1、安装JDK
# 下载JDK的rmp包 jdk-8u311-linux-x64.rpm # 安装 rpm -ivh jdk-8u311-linux-x64.rpm # 配置环境变量 # 1、输入命令 vi /etc/profile # 2、按下 i ,在最后加入以下代码 unset i unset -f pathmunge JAVA_HOME=/usr/java/jdk1.8.0_311-amd64 # 这里的jdk1.8.0_311-amd64需要自己去/usr/java目录下确认,不同版本的JDK都不一样 CLASSPATH=%JAVA_HOME%/lib;%JAVA_HOME%/jre/lib PATH=$JAVA_HOME/bin;$JAVA_HOME/jre/bin export PATH CLASSPATH JAVA_HOME
2、安装Tomcat
# 下载Tomcat的压缩包(.tar.gz)后缀 # 切换到压缩包所在目录 # 解压 tar zxvf apache-tomcat-9.0.54.tar.gz # 运行tomcat测试 # 1、进去tomcat的bin文件夹,运行startup.sh [root@localhost bin]# ls bootstrap.jar configtest.sh shutdown.sh catalina.bat daemon.sh startup.bat catalina.sh digest.bat startup.sh catalina-tasks.xml digest.sh tomcat-juli.jar ciphers.bat makebase.bat tomcat-native.tar.gz ciphers.sh makebase.sh tool-wrapper.bat commons-daemon.jar setclasspath.bat tool-wrapper.sh commons-daemon-native.tar.gz setclasspath.sh version.bat configtest.bat shutdown.bat version.sh [root@localhost bin]# ./startup.sh # 运行 Using CATALINA_base: /download/apache-tomcat-9.0.54 Using CATALINA_HOME: /download/apache-tomcat-9.0.54 Using CATALINA_TMPDIR: /download/apache-tomcat-9.0.54/temp Using JRE_HOME: /usr Using CLASSPATH: /download/apache-tomcat-9.0.54/bin/bootstrap.jar:/download/apache-tomcat-9.0.54/bin/tomcat-juli.jar Using CATALINA_OPTS: Tomcat started.安装
1、确保Linux系统版本在CentOS7以上
2、yum安装gcc相关
yum -y install gcc yum -y install gcc-c++
3、卸载旧版本
yum remove docker
docker-client
docker-client-latest
docker-common
docker-latest
docker-latest-logrotate
docker-logrotate
docker-engine
4、安装需要的软件包
yum install -y yum-utils device-mapper-persistent-data lvm2
5、设置镜像仓库
yum-config-manager --add-repo http://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
6、更新yum软件包索引 (可能会出错,直接跳到下一步即可)
yum makecache fast
7、安装Docker
yum -y install docker-ce docker-ce-cli containerd.io
8、测试启动Docker
systemctl start docker
9、测试
#查看版本 docker version #运行hello world,一开始没有这个镜像,输入命令后会自动下载 docker run hello-world #查看镜像 docker images阿里云镜像加速
四个命令依次在Linux控制台输入即可
sudo mkdir -p /etc/docker
sudo tee /etc/docker/daemon.json <<-'EOF'
{
"registry-mirrors": ["https://0zg1sztf.mirror.aliyuncs.com"]
}
EOF
sudo systemctl daemon-reload
sudo systemctl restart docker
Docker run 镜像名—的工作流程
底层原理
Docker是怎么工作的?
Docker是一个Client-Server结构的系统,Docker的守护进程运行在主机上,通过Socket从客户端访问!
DockerServer接收到Docker-Client的指令,就会执行该指令
Docker为什么比虚拟机快?
