/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.
*
*/
package org.apache.jmeter.threads;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.concurrent.locks.ReentrantLock;
import org.apache.jmeter.assertions.Assertion;
import org.apache.jmeter.assertions.AssertionResult;
import org.apache.jmeter.control.Controller;
import org.apache.jmeter.control.TransactionSampler;
import org.apache.jmeter.engine.StandardJMeterEngine;
import org.apache.jmeter.engine.event.LoopIterationEvent;
import org.apache.jmeter.engine.event.LoopIterationListener;
import org.apache.jmeter.gui.GuiPackage;
import org.apache.jmeter.processor.PostProcessor;
import org.apache.jmeter.processor.PreProcessor;
import org.apache.jmeter.samplers.Interruptible;
import org.apache.jmeter.samplers.SampleEvent;
import org.apache.jmeter.samplers.SampleListener;
import org.apache.jmeter.samplers.SampleResult;
import org.apache.jmeter.samplers.Sampler;
import org.apache.jmeter.testbeans.TestBeanHelper;
import org.apache.jmeter.testelement.AbstractScopedAssertion;
import org.apache.jmeter.testelement.AbstractTestElement;
import org.apache.jmeter.testelement.TestElement;
import org.apache.jmeter.testelement.TestIterationListener;
import org.apache.jmeter.testelement.ThreadListener;
import org.apache.jmeter.timers.Timer;
import org.apache.jmeter.util.JMeterUtils;
import org.apache.jorphan.collections.HashTree;
import org.apache.jorphan.collections.HashTreeTraverser;
import org.apache.jorphan.collections.SearchByClass;
import org.apache.jorphan.logging.LoggingManager;
import org.apache.jorphan.util.JMeterStopTestException;
import org.apache.jorphan.util.JMeterStopTestNowException;
import org.apache.jorphan.util.JMeterStopThreadException;
import org.apache.log.Logger;
/**
* The JMeter interface to the sampling process, allowing JMeter to see the
* timing, add listeners for sampling events and to stop the sampling process.
*
*/
public class JMeterThread implements Runnable, Interruptible {
private static final Logger log = LoggingManager.getLoggerForClass();
public static final String PACKAGE_OBJECT = "JMeterThread.pack"; // $NON-NLS-1$
public static final String LAST_SAMPLE_OK = "JMeterThread.last_sample_ok"; // $NON-NLS-1$
private static final String TRUE = Boolean.toString(true); // i.e. "true"
/** How often to check for shutdown during ramp-up, default 1000ms */
private static final int RAMPUP_GRANULARITY =
JMeterUtils.getPropDefault("jmeterthread.rampup.granularity", 1000); // $NON-NLS-1$
private final Controller controller;
private final HashTree testTree;
private final TestCompiler compiler;
private final JMeterThreadMonitor monitor;
private final JMeterVariables threadVars;
// Note: this is only used to implement TestIterationListener#testIterationStart
// Since this is a frequent event, it makes sense to create the list once rather than scanning each time
// The memory used will be released when the thread finishes
private final Collection<TestIterationListener> testIterationStartListeners;
private final ListenerNotifier notifier;
/*
* The following variables are set by StandardJMeterEngine.
* This is done before start() is called, so the values will be published to the thread safely
* TODO - consider passing them to the constructor, so that they can be made final
* (to avoid adding lots of parameters, perhaps have a parameter wrapper object.
*/
private String threadName;
private int initialDelay = 0;
private int threadNum = 0;
private long startTime = 0;
private long endTime = 0;
private boolean scheduler = false;
// based on this scheduler is enabled or disabled
// Gives access to parent thread threadGroup
private AbstractThreadGroup threadGroup;
private StandardJMeterEngine engine = null; // For access to stop methods.
/*
* The following variables may be set/read from multiple threads.
*/
private volatile boolean running; // may be set from a different thread
private volatile boolean onErrorStopTest;
private volatile boolean onErrorStopTestNow;
private volatile boolean onErrorStopThread;
private volatile boolean onErrorStartNextLoop;
private volatile Sampler currentSampler;
private final ReentrantLock interruptLock = new ReentrantLock(); // ensure that interrupt cannot overlap with shutdown
public JMeterThread(HashTree test, JMeterThreadMonitor monitor, ListenerNotifier note) {
this.monitor = monitor;
threadVars = new JMeterVariables();
testTree = test;
compiler = new TestCompiler(testTree);
controller = (Controller) testTree.getArray()[0];
SearchByClass<TestIterationListener> threadListenerSearcher = new SearchByClass<TestIterationListener>(TestIterationListener.class); // TL - IS
test.traverse(threadListenerSearcher);
testIterationStartListeners = threadListenerSearcher.getSearchResults();
notifier = note;
running = true;
}
public void setInitialContext(JMeterContext context) {
threadVars.putAll(context.getVariables());
}
/**
* Enable the scheduler for this JMeterThread.
*/
public void setScheduled(boolean sche) {
this.scheduler = sche;
}
/**
* Set the StartTime for this Thread.
*
* @param stime the StartTime value.
*/
public void setStartTime(long stime) {
startTime = stime;
}
/**
* Get the start time value.
*
* @return the start time value.
*/
public long getStartTime() {
return startTime;
}
/**
* Set the EndTime for this Thread.
*
* @param etime
* the EndTime value.
*/
public void setEndTime(long etime) {
endTime = etime;
}
/**
* Get the end time value.
*
* @return the end time value.
*/
public long getEndTime() {
return endTime;
}
/**
* Check the scheduled time is completed.
*
*/
private void stopScheduler() {
long now = System.currentTimeMillis();
long delay = now - endTime;
if ((delay >= 0)) {
running = false;
}
}
/**
* Wait until the scheduled start time if necessary
*
*/
private void startScheduler() {
long delay = (startTime - System.currentTimeMillis());
delayBy(delay, "startScheduler");
}
public void setThreadName(String threadName) {
this.threadName = threadName;
}
/*
* See below for reason for this change. Just in case this causes problems,
* allow the change to be backed out
*/
private static final boolean startEarlier =
JMeterUtils.getPropDefault("jmeterthread.startearlier", true); // $NON-NLS-1$
private static final boolean reversePostProcessors =
JMeterUtils.getPropDefault("jmeterthread.reversePostProcessors",false); // $NON-NLS-1$
static {
if (startEarlier) {
log.info("jmeterthread.startearlier=true (see jmeter.properties)");
} else {
log.info("jmeterthread.startearlier=false (see jmeter.properties)");
}
if (reversePostProcessors) {
log.info("Running PostProcessors in reverse order");
} else {
log.info("Running PostProcessors in forward order");
}
}
@Override
public void run() {
// threadContext is not thread-safe, so keep within thread
JMeterContext threadContext = JMeterContextService.getContext();
LoopIterationListener iterationListener=null;
try {
iterationListener = initRun(threadContext);
while (running) {
Sampler sam = controller.next();
while (running && sam != null) {
process_sampler(sam, null, threadContext);
threadContext.cleanAfterSample();
if(onErrorStartNextLoop || threadContext.isRestartNextLoop()) {
if(threadContext.isRestartNextLoop()) {
triggerEndOfLoopOnParentControllers(sam, threadContext);
sam = null;
threadContext.getVariables().put(LAST_SAMPLE_OK, TRUE);
threadContext.setRestartNextLoop(false);
} else {
boolean lastSampleFailed = !TRUE.equals(threadContext.getVariables().get(LAST_SAMPLE_OK));
if(lastSampleFailed) {
if(log.isDebugEnabled()) {
log.debug("StartNextLoop option is on, Last sample failed, starting next loop");
}
triggerEndOfLoopOnParentControllers(sam, threadContext);
sam = null;
threadContext.getVariables().put(LAST_SAMPLE_OK, TRUE);
} else {
sam = controller.next();
}
}
}
else {
sam = controller.next();
}
}
if (controller.isDone()) {
running = false;
}
}
}
// Might be found by contoller.next()
catch (JMeterStopTestException e) {
log.info("Stopping Test: " + e.toString());
stopTest();
}
catch (JMeterStopTestNowException e) {
log.info("Stopping Test Now: " + e.toString());
stopTestNow();
} catch (JMeterStopThreadException e) {
log.info("Stop Thread seen: " + e.toString());
} catch (Exception e) {
log.error("Test failed!", e);
} catch (ThreadDeath e) {
throw e; // Must not ignore this one
} catch (Error e) {// Make sure errors are output to the log file
log.error("Test failed!", e);
} finally {
currentSampler = null; // prevent any further interrupts
try {
interruptLock.lock(); // make sure current interrupt is finished, prevent another starting yet
threadContext.clear();
log.info("Thread finished: " + threadName);
threadFinished(iterationListener);
monitor.threadFinished(this); // Tell the monitor we are done
JMeterContextService.removeContext(); // Remove the ThreadLocal entry
}
finally {
interruptLock.unlock(); // Allow any pending interrupt to complete (OK because currentSampler == null)
}
}
}
/**
* Trigger end of loop on parent controllers up to Thread Group
* @param sam Sampler Base sampler
* @param threadContext
*/
private void triggerEndOfLoopOnParentControllers(Sampler sam, JMeterContext threadContext) {
// Find parent controllers of current sampler
FindTestElementsUpToRootTraverser pathToRootTraverser=null;
TransactionSampler transactionSampler = null;
if(sam instanceof TransactionSampler) {
transactionSampler = (TransactionSampler) sam;
pathToRootTraverser = new FindTestElementsUpToRootTraverser((transactionSampler).getTransactionController());
} else {
pathToRootTraverser = new FindTestElementsUpToRootTraverser(sam);
}
testTree.traverse(pathToRootTraverser);
List<Controller> controllersToReinit = pathToRootTraverser.getControllersToRoot();
// Trigger end of loop condition on all parent controllers of current sampler
for (Iterator<Controller> iterator = controllersToReinit
.iterator(); iterator.hasNext();) {
Controller parentController = iterator.next();
if(parentController instanceof AbstractThreadGroup) {
AbstractThreadGroup tg = (AbstractThreadGroup) parentController;
tg.startNextLoop();
} else {
parentController.triggerEndOfLoop();
}
}
if(transactionSampler!=null) {
process_sampler(transactionSampler, null, threadContext);
}
}
/**
* Process the current sampler, handling transaction samplers.
*
* @param current sampler
* @param parent sampler
* @param threadContext
* @return SampleResult if a transaction was processed
*/
@SuppressWarnings("deprecation") // OK to call TestBeanHelper.prepare()
private SampleResult process_sampler(Sampler current, Sampler parent, JMeterContext threadContext) {
SampleResult transactionResult = null;
try {
// Check if we are running a transaction
TransactionSampler transactionSampler = null;
if(current instanceof TransactionSampler) {
transactionSampler = (TransactionSampler) current;
}
// Find the package for the transaction
SamplePackage transactionPack = null;
if(transactionSampler != null) {
transactionPack = compiler.configureTransactionSampler(transactionSampler);
// Check if the transaction is done
if(transactionSampler.isTransactionDone()) {
// Get the transaction sample result
transactionResult = transactionSampler.getTransactionResult();
transactionResult.setThreadName(threadName);
transactionResult.setGroupThreads(threadGroup.getNumberOfThreads());
transactionResult.setAllThreads(JMeterContextService.getNumberOfThreads());
// Check assertions for the transaction sample
checkAssertions(transactionPack.getAssertions(), transactionResult, threadContext);
// Notify listeners with the transaction sample result
if (!(parent instanceof TransactionSampler)){
notifyListeners(transactionPack.getSampleListeners(), transactionResult);
}
compiler.done(transactionPack);
// Transaction is done, we do not have a sampler to sample
current = null;
}
else {
Sampler prev = current;
// It is the sub sampler of the transaction that will be sampled
current = transactionSampler.getSubSampler();
if (current instanceof TransactionSampler){
SampleResult res = process_sampler(current, prev, threadContext);// recursive call
threadContext.setCurrentSampler(prev);
current=null;
if (res!=null){
transactionSampler.addSubSamplerResult(res);
}
}
}
}
// Check if we have a sampler to sample
if(current != null) {
threadContext.setCurrentSampler(current);
// Get the sampler ready to sample
SamplePackage pack = compiler.configureSampler(current);
runPreProcessors(pack.getPreProcessors());
// Hack: save the package for any transaction controllers
threadVars.putObject(PACKAGE_OBJECT, pack);
delay(pack.getTimers());
Sampler sampler = pack.getSampler();
sampler.setThreadContext(threadContext);
// TODO should this set the thread names for all the subsamples?
// might be more efficient than fetching the name elsewehere
sampler.setThreadName(threadName);
TestBeanHelper.prepare(sampler);
// Perform the actual sample
currentSampler = sampler;
SampleResult result = sampler.sample(null);
currentSampler = null;
// TODO: remove this useless Entry parameter
// If we got any results, then perform processing on the result
if (result != null) {
result.setGroupThreads(threadGroup.getNumberOfThreads());
result.setAllThreads(JMeterContextService.getNumberOfThreads());
result.setThreadName(threadName);
threadContext.setPreviousResult(result);
runPostProcessors(pack.getPostProcessors());
checkAssertions(pack.getAssertions(), result, threadContext);
// Do not send subsamples to listeners which receive the transaction sample
List<SampleListener> sampleListeners = getSampleListeners(pack, transactionPack, transactionSampler);
notifyListeners(sampleListeners, result);
compiler.done(pack);
// Add the result as subsample of transaction if we are in a transaction
if(transactionSampler != null) {
transactionSampler.addSubSamplerResult(result);
}
// Check if thread or test should be stopped
if (result.isStopThread() || (!result.isSuccessful() && onErrorStopThread)) {
stopThread();
}
if (result.isStopTest() || (!result.isSuccessful() && onErrorStopTest)) {
stopTest();
}
if (result.isStopTestNow() || (!result.isSuccessful() && onErrorStopTestNow)) {
stopTestNow();
}
if(result.isStartNextThreadLoop()) {
threadContext.setRestartNextLoop(true);
}
} else {
compiler.done(pack); // Finish up
}
}
if (scheduler) {
// checks the scheduler to stop the iteration
stopScheduler();
}
} catch (JMeterStopTestException e) {
log.info("Stopping Test: " + e.toString());
stopTest();
} catch (JMeterStopThreadException e) {
log.info("Stopping Thread: " + e.toString());
stopThread();
} catch (Exception e) {
if (current != null) {
log.error("Error while processing sampler '"+current.getName()+"' :", e);
} else {
log.error("", e);
}
}
return transactionResult;
}
/**
* Get the SampleListeners for the sampler. Listeners who receive transaction sample
* will not be in this list.
*
* @param samplePack
* @param transactionPack
* @param transactionSampler
* @return the listeners who should receive the sample result
*/
private List<SampleListener> getSampleListeners(SamplePackage samplePack, SamplePackage transactionPack, TransactionSampler transactionSampler) {
List<SampleListener> sampleListeners = samplePack.getSampleListeners();
// Do not send subsamples to listeners which receive the transaction sample
if(transactionSampler != null) {
ArrayList<SampleListener> onlySubSamplerListeners = new ArrayList<SampleListener>();
List<SampleListener> transListeners = transactionPack.getSampleListeners();
for(SampleListener listener : sampleListeners) {
// Check if this instance is present in transaction listener list
boolean found = false;
for(SampleListener trans : transListeners) {
// Check for the same instance
if(trans == listener) {
found = true;
break;
}
}
if(!found) {
onlySubSamplerListeners.add(listener);
}
}
sampleListeners = onlySubSamplerListeners;
}
return sampleListeners;
}
/**
* @param threadContext
* @return
*
*/
private IterationListener initRun(JMeterContext threadContext) {
threadContext.setVariables(threadVars);
threadContext.setThreadNum(getThreadNum());
threadContext.getVariables().put(LAST_SAMPLE_OK, TRUE);
threadContext.setThread(this);
threadContext.setThreadGroup(threadGroup);
threadContext.setEngine(engine);
testTree.traverse(compiler);
// listeners = controller.getListeners();
if (scheduler) {
// set the scheduler to start
startScheduler();
}
rampUpDelay(); // TODO - how to handle thread stopped here
log.info("Thread started: " + Thread.currentThread().getName());
/*
* Setting SamplingStarted before the contollers are initialised allows
* them to access the running values of functions and variables (however
* it does not seem to help with the listeners)
*/
if (startEarlier) {
threadContext.setSamplingStarted(true);
}
controller.initialize();
IterationListener iterationListener = new IterationListener();
controller.addIterationListener(iterationListener);
if (!startEarlier) {
threadContext.setSamplingStarted(true);
}
threadStarted();
return iterationListener;
}
private void threadStarted() {
JMeterContextService.incrNumberOfThreads();
threadGroup.incrNumberOfThreads();
GuiPackage gp =GuiPackage.getInstance();
if (gp != null) {// check there is a GUI
gp.getMainFrame().updateCounts();
