Chapter 8. Using config maps with applications
Config maps allow you to decouple configuration artifacts from image content to keep containerized applications portable.
The following sections define config maps and how to create and use them.
8.1. Understanding config maps
Many applications require configuration by using some combination of configuration files, command line arguments, and environment variables. In Red Hat OpenShift Service on AWS, these configuration artifacts are decoupled from image content to keep containerized applications portable.
The ConfigMap
object provides mechanisms to inject containers with configuration data while keeping containers agnostic of Red Hat OpenShift Service on AWS. A config map can be used to store fine-grained information like individual properties or coarse-grained information like entire configuration files or JSON blobs.
The ConfigMap
object holds key-value pairs of configuration data that can be consumed in pods or used to store configuration data for system components such as controllers. For example:
ConfigMap
Object Definition
kind: ConfigMap apiVersion: v1 metadata: creationTimestamp: 2016-02-18T19:14:38Z name: example-config namespace: my-namespace data: 1 example.property.1: hello example.property.2: world example.property.file: |- property.1=value-1 property.2=value-2 property.3=value-3 binaryData: bar: L3Jvb3QvMTAw 2
You can use the binaryData
field when you create a config map from a binary file, such as an image.
Configuration data can be consumed in pods in a variety of ways. A config map can be used to:
- Populate environment variable values in containers
- Set command-line arguments in a container
- Populate configuration files in a volume
Users and system components can store configuration data in a config map.
A config map is similar to a secret, but designed to more conveniently support working with strings that do not contain sensitive information.
Config map restrictions
A config map must be created before its contents can be consumed in pods.
Controllers can be written to tolerate missing configuration data. Consult individual components configured by using config maps on a case-by-case basis.
ConfigMap
objects reside in a project.
They can only be referenced by pods in the same project.
The Kubelet only supports the use of a config map for pods it gets from the API server.
This includes any pods created by using the CLI, or indirectly from a replication controller. It does not include pods created by using the Red Hat OpenShift Service on AWS node’s --manifest-url
flag, its --config
flag, or its REST API because these are not common ways to create pods.
Additional resources
8.2. Use cases: Consuming config maps in pods
The following sections describe some uses cases when consuming ConfigMap
objects in pods.
8.2.1. Populating environment variables in containers by using config maps
You can use config maps to populate individual environment variables in containers or to populate environment variables in containers from all keys that form valid environment variable names.
As an example, consider the following config map:
ConfigMap
with two environment variables
apiVersion: v1 kind: ConfigMap metadata: name: special-config 1 namespace: default 2 data: special.how: very 3 special.type: charm 4
ConfigMap
with one environment variable
apiVersion: v1 kind: ConfigMap metadata: name: env-config 1 namespace: default data: log_level: INFO 2
Procedure
You can consume the keys of this
ConfigMap
in a pod usingconfigMapKeyRef
sections.Sample
Pod
specification configured to inject specific environment variablesapiVersion: v1 kind: Pod metadata: name: dapi-test-pod spec: securityContext: runAsNonRoot: true seccompProfile: type: RuntimeDefault containers: - name: test-container image: gcr.io/google_containers/busybox command: [ "/bin/sh", "-c", "env" ] env: 1 - name: SPECIAL_LEVEL_KEY 2 valueFrom: configMapKeyRef: name: special-config 3 key: special.how 4 - name: SPECIAL_TYPE_KEY valueFrom: configMapKeyRef: name: special-config 5 key: special.type 6 optional: true 7 envFrom: 8 - configMapRef: name: env-config 9 securityContext: allowPrivilegeEscalation: false capabilities: drop: [ALL] restartPolicy: Never
- 1
- Stanza to pull the specified environment variables from a
ConfigMap
. - 2
- Name of a pod environment variable that you are injecting a key’s value into.
- 3 5
- Name of the
ConfigMap
to pull specific environment variables from. - 4 6
- Environment variable to pull from the
ConfigMap
. - 7
- Makes the environment variable optional. As optional, the pod will be started even if the specified
ConfigMap
and keys do not exist. - 8
- Stanza to pull all environment variables from a
ConfigMap
. - 9
- Name of the
ConfigMap
to pull all environment variables from.
When this pod is run, the pod logs will include the following output:
SPECIAL_LEVEL_KEY=very log_level=INFO
SPECIAL_TYPE_KEY=charm
is not listed in the example output because optional: true
is set.
8.2.2. Setting command-line arguments for container commands with config maps
You can use a config map to set the value of the commands or arguments in a container by using the Kubernetes substitution syntax $(VAR_NAME)
.
As an example, consider the following config map:
apiVersion: v1 kind: ConfigMap metadata: name: special-config namespace: default data: special.how: very special.type: charm
Procedure
To inject values into a command in a container, you must consume the keys you want to use as environment variables. Then you can refer to them in a container’s command using the
$(VAR_NAME)
syntax.Sample pod specification configured to inject specific environment variables
apiVersion: v1 kind: Pod metadata: name: dapi-test-pod spec: securityContext: runAsNonRoot: true seccompProfile: type: RuntimeDefault containers: - name: test-container image: gcr.io/google_containers/busybox command: [ "/bin/sh", "-c", "echo $(SPECIAL_LEVEL_KEY) $(SPECIAL_TYPE_KEY)" ] 1 env: - name: SPECIAL_LEVEL_KEY valueFrom: configMapKeyRef: name: special-config key: special.how - name: SPECIAL_TYPE_KEY valueFrom: configMapKeyRef: name: special-config key: special.type securityContext: allowPrivilegeEscalation: false capabilities: drop: [ALL] restartPolicy: Never
- 1
- Inject the values into a command in a container using the keys you want to use as environment variables.
When this pod is run, the output from the echo command run in the test-container container is as follows:
very charm
8.2.3. Injecting content into a volume by using config maps
You can inject content into a volume by using config maps.
Example ConfigMap
custom resource (CR)
apiVersion: v1 kind: ConfigMap metadata: name: special-config namespace: default data: special.how: very special.type: charm
Procedure
You have a couple different options for injecting content into a volume by using config maps.
The most basic way to inject content into a volume by using a config map is to populate the volume with files where the key is the file name and the content of the file is the value of the key:
apiVersion: v1 kind: Pod metadata: name: dapi-test-pod spec: securityContext: runAsNonRoot: true seccompProfile: type: RuntimeDefault containers: - name: test-container image: gcr.io/google_containers/busybox command: [ "/bin/sh", "-c", "cat", "/etc/config/special.how" ] volumeMounts: - name: config-volume mountPath: /etc/config securityContext: allowPrivilegeEscalation: false capabilities: drop: [ALL] volumes: - name: config-volume configMap: name: special-config 1 restartPolicy: Never
- 1
- File containing key.
When this pod is run, the output of the cat command will be:
very
You can also control the paths within the volume where config map keys are projected:
apiVersion: v1 kind: Pod metadata: name: dapi-test-pod spec: securityContext: runAsNonRoot: true seccompProfile: type: RuntimeDefault containers: - name: test-container image: gcr.io/google_containers/busybox command: [ "/bin/sh", "-c", "cat", "/etc/config/path/to/special-key" ] volumeMounts: - name: config-volume mountPath: /etc/config securityContext: allowPrivilegeEscalation: false capabilities: drop: [ALL] volumes: - name: config-volume configMap: name: special-config items: - key: special.how path: path/to/special-key 1 restartPolicy: Never
- 1
- Path to config map key.
When this pod is run, the output of the cat command will be:
very