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Buildkite Agent Stack for Kubernetes

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Overview

A Kubernetes controller that runs Buildkite steps as Kubernetes jobs.

How does it work

The controller uses the Buildkite GraphQL API to watch for scheduled work that uses the kubernetes plugin.

When a job is available, the controller will create a pod to acquire and run the job. It converts the PodSpec in the kubernetes plugin into a pod by:

  • adding an init container to:
    • copy the agent binary onto the workspace volume
    • check that other container images pull successfully before starting
  • adding a container to run the buildkite agent
  • adding a container to clone the source repository
  • modifying the user-specified containers to:
    • overwrite the entrypoint to the agent binary
    • run with the working directory set to the workspace

The entrypoint rewriting and ordering logic is heavily inspired by the approach used in Tekton.

Architecture

sequenceDiagram
    participant bc as buildkite controller
    participant gql as Buildkite GraphQL API
    participant bapi as Buildkite API
    participant kubernetes
    bc->>gql: Get scheduled builds & jobs
    gql-->>bc: {build: jobs: [{uuid: "abc"}]}
    kubernetes->>pod: start
    bc->>kubernetes: watch for pod completions
    bc->>kubernetes: create pod with agent sidecar
    kubernetes->>pod: create
    pod->>bapi: agent accepts & starts job
    pod->>pod: run sidecars
    pod->>pod: agent bootstrap
    pod->>pod: run user pods to completion
    pod->>bapi: upload artifacts, exit code
    pod->>pod: agent exit
    kubernetes->>bc: pod completion event
    bc->>kubernetes: cleanup finished pods
Loading

Installation

Requirements

Deploy with Helm

The simplest way to get up and running is by deploying our Helm chart:

helm upgrade --install agent-stack-k8s oci://ghcr.io/buildkite/helm/agent-stack-k8s \
    --create-namespace \
    --namespace buildkite \
    --set config.org=<your Buildkite org slug> \
    --set agentToken=<your Buildkite agent token> \
    --set graphqlToken=<your Buildkite GraphQL-enabled API token>

If you are using Buildkite Clusters to isolate sets of pipelines from each other, you will need to specify the cluster's UUID in the configuration for the controller. This may be done using a flag on the helm command like so: --set config.cluster-uuid=<your cluster's UUID>, or an entry in a values file.

# values.yaml
config:
  cluster-uuid: beefcafe-abbe-baba-abba-deedcedecade

The cluster's UUID may be obtained by navigating to the clusters page, clicking on the relevant cluster and then clicking on "Settings". It will be in a section titled "GraphQL API Integration".

Note

Don't confuse the Cluster UUID with the UUID for the Queue. See the docs for an explanation.

We're using Helm's support for OCI-based registries, which means you'll need Helm version 3.8.0 or newer.

This will create an agent-stack-k8s installation that will listen to the kubernetes queue. See the --tags option for specifying a different queue.

Options

Usage:
  agent-stack-k8s [flags]
  agent-stack-k8s [command]

Available Commands:
  completion  Generate the autocompletion script for the specified shell
  help        Help about any command
  lint        A tool for linting Buildkite pipelines
  version     Prints the version

Flags:
      --agent-token-secret string                  name of the Buildkite agent token secret (default "buildkite-agent-token")
      --buildkite-token string                     Buildkite API token with GraphQL scopes
      --cluster-uuid string                        UUID of the Buildkite Cluster. The agent token must be for the Buildkite Cluster.
  -f, --config string                              config file path
      --debug                                      debug logs
  -h, --help                                       help for agent-stack-k8s
      --image string                               The image to use for the Buildkite agent (default "ghcr.io/buildkite/agent:3.78.0")
      --image-pull-backoff-grace-period duration   Duration after starting a pod that the controller will wait before considering cancelling a job due to ImagePullBackOff (e.g. when the podSpec specifies container images that cannot be pulled) (default 30s)
      --job-ttl duration                           time to retain kubernetes jobs after completion (default 10m0s)
      --max-in-flight int                          max jobs in flight, 0 means no max (default 25)
      --namespace string                           kubernetes namespace to create resources in (default "default")
      --org string                                 Buildkite organization name to watch
      --poll-interval duration                     time to wait between polling for new jobs (minimum 1s); note that increasing this causes jobs to be slower to start (default 1s)
      --profiler-address string                    Bind address to expose the pprof profiler (e.g. localhost:6060)
      --prohibit-kubernetes-plugin                 Causes the controller to prohibit the kubernetes plugin specified within jobs (pipeline YAML) - enabling this causes jobs with a kubernetes plugin to fail, preventing the pipeline YAML from having any influence over the podSpec
      --tags strings                               A comma-separated list of agent tags. The "queue" tag must be unique (e.g. "queue=kubernetes,os=linux") (default [queue=kubernetes])

Use "agent-stack-k8s [command] --help" for more information about a command.

