Skip to content

lukeseawalker/aws-parallelcluster-cookbook

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

AWS ParallelCluster Cookbook

codecov Build Status

This repo contains the AWS ParallelCluster Chef cookbook used in AWS ParallelCluster.

Code structure

The root folder of the cookbook repository can be considered the main cookbook, since it contains two files: Berksfile and metadata.rb. These files are used by the CLI (build image time) and user-data.sh code to vendor the other sub-cookbooks and third party cookbooks.

The main cookbook does not contain any recipe, attribute or library. They are distributed in the functional cookbooks under the cookbooks folder defined as follows:

  • aws-parallelcluster-entrypoints is the cookbook to define the external interface, contains recipes called by AMI builder, cluster setup, cluster update, etc. The recipes in this cookbook are called directly by the CLI or CI/CD. It orchestrates invocation of recipes/resources from other cookbooks;
  • aws-parallelcluster-platform OS packages and system configuration (directories, users, services, drivers);
  • aws-parallelcluster-environment AWS services configuration and usage, such as shared file systems, directory service and network interfaces;
  • aws-parallelcluster-computefleet slurm specific scaling logic, compute fleet scripts and daemons;
  • aws-parallelcluster-awsbatch files required to support AWS Batch as scheduler;
  • aws-parallelcluster-slurm files required to support Slurm as a scheduler and its dependencies (Munge, MySQL for accounting, etc), it depends by aws-parallelcluster-computefleet;

Finally, some common code, such as source/script directories, usernames, package installer etc., are located in a cookbook which every other cookbook depend on, that is aws-parallelcluster-shared. Each cookbook hosts recipes and resources, attributes, functions, files and templates belonging to its functional area.

Every cookbook contains ChefSpec and Kitchen tests for its code. However, the code in a cookbook might require that some other code from a different cookbook not listed among dependencies, to be executed as a prerequisite (test setup phase). For this reason aws-parallelcluster-tests cookbook must depend on every other cookbook.

The test folder contains Python unit tests files and Kitchen environment files.

The kitchen folder contains utility files used when running Inspec tests locally.

The cookbooks/third-party folder contains cookbooks from marketplace. They must be regularly updated and should not be modified by hand. They have been pre-downloaded and stored in our repository to avoid contacting Chef Marketplace at AMI build time and cluster creation. You can find more information about them in the cookbooks/third-party/THIRD-PARTY-LICENSES.txt file.

Development

About ChefSpec Tests

ChefSpec is a unit testing framework for testing Chef cookbooks. It is very fast, and we use it to verify recipes with multiple branches (e.g. HeadNode vs ComputeNode) work as expected. They don't need virtual machines or cloud servers. They can be executed locally by executing:

cd cookbooks/aws-parallelcluster-platform
# run all the ChefSpec tests in a cookbook
chef exec rspec
# run a specific ChefSpec test
chef exec rspec ./spec/unit/recipes/sudo_config_spec.rb 

They are automatically executed as GitHub actions, see definition in .github/ci.yml.

About Kitchen Tests

Kitchen is used to automatically test cookbooks across any combination of platforms and test suites. It requires cinc-workstation to be installed on your environment:

brew install --cask cinc-workstation on MacOS

or

curl -L https://omnitruck.cinc.sh/install.sh | sudo bash -s -- -P cinc-workstation -v 23

Make sure you have set a locale in your local shell environment, by exporting the LC_ALL and LANG variables, for example by adding to your .bashrc or .zshrc the following and sourcing the file:

export LC_ALL=en_US.UTF-8
export LANG=en_US.UTF-8

To speed up the transfer of files when kitchens are run on ec2 instances, the transport selected is kitchen-transport-speedy. To install kitchen-transport-speedy in the kitchen embedded ruby environment please run: /opt/cinc-workstation/embedded/bin/gem install kitchen-transport-speedy.

In order to test on docker containers, you also need docker installed on your environment. Please note that not all the tests can run on docker so in any case we need to validate our recipes on EC2. You can use on_docker? condition to skip execution of some recipes steps, resource actions or controls execution on docker. Please look at "Known issues with docker" section of the README for specific issues (e.g. when running kitchen tests on non amd64 architectures).

Kitchen tests helpers

kitchen.docker.sh and kitchen.ec2.sh help you run kitchen tests virtually without any further environment setup. They are wrappers of the kitchen command, so you can pass them all the options exposed by it. See kitchen --help for more details.

You must do some initial setup on your AWS account in order to be able to use defaults from kitchen.ec2.sh. Default values are the following. Take a look at comments at the top of the script in order to understand how to use it.

