/*
* Conditions Of Use
*
* This software was developed by employees of the National Institute of
* Standards and Technology (NIST), an agency of the Federal Government.
* Pursuant to title 15 Untied States Code Section 105, works of NIST
* employees are not subject to copyright protection in the United States
* and are considered to be in the public domain. As a result, a formal
* license is not needed to use the software.
*
* This software is provided by NIST as a service and is expressly
* provided "AS IS." NIST MAKES NO WARRANTY OF ANY KIND, EXPRESS, IMPLIED
* OR STATUTORY, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTY OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT
* AND DATA ACCURACY. NIST does not warrant or make any representations
* regarding the use of the software or the results thereof, including but
* not limited to the correctness, accuracy, reliability or usefulness of
* the software.
*
* Permission to use this software is contingent upon your acceptance
* of the terms of this agreement
*
* .
*
*/
/******************************************************************************
* Product of NIST/ITL Advanced Networking Technologies Division (ANTD). *
******************************************************************************/
package gov.nist.core;
import java.lang.reflect.*;
import java.io.Serializable;
import java.util.*;
/**
* The base class from which all the other classes in the
* sipheader, sdpfields and sipmessage packages are extended.
* Provides a few utility funcitons such as indentation and
* pretty printing that all other classes benifit from.
*
*@version 1.2
*
*@author M. Ranganathan
*
*
*
*/
public abstract class GenericObject implements Serializable, Cloneable {
// Useful constants.
protected static final String SEMICOLON = Separators.SEMICOLON;
protected static final String COLON = Separators.COLON;
protected static final String COMMA = Separators.COMMA;
protected static final String SLASH = Separators.SLASH;
protected static final String SP = Separators.SP;
protected static final String EQUALS = Separators.EQUALS;
protected static final String STAR = Separators.STAR;
protected static final String NEWLINE = Separators.NEWLINE;
protected static final String RETURN = Separators.RETURN;
protected static final String LESS_THAN = Separators.LESS_THAN;
protected static final String GREATER_THAN = Separators.GREATER_THAN;
protected static final String AT = Separators.AT;
protected static final String DOT = Separators.DOT;
protected static final String QUESTION = Separators.QUESTION;
protected static final String POUND = Separators.POUND;
protected static final String AND = Separators.AND;
protected static final String LPAREN = Separators.LPAREN;
protected static final String RPAREN = Separators.RPAREN;
protected static final String DOUBLE_QUOTE = Separators.DOUBLE_QUOTE;
protected static final String QUOTE = Separators.QUOTE;
protected static final String HT = Separators.HT;
protected static final String PERCENT = Separators.PERCENT;
protected static final Set> immutableClasses = new HashSet> (10);
static final String[] immutableClassNames ={
"String", "Character",
"Boolean", "Byte", "Short", "Integer", "Long",
"Float", "Double"
};
protected int indentation;
protected String stringRepresentation;
protected Match matchExpression; // Pattern matcher.
static {
try {
for (int i = 0; i < immutableClassNames.length; i++)
immutableClasses.add(Class.forName("java.lang." + immutableClassNames [i]));
} catch (ClassNotFoundException e) {
throw new RuntimeException ("Internal error", e);
}
}
/** Set the pattern matcher. To match on the
* field of a sip message, set the match expression in the match template
* and invoke the match function. This useful because
* SIP headers and parameters may appear in different orders and are not
* necessarily in canonical form. This makes it hard to write a pattern
* matcher that relies on regular expressions alone.
* Thus we rely on the following strategy i.e. To do pattern matching on
* an incoming message, first parse it, and then construct a match template,
* filling in the fields that you want to
* match. The rules for matching are: A null object matches wild card -
* that is a match template of null matches any parsed SIP object.
* To match with any subfield, set the match template on a template object
* of the same type and invoke the match interface.
* Regular expressions matching implements the gov.nist.sip.Match interface
* that can be done using the Jakarta regexp package for example.