1、Docker有着比虚拟机更少的抽象层
2、Docker利用的是宿主机的内核,vm需要是Guest OS
Docker新建一个容器的时候,不需要重新加载系统内核;虚拟机需要加载Guest OS(分钟级别),Docker利用了宿主机的操作系统(秒级),省略了这个复杂的过程
Docker的常用命令 帮助命令docker version #显示docker的版本信息 docker info #显示docker的系统信息,包括镜像和容器的数量 docker 命令 --help #帮助命令
帮助文档的地址:Reference documentation | Docker documentation
镜像命令docker images 查看所有本地的主机上的镜像
[root@localhost /]# docker images REPOSITORY TAG IMAGE ID CREATED SIZE hello-world latest feb5d9fea6a5 5 weeks ago 13.3kB #解释 REPOSITORY 镜像的仓库源 TAG 镜像的标签 IMAGE ID 镜像的id CREATED 镜像的创建时间 SIZE 镜像的大小 #可选项 -a, --all #列出所有镜像 -q, --quiet #只显示镜像的id
docker rmi 镜像id 删除指定id的镜像(删之前要先把对应的container删除,因为该镜像可能被container引用
也可以直接使用 docker rmi -f 镜像id 强制删除)
[root@localhost /]# docker rmi feb5d9fea6a5 Untagged: hello-world:latest Untagged: hello-world@sha256:37a0b92b08d4919615c3ee023f7ddb068d12b8387475d64c622ac30f45c29c51 Deleted: sha256:feb5d9fea6a5e9606aa995e879d862b825965ba48de054caab5ef356dc6b3412 Deleted: sha256:e07ee1baac5fae6a26f30cabfe54a36d3402f96afda318fe0a96cec4ca393359
docker ps -a 列出所有容器 (要删除hello-world镜像,就要先找出引用hello-world的容器id)
[root@localhost /]# docker ps -a ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES 7657ea7ed321 hello-world "/hello" 6 minutes ago Exited (0) 6 minutes ago epic_goldwasser
docker rm 容器id 删除指定id的容器(之后就可以删除hello-world的镜像了)
[root@localhost /]# docker rm 7657ea7ed321 7657ea7ed321
docker search 镜像名 搜索镜像
[root@localhost /]# docker search mysql NAME DEscriptION STARS OFFICIAL AUTOMATED mysql MySQL is a widely used, open-source relation… 11611 [OK] mariadb MariaDB Server is a high performing open sou… 4417 [OK] mysql/mysql-server Optimized MySQL Server Docker images. Create… 857 [OK] #可选项,通过收藏来过滤 --filter=STARS=3000 搜索出来的镜像就是收藏是大于3000的 [root@localhost /]# docker search mysql --filter=STARS=3000 NAME DEscriptION STARS OFFICIAL AUTOMATED mysql MySQL is a widely used, open-source relation… 11611 [OK] mariadb MariaDB Server is a high performing open sou… 4417 [OK]
docker pull 镜像名 下载镜像(默认下载最新版)
# 下载镜像 docker pull 镜像名[:tag] [root@localhost /]# docker pull mysql Using default tag: latest # 如果不写[:tag],默认就是latest latest: Pulling from library/mysql b380bbd43752: Pull complete # 分层下载, docker image的核心 联合文件系统 f23cbf2ecc5d: Pull complete 30cfc6c29c0a: Pull complete b38609286cbe: Pull complete 8211d9e66cd6: Pull complete 2313f9eeca4a: Pull complete 7eb487d00da0: Pull complete 4d7421c8152e: Pull complete 77f3d8811a28: Pull complete cce755338cba: Pull complete 69b753046b9f: Pull complete b2e64b0ab53c: Pull complete Digest: sha256:6d7d4524463fe6e2b893ffc2b89543c81dec7ef82fb2020a1b27606666464d87 # 签名 Status: Downloaded newer image for mysql:latest docker.io/library/mysql:latest # 真实地址 # 以上一条命令等价于 docker pull mysql docker pull docker.io/library/mysql:latest # 指定版本下载 [root@localhost /]# docker pull mysql:5.7 5.7: Pulling from library/mysql b380bbd43752: Already exists f23cbf2ecc5d: Already exists 30cfc6c29c0a: Already exists b38609286cbe: Already exists 8211d9e66cd6: Already exists 2313f9eeca4a: Already exists 7eb487d00da0: Already exists a71aacf913e7: Pull complete 393153c555df: Pull complete 06628e2290d7: Pull complete ff2ab8dac9ac: Pull complete Digest: sha256:2db8bfd2656b51ded5d938abcded8d32ec6181a9eae8dfc7ddf87a656ef97e97 Status: Downloaded newer image for mysql:5.7 docker.io/library/mysql:5.7 # 查看 [root@localhost /]# docker images REPOSITORY TAG IMAGE ID CREATED SIZE mysql 5.7 938b57d64674 13 days ago 448MB mysql latest ecac195d15af 13 days ago 516MB容器命令
说明:有了镜像才可以创建容器,linux,下载一个centos镜像测试学习
