This repository is an example of a test suite for load testing a REST service with XLT. It shows some samples and universal concepts for easier handling of data, configuration, and test composition. It shows what is possible thanks to Java as scripting language on top of the XLT base feature set. The test suite demonstrates the following features and functionalities:
Base XLT Features
- Every test case is a JUnit test
- Use Eclipse or any other IDE to compile, run (as single test user), and debug
- The tests can run as a normal integration test or as part of a classic build process
- XLT measures, scales, and paces the testing
- Handling of test scaling, results collection and report building by XLT
- Fits your CI/CD pipeline, including comparison against previous runs
- Comfortable Maven setup
Enhanced and New Features
- Configuration via YAML files supporting a region, locale, and site arrangement
- Centralized configuration and mapping of objects to support data types
- Central context for test execution data enabling easier programming
- Central data store, to pass stored data from one action to another
- Replayable randomness among test scenario executions
We provide different test cases, displaying different use cases and approaches.
- Postman Echo Service Test (com.xceptance.loadtest.rest.tests.postman): This package contains some test showing different approaches on action handling as well as different REST specific examples including POST, GET, Basic Auth, validation and value extraction.
- Wikipedia Tests (com.xceptance.loadtest.rest.tests.wikipedia): This package contains some more complex tests using the Wikimedia API, data storage and validation.
- Postcode Test (com.xceptance.loadtest.rest.tests.postcode): This package contains a test case showing an example for postcodes.io.
This example test suite is targeting some example hosts, like the Wikipedia API, the Postman Echo service, the postcodes.io API and others. Please be aware, that none of these services designed or prepared to withstand a real load test. Use these test cases ONLY for single experiments, as a base to script against your own API, or to generally learn about XLT in a REST context.
To run the provided example test cases follow the steps below:
- Import project into your preferred IDE using Maven.
- (For Wikipedia test cases only) Rename
config/data/sites/DE/private-data.yaml.templateandconfig/data/sites/US/private-data.yaml.templatetoprivate-data.yamland fill in the according data. Also for the login test, enter login data into accordingaccounts.csv. - Choose a test case to run from a subpackage of
com.xceptance.loadtest.rest.testsand run it as a JUnit test. - Check result browser at
results/<Name of your test>.html.
XLT is a load testing tool build by Xceptance using Java as the scripting language and the JVM as the execution environment. XLT is open source software under Apache License 2.0.
Here are some documentation links:
- XLT Release Notes
- XLT User Manual
- XLT Introduction
- Further XLT Training
- User Forum
- GitHub Repository
The following sections describes the organization of the test suite. Major code interfaces are mentioned as a starting point to dive into the source code of the available test scenarios.
Main parts of the test suite are the test scenarios source code, test configuration and test data as well as (automatically generated) test results.
General organization of the test suite's source code is described in the following section. The test suite comes as a Maven project. Use your preferred IDE to import the project and run the test suite without further modification.
Test case and suite configuration is available in the directory /config. Likewise test data and further configuration is available in the directory /config/data. Configuration and data of the test suite adheres to some concepts described in later sections of this document.
Test results in form of XLTs result browser output - which is generated with each single mode test execution - is located in directory /results. You can find a short blog article on how to use the result browser on our website.
Everything source code related can be found under /src/main/java. The main package of the test suite is com.xceptance.loadtest. The test suite is separated in an API and the test specific code. The API layer provides fundamental code, to support and enhance the feature set of XLT, while the test specific code provides examples on how to use these features in a performance test suite.
The test suite contains an API layer offering building blocks in form of various interfaces and base classes as well as a number of utilities and data containers, which can and should be employed when creating the project specific test scenarios. The API layer is not project specific and could be shared among different projects. The package containing the API layer can be found at com.xceptance.loadtest.api.
Please refer to later sections of this document for brief discussions of API layer specific components, like the Context, the configuration base, data classes and data suppliers.
