jdk/src/java.instrument/share/classes/sun/instrument/InstrumentationImpl.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2003, 2016, 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.instrument;

 import java.lang.reflect.Method;
 import java.lang.reflect.Module;
 import java.lang.reflect.AccessibleObject;
 import java.lang.instrument.ClassFileTransformer;
 import java.lang.instrument.ClassDefinition;
 import java.lang.instrument.Instrumentation;
 import java.security.AccessController;
 import java.security.PrivilegedAction;
 import java.security.ProtectionDomain;
 import java.util.Collections;
 import java.util.ArrayList;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;
 import java.util.jar.JarFile;

 import jdk.internal.module.Modules;

 /*
  * Copyright 2003 Wily Technology, Inc.
  */

 /**
  * The Java side of the JPLIS implementation. Works in concert with a native JVMTI agent
  * to implement the JPLIS API set. Provides both the Java API implementation of
  * the Instrumentation interface and utility Java routines to support the native code.
  * Keeps a pointer to the native data structure in a scalar field to allow native
  * processing behind native methods.
  */
 public class InstrumentationImpl implements Instrumentation {
     private final     TransformerManager      mTransformerManager;
     private           TransformerManager      mRetransfomableTransformerManager;
     // needs to store a native pointer, so use 64 bits
     private final     long                    mNativeAgent;
     private final     boolean                 mEnvironmentSupportsRedefineClasses;
     private volatile  boolean                 mEnvironmentSupportsRetransformClassesKnown;
     private volatile  boolean                 mEnvironmentSupportsRetransformClasses;
     private final     boolean                 mEnvironmentSupportsNativeMethodPrefix;

     private
     InstrumentationImpl(long    nativeAgent,
                         boolean environmentSupportsRedefineClasses,
                         boolean environmentSupportsNativeMethodPrefix) {
         mTransformerManager                    = new TransformerManager(false);
         mRetransfomableTransformerManager      = null;
         mNativeAgent                           = nativeAgent;
         mEnvironmentSupportsRedefineClasses    = environmentSupportsRedefineClasses;
         mEnvironmentSupportsRetransformClassesKnown = false; // false = need to ask
         mEnvironmentSupportsRetransformClasses = false;      // don't know yet
         mEnvironmentSupportsNativeMethodPrefix = environmentSupportsNativeMethodPrefix;
     }

     public void
     addTransformer(ClassFileTransformer transformer) {
         addTransformer(transformer, false);
     }

     public synchronized void
     addTransformer(ClassFileTransformer transformer, boolean canRetransform) {
         if (transformer == null) {
             throw new NullPointerException("null passed as 'transformer' in addTransformer");
         }
         if (canRetransform) {
             if (!isRetransformClassesSupported()) {
                 throw new UnsupportedOperationException(
                   "adding retransformable transformers is not supported in this environment");
             }
             if (mRetransfomableTransformerManager == null) {
                 mRetransfomableTransformerManager = new TransformerManager(true);
             }
             mRetransfomableTransformerManager.addTransformer(transformer);
             if (mRetransfomableTransformerManager.getTransformerCount() == 1) {
                 setHasRetransformableTransformers(mNativeAgent, true);
             }
         } else {
             mTransformerManager.addTransformer(transformer);
         }
     }

     public synchronized boolean
     removeTransformer(ClassFileTransformer transformer) {
         if (transformer == null) {
             throw new NullPointerException("null passed as 'transformer' in removeTransformer");
         }
         TransformerManager mgr = findTransformerManager(transformer);
         if (mgr != null) {
             mgr.removeTransformer(transformer);
             if (mgr.isRetransformable() && mgr.getTransformerCount() == 0) {
                 setHasRetransformableTransformers(mNativeAgent, false);
             }
             return true;
         }
         return false;
     }

     public boolean
     isModifiableClass(Class<?> theClass) {
         if (theClass == null) {
             throw new NullPointerException(
                          "null passed as 'theClass' in isModifiableClass");
         }
         return isModifiableClass0(mNativeAgent, theClass);
     }

     public boolean
     isRetransformClassesSupported() {
         // ask lazily since there is some overhead
         if (!mEnvironmentSupportsRetransformClassesKnown) {
             mEnvironmentSupportsRetransformClasses = isRetransformClassesSupported0(mNativeAgent);
             mEnvironmentSupportsRetransformClassesKnown = true;
         }
         return mEnvironmentSupportsRetransformClasses;
     }

