java序列化ClassNotFoundException
简单的想从保存的对象中重新解析出对象,用了逆序列化,可是报错:
java.lang.ClassNotFoundException: xxxxxxxxxxxx
at java.net.URLClassLoader$1.run(URLClassLoader.java:366)
at java.net.URLClassLoader$1.run(URLClassLoader.java:355)
at java.security.AccessController.doPrivileged(Native Method)
at java.net.URLClassLoader.findClass(URLClassLoader.java:354)
at java.lang.ClassLoader.loadClass(ClassLoader.java:423)
at sun.misc.Launcher$AppClassLoader.loadClass(Launcher.java:308)
at java.lang.ClassLoader.loadClass(ClassLoader.java:356)
at java.lang.Class.forName0(Native Method)
at java.lang.Class.forName(Class.java:264)
at java.io.ObjectInputStream.resolveClass(ObjectInputStream.java:622)
at java.io.ObjectInputStream.readNonProxyDesc(ObjectInputStream.java:1593)
at java.io.ObjectInputStream.readClassDesc(ObjectInputStream.java:1514)
at java.io.ObjectInputStream.readOrdinaryObject(ObjectInputStream.java:1750)
at java.io.ObjectInputStream.readObject0(ObjectInputStream.java:1347)
at java.io.ObjectInputStream.readObject(ObjectInputStream.java:369)
at xxxxxxxxxxxxxxxxx(TestMetadata.java:103)
提示类找不到,但实际上类文件是确确实实存在的,那就上网搜,果然找到答案。
可以参考文章: http://www.javapractices.com/topic/TopicAction.do?Id=45
最基本的两点:
1) 需要同样的包名
2) 同样的序列化ID
文章: http://www.javapractices.com/topic/TopicAction.do?Id=45如下:
Do not implement Serializable lightly, since it restricts future flexibility, and publicly exposes class implementation details which are usually private. As well, implementing Serializable correctly is not trivial.
The serialVersionUID is a universal version identifier for a Serializable class. Deserialization uses this number to ensure that a loaded class corresponds exactly to a serialized object. If no match is found, then anInvalidClassException is thrown.
Guidelines for serialVersionUID:
- always include it as a field, for example:
private static final long serialVersionUID = 7526472295622776147L;
- include this field even in the first version of the class, as a reminder of its importance
- don't change the value of this field in future versions, unless you are knowingly making changes to the class which will render it incompatible with old serialized objects
- new versions of Serializable classes may or may not be able to read old serialized objects; it depends upon the nature of the change; provide a pointer to Oracle's guidelines for what constitutes a compatible change, as a convenience to future maintainers
Modern IDE's can generate a value of serialVersionUID for you. In addition, the JDK includes the serialver tool for generating these values. Here are the docs for both Win and Unix. (The class name you pass to this tool doesn't include the .class extension.)
readObject and writeObject:
- readObject implementations always start by calling default methods
- deserialization must be treated as any constructor: validate the object state at the end of deserializing - this implies that readObject should almost always be implemented in Serializable classes, such that this validation is performed.
- deserialization must be treated as any constructor: if constructors make defensive copies for mutable object fields, so must readObject
- when serializing a Collection, store the number of objects in the Collection as well, and use this number to read them back in upon deserialization; avoid tricks using null
- use javadoc's @serial tag to denote Serializable fields
- the .ser extension is conventionally used for files representing serialized objects
- no static or transient fields undergo default serialization
- extendable classes should not be Serializable, unless necessary
- inner classes should rarely, if ever, implement Serializable
- container classes should usually follow the style of Hashtable, which implements Serializable by storing keys and values, as opposed to a large hash table data structure
import java.io.Serializable;
import java.text.StringCharacterIterator;
import java.util.*;
import java.io.*;
public final class SavingsAccount implements Serializable {
/**
* This constructor requires all fields to be passed as parameters.
*
* @param aFirstName contains only letters, spaces, and apostrophes.
* @param aLastName contains only letters, spaces, and apostrophes.
* @param aAccountNumber is non-negative.
* @param aDateOpened has a non-negative number of milliseconds.
*/
public SavingsAccount(
String aFirstName, String aLastName, int aAccountNumber, Date aDateOpened
){
setFirstName(aFirstName);
setLastName(aLastName);
setAccountNumber(aAccountNumber);
//make a defensive copy of the mutable Date passed to the constructor
setDateOpened(new Date(aDateOpened.getTime()));
//there is no need here to call validateState.
}
public SavingsAccount(){
this("FirstName", "LastName", 0, new Date(System.currentTimeMillis()));
}
public String getFirstName(){
return fFirstName;
}
public String getLastName(){
return fLastName;
}
public int getAccountNumber(){
return fAccountNumber;
}
/**
* Returns a defensive copy of the field.
* The caller may change the state of the returned object in any way,
* without affecting the internals of this class.
