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JDK 1.6
  java.io. ObjectInputStream View Javadoc
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/*
 * @(#)ObjectInputStream.java	1.175 06/04/21
 *
 * Copyright 2006 Sun Microsystems, Inc. All rights reserved.
 * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
 */

package java.io;

import java.io.ObjectStreamClass.WeakClassKey;
import java.lang.ref.ReferenceQueue;
import java.lang.reflect.Array;
import java.lang.reflect.Modifier;
import java.lang.reflect.Proxy;
import java.security.AccessControlContext;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.util.Arrays;
import java.util.HashMap;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.atomic.AtomicBoolean;
import static java.io.ObjectStreamClass.processQueue;

/**
 * An ObjectInputStream deserializes primitive data and objects previously
 * written using an ObjectOutputStream.
 * 
 * <p>ObjectOutputStream and ObjectInputStream can provide an application with
 * persistent storage for graphs of objects when used with a FileOutputStream
 * and FileInputStream respectively.  ObjectInputStream is used to recover
 * those objects previously serialized. Other uses include passing objects
 * between hosts using a socket stream or for marshaling and unmarshaling
 * arguments and parameters in a remote communication system.
 *
 * <p>ObjectInputStream ensures that the types of all objects in the graph
 * created from the stream match the classes present in the Java Virtual
 * Machine.  Classes are loaded as required using the standard mechanisms.
 *
 * <p>Only objects that support the java.io.Serializable or
 * java.io.Externalizable interface can be read from streams.
 *
 * <p>The method <code>readObject</code> is used to read an object from the
 * stream.  Java's safe casting should be used to get the desired type.  In
 * Java, strings and arrays are objects and are treated as objects during
 * serialization. When read they need to be cast to the expected type.
 *
 * <p>Primitive data types can be read from the stream using the appropriate
 * method on DataInput.
 * 
 * <p>The default deserialization mechanism for objects restores the contents
 * of each field to the value and type it had when it was written.  Fields
 * declared as transient or static are ignored by the deserialization process.
 * References to other objects cause those objects to be read from the stream
 * as necessary.  Graphs of objects are restored correctly using a reference
 * sharing mechanism.  New objects are always allocated when deserializing,
 * which prevents existing objects from being overwritten.
 *
 * <p>Reading an object is analogous to running the constructors of a new
 * object.  Memory is allocated for the object and initialized to zero (NULL).
 * No-arg constructors are invoked for the non-serializable classes and then
 * the fields of the serializable classes are restored from the stream starting
 * with the serializable class closest to java.lang.object and finishing with
 * the object's most specific class.
 *
 * <p>For example to read from a stream as written by the example in
 * ObjectOutputStream:
 * <br>
 * <pre>
 *	FileInputStream fis = new FileInputStream("t.tmp");
 *	ObjectInputStream ois = new ObjectInputStream(fis);
 *
 *	int i = ois.readInt();
 *	String today = (String) ois.readObject();
 *	Date date = (Date) ois.readObject();
 *
 *	ois.close();
 * </pre>
 *
 * <p>Classes control how they are serialized by implementing either the
 * java.io.Serializable or java.io.Externalizable interfaces.
 *
 * <p>Implementing the Serializable interface allows object serialization to
 * save and restore the entire state of the object and it allows classes to
 * evolve between the time the stream is written and the time it is read.  It
 * automatically traverses references between objects, saving and restoring
 * entire graphs.
 *
 * <p>Serializable classes that require special handling during the
 * serialization and deserialization process should implement the following
 * methods:<p>
 * 
 * <pre>
 * private void writeObject(java.io.ObjectOutputStream stream)
 *     throws IOException;
 * private void readObject(java.io.ObjectInputStream stream)
 *     throws IOException, ClassNotFoundException; 
 * private void readObjectNoData() 
 *     throws ObjectStreamException;
 * </pre>
 *
 * <p>The readObject method is responsible for reading and restoring the state
 * of the object for its particular class using data written to the stream by
 * the corresponding writeObject method.  The method does not need to concern
 * itself with the state belonging to its superclasses or subclasses.  State is
 * restored by reading data from the ObjectInputStream for the individual
 * fields and making assignments to the appropriate fields of the object.
 * Reading primitive data types is supported by DataInput.
 *
 * <p>Any attempt to read object data which exceeds the boundaries of the
 * custom data written by the corresponding writeObject method will cause an
 * OptionalDataException to be thrown with an eof field value of true.
 * Non-object reads which exceed the end of the allotted data will reflect the
 * end of data in the same way that they would indicate the end of the stream:
 * bytewise reads will return -1 as the byte read or number of bytes read, and
 * primitive reads will throw EOFExceptions.  If there is no corresponding
 * writeObject method, then the end of default serialized data marks the end of
 * the allotted data.
 *
 * <p>Primitive and object read calls issued from within a readExternal method
 * behave in the same manner--if the stream is already positioned at the end of
 * data written by the corresponding writeExternal method, object reads will
 * throw OptionalDataExceptions with eof set to true, bytewise reads will
 * return -1, and primitive reads will throw EOFExceptions.  Note that this
 * behavior does not hold for streams written with the old
 * <code>ObjectStreamConstants.PROTOCOL_VERSION_1</code> protocol, in which the
 * end of data written by writeExternal methods is not demarcated, and hence
 * cannot be detected.
 *
 * <p>The readObjectNoData method is responsible for initializing the state of
 * the object for its particular class in the event that the serialization
 * stream does not list the given class as a superclass of the object being
 * deserialized.  This may occur in cases where the receiving party uses a
 * different version of the deserialized instance's class than the sending
 * party, and the receiver's version extends classes that are not extended by
 * the sender's version.  This may also occur if the serialization stream has
 * been tampered; hence, readObjectNoData is useful for initializing
 * deserialized objects properly despite a "hostile" or incomplete source
 * stream.
 * 
 * <p>Serialization does not read or assign values to the fields of any object
 * that does not implement the java.io.Serializable interface.  Subclasses of
 * Objects that are not serializable can be serializable. In this case the
 * non-serializable class must have a no-arg constructor to allow its fields to
 * be initialized.  In this case it is the responsibility of the subclass to
 * save and restore the state of the non-serializable class. It is frequently
 * the case that the fields of that class are accessible (public, package, or
 * protected) or that there are get and set methods that can be used to restore
 * the state.
 *
 * <p>Any exception that occurs while deserializing an object will be caught by
 * the ObjectInputStream and abort the reading process.
 *
 * <p>Implementing the Externalizable interface allows the object to assume
 * complete control over the contents and format of the object's serialized
 * form.  The methods of the Externalizable interface, writeExternal and
 * readExternal, are called to save and restore the objects state.  When
 * implemented by a class they can write and read their own state using all of
 * the methods of ObjectOutput and ObjectInput.  It is the responsibility of
 * the objects to handle any versioning that occurs.
 *
 * <p>Enum constants are deserialized differently than ordinary serializable or
 * externalizable objects.  The serialized form of an enum constant consists
 * solely of its name; field values of the constant are not transmitted.  To
 * deserialize an enum constant, ObjectInputStream reads the constant name from
 * the stream; the deserialized constant is then obtained by calling the static
 * method <code>Enum.valueOf(Class, String)</code> with the enum constant's
 * base type and the received constant name as arguments.  Like other
 * serializable or externalizable objects, enum constants can function as the
 * targets of back references appearing subsequently in the serialization
 * stream.  The process by which enum constants are deserialized cannot be
 * customized: any class-specific readObject, readObjectNoData, and readResolve
 * methods defined by enum types are ignored during deserialization.
 * Similarly, any serialPersistentFields or serialVersionUID field declarations
 * are also ignored--all enum types have a fixed serialVersionUID of 0L.
 *
 * @author	Mike Warres
 * @author	Roger Riggs
 * @version 1.175, 06/04/21
 * @see java.io.DataInput
 * @see java.io.ObjectOutputStream
 * @see java.io.Serializable
 * @see <a href="../../../platform/serialization/spec/input.html"> Object Serialization Specification, Section 3, Object Input Classes</a>
 * @since   JDK1.1
 */
public class ObjectInputStream extends InputStream implements ObjectInput, ObjectStreamConstants
{ 
    /** handle value representing null */
    private static final int NULL_HANDLE = -1;
    
    /** marker for unshared objects in internal handle table */
    private static final Object unsharedMarker = new Object();
    
    /** table mapping primitive type names to corresponding class objects */
    private static final HashMap primClasses = new HashMap(8, 1.0F);
    static {
	primClasses.put("boolean", boolean.class);
	primClasses.put("byte", byte.class);
	primClasses.put("char", char.class);
	primClasses.put("short", short.class);
	primClasses.put("int", int.class);
	primClasses.put("long", long.class);
	primClasses.put("float", float.class);
	primClasses.put("double", double.class);
	primClasses.put("void", void.class);
    }

    private static class Caches {
	/** cache of subclass security audit results */
	static final ConcurrentMap<WeakClassKey,Boolean> subclassAudits = 
	    new ConcurrentHashMap<WeakClassKey,Boolean>();

	/** queue for WeakReferences to audited subclasses */
	static final ReferenceQueue<Class<?>> subclassAuditsQueue = 
	    new ReferenceQueue<Class<?>>();
    }

    /** filter stream for handling block data conversion */
    private final BlockDataInputStream bin;
    /** validation callback list */
    private final ValidationList vlist;
    /** recursion depth */
    private int depth;
    /** whether stream is closed */
    private boolean closed;
    
    /** wire handle -> obj/exception map */
    private final HandleTable handles;
    /** scratch field for passing handle values up/down call stack */
    private int passHandle = NULL_HANDLE;
    /** flag set when at end of field value block with no TC_ENDBLOCKDATA */
    private boolean defaultDataEnd = false;

    /** buffer for reading primitive field values */
    private byte[] primVals;
    
    /** if true, invoke readObjectOverride() instead of readObject() */
    private final boolean enableOverride;
    /** if true, invoke resolveObject() */
    private boolean enableResolve;

    /**
     * Context during upcalls to class-defined readObject methods; holds 
     * object currently being deserialized and descriptor for current class.
     * Null when not during readObject upcall.
     */
    private CallbackContext curContext;

    /**
     * Creates an ObjectInputStream that reads from the specified InputStream.
     * A serialization stream header is read from the stream and verified.
     * This constructor will block until the corresponding ObjectOutputStream
     * has written and flushed the header.
     *
     * <p>If a security manager is installed, this constructor will check for
     * the "enableSubclassImplementation" SerializablePermission when invoked
     * directly or indirectly by the constructor of a subclass which overrides
     * the ObjectInputStream.readFields or ObjectInputStream.readUnshared
     * methods.
     *
     * @param	in input stream to read from
     * @throws	StreamCorruptedException if the stream header is incorrect
     * @throws	IOException if an I/O error occurs while reading stream header
     * @throws	SecurityException if untrusted subclass illegally overrides
     * 		security-sensitive methods
     * @throws	NullPointerException if <code>in</code> is <code>null</code>
     * @see	ObjectInputStream#ObjectInputStream()
     * @see	ObjectInputStream#readFields()
     * @see	ObjectOutputStream#ObjectOutputStream(OutputStream)
     */
    public ObjectInputStream(InputStream in) throws IOException {
	verifySubclass();
	bin = new BlockDataInputStream(in);
	handles = new HandleTable(10);
	vlist = new ValidationList();
	enableOverride = false;
	readStreamHeader();
	bin.setBlockDataMode(true);
    }

    /**
     * Provide a way for subclasses that are completely reimplementing
     * ObjectInputStream to not have to allocate private data just used by this
     * implementation of ObjectInputStream.
     *
     * <p>If there is a security manager installed, this method first calls the
     * security manager's <code>checkPermission</code> method with the
     * <code>SerializablePermission("enableSubclassImplementation")</code>
     * permission to ensure it's ok to enable subclassing.
     *
     * @throws	SecurityException if a security manager exists and its
     * 		<code>checkPermission</code> method denies enabling
     * 		subclassing.
     * @see SecurityManager#checkPermission
     * @see java.io.SerializablePermission
     */
    protected ObjectInputStream() throws IOException, SecurityException {
	SecurityManager sm = System.getSecurityManager();
	if (sm != null) {
	    sm.checkPermission(SUBCLASS_IMPLEMENTATION_PERMISSION);
	}
	bin = null;
	handles = null;
	vlist = null;
	enableOverride = true;
    }

