes/bin/*

所有節點添加Kubernetes的bin目錄到系統環境變量:

echo 'PATH=$PATH:/opt/kubernetes/bin' >>/etc/profile
source /etc/profile
2.生成證書
  1. 創建需要的配置文件:
[root@master-1 ~]# cd /opt/kubernetes/ssl/
[root@master-1 ssl]# cfssl  print-defaults config > config.json
[root@master-1 ssl]# cfssl print-defaults csr > csr.json
[root@master-1 ssl]# ll
total 8
-rw-r--r-- 1 root root 567 Jul 26 00:05 config.json
-rw-r--r-- 1 root root 287 Jul 26 00:05 csr.json
[root@master-1 ssl]# mv config.json ca-config.json
[root@master-1 ssl]# mv csr.json  ca-csr.json
  1. 修改生成的文件為如下內容:
    ca-config.json文件:
[root@master-1 ssl]# vim ca-config.json
{
  "signing": {
    "default": {
      "expiry": "87600h"
    },
    "profiles": {
      "kubernetes": {
        "usages": [
            "signing",
            "key encipherment",
            "server auth",
            "client auth"
        ],
        "expiry": "87600h"
      }
    }
  }
}

ca-csr.json文件:

[root@master-1 ssl]# vim ca-csr.json 
{
    "CN": "kubernetes",
    "key": {
        "algo": "rsa",
        "size": 2048
    },
    "names": [
        {
          "C": "CN",
          "ST": "BeiJing",
          "L": "BeiJing",
          "O": "k8s",
          "OU": "System"
        }
    ]
}
  1. 生成證書(ca-key.pem)和秘鑰(ca.pem):
[root@master-1 ssl]# cfssl gencert -initca ca-csr.json | cfssljson -bare ca
2018/07/26 00:27:00 [INFO] generating a new CA key and certificate from CSR
2018/07/26 00:27:00 [INFO] generate received request
2018/07/26 00:27:00 [INFO] received CSR
2018/07/26 00:27:00 [INFO] generating key: rsa-2048
2018/07/26 00:27:01 [INFO] encoded CSR
2018/07/26 00:27:01 [INFO] signed certificate with serial number 479065525331838190845576195908271097044538206777
[root@master-1 ssl]# ll
total 20
-rw-r--r-- 1 root root  386 Jul 26 00:16 ca-config.json
-rw-r--r-- 1 root root 1001 Jul 26 00:27 ca.csr
-rw-r--r-- 1 root root  255 Jul 26 00:20 ca-csr.json
-rw------- 1 root root 1679 Jul 26 00:27 ca-key.pem
-rw-r--r-- 1 root root 1359 Jul 26 00:27 ca.pem
  1. 分發證書到各個節點:
[root@master-1 ssl]# scp ca.csr ca.pem ca-key.pem ca-config.json 192.168.20.45:/opt/kubernetes/ssl
[root@master-1 ssl]# scp ca.csr ca.pem ca-key.pem ca-config.json 192.168.20.46:/opt/kubernetes/ssl
[root@master-1 ssl]# scp ca.csr ca.pem ca-key.pem ca-config.json 192.168.20.47:/opt/kubernetes/ssl
[root@master-1 ssl]# scp ca.csr ca.pem ca-key.pem ca-config.json 192.168.20.48:/opt/kubernetes/ssl
[root@master-1 ssl]# scp ca.csr ca.pem ca-key.pem ca-config.json 192.168.20.49:/opt/kubernetes/ssl

HA 節點部署

這里選擇兩個Master節點部署Haproxy 和 keepalived, keepalived上需要添加監控haproxy應用的腳本。

keepalived 配置
  1. HA節點下載安裝keepalive:
yum install keepalived -y
  1. 配置兩個虛擬IP,一個用于k8s集群的apiserver代理,另一個用于nginx ingress入口(也可以單獨配置),同時要設置對haproxy的狀態判斷,如果節點上的haproxy進程結束需要自動切換VIP到另一節點上, 主HA配置如下:
# cat /etc/keepalived/keepalived.conf 
! Configuration File for keepalived

vrrp_script check_haproxy {
        script "/etc/keepalived/check_haproxy.sh"
        interval 3
        weight -20
}

vrrp_instance K8S {
    state backup 
    interface eth0
    virtual_router_id 44
    priority 200
    advert_int 5
    authentication {
        auth_type PASS
        auth_pass 1111
    }
    virtual_ipaddress {
        192.168.20.50
        192.168.20.60

    }
    track_script {
        check_haproxy
   }

}
  1. 從HA配置如下:
! Configuration File for keepalived

vrrp_script check_haproxy {
        script "/etc/keepalived/check_haproxy.sh"
        interval 3
        weight -20
}

vrrp_instance K8S {
    state backup
    interface eth0
    virtual_router_id 44
    priority 190
    advert_int 5
    authentication {
        auth_type PASS
        auth_pass 1111
    }
    virtual_ipaddress {
        192.168.20.50
        192.168.20.60

    }
    track_script {
        check_haproxy
   }
}
  1. 在這兩個節點上配置對應的監測腳本:
vim /etc/keepalived/check_haproxy.sh

#!/bin/bash
active_status=`netstat -lntp|grep haproxy|wc -l`
if [ $active_status -gt 0 ]; then
    exit 0
else
    exit 1
fi
  1. 需要添加權限
chmod +x /etc/keepalived/check_haproxy.sh
部署Haproxy

官方配置手冊

  1. 需要先確認已經配置了內核參數:
echo 'net.ipv4.ip_nonlocal_bind = 1'>>/etc/sysctl.conf
echo 'net.ipv4.ip_forward = 1'>>/etc/sysctl.conf

sysctl -p
  1. 安裝haproxy
yum install haproxy -y
  1. 配置haproxy, 我們為k8s集群設計的VIP為 192.168.20.50,使用4層代理的方式, 配置文件如下:
# cat /etc/haproxy/haproxy.cfg |egrep -v "^#"

global

    log         127.0.0.1 local2

    chroot      /var/lib/haproxy
    pidfile     /var/run/haproxy.pid
    maxconn     4000
    user        haproxy
    group       haproxy
    daemon

