public NameAndValueList getMappingAssociationNames(String scheme, String version) { CodingSchemeVersionOrTag csvt = new CodingSchemeVersionOrTag(); if (version != null) { csvt.setVersion(version); } NameAndValueList navList = new NameAndValueList(); try { CodingScheme cs = lbSvc.resolveCodingScheme(scheme, csvt); Relations[] relations = cs.getRelations(); for (int i = 0; i < relations.length; i++) { Relations relation = relations[i]; Boolean isMapping = relation.isIsMapping(); if (isMapping != null && isMapping.equals(Boolean.TRUE)) { AssociationPredicate[] associationPredicates = relation.getAssociationPredicate(); for (int j = 0; j < associationPredicates.length; j++) { AssociationPredicate associationPredicate = associationPredicates[j]; String name = associationPredicate.getAssociationName(); NameAndValue vNameAndValue = new NameAndValue(); vNameAndValue.setName(name); navList.addNameAndValue(vNameAndValue); } return navList; } else { return null; } } } catch (Exception ex) { ex.printStackTrace(); } return null; }
public ResolvedConceptReferencesIterator getMappingDataIterator( String scheme, String version, List<MappingSortOption> sortOptionList) { CodingSchemeVersionOrTag versionOrTag = new CodingSchemeVersionOrTag(); if (version != null) { versionOrTag.setVersion(version); } String relationsContainerName = null; try { CodingScheme cs = lbSvc.resolveCodingScheme(scheme, versionOrTag); if (cs == null) return null; java.util.Enumeration<? extends Relations> relations = cs.enumerateRelations(); while (relations.hasMoreElements()) { Relations relation = (Relations) relations.nextElement(); Boolean isMapping = relation.getIsMapping(); if (isMapping != null && isMapping.equals(Boolean.TRUE)) { relationsContainerName = relation.getContainerName(); break; } } if (relationsContainerName == null) { return null; } MappingExtension mappingExtension = (MappingExtension) lbSvc.getGenericExtension("MappingExtension"); ResolvedConceptReferencesIterator itr = mappingExtension.resolveMapping( scheme, versionOrTag, relationsContainerName, sortOptionList); return itr; } catch (Exception ex) { ex.printStackTrace(); } return null; }
/** * Updates the configuration from the filter config. * * @param filterConfig */ @SuppressWarnings("unchecked") public void updateConfigration(FilterConfig filterConfig) { Enumeration<String> paramEnum = filterConfig.getInitParameterNames(); while (paramEnum.hasMoreElements()) { String paramName = paramEnum.nextElement(); if (paramName.startsWith("r")) { try { if (!runOptions.containsKey(paramName)) throw new Exception("Invalid Parameter Name"); runOptions.put(paramName, Boolean.parseBoolean(filterConfig.getInitParameter(paramName))); } catch (Exception e) { log.warn("Init Parameter [" + paramName + "] is invalid or could not be set.", e); } } else if (paramName.startsWith("b")) { try { if (!batchOptions.containsKey(paramName)) throw new Exception("Invalid Parameter Name"); batchOptions.put(paramName, Integer.parseInt(filterConfig.getInitParameter(paramName))); } catch (Exception e) { log.warn("Init Parameter [" + paramName + "] is invalid or could not be set.", e); } } else if (paramName.startsWith("p")) { try { if (!parameterNames.containsKey(paramName)) throw new Exception("Invalid Parameter Name"); parameterNames.put(paramName, filterConfig.getInitParameter(paramName)); } catch (Exception e) { log.warn("Init Parameter [" + paramName + "] is invalid or could not be set.", e); } } else if ("listenerClassName".equals(paramName)) { listenerClassName = filterConfig.getInitParameter(paramName); } else if ("agentLogLevel".equals(paramName)) { try { agentLogLevel = Integer.parseInt(filterConfig.getInitParameter(paramName)); } catch (Exception e) { log.warn("Agent Log Level Could Not Be Set. Defaulting to [" + agentLogLevel + "].", e); } } else { log.warn("Init Parameter [" + paramName + "] was not recognized."); } } log.info("Completed AjaxMetrics Filter Configuration. Config is:\n" + toString()); inited = true; }
