Dockerize MongoDB
Introduction
In this example, we are going to learn how to build a Docker image with MongoDB pre-installed. We’ll also see how to push
that image to the Docker Hub registry and share it with others!
Note: This guide will show the mechanics of building a MongoDB container, but you will probably want to use the official image on Docker Hub
Using Docker and containers for deploying MongoDB instances will bring several benefits, such as:
- Easy to maintain, highly configurable MongoDB instances;
- Ready to run and start working within milliseconds;
- Based on globally accessible and shareable images.
Note: If you do not like
sudo
, you might want to check out Giving non-root access.
Creating a Dockerfile for MongoDB
Let’s create our Dockerfile
and start building it:
$ nano Dockerfile
Although optional, it is handy to have comments at the beginning of a Dockerfile
explaining its purpose:
# Dockerizing MongoDB: Dockerfile for building MongoDB images # Based on ubuntu:latest, installs MongoDB following the instructions from: # http://docs.mongodb.org/manual/tutorial/install-mongodb-on-ubuntu/
Tip:
Dockerfile
s are flexible. However, they need to follow a certain format. The first item to be defined is the name of an image, which becomes the parent of your Dockerized MongoDB image.
We will build our image using the latest version of Ubuntu from the Docker Hub Ubuntu repository.
# Format: FROM repository[:version] FROM ubuntu:latest
Note: Although Ubuntu systems have MongoDB packages, they are likely to be outdated. Therefore in this example, we will use the official MongoDB packages.
We will begin with importing the MongoDB public GPG key. We will also create a MongoDB repository file for the package manager.
# Installation: # Import MongoDB public GPG key AND create a MongoDB list file RUN apt-key adv --keyserver hkp://keyserver.ubuntu.com:80 --recv EA312927 RUN echo "deb http://repo.mongodb.org/apt/ubuntu $(cat /etc/lsb-release | grep DISTRIB_CODENAME | cut -d= -f2)/mongodb-org/3.2 multiverse" | tee /etc/apt/sources.list.d/mongodb-org-3.2.list
After this initial preparation we can update our packages and install MongoDB.
# Update apt-get sources AND install MongoDB RUN apt-get update && apt-get install -y mongodb-org
Tip: You can install a specific version of MongoDB by using a list of required packages with versions, e.g.:
RUN apt-get update && apt-get install -y mongodb-org=3.0.1 mongodb-org-server=3.0.1 mongodb-org-shell=3.0.1 mongodb-org-mongos=3.0.1 mongodb-org-tools=3.0.1
MongoDB requires a data directory. Let’s create it as the final step of our installation instructions.
# Create the MongoDB data directory RUN mkdir -p /data/db
Lastly we set the ENTRYPOINT
which will tell Docker to run mongod
inside the containers launched from our MongoDB image. And for ports, we will use the EXPOSE
instruction.
# Expose port 27017 from the container to the host EXPOSE 27017 # Set usr/bin/mongod as the dockerized entry-point application ENTRYPOINT ["/usr/bin/mongod"]
Now save the file and let’s build our image.
Note: The full version of this
Dockerfile
can be found here.
Building the MongoDB Docker image
With our Dockerfile
, we can now build the MongoDB image using Docker. Unless experimenting, it is always a good practice to tag Docker images by passing the --tag
option to docker build
command.
# Format: docker build --tag/-t <user-name>/<repository> . # Example: $ docker build --tag my/repo .
Once this command is issued, Docker will go through the Dockerfile
and build the image. The final image will be tagged my/repo
.
Pushing the MongoDB image to Docker Hub
All Docker image repositories can be hosted and shared on Docker Hub with the docker push
command. For this, you need to be logged-in.
# Log-in $ docker login Username: ..
# Push the image # Format: docker push <user-name>/<repository> $ docker push my/repo The push refers to a repository [my/repo] (len: 1) Sending image list Pushing repository my/repo (1 tags) ..
Using the MongoDB image
Using the MongoDB image we created, we can run one or more MongoDB instances as daemon process(es).
# Basic way # Usage: docker run --name <name for container> -d <user-name>/<repository> $ docker run -p 27017:27017 --name mongo_instance_001 -d my/repo # Dockerized MongoDB, lean and mean! # Usage: docker run --name <name for container> -d <user-name>/<repository> --noprealloc --smallfiles $ docker run -p 27017:27017 --name mongo_instance_001 -d my/repo --smallfiles # Checking out the logs of a MongoDB container # Usage: docker logs <name for container> $ docker logs mongo_instance_001 # Playing with MongoDB # Usage: mongo --port <port you get from `docker ps`> $ mongo --port 27017 # If using docker-machine # Usage: mongo --port <port you get from `docker ps`> --host <ip address from `docker-machine ip VM_NAME`> $ mongo --port 27017 --host 192.168.59.103
Tip: If you want to run two containers on the same engine, then you will need to map the exposed port to two different ports on the host
# Start two containers and map the ports $ docker run -p 28001:27017 --name mongo_instance_001 -d my/repo $ docker run -p 28002:27017 --name mongo_instance_002 -d my/repo # Now you can connect to each MongoDB instance on the two ports $ mongo --port 28001 $ mongo --port 28002
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Licensed under the Apache License, Version 2.0.
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https://docs.docker.com/v1.13/engine/examples/mongodb/