    # turn on stats unix socket
    stats socket /var/lib/haproxy/stats

defaults
    mode                    tcp           # 修改默認為四層代理
    log                     global
    option                  httplog
    option                  dontlognull
    option http-server-close
    option forwardfor       except 127.0.0.0/8
    option                  redispatch
    retries                 3
    timeout http-request    10s
    timeout queue           1m
    timeout connect         10s
    timeout client          1m
    timeout server          1m
    timeout http-keep-alive 10s
    timeout check           10s
    maxconn                 3000

frontend  main 192.168.20.50:6443
    acl url_static       path_beg       -i /static /images /javascript /stylesheets
    acl url_static       path_end       -i .jpg .gif .png .css .js

    default_backend             k8s-node

backend k8s-node
    mode        tcp             # 修改為tcp
    balance     roundrobin
    server  k8s-node-1  192.168.20.44:6443 check     # 三個master主機
    server  k8s-node-2  192.168.20.45:6443 check
    server  k8s-node-3  192.168.20.46:6443 check

配置完成之后檢查IP是否可以自動切換。

部署ETCD集群

1.安裝etcd

執行如下命令,完成etcd的安裝:

[root@master-1 ~]# cd /tmp/
[root@master-1 tmp]# tar xf etcd-v3.3.12-linux-amd64.tar.gz 
[root@master-1 tmp]# cd etcd-v3.3.12-linux-amd64
[root@master-1 tmp]# cp etcd* /opt/kubernetes/bin/
[root@master-1 tmp]# scp etcd* 192.168.20.45:/opt/kubernetes/bin/
[root@master-1 tmp]# scp etcd* 192.168.20.46:/opt/kubernetes/bin/
2.生成etcd的專屬證書

1.創建etcd證書簽名請求

[root@master-1 ~]# vim etcd-csr.json
{
  "CN": "etcd",
  "hosts": [
    "127.0.0.1",
"192.168.20.44",
"192.168.20.45",
"192.168.20.46"
  ],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}

2.生成etcd證書

[root@master-1 ~]# cfssl gencert -ca=/opt/kubernetes/ssl/ca.pem  \
-ca-key=/opt/kubernetes/ssl/ca-key.pem  \
-config=/opt/kubernetes/ssl/ca-config.json  \
-profile=kubernetes etcd-csr.json | cfssljson -bare etcd

會生成如下文件:

[root@master-1 ~]# ll
total 16
-rw-r--r-- 1 root root 1062 Jul 26 01:18 etcd.csr
-rw-r--r-- 1 root root  287 Jul 26 00:50 etcd-csr.json
-rw------- 1 root root 1679 Jul 26 01:18 etcd-key.pem
-rw-r--r-- 1 root root 1436 Jul 26 01:18 etcd.pem
  1. 移動證書到ssl目錄:
[root@master-1 ~]#  cp etcd*.pem /opt/kubernetes/ssl
[root@master-1 ~]# scp etcd*.pem 192.168.20.45:/opt/kubernetes/ssl
[root@master-1 ~]# scp etcd*.pem 192.168.20.46:/opt/kubernetes/ssl
3.配置etcd
  1. 配置ETCD配置文件

master-1上的配置為:

[root@master-1 ~]# vim /opt/kubernetes/cfg/etcd.conf
#[member]
ETCD_NAME="etcd-node-1"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
#ETCD_SNAPSHOT_COUNTER="10000"
#ETCD_HEARTBEAT_INTERVAL="100"
#ETCD_ELECTION_TIMEOUT="1000"
ETCD_LISTEN_PEER_URLS="https://192.168.20.44:2380"
ETCD_LISTEN_CLIENT_URLS="https://192.168.20.44:2379,https://127.0.0.1:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://192.168.20.44:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd-node-1=https://192.168.20.44:2380,etcd-node-2=https://192.168.20.45:2380,etcd-node-3=https://192.168.20.46:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="https://192.168.20.44:2379"
#[security]
CLIENT_CERT_AUTH="true"
ETCD_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"
PEER_CLIENT_CERT_AUTH="true"
ETCD_PEER_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_PEER_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_PEER_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"

master-2上的配置為:

[root@master-2 tmp]# vim /opt/kubernetes/cfg/etcd.conf
#[member]
ETCD_NAME="etcd-node-2"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
#ETCD_SNAPSHOT_COUNTER="10000"
#ETCD_HEARTBEAT_INTERVAL="100"
#ETCD_ELECTION_TIMEOUT="1000"
ETCD_LISTEN_PEER_URLS="https://192.168.20.45:2380"
ETCD_LISTEN_CLIENT_URLS="https://192.168.20.45:2379,https://127.0.0.1:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://192.168.20.45:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd-node-1=https://192.168.20.44:2380,etcd-node-2=https://192.168.20.45:2380,etcd-node-3=https://192.168.20.46:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="https://192.168.20.45:2379"
#[security]
CLIENT_CERT_AUTH="true"
ETCD_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"
PEER_CLIENT_CERT_AUTH="true"
ETCD_PEER_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_PEER_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_PEER_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"

master-3上的配置為:

[root@master-3 ~]# vim /opt/kubernetes/cfg/etcd.conf
#[member]
ETCD_NAME="etcd-node-3"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
#ETCD_SNAPSHOT_COUNTER="10000"
#ETCD_HEARTBEAT_INTERVAL="100"
#ETCD_ELECTION_TIMEOUT="1000"
ETCD_LISTEN_PEER_URLS="https://192.168.20.46:2380"
ETCD_LISTEN_CLIENT_URLS="https://192.168.20.46:2379,https://127.0.0.1:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://192.168.20.46:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd-node-1=https://192.168.20.44:2380,etcd-node-2=https://192.168.20.45:2380,etcd-node-3=https://192.168.20.46:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="https://192.168.20.46:2379"
#[security]
CLIENT_CERT_AUTH="true"
ETCD_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"
PEER_CLIENT_CERT_AUTH="true"
ETCD_PEER_CA_FILE="/opt/kubernetes/ssl/ca.pem"
ETCD_PEER_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
ETCD_PEER_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"

在三個節點上創建etcd的systemd文件:

[root@master-1 ~]# vim /usr/lib/systemd/system/etcd.service
[Unit]
Description=etcd
Documentation=https://github.com/coreos/etcd
Conflicts=etcd.service
Conflicts=etcd2.service

[Service]
Type=notify
Restart=always
RestartSec=5s
LimitNOFILE=40000
TimeoutStartSec=0
WorkingDirectory=/var/lib/etcd
EnvironmentFile=-/opt/kubernetes/cfg/etcd.conf
# set GOMAXPROCS to number of processors
ExecStart=/bin/bash -c "GOMAXPROCS=$(nproc) /opt/kubernetes/bin/etcd"

[Install]
WantedBy=multi-user.target
  1. 啟動ETCD服務,在三個節點執行如下命令:
mkdir /var/lib/etcd
systemctl daemon-reload
systemctl start etcd
systemctl enable etcd