    /**
     * Read an object from the ObjectInputStream.  The class of the object, the
     * signature of the class, and the values of the non-transient and
     * non-static fields of the class and all of its supertypes are read.
     * Default deserializing for a class can be overriden using the writeObject
     * and readObject methods.  Objects referenced by this object are read
     * transitively so that a complete equivalent graph of objects is
     * reconstructed by readObject.
     *
     * <p>The root object is completely restored when all of its fields and the
     * objects it references are completely restored.  At this point the object
     * validation callbacks are executed in order based on their registered
     * priorities. The callbacks are registered by objects (in the readObject
     * special methods) as they are individually restored.
     *
     * <p>Exceptions are thrown for problems with the InputStream and for
     * classes that should not be deserialized.  All exceptions are fatal to
     * the InputStream and leave it in an indeterminate state; it is up to the
     * caller to ignore or recover the stream state.
     *
     * @throws	ClassNotFoundException Class of a serialized object cannot be
     * 		found.
     * @throws	InvalidClassException Something is wrong with a class used by
     * 		serialization.
     * @throws	StreamCorruptedException Control information in the
     * 		stream is inconsistent.
     * @throws	OptionalDataException Primitive data was found in the 
     * 		stream instead of objects.
     * @throws	IOException Any of the usual Input/Output related exceptions.
     */
    public final Object readObject() 
	throws IOException, ClassNotFoundException
    {
	if (enableOverride) {
	    return readObjectOverride();
	}

	// if nested read, passHandle contains handle of enclosing object
	int outerHandle = passHandle;
	try {
	    Object obj = readObject0(false);
	    handles.markDependency(outerHandle, passHandle);
	    ClassNotFoundException ex = handles.lookupException(passHandle);
	    if (ex != null) {
		throw ex;
	    }
	    if (depth == 0) {
		vlist.doCallbacks();
	    }
	    return obj;
	} finally {
	    passHandle = outerHandle;
	    if (closed && depth == 0) {
		clear();
	    }
	}
    }

    /**
     * This method is called by trusted subclasses of ObjectOutputStream that
     * constructed ObjectOutputStream using the protected no-arg constructor.
     * The subclass is expected to provide an override method with the modifier
     * "final".
     *
     * @return	the Object read from the stream.
     * @throws	ClassNotFoundException Class definition of a serialized object
     * 		cannot be found.
     * @throws	OptionalDataException Primitive data was found in the stream
     * 		instead of objects.
     * @throws	IOException if I/O errors occurred while reading from the
     * 		underlying stream
     * @see #ObjectInputStream()
     * @see #readObject()
     * @since 1.2
     */
    protected Object readObjectOverride()
 	throws IOException, ClassNotFoundException
    {
	return null;
    }
 
    /**
     * Reads an "unshared" object from the ObjectInputStream.  This method is
     * identical to readObject, except that it prevents subsequent calls to
     * readObject and readUnshared from returning additional references to the
     * deserialized instance obtained via this call.  Specifically:
     * <ul>
     *   <li>If readUnshared is called to deserialize a back-reference (the
     *       stream representation of an object which has been written
     *       previously to the stream), an ObjectStreamException will be
     *       thrown.
     *
     *   <li>If readUnshared returns successfully, then any subsequent attempts
     *       to deserialize back-references to the stream handle deserialized
     *       by readUnshared will cause an ObjectStreamException to be thrown.
     * </ul>
     * Deserializing an object via readUnshared invalidates the stream handle
     * associated with the returned object.  Note that this in itself does not
     * always guarantee that the reference returned by readUnshared is unique;
     * the deserialized object may define a readResolve method which returns an
     * object visible to other parties, or readUnshared may return a Class
     * object or enum constant obtainable elsewhere in the stream or through
     * external means. If the deserialized object defines a readResolve method
     * and the invocation of that method returns an array, then readUnshared
     * returns a shallow clone of that array; this guarantees that the returned
     * array object is unique and cannot be obtained a second time from an
     * invocation of readObject or readUnshared on the ObjectInputStream,
     * even if the underlying data stream has been manipulated.
     *
     * <p>ObjectInputStream subclasses which override this method can only be
     * constructed in security contexts possessing the
     * "enableSubclassImplementation" SerializablePermission; any attempt to
     * instantiate such a subclass without this permission will cause a
     * SecurityException to be thrown.
     *
     * @return  reference to deserialized object
     * @throws  ClassNotFoundException if class of an object to deserialize
     *          cannot be found
     * @throws  StreamCorruptedException if control information in the stream
     *          is inconsistent
     * @throws  ObjectStreamException if object to deserialize has already
     *          appeared in stream
     * @throws  OptionalDataException if primitive data is next in stream
     * @throws  IOException if an I/O error occurs during deserialization
     * @since   1.4
     */
    public Object readUnshared() throws IOException, ClassNotFoundException {
	// if nested read, passHandle contains handle of enclosing object
	int outerHandle = passHandle;
	try {
	    Object obj = readObject0(true);
	    handles.markDependency(outerHandle, passHandle);
	    ClassNotFoundException ex = handles.lookupException(passHandle);
	    if (ex != null) {
		throw ex;
	    }
	    if (depth == 0) {
		vlist.doCallbacks();
	    }
	    return obj;
	} finally {
	    passHandle = outerHandle;
	    if (closed && depth == 0) {
		clear();
	    }
	}
    }

    /**
     * Read the non-static and non-transient fields of the current class from
     * this stream.  This may only be called from the readObject method of the
     * class being deserialized. It will throw the NotActiveException if it is
     * called otherwise.
     *
     * @throws	ClassNotFoundException if the class of a serialized object
     * 		could not be found.
     * @throws	IOException if an I/O error occurs.
     * @throws	NotActiveException if the stream is not currently reading
     * 		objects.
     */
    public void defaultReadObject()
	throws IOException, ClassNotFoundException
    {
	if (curContext == null) {
	    throw new NotActiveException("not in call to readObject");
	}
	Object curObj = curContext.getObj();
	ObjectStreamClass curDesc = curContext.getDesc();
	bin.setBlockDataMode(false);
	defaultReadFields(curObj, curDesc);
	bin.setBlockDataMode(true);
	if (!curDesc.hasWriteObjectData()) {
	    /*
	     * Fix for 4360508: since stream does not contain terminating
	     * TC_ENDBLOCKDATA tag, set flag so that reading code elsewhere
	     * knows to simulate end-of-custom-data behavior.
	     */
	    defaultDataEnd = true;
	}
	ClassNotFoundException ex = handles.lookupException(passHandle);
	if (ex != null) {
	    throw ex;
	}
    }
    
    /**
     * Reads the persistent fields from the stream and makes them available by
     * name.
     * 
     * @return	the <code>GetField</code> object representing the persistent
     * 		fields of the object being deserialized
     * @throws	ClassNotFoundException if the class of a serialized object
     * 		could not be found.
     * @throws	IOException if an I/O error occurs.
     * @throws	NotActiveException if the stream is not currently reading
     * 		objects.
     * @since 1.2
     */
    public ObjectInputStream.GetField readFields()
    	throws IOException, ClassNotFoundException
    {
	if (curContext == null) {
	    throw new NotActiveException("not in call to readObject");
	}
	Object curObj = curContext.getObj();
	ObjectStreamClass curDesc = curContext.getDesc();
	bin.setBlockDataMode(false);
	GetFieldImpl getField = new GetFieldImpl(curDesc);
	getField.readFields();
	bin.setBlockDataMode(true);
	if (!curDesc.hasWriteObjectData()) {
	    /*
	     * Fix for 4360508: since stream does not contain terminating
	     * TC_ENDBLOCKDATA tag, set flag so that reading code elsewhere
	     * knows to simulate end-of-custom-data behavior.
	     */
	    defaultDataEnd = true;
	}

	return getField;
    }

    /**
     * Register an object to be validated before the graph is returned.  While
     * similar to resolveObject these validations are called after the entire
     * graph has been reconstituted.  Typically, a readObject method will
     * register the object with the stream so that when all of the objects are
     * restored a final set of validations can be performed.
     *
     * @param	obj the object to receive the validation callback.
     * @param	prio controls the order of callbacks;zero is a good default.
     * 		Use higher numbers to be called back earlier, lower numbers for
     * 		later callbacks. Within a priority, callbacks are processed in
     * 		no particular order.
     * @throws	NotActiveException The stream is not currently reading objects
     * 		so it is invalid to register a callback.
     * @throws	InvalidObjectException The validation object is null.
     */
    public void registerValidation(ObjectInputValidation obj, int prio)
	throws NotActiveException, InvalidObjectException
    {
	if (depth == 0) {
	    throw new NotActiveException("stream inactive");
	}
	vlist.register(obj, prio);
    }

    /**
     * Load the local class equivalent of the specified stream class
     * description.  Subclasses may implement this method to allow classes to
     * be fetched from an alternate source. 
     *
     * <p>The corresponding method in <code>ObjectOutputStream</code> is
     * <code>annotateClass</code>.  This method will be invoked only once for
     * each unique class in the stream.  This method can be implemented by
     * subclasses to use an alternate loading mechanism but must return a
     * <code>Class</code> object. Once returned, if the class is not an array
     * class, its serialVersionUID is compared to the serialVersionUID of the
     * serialized class, and if there is a mismatch, the deserialization fails
     * and an {@link InvalidClassException} is thrown.
     *
     * <p>The default implementation of this method in
     * <code>ObjectInputStream</code> returns the result of calling
     * <pre>
     *     Class.forName(desc.getName(), false, loader)
     * </pre>
     * where <code>loader</code> is determined as follows: if there is a
     * method on the current thread's stack whose declaring class was
     * defined by a user-defined class loader (and was not a generated to
     * implement reflective invocations), then <code>loader</code> is class
     * loader corresponding to the closest such method to the currently
     * executing frame; otherwise, <code>loader</code> is
     * <code>null</code>. If this call results in a
     * <code>ClassNotFoundException</code> and the name of the passed
     * <code>ObjectStreamClass</code> instance is the Java language keyword
     * for a primitive type or void, then the <code>Class</code> object
     * representing that primitive type or void will be returned
     * (e.g., an <code>ObjectStreamClass</code> with the name
     * <code>"int"</code> will be resolved to <code>Integer.TYPE</code>).
     * Otherwise, the <code>ClassNotFoundException</code> will be thrown to
     * the caller of this method.
     *
     * @param   desc an instance of class <code>ObjectStreamClass</code>
     * @return  a <code>Class</code> object corresponding to <code>desc</code>
     * @throws  IOException any of the usual Input/Output exceptions.
     * @throws  ClassNotFoundException if class of a serialized object cannot
     *          be found.
     */     
    protected Class<?> resolveClass(ObjectStreamClass desc)
	throws IOException, ClassNotFoundException
    {
	String name = desc.getName();
	try {
	    return Class.forName(name, false, latestUserDefinedLoader());
	} catch (ClassNotFoundException ex) {
	    Class cl = (Class) primClasses.get(name);
	    if (cl != null) {
		return cl;
	    } else {
		throw ex;
	    }
	}
    }

    /**
     * Returns a proxy class that implements the interfaces named in a proxy
     * class descriptor; subclasses may implement this method to read custom
     * data from the stream along with the descriptors for dynamic proxy
     * classes, allowing them to use an alternate loading mechanism for the
     * interfaces and the proxy class.
     *
     * <p>This method is called exactly once for each unique proxy class
     * descriptor in the stream.
     *
     * <p>The corresponding method in <code>ObjectOutputStream</code> is
     * <code>annotateProxyClass</code>.  For a given subclass of
     * <code>ObjectInputStream</code> that overrides this method, the
     * <code>annotateProxyClass</code> method in the corresponding subclass of
     * <code>ObjectOutputStream</code> must write any data or objects read by
     * this method.
     *
     * <p>The default implementation of this method in
     * <code>ObjectInputStream</code> returns the result of calling
     * <code>Proxy.getProxyClass</code> with the list of <code>Class</code>
     * objects for the interfaces that are named in the <code>interfaces</code>
     * parameter.  The <code>Class</code> object for each interface name
     * <code>i</code> is the value returned by calling
     * <pre>
     *     Class.forName(i, false, loader)
     * </pre>
     * where <code>loader</code> is that of the first non-<code>null</code>
     * class loader up the execution stack, or <code>null</code> if no
     * non-<code>null</code> class loaders are on the stack (the same class
     * loader choice used by the <code>resolveClass</code> method).  Unless any
     * of the resolved interfaces are non-public, this same value of
     * <code>loader</code> is also the class loader passed to
     * <code>Proxy.getProxyClass</code>; if non-public interfaces are present,
     * their class loader is passed instead (if more than one non-public
     * interface class loader is encountered, an
     * <code>IllegalAccessError</code> is thrown).
     * If <code>Proxy.getProxyClass</code> throws an
     * <code>IllegalArgumentException</code>, <code>resolveProxyClass</code>
     * will throw a <code>ClassNotFoundException</code> containing the
     * <code>IllegalArgumentException</code>.
     *
     * @param interfaces the list of interface names that were
     *                deserialized in the proxy class descriptor
     * @return  a proxy class for the specified interfaces
     * @throws        IOException any exception thrown by the underlying
     *                <code>InputStream</code>
     * @throws        ClassNotFoundException if the proxy class or any of the
     *                named interfaces could not be found
     * @see ObjectOutputStream#annotateProxyClass(Class)
     * @since 1.3
     */
    protected Class<?> resolveProxyClass(String[] interfaces)
	throws IOException, ClassNotFoundException
    {
	ClassLoader latestLoader = latestUserDefinedLoader();
	ClassLoader nonPublicLoader = null;
	boolean hasNonPublicInterface = false;

