VictoriaMetrics/docs/operator/quick-start.md

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---
sort: 1
weight: 1
title: QuickStart
menu:
docs:
parent: "operator"
weight: 1
aliases:
- /operator/quick-start.html
---
# VictoriaMetrics Operator QuickStart
VictoriaMetrics Operator serves to make running VictoriaMetrics applications on top of Kubernetes as easy as possible
while preserving Kubernetes-native configuration options.
The shortest way to deploy full-stack monitoring cluster with VictoriaMetrics Operator is
to use Helm-chart [victoria-metrics-k8s-stack](https://victoriametrics.github.io/helm-charts/charts/victoria-metrics-k8s-stack/).
Also you can follow the other steps in documentation to use VictoriaMetrics Operator:
- [Setup](./setup.md)
- [Security](./security.md)
- [Configuration](./configuration.md)
- [Migration from Prometheus](./migration.md)
- [Monitoring](./monitoring.md)
- [Authorization and exposing components](./auth.md)
- [High Availability](./high-availability.md)
- [Enterprise](./enterprise.md)
- [Custom resources](./resources/README.md)
- [FAQ (Frequency Asked Questions)](./FAQ.md)
But if you want to deploy VictoriaMetrics Operator quickly from scratch (without using templating for custom resources),
you can follow this guide:
- [Setup operator](#setup-operator)
- [Deploy components](#deploy-components)
- [VMCluster](#vmcluster-vmselect-vminsert-vmstorage)
- [Scraping](#scraping)
- [VMAgent](#vmagent)
- [VMServiceScrape](#vmservicescrape)
- [Access](#access)
- [VMAuth](#vmauth)
- [VMUser](#vmuser)
- [Alerting](#alerting)
- [VMAlertmanager](#vmalertmanager)
- [VMAlert](#vmalert)
- [VMRule](#vmrule)
- [VMUser](#vmuser-update)
- [Anythings else?](#anythings-else)
Let's start!
## Setup operator
You can find out how to and instructions for installing the VictoriaMetrics operator into your kubernetes cluster
on the [Setup page](./setup.md).
Here we will elaborate on just one of the ways - for instance, we will install operator via Helm-chart
[victoria-metrics-operator](https://github.com/VictoriaMetrics/helm-charts/blob/master/charts/victoria-metrics-operator/README.md):
Add repo with helm-chart:
```shell
helm repo add vm https://victoriametrics.github.io/helm-charts/
helm repo update
```
Render `values.yaml` with default operator configuration:
```shell
helm show values vm/victoria-metrics-operator > values.yaml
```
Now you can configure operator - open rendered `values.yaml` file in your text editor. For example:
```shell
code values.yaml
```
<img src="quick-start_values.png" width="1200">
Now you can change configuration in `values.yaml`. For more details about configuration options and methods,
see [configuration -> victoria-metrics-operator](./configuration.md#victoria-metrics-operator).
If you migrated from prometheus-operator, you can read about prometheus-operator objects conversion on
the [migration from prometheus-operator](./migration.md).
Since we're looking at installing from scratch, let's disable prometheus-operator objects conversion,
and also let's set some resources for operator in `values.yaml`:
```yaml
# ...
operator:
# -- By default, operator converts prometheus-operator objects.
disable_prometheus_converter: true
# -- Resources for operator
resources:
limits:
cpu: 500m
memory: 500Mi
requests:
cpu: 100m
memory: 150Mi
# ...
```
You will need a kubernetes namespace to deploy the operator and VM components. Let's create it:
```shell
kubectl create namespace vm
```
After finishing with `values.yaml` and creating namespace, you can test the installation with command:
```shell
helm install vmoperator vm/victoria-metrics-operator -f values.yaml -n vm --debug --dry-run
```
Where `vm` is the namespace where you want to install operator.
If everything is ok, you can install operator with command:
```shell
helm install vmoperator vm/victoria-metrics-operator -f values.yaml -n vm
# NAME: vmoperator
# LAST DEPLOYED: Thu Sep 14 15:13:04 2023
# NAMESPACE: vm
# STATUS: deployed
# REVISION: 1
# TEST SUITE: None
# NOTES:
# victoria-metrics-operator has been installed. Check its status by running:
# kubectl --namespace vm get pods -l "app.kubernetes.io/instance=vmoperator"
#
# Get more information on https://github.com/VictoriaMetrics/helm-charts/tree/master/charts/victoria-metrics-operator.
# See "Getting started guide for VM Operator" on https://docs.victoriametrics.com/guides/getting-started-with-vm-operator.html .