: "${KITCHEN_AWS_REGION:=${AWS_DEFAULT_REGION:-eu-west-1}}"
: "${KITCHEN_KEY_NAME:=kitchen}"
: "${KITCHEN_SSH_KEY_PATH:="~/.ssh/${KITCHEN_KEY_NAME}-${KITCHEN_AWS_REGION}.pem"}"
: "${KITCHEN_AVAILABILITY_ZONE:=a}"
: "${KITCHEN_ARCHITECTURE:=x86_64}"

Both scripts can be run as follows:

kitchen.<ec2|docker>.sh <context> <kitchen parameters>

<context> is your test context, like environment-config or platform-install. For example ./kitchen.docker.sh platform-install test nvidia will execute kitchen test command, executing all the tests for which the name starts with nvidia prefix, in cookbooks/aws-parallelcluster-platform directory on docker.

It is important to keep in mind that the parameter after the kitchen action is a pattern, so it's important to choose the appropriate naming for kitchen tests suites. For instance, we can use nvidia-<context> for nvidia-related tests, so that they can be run separately or together. However, we should not have nvidia and nvidia-something tests, as we wouldn't be able to run only the first one on all OSes.

Examples of submission are:

# Run supervisord kitchen test from file kitchen.platform-install.yml in cookbooks/aws-parallelcluster-platform directory,
# for all OSes (concurrency 5) and log level debug
# Note that in this case "supervisord" is a pattern, so all the tests starting with "supervisord" string in that yaml file will be executed.
./kitchen.docker.sh platform-install test supervisord -c 5 -l debug

# Run converge phase only of kitchen from file kitchen.environment-config.yml in cookbooks/aws-parallelcluster-environment directory, for alinux2 only.
# This is useful when you want to test recipe execution only.
# Once you have executed the converge step, you can for example execute multiple times the verify step, to validate the tests you are writing.
./kitchen.ec2.sh environment-config converge efa-alinux2

# Run verify phase only from file kitchen.platform-config.yml in cookbooks/aws-parallelcluster-platform directory,
# useful if you're modifing the test logic without touching the recipes code.
./kitchen.ec2.sh platform-config verify sudo -c 5

# Login to the instance created with the converge step
./kitchen.ec2.sh platform-config login sudo-alinux2

A context must have the format $subject-$phase.

Supported phases are:

  • install (on EC2 it defaults to a bare base AMI)
  • config (on EC2 it defaults to a ParallelCluster official AMI)

It will use kitchen.${context}.yml in the specific cookbook, i.e. in cookbooks/aws-parallelcluster-$subject dir.

You can override default values by setting environment variables in a .kitchen.env.sh file to be created in the cookbook root folder. Example of .kitchen.env.sh file:

export KITCHEN_KEY_NAME=your-key  # ED25519 key type (required for Ubuntu 22)
export KITCHEN_SSH_KEY_PATH=/path/your-key.pem
export KITCHEN_AWS_REGION=eu-west-1
export KITCHEN_SUBNET_ID=subnet-xxx
export KITCHEN_SECURITY_GROUP_ID=sg-your-group
export KITCHEN_INSTANCE_TYPE=t2.large
export KITCHEN_IAM_PROFILE=test-kitchen  # required for tests with lifecycle hooks

Kitchen tests definition

The different kitchen.${context}.yml files in the functional cookbooks contain a list of Inspec tests for the different recipes and resources.

Every test specifies:

  • the run_list that is the list of recipes to be executed as preparatory steps as part of the kitchen converge phase:
    • the recipe[aws-parallelcluster-tests::setup] is a utility recipe that should be added to every test to prepare the environment and automatically execute resources and recipes listed as dependencies in the dependencies attributes.
    • the recipe[aws-parallelcluster-tests::test_resource] is a utility recipe to simplify testing of the custom resource defined in the resource attribute. Please check test_resource content to see which parameters you can pass to it.
  • the verifier with the list of controls to execute as part of the kitchen verify phase, it's possible to use regex here, it can accept regular expressions in format /regex/.
  • the node attributes that will be propagated in the test environment.
    • resource is a reserved attribute, used by test_resource recipe mentioned before.
    • dependencies is a reserved attribute, used by setup recipe mentioned before.
    • cluster structure permits to pass specific parameters to the test to simulate environment condition (i.e. dna.json configuration that should come from the CLI when executing the recipes in a real cluster)

Example of test definition:

- name: system_authentication
  run_list:
    - recipe[aws-parallelcluster-tests::setup]
    - recipe[aws-parallelcluster-tests::test_resource]
  verifier:
    controls:
      - /tag:config_system_authentication/
  attributes:
    resource: system_authentication:configure
    dependencies:
      - resource:system_authentication:setup
    cluster:
      directory_service:
        enabled: "true"
      node_type: HeadNode

When you execute a test like this with kitchen test command it will execute the recipes or resources actions specified in the run_list, including dependencies, will set cluster attributes in the environment and at the end will execute the verify steps by executing the listed controls. The kitchen test command will execute all the steps and will destroy the instance at the end. If you want to preserve the instance you can execute the step one by one, check kitchen help for more details.