     public void
     retransformClasses(Class<?>... classes) {
         if (!isRetransformClassesSupported()) {
             throw new UnsupportedOperationException(
               "retransformClasses is not supported in this environment");
         }
         retransformClasses0(mNativeAgent, classes);
     }

     public boolean
     isRedefineClassesSupported() {
         return mEnvironmentSupportsRedefineClasses;
     }

     public void
     redefineClasses(ClassDefinition...  definitions)
             throws  ClassNotFoundException {
         if (!isRedefineClassesSupported()) {
             throw new UnsupportedOperationException("redefineClasses is not supported in this environment");
         }
         if (definitions == null) {
             throw new NullPointerException("null passed as 'definitions' in redefineClasses");
         }
         for (int i = 0; i < definitions.length; ++i) {
             if (definitions[i] == null) {
                 throw new NullPointerException("element of 'definitions' is null in redefineClasses");
             }
         }
         if (definitions.length == 0) {
             return; // short-circuit if there are no changes requested
         }

         redefineClasses0(mNativeAgent, definitions);
     }

     @SuppressWarnings("rawtypes")
     public Class[]
     getAllLoadedClasses() {
         return getAllLoadedClasses0(mNativeAgent);
     }

     @SuppressWarnings("rawtypes")
     public Class[]
     getInitiatedClasses(ClassLoader loader) {
         return getInitiatedClasses0(mNativeAgent, loader);
     }

     public long
     getObjectSize(Object objectToSize) {
         if (objectToSize == null) {
             throw new NullPointerException("null passed as 'objectToSize' in getObjectSize");
         }
         return getObjectSize0(mNativeAgent, objectToSize);
     }

     public void
     appendToBootstrapClassLoaderSearch(JarFile jarfile) {
         appendToClassLoaderSearch0(mNativeAgent, jarfile.getName(), true);
     }

     public void
     appendToSystemClassLoaderSearch(JarFile jarfile) {
         appendToClassLoaderSearch0(mNativeAgent, jarfile.getName(), false);
     }

     public boolean
     isNativeMethodPrefixSupported() {
         return mEnvironmentSupportsNativeMethodPrefix;
     }

     public synchronized void
     setNativeMethodPrefix(ClassFileTransformer transformer, String prefix) {
         if (!isNativeMethodPrefixSupported()) {
             throw new UnsupportedOperationException(
                    "setNativeMethodPrefix is not supported in this environment");
         }
         if (transformer == null) {
             throw new NullPointerException(
                        "null passed as 'transformer' in setNativeMethodPrefix");
         }
         TransformerManager mgr = findTransformerManager(transformer);
         if (mgr == null) {
             throw new IllegalArgumentException(
                        "transformer not registered in setNativeMethodPrefix");
         }
         mgr.setNativeMethodPrefix(transformer, prefix);
         String[] prefixes = mgr.getNativeMethodPrefixes();
         setNativeMethodPrefixes(mNativeAgent, prefixes, mgr.isRetransformable());
     }

     @Override
     public void redefineModule(Module module,
                                Set<Module> extraReads,
                                Map<String, Set<Module>> extraExports,
                                Map<String, Set<Module>> extraOpens,
                                Set<Class<?>> extraUses,
                                Map<Class<?>, List<Class<?>>> extraProvides)
     {
         if (!module.isNamed())
             return;

         // copy and check reads
         extraReads = new HashSet<>(extraReads);
         if (extraReads.contains(null))
             throw new NullPointerException("'extraReads' contains null");

         // copy and check exports and opens
         extraExports = cloneAndCheckMap(module, extraExports);
         extraOpens = cloneAndCheckMap(module, extraOpens);

         // copy and check uses
         extraUses = new HashSet<>(extraUses);
         if (extraUses.contains(null))
             throw new NullPointerException("'extraUses' contains null");

         // copy and check provides
         Map<Class<?>, List<Class<?>>> tmpProvides = new HashMap<>();
         for (Map.Entry<Class<?>, List<Class<?>>> e : extraProvides.entrySet()) {
             Class<?> service = e.getKey();
             if (service == null)
                 throw new NullPointerException("'extraProvides' contains null");
             List<Class<?>> providers = new ArrayList<>(e.getValue());
             if (providers.isEmpty())
                 throw new IllegalArgumentException("list of providers is empty");
             providers.forEach(p -> {
                 if (p.getModule() != module)
                     throw new IllegalArgumentException(p + " not in " + module);
                 if (!service.isAssignableFrom(p))
                     throw new IllegalArgumentException(p + " is not a " + service);
             });
             tmpProvides.put(service, providers);
         }
         extraProvides = tmpProvides;


         // update reads
         extraReads.forEach(m -> Modules.addReads(module, m));

         // update exports
         for (Map.Entry<String, Set<Module>> e : extraExports.entrySet()) {
             String pkg = e.getKey();
             Set<Module> targets = e.getValue();
             targets.forEach(m -> Modules.addExports(module, pkg, m));
         }

         // update opens
         for (Map.Entry<String, Set<Module>> e : extraOpens.entrySet()) {
             String pkg = e.getKey();
             Set<Module> targets = e.getValue();
             targets.forEach(m -> Modules.addOpens(module, pkg, m));
         }

         // update uses
         extraUses.forEach(service -> Modules.addUses(module, service));

         // update provides
         for (Map.Entry<Class<?>, List<Class<?>>> e : extraProvides.entrySet()) {
             Class<?> service = e.getKey();
             List<Class<?>> providers = e.getValue();
             providers.forEach(p -> Modules.addProvides(module, service, p));
         }
     }

     private Map<String, Set<Module>>
         cloneAndCheckMap(Module module, Map<String, Set<Module>> map)
     {
         if (map.isEmpty())
             return Collections.emptyMap();

         Map<String, Set<Module>> result = new HashMap<>();
         Set<String> packages = Set.of(module.getPackages());
         for (Map.Entry<String, Set<Module>> e : map.entrySet()) {
             String pkg = e.getKey();
             if (pkg == null)
                 throw new NullPointerException("package cannot be null");
             if (!packages.contains(pkg))
                 throw new IllegalArgumentException(pkg + " not in module");
             Set<Module> targets = new HashSet<>(e.getValue());
             if (targets.isEmpty())
                 throw new IllegalArgumentException("set of targets is empty");
             if (targets.contains(null))
                 throw new NullPointerException("set of targets cannot include null");
             result.put(pkg, targets);
         }
         return result;
     }


     private TransformerManager
     findTransformerManager(ClassFileTransformer transformer) {
         if (mTransformerManager.includesTransformer(transformer)) {
             return mTransformerManager;
         }
         if (mRetransfomableTransformerManager != null &&
                 mRetransfomableTransformerManager.includesTransformer(transformer)) {
             return mRetransfomableTransformerManager;
         }
         return null;
     }


     /*
      *  Natives
      */
     private native boolean
     isModifiableClass0(long nativeAgent, Class<?> theClass);

     private native boolean
     isRetransformClassesSupported0(long nativeAgent);

     private native void
     setHasRetransformableTransformers(long nativeAgent, boolean has);

     private native void
     retransformClasses0(long nativeAgent, Class<?>[] classes);

     private native void
     redefineClasses0(long nativeAgent, ClassDefinition[]  definitions)
         throws  ClassNotFoundException;

     @SuppressWarnings("rawtypes")
     private native Class[]
     getAllLoadedClasses0(long nativeAgent);

     @SuppressWarnings("rawtypes")
     private native Class[]
     getInitiatedClasses0(long nativeAgent, ClassLoader loader);

     private native long
     getObjectSize0(long nativeAgent, Object objectToSize);

     private native void
     appendToClassLoaderSearch0(long nativeAgent, String jarfile, boolean bootLoader);

     private native void
     setNativeMethodPrefixes(long nativeAgent, String[] prefixes, boolean isRetransformable);

     static {
         System.loadLibrary("instrument");
     }

     /*
      *  Internals
      */


     // Enable or disable Java programming language access checks on a
     // reflected object (for example, a method)
     private static void setAccessible(final AccessibleObject ao, final boolean accessible) {
         AccessController.doPrivileged(new PrivilegedAction<Object>() {
                 public Object run() {
                     ao.setAccessible(accessible);
                     return null;
                 }});
     }