	// define proxy in class loader of non-public interface(s), if any
	Class[] classObjs = new Class[interfaces.length];
	for (int i = 0; i < interfaces.length; i++) {
	    Class cl = Class.forName(interfaces[i], false, latestLoader);
	    if ((cl.getModifiers() & Modifier.PUBLIC) == 0) {
		if (hasNonPublicInterface) {
		    if (nonPublicLoader != cl.getClassLoader()) {
			throw new IllegalAccessError(
			    "conflicting non-public interface class loaders");
		    }
		} else {
		    nonPublicLoader = cl.getClassLoader();
		    hasNonPublicInterface = true;
		}
	    }
	    classObjs[i] = cl;
	}
	try {
	    return Proxy.getProxyClass(
		hasNonPublicInterface ? nonPublicLoader : latestLoader,
		classObjs);
	} catch (IllegalArgumentException e) {
	    throw new ClassNotFoundException(null, e);
	}
    }

    /**
     * This method will allow trusted subclasses of ObjectInputStream to
     * substitute one object for another during deserialization. Replacing
     * objects is disabled until enableResolveObject is called. The
     * enableResolveObject method checks that the stream requesting to resolve
     * object can be trusted. Every reference to serializable objects is passed
     * to resolveObject.  To insure that the private state of objects is not
     * unintentionally exposed only trusted streams may use resolveObject.
     *
     * <p>This method is called after an object has been read but before it is
     * returned from readObject.  The default resolveObject method just returns
     * the same object.
     *
     * <p>When a subclass is replacing objects it must insure that the
     * substituted object is compatible with every field where the reference
     * will be stored.  Objects whose type is not a subclass of the type of the
     * field or array element abort the serialization by raising an exception
     * and the object is not be stored.
     *
     * <p>This method is called only once when each object is first
     * encountered.  All subsequent references to the object will be redirected
     * to the new object.
     *
     * @param	obj object to be substituted
     * @return	the substituted object
     * @throws	IOException Any of the usual Input/Output exceptions.
     */
    protected Object resolveObject(Object obj) throws IOException {
	return obj;
    }

    /**
     * Enable the stream to allow objects read from the stream to be replaced.
     * When enabled, the resolveObject method is called for every object being
     * deserialized.
     *
     * <p>If <i>enable</i> is true, and there is a security manager installed,
     * this method first calls the security manager's
     * <code>checkPermission</code> method with the
     * <code>SerializablePermission("enableSubstitution")</code> permission to
     * ensure it's ok to enable the stream to allow objects read from the
     * stream to be replaced.
     * 
     * @param	enable true for enabling use of <code>resolveObject</code> for
     * 		every object being deserialized
     * @return	the previous setting before this method was invoked
     * @throws	SecurityException if a security manager exists and its
     * 		<code>checkPermission</code> method denies enabling the stream
     * 		to allow objects read from the stream to be replaced.
     * @see SecurityManager#checkPermission
     * @see java.io.SerializablePermission
     */
    protected boolean enableResolveObject(boolean enable)
	throws SecurityException
    {
	if (enable == enableResolve) {
	    return enable;
	}
	if (enable) {
	    SecurityManager sm = System.getSecurityManager();
	    if (sm != null) {
		sm.checkPermission(SUBSTITUTION_PERMISSION);
	    }
	}
	enableResolve = enable;
	return !enableResolve;
    }

    /**
     * The readStreamHeader method is provided to allow subclasses to read and
     * verify their own stream headers. It reads and verifies the magic number
     * and version number.
     *
     * @throws	IOException if there are I/O errors while reading from the
     * 		underlying <code>InputStream</code> 
     * @throws	StreamCorruptedException if control information in the stream
     * 		is inconsistent
     */
    protected void readStreamHeader()
	throws IOException, StreamCorruptedException
    {
	short s0 = bin.readShort();
	short s1 = bin.readShort();
	if (s0 != STREAM_MAGIC || s1 != STREAM_VERSION) {
	    throw new StreamCorruptedException(
		String.format("invalid stream header: %04X%04X", s0, s1));
	}
    }

    /**
     * Read a class descriptor from the serialization stream.  This method is
     * called when the ObjectInputStream expects a class descriptor as the next
     * item in the serialization stream.  Subclasses of ObjectInputStream may
     * override this method to read in class descriptors that have been written
     * in non-standard formats (by subclasses of ObjectOutputStream which have
     * overridden the <code>writeClassDescriptor</code> method).  By default,
     * this method reads class descriptors according to the format defined in
     * the Object Serialization specification.
     *
     * @return	the class descriptor read
     * @throws	IOException If an I/O error has occurred.
     * @throws	ClassNotFoundException If the Class of a serialized object used
     * 		in the class descriptor representation cannot be found
     * @see java.io.ObjectOutputStream#writeClassDescriptor(java.io.ObjectStreamClass)
     * @since 1.3
     */
    protected ObjectStreamClass readClassDescriptor() 
	throws IOException, ClassNotFoundException
    {
	ObjectStreamClass desc = new ObjectStreamClass();
	desc.readNonProxy(this);
	return desc;
    }

    /**
     * Reads a byte of data. This method will block if no input is available.
     *
     * @return	the byte read, or -1 if the end of the stream is reached.
     * @throws	IOException If an I/O error has occurred.
     */
    public int read() throws IOException {
	return bin.read();
    }
    
    /**
     * Reads into an array of bytes.  This method will block until some input
     * is available. Consider using java.io.DataInputStream.readFully to read
     * exactly 'length' bytes.
     *
     * @param	buf the buffer into which the data is read
     * @param	off the start offset of the data
     * @param	len the maximum number of bytes read
     * @return	the actual number of bytes read, -1 is returned when the end of
     * 		the stream is reached.
     * @throws	IOException If an I/O error has occurred.
     * @see java.io.DataInputStream#readFully(byte[],int,int)
     */
    public int read(byte[] buf, int off, int len) throws IOException {
	if (buf == null) {
	    throw new NullPointerException();
	}
	int endoff = off + len;
	if (off < 0 || len < 0 || endoff > buf.length || endoff < 0) {
	    throw new IndexOutOfBoundsException();
	}
	return bin.read(buf, off, len, false);
    }

    /**
     * Returns the number of bytes that can be read without blocking.
     *
     * @return	the number of available bytes.
     * @throws	IOException if there are I/O errors while reading from the
     * 		underlying <code>InputStream</code>
     */
    public int available() throws IOException {
	return bin.available();
    }

    /**
     * Closes the input stream. Must be called to release any resources
     * associated with the stream.
     *
     * @throws	IOException If an I/O error has occurred.
     */
    public void close() throws IOException {
	/*
	 * Even if stream already closed, propagate redundant close to
	 * underlying stream to stay consistent with previous implementations.
	 */
	closed = true;
	if (depth == 0) {
	    clear();
	}
	bin.close();
    }

    /**
     * Reads in a boolean.
     * 
     * @return	the boolean read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public boolean readBoolean() throws IOException {
	return bin.readBoolean();
    }

    /**
     * Reads an 8 bit byte.
     * 
     * @return	the 8 bit byte read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public byte readByte() throws IOException  {
	return bin.readByte();
    }

    /**
     * Reads an unsigned 8 bit byte.
     *
     * @return	the 8 bit byte read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public int readUnsignedByte()  throws IOException {
	return bin.readUnsignedByte();
    }

    /**
     * Reads a 16 bit char.
     *
     * @return	the 16 bit char read. 
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public char readChar()  throws IOException {
	return bin.readChar();
    }

    /**
     * Reads a 16 bit short.
     *
     * @return	the 16 bit short read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public short readShort()  throws IOException {
	return bin.readShort();
    }

    /**
     * Reads an unsigned 16 bit short.
     *
     * @return	the 16 bit short read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public int readUnsignedShort() throws IOException {
	return bin.readUnsignedShort();
    }

    /**
     * Reads a 32 bit int.
     *
     * @return	the 32 bit integer read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public int readInt()  throws IOException {
	return bin.readInt();
    }

    /**
     * Reads a 64 bit long.
     *
     * @return	the read 64 bit long.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public long readLong()  throws IOException {
	return bin.readLong();
    }

    /**
     * Reads a 32 bit float.
     *
     * @return	the 32 bit float read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public float readFloat() throws IOException {
	return bin.readFloat();
    }

    /**
     * Reads a 64 bit double.
     *
     * @return	the 64 bit double read.
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public double readDouble() throws IOException {
	return bin.readDouble();
    }

    /**
     * Reads bytes, blocking until all bytes are read.
     *
     * @param	buf the buffer into which the data is read
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public void readFully(byte[] buf) throws IOException {
	bin.readFully(buf, 0, buf.length, false);
    }

    /**
     * Reads bytes, blocking until all bytes are read.
     *
     * @param	buf the buffer into which the data is read
     * @param	off the start offset of the data
     * @param	len the maximum number of bytes to read
     * @throws	EOFException If end of file is reached.
     * @throws	IOException If other I/O error has occurred.
     */
    public void readFully(byte[] buf, int off, int len) throws IOException {
	int endoff = off + len;
	if (off < 0 || len < 0 || endoff > buf.length || endoff < 0) {
	    throw new IndexOutOfBoundsException();
	}
	bin.readFully(buf, off, len, false);
    }

    /**
     * Skips bytes.
     *
     * @param	len the number of bytes to be skipped
     * @return	the actual number of bytes skipped.
     * @throws	IOException If an I/O error has occurred.
     */
    public int skipBytes(int len) throws IOException {
	return bin.skipBytes(len);
    }

    /**
     * Reads in a line that has been terminated by a \n, \r, \r\n or EOF.
     *
     * @return	a String copy of the line.
     * @throws	IOException if there are I/O errors while reading from the
     * 		underlying <code>InputStream</code>
     * @deprecated This method does not properly convert bytes to characters.
     * 		see DataInputStream for the details and alternatives.
     */
@Deprecated
    public String readLine() throws IOException {
	return bin.readLine();
    }

    /**
     * Reads a String in
     * <a href="DataInput.html#modified-utf-8">modified UTF-8</a>
     * format.
     *
     * @return	the String.
     * @throws	IOException if there are I/O errors while reading from the
     * 		underlying <code>InputStream</code>
     * @throws	UTFDataFormatException if read bytes do not represent a valid
     * 		modified UTF-8 encoding of a string
     */
    public String readUTF() throws IOException {
	return bin.readUTF();
    }

    /**
     * Provide access to the persistent fields read from the input stream.
     */
    public static abstract class GetField {
 
 	/**
 	 * Get the ObjectStreamClass that describes the fields in the stream.
	 *
	 * @return  the descriptor class that describes the serializable fields
 	 */
 	public abstract ObjectStreamClass getObjectStreamClass();
 
 	/**
	 * Return true if the named field is defaulted and has no value in this
	 * stream.
	 *
	 * @param  name the name of the field
	 * @return true, if and only if the named field is defaulted
	 * @throws IOException if there are I/O errors while reading from
	 * 	   the underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if <code>name</code> does not
	 * 	   correspond to a serializable field
	 */
 	public abstract boolean defaulted(String name) throws IOException;
 
	/**
	 * Get the value of the named boolean field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>boolean</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract boolean get(String name, boolean val) 
	    throws IOException;
 
	/**
	 * Get the value of the named byte field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>byte</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract byte get(String name, byte val) throws IOException;
 
	/**
	 * Get the value of the named char field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>char</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract char get(String name, char val) throws IOException;
 
	/**
	 * Get the value of the named short field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>short</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract short get(String name, short val) throws IOException;
 
	/**
	 * Get the value of the named int field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>int</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract int get(String name, int val) throws IOException;
 
	/**
	 * Get the value of the named long field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>long</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract long get(String name, long val) throws IOException;
 
	/**
	 * Get the value of the named float field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>float</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract float get(String name, float val) throws IOException;
 
	/**
	 * Get the value of the named double field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>double</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract double get(String name, double val) throws IOException;
 
	/**
	 * Get the value of the named Object field from the persistent field.
	 *
	 * @param  name the name of the field
	 * @param  val the default value to use if <code>name</code> does not
	 * 	   have a value
	 * @return the value of the named <code>Object</code> field
	 * @throws IOException if there are I/O errors while reading from the
	 * 	   underlying <code>InputStream</code>
	 * @throws IllegalArgumentException if type of <code>name</code> is
	 * 	   not serializable or if the field type is incorrect
	 */
	public abstract Object get(String name, Object val) throws IOException;
    }

    /**
     * Verifies that this (possibly subclass) instance can be constructed
     * without violating security constraints: the subclass must not override
     * security-sensitive non-final methods, or else the
     * "enableSubclassImplementation" SerializablePermission is checked.
     */
    private void verifySubclass() {
	Class cl = getClass();
	if (cl == ObjectInputStream.class) {
	    return;	
	}
	SecurityManager sm = System.getSecurityManager();
	if (sm == null) {
	    return;
	}
	processQueue(Caches.subclassAuditsQueue, Caches.subclassAudits);
	WeakClassKey key = new WeakClassKey(cl, Caches.subclassAuditsQueue);
	Boolean result = Caches.subclassAudits.get(key);
	if (result == null) {
	    result = Boolean.valueOf(auditSubclass(cl));
	    Caches.subclassAudits.putIfAbsent(key, result);
	}
	if (result.booleanValue()) {
	    return;
	}
	sm.checkPermission(SUBCLASS_IMPLEMENTATION_PERMISSION);
    }

