bmaguireibm / gatling-prometheus-datawriter   0.0.1

Apache License 2.0 GitHub

This repo holds code to add a Prometheus DataWriter to export real time results to a Prometheus db from a running https://gatling.io test.

Scala versions: 2.12

Gatling Prometheus DataWriter

This plugin provides a Prometheus Datawriter for Gatling.

It opens a Prometheus endpoint on the running Gatling instance to provide real time results to a Prometheus DB.

Installation

Maven / Gradle / sbt

This plugin can be installed by adding the following dependency to the gatling dependency group in maven / gradle or sbt.

Plugin dependency

maven example:

<dependency>
  <groupId>com.github.bmaguireibm</groupId>
  <artifactId>prometheusplugin_2.12</artifactId>
  <version>0.0.1</version>
</dependency>

gradle example, working with Gatling Gradle Plugin:

dependencies {
    compileOnly group: 'org.scala-lang', name: 'scala-library', version: "2.12.6"
    compileOnly group: 'io.gatling', name: 'gatling-app', version: "3.0.3"
    gatling group: 'com.github.bmaguireibm', name: 'prometheusplugin_2.12', version: '0.0.1'
}

Direct Download

If you are using the direct binary download from gatling.io here, you can add the plugin by down loading the release zip and copying the plugins dir into gatling-charts-highcharts-bundle-3.0.3/ and replacing gatling.sh or gatling.bat in gatling-charts-highcharts-bundle-3.0.3/bin/ with the corresponding files in the release zip.

The altered .sh and .bat files simply add the plugins dir to the classpath ahead of the original gatling classes.

GATLING_CLASSPATH="$GATLING_HOME/plugins/*:$GATLING_HOME/lib/*:$GATLING_HOME/user-files:$GATLING_CONF:"

Configuration

Gatling

In the gatling.conf add "prometheus" to the data writers. You can additionally specify a different port for the metrics to be available at, the default is 9102.

  data {
    writers = [console, file, prometheus]
  }

  prometheus {
    port = "9102"  # Port for Prometheus DB to query, must be available.
  }

Once a simulations is running, you can test the endpoint is working by browsing to http://localhost:9102 in your browser. You should see something like the following.


  # TYPE total_finished_users counter
  # HELP error_msg_count Keeps count of each error message
  # TYPE error_msg_count counter
  # HELP total_started_users Total Gatling users Started
  # TYPE total_started_users counter
  # HELP requests_latency_secondsHistogram Request latency in seconds.
  # TYPE requests_latency_secondsHistogram histogram
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.005",} 0.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.01",} 0.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.025",} 0.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.05",} 0.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.075",} 0.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.1",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.25",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.5",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="0.75",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="1.0",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="2.5",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="5.0",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="7.5",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="10.0",} 1.0
  requests_latency_secondsHistogram_bucket{simulation="1",metric="testName",error="",responseCode="200",oK="OK",le="+Inf",} 1.0
  requests_latency_secondsHistogram_count{simulation="1",metric="testName",error="",responseCode="200",oK="OK",} 1.0
  requests_latency_secondsHistogram_sum{simulation="1",metric="testName",error="",responseCode="200",oK="OK",} 0.1

Prometheus

Prometheus is an open source time series database and monitoring system. It uses a pull model, collecting numerical metrics from registered endpoints at a set interval.

Install

Prometheus can be installed as a Docker container or installed from here. Additionally it is available on Kubernetes via helm with helm install stable/prometheus.

Configuration

The Following is an example configuration file for Prometheus, found at /etc/prometheus/prometheus.yml on linux installs.

  global:
    scrape_interval:     15s
    evaluation_interval: 30s

  scrape_configs:
  - job_name: prometheus

    static_configs:
    # Assumes Gatling is running on localhost.
    - targets: ['localhost:9102']
  metrics_path: /metrics
  scheme: http

Alternatively, if Gatling is running within a Kubernetes pod, you can add the following to the pod deployment.yaml to have it automatically picked up by Prometheus. See Prometheus Kubernetes configuration for details on how to configure PRometheus for this.

    annotations:
      prometheus.io/scrape: "true"
      prometheus.io/port: "9102"
      prometheus.io/scheme: "http"
      prometheus.io/path: "/metrics"