Configuration can also be provided by a config file (--config or CONFIG), or environment variables. In the examples folder there is a sample YAML config and a sample dotenv config.

Externalize Secrets

You can also have an external provider create a secret for you in the namespace before deploying the chart with helm. If the secret is pre-provisioned, replace the agentToken and graphqlToken arguments with:

--set agentStackSecret=<secret-name>

The format of the required secret can be found in this file.

Other Installation Methods

You can also use this chart as a dependency:

dependencies:
- name: agent-stack-k8s
  version: "0.5.0"
  repository: "oci://ghcr.io/buildkite/helm"

or use it as a template:

helm template oci://ghcr.io/buildkite/helm/agent-stack-k8s -f my-values.yaml

Available versions and their digests can be found on the releases page.

Sample Buildkite Pipelines

For simple commands, you merely have to target the queue you configured agent-stack-k8s with.

steps:
- label: Hello World!
  command: echo Hello World!
  agents:
    queue: kubernetes

For more complicated steps, you have access to the PodSpec Kubernetes API resource that will be used in a Kubernetes Job. For now, this is nested under a kubernetes plugin. But unlike other Buildkite plugins, there is no corresponding plugin repository. Rather, this is syntax that is interpreted by the agent-stack-k8s controller.

steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      podSpec:
        containers:
        - image: alpine:latest
          command:
          - echo Hello World!

Almost any container image may be used, but it MUST have a POSIX shell available to be executed at /bin/sh.

PodSpec command and args interpretation

In a podSpec, command must be a list of strings, since it is defined by Kubernetes. However, agent-stack-k8s runs buildkite-agent instead of the container's default entrypoint. To run the command you want, it must re-interpret command into input for buildkite-agent. By default, it treats command as a sequence of multiple commands, similar to a pipeline.yaml steps: commands: .... This is different to Kubernetes' interpretation of command (as an entrypoint vector run without a shell as a single command).

This "interposer" behaviour can be changed using commandParams/interposer:

  • buildkite is the default, in which agent-stack-k8s treats command as a sequence of multiple commands and args as extra arguments added to the end of the last command, which is then typically interpreted by the shell.
  • vector emulates the Kubernetes interpretation in which command and args specify components of a single command intended to be run directly.
  • legacy is the 0.14.0 and earlier behaviour in which command and args were joined directly into a single command with spaces.

buildkite example:

steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      commandParams:
        interposer: buildkite  # This is the default, and can be omitted.
      podSpec:
        containers:
        - image: alpine:latest
          command:
          - set -euo pipefail
          - |-       # <-- YAML block scalars work too
            echo Hello World! > hello.txt
            cat hello.txt | buildkite-agent annotate

If you have a multi-line command, specifying the args as well could lead to confusion, so we recommend just using command.

vector example:

steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      commandParams:
        interposer: vector
      podSpec:
        containers:
        - image: alpine:latest
          command: ['sh']
          args:
          - '-c'
          - |-
            set -eu

            echo Hello World! > hello.txt
            cat hello.txt | buildkite-agent annotate

More samples can be found in the integration test fixtures directory.

Cloning repos via SSH

To use SSH to clone your repos, you'll need to add a secret reference via an EnvFrom to your pipeline to specify where to mount your SSH private key from. Place this object under a gitEnvFrom key in the kubernetes plugin (see the example below).

You should create a secret in your namespace with an environment variable name that's recognised by docker-ssh-env-config. A script from this project is included in the default entrypoint of the default buildkite/agent Docker image. It will process the value of the secret and write out a private key to the ~/.ssh directory of the checkout container.