確認所以節點的etcd服務啟動。

4.驗證集群
[root@master-1 ~]# etcdctl --endpoints=https://192.168.20.44:2379 \
 --ca-file=/opt/kubernetes/ssl/ca.pem \
 --cert-file=/opt/kubernetes/ssl/etcd.pem \
 --key-file=/opt/kubernetes/ssl/etcd-key.pem cluster-health
member 32922a109cfe00b2 is healthy: got healthy result from https://192.168.20.46:2379
member 4fa519fdd3e64a84 is healthy: got healthy result from https://192.168.20.45:2379
member cab6e832332e8b2a is healthy: got healthy result from https://192.168.20.44:2379
cluster is healthy

Master節點部署

1.部署Kubernetes軟件包
[root@master-1 ~]# cd /tmp/kubernetes/server/bin/
[root@master-1 bin]# cp kube-apiserver /opt/kubernetes/bin/
[root@master-1 bin]# cp kube-controller-manager /opt/kubernetes/bin/
[root@master-1 bin]# cp kube-scheduler /opt/kubernetes/bin/
2.生成API Server的認證文件

參考鏈接

1.創建用于生成CSR的JSON文件,這里需要指定HA代理的IP,和集群的ClusterIP:

[root@master-1 ~]# cd /opt/kubernetes/ssl
[root@master-1 ssl]# vim kubernetes-csr.json
{
  "CN": "kubernetes",
  "hosts": [
    "127.0.0.1",
    "192.168.20.50",
    "10.1.0.1",
    "kubernetes",
    "kubernetes.default",
    "kubernetes.default.svc",
    "kubernetes.default.svc.cluster",
    "kubernetes.default.svc.cluster.local"
  ],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}

2.生成Kubernetes的證書和私鑰

[root@master-1 ssl]# cfssl gencert -ca=/opt/kubernetes/ssl/ca.pem \
   -ca-key=/opt/kubernetes/ssl/ca-key.pem \
   -config=/opt/kubernetes/ssl/ca-config.json \
   -profile=kubernetes kubernetes-csr.json | cfssljson -bare kubernetes
  1. 將私鑰分發到其它所有的node節點中:
[root@master-1 ssl]# scp kubernetes*.pem 192.168.20.46:/opt/kubernetes/ssl/
...
  1. 創建 API Server使用的token文件
[root@master-1 ~]# head -c 16 /dev/urandom | od -An -t x | tr -d ' '
197f33fcbbfab2d15603dcc4408358f5
[root@master-1 ~]# vim /opt/kubernetes/ssl/bootstrap-token.csv
197f33fcbbfab2d15603dcc4408358f5,kubelet-bootstrap,10001,"system:kubelet-bootstrap"
  1. 創建基礎用戶名,密碼認證配置
[root@k8s-node-1 ~]#  vim /opt/kubernetes/ssl/basic-auth.csv
admin,admin,1
readonly,readonly,2
  1. 將ssl目錄的文件拷貝到其它的master節點上
scp -r -p /opt/kubernetes/ssl/*  k8s-node-1:/opt/kubernetes/ssl/
scp -r -p /opt/kubernetes/ssl/*  k8s-node-2:/opt/kubernetes/ssl/
scp -r -p /opt/kubernetes/ssl/*  k8s-node-3:/opt/kubernetes/ssl/
3.部署kube-apiserver
  1. 創建kube-apiserver的systemd文件
[root@k8s-node-1 ~]#  vim /usr/lib/systemd/system/kube-apiserver.service
[Unit]
Description=Kubernetes API Server
Documentation=https://github.com/GoogleCloudPlatform/kubernetes
After=network.target

[Service]
ExecStart=/opt/kubernetes/bin/kube-apiserver \
  --enable-admission-plugins=MutatingAdmissionWebhook,ValidatingAdmissionWebhook,NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,ResourceQuota,NodeRestriction \
  --bind-address=192.168.20.44 \
  --insecure-bind-address=127.0.0.1 \
  --authorization-mode=Node,RBAC \
  --runtime-config=rbac.authorization.k8s.io/v1 \
  --kubelet-https=true \
  --anonymous-auth=false \
  --basic-auth-file=/opt/kubernetes/ssl/basic-auth.csv \
  --enable-bootstrap-token-auth \
  --token-auth-file=/opt/kubernetes/ssl/bootstrap-token.csv \
  --service-cluster-ip-range=10.1.0.0/16 \
  --service-node-port-range=20000-40000 \
  --tls-cert-file=/opt/kubernetes/ssl/kubernetes.pem \
  --tls-private-key-file=/opt/kubernetes/ssl/kubernetes-key.pem \
  --client-ca-file=/opt/kubernetes/ssl/ca.pem \
  --service-account-key-file=/opt/kubernetes/ssl/ca-key.pem \
  --etcd-cafile=/opt/kubernetes/ssl/ca.pem \
  --etcd-certfile=/opt/kubernetes/ssl/kubernetes.pem \
  --etcd-keyfile=/opt/kubernetes/ssl/kubernetes-key.pem \
  --etcd-servers=https://192.168.20.44:2379,https://192.168.20.45:2379,https://192.168.20.46:2379 \
  --enable-swagger-ui=true \
  --allow-privileged=true \
  --audit-log-maxage=30 \
  --audit-log-maxbackup=3 \
  --audit-log-maxsize=100 \
  --audit-log-path=/opt/kubernetes/log/api-audit.log \
  --event-ttl=1h \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log
Restart=on-failure
RestartSec=5
Type=notify
LimitNOFILE=65536

[Install]
WantedBy=multi-user.target
  1. 啟動kube-apiserver服務
[root@k8s-node-1 ~]# systemctl daemon-reload
[root@k8s-node-1 ~]# systemctl start kube-apiserver
[root@k8s-node-1 ~]# systemctl enable kube-apiserver
  1. 查看服務狀態是否正常
[root@master-1 ~]# systemctl status kube-apiserver
[root@master-1 ~]# netstat -lntp|grep kube-apiserver
tcp        0      0 192.168.20.44:6443      0.0.0.0:*               LISTEN      4289/kube-apiserver 
tcp        0      0 127.0.0.1:8080          0.0.0.0:*               LISTEN      4289/kube-apiserver 
4.部署controller-manager
  1. 生成controller-manager的systemd文件
[root@master-1 ~]# vim /usr/lib/systemd/system/kube-controller-manager.service
[Unit]
Description=Kubernetes Controller Manager
Documentation=https://github.com/GoogleCloudPlatform/kubernetes

