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Chapter 2. Configuring build strategies
In a BuildStrategy
or ClusterBuildStrategy
custom resource (CR), you can define strategy parameters, system parameters, step resources definitions, annotations, and volumes to configure a build strategy. A BuildStrategy
resource is available for use within a namespace, and a ClusterBuildStrategy
resource is available for use throughout the cluster.
To configure a build strategy, create a BuildStrategy
or ClusterBuildStrategy
resource YAML file and apply it to the OpenShift Container Platform cluster.
2.1. Strategy parameters definition
You can define strategy parameters in a BuildStrategy
or ClusterBuildStrategy
custom resource (CR) and set, or modify, the values of those parameters in your Build
or BuildRun
CR. You can also configure or modify strategy parameters at build time when creating your build strategy.
Consider the following points before defining parameters for your strategy:
-
Define a list of parameters in the
spec.parameters
field of your build strategy CR. Each list item contains a name, a description, a type, and an optional default value, or values, for an array type. If no default value is set, you must define a value in theBuild
orBuildRun
CR. -
Define parameters of string or array type in the
spec.steps
field of your build strategy. Specify a parameter of string type by using the
$(params.your-parameter-name)
syntax. You can set a value for theyour-parameter-name
parameter in yourBuild
orBuildRun
CR that references your strategy. You can define the following string parameters based on your needs:Table 2.1. String parameters Parameter Description image
Use this parameter to define a custom tag, such as
golang:$(params.go-version)
args
Use this parameter to pass data into your builder commands
env
Use this parameter to provide a value for an environment variable
Specify a parameter of array type by using the
$(params.your-array-parameter-name[*])
syntax. After specifying the array, you can use it in an argument or a command. For each item in the array, an argument will be set. The following example uses an array parameter in thespec.steps
field of the build strategy:apiVersion: shipwright.io/v1beta1 kind: ClusterBuildStrategy metadata: name: <cluster_build_strategy_name> # ... spec: parameters: - name: tool-args description: Parameters for the tool type: array steps: - name: a-step command: - some-tool args: - --tool-args - $(params.tool-args[*])
-
Provide parameter values as simple strings or as references to keys in config maps or secrets. For a parameter, you can use a config map or secret value only if it is defined in the
command
,args
, orenv
section of thespec.steps
field.
2.2. System parameters definition
You can use system parameters when defining the steps of a build strategy to access system information, or user-defined information in a Build
or BuildRun
custom resource (CR). You cannot configure or modify system parameters as they are defined at runtime by the build run controller.
You can define the following system parameters in your build strategy definition:
Parameter | Description |
---|---|
| Denotes the absolute path to the directory that contains the source code. |
|
Denotes the absolute path to the context directory of the source code. If you do not specify any value for |
|
Denotes the URL of the image to push as defined in the |
2.3. Step resources definition
You can include a definition of resources, such as the limit imposed on CPU, memory, and disk usage for all steps in a build strategy. For strategies with multiple steps, a step might require more resources than others. As a strategy administrator, you can define the resource values that are optimal for each step.
For example, you can install strategies with the same steps, but different names and step resources on the cluster so that users can create a build with smaller or larger resource requirements.
2.3.1. Strategies with different resources
Define multiple types of the same strategy with varying limits on the resources. The following examples use the same buildah
strategy with small and medium limits defined for the resources. These examples provide a strategy administrator more control over the step resources definition.
2.3.1.1. Buildah strategy with small limit
Define the spec.steps[].resources
field with a small resource limit for the buildah
strategy, as shown in the following example:
Example: buildah
strategy with small limit
apiVersion: shipwright.io/v1beta1 kind: ClusterBuildStrategy metadata: name: buildah-small spec: steps: - name: build-and-push image: quay.io/containers/buildah:v1.31.0 workingDir: $(params.shp-source-root) securityContext: capabilities: add: - "SETFCAP" command: - /bin/bash args: - -c - | set -euo pipefail # Parse parameters # ... # That's the separator between the shell script and its args - -- - --context - $(params.shp-source-context) - --dockerfile - $(build.dockerfile) - --image - $(params.shp-output-image) - --build-args - $(params.build-args[*]) - --registries-block - $(params.registries-block[*]) - --registries-insecure - $(params.registries-insecure[*]) - --registries-search - $(params.registries-search[*]) resources: limits: cpu: 250m memory: 65Mi requests: cpu: 250m memory: 65Mi parameters: - name: build-args description: "The values for the args in the Dockerfile. Values must be in the format KEY=VALUE." type: array defaults: [] # ...
