This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Cloud Kubernetes 3.1.4! |
DiscoveryClient for Kubernetes
This project provides an implementation of Discovery Client
for Kubernetes.
This client lets you query Kubernetes endpoints (see services) by name.
A service is typically exposed by the Kubernetes API server as a collection of endpoints that represent http
and https
addresses and that a client can
access from a Spring Boot application running as a pod.
DiscoveryClient can also find services of type ExternalName
(see ExternalName services). At the moment, external name support type of services is only available if the following property spring.cloud.kubernetes.discovery.include-external-name-services
is set to true
(it is false
by default).
There are 3 types of discovery clients that we support:
1.
Fabric8 Kubernetes Client
<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-starter-kubernetes-fabric8</artifactId>
</dependency>
2.
Kubernetes Java Client
<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-starter-kubernetes-client</artifactId>
</dependency>
3.
HTTP Based DiscoveryClient
<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-starter-kubernetes-discoveryclient</artifactId>
</dependency>
spring-cloud-starter-kubernetes-discoveryclient is designed to be used with the
Spring Cloud Kubernetes DiscoveryServer.
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To enable loading of the DiscoveryClient
, add @EnableDiscoveryClient
to the according configuration or application class, as the following example shows:
@SpringBootApplication
@EnableDiscoveryClient
public class Application {
public static void main(String[] args) {
SpringApplication.run(Application.class, args);
}
}
Then you can inject the client in your code simply by autowiring it, as the following example shows:
@Autowired
private DiscoveryClient discoveryClient;
The first question you should ask yourself is where a DiscoveryClient
supposed to discover services. In the kubernetes world, this means what namespace(s). There are 3 options here:
-
selective namespaces
. For example:
spring.cloud.kubernetes.discovery.namespaces[0]=ns1
spring.cloud.kubernetes.discovery.namespaces[1]=ns2
Such a configuration makes discovery client only search for services in two namespaces ns1
and ns2
.
-
all-namespaces
.
spring.cloud.kubernetes.discovery.all-namespaces=true
While such an option exists, this can be a burden on both kube-api and your application. It is rare to need such a setting.
-
one namespace
. This is the default setting, if you do not specify any of the above. It works on the rules outlined in Namespace Resolution.
The above options work exactly as written for fabric8 and k8s clients. For the HTTP based client, you need to enable those options on the server. That can be achieved by setting them in deployment.yaml used to deploy the image in the cluster, using env variable(s).
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For example:
containers:
- name: discovery-server
image: springcloud/spring-cloud-kubernetes-discoveryserver:3.0.5-SNAPSHOT
env:
- name: SPRING_CLOUD_KUBERNETES_DISCOVERY_NAMESPACES_0
value: "namespace-a"
Once namespaces have been configured, the next question to answer is what services to discover. Think about it as what filter to apply. By default, no filtering is applied at all and all services are discovered. If you need to narrow what discovery client can find, you have two options:
-
Only take services that match certain service labels. This property is specified with:
spring.cloud.kubernetes.discovery.service-labels
. It accepts aMap
and only those services that have such labels (as seen inmetadata.labels
in the service definition) will be taken into account. -
The other option is to use SpEL expression. This is denoted by the
spring.cloud.kubernetes.discovery.filter
property, and its value depends on the client that you chose. If you use the fabric8 client, this SpEL expression must be created againstio.fabric8.kubernetes.api.model.Service
class. One such example could be:
spring.cloud.kubernetes.discovery.filter='#root.metadata.namespace matches "^.+A$"'
which tells discovery client to only get services that have the metadata.namespace
that ends in upper case A
.
If your discovery client is based on k8s-native client, then the SpEL expression must be based on io.kubernetes.client.openapi.models.V1Service
class. The same filter showed above would work here.