Kitchen tests as GitHub actions and as part of CI/CD

As you can see in the .github/workflows/dokken-system-tests.yml we are executing both install and config recipes as GitHub actions. We execute install steps in the Kitchen Test Install (to simulate AMI build) and then re-using the container to validate the config steps, in the Kitchen Test Config.

In our daily CI/CD we build an AMI (calling the aws-parallelcluster-entrypoints::install recipe) and then execute kitchen tests on top of it.

Both CI/CD and GitHub actions use the kitchen.validate-config.yml file in the root folder to validate the config steps. If you look at it, you can see it runs all the inspec_tests from all the cookbooks by executing the controls matching the /tag:config/ regex.

verifier:
  inspec_tests:
    - cookbooks/aws-parallelcluster-awsbatch/test
    - cookbooks/aws-parallelcluster-platform/test
    - cookbooks/aws-parallelcluster-environment/test
    - cookbooks/aws-parallelcluster-computefleet/test
    ...
  controls:
    - /tag:config/

This means that if you want a specific control to be executed as part of the CI/CD or GitHub action you should use tag:config_ as prefix in the control name.

Note that not all the Inspec tests can run on GitHub and on the CI/CD because, as you can see in the kitchen.validate-config.yml, in this case the run_list is defined as follows:

_run_list: &_run_list
  - recipe[aws-parallelcluster-tests::setup]
  - recipe[aws-parallelcluster-entrypoints::init]
  - recipe[aws-parallelcluster-entrypoints::config]
  - recipe[aws-parallelcluster-entrypoints::finalize]
  - recipe[aws-parallelcluster-tests::tear_down]

without any attribute specified, so this could not match with the run_list or the attributes specified in the test definition. So before adding the tag:config_ prefix to a control name, please be sure that it can run even without specific setup.

If you want to execute some kitchen tests at the end of the build-image process, to validate that a created AMI contains what we expect, you can use the tag:install_ as prefix in the control name. They will be automatically executed by Image builder at the end of the build-image process (search for tag:install_ in the CLI code to understand the details behind this mechanism). Please note that if this test fails the build of the image will fail as well.

If you want to execute some kitchen tests as part of validate phase the build-image process without causing the build image to fail you can use the tag:testami_ as prefix. These tests will be executed when the image has already been created (search for tag:testami_ in the CLI code to understand the details behind this mechanism).

Please note that a test suite name can contain multiple tags (for instance, tag:install_tag:config_), the code search for them with a regex so it's not required to have them as prefix.

Save and reuse Docker image

When you set the environment variable KITCHEN_SAVE_IMAGE=true, a successful kitchen verify phase will lead to the Docker image being committed with the tag pcluster-${PHASE}/${INSTANCE_NAME}.

For instance, if you successfully run

./kitchen.docker.sh platform-install test directories-alinux2

an image with tag pcluster-install/directories-alinux2:latest will be saved.

To use it in a later Kitchen test, export KITCHEN_${PLATFORM}_IMAGE=<your_image>.

For instance, to reuse the image from the example above, set KITCHEN_ALINUX2_IMAGE=pcluster-install/directories-alinux2.

We are using this approach to re-use the docker image created by the Kitchen Test Install in the following Kitchen Test Config phase as part of the GitHub actions.

Save and reuse EC2 image

The procedure described above also applies to EC2, with minor differences.

  1. To keep the EC2 instance running while the image is being cooked, refrain from using kitchen test or kitchen destroy commands. Opt for kitchen verify and destroy the instance once the AMI is ready.
  2. Set KITCHEN_${PLATFORM}_AMI=<ami_id> to reuse the AMI. For instance, KITCHEN_ALINUX2_AMI=ami-nnnnnnnnnnnnn.

This is useful when you need a long list of dependencies to be installed in the AMI (e.g. Slurm recipes) to verify configuration steps.

Kitchen lifecycle hooks

Kitchen lifecycle hooks allow running commands before and/or after any phase of Kitchen tests (create, converge, verify, or destroy).

We leverage this feature in Kitchen tests to create/destroy AWS resources (see kitchen.global.yaml file.