    /**
     * Performs reflective checks on given subclass to verify that it doesn't
     * override security-sensitive non-final methods.  Returns true if subclass
     * is "safe", false otherwise.
     */
    private static boolean auditSubclass(final Class subcl) {
	Boolean result = (Boolean) AccessController.doPrivileged(
	    new PrivilegedAction() {
		public Object run() {
		    for (Class cl = subcl;
			 cl != ObjectInputStream.class;
			 cl = cl.getSuperclass())
		    {
			try {
			    cl.getDeclaredMethod(
			        "readUnshared", (Class[]) null);
			    return Boolean.FALSE;
			} catch (NoSuchMethodException ex) {
			}
			try {
			    cl.getDeclaredMethod("readFields", (Class[]) null);
			    return Boolean.FALSE;
			} catch (NoSuchMethodException ex) {
			}
		    }
		    return Boolean.TRUE;
		}
	    }
	);
	return result.booleanValue();
    }

    /**
     * Clears internal data structures.
     */
    private void clear() {
	handles.clear();
	vlist.clear();
    }

    /**
     * Underlying readObject implementation.
     */
    private Object readObject0(boolean unshared) throws IOException {
	boolean oldMode = bin.getBlockDataMode();
	if (oldMode) {
	    int remain = bin.currentBlockRemaining();
	    if (remain > 0) {
		throw new OptionalDataException(remain);
	    } else if (defaultDataEnd) {
		/*
		 * Fix for 4360508: stream is currently at the end of a field
		 * value block written via default serialization; since there
		 * is no terminating TC_ENDBLOCKDATA tag, simulate
		 * end-of-custom-data behavior explicitly.
		 */
		throw new OptionalDataException(true);
	    }
	    bin.setBlockDataMode(false);
	}
	
	byte tc;
	while ((tc = bin.peekByte()) == TC_RESET) {
	    bin.readByte();
	    handleReset();
	}

	depth++;
	try {
	    switch (tc) {
		case TC_NULL:
		    return readNull();

		case TC_REFERENCE:
		    return readHandle(unshared);

		case TC_CLASS:
		    return readClass(unshared);

		case TC_CLASSDESC:
		case TC_PROXYCLASSDESC:
		    return readClassDesc(unshared);

		case TC_STRING:
		case TC_LONGSTRING:
		    return checkResolve(readString(unshared));

		case TC_ARRAY:
		    return checkResolve(readArray(unshared));

		case TC_ENUM:
		    return checkResolve(readEnum(unshared));

		case TC_OBJECT:
		    return checkResolve(readOrdinaryObject(unshared));

		case TC_EXCEPTION:
		    IOException ex = readFatalException();
		    throw new WriteAbortedException("writing aborted", ex);

		case TC_BLOCKDATA:
		case TC_BLOCKDATALONG:
		    if (oldMode) {
			bin.setBlockDataMode(true);
			bin.peek();		// force header read
			throw new OptionalDataException(
			    bin.currentBlockRemaining());
		    } else {
			throw new StreamCorruptedException(
			    "unexpected block data");
		    }
		    
		case TC_ENDBLOCKDATA:
		    if (oldMode) {
			throw new OptionalDataException(true);
		    } else {
			throw new StreamCorruptedException(
			    "unexpected end of block data");
		    }

		default:
		    throw new StreamCorruptedException(
			String.format("invalid type code: %02X", tc));
	    }
	} finally {
	    depth--;
	    bin.setBlockDataMode(oldMode);
	}
    }

    /**
     * If resolveObject has been enabled and given object does not have an
     * exception associated with it, calls resolveObject to determine
     * replacement for object, and updates handle table accordingly.  Returns
     * replacement object, or echoes provided object if no replacement
     * occurred.  Expects that passHandle is set to given object's handle prior
     * to calling this method.
     */
    private Object checkResolve(Object obj) throws IOException {
	if (!enableResolve || handles.lookupException(passHandle) != null) {
	    return obj;
	}
	Object rep = resolveObject(obj);
	if (rep != obj) {
	    handles.setObject(passHandle, rep);
	}
	return rep;
    }

    /**
     * Reads string without allowing it to be replaced in stream.  Called from
     * within ObjectStreamClass.read().
     */
    String readTypeString() throws IOException {
	int oldHandle = passHandle;
	try {
	    byte tc = bin.peekByte();
	    switch (tc) {
		case TC_NULL:
		    return (String) readNull();

		case TC_REFERENCE:
		    return (String) readHandle(false);

		case TC_STRING:
		case TC_LONGSTRING:
		    return readString(false);

		default:
		    throw new StreamCorruptedException(
			String.format("invalid type code: %02X", tc));
	    }
	} finally {
	    passHandle = oldHandle;
	}
    }

    /**
     * Reads in null code, sets passHandle to NULL_HANDLE and returns null.
     */
    private Object readNull() throws IOException {
	if (bin.readByte() != TC_NULL) {
	    throw new InternalError();
	}
	passHandle = NULL_HANDLE;
	return null;
    }

    /**
     * Reads in object handle, sets passHandle to the read handle, and returns
     * object associated with the handle.
     */
    private Object readHandle(boolean unshared) throws IOException {
	if (bin.readByte() != TC_REFERENCE) {
	    throw new InternalError();
	}
	passHandle = bin.readInt() - baseWireHandle;
	if (passHandle < 0 || passHandle >= handles.size()) {
	    throw new StreamCorruptedException(
		String.format("invalid handle value: %08X", passHandle + 
		baseWireHandle));
	}
	if (unshared) {
	    // REMIND: what type of exception to throw here?
	    throw new InvalidObjectException(
		"cannot read back reference as unshared");
	}
	
	Object obj = handles.lookupObject(passHandle);
	if (obj == unsharedMarker) {
	    // REMIND: what type of exception to throw here?
	    throw new InvalidObjectException(
		"cannot read back reference to unshared object");
	}
	return obj;
    }
    
    /**
     * Reads in and returns class object.  Sets passHandle to class object's
     * assigned handle.  Returns null if class is unresolvable (in which case a
     * ClassNotFoundException will be associated with the class' handle in the
     * handle table).
     */
    private Class readClass(boolean unshared) throws IOException {
	if (bin.readByte() != TC_CLASS) {
	    throw new InternalError();
	}
	ObjectStreamClass desc = readClassDesc(false);
	Class cl = desc.forClass();
	passHandle = handles.assign(unshared ? unsharedMarker : cl);

	ClassNotFoundException resolveEx = desc.getResolveException();
	if (resolveEx != null) {
	    handles.markException(passHandle, resolveEx);
	}

	handles.finish(passHandle);
	return cl;
    }
    
    /**
     * Reads in and returns (possibly null) class descriptor.  Sets passHandle
     * to class descriptor's assigned handle.  If class descriptor cannot be
     * resolved to a class in the local VM, a ClassNotFoundException is
     * associated with the class descriptor's handle.
     */
    private ObjectStreamClass readClassDesc(boolean unshared) 
	throws IOException 
    {
	byte tc = bin.peekByte();
	switch (tc) {
	    case TC_NULL:
		return (ObjectStreamClass) readNull();

	    case TC_REFERENCE:
		return (ObjectStreamClass) readHandle(unshared);

	    case TC_PROXYCLASSDESC:
		return readProxyDesc(unshared);

	    case TC_CLASSDESC:
		return readNonProxyDesc(unshared);
		
	    default:
		throw new StreamCorruptedException(
		    String.format("invalid type code: %02X", tc));
	}
    }
    
    /**
     * Reads in and returns class descriptor for a dynamic proxy class.  Sets
     * passHandle to proxy class descriptor's assigned handle.  If proxy class
     * descriptor cannot be resolved to a class in the local VM, a
     * ClassNotFoundException is associated with the descriptor's handle.
     */
    private ObjectStreamClass readProxyDesc(boolean unshared) 
	throws IOException 
    {
	if (bin.readByte() != TC_PROXYCLASSDESC) {
	    throw new InternalError();
	}
	
	ObjectStreamClass desc = new ObjectStreamClass();
	int descHandle = handles.assign(unshared ? unsharedMarker : desc);
	passHandle = NULL_HANDLE;
	
	int numIfaces = bin.readInt();
	String[] ifaces = new String[numIfaces];
	for (int i = 0; i < numIfaces; i++) {
	    ifaces[i] = bin.readUTF();
	}
	
	Class cl = null;
	ClassNotFoundException resolveEx = null;
	bin.setBlockDataMode(true);
	try {
	    if ((cl = resolveProxyClass(ifaces)) == null) {
		resolveEx = new ClassNotFoundException("null class");
	    }
	} catch (ClassNotFoundException ex) {
	    resolveEx = ex;
	}
	skipCustomData();
	
	desc.initProxy(cl, resolveEx, readClassDesc(false));

	handles.finish(descHandle);
	passHandle = descHandle;
	return desc;
    }
    
    /**
     * Reads in and returns class descriptor for a class that is not a dynamic
     * proxy class.  Sets passHandle to class descriptor's assigned handle.  If
     * class descriptor cannot be resolved to a class in the local VM, a
     * ClassNotFoundException is associated with the descriptor's handle.
     */
    private ObjectStreamClass readNonProxyDesc(boolean unshared) 
	throws IOException 
    {
	if (bin.readByte() != TC_CLASSDESC) {
	    throw new InternalError();
	}
	
	ObjectStreamClass desc = new ObjectStreamClass();
	int descHandle = handles.assign(unshared ? unsharedMarker : desc);
	passHandle = NULL_HANDLE;

	ObjectStreamClass readDesc = null;
	try {
	    readDesc = readClassDescriptor();
	} catch (ClassNotFoundException ex) {
	    throw (IOException) new InvalidClassException(
		"failed to read class descriptor").initCause(ex);
	}
	
	Class cl = null;
	ClassNotFoundException resolveEx = null;
	bin.setBlockDataMode(true);
	try {
	    if ((cl = resolveClass(readDesc)) == null) {
		resolveEx = new ClassNotFoundException("null class");
	    }
	} catch (ClassNotFoundException ex) {
	    resolveEx = ex;
	}
	skipCustomData();
	
	desc.initNonProxy(readDesc, cl, resolveEx, readClassDesc(false));

	handles.finish(descHandle);
	passHandle = descHandle;
	return desc;
    }
    
    /**
     * Reads in and returns new string.  Sets passHandle to new string's
     * assigned handle.
     */
    private String readString(boolean unshared) throws IOException {
	String str;
	byte tc = bin.readByte();
	switch (tc) {
	    case TC_STRING:
		str = bin.readUTF();
		break;
		
	    case TC_LONGSTRING:
		str = bin.readLongUTF();
		break;
		
	    default:
		throw new StreamCorruptedException(
		    String.format("invalid type code: %02X", tc));
	}
	passHandle = handles.assign(unshared ? unsharedMarker : str);
	handles.finish(passHandle);
	return str;
    }
    
    /**
     * Reads in and returns array object, or null if array class is
     * unresolvable.  Sets passHandle to array's assigned handle.
     */
    private Object readArray(boolean unshared) throws IOException {
	if (bin.readByte() != TC_ARRAY) {
	    throw new InternalError();
	}

	ObjectStreamClass desc = readClassDesc(false);
	int len = bin.readInt();
	
	Object array = null;
	Class cl, ccl = null;
	if ((cl = desc.forClass()) != null) {
	    ccl = cl.getComponentType();
	    array = Array.newInstance(ccl, len);
	}

	int arrayHandle = handles.assign(unshared ? unsharedMarker : array);
	ClassNotFoundException resolveEx = desc.getResolveException();
	if (resolveEx != null) {
	    handles.markException(arrayHandle, resolveEx);
	}
	
	if (ccl == null) {
	    for (int i = 0; i < len; i++) {
		readObject0(false);
	    }
	} else if (ccl.isPrimitive()) {
	    if (ccl == Integer.TYPE) {
		bin.readInts((int[]) array, 0, len);
	    } else if (ccl == Byte.TYPE) {
		bin.readFully((byte[]) array, 0, len, true);
	    } else if (ccl == Long.TYPE) {
		bin.readLongs((long[]) array, 0, len);
	    } else if (ccl == Float.TYPE) {
		bin.readFloats((float[]) array, 0, len);
	    } else if (ccl == Double.TYPE) {
		bin.readDoubles((double[]) array, 0, len);
	    } else if (ccl == Short.TYPE) {
		bin.readShorts((short[]) array, 0, len);
	    } else if (ccl == Character.TYPE) {
		bin.readChars((char[]) array, 0, len);
	    } else if (ccl == Boolean.TYPE) {
		bin.readBooleans((boolean[]) array, 0, len);
	    } else {
		throw new InternalError();
	    }
	} else {
	    Object[] oa = (Object[]) array;
	    for (int i = 0; i < len; i++) {
		oa[i] = readObject0(false);
		handles.markDependency(arrayHandle, passHandle);
	    }
	}
	
	handles.finish(arrayHandle);
	passHandle = arrayHandle;
	return array;
    }

    /**
     * Reads in and returns enum constant, or null if enum type is
     * unresolvable.  Sets passHandle to enum constant's assigned handle.
     */
    private Enum readEnum(boolean unshared) throws IOException {
	if (bin.readByte() != TC_ENUM) {
	    throw new InternalError();
	}