docker pull centos
[root@localhost /]# docker pull centos Using default tag: latest latest: Pulling from library/centos a1d0c7532777: Pull complete Digest: sha256:a27fd8080b517143cbbbab9dfb7c8571c40d67d534bbdee55bd6c473f432b177 Status: Downloaded newer image for centos:latest docker.io/library/centos:latest
新建容器并启动
docker run [可选参数] image # 参数说明 --name="Name" 容器名字 tomcat01 tomcat02 用来区分容器 -d 后台方式运行 -it 使用交互方式运行,进入容器查看内容 -p 指定容器的端口 -p 8080:8080 -p ip:主机端口:容器端口 -p 主机端口:容器端口(常用) -p 容器端口 -p 随机指定端口 # 测试,启动并进入容器 [root@localhost /]# docker run -it centos /bin/bash [root@c8a8a13ac174 /]# ls # 查看容器内的centos,基础版本,很多命令还不完善 bin etc lib lost+found mnt proc run srv tmp var dev home lib64 media opt root sbin sys usr # 退出容器,从容器退出到主机 [root@c8a8a13ac174 /]# exit exit
列出所有运行的容器
docker ps 命令 # 列出当前正在运行的容器 -a # 列出当前正在运行的容器 以及 历史运行过的容器 -n=? # 显示最近创建的容器 -aq # 显示所有当前容器的编号 [root@localhost /]# docker ps ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES [root@localhost /]# docker ps -a ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES c8a8a13ac174 centos "/bin/bash" 4 minutes ago Exited (0) 2 minutes ago optimistic_carver
退出容器
exit # 直接停止并退出容器 Ctrl + P + Q # 退出容器但不停止
删除容器
docker rm 容器id # 删除指定的容器,不能删除正在运行的容器,要强制删除需要加 -f docker rm -f $(docker ps -aq) # 删除所有的容器 docker ps -a -q|xargs docker rm # 删除所有的容器
启动和停止容器的操作
docker start 容器id # 启动容器 docker restart 容器id # 重启容器 docker stop 容器id # 停止当前正在运行的容器 docker kill 容器id # 强制停止当前容器
常用其他命令
后台启动容器
# 命令 docker run -d 镜像名 # 问题:docker ps, 发现centos停止了 # 常见的坑:docker容器使用后台运行,就必须有一个前台进程,docker发现没有应用,就会自动停止 # nginx,容器启动后,发现自己没有提供服务,就会立刻停止,就是没有程序了
查看日志
docker logs -f -t --tail 日志条数 容器id # 自己编写一段shell脚本 [root@localhost /]# docker run -d centos /bin/sh -c "while true; do echo localhost;sleep 1;done" d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a [root@localhost /]# docker ps ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES d2a45bc782a7 centos "/bin/sh -c 'while t…" 5 seconds ago Up 3 seconds great_edison # 显示日志 -f -t 可以结合起来 -tf # 显示日志 --tail number # 要显示的日志条数 [root@localhost /]# docker logs -f -t --tail 10 d2a45bc782a7 2021-11-01T02:42:16.625371264Z localhost 2021-11-01T02:42:17.628116952Z localhost 2021-11-01T02:42:18.633494886Z localhost 2021-11-01T02:42:19.635309795Z localhost 2021-11-01T02:42:20.638327390Z localhost 2021-11-01T02:42:21.641747570Z localhost 2021-11-01T02:42:22.644098419Z localhost 2021-11-01T02:42:23.655560465Z localhost 2021-11-01T02:42:24.659873927Z localhost 2021-11-01T02:42:25.666505490Z localhost 2021-11-01T02:42:26.669244649Z localhost 2021-11-01T02:42:27.674658522Z localhost 2021-11-01T02:42:28.676837277Z localhost 2021-11-01T02:42:29.678706504Z localhost 2021-11-01T02:42:30.681514524Z localhost 2021-11-01T02:42:31.684640413Z localhost 2021-11-01T02:42:32.688320038Z localhost
查看容器中的进程信息ps