     // Attempt to load and start an agent
     private void
     loadClassAndStartAgent( String  classname,
                             String  methodname,
                             String  optionsString)
             throws Throwable {

         ClassLoader mainAppLoader   = ClassLoader.getSystemClassLoader();
         Class<?>    javaAgentClass  = mainAppLoader.loadClass(classname);

         Method m = null;
         NoSuchMethodException firstExc = null;
         boolean twoArgAgent = false;

         // The agent class must have a premain or agentmain method that
         // has 1 or 2 arguments. We check in the following order:
         //
         // 1) declared with a signature of (String, Instrumentation)
         // 2) declared with a signature of (String)
         // 3) inherited with a signature of (String, Instrumentation)
         // 4) inherited with a signature of (String)
         //
         // So the declared version of either 1-arg or 2-arg always takes
         // primary precedence over an inherited version. After that, the
         // 2-arg version takes precedence over the 1-arg version.
         //
         // If no method is found then we throw the NoSuchMethodException
         // from the first attempt so that the exception text indicates
         // the lookup failed for the 2-arg method (same as JDK5.0).

         try {
             m = javaAgentClass.getDeclaredMethod( methodname,
                                  new Class<?>[] {
                                      String.class,
                                      java.lang.instrument.Instrumentation.class
                                  }
                                );
             twoArgAgent = true;
         } catch (NoSuchMethodException x) {
             // remember the NoSuchMethodException
             firstExc = x;
         }

         if (m == null) {
             // now try the declared 1-arg method
             try {
                 m = javaAgentClass.getDeclaredMethod(methodname,
                                                  new Class<?>[] { String.class });
             } catch (NoSuchMethodException x) {
                 // ignore this exception because we'll try
                 // two arg inheritance next
             }
         }

         if (m == null) {
             // now try the inherited 2-arg method
             try {
                 m = javaAgentClass.getMethod( methodname,
                                  new Class<?>[] {
                                      String.class,
                                      java.lang.instrument.Instrumentation.class
                                  }
                                );
                 twoArgAgent = true;
             } catch (NoSuchMethodException x) {
                 // ignore this exception because we'll try
                 // one arg inheritance next
             }
         }

         if (m == null) {
             // finally try the inherited 1-arg method
             try {
                 m = javaAgentClass.getMethod(methodname,
                                              new Class<?>[] { String.class });
             } catch (NoSuchMethodException x) {
                 // none of the methods exists so we throw the
                 // first NoSuchMethodException as per 5.0
                 throw firstExc;
             }
         }

         // the premain method should not be required to be public,
         // make it accessible so we can call it
         // Note: The spec says the following:
         //     The agent class must implement a public static premain method...
         setAccessible(m, true);

         // invoke the 1 or 2-arg method
         if (twoArgAgent) {
             m.invoke(null, new Object[] { optionsString, this });
         } else {
             m.invoke(null, new Object[] { optionsString });
         }
     }

     // WARNING: the native code knows the name & signature of this method
     private void
     loadClassAndCallPremain(    String  classname,
                                 String  optionsString)
             throws Throwable {

         loadClassAndStartAgent( classname, "premain", optionsString );
     }


     // WARNING: the native code knows the name & signature of this method
     private void
     loadClassAndCallAgentmain(  String  classname,
                                 String  optionsString)
             throws Throwable {

         loadClassAndStartAgent( classname, "agentmain", optionsString );
     }

     // WARNING: the native code knows the name & signature of this method
     private byte[]
     transform(  Module              module,
                 ClassLoader         loader,
                 String              classname,
                 Class<?>            classBeingRedefined,
                 ProtectionDomain    protectionDomain,
                 byte[]              classfileBuffer,
                 boolean             isRetransformer) {
         TransformerManager mgr = isRetransformer?
                                         mRetransfomableTransformerManager :
                                         mTransformerManager;
         // module is null when not a class load or when loading a class in an
         // unnamed module and this is the first type to be loaded in the package.
         if (module == null) {
             if (classBeingRedefined != null) {
                 module = classBeingRedefined.getModule();
             } else {
                 module = (loader == null) ? jdk.internal.loader.BootLoader.getUnnamedModule()
                                           : loader.getUnnamedModule();
             }
         }
         if (mgr == null) {
             return null; // no manager, no transform
         } else {
             return mgr.transform(   module,
                                     loader,
                                     classname,
                                     classBeingRedefined,
                                     protectionDomain,
                                     classfileBuffer);
         }
     }
 }
	/*
	* Copyright (c) 2003, 2016, 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.instrument;

	import java.lang.reflect.Method;
	import java.lang.reflect.Module;
	import java.lang.reflect.AccessibleObject;
	import java.lang.instrument.ClassFileTransformer;
	import java.lang.instrument.ClassDefinition;
	import java.lang.instrument.Instrumentation;
	import java.security.AccessController;
	import java.security.PrivilegedAction;
	import java.security.ProtectionDomain;
	import java.util.Collections;
	import java.util.ArrayList;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;
	import java.util.jar.JarFile;

	import jdk.internal.module.Modules;

	/*
	* Copyright 2003 Wily Technology, Inc.
	*/

	/**
	* The Java side of the JPLIS implementation. Works in concert with a native JVMTI agent
	* to implement the JPLIS API set. Provides both the Java API implementation of
	* the Instrumentation interface and utility Java routines to support the native code.
	* Keeps a pointer to the native data structure in a scalar field to allow native
	* processing behind native methods.
	*/
	public class InstrumentationImpl implements Instrumentation {
	private final TransformerManager mTransformerManager;
	private TransformerManager mRetransfomableTransformerManager;
	// needs to store a native pointer, so use 64 bits
	private final long mNativeAgent;
	private final boolean mEnvironmentSupportsRedefineClasses;
	private volatile boolean mEnvironmentSupportsRetransformClassesKnown;
	private volatile boolean mEnvironmentSupportsRetransformClasses;
	private final boolean mEnvironmentSupportsNativeMethodPrefix;

	private
	InstrumentationImpl(long nativeAgent,
	boolean environmentSupportsRedefineClasses,
	boolean environmentSupportsNativeMethodPrefix) {
	mTransformerManager = new TransformerManager(false);
	mRetransfomableTransformerManager = null;
	mNativeAgent = nativeAgent;
	mEnvironmentSupportsRedefineClasses = environmentSupportsRedefineClasses;
	mEnvironmentSupportsRetransformClassesKnown = false; // false = need to ask
	mEnvironmentSupportsRetransformClasses = false; // don't know yet
	mEnvironmentSupportsNativeMethodPrefix = environmentSupportsNativeMethodPrefix;
	}

	public void
	addTransformer(ClassFileTransformer transformer) {
	addTransformer(transformer, false);
	}

	public synchronized void
	addTransformer(ClassFileTransformer transformer, boolean canRetransform) {
	if (transformer == null) {
	throw new NullPointerException("null passed as 'transformer' in addTransformer");
	}
	if (canRetransform) {
	if (!isRetransformClassesSupported()) {
	throw new UnsupportedOperationException(
	"adding retransformable transformers is not supported in this environment");
	}
	if (mRetransfomableTransformerManager == null) {
	mRetransfomableTransformerManager = new TransformerManager(true);
	}
	mRetransfomableTransformerManager.addTransformer(transformer);
	if (mRetransfomableTransformerManager.getTransformerCount() == 1) {
	setHasRetransformableTransformers(mNativeAgent, true);
	}
	} else {
	mTransformerManager.addTransformer(transformer);
	}
	}

	public synchronized boolean
	removeTransformer(ClassFileTransformer transformer) {
	if (transformer == null) {
	throw new NullPointerException("null passed as 'transformer' in removeTransformer");
	}
	TransformerManager mgr = findTransformerManager(transformer);
	if (mgr != null) {
	mgr.removeTransformer(transformer);
	if (mgr.isRetransformable() && mgr.getTransformerCount() == 0) {
	setHasRetransformableTransformers(mNativeAgent, false);
	}
	return true;
	}
	return false;
	}

	public boolean
	isModifiableClass(Class<?> theClass) {
	if (theClass == null) {
	throw new NullPointerException(
	"null passed as 'theClass' in isModifiableClass");
	}
	return isModifiableClass0(mNativeAgent, theClass);
	}

