Skip to content

elite-se/plantestic-team-3

Repository files navigation

Plantestic - V2

This project is a continuation and extension of the plantestic project. This README gives an overview of plantestic's core features and of the new features we added.

Contents

Description

The test case generator Plantestic produces test cases from a sequence diagram. A sequence diagram models a sequence of interactions between objects. A test case then checks for such an interaction whether it is implemented as the sequence diagram defines it. In an example sequence diagram called Hello, let there be two actors Alice and Bob. Alice sends Bob the request GET /hello and Bob answers with Hello World. The corresponding test case now sends an HTTP request GET /hello to the backend. The test case then expects a response with status 200 OK and date Hello World.

./core/src/test/resources/minimal_hello.png

public void test() throws Exception {
		try {
			Response roundtrip1 = RestAssured.given()
					.auth().basic(substitutor.replace("${B.username}"), substitutor.replace("${B.password}"))
				.when()
					.get(substitutor.replace("${B.path}") + substitutor.replace("/hello"))
				.then()
					.assertThat()
					    .statusCode(IsIn.isIn(Arrays.asList(200)));
		} catch (Exception exception) {
			System.out.println("An error occured during evaluating the communication with testReceiver: ");
			exception.printStackTrace();
			throw exception;
		}
	}

Motivation

The implementation of user requirements often deviates from the specification of the same user requirements. Individual work, teamwork, and collaboration between teams can produce such a divergence. For example, requirements may be misinterpreted or overlooked. Teamwork, especially with multiple teams, causes interface errors. For example, subsystems of the same product may use conflicting technologies or conflicting data formats.

Our test case generator detects deviations at an early stage: The test case generator derives test cases directly from the specification. If the implementation fulfills these test cases, then the implementation fulfills the specification. If the implementation does not fulfill these test cases, the implementation deviates from the specification. With our test case generator, developers can quickly uncover inconsistencies, fix them, and save costs.

Core Features

  • gradle-based. Runs in any IDE
  • requires only Java (and Docker for optional diagram rendering) to be installed
  • single line user friendly CLI
  • powerful condition evaluation evaluates JavaScript conform conditions within sequence diagrams
  • parameters can be passed into sequence diagrams using external .toml config files and templating

Extension Features

The extensions focus on preprocessing sequence diagrams to semi-automate writing such diagrams:

Plantestic Pipelin with extensions

  • Restructure sequence diagrams to inspect only interactions of a specific actor.
  • Support for transformation of asynchronous POST requests sent to an actor into timed GET Requests, that test the actor, who receives the asnyc POST.
  • Annotate requests to be delayed during the testcase execution. This enables the user to let time pass during a test's execution to allow for asynchronous events to occur
  • Automatically complete Request Parameters on Requests in Sequence Diagrams based on Swagger definition files.
  • Postcondition evaluation for HTTP Responses. You can check values of a response to let tests fail when incorrect values occur during test runtime.
  • A web-based GUI to enable a smooth preprocessing workflow that doesn't require the user to work with new files after each preprocessing step.

Installation

  1. Install Java SE Development Kit 8 or higher. You can find Java SE Development Kit 8 under the website https://www.oracle.com/technetwork/java/javase/downloads/jdk8-downloads-2133151.html.
  2. Optional: Install Docker to enable the GUI to render PlantUML diagrams using a specific docker-container.
  3. Clone the Plantestic repository.
  4. Run git submodule init and git submodule update.
  5. Install maven (if not already installed).
  6. cd openapi-metamodel/openapi2 and run mvn install.
  7. cd plugins/edu.uoc.som.openapi2.io and run mvn install.
  8. cd ../edu.uoc.som.openapi2.mm and run mvn install.
  9. go back to the project root directory
  10. Run ./gradlew build.

Usage

Input requirements

The input is a PlantUML sequence diagram. This sequence diagram contains several participants and interactions between the participants. One participiant is the client who calls the test cases. The other participants are services of the implementation. In the example diagram, the client is CCC and the services are CRS and Voicemanager.

