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目录
K8S二进制部署过程-v1.17.0
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K8S二进制部署过程-v1.17.0

一 、环境概述:

cat >> /etc/hosts <<EOF
10.0.0.202 master
10.0.0.197 node1
10.0.0.163 node2
EOF

挂载数据盘:

mkdir /data
mkfs.xfs -f /dev/vdb
mount /dev/vdb /data
  • 安装部署 Docker,并修改 Docker 的数据存放位置。
  • 准备 Kubernetes 的 v1.16.4 的相关二进制文件,具体可参考 CHANGELOG-1.16。(略)
  • 系统主机名初始化,主机 SSH 授信免密登录。
ssh-keygen -t rsa
ssh-copy-id -i ~/.ssh/id_rsa.pub node1
ssh-copy-id -i ~/.ssh/id_rsa.pub node2
  • 关闭 selinux,关闭 iptables
  • 准备部署目录,并把/data/kubernetes/bin 加入到环境变量 PATH 中。
mkdir -p /data/kubernetes/{cfg,bin,ssl,log}
echo "export PATH=$PATH:/data/kubernetes/bin" >> /etc/profile
source /etc/profile

二、手动制作 CA 证书:

本次生成证书的工具采用 CFSSL,CFSSL 是 CloudFlare 开源的一款 PKI/TLS 工具。 CFSSL 包含一个命令行工具 和一个用于 签名,验证并且捆绑 TLS 证书的 HTTP API 服务。 使用 Go 语言编写。我们可以使用 JSON 去定义证书相关内容,看起来更加直观。

CFSSL 包括:

  • 一组用于生成自定义 TLS PKI 的工具
  • cfssl 程序,是 CFSSL 的命令行工具
  • multirootca 程序是可以使用多个签名密钥的证书颁发机构服务器
  • mkbundle 程序用于构建证书池
  • cfssljson 程序,从 cfsslmultirootca 程序获取 JSON 输出,并将证书,密钥,CSR 和 bundle 写入磁盘

2.1 准备 cfssl 的二进制文件(所有节点)

wget https://pkg.cfssl.org/R1.2/cfssl_linux-amd64
wget https://pkg.cfssl.org/R1.2/cfssljson_linux-amd64
wget https://pkg.cfssl.org/R1.2/cfssl-certinfo_linux-amd64
chmod +x cfssl*
mv cfssl-certinfo_linux-amd64 /data/kubernetes/bin/cfssl-certinfo
mv cfssljson_linux-amd64  /data/kubernetes/bin/cfssljson
mv cfssl_linux-amd64  /data/kubernetes/bin/cfssl
  • 分发到所有的 k8s 节点,因为设置了免密因此无需输入密码,其余几个节点的分发省略,只写一个。
scp /data/kubernetes/bin/cfssl* root@node1:/data/kubernetes/bin/

2.1.1 初始化 cfssl

mkdir /data/src && cd /data/src
cfssl print-defaults config > config.json
cfssl print-defaults csr > csr.json

2.1.2 创建用来生成 CA 文件的 JSON 配置文件

cat > ca-config.json <<EOF
{
  "signing": {
    "default": {
      "expiry": "8760h"
    },
    "profiles": {
      "kubernetes": {
        "usages": [
            "signing",
            "key encipherment",
            "server auth",
            "client auth"
        ],
        "expiry": "8760h"
      }
    }
  }
}
EOF

说明:

  • ca-config.json:可以定义多个 profiles,分别指定不同的过期时间,使用场景等参数。后面再签名某个证书时使用。
  • signing:表示该证书可用于签名其他证书,生成的 ca.perm 证书中 CA=TRUE。
  • server auth:表示 client 可以用该 CA 对 server 提供的证书进行验证。
  • client auth:表示 server 可以用该 CA 对 client 提供的证书进行验证。

2.1.3 创建用来生成 CA 证书签名请求(CSR)的 JSON 配置文件

[root@master src]# cat ca-csr.json 
{
  "CN": "kubernetes",
  "key": {
    "algo": "rsa",
    "size": 2048
   },
  "names": [
   {
     "C": "CN",
     "ST": "BeiJing",
     "L": "BeiJing",
     "O": "k8s",
     "OU": "System"
    }
  ]
}

说明:
"CN"Common Namekube-apiserver 从证书中提取该字段作为请求的用户名 (User Name);浏览器使用该字段验证网站是否合法;
"O"Organizationkube-apiserver 从证书中提取该字段作为请求用户所属的组 (Group)

2.1.4 生成 CA 证书(ca.pem)和密钥(ca-key.pem)

cfssl gencert -initca ca-csr.json | cfssljson -bare ca

2.1.5 分发证书

cp ca.csr ca.pem ca-key.pem ca-config.json /data/kubernetes/ssl/

2.1.6 发布到其他节点(所有节点)

scp ca.csr ca.pem ca-key.pem ca-config.json node1:/data/kubernetes/ssl/
scp ca.csr ca.pem ca-key.pem ca-config.json node2:/data/kubernetes/ssl/

三、etcd 集群

https://github.com/coreos/etcd/releases 页面下载最新版本的发布包:

wget https://github.com/etcd-io/etcd/releases/download/v3.3.18/etcd-v3.3.18-linux-amd64.tar.gz
tar zxf etcd-v3.3.18-linux-amd64.tar.gz
#分发etcd软件
chmod +x etcd*
cp etcd etcdctl /data/kubernetes/bin/ 
scp etcd* node1:/data/kubernetes/bin/
scp etcd* node2:/data/kubernetes/bin/

3.1 创建 etcd 证书签名请求

[root@etcd1 ssl]# cat etcd-csr.json 
{
  "CN": "etcd",
  "hosts": [
    "127.0.0.1",
    "10.0.0.202",
    "10.0.0.163",
    "10.0.0.197"
  ],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}
  • hosts 字段指定授权使用该证书的 etcd 节点 IP;

3.2 生成 etcd 证书和私钥:

cfssl gencert -ca=/data/kubernetes/ssl/ca.pem \
  -ca-key=/data/kubernetes/ssl/ca-key.pem \
  -config=/data/kubernetes/ssl/ca-config.json \
  -profile=kubernetes etcd-csr.json | cfssljson -bare etcd
[root@etcd1 ssl]# ls etcd*
etcd.csr  etcd-csr.json  etcd-key.pem  etcd.pem
[root@etcd1 ssl]#

3.3 分发生成的证书和私钥到各 etcd 节点

scp etcd*.pem root@node1:/data/kubernetes/ssl
 scp etcd*.pem root@node2:/data/kubernetes/ssl

3.4 设置 ETCD 配置文件

[root@master cfg]# mkdir -p /var/lib/etcd/default.etcd
[root@etcd1 cfg]# cat etcd.conf 
#[member]
ETCD_NAME="etcd1"
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://10.0.0.202:2380"
ETCD_LISTEN_CLIENT_URLS="https://10.0.0.202:2379,https://127.0.0.1:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://10.0.0.202:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd1=https://10.0.0.202:2380,etcd2=https://10.0.0.197:2380,etcd3=https://10.0.0.163:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="https://10.0.0.202:2379"
#[security]
CLIENT_CERT_AUTH="true"
ETCD_CA_FILE="/data/kubernetes/ssl/ca.pem"
ETCD_CERT_FILE="/data/kubernetes/ssl/etcd.pem"
ETCD_KEY_FILE="/data/kubernetes/ssl/etcd-key.pem"
PEER_CLIENT_CERT_AUTH="true"
ETCD_PEER_CA_FILE="/data/kubernetes/ssl/ca.pem"
ETCD_PEER_CERT_FILE="/data/kubernetes/ssl/etcd.pem"
ETCD_PEER_KEY_FILE="/data/kubernetes/ssl/etcd-key.pem"

3.5 创建 etcd 的系统服务

cat /etc/systemd/system/etcd.service
[Unit]
Description=Etcd Server
After=network.target

[Service]
Type=simple
WorkingDirectory=/var/lib/etcd
EnvironmentFile=/data/kubernetes/cfg/etcd.conf
# set GOMAXPROCS to number of processors
ExecStart=/bin/bash -c "GOMAXPROCS=$(nproc) /data/kubernetes/bin/etcd"
Type=notify

[Install]
WantedBy=multi-user.target
  • 重载系统服务:
systemctl daemon-reload
  • 分发配置文件到 etcd 各个节点:
scp etcd.conf etcd2:/data/kubernetes/cfg/
scp etcd.conf etcd3:/data/kubernetes/cfg/
scp /etc/systemd/system/etcd.service node1:/etc/systemd/system
scp /etc/systemd/system/etcd.service node2:/etc/systemd/system
  • 修改其他 etcd 节点的配置文件(etcd 集群中的每一个节点都要有,记得要改 etcd 的 name,以及监听的地址。)

