---
id: k8s-jobs
title: "MM-less Druid in K8s"
---
Apache Druid Extension to enable using Kubernetes for launching and managing tasks instead of the Middle Managers. This extension allows you to launch tasks as kubernetes jobs removing the need for your middle manager.
Consider this an [EXPERIMENTAL](../experimental.md) feature mostly because it has not been tested yet on a wide variety of long-running Druid clusters.
## How it works
The K8s extension builds a pod spec for each task using the specified pod adapter. All jobs are natively restorable, they are decoupled from the Druid deployment, thus restarting pods or doing upgrades has no affect on tasks in flight. They will continue to run and when the overlord comes back up it will start tracking them again.
## Configuration
To use this extension please make sure to [include](../../configuration/extensions.md#loading-extensions)`druid-kubernetes-overlord-extensions` in the extensions load list for your overlord process.
The extension uses `druid.indexer.runner.capacity` to limit the number of k8s jobs in flight. A good initial value for this would be the sum of the total task slots of all the middle managers you were running before switching to K8s based ingestion. The K8s task runner uses one thread per Job that is created, so setting this number too large can cause memory issues on the overlord. Additionally set the variable `druid.indexer.runner.namespace` to the namespace in which you are running druid.
Other configurations required are:
`druid.indexer.runner.type: k8s` and `druid.indexer.task.encapsulatedTask: true`
### Dynamic config
Druid operators can dynamically tune certain features within this extension. You don't need to restart the Overlord
service for these changes to take effect.
Druid can dynamically tune [pod template selection](#pod-template-selection), which allows you to configure the pod
template based on the task to be run. To enable dynamic pod template selection, first configure the
[custom template pod adapter](#custom-template-pod-adapter).
Use the following APIs to view and update the dynamic configuration for the Kubernetes task runner.
To use these APIs, ensure you have read and write permissions for the CONFIG resource type with the resource name
"CONFIG". For more information on permissions, see
[User authentication and authorization](../../operations/security-user-auth.md#config).
#### Get dynamic configuration
Retrieves the current dynamic execution config for the Kubernetes task runner.
Returns a JSON object with the dynamic configuration properties.
##### URL
`GET` `/druid/indexer/v1/k8s/taskrunner/executionconfig`
##### Responses
*Successfully retrieved dynamic configuration*
---
##### Sample request
```shell
curl "http://ROUTER_IP:ROUTER_PORT/druid/indexer/v1/k8s/taskrunner/executionconfig"
```
```HTTP
GET /druid/indexer/v1/k8s/taskrunner/executionconfig HTTP/1.1
Host: http://ROUTER_IP:ROUTER_PORT
```
##### Sample response
View the response
```json
{
"type": "default",
"podTemplateSelectStrategy":
{
"type": "selectorBased",
"selectors": [
{
"selectionKey": "podSpec1",
"context.tags": {
"userProvidedTag": ["tag1", "tag2"]
},
"dataSource": ["wikipedia"]
},
{
"selectionKey": "podSpec2",
"type": ["index_kafka"]
}
]
}
}
```
#### Update dynamic configuration
Updates the dynamic configuration for the Kubernetes Task Runner
##### URL
`POST` `/druid/indexer/v1/k8s/taskrunner/executionconfig`
##### Header parameters
The endpoint supports the following optional header parameters to populate the `author` and `comment` fields in the configuration history.
* `X-Druid-Author`
* Type: String
* Author of the configuration change.
* `X-Druid-Comment`
* Type: String
* Description for the update.
##### Responses
*Successfully updated dynamic configuration*
---
##### Sample request
```shell
curl "http://ROUTER_IP:ROUTER_PORT/druid/indexer/v1/k8s/taskrunner/executionconfig" \
--header 'Content-Type: application/json' \
--data '{
"type": "default",
"podTemplateSelectStrategy":
{
"type": "selectorBased",
"selectors": [
{
"selectionKey": "podSpec1",
"context.tags":
{
"userProvidedTag": ["tag1", "tag2"]
},
"dataSource": ["wikipedia"]
},
{
"selectionKey": "podSpec2",
"type": ["index_kafka"]
}
]
}
}'
```
```HTTP
POST /druid/indexer/v1/k8s/taskrunner/executionconfig HTTP/1.1
Host: http://ROUTER_IP:ROUTER_PORT
Content-Type: application/json
{
"type": "default",
"podTemplateSelectStrategy":
{
"type": "selectorBased",
"selectors": [
{
"selectionKey": "podSpec1",
"context.tags":
{
"userProvidedTag": ["tag1", "tag2"]
},
"dataSource": ["wikipedia"]
},
{
"selectionKey": "podSpec2",
"type": ["index_kafka"]
}
]
}
}
```
##### Sample response
A successful request returns an HTTP `200 OK` message code and an empty response body.
