Using a ConfigMap PropertySource

Kubernetes provides a resource named ConfigMap to externalize the parameters to pass to your application in the form of key-value pairs or embedded application.properties or application.yaml files. The Spring Cloud Kubernetes Config project makes Kubernetes ConfigMap instances available during application startup and triggers hot reloading of beans or Spring context when changes are detected on observed ConfigMap instances.spring-doc.cn

Everything that follows is explained mainly referring to examples using ConfigMaps, but the same stands for Secrets, i.e.: every feature is supported for both.spring-doc.cn

The default behavior is to create a Fabric8ConfigMapPropertySource (or a KubernetesClientConfigMapPropertySource) based on a Kubernetes ConfigMap that has metadata.name of either:spring-doc.cn

  • value of spring.cloud.kubernetes.config.namespring-doc.cn

  • value of your Spring application (as defined by spring.application.name property)spring-doc.cn

  • the String literal "application"spring-doc.cn

However, more advanced configuration is possible where you can use multiple ConfigMap instances. The spring.cloud.kubernetes.config.sources list makes this possible. For example, you could define the following ConfigMap instances:spring-doc.cn

spring:
  application:
    name: cloud-k8s-app
  cloud:
    kubernetes:
      config:
        name: default-name
        namespace: default-namespace
        sources:
         # Spring Cloud Kubernetes looks up a ConfigMap named c1 in namespace default-namespace
         - name: c1
         # Spring Cloud Kubernetes looks up a ConfigMap named default-name in whatever namespace n2
         - namespace: n2
         # Spring Cloud Kubernetes looks up a ConfigMap named c3 in namespace n3
         - namespace: n3
           name: c3

In the preceding example, if spring.cloud.kubernetes.config.namespace had not been set, the ConfigMap named c1 would be looked up in the namespace that the application runs. See Namespace resolution to get a better understanding of how the namespace of the application is resolved.spring-doc.cn

Any matching ConfigMap that is found is processed as follows:spring-doc.cn

  • Apply individual configuration properties.spring-doc.cn

  • Apply as yaml (or properties) the content of any property that is named by the value of spring.application.name (if it’s not present, by application.yaml/properties)spring-doc.cn

  • Apply as a properties file the content of the above name + each active profile.spring-doc.cn

An example should make a lot more sense. Let’s suppose that spring.application.name=my-app and that we have a single active profile called k8s. For a configuration as below:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: my-app
data:
  my-app.yaml: |-
    ...
  my-app-k8s.yaml: |-
    ..
  my-app-dev.yaml: |-
    ..
  not-my-app.yaml: |-
   ..
  someProp: someValue

This is what we will end-up loading:spring-doc.cn

The order of loading properties is a as follows:spring-doc.cn

This means that profile based sources take precedence over non-profile based sources (just like in a vanilla Spring app); and plain properties take precedence over both profile and non-profile based sources. Here is an example:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: my-app
data:
  my-app-k8s.yaml: |-
    key1=valueA
	key2=valueB
  my-app.yaml: |-
    key1=valueC
    key2=valueA
  key1: valueD

After processing such a ConfigMap, this is what you will get in the properties: key1=valueD, key2=valueB.spring-doc.cn

The single exception to the aforementioned flow is when the ConfigMap contains a single key that indicates the file is a YAML or properties file. In that case, the name of the key does NOT have to be application.yaml or application.properties (it can be anything) and the value of the property is treated correctly. This features facilitates the use case where the ConfigMap was created by using something like the following:spring-doc.cn

kubectl create configmap game-config --from-file=/path/to/app-config.yaml

Assume that we have a Spring Boot application named demo that uses the following properties to read its thread pool configuration.spring-doc.cn

This can be externalized to config map in yaml format as follows:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: demo
data:
  pool.size.core: 1
  pool.size.max: 16

Individual properties work fine for most cases. However, sometimes, embedded yaml is more convenient. In this case, we use a single property named application.yaml to embed our yaml, as follows:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: demo
data:
  application.yaml: |-
    pool:
      size:
        core: 1
        max:16