[Service]
ExecStart=/opt/kubernetes/bin/kube-controller-manager \
  --bind-address=127.0.0.1 \
  --master=http://127.0.0.1:8080 \
  --allocate-node-cidrs=true \
  --service-cluster-ip-range=10.1.0.0/16 \
  --cluster-cidr=10.2.0.0/16 \
  --cluster-name=kubernetes \
  --cluster-signing-cert-file=/opt/kubernetes/ssl/ca.pem \
  --cluster-signing-key-file=/opt/kubernetes/ssl/ca-key.pem \
  --service-account-private-key-file=/opt/kubernetes/ssl/ca-key.pem \
  --root-ca-file=/opt/kubernetes/ssl/ca.pem \
  --leader-elect=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log

Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target
  1. 啟動kube-controller-manager
[root@master-1 ~]# systemctl daemon-reload
[root@master-1 ~]# systemctl start kube-controller-manager
[root@master-1 ~]# systemctl enable kube-controller-manager
  1. 查看服務狀態
[root@master-1 ~]# systemctl status kube-controller-manager
[root@master-1 ~]# netstat -lntp|grep kube-con
tcp        0      0 127.0.0.1:10252         0.0.0.0:*               LISTEN      4390/kube-controlle 
5.部署Kubernetes Scheduler
  1. 創建systemd文件:
[root@master-1 ~]# vim /usr/lib/systemd/system/kube-scheduler.service
[Unit]
Description=Kubernetes Scheduler
Documentation=https://github.com/GoogleCloudPlatform/kubernetes

[Service]
ExecStart=/opt/kubernetes/bin/kube-scheduler \
  --address=127.0.0.1 \
  --master=http://127.0.0.1:8080 \
  --leader-elect=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log

Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target
  1. 啟動服務
[root@master-1 ~]# systemctl daemon-reload
[root@master-1 ~]# systemctl start kube-scheduler
[root@master-1 ~]# systemctl enable kube-scheduler
  1. 查看服務狀態
[root@master-1 ~]# systemctl status kube-scheduler
[root@master-1 ~]# netstat -lntp|grep kube-scheduler
tcp        0      0 127.0.0.1:10251         0.0.0.0:*               LISTEN      4445/kube-scheduler
6. Master節點部署kube-proxy(可選)

(參見node節點部署部分,需要創建對應的kube-proxy家目錄)

7. 使用上述方式,配置master-1和master-2
  1. 將master-1上的ssl,cfg,bin 文件拷貝到其它master節點的對應位置。
  2. 配置各個服務的啟動文件,并啟動。
8.部署kubectl命令行工具
  1. 安裝二進制包
[root@master-1 ~]# cd /tmp/kubernetes/node/bin/
[root@master-1 bin]# cp kubectl /opt/kubernetes/bin/

2.創建admin證書簽名

[root@master-1 ~]# vim /opt/kubernetes/ssl/admin-csr.json
{
  "CN": "admin",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "system:masters",
      "OU": "System"
    }
  ]
}

3.生成admin證書和私鑰

[root@master-1 ~]# cd /opt/kubernetes/ssl/
[root@master-1 ssl]# cfssl gencert -ca=/opt/kubernetes/ssl/ca.pem \
   -ca-key=/opt/kubernetes/ssl/ca-key.pem \
   -config=/opt/kubernetes/ssl/ca-config.json \
   -profile=kubernetes admin-csr.json | cfssljson -bare admin
  1. 設置集群參數
[root@master-1 ~]#  kubectl config set-cluster kubernetes \
    --certificate-authority=/opt/kubernetes/ssl/ca.pem \
    --embed-certs=true \
    --server=https://192.168.20.50:6443
Cluster "kubernetes" set.

5.設置客戶端認證參數:

[root@naster-1 ~]# kubectl config set-credentials admin \
    --client-certificate=/opt/kubernetes/ssl/admin.pem \
    --embed-certs=true \
    --client-key=/opt/kubernetes/ssl/admin-key.pem
User "admin" set.

6.設置上下文參數

[root@master-1 ~]# kubectl config set-context kubernetes \
    --cluster=kubernetes \
    --user=admin
Context "kubernetes" created.

7.設置默認上下文:

[root@master-1 ~]# kubectl config use-context kubernetes
Switched to context "kubernetes".

8.使用Kubectl工具查看當前狀態:

[root@master-1 ~]# kubectl get cs
NAME                 STATUS    MESSAGE             ERROR
scheduler            Healthy   ok                  
controller-manager   Healthy   ok                  
etcd-1               Healthy   {"health":"true"}   
etcd-2               Healthy   {"health":"true"}   
etcd-0               Healthy   {"health":"true"}   

Node節點部署

1.安裝所需的服務

將kubernetes-node-linux-amd64.tar.gz壓縮包在node節點解壓,執行如下操作

[root@k8s-node-1 ~]# cd /tmp/kubernetes/node/bin
[root@k8s-node-1 bin]# cp kubelet kube-proxy  /opt/kubernetes/bin/
[root@k8s-node-1 bin]# scp kubelet kube-proxy  192.168.20.48:/opt/kubernetes/bin/
[root@k8s-node-1 bin]# scp kubelet kube-proxy  192.168.20.49:/opt/kubernetes/bin/
2.配置角色和認證參數
  1. 在master-1上創建角色綁定
[root@master-1 ~]# kubectl create clusterrolebinding kubelet-bootstrap --clusterrole=system:node-bootstrapper --user=kubelet-bootstrap
clusterrolebinding.rbac.authorization.k8s.io "kubelet-bootstrap" created
  1. 創建kubelet bootstrapping kubeconfig文件,設置集群參數
[root@master-1 ~]# kubectl config set-cluster kubernetes \
   --certificate-authority=/opt/kubernetes/ssl/ca.pem \
   --embed-certs=true \
   --server=https://192.168.20.50:6443 \
   --kubeconfig=bootstrap.kubeconfig
Cluster "kubernetes" set.

3.設置客戶端認證參數

[root@master-1 ~]# kubectl config set-credentials kubelet-bootstrap \
   --token=197f33fcbbfab2d15603dcc4408358f5 \
   --kubeconfig=bootstrap.kubeconfig   

User "kubelet-bootstrap" set.

4.設置上下文認證參數

[root@master-1 ~]# kubectl config set-context default \
    --cluster=kubernetes \
    --user=kubelet-bootstrap \
    --kubeconfig=bootstrap.kubeconfig
Context "default" created.