#### Get dynamic configuration history
Retrieves the history of changes to Kubernetes task runner's dynamic execution config over an interval of time. Returns
an empty array if there are no history records available.
##### URL
`GET` `/druid/indexer/v1/k8s/taskrunner/executionconfig/history`
##### Query parameters
The endpoint supports the following optional query parameters to filter results.
* `interval`
* Type: String
* Limit the results to the specified time interval in ISO 8601 format delimited with `/`. For example, `2023-07-13/2023-07-19`. The default interval is one week. You can change this period by setting `druid.audit.manager.auditHistoryMillis` in the `runtime.properties` file for the Coordinator.
* `count`
* Type: Integer
* Limit the number of results to the last `n` entries.
##### Responses
*Successfully retrieved dynamic configuration*
---
##### Sample request
```shell
curl "http://ROUTER_IP:ROUTER_PORT/druid/indexer/v1/k8s/taskrunner/executionconfig/history"
```
```HTTP
GET /druid/indexer/v1/k8s/taskrunner/executionconfig/history HTTP/1.1
Host: http://ROUTER_IP:ROUTER_PORT
```
##### Sample response
View the response
```json
[
{
"key": "k8s.taskrunner.config",
"type": "k8s.taskrunner.config",
"auditInfo": {
"author": "",
"comment": "",
"ip": "127.0.0.1"
},
"payload": "{\"type\": \"default\",\"podTemplateSelectStrategy\":{\"type\": \"taskType\"}",
"auditTime": "2024-06-13T20:59:51.622Z"
}
]
```
## Pod adapters
The logic defining how the pod template is built for your Kubernetes Job depends on which pod adapter you have specified.
### Overlord Single Container Pod Adapter/Overlord Multi Container Pod Adapter
The overlord single container pod adapter takes the podSpec of your `Overlord` pod and creates a kubernetes job from this podSpec. This is the default pod adapter implementation, to explicitly enable it you can specify the runtime property `druid.indexer.runner.k8s.adapter.type: overlordSingleContainer`
The overlord multi container pod adapter takes the podSpec of your `Overlord` pod and creates a kubernetes job from this podSpec. It uses kubexit to manage dependency ordering between the main container that runs your druid peon and other sidecars defined in the `Overlord` pod spec. Thus if you have sidecars such as Splunk or Istio it will be able to handle them. To enable this pod adapter you can specify the runtime property `druid.indexer.runner.k8s.adapter.type: overlordMultiContainer`
For the sidecar support to work for the multi container pod adapter, your entry point / command in docker must be explicitly defined your spec.
You can't have something like this:
Dockerfile:
``` ENTRYPOINT: ["foo.sh"] ```
and in your sidecar specs:
``` container:
name: foo
args:
- arg1
- arg2
```
That will not work, because we cannot decipher what your command is, the extension needs to know it explicitly.
**Even for sidecars like Istio which are dynamically created by the service mesh, this needs to happen.*
Instead, do the following:
You can keep your Dockerfile the same but you must have a sidecar spec like so:
``` container:
name: foo
command: foo.sh
args:
- arg1
- arg2
```
For both of these adapters, you can add optional labels to your K8s jobs / pods if you need them by using the following configuration:
`druid.indexer.runner.labels: '{"key":"value"}'`
Annotations are the same with:
`druid.indexer.runner.annotations: '{"key":"value"}'`
All other configurations you had for the middle manager tasks must be moved under the overlord with one caveat, you must specify javaOpts as an array:
`druid.indexer.runner.javaOptsArray`, `druid.indexer.runner.javaOpts` is no longer supported.
