VictoriaMetrics/docs/anomaly-detection/guides/guide-vmanomaly-vmalert.md
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Anomaly Detection and Alerting Setup

Prerequisites:

vmanomaly typical setup diagramm

Note: Configurations used throughout this guide can be found here

1. What is vmanomaly?

VictoriaMetrics Anomaly Detection (vmanomaly) is a service that continuously scans time series stored in VictoriaMetrics and detects unexpected changes within data patterns in real-time. It does so by utilizing user-configurable machine learning models.

All the service parameters are defined in a config file.

A single config file supports only one model. It is ok to run multiple vmanomaly processes, each using its own config.

vmanomaly does the following:

  • periodically queries user-specified metrics
  • computes an anomaly score for them
  • pushes back the computed anomaly score to VictoriaMetrics.

What is anomaly score?

Anomaly score is a calculated non-negative (in interval [0, +inf)) numeric value. It takes into account how well data fit a predicted distribution, periodical patterns, trends, seasonality, etc.

The value is designed to:

  • fall between 0 and 1 if model consider that datapoint is following usual pattern
  • exceed 1 if the datapoint is abnormal

Then, users can enable alerting rules based on the anomaly score with vmalert.

2. What is vmalert?

vmalert is an alerting tool for VictoriaMetrics. It executes a list of the given alerting or recording rules against configured -datasource.url.

Alerting rules allow you to define conditions that, when met, will notify the user. The alerting condition is defined in a form of a query expression via MetricsQL query language. For example, in our case, the expression anomaly_score > 1.0 will notify a user when the calculated anomaly score exceeds a threshold of 1.0.

3. How does vmanomaly works with vmalert?

Compared to classical alerting rules, anomaly detection is more "hands-off" and data-aware. Instead of thinking of critical conditions to define, user can rely on catching anomalies that were not expected to happen. In other words, by setting up alerting rules, a user must know what to look for, ahead of time, while anomaly detection looks for any deviations from past behavior.

Practical use case is to put anomaly score generated by vmanomaly into alerting rules with some threshold.

In this tutorial we are going to:

4. Data to analyze

Let's talk about data used for anomaly detection in this tutorial. We are going to collect our own CPU usage data with Node Exporter into the VictoriaMetrics database.

On a Node Exporter's metrics page, part of the output looks like this:

# HELP node_cpu_seconds_total Seconds the CPUs spent in each mode.
# TYPE node_cpu_seconds_total counter
node_cpu_seconds_total{cpu="0",mode="idle"} 94965.14
node_cpu_seconds_total{cpu="0",mode="iowait"} 51.25
node_cpu_seconds_total{cpu="0",mode="irq"} 0
node_cpu_seconds_total{cpu="0",mode="nice"} 0
node_cpu_seconds_total{cpu="0",mode="softirq"} 1682.18
node_cpu_seconds_total{cpu="0",mode="steal"} 0
node_cpu_seconds_total{cpu="0",mode="system"} 995.37
node_cpu_seconds_total{cpu="0",mode="user"} 12378.05
node_cpu_seconds_total{cpu="1",mode="idle"} 94386.53
node_cpu_seconds_total{cpu="1",mode="iowait"} 51.22
...

Here, metric node_cpu_seconds_total tells us how many seconds each CPU spent in different modes: user, system, iowait, idle, irq&softirq, guest, or steal. These modes are mutually exclusive. A high iowait means that you are disk or network bound, high user or system means that you are CPU bound.

The metric node_cpu_seconds_total is a counter type of metric. If we'd like to see how much time CPU spent in each of the nodes, we need to calculate the per-second values change via rate function: rate(node_cpu_seconds_total). Here is how this query may look like in Grafana: node_cpu_rate_graph

This query result will generate 8 time series per each cpu, and we will use them as an input for our VM Anomaly Detection. vmanomaly will start learning configured model type separately for each of the time series.

5. vmanomaly configuration and parameter description

Parameter description: There are 4 required sections in config file:

scheduler - defines how often to run and make inferences, as well as what timerange to use to train the model.

model - specific model parameters and configurations,

reader - how to read data and where it is located

writer - where and how to write generated output.

monitoring (optional) - how to expose healthckeck metrics of vmanomaly.