	ObjectStreamClass desc = readClassDesc(false);
	if (!desc.isEnum()) {
	    throw new InvalidClassException("non-enum class: " + desc);
	}

	int enumHandle = handles.assign(unshared ? unsharedMarker : null);
	ClassNotFoundException resolveEx = desc.getResolveException();
	if (resolveEx != null) {
	    handles.markException(enumHandle, resolveEx);
	}

	String name = readString(false);
	Enum en = null;
	Class cl = desc.forClass();
	if (cl != null) {
	    try {
		en = Enum.valueOf(cl, name);
	    } catch (IllegalArgumentException ex) {
		throw (IOException) new InvalidObjectException(
		    "enum constant " + name + " does not exist in " +
		    cl).initCause(ex);
	    }
	    if (!unshared) {
		handles.setObject(enumHandle, en);
	    }
	}

	handles.finish(enumHandle);
	passHandle = enumHandle;
	return en;
    }
    
    /**
     * Reads and returns "ordinary" (i.e., not a String, Class,
     * ObjectStreamClass, array, or enum constant) object, or null if object's
     * class is unresolvable (in which case a ClassNotFoundException will be
     * associated with object's handle).  Sets passHandle to object's assigned
     * handle.
     */
    private Object readOrdinaryObject(boolean unshared) 
	throws IOException 
    {
	if (bin.readByte() != TC_OBJECT) {
	    throw new InternalError();
	}

	ObjectStreamClass desc = readClassDesc(false);
	desc.checkDeserialize();

	Object obj;
	try {
	    obj = desc.isInstantiable() ? desc.newInstance() : null;
	} catch (Exception ex) {
	    throw (IOException) new InvalidClassException(
		desc.forClass().getName(), 
		"unable to create instance").initCause(ex);
	}

	passHandle = handles.assign(unshared ? unsharedMarker : obj);
	ClassNotFoundException resolveEx = desc.getResolveException();
	if (resolveEx != null) {
	    handles.markException(passHandle, resolveEx);
	}
	
	if (desc.isExternalizable()) {
	    readExternalData((Externalizable) obj, desc);
	} else {
	    readSerialData(obj, desc);
	}

	handles.finish(passHandle);
	
	if (obj != null && 
	    handles.lookupException(passHandle) == null &&
	    desc.hasReadResolveMethod())
	{
	    Object rep = desc.invokeReadResolve(obj);
	    if (unshared && rep.getClass().isArray()) {
		rep = cloneArray(rep);
	    }
	    if (rep != obj) {
		handles.setObject(passHandle, obj = rep);
	    }
	}

	return obj;
    }
    
    /**
     * If obj is non-null, reads externalizable data by invoking readExternal()
     * method of obj; otherwise, attempts to skip over externalizable data.
     * Expects that passHandle is set to obj's handle before this method is
     * called.
     */
    private void readExternalData(Externalizable obj, ObjectStreamClass desc) 
	throws IOException 
    {
	CallbackContext oldContext = curContext;
	curContext = null;	

	boolean blocked = desc.hasBlockExternalData();
	if (blocked) {
	    bin.setBlockDataMode(true);
	}
	if (obj != null) {
	    try {
		obj.readExternal(this);
	    } catch (ClassNotFoundException ex) {
		/*
		 * In most cases, the handle table has already propagated a
		 * CNFException to passHandle at this point; this mark call is
		 * included to address cases where the readExternal method has
		 * cons'ed and thrown a new CNFException of its own.
		 */
		handles.markException(passHandle, ex);
	    }
	}
	if (blocked) {
	    skipCustomData();
	}
	
	/*
	 * At this point, if the externalizable data was not written in
	 * block-data form and either the externalizable class doesn't exist
	 * locally (i.e., obj == null) or readExternal() just threw a
	 * CNFException, then the stream is probably in an inconsistent state,
	 * since some (or all) of the externalizable data may not have been
	 * consumed.  Since there's no "correct" action to take in this case,
	 * we mimic the behavior of past serialization implementations and
	 * blindly hope that the stream is in sync; if it isn't and additional
	 * externalizable data remains in the stream, a subsequent read will
	 * most likely throw a StreamCorruptedException.
	 */

	curContext = oldContext;
    }
    
    /**
     * Reads (or attempts to skip, if obj is null or is tagged with a
     * ClassNotFoundException) instance data for each serializable class of
     * object in stream, from superclass to subclass.  Expects that passHandle
     * is set to obj's handle before this method is called.
     */
    private void readSerialData(Object obj, ObjectStreamClass desc)
	throws IOException
    {
	ObjectStreamClass.ClassDataSlot[] slots = desc.getClassDataLayout();
	for (int i = 0; i < slots.length; i++) {
	    ObjectStreamClass slotDesc = slots[i].desc;
	    
	    if (slots[i].hasData) {
		if (obj != null && 
		    slotDesc.hasReadObjectMethod() &&
		    handles.lookupException(passHandle) == null) 
		{
		    CallbackContext oldContext = curContext;
		    curContext = new CallbackContext(obj, slotDesc);

		    bin.setBlockDataMode(true);
		    try {
			slotDesc.invokeReadObject(obj, this);
		    } catch (ClassNotFoundException ex) {
			/*
			 * In most cases, the handle table has already
			 * propagated a CNFException to passHandle at this
			 * point; this mark call is included to address cases
			 * where the custom readObject method has cons'ed and
			 * thrown a new CNFException of its own.
			 */
			handles.markException(passHandle, ex);
		    } finally {
			curContext.setUsed();
		    }
		    
		    curContext = oldContext;

		    /*
		     * defaultDataEnd may have been set indirectly by custom
		     * readObject() method when calling defaultReadObject() or
		     * readFields(); clear it to restore normal read behavior.
		     */
		    defaultDataEnd = false;
		} else {
		    defaultReadFields(obj, slotDesc);
		}
		if (slotDesc.hasWriteObjectData()) {
		    skipCustomData();
		} else {
		    bin.setBlockDataMode(false);
		}
	    } else {
		if (obj != null && 
		    slotDesc.hasReadObjectNoDataMethod() &&
		    handles.lookupException(passHandle) == null)
		{
		    slotDesc.invokeReadObjectNoData(obj);
		}
	    }
	}
    }
    
    /**
     * Skips over all block data and objects until TC_ENDBLOCKDATA is
     * encountered.
     */
    private void skipCustomData() throws IOException {
	int oldHandle = passHandle;
	for (;;) {
	    if (bin.getBlockDataMode()) {
		bin.skipBlockData();
		bin.setBlockDataMode(false);
	    }
	    switch (bin.peekByte()) {
		case TC_BLOCKDATA:
		case TC_BLOCKDATALONG:
		    bin.setBlockDataMode(true);
		    break;
		    
		case TC_ENDBLOCKDATA:
		    bin.readByte();
		    passHandle = oldHandle;
		    return;
		    
		default:
		    readObject0(false);
		    break;
	    }
	}
    }

    /**
     * Reads in values of serializable fields declared by given class
     * descriptor.  If obj is non-null, sets field values in obj.  Expects that
     * passHandle is set to obj's handle before this method is called.
     */
    private void defaultReadFields(Object obj, ObjectStreamClass desc)
	throws IOException
    {
	// REMIND: is isInstance check necessary?
	Class cl = desc.forClass();
	if (cl != null && obj != null && !cl.isInstance(obj)) {
	    throw new ClassCastException();
	}

	int primDataSize = desc.getPrimDataSize();
	if (primVals == null || primVals.length < primDataSize) {
	    primVals = new byte[primDataSize];
	}
	bin.readFully(primVals, 0, primDataSize, false);
	if (obj != null) {
	    desc.setPrimFieldValues(obj, primVals);
	}
	
	int objHandle = passHandle;
	ObjectStreamField[] fields = desc.getFields(false);
	Object[] objVals = new Object[desc.getNumObjFields()];
	int numPrimFields = fields.length - objVals.length;
	for (int i = 0; i < objVals.length; i++) {
	    ObjectStreamField f = fields[numPrimFields + i];
	    objVals[i] = readObject0(f.isUnshared());
	    if (f.getField() != null) {
		handles.markDependency(objHandle, passHandle);
	    }
	}
	if (obj != null) {
	    desc.setObjFieldValues(obj, objVals);
	}
	passHandle = objHandle;
    }

    /**
     * Reads in and returns IOException that caused serialization to abort.
     * All stream state is discarded prior to reading in fatal exception.  Sets
     * passHandle to fatal exception's handle.
     */
    private IOException readFatalException() throws IOException {
	if (bin.readByte() != TC_EXCEPTION) {
	    throw new InternalError();
	}
	clear();
	return (IOException) readObject0(false);
    }
    
    /**
     * If recursion depth is 0, clears internal data structures; otherwise,
     * throws a StreamCorruptedException.  This method is called when a
     * TC_RESET typecode is encountered.
     */
    private void handleReset() throws StreamCorruptedException {
	if (depth > 0) {
	    throw new StreamCorruptedException(
		"unexpected reset; recursion depth: " + depth);
	}
	clear();
    }

    /**
     * Converts specified span of bytes into float values.
     */
    // REMIND: remove once hotspot inlines Float.intBitsToFloat
    private static native void bytesToFloats(byte[] src, int srcpos,
					     float[] dst, int dstpos, 
					     int nfloats);

    /**
     * Converts specified span of bytes into double values.
     */
    // REMIND: remove once hotspot inlines Double.longBitsToDouble
    private static native void bytesToDoubles(byte[] src, int srcpos,
					      double[] dst, int dstpos, 
					      int ndoubles);
    
    /**
     * Returns the first non-null class loader (not counting class loaders of
     * generated reflection implementation classes) up the execution stack, or
     * null if only code from the null class loader is on the stack.  This
     * method is also called via reflection by the following RMI-IIOP class:
     * 
     *     com.sun.corba.se.internal.util.JDKClassLoader
     *     
     * This method should not be removed or its signature changed without
     * corresponding modifications to the above class.
     */
    // REMIND: change name to something more accurate?
    private static native ClassLoader latestUserDefinedLoader();

    /**
     * Default GetField implementation.
     */
    private class GetFieldImpl extends GetField {
 
	/** class descriptor describing serializable fields */
	private final ObjectStreamClass desc;
	/** primitive field values */
	private final byte[] primVals;
	/** object field values */
	private final Object[] objVals;
	/** object field value handles */
	private final int[] objHandles;

	/**
	 * Creates GetFieldImpl object for reading fields defined in given
	 * class descriptor.
	 */
	GetFieldImpl(ObjectStreamClass desc) {
	    this.desc = desc;
	    primVals = new byte[desc.getPrimDataSize()];
	    objVals = new Object[desc.getNumObjFields()];
	    objHandles = new int[objVals.length];
	}

 	public ObjectStreamClass getObjectStreamClass() {
	    return desc;
	}
 
 	public boolean defaulted(String name) throws IOException {
	    return (getFieldOffset(name, null) < 0);
	}
 
	public boolean get(String name, boolean val) throws IOException {
	    int off = getFieldOffset(name, Boolean.TYPE);
	    return (off >= 0) ? Bits.getBoolean(primVals, off) : val;
	}
 
	public byte get(String name, byte val) throws IOException {
	    int off = getFieldOffset(name, Byte.TYPE);
	    return (off >= 0) ? primVals[off] : val;
	}
 
	public char get(String name, char val) throws IOException {
	    int off = getFieldOffset(name, Character.TYPE);
	    return (off >= 0) ? Bits.getChar(primVals, off) : val;
	}
 
	public short get(String name, short val) throws IOException {
	    int off = getFieldOffset(name, Short.TYPE);
	    return (off >= 0) ? Bits.getShort(primVals, off) : val;
	}
 
	public int get(String name, int val) throws IOException {
	    int off = getFieldOffset(name, Integer.TYPE);
	    return (off >= 0) ? Bits.getInt(primVals, off) : val;
	}
 
	public float get(String name, float val) throws IOException {
	    int off = getFieldOffset(name, Float.TYPE);
	    return (off >= 0) ? Bits.getFloat(primVals, off) : val;
	}
 
	public long get(String name, long val) throws IOException {
	    int off = getFieldOffset(name, Long.TYPE);
	    return (off >= 0) ? Bits.getLong(primVals, off) : val;
	}
 
	public double get(String name, double val) throws IOException {
	    int off = getFieldOffset(name, Double.TYPE);
	    return (off >= 0) ? Bits.getDouble(primVals, off) : val;
	}
 
	public Object get(String name, Object val) throws IOException {
	    int off = getFieldOffset(name, Object.class);
	    if (off >= 0) {
		int objHandle = objHandles[off];
		handles.markDependency(passHandle, objHandle);
		return (handles.lookupException(objHandle) == null) ?
		    objVals[off] : null;
	    } else {
		return val;
	    }
	}