If you are running without a middle manager you need to also use `druid.processing.intermediaryData.storage.type=deepstore`
### Custom Template Pod Adapter
The custom template pod adapter allows you to specify a pod template file per task type for more flexibility on how to define your pods. This adapter expects a [Pod Template](https://kubernetes.io/docs/concepts/workloads/pods/#pod-templates) to be available on the overlord's file system. This pod template is used as the base of the pod spec for the Kubernetes Job. You can override things like labels, environment variables, resources, annotation, or even the base image with this template. To enable this pod adapter you can specify the runtime property `druid.indexer.runner.k8s.adapter.type: customTemplateAdapter`
The base pod template must be specified as the runtime property `druid.indexer.runner.k8s.podTemplate.base: /path/to/basePodSpec.yaml`
Example Pod Template that uses the regular druid docker image
```yaml
apiVersion: "v1"
kind: "PodTemplate"
template:
metadata:
annotations:
sidecar.istio.io/proxyCPU: "512m" # to handle a injected istio sidecar
labels:
app.kubernetes.io/name: "druid-realtime-backend"
spec:
affinity: {}
containers:
- command:
- sh
- -c
- |
/peon.sh /druid/data 1
env:
- name: CUSTOM_ENV_VARIABLE
value: "hello"
image: apache/druid:{{DRUIDVERSION}}
name: main
ports:
- containerPort: 8091
name: druid-tls-port
protocol: TCP
- containerPort: 8100
name: druid-port
protocol: TCP
resources:
limits:
cpu: "1"
memory: 2400M
requests:
cpu: "1"
memory: 2400M
volumeMounts:
- mountPath: /opt/druid/conf/druid/cluster/master/coordinator-overlord # runtime props are still mounted in this location because that's where peon.sh looks for configs
name: nodetype-config-volume
readOnly: true
- mountPath: /druid/data
name: data-volume
- mountPath: /druid/deepstorage
name: deepstorage-volume
restartPolicy: "Never"
securityContext:
fsGroup: 1000
runAsGroup: 1000
runAsUser: 1000
tolerations:
- effect: NoExecute
key: node.kubernetes.io/not-ready
operator: Exists
tolerationSeconds: 300
- effect: NoExecute
key: node.kubernetes.io/unreachable
operator: Exists
tolerationSeconds: 300
volumes:
- configMap:
defaultMode: 420
name: druid-tiny-cluster-peons-config
name: nodetype-config-volume
- emptyDir: {}
name: data-volume
- emptyDir: {}
name: deepstorage-volume
```
The below runtime properties need to be passed to the Job's peon process.
```
druid.port=8100 (what port the peon should run on)
druid.peon.mode=remote
druid.service=druid/peon (for metrics reporting)
druid.indexer.task.baseTaskDir=/druid/data (this should match the argument to the ./peon.sh run command in the PodTemplate)
druid.indexer.runner.type=k8s
druid.indexer.task.encapsulatedTask=true
```
Any runtime property or JVM config used by the peon process can also be passed. E.G. below is a example of a ConfigMap that can be used to generate the `nodetype-config-volume` mount in the above template.
Example ConfigMap
```
kind: ConfigMap
metadata:
name: druid-tiny-cluster-peons-config
namespace: default
apiVersion: v1
data:
jvm.config: |-
-server
-XX:MaxDirectMemorySize=1000M
-Duser.timezone=UTC
-Dfile.encoding=UTF-8
-Dlog4j.debug
-Djava.util.logging.manager=org.apache.logging.log4j.jul.LogManager
-Djava.io.tmpdir=/druid/data
-Xmx1024M
-Xms1024M
log4j2.xml: |-
runtime.properties: |
druid.port=8100
druid.service=druid/peon
druid.server.http.numThreads=5
druid.indexer.task.baseTaskDir=/druid/data
druid.indexer.runner.type=k8s
druid.peon.mode=remote
druid.indexer.task.encapsulatedTask=true
```
#### Pod template selection
The pod template adapter can select which pod template should be used for a task using the [task runner execution config](#dynamic-config)
##### Select based on task type
The `TaskTypePodTemplateSelectStrategy` strategy selects pod templates based on task type for execution purposes,
implementing the behavior that maps templates to specific task types. This is the default pod template selection
strategy. To explicitly select this strategy, set the `podTemplateSelectStrategy` in the dynamic execution config to
```json
{ "type": "default" }
```
Task specific pod templates can be specified as the runtime property
`druid.indexer.runner.k8s.podTemplate.{taskType}: /path/to/taskSpecificPodSpec.yaml` where {taskType} is the name of the
task type. For example, `index_parallel`.
If you are trying to use the default image's environment variable parsing feature to set runtime properties, you need to add a extra escape underscore when specifying pod templates.
For example, set the environment variable `druid_indexer_runner_k8s_podTemplate_index__kafka` when you set the runtime property `druid.indexer.runner.k8s.podTemplate.index_kafka`
The following example shows a configuration for task-based pod template selection:
```properties
druid.indexer.runner.k8s.podTemplate.base=/path/to/basePodSpec.yaml
druid.indexer.runner.k8s.podTemplate.index_kafka=/path/to/kafkaPodSpec.yaml
```
##### Select based on one or more conditions
The `SelectorBasedPodTemplateSelectStrategy` strategy evaluates a series of criteria within `selectors` to determine
which pod template to use to run the task. Pod templates are configured in the runtime properties like
`druid.indexer.runner.k8s.podTemplate.=...`.
```json
{
"type": "selectorBased",
"selectors": [
{
"selectionKey": "podSpec1",
"context.tags":
{
"userProvidedTag": ["tag1", "tag2"]
},
"dataSource": ["wikipedia"]
},
{
"selectionKey": "podSpec2",
"type": ["index_kafka"]
}
]
}
```
Selectors are processed in order. Druid selects the template based on the first matching selector. If a task does not
match any selector in the list, it will use the `base` pod template.
For a task to match a selector, all the conditions within the selector must match. A selector can match on
- `type`: Type of the task
- `dataSource`: Destination datasource of the task.
- `context.tags`: Tags passed in the task's context.
##### Example
Set the following runtime properties to define the pod specs that can be used by Druid.
```properties
druid.indexer.runner.k8s.podTemplate.base=/path/to/basePodSpec.yaml
druid.indexer.runner.k8s.podTemplate.podSpec1=/path/to/podSpecWithHighMemRequests.yaml
druid.indexer.runner.k8s.podTemplate.podSpec2=/path/to/podSpecWithLowCpuRequests.yaml
```
Set the dynamic execution config to define the pod template selection strategy.
```json
{
"type": "default",
"podTemplateSelectStrategy": {
"type": "selectorBased",
"selectors": [
{
"selectionKey": "podSpec1",
"context.tags": { "userProvidedTag": ["tag1", "tag2"] },
"dataSource": ["wikipedia"]
},
{
"selectionKey": "podSpec2",
"type": ["index_kafka"]
}
]
}
}
```
Druid selects the pod templates as follows:
1. Use `podSpecWithHighMemRequests.yaml` when both of the following conditions are met:
1. The task context contains a tag with the key `userProvidedTag` that has the value `tag1` or `tag2`.
2. The task targets the `wikipedia` datasource.
2. Use `podSpecWithLowCpuRequests.yaml` when the task type is `index_kafka`.
3. Use the `basePodSpec.yaml` for all other tasks.
In this example, if there is an `index_kafka` task for the `wikipedia` datasource with the tag `userProvidedTag: tag1`,
Druid selects the pod template `podSpecWithHighMemRequests.yaml`.
In the above example, for selection key `podSpec1` we didn't specify task `type`. This is equivalent to setting `type` to `null` or an empty array.
All three examples below are equivalent.
- Not setting `type`
```json
{
"selectionKey": "podSpec1",
"context.tags": { "userProvidedTag": ["tag1", "tag2"] },
"dataSource": ["wikipedia"]
}
```
- Setting `type` to `null`
```json
{
"selectionKey": "podSpec1",
"context.tags": { "userProvidedTag": ["tag1", "tag2"] },
"dataSource": ["wikipedia"],
"type": null
}
```
- Setting `type` to an empty array
```json
{
"selectionKey": "podSpec1",
"context.tags": { "userProvidedTag": ["tag1", "tag2"] },
"dataSource": ["wikipedia"],
"type": []
}
```
In all the above cases, Druid will match the selector to any value of task type. Druid applies similar logic for `dataSource`. For `context.tags` setting `null` or an empty object `{}` is equivalent.