Let's look into parameters in each section:

  • scheduler
    • infer_every - how often trained models will make inferences on new data. Basically, how often to generate new datapoints for anomaly_score. Format examples: 30s, 4m, 2h, 1d. Time granularity ('s' - seconds, 'm' - minutes, 'h' - hours, 'd' - days). You can look at this as how often a model will write its conclusions on newly added data. Here in example we are asking every 1 minute: based on the previous data, do these new datapoints look abnormal?
    • fit_every - how often to retrain the models. The higher the frequency -- the fresher the model, but the more CPU it consumes. If omitted, the models will be retrained on each infer_every cycle. Format examples: 30s, 4m, 2h, 1d. Time granularity ('s' - seconds, 'm' - minutes, 'h' - hours, 'd' - days).
    • fit_window - what data interval to use for model training. Longer intervals capture longer historical behavior and detect seasonalities better, but is slower to adapt to permanent changes to metrics behavior. Recommended value is at least two full seasons. Format examples: 30s, 4m, 2h, 1d. Time granularity ('s' - seconds, 'm' - minutes, 'h' - hours, 'd' - days). Here is the previous 14 days of data to put into the model training.
  • model
    • class - what model to run. You can use your own model or choose from built-in models. Here we use Facebook Prophet (model.prophet.ProphetModel).
    • args - Model specific parameters, represented as YAML dictionary in a simple key: value form. For example, you can use parameters that are available in FB Prophet.
  • reader
    • datasource_url - Data source. An HTTP endpoint that serves /api/v1/query_range.
    • queries: - MetricsQL (extension of PromQL) expressions, where you want to find anomalies. You can put several queries in a form: <QUERY_ALIAS>: "QUERY". QUERY_ALIAS will be used as a for label in generated metrics and anomaly scores.
  • writer
    • datasource_url - Output destination. An HTTP endpoint that serves /api/v1/import.

Here is an example of the config file vmanomaly_config.yml.

scheduler:
  infer_every: "1m"
  fit_every: "2h"
  fit_window: "14d"

model:
  class: "model.prophet.ProphetModel"
  args:
    interval_width: 0.98

reader:
  datasource_url: "http://victoriametrics:8428/"
  queries:
    node_cpu_rate: "rate(node_cpu_seconds_total)"

writer:
  datasource_url: "http://victoriametrics:8428/"

monitoring: 
  pull: # Enable /metrics endpoint.
    addr: "0.0.0.0"
    port: 8500

6. vmanomaly output

As the result of running vmanomaly, it produces the following metrics:

  • anomaly_score - the main one. Ideally, if it is between 0.0 and 1.0 it is considered to be a non-anomalous value. If it is greater than 1.0, it is considered an anomaly (but you can reconfigure that in alerting config, of course),
  • yhat - predicted expected value,
  • yhat_lower - predicted lower boundary,
  • yhat_upper - predicted upper boundary,
  • y - initial query result value.

Here is an example of how output metric will be written into VictoriaMetrics: anomaly_score{for="node_cpu_rate", cpu="0", instance="node-xporter:9100", job="node-exporter", mode="idle"} 0.85

7. vmalert configuration

Here we provide an example of the config for vmalert vmalert_config.yml.

groups:
- name: AnomalyExample
  rules:
  - alert: HighAnomalyScore
    expr: 'anomaly_score > 1.0'
    labels:
      severity: warning
    annotations:
      summary: Anomaly Score exceeded 1.0. `rate(node_cpu_seconds_total)` is showing abnormal behavior. 

In the query expression we need to put a condition on the generated anomaly scores. Usually if the anomaly score is between 0.0 and 1.0, the analyzed value is not abnormal. The more anomaly score exceeded 1 the more our model is sure that value is an anomaly. You can choose your threshold value that you consider reasonable based on the anomaly score metric, generated by vmanomaly. One of the best ways is to estimate it visually, by plotting the anomaly_score metric, along with predicted "expected" range of yhat_lower and yhat_upper. Later in this tutorial we will show an example

8. Docker Compose configuration

You can find the docker-compose.yml and all configs in this folder

Now we are going to configure the docker-compose.yml file to run all needed services. Here are all services we are going to run:

  • vmanomaly - VictoriaMetrics Anomaly Detection service.
  • victoriametrics - VictoriaMetrics Time Series Database
  • vmagent - is an agent which helps you collect metrics from various sources, relabel and filter the collected metrics and store them in VictoriaMetrics or any other storage systems via Prometheus remote_write protocol.
  • grafana - visualization tool.
  • node-exporter - Prometheus Node Exporter exposes a wide variety of hardware- and kernel-related metrics.
  • vmalert - VictoriaMetrics Alerting service.
  • alertmanager - Notification services that handles alerts from vmalert.

Grafana setup

To enable VictoriaMetrics datasource as the default in Grafana we need to create a file datasource.yml

The default username/password pair is admin:admin

apiVersion: 1

datasources:
    - name: VictoriaMetrics
      type: prometheus
      access: proxy
      url: http://victoriametrics:8428
      isDefault: true

Scrape config

Let's create prometheus.yml file for vmagent configuration.

global:
  scrape_interval: 10s

scrape_configs:
  - job_name: 'vmagent'
    static_configs:
      - targets: ['vmagent:8429']
  - job_name: 'vmalert'
    static_configs:
      - targets: ['vmalert:8880']
  - job_name: 'victoriametrics'
    static_configs:
      - targets: ['victoriametrics:8428']
  - job_name: 'node-exporter'
    static_configs:
      - targets: ['node-exporter:9100']
  - job_name: 'vmanomaly'
    static_configs:
      - targets: [ 'vmanomaly:8500' ]

vmanomaly licensing

We will utilize the license key stored locally in the file vmanomaly_license.txt.

For additional licensing options, please refer to the VictoriaMetrics Anomaly Detection documentation on licensing.

Alertmanager setup

Let's create alertmanager.yml file for alertmanager configuration.

route:
  receiver: blackhole

receivers:
  - name: blackhole

Docker-compose

Let's wrap it all up together into the docker-compose.yml file.

services:
  vmagent:
    container_name: vmagent
    image: victoriametrics/vmagent:v1.96.0
    depends_on:
      - "victoriametrics"
    ports:
      - 8429:8429
    volumes:
      - vmagentdata-guide-vmanomaly-vmalert:/vmagentdata
      - ./prometheus.yml:/etc/prometheus/prometheus.yml
    command:
      - "--promscrape.config=/etc/prometheus/prometheus.yml"
      - "--remoteWrite.url=http://victoriametrics:8428/api/v1/write"
    networks:
      - vm_net
    restart: always

  victoriametrics:
    container_name: victoriametrics
    image: victoriametrics/victoria-metrics:v1.96.0
    ports:
      - 8428:8428
    volumes:
      - vmdata-guide-vmanomaly-vmalert:/storage
    command:
      - "--storageDataPath=/storage"
      - "--httpListenAddr=:8428"
      - "--vmalert.proxyURL=http://vmalert:8880"
      - "-search.disableCache=1" # for guide only, do not use in production
    networks:
      - vm_net
    restart: always

  grafana:
    container_name: grafana
    image: grafana/grafana-oss:10.2.1
    depends_on:
      - "victoriametrics"
    ports:
      - 3000:3000
    volumes:
      - grafanadata-guide-vmanomaly-vmalert:/var/lib/grafana
      - ./datasource.yml:/etc/grafana/provisioning/datasources/datasource.yml
    networks:
      - vm_net
    restart: always


  vmalert:
    container_name: vmalert
    image: victoriametrics/vmalert:v1.96.0
    depends_on:
      - "victoriametrics"
    ports:
      - 8880:8880
    volumes:
      - ./vmalert_config.yml:/etc/alerts/alerts.yml
    command:
      - "--datasource.url=http://victoriametrics:8428/"
      - "--remoteRead.url=http://victoriametrics:8428/"
      - "--remoteWrite.url=http://victoriametrics:8428/"
      - "--notifier.url=http://alertmanager:9093/"
      - "--rule=/etc/alerts/*.yml"
      # display source of alerts in grafana
      - "--external.url=http://127.0.0.1:3000" #grafana outside container
      # when copypaste the line be aware of '$$' for escaping in '$expr'
      - '--external.alert.source=explore?orgId=1&left=["now-1h","now","VictoriaMetrics",{"expr": },{"mode":"Metrics"},{"ui":[true,true,true,"none"]}]'
    networks:
      - vm_net
    restart: always
  vmanomaly:
    container_name: vmanomaly
    image: victoriametrics/vmanomaly:v1.7.2
    depends_on:
      - "victoriametrics"
    ports:
      - "8500:8500"
    networks:
      - vm_net
    restart: always
    volumes:
      - ./vmanomaly_config.yml:/config.yaml
      - ./vmanomaly_license.txt:/license.txt
    platform: "linux/amd64"
    command:
      - "/config.yaml"
      - "--license-file=/license.txt"
  alertmanager:
    container_name: alertmanager
    image: prom/alertmanager:v0.25.0
    volumes:
      - ./alertmanager.yml:/config/alertmanager.yml
    command:
      - "--config.file=/config/alertmanager.yml"
    ports:
      - 9093:9093
    networks:
      - vm_net
    restart: always

  node-exporter:
    image: quay.io/prometheus/node-exporter:v1.7.0
    container_name: node-exporter
    ports:
      - 9100:9100
    pid: host
    restart: unless-stopped
    networks:
      - vm_net

volumes:
  vmagentdata-guide-vmanomaly-vmalert: {}
  vmdata-guide-vmanomaly-vmalert: {}
  grafanadata-guide-vmanomaly-vmalert: {}
networks:
  vm_net:

Before running our docker-compose make sure that your directory contains all required files:

all files

This docker-compose file will pull docker images, set up each service and run them all together with the command:

docker-compose up -d

To check if vmanomaly is up and running you can check docker logs:

docker logs vmanomaly

9. Model results

To look at model results we need to go to grafana on the localhost:3000. Data vmanomaly need some time to generate more data to visualize. Let's investigate model output visualization in Grafana. In the Grafana Explore tab enter queries:

  • anomaly_score
  • yhat
  • yhat_lower
  • yhat_upper

Each of these metrics will contain same labels our query rate(node_cpu_seconds_total) returns.

Anomaly scores for each metric with its according labels.

Query: anomaly_score Anomaly score graph


Check out if the anomaly score is high for datapoints you think are anomalies. If not, you can try other parameters in the config file or try other model type.

As you may notice a lot of data shows anomaly score greater than 1. It is expected as we just started to scrape and store data and there are not enough datapoints to train on. Just wait for some more time for gathering more data to see how well this particular model can find anomalies. In our configs we put 2 days of data required.

Actual value from input query with predicted yhat metric.

Query: yhat

yhat

Here we are using one particular set of metrics for visualization. Check out the difference between model prediction and actual values. If values are very different from prediction, it can be considered as anomalous.

Lower and upper boundaries that model predicted.

Queries: yhat_lower and yhat_upper

yhat lower and yhat upper

Boundaries of 'normal' metric values according to model inference.

Alerting

On the page http://localhost:8880/vmalert/groups you can find our configured Alerting rule:

alert rule

According to the rule configured for vmalert we will see Alert when anomaly score exceed 1. You will see an alert on Alert tab. http://localhost:8880/vmalert/alerts alerts firing

10. Conclusion

We've explored the integration and practical application of VictoriaMetrics Anomaly Detection (vmanomaly) in conjunction with vmalert. This tutorial has taken you through the necessary prerequisites, setup, and configurations required for anomaly detection in time series data.

Key takeaways include:

  1. Understanding vmanomaly and vmalert: We've discussed the functionalities of vmanomaly and vmalert, highlighting how they work individually and in tandem to detect anomalies in time series data.

  2. Practical Configuration and Setup: By walking through the setup of a docker-compose environment, we've demonstrated how to configure and run VictoriaMetrics along with its associated services, including vmanomaly and vmalert.

  3. Data Analysis and Monitoring: The guide provided insights on how to collect, analyze, and visualize data using Grafana, interpreting the anomaly scores and other metrics generated by vmanomaly.

  4. Alert Configuration: We've shown how to set up and customize alerting rules in vmalert based on produced anomaly scores, enabling proactive monitoring and timely response to potential issues.

As you continue to use VictoriaMetrics Anomaly Detection and vmalert, remember that the effectiveness of anomaly detection largely depends on the appropriateness of the model chosen, the accuracy of configurations and the data patterns observed. This guide serves as a starting point, and we encourage you to experiment with different configurations and models to best suit your specific data needs and use cases. In case you need a helping hand - contact us.