服务器 发布日期:2024/12/29 浏览次数:1
这里先以wordpress的部署为例引出Docker Compose,wordpress的部署需要wordpress和mysql的镜像:
1、拉取wordpress镜像
[root@docker-node1 /]# docker pull wordpress
2、拉取mysql镜像
[root@docker-node1 /]# docker pull mysql
3、镜像列表
[root@docker-node1 /]# docker image ls REPOSITORY TAG IMAGE ID CREATED SIZE wordpress latest 0947f14b932b 25 hours ago 540MB mysql latest 791b6e40940c 43 hours ago 465MB
1、运行mysql镜像
root@docker-node1 /]# docker run -d --name mysql -v mysql-data:/var/lib/mysql -e MYSQL_ROOT_PASSWORD=root -e MYSQL_DATABASE=wordpress mysql b6e7a57a5fcec79f436d3f65240adf833340b4a9640e3b4f9282870078fb8e57
上述命令中 -v指定存储卷,MYSQL_ROOT_PASSWORD设置数据库密码,MYSQL_DATABASE指定创建数据库的名称,详情参考:https://hub.docker.com/_/mysql
查看启动的容器:
[root@docker-node1 /]# docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES b6e7a57a5fce mysql "docker-entrypoint.s…" 6 minutes ago Up 6 minutes 3306/tcp, 33060/tcp mysql
2、启动wordpress镜像
[root@docker-node1 /]# docker run --name wordpress -e WORDPRESS_DB_HOST=mysql:3306 --link mysql -p 8080:80 -d wordpress 6cf0c0fc2ef332728a3ea2bf2dbee65299441b26751d5c64f0a66b329f2679f6
上述命令中WORDPRESS_DB_HOST是需要连接的数据库,指定的就是刚刚创建的mysql容器,这里没有输入WORDPRESS_DB_USER、WORDPRESS_DB_PASSWORD的密码等环境信息,因为默认的就是mysql容器的用户名、密码,详情查看:https://hub.docker.com/_/wordpress。
然后查看容器信息:
[root@docker-node1 /]# docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES 6cf0c0fc2ef3 wordpress "docker-entrypoint.s…" 3 minutes ago Up 3 minutes 0.0.0.0:8080->80/tcp wordpress b6e7a57a5fce mysql "docker-entrypoint.s…" 20 minutes ago Up 20 minutes 3306/tcp, 33060/tcp mysql
目前两个容器都已经起来了,最后可以访问主机的8080端口即可。
从上面的部署上可以看出存在以下问题:
那么有没有一种类似批处理的方式,不需要这么繁琐的过程呢?这就需要Docker Compose了。
1、什么是Docker Compose"htmlcode">
services: db: image:postgres:9.4 volumes: -"db-data:/var/lib/postgresql/data" networks: -back-tier
上面这个yml文件中定义了一个service,其实就相当于下面这条命令:
docker run -d --network back-tier -v db-data:/var/lib/postgresql/data postgres:9.4
networks
networks: back-tier: driver:bridge
上面这个yml文件中定义了一个network,其实就相当于下面这条命令:
docker network create -d bridge back-tier
volumes
volumes: db-data:
上面这个yml文件中定义了一个volume,其实就相当于下面这条命令:
docker volume create db-data
Docker Cmpose是一个工具,所以是需要安装的,安装详情参考:https://docs.docker.com/compose/install/。
1、下载可执行文件
sudo curl -L "https://github.com/docker/compose/releases/download/1.25.3/docker-compose-$(uname -s)-$(uname -m)" -o /usr/local/bin/docker-compose
2、设置权限
sudo chmod +x /usr/local/bin/docker-compose
3、查看版本
[root@docker-node1 ~]# docker-compose --version docker-compose version 1.24.1, build 4667896
4、docker-compose中的常用命令
[root@docker-node1 compose-wordpress]# docker-compose --help Define and run multi-container applications with Docker. Usage: docker-compose [-f <arg>...] [options] [COMMAND] [ARGS...] docker-compose -h|--help Options: -f, --file FILE Specify an alternate compose file (default: docker-compose.yml) -p, --project-name NAME Specify an alternate project name (default: directory name) --verbose Show more output --log-level LEVEL Set log level (DEBUG, INFO, WARNING, ERROR, CRITICAL) --no-ansi Do not print ANSI control characters -v, --version Print version and exit -H, --host HOST Daemon socket to connect to --tls Use TLS; implied by --tlsverify --tlscacert CA_PATH Trust certs signed only by this CA --tlscert CLIENT_CERT_PATH Path to TLS certificate file --tlskey TLS_KEY_PATH Path to TLS