However this key will not be available in your job containers. If you need to use git ssh credentials in your job containers, we recommend one of the following options:

  1. Use a container image that's based on the default buildkite/agent docker image and preserve the default entrypoint by not overriding the command in the job spec.
  2. Include or reproduce the functionality of the ssh-env-config.sh script in the entrypoint for your job container image

Example secret creation for ssh cloning

You most likely want to use a more secure method of managing k8s secrets. This example is illustrative only.

Supposing a SSH private key has been created and its public key has been registered with the remote repository provider (e.g. GitHub).

kubectl create secret generic my-git-ssh-credentials --from-file=SSH_PRIVATE_DSA_KEY="$HOME/.ssh/id_ecdsa"

Then the following pipeline will be able to clone a git repository that requires ssh credentials.

steps:
  - label: build image
    agents:
      queue: kubernetes
    plugins:
      - kubernetes:
          gitEnvFrom:
            - secretRef:
                name: my-git-ssh-credentials # <----
          podSpec:
            containers:
              - image: gradle:latest
                command: [gradle]
                args:
                  - jib
                  - --image=ttl.sh/example:1h

Cloning repos via HTTPS

To use HTTPS to clone private repos, you can use a .git-credentials file stored in a secret, and refer to this secret using the gitCredentialsSecret checkout parameter.

By default, this secret is only attached, and Git is only configured to use it, within the checkout container. It will not necessarily be available in your job containers. If you need the .git-credentials file inside the other containers as well, you can add a volume mount for the git-credentials volume, and configure Git to use the file within it (e.g. with git config credential.helper 'store --file ...')

Example secret creation for HTTPS cloning

Once again, this example is illustrative only.

First, create a Kubernetes secret containing the key .git-credentials, formatted in the manner expected by the store Git credendial helper:

kubectl create secret generic my-git-credentials --from-file='.git-credentials'="$HOME/.git-credentials"

Then you can use the checkout/gitCredentialsSecret (in your pipeline) or default-checkout-params/gitCredentialsSecret (in values.yaml) to reference the secret volume source:

# pipeline.yaml
steps:
  - label: build image
    agents:
      queue: kubernetes
    plugins:
      - kubernetes:
          checkout:
            gitCredentialsSecret:
              secretName: my-git-credentials # <----
          podSpec:
            ...
# values.yaml
...
default-checkout-params:
  gitCredentialsSecret:
    secretName: my-git-credentials
...

If you wish to use a different key within the secret than .git-credentials, you can project it to .git-credentials by using items within gitCredentialsSecret.

# values.yaml
...
default-checkout-params:
  gitCredentialsSecret:
    secretName: my-git-credentials
    items:
    - key: funky-creds
      path: .git-credentials
...

Default job metadata

agent-stack-k8s can automatically add labels and annotations to the Kubernetes jobs it creates. Default labels and annotations can be set in values.yaml with default-metadata, e.g.:

# config.yaml / values.yaml
...
default-metadata:
  annotations:
    imageregistry: "https://hub.docker.com/"
    mycoolannotation: llamas
  labels:
    argocd.argoproj.io/tracking-id: example-id-here
    mycoollabel: alpacas

Similarly they can be set for each step in a pipeline individually using the kubernetes plugin, e.g.:

# pipeline.yaml
...
  plugins:
    - kubernetes:
        metadata:
          annotations:
            imageregistry: "https://hub.docker.com/"
            mycoolannotation: llamas
          labels:
            argocd.argoproj.io/tracking-id: example-id-here
            mycoollabel: alpacas

Pod Spec Patch

Rather than defining the entire Pod Spec in a step, there is the option to define a strategic merge patch in the controller. Agent Stack K8s will first generate a K8s Job with a PodSpec from a Buildkite Job and then apply the patch in the controller. It will then apply the patch specified in its config file, which is derived from the value in the helm installation. This can replace much of the functionality of some of the other fields in the plugin, like gitEnvFrom.

Eliminate gitEnvFrom

Here's an example demonstrating how one would eliminate the need to specify gitEnvFrom from every step, but still checkout private repositories.

First, deploy the helm chart with a values.yaml file.