```
And check that operator is running:
```shell
kubectl get pods -n vm -l "app.kubernetes.io/instance=vmoperator"
# NAME READY STATUS RESTARTS AGE
# vmoperator-victoria-metrics-operator-7b88bd6df9-q9qwz 1/1 Running 0 98s
```
## Deploy components
Now you can create instances of VictoriaMetrics applications.
Let's create fullstack monitoring cluster with
[`vmagent`](./resources/vmagent.md),
[`vmauth`](./resources/vmauth.md),
[`vmalert`](./resources/vmalert.md),
[`vmalertmanager`](./resources/vmalertmanager.md),
[`vmcluster`](./resources/vmcluster.md)
(a component for deploying a cluster version of
[VictoriaMetrics](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#architecture-overview)
consisting of `vmstorage`, `vmselect` and `vminsert`):
<img src="quick-start_cluster-scheme.png" width="1200">
More details about resources of VictoriaMetrics operator you can find on the [resources page](./resources/README.md).
### VMCluster (vmselect, vminsert, vmstorage)
Let's start by deploying the [`vmcluster`](./resources/vmcluster.md) resource.
Create file `vmcluster.yaml`
```shell
code vmcluster.yaml
```
with the following content:
```yaml
# vmcluster.yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMCluster
metadata:
name: demo
spec:
retentionPeriod: "1"
replicationFactor: 2
vmstorage:
replicaCount: 2
storageDataPath: "/vm-data"
storage:
volumeClaimTemplate:
spec:
resources:
requests:
storage: "10Gi"
resources:
limits:
cpu: "1"
memory: "1Gi"
vmselect:
replicaCount: 2
cacheMountPath: "/select-cache"
storage:
volumeClaimTemplate:
spec:
resources:
requests:
storage: "1Gi"
resources:
limits:
cpu: "1"
memory: "1Gi"
requests:
cpu: "0.5"
memory: "500Mi"
vminsert:
replicaCount: 2
resources:
limits:
cpu: "1"
memory: "1Gi"
requests:
cpu: "0.5"
memory: "500Mi"
```
After that you can deploy `vmcluster` resource to the kubernetes cluster:
```shell
kubectl apply -f vmcluster.yaml -n vm
# vmcluster.operator.victoriametrics.com/demo created
```
Check that `vmcluster` is running:
```shell
kubectl get pods -n vm -l "app.kubernetes.io/instance=demo"
# NAME READY STATUS RESTARTS AGE
# vminsert-demo-8688d88ff7-fnbnw 1/1 Running 0 3m39s
# vminsert-demo-8688d88ff7-5wbj7 1/1 Running 0 3m39s
# vmselect-demo-0 1/1 Running 0 3m39s
# vmselect-demo-1 1/1 Running 0 3m39s
# vmstorage-demo-1 1/1 Running 0 22s
# vmstorage-demo-0 1/1 Running 0 6s
```
Now you can see that 6 components of your demo vmcluster is running.
In addition, you can see that the operator created services for each of the component type:
```shell
kubectl get svc -n vm -l "app.kubernetes.io/instance=demo"
# NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
# vmstorage-demo ClusterIP None <none> 8482/TCP,8400/TCP,8401/TCP 8m3s
# vmselect-demo ClusterIP None <none> 8481/TCP 8m3s
# vminsert-demo ClusterIP 192.168.194.183 <none> 8480/TCP 8m3s
```
We'll need them in the next steps.
More information about `vmcluster` resource you can find on
the [vmcluster page](./resources/vmcluster.md).
### Scraping
#### VMAgent
Now let's deploy [`vmagent`](./resources/vmagent.md) resource.
Create file `vmagent.yaml`
```shell
code vmagent.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMAgent
metadata:
name: demo
spec:
selectAllByDefault: true
remoteWrite:
- url: "http://vminsert-demo.vm.svc:8480/insert/0/prometheus/api/v1/write"
```
After that you can deploy `vmagent` resource to the kubernetes cluster:
```shell
kubectl apply -f vmagent.yaml -n vm
# vmagent.operator.victoriametrics.com/demo created
```
Check that `vmagent` is running:
```shell
kubectl get pods -n vm -l "app.kubernetes.io/instance=demo" -l "app.kubernetes.io/name=vmagent"
# NAME READY STATUS RESTARTS AGE
# vmagent-demo-6785f7d7b9-zpbv6 2/2 Running 0 72s
```
More information about `vmagent` resource you can find on
the [vmagent page](./resources/vmagent.md).
#### VMServiceScrape
Now we have the timeseries database (vmcluster) and the tool to collect metrics (vmagent) and send it to the database.
But we need to tell vmagent what metrics to collect. For this we will use [`vmservicescrape`](./resources/vmservicescrape.md) resource
or [other `*scrape` resources](./resources/README.md).
