test/lib/sun/hotspot/WhiteBox.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2012, 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.
  *
  * 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.hotspot;

 import java.lang.reflect.Executable;
 import java.util.Arrays;
 import java.util.List;
 import java.util.function.BiFunction;
 import java.util.function.Function;
 import java.util.stream.Stream;
 import java.security.BasicPermission;

 import sun.hotspot.parser.DiagnosticCommand;

 public class WhiteBox {

   @SuppressWarnings("serial")
   public static class WhiteBoxPermission extends BasicPermission {
     public WhiteBoxPermission(String s) {
       super(s);
     }
   }

   private WhiteBox() {}
   private static final WhiteBox instance = new WhiteBox();
   private static native void registerNatives();

   /**
    * Returns the singleton WhiteBox instance.
    *
    * The returned WhiteBox object should be carefully guarded
    * by the caller, since it can be used to read and write data
    * at arbitrary memory addresses. It must never be passed to
    * untrusted code.
    */
   public synchronized static WhiteBox getWhiteBox() {
     SecurityManager sm = System.getSecurityManager();
     if (sm != null) {
       sm.checkPermission(new WhiteBoxPermission("getInstance"));
     }
     return instance;
   }

   static {
     registerNatives();
   }

   // Get the maximum heap size supporting COOPs
   public native long getCompressedOopsMaxHeapSize();
   // Arguments
   public native void printHeapSizes();

   // Memory
   public native long getObjectAddress(Object o);
   public native int  getHeapOopSize();
   public native int  getVMPageSize();
   public native boolean isObjectInOldGen(Object o);
   public native long getObjectSize(Object o);

   // Runtime
   // Make sure class name is in the correct format
   public boolean isClassAlive(String name) {
     return isClassAlive0(name.replace('.', '/'));
   }
   private native boolean isClassAlive0(String name);
   public native boolean isMonitorInflated(Object obj);
   public native void forceSafepoint();

   // JVMTI
   public native void addToBootstrapClassLoaderSearch(String segment);
   public native void addToSystemClassLoaderSearch(String segment);

   // G1
   public native boolean g1InConcurrentMark();
   public native boolean g1IsHumongous(Object o);
   public native long    g1NumFreeRegions();
   public native int     g1RegionSize();
   public native Object[]    parseCommandLine(String commandline, char delim, DiagnosticCommand[] args);

   // NMT
   public native long NMTMalloc(long size);
   public native void NMTFree(long mem);
   public native long NMTReserveMemory(long size);
   public native void NMTCommitMemory(long addr, long size);
   public native void NMTUncommitMemory(long addr, long size);
   public native void NMTReleaseMemory(long addr, long size);
   public native long NMTMallocWithPseudoStack(long size, int index);
   public native boolean NMTIsDetailSupported();
   public native boolean NMTChangeTrackingLevel();
   public native int NMTGetHashSize();

   // Compiler
   public native int     deoptimizeFrames(boolean makeNotEntrant);
   public native void    deoptimizeAll();
   public        boolean isMethodCompiled(Executable method) {
     return isMethodCompiled(method, false /*not osr*/);
   }
   public native boolean isMethodCompiled(Executable method, boolean isOsr);
   public        boolean isMethodCompilable(Executable method) {
     return isMethodCompilable(method, -1 /*any*/);
   }
   public        boolean isMethodCompilable(Executable method, int compLevel) {
     return isMethodCompilable(method, compLevel, false /*not osr*/);
   }
   public native boolean isMethodCompilable(Executable method, int compLevel, boolean isOsr);
   public native boolean isMethodQueuedForCompilation(Executable method);
   public        int     deoptimizeMethod(Executable method) {
     return deoptimizeMethod(method, false /*not osr*/);
   }
   public native int     deoptimizeMethod(Executable method, boolean isOsr);
   public        void    makeMethodNotCompilable(Executable method) {
     makeMethodNotCompilable(method, -1 /*any*/);
   }
   public        void    makeMethodNotCompilable(Executable method, int compLevel) {
     makeMethodNotCompilable(method, compLevel, false /*not osr*/);
   }
   public native void    makeMethodNotCompilable(Executable method, int compLevel, boolean isOsr);
   public        int     getMethodCompilationLevel(Executable method) {
     return getMethodCompilationLevel(method, false /*not ost*/);
   }
   public native int     getMethodCompilationLevel(Executable method, boolean isOsr);
   public native boolean testSetDontInlineMethod(Executable method, boolean value);
   public        int     getCompileQueuesSize() {
     return getCompileQueueSize(-1 /*any*/);
   }
   public native int     getCompileQueueSize(int compLevel);
   public native boolean testSetForceInlineMethod(Executable method, boolean value);
   public        boolean enqueueMethodForCompilation(Executable method, int compLevel) {
     return enqueueMethodForCompilation(method, compLevel, -1 /*InvocationEntryBci*/);
   }
   public native boolean enqueueMethodForCompilation(Executable method, int compLevel, int entry_bci);
   public native void    clearMethodState(Executable method);
   public native void    lockCompilation();
   public native void    unlockCompilation();
   public native int     getMethodEntryBci(Executable method);
   public native Object[] getNMethod(Executable method, boolean isOsr);
   public native long    allocateCodeBlob(int size, int type);
   public        long    allocateCodeBlob(long size, int type) {
       int intSize = (int) size;
       if ((long) intSize != size || size < 0) {
           throw new IllegalArgumentException(
                 "size argument has illegal value " + size);
       }
       return allocateCodeBlob( intSize, type);
   }
   public native void    freeCodeBlob(long addr);
   public        void    forceNMethodSweep() {
     try {
         forceNMethodSweep0().join();
     } catch (InterruptedException e) {
         Thread.currentThread().interrupt();
     }
   }
   public native Thread  forceNMethodSweep0();
   public native Object[] getCodeHeapEntries(int type);
   public native int     getCompilationActivityMode();
   public native Object[] getCodeBlob(long addr);