# values.yaml
agentStackSecret: <name of predefined secrets for k8s>
config:
  org: <your-org-slug>
  pod-spec-patch:
    containers:
    - name: checkout         # <---- this is needed so that the secret will only be mounted on the checkout container
      envFrom:
      - secretRef:
          name: git-checkout # <---- this is the same secret name you would have put in `gitEnvFrom` in the kubernetes plugin

You may use the -f or --values arguments to helm upgrade to specify a values.yaml file.

helm upgrade --install agent-stack-k8s oci://ghcr.io/buildkite/helm/agent-stack-k8s \
    --create-namespace \
    --namespace buildkite \
    --values values.yaml \
    --version <agent-stack-k8s version>

Now, with this setup, we don't even need to specify the kubernetes plugin to use Agent Stack K8s with a private repo

# pipelines.yaml
agents:
  queue: kubernetes
steps:
- name: Hello World!
  commands:
  - echo -n Hello!
  - echo " World!"

- name: Hello World in one command
  command: |-
    echo -n Hello!
    echo " World!"

Custom Images

You can specify a different image to use for a step in a step level podSpecPatch. Previously this could be done with a step level podSpec.

# pipelines.yaml
agents:
  queue: kubernetes
steps:
- name: Hello World!
  commands:
  - echo -n Hello!
  - echo " World!"
  plugins:
  - kubernetes:
      podSpecPatch:
      - name: container-0
        image: alpine:latest

- name: Hello World from alpine!
  commands:
  - echo -n Hello
  - echo " from alpine!"
  plugins:
  - kubernetes:
      podSpecPatch:
      - name: container-0      # <---- You must specify this as exactly `container-0` for now.
        image: alpine:latest   #       We are experimenting with ways to make it more ergonomic

Default Resources

In the helm values, you can specify default resources to be used by the containers in Pods that are launched to run Jobs.

# values.yaml
agentStackSecret: <name of predefend secrets for k8s>
config:
  org: <your-org-slug>
  pod-spec-patch:
    initContainers:
    - name: copy-agent
    requests:
      cpu: 100m
      memory: 50Mi
    limits:
      memory: 100Mi
    containers:
    - name: agent          # this container acquires the job
      resources:
        requests:
          cpu: 100m
          memory: 50Mi
        limits:
          memory: 1Gi
    - name: checkout       # this container clones the repo
      resources:
        requests:
          cpu: 100m
          memory: 50Mi
        limits:
          memory: 1Gi
    - name: container-0    # the job runs in a container with this name by default
      resources:
        requests:
          cpu: 100m
          memory: 50Mi
        limits:
          memory: 1Gi

and then every job that's handled by this installation of agent-stack-k8s will default to these values. To override it for a step, use a step level podSpecPatch.

# pipelines.yaml
agents:
  queue: kubernetes
steps:
- name: Hello from a container with more resources
  command: echo Hello World!
  plugins:
  - kubernetes:
      podSpecPatch:
        containers:
        - name: container-0    # <---- You must specify this as exactly `container-0` for now.
          resources:           #       We are experimenting with ways to make it more ergonomic
            requests:
              cpu: 1000m
              memory: 50Mi
            limits:
              memory: 1Gi

- name: Hello from a container with default resources
  command: echo Hello World!

Sidecars

Sidecar containers can be added to your job by specifying them under the top-level sidecars key. See this example for a simple job that runs nginx as a sidecar, and accesses the nginx server from the main job.

There is no guarantee that your sidecars will have started before your job, so using retries or a tool like wait-for-it is a good idea to avoid flaky tests.

The workspace volume

By default the workspace directory (/workspace) is mounted as an emptyDir ephemeral volume. Other volumes may be more desirable (e.g. a volume claim backed by an NVMe device). The default workspace volume can be set as stack configuration, e.g.

# values.yaml
config:
  workspace-volume:
    name: workspace-2-the-reckoning
    ephemeral:
      volumeClaimTemplate:
        spec:
          accessModes: ["ReadWriteOnce"]
          storageClassName: my-special-storage-class
          resources:
            requests:
              storage: 1Gi

Extra volume mounts

In some situations, for example if you want to use git mirrors you may want to attach extra volume mounts (in addition to the /workspace one) in all the pod containers.

See this example, that will declare a new volume in the podSpec and mount it in all the containers. The benefit, is to have the same mounted path in all containers, including the checkout container.