As everything in this example the API code can be adapted as needed, but in contrast to the project specific code it is not meant to be changed. So please only change these files, if you know, what you do.
The project source code of the test suite can be found at com.xceptance.loadtest.rest. In general, this package should contain a representation of a client for the REST service under test. In this example test suite, several REST services serve as examples on different ways to handle a test case.
In addition to the example test cases this package provides some classes, which are meant to be adapted for each scripted project.
The project specific code contains three sub packages:
configuration - Here you can find the configuration class. which contains project specific configuration values. Everything which needs to be loaded from the configuration should be placed here and annotated properly. A more detailed overview on how to load add custom configurations can be found below.
data - The TestData class contains specific data for each test run and can be extended at will. Data which is placed in this class (except static data), will not be shared among the different test users. It also contains a general data store, which can store java objects using a String,Object map.
tests - The actual test cases (test scenarios) modeling the complete test that is being executed against the REST service. Each test scenario is represented by a distinct test case.
Each test case extends RESTTestCase which in turn utilizes AbstractTestCase, provided by XLT. This parent class adds some extra features to a normal XLT test case, like the Context, site handling and some additional information logging.
If a test case is going to use the automated site/region/language distribution and configuration, it needs to implement the SiteByMarketShare interface. This comes with the RESTTestCase class per default.
Project configuration, project data and general load test execution configuration is described and implemented via Java and YAML properties. All configuration and data files are located in directory /config and subsequently /config/data. XLT requires this structure to allow correct upload of test data to the executing agents of the test when distributing the test across several machines.
The following files are available with their general intent and contents briefly described:
default.properties - General XLT and suite configuration, like proxy settings, XLT timeout settings, HTTP filter, JavaScript settings, test data management settings, result and reporting settings. This file specifies the general set of properties and other property files will typically override these settings in a more specific way.
dev-log4j.properties - Logging properties for development mode.
log4j.properties - Logging properties employed during load test execution.
project.properties - Project specific properties referencing further configuration files, specifying settings related to test cases or simply overriding existing properties with site specific details.
dev.properties - Properties overriding other properties (typically default.properties or project.properties) during development and single user mode execution (outside XLT) of a test case.
sites.yaml - Site specific configuration like languages/locale, resource paths or access information and test data.
private-data.yaml - Information on how to access the service under test, i.e. host details and credentials. Isolated in this file to be possibly excluded from version control, where required.
test.properties - Test run specific settings, e.g. executed test cases, test run configuration like number of users, arrival rate or test duration.
Further details about properties required during test case execution, especially in load test mode, are described in the XLT documentation.
Nowadays, a lot of services are designed to work on an international scale and come in several languages and often target different regions or markets. Data will be different for some sites (e.g. addresses) and others might share certain information (e.g. search phrases). Therefore we added a configuration feature, to reuse test cases for different different sites/regions etc. You can configure a market share in the sites.yaml and XLT will automatically distribute the test cases based on this value.
If you have two sites, one with a market share of 80% and one with 20% market share the load during the test case will be distributed accordingly, while each test case retrieve the expected site specific configuration data.
The test suite is multi-site by design. Data and configuration can be site, language or region specific and the test scripts will have a built-in way to determine which site they are working on, thereby automatically retrieving correct set of data. If you want to access information during runtime based on the current site and its properties, you can access the Context and ask:
Context.get().data.site.id
Context.get().data.site.region
Context.get().data.site.locale
Context.get().data.site.language()In case this is too ambiguous, you can easily extend the Site class to directly answer your questions, such as isAPAC() for instance.
The language is automatically derived from the locale. For instance en_CA is en aka English and fr_CA is fr aka French both for Canada.
The idea is to allow reuse based on region and locale/language, while you separate everything else that is site specific.
There are regions, locales and languages as well as sites. Everything except default is free to be defined as needed. This hierarchy comes from information set in /config/data/sites/sites.yaml. Consider it the start point of the site definitions. This file is referenced in the project.properties via property general.properties.yaml.global.files and basically gets the YAML loading process started.