这里只展示一个

[root@etcd2 bin]# vim /data/kubernetes/cfg/etcd.conf 

[member]
ETCD_NAME="node1"
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://10.0.0.197:2380"
ETCD_LISTEN_CLIENT_URLS="https://10.0.0.197:2379,https://127.0.0.1:2379"
#ETCD_MAX_SNAPSHOTS="5"
#ETCD_MAX_WALS="5"
#ETCD_CORS=""
#[cluster]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://10.0.0.197:2380"
# if you use different ETCD_NAME (e.g. test),
# set ETCD_INITIAL_CLUSTER value for this name, i.e. "test=http://..."
ETCD_INITIAL_CLUSTER="etcd1=https://10.0.0.202:2380,etcd2=https://10.0.0.197:2380,etcd3=https://10.0.0.163:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="k8s-etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="https://10.0.0.197:2379"
#[security]
CLIENT_CERT_AUTH="true"
ETCD_CA_FILE="/data/kubernetes/ssl/ca.pem"
ETCD_CERT_FILE="/data/kubernetes/ssl/etcd.pem"
ETCD_KEY_FILE="/data/kubernetes/ssl/etcd-key.pem"
PEER_CLIENT_CERT_AUTH="true"
ETCD_PEER_CA_FILE="/data/kubernetes/ssl/ca.pem"
ETCD_PEER_CERT_FILE="/data/kubernetes/ssl/etcd.pem"
ETCD_PEER_KEY_FILE="/data/kubernetes/ssl/etcd-key.pem"

3.5.1 启动 etcd 服务

[root@etcd2 bin]# systemctl daemon-reload
[root@etcd2 bin]# systemctl  enable etcd
Created symlink from /etc/systemd/system/multi-user.target.wants/etcd.service to /etc/systemd/system/etcd.service.
[root@etcd2 bin]# systemctl  start  etcd

另外两台机器配置完成后,启动 etcd 服务,三台都需启动。

3.6 验证集群

etcdctl --endpoints=https://10.0.0.202:2379 \
   --ca-file=/data/kubernetes/ssl/ca.pem \
   --cert-file=/data/kubernetes/ssl/etcd.pem \
   --key-file=/data/kubernetes/ssl/etcd-key.pem cluster-health

结果:

[root@etcd1 bin]# etcdctl --endpoints=https://10.0.0.202:2379 \
>    --ca-file=/data/kubernetes/ssl/ca.pem \
>    --cert-file=/data/kubernetes/ssl/etcd.pem \
>    --key-file=/data/kubernetes/ssl/etcd-key.pem cluster-health
member 4cf18011db57d17a is healthy: got healthy result from https://10.0.0.202:2379
member 85fd5487299e2fbd is healthy: got healthy result from https://10.0.0.197:2379
member f96d77d9089bd1e3 is healthy: got healthy result from https://10.0.0.163:2379
cluster is healthy

3.7 etcd 集群排障

  • 出现如下报错:
[root@master ~]# systemctl status etcd
● etcd.service - Etcd Server
   Loaded: loaded (/usr/lib/systemd/system/etcd.service; enabled; vendor preset: disabled)
   Active: active (running) since Fri 2019-12-27 22:23:49 EST; 29min ago
 Main PID: 19730 (etcd)
   CGroup: /system.slice/etcd.service
           └─19730 /data/kubernetes/bin/etcd

Dec 27 22:24:04 master etcd[19730]: health check for peer c91b0b181670aad could not connect: dial tcp 10.0.0.163:2380: connect: connection refused (prober "ROUND_TRIPPER_RAFT_MESSAGE")
Dec 27 22:24:04 master etcd[19730]: health check for peer c91b0b181670aad could not connect: dial tcp 10.0.0.163:2380: connect: connection refused (prober "ROUND_TRIPPER_SNAPSHOT")
Dec 27 22:24:05 master etcd[19730]: updated the cluster version from 3.0 to 3.3

image.png

  • 解决方法:
[root@master ~]# cd /var/lib/etcd/
[root@master etcd]# ll
total 0
drwxr-xr-x. 3 root root 20 Dec 28 11:23 default.etcd
[root@master etcd]# rm -rf default.etcd/

删除/var/lib/etcd 底下的文件重新启动 etcd 服务。

在 node 安装 docker

# step 1: 安装必要的一些系统工具
sudo yum install -y yum-utils device-mapper-persistent-data lvm2
# Step 2: 添加软件源信息
sudo yum-config-manager --add-repo https://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
# Step 3: 更新并安装Docker-CE
sudo yum makecache fast
sudo yum -y install docker-ce
# Step 4: 开启Docker服务
sudo systemctl start docker
curl -sSL https://get.daocloud.io/daotools/set_mirror.sh | sh -s http://f1361db2.m.daocloud.io

四、 Flannel 网络部署

  • 创建 flanneld 的证书 JSON 文件
[root@master ssl]# cat flanneld-csr.json 
{
  "CN": "flanneld",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
    },
  "names": [
    {
      "C": "CN",
      "ST": "BeiJing",
      "L": "BeiJing",
      "O": "k8s",
      "OU": "System"
     }
  ]
}

4.1 生成证书并且分发证书

cfssl gencert -ca=/data/kubernetes/ssl/ca.pem \
   -ca-key=/data/kubernetes/ssl/ca-key.pem \
   -config=/data/kubernetes/ssl/ca-config.json \
   -profile=kubernetes flanneld-csr.json | cfssljson -bare flanneld

生成 pem 证书文件

image.png

注意这个是分发到集群里的每一个节点

cp flanneld*.pem /data/kubernetes/ssl/
scp flanneld*.pem node1:/data/kubernetes/ssl/
scp flanneld*.pem node2:/data/kubernetes/ssl/
wget https://github.com/coreos/flannel/releases/download/v0.11.0/flannel-v0.11.0-linux-amd64.tar.gz
[root@master ~]# tar zxvf flannel-v0.11.0-linux-amd64.tar.gz -C /data/src/flanneld/
flanneld
mk-docker-opts.sh
README.md
[root@master ~]# cd /data/src/flanneld/
[root@master flanneld]# cp flanneld mk-docker-opts.sh /data/kubernetes/bin/
#分发到其他节点
[root@master flanneld]# scp flanneld mk-docker-opts.sh node1:/data/kubernetes/bin/
flanneld                                                                                                                                                   100%   34MB  79.3MB/s   00:00    
mk-docker-opts.sh                                                                                                                                          100% 2139     1.3MB/s   00:00    
[root@master flanneld]# scp flanneld mk-docker-opts.sh node2:/data/kubernetes/bin/
flanneld                                                                                                                                                   100%   34MB  98.5MB/s   00:00    
mk-docker-opts.sh                                                                                                                                          100% 2139     1.6MB/s   00:00
  • 配置 flannel,配置完成以后进行分发,保证每一个节点都有一个这个配置文件供 flannel 使用。
[root@master cfg]# cat flannel 
FLANNEL_ETCD="-etcd-endpoints=https://10.0.0.99:2379,https://10.0.0.111:2379,https://10.0.0.11:2379"
FLANNEL_ETCD_KEY="-etcd-prefix=/kubernetes/network"
FLANNEL_ETCD_CAFILE="--etcd-cafile=/data/kubernetes/ssl/ca.pem"
FLANNEL_ETCD_CERTFILE="--etcd-certfile=/data/kubernetes/ssl/flanneld.pem"
FLANNEL_ETCD_KEYFILE="--etcd-keyfile=/data/kubernetes/ssl/flanneld-key.pem"
scp /data/kubernetes/cfg/flannel node1:/data/kubernetes/cfg/flannel
scp /data/kubernetes/cfg/flannel node2:/data/kubernetes/cfg/flannel
scp /usr/lib/systemd/system/flannel.service node1:/usr/lib/systemd/system/flannel.service
scp /usr/lib/systemd/system/flannel.service node2:/usr/lib/systemd/system/flannel.service
  • 设置 flannel 的系统服务配置
cat /usr/lib/systemd/system/flannel.service
[Unit]
Description=Flanneld overlay address etcd agent
After=network.target
Before=docker.service

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

Type=notify

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

mk-docker-opts.sh 脚本将分配给 flanneld 的 Pod 子网网段信息写入 /run/flannel/docker 文件,后续 docker 启动时 使用这个文件中的环境变量配置 docker0 网桥;