The following example also works:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: demo
data:
  custom-name.yaml: |-
    pool:
      size:
        core: 1
        max:16

You can also define the search to happen based on labels, for example:spring-doc.cn

spring:
  application:
    name: labeled-configmap-with-prefix
  cloud:
    kubernetes:
      config:
        enableApi: true
        useNameAsPrefix: true
        namespace: spring-k8s
        sources:
          - labels:
              letter: a

This will search for every configmap in namespace spring-k8s that has labels {letter : a}. The important thing to notice here is that unlike reading a configmap by name, this can result in multiple config maps read. As usual, the same feature is supported for secrets.spring-doc.cn

You can also configure Spring Boot applications differently depending on active profiles that are merged together when the ConfigMap is read. You can provide different property values for different profiles by using an application.properties or application.yaml property, specifying profile-specific values, each in their own document (indicated by the --- sequence), as follows:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: demo
data:
  application.yml: |-
    greeting:
      message: Say Hello to the World
    farewell:
      message: Say Goodbye
    ---
    spring:
      profiles: development
    greeting:
      message: Say Hello to the Developers
    farewell:
      message: Say Goodbye to the Developers
    ---
    spring:
      profiles: production
    greeting:
      message: Say Hello to the Ops

In the preceding case, the configuration loaded into your Spring Application with the development profile is as follows:spring-doc.cn

  greeting:
    message: Say Hello to the Developers
  farewell:
    message: Say Goodbye to the Developers

However, if the production profile is active, the configuration becomes:spring-doc.cn

  greeting:
    message: Say Hello to the Ops
  farewell:
    message: Say Goodbye

If both profiles are active, the property that appears last within the ConfigMap overwrites any preceding values.spring-doc.cn

Another option is to create a different config map per profile and spring boot will automatically fetch it based on active profilesspring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: demo
data:
  application.yml: |-
    greeting:
      message: Say Hello to the World
    farewell:
      message: Say Goodbye
kind: ConfigMap
apiVersion: v1
metadata:
  name: demo-development
data:
  application.yml: |-
    spring:
      profiles: development
    greeting:
      message: Say Hello to the Developers
    farewell:
      message: Say Goodbye to the Developers
kind: ConfigMap
apiVersion: v1
metadata:
  name: demo-production
data:
  application.yml: |-
    spring:
      profiles: production
    greeting:
      message: Say Hello to the Ops
    farewell:
      message: Say Goodbye

To tell Spring Boot which profile should be enabled see the Spring Boot documentation. One option for activating a specific profile when deploying to Kubernetes is to launch your Spring Boot application with an environment variable that you can define in the PodSpec at the container specification. Deployment resource file, as follows:spring-doc.cn

apiVersion: apps/v1
kind: Deployment
metadata:
  name: deployment-name
  labels:
    app: deployment-name
spec:
  replicas: 1
  selector:
    matchLabels:
      app: deployment-name
  template:
    metadata:
      labels:
        app: deployment-name
	spec:
		containers:
		- name: container-name
		  image: your-image
		  env:
		  - name: SPRING_PROFILES_ACTIVE
			value: "development"

You could run into a situation where there are multiple configs maps that have the same property names. For example:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: config-map-one
data:
  application.yml: |-
    greeting:
      message: Say Hello from one
kind: ConfigMap
apiVersion: v1
metadata:
  name: config-map-two
data:
  application.yml: |-
    greeting:
      message: Say Hello from two

Depending on the order in which you place these in bootstrap.yaml|properties, you might end up with an un-expected result (the last config map wins). For example:spring-doc.cn

spring:
  application:
    name: cloud-k8s-app
  cloud:
    kubernetes:
      config:
        namespace: default-namespace
        sources:
         - name: config-map-two
         - name: config-map-one

will result in property greetings.message being Say Hello from one.spring-doc.cn

There is a way to change this default configuration by specifying useNameAsPrefix. For example:spring-doc.cn

spring:
  application:
    name: with-prefix
  cloud:
    kubernetes:
      config:
        useNameAsPrefix: true
        namespace: default-namespace
        sources:
          - name: config-map-one
            useNameAsPrefix: false
          - name: config-map-two