An interaction contains a request from the client and a response from a service. A request contains an HTTP method, a URL, and possibly parameters. A response contains an HTTP status code and, if applicable, data. A hyphen separates the HTTP status codes and the data.

The HTTP method is GET, POST, or PUT.

The URL path is a String. In it, slashes separate the path components. A parameter name in curly braces, preceded by a dollar symbol, thereby specifies parameterized path components. Example: /path/${param}

We specify the request parameters in a tuple: An opening bracket is followed by the first request parameter. This request parameter is followed - comma-separated - by the second request parameter, and so on. The last request parameter is followed by a closing bracket. We specify the request parameter as a Name: Value pair: The name of the request parameter is followed by a space, a colon, a space, and the value of the request parameter as a string. We define the value of the request parameter in curly brackets, preceded by a dollar symbol. Example: (name1 : "${value1}", name2 : "${value2}")

We specify the response data in a tuple: An opening bracket is followed by the first response datum. This response datum is followed - comma-separated - by the second response datum, and so on. The last response datum is followed by a closing bracket. We specify the response datum as a Name: XPath pair: The name of the response datum is followed by a space, a colon, a space, and the xpath of the response datum as a string. In the xpath, slashes separate the path components. . Example: (name1 : "value.value1", name2 : "value2")

Conditions can be evaluated in alt statements and on Responses. These conditions are evaluated using a JavaScript engine and thus must adhere to JS-syntax. In alternatives a condition could be formulated as such: alt "${x} === 'Hello World!'".

On a Response, a condition can be appended after the response datum tuple in square brackets: 200 - (x : "test.value") ["${x} === 'Hello World!'"]

./core/src/test/resources/rerouting.png

Execution

With the CLI

  1. Create a PlantUML sequence diagram. Note the input requirements above.
  2. Save the sequence diagram.
  3. Call the command ./gradlew run --args="--input=<path/to/sequence/diagram/diagram_name.puml>".
  4. The generated test cases are in <path/to/sequence/diagram/generatedCode/<diagramName>.java>.

Preprocessing (i.e. Swagger Extraction and tester generation) can also be triggered via the CLI.

  • Swagger extraction: ./gradlew run --args="-p --input=<xyz.puml> --config=<xyz_conf.toml>"
  • Tester generation: ./gradlew run --args="-p --input=<xyz.puml> --tester=A"
  • Both preprocessing steps: ./gradlew run --args="-p --input=<xyz.puml> --tester=A --config=<xyz_conf.toml>"
  • Starting the server, which serves the GUI ./gradlew run --args="-s"

The -s flag can always be appended to any call and starts the server in the background. All other steps (preprocessing or entire pipeline) are executed and the server continues running until the process is actively killed.

Example

Take the following test case generation from a minimal sequence diagram as an example:

  1. You can find the sequence diagram minimal_hello.puml in the Plantestic project under ./core/src/test/resources/minimal_hello.puml:

./core/src/test/resources/minimal_hello.png

  1. In the Plantestic console, call ./gradlew run --args="--input=./core/src/test/resources/minimal_hello.puml". This will generate test cases for the provided diagram.

  2. You will find the test case in the Plantestic project under ./core/build/resources/main/code-generation/generatedCode/minimal_hello_puml.java:

package com.plantestic.test;

import java.util.Arrays;
import java.util.Map;
import java.util.HashMap;
import io.restassured.RestAssured;
import io.restassured.response.Response;
import org.hamcrest.collection.IsIn;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import org.apache.commons.text.StringSubstitutor;
import com.moandjiezana.toml.Toml;
import javax.script.ScriptEngine;
import javax.script.ScriptEngineManager;
import javax.script.ScriptException;

public class Test {

	Map<String, Object> paramsMap = new HashMap();
	ScriptEngine engine;
	StringSubstitutor substitutor;
	private static final boolean IS_WINDOWS = System.getProperty( "os.name" ).contains( "indow" );

