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/*
* JBoss, Home of Professional Open Source
* Copyright 2009, Red Hat Middleware LLC, and individual contributors
* as indicated by the @author tags.
* See the copyright.txt in the distribution for a
* full listing of individual contributors.
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License, v. 2.1.
* This program is distributed in the hope that it will be useful, but WITHOUT A
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
* You should have received a copy of the GNU Lesser General Public License,
* v.2.1 along with this distribution; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*
* (C) 2009,
* @author JBoss, a division of Red Hat.
*/
package com.arjuna.common.internal.util.propertyservice;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.util.Collections;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import com.arjuna.common.util.propertyservice.PropertiesFactory;
/**
* Utility class that configures *EnvironmentBean objects using a PropertyManager, which is usually
* backed by a -properties.xml file.
*
* @author Jonathan Halliday ([email protected])
*/
public class BeanPopulator
{
private static final ConcurrentMap beanInstances = new ConcurrentHashMap();
private static final String DEFAULT_NAME = "default";
public static T getDefaultInstance(Class beanClass) throws RuntimeException {
return getNamedInstance(beanClass, DEFAULT_NAME, null);
}
@Deprecated
public static T getDefaultInstance(Class beanClass, Properties properties) throws RuntimeException {
return getNamedInstance(beanClass, DEFAULT_NAME, properties);
}
public static T getNamedInstance(Class beanClass, String name) throws RuntimeException {
return getNamedInstance(beanClass, name, null);
}
private static T getNamedInstance(Class beanClass, String name, Properties properties) throws RuntimeException {
if(name == null) {
name = DEFAULT_NAME;
}
String key = beanClass.getName()+":"+name;
// we don't mind sometimes instantiating the bean multiple times,
// as long as the duplicates never escape into the outside world.
if(!beanInstances.containsKey(key)) {
T bean = null;
try {
bean = beanClass.newInstance();
if (properties != null) {
configureFromProperties(bean, name, properties);
} else {
Properties defaultProperties = PropertiesFactory.getDefaultProperties();
configureFromProperties(bean, name, defaultProperties);
}
} catch (Exception e) {
throw new RuntimeException(e);
}
beanInstances.putIfAbsent(key, bean);
}
return (T) beanInstances.get(key);
}
/**
* @Deprecated Only used in tests
*/
public static void configureFromProperties(Object bean, Properties properties) throws Exception {
configureFromProperties(bean, DEFAULT_NAME, properties);
}
/**
* Examine the properties of the provided bean and update them to match the values of the corresponding
* properties in the Properties.
* This will normally be used at startup to configure a freshly created default bean to match
* the configuration read from a properties file.
*
* The algorithm is as follows: for each field in the bean, which must have a getter and setter method
* matching according to the JavaBeans naming conventions, determine the corresponding property key.
*
* Several key names are tried, with the first match being used:
* For scalar properties: The FQN of the bean class, optionally followed by the bean name, followed by the field name,
* e.g. com.arjuna.FooBean.theField or com.arjuna.FooBean.theName.theField
* the short class name of the bean, optionally followed by the bean name, followed by the field name,
* e.g. FooBean.theField or FooBean.theName.theField
* and finally the bean classes' PropertyPrefix annotation
* value followed by the name of the field, the last being except in cases where the field has a FullPropertyName
* annotation, in which case its value is used instead.
* For vector (in the math sense - the type is actually normally List/Map) properties, a single property key matched
* according to the prior rules will be treated as having a compound value which will be tokenized into
* elements based on whitespace and inserted into the list in token order or further tokenized on = for Map key/value.
* If no such key is found, the value of the field's ConcatenationPrefix annotation
* is treated as a name prefix and the list elements are assembled from the values of any properties having
* key values starting with the prefix. These are inserted into the list in order of the key's name sort position.
*
* This allows for the convention that all properties in a given bean will share
* the same prefix e.g. com.arjuna.ats.arjuna.foo. whilst still allowing for changing of the property
* name in cases where this makes for more readable code.
*
* Obtain the value of the property from the Properties and if it's not null, type convert it to match
* the bean's property field type. Obtain the value of the property from the bean and if it's different
* from the value read from the Properties, use the setter to update the bean.
*
* @param bean a JavaBean, the target of the property updates and source for defaults.
* @param instanceName the (optional, use null for default) name for the bean instance.
* @param properties a Properties object, the source of the configuration overrides.