Such a configuration will result in two properties being generated:spring-doc.cn

  • greetings.message equal to Say Hello from one.spring-doc.cn

  • config-map-two.greetings.message equal to Say Hello from twospring-doc.cn

Notice that spring.cloud.kubernetes.config.useNameAsPrefix has a lower priority than spring.cloud.kubernetes.config.sources.useNameAsPrefix. This allows you to set a "default" strategy for all sources, at the same time allowing to override only a few.spring-doc.cn

If using the config map name is not an option, you can specify a different strategy, called : explicitPrefix. Since this is an explicit prefix that you select, it can only be supplied to the sources level. At the same time it has a higher priority than useNameAsPrefix. Let’s suppose we have a third config map with these entries:spring-doc.cn

kind: ConfigMap
apiVersion: v1
metadata:
  name: config-map-three
data:
  application.yml: |-
    greeting:
      message: Say Hello from three

A configuration like the one below:spring-doc.cn

spring:
  application:
    name: with-prefix
  cloud:
    kubernetes:
      config:
        useNameAsPrefix: true
        namespace: default-namespace
        sources:
          - name: config-map-one
            useNameAsPrefix: false
          - name: config-map-two
            explicitPrefix: two
          - name: config-map-three

will result in three properties being generated:spring-doc.cn

  • greetings.message equal to Say Hello from one.spring-doc.cn

  • two.greetings.message equal to Say Hello from two.spring-doc.cn

  • config-map-three.greetings.message equal to Say Hello from three.spring-doc.cn

The same way you configure a prefix for configmaps, you can do it for secrets also; both for secrets that are based on name and the ones based on labels. For example:spring-doc.cn

spring:
  application:
    name: prefix-based-secrets
  cloud:
    kubernetes:
      secrets:
        enableApi: true
        useNameAsPrefix: true
        namespace: spring-k8s
        sources:
          - labels:
              letter: a
            useNameAsPrefix: false
          - labels:
              letter: b
            explicitPrefix: two
          - labels:
              letter: c
          - labels:
              letter: d
            useNameAsPrefix: true
          - name: my-secret

The same processing rules apply when generating property source as for config maps. The only difference is that potentially, looking up secrets by labels can mean that we find more than one source. In such a case, prefix (if specified via useNameAsPrefix) will be the names of all secrets found for those particular labels.spring-doc.cn

One more thing to bear in mind is that we support prefix per source, not per secret. The easiest way to explain this is via an example:spring-doc.cn

spring:
  application:
    name: prefix-based-secrets
  cloud:
    kubernetes:
      secrets:
        enableApi: true
        useNameAsPrefix: true
        namespace: spring-k8s
        sources:
          - labels:
              color: blue
            useNameAsPrefix: true

Suppose that a query matching such a label will provide two secrets as a result: secret-a and secret-b. Both of these secrets have the same property name: color=sea-blue and color=ocean-blue. It is undefined which color will end-up as part of property sources, but the prefix for it will be secret-a.secret-b (concatenated sorted naturally, names of the secrets).spring-doc.cn

If you need more fine-grained results, adding more labels to identify the secret uniquely would be an option.spring-doc.cn

By default, besides reading the config map that is specified in the sources configuration, Spring will also try to read all properties from "profile aware" sources. The easiest way to explain this is via an example. Let’s suppose your application enables a profile called "dev" and you have a configuration like the one below:spring-doc.cn

spring:
  application:
    name: spring-k8s
  cloud:
    kubernetes:
      config:
        namespace: default-namespace
        sources:
          - name: config-map-one

Besides reading the config-map-one, Spring will also try to read config-map-one-dev; in this particular order. Each active profile generates such a profile aware config map.spring-doc.cn

Though your application should not be impacted by such a config map, it can be disabled if needed:spring-doc.cn

spring:
  application:
    name: spring-k8s
  cloud:
    kubernetes:
      config:
        includeProfileSpecificSources: false
        namespace: default-namespace
        sources:
          - name: config-map-one
            includeProfileSpecificSources: false

Notice that just like before, there are two levels where you can specify this property: for all config maps or for individual ones; the latter having a higher priority.spring-doc.cn

You should check the security configuration section. To access config maps from inside a pod you need to have the correct Kubernetes service accounts, roles and role bindings.