You can specify more files there which are loaded as initial defaults before the fallback based handling starts.
But it is important that one file of this contains the site list to use (see next example), otherwise the site concept will be broken.
# Make all sites known upfront
sites:
- id: US
active: true # In case you want to exclude it from a run
locale: en_US # This is the language to be used
region: NorthAmerica # This is something like country or market
marketshare: 10
- id: UK
active: false
locale: en_UK
region: Europe
marketshare: 10During script development it might come in handy to activate only one site, to make the development process more deterministic.
If you want to create site driven tests as well as tests which does not require a site. You can use the NonSiteRelatedTest interface.
You will find a directory hierarchy under /config/data where the test suite is looking up information. During the data and configuration look up a fallback scheme is applied (discussed later on). This can look something like the following hierarchy:
posters/config/data/
├── languages
│ ├── default
│ │ ├── firstnames.txt
│ │ ├── lastnames.txt
│ │ └── words.txt
│ ├── en
│ │ ├── localization.yaml
│ │ └── searchterms.txt
│ ├── en_UK
│ │ ├── firstnames.txt
│ │ └── lastnames.txt
│ ├── en_US
│ │ └── stateCodesUS.txt
│ ├── fr_FR
│ │ ├── localization.yaml
│ │ └── searchterms.txt
│ └── zh_CN
│ ├── firstnames.txt
│ ├── lastnames.txt
│ ├── localization.yaml
│ └── searchterms.txt
├── regions
│ ├── APAC
│ ├── default
│ │ └── site.yaml
│ ├── Europe
│ └── NorthAmerica
└── sites
├── sites.yaml
├── China
│ └── accounts.yaml
├── default
│ ├── creditcards.yaml
│ └── filters.yaml
├── France
│ └── accounts.yaml
├── Italy
│ └── accounts.yaml
├── Japan
│ └── accounts.yaml
├── UK
│ └── accounts.yaml
└── US
├── accounts.yaml
└── flash.yaml
If further yaml config files are need, for example a configuration for a flash sale, the according filename needs to be added to the general.properties.yaml.site.files property in the config/project.properties file.
The test suite deals with different configuration settings (properties) and test data. The suite commonly uses a set of Java properties for configuration purposes but can replace most of them by also offering a flexible, easy to read and configure YAML based property extension. This concept was introduced to avoid boiler plate property configuration and support UTF-8. Furthermore it permits the means to simply overwrite by site, market or region.
The YAML property files are an extension of the existing XLT property collection. The YAML properties extension is not delivered by XLT but the test suite.
Important: YAML does not like TAB at all. Make sure you modify your editor settings to correctly turn a TAB into spaces. YAML requires indentations to structure the document.
More about YAML and some easy rules can be found in the Wikipedia.
The test suite transforms the YAML properties into regular properties which XLT and the suite can interpret. That means only the definition is in YAML but the runtime system will work on actual Java properties.
Plain:
general:
host: host.com
baseUrl: ${host}/my-site
credentials: # Comment here
username: user # Comment there
password: foobarWhich translates into:
general.host = host.com
general.host.baseUrl = host.com/my-site
general.credentials.username = user
general.credentials.password = foobar
The private-data.yaml defines access and credentials for the system under test. If required, this file can be excluded from your repository (via .gitignore).
This test suite contains some readily setup private-data.yaml files for some of the scenarios, but is laking some files as well. For this purpose a predefined template file private-data.yaml.template was placed in the according folders. Rename it to private-data.yaml and fill out the missing values to run the examples.
Test data has been setup in a similar way as the previously discussed configuration. This permits easy reuse and targeted setup per region, site, or locale/language. File system and site considerations discussed above also apply to the test data. Furthermore, the suite tries to employ a strict concept of data separation and data maintenance.
Data and property look up use the same fallback logic. The look up follows below steps until the property is found. If not the test suite will complain with an error.