By default, operator creates `vmservicescrape` resource for each component that it manages. More details about this you can find on
the [monitoring page](./configuration.md#monitoring-of-cluster-components).
For instance, we can create `vmservicescrape` for VictoriaMetrics operator manually. Let's create file `vmservicescrape.yaml`:
```shell
code vmservicescrape.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMServiceScrape
metadata:
name: vmoperator-demo
spec:
selector:
matchLabels:
app.kubernetes.io/instance: vmoperator
app.kubernetes.io/name: victoria-metrics-operator
namespaceSelector:
matchNames:
- vm
endpoints:
- port: http
```
After that you can deploy `vmservicescrape` resource to the kubernetes cluster:
```shell
kubectl apply -f vmservicescrape.yaml -n vm
# vmservicescrape.operator.victoriametrics.com/vmoperator-demo created
```
### Access
We need to look at the results of what we got. Up until now, we've just been looking only at the status of the pods.
#### VMAuth
Let's expose our components with [`vmauth`](./resources/vmauth.md).
Create file `vmauth.yaml`
```shell
code vmauth.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMAuth
metadata:
name: demo
spec:
selectAllByDefault: true
userNamespaceSelector: {}
userSelector: {}
ingress:
class_name: nginx # <-- change this to your ingress-controller
host: vm-demo.k8s.orb.local # <-- change this to your domain
```
**Note** that content of `ingress` field depends on your ingress-controller and domain.
Your cluster will have them differently.
Also, for simplicity, we don't use tls, but in real environments not having tls is unsafe.
#### VMUser
To get authorized access to our data it is necessary to create a user using
the [vmuser](./resources/vmuser.md) resource.
Create file `vmuser.yaml`
```shell
code vmuser.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMUser
metadata:
name: demo
spec:
name: demo
username: demo
generatePassword: true
targetRefs:
# vmui + vmselect
- crd:
kind: VMCluster/vmselect
name: demo
namespace: vm
target_path_suffix: "/select/0"
paths:
- "/vmui"
- "/vmui/.*"
- "/prometheus/api/v1/query"
- "/prometheus/api/v1/query_range"
- "/prometheus/api/v1/series"
- "/prometheus/api/v1/status/.*"
- "/prometheus/api/v1/label/"
- "/prometheus/api/v1/label/[^/]+/values"
```
After that you can deploy `vmauth` and `vmuser` resources to the kubernetes cluster:
```shell
kubectl apply -f vmauth.yaml -n vm
kubectl apply -f vmuser.yaml -n vm
# vmauth.operator.victoriametrics.com/demo created
# vmuser.operator.victoriametrics.com/demo created
```
Operator automatically creates a secret with username/password token for `VMUser` resource with `generatePassword=true`:
```shell
kubectl get secret -n vm -l "app.kubernetes.io/instance=demo" -l "app.kubernetes.io/name=vmuser"
# NAME TYPE DATA AGE
# vmuser-demo Opaque 3 29m
```
You can get password for your user with command:
```shell
kubectl get secret -n vm vmuser-demo -o jsonpath="{.data.password}" | base64 --decode
# Yt3N2r3cPl
```
Now you can get access to your data with url `http://vm-demo.k8s.orb.local/vmui`, username `demo`
and your given password (`Yt3N2r3cPl` in our case):
<img src="quick-start_select-1.png" width="1200">
<img src="quick-start_select-2.png" width="1200">
### Alerting
The remaining components will be needed for alerting.
#### VMAlertmanager
Let's start with [`vmalertmanager`](./resources/vmalertmanager.md).
Create file `vmalertmanager.yaml`
```shell
code vmalertmanager.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMAlertmanager
metadata:
name: demo
spec:
configRawYaml: |
global:
resolve_timeout: 5m
route:
group_wait: 30s
group_interval: 5m
repeat_interval: 12h
receiver: 'webhook'
receivers:
- name: 'webhook'
webhook_configs:
- url: 'http://your-webhook-url'
```
where webhook-url is the address of the webhook to receive notifications
(configuration of AlertManager notifications will remain out of scope).
You can find more details about `alertmanager` configuration in
the [Alertmanager documentation](https://prometheus.io/docs/alerting/latest/configuration/).
After that you can deploy `vmalertmanager` resource to the kubernetes cluster:
```shell
kubectl apply -f vmalertmanager.yaml -n vm
# vmalertmanager.operator.victoriametrics.com/demo created
```
Check that `vmalertmanager` is running:
```shell
kubectl get pods -n vm -l "app.kubernetes.io/instance=demo" -l "app.kubernetes.io/name=vmalertmanager"
# NAME READY STATUS RESTARTS AGE
# vmalertmanager-demo-0 2/2 Running 0 107s
```
#### VMAlert
And now you can create [`vmalert`](./resources/vmalert.md) resource.
