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Containers build system for the Scilus ecosystem

Build system for all docker containers of the Scilus ecosystem. The inventory of containers is still being updated, here are the ones that are currently available :


First setup

Before running any docker commands, ensure the following docker extensions are available on your system at the prescribed versions :

  • buildx : v0.11 or greater
    • To get your current version, run : docker buildx version
    • Follow instructions here to update following your operation system
  • buildkit : v0.11.6 or greater
    • To get your current version, run : docker buildx inspect --bootstrap
    • To update the version, create a new builder instance for buildx using the version you want as the moby/buildkit image tag

Create the builder instance

The build system uses the docker-container backend instead of the default docker build. Create your builder and make it the default one with the following command :

docker buildx create \
    --use \
    --driver docker-container \
    --driver-opt "image=moby/buildkit:v0.11.6"

The builder instance will appear as a container in the docker interface under a randomly generated name (you can check it using docker ps) and should not be deleted. If it is, local cache will be erased; a new builder can be created by re-running the command above.

Building containers

To build an image, launch the following command at the root directory of the repository :

docker buildx bake \
    -f versioning.hcl \
    -f docker-bake.hcl \
    <target>

with a target in : dmriqcpy, scilpy, scilus, scilus-flows. Follow this link for more information on the build system.

To prevent some parts of the build system to execute - conserve remote cache access and accelerate builds - the build tree was fragmented into 3 chunks : dependencies, scilus and flows. This procedure uses 3 environment variables :

  • DEPS_TAG : fix the dependencies image tag used. When building scilus-deps, this outputs an image named : scilus/scilus-deps:<DEPS_TAG> into the local docker repository. When building scilus, the base image is overridden to point to scilus/scilus-deps:<DEPS_TAG> and building of dependencies is skipped.

  • SCILUS_TAG : fix the scilus image tag used. When building scilus, this outputs an image named : scilus/scilus:<SCILUS_TAG> into the local docker repository. When building scilus-flows, the base image is overridden to point to scilus/scilus:<SCILUS_TAG> and building of dependencies and scilus are skipped.

  • FLOWS_TAG : fix the scilus-flows image tag used. When building scilus-flows, this outputs an image named : scilus/scilus-flows:<FLOWS_TAG> into the local docker repository.

When using this procedure, images must be pushed to a remote repository before they can be used in subsequent builds, since buildx cannot fetch images from the local docker repository. See the following example :

This examples builds each chunk of the scilus image stack separately. Each intermediary scilus result is pushed to dockerhub in order to be used in the subsequent build steps :

// Build dependencies and publish the image as scilus/scilus-deps:dev0
DEPS_TAG=dev0 docker buildx bake -f versioning.hcl -f docker-bake.hcl scilus-deps
docker push scilus/scilus-deps:dev0

// Build scilus from scilus/scilus-deps:dev0 and publish the image as scilus/scilus:dev1
DEPS_TAG=dev0 SCILUS_TAG=dev1 docker buildx bake -f versioning.hcl -f docker-bake.hcl scilus
docker push scilus/scilus:dev1

/ Build scilus-flows from scilus/scilus:dev1 and publish the image as scilus/scilus-flows:dev2
SCILUS_TAG=dev1 FLOWS_TAG=dev2 docker buildx bake -f versioning.hcl -f docker-bake.hcl scilus-flows
docker push scilus/scilus-flows:dev2

For example, building scilus with DEPS_TAG=dev0 and SCILUS_TAG=dev1 will create an imaged named scilus/scilus:dev1. To use scilus/scilus:dev1 as a base for scilus-flows, it must be pushed to dockerhub first (docker push scilus/scilus:dev1). Then a build of scilus-flows using SCILUS_TAG=dev1 and FLOWS_TAG=dev2 will results in an image named scilus/scilus-flows:dev2 based on scilus/scilus:dev1. Else, the image will be based on another version of scilus/scilus:dev1 if available on dockerhub, or the build will crash if not.**


Containers update

Container update is done via Github actions on the main repositories. Docker images are available on Dockerhub. Singularity images light enough to be stored on Github can be found in repositories releases. Follow this link for more information on the update system.


Versioning containers

Containers in the Scilus ecosystem are thouroughly versioned to ensure compatibility and for validation purposes. We do not version for all sub-dependencies that are included in the container, nor do we enforce the version of dependencies acquired via means such as apt-get.

Versions of the dependencies of interest are specified in a file at the root of the image named VERSION. Other dependencies may have been installed in the image in apt-get or pip, which can both be inspected if needs be. For python dependencies, please note that the interpreter to target is located in /usr/bin. To list packages installed in the image, assuming the python version inside it being <py_version>, execute the command :

python<py_version> -m pip list

Main containers in the build system

scilus container

The scilus containers is packaged with scilpy and dmriQCpy, as well as other external dependencies shared between scilus flows. Here is the list of dependencies installed in the container :

See versioning for information on how to verify dependencies versions inside the scilus container.


scilus-flows container

The scilus-flows container comes pre-packaged with the popular Nextflow pipelines developed in the Scilus ecosystem. Here is the list of available pipelines in the container :

They can either be called using their install location (in /scilus_flows/<pipeline name>/main.nf) or via their predefined alias (the name of the pipeline listed above, with dashes, in lowercase). For example,

docker run <scilus-flows image> tractometry-flow <args>

is equivalent to

docker run <scilus-flows image> nextflow run /scilus_flows/tractometry_flow/main.nf <args>


Singularity / Apptainer

The image for Singularity / Apptainer can be built using singularity_scilus.def with the command:

sudo apptainer build scilus_${SCILPY_VERSION}.img singularity_scilus.def.

The image is built from the Docker stored on dockerhub.

It can be used to run any SCILUS flows with the option -with-singularity scilus_${SCILPY_VERSION}.img of Nextflow.

If you use this image, please cite:

Kurtzer GM, Sochat V, Bauer MW (2017)
Singularity: Scientific containers for mobility of compute.
PLoS ONE 12(5): e0177459. https://doi.org/10.1371/journal.pone.0177459

Building the scilus-deps container

Changing some dependencies can lead to a full rebuild of the scilus image stack, which can be too intense for some computers. Some dependencies such as FSL or ANTs are even too long or take too much resources to build on default Github workers.

To build scilus-deps, we recommend a computer with at least 8 CPU threads, 32Gb of RAM, as well as an Internet connection with a large outgoing bandwidth for cache uploading to dockerhub. Once the cache is online, subsequent builds will skip those steps, making it possible to build higher level images on systems with fewer computing resources.

Note that for now, nothing is done to limit resource usage by the build system, and thus, it is possible for the build sequence to fill up all available RAM or occupy 100% of CPU cores. This could be achieved by using the Kubernetes buildx builder instance. Switching to it could be envisioned when it gets fully documented and its deployment on linux machine becomes easy enough (right now, it is a walk in the park on Windows using Docker-Desktop and a real hassle on Linux OSes).