/* * Copyright (c) 1996, 2005, 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 sun.misc; import java.util.Properties; import java.util.HashMap; import java.util.Map; import java.util.Set; public class VM { /* The following methods used to be native methods that instruct * the VM to selectively suspend certain threads in low-memory * situations. They are inherently dangerous and not implementable * on native threads. We removed them in JDK 1.2. The skeletons * remain so that existing applications that use these methods * will still work. */ private static boolean suspended = false; /** @deprecated */ @Deprecated public static boolean threadsSuspended() { return suspended; } public static boolean allowThreadSuspension(ThreadGroup g, boolean b) { return g.allowThreadSuspension(b); } /** @deprecated */ @Deprecated public static boolean suspendThreads() { suspended = true; return true; } // Causes any suspended threadgroups to be resumed. /** @deprecated */ @Deprecated public static void unsuspendThreads() { suspended = false; } // Causes threadgroups no longer marked suspendable to be resumed. /** @deprecated */ @Deprecated public static void unsuspendSomeThreads() { } /* Deprecated fields and methods -- Memory advice not supported in 1.2 */ /** @deprecated */ @Deprecated public static final int STATE_GREEN = 1; /** @deprecated */ @Deprecated public static final int STATE_YELLOW = 2; /** @deprecated */ @Deprecated public static final int STATE_RED = 3; /** @deprecated */ @Deprecated public static final int getState() { return STATE_GREEN; } /** @deprecated */ @Deprecated public static void registerVMNotification(VMNotification n) { } /** @deprecated */ @Deprecated public static void asChange(int as_old, int as_new) { } /** @deprecated */ @Deprecated public static void asChange_otherthread(int as_old, int as_new) { } /* * Not supported in 1.2 because these will have to be exported as * JVM functions, and we are not sure we want do that. Leaving * here so it can be easily resurrected -- just remove the // * comments. */ /** * Resume Java profiling. All profiling data is added to any * earlier profiling, unless resetJavaProfiler is * called in between. If profiling was not started from the * command line, resumeJavaProfiler will start it. *

* * NOTE: Profiling must be enabled from the command line for a * java.prof report to be automatically generated on exit; if not, * writeJavaProfilerReport must be invoked to write a report. * * @see resetJavaProfiler * @see writeJavaProfilerReport */ // public native static void resumeJavaProfiler(); /** * Suspend Java profiling. */ // public native static void suspendJavaProfiler(); /** * Initialize Java profiling. Any accumulated profiling * information is discarded. */ // public native static void resetJavaProfiler(); /** * Write the current profiling contents to the file "java.prof". * If the file already exists, it will be overwritten. */ // public native static void writeJavaProfilerReport(); private static volatile boolean booted = false; // Invoked by by System.initializeSystemClass just before returning. // Subsystems that are invoked during initialization can check this // property in order to avoid doing things that should wait until the // application class loader has been set up. // public static void booted() { booted = true; } public static boolean isBooted() { return booted; } // A user-settable upper limit on the maximum amount of allocatable direct // buffer memory. This value may be changed during VM initialization if // "java" is launched with "-XX:MaxDirectMemorySize=". // // The initial value of this field is arbitrary; during JRE initialization // it will be reset to the value specified on the command line, if any, // otherwise to Runtime.getRuntime.maxDirectMemory(). // private static long directMemory = 64 * 1024 * 1024; // Returns the maximum amount of allocatable direct buffer memory. // The directMemory variable is initialized during system initialization // in the saveAndRemoveProperties method. // public static long maxDirectMemory() { return directMemory; } // A user-settable boolean to determine whether ClassLoader.loadClass should // accept array syntax. This value may be changed during VM initialization // via the system property "sun.lang.ClassLoader.allowArraySyntax". // // The default for 1.5 is "true", array syntax is allowed. In 1.6, the // default will be "false". The presence of this system property to // control array syntax allows applications the ability to preview this new // behaviour. // private static boolean defaultAllowArraySyntax = false; private static boolean allowArraySyntax = defaultAllowArraySyntax; // The allowArraySyntax boolean is initialized during system initialization // in the saveAndRemoveProperties method. // // It is initialized based on the value of the system property // "sun.lang.ClassLoader.allowArraySyntax". If the system property is not // provided, the default for 1.5 is "true". In 1.6, the default will be // "false". If the system property is provided, then the value of // allowArraySyntax will be equal to "true" if Boolean.parseBoolean() // returns "true". Otherwise, the field will be set to "false". // public static boolean allowArraySyntax() { return allowArraySyntax; } /** * Returns the system property of the specified key saved at * system initialization time. This method should only be used * for the system properties that are not changed during runtime. * It accesses a private copy of the system properties so * that user's locking of the system properties object will not * cause the library to deadlock. * * Note that the saved system properties do not include * the ones set by sun.misc.Version.init(). * */ public static String getSavedProperty(String key) { if (savedProps.isEmpty()) throw new IllegalStateException("Should be non-empty if initialized"); return savedProps.getProperty(key); } private static final Properties savedProps = new Properties(); // Save a private copy of the system properties and remove // the system properties that are not intended for public access. // // This method can only be invoked during system initialization. public static void saveAndRemoveProperties(Properties props) { if (booted) throw new IllegalStateException("System initialization has completed"); savedProps.putAll(props); // Set the maximum amount of direct memory. This value is controlled // by the vm option -XX:MaxDirectMemorySize=. // The maximum amount of allocatable direct buffer memory (in bytes) // from the system property sun.nio.MaxDirectMemorySize set by the VM. // The system property will be removed. String s = (String)props.remove("sun.nio.MaxDirectMemorySize"); if (s != null) { if (s.equals("-1")) { // -XX:MaxDirectMemorySize not given, take default directMemory = Runtime.getRuntime().maxMemory(); } else { long l = Long.parseLong(s); if (l > -1) directMemory = l; } } // Set a boolean to determine whether ClassLoader.loadClass accepts // array syntax. This value is controlled by the system property // "sun.lang.ClassLoader.allowArraySyntax". s = props.getProperty("sun.lang.ClassLoader.allowArraySyntax"); allowArraySyntax = (s == null ? defaultAllowArraySyntax : Boolean.parseBoolean(s)); // Remove other private system properties // used by java.lang.Integer.IntegerCache props.remove("java.lang.Integer.IntegerCache.high"); // used by java.util.zip.ZipFile props.remove("sun.zip.disableMemoryMapping"); } // Initialize any miscellenous operating system settings that need to be // set for the class libraries. // public static void initializeOSEnvironment() { if (!booted) { OSEnvironment.initialize(); } } /* Current count of objects pending for finalization */ private static volatile int finalRefCount = 0; /* Peak count of objects pending for finalization */ private static volatile int peakFinalRefCount = 0; /* * Gets the number of objects pending for finalization. * * @return the number of objects pending for finalization. */ public static int getFinalRefCount() { return finalRefCount; } /* * Gets the peak number of objects pending for finalization. * * @return the peak number of objects pending for finalization. */ public static int getPeakFinalRefCount() { return peakFinalRefCount; } /* * Add n to the objects pending for finalization count. * * @param n an integer value to be added to the objects pending * for finalization count */ public static void addFinalRefCount(int n) { // The caller must hold lock to synchronize the update. finalRefCount += n; if (finalRefCount > peakFinalRefCount) { peakFinalRefCount = finalRefCount; } } public static Thread.State toThreadState(int threadStatus) { // Initialize the threadStateMap initThreadStateMap(); Thread.State s = threadStateMap.get(threadStatus); if (s == null) { // default to RUNNABLE if the threadStatus value is unknown s = Thread.State.RUNNABLE; } return s; } // a map of threadStatus values to the corresponding Thread.State private static Map threadStateMap = null; private static Map threadStateNames = null; private synchronized static void initThreadStateMap() { if (threadStateMap != null) { return; } final Thread.State[] ts = Thread.State.values(); final int[][] vmThreadStateValues = new int[ts.length][]; final String[][] vmThreadStateNames = new String[ts.length][]; getThreadStateValues(vmThreadStateValues, vmThreadStateNames); threadStateMap = new HashMap(); threadStateNames = new HashMap(); for (int i = 0; i < ts.length; i++) { String state = ts[i].name(); int[] values = null; String[] names = null; for (int j = 0; j < ts.length; j++) { if (vmThreadStateNames[j][0].startsWith(state)) { values = vmThreadStateValues[j]; names = vmThreadStateNames[j]; } } if (values == null) { throw new InternalError("No VM thread state mapped to " + state); } if (values.length != names.length) { throw new InternalError("VM thread state values and names " + " mapped to " + state + ": length not matched" ); } for (int k = 0; k < values.length; k++) { threadStateMap.put(values[k], ts[i]); threadStateNames.put(values[k], names[k]); } } } // Fill in vmThreadStateValues with int arrays, each of which contains // the threadStatus values mapping to the Thread.State enum constant. // Fill in vmThreadStateNames with String arrays, each of which contains // the name of each threadStatus value of the format: // [.] // e.g. WAITING.OBJECT_WAIT // private native static void getThreadStateValues(int[][] vmThreadStateValues, String[][] vmThreadStateNames); static { initialize(); } private native static void initialize(); }