Introduction to Docker and Singularity

Introduction to Docker
8 Topics
Background about Docker
Docker components
Docker vocabulary
Container Setup explained
Basics of the Docker images
What is Containerization?
Advantages of Docker
Typical use cases
Using existing images
13 Topics
Explore Docker hub
Exercise on getting images
Get tools from Biocontainers
List docker images
Starting an image with docker run
Run container as daemon
Check containers status via docker ps
Clean up the containers and the images
Execute a process in running container
Summary
Volumes
Excercise with volumes
Ports
Docker recipes: build your own images
12 Topics
Building the recipes for images
More advanced image building
Building cache
Tagging the images
Starting the build
More instructions for the recipes
One tool, one image or some tools, one image
General recommendations
Dockerfile tips
Getting an image to Docker Hub
Inspecting Dockerfiles created by other parties
Using Biocontainers and Bioconda for bioinformatics tools
Introduction to Singularity
6 Topics
Background about Singularity
Strengths and Weaknesses
Singularity Architecture
Getting started
Singularity’s Image Cache
Using existing Singularity images
Run and execute Singularity images
6 Topics
Using the Singularity containers to run commands
Files in Singularity containers
Binding local folders (aka volumes)
Using Docker images with Singularity
Run from sandbox container or remotely
Troubleshooting options
Building Singularity images
4 Topics
Building Singularity images
Change the image via sandbox
Using singularity recipes
Remotely building
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Building Singularity images

Introduction to Docker and Singularity Building Singularity images Building Singularity images

Introduction

As a platform that is widely used in the scientific/research software and HPC communities, Singularity provides great support for reproducibility. If you build a Singularity image for some scientific software, it’s likely that you and/or others will want to be able to reproduce exactly the same environment again. Maybe you want to verify the results of the code or provide a means that others can use to verify the results to support a paper or report. Maybe you’re making a tool available to others and want to ensure that they have exactly the right version/configuration of the code.

Similarly to Docker and many other modern software tools, Singularity follows the “Configuration as code” approach and a container configuration can be stored in a file which can then be committed to your version control system alongside other code. Assuming it is suitably configured, this file can then be used by you or other individuals (or by automated build tools) to reproduce a container with the same configuration at some point in the future.

Different approaches to building images

There are various approaches to building Singularity images. We highlight two different approaches and focus on one of them:

  • Building within a sandbox: You can build a container interactively within a sandbox environment. This means you get a shell within the container environment and install and configure packages and code as you wish before exiting the sandbox and converting it into a container image.
  • Building from a Singularity Definition File: This is Singularity’s equivalent to building a Docker container from a Dockerfile and we’ll discuss this approach in this section.

You can take a look at Singularity’s “Build a Container” documentation for more details on different approaches to building containers.

As soon as you need to build an image, you’d need to start a job on the cluster.

Build from Registries

  • Docker Hub

https://hub.docker.com/r/biocontainers/fastqc

singularity build fastqc-0.11.9_cv7.sif docker://biocontainers/fastqc:v0.11.9_cv7
  • Biocontainers

Via quay.io

https://quay.io/repository/biocontainers/fastqc

singularity build fastqc-0.11.9.sif docker://quay.io/biocontainers/fastqc:0.11.9--0

Via Galaxy project prebuilt images

singularity pull --name fastqc-0.11.9.sif https://depot.galaxyproject.org/singularity/fastqc:0.11.9--0
  • Docker Daemon (local Docker image) singularity build fastqc-web-0.11.9.sif docker-daemon://fastqc-0.11.9--0

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