Create file `vmalert.yaml`
```shell
code vmalert.yaml
```
with the following content:
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMAlert
metadata:
name: demo
spec:
datasource:
url: "http://vmselect-demo.vm.svc:8481/select/0/prometheus"
remoteWrite:
url: "http://vminsert-demo.vm.svc:8480/insert/0/prometheus"
remoteRead:
url: "http://vmselect-demo.vm.svc:8481/select/0/prometheus"
notifier:
url: "http://vmalertmanager-demo.vm.svc:9093"
evaluationInterval: "30s"
selectAllByDefault: true
# for accessing to vmalert via vmauth with path prefix
extraArgs:
http.pathPrefix: /vmalert
```
After that you can deploy `vmalert` resource to the kubernetes cluster:
```shell
kubectl apply -f vmalert.yaml -n vm
# vmalert.operator.victoriametrics.com/demo created
```
Check that `vmalert` is running:
```shell
kubectl get pods -n vm -l "app.kubernetes.io/instance=demo" -l "app.kubernetes.io/name=vmalert"
# NAME READY STATUS RESTARTS AGE
# vmalert-demo-bf75c67cb-hh4qd 2/2 Running 0 5s
```
#### VMRule
Now you can create [vmrule](./resources/vmrule.md) resource
for [vmalert](./resources/vmalert.md).
Create file `vmrule.yaml`
```shell
code vmrule.yaml
```
with the following content:
{% raw %}
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMRule
metadata:
name: demo
spec:
groups:
- name: vmalert
rules:
- alert: vmalert config reload error
expr: delta(vmalert_config_last_reload_errors_total[5m]) > 0
for: 10s
labels:
severity: major
job: "{{ $labels.job }}"
annotations:
value: "{{ $value }}"
description: 'error reloading vmalert config, reload count for 5 min {{ $value }}'
```
{% endraw %}
After that you can deploy `vmrule` resource to the kubernetes cluster:
```shell
kubectl apply -f vmrule.yaml -n vm
# vmrule.operator.victoriametrics.com/demo created
```
#### VMUser update
Let's update our user with access to `vmalert` and `vmalertmanager`:
```shell
code vmuser.yaml
```
```yaml
apiVersion: operator.victoriametrics.com/v1beta1
kind: VMUser
metadata:
name: demo
spec:
name: demo
username: demo
generatePassword: true
targetRefs:
# vmui + vmselect
- crd:
kind: VMCluster/vmselect
name: demo
namespace: vm
target_path_suffix: "/select/0"
paths:
- "/vmui"
- "/vmui/.*"
- "/prometheus/api/v1/query"
- "/prometheus/api/v1/query_range"
- "/prometheus/api/v1/series"
- "/prometheus/api/v1/status/.*"
- "/prometheus/api/v1/label/"
- "/prometheus/api/v1/label/[^/]+/values"
# vmalert
- crd:
kind: VMAlert
name: demo
namespace: vm
paths:
- "/vmalert"
- "/vmalert/.*"
- "/api/v1/groups"
- "/api/v1/alert"
- "/api/v1/alerts"
```
After that you can deploy `vmuser` resource to the kubernetes cluster:
```shell
kubectl apply -f vmuser.yaml -n vm
# vmuser.operator.victoriametrics.com/demo created
```
And now you can get access to your data with url `http://vm-demo.k8s.orb.local/vmalert`
(for your environment it most likely will be different) with username `demo`:
<img src="quick-start_alert-1.png" width="1200">
<img src="quick-start_alert-2.png" width="1200">
## Anything else
That's it. We obtained a monitoring cluster corresponding to the target topology:
<img src="quick-start_cluster-scheme.png" width="1200">
You have a full-stack monitoring cluster with VictoriaMetrics Operator.
You can find information about these and other resources of operator on the [Custom resources page](./resources/README.md).
In addition, check out other sections of the documentation for VictoriaMetrics Operator:
- [Setup](./setup.md)
- [Security](./security.md)
- [Configuration](./configuration.md)
- [Migration from Prometheus](./migration.md)
- [Monitoring](./monitoring.md)
- [Authorization and exposing components](./auth.md)
- [High Availability](./high-availability.md)
- [Enterprise](./enterprise.md)
If you have any questions, check out our [FAQ](./FAQ.md)
and feel free to can ask them:
- [VictoriaMetrics Slack](https://victoriametrics.slack.com/)
- [VictoriaMetrics Telegram](https://t.me/VictoriaMetrics_en)
If you have any suggestions or find a bug, please create an issue
on [GitHub](https://github.com/VictoriaMetrics/operator/issues/new).