Docker学习与实践 Ⅱ
四、仓库管理1.创建本地仓库
①获取官方registry镜像
# docker run -d -p 5000:5000 --restart=always --name registry registry:2
Unable to find image 'registry:2' locally
2: Pulling from library/registry
81033e7c1d6a: Pull complete
b235084c2315: Pull complete
c692f3a6894b: Pull complete
ba2177f3a70e: Pull complete
a8d793620947: Pull complete
Digest: sha256:672d519d7fd7bbc7a448d17956ebeefe225d5eb27509d8dc5ce67ecb4a0bce54
Status: Downloaded newer image for registry:2
f59d18d8302b6589d5e94f901c1161a48854593cc32ee3259c806bc648c437df
#默认情况下,仓库会被创建在容器的/var/lib/registry目录下,可以通过-v将镜像文件存放在宿主机的指定目录下。
docker run -d -p 5000:5000 --restart=always \
–v /opt/docker/registry/data:/var/lib/registry --name registry registry:2
②推送一个镜像到镜像仓库
# docker tag nginx:latest 192.168.10.131:5000/nginx:latest
# docker push 192.168.10.131:5000/nginx:latest
The push refers to repository
Get https://192.168.10.131:5000/v2/: http: server gave HTTP response to HTTPS client
#对于Centos7来说需要配置docker允许https的方式来访问仓库,并重启docker
# cat /etc/docker/daemon.json
{
"registry-mirrors": [
"https://registry.docker-cn.com"
],
"insecure-registries": [
"192.168.10.131:5000"
]
}
# systemctl restart docker.service
# docker push 192.168.10.131:5000/nginx:latest
The push refers to repository
e89b70d28795: Pushed
832a3ae4ac84: Pushed
014cf8bfcb2d: Pushed
latest: digest: sha256:600bff7fb36d7992512f8c07abd50aac08db8f17c94e3c83e47d53435a1a6f7c size: 948
# curl 192.168.10.131:5000/v2/_catalog
{"repositories":["nginx"]}
③删除本地镜像,从仓库重新下载该镜像
# docker image rm 192.168.10.131:5000/nginx:latest
# docker pull 192.168.10.131:5000/nginx:latest
latest: Pulling from nginx
8176e34d5d92: Pull complete
5b19c1bdd74b: Pull complete
4e9f6296fa34: Pull complete
Digest: sha256:600bff7fb36d7992512f8c07abd50aac08db8f17c94e3c83e47d53435a1a6f7c
Status: Downloaded newer image for 192.168.10.131:5000/nginx:latest
2.配置需要证书认证的私有仓库
①修改/etc/pki/tls/openssl.cnf文件使证书支持IP访问
[ v3_ca ]
subjectAltName = IP:192.168.10.131
②使用openssl生成证书和密钥
# mkdir -p certs
# openssl req \
> -newkey rsa:4096 -nodes -sha256 -keyout certs/domain.key \
> -x509 -days 365 -out certs/domain.crt
Generating a 4096 bit RSA private key
...........++
..............................................................................................++
writing new private key to 'certs/domain.key'
-----
You are about to be asked to enter information that will be incorporated
into your certificate request.
What you are about to enter is what is called a Distinguished Name or a DN.
There are quite a few fields but you can leave some blank
For some fields there will be a default value,
If you enter '.', the field will be left blank.
-----
Country Name (2 letter code) :CN
State or Province Name (full name) []:
Locality Name (eg, city) :
Organization Name (eg, company) :
Organizational Unit Name (eg, section) []:
Common Name (eg, your name or your server's hostname) []:192.168.10.131:5000
Email Address []:
③将刚生成的domain.crt复制到/etc/docker/certs.d/192.168.100.9:5000/ca.crt,并重启docker
# mkdir -p /etc/docker/certs.d/192.168.100.9:5000
# cp certs/domain.crt /etc/docker/certs.d/192.168.100.9:5000/ca.crt
# systemctl restart docker
④运行registry
# docker run -d -u root -p 5000:5000 \
> --name private_registry--restart=always \
> -v /opt/docker/registry/data:/var/lib/registry \
> -v /opt/docker/registry/certs:/certs \
> -e REGISTRY_HTTP_TLS_CERTIFICATE=/certs/domain.crt \
> -e REGISTRY_HTTP_TLS_KEY=/certs/domain.key \
> registry:2
9d145ea538fda7687734a2a170ff21524bc8fc65fee81b2a12c43ef3a43a576a