key file --tlsverify Use TLS and verify the remote --skip-hostname-check Don't check the daemon's hostname against the name specified in the client certificate --project-directory PATH Specify an alternate working directory (default: the path of the Compose file) --compatibility If set, Compose will attempt to convert keys in v3 files to their non-Swarm equivalent Commands: build Build or rebuild services bundle Generate a Docker bundle from the Compose file config Validate and view the Compose file create Create services down Stop and remove containers, networks, images, and volumes events Receive real time events from containers exec Execute a command in a running container help Get help on a command images List images kill Kill containers logs View output from containers pause Pause services port Print the public port for a port binding ps List containers pull Pull service images push Push service images restart Restart services rm Remove stopped containers run Run a one-off command scale Set number of containers for a service start Start services stop Stop services top Display the running processes unpause Unpause services up Create and start containers version Show the Docker-Compose version information
docker-compose up
用于启动service创建容器,执行yml文件
docker-compose -d
后台执行容器服务
docker-compose ps
显示正在运行的容器
docker-compose stop
停止正在运行的容器服务
docker-compose down
停止容器服务,并且移除容器(container)、镜像(image)、网络(network)以及存储卷(volume)
docker-compose images
显示通过docker-compose up创建的容器服务的镜像列表
docker-compose exec container(Names) bash
进入某个容器,可以在容器内部进行操作
1、wordpress
编写docker-compose.yml文件
version: '3' #docker-compose.yml版本 services: #定义多个容器服务 wordpress: #wordpress容器名称 image: wordpress #镜像来源 ports: #端口映射 - 8080:80 environment: #环境变量 WORDPRESS_DB_HOST: mysql #连接的数据库,就是下面mysql容器的名称 WORDPRESS_DB_PASSWORD: root #数据库密码 networks: #使用的网络,是下面networks中定义的my-bridge - my-bridge mysql: #mysql容器名称 image: mysql #mysql镜像 command: --default-authentication-plugin=mysql_native_password #解决数据库密码加密问题 environment: #环境变量 MYSQL_ROOT_PASSWORD: root MYSQL_DATABASE: wordpress volumes: #定义存储卷,就是下面volumes中定义的 - mysql-data:/var/lib/mysql networks: - my-bridge volumes: mysql-data: networks: my-bridge: driver: bridge
启动services中的容器
[root@docker-node1 compose-wordpress]# ls docker-compose.yml [root@docker-node1 compose-wordpress]# docker-compose up
通过docker-compose up启动容器,这个命令默认执行的就是当前目录下的docker-compose.yml文件,你也可以将这个命令写完整就是docker-compose -f docker-compose.yml up
2、Flask Web
新建app.py docker-compose.yml Dockerfile三个文件
[root@docker-node1 compose-flask]# ls app.py docker-compose.yml Dockerfile
编写app.py文件
from flask import Flask from redis import Redis import os app = Flask(__name__) redis = Redis(host=os.environ.get('REDIS_HOST'),port=6379) @app.route('/') def hello(): return 'Hello World' if __name__ == "__main__": app.run(host="0.0.0.0",port=5000,debug=True)
编写Dockerfile文件
FROM python:2.7 COPY . /app/ WORKDIR /app/ RUN pip install flask redis EXPOSE 5000 CMD ["python","app.py"]
编写docker-compose.yml文件
version: "3" services: redis: image: redis web: build: context: . dockerfile: Dockerfile ports: - 8080:5000 environment: REDIS_HOST: redis
启动容器服务
[root@docker-node1 compose-flask]# docker-compose up
访问服务
1、scale
在上面通过Docker Compose完成了flask的应用部署,目前运行的容器:
