DevOps-Deployment-Mini

Topics:

  • Installing Docker
  • Building Docker images
  • Testing Docker containers

Description

For this mini lab, we'll be getting Docker installed locally as well as using it to build an image and container. While this exercise isn't strictly related to deployment itself (since an actual production deployment process would have you deploy a whole bunch of containers instead of just a single one), it's good practice to work with a tool that sits within the overarching deployment workflow. We'll be creating an image of a node.js app you guys worked on: the old node hangman game! By the end of this mini lab, you'll have a docker container hosting your hangman server instead of having it run on your machine locally (though, strictly speaking it will still just be running on your machine, just within a container environment).

There won't be much in the way of discovery or figuring stuff out on your own in this lab. Docker containers are complex under the hood, and letting you guys loose to figure stuff out on your own would most likely leave you all quite confused. For the non-stretch problem tasks, you'll just be following step-by-step instructions to get things up and running. If you finish early (and you probably will), take the opportunity to 'dockerize' some other projects you've worked on /built using the flow you've just practiced.

Tasks

You'll notice that the node hangman server file has already been included in this repo. First off, we'll need to create an image of our node server. An image is essentially a snapshot of the files and environment that our application is running in. It's a read-only file that you download or create. The nice thing is that there are many images of popular software, tools, and distributions that have already created, and which we can extend our own images off of. We build an image by specifying instructions inside of a Dockerfile, which Docker then uses to build our image. That image then gets placed inside of a Docker container, which executes the image, thereby running the application that we placed inside it, all within the exact same environment in which that application was developed!

Downloading Docker

The first thing you'll need to do is install the proper Docker executable for your operating system environment. We'll be using the Community Edition.

  • The OSX install page can be found here
  • The Windows install page can be found here
  • The Ubuntu install page can be found here If you're on some other Linux distro, you can find installation information here. Once you've installed Docker and ensured that it is working correctly on your machine, sign up for a Docker account as well. You'll need your Docker ID going forward.

Creating a Dockerfile

So the first thing we need to do is create our Dockerfile. An empty one has already been provided for you. Open it up in a text editor. The first thing put in our Dockerfile is:

FROM node:8.7

This specifies that we want our image to extend the node version 8.7 Docker image which has already been created by the node.js maintainers.

Next, we'll specify a working directory within our image's file structure to hold the application code inside our image. This will serve as the working directory of your application:

WORKDIR /

Since we're building off of the node 8.7 image, NPM is available, so the next thing we'll do is install our node app dependencies inside our image using the npm binary. We'll first need to copy our package.json and package-lock.json files into our image like so:

COPY package.json package-lock.json ./

RUN npm install

To bundle your app's source code inside the docker image, copy the rest of the contents:

COPY . .

The hangman server binds to port 8080, so we'll need to use the EXPOSE command to have the port mapped by the docker daemon:

EXPOSE 8080

Lastly, we define the command to run our hangman server, which is simply npm start, which runs node server.js:

CMD ["npm", "start"]

Our finished dockerfile should look like this:

FROM node:8.7

WORKDIR /

COPY package.json package-lock.json ./

RUN npm install

COPY . .

EXPOSE 8080
CMD ["npm", "start"]

Building the Image

With our Dockerfile complete, we're ready to build our image with Docker. We'll run the following command to do so:

$ docker build -t <your docker username>/devops-deployment-mini .

Your image will now be listed by Docker when you run the command docker images.

Running the Image

Now, we'll run the image we just built with:

$ docker run -p 49160:8080 -d <your docker username>/devops-deployment-mini

The -p 49160:8080 bit specifies the mapping between the port 8080 inside the container with a port on your local machine, in this case 49160.

The docker run command should have printed a long hash; that is your container ID. Use that to run docker logs <container ID> to see the output of your node server.

If you need to go inside the container, you can use the exec command like so:

$ docker exec -it <container ID> /bin/bash

Testing the Image

To test the image running on your newly-created container, we can use curl to hit the endpoint that our container exposed (you should have curl installed on your machine at this point; if you don't, go install it).

We can query the root route of our hangman server to see what we have guessed correctly as well as the letters we have guessed so far with:

curl -X GET http://localhost:49160

We can post a guess to our hangman server with the command:

curl -H "Content-Type: application/json" -X POST -d '{"letter":"s"}' http://localhost:49160/guess

That's it! You've successfully containerized a node app!

Further Reading

Of course, there's tons of information on Docker and its inner workings that we haven't touched on here in this mini lab. Some great resources to read in order to dig into this topic a bit more are the official docs This article also does a great job of motivating why Docker is such an important infrastructural technology, along with defining many of the Docker buzzwords and terminology. If you don't want to just read, try containerizing some other projects you've built using this same flow you just practiced!