top命令 docker top 容器id [root@localhost /]# docker top d2a45bc782a7 UID PID PPID C STIME TTY TIME CMD root 46808 46787 0 19:40 ? 00:00:00 /bin/sh -c while true; do echo localhost;sleep 1;done root 47806 46808 0 19:51 ? 00:00:00 /usr/bin/coreutils --coreutils-prog-shebang=sleep /usr/bin/sleep 1
查看镜像的元数据
[root@localhost /]# docker inspect d2a45bc782a7
[
{
"Id": "d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a",
"Created": "2021-11-01T02:40:13.810286187Z",
"Path": "/bin/sh",
"Args": [
"-c",
"while true; do echo localhost;sleep 1;done"
],
"State": {
"Status": "running",
"Running": true,
"Paused": false,
"Restarting": false,
"OOMKilled": false,
"Dead": false,
"Pid": 46808,
"ExitCode": 0,
"Error": "",
"StartedAt": "2021-11-01T02:40:15.10685646Z",
"FinishedAt": "0001-01-01T00:00:00Z"
},
"Image": "sha256:5d0da3dc976460b72c77d94c8a1ad043720b0416bfc16c52c45d4847e53fadb6",
"ResolvConfPath": "/var/lib/docker/containers/d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a/resolv.conf",
"HostnamePath": "/var/lib/docker/containers/d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a/hostname",
"HostsPath": "/var/lib/docker/containers/d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a/hosts",
"LogPath": "/var/lib/docker/containers/d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a/d2a45bc782a75a22e7da22fa06cf0b33274f449025add419811bfc1c816fa11a-json.log",
"Name": "/great_edison",
"RestartCount": 0,
"Driver": "overlay2",
"Platform": "linux",
"MountLabel": "",
"ProcessLabel": "",
"AppArmorProfile": "",
"ExecIDs": null,
"HostConfig": {
"Binds": null,
"ContainerIDFile": "",
"LogConfig": {
"Type": "json-file",
"Config": {}
},
"NetworkMode": "default",
"PortBindings": {},
"RestartPolicy": {
"Name": "no",
"MaximumRetryCount": 0
},
"AutoRemove": false,
"VolumeDriver": "",
"VolumesFrom": null,
"CapAdd": null,
"CapDrop": null,
"CgroupnsMode": "host",
"Dns": [],
"DnsOptions": [],
"DnsSearch": [],
"ExtraHosts": null,
"GroupAdd": null,
"IpcMode": "private",
"Cgroup": "",
"links": null,
"OomScoreAdj": 0,
"PidMode": "",
"Privileged": false,
"PublishAllPorts": false,
"ReadonlyRootfs": false,
"SecurityOpt": null,
"UTSMode": "",
"UsernsMode": "",
"ShmSize": 67108864,
"Runtime": "runc",
"ConsoleSize": [
0,
0
],
"Isolation": "",
"CpuShares": 0,
"Memory": 0,
"NanoCpus": 0,
"CgroupParent": "",
"BlkioWeight": 0,
"BlkioWeightDevice": [],
"BlkioDeviceReadBps": null,
"BlkioDeviceWriteBps": null,
"BlkioDeviceReadIOps": null,
"BlkioDeviceWriteIOps": null,
"CpuPeriod": 0,
"CpuQuota": 0,
"CpuRealtimePeriod": 0,
"CpuRealtimeRuntime": 0,
"CpusetCpus": "",
"CpusetMems": "",
"Devices": [],
"DeviceCgroupRules": null,
"DeviceRequests": null,
"KernelMemory": 0,
"KernelMemoryTCP": 0,
"MemoryReservation": 0,
"MemorySwap": 0,
"MemorySwappiness": null,
"OomKillDisable": false,
"PidsLimit": null,
"Ulimits": null,
"CpuCount": 0,
"CpuPercent": 0,
"IOMaximumIOps": 0,
"IOMaximumBandwidth": 0,
"MaskedPaths": [
"/proc/asound",
"/proc/acpi",
"/proc/kcore",
"/proc/keys",
"/proc/latency_stats",
"/proc/timer_list",
"/proc/timer_stats",
"/proc/sched_debug",
"/proc/scsi",
"/sys/firmware"
],
"ReadonlyPaths": [
"/proc/bus",
"/proc/fs",
"/proc/irq",