[root@docker-node1 compose-flask]# docker-compose ps Name Command State Ports --------------------------------------------------------------------------------------- compose-flask_redis_1 docker-entrypoint.sh redis ... Up 6379/tcp compose-flask_web_1 python app.py Up 0.0.0.0:8080->5000/tcp
通过docker-compose --help命令,可以看到有一个scale参数:
[root@docker-node1 compose-flask]# docker-compose --help scale Set number of containers for a service
它的意思就是可以启用多个应用容器:
[root@docker-node1 compose-flask]# docker-compose up --scale web=3 -d
但是显然这样会出错,为什么呢?因为三个容器端口映射都是一样的,必然剩下的两个应用容器会报端口占用的错误。此时需要修改一下docker-compose.yml文件将web应用的端口那一项配置去掉:
version: "3" services: redis: image: redis web: build: context: . dockerfile: Dockerfile ports: #去掉这一项 - 8080:5000 environment: REDIS_HOST: redis
这样就可以了。
[root@docker-node1 compose-flask]# docker-compose up --scale web=3 -d Recreating compose-flask_web_1 ... Recreating compose-flask_web_1 ... done Recreating compose-flask_web_2 ... done Recreating compose-flask_web_3 ... done
查看容器:
[root@docker-node1 compose-flask]# docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES d0ae3307eb9e compose-flask_web "python app.py" 51 seconds ago Up 46 seconds 5000/tcp compose-flask_web_1 67483b8decd3 compose-flask_web "python app.py" 52 seconds ago Up 47 seconds 5000/tcp compose-flask_web_2 741766d49902 compose-flask_web "python app.py" 52 seconds ago Up 47 seconds 5000/tcp compose-flask_web_3 be3800004658 redis "docker-entrypoint.s…" 5 hours ago Up 6 minutes 6379/tcp compose-flask_redis_1
但是显然这样只能在容器内去访问,因为端口没有映射出来,那么这样接下来怎么做呢?
我们接下来可以这样做,用一个HAProxy的容器来接收请求,然后通过端口转发给不同的web服务器,这样就解决以下问题:
2、水平扩展和负载均衡
文件结构
[root@docker-node1 compose-flask]# ls app.py docker-compose.yml Dockerfile
编写app.py
from flask import Flask from redis import Redis import os app = Flask(__name__) redis = Redis(host=os.environ.get('REDIS_HOST'),port=6379) @app.route('/') def hello(): return 'Hello World' if __name__ == "__main__": app.run(host="0.0.0.0",port=80,debug=True)
编写Dockerfile文件
FROM python:2.7 COPY . /app/ WORKDIR /app/ RUN pip install flask redis EXPOSE 80 CMD ["python","app.py"]
编写docker-compose.yml文件
version: "3" services: redis: image: redis web: build: context: . dockerfile: Dockerfile environment: REDIS_HOST: redis lb: image: dockercloud/haproxy links: - web ports: - 8080:80 volumes: - /var/run/docker.sock:/var/run/docker.sock
运行
[root@docker-node1 compose-flask]# docker-compose up -d Creating network "compose-flask_default" with the default driver Creating compose-flask_web_1 ... done Creating compose-flask_redis_1 ... done Creating compose-flask_lb_1 ... done
可以看到启动了三个容器,分别为:
[root@docker-node1 compose-flask]# docker-compose ps Name Command State Ports --------------------------------------------------------------------------------------------------- compose-flask_lb_1 /sbin/tini -- dockercloud- ... Up 1936/tcp, 443/tcp, 0.0.0.0:8080->80/tcp compose-flask_redis_1 docker-entrypoint.sh redis ... Up 6379/tcp compose-flask_web_1 python app.py Up 5000/tcp
我们看到web应用目前只有一个,可以启动多个来处理请求:
[root@docker-node1 compose-flask]# docker-compose up --scale web=5 -d compose-flask_redis_1 is up-to-date Starting compose-flask_web_1 ... done Creating compose-flask_web_2 ... done Creating compose-flask_web_3 ... done Creating compose-flask_web_4 ... done Creating compose-flask_web_5 ... done compose-flask_lb_1 is up-to-date
可以看到,直接将web应用启动了5个容器,分担从HAProxy的请求。