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HCC Deployed Conda Environments

This repository holds configuration files to control the deployment of software via conda environments on HCC resources. The configuration, testing, and deployment is done using the Anaconda Project software. Environments are defined via yaml configuration files. Each environment may list one or more packages needed to specify what to install, any other needed software, particular versions of dependencies, python version(s), etc.

The minimal set of packages (and dependencies) can then be "locked" into a specific set of packages and versions needed to exactly reproduce the environment in another location. This allows identical conda environments to be programmatically created on all HCC resources.

The structure of the repository is:

  • README.md - this readme
  • anaconda-project.yml.edu - an example project configuration file
  • scripts/ - helper scripts for CI and module generation
  • packages/ - the main body of the repository

Each directory under packages/ is an Anaconda Project directory. Typicially that will be a particular software package. For example, packages/foo for the software package "foo". Inside packages/foo, the anaconda-project.yml file will be created to define environments to create. For example, you may create environments named foo-1.0 and foo-1.1 to have different versions of the package available. If the package is Python-based, you could create foo-1.0-py27 for a Python 2.7 version, foo-1.0-py36 for Python 3.6, etc. Once the environment has been minimally defined, it is then "locked". This generates an anaconda-project-lock.yml file with the specific versions needed to identicially recreate the environment. The new environment(s) can then be tested locally. When testing is complete, the two yaml files are then added to a new git branch. When the branch is pushed, a CI job will run to test the new environment. After the branch is merged, a CI job will run on each cluster to deploy the new environment(s).

How to add a new package

Setup your environment

If you have not already, you will need to download and install Ananconda. Update Conda to the latest version and install the anaconda-project package:

conda update -y conda
conda install -y anaconda-project

Verify the anaconda-project command works by running anaconda-project --version:

[fedora@adam-build-host ~]$ anaconda-project --version
0.8.2

The anaconda-project command is used to do all manipulation, and provides subcommands to define environments, instantiate them, etc. Run anaconda-project -h to see all the available subcommands.

Set the channel order to include the hcc channel, along with bioconda and conda-forge, in the correct order:

conda config --add channels conda-forge
conda config --add channels bioconda
conda config --add channels hcc

NOTE: Starting with anaconda project 0.11.0, the default behavior is to ignore channels in the conda config files, requiring all channels to be explicitly listed in anaconda-project.yml. To restore the old behavior, set the enviroment variable ANACONDA_PROJECT_DISABLE_OVERRIDE_CHANNELS, i.e.

export ANACONDA_PROJECT_DISABLE_OVERRIDE_CHANNELS=1

Add the package

For this example, we'll be adding the blast package, version 2.7.1. Create a directory under packages to hold the yaml files:

mkdir packages/blast

Copy the example yaml file (drop the .example from the filename) into that directory and cd into it:

cp anaconda-project.yml.example packages/blast/anaconda-project.yml
cd packages/blast

Open the anaconda-project.yml in an editor and change the name and description fields as appropriate.

Creating environments using anaconda-project is similar to using conda. Each environment is given a name and a list of required packages and versions to be installed. Note that the environment name cannot contain spaces. This will break the script that parses those names for testing and deployment. Create an environment called blast-2.7.1 and specify version 2.7.1 is required:

anaconda-project add-env-spec -n blast-2.7.1 blast=2.7.1

Since this is the first environment added, it print a message saying the env_specs section is empty and prompt to add a new spec. Answer yes:

anaconda-project.yml: The env_specs section is empty.
Add an environment spec to anaconda-project.yml? y

It will then "solve" the environment (resolving dependencies, etc.) and create it under a new envs subdirectory. You should see the normal output as conda creates a new environment, followed by the last line saying the environment was added:

Added environment blast-2.7.1 to the project file.

However, there is an idiosyncrasy to anaconda-project when it creates an environment for the first time. It also creates an environment called default with the anaconda package as a requirement. You can see this by running the command to list all envs:

[fedora@adam-build-host blast]$ anaconda-project list-env-specs
Environments for project: /home/fedora/anaconda-project-test/packages/blast

Name         Description
====         ===========
blast-2.7.1
default      Default environment spec for running commands

This default environment must be removed before committing the new yaml files. To do this, run the command to delete the environment:

[fedora@adam-build-host blast]$ anaconda-project remove-env-spec -n default
Nothing to clean up for environment 'default'.
Removed environment default from the project file.

Verify it's no longer present by running the list envs command again:

[fedora@adam-build-host blast]$ anaconda-project list-env-specs
Environments for project: /home/fedora/anaconda-project-test/packages/blast

Name         Description
====         ===========
blast-2.7.1

Note that this is only necessary when adding a package for the first time. When adding additional versions, etc. anaconda-project will not recreate the default environment.

Adding an MPI-based package

Packages from conda-forge support using an external MPI library via "dummy" openmpi and mpich packages. Currently only packages that were built using openmpi 4.1 are supported on HCC clusters. At install time, an HCC-built dummy openmpi 4.1 package is used instead of the conda-forge openmpi. This dummy package is empty, but allows the solver to produce correct environments. The system-wide openmpi/4.1 provided via module is then used to run the package's binaries in order to correctly use the high-speed fabric, interface with SLURM, etc. When adding the enviroment spec, the package spec "openmpi=4.1.*=external_*" is used to specify this dummy package. For example, to add an environment for cp2k 8.2.0 (with python 3.8), run

anaconda-project add-env-spec -n cp2k-8.2.0 cp2k=8.2.0 python=3.8 "openmpi=4.1.*=external_*"

Test the environment

The new environment is created in the envs subdirectory. To test it, run source activate along with the full path to the environment directory:

[fedora@adam-build-host blast]$ source activate $PWD/envs/blast-2.7.1

Run whatever commands you think are necessary to verify everything is correct, i.e.

