chapter02

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Published: Oct 11, 2023 License: GPL-3.0 Imports: 9 Imported by: 0

README

Chapter II: creating an empty experiment

In this chapter we will create an empty experiment and replace the code calling the real torsf experiment in main.go to call our empty experiment instead.

(This file is auto-generated from the corresponding source file, so make sure you don't edit it manually.)

Changes in main.go

In main.go we will simply replace the call to the torsf.NewExperimentMeasurer function with a call to a NewExperimentMeasurer function that we are going to implement as part of this chapter.

After you do this, you also need to remove the now-unneded import of the torsf package.

There are no additional changes to main.go.

	m := NewExperimentMeasurer(Config{})

The torsf.go file

This file will contain the implementation of the NewExperimentMeasurer function.

As usual we start with the package declaration and with the few imports we need to add.

package main

import (
	"context"
	"time"

	"github.com/ooni/probe-cli/v3/internal/model"
)

Data structures

Next, we define data structures.

Config contains config for the torsf experiment. As for the real torsf experiment, we don't have any specific config, so we keep the structure empty. We still need to define a Config struct here, because, by convention, all OONI experiments have a Config.

type Config struct{}

Measurer is the torsf measurer. This structure implements the model.ExperimentMeasurer interface, as we will see below.

Most OONI experiments have a measurer that contains as its unique field the specific configuration. Here we do the same.

type Measurer struct {
	config Config
}

NewExperimentMeasurer creates a new model.ExperimentMeasurer instance for performing torsf measurements. This function will just assemble a new instance of Measurer with the config that was passed as an argument.

func NewExperimentMeasurer(config Config) model.ExperimentMeasurer {
	return &Measurer{config: config}
}

Implementing the model.ExperimentMeasurer.

Now it's time to implement the methods required by the model's ExperimentMeasurer interface.

ExperimentName implements ExperimentMeasurer.ExperimentName. This function returns the name of the experiment. This code is used by generic code manipulating the experiment to print the experiment name.

func (m *Measurer) ExperimentName() string {
	return "torsf"
}

ExperimentVersion implements ExperimentMeasurer.ExperimentVersion. This function returns the version of the experiment. This code is also used by generic code manipulating the experiment to print the experiment version.

func (m *Measurer) ExperimentVersion() string {
	return "0.1.0"
}

Run implements ExperimentMeasurer.Run. This is the most interesting function, where we run the experiment proper. In the previous chapter we learned how to call this function from a main.go file. Here, instead, we're going to create a minimal stub. In the subsequent chapters, finally, we will modify this function until it is a minimal implementation of the torsf experiment.

func (m *Measurer) Run(ctx context.Context, args *model.ExperimentArgs) error {
	_ = args.Callbacks
	_ = args.Measurement
	sess := args.Session

As you can see, this is just a stub implementation that sleeps for one second and prints a logging message.

	time.Sleep(time.Second)
	sess.Logger().Info("hello from the torsf experiment!")
	return nil
}

Summary keys

Before concluding this chapter, we also need to create the SummaryKeys for this experiment. For historical reasons, the TestKeys of each experiment is an interface{}. Every experiment also defines a SummaryKeys data structure and a GetSummaryKeys method to convert the opaque result of a measurement to the summary for such an experiment.

The experiment summary is only used by the OONI Probe CLI.

SummaryKeys contains summary keys for this experiment. Because this is just an illustrative tutorial, we will just include a single key, named IsAnomaly. This key is not exported as JSON and is used by the OONI Probe CLI to inform the user of whether this measurement is ordinary or anomalous. All OONI experiments' SummaryKeys contain such a field.

type SummaryKeys struct {
	IsAnomaly bool `json:"-"`
}

GetSummaryKeys implements model.ExperimentMeasurer.GetSummaryKeys. This method just converts the TestKeys inside measurement to an instance of the SummaryKeys structure. For now, we'll just implement a stub returning fake SummaryKeys declaring there was no anomaly.

func (m *Measurer) GetSummaryKeys(measurement *model.Measurement) (interface{}, error) {
	return &SummaryKeys{IsAnomaly: false}, nil
}

Running the code

We can run the code written in this chapter as follows:

$ go run ./experiment/torsf/chapter02
2021/06/21 20:48:32  info hello from the torsf experiment!
{
  "data_format_version": "",
  "input": null,
  "measurement_start_time": "",
  "probe_asn": "",
  "probe_cc": "",
  "probe_network_name": "",
  "report_id": "",
  "resolver_asn": "",
  "resolver_ip": "",
  "resolver_network_name": "",
  "software_name": "",
  "software_version": "",
  "test_keys": null,
  "test_name": "",
  "test_runtime": 0,
  "test_start_time": "",
  "test_version": ""
}

Here you see that we're printing the log message and that the test_keys are null.

The OONI data processing popeline will not be so happy if we pass it a null settings, because there is not much interesting data in there. We will thus start filling it in the next chapter.

Documentation

Overview

-=-=- StartHere -=-=-

## The torsf.go file

This file will contain the implementation of the `NewExperimentMeasurer` function.

As usual we start with the `package` declaration and with the few imports we need to add.

```Go

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