{ String useMultiThreadedConnectionMgr = LPS.getProperty("http.useConnectionPool", "true"); if (Boolean.valueOf(useMultiThreadedConnectionMgr).booleanValue()) { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-81")); mConnectionMgr = new MultiThreadedHttpConnectionManager(); } else { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="not using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-91")); } // Parse multi connection properties anyway. May be used by AXIS. See // ResponderCache for details. { String maxConns = LPS.getProperty("http.maxConns", "1000"); mMaxTotalConnections = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxTotalConnections(mMaxTotalConnections); } maxConns = LPS.getProperty("http.maxConnsPerHost", maxConns); mMaxConnectionsPerHost = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxConnectionsPerHost(mMaxConnectionsPerHost); } } String maxRetries = LPS.getProperty("http.maxBackendRetries", "1"); mMaxRetries = Integer.parseInt(maxRetries); String followRedirects = LPS.getProperty("http.followRedirects", "0"); mFollowRedirects = Integer.parseInt(followRedirects); String timeout = LPS.getProperty("http.backendTimeout", "30000"); mTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.backendConnectionTimeout", timeout); mConnectionTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.connectionPoolTimeout", "0"); mConnectionPoolTimeout = Integer.parseInt(timeout); String useHttp11 = LPS.getProperty("http.useHttp11", "true"); mUseHttp11 = Boolean.valueOf(useHttp11).booleanValue(); if (mUseHttp11) { mLogger.info("using HTTP 1.1"); } else { mLogger.info("not using HTTP 1.1"); } }
/** * Test suite for distributing JUnit3 tests. Simply add tests to this suite just like you would for * regular JUnit3 suites, and these tests will be executed in parallel on the grid. Note that if * there are no other grid nodes, this suite will still ensure parallel test execution within single * JVM. * * <p>Below is an example of distributed JUnit3 test suite: * * <pre name="code" class="java"> * public class GridJunit3ExampleTestSuite { * // Standard JUnit3 static suite method. * public static TestSuite suite() { * TestSuite suite = new GridJunit3TestSuite("Example Grid Test Suite"); * * // Add tests. * suite.addTestSuite(TestA.class); * suite.addTestSuite(TestB.class); * suite.addTestSuite(TestC.class); * * return suite; * } * } * </pre> * * If you have four tests A, B, C, and D, and if you need to run A and B sequentially, then you * should create a nested test suite with test A and B as follows: * * <pre name="code" class="java"> * public class GridJunit3ExampleTestSuite { * // Standard JUnit3 static suite method. * public static TestSuite suite() { * TestSuite suite = new GridJunit3TestSuite("Example Grid Test Suite"); * * // Nested test suite to run tests A and B sequentially. * TestSuite nested = new TestSuite("Example Nested Sequential Suite"); * * nested.addTestSuite(TestA.class); * nested.addTestSuite(TestB.class); * * // Add tests A and B. * suite.addTest(nested); * * // Add other tests. * suite.addTestSuite(TestC.class); * * return suite; * } * } * </pre> * * <p>Note that you can also grid-enable existing JUnit3 tests using {@link * GridifyTest @GridifyTest} annotation which you can attach to your {@code suite()} methods of * existing test suite. Refer to {@link GridifyTest @GridifyTest} documentation for more * information. * * <p>Also note that some tests can only be executed locally mostly due to some environment issues. * However they still can benefit from parallel execution with other tests. GridGain supports it via * {@link GridJunit3LocalTestSuite} suites that can be added to {@code GridJunit3TestSuite}. Refer * to {@link GridJunit3LocalTestSuite} documentation for more information. * * <h1 class="header">Logging</h1> * * When running distributed JUnit, all the logging that is done to {@link System#out} or {@link * System#err} is preserved. GridGain will accumulate all logging that is done on remote nodes, send * them back to originating node and associate all log statements with their corresponding tests. * This way, for example, if you are running tests from and IDEA or Eclipse (or any other IDE) you * would still see the logs as if it was a local run. However, since remote nodes keep all log * statements done within a single individual test case in memory, you must make sure that enough * memory is allocated on every node and that individual test cases do not spit out gigabytes of log * statements. Also note, that logs will be sent back to originating node upon completion of every * test, so don't be