(blast-2.7.1) [fedora@adam-build-host blast]$ blastn -version
blastn: 2.7.1+
 Package: blast 2.7.1, build Mar 29 2018 05:00:23

Lock the environment

Although the environment was created by giving a single package and version requirement, that's not sufficient to completely define it. Almost every package has at least one dependency; many have several or more. The version of these dependencies can change over time; creating a new environment with the same package tomorrow can result in different behavior if the dependencies have changed. To avoid this, the environment can be "locked". This creates a complete list of all dependencies and versions needed to identicially re-create the environment elsewhere and at any time. By locking the environment, we guarantee identical and reproducible behavior. To lock the environment, run

anaconda-project lock

You should see output similar to the following:

Updating locked dependencies for env spec blast-2.7.1...
Resolving conda packages for linux-64
Changes to locked dependencies for blast-2.7.1:
  platforms:
+   linux-64
  packages:
+   linux-64:
+     blast=2.7.1=boost1.64_3
<< long list of dependencies >>
Added locked dependencies for env spec blast-2.7.1 to anaconda-project-lock.yml.
Project dependencies are locked.

There will also be a newly created anaconda-project-lock.yml file that contains the complete environment specification.

Create a branch and commit the yaml files

The two yaml files are what get committed to git. Create a new branch, using the package name and version for clarity:

git checkout -b blast-2.7.1

Change directory back to the top-level of the repo, and add and commit the new files:

cd ../..
git add packages/blast/anaconda-project-lock.yml packages/blast/anaconda-project.yml
git commit -m "Added blast 2.7.1."

Then push your new branch to gitlab:

git push origin blast-2.7.1

A CI test job will run to test creating the environment from scratch, along with a few other sanity checks. If the test fails, add any fixes to your branch and do a push which will trigger another build. Rinse and repeat until everything works.

Create a merge request

Assuming the test job passes, create a merge request on the repository page to merge your branch into master. Upon merge, another CI job will be triggered. This will deploy the new environment(s) on all two HCC machines under /util/opt/anaconda/deployed-conda-envs. You can then create a module file adding the bin/ path of the new environment.

Cleaning up and re-creating an environment later

After the yaml files have been merged into master, it's good practice to clean up the created environments. To do so, run

anaconda-project clean

in the package directory. This will remove all existing envrionments under the envs directory, and lastly the envs directory itself.

If you need to re-create the environment later, use the anaconda-project prepare command along with the environment name to create. For example, assuming you're in the blast project directory and wish to re-create the blast-2.7.1 environment, run

anaconda-project prepare --env-spec blast-2.7.1

To clean up all environments in all project directories, from the root of the repo, run

./scripts/clean_all_envs.sh

Adding a version, updating the existing environment(s), etc.

If you are adding a new version to an existing package or updating an existing environment in some other way, you can simply run the relevant anaconda-project command(s), followed by the lock command. For example, suppose the blast package with version 2.7.1 has already been added and you wish to add version 2.6.0. The two yaml files in packages/blast directory thus already exist. In the packages/blast directory, run

anaconda-project add-env-spec -n blast-2.6.0 blast=2.6.0
anaconda-project lock

to add a new environment with the 2.6.0 version and update the lock file. Proceed as above to create a new branch, add and commit the updated files, create a merge request, etc.

Skip deploying a package on a particular resource

By default, a package and its environments are deployed to all two HCC machines. There may be instances where it is desireable to not deploy a particular package to a particular machine. To do so, create a file called SKIP_DEPLOY alongside the yaml files in the package's directory. Add the names of the machines to skip deployment on (Crane, Rhino) to the file, one name per line.

Skip re-creating already existing environment

By default, when updating an existing environment with new version or new dependency, all existing environments from that package are re-created again. Sometimes, some older versions have dependencies that are not anymore available on the main conda channels. Re-creating these environments will cause errors. To avoid this, create a file called SKIP_PREPARE alongside the yaml files in the package's directory. Add the names of the environments that shouldn't be re-created to the file, one name per line.

Skip running commands

By default, all commands are run, even for environments that are listed in SKIP_PREPARE. To skip commands, create one or both files named SKIP_COMMANDS_TEST and/or SKIP_COMMANDS_DEPLOY. The former will skip commands during the CI test stage, and the latter will skip them during the deploy on the clusters. This can be useful when downloading a large database, for example, to only run that command during the final deploy. Add the commands to skip, one command name per line.

Generating a Lmod file

The repository includes a helper script to generate a Lmod lua file, scripts/generate_luafile.py. You will need to pass it a package name and the path to an existing conda environment under the packages envs directory. (See the section above on re-creating an environment if it doesn't exist locally). For example, to generate an Lmod file for blast version 2.7.1, from the root of the repository, run

./scripts/generate_luafile.py blast ./packages/blast/envs/blast-2.7.1

It will create a file with the environment name. The default location to output the file is in the package directory, i.e. packages/blast for this example. Use the -o option to the script to change the output directory. Note that the file is named using the environment name for clarity. You will need to rename it when copying to the various {crane,rhino}-modules repos to match the convention used there. Some manual editing of the generated file may still be necessary. For example, conda package metadata doesn't include Keyword or Category information, so that will need to be added to the generated file.

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