5.選擇默認上下文

[root@master-1 ~]# kubectl config use-context default --kubeconfig=bootstrap.kubeconfig
Switched to context "default"

6.執行上面的操作后,會在當前目錄生成一個bootstrap.kubeconfig的config文件,將此文件分發到各節點:

[root@k8s-node-1 ~]# cp bootstrap.kubeconfig /opt/kubernetes/cfg/
[root@k8s-node-1 ~]# scp bootstrap.kubeconfig 192.168.20.47:/opt/kubernetes/cfg/
[root@k8s-node-1 ~]# scp bootstrap.kubeconfig 192.168.20.48:/opt/kubernetes/cfg/
[root@k8s-node-1 ~]# scp bootstrap.kubeconfig 192.168.20.49:/opt/kubernetes/cfg/
  1. 將master上更新的配置拷貝到其它master節點。
3.設置支持CNI

以下操作需要在所有node節點執行

  1. 設置Kubernetes對CNI的支持:
[root@k8s-node-2 ~]# mkdir -p /etc/cni/net.d
[root@k8s-node-2 ~]# vim /etc/cni/net.d/10-default.conf
{
        "name": "flannel",
        "type": "flannel",
        "delegate": {
            "bridge": "docker0",
            "isDefaultGateway": true,
            "mtu": 1400
        }
}
4.配置Kubelet服務

以下操作需要在所有node節點執行

  1. 創建kubelet服務配置文件
[root@k8s-node-2 ~]# mkdir /var/lib/kubelet
[root@k8s-node-2 ~]# vim /usr/lib/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=/opt/kubernetes/bin/kubelet \
  --address=192.168.20.48 \
  --hostname-override=192.168.20.48 \
  --pod-infra-container-image=mirrorgooglecontainers/pause-amd64:3.1 \
  --experimental-bootstrap-kubeconfig=/opt/kubernetes/cfg/bootstrap.kubeconfig \
  --kubeconfig=/opt/kubernetes/cfg/kubelet.kubeconfig \
  --cert-dir=/opt/kubernetes/ssl \
  --network-plugin=cni \
  --cni-conf-dir=/etc/cni/net.d \
  --cni-bin-dir=/opt/kubernetes/bin/cni \
  --cluster-dns=10.1.0.2 \
  --cluster-domain=cluster.local. \
  --hairpin-mode hairpin-veth \
  --allow-privileged=true \
  --fail-swap-on=false \
  --logtostderr=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log
Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target
  1. 啟動Kubelet
[root@k8s-node-2 ~]# systemctl daemon-reload
[root@k8s-node-2 ~]# systemctl start kubelet
[root@k8s-node-2 ~]# systemctl enable kubelet
[root@k8s-node-2 ~]# systemctl status kubelet
  1. 在master節點上查看是否收到node節點的csr請求:
[root@master-1 ~]# kubectl get csr
NAME                                                   AGE       REQUESTOR           CONDITION
node-csr-FDH7Y3rghf1WPsEJH2EYnofvOSeyHn2f-l_-4rH-LEk   2m        kubelet-bootstrap   Pending
  1. 批準kubelet的TLS請求
[root@master-1 ~]# kubectl get csr|grep 'Pending' | awk 'NR>0{print $1}'| xargs kubectl certificate approve
certificatesigningrequest.certificates.k8s.io "node-csr-FDH7Y3rghf1WPsEJH2EYnofvOSeyHn2f-l_-4rH-LEk" approved

[root@kmaster-1 ~]# kubectl get csr
NAME                                                   AGE       REQUESTOR           CONDITION
node-csr-FDH7Y3rghf1WPsEJH2EYnofvOSeyHn2f-l_-4rH-LEk   11m       kubelet-bootstrap   Approved,Issued
  1. 之后查看node節點狀態:
[root@master-1 ~]# kubectl get node
NAME            STATUS    ROLES     AGE       VERSION
192.168.20.48   Ready     <none>    35s       v1.14.1

node節點上查看kubelet 服務

[root@k8s-node-2 ~]# netstat -lntp|grep kubelet
tcp        0      0 127.0.0.1:10248         0.0.0.0:*               LISTEN      7917/kubelet        
tcp        0      0 192.168.20.32:10250     0.0.0.0:*               LISTEN      7917/kubelet        
tcp        0      0 192.168.20.32:10255     0.0.0.0:*               LISTEN      7917/kubelet        
tcp        0      0 192.168.20.32:4194      0.0.0.0:*               LISTEN      7917/kubelet     
5.部署kube-proxy

1.配置kube-proxy使用LVS,所有節點執行:

yum install -y ipvsadm ipset conntrack

2.創建證書請求

[root@master-1 ~]# vim kube-proxy-csr.json
{
  "CN": "system:kube-proxy",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}

3.生成證書

[root@master-1 ~]#  cfssl gencert -ca=/opt/kubernetes/ssl/ca.pem \
    -ca-key=/opt/kubernetes/ssl/ca-key.pem \
    -config=/opt/kubernetes/ssl/ca-config.json \
    -profile=kubernetes  kube-proxy-csr.json | cfssljson -bare kube-proxy

4.分發證書到所有node節點

[root@master-1 ~]# cp kube-proxy*.pem /opt/kubernetes/ssl/
[root@master-1 ~]# scp kube-proxy*.pem 192.168.20.47:/opt/kubernetes/ssl/
[root@master-1 ~]# scp kube-proxy*.pem 192.168.20.48:/opt/kubernetes/ssl/
[root@master-1 ~]# scp kube-proxy*.pem 192.168.20.49:/opt/kubernetes/ssl/

5.創建kube-proxy配置文件

[root@k8s-node-2 ~]# kubectl config set-cluster kubernetes  \
  --certificate-authority=/opt/kubernetes/ssl/ca.pem   \
  --embed-certs=true   \
  --server=https://192.168.20.50:6443 \
  --kubeconfig=kube-proxy.kubeconfig
Cluster "kubernetes" set.

6.創建kube-proxy用戶:

[root@k8s-node-2 ~]# kubectl config set-credentials kube-proxy \
    --client-certificate=/opt/kubernetes/ssl/kube-proxy.pem \
    --client-key=/opt/kubernetes/ssl/kube-proxy-key.pem \
    --embed-certs=true \
    --kubeconfig=kube-proxy.kubeconfig
User "kube-proxy" set.

7.設置默認上下文:

[root@k8s-node-2 ~]# kubectl config set-context default \
    --cluster=kubernetes \
    --user=kube-proxy \
    --kubeconfig=kube-proxy.kubeconfig
Context "default" created.

8.切換上下文為default:

[root@k8s-node-2 ~]# kubectl config use-context default --kubeconfig=kube-proxy.kubeconfig
Switched to context "default".