alarmed if you don't see any log statements for a while and then all of them * appear at once. * * <p>GridGain achieves such log transparency via reassigning {@link System#out} or {@link * System#err} to internal {@link PrintStream} implementation. However, when using {@code Log4J} (or * any other logging framework) within your tests you must make sure that it is configured with * {@link ConsoleAppender} and that {@link ConsoleAppender#setFollow(boolean)} attribute is set to * {@code true}. Logging to files is not supported yet and is planned for next point release. * * <p> * * <h1 class="header">Test Suite Nesting</h1> * * {@code GridJunit3TestSuite} instances can be nested within each other as deep as needed. However * all nested distributed test suites will be treated just like regular JUnit test suites, and not * as distributed test suites. This approach becomes convenient when you have several distributed * test suites that you would like to be able to execute separately in distributed fashion, but at * the same time you would like to be able to execute them as a part of larger distributed suites. * * <p> * * <h1 class="header">Configuration</h1> * * To run distributed JUnit tests you need to start other instances of GridGain. You can do so by * running {@code GRIDGAIN_HOME/bin/ggjunit.{sh|bat}} script, which will start default * configuration. If configuration other than default is required, then use regular {@code * GRIDGAIN_HOME/bin/ggstart.{sh|bat}} script and pass your own Spring XML configuration file as a * parameter to the script. * * <p>You can use the following configuration parameters to configure distributed test suite * locally. Note that many parameters can be overridden by setting corresponding VM parameters * defined in {@link GridTestVmParameters} at VM startup. * * <table class="doctable"> * <tr> * <th>GridConfiguration Method</th> * <th>Default Value</th> * <th>Description</th> * </tr> * <tr> * <td>{@link #setDisabled(boolean) setDisabled(boolean)}</td> * <td>{@code false}</td> * <td> * If {@code true} then GridGain will be turned off and suite will run locally. * This value can be overridden by setting {@link GridTestVmParameters#GRIDGAIN_DISABLED} VM * parameter to {@code true}. This parameter comes handy when you would like to * turn off GridGain without changing the actual code. * </td> * </tr> * <tr> * <td>{@link #setConfigurationPath(String) setConfigurationPath(String)}</td> * <td>{@link #DFLT_JUNIT_CONFIG DFLT_JUNIT_CONFIG}</td> * <td> * Optional path to GridGain Spring XML configuration file for running JUnit tests. This * property can be overridden by setting {@link GridTestVmParameters#GRIDGAIN_CONFIG} VM * parameter. Note that the value can be either absolute value or relative to * ${GRIDGAIN_HOME} installation folder. * </td> * </tr> * <tr> * <td>{@link #setRouterClassName(String) setRouterClassName(String)}</td> * <td>{@link #DFLT_JUNIT_ROUTER DFLT_JUNIT_ROUTER}</td> * <td> * Optional name of test router class that implements {@link GridTestRouter} interface. * If not provided, then tests will be routed in round-robin fashion using default * {@link GridTestRouterAdapter}. The value of this parameter can be overridden by setting * {@link GridTestVmParameters#GRIDGAIN_TEST_ROUTER} VM parameter to the name of your * own customer router class. * </td> * </tr> * <tr> * <td>{@link #setRouterClass(Class) setRouterClass(Class)}</td> * <td>{@code null}</td> * <td> * Same as {@link #setRouterClassName(String) setRouterClassName(String)}, but sets the * actual class instead of the name. * </td> * </tr> * <tr> * <td>{@link #setTimeout(long) setTimeout(long)}</td> * <td>{@code 0} which means that tests will never timeout.