	public Test(String configFile) throws Exception {
		try {
			String osAppropriatePath = IS_WINDOWS ? configFile.substring(1) : configFile;
			Path path = Paths.get(osAppropriatePath);
			String paramsFileContent = new String(Files.readAllBytes(path));
			paramsMap = unnestTomlMap(new Toml().read(paramsFileContent).toMap());
			substitutor = new StringSubstitutor(paramsMap);
			ScriptEngineManager factory = new ScriptEngineManager();
			engine = factory.getEngineByName("JavaScript");
		} catch(Exception exception) {
			System.out.println("An Error occured, possible during reading the TOML config file: " + exception);
			throw exception;
		}
	}

	public void test() throws Exception {
		try {
			Response roundtrip1 = RestAssured.given()
					.auth().basic(substitutor.replace("${B.username}"), substitutor.replace("${B.password}"))
				.when()
					.get(substitutor.replace("${B.path}") + substitutor.replace("/hello"))
				.then()
					.assertThat()
					    .statusCode(IsIn.isIn(Arrays.asList(200)));
		} catch (Exception exception) {
			System.out.println("An error occured during evaluating the communication with testReceiver: ");
			exception.printStackTrace();
			throw exception;
		}
	}

	public static Map<String, Object> unnestTomlMap(Map<String, Object> tomlMap) {
		Map<String, Object> resultMap = new HashMap<>();
		for (Map.Entry<String, Object> entry : tomlMap.entrySet()){
			if(entry.getValue() instanceof Map){
				Map<String, Object> innerMap = (Map<String, Object>) entry.getValue();
				for (Map.Entry<String, Object> nestedEntry : innerMap.entrySet()){
					resultMap.put(entry.getKey() + "." + nestedEntry.getKey(), nestedEntry.getValue());
				}
			} else {
				resultMap.put(entry.getKey(), entry.getValue());
			}
		}
		return resultMap;
	}
}

With the GUI

  • Make sure Docker is running (otherwise the web editor will not be able to render your diagrams)
  • Start the server, which serves the GUI ./gradlew run --args="-s"
  • Open the address http://localhost:9090
  • You now have an editor with two tabs for the .puml diagram and its accompanying .toml configuration file. On the right are buttons to trigger the different preprocessing steps and the test case generation. On the left is a history which saves snapshots of your diagram whenever you start a new preprocessing step.

Screenshot of the webeditor GUI

Limitations

  • When actor A sends actor B a request, Plantestic expects actor B to send actor A a response. Actors A and B must be different actors.
  • Plantestic neither supports options nor loops.
  • Plantestic can handle alternatives as long as they are not nested.
  • We only support authenticated requests with username and password.

Credits

Contributors (V2)

  • Jorge Quintero
  • Tobias Schmidt
  • Paula Wikidal
  • Fabian Wildgrube

Contributors (V1)

Repositories

plantuml-eclipse-xtext

The repository plantuml-eclipse-xtext defines the grammar of PlantUML. We pass this grammar to Xtext.

qvto-cli

The repository qvto-cli demonstrates how QVT operations can be performed without Eclipse.

Literature

Standalone Parsing with Xtext

From the article Standalone Parsing with Xtext we learned how to use Xtext without Eclipse.

QVTOML/Examples/InvokeInJava

From the Wiki article QVTOML/Examples/InvokeInJava we learned how to call QVT from our pipeline.

Grammar-based Program Generation Based on Model Finding

From the paper Grammar-based Program Generation Based on Model Finding we learned about the Eclipse Modeling Framework.

License

Copyright [2020] [Jorge Quintero, Tobias Schmidt, Paula Wikidal, Fabian Wildgrube] Copyright [2019] [Stefan Grafberger, Fiona Guerin, Michelle Martin, Daniela Neupert, Andreas Zimmerer]

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

About

No description, website, or topics provided.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •