The Pensum-runner scripts allow you to execute state-machine based load-tests using K6. K6 is used to execute the HTTP calls and collect metrics.
Pensum-runner is part of the Pensum toolset which helps you extract, model, and run realistic load-tests.
Tests can be created manually or extracted from historical data. For the latter, the extractor helps you create workload models from historical data and is available in the Pensum-extractor repository.
Pensum-runner consists of a number of scripts that helps you run a load-test workload. A workload is a collection of pages to visit and events to trigger for a single user (ie. website visitor). The order in which the pages are visited are (internally) modeled using a state-machine. A basic example of a workload is shown in the diagram below:
A workload model consist of a;
- entry, where a visitor enter the site,
- number of states, Page A, Page B, and Page C in this example,
- transition and associated probabilities to next state, e.g. from Page A to Page B or Page C" with a change of 50% for either of the pages,
- number of events and associated probability to perform per state, 50% chance to perform Event A in this example,
- exit, where the visitor leaves the website.
In Javascript code this workload is represented as follows:
const workload = {
initial: 'home', // Corresponds to entry
abandon: 'abandon', // Corresponds to exit
states: [
{
name: 'Page A',
events: [{
name: 'Event A',
probability: 50
action: () => performEventA()
}],
targets: [{
target: 'Page B',
probability: 50
}, {
target: 'Page C',
probability: 50
}],
action: () => visitPageA()
},
{
name: 'Page B',
targets: [{
target: 'abandon',
probability: 100
}],
action: () => visitPageB()
},
{
name: 'Page C',
targets: [{
target: 'abandon',
probability: 100
}],
action: () => visitPageC()
},
{
name: 'abandon',
targets: [],
action: () => {}
}]
}
To visit a page for a certain state an action function is defined. This function is executed right after the state, ie. page, is entered. When there are events present these are, based on configured probability, performed right after using the configured event action (ie. performEventA in above example).
- K6 v0.26.0
First install K6: https://k6.io/docs/getting-started/installation
As K6 has limited possibilities for re-using Javascript libraries (see docs). To use the runner in a load-test the easiest is to copy its files into your project.
For example download a Github release here and copy the files into a sub-directory named pensum-runner.
Or use degit to scaffold pensum-runner into your project:
PS> npx degit https://github.com/avivasolutionsnl/Pensum-runner pensum-runner
The most important API entrypoint is runWorkload, this method allows you to run a workload.
A workload is basically a state machine which models the behavior of a website visitor.
It starts at the initial state and terminates at the abandon state. When a state is entered it performs the defined action and (if any defined) an event from the given events. It transitions to the next state by inspecting the targets. It decides on what target and event to choose based on the given probabilities.
For example:
import runWorkload from 'shared/runworkload.js'
export default function myLoadTest {
runWorkload({
initial: '/',
abandon: 'abandon',
states: [{
name: 'home',
targets: [
{
target: 'home',
probability: 50
},
{
target: 'abandon',
probability: 50
}
],
events: [
{
name: 'transaction',
probability: 100,
action: () => performTransaction()
}
],
action: (thinkTime) => visitHomePage(thinkTime),
thinkTime : {
avg: 6,
std: 4,
min: 4,
max: 8
}
},
{
name: 'abandon',
targets: [],
action: () => {}
}]
})
}
Note that you will have to implement the actions (e.g. visitHomePage and performTransaction) in the workload model yourself.
The example.js script models a simple load-test. It contains a very basic load-test for an e-commerce based website and consists of 3 states;
- Visit home page
- Visit product lister page
- Abandon visit, ie. leave website
A (virtual) user always starts at the Home page and than transitions through the state machine. Each transition in the state machine has a probability assigned. In the example there is 75% chance that a user visits the Lister page when it leaves the Home page.
The state diagram for the example looks as follows:
To run the example use the K6 CLI tooling. For example:
PS> k6 run ./example.js
By default this runs one virtual user (VU) for 8 iterations, this is hard-coded in the example. More details about how to control these parameters can be found here.
K6 can automatically log to InfluxDb and results can be presented using Grafana.
See the K6 official documentation about it here
To get this quickly up and running use Docker (with Linux containers):
PS> docker-compose up
and run K6 with InfluxDb output:
PS> k6 run ./example.js --tag Run=1 --out influxdb=http://localhost:8086/k6
View the (live) results in Grafana at http://localhost:3000/.
You can use the k6 example dashboard, or the Pensum example dashboard which is pre-loaded (and stored in ./grafana/provisioning/dashboards).
The Pensum dashboard offers test run comparison functionality and shows Telegraf performance metrics (which you will have to manually enable for your project).
After a test run you can create a report using the reporter container. This uses the [grafana-reporter] Docker image, its documentation you find here.