If your discovery client is the http based one, then the SeEL expression has to be based on the same io.kubernetes.client.openapi.models.V1Service
class, with the only distinction that this needs to be set as an env variable in the deployment yaml:
containers: - name: discovery-server image: springcloud/spring-cloud-kubernetes-discoveryserver:3.0.5-SNAPSHOT env: - name: SPRING_CLOUD_KUBERNETES_DISCOVERY_FILTER value: '#root.metadata.namespace matches "^.+A$"'
It’s now time to think what discovery client is supposed to return back. In general, there are two methods that DiscoveryClient
has: getServices
and getInstances
.
getServices
will return the service names as seen in the metadata.name
.
This method will return unique service names, even if there are duplicates across different namespaces (that you chose for the search). |
getInstances
returns a List<ServiceInstance>
. Besides the usual fields that a ServiceInstance
has, we also add some data, like namespace or pod metadata (more explanation about these will follow in the document). Here is the data that we return at the moment:
-
instanceId
- unique id of the service instance -
serviceId
- the name of the service (it is the same as the one reported by callinggetServices
) -
host
- IP of the instance (or name in case of theExternalName
type of service) -
port
- port number of the instance. This requires a bit more explanation, as choosing the port number has its rules:-
service has no port defined, 0 (zero) will be returned.
-
service has a single port defined, that one will be returned.
-
If the service has a label
primary-port-name
, we will use the port number that has the name specified in the label’s value. -
If the above label is not present, then we will use the port name specified in
spring.cloud.kubernetes.discovery.primary-port-name
to find the port number. -
If neither of the above are specified, we will use the port named
https
orhttp
to compute the port number. -
As a last resort we wil pick the first port in the list of ports. This last option may result in non-deterministic behaviour.
-
-
uri
of the service instance -
scheme
eitherhttp
orhttps
(depending on thesecure
result) -
metadata
of the service:-
labels
(if requested viaspring.cloud.kubernetes.discovery.metadata.add-labels=true
). Label keys can be "prefixed" with the value ofspring.cloud.kubernetes.discovery.metadata.labels-prefix
if it is set. -
annotations
(if requested viaspring.cloud.kubernetes.discovery.metadata.add-annotations=true
). Annotations keys can be "prefixed" with the value ofspring.cloud.kubernetes.discovery.metadata.annotations-prefix
if it is set. -
ports
(if requested viaspring.cloud.kubernetes.discovery.metadata.add-ports=true
). Port keys can be "prefixed" with the value ofspring.cloud.kubernetes.discovery.metadata.ports-prefix
if it is set. -
k8s_namespace
with the value of the namespace where instance resides. -
type
that holds the service type, for exampleClusterIP
orExternalName
-
-
secure
if the port that was discovered should be treated as secure. We will use the same rules outlined above to find the port name and number, and then:-
If this service has a label called
secured
with any of the values :["true", "on", "yes", "1"]
, then treat the port that was found as secure. -
If such a label is not found, search for an annotation called
secured
and apply the same above rules. -
If this port number is part of
spring.cloud.kubernetes.discovery.known-secure-ports
(by default this value holds[443, 8443]
), treat port number as secured. -
Last resort is to see if port name matches
https
; if it does treat this port as secured.
-
-
namespace
- the namespace of the found instance. -
pod-metadata
labels and annotations of the service instance (pod), in the form ofMap<String, Map<String, String>>
. This support needs to be enabled viaspring.cloud.kubernetes.discovery.metadata.add-pod-labels=true
and/orspring.cloud.kubernetes.discovery.metadata.add-pod-annotaations=true
To discover service endpoint addresses that are not marked as "ready" by the kubernetes api server, you can set the following property in application.properties
(default: false):
spring.cloud.kubernetes.discovery.include-not-ready-addresses=true
This might be useful when discovering services for monitoring purposes, and would enable inspecting the /health endpoint of not-ready service instances.
If you want to get the list of ServiceInstance to also include the ExternalName type services, you need to enable that support via: spring.cloud.kubernetes.discovery.include-external-name-services=true . As such, when calling DiscoveryClient::getInstances those will be returned also. You can distinguish between ExternalName and any other types by inspecting ServiceInstance::getMetadata and lookup for a field called type . This will be the type of the service returned : ExternalName /ClusterIP , etc.