* package included herein. This can be used to implement the Match interface
* See the APACHE website for documents
*
*/
public void setMatcher(Match matchExpression) {
if (matchExpression == null)
throw new IllegalArgumentException("null arg!");
this.matchExpression = matchExpression;
}
/** Return the match expression.
*@return the match expression that has previously been set.
*/
public Match getMatcher() {
return matchExpression;
}
public static Class> getClassFromName(String className) {
try {
return Class.forName(className);
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
return null;
}
}
public static boolean isMySubclass(Class> other) {
return GenericObject.class.isAssignableFrom(other);
}
/** Clones the given object.
* If the object is a wrapped type, an array, a GenericObject
* or a GenericObjectList, it is cast to the appropriate type
* and the clone() method is invoked. Else if the object implements
* Cloneable, reflection is used to discover and invoke
* clone() method. Otherwise, the original object is returned.
*/
public static Object makeClone(Object obj) {
if (obj == null)
throw new NullPointerException("null obj!");
Class> c = obj.getClass();
Object clone_obj = obj;
if (immutableClasses.contains (c))
return obj;
else if (c.isArray ()) {
Class> ec = c.getComponentType();
if (! ec.isPrimitive())
clone_obj = ((Object []) obj).clone();
else {
if (ec == Character.TYPE)
clone_obj = ((char []) obj).clone();
else if (ec == Boolean.TYPE)
clone_obj = ((boolean []) obj).clone();
if (ec == Byte.TYPE)
clone_obj = ((byte []) obj).clone();
else if (ec == Short.TYPE)
clone_obj = ((short []) obj).clone();
else if (ec == Integer.TYPE)
clone_obj = ((int []) obj).clone();
else if (ec == Long.TYPE)
clone_obj = ((long []) obj).clone();
else if (ec == Float.TYPE)
clone_obj = ((float []) obj).clone();
else if (ec == Double.TYPE)
clone_obj = ((double []) obj).clone();
}
} else if (GenericObject.class.isAssignableFrom (c))
clone_obj = ((GenericObject) obj).clone();
else if (GenericObjectList.class.isAssignableFrom (c))
clone_obj = ((GenericObjectList) obj).clone();
else if (Cloneable.class.isAssignableFrom (c)) {
// If a clone method exists for the object, then
// invoke it
try {
Method meth = c.getMethod("clone", (Class[]) null);
clone_obj = meth.invoke(obj,(Object[]) null);
} catch (SecurityException ex) {
} catch (IllegalArgumentException ex) {
InternalErrorHandler.handleException(ex);
} catch (IllegalAccessException ex) {
} catch (InvocationTargetException ex) {
} catch (NoSuchMethodException ex) {
}
}
return clone_obj;
}
/** Clones this object.
*/
public Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException e) {
throw new RuntimeException("Internal error");
}
}
/**
* Recursively override the fields of this object with the fields
* of a new object. This is useful when you want to genrate a template
* and override the fields of an incoming SIPMessage with another
* SIP message that you have already generated.
*
* @param mergeObject is the replacement object. The override
* obect must be of the same class as this object.
* Set any fields that you do not want to override as null in the
* mergeOject object.
*/
public void merge(Object mergeObject) {
// Base case.
if (mergeObject == null)
return;
if (!mergeObject.getClass().equals(this.getClass()))
throw new IllegalArgumentException("Bad override object");
Class> myclass = this.getClass();
while (true) {
Field[] fields = myclass.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
Field f = fields[i];
int modifier = f.getModifiers();
if (Modifier.isPrivate(modifier)) {
continue;
} else if (Modifier.isStatic(modifier)) {
continue;
} else if (Modifier.isInterface(modifier)) {
continue;
}
Class> fieldType = f.getType();
String fname = fieldType.toString();
try {
// Primitive fields are printed with type: value
if (fieldType.isPrimitive()) {
if (fname.compareTo("int") == 0) {
int intfield = f.getInt(mergeObject);
f.setInt(this, intfield);
} else if (fname.compareTo("short") == 0) {
short shortField = f.getShort(mergeObject);
f.setShort(this, shortField);
} else if (fname.compareTo("char") == 0) {
char charField = f.getChar(mergeObject);
f.setChar(this, charField);
} else if (fname.compareTo("long") == 0) {
long longField = f.getLong(mergeObject);
f.setLong(this, longField);
} else if (fname.compareTo("boolean") == 0) {
boolean booleanField = f.getBoolean(mergeObject);
f.setBoolean(this, booleanField);
} else if (fname.compareTo("double") == 0) {
double doubleField = f.getDouble(mergeObject);
f.setDouble(this, doubleField);
} else if (fname.compareTo("float") == 0) {
float floatField = f.getFloat(mergeObject);
f.setFloat(this, floatField);
}
} else {
Object obj = f.get(this);
Object mobj = f.get(mergeObject);
if (mobj == null)
continue;
if (obj == null) {
f.set(this, mobj);
continue;
}
if (obj instanceof GenericObject) {
GenericObject gobj = (GenericObject) obj;
gobj.merge(mobj);
} else {
f.set(this, mobj);
}
}
} catch (IllegalAccessException ex1) {
ex1.printStackTrace();
continue; // we are accessing a private field...
}
}
myclass = myclass.getSuperclass();
if (myclass.equals(GenericObject.class))
break;
}
}
protected GenericObject() {
indentation = 0;
stringRepresentation = "";
}
protected String getIndentation() {
char [] chars = new char [indentation];
java.util.Arrays.fill (chars, ' ');
return new String (chars);
}
/**
* Add a new string to the accumulated string representation.
*/
protected void sprint(String a) {
if (a == null) {
stringRepresentation += getIndentation();
stringRepresentation += "\n";
return;
}
if (a.compareTo("}") == 0 || a.compareTo("]") == 0) {
indentation--;
}
stringRepresentation += getIndentation();
stringRepresentation += a;
stringRepresentation += "\n";
if (a.compareTo("{") == 0 || a.compareTo("[") == 0) {
indentation++;
}
}
/**
* Pretty printing function accumulator for objects.
*/
protected void sprint(Object o) {
sprint(o.toString());
}
/**
* Pretty printing accumulator function for ints
*/
protected void sprint(int intField) {
sprint(String.valueOf(intField));
}
/**
* Pretty printing accumulator function for shorts
*/
protected void sprint(short shortField) {
sprint(String.valueOf(shortField));
}
/**
* Pretty printing accumulator function for chars
*/
protected void sprint(char charField) {
sprint(String.valueOf(charField));
}
/**
* Pretty printing accumulator function for longs
*/
protected void sprint(long longField) {
sprint(String.valueOf(longField));
}
/**
* Pretty printing accumulator function for booleans
*/
protected void sprint(boolean booleanField) {
sprint(String.valueOf(booleanField));
}
/**
* Pretty printing accumulator function for doubles
*/
protected void sprint(double doubleField) {
sprint(String.valueOf(doubleField));
}
/**
* Pretty printing accumulator function for floats
*/
protected void sprint(float floatField) {
sprint(String.valueOf(floatField));
}
/**
* Debug printing function.
*/
protected void dbgPrint() {
Debug.println(debugDump());
}
/**
* Debug printing function.
*/
protected void dbgPrint(String s) {
Debug.println(s);
}
/**
* An introspection based equality predicate for GenericObjects.
*@param that is the other object to test against.