  • flannel 集成 CNI
    下载 CNI 后解压,分发到各个节点。
wget https://github.com/containernetworking/plugins/releases/download/v0.8.3/cni-plugins-linux-amd64-v0.8.3.tgz
tar zxf cni-plugins-linux-amd64-v0.8.3.tgz -C /data/kubernetes/bin/cni
scp -r /data/kubernetes/bin/cni/* node1:/data/kubernetes/bin/cni/
scp -r /data/kubernetes/bin/cni/* node2:/data/kubernetes/bin/cni/

设置 etcd 的 key

Falnnel 要用 etcd 存储自身一个子网信息,所以要保证能成功连接 Etcd,写入预定义子网段:

/data/kubernetes/bin/etcdctl --ca-file /data/kubernetes/ssl/ca.pem --cert-file /data/kubernetes/ssl/flanneld.pem --key-file /data/kubernetes/ssl/flanneld-key.pem \
      --no-sync -C https://10.0.0.99:2379,https://10.0.0.111:2379,https://10.0.0.11:2379 \
mk /kubernetes/network/config '{ "Network": "10.2.0.0/16", "Backend": { "Type": "vxlan", "VNI": 1 }}' >/dev/null 2>&1
[root@etcd1 ssl]# /data/kubernetes/bin/etcdctl --ca-file /data/kubernetes/ssl/ca.pem --cert-file /data/kubernetes/ssl/flanneld.pem --key-file /data/kubernetes/ssl/flanneld-key.pem \
>       --no-sync -C https://10.0.0.99:2379,https://10.0.0.111:2379,https://10.0.0.11:2379 \
> mk /kubernetes/network/config '{ "Network": "10.2.0.0/16", "Backend": { "Type": "vxlan", "VNI": 1 }}' 
{ "Network": "10.2.0.0/16", "Backend": { "Type": "vxlan", "VNI": 1 }}

查询写入 ETCD 的自定义网络是否成功:

etcdctl --endpoints=https://10.0.0.99:2379 \
   --ca-file=/data/kubernetes/ssl/ca.pem \
   --cert-file=/data/kubernetes/ssl/etcd.pem \
   --key-file=/data/kubernetes/ssl/etcd-key.pem get /kubernetes/network/config

五、二进制部署 docker

5.1 下载 docker

wget https://download.docker.com/linux/static/stable/x86_64/docker-19.03.5.tgz
tar -xf docker-19.03.5.tgz
mkdir -p /usr/local/docker/bin
cp docker/docker* /usr/local/docker/bin/
yum install -y yum-utils device-mapper-persistent-data lvm2

5.1.2 编辑 docker 系统服务(配置 docker 使用 flannel)

cat /usr/lib/systemd/system/docker.service
[Unit]
Description=Docker Application Container Engine
Documentation=http://docs.docker.io
After=network-online.target firewalld.service flannel.service
Wants=network-online.target
Requires=flannel.service

[Service]
Environment="PATH=/usr/local/docker/bin:/bin:/sbin:/usr/bin:/usr/sbin"
EnvironmentFile=-/run/flannel/docker
#ExecStart=/usr/local/docker/bin/dockerd --log-level=error $DOCKER_NETWORK_OPTIONS
ExecStart=/usr/local/docker/bin/dockerd $DOCKER_OPTS
ExecReload=/bin/kill -s HUP $MAINPID
Restart=on-failure
RestartSec=5
LimitNOFILE=infinity
LimitNPROC=infinity
LimitCORE=infinity
Delegate=yes
KillMode=process

[Install]
WantedBy=multi-user.target
  • 分发 docker 系统服务和启动文件
scp docker/docker* node1:/usr/local/docker/bin/
scp docker/docker* node2:/usr/local/docker/bin/
scp /usr/lib/systemd/system/docker.service node1:/usr/lib/systemd/system/docker.service 
scp /usr/lib/systemd/system/docker.service node2:/usr/lib/systemd/system/docker.service 
systemctl daemon-reload
systemctl enable docker
systemctl start docker

这里注意一下,docker 启动会和 flannel 相辅相成,网络起不来,docker 也起不来。同时在 Service 段添加 EnvironmentFile=-/run/flannel/docker,这个文件是由 flannel 启动的时候通过 mk-docker-opts.sh 生成的,可以看一下这个文件的内容,通过—bip 来划分网段。

[root@master ~]# cat  /run/flannel/docker 
DOCKER_OPT_BIP="--bip=10.2.10.1/24"
DOCKER_OPT_IPMASQ="--ip-masq=true"
DOCKER_OPT_MTU="--mtu=1400"
DOCKER_OPTS=" --bip=10.2.10.1/24 --ip-masq=true --mtu=1400"
  • 查看 flannel 和 docker 安装结果

image.png

image.png

image.png

可以看到 docker0 和 flannel.1 的地址是一段的,每个节点分到的网段是不一样的。flannel 部署完成。

5.2 docker 通过 yum 安装也可

  • 各个节点安装 yum 源:
cd /etc/yum.repos.d/
wget https://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
  • 配置 docker 使用 flannel:
[root@master ~]# vim /usr/lib/systemd/system/docker.service 

[Unit]     #在Unit下面修改After和增加Requires
Description=Docker Application Container Engine
Documentation=https://docs.docker.com
BindsTo=containerd.service
After=network-online.target firewalld.service   containerd.service flannel.service
Wants=network-online.target
Requires=flannel.service

[Service]
#增加EnvironmentFile=-/run/flannel/docker
Type=notify
EnvironmentFile=-/run/flannel/docker   #加载环境文件,设置docker0的ip地址为flannel分配的ip地址
# the default is not to use systemd for cgroups because the delegate issues still
# exists and systemd currently does not support the cgroup feature set required
# for containers run by docker
#ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
ExecStart=/usr/bin/dockerd  $DOCKER_OPTS
ExecReload=/bin/kill -s HUP $MAINPID
TimeoutSec=0
RestartSec=2
Restart=always
......
systemctl daemon-reload
 systemctl restart docker

六、master 节点部署

kubernetes master 节点运行如下组件:
kube-apiserver
kube-scheduler
kube-controller-manager
kube-scheduler 和 kube-controller-manager 可以以集群模式运行,通过 leader 选举产生一个工作进程,其它进程处于阻塞模式。

目前这三个组件需要部署在同一台机器上:

kube-scheduler、kube-controller-manager 和 kube-apiserver 三者的功能紧密相关;

同时只能有一个 kube-scheduler、kube-controller-manager 进程处于工作状态,如果运行多个,则需要通过选举产生一个 leader;

本文档介绍部署单机 kubernetes master 节点的步骤,没有实现高可用 master 集群。

计划后续再介绍部署 LB 的步骤,客户端 (kubectl、kubelet、kube-proxy) 使用 LB 的 VIP 来访问 kube-apiserver,从而实现高可用 master 集群。

master 节点与 node 节点上的 Pods 通过 Pod 网络通信,所以需要在 master 节点上部署 Flannel 网络。

6.1 准备软件包(科学上网)

点此链接:https://github.com/kubernetes/kubernetes/blob/master/CHANGELOG-1.17.md

解压后将 kube-apiserver,kube-controller-manager,kube-scheduler,kubctl 拷贝到 master 节点的 /data/kubernetes/bin 目录下。

tar xf kubernetes-server-linux-amd64.tar.gz
cp kube-scheduler kube-apiserver kube-controller-manager kubectl /data/kubernetes/bin/

6.2 配置 kubernetes 相关证书

6.2.1 创建生成 CSR 的 JSON 配置文件

把 k8s 集群中的所有节点都加进去了

[root@master ssl]# cat  kubernetes-csr.json 
{
  "CN": "kubernetes",
  "hosts": [
    "127.0.0.1",
    "10.0.0.99",
    "10.0.0.111",
    "10.0.0.11",
    "10.0.0.163",
    "10.0.0.202",
    "10.0.0.197",
    "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"
    }
  ]
}

6.2.2 生成 Kubernetes 的证书和私钥

cfssl gencert -ca=/data/kubernetes/ssl/ca.pem \
   -ca-key=/data/kubernetes/ssl/ca-key.pem \
   -config=/data/kubernetes/ssl/ca-config.json \
   -profile=kubernetes kubernetes-csr.json | cfssljson -bare kubernetes
  • 分发证书到集群所有节点
scp kubernetes*.pem node1:/data/kubernetes/ssl/