- Look for item in site first (e.g. US).
- Look in default site.
- Look in region.
- Look in default region.
- Look in locale (e.g. en_US, as specified for the site).
- Look in language (e.g. en taken from en_US).
- Look in default language.
- If not found, the look up fails.
Empty files are permitted in case you specified something that does not have data for that specific case.
The class DataFileProvider.java has the responsibility to load files following above described fallback pattern and the site context.
public static Optional<File> dataFileBySite(final Site site, final String fileName)The test suite contains the Context, a singleton, which holds (among others) test suite and scenario specific configuration settings and data, as well as runtime data of a test scenario. You can access the Context via Context.get().
Context.data is an instance of class TestData. This instance is exclusive per running scenario (running user) and typically used to store all scenario and user specific data. Most data is made public for easier access and less boilerplate. If you need logic to hand out data, you have to add a methods for fetching the data. One important object contained in the TestData (Context.data) is the previously discussed Site.
It also contains a general data store, which can store java objects using a String,Object map.
The following section provides a brief overview on test suite execution and the resulting artifacts. For a detailed discussion of these topics please refer to the official XLT documentation.
All test cases contained in the suite are JUnit 4 tests. You can simply execute a test case from within your preferred IDE by using the built-in JUnit runner. Running a test case in this way will execute in single user mode and is typically employed during test case development or smoke testing a number of test scenarios. Executing the test case package will execute the whole suite in a sequential and again single user mode fashion.
Console output will inform about the executed test steps (actions), requests being fired and the test results (e.g. failed validation). At the end of a test case execution, the console output will provide a link to an XLT generated result browser. A result browser contains information collected during the execution of a test case. Test case, flow and action data as well as individual request and response data is contained. A result browser is a very useful tool in writing and modifying test cases. All result browsers created can be found in directory /results of the test suite. (The last generated result browser will be linked but result browser of previous scenario executions are also available in this directory. Clear the directory if you test suite takes up too much space.)
Load test cases typically contain a good amount of randomness in their flows and actions. To be able to replay a test case exactly as executed previously, XLT test cases have the possibility to set a random seed, the so called random initial value. The initial value can be found at the end of the test case's console output or in the result browser (when clicking the test case title). Setting this initial value via property com.xceptance.xlt.random.initValue in one of the property files (typically /config/dev.properties) will initialize XLTs random generator (class XltRandom) in a way that the exact same sequence of random values are provided, thus making test case execution repeatable.
The XLT documentation contains detailed information on how to execute the test scenarios and test suite in an actual load test setup as well as creating and interpreting XLT load test reports.
In this section various concepts central to the test suite or test design with XLT in general are reviewed. Please follow the pointers to the official XLT documentation for an in depth discussion of the topic.
A manual (functional) test is typically separated into individual test steps. From the perspective of a load test case a similar concept is employed. Each step in an interaction with the server is called an action. In most cases this contains one call, but might as well contain several requests and additional logic in between as well as validations on each call. Validations should not be represented as individual actions. (Generally, validations are kept small during load testing, as the purpose is not functional testing.)
XLT uses the action concept to set and manage timing markers (timers). An action automatically creates a new timer, which will terminate once the action is finished. The action information is maintained by XLT and will be used to structure the test outputs and timing information. The action markers and derived timings can be found in the result browser and the report.
For a full explanation of actions and timers, please refer to the XLT documentation.
In this sample we show two different ways of handling actions. The traditional approach would be to extend the action class for each individual step of the test and call the run(); method.
- Predefined REST Action: With this test suite a predefined Action for all basic needs concerning REST/JSON calls is delivered. This action called SimpleRESTJSONAction. It can be instantiated and used quite similar to the XLT HTTPRequest. The provided sample test cases show plenty of examples on how to use this action.
- Fluid Action Handling: By Using the Actions.get() or Actions.run() Methods, actions can be defined using a lambda function. Some examples can be found in the com.xceptance.loadtest.rest.tests.postman package.