* @throws Exception if the configuration of the bean fails.
*/
public static void configureFromProperties(Object bean, String instanceName, Properties properties) throws Exception {
for(Field field : bean.getClass().getDeclaredFields()) {
Class type = field.getType();
String setterMethodName = "set"+capitalizeFirstLetter(field.getName());
Method setter;
try {
setter = bean.getClass().getMethod(setterMethodName, new Class[] {field.getType()});
} catch(NoSuchMethodException e) {
continue; // emma code coverage tool adds fields to instrumented classes - ignore them.
}
String getterMethodName;
Method getter = null;
if(field.getType().equals(Boolean.TYPE)) {
getterMethodName = "is"+capitalizeFirstLetter(field.getName());
try {
getter = bean.getClass().getMethod(getterMethodName, new Class[] {});
} catch (NoSuchMethodException e) {}
}
if(getter == null) {
getterMethodName = "get"+capitalizeFirstLetter(field.getName());
getter = bean.getClass().getMethod(getterMethodName, new Class[] {});
}
if(field.isAnnotationPresent(ConcatenationPrefix.class) || field.getType().getName().startsWith("java.util")) {
handleGroupProperty(bean, instanceName, properties, field, setter, getter);
} else {
handleSimpleProperty(bean, instanceName, properties, field, setter, getter);
}
}
}
public static String printBean(Object bean) {
StringBuffer buffer = new StringBuffer();
printBean(bean, buffer);
return buffer.toString();
}
/**
* Render the state of the known bean instances as text.
*/
public static String printState() {
StringBuffer buffer = new StringBuffer();
for(Object bean : beanInstances.values()) {
printBean(bean, buffer);
}
return buffer.toString();
}
private static void handleGroupProperty(Object bean, String instanceName, Properties properties, Field field, Method setter, Method getter)
throws Exception
{
List lines = new LinkedList();
String valueFromProperties = getValueFromProperties(bean, instanceName, properties, field, bean.getClass().getSimpleName());
if(valueFromProperties != null)
{
// it's a single value which needs parsing
String[] tokens = valueFromProperties.split("\\s+");
// for lists, the order we want them in is the order they appear in the string, so we can just add in sequence:
for(String token : tokens) {
lines.add(token);
}
}
else
{
// it's set of values that need gathering together
// for lists, the order we want them in is the lex sort order of the keys, so we need to buffer and sort them:
List listOfMatchingPropertyNames = new LinkedList();
Enumeration propertyNamesEnumeration = properties.propertyNames();
ConcatenationPrefix concatenationPrefix = field.getAnnotation(ConcatenationPrefix.class);
if (propertyNamesEnumeration != null && concatenationPrefix != null)
{
String prefix = concatenationPrefix.prefix();
while (propertyNamesEnumeration.hasMoreElements())
{
String name = (String) propertyNamesEnumeration.nextElement();
if (name.startsWith(prefix))
{
listOfMatchingPropertyNames.add(name);
}
}
}
Collections.sort(listOfMatchingPropertyNames);
for(String name : listOfMatchingPropertyNames) {
String value = properties.getProperty(name);
lines.add(value);
}
if(lines.size() == 0) {
return; // no relevant value in properties file, so leave bean defaults alone.
}
}
Object replacementValue = null;
if(java.util.Map.class.isAssignableFrom(field.getType())) {
// we have a list but need a map. split each element into key/value pair.
Map map = new HashMap();
for(String element : lines) {
String[] tokens = element.split("=");
map.put(tokens[0], tokens[1]);
}
replacementValue = map;
} else {
// it stays as a list.