	public boolean
	isRetransformClassesSupported() {
	// ask lazily since there is some overhead
	if (!mEnvironmentSupportsRetransformClassesKnown) {
	mEnvironmentSupportsRetransformClasses = isRetransformClassesSupported0(mNativeAgent);
	mEnvironmentSupportsRetransformClassesKnown = true;
	}
	return mEnvironmentSupportsRetransformClasses;
	}

	public void
	retransformClasses(Class<?>... classes) {
	if (!isRetransformClassesSupported()) {
	throw new UnsupportedOperationException(
	"retransformClasses is not supported in this environment");
	}
	retransformClasses0(mNativeAgent, classes);
	}

	public boolean
	isRedefineClassesSupported() {
	return mEnvironmentSupportsRedefineClasses;
	}

	public void
	redefineClasses(ClassDefinition... definitions)
	throws ClassNotFoundException {
	if (!isRedefineClassesSupported()) {
	throw new UnsupportedOperationException("redefineClasses is not supported in this environment");
	}
	if (definitions == null) {
	throw new NullPointerException("null passed as 'definitions' in redefineClasses");
	}
	for (int i = 0; i < definitions.length; ++i) {
	if (definitions[i] == null) {
	throw new NullPointerException("element of 'definitions' is null in redefineClasses");
	}
	}
	if (definitions.length == 0) {
	return; // short-circuit if there are no changes requested
	}

	redefineClasses0(mNativeAgent, definitions);
	}

	@SuppressWarnings("rawtypes")
	public Class[]
	getAllLoadedClasses() {
	return getAllLoadedClasses0(mNativeAgent);
	}

	@SuppressWarnings("rawtypes")
	public Class[]
	getInitiatedClasses(ClassLoader loader) {
	return getInitiatedClasses0(mNativeAgent, loader);
	}

	public long
	getObjectSize(Object objectToSize) {
	if (objectToSize == null) {
	throw new NullPointerException("null passed as 'objectToSize' in getObjectSize");
	}
	return getObjectSize0(mNativeAgent, objectToSize);
	}

	public void
	appendToBootstrapClassLoaderSearch(JarFile jarfile) {
	appendToClassLoaderSearch0(mNativeAgent, jarfile.getName(), true);
	}

	public void
	appendToSystemClassLoaderSearch(JarFile jarfile) {
	appendToClassLoaderSearch0(mNativeAgent, jarfile.getName(), false);
	}

	public boolean
	isNativeMethodPrefixSupported() {
	return mEnvironmentSupportsNativeMethodPrefix;
	}

	public synchronized void
	setNativeMethodPrefix(ClassFileTransformer transformer, String prefix) {
	if (!isNativeMethodPrefixSupported()) {
	throw new UnsupportedOperationException(
	"setNativeMethodPrefix is not supported in this environment");
	}
	if (transformer == null) {
	throw new NullPointerException(
	"null passed as 'transformer' in setNativeMethodPrefix");
	}
	TransformerManager mgr = findTransformerManager(transformer);
	if (mgr == null) {
	throw new IllegalArgumentException(
	"transformer not registered in setNativeMethodPrefix");
	}
	mgr.setNativeMethodPrefix(transformer, prefix);
	String[] prefixes = mgr.getNativeMethodPrefixes();
	setNativeMethodPrefixes(mNativeAgent, prefixes, mgr.isRetransformable());
	}

	@Override
	public void redefineModule(Module module,
	Set<Module> extraReads,
	Map<String, Set<Module>> extraExports,
	Map<String, Set<Module>> extraOpens,
	Set<Class<?>> extraUses,
	Map<Class<?>, List<Class<?>>> extraProvides)
	{
	if (!module.isNamed())
	return;

	// copy and check reads
	extraReads = new HashSet<>(extraReads);
	if (extraReads.contains(null))
	throw new NullPointerException("'extraReads' contains null");

	// copy and check exports and opens
	extraExports = cloneAndCheckMap(module, extraExports);
	extraOpens = cloneAndCheckMap(module, extraOpens);

	// copy and check uses
	extraUses = new HashSet<>(extraUses);
	if (extraUses.contains(null))
	throw new NullPointerException("'extraUses' contains null");