	/**
	 * Reads primitive and object field values from stream.
	 */
	void readFields() throws IOException {
	    bin.readFully(primVals, 0, primVals.length, false);
	    
	    int oldHandle = passHandle;
	    ObjectStreamField[] fields = desc.getFields(false);
	    int numPrimFields = fields.length - objVals.length;
	    for (int i = 0; i < objVals.length; i++) {
		objVals[i] = 
		    readObject0(fields[numPrimFields + i].isUnshared());
		objHandles[i] = passHandle;
	    }
	    passHandle = oldHandle;
	}
	
	/**
	 * Returns offset of field with given name and type.  A specified type
	 * of null matches all types, Object.class matches all non-primitive
	 * types, and any other non-null type matches assignable types only.
	 * If no matching field is found in the (incoming) class
	 * descriptor but a matching field is present in the associated local
	 * class descriptor, returns -1.  Throws IllegalArgumentException if
	 * neither incoming nor local class descriptor contains a match.
	 */
	private int getFieldOffset(String name, Class type) {
	    ObjectStreamField field = desc.getField(name, type);
	    if (field != null) {
		return field.getOffset();
	    } else if (desc.getLocalDesc().getField(name, type) != null) {
		return -1;
	    } else {
		throw new IllegalArgumentException("no such field " + name + 
						   " with type " + type);
	    }
	}
    }
 
    /**
     * Prioritized list of callbacks to be performed once object graph has been
     * completely deserialized.
     */
    private static class ValidationList {

	private static class Callback {
	    final ObjectInputValidation obj;
	    final int priority;
	    Callback next;
	    final AccessControlContext acc;	
	    
	    Callback(ObjectInputValidation obj, int priority, Callback next,
		AccessControlContext acc) 
	    {
		this.obj = obj;
		this.priority = priority;
		this.next = next;
		this.acc = acc;
	    }
	}
	
	/** linked list of callbacks */
	private Callback list;

	/**
	 * Creates new (empty) ValidationList.
	 */
	ValidationList() {
	}
	
	/**
	 * Registers callback.  Throws InvalidObjectException if callback
	 * object is null.
	 */
	void register(ObjectInputValidation obj, int priority)
	    throws InvalidObjectException
	{
	    if (obj == null) {
		throw new InvalidObjectException("null callback");
	    }
	    
	    Callback prev = null, cur = list;
	    while (cur != null && priority < cur.priority) {
		prev = cur;
		cur = cur.next;
	    }
	    AccessControlContext acc = AccessController.getContext();
	    if (prev != null) {
		prev.next = new Callback(obj, priority, cur, acc);
	    } else {
		list = new Callback(obj, priority, list, acc);
	    }
	}
	
	/**
	 * Invokes all registered callbacks and clears the callback list.
	 * Callbacks with higher priorities are called first; those with equal
	 * priorities may be called in any order.  If any of the callbacks
	 * throws an InvalidObjectException, the callback process is terminated
	 * and the exception propagated upwards.
	 */
	void doCallbacks() throws InvalidObjectException {
	    try {
	    	while (list != null) {
		    AccessController.doPrivileged(
			new PrivilegedExceptionAction() 
		    {
        	    	public Object run() throws InvalidObjectException {
                	    list.obj.validateObject();
			    return null;
	            	}
		    }, list.acc);
		    list = list.next;
	        }
	    } catch (PrivilegedActionException ex) {
		list = null;
		throw (InvalidObjectException) ex.getException();
	    }
	}
	
	/**
	 * Resets the callback list to its initial (empty) state.
	 */
	public void clear() {
	    list = null;
	}
    }
    
    /**
     * Input stream supporting single-byte peek operations.
     */
    private static class PeekInputStream extends InputStream {

	/** underlying stream */
	private final InputStream in;
	/** peeked byte */
	private int peekb = -1;

	/**
	 * Creates new PeekInputStream on top of given underlying stream.
	 */
	PeekInputStream(InputStream in) {
	    this.in = in;
	}

	/**
	 * Peeks at next byte value in stream.  Similar to read(), except
	 * that it does not consume the read value.
	 */
	int peek() throws IOException {
	    return (peekb >= 0) ? peekb : (peekb = in.read());
	}

	public int read() throws IOException {
	    if (peekb >= 0) {
		int v = peekb;
		peekb = -1;
		return v;
	    } else {
		return in.read();
	    }
	}

	public int read(byte[] b, int off, int len) throws IOException {
	    if (len == 0) {
		return 0;
	    } else if (peekb < 0) {
		return in.read(b, off, len);
	    } else {
		b[off++] = (byte) peekb;
		len--;
		peekb = -1;
		int n = in.read(b, off, len);
		return (n >= 0) ? (n + 1) : 1;
	    }
	}

	void readFully(byte[] b, int off, int len) throws IOException {
	    int n = 0;
	    while (n < len) {
		int count = read(b, off + n, len - n);
		if (count < 0) {
		    throw new EOFException();
		}
		n += count;
	    }
	}

	public long skip(long n) throws IOException {
	    if (n <= 0) {
		return 0;
	    }
	    int skipped = 0;
	    if (peekb >= 0) {
		peekb = -1;
		skipped++;
		n--;
	    }
	    return skipped + skip(n);
	}

	public int available() throws IOException {
	    return in.available() + ((peekb >= 0) ? 1 : 0);
	}

	public void close() throws IOException {
	    in.close();
	}
    }

    /**
     * Input stream with two modes: in default mode, inputs data written in the
     * same format as DataOutputStream; in "block data" mode, inputs data
     * bracketed by block data markers (see object serialization specification
     * for details).  Buffering depends on block data mode: when in default
     * mode, no data is buffered in advance; when in block data mode, all data
     * for the current data block is read in at once (and buffered).
     */
    private class BlockDataInputStream 
	extends InputStream implements DataInput
    {
	/** maximum data block length */
	private static final int MAX_BLOCK_SIZE = 1024;
	/** maximum data block header length */
	private static final int MAX_HEADER_SIZE = 5;
	/** (tunable) length of char buffer (for reading strings) */
	private static final int CHAR_BUF_SIZE = 256;
	/** readBlockHeader() return value indicating header read may block */
	private static final int HEADER_BLOCKED = -2;

	/** buffer for reading general/block data */
	private final byte[] buf = new byte[MAX_BLOCK_SIZE];
	/** buffer for reading block data headers */
	private final byte[] hbuf = new byte[MAX_HEADER_SIZE];
	/** char buffer for fast string reads */
	private final char[] cbuf = new char[CHAR_BUF_SIZE];

	/** block data mode */
	private boolean blkmode = false;

	// block data state fields; values meaningful only when blkmode true
	/** current offset into buf */
	private int pos = 0;
	/** end offset of valid data in buf, or -1 if no more block data */
	private int end = -1;
	/** number of bytes in current block yet to be read from stream */
	private int unread = 0;

	/** underlying stream (wrapped in peekable filter stream) */
	private final PeekInputStream in;
	/** loopback stream (for data reads that span data blocks) */
	private final DataInputStream din;

	/**
	 * Creates new BlockDataInputStream on top of given underlying stream.
	 * Block data mode is turned off by default.
	 */
	BlockDataInputStream(InputStream in) {
	    this.in = new PeekInputStream(in);
	    din = new DataInputStream(this);
	}

	/**
	 * Sets block data mode to the given mode (true == on, false == off)
	 * and returns the previous mode value.  If the new mode is the same as
	 * the old mode, no action is taken.  Throws IllegalStateException if
	 * block data mode is being switched from on to off while unconsumed
	 * block data is still present in the stream.
	 */
	boolean setBlockDataMode(boolean newmode) throws IOException {
	    if (blkmode == newmode) {
		return blkmode;
	    }
	    if (newmode) {
		pos = 0;
		end = 0;
		unread = 0;
	    } else if (pos < end) {
		throw new IllegalStateException("unread block data");
	    }
	    blkmode = newmode;
	    return !blkmode;
	}

	/**
	 * Returns true if the stream is currently in block data mode, false
	 * otherwise.
	 */
	boolean getBlockDataMode() {
	    return blkmode;
	}

	/**
	 * If in block data mode, skips to the end of the current group of data
	 * blocks (but does not unset block data mode).  If not in block data
	 * mode, throws an IllegalStateException.
	 */
	void skipBlockData() throws IOException {
	    if (!blkmode) {
		throw new IllegalStateException("not in block data mode");
	    }
	    while (end >= 0) {
		refill();
	    }
	}

	/**
	 * Attempts to read in the next block data header (if any).  If
	 * canBlock is false and a full header cannot be read without possibly
	 * blocking, returns HEADER_BLOCKED, else if the next element in the
	 * stream is a block data header, returns the block data length
	 * specified by the header, else returns -1.
	 */
	private int readBlockHeader(boolean canBlock) throws IOException {
	    if (defaultDataEnd) {
		/*
		 * Fix for 4360508: stream is currently at the end of a field
		 * value block written via default serialization; since there
		 * is no terminating TC_ENDBLOCKDATA tag, simulate
		 * end-of-custom-data behavior explicitly.
		 */
		return -1;
	    }
	    try {
		for (;;) {
		    int avail = canBlock ? Integer.MAX_VALUE : in.available();
		    if (avail == 0) {
			return HEADER_BLOCKED;
		    }
		    
		    int tc = in.peek();
		    switch (tc) {
			case TC_BLOCKDATA:
			    if (avail < 2) {
				return HEADER_BLOCKED;
			    }
			    in.readFully(hbuf, 0, 2);
			    return hbuf[1] & 0xFF;
			    
			case TC_BLOCKDATALONG:
			    if (avail < 5) {
				return HEADER_BLOCKED;
			    }
			    in.readFully(hbuf, 0, 5);
			    int len = Bits.getInt(hbuf, 1);
			    if (len < 0) {
				throw new StreamCorruptedException(
				    "illegal block data header length: " + 
				    len);
			    }
			    return len;

			/*
			 * TC_RESETs may occur in between data blocks.
			 * Unfortunately, this case must be parsed at a lower
			 * level than other typecodes, since primitive data
			 * reads may span data blocks separated by a TC_RESET.
			 */
			case TC_RESET:
			    in.read();
			    handleReset();
			    break;

			default:
			    if (tc >= 0 && (tc < TC_BASE || tc > TC_MAX)) {
				throw new StreamCorruptedException(
				    String.format("invalid type code: %02X", 
				    tc));
			    }
			    return -1;
		    }
		}
	    } catch (EOFException ex) {
		throw new StreamCorruptedException(
		    "unexpected EOF while reading block data header");
	    }
	}

	/**
	 * Refills internal buffer buf with block data.  Any data in buf at the
	 * time of the call is considered consumed.  Sets the pos, end, and
	 * unread fields to reflect the new amount of available block data; if
	 * the next element in the stream is not a data block, sets pos and
	 * unread to 0 and end to -1.
	 */
	private void refill() throws IOException {
	    try {
		do {
		    pos = 0;
		    if (unread > 0) {
			int n = 
			    in.read(buf, 0, Math.min(unread, MAX_BLOCK_SIZE));
			if (n >= 0) {
			    end = n;
			    unread -= n;
			} else {
			    throw new StreamCorruptedException(
				"unexpected EOF in middle of data block");
			}
		    } else {
			int n = readBlockHeader(true);
			if (n >= 0) {
			    end = 0;
			    unread = n;
			} else {
			    end = -1;
			    unread = 0;
			}
		    }
		} while (pos == end);
	    } catch (IOException ex) {
		pos = 0;
		end = -1;
		unread = 0;
		throw ex;
	    }
	}
	
	/**
	 * If in block data mode, returns the number of unconsumed bytes
	 * remaining in the current data block.  If not in block data mode,
	 * throws an IllegalStateException.
	 */
	int currentBlockRemaining() {
	    if (blkmode) {
		return (end >= 0) ? (end - pos) + unread : 0;
	    } else {
		throw new IllegalStateException();
	    }
	}

	/**
	 * Peeks at (but does not consume) and returns the next byte value in
	 * the stream, or -1 if the end of the stream/block data (if in block
	 * data mode) has been reached.
	 */
	int peek() throws IOException {
	    if (blkmode) {
		if (pos == end) {
		    refill();
		}
		return (end >= 0) ? (buf[pos] & 0xFF) : -1;
	    } else {
		return in.peek();
	    }
	}

	/**
	 * Peeks at (but does not consume) and returns the next byte value in
	 * the stream, or throws EOFException if end of stream/block data has
	 * been reached.
	 */
	byte peekByte() throws IOException {
	    int val = peek();
	    if (val < 0) {
		throw new EOFException();
	    }
	    return (byte) val;
	}