Skipping checkout (v0.13.0 and later)

For some steps, you may wish to avoid checkout (cloning a source repository). This can be done with the checkout block under the kubernetes plugin:

steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      checkout:
        skip: true # prevents scheduling the checkout container

Overriding flags for git clone and git fetch (v0.13.0 and later)

Flags for git clone, git fetch can be overridden per-step (similar to BUILDKITE_GIT_CLONE_FLAGS and BUILDLKITE_GIT_FETCH_FLAGS env vars) with the checkout block also:

# pipeline.yml
steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      checkout:
        cloneFlags: -v --depth 1
        fetchFlags: -v --prune --tags

Overriding other git settings (v0.16.0 and later)

From v0.16.0 onwards, many more git flags and options supported by the agent are also configurable with the checkout block. Example:

# pipeline.yml
steps:
- label: Hello World!
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      checkout:
        cleanFlags: -ffxdq
        noSubmodules: false
        submoduleCloneConfig: ["key=value", "something=else"]
        gitMirrors:
          path: /buildkite/git-mirrors # optional with volume
          volume:
            name: my-special-git-mirrors
            persistentVolumeClaim:
              claimName: block-pvc
          lockTimeout: 600
          skipUpdate: true
          cloneFlags: -v

To avoid setting checkout on every step, you can use default-checkout-params within values.yaml when deploying the stack. These will apply the settings to every job. Example:

# values.yaml
...
config:
  default-checkout-params:
    # The available options are the same as `checkout` within `plugin.kubernetes`.
    cloneFlags: -v --depth 1
    noSubmodules: true
    gitMirrors:
      volume:
        name: host-git-mirrors
        hostPath:
          path: /var/lib/buildkite/git-mirrors
          type: Directory

Default envFrom

envFrom can be added to all checkout, command, and sidecar containers separately, either per-step in the pipeline or for all jobs in values.yaml.

Pipeline example (note that the blocks are checkout, commandParams, and sidecarParams):

# pipeline.yml
...
  kubernetes:
    checkout:
      envFrom:
      - prefix: GITHUB_
        secretRef:
          name: github-secrets
    commandParams:
      interposer: vector
      envFrom:
      - prefix: DEPLOY_
        secretRef:
          name: deploy-secrets
    sidecarParams:
      envFrom:
      - prefix: LOGGING_
        configMapRef:
          name: logging-config

values.yaml example:

# values.yml
config:
  default-checkout-params:
    envFrom:
    - prefix: GITHUB_
      secretRef:
        name: github-secrets
  default-command-params:
    interposer: vector
    envFrom:
    - prefix: DEPLOY_
      secretRef:
        name: deploy-secrets
  default-sidecar-params:
    envFrom:
    - prefix: LOGGING_
      configMapRef:
        name: logging-config

Setting agent configuration (v0.16.0 and later)

The agent-config block within values.yaml can be used to set a subset of the agent configuration file options.

# values.yaml
config:
  agent-config:
    no-http2: false
    experiment: ["use-zzglob", "polyglot-hooks"]
    shell: "/bin/bash"
    no-color: false
    strict-single-hooks: true
    no-multipart-artifact-upload: false
    trace-context-encoding: json
    disable-warnings-for: ["submodules-disabled"]
    no-pty: false
    no-command-eval: true
    no-local-hooks: true
    no-plugins: true
    plugin-validation: false

Note that, even if no-command-eval or no-plugins is enabled, the Kubernetes plugin may still be able to override everything, since it is interpreted by the stack controller, not the agent. no-command-eval or no-plugins should be used together with prohibit-kubernetes-plugin (described below).

How to set up pipeline signing (v0.16.0 and later)

The agent-config block within values.yaml accepts most of the Signed Pipelines options.

Additionally, volume sources for signing and verification keys can be specified, and automatically attached to the right containers.

Any volume source can be specified for keys, but a common choice is to use a secret source. Keys are generally small, distributed across the cluster, and ideally are never shown in plain text.

