6.5.1. 前言

到此关于 Docker Compose 就已介绍完了。其实在之前的服务中就已经介绍了 Compose 在服务中的使用,借助 Docker Compose 又说明了三剑客之 stack 的使用 Docker 栈

笔者本打算写一个关于 docker stack deploy swarm 的栗子,不过在看到官方 Github 上的一个栗子后就打算直接在这里展示。该栗子介绍的很清晰,按照 步骤来很简单的就能部署起来。文档为英文,很容易理解,翻译后又觉得体现不出原意,因此不做翻译。下面就是该示例:

6.5.2. Deploying an app to a Swarm

This portion of the tutorial will guide you through the creation and customization of a voting app. It's important that you follow the steps in order, and make sure to customize the portions that are customizable.

Important. To complete this section, you will need to have Docker installed on your machine as mentioned in the Setup section. You'll also need to have git installed. There are many options for installing it. For instance, you can get it from GitHub.

6.5.2.1. Voting app

For this application we will use the Docker Example Voting App. This app consists of five components:

  • Python webapp which lets you vote between two options
  • Redis queue which collects new votes
  • .NET worker which consumes votes and stores them in…
  • Postgres database backed by a Docker volume
  • Node.js webapp which shows the results of the voting in real time

Clone the repository onto your machine and cd into the directory:

$ git clone https://github.com/docker/example-voting-app.git
cd example-voting-app

6.5.2.2. Deploying the app

For this first stage, we will use existing images that are in Docker Store.

This app relies on Docker Swarm mode. Swarm mode is the cluster management and orchestration features embedded in the Docker engine. You can easily deploy to a swarm using a file that declares your desired state for the app. Swarm allows you to run your containers on more than one machine. In this tutorial, you can run on just one machine, or you can use something like Docker for AWS or Docker for Azure to quickly create a multiple node machine. Alternately, you can use Docker Machine to create a number of local nodes on your development machine. See the Swarm Mode lab for more information.

First, create a Swarm.

$ docker swarm init

Next, you will need a Docker Compose file. You don't need Docker Compose installed, though if you are using Docker for Mac or Docker for Windows you have it installed. However, docker stack deploy accepts a file in the Docker Compose format. The file you need is in Docker Example Voting App at the root level. It's called docker-stack.yml. You can also just copy and paste it from here:

version: "3"
services:

  redis:
    image: redis:alpine
    ports:
      - "6379"
    networks:
      - frontend
    deploy:
      replicas: 2
      update_config:
        parallelism: 2
        delay: 10s
      restart_policy:
        condition: on-failure
  db:
    image: postgres:9.4
    volumes:
      - db-data:/var/lib/postgresql/data
    networks:
      - backend
    deploy:
      placement:
        constraints: [node.role == manager]
  vote:
    image: dockersamples/examplevotingapp_vote:before
    ports:
      - 5000:80
    networks:
      - frontend
    depends_on:
      - redis
    deploy:
      replicas: 2
      update_config:
        parallelism: 2
      restart_policy:
        condition: on-failure
  result:
    image: dockersamples/examplevotingapp_result:before
    ports:
      - 5001:80
    networks:
      - backend
    depends_on:
      - db
    deploy:
      replicas: 1
      update_config:
        parallelism: 2
        delay: 10s
      restart_policy:
        condition: on-failure

  worker:
    image: dockersamples/examplevotingapp_worker
    networks:
      - frontend
      - backend
    deploy:
      mode: replicated
      replicas: 1
      labels: [APP=VOTING]
      restart_policy:
        condition: on-failure
        delay: 10s
        max_attempts: 3
        window: 120s
      placement:
        constraints: [node.role == manager]

  visualizer:
    image: dockersamples/visualizer
    ports:
      - "8080:8080"
    stop_grace_period: 1m30s
    volumes:
      - /var/run/docker.sock:/var/run/docker.sock
    deploy:
      placement:
        constraints: [node.role == manager]

networks:
  frontend:
  backend:

volumes:
  db-data:

First deploy it, and then we will look more deeply into the details:

$ docker stack deploy --compose-file docker-stack.yml vote

Creating network vote_frontend
Creating network vote_backend
Creating network vote_default
Creating service vote_vote
Creating service vote_result
Creating service vote_worker
Creating service vote_redis
Creating service vote_db

to verify your stack has deployed, use docker stack services vote

$ docker stack services vote

ID            NAME         MODE        REPLICAS  IMAGE
25wo6p7fltyn  vote_db      replicated  1/1       postgres:9.4
2ot4sz0cgvw3  vote_worker  replicated  1/1       dockersamples/examplevotingapp_worker:latest
9faz4wbvxpck  vote_redis   replicated  2/2       redis:alpine
ocm8x2ijtt88  vote_vote    replicated  2/2       dockersamples/examplevotingapp_vote:before
p1dcwi0fkcbb  vote_result  replicated  2/2       dockersamples/examplevotingapp_result:before

If you take a look at docker-stack.yml, you will see that the file defines

  • vote container based on a Python image
  • result container based on a Node.js image
  • redis container based on a redis image, to temporarily store the data.
  • .NET based worker app based on a .NET image
  • Postgres container based on a postgres image

The Compose file also defines two networks, front-tier and back-tier. Each container is placed on one or two networks. Once on those networks, they can access other services on that network in code just by using the name of the service. Services can be on any number of networks. Services are isolated on their network. Services are only able to discover each other by name if they are on the same network. To learn more about networking check out the Networking Lab.

Take a look at the file again. You'll see it starts with

version: "3"

It's important that you use version 3 of compose files, as docker stack deploy won't support use of earlier versions. You will see there's also a services key, under which there is a separate key for each of the services. Such as:

  vote:
    image: dockersamples/examplevotingapp_vote:before
    ports:
      - 5000:80
    networks:
      - frontend
    depends_on:
      - redis
    deploy:
      replicas: 2
      update_config:
        parallelism: 2
      restart_policy:
        condition: on-failure

The image key there specifies which image you can use, in this case the image dockersamples/examplevotingapp_vote:before. If you're familiar with Compose, you may know that there's a build key, which builds based on a Dockerfile. However, docker stack deploy does not suppport build, so you need to use pre-built images.

Much like docker run you will see you can define ports and networks. There's also a depends_on key which allows you to specify that a service is only deployed after another service, in this case vote only deploys after redis.

The deploy key is new in version 3. It allows you to specify various properties of the deployment to the Swarm. In this case, you are specifying that you want two replicas, that is two containers are deployed on the Swarm. You can specify other properties, like when to restart, what healthcheck to use, placement constraints, resources, etc.

6.5.2.2.1. Test run

Now that the app is running, you can go to http://localhost:5000 to see:

Click on one to vote. You can check the results at http://localhost:5001.

NOTE: If you are running this tutorial in a cloud environment like AWS, Azure, Digital Ocean, or GCE you will not have direct access to localhost or 127.0.0.1 via a browser. A work around for this is to leverage ssh port forwarding. Below is an example for Mac OS. Similarly this can be done for Windows and Putty users.

$ ssh -L 5000:localhost:5000 <ssh-user>@<CLOUD_INSTANCE_IP_ADDRESS>

6.5.2.3. Customize the app

In this step, you will customize the app and redeploy it. We've supplied the same images but with the votes changed from Cats and Dogs to Java and .NET using the after tag.

6.5.2.3.1. Change the images used

Going back to docker-stack.yml, change the vote and result images to use the after tag, so they look like this:

  vote:
    image: dockersamples/examplevotingapp_vote:after
    ports:
      - 5000:80
    networks:
      - frontend
    depends_on:
      - redis
    deploy:
      replicas: 2
      update_config:
        parallelism: 2
      restart_policy:
        condition: on-failure
  result:
    image: dockersamples/examplevotingapp_result:after
    ports:
      - 5001:80
    networks:
      - backend
    depends_on:
      - db
    deploy:
      replicas: 2
      update_config:
        parallelism: 2
        delay: 10s
      restart_policy:
        condition: on-failure

6.5.2.3.2. Redeploy

Redeployment is the same as deploying

docker stack deploy --compose-file docker-stack.yml vote

6.5.2.3.3. Another test run

Now take it for a spin again. Go to the URLs you used in section deploying-the-app and see the new votes.

6.5.2.3.4. Remove the stack

Remove the stack from the swarm.

docker stack rm vote

6.5.2.4. Next steps

Now that you've built some images and pushed them to Docker Cloud, and learned the basics of Swarm mode, you can explore more of Docker by checking out the documentation. And if you need any help, check out the Docker Forums or StackOverflow.

Copyright © MinGRn 2018 Base On Docker v18.09 all right reserved,powered by Gitbook最近修订时间: 2019-03-30

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