6.2.3 部署 kube-apiserver 组件

  • apiserver 提供集群管理的 REST API 接口,包括认证授权、数据校验以及集群状态变更等。
  • 只有 API Server 才能直接操作 etcd;
  • 其他模块通过 API Server 查询或修改数据
  • 提供其他模块之间的数据交互和通信枢纽

创建 TLS Bootstrapping Token

[root@master ssl]# head -c 16 /dev/urandom | od -An -t x | tr -d ' '
7b54ba2ddce122d1784ac6a243be7fde

创建 apiserver 配置文件
第一列:随机字符串,自己可生成
第二列:用户名
第三列:UID
第四列:用户组

[root@master ssl]# cat bootstrap-token.csv  
7b54ba2ddce122d1784ac6a243be7fde,kubelet-bootstrap,10001,"system:kubelet-bootstrap"

创建基础用户名和密码认证配置

[root@master ssl]# cat basic-auth.csv 
admin,admin,1
readonly,readonly,2

分发配置文件到 node

scp /data/kubernetes/ssl/bootstrap-token.csv basic-auth.csv node1:/data/kubernetes/ssl/

6.2.4 创建 kube-apiserver 系统配置文件

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

[Service]
ExecStart=/data/kubernetes/bin/kube-apiserver \
  --admission-control=NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,ResourceQuota,NodeRestriction \
  --bind-address=0.0.0.0 \
  --insecure-bind-address=0.0.0.0 \
  --authorization-mode=Node,RBAC \
  --runtime-config=rbac.authorization.k8s.io/v1 \
  --kubelet-https=true \
  --anonymous-auth=false \
  --basic-auth-file=/data/kubernetes/ssl/basic-auth.csv \
  --enable-bootstrap-token-auth \
  --token-auth-file=/data/kubernetes/ssl/bootstrap-token.csv \
  --service-cluster-ip-range=10.1.0.0/16 \
  --service-node-port-range=20000-40000 \
  --tls-cert-file=/data/kubernetes/ssl/kubernetes.pem \
  --tls-private-key-file=/data/kubernetes/ssl/kubernetes-key.pem \
  --client-ca-file=/data/kubernetes/ssl/ca.pem \
  --service-account-key-file=/data/kubernetes/ssl/ca-key.pem \
  --etcd-cafile=/data/kubernetes/ssl/ca.pem \
  --etcd-certfile=/data/kubernetes/ssl/kubernetes.pem \
  --etcd-keyfile=/data/kubernetes/ssl/kubernetes-key.pem \
  --etcd-servers=https://10.0.0.99:2379,https://10.0.0.111:2379,https://10.0.0.11:2379 \
  --enable-swagger-ui=true \
  --allow-privileged=true \
  --audit-log-maxage=30 \
  --audit-log-maxbackup=3 \
  --audit-log-maxsize=100 \
  --audit-log-path=/data/kubernetes/log/api-audit.log \
  --event-ttl=1h \
  --v=2 \
  --logtostderr=false \
  --log-dir=/data/kubernetes/log
Restart=on-failure
RestartSec=5
Type=notify
LimitNOFILE=65536

[Install]
WantedBy=multi-user.target

配置好前面生成的证书,确保能连接 etcd。

参数说明:

–logtostderr 启用日志
—v 日志等级
–etcd-servers etcd 集群地址
–bind-address 监听地址
–secure-port https 安全端口
–advertise-address 集群通告地址
–allow-privileged 启用授权
–service-cluster-ip-range Service 虚拟 IP 地址段
–enable-admission-plugins 准入控制模块
–authorization-mode 认证授权,启用 RBAC 授权和节点自管理
–enable-bootstrap-token-auth 启用 TLS bootstrap 功能
–token-auth-file token 文件
–service-node-port-range Service Node 类型默认分配端口范围

6.2.5 启动 apiserver

systemctl daemon-reload
systemctl enable kube-apiserver
systemctl start kube-apiserver
systemctl status kube-apiserver
[root@master ssl]# ps -aux | grep kube-apiserver
root     25785  3.5  8.4 549756 326552 ?       Ssl  21:47   0:22 /data/kubernetes/bin/kube-apiserver --admission-control=NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,ResourceQuota,NodeRestriction --bind-address=0.0.0.0 --insecure-bind-address=0.0.0.0 --authorization-mode=Node,RBAC --runtime-config=rbac.authorization.k8s.io/v1 --kubelet-https=true --anonymous-auth=false --basic-auth-file=/data/kubernetes/ssl/basic-auth.csv --enable-bootstrap-token-auth --token-auth-file=/data/kubernetes/ssl/bootstrap-token.csv --service-cluster-ip-range=10.1.0.0/16 --service-node-port-range=20000-40000 --tls-cert-file=/data/kubernetes/ssl/kubernetes.pem --tls-private-key-file=/data/kubernetes/ssl/kubernetes-key.pem --client-ca-file=/data/kubernetes/ssl/ca.pem --service-account-key-file=/data/kubernetes/ssl/ca-key.pem --etcd-cafile=/data/kubernetes/ssl/ca.pem --etcd-certfile=/data/kubernetes/ssl/kubernetes.pem --etcd-keyfile=/data/kubernetes/ssl/kubernetes-key.pem --etcd-servers=https://10.0.0.99:2379,https://10.0.0.111:2379,https://10.0.0.11:2379 --enable-swagger-ui=true --allow-privileged=true --audit-log-maxage=30 --audit-log-maxbackup=3 --audit-log-maxsize=100 --audit-log-path=/data/kubernetes/log/api-audit.log --event-ttl=1h --v=2 --logtostderr=false --log-dir=/data/kubernetes/log
root     26557  0.0  0.0 112712   964 pts/0    S+   21:58   0:00 grep --color=auto kube-apiserver

image.png

[root@master ~]# netstat -tulnp | grep kube-apiserve
tcp6       0      0 :::6443                 :::*                    LISTEN      18024/kube-apiserve 
tcp6       0      0 :::8080                 :::*                    LISTEN      18024/kube-apiserve

从监听端口可以看到 api-server 监听在 6443 端口,同时也监听了本地的 8080 端口,是提供 kube-schduler 和 kube-controller 使用。

6.3 准备 kube-scheduler 的服务配置文件

  • scheduler 负责分配调度 Pod 到集群内的 node 节点
  • 监听 kube-apiserver,查询还未分配的 Node 的 Pod
  • 根据调度策略为这些 Pod 分配节点
cat /usr/lib/systemd/system/kube-scheduler.service
[Unit]
Description=Kubernetes Scheduler
Documentation=https://github.com/GoogleCloudPlatform/kubernetes

[Service]
ExecStart=/data/kubernetes/bin/kube-scheduler \
  --address=0.0.0.0 \
  --master=http://10.0.0.202:8080 \
  --leader-elect=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/data/kubernetes/log

Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target

启动 kube-scheduler

[root@master ~]# systemctl daemon-reload 
[root@master ~]# systemctl enable kube-scheduler
[root@master ~]# systemctl start  kube-scheduler 
[root@master ~]# systemctl status  kube-scheduler 
[root@master ~]# ps -aux | grep kube-scheduler
root     27465  0.4  0.5 147088 22024 ?        Ssl  22:10   0:01 /data/kubernetes/bin/kube-scheduler --address=0.0.0.0 --master=http://10.0.0.202:8080 --leader-elect=true --v=2 --logtostderr=false --log-dir=/data/kubernetes/log
root     27829  0.0  0.0 112712   964 pts/0    S+   22:14   0:00 grep --color=auto kube-scheduler
[root@master ~]# netstat -tulnp |grep kube-sched
tcp6       0      0 :::10251                :::*                    LISTEN      18081/kube-schedule 
tcp6       0      0 :::10259                :::*                    LISTEN      18081/kube-schedule

从 kube-scheduler 的监听端口上,同样可以看到监听在本地的 10251 端口上,外部无法直接访问,同样是需要通过 api-server 进行访问。

6.4 部署 kube-controller-manager

  • controller-manager 由一系列的控制器组成,它通过 apiserver 监控整个集群的状态,并确保集群处于预期的工作状态。

6.4.1 创建 kube-controller-manager 配置文件

cat /usr/lib/systemd/system/kube-controller-manager.service
[Unit]
Description=Kubernetes Controller Manager
Documentation=https://github.com/GoogleCloudPlatform/kubernetes

[Service]
ExecStart=/data/kubernetes/bin/kube-controller-manager \
  --address=0.0.0.0 \
  --master=http://10.0.0.202:8080 \
  --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=/data/kubernetes/ssl/ca.pem \
  --cluster-signing-key-file=/data/kubernetes/ssl/ca-key.pem \
  --service-account-private-key-file=/data/kubernetes/ssl/ca-key.pem \
  --root-ca-file=/data/kubernetes/ssl/ca.pem \
  --leader-elect=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/data/kubernetes/log

Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target

启动 kube-controller-manager

[root@master ~]# systemctl daemon-reload
[root@master ~]# systemctl enable kube-controller-manager 
[root@master ~]# systemctl start  kube-controller-manager 
[root@master ~]# systemctl status  kube-controller-manager 
[root@master ~]# ps -aux | grep kube-controller-manager
root     28587  3.6  1.3 221388 51892 ?        Ssl  22:24   0:02 /data/kubernetes/bin/kube-controller-manager --address=0.0.0.0 --master=http://10.0.0.202:8080 --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=/data/kubernetes/ssl/ca.pem --cluster-signing-key-file=/data/kubernetes/ssl/ca-key.pem --service-account-private-key-file=/data/kubernetes/ssl/ca-key.pem --root-ca-file=/data/kubernetes/ssl/ca.pem --leader-elect=true --v=2 --logtostderr=false --log-dir=/data/kubernetes/log
root     28675  0.0  0.0 112712   968 pts/0    S+   22:25   0:00 grep --color=auto kube-controller-manager
[root@master ~]# netstat -tulnp | grep kube-control
tcp6       0      0 :::10252                :::*                    LISTEN      18137/kube-controll 
tcp6       0      0 :::10257                :::*                    LISTEN      18137/kube-controll

从监听端口上,可以看到 kube-controller 监听在本地的 10252 端口,外部是无法直接访问 kube-controller,需要通过 api-server 才能进行访问。

6.5 部署 kubectl 服务

kubectl 用于日常直接管理 K8S 集群,那么 kubectl 要进行管理 k8s,就需要和 k8s 的组件进行通信,也就需要用到证书。此时 kubectl 需要单独部署,也是因为 kubectl 也是需要用到证书,而前面的 kube-apiserver、kube-controller、kube-scheduler 都是不需要用到证书,可以直接通过服务进行启动。

首先准备好 kubectl 的二进制文件分发到所有的 master 节点,然后创建 admin 的证书签名请求

[root@master ssl]# cat admin-csr.json 
{
  "CN": "admin",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
   },
  "names": [
     {
       "C": "CN",
       "ST": "BeiJing",
       "L": "BeiJing",
       "O": "system:masters",
       "OU": "System"
      }
  ]
}
  • 生成 admin 的证书和密钥
cfssl gencert -ca=/data/kubernetes/ssl/ca.pem \
   -ca-key=/data/kubernetes/ssl/ca-key.pem \
   -config=/data/kubernetes/ssl/ca-config.json \
   -profile=kubernetes admin-csr.json | cfssljson -bare admin
  • 设置集群参数,注意 master 的 ip 为 vip,证书以嵌入的形式生成 config 文件。
kubectl config set-cluster kubernetes \
   --certificate-authority=/data/kubernetes/ssl/ca.pem \
   --embed-certs=true \
   --server=https://10.0.0.202:6443
  • 设置客户端认证参数
kubectl config set-credentials admin \
   --client-certificate=/data/kubernetes/ssl/admin.pem \
   --embed-certs=true \
   --client-key=/data/kubernetes/ssl/admin-key.pem
  • 设置上下文参数
kubectl config set-context kubernetes \
   --cluster=kubernetes \
   --user=admin
  • 设置默认上下文
kubectl config use-context kubernetes
  • 查看当前 config
[root@master ssl]# kubectl config view
apiVersion: v1
clusters:
- cluster:
    certificate-authority-data: DATA+OMITTED
    server: https://10.0.0.202:6443
  name: kubernetes
contexts:
- context:
    cluster: kubernetes
    user: admin
  name: kubernetes
current-context: kubernetes
kind: Config
preferences: {}
users:
- name: admin
  user:
    client-certificate-data: REDACTED
    client-key-data: REDACTED
  • 上面过程的配置是为了在家目录下生成 config 文件,之后 kubectl 和 API 通信就需要用到该文件,这也就是说如果在其他节点上需要用到这个 kubectl,就需要将该文件拷贝到其他节点。
[root@master ~]# cat .kube/config
apiVersion: v1
clusters:
- cluster:
    certificate-authority-data: LS0tLS1CRUdJTiBDRVJUSUZJQ0FURS0tLS0tCk1JSU
...
  • 使用 kubectl 工具
[root@master ssl]#  kubectl get cs
NAME                 AGE
controller-manager   <unknown>
scheduler            <unknown>
etcd-1               <unknown>
etcd-2               <unknown>
etcd-0               <unknown>

看过前辈的搭建过程,这里显示和之前的版本不一样,我查询相关资料找到你,这里有解释。总体来说这个打印结果不影响使用。1.17.0 后面的版本会解决。

七、node 节点部署

kubernetes node 节点运行如下组件:
docker
kubelet
kube-proxy
准备 node 节点二进制包,将 kubelet,kube-proxy 分发到所有 node 节点的/alidata/kubernetes/bin 下。

7.1 部署 kubelet 组件

认证大致工作流程如图所示:
20181204110257402.png

kublet 运行在每个 node 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;
分发启动文件到 node 节点:

scp kube-proxy kubelet node1:/data/kubernetes/bin/
scp kube-proxy kubelet node2:/data/kubernetes/bin/
  • 创建角色绑定
kubectl create clusterrolebinding kubelet-bootstrap --clusterrole=system:node-bootstrapper --user=kubelet-bootstrap
  • 创建 kubelet bootstrapping kubeconfig 文件 设置集群参数
kubectl config set-cluster kubernetes \
   --certificate-authority=/data/kubernetes/ssl/ca.pem \
   --embed-certs=true \
   --server=https://10.0.0.202:6443 \
   --kubeconfig=bootstrap.kubeconfig
  • 设置客户端认证参数

注意这 token 是 kube-apiserver 使用的客户端 token 文件中的 token,填写在这里。

kubectl config set-credentials kubelet-bootstrap \
   --token=7b54ba2ddce122d1784ac6a243be7fde  \
   --kubeconfig=bootstrap.kubeconfig
  • 设置上下文参数
kubectl config set-context default \
   --cluster=kubernetes \
   --user=kubelet-bootstrap \
   --kubeconfig=bootstrap.kubeconfig
  • 选择默认上下文
kubectl config use-context default --kubeconfig=bootstrap.kubeconfig
  • 其实做了上面这么一堆操作,结果就是生成了一个 bootstarp.kubeconfig 文件,我们需要将这个 kubeconfig 文件分发到其他节点, kubectl 命令生成文件以后把这个文件分发就可以。
cp bootstrap.kubeconfig /data/kubernetes/cfg/
scp bootstrap.kubeconfig node1:/data/kubernetes/cfg/
scp bootstrap.kubeconfig node2:/data/kubernetes/cfg/

7.1.1 设置 CNI 支持

mkdir -p /etc/cni/net.d
cat /etc/cni/net.d/10-default.conf
{
  "name": "flannel",
  "type": "flannel",
  "delegate": {
    "bridge": "docker0",
    "isDefaultGateway": true,
    "mtu": 1400
    }
}
  • 创建 kubelet 目录
mkdir /var/lib/kubelet
[root@node1 ~]# cat  /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=/data/kubernetes/bin/kubelet \
  --address=10.0.0.197 \
  --hostname-override=10.0.0.197 \
  --pod-infra-container-image=mirrorgooglecontainers/pause-amd64:3.0 \
  --experimental-bootstrap-kubeconfig=/data/kubernetes/cfg/bootstrap.kubeconfig \
  --kubeconfig=/data/kubernetes/cfg/kubelet.kubeconfig \
  --cert-dir=/data/kubernetes/ssl \
  --network-plugin=cni \
  --cni-conf-dir=/etc/cni/net.d \
  --cni-bin-dir=/data/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=/data/kubernetes/log
Restart=on-failure
RestartSec=5

7.1.2 报错排查

[root@node1 ~]# systemctl daemon-reload
[root@node1 ~]# systemctl start kubelet 
[root@node1 ~]# systemctl status kubelet

此时 kubelet 启动失败报错:

