org.codehaus.plexus.util.ExceptionUtils Maven / Gradle / Ivy
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package org.codehaus.plexus.util;
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*
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* reserved.
*
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* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
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*
* 2. Redistributions in binary form must reproduce the above copyright
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* the documentation and/or other materials provided with the
* distribution.
*
* 3. The end-user documentation included with the redistribution, if
* any, must include the following acknowledgement:
* "This product includes software developed by the
* Apache Software Foundation (http://www.codehaus.org/)."
* Alternately, this acknowledgement may appear in the software itself,
* if and wherever such third-party acknowledgements normally appear.
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import java.io.PrintStream;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.LinkedList;
import java.util.List;
import java.util.StringTokenizer;
/**
*
* ExceptionUtils
provides utilities for manipulating Throwable
objects.
*
*
* @author Daniel Rall
* @author Dmitri Plotnikov
* @author Stephen Colebourne
* @since 1.0
* @version $Id$
*/
public class ExceptionUtils
{
/**
* Used when printing stack frames to denote the start of a wrapped exception. Package private for accessibility by
* test suite.
*/
static final String WRAPPED_MARKER = " [wrapped] ";
/**
* The names of methods commonly used to access a wrapped exception.
*/
protected static String[] CAUSE_METHOD_NAMES = { "getCause", "getNextException", "getTargetException",
"getException", "getSourceException", "getRootCause", "getCausedByException", "getNested" };
/**
* Constructs a new ExceptionUtils
. Protected to discourage instantiation.
*/
protected ExceptionUtils()
{
}
/**
*
* Adds to the list of method names used in the search for Throwable
objects.
*
*
* @param methodName the methodName to add to the list, null and empty strings are ignored
*/
public static void addCauseMethodName( String methodName )
{
if ( methodName != null && methodName.length() > 0 )
{
List list = new ArrayList( Arrays.asList( CAUSE_METHOD_NAMES ) );
list.add( methodName );
CAUSE_METHOD_NAMES = list.toArray( new String[list.size()] );
}
}
/**
*
* Introspects the specified Throwable
to obtain the cause.
*
*
* The method searches for methods with specific names that return a Throwable
object. This will pick
* up most wrapping exceptions, including those from JDK 1.4, and The method names can be added to using
* {@link #addCauseMethodName(String)}. The default list searched for are:
*
*
* getCause()
* getNextException()
* getTargetException()
* getException()
* getSourceException()
* getRootCause()
* getCausedByException()
* getNested()
*
*
* In the absence of any such method, the object is inspected for a detail
field assignable to a
* Throwable
.
*
*
* If none of the above is found, returns null
.
*
*
* @param throwable The exception to introspect for a cause.
* @return The cause of the Throwable
.
* @throws NullPointerException if the throwable is null
*/
public static Throwable getCause( Throwable throwable )
{
return getCause( throwable, CAUSE_METHOD_NAMES );
}
/**
*
* Introspects the specified Throwable
to obtain the cause using a supplied array of method names.
*
*
* @param throwable The exception to introspect for a cause.
* @return The cause of the Throwable
.
* @throws NullPointerException if the method names array is null or contains null
* @throws NullPointerException if the throwable is null
*/
public static Throwable getCause( Throwable throwable, String[] methodNames )
{
Throwable cause = getCauseUsingWellKnownTypes( throwable );
if ( cause == null )
{
for ( String methodName : methodNames )
{
cause = getCauseUsingMethodName( throwable, methodName );
if ( cause != null )
{
break;
}
}
if ( cause == null )
{
cause = getCauseUsingFieldName( throwable, "detail" );
}
}
return cause;
}
/**
*
* Walks through the exception chain to the last element -- the "root" of the tree -- using
* {@link #getCause(Throwable)}, and returns that exception.
*
*
* @param throwable the throwable to get the root cause for
* @return The root cause of the Throwable
.
*/
public static Throwable getRootCause( Throwable throwable )
{
Throwable cause = getCause( throwable );
if ( cause != null )
{
throwable = cause;
while ( ( throwable = getCause( throwable ) ) != null )
{
cause = throwable;
}
}
return cause;
}
/**
*
* Uses instanceof
checks to examine the exception, looking for well known types which could contain
* chained or wrapped exceptions.
*
*
* @param throwable the exception to examine
* @return The wrapped exception, or null
if not found.
*/
private static Throwable getCauseUsingWellKnownTypes( Throwable throwable )
{
if ( throwable instanceof SQLException )
{
return ( (SQLException) throwable ).getNextException();
}
else if ( throwable instanceof InvocationTargetException )
{
return ( (InvocationTargetException) throwable ).getTargetException();
}
else
{
return null;
}
}
/**
*
* Find a throwable by method name.
*
*
* @param throwable the exception to examine
* @param methodName the name of the method to find and invoke
* @return The wrapped exception, or null
if not found.