</td> * <td> * Maximum timeout value in milliseconds after which test suite will return without * waiting for the remaining tests to complete. This value can be overridden by setting * {@link GridTestVmParameters#GRIDGAIN_TEST_TIMEOUT} VM parameter to the timeout value * for the tests. * </td> * </tr> * </table> * * @author 2005-2011 Copyright (C) GridGain Systems, Inc. * @version 3.1.1c.19062011 */ public class GridJunit3TestSuite extends TestSuite { /** * Default GridGain configuration file for JUnits (value is {@code * config/junit/junit-spring.xml}). */ public static final String DFLT_JUNIT_CONFIG = "config/junit/junit-spring.xml"; /** * Default JUnit test router (value is {@link GridTestRouterAdapter * GridTestRouterAdapter.class.getName()}). */ public static final String DFLT_JUNIT_ROUTER = GridTestRouterAdapter.class.getName(); /** */ private final Collection<String> locTests = new HashSet<String>(); /** JUnit3 JavaAssist proxy. */ private final GridJunit3ProxyFactory factory = new GridJunit3ProxyFactory(); /** Flag indicating whether grid was started in this suite. */ private boolean selfStarted; /** Junit3 Spring configuration path. */ private String cfgPath = System.getProperty(GRIDGAIN_CONFIG.name()) == null ? DFLT_JUNIT_CONFIG : System.getProperty(GRIDGAIN_CONFIG.name()); /** * Check if GridGain is disabled by checking {@link GridTestVmParameters#GRIDGAIN_DISABLED} system * property. */ private boolean isDisabled = Boolean.getBoolean(GRIDGAIN_DISABLED.name()); /** JUnit test router class name. */ private String routerClsName = System.getProperty(GRIDGAIN_TEST_ROUTER.name()) == null ? DFLT_JUNIT_ROUTER : System.getProperty(GRIDGAIN_TEST_ROUTER.name()); /** JUnit test router class. */ private Class<? extends GridTestRouter> routerCls; /** * Local suite in case if grid is disabled or if this is a nested suite within other distributed * suite. */ private TestSuite copy; /** JUnit grid name. */ private String gridName; /** Test timeout. */ private long timeout = Long.getLong(GRIDGAIN_TEST_TIMEOUT.name()) == null ? 0 : Long.getLong(GRIDGAIN_TEST_TIMEOUT.name()); /** */ private ClassLoader clsLdr; /** Empty test suite. */ public GridJunit3TestSuite() { if (copy == null) { copy = new TestSuite(); } } /** @param name Test suite name. */ public GridJunit3TestSuite(String name) { super(name); if (copy == null) { copy = new TestSuite(name); } } /** * Test suite for one class. * * @param cls Class for test suite. */ public GridJunit3TestSuite(Class<? extends TestCase> cls) { super(cls); if (copy == null) { copy = new TestSuite(cls); } } /** * Test suite for a given test class with specified test name. * * @param cls Test class. * @param name Test name. */ public GridJunit3TestSuite(Class<? extends TestCase> cls, String name) { super(cls, name); if (copy == null) { copy = new TestSuite(cls, name); } } /** * Copies non-distributed test suite into distributed one. * * @param suite Test suite to copy. */ public GridJunit3TestSuite(TestSuite suite) { super(suite.getName()); if (copy == null) { copy = new TestSuite(suite.getName()); } for (int i = 0; i < suite.testCount(); i++) { addTest(suite.testAt(i)); } } /** * Empty test suite with given class loader. * * @param clsLdr Tests class loader. */ public GridJunit3TestSuite(ClassLoader clsLdr) { this(); assert clsLdr != null; this.clsLdr = clsLdr; } /** * @param name Test suite name. * @param clsLdr Tests class loader. */ public GridJunit3TestSuite(String name, ClassLoader clsLdr) { this(name); assert clsLdr != null; this.clsLdr = clsLdr; } /** * Test suite for one class. * * @param cls Class for test suite. * @param clsLdr Tests class loader. */ public GridJunit3TestSuite(Class<? extends TestCase> cls, ClassLoader clsLdr) { this(cls); assert clsLdr != null; this.clsLdr = clsLdr; } /** * Test suite for a given test class with specified test name. * * @param cls Test class. * @param name Test name. * @param clsLdr Tests class loader. */ public GridJunit3TestSuite(Class<? extends TestCase> cls, String name, ClassLoader clsLdr) { this(cls, name); assert clsLdr != null; this.clsLdr = clsLdr; } /** * Copies non-distributed test suite into distributed one. * * @param suite Test suite to copy. * @param clsLdr Tests class loader. */ public GridJunit3TestSuite(TestSuite suite, ClassLoader clsLdr) { this(suite); assert clsLdr != null; this.clsLdr = clsLdr; } /** * Sets path to GridGain configuration file. By default {@code * {GRIDGAIN_HOME}/config/junit/junit-spring.xml} is used. * * @param cfgPath Path to GridGain configuration file. */ public void setConfigurationPath(String cfgPath) { this.cfgPath = cfgPath; } /** * Gets path to GridGain configuration file. By default {@code * {GRIDGAIN_HOME}/config/junit/junit-spring.xml} is used. * * @return Path to GridGain configuration file. */ public String getConfigurationPath() { return cfgPath; } /** * Disables GridGain. If set to {@code true} then this suite will execute locally as if GridGain * was not in a picture at all. * * @param disabled If set to {@code true} then this suite will execute locally as if GridGain was * not in a picture at all. */ public void setDisabled(boolean disabled) { isDisabled = disabled; } /** * Gets flag indicating whether GridGain should be enabled or not. If set to {@code true} then * this suite will execute locally as if GridGain was not in a picture at all. * * @return Flag indicating whether GridGain should be enabled or not. If set to {@code true} then * this suite will execute locally as if GridGain was not in a picture at all. */ public boolean isDisabled() { return isDisabled; } /** * Sets name of class for routing JUnit tests. By default {@link #DFLT_JUNIT_ROUTER} class name is * used. * * @param routerClsName Junit test router class name. */ public void setRouterClassName(String routerClsName) { this.routerClsName = routerClsName; } /** * Gets JUnit test router class name. * * @return JUnit test router class name. */ public String getRouterClassName() { return routerClsName; } /** * Sets router class. By default {@link GridTestRouterAdapter} is used. * * @param routerCls Router class to use for test routing. */ public void setRouterClass(Class<? extends GridTestRouter> routerCls) { this.routerCls = routerCls; } /** * Gets router class used for test routing. * * @return Router class used for test routing. */ public Class<? extends GridTestRouter> getRouterClass() { return routerCls; } /** * Gets identical suite for local (non-distributed) execution. * * @return Local suite. */ public TestSuite getLocalCopy() { return copy; } /** {@inheritDoc} */ @Override public void setName(String name) { if (copy != null) { copy.setName(name); } super.setName(name); } /** * Gets timeout for running distributed test suite. * * @return Timeout for tests. */ public long getTimeout() { return timeout; } /** * Sets timeout for running distributed test suite. By default, test execution does not expire. * * @param timeout Timeout for tests. */ public void setTimeout(long timeout) { this.timeout = timeout; } /** {@inheritDoc} */ @Override public Test testAt(int index) { return isDisabled ? copy.testAt(index) : super.testAt(index); } /** {@inheritDoc} */ @Override public int testCount() { return isDisabled ? copy.testCount() : super.testCount(); } /** {@inheritDoc} */ @Override public Enumeration<Test> tests() { return isDisabled ? copy.tests() : super.tests(); } /** * The added suite will be always executed locally, but in parallel with other locally or remotely * running tests. This comes handy for tests that cannot be distributed for some environmental * reasons, but still would benefit from parallel execution. * * <p>Note, that local suites will be executed on local node even if grid topology only allows * remote nodes. * * @param localSuite Test to execute locally in parallel with other local or distributed tests. */ @SuppressWarnings({"TypeMayBeWeakened"}) public void addTest(GridJunit3LocalTestSuite localSuite) { if (!locTests.contains(localSuite.getName())) { locTests.add(localSuite.getName()); } addTest((Test) localSuite); } /** * Adds a test to be executed on the grid. In case of test suite, all tests inside of test suite * will be executed sequentially on some remote node. * * @param test Test to add. */ @Override public void addTest(Test test) { if (copy == null) { copy = new TestSuite(getName()); } // Add test to the list of local ones. if (test instanceof GridJunit3LocalTestSuite) { String testName = ((TestSuite) test).getName(); if (!locTests.contains(testName)) { locTests.add(testName); } } if (test instanceof GridJunit3TestSuite) { copy.addTest(((GridJunit3TestSuite) test).copy); super.addTest(new GridJunit3TestSuiteProxy(((GridJunit3TestSuite) test).copy, factory)); } else if (test instanceof GridJunit3TestSuiteProxy) { copy.addTest(((GridJunit3TestSuiteProxy) test).getOriginal()); super.addTest(test); } else if (test instanceof GridJunit3TestCaseProxy) { copy.addTest(((GridJunit3TestCaseProxy) test).getGridGainJunit3OriginalTestCase()); super.addTest(test); } else if (test instanceof TestSuite) { copy.addTest(test); super.addTest(new GridJunit3TestSuiteProxy((TestSuite) test, factory)); } else { assert test instanceof TestCase : "Test must