	// copy and check provides
	Map<Class<?>, List<Class<?>>> tmpProvides = new HashMap<>();
	for (Map.Entry<Class<?>, List<Class<?>>> e : extraProvides.entrySet()) {
	Class<?> service = e.getKey();
	if (service == null)
	throw new NullPointerException("'extraProvides' contains null");
	List<Class<?>> providers = new ArrayList<>(e.getValue());
	if (providers.isEmpty())
	throw new IllegalArgumentException("list of providers is empty");
	providers.forEach(p -> {
	if (p.getModule() != module)
	throw new IllegalArgumentException(p + " not in " + module);
	if (!service.isAssignableFrom(p))
	throw new IllegalArgumentException(p + " is not a " + service);
	});
	tmpProvides.put(service, providers);
	}
	extraProvides = tmpProvides;


	// update reads
	extraReads.forEach(m -> Modules.addReads(module, m));

	// update exports
	for (Map.Entry<String, Set<Module>> e : extraExports.entrySet()) {
	String pkg = e.getKey();
	Set<Module> targets = e.getValue();
	targets.forEach(m -> Modules.addExports(module, pkg, m));
	}

	// update opens
	for (Map.Entry<String, Set<Module>> e : extraOpens.entrySet()) {
	String pkg = e.getKey();
	Set<Module> targets = e.getValue();
	targets.forEach(m -> Modules.addOpens(module, pkg, m));
	}

	// update uses
	extraUses.forEach(service -> Modules.addUses(module, service));

	// update provides
	for (Map.Entry<Class<?>, List<Class<?>>> e : extraProvides.entrySet()) {
	Class<?> service = e.getKey();
	List<Class<?>> providers = e.getValue();
	providers.forEach(p -> Modules.addProvides(module, service, p));
	}
	}

	private Map<String, Set<Module>>
	cloneAndCheckMap(Module module, Map<String, Set<Module>> map)
	{
	if (map.isEmpty())
	return Collections.emptyMap();

	Map<String, Set<Module>> result = new HashMap<>();
	Set<String> packages = Set.of(module.getPackages());
	for (Map.Entry<String, Set<Module>> e : map.entrySet()) {
	String pkg = e.getKey();
	if (pkg == null)
	throw new NullPointerException("package cannot be null");
	if (!packages.contains(pkg))
	throw new IllegalArgumentException(pkg + " not in module");
	Set<Module> targets = new HashSet<>(e.getValue());
	if (targets.isEmpty())
	throw new IllegalArgumentException("set of targets is empty");
	if (targets.contains(null))
	throw new NullPointerException("set of targets cannot include null");
	result.put(pkg, targets);
	}
	return result;
	}


	private TransformerManager
	findTransformerManager(ClassFileTransformer transformer) {
	if (mTransformerManager.includesTransformer(transformer)) {
	return mTransformerManager;
	}
	if (mRetransfomableTransformerManager != null &&
	mRetransfomableTransformerManager.includesTransformer(transformer)) {
	return mRetransfomableTransformerManager;
	}
	return null;
	}


	/*
	* Natives
	*/
	private native boolean
	isModifiableClass0(long nativeAgent, Class<?> theClass);

	private native boolean
	isRetransformClassesSupported0(long nativeAgent);

	private native void
	setHasRetransformableTransformers(long nativeAgent, boolean has);

	private native void
	retransformClasses0(long nativeAgent, Class<?>[] classes);

	private native void
	redefineClasses0(long nativeAgent, ClassDefinition[] definitions)
	throws ClassNotFoundException;

	@SuppressWarnings("rawtypes")
	private native Class[]
	getAllLoadedClasses0(long nativeAgent);

	@SuppressWarnings("rawtypes")
	private native Class[]
	getInitiatedClasses0(long nativeAgent, ClassLoader loader);

	private native long
	getObjectSize0(long nativeAgent, Object objectToSize);

	private native void
	appendToClassLoaderSearch0(long nativeAgent, String jarfile, boolean bootLoader);

	private native void
	setNativeMethodPrefixes(long nativeAgent, String[] prefixes, boolean isRetransformable);

	static {
	System.loadLibrary("instrument");
	}

	/*
	* Internals
	*/


	// Enable or disable Java programming language access checks on a
	// reflected object (for example, a method)
	private static void setAccessible(final AccessibleObject ao, final boolean accessible) {
	AccessController.doPrivileged(new PrivilegedAction<Object>() {
	public Object run() {
	ao.setAccessible(accessible);
	return null;
	}});
	}