"/proc/sys",
"/proc/sysrq-trigger"
]
},
"GraphDriver": {
"Data": {
"LowerDir": "/var/lib/docker/overlay2/c307f898f9671783187b56ad9ed55fee41fb2f656628d3b0987766149ea2a575-init/diff:/var/lib/docker/overlay2/7cb20a1f4cfe9fc6ad65a4ea72b8a104d21ff660ccdfffc9712453fe3354af9e/diff",
"MergedDir": "/var/lib/docker/overlay2/c307f898f9671783187b56ad9ed55fee41fb2f656628d3b0987766149ea2a575/merged",
"UpperDir": "/var/lib/docker/overlay2/c307f898f9671783187b56ad9ed55fee41fb2f656628d3b0987766149ea2a575/diff",
"WorkDir": "/var/lib/docker/overlay2/c307f898f9671783187b56ad9ed55fee41fb2f656628d3b0987766149ea2a575/work"
},
"Name": "overlay2"
},
"Mounts": [],
"Config": {
"Hostname": "d2a45bc782a7",
"Domainname": "",
"User": "",
"AttachStdin": false,
"AttachStdout": false,
"AttachStderr": false,
"Tty": false,
"OpenStdin": false,
"StdinOnce": false,
"Env": [
"PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
],
"Cmd": [
"/bin/sh",
"-c",
"while true; do echo localhost;sleep 1;done"
],
"Image": "centos",
"Volumes": null,
"WorkingDir": "",
"Entrypoint": null,
"OnBuild": null,
"Labels": {
"org.label-schema.build-date": "20210915",
"org.label-schema.license": "GPLv2",
"org.label-schema.name": "CentOS base Image",
"org.label-schema.schema-version": "1.0",
"org.label-schema.vendor": "CentOS"
}
},
"NetworkSettings": {
"Bridge": "",
"SandboxID": "b49f708ff0471ee14616af910fd1cf1133cccd117ce2482f61f4abe11180465a",
"HairpinMode": false,
"linkLocalIPv6Address": "",
"linkLocalIPv6PrefixLen": 0,
"Ports": {},
"SandboxKey": "/var/run/docker/netns/b49f708ff047",
"SecondaryIPAddresses": null,
"SecondaryIPv6Addresses": null,
"EndpointID": "6a34e701efdfb506b7ed06bd1fcb85453739e07b174706e76674d631f765b47e",
"Gateway": "172.17.0.1",
"GlobalIPv6Address": "",
"GlobalIPv6PrefixLen": 0,
"IPAddress": "172.17.0.2",
"IPPrefixLen": 16,
"IPv6Gateway": "",
"MacAddress": "02:42:ac:11:00:02",
"Networks": {
"bridge": {
"IPAMConfig": null,
"links": null,
"Aliases": null,
"NetworkID": "fd84308c776289830911fb47eb63666f072e40818d2bc5a07e21bba0254b808f",
"EndpointID": "6a34e701efdfb506b7ed06bd1fcb85453739e07b174706e76674d631f765b47e",
"Gateway": "172.17.0.1",
"IPAddress": "172.17.0.2",
"IPPrefixLen": 16,
"IPv6Gateway": "",
"GlobalIPv6Address": "",
"GlobalIPv6PrefixLen": 0,
"MacAddress": "02:42:ac:11:00:02",
"DriverOpts": null
}
}
}
}
]
进入当前正在运行的容器
# 通常容器都是使用后台方式运行的,需要进入容器,修改一些配置 # 命令 docker exec -it 容器id bashShell # 测试 [root@localhost /]# docker exec -it d2a45bc782a7 /bin/bash [root@d2a45bc782a7 /]# ls bin etc lib lost+found mnt proc run srv tmp var dev home lib64 media opt root sbin sys usr [root@d2a45bc782a7 /]# ps -ef UID PID PPID C STIME TTY TIME CMD root 1 0 0 02:40 ? 00:00:00 /bin/sh -c while true; do root 1995 0 0 03:13 pts/0 00:00:00 /bin/bash root 2045 1 0 03:14 ? 00:00:00 /usr/bin/coreutils --coreu root 2046 1995 0 03:14 pts/0 00:00:00 ps -ef # 方式二 docker attach 容器id [root@localhost /]# docker attach d2a45bc782a7 正在执行当前代码... # docker exec # 进入容器后开启一个新的中断,可以再里面操作(常用) # dockers attach # 进入容器正在执行的终端,不会启动新的进程
从容器内拷贝文件到主机上