*@return true if the objects are euqal and false otherwise
*/
public boolean equals(Object that) {
if ( that == null ) return false;
if (!this.getClass().equals(that.getClass()))
return false;
Class> myclass = this.getClass();
Class> hisclass = that.getClass();
while (true) {
Field[] fields = myclass.getDeclaredFields();
Field[] hisfields = hisclass.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
Field f = fields[i];
Field g = hisfields[i];
// Only print protected and public members.
int modifier = f.getModifiers();
if ((modifier & Modifier.PRIVATE) == Modifier.PRIVATE)
continue;
Class> fieldType = f.getType();
String fieldName = f.getName();
if (fieldName.compareTo("stringRepresentation") == 0) {
continue;
}
if (fieldName.compareTo("indentation") == 0) {
continue;
}
try {
// Primitive fields are printed with type: value
if (fieldType.isPrimitive()) {
String fname = fieldType.toString();
if (fname.compareTo("int") == 0) {
if (f.getInt(this) != g.getInt(that))
return false;
} else if (fname.compareTo("short") == 0) {
if (f.getShort(this) != g.getShort(that))
return false;
} else if (fname.compareTo("char") == 0) {
if (f.getChar(this) != g.getChar(that))
return false;
} else if (fname.compareTo("long") == 0) {
if (f.getLong(this) != g.getLong(that))
return false;
} else if (fname.compareTo("boolean") == 0) {
if (f.getBoolean(this) != g.getBoolean(that))
return false;
} else if (fname.compareTo("double") == 0) {
if (f.getDouble(this) != g.getDouble(that))
return false;
} else if (fname.compareTo("float") == 0) {
if (f.getFloat(this) != g.getFloat(that))
return false;
}
} else if (g.get(that) == f.get(this))
return true;
else if (f.get(this) == null)
return false;
else if (g.get(that) == null)
return false;
else if (g.get(that) == null && f.get(this) != null)
return false;
else if (!f.get(this).equals(g.get(that)))
return false;
} catch (IllegalAccessException ex1) {
InternalErrorHandler.handleException(ex1);
}
}
if (myclass.equals(GenericObject.class))
break;
else {
myclass = myclass.getSuperclass();
hisclass = hisclass.getSuperclass();
}
}
return true;
}
/** An introspection based predicate matching using a template
* object. Allows for partial match of two protocl Objects.
*@param other the match pattern to test against. The match object
* has to be of the same type (class). Primitive types
* and non-sip fields that are non null are matched for equality.
* Null in any field matches anything. Some book-keeping fields
* are ignored when making the comparison.
*/
public boolean match(Object other) {
if (other == null)
return true;
if (!this.getClass().equals(other.getClass()))
return false;
GenericObject that = (GenericObject) other;
Class> myclass = this.getClass();
Field[] fields = myclass.getDeclaredFields();
Class> hisclass = other.getClass();
Field[] hisfields = hisclass.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
Field f = fields[i];
Field g = hisfields[i];
// Only print protected and public members.
int modifier = f.getModifiers();
if ((modifier & Modifier.PRIVATE) == Modifier.PRIVATE)
continue;
Class> fieldType = f.getType();
String fieldName = f.getName();
if (fieldName.compareTo("stringRepresentation") == 0) {
continue;
}
if (fieldName.compareTo("indentation") == 0) {
continue;
}
try {
// Primitive fields are printed with type: value
if (fieldType.isPrimitive()) {
String fname = fieldType.toString();
if (fname.compareTo("int") == 0) {
if (f.getInt(this) != g.getInt(that))
return false;
} else if (fname.compareTo("short") == 0) {
if (f.getShort(this) != g.getShort(that))
return false;
} else if (fname.compareTo("char") == 0) {
if (f.getChar(this) != g.getChar(that))
return false;
} else if (fname.compareTo("long") == 0) {
if (f.getLong(this) != g.getLong(that))
return false;
} else if (fname.compareTo("boolean") == 0) {
if (f.getBoolean(this) != g.getBoolean(that))
return false;
} else if (fname.compareTo("double") == 0) {
if (f.getDouble(this) != g.getDouble(that))
return false;
} else if (fname.compareTo("float") == 0) {
if (f.getFloat(this) != g.getFloat(that))
return false;
}
} else {
Object myObj = f.get(this);
Object hisObj = g.get(that);
if (hisObj != null && myObj == null)
return false;
else if (hisObj == null && myObj != null)
continue;
else if (hisObj == null && myObj == null)
continue;
else if (
hisObj instanceof java.lang.String
&& myObj instanceof java.lang.String) {
if ((((String) hisObj).trim()).equals(""))
continue;
if (((String) myObj)
.compareToIgnoreCase((String) hisObj)
!= 0)
return false;
} else if (
GenericObject.isMySubclass(myObj.getClass())
&& !((GenericObject) myObj).match(hisObj))
return false;
else if (
GenericObjectList.isMySubclass(myObj.getClass())
&& !((GenericObjectList) myObj).match(hisObj))
return false;
}
} catch (IllegalAccessException ex1) {
InternalErrorHandler.handleException(ex1);
}
}
return true;
}
/**
* Generic print formatting function:
* Does depth-first descent of the structure and
* recursively prints all non-private objects pointed to
* by this object.
