/* * Copyright (c) 2010, 2015, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.sun.javafx.application; import javafx.application.Application; import javafx.application.Preloader; import javafx.application.Preloader.ErrorNotification; import javafx.application.Preloader.PreloaderNotification; import javafx.application.Preloader.StateChangeNotification; import javafx.stage.Stage; import java.io.File; import java.io.IOException; import java.lang.reflect.Constructor; import java.lang.reflect.InvocationTargetException; import java.lang.reflect.Method; import java.net.MalformedURLException; import java.net.URL; import java.net.URLClassLoader; import java.security.AccessController; import java.security.PrivilegedAction; import java.util.ArrayList; import java.util.LinkedList; import java.util.List; import java.util.concurrent.CountDownLatch; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicReference; import java.util.jar.Attributes; import java.util.jar.JarFile; import java.util.jar.Manifest; import java.util.Base64; import com.sun.javafx.jmx.MXExtension; import com.sun.javafx.runtime.SystemProperties; public class LauncherImpl { /** * When passed as launchMode to launchApplication, tells the method that * launchName is the name of the JavaFX application class to launch. */ public static final String LAUNCH_MODE_CLASS = "LM_CLASS"; /** * When passed as launchMode to launchApplication, tells the method that * launchName is a path to a JavaFX application jar file to be launched. */ public static final String LAUNCH_MODE_JAR = "LM_JAR"; // set to true to debug launch issues from Java launcher private static final boolean trace = false; // set system property javafx.verbose to true to make the launcher noisy private static final boolean verbose; private static final String MF_MAIN_CLASS = "Main-Class"; private static final String MF_JAVAFX_MAIN = "JavaFX-Application-Class"; private static final String MF_JAVAFX_PRELOADER = "JavaFX-Preloader-Class"; private static final String MF_JAVAFX_CLASS_PATH = "JavaFX-Class-Path"; private static final String MF_JAVAFX_FEATURE_PROXY = "JavaFX-Feature-Proxy"; private static final String MF_JAVAFX_ARGUMENT_PREFIX = "JavaFX-Argument-"; private static final String MF_JAVAFX_PARAMETER_NAME_PREFIX = "JavaFX-Parameter-Name-"; private static final String MF_JAVAFX_PARAMETER_VALUE_PREFIX = "JavaFX-Parameter-Value-"; // Set to true to simulate a slow download progress private static final boolean simulateSlowProgress = false; // Ensure that launchApplication method is only called once private static AtomicBoolean launchCalled = new AtomicBoolean(false); // Flag indicating that the toolkit has been started private static final AtomicBoolean toolkitStarted = new AtomicBoolean(false); // Exception found during launching private static volatile RuntimeException launchException = null; // The current preloader, used for notification in the standalone // launcher mode private static Preloader currentPreloader = null; // Saved preloader class from the launchApplicationWithArgs method (called // from the Java 8 launcher). It is used in the case where we call main, // which is turn calls into launchApplication. private static Class savedPreloaderClass = null; // The following is used to determine whether the main() method // has set the CCL in the case where main is called after the FX toolkit // is started. private static ClassLoader savedMainCcl = null; static { verbose = AccessController.doPrivileged((PrivilegedAction) () -> Boolean.getBoolean("javafx.verbose")); } /** * This method is called by the Application.launch method. * It must not be called more than once or an exception will be thrown. * * Note that it is always called on a thread other than the FX application * thread, since that thread is only created at startup. * * @param appClass application class * @param args command line arguments */ @SuppressWarnings("unchecked") public static void launchApplication(final Class appClass, final String[] args) { Class preloaderClass = savedPreloaderClass; if (preloaderClass == null) { String preloaderByProperty = AccessController.doPrivileged((PrivilegedAction) () -> System.getProperty("javafx.preloader")); if (preloaderByProperty != null) { try { preloaderClass = (Class) Class.forName(preloaderByProperty, false, appClass.getClassLoader()); } catch (Exception e) { System.err.printf("Could not load preloader class '" + preloaderByProperty + "', continuing without preloader."); e.printStackTrace(); } } } launchApplication(appClass, preloaderClass, args); } /** * This method is called by the standalone launcher. * It must not be called more than once or an exception will be thrown. * * Note that it is always called on a thread other than the FX application * thread, since that thread is only created at startup. * * @param appClass application class * @param preloaderClass preloader class, may be null * @param args command line arguments */ public static void launchApplication(final Class appClass, final Class preloaderClass, final String[] args) { if (launchCalled.getAndSet(true)) { throw new IllegalStateException("Application launch must not be called more than once"); } if (! Application.class.isAssignableFrom(appClass)) { throw new IllegalArgumentException("Error: " + appClass.getName() + " is not a subclass of javafx.application.Application"); } if (preloaderClass != null && ! Preloader.class.isAssignableFrom(preloaderClass)) { throw new IllegalArgumentException("Error: " + preloaderClass.getName() + " is not a subclass of javafx.application.Preloader"); } // System.err.println("launch standalone app: preloader class = " // + preloaderClass); // Create a new Launcher thread and then wait for that thread to finish final CountDownLatch launchLatch = new CountDownLatch(1); Thread launcherThread = new Thread(() -> { try { launchApplication1(appClass, preloaderClass, args); } catch (RuntimeException rte) { launchException = rte; } catch (Exception ex) { launchException = new RuntimeException("Application launch exception", ex); } catch (Error err) { launchException = new RuntimeException("Application launch error", err); } finally { launchLatch.countDown(); } }); launcherThread.setName("JavaFX-Launcher"); launcherThread.start(); // Wait for FX launcher thread to finish before returning to user try { launchLatch.await(); } catch (InterruptedException ex) { throw new RuntimeException("Unexpected exception: ", ex); } if (launchException != null) { throw launchException; } } /** * This method is called by the Java launcher. This allows us to be launched * directly from the command line via "java -jar fxapp.jar" or * "java -cp path some.fx.App". The launchMode argument must be one of * "LM_CLASS" or "LM_JAR" or execution will abort with an error. * * @param launchName Either the path to a jar file or the application class * name to launch * @param launchMode The method of launching the application, either LM_JAR * or LM_CLASS * @param args Application arguments from the command line */ public static void launchApplication(final String launchName, final String launchMode, final String[] args) { if (verbose) { System.err.println("Java 8 launchApplication method: launchMode=" + launchMode); } /* * For now, just open the jar and get JavaFX-Application-Class and * JavaFX-Preloader and pass them to launchApplication. In the future * we'll need to load requested jar files and set up the proxy */ String mainClassName = null; String preloaderClassName = null; String[] appArgs = args; ClassLoader appLoader = null; if (launchMode.equals(LAUNCH_MODE_JAR)) { Attributes jarAttrs = getJarAttributes(launchName); if (jarAttrs == null) { abort(null, "Can't get manifest attributes from jar"); } // If we ever need to check JavaFX-Version, do that here... // Support JavaFX-Class-Path, but warn that it's deprecated if used String fxClassPath = jarAttrs.getValue(MF_JAVAFX_CLASS_PATH); if (fxClassPath != null) { if (fxClassPath.trim().length() == 0) { fxClassPath = null; } else { if (verbose) { System.err.println("WARNING: Application jar uses deprecated JavaFX-Class-Path attribute." +" Please use Class-Path instead."); } /* * create a new ClassLoader to pull in the requested jar files * OK if it returns null, that just means we didn't need to load * anything */ appLoader = setupJavaFXClassLoader(new File(launchName), fxClassPath); } } // Support