[root@node1 ~]#  systemctl status kubelet -l
● kubelet.service - Kubernetes Kubelet
   Loaded: loaded (/usr/lib/systemd/system/kubelet.service; static; vendor preset: disabled)
   Active: activating (auto-restart) (Result: exit-code) since Fri 2020-01-10 15:34:37 CST; 651ms ago
     Docs: https://github.com/GoogleCloudPlatform/kubernetes
  Process: 31057 ExecStart=/data/kubernetes/bin/kubelet --address=10.0.0.197 --hostname-override=10.0.0.197 --pod-infra-container-im=/data/kubernetes/cfg/bootstrap.kubeconfig --kubeconfig=/data/kubernetes/cfg/kubelet.kubeconfig --cert-dir=/data/kubernetes/ssl --nebin/cni --cluster-dns=10.1.0.2 --cluster-domain=cluster.local. --hairpin-mode hairpin-veth --allow-privileged=true --fail-swap-on=fag (code=exited, status=255)
 Main PID: 31057 (code=exited, status=255)

Jan 10 15:34:37 node1 kubelet[31057]: --tls-cipher-suites strings                                                                   , the default Go cipher suites will be used. Possible values: TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA,TLS_ECDHE_ECDSA_WITH_AES_128_CBC_C_SHA,TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_RC4_128_SHA,TLS_ECDHE_RSA_S_128_CBC_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA,TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,TLS_DES_EDE_CBC_SHA,TLS_RSA_WITH_AES_128_CBC_SHA,TLS_RSA_WITH_AES_128_CBC_SHA256,TLS_RSA_WITH_AES_128_GCM_SHA256,TLS_RSA_WITH_AES_256_CBis parameter should be set via the config file specified by the Kubelet's --config flag. See https://kubernetes.io/docs/tasks/admini
Jan 10 15:34:37 node1 kubelet[31057]: --tls-min-version string                                                                      rsionTLS11, VersionTLS12, VersionTLS13 (DEPRECATED: This parameter should be set via the config file specified by the Kubelet's --cofig-file/ for more information.)
Jan 10 15:34:37 node1 kubelet[31057]: --tls-private-key-file string                                                                 ECATED: This parameter should be set via the config file specified by the Kubelet's --config flag. See https://kubernetes.io/docs/ta
Jan 10 15:34:37 node1 kubelet[31057]: --topology-manager-policy string                                                              ffort', 'restricted', 'single-numa-node'. (default "none") (DEPRECATED: This parameter should be set via the config file specified b-cluster/kubelet-config-file/ for more information.)
Jan 10 15:34:37 node1 kubelet[31057]: -v, --v Level                                                                                 
Jan 10 15:34:37 node1 kubelet[31057]: --version version[=true]                                                                      
Jan 10 15:34:37 node1 kubelet[31057]: --vmodule moduleSpec                                                                          ging
Jan 10 15:34:37 node1 kubelet[31057]: --volume-plugin-dir string                                                                     third party volume plugins (default "/usr/libexec/kubernetes/kubelet-plugins/volume/exec/")
Jan 10 15:34:37 node1 kubelet[31057]: --volume-stats-agg-period duration                                                             disk usage for all pods and volumes.  To disable volume calculations, set to 0. (default 1m0s) (DEPRECATED: This parameter should b//kubernetes.io/docs/tasks/administer-cluster/kubelet-config-file/ for more information.)
Jan 10 15:34:37 node1 kubelet[31057]: F0110 15:34:37.575781   31057 server.go:154] unknown flag: --allow-privileged
  • 解决方法:
[root@node1 ~]# 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=/data/kubernetes/bin/kubelet \
  --address=10.0.0.197 \
  --hostname-override=10.0.0.197 \
  --pod-infra-container-image=mirrorgooglecontainers/pause-amd64:3.0 \
  --experimental-bootstrap-kubeconfig=/data/kubernetes/cfg/bootstrap.kubeconfig \
  --kubeconfig=/data/kubernetes/cfg/kubelet.kubeconfig \
  --cert-dir=/data/kubernetes/ssl \
  --network-plugin=cni \
  --cni-conf-dir=/etc/cni/net.d \
  --cni-bin-dir=/data/kubernetes/bin/cni \
  --cluster-dns=10.1.0.2 \
  --cluster-domain=cluster.local. \
  --hairpin-mode hairpin-veth \
  --fail-swap-on=false \
  --logtostderr=true \
  --v=2 \
  --logtostderr=false \
  --log-dir=/data/kubernetes/log
Restart=on-failure
RestartSec=5

把参数:--allow-privileged=true \ 删除即可

参考:
https://github.com/wk8/SDN/commit/8db8f06cd5ccdc91eb74ce1d00041597881cd0c1
Issue #379 · microsoft/SDN
http://www.mamicode.com/info-detail-2738983.html

image.png

  • 重新加载系统,重新启动 kubelet
[root@node2 ~]# systemctl daemon-reload && systemctl start kubelet && systemctl status kubelet

kubelet 启动参数参考:
https://my.oschina.net/u/3797264/blog/2222877

7.1.3 查看 CSR 请求

[root@master ssl]# kubectl get csr
NAME                                                   AGE   REQUESTOR           CONDITION
node-csr-Sfja1KrymePmfnaQJ9Nh3ZQuL07i9F_2IVoevDOTXm4   15s   kubelet-bootstrap   Pending
node-csr-Tje055FJKPKKgubNuHL5MSEhyrU-RZ1e0pfXVxSz-dw   13s   kubelet-bootstrap   Pending

7.1.3.1 批准 kubelet 的 TLS 证书请求

[root@master ssl]# kubectl get csr | grep 'Pend' | awk 'NR>0{print $1}'
node-csr-Sfja1KrymePmfnaQJ9Nh3ZQuL07i9F_2IVoevDOTXm4
node-csr-Tje055FJKPKKgubNuHL5MSEhyrU-RZ1e0pfXVxSz-dw
[root@master ssl]# kubectl get csr | grep 'Pend' | awk 'NR>0{print $1}' | xargs kubectl certificate approve
certificatesigningrequest.certificates.k8s.io/node-csr-Sfja1KrymePmfnaQJ9Nh3ZQuL07i9F_2IVoevDOTXm4 approved
certificatesigningrequest.certificates.k8s.io/node-csr-Tje055FJKPKKgubNuHL5MSEhyrU-RZ1e0pfXVxSz-dw approved
[root@master ssl]# kubectl get csr
NAME                                                   AGE    REQUESTOR           CONDITION
node-csr-Sfja1KrymePmfnaQJ9Nh3ZQuL07i9F_2IVoevDOTXm4   4m9s   kubelet-bootstrap   Approved,Issued
node-csr-Tje055FJKPKKgubNuHL5MSEhyrU-RZ1e0pfXVxSz-dw   4m7s   kubelet-bootstrap   Approved,Issued

7.1.3.2 kubectl get csr 显示 No Resources Found 的解决记录

    1. kubelet 使用的 bootstrap.kubeconfig 文件中 User 是否是 kubelet-boostrap ,是否包含 token
    1. token 是否位于 kube-apiserver 使用的 token.csv 文件中;

7.1.3.3 查看节点状态

[root@master ~]# kubectl get node 
NAME         STATUS     ROLES    AGE   VERSION
10.0.0.163   NotReady   <none>   63m   v1.17.0
10.0.0.197   NotReady   <none>   63m   v1.17.0

现在状态不对,找原因没找到
但是通过

[root@master ~]# kubectl describe node 10.0.0.163
....
Conditions:
Type             Status  LastHeartbeatTime                 LastTransitionTime                Reason                       Message
  ----             ------  -----------------                 ------------------                ------                       -------
  MemoryPressure   False   Tue, 14 Jan 2020 04:01:04 -0500   Tue, 14 Jan 2020 02:31:35 -0500   KubeletHasSufficientMemory   kubelet has sufficient memory available
  DiskPressure     False   Tue, 14 Jan 2020 04:01:04 -0500   Tue, 14 Jan 2020 02:31:35 -0500   KubeletHasNoDiskPressure     kubelet has no disk pressure
  PIDPressure      False   Tue, 14 Jan 2020 04:01:04 -0500   Tue, 14 Jan 2020 02:31:35 -0500   KubeletHasSufficientPID      kubelet has sufficient PID available
  Ready            False   Tue, 14 Jan 2020 04:01:04 -0500   Tue, 14 Jan 2020 02:31:35 -0500   KubeletNotReady              runtime network not ready: NetworkReady=false reason:NetworkPluginNotReady message:docker: network plugin is not ready: cni config uninitialized
...

查出是因为 CNI 插件没有初始化,但是我不知道用什么办法可以让 CNI 可以正常运行起来。
但是,我找到一个见不得人的方法:把 kubelet 启动文件中的 CNI 插件配置 --network-plugin=cni 删除,然后 node 节点注册成功。
?

