How to write a plugin for JMeter
How to write a plugin for JMeter
29. How to write a plugin for JMeter
Section titled “29. How to write a plugin for JMeter”Introduction from Peter Lin
Section titled “Introduction from Peter Lin”On more than one occasion, users have complained JMeter’s developer documentation is out of date and not very useful. In an effort to make it easier for developers, I decided to write a simple step-by-step tutorial. When I mentioned this to mike, he had some ideas about what the tutorial should cover.
Before we dive into the tutorial, I’d like to say writing a plugin isn’t necessarily easy, even for someone with several years of java experience. The first extension I wrote for JMeter was a simple utility to parse HTTP access logs and produce requests in XML format. It wasn’t really a plugin, since it was a stand alone command line utility. My first real plugin for JMeter was the webservice sampler. I was working on a .NET project and needed to stress test a webservice. Most of the commercial tools out there for testing .NET webservices suck and cost too much. Rather than fork over several hundred dollars for a lame testing tool, or a couple thousand dollars for a good one, I decided it was easier and cheaper to write a plugin for JMeter.
After a two weeks of coding on my free time, I had a working prototype using Apache Soap driver. I submitted it back to JMeter and mike asked me if I want to be a committer. I had contributed patches to Jakarta JSTL and tomcat in the past, so I considered it an honor. Since then, I’ve written the access log sampler, Tomcat 5 monitor and distribution graph. Mike has since then improved the access log sampler tremendously and made it much more useful.
Introduction from Mike Stover
Section titled “Introduction from Mike Stover”One of my primary goals in designing JMeter was to make it easy to write plugins to enhance as many of JMeter’s features as possible. Part of the benefit of being open-source is that a lot of people could potentially lend their efforts to improve the application. I made a conscious decision to sacrifice some simplicity in the code to make plugin writing a way of life for a JMeter developer.
While some folks have successfully dug straight into the code and made improvements to JMeter, a real tutorial on how to do this has been lacking. I tried a long time ago to write some documentation about it, but most people did not find it useful. Hopefully, with Peter’s help, this attempt will be more successful.
29.1 Basic structure of JMeter
Section titled “29.1 Basic structure of JMeter”JMeter is organized by protocols and functionality. This is done so that developers can build new jars for a single protocol without having to build the entire application. We’ll go into the details of building JMeter later in the tutorial. Since most of the JMeter developers use eclipse, the article will use eclipse directory as a reference point.
Root directory - /eclipse/workspace/apache-jmeter/
The folders inside of apache-jmeter
bin
: contains the .bat and .sh files for starting JMeter.
It also contains ApacheJMeter.jar and properties file
build/docs
: directory contains the JMeter documentation files
extras
: ant related extra files
lib
: contains the required jar files for JMeter
lib/ext
: contains the core jar files for JMeter and the protocols
src
: contains subdirectory for each protocol and component
src/*/test
: unit test related directory
src/testFixtures
: Directory that contains test-related code that might be reused in other modules
xdocs
: XML files for documentation. JMeter generates its documentation from XML.
As the tutorial progresses, an explanation of the subdirectories will be provided. For now, lets
focus on src directory.
The folders inside of src
bshclient
: code for the BeanShell based client
bolt
: code for the Bolt protocol
components
: contains non-protocol-specific components like visualizers, assertions, etc.
core
: the core code of JMeter including all core interfaces and abstract classes.
dist
: builds script that creates a distribution
dist-check
: code related to testing the distribution. It is the place to look for
when you want to update the contents of the resulting source/binary archive
examples
: example sampler demonstrating how to use the new bean framework
functions
: standard functions used by all components
generator
: code to generate a test plan with all elements. Used for testing the distribution
jorphan
: utility classes providing common utility functions
launcher
: code to help start and stop JMeter through API
licenses
: contains information about the licenses used in JMeters dependencies
protocol
: contains the different protocols JMeter supports
release
: code related to releasing JMeter distribution
testkit
: utility code for testing
testkit-wiremock
: utility code for testing with WireMock
Within protocol directory, are the protocol specific components.