JavaFX-Feature-Proxy (only supported setting is 'auto', anything else is ignored) String proxySetting = jarAttrs.getValue(MF_JAVAFX_FEATURE_PROXY); if (proxySetting != null && "auto".equals(proxySetting.toLowerCase())) { trySetAutoProxy(); } // process arguments and parameters if no args have been passed by the launcher if (args.length == 0) { appArgs = getAppArguments(jarAttrs); } // grab JavaFX-Application-Class mainClassName = jarAttrs.getValue(MF_JAVAFX_MAIN); if (mainClassName == null) { // fall back on Main-Class if no JAC mainClassName = jarAttrs.getValue(MF_MAIN_CLASS); if (mainClassName == null) { // Should not happen as the launcher enforces the presence of Main-Class abort(null, "JavaFX jar manifest requires a valid JavaFX-Appliation-Class or Main-Class entry"); } } mainClassName = mainClassName.trim(); // grab JavaFX-Preloader-Class preloaderClassName = jarAttrs.getValue(MF_JAVAFX_PRELOADER); if (preloaderClassName != null) { preloaderClassName = preloaderClassName.trim(); } } else if (launchMode.equals(LAUNCH_MODE_CLASS)) { mainClassName = launchName; preloaderClassName = System.getProperty("javafx.preloader"); } else { abort(new IllegalArgumentException("The launchMode argument must be one of LM_CLASS or LM_JAR"), "Invalid launch mode: %1$s", launchMode); } if (mainClassName == null) { abort(null, "No main JavaFX class to launch"); } // check if we have to load through a custom classloader if (appLoader != null) { try { // reload this class through the app classloader Class launcherClass = appLoader.loadClass(LauncherImpl.class.getName()); // then invoke the second part of this launcher using reflection Method lawa = launcherClass.getMethod("launchApplicationWithArgs", new Class[] { String.class, String.class, (new String[0]).getClass()}); // set the thread context class loader before we continue, or it won't load properly Thread.currentThread().setContextClassLoader(appLoader); lawa.invoke(null, new Object[] {mainClassName, preloaderClassName, appArgs}); } catch (Exception e) { abort(e, "Exception while launching application"); } } else { launchApplicationWithArgs(mainClassName, preloaderClassName, appArgs); } } // Must be public since we could be called from a different class loader public static void launchApplicationWithArgs(final String mainClassName, final String preloaderClassName, String[] args) { try { startToolkit(); } catch (InterruptedException ex) { abort(ex, "Toolkit initialization error", mainClassName); } Class appClass; Class preClass = null; Class tempAppClass = null; final ClassLoader loader = Thread.currentThread().getContextClassLoader(); final AtomicReference> tmpClassRef = new AtomicReference<>(); final AtomicReference> preClassRef = new AtomicReference<>(); PlatformImpl.runAndWait(() -> { Class clz = null; try { clz = Class.forName(mainClassName, true, loader); } catch (ClassNotFoundException cnfe) { abort(cnfe, "Missing JavaFX application class %1$s", mainClassName); } tmpClassRef.set(clz); if (preloaderClassName != null) { try { clz = Class.forName(preloaderClassName, true, loader); } catch (ClassNotFoundException cnfe) { abort(cnfe, "Missing JavaFX preloader class %1$s", preloaderClassName); } if (!Preloader.class.isAssignableFrom(clz)) { abort(null, "JavaFX preloader class %1$s does not extend javafx.application.Preloader", clz.getName()); } preClassRef.set(clz.asSubclass(Preloader.class)); } }); preClass = preClassRef.get(); tempAppClass = tmpClassRef.get(); // Save the preloader class in a static field for later use when // main calls back into launchApplication. savedPreloaderClass = preClass; // If there is a public static void main(String[]) method then call it // otherwise just hand off to the other launchApplication method Exception theEx = null; try { Method mainMethod = tempAppClass.getMethod("main", new Class[] { (new String[0]).getClass() }); if (verbose) { System.err.println("Calling main(String[]) method"); } savedMainCcl = Thread.currentThread().getContextClassLoader(); mainMethod.invoke(null, new Object[] { args }); return; } catch (NoSuchMethodException | IllegalAccessException ex) { theEx = ex; savedPreloaderClass = null; if (verbose) { System.err.println("WARNING: Cannot access application main method: " + ex); } } catch (InvocationTargetException ex) { ex.printStackTrace(); abort(null, "Exception running application %1$s", tempAppClass.getName()); return; } // Verify appClass extends Application if (!Application.class.isAssignableFrom(tempAppClass)) { abort(theEx, "JavaFX application class %1$s does not extend javafx.application.Application", tempAppClass.getName()); } appClass = tempAppClass.asSubclass(Application.class); if (verbose) { System.err.println("Launching application directly"); } launchApplication(appClass, preClass, args); } private static URL fileToURL(File file) throws IOException { return file.getCanonicalFile().toURI().toURL(); } private static ClassLoader setupJavaFXClassLoader(File appJar, String fxClassPath) { try { File baseDir = appJar.getParentFile(); ArrayList jcpList = new ArrayList(); // Add in the jars from the JavaFX-Class-Path entry // TODO: should check current classpath for duplicate entries and ignore them String cp = fxClassPath; if (cp != null) { // these paths are relative to baseDir, which should be the // directory containing the app jar file while (cp.length() > 0) { int pathSepIdx = cp.indexOf(" "); if (pathSepIdx < 0) { String pathElem = cp; File f = (baseDir == null) ? new File(pathElem) : new File(baseDir, pathElem); if (f.exists()) { jcpList.add(fileToURL(f)); } else if (verbose) { System.err.println("Class Path entry \""+pathElem +"\" does not exist, ignoring"); } break; } else if (pathSepIdx > 0) { String pathElem = cp.substring(0, pathSepIdx); File f = (baseDir == null) ? new File(pathElem) : new File(baseDir, pathElem); if (f.exists()) { jcpList.add(fileToURL(f)); } else if (verbose) { System.err.println("Class Path entry \""+pathElem +"\" does not exist, ignoring"); } } cp = cp.substring(pathSepIdx + 1); } } // don't bother if there's nothing to add if (!jcpList.isEmpty()) { ArrayList urlList = new ArrayList(); // prepend the existing classpath // this will already have the app jar, so no need to worry about it cp = System.getProperty("java.class.path"); if (cp != null) { while (cp.length() > 0) { int pathSepIdx = cp.indexOf(File.pathSeparatorChar); if (pathSepIdx < 0) { String pathElem = cp; urlList.add(fileToURL(new File(pathElem))); break; } else if (pathSepIdx > 0) { String pathElem = cp.substring(0, pathSepIdx); urlList.add(fileToURL(new File(pathElem))); } cp = cp.substring(pathSepIdx + 1); } } // we have to add jfxrt.jar to the new class loader, or the app won't load URL jfxRtURL = LauncherImpl.class.getProtectionDomain().getCodeSource().getLocation(); urlList.add(jfxRtURL); // and finally append the JavaFX-Class-Path entries urlList.addAll(jcpList); URL[] urls = (URL[])urlList.toArray(new URL[0]); if (verbose) { System.err.println("===== URL list"); for (int i = 0; i < urls.length; i++) { System.err.println("" + urls[i]); } System.err.println("====="); } return new URLClassLoader(urls, null); } } catch (Exception ex) { if (trace) { System.err.println("Exception creating JavaFX class loader: "+ex); ex.printStackTrace(); } } return null; } private static void trySetAutoProxy() { // if explicit proxy settings are proxided we will skip autoproxy // Note: we only check few most popular settings. if (System.getProperty("http.proxyHost") != null || System.getProperty("https.proxyHost") != null || System.getProperty("ftp.proxyHost") != null || System.getProperty("socksProxyHost") != null) { if (verbose) { System.out.println("Explicit proxy settings detected. Skip autoconfig."); System.out.println(" http.proxyHost=" + System.getProperty("http.proxyHost")); System.out.println(" https.proxyHost=" + System.getProperty("https.proxyHost")); System.out.println(" ftp.proxyHost=" + System.getProperty("ftp.proxyHost")); System.out.println(" socksProxyHost=" + System.getProperty("socksProxyHost")); } return; } if (System.getProperty("javafx.autoproxy.disable") != null) { if (verbose) { System.out.println("Disable autoproxy on request."); } return; } try { Class sm = Class.forName("com.sun.deploy.services.ServiceManager"); Class params[] = {Integer.TYPE}; Method setservice = sm.getDeclaredMethod("setService", params); String osname = System.getProperty("os.name"); String servicename; if (osname.startsWith("Win")) { servicename = "STANDALONE_TIGER_WIN32"; } else if (osname.contains("Mac")) { servicename = "STANDALONE_TIGER_MACOSX"; } else { servicename = "STANDALONE_TIGER_UNIX"; } Object values[] = new Object[1]; Class pt = Class.forName("com.sun.deploy.services.PlatformType"); values[0] = pt.getField(servicename).get(null); setservice.invoke(null, values); Class dps = Class.forName( "com.sun.deploy.net.proxy.DeployProxySelector"); Method m = dps.getDeclaredMethod("reset", new Class[0]); m.invoke(null, new Object[0]); if (verbose) { System.out.println("Autoconfig of proxy is completed."); } } catch (Exception e) { if (verbose) { System.err.println("Failed to autoconfig proxy due to "+e); } if (trace) { e.printStackTrace(); } } } private static String decodeBase64(String inp) throws IOException { return new String(Base64.getDecoder().decode(inp)); } private static String[] getAppArguments(Attributes attrs) { List args = new LinkedList(); try { int idx = 1; String argNamePrefix = MF_JAVAFX_ARGUMENT_PREFIX; while (attrs.getValue(argNamePrefix + idx) != null) { args.add(decodeBase64(attrs.getValue(argNamePrefix + idx))); idx++; } String paramNamePrefix = MF_JAVAFX_PARAMETER_NAME_PREFIX; String paramValuePrefix = MF_JAVAFX_PARAMETER_VALUE_PREFIX; idx = 1; while (attrs.getValue(paramNamePrefix + idx) != null) { String k = decodeBase64(attrs.getValue(paramNamePrefix + idx)); String v = null; if (attrs.getValue(paramValuePrefix + idx) != null) { v = decodeBase64(attrs.getValue(paramValuePrefix + idx)); } args.add("--" + k + "=" + (v != null ? v : "")); idx++; } } catch (IOException ioe) { if (verbose) { System.err.println("Failed to extract application parameters"); } ioe.printStackTrace(); } return (String[]) args.toArray(new String[0]); } // FIXME: needs localization, since these are presented to the user private static void abort(final Throwable cause, final String fmt, final Object... args) { String msg = String.format(fmt, args); if (msg != null) { System.err.println(msg); } if (trace) { if (cause != null) { cause.printStackTrace(); } else { Thread.dumpStack(); } } System.exit(1); } private static Attributes getJarAttributes(String jarPath) { JarFile jarFile = null; try { jarFile = new JarFile(jarPath); Manifest manifest = jarFile.getManifest(); if (manifest == null) { abort(null, "No manifest in jar file %1$s", jarPath); } return manifest.getMainAttributes(); } catch (IOException ioe) { abort(ioe, "Error launching jar file %1%s", jarPath); } finally { try { jarFile.close(); } catch (IOException ioe) {} } return null; } private static void startToolkit() throws InterruptedException { if (toolkitStarted.getAndSet(true)) { return; } if (SystemProperties.isDebug()) { MXExtension.initializeIfAvailable(); } final CountDownLatch startupLatch = new CountDownLatch(1); // Note, this method is called on the FX Application Thread PlatformImpl.startup(() -> startupLatch.countDown()); // Wait for FX platform to start startupLatch.await(); } private static volatile boolean error = false; private static volatile Throwable pConstructorError = null; private static volatile Throwable pInitError = null; private static volatile Throwable pStartError = null; private static volatile Throwable pStopError = null; private static volatile Throwable constructorError = null; private static volatile Throwable initError = null; private static volatile Throwable startError = null; private static volatile Throwable stopError = null; private static void launchApplication1(final Class appClass, final Class preloaderClass, final String[] args) throws Exception { startToolkit(); if (savedMainCcl != null) { /* * The toolkit was already started by the java launcher, and the * main method of the application class was called. Check to see * whether the CCL has been changed. If so, then we need * to pass the context class loader to the FX app thread so that it * correctly picks up the current setting. */ final ClassLoader ccl = Thread.currentThread().getContextClassLoader(); if (ccl != null && ccl != savedMainCcl) { PlatformImpl.runLater(() -> { Thread.currentThread().setContextClassLoader(ccl); }); } } final