[root@master ~]# kubectl get node 
NAME         STATUS   ROLES    AGE    VERSION
10.0.0.163   Ready    <none>   117m   v1.17.0
10.0.0.197   Ready    <none>   117m   v1.17.0

这里卡住了,我从 v1.16.4 安装到现在的 v1.17.0 又是这里……

7.2 kube-proxy 部署

kube-proxy 同样还是只部署在 node 节点上,在之前的操作中,已经将 kube-proxy 的二进制文件分发到 node 节点。

7.2.1 开始准备证书的 JSON 文件。

{
  "CN": "system:kube-proxy",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
    },
  "names": [
     {
       "C": "CN",
       "ST": "BeiJing",
       "L": "BeiJing",
       "O": "k8s",
       "OU": "System"
     }
  ]
}

7.2.2 生成证书

cfssl gencert -ca=/data/kubernetes/ssl/ca.pem \
   -ca-key=/data/kubernetes/ssl/ca-key.pem \
   -config=/data/kubernetes/ssl/ca-config.json \
   -profile=kubernetes  kube-proxy-csr.json | cfssljson -bare kube-proxy

7.2.3 分发证书到所有的(Node)节点

[root@master ssl]# scp kube-proxy*.pem node1:/data/kubernetes/ssl/ 
[root@master ssl]# scp kube-proxy*.pem node2:/data/kubernetes/ssl/

7.2.4 创建 kube-proxy 的配置文件(master 节点)

kubectl config set-cluster kubernetes \
   --certificate-authority=/data/kubernetes/ssl/ca.pem \
   --embed-certs=true \
   --server=https://10.0.0.202:6443 \
   --kubeconfig=kube-proxy.kubeconfig
kubectl config set-credentials kube-proxy \
   --client-certificate=/data/kubernetes/ssl/kube-proxy.pem \
   --client-key=/data/kubernetes/ssl/kube-proxy-key.pem \
   --embed-certs=true \
   --kubeconfig=kube-proxy.kubeconfig
kubectl config set-context default \
   --cluster=kubernetes \
   --user=kube-proxy \
   --kubeconfig=kube-proxy.kubeconfig
kubectl config use-context default --kubeconfig=kube-proxy.kubeconfig

和 kubelet 一样,上面的操作同样是生成了一个 kube-proxy 的 kubeconfig 文件,把这个 kube-config 文件分发到所有的 node 节点

scp kube-proxy.kubeconfig node1:/data/kubernetes/cfg/
scp kube-proxy.kubeconfig node2:/data/kubernetes/cfg/

7.2.5 创建系统服务配置

[root@node2 ~]# cat !$
cat /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=/data/kubernetes/bin/kube-proxy \
  --bind-address=10.0.0.163 \
  --hostname-override=10.0.0.163 \
  --kubeconfig=/data/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=/data/kubernetes/log
            
Restart=on-failure
RestartSec=5
LimitNOFILE=65536

[Install]
WantedBy=multi-user.target

7.2.6 安装依赖并启动

yum install -y ipvsadm ipset conntrack
systemctl daemon-reload
systemctl enable kube-proxy
systemctl start kube-proxy
systemctl status kube-proxy

7.2.7 在 node 节点检查 kube-proxy 的服务状态

ipvsadm -L -n

八、创建 K8S nginx 应用

8.1 创建 pod

  • 把 master 设置成为私有仓库

为 kubelet 添加一个额外的参数 // 这样 kubelet 就不会在启动 pod 的时候去墙外的 k8s 仓库拉取 pause-amd64:3.0 镜像了

--pod-infra-container-image=10.0.0.202:5000/mirrorgooglecontainers/pause-amd64:3.0 \

配置 docker 本地仓库

[root@master ~]# cat /etc/sysconfig/docker 
OPTIONS='--selinux-enabled --log-driver=journald --signature-verification=false --registry-mirror=https://vtbf99sa.mirror.aliyuncs.com --insecure-registry=10.0.0.202:5000'
[root@master ~]# cat /etc/docker/daemon.json 
{
"registry-mirrors": ["https://vtbf99sa.mirror.aliyuncs.com"],
"insecure-registries": ["10.0.0.202:5000"]
}
[root@master ~]# docker run -d -p 5000:5000 --restart=always --name registry -v /opt/myregistry:/var/lib/registry  registry
  • 创建 YAML 文件
[root@master pod]# cat k8s_pod.yaml 
apiVersion: v1
kind: Pod
metadata:
  name: nginx
  labels:
    app: web
spec:
  containers:
    - name: nginx
      image: 10.0.0.202:5000/nginx:latest
      ports:
        - containerPort: 80
  • 创建 pod
[root@master pod]# kubectl create -f k8s_pod.yaml
[root@master pod]# kubectl get pod
NAME    READY   STATUS              RESTARTS   AGE
nginx   0/1     ContainerCreating   0          8s
[root@master pod]# kubectl describe  pod nginx
...
Events:
  Type     Reason                  Age                  From                 Message
  ----     ------                  ----                 ----                 -------
  Normal   Scheduled               <unknown>            default-scheduler    Successfully assigned default/nginx to 10.0.0.163
  Warning  FailedCreatePodSandBox  12s (x4 over 8m34s)  kubelet, 10.0.0.163  Failed to create pod sandbox: rpc error: code = Unknown desc = failed pulling image "mirrorgooglecontainers/pause-amd64:3.0": context canceled
...

以上报错解决(nginx 需要提前上传到私有镜像仓库):

[root@master ~]# docker pull pupudaye/pause-amd64
[root@master ~]# docker tag pupudaye/pause-amd64 10.0.0.202:5000/mirrorgooglecontainers/pause-amd64:3.0
[root@master pod]# docker images
REPOSITORY                                           TAG                 IMAGE ID            CREATED             SIZE
10.0.0.202:5000/nginx                                latest              c7460dfcab50        5 days ago          126MB
nginx                                                latest              c7460dfcab50        5 days ago          126MB
registry                                             latest              f32a97de94e1        10 months ago       25.8MB
pupudaye/pause-amd64                                 latest              a9e33c9ff5e5        2 years ago         747kB
10.0.0.202:5000/mirrorgooglecontainers/pause-amd64   3.0                 a9e33c9ff5e5        2 years ago         747kB
[root@master pod]# kubectl get pod
NAME    READY   STATUS    RESTARTS   AGE
nginx   1/1     Running   0          3h21m

8.3 以 Deployment YAML 方式创建 Nginx 服务

[root@master deploy]# cat  k8s_deploy.yaml 
apiVersion: apps/v1
kind: Deployment
metadata:
  name: nginx-deployment
  labels:
    app: nginx
spec:
  replicas: 3
  selector:
    matchLabels:
      app: nginx
  template:
    metadata:
      labels:
        app: nginx
    spec:
      containers:
      - name: nginx
        image: 10.0.0.202:5000/nginx:1.14.2
        ports:
        - containerPort: 80
        resources:
          limits:
            cpu: 100m
          requests:
            cpu: 100m

① apiVersion 是当前配置格式的版本。
先执行 kubectl api-resources 找到所有的资源  
再执行命令 kubectl explain deploy 即可获取到版本和类型信息
image.png
② kind 是要创建的资源类型,这里是 Deployment。
③ metadata 是该资源的元数据,name 是必需的元数据项。
④ spec 部分是该 Deployment 的规格说明。
⑤ replicas 指明副本数量,默认为 1。
⑥ template 定义 Pod 的模板,这是配置文件的重要部分。
⑦ metadata 定义 Pod 的元数据,至少要定义一个 label。label 的 key 和 value 可以任意指定。
⑧ spec 描述 Pod 的规格,此部分定义 Pod 中每一个容器的属性,name 和 image 是必需的。

[root@master deploy]# kubectl get deploy
NAME               READY   UP-TO-DATE   AVAILABLE   AGE
nginx-deployment   3/3     3            3           107s
  • 分配 nginx-deployment 配端口:
[root@master deploy]# kubectl expose deployment nginx-deployment --type=NodePort --port=80
service/nginx-deployment exposed
[root@master deploy]# kubectl get svc 
NAME               TYPE        CLUSTER-IP    EXTERNAL-IP   PORT(S)        AGE
kubernetes         ClusterIP   10.1.0.1      <none>        443/TCP        2d
myweb              NodePort    10.1.143.89   <none>        80:30000/TCP   3h40m
nginx-deployment   NodePort    10.1.248.23   <none>        80:28250/TCP   8s
  • 测试
[root@master deploy]# curl -I 10.0.0.197:28250
HTTP/1.1 200 OK
Server: nginx/1.14.2
Date: Thu, 16 Jan 2020 06:26:29 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 04 Dec 2018 14:44:49 GMT
Connection: keep-alive
ETag: "5c0692e1-264"
Accept-Ranges: bytes