The folders inside of protocol
ftp
: components for load testing ftp servers
http
: components for load testing web servers
java
: components for load testing java components
jdbc
: components for load testing database servers using JDBC
jms
: components for load testing JMS servers
junit
: components for load testing using JUnit tests
junit-sample
: examples for JUnit based test implementations
ldap
: components for load testing LDAP servers
mail
: components for load testing mail servers
native
: components for load testing OS native commands
tcp
: components for load testing TCP services
As a general rule, all samplers related to HTTP will reside in http directory. The exception to the
rule is the Tomcat5 monitor. It is separate, because the functionality of the monitor is slightly
different than stress or functional testing. It may eventually be reorganized, but for now it is in its
own directory. In terms of difficulty, writing visualizers is probably one of the harder plugins to
write.
29.2 JMeter Gui – Service lookup
Section titled “29.2 JMeter Gui – Service lookup”JMeter uses classpath scanning to detect plugins (e.g. functions, components, views). However, classpath scanning
is expensive,
so JMeter also provides a service lookup mechanism to allow plugins to be found without scanning the classpath.
That is if a plugin registers a Java service with META-INF/services, then JMeter won’t need to scan
the classpath to find it.
Some of the existing features already use the new service lookup mechanism, but it is not yet used for all
features.
The interfaces that are supported for service loading are marked with
org.apache.jorphan.reflect.JMeterService
annotation.
Implementing a service the same as regular interface implementation, except you need to register the service
in a META-INF/services/fully.qualified.interface.name.
For instance you could use @AutoService to generate the file automatically at the build time.
Here’s how __counter function is declared in JMeter itself:
import com.google.auto.service.AutoService;
@AutoService(Function.class)public class IterationCounter extends AbstractFunction implements ThreadListener {For backward compatibility reasons, JMeter would still try searching the implementations with classpath scanning,
so you don’t have to use META-INF/services for registering services. However, service lookup is much
faster, so exposing services would improve startup time, especially when there are many plugins.
As you add META-INF/services to your plugins, you can add JMeter-Skip-Class-Scanning: true
manifest attribute so JMeter knows there’s no need to scan the jar as it provides all the plugins via services.
29.3 JMeter Gui – TestElement Contract
Section titled “29.3 JMeter Gui – TestElement Contract”When writing any JMeter component, there are certain contracts you must be aware of – ways a JMeter component is expected to behave if it will run properly in the JMeter environment. This section describes the contract that the GUI part of your component must fulfill.
GUI code in JMeter is strictly separated from Test Element code. Therefore, when you write a component, there will be a class for the Test Element, and another for the GUI presentation. The GUI presentation class is stateless in the sense that it should never hang onto a reference to the Test Element (there are exceptions to this though).
A GUI element should extend the appropriate abstract class provided:
AbstractSamplerGuiAbstractAssertionGuiAbstractConfigGuiAbstractControllerGuiAbstractPostProcessorGuiAbstractPreProcessorGuiAbstractVisualizerAbstractTimerGui
These abstract classes provide so much plumbing work for you that not extending them, and instead implementing the interfaces directly is hardly an option. If you have some burning need to not extend these classes, then you can join me in IRC where I can convince you otherwise :-).
So, you’ve extended the appropriate GUI class, what’s left to do? Follow these steps:
- Implement
getLabelResource()1. This method should return the name of the resource that represents the title/name of the component. The resource will have to be entered into JMetersmessages.propertiesfile (and possibly translations as well). - Override
org.apache.jmeter.gui.JMeterGUIComponent.makeTestElementmethod so it returns the appropriateTestElement. JMeter will usemakeTestElementwhen user creates the element from the UI. In most cases it should be just creating the test element likereturn new SetupThreadGroup(). - Create your GUI. Whatever style you like, layout your GUI. Your class ultimately extends
JPanel, so your layout must be in your class’s ownContentPane. Do not hook up GUI elements to yourTestElementclass via actions and events. Let swing’s internal model hang onto all the data as much as you possibly can. 1. Some standard GUI stuff should be added to all JMeter GUI components: 1. CallsetBorder(makeBorder())for your class. This will give it the standard JMeter border 2. Add the title pane viamakeTitlePanel(). Usually this is the first thing added to your GUI, and should be done in a Box vertical layout scheme, or with JMeter’sVerticalLayoutclass. Here is an exampleinit()method:java private void init() { setLayout(new BorderLayout()); setBorder(makeBorder()); Box box = Box.createVerticalBox(); box.add(makeTitlePanel()); box.add(makeSourcePanel()); add(box,BorderLayout.NORTH); add(makeParameterPanel(),BorderLayout.CENTER); } - Then you need to wire UI elements with the properties of the new
TestElement. If you createTestElementSchemafor your test element (seeThreadGroupSchema), then you could use automatic wiring withPropertyEditorCollection - If you do not use schema for wiring properties to UI control, or if you have non-trivial controls, you might customize
TestElementproperties to UI control mapping by overridingpublic void configure(TestElement el)1. Be sure to callsuper.configure(e). This will populate some of the data for you, like the name of the element. Note: JMeter reuses UI elements when user changes the active element in test tree, so you need to set all the text fields inconfiguremethod to avoid displaying stale contents. 2. Use this method to set data into your GUI elements. Example:java public void configure(TestElement el) { super.configure(el); useHeaders.setSelected( el.getPropertyAsBoolean(RegexExtractor.USEHEADERS)); useBody.setSelected( !el.getPropertyAsBoolean(RegexExtractor.USEHEADERS)); regexField.setText( el.getPropertyAsString(RegexExtractor.REGEX)); templateField.setText( el.getPropertyAsString(RegexExtractor.TEMPLATE)); defaultField.setText( el.getPropertyAsString(RegexExtractor.DEFAULT)); matchNumberField.setText( el.getPropertyAsString(RegexExtractor.MATCH_NUM)); refNameField.setText( el.getPropertyAsString(RegexExtractor.REFNAME)); }3. If you do not use schema for wiring UI controls toTestElementproperties, or if you want customized behavior, you might overridepublic void modifyTestElement(TestElement e). It is the logical reverse ofconfiguremethod. 1. Callsuper.modifyTestElement(e). This will take care of some default data for you. 2. Note: in most cases, you want to treat “empty field” as “absent property”, so make sure to remove the property if the input field is empty. 3. Example:java public void modifyTestElement(TestElement e) { super.modifyTestElement(e); e.setProperty(new BooleanProperty( RegexExtractor.USEHEADERS, useHeaders.isSelected())); e.setProperty(RegexExtractor.MATCH_NUMBER, matchNumberField.getText()); if (e instanceof RegexExtractor) { RegexExtractor regex = (RegexExtractor)e; regex.setRefName(refNameField.getText()); regex.setRegex(regexField.getText()); regex.setTemplate(templateField.getText()); regex.setDefaultValue(defaultField.getText()); } }4. If your UI includes controls that do not map toTestElementproperties (sliders, tabs), then you might want to reset them when user switches the controls. You can do that by overridingclearGui()method and resetting the controls there.
The reason you cannot hold onto a reference for your Test Element is because JMeter reuses
instance of GUI class objects for multiple Test Elements. This saves a lot of memory. It also
makes it incredibly easy to write the GUI part of your new component. You still have to struggle
with the layout in Swing, but you don’t have to worry about creating the right events and actions for
getting the data from the GUI elements into the TestElement where it can do some good. JMeter
knows when to call your configure, and modifyTestElement methods where you can do it in a very
straightforward way.
Writing Visualizers is somewhat of a special case, however.