}
ThreadListenerTraverser startup = new ThreadListenerTraverser(true);
testTree.traverse(startup); // call ThreadListener.threadStarted()
}
private void threadFinished(LoopIterationListener iterationListener) {
ThreadListenerTraverser shut = new ThreadListenerTraverser(false);
testTree.traverse(shut); // call ThreadListener.threadFinished()
JMeterContextService.decrNumberOfThreads();
threadGroup.decrNumberOfThreads();
GuiPackage gp = GuiPackage.getInstance();
if (gp != null){// check there is a GUI
gp.getMainFrame().updateCounts();
}
if (iterationListener != null) { // probably not possible, but check anyway
controller.removeIterationListener(iterationListener);
}
}
// N.B. This is only called at the start and end of a thread, so there is not
// necessary to cache the search results, thus saving memory
private static class ThreadListenerTraverser implements HashTreeTraverser {
private final boolean isStart;
private ThreadListenerTraverser(boolean start) {
isStart = start;
}
@Override
public void addNode(Object node, HashTree subTree) {
if (node instanceof ThreadListener) {
ThreadListener tl = (ThreadListener) node;
if (isStart) {
tl.threadStarted();
} else {
tl.threadFinished();
}
}
}
@Override
public void subtractNode() {
}
@Override
public void processPath() {
}
}
public String getThreadName() {
return threadName;
}
public void stop() { // Called by StandardJMeterEngine, TestAction and AccessLogSampler
running = false;
log.info("Stopping: " + threadName);
}
/** {@inheritDoc} */
@Override
public boolean interrupt(){
try {
interruptLock.lock();
Sampler samp = currentSampler; // fetch once; must be done under lock
if (samp instanceof Interruptible){ // (also protects against null)
log.warn("Interrupting: " + threadName + " sampler: " +samp.getName());
try {
boolean found = ((Interruptible)samp).interrupt();
if (!found) {
log.warn("No operation pending");
}
return found;
} catch (Exception e) {
log.warn("Caught Exception interrupting sampler: "+e.toString());
}
} else if (samp != null){
log.warn("Sampler is not Interruptible: "+samp.getName());
}
} finally {
interruptLock.unlock();
}
return false;
}
private void stopTest() {
running = false;
log.info("Stop Test detected by thread: " + threadName);
if (engine != null) {
engine.askThreadsToStop();
}
}
private void stopTestNow() {
running = false;
log.info("Stop Test Now detected by thread: " + threadName);
if (engine != null) {
engine.stopTest();
}
}
private void stopThread() {
running = false;
log.info("Stop Thread detected by thread: " + threadName);
}
@SuppressWarnings("deprecation") // OK to call TestBeanHelper.prepare()
private void checkAssertions(List<Assertion> assertions, SampleResult parent, JMeterContext threadContext) {
for (Assertion assertion : assertions) {
TestBeanHelper.prepare((TestElement) assertion);
if (assertion instanceof AbstractScopedAssertion){
AbstractScopedAssertion scopedAssertion = (AbstractScopedAssertion) assertion;
String scope = scopedAssertion.fetchScope();
if (scopedAssertion.isScopeParent(scope) || scopedAssertion.isScopeAll(scope) || scopedAssertion.isScopeVariable(scope)){
processAssertion(parent, assertion);
}
if (scopedAssertion.isScopeChildren(scope) || scopedAssertion.isScopeAll(scope)){
SampleResult children[] = parent.getSubResults();
boolean childError = false;
for (int i=0;i <children.length; i++){
processAssertion(children[i], assertion);
if (!children[i].isSuccessful()){
childError = true;
}
}
// If parent is OK, but child failed, add a message and flag the parent as failed
if (childError && parent.isSuccessful()) {
AssertionResult assertionResult = new AssertionResult(((AbstractTestElement)assertion).getName());
assertionResult.setResultForFailure("One or more sub-samples failed");
parent.addAssertionResult(assertionResult);
parent.setSuccessful(false);
}
}
} else {
processAssertion(parent, assertion);
}
}
threadContext.getVariables().put(LAST_SAMPLE_OK, Boolean.toString(parent.isSuccessful()));
}
private void processAssertion(SampleResult result, Assertion assertion) {
AssertionResult assertionResult;
try {
assertionResult = assertion.getResult(result);
} catch (ThreadDeath e) {
throw e;
} catch (Error e) {
log.error("Error processing Assertion ",e);
assertionResult = new AssertionResult("Assertion failed! See log file.");
assertionResult.setError(true);
assertionResult.setFailureMessage(e.toString());
} catch (Exception e) {
log.error("Exception processing Assertion ",e);
assertionResult = new AssertionResult("Assertion failed! See log file.");
assertionResult.setError(true);
assertionResult.setFailureMessage(e.toString());
}
result.setSuccessful(result.isSuccessful() && !(assertionResult.isError() || assertionResult.isFailure()));
result.addAssertionResult(assertionResult);
}
@SuppressWarnings("deprecation") // OK to call TestBeanHelper.prepare()
private void runPostProcessors(List<PostProcessor> extractors) {
ListIterator<PostProcessor> iter;
if (reversePostProcessors) {// Original (rather odd) behaviour
iter = extractors.listIterator(extractors.size());// start at the end
while (iter.hasPrevious()) {
PostProcessor ex = iter.previous();
TestBeanHelper.prepare((TestElement) ex);
ex.process();
}
} else {
for (PostProcessor ex : extractors) {
TestBeanHelper.prepare((TestElement) ex);
ex.process();
}
}
}
@SuppressWarnings("deprecation") // OK to call TestBeanHelper.prepare()
private void runPreProcessors(List<PreProcessor> preProcessors) {
for (PreProcessor ex : preProcessors) {
if (log.isDebugEnabled()) {
log.debug("Running preprocessor: " + ((AbstractTestElement) ex).getName());
}
TestBeanHelper.prepare((TestElement) ex);
ex.process();
}
}
@SuppressWarnings("deprecation") // OK to call TestBeanHelper.prepare()
private void delay(List<Timer> timers) {
long sum = 0;
for (Timer timer : timers) {
TestBeanHelper.prepare((TestElement) timer);
sum += timer.delay();
}
if (sum > 0) {
try {
Thread.sleep(sum);
} catch (InterruptedException e) {
log.warn("The delay timer was interrupted - probably did not wait as long as intended.");
}
}
}
void notifyTestListeners() {
threadVars.incIteration();
for (TestIterationListener listener : testIterationStartListeners) {
if (listener instanceof TestElement) {
listener.testIterationStart(new LoopIterationEvent(controller, threadVars.getIteration()));
((TestElement) listener).recoverRunningVersion();
} else {
listener.testIterationStart(new LoopIterationEvent(controller, threadVars.getIteration()));
}
}
}
private void notifyListeners(List<SampleListener> listeners, SampleResult result) {
SampleEvent event = new SampleEvent(result, threadGroup.getName(), threadVars);
notifier.notifyListeners(event, listeners);
}
/**
* Set rampup delay for JMeterThread Thread
* @param delay Rampup delay for JMeterThread
*/
public void setInitialDelay(int delay) {
initialDelay = delay;
}
/**
* Initial delay if ramp-up period is active for this threadGroup.
*/
private void rampUpDelay() {
delayBy(initialDelay, "RampUp");
}
/**
* Wait for delay with RAMPUP_GRANULARITY
* @param delay delay in ms
* @param type Delay type
*/
protected final void delayBy(long delay, String type) {
if (delay > 0) {
long start = System.currentTimeMillis();
long end = start + delay;
long now=0;
long pause = RAMPUP_GRANULARITY;
while(running && (now = System.currentTimeMillis()) < end) {
long togo = end - now;
if (togo < pause) {
pause = togo;
}
try {
Thread.sleep(pause); // delay between checks
} catch (InterruptedException e) {
if (running) { // Don't bother reporting stop test interruptions
log.warn(type+" delay for "+threadName+" was interrupted. Waited "+(now - start)+" milli-seconds out of "+delay);
}
break;
}
}
}
}
/**
* Returns the threadNum.
*/
public int getThreadNum() {
return threadNum;
}
/**
* Sets the threadNum.
*
* @param threadNum
* the threadNum to set
*/
public void setThreadNum(int threadNum) {
this.threadNum = threadNum;
}
private class IterationListener implements LoopIterationListener {
/**
* {@inheritDoc}
*/
@Override
public void iterationStart(LoopIterationEvent iterEvent) {
notifyTestListeners();
}
}
/**
* Save the engine instance for access to the stop methods
*
* @param engine
*/
public void setEngine(StandardJMeterEngine engine) {
this.engine = engine;
}
/**
* Should Test stop on sampler error?
*
* @param b -
* true or false
*/
public void setOnErrorStopTest(boolean b) {
onErrorStopTest = b;
}
/**
* Should Test stop abruptly on sampler error?
*
* @param b -
* true or false
*/
public void setOnErrorStopTestNow(boolean b) {
onErrorStopTestNow = b;
}
/**
* Should Thread stop on Sampler error?
*
* @param b -
* true or false
*/
public void setOnErrorStopThread(boolean b) {
onErrorStopThread = b;
}
/**
* Should Thread start next loop on Sampler error?
*
* @param b -
* true or false
*/
public void setOnErrorStartNextLoop(boolean b) {
onErrorStartNextLoop = b;
}
public void setThreadGroup(AbstractThreadGroup group) {
this.threadGroup = group;
}
}