8.3.1 升级以及回滚

8.3.1.1 升级

  • 更改 deployment 配置文件中镜像为最新
[root@master deploy]# kubectl edit deployment nginx-deployment 
deployment.apps/nginx-deployment edited
....
spec:
      containers:
      - image: 10.0.0.202:5000/nginx:latest
        imagePullPolicy: IfNotPresent
        name: nginx
....
[root@master deploy]# curl -I 10.0.0.197:28250
HTTP/1.1 200 OK
Server: nginx/1.17.7
Date: Thu, 16 Jan 2020 06:36:00 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 24 Dec 2019 13:07:53 GMT
Connection: keep-alive
ETag: "5e020da9-264"
Accept-Ranges: bytes

8.3.1.2 回滚

  • 第一种:指定回滚版本号:
[root@master deploy]# kubectl rollout history deployment nginx-deployment
deployment.apps/nginx-deployment 
REVISION  CHANGE-CAUSE
1         <none>
2         <none>
[root@master deploy]# kubectl rollout undo deployment nginx-deployment
deployment.apps/nginx-deployment rolled back
[root@master deploy]# kubectl rollout history deployment nginx-deployment
deployment.apps/nginx-deployment 
REVISION  CHANGE-CAUSE
2         <none>
3         <none>
[root@master deploy]# curl -I 10.0.0.197:28250
HTTP/1.1 200 OK
Server: nginx/1.14.2
Date: Thu, 16 Jan 2020 06:37:35 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 04 Dec 2018 14:44:49 GMT
Connection: keep-alive
ETag: "5c0692e1-264"
Accept-Ranges: bytes
root@master deploy]# kubectl rollout undo deployment nginx-deployment --to-revision=3
deployment.apps/nginx-deployment rolled back
  • 第二种:因为第一种版本号镜像版本没有详细版本,删除 deplotment 用命令行启动 deployment,再次查看会发现具体到相关镜像版本号等信息
[root@master ~]# kubectl delete deploy nginx 
deployment.apps "nginx" deleted
[root@master ~]# kubectl run nginx --image=10.0.0.202:5000/nginx:latest --replicas=3 --record
kubectl run --generator=deployment/apps.v1 is DEPRECATED and will be removed in a future version. Use kubectl run --generator=run-pod/v1 or kubectl create instead.
deployment.apps/nginx created
[root@master ~]# kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.16.1 --record
deployment.apps/nginx image updated
[root@master ~]# kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.14.2 --record
deployment.apps/nginx image updated
[root@master ~]#  kubectl rollout history deployment nginx
deployment.apps/nginx 
REVISION  CHANGE-CAUSE
1         kubectl run nginx --image=10.0.0.202:5000/nginx:latest --replicas=3 --record=true
2         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.16.1 --record=true
3         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.14.2 --record=true
[root@master ~]# kubectl expose deployment nginx --type=NodePort --port=80
service/nginx exposed
[root@master ~]# kubectl get svc -o wide
NAME         TYPE        CLUSTER-IP    EXTERNAL-IP   PORT(S)        AGE     SELECTOR
kubernetes   ClusterIP   10.1.0.1      <none>        443/TCP        2d2h    <none>
myweb        NodePort    10.1.143.89   <none>        80:30000/TCP   6h32m   app=myweb2
nginx        NodePort    10.1.246.22   <none>        80:38003/TCP   4s      run=nginx
[root@master ~]# curl -I 10.0.0.197:38003
HTTP/1.1 200 OK
Server: nginx/1.14.2
Date: Thu, 16 Jan 2020 09:17:28 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 04 Dec 2018 14:44:49 GMT
Connection: keep-alive
ETag: "5c0692e1-264"
Accept-Ranges: bytes

[root@master ~]#  kubectl rollout history deployment nginx
deployment.apps/nginx 
REVISION  CHANGE-CAUSE
1         kubectl run nginx --image=10.0.0.202:5000/nginx:latest --replicas=3 --record=true
2         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.16.1 --record=true
3         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.14.2 --record=true

[root@master ~]# kubectl rollout undo deployment nginx
deployment.apps/nginx rolled back
[root@master ~]# curl -I 10.0.0.197:38003
HTTP/1.1 200 OK
Server: nginx/1.16.1
Date: Thu, 16 Jan 2020 09:18:16 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 13 Aug 2019 10:05:00 GMT
Connection: keep-alive
ETag: "5d528b4c-264"
Accept-Ranges: bytes

[root@master ~]#  kubectl rollout history deployment nginx
deployment.apps/nginx 
REVISION  CHANGE-CAUSE
1         kubectl run nginx --image=10.0.0.202:5000/nginx:latest --replicas=3 --record=true
3         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.14.2 --record=true
4         kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.16.1 --record=true

[root@master ~]# kubectl rollout undo deployment nginx  --to-revision=1
deployment.apps/nginx rolled back
[root@master ~]# curl -I 10.0.0.197:38003
HTTP/1.1 200 OK
Server: nginx/1.17.7
Date: Thu, 16 Jan 2020 09:19:25 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 24 Dec 2019 13:07:53 GMT
Connection: keep-alive
ETag: "5e020da9-264"
Accept-Ranges: bytes

deployment 升级和回滚

  • 命令行创建 deployment
    kubectl run nginx --image=10.0.0.202:5000/nginx:1.14.2 --replicas=3 --record
  • 命令行升级版本
    kubectl set image deploy nginx nginx=10.0.0.202:5000/nginx:1.16.1 --record
  • 查看 deployment 所有历史版本
    kubectl rollout history deployment nginx
  • deployment 回滚到上一个版本
    kubectl rollout undo deployment nginx
  • deployment 回滚到指定版本
    kubectl rollout undo deployment nginx --to-revision=2
  • 给 deploy 指定端口,会出现新的 SVC 服务
    kubectl expose deployment nginx --type=NodePort --port=80
[root@master ~]# kubectl run nginx --image=10.0.0.202:5000/nginx:latest --replicas=3 --record
kubectl run --generator=deployment/apps.v1 is DEPRECATED and will be removed in a future version. Use kubectl run --generator=run-pod/v1 or kubectl create instead.
deployment.apps/nginx created

**kubectl run--generator=deployment/apps.v1 已弃用,将在将来的版本中删除。改用 kubectl run--generator=run pod/v1 或 kubectl create。**

九、创建 MySQL 服务

9.1 创建 MySQL 的 rc 以及 SVC 文件

RC 文件:

[root@master ~]# cat k8s/rc/k8s_mysql.yaml 
apiVersion: v1
kind: ReplicationController
metadata:
  name: mysql
spec:
  replicas: 1
  selector:
    app: mysql
  template:
    metadata:
      labels:
        app: mysql
    spec:
      containers:
      - name: mysql
        image: 10.0.0.202:5000/mysql:5.7
        ports:
        - containerPort: 3306
        env:
        - name: MYSQL_ROOT_PASSWORD
          value: '598941324'

svc 文件:

[root@master ~]# cat k8s/svc/k8s_mysql_svc.yaml 
apiVersion: v1
kind: Service
metadata:
  name: mysql
spec:
  type: NodePort  #ClusterIP
  ports:
    - port: 3306
      nodePort: 30006
      targetPort: 3306    #pod port
  selector:
    app: mysql

检查结果:

[root@node2 ~]# netstat -antup | grep 30006
tcp6       0      0 :::30006                :::*                    LISTEN      9501/kube-proxy

测试:

[root@master ~]# mysql -uroot -p598941324 -h192.168.50.175 -P30006
Welcome to the MariaDB monitor.  Commands end with ; or \g.
Your MySQL connection id is 5
Server version: 5.7.29 MySQL Community Server (GPL)

Copyright (c) 2000, 2018, Oracle, MariaDB Corporation Ab and others.

Type 'help;' or '\h' for help. Type '\c' to clear the current input statement.

MySQL [(none)]> show databases;
+--------------------+
| Database           |
+--------------------+
| information_schema |
| mysql              |
| performance_schema |
| sys                |
+--------------------+
4 rows in set (0.00 sec)

MySQL [(none)]>

其他操作

详见这里:比如 K8S 创建资源的几种方式、K8S 常见几种资源


标题:K8S二进制部署过程-v1.17.0
作者:cuijianzhe
地址:https://solo.cjzshilong.cn/articles/2019/12/24/1577178596028.html