2.3.1.2. Buildah strategy with medium limit
Define the spec.steps[].resources
field with a medium resource limit for the buildah
strategy, as shown in the following example:
Example: buildah
strategy with medium limit
apiVersion: shipwright.io/v1beta1 kind: ClusterBuildStrategy metadata: name: buildah-medium spec: steps: - name: build-and-push image: quay.io/containers/buildah:v1.31.0 workingDir: $(params.shp-source-root) securityContext: capabilities: add: - "SETFCAP" command: - /bin/bash args: - -c - | set -euo pipefail # Parse parameters # ... # That's the separator between the shell script and its args - -- - --context - $(params.shp-source-context) - --dockerfile - $(build.dockerfile) - --image - $(params.shp-output-image) - --build-args - $(params.build-args[*]) - --registries-block - $(params.registries-block[*]) - --registries-insecure - $(params.registries-insecure[*]) - --registries-search - $(params.registries-search[*]) resources: limits: cpu: 500m memory: 1Gi requests: cpu: 500m memory: 1Gi parameters: - name: build-args description: "The values for the args in the Dockerfile. Values must be in the format KEY=VALUE." type: array defaults: [] # ...
After configuring the resource definition for a strategy, you must reference the strategy in your Build
CR, as shown in the following example:
apiVersion: shipwright.io/v1beta1 kind: Build metadata: name: buildah-medium spec: source: git: url: https://github.com/shipwright-io/sample-go contextDir: docker-build strategy: name: buildah-medium kind: ClusterBuildStrategy # ...
2.3.2. Resource management in Tekton pipelines
The build controller works with the Tekton pipeline controller so that it can schedule pods for executing the strategy steps. At runtime, the build controller creates a Tekton TaskRun
resource, and the TaskRun
resource creates a new pod in the specific namespace. This pod then sequentially executes all of the strategy steps to build an image.
2.4. Annotations definition
You can define annotations for a build strategy or a cluster build strategy like for any other Kubernetes object. The build strategy first propagates annotations to the TaskRun
resource. Then, Tekton propagates them to the pod.
You can use annotations for the following purposes:
-
To limit the network bandwidth the pod is allowed to use, the
kubernetes.io/ingress-bandwidth
andkubernetes.io/egress-bandwidth
annotations are defined in the Kubernetes network traffic shaping feature. -
To define the AppArmor profile of a container, the
container.apparmor.security.beta.kubernetes.io/<container_name>
annotation is used.
The following example shows the usage of annotations in a build strategy:
apiVersion: shipwright.io/v1beta1 kind: ClusterBuildStrategy metadata: name: <cluster_build_strategy_name> annotations: container.apparmor.security.beta.kubernetes.io/step-build-and-push: unconfined container.seccomp.security.alpha.kubernetes.io/step-build-and-push: unconfined spec: # ...
The following annotations are not propagated:
-
kubectl.kubernetes.io/last-applied-configuration
-
clusterbuildstrategy.shipwright.io/*
-
buildstrategy.shipwright.io/*
-
build.shipwright.io/*
-
buildrun.shipwright.io/*
A strategy administrator can further restrict the usage of annotations by using policy engines.
2.5. Secure referencing of string parameters
String parameters are used when you define environment variables, arguments, or images in a BuildStrategy
or ClusterBuildStrategy
custom resource (CR). In your build strategy steps, you can reference string parameters by using the $(params.your-parameter-name)
syntax.