AtomicBoolean pStartCalled = new AtomicBoolean(false); final AtomicBoolean startCalled = new AtomicBoolean(false); final AtomicBoolean exitCalled = new AtomicBoolean(false); final AtomicBoolean pExitCalled = new AtomicBoolean(false); final CountDownLatch shutdownLatch = new CountDownLatch(1); final CountDownLatch pShutdownLatch = new CountDownLatch(1); final PlatformImpl.FinishListener listener = new PlatformImpl.FinishListener() { @Override public void idle(boolean implicitExit) { if (!implicitExit) { return; } // System.err.println("JavaFX Launcher: system is idle"); if (startCalled.get()) { shutdownLatch.countDown(); } else if (pStartCalled.get()) { pShutdownLatch.countDown(); } } @Override public void exitCalled() { // System.err.println("JavaFX Launcher: received exit notification"); exitCalled.set(true); shutdownLatch.countDown(); } }; PlatformImpl.addListener(listener); try { final AtomicReference pldr = new AtomicReference<>(); if (preloaderClass != null) { // Construct an instance of the preloader on the FX thread, then // call its init method on this (launcher) thread. Then call // the start method on the FX thread. PlatformImpl.runAndWait(() -> { try { Constructor c = preloaderClass.getConstructor(); pldr.set(c.newInstance()); // Set startup parameters ParametersImpl.registerParameters(pldr.get(), new ParametersImpl(args)); } catch (Throwable t) { System.err.println("Exception in Preloader constructor"); pConstructorError = t; error = true; } }); } currentPreloader = pldr.get(); // Call init method unless exit called or error detected if (currentPreloader != null && !error && !exitCalled.get()) { try { // Call the application init method (on the Launcher thread) currentPreloader.init(); } catch (Throwable t) { System.err.println("Exception in Preloader init method"); pInitError = t; error = true; } } // Call start method unless exit called or error detected if (currentPreloader != null && !error && !exitCalled.get()) { // Call the application start method on FX thread PlatformImpl.runAndWait(() -> { try { pStartCalled.set(true); // Create primary stage and call preloader start method final Stage primaryStage = new Stage(); primaryStage.impl_setPrimary(true); currentPreloader.start(primaryStage); } catch (Throwable t) { System.err.println("Exception in Preloader start method"); pStartError = t; error = true; } }); // Notify preloader of progress if (!error && !exitCalled.get()) { notifyProgress(currentPreloader, 0.0); } } // Construct an instance of the application on the FX thread, then // call its init method on this (launcher) thread. Then call // the start method on the FX thread. final AtomicReference app = new AtomicReference<>(); if (!error && !exitCalled.get()) { if (currentPreloader != null) { if (simulateSlowProgress) { for (int i = 0; i < 100; i++) { notifyProgress(currentPreloader, (double)i / 100.0); Thread.sleep(10); } } notifyProgress(currentPreloader, 1.0); notifyStateChange(currentPreloader, StateChangeNotification.Type.BEFORE_LOAD, null); } PlatformImpl.runAndWait(() -> { try { Constructor c = appClass.getConstructor(); app.set(c.newInstance()); // Set startup parameters ParametersImpl.registerParameters(app.get(), new ParametersImpl(args)); PlatformImpl.setApplicationName(appClass); } catch (Throwable t) { System.err.println("Exception in Application constructor"); constructorError = t; error = true; } }); } final Application theApp = app.get(); // Call init method unless exit called or error detected if (!error && !exitCalled.get()) { if (currentPreloader != null) { notifyStateChange(currentPreloader, StateChangeNotification.Type.BEFORE_INIT, theApp); } try { // Call the application init method (on the Launcher thread) theApp.init(); } catch (Throwable t) { System.err.println("Exception in Application init method"); initError = t; error = true; } } // Call start method unless exit called or error detected if (!error && !exitCalled.get()) { if (currentPreloader != null) { notifyStateChange(currentPreloader, StateChangeNotification.Type.BEFORE_START, theApp); } // Call the application start method on FX thread PlatformImpl.runAndWait(() -> { try { startCalled.set(true); // Create