If, for any reason, you need to disable the DiscoveryClient , you can set the following property in application.properties :
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spring.main.cloud-platform=NONE
Note that the support of discovery client is automatic, depending on where you run the application. So the above setting might not be needed.
Some Spring Cloud components use the DiscoveryClient
in order to obtain information about the local service instance. For
this to work, you need to align the Kubernetes service name with the spring.application.name
property.
spring.application.name has no effect as far as the name registered for the application within Kubernetes
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Spring Cloud Kubernetes can also watch the Kubernetes service catalog for changes and update the DiscoveryClient
implementation accordingly. In order to enable this functionality you need to add
@EnableScheduling
on a configuration class in your application. By "watch", we mean that we will publish a heartbeat event every spring.cloud.kubernetes.discovery.catalog-services-watch-delay
milliseconds (by default it is 30000
). For the http discovery server this must be an environment variable set in deployment yaml:
containers: - name: discovery-server image: springcloud/spring-cloud-kubernetes-discoveryserver:3.0.5-SNAPSHOT env: - name: SPRING_CLOUD_KUBERNETES_DISCOVERY_CATALOGSERVICESWATCHDELAY value: 3000
The heartbeat event will contain the target references (and their namespaces of the addresses of all endpoints
(for the exact details of what will get returned you can take a look inside KubernetesCatalogWatch
). This is an implementation detail, and listeners of the heartbeat event
should not rely on the details. Instead, they should see if there are differences between two subsequent heartbeats via equals
method. We will take care to return a correct implementation that adheres to the equals contract.
The endpoints will be queried in either :
- all-namespaces
(enabled via spring.cloud.kubernetes.discovery.all-namespaces=true
)
-
selective namespaces
(enabled viaspring.cloud.kubernetes.discovery.namespaces
), for example: -
one namespace
via Namespace Resolution if the above two paths are not taken.
If, for any reasons, you want to disable catalog watcher, you need to set spring.cloud.kubernetes.discovery.catalog-services-watch.enabled=false . For the http discovery server, this needs to be an environment variable set in deployment for example:
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SPRING_CLOUD_KUBERNETES_DISCOVERY_CATALOGSERVICESWATCH_ENABLED=FALSE
The functionality of catalog watch works for all 3 discovery clients that we support, with some caveats that you need to be aware of in case of the http client.
-
The first is that this functionality is disabled by default, and it needs to be enabled in two places:
-
in discovery server via an environment variable in the deployment manifest, for example:
containers: - name: discovery-server image: springcloud/spring-cloud-kubernetes-discoveryserver:3.0.5-SNAPSHOT env: - name: SPRING_CLOUD_KUBERNETES_HTTP_DISCOVERY_CATALOG_WATCHER_ENABLED value: "TRUE"
-
in discovery client, via a property in your
application.properties
for example:spring.cloud.kubernetes.http.discovery.catalog.watcher.enabled=true
-
-
The second point is that this is only supported since version
3.0.6
and upwards. -
Since http discovery has two components : server and client, we strongly recommend to align versions between them, otherwise things might not work.
-
If you decide to disable catalog watcher, you need to disable it in both server and client.
By default, we use the Endpoints
(see kubernetes.io/docs/concepts/services-networking/service/#endpoints) API to find out the current state of services. There is another way though, via EndpointSlices
(kubernetes.io/docs/concepts/services-networking/endpoint-slices/). Such support can be enabled via a property: spring.cloud.kubernetes.discovery.use-endpoint-slices=true
(by default it is false
). Of course, your cluster has to support it also. As a matter of fact, if you enable this property, but your cluster does not support it, we will fail starting the application. If you decide to enable such support, you also need proper Role/ClusterRole set-up. For example:
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
namespace: default
name: namespace-reader
rules:
- apiGroups: ["discovery.k8s.io"]
resources: ["endpointslices"]
verbs: ["get", "list", "watch"]