	// Attempt to load and start an agent
	private void
	loadClassAndStartAgent( String classname,
	String methodname,
	String optionsString)
	throws Throwable {

	ClassLoader mainAppLoader = ClassLoader.getSystemClassLoader();
	Class<?> javaAgentClass = mainAppLoader.loadClass(classname);

	Method m = null;
	NoSuchMethodException firstExc = null;
	boolean twoArgAgent = false;

	// The agent class must have a premain or agentmain method that
	// has 1 or 2 arguments. We check in the following order:
	//
	// 1) declared with a signature of (String, Instrumentation)
	// 2) declared with a signature of (String)
	// 3) inherited with a signature of (String, Instrumentation)
	// 4) inherited with a signature of (String)
	//
	// So the declared version of either 1-arg or 2-arg always takes
	// primary precedence over an inherited version. After that, the
	// 2-arg version takes precedence over the 1-arg version.
	//
	// If no method is found then we throw the NoSuchMethodException
	// from the first attempt so that the exception text indicates
	// the lookup failed for the 2-arg method (same as JDK5.0).

	try {
	m = javaAgentClass.getDeclaredMethod( methodname,
	new Class<?>[] {
	String.class,
	java.lang.instrument.Instrumentation.class
	}
	);
	twoArgAgent = true;
	} catch (NoSuchMethodException x) {
	// remember the NoSuchMethodException
	firstExc = x;
	}

	if (m == null) {
	// now try the declared 1-arg method
	try {
	m = javaAgentClass.getDeclaredMethod(methodname,
	new Class<?>[] { String.class });
	} catch (NoSuchMethodException x) {
	// ignore this exception because we'll try
	// two arg inheritance next
	}
	}

	if (m == null) {
	// now try the inherited 2-arg method
	try {
	m = javaAgentClass.getMethod( methodname,
	new Class<?>[] {
	String.class,
	java.lang.instrument.Instrumentation.class
	}
	);
	twoArgAgent = true;
	} catch (NoSuchMethodException x) {
	// ignore this exception because we'll try
	// one arg inheritance next
	}
	}

	if (m == null) {
	// finally try the inherited 1-arg method
	try {
	m = javaAgentClass.getMethod(methodname,
	new Class<?>[] { String.class });
	} catch (NoSuchMethodException x) {
	// none of the methods exists so we throw the
	// first NoSuchMethodException as per 5.0
	throw firstExc;
	}
	}

	// the premain method should not be required to be public,
	// make it accessible so we can call it
	// Note: The spec says the following:
	// The agent class must implement a public static premain method...
	setAccessible(m, true);

	// invoke the 1 or 2-arg method
	if (twoArgAgent) {
	m.invoke(null, new Object[] { optionsString, this });
	} else {
	m.invoke(null, new Object[] { optionsString });
	}
	}

	// WARNING: the native code knows the name & signature of this method
	private void
	loadClassAndCallPremain( String classname,
	String optionsString)
	throws Throwable {

	loadClassAndStartAgent( classname, "premain", optionsString );
	}


	// WARNING: the native code knows the name & signature of this method
	private void
	loadClassAndCallAgentmain( String classname,
	String optionsString)
	throws Throwable {

	loadClassAndStartAgent( classname, "agentmain", optionsString );
	}

	// WARNING: the native code knows the name & signature of this method
	private byte[]
	transform( Module module,
	ClassLoader loader,
	String classname,
	Class<?> classBeingRedefined,
	ProtectionDomain protectionDomain,
	byte[] classfileBuffer,
	boolean isRetransformer) {
	TransformerManager mgr = isRetransformer?
	mRetransfomableTransformerManager :
	mTransformerManager;
	// module is null when not a class load or when loading a class in an
	// unnamed module and this is the first type to be loaded in the package.
	if (module == null) {
	if (classBeingRedefined != null) {
	module = classBeingRedefined.getModule();
	} else {
	module = (loader == null) ? jdk.internal.loader.BootLoader.getUnnamedModule()
	: loader.getUnnamedModule();
	}
	}
	if (mgr == null) {
	return null; // no manager, no transform
	} else {
	return mgr.transform( module,
	loader,
	classname,
	classBeingRedefined,
	protectionDomain,
	classfileBuffer);
	}
	}
	}