primary stage and call application start method final Stage primaryStage = new Stage(); primaryStage.impl_setPrimary(true); theApp.start(primaryStage); } catch (Throwable t) { System.err.println("Exception in Application start method"); startError = t; error = true; } }); } if (!error) { shutdownLatch.await(); // System.err.println("JavaFX Launcher: time to call stop"); } // Call stop method if start was called if (startCalled.get()) { // Call Application stop method on FX thread PlatformImpl.runAndWait(() -> { try { theApp.stop(); } catch (Throwable t) { System.err.println("Exception in Application stop method"); stopError = t; error = true; } }); } if (error) { if (pConstructorError != null) { throw new RuntimeException("Unable to construct Preloader instance: " + appClass, pConstructorError); } else if (pInitError != null) { throw new RuntimeException("Exception in Preloader init method", pInitError); } else if(pStartError != null) { throw new RuntimeException("Exception in Preloader start method", pStartError); } else if (pStopError != null) { throw new RuntimeException("Exception in Preloader stop method", pStopError); } else if (constructorError != null) { String msg = "Unable to construct Application instance: " + appClass; if (!notifyError(msg, constructorError)) { throw new RuntimeException(msg, constructorError); } } else if (initError != null) { String msg = "Exception in Application init method"; if (!notifyError(msg, initError)) { throw new RuntimeException(msg, initError); } } else if(startError != null) { String msg = "Exception in Application start method"; if (!notifyError(msg, startError)) { throw new RuntimeException(msg, startError); } } else if (stopError != null) { String msg = "Exception in Application stop method"; if (!notifyError(msg, stopError)) { throw new RuntimeException(msg, stopError); } } } } finally { PlatformImpl.removeListener(listener); // Workaround until RT-13281 is implemented // Don't call exit if we detect an error in javaws mode // PlatformImpl.tkExit(); final boolean isJavaws = System.getSecurityManager() != null; if (error && isJavaws) { System.err.println("Workaround until RT-13281 is implemented: keep toolkit alive"); } else { PlatformImpl.tkExit(); } } } private static void notifyStateChange(final Preloader preloader, final StateChangeNotification.Type type, final Application app) { PlatformImpl.runAndWait(() -> preloader.handleStateChangeNotification( new StateChangeNotification(type, app))); } private static void notifyProgress(final Preloader preloader, final double d) { PlatformImpl.runAndWait(() -> preloader.handleProgressNotification( new Preloader.ProgressNotification(d))); } private static boolean notifyError(final String msg, final Throwable constructorError) { final AtomicBoolean result = new AtomicBoolean(false); PlatformImpl.runAndWait(() -> { if (currentPreloader != null) { try { ErrorNotification evt = new ErrorNotification(null, msg, constructorError); boolean rval = currentPreloader.handleErrorNotification(evt); result.set(rval); } catch (Throwable t) { t.printStackTrace(); } } }); return result.get(); } private static void notifyCurrentPreloader(final PreloaderNotification pe) { PlatformImpl.runAndWait(() -> { if (currentPreloader != null) { currentPreloader.handleApplicationNotification(pe); } }); } private static Method notifyMethod = null; public static void notifyPreloader(Application app, final PreloaderNotification info) { if (launchCalled.get()) { // Standalone launcher mode notifyCurrentPreloader(info); return; } synchronized (LauncherImpl.class) { if (notifyMethod == null) { final String fxPreloaderClassName = "com.sun.deploy.uitoolkit.impl.fx.FXPreloader"; try { Class fxPreloaderClass = Class.forName(fxPreloaderClassName); notifyMethod = fxPreloaderClass.getMethod( "notifyCurrentPreloader", PreloaderNotification.class); } catch (Exception ex) { ex.printStackTrace(); return; } } } try { // Call using reflection: FXPreloader.notifyCurrentPreloader(pe) notifyMethod.invoke(null, info); } catch (Exception ex) { ex.printStackTrace(); } } // Not an instantiable class. private LauncherImpl() { // Should never get here. throw new InternalError(); } }