9.分發kube-proxy.kubeconfig配置文件到所有

[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.44:/opt/kubernetes/cfg/
[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.45:/opt/kubernetes/cfg/
[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.46:/opt/kubernetes/cfg/
[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.47:/opt/kubernetes/cfg/
[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.48:/opt/kubernetes/cfg/
[root@k8s-node-2 ~]# scp kube-proxy.kubeconfig 192.168.20.459/opt/kubernetes/cfg/

10.創建kube-proxy服務配置文件

所有節點執行,注意配置文件中IP需要修改為本機對應的IP

[root@k8s-node-1 ~]# mkdir /var/lib/kube-proxy
[root@k8s-node-1 ~]# vim /usr/lib/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=/opt/kubernetes/bin/kube-proxy \
  --bind-address=192.168.20.47 \
  --hostname-override=192.168.20.47 \
  --kubeconfig=/opt/kubernetes/cfg/kube-proxy.kubeconfig \
  --masquerade-all \
  --feature-gates=SupportIPVSProxyMode=true \
  --proxy-mode=ipvs \
  --ipvs-min-sync-period=5s \
  --ipvs-sync-period=5s \
  --ipvs-scheduler=rr \
  --logtostderr=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log

Restart=on-failure
RestartSec=5
LimitNOFILE=65536

[Install]
WantedBy=multi-user.target

11.啟動服務

systemctl start kube-proxy
systemctl enable kube-proxy
systemctl status kube-proxy

12.查看服務狀態,lvs狀態

[root@k8s-node-1 ~]# ipvsadm -L -n
IP Virtual Server version 1.2.1 (size=4096)
Prot LocalAddress:Port Scheduler Flags
  -> RemoteAddress:Port           Forward Weight ActiveConn InActConn
TCP  10.1.0.1:443 rr
  -> 192.168.20.44:6443           Masq    1      0          0         
  -> 192.168.20.45:6443           Masq    1      0          0         
  -> 192.168.20.46:6443           Masq    1      1          0  

所有node節點配置成功后可以看到如下結果:

[root@master-1 ~]# kubectl get node
NAME            STATUS   ROLES    AGE     VERSION
192.168.20.47   Ready    <none>   6d21h   v1.14.1
192.168.20.48   Ready    <none>   4d1h    v1.14.1
192.168.20.49   Ready    <none>   4d1h    v1.14.1

Flannel 網絡部署

所有節點都需要部署flannel。

1.創建Flannel證書

1.生成證書文件

[root@master-1 ~]# vim flanneld-csr.json
{
  "CN": "flanneld",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}

2.生成證書

[root@master-1 ~]# cfssl gencert -ca=/opt/kubernetes/ssl/ca.pem \
    -ca-key=/opt/kubernetes/ssl/ca-key.pem \
    -config=/opt/kubernetes/ssl/ca-config.json \
    -profile=kubernetes flanneld-csr.json | cfssljson -bare flanneld

3.分發證書

[root@master-1 ~]# cp flanneld*.pem /opt/kubernetes/ssl/
[root@master-1 ~]# scp flanneld*.pem {all-k8s-node}:/opt/kubernetes/ssl/
2.部署flannel

1.將之前下載的flannel壓縮包解壓,并分發到其它節點如下操作:

cp mk-docker-opts.sh flanneld /opt/kubernetes/bin/
scp mk-docker-opts.sh flanneld {all-k8s-node}:/opt/kubernetes/bin/

2.創建如下文件,分發到各個node節點:

[root@k8s-node-1 tmp]# vim remove-docker0.sh
#!/bin/bash
# Delete default docker bridge, so that docker can start with flannel network.

# exit on any error
set -e

rc=0
ip link show docker0 >/dev/null 2>&1 || rc="$?"
if [[ "$rc" -eq "0" ]]; then
  ip link set dev docker0 down
  ip link delete docker0
fi
[root@k8s-node-1 tmp]# cp remove-docker0.sh /opt/kubernetes/bin/
[root@k8s-node-1 tmp]# scp remove-docker0.sh 192.168.20.48:/opt/kubernetes/bin/
[root@k8s-node-1 tmp]# scp remove-docker0.sh 192.168.20.49:/opt/kubernetes/bin/

3.配置flannel

[root@k8s-node-1 ~]# vim /opt/kubernetes/cfg/flannel
FLANNEL_ETCD="-etcd-endpoints=https://192.168.20.31:2379,https://192.168.20.32:2379,https://192.168.20.33:2379"
FLANNEL_ETCD_KEY="-etcd-prefix=/kubernetes/network"
FLANNEL_ETCD_CAFILE="--etcd-cafile=/opt/kubernetes/ssl/ca.pem"
FLANNEL_ETCD_CERTFILE="--etcd-certfile=/opt/kubernetes/ssl/flanneld.pem"
FLANNEL_ETCD_KEYFILE="--etcd-keyfile=/opt/kubernetes/ssl/flanneld-key.pem"
  1. 創建flannel服務文件
[root@k8s-node-1 ~]# vim /usr/lib/systemd/system/flannel.service
[Unit]
Description=Flanneld overlay address etcd agent
After=network.target
Before=docker.service

[Service]
EnvironmentFile=-/opt/kubernetes/cfg/flannel
ExecStartPre=/opt/kubernetes/bin/remove-docker0.sh
ExecStart=/opt/kubernetes/bin/flanneld ${FLANNEL_ETCD} ${FLANNEL_ETCD_KEY} ${FLANNEL_ETCD_CAFILE} ${FLANNEL_ETCD_CERTFILE} ${FLANNEL_ETCD_KEYFILE}
ExecStartPost=/opt/kubernetes/bin/mk-docker-opts.sh -d /run/flannel/docker

Type=notify

[Install]
WantedBy=multi-user.target
RequiredBy=docker.service

5.分發創建的配置文件到各個節點:

scp /opt/kubernetes/cfg/flannel {all-k8s-node}:/opt/kubernetes/cfg/
scp /usr/lib/systemd/system/flannel.service {all-k8s-node}:/usr/lib/systemd/system/
3. Flannel CNI集成

1.下載CNI插件

wget https://github.com/containernetworking/plugins/releases/download/v0.7.5/cni-plugins-amd64-v0.7.5.tgz
[root@k8s-node-1 tmp]# mkdir /opt/kubernetes/bin/cni
[root@k8s-node-1 tmp]# tar xf cni-plugins-amd64-v0.7.5.tgz -C /opt/kubernetes/bin/cni

2.分發軟件到各個節點:

[root@k8s-node-1 ~]# scp -r /opt/kubernetes/bin/cni/* {all-k8s-node}:/opt/kubernetes/bin/cni/