29.4 Writing a Visualizer
Section titled “29.4 Writing a Visualizer”Of the component types, visualizers require greater depth in Swing than something like controllers,
functions or samplers. You can find the full source for the distribution graph in
components/org/apache/jmeter/visualizers/. The distribution graph visualizer is divided into two
classes.
DistributionGraphVisualizer
: visualizer which JMeter instantiates
DistributionGraph
: JComponent which draws the actual graph
The easiest way to write a visualizer is to do the following:
- Extend
org.apache.jmeter.visualizers.gui.AbstractVisualizer - Implement any additional interfaces need for call back and event notification. For example, the
DistributionGraphVisualizerimplements the following interfaces: -ImageVisualizer-ItemListener– according to the comments in the class,ItemListeneris out of date and isn’t used anymore. -GraphListener-Clearable
AbstractVisualizer provides some common functionality, which most visualizers like
Graph Results use. The common functionality provided by the abstract class includes:
- Configure test elements – This means it create a new
ResultCollector, sets the file and sets the error log - Create the stock menu
- Update the test element when changes are made
- Create a file panel for the log file
- Create the title panel
In some cases, you may not want to display the menu for the file textbox. In that case, you can
override the init() method. Here is the implementation for DistributionGraphVisualizer.
/** * Initialize the GUI. */private void init() { this.setLayout(new BorderLayout());
// MAIN PANEL Border margin = new EmptyBorder(10, 10, 5, 10); this.setBorder(margin);
// Set up the graph with header, footer, Y axis and graph display JPanel graphPanel = new JPanel(new BorderLayout()); graphPanel.add(createGraphPanel(), BorderLayout.CENTER); graphPanel.add(createGraphInfoPanel(), BorderLayout.SOUTH);
// Add the main panel and the graph this.add(makeTitlePanel(), BorderLayout.NORTH); this.add(graphPanel, BorderLayout.CENTER);}The first thing the init method does is create a new BorderLayout. Depending on how you want to
layout the widgets, you may want to use a different layout manager. Keep mind using different
layout managers is for experts.
The second thing the init method does is create a border. If you want to increase or decrease
the border, change the four integer values. Each integer value represents pixels. If you want your
visualizer to have no border, skip lines 8 and 9. Line 13 calls createGraphPanel, which is
responsible for configuring and adding the DistributionGraph to the visualizer.
private Component createGraphPanel() { graphPanel = new JPanel(); graphPanel.setBorder(BorderFactory.createBevelBorder( BevelBorder.LOWERED,Color.lightGray,Color.darkGray)); graphPanel.add(graph); graphPanel.setBackground(Color.white); return graphPanel;}At line 5, the graph component is added to the graph panel. The constructor is where a new
instance of DistributionGraph is created.
public DistributionGraphVisualizer() { model = new SamplingStatCalculator("Distribution"); graph = new DistributionGraph(model); graph.setBackground(Color.white); init();}The constructor of DistributionGraphVisualizer is responsible for creating the model and the
graph. Every time a new result is complete, the engine passes the result to all the listeners by
calling add(SampleResult res). The visualizer passes the new SampleResult to the model.
public synchronized void add(SampleResult res) { model.addSample(res); updateGui(model.getCurrentSample());}In the case of the DistributionGraphVisualizer, the add method doesn’t actually update the
graph. Instead, it calls updateGui in line three.
public synchronized void updateGui(Sample s) { // We have received one more sample if (delay == counter) { updateGui(); counter = 0; } else { counter++; }}Unlike GraphVisualizer, the distribution graph attempts to show how the results clump; therefore
the DistributionGraphVisualizer delays the update. The default delay is 10 sampleresults.
public synchronized void updateGui() { if (graph.getWidth() < 10) { graph.setPreferredSize( new Dimension(getWidth() - 40, getHeight() - 160)); } graphPanel.updateUI(); graph.repaint();}Lines 2 to 3 are suppose to resize the graph, if the user resizes the window or drags the divider.
Line 7 updates the panel containing the graph. Line 8 triggers the update of the DistributionGraph.
Before we cover writing graphs, there are a couple of important methods visualizer must
implement.
public String getLabelResource() { return "distribution_graph_title";}The label resource retrieves the name of the visualizer from the properties file. The file is located
in core/org/apache/jmeter/resources. It’s best not to hardcode the name of the visualizer.
Message.properties file is organized alphabetically, so adding a new entry is easy.
public synchronized void clear() { this.graph.clear(); model.clear(); repaint();}Every component in JMeter should implement logic for clear() method. If this isn’t done, the
component will not clear the UI or model when the user tries to clear the last results and run a
new test. If clear is not implemented, it can result in a memory leak.
public JComponent getPrintableComponent() { return this.graphPanel;}The last method visualizers should implement is getPrintableComponent(). The method is
responsible for returning the JComponent that can be saved or printed. This feature was recently
added so that users can save a screen capture of any given visualizer.
29.5 GraphListener
Section titled “29.5 GraphListener”Visualizers should implement GraphListener. This is done to make it simpler to add new Sample
instances to listeners. As a general rule, if the custom graph does not plot every single sample,
it does not need to implement the interface.
public interface GraphListener { public void updateGui(Sample s); public void updateGui();}The important method in the interface is updateGui(Sample s). From
DistributionGraphVisualizer, we see it calls graph.repaint()
to refresh the graph. In most cases,
the implementation of updateGui(Sample s) should do just that.
ItemListenerVisualizers generally do not need to implement this interface. The interface is used with combo
boxes, checkbox and lists. If your visualizer uses one of these and needs to know when it has
been updated, the visualizer will need to implement the interface. For an example of how to
implement the interface, please look at GraphVisualizer.
29.6 Writing Custom Graphs
Section titled “29.6 Writing Custom Graphs”For those new to Swing and haven’t written custom JComponents yet, I would suggest getting a
book on Swing and get a good feel for how Swing widgets work. This tutorial will not attempt to
explain basic Swing concepts and assumes the reader is already familiar with the Swing API and
MVC (Model View Controller) design pattern. From the constructor of DistributionGraphVisualizer,
we see a new instance of DistributionGraph is created with an instance of the model.
public DistributionGraph(SamplingStatCalculator model) { this(); setModel(model);}The implementation of setModel method is straight forward.
private void setModel(Object model) { this.model = (SamplingStatCalculator) model; repaint();}Notice the method calls repaint after it sets the model. If repaint isn’t called, it can cause the
GUI to not draw the graph. Once the test starts, the graph would redraw, so calling repaint isn’t
critical.
public void paintComponent(Graphics g) { super.paintComponent(g); final SamplingStatCalculator m = this.model; synchronized (m) { drawSample(m, g); }}The other important aspect of updating the widget is placing the call to drawSample within a
synchronized block. If drawSample wasn’t synchronized, JMeter would throw a
ConcurrentModificationException at runtime. Depending on the test plan, there may be a dozen or
more threads adding results to the model. The synchronized block does not affect the accuracy of
each individual request and time measurement, but it does affect JMeter’s ability to generate large
loads. As the number of threads in a test plan increases, the likelihood a thread will have to wait
until the graph is done redrawing before starting a new request increases. Here is the
implementation of drawSample.