*/
private static Throwable getCauseUsingMethodName( Throwable throwable, String methodName )
{
Method method = null;
try
{
method = throwable.getClass().getMethod( methodName, null );
}
catch ( NoSuchMethodException ignored )
{
}
catch ( SecurityException ignored )
{
}
if ( method != null && Throwable.class.isAssignableFrom( method.getReturnType() ) )
{
try
{
return (Throwable) method.invoke( throwable, new Object[0] );
}
catch ( IllegalAccessException ignored )
{
}
catch ( IllegalArgumentException ignored )
{
}
catch ( InvocationTargetException ignored )
{
}
}
return null;
}
/**
*
* Find a throwable by field name.
*
*
* @param throwable the exception to examine
* @param fieldName the name of the attribute to examine
* @return The wrapped exception, or null
if not found.
*/
private static Throwable getCauseUsingFieldName( Throwable throwable, String fieldName )
{
Field field = null;
try
{
field = throwable.getClass().getField( fieldName );
}
catch ( NoSuchFieldException ignored )
{
}
catch ( SecurityException ignored )
{
}
if ( field != null && Throwable.class.isAssignableFrom( field.getType() ) )
{
try
{
return (Throwable) field.get( throwable );
}
catch ( IllegalAccessException ignored )
{
}
catch ( IllegalArgumentException ignored )
{
}
}
return null;
}
/**
*
* Returns the number of Throwable
objects in the exception chain.
*
*
* @param throwable the exception to inspect
* @return The throwable count.
*/
public static int getThrowableCount( Throwable throwable )
{
// Count the number of throwables
int count = 0;
while ( throwable != null )
{
count++;
throwable = ExceptionUtils.getCause( throwable );
}
return count;
}
/**
*
* Returns the list of Throwable
objects in the exception chain.
*
*
* @param throwable the exception to inspect
* @return The list of Throwable
objects.
*/
public static Throwable[] getThrowables( Throwable throwable )
{
List list = new ArrayList();
while ( throwable != null )
{
list.add( throwable );
throwable = getCause( throwable );
}
return list.toArray( new Throwable[list.size()] );
}
/**
*
* Delegates to {@link #indexOfThrowable(Throwable, Class, int)}, starting the search at the beginning of the
* exception chain.
*
*
* @see #indexOfThrowable(Throwable, Class, int)
*/
public static int indexOfThrowable( Throwable throwable, Class type )
{
return indexOfThrowable( throwable, type, 0 );
}
/**
*
* Returns the (zero based) index, of the first Throwable
that matches the specified type in the
* exception chain of Throwable
objects with an index greater than or equal to the specified index, or
* -1
if the type is not found.
*
*
* @param throwable the exception to inspect
* @param type Class
to look for
* @param fromIndex the (zero based) index of the starting position in the chain to be searched
* @return the first occurrence of the type in the chain, or -1
if the type is not found
* @throws IndexOutOfBoundsException If the fromIndex
argument is negative or not less than the count
* of Throwable
s in the chain.
*/
public static int indexOfThrowable( Throwable throwable, Class type, int fromIndex )
{
if ( fromIndex < 0 )
{
throw new IndexOutOfBoundsException( "Throwable index out of range: " + fromIndex );
}
Throwable[] throwables = ExceptionUtils.getThrowables( throwable );
if ( fromIndex >= throwables.length )
{
throw new IndexOutOfBoundsException( "Throwable index out of range: " + fromIndex );
}
for ( int i = fromIndex; i < throwables.length; i++ )
{
if ( throwables[i].getClass().equals( type ) )
{
return i;
}
}
return -1;
}
/**
* Prints a compact stack trace for the root cause of a throwable. The compact stack trace starts with the root
* cause and prints stack frames up to the place where it was caught and wrapped. Then it prints the wrapped
* exception and continues with stack frames until the wrapper exception is caught and wrapped again, etc.
*
* The method is equivalent to t.printStackTrace() for throwables that don't have nested causes.
*/
public static void printRootCauseStackTrace( Throwable t, PrintStream stream )
{
String trace[] = getRootCauseStackTrace( t );
for ( String aTrace : trace )
{
stream.println( aTrace );
}
stream.flush();
}
/**
* Equivalent to printRootCauseStackTrace(t, System.err)
*/
public static void printRootCauseStackTrace( Throwable t )
{
printRootCauseStackTrace( t, System.err );
}
/**
* Same as printRootCauseStackTrace(t, stream), except it takes a PrintWriter as an argument.
*/
public static void printRootCauseStackTrace( Throwable t, PrintWriter writer )
{
String trace[] = getRootCauseStackTrace( t );
for ( String aTrace : trace )
{
writer.println( aTrace );
}
writer.flush();
}
/**
* Creates a compact stack trace for the root cause of the supplied throwable. See
* printRootCauseStackTrace(Throwable t, PrintStream s)
*/
public static String[] getRootCauseStackTrace( Throwable t )
{
Throwable[] throwables = getThrowables( t );
int count = throwables.length;
ArrayList frames = new ArrayList();
List nextTrace = getStackFrameList( throwables[count - 1] );
for ( int i = count; --i >= 0; )
{
List trace = nextTrace;
if ( i != 0 )
{
nextTrace = getStackFrameList( throwables[i - 1] );
removeCommonFrames( trace, nextTrace );
}
if ( i == ( count - 1 ) )
{
frames.add( throwables[i].toString() );
}
else
{
frames.add( WRAPPED_MARKER + throwables[i].toString() );
}
for ( String aTrace : trace )
{
frames.add( aTrace );
}
}
return frames.toArray( new String[frames.size()] );
}
/**
* Given two stack traces, removes common frames from the cause trace.
*
* @param causeFrames stack trace of a cause throwable
* @param wrapperFrames stack trace of a wrapper throwable
*/
private static void removeCommonFrames( List causeFrames, List wrapperFrames )
{
int causeFrameIndex = causeFrames.size() - 1;
int wrapperFrameIndex = wrapperFrames.size() - 1;
while ( causeFrameIndex >= 0 && wrapperFrameIndex >= 0 )
{
// Remove the frame from the cause trace if it is the same
// as in the wrapper trace
String causeFrame = causeFrames.get( causeFrameIndex );
String wrapperFrame = wrapperFrames.get( wrapperFrameIndex );
if ( causeFrame.equals( wrapperFrame ) )
{
causeFrames.remove( causeFrameIndex );
}
causeFrameIndex--;
wrapperFrameIndex--;
}
}
/**
* A convenient way of extracting the stack trace from an exception.
*
* @param t The Throwable
.
* @return The stack trace as generated by the exception's printStackTrace(PrintWriter)
method.
*/
public static String getStackTrace( Throwable t )
{
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter( sw, true );
t.printStackTrace( pw );
return sw.getBuffer().toString();
}
/**
* A way to get the entire nested stack-trace of an throwable.
*
* @param t The Throwable
.
* @return The nested stack trace, with the root cause first.
*/
public static String getFullStackTrace( Throwable t )
{
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter( sw, true );
Throwable[] ts = getThrowables( t );
for ( Throwable t1 : ts )
{
t1.printStackTrace( pw );
if ( isNestedThrowable( t1 ) )
{
break;
}
}
return sw.getBuffer().toString();
}
/**
* Whether an Throwable is considered nested or not.
*
* @param throwable The Throwable
.
* @return boolean true/false
*/
public static boolean isNestedThrowable( Throwable throwable )
{
if ( throwable == null )
{
return false;
}
if ( throwable instanceof SQLException )
{
return true;
}
else if ( throwable instanceof InvocationTargetException )
{
return true;
}
for ( String CAUSE_METHOD_NAME : CAUSE_METHOD_NAMES )
{
try
{
Method method = throwable.getClass().getMethod( CAUSE_METHOD_NAME, null );
if ( method != null )
{
return true;
}
}
catch ( NoSuchMethodException ignored )
{
}
catch ( SecurityException ignored )
{
}
}
try
{
Field field = throwable.getClass().getField( "detail" );
if ( field != null )
{
return true;
}
}
catch ( NoSuchFieldException ignored )
{
}
catch ( SecurityException ignored )
{
}
return false;
}
/**
* Captures the stack trace associated with the specified Throwable
object, decomposing it into a list
* of stack frames.
*
* @param t The Throwable
.
* @return An array of strings describing each stack frame.
*/
public static String[] getStackFrames( Throwable t )
{
return getStackFrames( getStackTrace( t ) );
}
/**
* Functionality shared between the getStackFrames(Throwable)
methods of this and the classes.
*/
static String[] getStackFrames( String stackTrace )
{
String linebreak = System.getProperty( "line.separator" );
StringTokenizer frames = new StringTokenizer( stackTrace, linebreak );
List list = new LinkedList();
while ( frames.hasMoreTokens() )
{
list.add( frames.nextToken() );
}
return list.toArray( new String[list.size()] );
}
/**
* Produces a List of stack frames - the message is not included. This works in most cases - it will only fail if
* the exception message contains a line that starts with: " at".
*
* @param t is any throwable
* @return List of stack frames
*/
static List getStackFrameList( Throwable t )
{
String stackTrace = getStackTrace( t );
String linebreak = System.getProperty( "line.separator" );
StringTokenizer frames = new StringTokenizer( stackTrace, linebreak );
List list = new LinkedList();
boolean traceStarted = false;
while ( frames.hasMoreTokens() )
{
String token = frames.nextToken();
// Determine if the line starts with at
int at = token.indexOf( "at" );
if ( at != -1 && token.substring( 0, at ).trim().length() == 0 )
{
traceStarted = true;
list.add( token );
}
else if ( traceStarted )
{
break;
}
}
return list;
}
}