3.在etcd中創建key

[root@master-1 ~]# /opt/kubernetes/bin/etcdctl --ca-file /opt/kubernetes/ssl/ca.pem --cert-file /opt/kubernetes/ssl/flanneld.pem --key-file /opt/kubernetes/ssl/flanneld-key.pem \
     --no-sync -C https://192.168.20.44:2379,https://192.168.20.45:2379,https://192.168.20.46:2379 \
     mk /kubernetes/network/config '{ "Network": "10.2.0.0/16", "Backend": { "Type": "vxlan", "VNI": 1 }}' >/dev/null 2>&1

4.各個節點啟動flannel

[root@k8s-node-1 ~]# chmod +x /opt/kubernetes/bin/*
[root@k8s-node-1 ~]# systemctl daemon-reload
[root@k8s-node-1 ~]# systemctl start flannel 
[root@k8s-node-1 ~]# systemctl enable flannel 
配置Docker使用Flannel

1.修改docker的systemd的文件:

[Unit] #在Unit下面修改After和增加Requires
After=network-online.target firewalld.service flannel.service
Wants=network-online.target
Requires=flannel.service

[Service] #增加EnvironmentFile=-/run/flannel/docker
Type=notify
EnvironmentFile=-/run/flannel/docker
ExecStart=/usr/bin/dockerd $DOCKER_OPTS

2.其它NODE節點也做相同的修改

[root@k8s-node-2 ~]# scp /usr/lib/systemd/system/docker.service {k8s-node}:/usr/lib/systemd/system/

3.重啟docker, 出現docker0網卡,且在10.2.0.0/16網段,說明配置成功

[root@k8s-node-3 ~]# systemctl daemon-reload
[root@k8s-node-3 ~]# systemctl restart docker
[root@k8s-node-3 ~]# ip a| grep -A 3 'docker0'
7: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN 
    link/ether 02:42:e9:2b:36:86 brd ff:ff:ff:ff:ff:ff
    inet 10.2.79.1/24 scope global docker0
       valid_lft forever preferred_lft forever

插件部署

1.創建CoreDNS
  1. 創建coredns.yaml,內容如下:
apiVersion: v1
kind: ServiceAccount
metadata:
  name: coredns
  namespace: kube-system
  labels:
      kubernetes.io/cluster-service: "true"
      addonmanager.kubernetes.io/mode: Reconcile
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
  labels:
    kubernetes.io/bootstrapping: rbac-defaults
    addonmanager.kubernetes.io/mode: Reconcile
  name: system:coredns
rules:
- apiGroups:
  - ""
  resources:
  - endpoints
  - services
  - pods
  - namespaces
  verbs:
  - list
  - watch
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
  annotations:
    rbac.authorization.kubernetes.io/autoupdate: "true"
  labels:
    kubernetes.io/bootstrapping: rbac-defaults
    addonmanager.kubernetes.io/mode: EnsureExists
  name: system:coredns
roleRef:
  apiGroup: rbac.authorization.k8s.io
  kind: ClusterRole
  name: system:coredns
subjects:
- kind: ServiceAccount
  name: coredns
  namespace: kube-system
---
apiVersion: v1
kind: ConfigMap
metadata:
  name: coredns
  namespace: kube-system
  labels:
      addonmanager.kubernetes.io/mode: EnsureExists
data:
  Corefile: |
    .:53 {
        errors
        health
        kubernetes cluster.local. in-addr.arpa ip6.arpa {
            pods insecure
            upstream
            fallthrough in-addr.arpa ip6.arpa
        }
        prometheus :9153
        proxy . /etc/resolv.conf
        cache 30
    }
---
apiVersion: extensions/v1beta1
kind: Deployment
metadata:
  name: coredns
  namespace: kube-system
  labels:
    k8s-app: coredns
    kubernetes.io/cluster-service: "true"
    addonmanager.kubernetes.io/mode: Reconcile
    kubernetes.io/name: "CoreDNS"
spec:
  replicas: 2
  strategy:
    type: RollingUpdate
    rollingUpdate:
      maxUnavailable: 1
  selector:
    matchLabels:
      k8s-app: coredns
  template:
    metadata:
      labels:
        k8s-app: coredns
    spec:
      serviceAccountName: coredns
      tolerations:
        - key: node-role.kubernetes.io/master
          effect: NoSchedule
        - key: "CriticalAddonsOnly"
          operator: "Exists"
      containers:
      - name: coredns
        image: coredns/coredns:1.4.0
        imagePullPolicy: IfNotPresent
        resources:
          limits:
            memory: 170Mi
          requests:
            cpu: 100m
            memory: 70Mi
        args: [ "-conf", "/etc/coredns/Corefile" ]
        volumeMounts:
        - name: config-volume
          mountPath: /etc/coredns
        ports:
        - containerPort: 53
          name: dns
          protocol: UDP
        - containerPort: 53
          name: dns-tcp
          protocol: TCP
        livenessProbe:
          httpGet:
            path: /health
            port: 8080
            scheme: HTTP
          initialDelaySeconds: 60
          timeoutSeconds: 5
          successThreshold: 1
          failureThreshold: 5
      dnsPolicy: Default
      volumes:
        - name: config-volume
          configMap:
            name: coredns
            items:
            - key: Corefile
              path: Corefile
---
apiVersion: v1
kind: Service
metadata:
  name: coredns
  namespace: kube-system
  labels:
    k8s-app: coredns
    kubernetes.io/cluster-service: "true"
    addonmanager.kubernetes.io/mode: Reconcile
    kubernetes.io/name: "CoreDNS"
spec:
  selector:
    k8s-app: coredns
  clusterIP: 10.1.0.2
  ports:
  - name: dns
    port: 53
    protocol: UDP
  - name: dns-tcp
    port: 53
    protocol: TCP
  1. 執行此文件:
[root@master-1 tmp]# kubectl create -f coredns.yaml
  1. 確認DNS服務運行:
[root@master-1 ~]# kubectl get pod  -n kube-system  -o wide
NAME                                    READY   STATUS    RESTARTS   AGE    IP          NODE            NOMINATED NODE   READINESS GATES
coredns-76fcfc9f65-9fkfh                1/1     Running   2          3d7h   10.2.45.3   192.168.20.49   <none>           <none>
coredns-76fcfc9f65-zfplt                1/1     Running   1          3d6h   10.2.24.2   192.168.20.48   <none>           <none>
2. 部署Dashboard

1.執行目錄中的yaml,部署Dashboard:

[root@master-1 ~]# ll /tmp/dashboard/
total 20
-rw-r--r-- 1 root root  356 Jul 27 03:43 admin-user-sa-rbac.yaml
-rw-r--r-- 1 root root 4253 Jul 27 03:47 kubernetes-dashboard.yaml
-rw-r--r-- 1 root root  458 Jul 27 03:49 ui-admin-rbac.yaml
-rw-r--r-- 1 root root  477 Jul 27 03:50 ui-read-rbac.yaml