  1. Create one or two secrets containing signing and verification keys:

    kubectl create secret generic my-signing-key --from-file='key'="$HOME/private.jwk"
    kubectl create secret generic my-verification-key --from-file='key'="$HOME/public.jwk"
  2. Add values.yaml configuration to use the volumes:

    # values.yaml
    config:
      agent-config:
        # The signing key will be attached to command containers, so it can be
        # used by 'buildkite-agent pipeline upload'.
        signing-jwks-file: key # optional if the file within the volume is called "key"
        signing-jwks-key-id: llamas # optional
        signingJWKSVolume:
          name: buildkite-signing-jwks
          secret:
            secretName: my-signing-key
        # The verification key will be attached to the 'agent start' container.
        verification-jwks-file: key # optional if the file within the volume is called "key"
        verification-failure-behavior: warn # for testing/incremental rollout, use 'block' to enforce
        verificationJWKSVolume:
          name: buildkite-verification-jwks
          secret:
            secretName: my-verification-key

Note that signing-jwks-file and verification-jwks-file agent config options can be used to either change the mount point of the corresponding volume (with an absolute path) or specify a file within the volume (with a relative path). The default mount points are /buildkite/signing-jwks and /buildkite/verification-jwks.

How to set up agent hooks and plugins (v0.16.0 and later)

The agent-config block within values.yaml accepts a hookVolumeSource and pluginVolumeSource. If used, the corresponding volumes are named buildkite-hooks and buildkite-plugins, and will be automatically mounted on checkout and command containers, with the agent configured to use them.

Any volume source can be specified for agent hooks and plugins, but a common choice is to use a configMap, since hooks generally aren't very big and config maps are made available across the cluster.

  1. Create the config map containing hooks:

    kubectl create configmap buildkite-agent-hooks --from-file=/tmp/hooks -n buildkite
  2. Example of using hooks from a config map:

    # values.yaml
    config:
      agent-config:
        hooksVolume:
          name: buildkite-hooks
          configMap:
            defaultMode: 493
            name: buildkite-agent-hooks

    Example of using plugins from a host path (caveat lector):

    # values.yaml
    config:
      agent-config:
        pluginsVolume:
          name: buildkite-plugins
          hostPath:
            type: Directory
            path: /etc/buildkite-agent/plugins

Note that hooks-path and plugins-path agent config options can be used to change the mount point of the corresponding volume. The default mount points are /buildkite/hooks and /buildkite/plugins.

How to set up agent hooks (v0.15.0 and earlier)

This section explains how to setup agent hooks when running Agent Stack K8s. In order for the agent hooks to work, they must be present on the instances where the agent runs.

In case of agent-stack-k8s, we need these hooks to be accessible to the kubernetes pod where the checkout and command containers will be running. Best way to make this happen is to create a configmap with the agent hooks and mount the configmap as volume to the containers.

Here is the command to create configmap which will have agent hooks in it:

kubectl create configmap buildkite-agent-hooks --from-file=/tmp/hooks -n buildkite

We have all the hooks under directory /tmp/hooks and we are creating configmap with name buildkite-agent-hooks in buildkite namespace in the k8s cluster.

Here is how to make these hooks in configmap available to the containers. Here is the pipeline config for setting up agent hooks:

# pipeline.yml
steps:
- label: ':pipeline: Pipeline Upload'
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      extraVolumeMounts:
        - mountPath: /buildkite/hooks
          name: agent-hooks
      podSpec:
        containers:
        - command:
          - echo hello-world
          image: alpine:latest
          env:
          - name: BUILDKITE_HOOKS_PATH
            value: /buildkite/hooks
        volumes:
          - configMap:
              defaultMode: 493
              name: buildkite-agent-hooks
            name: agent-hooks

There are 3 main aspects we need to make sure that happen for hooks to be available to the containers in agent-stack-k8s.

  1. Define env BUILDKITE_HOOKS_PATH with the path agent and checkout containers will look for hooks

           env:
           - name: BUILDKITE_HOOKS_PATH
             value: /buildkite/hooks
  2. Define VolumeMounts using extraVolumeMounts which will be the path where the hooks will be mounted to with in the containers

         extraVolumeMounts:
         - mountPath: /buildkite/hooks
           name: agent-hooks
  3. Define volumes where the configmap will be mounted

           volumes:
           - configMap:
               defaultMode: 493
               name: buildkite-agent-hooks
             name: agent-hooks

    Note: Here defaultMode 493 is setting the Unix permissions to 755 which enables the hooks to be executable. Also another way to make this hooks directory available to containers is to use hostPath mount but it is not a recommended approach for production environments.

Now when we run this pipeline agent hooks will be available to the container and will run them.