*/
public Date getDateOpened() {
return new Date(fDateOpened.getTime());
}
/**
* Names must contain only letters, spaces, and apostrophes.
* Validate before setting field to new value.
*
* @throws IllegalArgumentException if the new value is not acceptable.
*/
public void setFirstName(String aNewFirstName) {
validateName(aNewFirstName);
fFirstName = aNewFirstName;
}
/**
* Names must contain only letters, spaces, and apostrophes.
* Validate before setting field to new value.
*
* @throws IllegalArgumentException if the new value is not acceptable.
*/
public void setLastName (String aNewLastName) {
validateName(aNewLastName);
fLastName = aNewLastName;
}
/**
* Validate before setting field to new value.
*
* @throws IllegalArgumentException if the new value is not acceptable.
*/
public void setAccountNumber(int aNewAccountNumber){
validateAccountNumber(aNewAccountNumber);
fAccountNumber = aNewAccountNumber;
}
public void setDateOpened(Date aNewDate){
//make a defensive copy of the mutable date object
Date newDate = new Date(aNewDate.getTime());
validateDateOpened(newDate);
fDateOpened = newDate;
}
// PRIVATE
/**
* The client's first name.
* @serial
*/
private String fFirstName;
/**
* The client's last name.
* @serial
*/
private String fLastName;
/**
* The client's account number.
* @serial
*/
private int fAccountNumber;
/**
* The date the account was opened.
* @serial
*/
private Date fDateOpened;
/**
* Determines if a de-serialized file is compatible with this class.
*
* Maintainers must change this value if and only if the new version
* of this class is not compatible with old versions. See Sun docs
* for <a href=http://java.sun.com/products/jdk/1.1/docs/guide
* /serialization/spec/version.doc.html> details. </a>
*
* Not necessary to include in first version of the class, but
* included here as a reminder of its importance.
*/
private static final long serialVersionUID = 7526471155622776147L;
/**
* Verify that all fields of this object take permissible values; that is,
* this method defines the class invariant.
*
* In this style of implementation, both the entire state of the object
* and its individual fields can be validated without repeating or
* duplicating code.
* Each condition is defined in one place. Checks on the entire
* object are performed at the end of object construction, and at
* the end of de-serialization. Checks on individual fields are
* performed at the start of the corresponding setXXX method.
* As well, this style replaces the if's and throwing
* of exceptions at the start of a setXXX, with a simple call to validateXXX.
* Validation is separated from the regular path of execution,
* which leads to improved legibility.
*
* @throws IllegalArgumentException if any field takes an unpermitted value.
*/
private void validateState() {
validateAccountNumber(fAccountNumber);
validateName(fFirstName);
validateName(fLastName);
validateDateOpened(fDateOpened);
}
/**
* Ensure names contain only letters, spaces, and apostrophes.
*
* @throws IllegalArgumentException if field takes an unpermitted value.
*/
private void validateName(String aName){
boolean nameHasContent = (aName != null) && (!aName.equals(""));
if (!nameHasContent){
throw new IllegalArgumentException("Names must be non-null and non-empty.");
}
StringCharacterIterator iterator = new StringCharacterIterator(aName);
char character = iterator.current();
while (character != StringCharacterIterator.DONE){
boolean isValidChar =
(Character.isLetter(character) ||
Character.isSpaceChar(character) ||
character =='\''
);
if (isValidChar) {
//do nothing
}
else {
String message = "Names can contain only letters, spaces, and apostrophes.";
throw new IllegalArgumentException(message);
}
character = iterator.next();
}
}
/**
* AccountNumber must be non-negative.
* @throws IllegalArgumentException if field takes an unpermitted value.
*/
private void validateAccountNumber(int aAccountNumber){
if (aAccountNumber < 0) {
String message = "Account Number must be greater than or equal to 0.";
throw new IllegalArgumentException(message);
}
}
/**
* DateOpened must be after 1970.
* @throws IllegalArgumentException if field takes an unpermitted value.
*/
private void validateDateOpened(Date aDateOpened) {
if(aDateOpened.getTime() < 0) {
throw new IllegalArgumentException("Date Opened must be after 1970.");
}
}
/**
* Always treat de-serialization as a full-blown constructor, by
* validating the final state of the de-serialized object.
*/
private void readObject(
ObjectInputStream aInputStream
) throws ClassNotFoundException, IOException {
//always perform the default de-serialization first
aInputStream.defaultReadObject();
//make defensive copy of the mutable Date field
fDateOpened = new Date(fDateOpened.getTime());
//ensure that object state has not been corrupted or tampered with maliciously
validateState();
}
/**
* This is the default implementation of writeObject.
* Customise if necessary.
*/
private void writeObject(
ObjectOutputStream aOutputStream
) throws IOException {
//perform the default serialization for all non-transient, non-static fields
aOutputStream.defaultWriteObject();
}
}
