This tutorial will concentrate on how to build a custom Docker image based on Ubuntu with Apache service installed. The whole process will be automated using a Dockerfile.

Docker images can be automatically built from text files, named Dockerfiles. A Docker file contains step-by-step ordered instructions or commands used to create and configure a Docker image.

Requirements

Basically, a Docker file contains various instructions in order to build and configure a specific container based on your requirements. The following instructions are the most used, some of them being mandatory:

FROM = Mandatory as the first instruction in a Docker file. Instructs Docker to pull the base image from which you are building the new image. Use a tag to specify the exact image from which you are building:

Ex: FROM ubuntu:20.04

MAINTAINER = Author of the build image RUN = This instruction can be used on multiple lines and runs any commands after a Docker image has been created. CMD = Run any command when the Docker image is started. Use only one CMD instruction in a Dockerfile. ENTRYPOINT = Same as CMD but used as the main command for the image. EXPOSE = Instructs the container to listen on network ports when running. The container ports are not reachable from the host by default. ENV = Set container environment variables. ADD = Copy resources (files, directories, or files from URLs).

Step 1: Creating or Writing Dockerfile Repository

1. First, let’s create some kind of Dockerfile repositories in order to reuse files in the future to create other images. Make an empty directory somewhere in /var partition where we will create the file with the instructions that will be used to build the newly Docker image.

# mkdir -p /var/docker/ubuntu/apache # touch /var/docker/ubuntu/apache/Dockerfile

2. Next, start editing the file with the following instructions:

# vi /var/docker/ubuntu/apache/Dockerfile

Dokerfile excerpt:

FROM ubuntu MAINTAINER your_name <[email protected]> RUN apt-get -y install apache2 RUN echo “Hello Apache server on Ubuntu Docker” > /var/www/html/index.html EXPOSE 80 CMD /usr/sbin/apache2ctl -D FOREGROUND

Now, let’s go through the file instructions:

The first line tells us that we are building from an Ubuntu image. If no tag is submitted, say 14:10 for example, the latest image from Docker Hub is used.

On the second line, we’ve added the name and email of the image creator. Next two RUN lines will be executed in the container when building the image and will install Apache daemon and echo some text into the default apache web page.

The EXPOSE line will instruct the Docker container to listen on port 80, but the port will be not available to outside. The last line instructs the container to run Apache service in the foreground after the container is started.

3. The last thing we need to do is to start creating the image by issuing the below command, which will locally create a new Docker image named ubuntu-apache based on the Dockerfile created earlier, as shown in this example:

# docker build -t ubuntu-apache /var/docker/ubuntu/apache/

4. After the image has been created by Docker, you can list all available images and identify your image by issuing the following command:

# docker images

Step 2: Run the Container and Access Apache from LAN

5. In order to run the container continuously (in the background) and access the container exposed services (ports) from the host or other remote machine in your LAN, run the below command on your host terminal prompt:

# docker run -d -p 81:80 ubuntu-apache

Here, the -d option runs the ubuntu-apache container in background (as a daemon) and the -p option maps the container port 80 to your localhost port 81. Outside LAN access to Apache service can be reached through port 81 only.

Netstat command will give you an idea about what ports the host is listening to.

After the container has been started, you can also run docker ps command to view the status of the running container.

6. The webpage can be displayed on your host from the command line using curl utility against your machine IP Address, localhost, or docker net interface on port 81. Use IP command line to show network interface IP addresses.

# ip addr [List nework interfaces] # curl ip-address:81 [System Docker IP Address] # curl localhost:81 [Localhost]

7. To visit the container webpage from your network, open a browser at a remote location and use HTTP protocol, the IP Address of the machine where the container is running, followed by port 81 as illustrated on the below image.

http://ip-address:81

8. To get an inside of what processes are running inside the container issue the following command:

# docker ps # docker top <name or ID of the container>

9. To stop the container issue docker stop command followed by the container ID or name.

# docker stop <name or ID of the container> # docker ps

10. In case you want to assign a descriptive name for the container use the --name option as shown in the below example:

# docker run --name my-www -d -p 81:80 ubuntu-apache # docker ps

Now you can reference the container for manipulation (start, stop, top, stats, etc) only by using the assigned name.

# docker stats my-www

Step 3: Create a System-wide Configuration File for Docker Container

11. On CentOS/RHEL you can create a systemd configuration file and manage the container as you normally do for any other local service.

For instance, create a new systemd file named, let’s say, apache-docker.service using the following command:

# vi /etc/systemd/system/apache-docker.service

apache-docker.service file excerpt:

[Unit] Description=apache container Requires=docker.service After=docker.service [Service] Restart=always ExecStart=/usr/bin/docker start -a my-www ExecStop=/usr/bin/docker stop -t 2 my-www [Install] WantedBy=local.target

12. After you finish editing the file, close it, reload the systemd daemon to reflect changes and start the container by issuing the following commands:

# systemctl daemon-reload # systemctl start apache-docker.service # systemctl status apache-docker.service

This was just a simple example of what you can do with a simple Dockerfile but you can pre-build some pretty sophisticated applications that you can fire-up in just a matter of seconds with minimal resources and effort.

Further Reading:

Part 4: How to Monitor Docker Containers in Linux