replacementValue = lines;
}
Object valueFromBean = getter.invoke(bean, new Object[] {});
if(!valueFromBean.equals(replacementValue)) {
setter.invoke(bean, new Object[] {replacementValue});
}
}
private static void handleSimpleProperty(Object bean, String instanceName, Properties properties, Field field, Method setter, Method getter)
throws Exception
{
String prefix = null;
if(bean.getClass().isAnnotationPresent(PropertyPrefix.class)) {
PropertyPrefix prefixAnnotation = bean.getClass().getAnnotation(PropertyPrefix.class);
prefix = prefixAnnotation.prefix();
}
String valueFromProperties = getValueFromProperties(bean, instanceName, properties, field, prefix);
if(valueFromProperties != null) {
Object valueFromBean = getter.invoke(bean, new Object[] {});
if(field.getType().equals(Boolean.TYPE)) {
if(!((Boolean)valueFromBean).booleanValue() && isPositive(valueFromProperties)) {
setter.invoke(bean, new Object[]{ Boolean.TRUE });
}
if(((Boolean)valueFromBean).booleanValue() && isNegative(valueFromProperties)) {
setter.invoke(bean, new Object[] { Boolean.FALSE});
}
} else if(field.getType().equals(String.class)) {
if(!valueFromProperties.equals(valueFromBean)) {
setter.invoke(bean, new Object[] {valueFromProperties});
}
} else if(field.getType().equals(Long.TYPE)) {
Long longValue = Long.valueOf(valueFromProperties);
if(!longValue.equals(valueFromBean)) {
setter.invoke(bean, new Object[] {longValue});
}
} else if(field.getType().equals(Integer.TYPE)) {
Integer intValue = Integer.valueOf(valueFromProperties);
if(!intValue.equals(valueFromBean)) {
setter.invoke(bean, new Object[] {intValue});
}
} else {
throw new Exception("unknown field type "+field.getType());
}
}
}
private static String getValueFromProperties(Object bean, String instanceName, Properties properties, Field field, String prefix)
{
String propertyFileKey;
String valueFromProperties = null;
if(instanceName == null) {
instanceName = DEFAULT_NAME;
}
if(valueFromProperties == null) {
if(DEFAULT_NAME.equals(instanceName)) {
propertyFileKey = bean.getClass().getName()+"."+field.getName();
valueFromProperties = properties.getProperty(propertyFileKey);
}
if(valueFromProperties == null) {
propertyFileKey = bean.getClass().getName()+"."+instanceName+"."+field.getName();
valueFromProperties = properties.getProperty(propertyFileKey);
}
}
if(valueFromProperties == null) {
if(DEFAULT_NAME.equals(instanceName)) {
propertyFileKey = bean.getClass().getSimpleName()+"."+field.getName();
valueFromProperties = properties.getProperty(propertyFileKey);
}
if(valueFromProperties == null) {
propertyFileKey = bean.getClass().getSimpleName()+"."+instanceName+"."+field.getName();
valueFromProperties = properties.getProperty(propertyFileKey);
}
}
if (valueFromProperties == null) {
if(field.isAnnotationPresent(FullPropertyName.class)) {
FullPropertyName fullPropertyName = field.getAnnotation(FullPropertyName.class);
propertyFileKey = fullPropertyName.name();
} else if(prefix != null) {
propertyFileKey = prefix+field.getName();
} else {
propertyFileKey = field.getName();
}
valueFromProperties = properties.getProperty(propertyFileKey);
}
return valueFromProperties;
}
private static void printBean(Object bean, StringBuffer buffer)
{
String lineSeparator = System.getProperty("line.separator");
buffer.append("Bean class: ");
buffer.append(bean.getClass().getName());
buffer.append(lineSeparator);
for(Field field : bean.getClass().getDeclaredFields()) {
Class type = field.getType();
String getterMethodName;
Method getter = null;
if(field.getType().equals(Boolean.TYPE)) {
getterMethodName = "is"+capitalizeFirstLetter(field.getName());
try {
getter = bean.getClass().getMethod(getterMethodName, new Class[] {});
} catch (NoSuchMethodException e) {}
}
try {
if(getter == null) {
getterMethodName = "get"+capitalizeFirstLetter(field.getName());
getter = bean.getClass().getMethod(getterMethodName, new Class[] {});
}
Object valueFromBean = getter.invoke(bean, new Object[] {});
buffer.append(" ");
buffer.append(field.getName());
buffer.append(": ");
buffer.append(valueFromBean);
} catch(Exception e) {
buffer.append("failed to read property ");
buffer.append(field.getName());
}
buffer.append(lineSeparator);
}
}
private static String capitalizeFirstLetter(String string) {
return (string.length()>0) ? (Character.toUpperCase(string.charAt(0))+string.substring(1)) : string;
}
private static boolean isPositive(String value) {
return "YES".equalsIgnoreCase(value) || "ON".equalsIgnoreCase(value) || "TRUE".equalsIgnoreCase(value);
}
private static boolean isNegative(String value) {
return "NO".equalsIgnoreCase(value) || "OFF".equalsIgnoreCase(value) || "FALSE".equalsIgnoreCase(value);
}
}