For each phase, a generic run script executes custom ${THIS_DIR}/${KITCHEN_COOKBOOK_PATH}/test/hooks/${KITCHEN_PHASE}/${KITCHEN_SUITE_NAME}/${KITCHEN_HOOK}.sh script, if it exists.

Example.

network_interfaces Kitchen test suite in the aws-parallelcluster-environment cookbook requires a network interface to be attached to the node.

  • cookbooks/aws-parallelcluster-environment/test/hooks/config/network_interfaces/post_create.sh: creates ENI and attaches it to the instance
  • cookbooks/aws-parallelcluster-environment/test/hooks/config/network_interfaces/pre_destroy.sh: detaches and deletes ENI.

Use variables from lifecycle hooks as resource properties

In the kitchen.global.yaml we're configuring an environment.

In the environment file (i.e. test/environments/kitchen.rb), for every value to pass and for every OS, you have to define a line like: '<suite_name>-<variable_name>/<platform>' => 'placeholder'. For instance:

default_attributes 'kitchen_hooks' => {
  'ebs_mount-vol_array/alinux2' => 'placeholder',
  ...
}

These environment variables will be available to the kitchen tests as node attributes: node['kitchen_hooks']['ebs_mount-vol_array/alinux2'].

To permit to use these environment variables as parameters attributes you have to use th FROM-HOOK keyword in the test suite definition. e.g. resource: 'manage_ebs:mount {"shared_dir_array" : ["shared_dir"], "vol_array" : "FROM_HOOK-<suite_name>-<variable_name>"}'

This value will be automatically replaced, searching for the <suite_name>-<variable_name>/<platform> in the environment. You can find all the details of this mechanism in the test_resource.rb.

Note: the value of the property to be replaced must be a string even if it's an array. It's up to the post_create script to define an array in the environment.

Known issues with docker

Running kitchen tests on non amd64 architectures

Running locally kitchen tests on system with CPU architecture other than amd64 (i.e. Apple Silicon that have arm64) may run in a known dokken issue (tracked as test-kitchen/kitchen-dokken#288).

All tests will fail with messages containing errors such as:

[qemu-x86_64: Could not open '/lib64/ld-linux-x86-64.so.2](https://stackoverflow.com/questions/71040681/qemu-x86-64-could-not-open-lib64-ld-linux-x86-64-so-2-no-such-file-or-direc)

To work around the issue, please ensure that the cinc-workstation version is >= 23, as it's the first one that has a dokken version that features platform support.

Providing the correct platform configuration in ./kitchen.docker.yml :

---
driver:
  name: dokken
  platform: linux/amd64
  pull_platform_image: false # Use the local images, prevent pull of docker images from Docker Hub,
  chef_version: 18 # Chef version aligned with the one used to build the images
  chef_image: cincproject/cinc
...

is required but not enough if images for different CPU architectures already are present in the local docker cache. Local images of different architectures should be removed in order to work around the issue, then in subsequent executions dokken will pull the ones for the specified platform and use those, since there are no other than those for the correct architecture available locally.

Here are some examples to clean up local docker containers and images:

# removes running containers that may have been left dangling by previous
# executions of <your test prefix> test
docker rm \
  $(docker container stop \
    $(docker container ls -q --filter name='<your test prefix>*'))

# remove images from offending <your test prefix>
# you may want also to remove all dokken images
# (and safely remove all images, since subsequent executions will pull the
# required ones)
docker rmi \
  $(docker images --format '{{.Repository}}:{{.Tag}}' \
  | grep '<your test prefix>')

kitchen tests fail in docker_config_creds with NPE

dokken expects that ~/.docker/config.json contains an "auths" key, fails in docker_config_creds with NPE otherwise, this issue is tracked in upstream as: test-kitchen/kitchen-dokken#290

Known issues with EC2

Ubuntu22

On Ubuntu22, kitchen create keeps trying to connect to the instance via ssh indefinitely. If you interrupt it and try to run kitchen verify, you see authentication failures.

This happens because Ubuntu22 does not accept authentication via RSA key. You need to re-create a key pair using ED25519 key type.

Known issues with Berks

Kitchen doesn't see your changes

If Kitchen doesn't detect your changes, try

berks shelf uninstall ${COOKBOOK_NAME}

About python tests

Python tests are configured in tox.ini file, including paths to python files. If you move python files around, you need to fix python path accordingly.

About

The Chef cookbook used to build and bootstrap AWS ParallelCluster

Resources

License

Code of conduct

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Ruby 51.0%
  • Shell 24.1%
  • Python 14.2%
  • HTML 5.7%
  • Perl 5.0%