[root@master-1 ~]# kubectl create -f /tmp/dashboard/

2.確認服務是否正常運行:

[root@master-1 ~]# kubectl get pod -n kube-system
NAME                                    READY   STATUS    RESTARTS   AGE
coredns-76fcfc9f65-9fkfh                1/1     Running   2          3d7h
coredns-76fcfc9f65-zfplt                1/1     Running   1          3d6h
kubernetes-dashboard-68ddcc97fc-w4bxf   1/1     Running   1          3d2h

[root@master-1 ~]# kubectl cluster-info
Kubernetes master is running at https://192.168.20.50:6443
CoreDNS is running at https://192.168.20.50:6443/api/v1/namespaces/kube-system/services/coredns:dns/proxy
kubernetes-dashboard is running at https://192.168.20.50:6443/api/v1/namespaces/kube-system/services/https:kubernetes-dashboard:/proxy

To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.

3.根據提示信息,使用dashboard的url,登錄,賬號admin/admin, 使用如下命令生成token:

[root@master-1 ~]# kubectl -n kube-system describe secret $(kubectl -n kube-system get secret | grep admin-user | awk '{print $1}')

4.復制token,選擇使用令牌的方式登錄:

K8S1.14高可用生產集群部署方案

3. Heapster 部署 (可選)

1.使用如下文件部署Heastper:

[root@master-1 ~]# ll heastper/
total 12
-rw-r--r-- 1 root root 2306 Jul 26 20:28 grafana.yaml
-rw-r--r-- 1 root root 1562 Jul 26 20:29 heapster.yaml
-rw-r--r-- 1 root root 1161 Jul 26 20:29 influxdb.yaml

[root@k8s-node-1 ~]# kubectl create -f heastper/
  1. 登錄dashboard,查看石頭出現資源利用率的圖表。

K8S1.14高可用生產集群部署方案

  1. 使用kubectl cluster-info命令,查看當前服務的url地址。

補充說明

etcd無證書配置說明

在實際的生產環境中,如果都是使用的內網環境,可以將etd集群配置為無證書的模式,這樣在配置和后續的故障恢復中會更簡單。
etcd無證書配置需要使用http訪問,安裝上述文檔,需要修改如下配置:

  1. etcd的配置文件注釋掉安全證書部分,并將所有url改為http方式:
# cat /opt/kubernetes/cfg/etcd.conf
#[member]
ETCD_NAME="etcd-node-1"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
#ETCD_SNAPSHOT_COUNTER="10000"
#ETCD_HEARTBEAT_INTERVAL="100"
#ETCD_ELECTION_TIMEOUT="1000"
ETCD_LISTEN_PEER_URLS="http://192.168.20.31:2380"
ETCD_LISTEN_CLIENT_URLS="http://192.168.20.31:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="http://192.168.20.31:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd-node-1=http://192.168.20.31:2380,etcd-node-2=http://192.168.20.32:2380,etcd-node-3=http://192.168.20.33:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="http://192.168.20.31:2379"
#[security]
#CLIENT_CERT_AUTH="true"
#ETCD_CA_FILE="/opt/kubernetes/ssl/ca.pem"
#ETCD_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
#ETCD_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"
#PEER_CLIENT_CERT_AUTH="true"
#ETCD_PEER_CA_FILE="/opt/kubernetes/ssl/ca.pem"
#ETCD_PEER_CERT_FILE="/opt/kubernetes/ssl/etcd.pem"
#ETCD_PEER_KEY_FILE="/opt/kubernetes/ssl/etcd-key.pem"
  1. fannel網絡部分注釋掉etcd的證書配置參數,并將URL該位http:
# cat /opt/kubernetes/cfg/flannel 

FLANNEL_ETCD="-etcd-endpoints=http://192.168.20.31:2379,http://192.168.20.32:2379,http://192.168.20.33:2379"
FLANNEL_ETCD_KEY="-etcd-prefix=/kubernetes/network"
#FLANNEL_ETCD_CAFILE="--etcd-cafile=/opt/kubernetes/ssl/ca.pem"
#FLANNEL_ETCD_CERTFILE="--etcd-certfile=/opt/kubernetes/ssl/flanneld.pem"
#FLANNEL_ETCD_KEYFILE="--etcd-keyfile=/opt/kubernetes/ssl/flanneld-key.pem"

3.kube-apiserver中去掉etcd的證書配置,這個文件中需要把參數直接刪除,并將url改為http:

# cat /usr/lib/systemd/system/kube-apiserver.service
[Unit]
Description=Kubernetes API Server
Documentation=https://github.com/GoogleCloudPlatform/kubernetes
After=network.target

[Service]
ExecStart=/opt/kubernetes/bin/kube-apiserver \
  --admission-control=NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,ResourceQuota,NodeRestriction \
  --bind-address=192.168.20.31 \
  --insecure-bind-address=127.0.0.1 \
  --authorization-mode=Node,RBAC \
  --runtime-config=rbac.authorization.k8s.io/v1 \
  --kubelet-https=true \
  --anonymous-auth=false \
  --basic-auth-file=/opt/kubernetes/ssl/basic-auth.csv \
  --enable-bootstrap-token-auth \
  --token-auth-file=/opt/kubernetes/ssl/bootstrap-token.csv \
  --service-cluster-ip-range=10.1.0.0/16 \
  --service-node-port-range=20000-40000 \
  --tls-cert-file=/opt/kubernetes/ssl/kubernetes.pem \
  --tls-private-key-file=/opt/kubernetes/ssl/kubernetes-key.pem \
  --client-ca-file=/opt/kubernetes/ssl/ca.pem \
  --service-account-key-file=/opt/kubernetes/ssl/ca-key.pem \
  --etcd-servers=http://192.168.20.31:2379,http://192.168.20.32:2379,http://192.168.20.33:2379 \
  --enable-swagger-ui=true \
  --allow-privileged=true \
  --audit-log-maxage=30 \
  --audit-log-maxbackup=3 \
  --audit-log-maxsize=100 \
  --audit-log-path=/opt/kubernetes/log/api-audit.log \
  --event-ttl=1h \
  --v=2 \
  --logtostderr=false \
  --log-dir=/opt/kubernetes/log
Restart=on-failure
RestartSec=5
Type=notify
LimitNOFILE=65536

[Install]
WantedBy=multi-user.target

4.分別重啟flannel、kubelet、kube-apiserver等服務。

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