	/* ----------------- generic input stream methods ------------------ */
	/*
	 * The following methods are equivalent to their counterparts in
	 * InputStream, except that they interpret data block boundaries and
	 * read the requested data from within data blocks when in block data
	 * mode.
	 */

	public int read() throws IOException {
	    if (blkmode) {
		if (pos == end) {
		    refill();
		}
		return (end >= 0) ? (buf[pos++] & 0xFF) : -1;
	    } else {
		return in.read();
	    }
	}

	public int read(byte[] b, int off, int len) throws IOException {
	    return read(b, off, len, false);
	}

	public long skip(long len) throws IOException {
	    long remain = len;
	    while (remain > 0) {
		if (blkmode) {
		    if (pos == end) {
			refill();
		    }
		    if (end < 0) {
			break;
		    }
		    int nread = (int) Math.min(remain, end - pos);
		    remain -= nread;
		    pos += nread;
		} else {
		    int nread = (int) Math.min(remain, MAX_BLOCK_SIZE);
		    if ((nread = in.read(buf, 0, nread)) < 0) {
			break;
		    }
		    remain -= nread;
		}
	    }
	    return len - remain;
	}

	public int available() throws IOException {
	    if (blkmode) {
		if ((pos == end) && (unread == 0)) {
		    int n;
		    while ((n = readBlockHeader(false)) == 0) ;
		    switch (n) {
			case HEADER_BLOCKED:
			    break;
			    
			case -1:
			    pos = 0;
			    end = -1;
			    break;
			    
			default:
			    pos = 0;
			    end = 0;
			    unread = n;
			    break;
		    }
		}
		// avoid unnecessary call to in.available() if possible
		int unreadAvail = (unread > 0) ?
		    Math.min(in.available(), unread) : 0;
		return (end >= 0) ? (end - pos) + unreadAvail : 0;
	    } else {
		return in.available();
	    }
	}

	public void close() throws IOException {
	    if (blkmode) {
		pos = 0;
		end = -1;
		unread = 0;
	    }
	    in.close();
	}

	/**
	 * Attempts to read len bytes into byte array b at offset off.  Returns
	 * the number of bytes read, or -1 if the end of stream/block data has
	 * been reached.  If copy is true, reads values into an intermediate
	 * buffer before copying them to b (to avoid exposing a reference to
	 * b).
	 */
	int read(byte[] b, int off, int len, boolean copy) throws IOException {
	    if (len == 0) {
		return 0;
	    } else if (blkmode) {
		if (pos == end) {
		    refill();
		}
		if (end < 0) {
		    return -1;
		}
		int nread = Math.min(len, end - pos);
		System.arraycopy(buf, pos, b, off, nread);
		pos += nread;
		return nread;
	    } else if (copy) {
		int nread = in.read(buf, 0, Math.min(len, MAX_BLOCK_SIZE));
		if (nread > 0) {
		    System.arraycopy(buf, 0, b, off, nread);
		}
		return nread;
	    } else {
		return in.read(b, off, len);
	    }
	}

	/* ----------------- primitive data input methods ------------------ */
	/*
	 * The following methods are equivalent to their counterparts in
	 * DataInputStream, except that they interpret data block boundaries
	 * and read the requested data from within data blocks when in block
	 * data mode.
	 */

	public void readFully(byte[] b) throws IOException {
	    readFully(b, 0, b.length, false);
	}

	public void readFully(byte[] b, int off, int len) throws IOException {
	    readFully(b, off, len, false);
	}

	public void readFully(byte[] b, int off, int len, boolean copy)
	    throws IOException
	{
	    while (len > 0) {
		int n = read(b, off, len, copy);
		if (n < 0) {
		    throw new EOFException();
		}
		off += n;
		len -= n;
	    }
	}

	public int skipBytes(int n) throws IOException {
	    return din.skipBytes(n);
	}

	public boolean readBoolean() throws IOException {
	    int v = read();
	    if (v < 0) {
		throw new EOFException();
	    }
	    return (v != 0);
	}

	public byte readByte() throws IOException {
	    int v = read();
	    if (v < 0) {
		throw new EOFException();
	    }
	    return (byte) v;
	}

	public int readUnsignedByte() throws IOException {
	    int v = read();
	    if (v < 0) {
		throw new EOFException();
	    }
	    return v;
	}

	public char readChar() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 2);
	    } else if (end - pos < 2) {
		return din.readChar();
	    }
	    char v = Bits.getChar(buf, pos);
	    pos += 2;
	    return v;
	}

	public short readShort() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 2);
	    } else if (end - pos < 2) {
		return din.readShort();
	    }
	    short v = Bits.getShort(buf, pos);
	    pos += 2;
	    return v;
	}

	public int readUnsignedShort() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 2);
	    } else if (end - pos < 2) {
		return din.readUnsignedShort();
	    }
	    int v = Bits.getShort(buf, pos) & 0xFFFF;
	    pos += 2;
	    return v;
	}

	public int readInt() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 4);
	    } else if (end - pos < 4) {
		return din.readInt();
	    }
	    int v = Bits.getInt(buf, pos);
	    pos += 4;
	    return v;
	}

	public float readFloat() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 4);
	    } else if (end - pos < 4) {
		return din.readFloat();
	    }
	    float v = Bits.getFloat(buf, pos);
	    pos += 4;
	    return v;
	}

	public long readLong() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 8);
	    } else if (end - pos < 8) {
		return din.readLong();
	    }
	    long v = Bits.getLong(buf, pos);
	    pos += 8;
	    return v;
	}

	public double readDouble() throws IOException {
	    if (!blkmode) {
		pos = 0;
		in.readFully(buf, 0, 8);
	    } else if (end - pos < 8) {
		return din.readDouble();
	    }
	    double v = Bits.getDouble(buf, pos);
	    pos += 8;
	    return v;
	}

	public String readUTF() throws IOException {
	    return readUTFBody(readUnsignedShort());
	}

	public String readLine() throws IOException {
	    return din.readLine();	// deprecated, not worth optimizing
	}
	
	/* -------------- primitive data array input methods --------------- */
	/*
	 * The following methods read in spans of primitive data values.
	 * Though equivalent to calling the corresponding primitive read
	 * methods repeatedly, these methods are optimized for reading groups
	 * of primitive data values more efficiently.
	 */

	void readBooleans(boolean[] v, int off, int len) throws IOException {
	    int stop, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    int span = Math.min(endoff - off, MAX_BLOCK_SIZE);
		    in.readFully(buf, 0, span);
		    stop = off + span;
		    pos = 0;
		} else if (end - pos < 1) {
		    v[off++] = din.readBoolean();
		    continue;
		} else {
		    stop = Math.min(endoff, off + end - pos);
		}

		while (off < stop) {
		    v[off++] = Bits.getBoolean(buf, pos++);
		}
	    }
	}

	void readChars(char[] v, int off, int len) throws IOException {
	    int stop, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    int span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 1);
		    in.readFully(buf, 0, span << 1);
		    stop = off + span;
		    pos = 0;
		} else if (end - pos < 2) {
		    v[off++] = din.readChar();
		    continue;
		} else {
		    stop = Math.min(endoff, off + ((end - pos) >> 1));
		}
		
		while (off < stop) {
		    v[off++] = Bits.getChar(buf, pos);
		    pos += 2;
		}
	    }
	}

	void readShorts(short[] v, int off, int len) throws IOException {
	    int stop, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    int span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 1);
		    in.readFully(buf, 0, span << 1);
		    stop = off + span;
		    pos = 0;
		} else if (end - pos < 2) {
		    v[off++] = din.readShort();
		    continue;
		} else {
		    stop = Math.min(endoff, off + ((end - pos) >> 1));
		}
		
		while (off < stop) {
		    v[off++] = Bits.getShort(buf, pos);
		    pos += 2;
		}
	    }
	}

	void readInts(int[] v, int off, int len) throws IOException {
	    int stop, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    int span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 2);
		    in.readFully(buf, 0, span << 2);
		    stop = off + span;
		    pos = 0;
		} else if (end - pos < 4) {
		    v[off++] = din.readInt();
		    continue;
		} else {
		    stop = Math.min(endoff, off + ((end - pos) >> 2));
		}
		
		while (off < stop) {
		    v[off++] = Bits.getInt(buf, pos);
		    pos += 4;
		}
	    }
	}

	void readFloats(float[] v, int off, int len) throws IOException {
	    int span, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 2);
		    in.readFully(buf, 0, span << 2);
		    pos = 0;
		} else if (end - pos < 4) {
		    v[off++] = din.readFloat();
		    continue;
		} else {
		    span = Math.min(endoff - off, ((end - pos) >> 2));
		}
		
		bytesToFloats(buf, pos, v, off, span);
		off += span;
		pos += span << 2;
	    }
	}

	void readLongs(long[] v, int off, int len) throws IOException {
	    int stop, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    int span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 3);
		    in.readFully(buf, 0, span << 3);
		    stop = off + span;
		    pos = 0;
		} else if (end - pos < 8) {
		    v[off++] = din.readLong();
		    continue;
		} else {
		    stop = Math.min(endoff, off + ((end - pos) >> 3));
		}
		
		while (off < stop) {
		    v[off++] = Bits.getLong(buf, pos);
		    pos += 8;
		}
	    }
	}

	void readDoubles(double[] v, int off, int len) throws IOException {
	    int span, endoff = off + len;
	    while (off < endoff) {
		if (!blkmode) {
		    span = Math.min(endoff - off, MAX_BLOCK_SIZE >> 3);
		    in.readFully(buf, 0, span << 3);
		    pos = 0;
		} else if (end - pos < 8) {
		    v[off++] = din.readDouble();
		    continue;
		} else {
		    span = Math.min(endoff - off, ((end - pos) >> 3));
		}
		
		bytesToDoubles(buf, pos, v, off, span);
		off += span;
		pos += span << 3;
	    }
	}

	/**
	 * Reads in string written in "long" UTF format.  "Long" UTF format is
	 * identical to standard UTF, except that it uses an 8 byte header
	 * (instead of the standard 2 bytes) to convey the UTF encoding length.
	 */
	String readLongUTF() throws IOException {
	    return readUTFBody(readLong());
	}

	/**
	 * Reads in the "body" (i.e., the UTF representation minus the 2-byte
	 * or 8-byte length header) of a UTF encoding, which occupies the next
	 * utflen bytes.
	 */
	private String readUTFBody(long utflen) throws IOException {
	    StringBuilder sbuf = new StringBuilder();
	    if (!blkmode) {
		end = pos = 0;
	    }

	    while (utflen > 0) {
		int avail = end - pos;
		if (avail >= 3 || (long) avail == utflen) {
		    utflen -= readUTFSpan(sbuf, utflen);
		} else {
		    if (blkmode) {
			// near block boundary, read one byte at a time
			utflen -= readUTFChar(sbuf, utflen);
		    } else {
			// shift and refill buffer manually
			if (avail > 0) {
			    System.arraycopy(buf, pos, buf, 0, avail);
			}
			pos = 0;
			end = (int) Math.min(MAX_BLOCK_SIZE, utflen);
			in.readFully(buf, avail, end - avail);
		    }
		}
	    }

	    return sbuf.toString();
	}

	/**
	 * Reads span of UTF-encoded characters out of internal buffer
	 * (starting at offset pos and ending at or before offset end),
	 * consuming no more than utflen bytes.  Appends read characters to
	 * sbuf.  Returns the number of bytes consumed.
	 */
	private long readUTFSpan(StringBuilder sbuf, long utflen) 
	    throws IOException
	{
	    int cpos = 0;
	    int start = pos;
	    int avail = Math.min(end - pos, CHAR_BUF_SIZE);
	    // stop short of last char unless all of utf bytes in buffer
	    int stop = pos + ((utflen > avail) ? avail - 2 : (int) utflen);
	    boolean outOfBounds = false;

	    try {
		while (pos < stop) {
		    int b1, b2, b3;
		    b1 = buf[pos++] & 0xFF;
		    switch (b1 >> 4) {
			case 0:
			case 1:
			case 2:
			case 3:
			case 4:
			case 5:
			case 6:
			case 7:	  // 1 byte format: 0xxxxxxx
			    cbuf[cpos++] = (char) b1;
			    break;

			case 12:
			case 13:  // 2 byte format: 110xxxxx 10xxxxxx
			    b2 = buf[pos++];
			    if ((b2 & 0xC0) != 0x80) {
				throw new UTFDataFormatException();
			    }
			    cbuf[cpos++] = (char) (((b1 & 0x1F) << 6) | 
						   ((b2 & 0x3F) << 0));
			    break;

			case 14:  // 3 byte format: 1110xxxx 10xxxxxx 10xxxxxx
			    b3 = buf[pos + 1];
			    b2 = buf[pos + 0];
			    pos += 2;
			    if ((b2 & 0xC0) != 0x80 || (b3 & 0xC0) != 0x80) {
				throw new UTFDataFormatException();
			    }
			    cbuf[cpos++] = (char) (((b1 & 0x0F) << 12) | 
						   ((b2 & 0x3F) << 6) | 
						   ((b3 & 0x3F) << 0));
			    break;