docker cp 容器id:容器内路径 目的主机路径 # 测试 [root@localhost ~]# docker run -it centos /bin/bash # 运行并进入容器 [root@abebb18b9e26 /]# cd /home [root@abebb18b9e26 home]# ls [root@abebb18b9e26 home]# touch test.java # 创建test.java文件 [root@abebb18b9e26 home]# ls test.java [root@abebb18b9e26 home]# exit # 退出并停止容器 exit [root@localhost ~]# docker ps -a ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES abebb18b9e26 centos "/bin/bash" 32 seconds ago Exited (0) 7 seconds ago stupefied_noyce [root@localhost ~]# docker cp abebb18b9e26:/home/test.java /home # 复制文件到本机路径 [root@localhost ~]# cd / [root@localhost /]# cd home [root@localhost home]# ls # 查看 admin test.java # 拷贝是一个手动过程,以后使用 -v 卷的技术,可以实现
常用命令小结
attach # 进入正在运行的容器 build # 通过Dockerfile制作镜像 commit # 提交当前容器为新的镜像 cp # 从容器中拷贝文件或目录到宿主机 create # 创建一个新容器 diff # 查看docker容器变化 events # 从docker服务获取容器实时事件 exec # 在已存在的容器上运行命令 export # 导出容器的内容流作为一个 tar 归档文件(对应import) history # 展示一个镜像形成历史 images # 列出系统当前镜像 import # 从tar包中的内容创建一个新的文件系统映像(对应export) info # 显示系统相关信息 inspect # 查看容器详细信息 kill # 强制终止指定容器 load # 从一个 tar 包中加载一个镜像(对应save) login # 注册或登录一个docker源服务器 logout # 从当前Docker registry退出 logs # 输出当前容器日志信息 port # 查看映射端口对应的容器内部源端口 pause # 暂停容器 ps # 列出容器列表 pull # 从docker镜像源服务器拉取指定镜像 push # 推送指定镜像或库镜像到docker源服务器 restart # 重启运行的容器 rm # 移除一个或多个容器 rmi # 移除一个或多个镜像 run # 创建一个新容器并运行一个命令 save # 保存一个镜像为一个tar包(对应load) search # 在docker hub中搜索镜像 start # 启动容器 stop # 停止容器 tag # 给源中镜像打标签 top # 查看容器中运行的进程信息 unpause # 取消暂停容器 version # 查看docker版本号 wait # 截取容器停止时的退出状态值容器连接
端口映射并不是唯一把 docker 连接到另一个容器的方法。
docker 有一个连接系统允许将多个容器连接在一起,共享连接信息。
docker 连接会创建一个父子关系,其中父容器可以看到子容器的信息。
# 新建网络 docker network create -d bridge net01 ## -d 指定Docker网络的类型 有 bridge、overlay # 连接容器 ## 运行两个容器并都连接到新建的test01网络 docker run -itd --name test1 --network net01 tomcat /bin/bash docker run -itd --name test2 --network net01 tomcat /bin/bash ## 这样两个容器之间就建立的互联关系,可以进入容器终端使用ping来测试 ## 容器内可能没有ping命令,需要在容器内执行以下命令安装ping apt-get update apt install iputils-ping ## 安装完后提交容器到镜像 ### -a 提交人 ### -m 消息,相当于描述 docker commit -m="ping update" -a="ping" 容器id 新的镜像名:TAG标签 例如:docker commit -m="ping update" -a="ping" c22c74d7d8b0 ping/tomcat:v1 ## 再以新的镜像运行并进入两个容器,再用ping测试 docker run -itd --name test1 --network net01 ping/tomcat:v1 /bin/bash docker run -itd --name test2 --network net01 ping/tomcat:v1 /bin/bash可视化
Docker图形化界面管理工具:portainer(不常使用)
# 安装并运行 docker run -d -p 8088:9000 --restart=always -v /var/run/docker.sock:/var/run/docker.sock --privileged=true portainer/portainer
访问测试:ip:端口号
作业练习Docker安装Nginx
# 1、搜索镜像 (建议取docker hub搜索,可以看到详细信息) docker search nginx # 2、下载镜像 docker pull nginx # 3、运行测试 [root@localhost /]# docker images REPOSITORY TAG IMAGE ID CREATED SIZE nginx latest 87a94228f133 2 weeks ago 133MB hello-world latest feb5d9fea6a5 5 weeks ago 13.3kB centos latest 5d0da3dc9764 6 weeks ago 231MB # -d 后台运行 # --name 设置别名 # -p 设置端口 [root@localhost /]# docker run -d --name nginx01 -p 3344:80 nginx 后台运行nginx,并设置别名以及主机端口和容器端口 c2e9aef8b5475fa9ecad08e535db9229e8a55e41ccf15d344706cc3972fe6903 [root@localhost /]# docker ps ConTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES c2e9aef8b547 nginx "/docker-entrypoint.…" 5 seconds ago Up 2 seconds 0.0.0.0:3344->80/tcp, :::3344->80/tcp nginx01 # 页面访问测试 [root@localhost /]# curl localhost:3344Welcome to nginx!