be either instance of TestSuite or TestCase: " + test; copy.addTest(test); super.addTest(factory.createProxy((TestCase) test)); } } /** * Creates JUnit test router. Note that router must have a no-arg constructor. * * @return JUnit router instance. */ @SuppressWarnings({"unchecked"}) private GridTestRouter createRouter() { try { if (routerCls == null) { routerCls = (Class<? extends GridTestRouter>) Class.forName(routerClsName); } else { routerClsName = routerCls.getName(); } return routerCls.newInstance(); } catch (ClassNotFoundException e) { throw new GridRuntimeException("Failed to initialize JUnit router: " + routerClsName, e); } catch (IllegalAccessException e) { throw new GridRuntimeException("Failed to initialize JUnit router: " + routerClsName, e); } catch (InstantiationException e) { throw new GridRuntimeException("Failed to initialize JUnit router: " + routerClsName, e); } } /** * Runs all tests belonging to this test suite on the grid. * * @param result Test result collector. */ @Override public void run(TestResult result) { if (isDisabled) { copy.run(result); } else { GridTestRouter router = createRouter(); Grid grid = startGrid(); try { List<GridTaskFuture<?>> futs = new ArrayList<GridTaskFuture<?>>(testCount()); List<GridJunit3SerializableTest> tests = new ArrayList<GridJunit3SerializableTest>(testCount()); for (int i = 0; i < testCount(); i++) { Test junit = testAt(i); GridJunit3SerializableTest test; if (junit instanceof TestSuite) { test = new GridJunit3SerializableTestSuite((TestSuite) junit); } else { assert junit instanceof TestCase : "Test must be either TestSuite or TestCase: " + junit; test = new GridJunit3SerializableTestCase((TestCase) junit); } tests.add(test); if (clsLdr == null) { clsLdr = U.detectClassLoader(junit.getClass()); } futs.add( grid.execute( new GridJunit3Task(junit.getClass(), clsLdr), new GridJunit3Argument(router, test, locTests.contains(test.getName())), timeout)); } for (int i = 0; i < testCount(); i++) { GridTaskFuture<?> fut = futs.get(i); GridJunit3SerializableTest origTest = tests.get(i); try { GridJunit3SerializableTest resTest = (GridJunit3SerializableTest) fut.get(); origTest.setResult(resTest); origTest.getTest().run(result); } catch (GridException e) { handleFail(result, origTest, e); } } } finally { stopGrid(); } } } /** * Handles test fail. * * @param result Test result. * @param origTest Original JUnit test. * @param e Exception thrown from grid. */ private void handleFail(TestResult result, GridJunit3SerializableTest origTest, Throwable e) { // Simulate that all tests were run. origTest.getTest().run(result); // For the tests suite we assume that all tests failed because // entire test suite execution failed and there is no way to get // broken tests. if (origTest.getTest() instanceof GridJunit3TestSuiteProxy) { TestSuite suite = (((TestSuite) origTest.getTest())); for (int j = 0; j < suite.testCount(); j++) { result.addError(suite.testAt(j), e); } } else if (origTest.getTest() instanceof GridJunit3TestCaseProxy) { result.addError(origTest.getTest(), e); } } /** * Starts Grid instance. Note that if grid is already started, then it will be looked up and * returned from this method. * * @return Started grid. */ private Grid startGrid() { Properties props = System.getProperties(); gridName = props.getProperty(GRIDGAIN_NAME.name()); if (!props.containsKey(GRIDGAIN_NAME.name()) || G.state(gridName) != GridFactoryState.STARTED) { selfStarted = true; // Set class loader for the spring. ClassLoader curCl = Thread.currentThread().getContextClassLoader(); // Add no-op logger to remove no-appender warning. Appender app = new NullAppender(); Logger.getRootLogger().addAppender(app); try { Thread.currentThread().setContextClassLoader(getClass().getClassLoader()); Grid grid = G.start(cfgPath); gridName = grid.name(); System.setProperty(GRIDGAIN_NAME.name(), grid.name()); return grid; } catch (GridException e) { throw new GridRuntimeException("Failed to start grid: " + cfgPath, e); } finally { Logger.getRootLogger().removeAppender(app); Thread.currentThread().setContextClassLoader(curCl); } } return G.grid(gridName); } /** Stops grid only if it was started by this test suite. */ private void stopGrid() { // Only stop grid if it was started here. if (selfStarted) { G.stop(gridName, true); } } }