Key difference we will notice with hooks execution with agent-stack-k8s is that environment hooks will execute twice, but checkout-related hooks such as pre-checkout, checkout and post-checkout will only be executed once in the checkout container. Similarly the command-related hooks like pre-command, command and post-command hooks will be executed once by the command container(s).

If the env BUILDKITE_HOOKS_PATH is set at pipeline level instead of container like shown in above pipeline config then hooks will run for both checkout container and command container(s).

Here is the pipeline config where env BUILDKITE_HOOKS_PATH is exposed to all containers in the pipeline:

# pipeline.yml
steps:
- label: ':pipeline: Pipeline Upload'
  env:
    BUILDKITE_HOOKS_PATH: /buildkite/hooks
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      extraVolumeMounts:
        - mountPath: /buildkite/hooks
          name: agent-hooks
      podSpec:
        containers:
        - command:
          - echo
          - hello-world
          image: alpine:latest
        volumes:
          - configMap:
              defaultMode: 493
              name: buildkite-agent-hooks
            name: agent-hooks

This is because agent-hooks will be present in both containers and environment hook will run in both containers. Here is how the build output will look like:

Running global environment hook
Running global pre-checkout hook
Preparing working directory
Running global post-checkout hook
Running global environment hook
Running commands
Running global pre-exit hook

In scenarios where we want to skip checkout when running on agent-stack-k8s, it will cause checkout-related hooks such as pre-checkout, checkout and post-checkout not to run because checkout container will not be present when skip checkout is set.

Here is the pipeline config where checkout is skipped:

# pipeline.yml
steps:
- label: ':pipeline: Pipeline Upload'
  env:
    BUILDKITE_HOOKS_PATH: /buildkite/hooks
  agents:
    queue: kubernetes
  plugins:
  - kubernetes:
      checkout:
        skip: true
      extraVolumeMounts:
        - mountPath: /buildkite/hooks
          name: agent-hooks
      podSpec:
        containers:
        - command:
          - echo
          - hello-world
          image: alpine:latest
        volumes:
          - configMap:
              defaultMode: 493
              name: buildkite-agent-hooks
            name: agent-hooks

Now, if we look at the build output below, we can see that it only has environment and pre-exit that ran and no checkout-related hooks, unlike the earlier build output where checkout was not skipped.

Preparing working directory
Running global environment hook
Running commands
Running global pre-exit hook

Validating your pipeline

With the unstructured nature of Buildkite plugin specs, it can be frustratingly easy to mess up your configuration and then have to debug why your agent pods are failing to start. To help prevent this sort of error, there's a linter that uses JSON schema to validate the pipeline and plugin configuration.

This currently can't prevent every sort of error, you might still have a reference to a Kubernetes volume that doesn't exist, or other errors of that sort, but it will validate that the fields match the API spec we expect.

Our JSON schema can also be used with editors that support JSON Schema by configuring your editor to validate against the schema found here.

Securing the stack

Prohibiting the kubernetes plugin (v0.13.0 and later)

Suppose you want to enforce the podSpec used for all jobs at the controller level, and prevent users from setting or overriding that podSpec (or various other parameters) through use of the kubernetes plugin. This can be achieved with prohibit-kubernetes-plugin, either as a controller flag or within the config values.yaml:

# values.yaml
...
config:
  prohibit-kubernetes-plugin: true
  pod-spec-patch:
    # Override the default podSpec here.
  ...

With prohibit-kubernetes-plugin enabled, any job containing the kubernetes plugin will fail.

Debugging

Use the log-collector script in the utils folder to collect logs for agent-stack-k8s.

Prerequisites

  • kubectl binary
  • kubectl setup and authenticated to correct k8s cluster

Inputs to the script

k8s namespace where you deployed agent stack k8s and where you expect their k8s jobs to run.

Buildkite job id for which you saw issues.

Data/logs gathered:

The script will collect kubectl describe of k8s job, pod and agent stack k8s controller pod.

It will also capture kubectl logs of k8s pod for the Buildkite job, agent stack k8s controller pod and package them in a tar archive which you can send via email to support@buildkite.com.

Open questions

  • How to deal with stuck jobs? Timeouts?
  • How to deal with pod failures (not job failures)?
    • Report failure to buildkite from controller?
    • Emit pod logs to buildkite? If agent isn't starting correctly
    • Retry?