private void drawSample(SamplingStatCalculator model, Graphics g) { width = getWidth(); double height = (double)getHeight() - 1.0;
// first lets draw the grid for (int y=0; y < 4; y++){ int q1 = (int)(height - (height * 0.25 * y)); g.setColor(Color.lightGray); g.drawLine(xborder,q1,width,q1); g.setColor(Color.black); g.drawString(String.valueOf((25 * y) + "%"),0,q1); } g.setColor(Color.black); // draw the X axis g.drawLine(xborder,(int)height,width,(int)height); // draw the Y axis g.drawLine(xborder,0,xborder,(int)height); // the test plan has to have more than 200 samples // for it to generate half way decent distribution // graph. The larger the sample, the better the // results. if (model != null && model.getCount() > 50) { // now draw the bar chart Number ninety = model.getPercentPoint(0.90); Number fifty = model.getPercentPoint(0.50); total = model.getCount(); Collection values = model.getDistribution().values(); Object[] objval = new Object; objval = values.toArray(objval); // we sort the objects Arrays.sort(objval,new NumberComparator()); int len = objval.length; for (int count=0; count < len; count++) { // calculate the height Number[] num = (Number[])objval[count]; double iper = (double)num[1].intValue() / (double)total; double iheight = height * iper; // if the height is less than one, we set it // to one pixel if (iheight < 1) { iheight = 1.0; } int ix = (count * 4) + xborder + 5; int dheight = (int)(height - iheight); g.setColor(Color.blue); g.drawLine(ix -1,(int)height,ix -1,dheight); g.drawLine(ix,(int)height,ix,dheight); g.setColor(Color.black); // draw a red line for 90% point if (num[0].longValue() == ninety.longValue()) { g.setColor(Color.red); g.drawLine(ix,(int)height,ix,55); g.drawLine(ix,(int)35,ix,0); g.drawString("90%",ix - 30,20); g.drawString( String.valueOf(num[0].longValue()), ix + 8, 20); } // draw an orange line for 50% point if (num[0].longValue() == fifty.longValue()) { g.setColor(Color.orange); g.drawLine(ix,(int)height,ix,30); g.drawString("50%",ix - 30,50); g.drawString( String.valueOf(num[0].longValue()), ix + 8, 50); } } }}In general, the rendering of the graph should be fairly quick and shouldn’t be a bottleneck. As a general rule, it is a good idea to profile custom plugins. The only way to make sure a visualizer isn’t a bottleneck is to run it with a tool like Borland OptimizeIt. A good way to test a plugin is to create a simple test plan and run it. The heap and garbage collection behavior should be regular and predictable.
29.7 Making a TestBean Plugin For JMeter
Section titled “29.7 Making a TestBean Plugin For JMeter”In this part, we will go through the process of creating a simple component for JMeter that uses
the new TestBean framework.
This component will be a CSV file reading element that will let users easily vary their input data
using CSV files. To most effectively use this tutorial, open the three files specified below (found in
JMeter’s src/components directory).
- Pick a package and make three files: - [ComponentName].java (org.apache.jmeter.config.CSVDataSet.java) - [ComponentName]BeanInfo.java (org.apache.jmeter.config.CSVDataSetBeanInfo.java) - [ComponentName]Resources.properties (org.apache.jmeter.config.CSVDataSetResources.properties)
CSVDataSet.javamust implement theTestBeaninterface. In addition, it will extendConfigTestElement, and implementLoopIterationListener. -TestBeanis a marker interface, so there are no methods to implement. - ExtendingConfigTestElementwill make our component aConfigelement in a test plan. By extending different abstract classes, you can control the type of element your component will be (i.e.AbstractSampler,AbstractVisualizer,GenericController, etc - though you can also make different types of elements just by instantiating the right interfaces, the abstract classes can make your life easier).CSVDataSetBeanInfo.javashould extendorg.apache.jmeter.testbeans.BeanInfoSupport- create a zero-parameter constructor in which we callsuper(CSVDataSet.class);- we’ll come back to this.CSVDataSetResources.properties- blank for now- Implement your special logic for you plugin class. 1. The