			default:  // 10xx xxxx, 1111 xxxx
			    throw new UTFDataFormatException();
		    }
		}
	    } catch (ArrayIndexOutOfBoundsException ex) {
		outOfBounds = true;
	    } finally {
		if (outOfBounds || (pos - start) > utflen) {
		    /*
		     * Fix for 4450867: if a malformed utf char causes the
		     * conversion loop to scan past the expected end of the utf
		     * string, only consume the expected number of utf bytes.
		     */
		    pos = start + (int) utflen;
		    throw new UTFDataFormatException();
		}
	    }

	    sbuf.append(cbuf, 0, cpos);
	    return pos - start;
	}

	/**
	 * Reads in single UTF-encoded character one byte at a time, appends
	 * the character to sbuf, and returns the number of bytes consumed.
	 * This method is used when reading in UTF strings written in block
	 * data mode to handle UTF-encoded characters which (potentially)
	 * straddle block-data boundaries.
	 */
	private int readUTFChar(StringBuilder sbuf, long utflen) 
	    throws IOException
	{
	    int b1, b2, b3;
	    b1 = readByte() & 0xFF;
	    switch (b1 >> 4) {
		case 0:
		case 1:
		case 2:
		case 3:
		case 4:
		case 5:
		case 6:
		case 7:     // 1 byte format: 0xxxxxxx
		    sbuf.append((char) b1);
		    return 1;

		case 12:
		case 13:    // 2 byte format: 110xxxxx 10xxxxxx
		    if (utflen < 2) {
			throw new UTFDataFormatException();
		    }
		    b2 = readByte();
		    if ((b2 & 0xC0) != 0x80) {
			throw new UTFDataFormatException();
		    }
		    sbuf.append((char) (((b1 & 0x1F) << 6) | 
					((b2 & 0x3F) << 0)));
		    return 2;

		case 14:    // 3 byte format: 1110xxxx 10xxxxxx 10xxxxxx
		    if (utflen < 3) {
			if (utflen == 2) {
			    readByte();		// consume remaining byte
			}
			throw new UTFDataFormatException();
		    }
		    b2 = readByte();
		    b3 = readByte();
		    if ((b2 & 0xC0) != 0x80 || (b3 & 0xC0) != 0x80) {
			throw new UTFDataFormatException();
		    }
		    sbuf.append((char) (((b1 & 0x0F) << 12) | 
					((b2 & 0x3F) << 6) | 
					((b3 & 0x3F) << 0)));
		    return 3;

		default:   // 10xx xxxx, 1111 xxxx
		    throw new UTFDataFormatException();
	    }
	}
    }

    /**
     * Unsynchronized table which tracks wire handle to object mappings, as
     * well as ClassNotFoundExceptions associated with deserialized objects.
     * This class implements an exception-propagation algorithm for
     * determining which objects should have ClassNotFoundExceptions associated
     * with them, taking into account cycles and discontinuities (e.g., skipped
     * fields) in the object graph.
     * 
     * <p>General use of the table is as follows: during deserialization, a
     * given object is first assigned a handle by calling the assign method.
     * This method leaves the assigned handle in an "open" state, wherein
     * dependencies on the exception status of other handles can be registered
     * by calling the markDependency method, or an exception can be directly
     * associated with the handle by calling markException.  When a handle is
     * tagged with an exception, the HandleTable assumes responsibility for
     * propagating the exception to any other objects which depend
     * (transitively) on the exception-tagged object.
     * 
     * <p>Once all exception information/dependencies for the handle have been
     * registered, the handle should be "closed" by calling the finish method
     * on it.  The act of finishing a handle allows the exception propagation
     * algorithm to aggressively prune dependency links, lessening the
     * performance/memory impact of exception tracking.
     * 
     * <p>Note that the exception propagation algorithm used depends on handles
     * being assigned/finished in LIFO order; however, for simplicity as well
     * as memory conservation, it does not enforce this constraint.
     */
    // REMIND: add full description of exception propagation algorithm?
    private static class HandleTable {

	/* status codes indicating whether object has associated exception */
	private static final byte STATUS_OK = 1;
	private static final byte STATUS_UNKNOWN = 2;
	private static final byte STATUS_EXCEPTION = 3;
	
	/** array mapping handle -> object status */
	byte[] status;
	/** array mapping handle -> object/exception (depending on status) */
	Object[] entries;
	/** array mapping handle -> list of dependent handles (if any) */
	HandleList[] deps;
	/** lowest unresolved dependency */
	int lowDep = -1;
	/** number of handles in table */
	int size = 0;

	/**
	 * Creates handle table with the given initial capacity.
	 */
	HandleTable(int initialCapacity) {
	    status = new byte[initialCapacity];
	    entries = new Object[initialCapacity];
	    deps = new HandleList[initialCapacity];
	}
	
	/**
	 * Assigns next available handle to given object, and returns assigned
	 * handle.  Once object has been completely deserialized (and all
	 * dependencies on other objects identified), the handle should be
	 * "closed" by passing it to finish().
	 */
	int assign(Object obj) {
	    if (size >= entries.length) {
		grow();
	    }
	    status[size] = STATUS_UNKNOWN;
	    entries[size] = obj;
	    return size++;
	}

	/**
	 * Registers a dependency (in exception status) of one handle on
	 * another.  The dependent handle must be "open" (i.e., assigned, but
	 * not finished yet).  No action is taken if either dependent or target
	 * handle is NULL_HANDLE.
	 */
	void markDependency(int dependent, int target) {
	    if (dependent == NULL_HANDLE || target == NULL_HANDLE) {
		return;
	    }
	    switch (status[dependent]) {

		case STATUS_UNKNOWN:
		    switch (status[target]) {
			case STATUS_OK:
			    // ignore dependencies on objs with no exception
			    break;
			    
			case STATUS_EXCEPTION:
			    // eagerly propagate exception
			    markException(dependent, 
				(ClassNotFoundException) entries[target]);
			    break;
			    
			case STATUS_UNKNOWN:
			    // add to dependency list of target
			    if (deps[target] == null) {
				deps[target] = new HandleList();
			    }
			    deps[target].add(dependent);
			    
			    // remember lowest unresolved target seen
			    if (lowDep < 0 || lowDep > target) {
				lowDep = target;
			    }
			    break;
			    
			default:
			    throw new InternalError();
		    }
		    break;

		case STATUS_EXCEPTION:
		    break;

		default:
		    throw new InternalError();
	    }
	}
	
	/**
	 * Associates a ClassNotFoundException (if one not already associated)
	 * with the currently active handle and propagates it to other
	 * referencing objects as appropriate.  The specified handle must be
	 * "open" (i.e., assigned, but not finished yet).
	 */
	void markException(int handle, ClassNotFoundException ex) {
	    switch (status[handle]) {
		case STATUS_UNKNOWN:
		    status[handle] = STATUS_EXCEPTION;
		    entries[handle] = ex;
		    
		    // propagate exception to dependents
		    HandleList dlist = deps[handle];
		    if (dlist != null) {
			int ndeps = dlist.size();
			for (int i = 0; i < ndeps; i++) {
			    markException(dlist.get(i), ex);
			}
			deps[handle] = null;
		    }
		    break;
		    
		case STATUS_EXCEPTION:
		    break;
		    
		default:
		    throw new InternalError();
	    }
	}

	/**
	 * Marks given handle as finished, meaning that no new dependencies
	 * will be marked for handle.  Calls to the assign and finish methods
	 * must occur in LIFO order.
	 */
	void finish(int handle) {
	    int end;
	    if (lowDep < 0) {
		// no pending unknowns, only resolve current handle
		end = handle + 1;
	    } else if (lowDep >= handle) {
		// pending unknowns now clearable, resolve all upward handles
		end = size;
		lowDep = -1;
	    } else {
		// unresolved backrefs present, can't resolve anything yet
		return;
	    }
	    
	    // change STATUS_UNKNOWN -> STATUS_OK in selected span of handles
	    for (int i = handle; i < end; i++) {
		switch (status[i]) {
		    case STATUS_UNKNOWN:
			status[i] = STATUS_OK;
			deps[i] = null;
			break;
			
		    case STATUS_OK:
		    case STATUS_EXCEPTION:
			break;
			
		    default:
			throw new InternalError();
		}
	    }
	}

	/**
	 * Assigns a new object to the given handle.  The object previously
	 * associated with the handle is forgotten.  This method has no effect
	 * if the given handle already has an exception associated with it.
	 * This method may be called at any time after the handle is assigned.
	 */
	void setObject(int handle, Object obj) {
	    switch (status[handle]) {
		case STATUS_UNKNOWN:
		case STATUS_OK:
		    entries[handle] = obj;
		    break;
		    
		case STATUS_EXCEPTION:
		    break;
		    
		default:
		    throw new InternalError();
	    }
	}
	
	/**
	 * Looks up and returns object associated with the given handle.
	 * Returns null if the given handle is NULL_HANDLE, or if it has an
	 * associated ClassNotFoundException.
	 */
	Object lookupObject(int handle) {
	    return (handle != NULL_HANDLE && 
		    status[handle] != STATUS_EXCEPTION) ? 
		entries[handle] : null;
	}

	/**
	 * Looks up and returns ClassNotFoundException associated with the
	 * given handle.  Returns null if the given handle is NULL_HANDLE, or
	 * if there is no ClassNotFoundException associated with the handle.
	 */
	ClassNotFoundException lookupException(int handle) {
	    return (handle != NULL_HANDLE &&
		    status[handle] == STATUS_EXCEPTION) ?
		(ClassNotFoundException) entries[handle] : null;
	}
	
	/**
	 * Resets table to its initial state.
	 */
	void clear() {
	    Arrays.fill(status, 0, size, (byte) 0);
	    Arrays.fill(entries, 0, size, null);
	    Arrays.fill(deps, 0, size, null);
	    lowDep = -1;
	    size = 0;
	}
	
	/**
	 * Returns number of handles registered in table.
	 */
	int size() {
	    return size;
	}
	
	/**
	 * Expands capacity of internal arrays.
	 */
	private void grow() {
	    int newCapacity = (entries.length << 1) + 1;
	    
	    byte[] newStatus = new byte[newCapacity];
	    Object[] newEntries = new Object[newCapacity];
	    HandleList[] newDeps = new HandleList[newCapacity];
	    
	    System.arraycopy(status, 0, newStatus, 0, size);
	    System.arraycopy(entries, 0, newEntries, 0, size);
	    System.arraycopy(deps, 0, newDeps, 0, size);
	    
	    status = newStatus;
	    entries = newEntries;
	    deps = newDeps;
	}

	/**
	 * Simple growable list of (integer) handles.
	 */
	private static class HandleList {
	    private int[] list = new int[4];
	    private int size = 0;
	    
	    public HandleList() {
	    }
	    
	    public void add(int handle) {
		if (size >= list.length) {
		    int[] newList = new int[list.length << 1];
		    System.arraycopy(list, 0, newList, 0, list.length);
		    list = newList;
		}
		list[size++] = handle;
	    }
	    
	    public int get(int index) {
		if (index >= size) {
		    throw new ArrayIndexOutOfBoundsException();
		}
		return list[index];
	    }

	    public int size() {
		return size;
	    }
	}
    }

    /**
     * Method for cloning arrays in case of using unsharing reading
     */
    private static Object cloneArray(Object array) {
	if (array instanceof Object[]) {
	    return ((Object[]) array).clone();
	} else if (array instanceof boolean[]) {
	    return ((boolean[]) array).clone();
	} else if (array instanceof byte[]) {
	    return ((byte[]) array).clone();
	} else if (array instanceof char[]) {
	    return ((char[]) array).clone();
	} else if (array instanceof double[]) {
	    return ((double[]) array).clone();
	} else if (array instanceof float[]) {
	    return ((float[]) array).clone();
	} else if (array instanceof int[]) {
	    return ((int[]) array).clone();
	} else if (array instanceof long[]) {
	    return ((long[]) array).clone();
	} else if (array instanceof double[]) {
	    return ((double[]) array).clone();
	} else {
	    throw new AssertionError();
	}
    }

    /**
     * Context that during upcalls to class-defined readObject methods; holds 
     * object currently being deserialized and descriptor for current class. 
     * This context keeps a boolean state to indicate that defaultReadObject 
     * or readFields has already been invoked with this context or the class's
     * readObject method has returned; if true, the getObj method throws 
     * NotActiveException.
     */
    private static class CallbackContext {
	private final Object obj;
	private final ObjectStreamClass desc;
	private final AtomicBoolean used = new AtomicBoolean();

	public CallbackContext(Object obj, ObjectStreamClass desc) {
	    this.obj = obj;
	    this.desc = desc;
	}

	public Object getObj() throws NotActiveException {
	    checkAndSetUsed();
	    return obj;
	}

	public ObjectStreamClass getDesc() {
	    return desc;
	}

	private void checkAndSetUsed() throws NotActiveException {
	    if (!used.compareAndSet(false, true)) {
	         throw new NotActiveException(
		      "not in readObject invocation or fields already read");
	    }
	}

	public void setUsed() {
	    used.set(true);
	}
    }
}

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