   // Intered strings
   public native boolean isInStringTable(String str);

   // Memory
   public native void readReservedMemory();
   public native long allocateMetaspace(ClassLoader classLoader, long size);
   public native void freeMetaspace(ClassLoader classLoader, long addr, long size);
   public native long incMetaspaceCapacityUntilGC(long increment);
   public native long metaspaceCapacityUntilGC();

   // Force Young GC
   public native void youngGC();

   // Force Full GC
   public native void fullGC();

   // Method tries to start concurrent mark cycle.
   // It returns false if CM Thread is always in concurrent cycle.
   public native boolean g1StartConcMarkCycle();

   // Tests on ReservedSpace/VirtualSpace classes
   public native int stressVirtualSpaceResize(long reservedSpaceSize, long magnitude, long iterations);
   public native void runMemoryUnitTests();
   public native void readFromNoaccessArea();
   public native long getThreadStackSize();
   public native long getThreadRemainingStackSize();

   // CPU features
   public native String getCPUFeatures();

   // Native extensions
   public native long getHeapUsageForContext(int context);
   public native long getHeapRegionCountForContext(int context);
   public native int getContextForObject(Object obj);
   public native void printRegionInfo(int context);

   // VM flags
   public native boolean isConstantVMFlag(String name);
   public native boolean isLockedVMFlag(String name);
   public native void    setBooleanVMFlag(String name, boolean value);
   public native void    setIntxVMFlag(String name, long value);
   public native void    setUintxVMFlag(String name, long value);
   public native void    setUint64VMFlag(String name, long value);
   public native void    setSizeTVMFlag(String name, long value);
   public native void    setStringVMFlag(String name, String value);
   public native void    setDoubleVMFlag(String name, double value);
   public native Boolean getBooleanVMFlag(String name);
   public native Long    getIntxVMFlag(String name);
   public native Long    getUintxVMFlag(String name);
   public native Long    getUint64VMFlag(String name);
   public native Long    getSizeTVMFlag(String name);
   public native String  getStringVMFlag(String name);
   public native Double  getDoubleVMFlag(String name);
   private final List<Function<String,Object>> flagsGetters = Arrays.asList(
     this::getBooleanVMFlag, this::getIntxVMFlag, this::getUintxVMFlag,
     this::getUint64VMFlag, this::getSizeTVMFlag, this::getStringVMFlag,
     this::getDoubleVMFlag);

   public Object getVMFlag(String name) {
     return flagsGetters.stream()
                        .map(f -> f.apply(name))
                        .filter(x -> x != null)
                        .findAny()
                        .orElse(null);
   }
   public native int getOffsetForName0(String name);
   public int getOffsetForName(String name) throws Exception {
     int offset = getOffsetForName0(name);
     if (offset == -1) {
       throw new RuntimeException(name + " not found");
     }
     return offset;
   }
   public native Boolean getMethodBooleanOption(Executable method, String name);
   public native Long    getMethodIntxOption(Executable method, String name);
   public native Long    getMethodUintxOption(Executable method, String name);
   public native Double  getMethodDoubleOption(Executable method, String name);
   public native String  getMethodStringOption(Executable method, String name);
   private final List<BiFunction<Executable,String,Object>> methodOptionGetters
       = Arrays.asList(this::getMethodBooleanOption, this::getMethodIntxOption,
           this::getMethodUintxOption, this::getMethodDoubleOption,
           this::getMethodStringOption);

   public Object getMethodOption(Executable method, String name) {
     return methodOptionGetters.stream()
                               .map(f -> f.apply(method, name))
                               .filter(x -> x != null)
                               .findAny()
                               .orElse(null);
   }

   // Safepoint Checking
   public native void assertMatchingSafepointCalls(boolean mutexSafepointValue, boolean attemptedNoSafepointValue);
 }
	/*
	* Copyright (c) 2012, 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.
	*
	* 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.hotspot;

	import java.lang.reflect.Executable;
	import java.util.Arrays;
	import java.util.List;
	import java.util.function.BiFunction;
	import java.util.function.Function;
	import java.util.stream.Stream;
	import java.security.BasicPermission;

	import sun.hotspot.parser.DiagnosticCommand;

	public class WhiteBox {

	@SuppressWarnings("serial")
	public static class WhiteBoxPermission extends BasicPermission {
	public WhiteBoxPermission(String s) {
	super(s);
	}
	}

	private WhiteBox() {}
	private static final WhiteBox instance = new WhiteBox();
	private static native void registerNatives();

	/**
	* Returns the singleton WhiteBox instance.
	*
	* The returned WhiteBox object should be carefully guarded
	* by the caller, since it can be used to read and write data
	* at arbitrary memory addresses. It must never be passed to
	* untrusted code.
	*/
	public synchronized static WhiteBox getWhiteBox() {
	SecurityManager sm = System.getSecurityManager();
	if (sm != null) {
	sm.checkPermission(new WhiteBoxPermission("getInstance"));
	}
	return instance;
	}

	static {
	registerNatives();
	}

	// Get the maximum heap size supporting COOPs
	public native long getCompressedOopsMaxHeapSize();
	// Arguments
	public native void printHeapSizes();

	// Memory
	public native long getObjectAddress(Object o);
	public native int getHeapOopSize();
	public native int getVMPageSize();
	public native boolean isObjectInOldGen(Object o);
	public native long getObjectSize(Object o);

	// Runtime
	// Make sure class name is in the correct format
	public boolean isClassAlive(String name) {
	return isClassAlive0(name.replace('.', '/'));
	}
	private native boolean isClassAlive0(String name);
	public native boolean isMonitorInflated(Object obj);
	public native void forceSafepoint();

	// JVMTI
	public native void addToBootstrapClassLoaderSearch(String segment);
	public native void addToSystemClassLoaderSearch(String segment);

	// G1
	public native boolean g1InConcurrentMark();
	public native boolean g1IsHumongous(Object o);
	public native long g1NumFreeRegions();
	public native int g1RegionSize();
	public native Object[] parseCommandLine(String commandline, char delim, DiagnosticCommand[] args);

	// NMT
	public native long NMTMalloc(long size);
	public native void NMTFree(long mem);
	public native long NMTReserveMemory(long size);
	public native void NMTCommitMemory(long addr, long size);
	public native void NMTUncommitMemory(long addr, long size);
	public native void NMTReleaseMemory(long addr, long size);
	public native long NMTMallocWithPseudoStack(long size, int index);
	public native boolean NMTIsDetailSupported();
	public native boolean NMTChangeTrackingLevel();
	public native int NMTGetHashSize();

	// Compiler
	public native int deoptimizeFrames(boolean makeNotEntrant);
	public native void deoptimizeAll();
	public boolean isMethodCompiled(Executable method) {
	return isMethodCompiled(method, false /not osr/);
	}
	public native boolean isMethodCompiled(Executable method, boolean isOsr);
	public boolean isMethodCompilable(Executable method) {
	return isMethodCompilable(method, -1 /any/);
	}
	public boolean isMethodCompilable(Executable method, int compLevel) {
	return isMethodCompilable(method, compLevel, false /not osr/);
	}
	public native boolean isMethodCompilable(Executable method, int compLevel, boolean isOsr);
	public native boolean isMethodQueuedForCompilation(Executable method);
	public int deoptimizeMethod(Executable method) {
	return deoptimizeMethod(method, false /not osr/);
	}
	public native int deoptimizeMethod(Executable method, boolean isOsr);
	public void makeMethodNotCompilable(Executable method) {
	makeMethodNotCompilable(method, -1 /any/);
	}
	public void makeMethodNotCompilable(Executable method, int compLevel) {
	makeMethodNotCompilable(method, compLevel, false /not osr/);
	}
	public native void makeMethodNotCompilable(Executable method, int compLevel, boolean isOsr);
	public int getMethodCompilationLevel(Executable method) {
	return getMethodCompilationLevel(method, false /not ost/);
	}
	public native int getMethodCompilationLevel(Executable method, boolean isOsr);
	public native boolean testSetDontInlineMethod(Executable method, boolean value);
	public int getCompileQueuesSize() {
	return getCompileQueueSize(-1 /any/);
	}
	public native int getCompileQueueSize(int compLevel);
	public native boolean testSetForceInlineMethod(Executable method, boolean value);
	public boolean enqueueMethodForCompilation(Executable method, int compLevel) {
	return enqueueMethodForCompilation(method, compLevel, -1 /InvocationEntryBci/);
	}
	public native boolean enqueueMethodForCompilation(Executable method, int compLevel, int entry_bci);
	public native void clearMethodState(Executable method);
	public native void lockCompilation();
	public native void unlockCompilation();
	public native int getMethodEntryBci(Executable method);
	public native Object[] getNMethod(Executable method, boolean isOsr);
	public native long allocateCodeBlob(int size, int type);
	public long allocateCodeBlob(long size, int type) {
	int intSize = (int) size;
	if ((long) intSize != size \|\| size < 0) {
	throw new IllegalArgumentException(
	"size argument has illegal value " + size);
	}
	return allocateCodeBlob( intSize, type);
	}
	public native void freeCodeBlob(long addr);
	public void forceNMethodSweep() {
	try {
	forceNMethodSweep0().join();
	} catch (InterruptedException e) {
	Thread.currentThread().interrupt();
	}
	}
	public native Thread forceNMethodSweep0();
	public native Object[] getCodeHeapEntries(int type);
	public native int getCompilationActivityMode();
	public native Object[] getCodeBlob(long addr);