You can also reference system parameters and strategy parameters by using the $(params.your-parameter-name)
syntax in your build strategy steps.
In the pod, all $(params.your-parameter-name)
variables are replaced by actual strings. However, you must pay attention when you reference a string parameter in an argument by using an inline script. For example, to securely pass a parameter value into an argument defined with a script, you can choose one of the following approaches:
- Use environment variables
- Use arguments
Example: Referencing a string parameter into an environment variable
You can pass the string parameter into an environment variable, instead of directly using it inside the script. By using quoting around the environment variable, you can avoid the command injection vulnerability. You can use this approach for strategies, such as buildah
. The following example uses an environment variable inside the script to reference a string parameter:
apiVersion: shipwright.io/v1beta1 kind: BuildStrategy metadata: name: sample-strategy spec: parameters: - name: sample-parameter description: A sample parameter type: string steps: - name: sample-step env: - name: PARAM_SAMPLE_PARAMETER value: $(params.sample-parameter) command: - /bin/bash args: - -c - | set -euo pipefail some-tool --sample-argument "${PARAM_SAMPLE_PARAMETER}"
Example: Referencing a string parameter into an argument
You can pass the string parameter into an argument defined within your script. Appropriate shell quoting guards against command injection. You can use this approach for strategies, such as buildah
. The following example uses an argument defined within your script to reference a string parameter:
apiVersion: shipwright.io/v1beta1 kind: BuildStrategy metadata: name: sample-strategy spec: parameters: - name: sample-parameter description: A sample parameter type: string steps: - name: sample-step command: - /bin/bash args: - -c - | set -euo pipefail SAMPLE_PARAMETER="$1" some-tool --sample-argument "${SAMPLE_PARAMETER}" - -- - $(params.sample-parameter)
2.6. System results definition
You can store the size and digest of the image that is created by your build strategy to a set of result files. You can also store error details for debugging purposes when a BuildRun
resource fails. You can define the following result parameters in your BuildStrategy
or ClusterBuildStrategy
CR:
Parameter | Description |
---|---|
| Denotes the path to the file that stores the digest of the image. |
| Denotes the path to the file that stores the compressed size of the image. |
| Denotes the path to the file that stores the error reason. |
| Denotes the path to the file that stores the error message. |
The following example shows the size and digest of the image in the .status.output
field of the BuildRun
CR:
apiVersion: shipwright.io/v1beta1 kind: BuildRun # ... status: # ... output: digest: sha256:07626e3c7fdd28d5328a8d6df8d29cd3da760c7f5e2070b534f9b880ed093a53 size: 1989004 # ...
The following example shows the error reason and message in the .status.failureDetails
field of the BuildRun
CR:
apiVersion: shipwright.io/v1beta1 kind: BuildRun # ... status: # ... failureDetails: location: container: step-source-default pod: baran-build-buildrun-gzmv5-b7wbf-pod-bbpqr message: The source repository does not exist, or you have insufficient permission to access it. reason: GitRemotePrivate
2.7. Volumes and volume mounts definition
A build strategy includes the definition of volumes and volume mounts. The volumes defined in a build strategy support all of the usual volumeSource
types. The build steps refer to the volumes by creating a volume mount.
The volume mount defined in build steps allows you to access volumes defined in a BuildStrategy
, Build
or BuildRun
resource.
Volumes in build strategy use an overridable
boolean flag, which is set to false
by default. If a Build
or BuildRun
resource tries to override the volumes defined in a BuildStrategy
resource, it will fail because the default value of the overridable
flag is false
.
The following example shows a BuildStrategy
resource that defines the volumes
and volumeMounts
fields:
apiVersion: shipwright.io/v1beta1 kind: BuildStrategy metadata: name: buildah spec: steps: - name: build image: quay.io/containers/buildah:v1.23.3 # ... volumeMounts: - name: varlibcontainers mountPath: /var/lib/containers volumes: - name: varlibcontainers overridable: true emptyDir: {}