CSVDataSetwill read a single CSV file and will store the values it finds into JMeter’s running context. The user will define the file, define the variable names for each “column”. TheCSVDataSetwill open the file when the test starts, and close it when the test ends (thus we implementTestListener). TheCSVDataSetwill update the contents of the variables for every test thread, and for each iteration through its parent controller, by reading new lines in the file. When we reach the end of the file, we’ll start again at the beginning. When implementing aTestBean, pay careful attention to your properties. These properties will become the basis of a GUI form by which users will configure theCSVDataSetelement. 2. Your element will be cloned by JMeter when the test starts. Each thread will get its own instance. However, you will have a chance to control how the cloning is done, if you need it. 3. Properties:filename,variableNames. With public getters and setters. -filenameis self-explanatory, it will hold the name of the CSV file we’ll read -variableNamesis a String which will allow a user to enter the names of the variables we’ll assign values to. Why a String? Why not a Collection? Surely users will need to enter multiple (and unknown number of) variable names? True, but if we used a List or Collection, we’d have to write a GUI component to handle collections, and I just want to do this quickly. Instead, we’ll let users input comma-delimited list of variable names. 4. I then implemented theIterationStartmethod of theLoopIterationListenerinterface. The point of this “event” is that your component is notified of when the test has entered its parent controller. For our purposes, every time theCSVDataSet’s parent controller is entered, we will read a new line of the data file and set the variables. Thus, for a regular controller, each loop through the test will result in a new set of values being read. For a loop controller, each iteration will do likewise. Every test thread will get different values as well. - Setting up your GUI elements in
CSVDataSetBeanInfo: - You can create groupings for your component’s properties. Each grouping you create needs a label and a list of property names to include in that grouping. I.e.:createPropertyGroup("csv_data", new String[] { "filename", "variableNames" });- Creates a grouping calledcsv_datathat will include GUI input elements for thefilenameandvariableNamesproperties ofCSVDataSet. Then, we need to define what kind of properties we want these to be:p = property("filename"); p.setValue(NOT_UNDEFINED, true); p.setValue(DEFAULT, ""); p.setValue(NOT_EXPRESSION, true); p = property("variableNames"); p.setValue(NOT_UNDEFINED, true); p.setValue(DEFAULT, ""); p.setValue(NOT_EXPRESSION, true);This essentially creates two properties whose value is not allowed to benull, and whose default values are"". There are several such attributes that can be set for each property. Here is a rundown:NOT_UNDEFINED: The property will not be leftnull.DEFAULT: A default values must be given ifNOT_UNDEFINEDistrue.NOT_EXPRESSION: The value will not be parsed for functions if this istrue.NOT_OTHER: This is not a free form entry field – a list of values has to be provided.TAGS: With aString[]as the value, this sets up a predefined list of acceptable values, and JMeter will create a dropdown select. Additionally, a custom property editor can be specified for a property:p.setPropertyEditorClass(FileEditor.class);This will create a text input plus browse button that opens a dialog for finding a file. Usually, complex property settings are not needed, as now. For a more complex example, look atorg.apache.jmeter.protocol.http.sampler.AccessLogSamplerBeanInfo - Defining your resource strings. In
CSVDataSetResources.propertieswe have to define all our string resources. To provide translations, one would create additional files such asCSVDataSetResources_ja.properties, andCSVDataSetResources_de.properties. For our component, we must define the following resources:displayName: This will provide a name for the element that will appear in menus.csv_data.displayName: we create a property grouping calledcsv_data, so we have to provide a label for the groupingfilename.displayName: a label for the filename input element.filename.shortDescription: a tool-tip-like help text blurb.variableNames.displayName: a label for the variable name input element.variableNames.shortDescription: tool tip for thevariableNamesinput element. - Debug your component.
29.8 Building JMeter
Section titled “29.8 Building JMeter”JMeter uses Gradle to compile and build the distribution. JMeter has several tasks defined, which make it easier for developers to build the complete project. For those unfamiliar with Gradle, it’s a build tool similar to make on Unix. A list of the Gradle tasks with a short description is provided in gradle.md, which can be found in the root source directory.
Here are some example commands.
./gradlew runGui
: Build and start JMeter GUI
./gradlew createDist
: Build project and copy relevant jar files to ./lib folder
./gradlew :src:dist:previewSite
: Creates preview of a site to ./build/docs/site