*
* Warning - the following generic string routine will
* bomb (go into infinite loop) if there are any circularly linked
* structures so if you have these, they had better be private!
*
* We dont have to worry about such things for our structures
*(we never use circular linked structures).
*/
public String debugDump() {
stringRepresentation = "";
Class> myclass = getClass();
sprint(myclass.getName());
sprint("{");
Field[] fields = myclass.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
Field f = fields[i];
// Only print protected and public members.
int modifier = f.getModifiers();
if ((modifier & Modifier.PRIVATE) == Modifier.PRIVATE)
continue;
Class> fieldType = f.getType();
String fieldName = f.getName();
if (fieldName.compareTo("stringRepresentation") == 0) {
// avoid nasty recursions...
continue;
}
if (fieldName.compareTo("indentation") == 0) {
// formatting stuff - not relevant here.
continue;
}
sprint(fieldName + ":");
try {
// Primitive fields are printed with type: value
if (fieldType.isPrimitive()) {
String fname = fieldType.toString();
sprint(fname + ":");
if (fname.compareTo("int") == 0) {
int intfield = f.getInt(this);
sprint(intfield);
} else if (fname.compareTo("short") == 0) {
short shortField = f.getShort(this);
sprint(shortField);
} else if (fname.compareTo("char") == 0) {
char charField = f.getChar(this);
sprint(charField);
} else if (fname.compareTo("long") == 0) {
long longField = f.getLong(this);
sprint(longField);
} else if (fname.compareTo("boolean") == 0) {
boolean booleanField = f.getBoolean(this);
sprint(booleanField);
} else if (fname.compareTo("double") == 0) {
double doubleField = f.getDouble(this);
sprint(doubleField);
} else if (fname.compareTo("float") == 0) {
float floatField = f.getFloat(this);
sprint(floatField);
}
} else if (GenericObject.class.isAssignableFrom(fieldType)) {
if (f.get(this) != null) {
sprint(
((GenericObject) f.get(this)).debugDump(
indentation + 1));
} else {
sprint("");
}
} else if (
GenericObjectList.class.isAssignableFrom(fieldType)) {
if (f.get(this) != null) {
sprint(
((GenericObjectList) f.get(this)).debugDump(
indentation + 1));
} else {
sprint("");
}
} else {
// Dont do recursion on things that are not
// of our header type...
if (f.get(this) != null) {
sprint(f.get(this).getClass().getName() + ":");
} else {
sprint(fieldType.getName() + ":");
}
sprint("{");
if (f.get(this) != null) {
sprint(f.get(this).toString());
} else {
sprint("");
}
sprint("}");
}
} catch (IllegalAccessException ex1) {
continue; // we are accessing a private field...
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
}
sprint("}");
return stringRepresentation;
}
/**
* Formatter with a given starting indentation.
*/
public String debugDump(int indent) {
indentation = indent;
String retval = this.debugDump();
indentation = 0;
return retval;
}
/**
* Get the string encoded version of this object
* @since v1.0
*/
public abstract String encode();
/**
* Put the encoded version of this object in the given StringBuffer.
*/
public StringBuffer encode(StringBuffer buffer) {
return buffer.append(encode());
}
}