	// Intered strings
	public native boolean isInStringTable(String str);

	// Memory
	public native void readReservedMemory();
	public native long allocateMetaspace(ClassLoader classLoader, long size);
	public native void freeMetaspace(ClassLoader classLoader, long addr, long size);
	public native long incMetaspaceCapacityUntilGC(long increment);
	public native long metaspaceCapacityUntilGC();

	// Force Young GC
	public native void youngGC();

	// Force Full GC
	public native void fullGC();

	// Method tries to start concurrent mark cycle.
	// It returns false if CM Thread is always in concurrent cycle.
	public native boolean g1StartConcMarkCycle();

	// Tests on ReservedSpace/VirtualSpace classes
	public native int stressVirtualSpaceResize(long reservedSpaceSize, long magnitude, long iterations);
	public native void runMemoryUnitTests();
	public native void readFromNoaccessArea();
	public native long getThreadStackSize();
	public native long getThreadRemainingStackSize();

	// CPU features
	public native String getCPUFeatures();

	// Native extensions
	public native long getHeapUsageForContext(int context);
	public native long getHeapRegionCountForContext(int context);
	public native int getContextForObject(Object obj);
	public native void printRegionInfo(int context);

	// VM flags
	public native boolean isConstantVMFlag(String name);
	public native boolean isLockedVMFlag(String name);
	public native void setBooleanVMFlag(String name, boolean value);
	public native void setIntxVMFlag(String name, long value);
	public native void setUintxVMFlag(String name, long value);
	public native void setUint64VMFlag(String name, long value);
	public native void setSizeTVMFlag(String name, long value);
	public native void setStringVMFlag(String name, String value);
	public native void setDoubleVMFlag(String name, double value);
	public native Boolean getBooleanVMFlag(String name);
	public native Long getIntxVMFlag(String name);
	public native Long getUintxVMFlag(String name);
	public native Long getUint64VMFlag(String name);
	public native Long getSizeTVMFlag(String name);
	public native String getStringVMFlag(String name);
	public native Double getDoubleVMFlag(String name);
	private final List<Function<String,Object>> flagsGetters = Arrays.asList(
	this::getBooleanVMFlag, this::getIntxVMFlag, this::getUintxVMFlag,
	this::getUint64VMFlag, this::getSizeTVMFlag, this::getStringVMFlag,
	this::getDoubleVMFlag);

	public Object getVMFlag(String name) {
	return flagsGetters.stream()
	.map(f -> f.apply(name))
	.filter(x -> x != null)
	.findAny()
	.orElse(null);
	}
	public native int getOffsetForName0(String name);
	public int getOffsetForName(String name) throws Exception {
	int offset = getOffsetForName0(name);
	if (offset == -1) {
	throw new RuntimeException(name + " not found");
	}
	return offset;
	}
	public native Boolean getMethodBooleanOption(Executable method, String name);
	public native Long getMethodIntxOption(Executable method, String name);
	public native Long getMethodUintxOption(Executable method, String name);
	public native Double getMethodDoubleOption(Executable method, String name);
	public native String getMethodStringOption(Executable method, String name);
	private final List<BiFunction<Executable,String,Object>> methodOptionGetters
	= Arrays.asList(this::getMethodBooleanOption, this::getMethodIntxOption,
	this::getMethodUintxOption, this::getMethodDoubleOption,
	this::getMethodStringOption);

	public Object getMethodOption(Executable method, String name) {
	return methodOptionGetters.stream()
	.map(f -> f.apply(method, name))
	.filter(x -> x != null)
	.findAny()
	.orElse(null);
	}

	// Safepoint Checking
	public native void assertMatchingSafepointCalls(boolean mutexSafepointValue, boolean attemptedNoSafepointValue);
	}