⑤push一个到registry上
# docker push 192.168.10.131:5000/nginx
The push refers to repository
e89b70d28795: Pushed
832a3ae4ac84: Pushed
014cf8bfcb2d: Pushed
latest: digest: sha256:600bff7fb36d7992512f8c07abd50aac08db8f17c94e3c83e47d53435a1a6f7c size: 948
⑥换台机器下载刚上传的镜像
# docker pull 192.168.10.131:5000/nginx
Using default tag: latest
Error response from daemon: Get https://192.168.10.131:5000/v2/: x509: certificate signed by unknown authority
#发现报错,原因是没有证书,将192.168.10.131上的证书拷贝到这台机器为/etc/docker/certs.d/192.168.10.131:5000/ca.crt,并重启docker
# docker pull 192.168.10.131:5000/nginx
Using default tag: latest
latest: Pulling from nginx
8176e34d5d92: Pull complete
5b19c1bdd74b: Pull complete
4e9f6296fa34: Pull complete
Digest: sha256:600bff7fb36d7992512f8c07abd50aac08db8f17c94e3c83e47d53435a1a6f7c
Status: Downloaded newer image for 192.168.10.131:5000/nginx:latest
五、数据管理
1.数据卷
①创建一个数据卷
# docker volume create v1
v1
# docker volume ls
DRIVER VOLUME NAME
local v1
②查看数据卷信息
# docker volume ls
DRIVER VOLUME NAME
local v1
# docker volume inspect v1
[
{
"CreatedAt": "2018-06-04T01:47:39-04:00",
"Driver": "local",
"Labels": {},
"Mountpoint": "/var/lib/docker/volumes/v1/_data",
"Name": "v1",
"Options": {},
"Scope": "local"
}
]
③挂载容器
# docker run -d -p 80:80 --name web --mount source=v1,target=/webapp nginx
3f315ab9ed576d5f0b72dc9e8c067331e0ef785a9577c2c3c6d2e74ec77e51fd
# docker exec -it web /bin/bash
root@3f315ab9ed57:/# cd /webapp/
root@3f315ab9ed57:/webapp# touch ss.txt
root@3f315ab9ed57:/webapp# exit
exit
# ls /var/lib/docker/volumes/v1/_data/
ss.txt
④查看容器信息
# docker inspect -f "{{.Mounts}}" web
[{volume v1 /var/lib/docker/volumes/v1/_data /webapp local z true }]
⑤删除数据卷
# docker volume rm v1
⑥挂载主机目录
# docker run -d -p 80:80 --name web --mount type=bind,source=/dockerdata,target=/webappnginx
67f90a8a2c6171bfbfce4c84606f0742adb7e283cdb45b488d47035b7f02871b
#挂载的主机目录默认权限是读写,也可以通过增加readonly来指定为只读
# docker run -d -p 81:80 --name web2 --mount type=bind,source=/dockerdata,target=/webapp,readonly nginx
ced71fc7a97d251bfea388768e3e45cafe3a12680282d820e032d9845c74a1bf
#加上readonly后在容器内/webapp目录新建文件就会报错
# docker exec -it web2 /bin/bash
root@ced71fc7a97d:/# cd webapp/
root@ced71fc7a97d:/webapp# touch ss
touch: cannot touch 'ss': Read-only file system
root@ced71fc7a97d:/webapp# exit
exit
2.数据卷容器
如果用户需要在容器之间共享一些持续更新的数据,可以采用数据卷容器,数据卷容器其实是一个普通的容器,专门用来提供数据卷供其它容器挂载。
①创建一个数据卷并挂载数据卷到web1
# docker volume create v1
v1
# docker run -dit --mount source=v1,target=/tmp/test --name web1 centos
237879201e1c8fedae870af923083625ab8d0fb2b375f66784e1da4179e068c7
# docker exec -it web1 ls -d /tmp/test
/tmp/test
②创建两个容器并从web1挂载数据卷
# docker run -dit --volumes-from web1 --name db1 centos
0b656f36fe24ce835b94d2c891645962e6545e3e18c70bbc6a3e24edbd45f153
# docker run -dit --volumes-from web1 --name db2 centos
4468244e0b8b7d6caa57801a2c98d1272c6fdb7d59e89ce704533b53fe969b70
# docker inspect -f "{{".Mounts"}}" db2
[{volume v1 /var/lib/docker/volumes/v1/_data /tmp/test localtrue }]
③分别在web1和db1中新建两个测试文件
# docker exec -it web1 touch /tmp/test/web1.txt
# docker exec -it db1 touch /tmp/test/db1.txt
#在db2和本地主机中查看
# docker exec -it db2 ls /tmp/test
db1.txtweb1.txt
# ls /var/lib/docker/volumes/v1/_data/
db1.txtweb1.txt
④使用db2作为db3的容器数据卷
# docker run -dit --volumes-from db2 --name db3 centos
7ccd5f862ce125121b2e216c3f312c1921a41df0214a327e957a15bd2041cf07
# docker exec -it db3 ls /tmp/test
db1.txtweb1.txt
⑤停止web1并查看关联容器的挂载文件
# docker stop web1
web1
# docker exec -it db3 ls /tmp/test
db1.txtweb1.txt