### Properties
|Property| Possible Values | Description |Default|required|
|--------|-----------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|-------|--------|
|`druid.indexer.runner.debugJobs`| `boolean` | Clean up K8s jobs after tasks complete. |False|No|
|`druid.indexer.runner.sidecarSupport`| `boolean` | Deprecated, specify adapter type as runtime property `druid.indexer.runner.k8s.adapter.type: overlordMultiContainer` instead. If your overlord pod has sidecars, this will attempt to start the task with the same sidecars as the overlord pod. |False|No|
|`druid.indexer.runner.primaryContainerName`| `String` | If running with sidecars, the `primaryContainerName` should be that of your druid container like `druid-overlord`. |First container in `podSpec` list|No|
|`druid.indexer.runner.kubexitImage`| `String` | Used kubexit project to help shutdown sidecars when the main pod completes. Otherwise jobs with sidecars never terminate. |karlkfi/kubexit:latest|No|
|`druid.indexer.runner.disableClientProxy`| `boolean` | Use this if you have a global http(s) proxy and you wish to bypass it. |false|No|
|`druid.indexer.runner.maxTaskDuration`| `Duration` | Max time a task is allowed to run for before getting killed |`PT4H`|No|
|`druid.indexer.runner.taskCleanupDelay`| `Duration` | How long do jobs stay around before getting reaped from K8s |`P2D`|No|
|`druid.indexer.runner.taskCleanupInterval`| `Duration` | How often to check for jobs to be reaped |`PT10M`|No|
|`druid.indexer.runner.taskJoinTimeout`| `Duration` | Timeout for gathering metadata about existing tasks on startup |`PT1M`|No|
|`druid.indexer.runner.K8sjobLaunchTimeout`| `Duration` | How long to wait to launch a K8s task before marking it as failed, on a resource constrained cluster it may take some time. |`PT1H`|No|
|`druid.indexer.runner.javaOptsArray`| `JsonArray` | java opts for the task. |`-Xmx1g`|No|
|`druid.indexer.runner.labels`| `JsonObject` | Additional labels you want to add to peon pod |`{}`|No|
|`druid.indexer.runner.annotations`| `JsonObject` | Additional annotations you want to add to peon pod |`{}`|No|
|`druid.indexer.runner.peonMonitors`| `JsonArray` | Overrides `druid.monitoring.monitors`. Use this property if you don't want to inherit monitors from the Overlord. |`[]`|No|
|`druid.indexer.runner.graceTerminationPeriodSeconds`| `Long` | Number of seconds you want to wait after a sigterm for container lifecycle hooks to complete. Keep at a smaller value if you want tasks to hold locks for shorter periods. |`PT30S` (K8s default)|No|
|`druid.indexer.runner.capacity`| `Integer` | Number of concurrent jobs that can be sent to Kubernetes. |`2147483647`|No|
|`druid.indexer.runner.cpuCoreInMicro`| `Integer` | Number of CPU micro core for the task. | `1000`|No|
### Metrics added
|Metric|Description|Dimensions|Normal value|
|------|-----------|----------|------------|
| `k8s/peon/startup/time` | Metric indicating the milliseconds for peon pod to startup. | `dataSource`, `taskId`, `taskType`, `groupId`, `taskStatus`, `tags` |Varies|
### Gotchas
- All Druid Pods belonging to one Druid cluster must be inside the same Kubernetes namespace.
- You must have a role binding for the overlord's service account that provides the needed permissions for interacting with Kubernetes. An example spec could be:
```yaml
kind: Role
apiVersion: rbac.authorization.k8s.io/v1
metadata:
namespace:
name: druid-k8s-task-scheduler
rules:
- apiGroups: ["batch"]
resources: ["jobs"]
verbs: ["get", "watch", "list", "delete", "create"]
- apiGroups: [""]
resources: ["pods", "pods/log"]
verbs: ["get", "watch", "list", "delete", "create"]
---
kind: RoleBinding
apiVersion: rbac.authorization.k8s.io/v1
metadata:
name: druid-k8s-binding
namespace:
subjects:
- kind: ServiceAccount
name:
namespace:
roleRef:
kind: Role
name: druid-k8s-task-scheduler
apiGroup: rbac.authorization.k8s.io
```
## Migration/Kubernetes and Worker Task Runner
If you are running a cluster with tasks running on middle managers or indexers and want to do a zero downtime migration to mm-less ingestion, the mm-less ingestion system is capable of running in migration mode by reading tasks from middle managers/indexers and Kubernetes and writing tasks to either middle managers or to Kubernetes.
To do this, set the following property.
`druid.indexer.runner.type: k8sAndWorker` (instead of `druid.indexer.runner.type: k8s`)
### Additional Configurations
|Property| Possible Values |Description|Default|required|
|--------|-----------------|-----------|-------|--------|
|`druid.indexer.runner.k8sAndWorker.runnerStrategy.type`| `String` (e.g., `k8s`, `worker`, `taskType`)| Defines the strategy for task runner selection. |`k8s`|No|
|`druid.indexer.runner.k8sAndWorker.runnerStrategy.workerType`| `String` (e.g., `httpRemote`, `remote`)| Specifies the variant of the worker task runner to be utilized.|`httpRemote`|No|
| **For `taskType` runner strategy:**|||||
|`druid.indexer.runner.k8sAndWorker.runnerStrategy.taskType.default`| `String` (e.g., `k8s`, `worker`) | Specifies the default runner to use if no overrides apply. This setting ensures there is always a fallback runner available.|None|No|
|`druid.indexer.runner.k8sAndWorker.runnerStrategy.taskType.overrides`| `JsonObject`(e.g., `{"index_kafka": "worker"}`)| Defines task-specific overrides for runner types. Each entry sets a task type to a specific runner, allowing fine control. |`{}`|No|