Another option for using ConfigMap instances is to mount them into the Pod by running the Spring Cloud Kubernetes application and having Spring Cloud Kubernetes read them from the file system.spring-doc.cn

This feature is deprecated and will be removed in a future release (Use spring.config.import instead). This behavior is controlled by the spring.cloud.kubernetes.config.paths property. You can use it in addition to or instead of the mechanism described earlier. spring.cloud.kubernetes.config.paths expects a List of full paths to each property file, because directories are not being recursively parsed. For example:
spring:
  cloud:
    kubernetes:
      config:
        paths:
          - /tmp/application.properties
          - /var/application.yaml
If you use spring.cloud.kubernetes.config.paths or spring.cloud.kubernetes.secrets.path the automatic reload functionality will not work. You will need to make a POST request to the /actuator/refresh endpoint or restart/redeploy the application.

In some cases, your application may be unable to load some of your ConfigMaps using the Kubernetes API. If you want your application to fail the start-up process in such cases, you can set spring.cloud.kubernetes.config.fail-fast=true to make the application start-up fail with an Exception.spring-doc.cn

You can also make your application retry loading ConfigMap property sources on a failure. First, you need to set spring.cloud.kubernetes.config.fail-fast=true. Then you need to add spring-retry and spring-boot-starter-aop to your classpath. You can configure retry properties such as the maximum number of attempts, backoff options like initial interval, multiplier, max interval by setting the spring.cloud.kubernetes.config.retry.* properties.spring-doc.cn

If you already have spring-retry and spring-boot-starter-aop on the classpath for some reason and want to enable fail-fast, but do not want retry to be enabled; you can disable retry for ConfigMap PropertySources by setting spring.cloud.kubernetes.config.retry.enabled=false.
Table 1. Properties:
Name Type Default Description

spring.cloud.kubernetes.config.enabledspring-doc.cn

Booleanspring-doc.cn

truespring-doc.cn

Enable ConfigMaps PropertySourcespring-doc.cn

spring.cloud.kubernetes.config.namespring-doc.cn

Stringspring-doc.cn

${spring.application.name}spring-doc.cn

Sets the name of ConfigMap to look upspring-doc.cn

spring.cloud.kubernetes.config.namespacespring-doc.cn

Stringspring-doc.cn

Client namespacespring-doc.cn

Sets the Kubernetes namespace where to lookupspring-doc.cn

spring.cloud.kubernetes.config.pathsspring-doc.cn

Listspring-doc.cn

nullspring-doc.cn

Sets the paths where ConfigMap instances are mountedspring-doc.cn

spring.cloud.kubernetes.config.enableApispring-doc.cn

Booleanspring-doc.cn

truespring-doc.cn

Enable or disable consuming ConfigMap instances through APIsspring-doc.cn

spring.cloud.kubernetes.config.fail-fastspring-doc.cn

Booleanspring-doc.cn

falsespring-doc.cn

Enable or disable failing the application start-up when an error occurred while loading a ConfigMapspring-doc.cn

spring.cloud.kubernetes.config.retry.enabledspring-doc.cn

Booleanspring-doc.cn

truespring-doc.cn

Enable or disable config retry.spring-doc.cn

spring.cloud.kubernetes.config.retry.initial-intervalspring-doc.cn

Longspring-doc.cn

1000spring-doc.cn

Initial retry interval in milliseconds.spring-doc.cn

spring.cloud.kubernetes.config.retry.max-attemptsspring-doc.cn

Integerspring-doc.cn

6spring-doc.cn

Maximum number of attempts.spring-doc.cn

spring.cloud.kubernetes.config.retry.max-intervalspring-doc.cn

Longspring-doc.cn

2000spring-doc.cn

Maximum interval for backoff.spring-doc.cn

spring.cloud.kubernetes.config.retry.multiplierspring-doc.cn

Doublespring-doc.cn

1.1spring-doc.cn

Multiplier for next interval.spring-doc.cn