3.使用数据卷容器迁移数据
①创建数据卷并挂载
# docker volume create v2
v2
# docker run -it --mount source=v2,target=/backup --name datamove centos
# cd /backup/
# touch {a,b,c,d,ss}
# ls
abcdss
②数据卷的备份
# docker run --volumes-from datamove -v /dockerdata/:/back --name backup centos tar cvf /back/backup.tar /backup
tar: Removing leading `/' from member names
/backup/
/backup/a
/backup/b
/backup/c
/backup/d
/backup/ss
# ls /dockerdata/
backup.tar
③创建一个容器savedata还原数据卷
# docker run --volumes-from datamove -v /dockerdata/:/back --name savedata centos tar xvf /back/backup.tar
backup/
backup/a
backup/b
backup/c
backup/d
backup/ss
④创建一个容器挂载savedata
# docker run -dit --volumes-from savedata --name savetest centos
faa008b4f18360b0bed3619f740ccc6a326d7e718020347bdb3027750d48ef60
# docker exec -it savetest ls /backup
abcdss
六、网络配置
1.端口映射
①一对一映射
# docker run -dit -p 80:80 --name port1 centos
②多对多映射
# docker run -dit -p 8088:8088 -p 8080:8080 --name port2 centos
③随机映射一个端口
# docker run -dit -p :80 --name port3 centos
④映射UDP端口
# docker run -dit -p :80/udp --name port4 centos
⑤查看端口映射
# docker container ls
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
dbdbe92054f2 centos "/bin/bash" 7 minutes ago Up 7 minutes 0.0.0.0:32769->80/udp port4
3880ae523333 centos "/bin/bash" 7 minutes ago Up 7 minutes 0.0.0.0:32769->80/tcp port3
8293f668125f centos "/bin/bash" 7 minutes ago Up 7 minutes 0.0.0.0:8080->8080/tcp, 0.0.0.0:8088->8088/tcp port2
e01160b11472 centos "/bin/bash" 8 minutes ago Up 7 minutes 0.0.0.0:80->80/tcp port1
2.容器互联
①新建一个网络
# docker network create -d bridge my-net
cf09779c2aac2043c84b98a9728ed597c2dac7e8f67c8946b57dc4b9aa3f7cd2
# docker network ls
NETWORK ID NAME DRIVER SCOPE
da971fe6813b bridge bridge local
eec69c6ab2da host host local
cf09779c2aac my-net bridge local
d2be30ca65ba none null local
②运行一个容器并连接到新建my-net的网络
# docker run -it --rm --name web1 --network my-net centos
#
③打开新的终端,再运行一个容器并加入到my-net网络
# docker run -it --rm --name web2 --network my-net centos
#
④测试连接
# ping web1
PING web1 (172.18.0.2) 56(84) bytes of data.
64 bytes from web1.my-net (172.18.0.2): icmp_seq=1 ttl=64 time=0.102 ms
64 bytes from web1.my-net (172.18.0.2): icmp_seq=2 ttl=64 time=0.045 ms
64 bytes from web1.my-net (172.18.0.2): icmp_seq=3 ttl=64 time=0.053 ms
^C
--- web1 ping statistics ---
3 packets transmitted, 3 received, 0% packet loss, time 2002ms
rtt min/avg/max/mdev = 0.045/0.066/0.102/0.026 ms
#
3.配置DNS
①在容器中查看挂载信息
# mount | grep etc
/dev/mapper/centos-root on /etc/resolv.conf type xfs (rw,relatime,attr2,inode64,noquota)
/dev/mapper/centos-root on /etc/hostname type xfs (rw,relatime,attr2,inode64,noquota)
/dev/mapper/centos-root on /etc/hosts type xfs (rw,relatime,attr2,inode64,noquota)
#
这种机制可以让宿主主机 DNS 信息发生更新后,所有 Docker容器的DNS配置通过/etc/resolv.conf 文件会得到更新。
②配置全部容器的DNS可以在/etc/docker/daemon.json中增加DNS相关项来设置
{
"dns" : [
"114.114.114.114",
"8.8.8.8"
]
}
#这样每次启动容器时容器的DNS会自动配置为添加的地址
# docker run -it --rm centos cat etc/resolv.conf
search localdomain
nameserver 114.114.114.114
nameserver 8.8.8.8
③如果想要手动指定容器的配置,可以在使用 docker run 命令启动容器时加入如下参数:
-h 设定容器的主机名,它会被写到容器内的/etc/hostname 和 /etc/hosts中,但它在容器外部看不到,既不会在docker ps 中显示,也不会在其他的容器的 /etc/hosts 看到。
--dns=IP_ADDRESS 添加 DNS 服务器到容器的 /etc/resolv.conf 中,让容器用这个服务器来解析所有不在/etc/hosts 中的主机名。
--dns-search=DOMAIN 设定容器的搜索域,当设定搜索域为 .example.com 时,在搜索一个名为 host 的主机时,DNS 不仅搜索 host,还会搜索 host.example.com 。
#学习文档地址:https://github.com/yeasy/docker_practice/blob/master/SUMMARY.md
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