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/*
* Copyright 2000-2004 The Apache Software Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
package org.aspectj.apache.bcel.verifier.structurals;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.util.ArrayList;
import java.util.Random;
import java.util.Vector;
import org.aspectj.apache.bcel.Constants;
import org.aspectj.apache.bcel.classfile.JavaClass;
import org.aspectj.apache.bcel.classfile.Method;
import org.aspectj.apache.bcel.generic.ConstantPoolGen;
import org.aspectj.apache.bcel.generic.JsrInstruction;
import org.aspectj.apache.bcel.generic.MethodGen;
import org.aspectj.apache.bcel.generic.ObjectType;
import org.aspectj.apache.bcel.generic.RET;
import org.aspectj.apache.bcel.generic.ReturnaddressType;
import org.aspectj.apache.bcel.generic.Type;
import org.aspectj.apache.bcel.verifier.VerificationResult;
import org.aspectj.apache.bcel.verifier.exc.AssertionViolatedException;
import org.aspectj.apache.bcel.verifier.exc.VerifierConstraintViolatedException;
/**
* This PassVerifier verifies a method of class file according to pass 3,
* so-called structural verification as described in The Java Virtual Machine
* Specification, 2nd edition. More detailed information is to be found at the
* do_verify() method's documentation.
*
* @version $Id: ModifiedPass3bVerifier.java,v 1.1.2.1 2005/09/16 07:19:38
* ebruneton Exp $
* @author <A HREF="http://www.inf.fu-berlin.de/~ehaase"/>Enver Haase</A>
* @see #do_verify()
*/
public final class ModifiedPass3bVerifier {
/*
* TODO: Throughout pass 3b, upper halves of LONG and DOUBLE are represented
* by Type.UNKNOWN. This should be changed in favour of LONG_Upper and
* DOUBLE_Upper as in pass 2.
*/
/**
* An InstructionContextQueue is a utility class that holds
* (InstructionContext, ArrayList) pairs in a Queue data structure. This is
* used to hold information about InstructionContext objects externally ---
* i.e. that information is not saved inside the InstructionContext object
* itself. This is useful to save the execution path of the symbolic
* execution of the Pass3bVerifier - this is not information that belongs
* into the InstructionContext object itself. Only at "execute()"ing time,
* an InstructionContext object will get the current information we have
* about its symbolic execution predecessors.
*/
static final class InstructionContextQueue {
private final Vector<InstructionContext> ics = new Vector<InstructionContext>(); // Type: InstructionContext
private final Vector<ArrayList<InstructionContext>> ecs = new Vector<ArrayList<InstructionContext>>(); // Type: ArrayList (of
// InstructionContext)
public void add(
final InstructionContext ic,
final ArrayList<InstructionContext> executionChain)
{
ics.add(ic);
ecs.add(executionChain);
}
public boolean isEmpty() {
return ics.isEmpty();
}
public void remove() {
this.remove(0);
}
public void remove(final int i) {
ics.remove(i);
ecs.remove(i);
}
public InstructionContext getIC(final int i) {
return ics.get(i);
}
public ArrayList<InstructionContext> getEC(final int i) {
return ecs.get(i);
}
public int size() {
return ics.size();
}
} // end Inner Class InstructionContextQueue
/** In DEBUG mode, the verification algorithm is not randomized. */
private static final boolean DEBUG = true;
/** The Verifier that created this. */
private JavaClass jc;
/** The method number to verify. */
private int method_no;
/**
* This class should only be instantiated by a Verifier.
*
* @param jc
* @param method_no
*
* @see org.apache.bcel.verifier.Verifier
*/
public ModifiedPass3bVerifier(final JavaClass jc, final int method_no) {
this.jc = jc;
this.method_no = method_no;
}
/**
* Whenever the outgoing frame situation of an InstructionContext changes,
* all its successors are put [back] into the queue [as if they were
* unvisited]. The proof of termination is about the existence of a fix
* point of frame merging.
*
* @param cfg
* @param start
* @param vanillaFrame
* @param icv
* @param ev
*/
private void circulationPump(
final ControlFlowGraph cfg,
final InstructionContext start,
final Frame vanillaFrame,
final InstConstraintVisitor icv,
final ExecutionVisitor ev)
{
final Random random = new Random();
InstructionContextQueue icq = new InstructionContextQueue();
start.execute(vanillaFrame, new ArrayList<InstructionContext>(), icv, ev); // new
// ArrayList()
// <=> no
// Instruction
// was executed
// before
// => Top-Level routine (no jsr call before)
icq.add(start, new ArrayList<InstructionContext>());
// LOOP!
while (!icq.isEmpty()) {
InstructionContext u;
ArrayList<InstructionContext> ec;
if (!DEBUG) {
int r = random.nextInt(icq.size());
u = icq.getIC(r);
ec = icq.getEC(r);
icq.remove(r);
} else {
u = icq.getIC(0);
ec = icq.getEC(0);
icq.remove(0);
}
ArrayList<InstructionContext> oldchain = new ArrayList<InstructionContext>(ec);
ArrayList<InstructionContext> newchain = new ArrayList<InstructionContext>(ec);
newchain.add(u);
if (u.getInstruction().getInstruction() instanceof RET) {
// System.err.println(u);
// We can only follow _one_ successor, the one after the
// JSR that was recently executed.
RET ret = (RET) u.getInstruction().getInstruction();
ReturnaddressType t = (ReturnaddressType) u.getOutFrame(oldchain)
.getLocals()
.get(ret.getIndex());
InstructionContext theSuccessor = cfg.contextOf(t.getTarget());
// Sanity check
InstructionContext lastJSR = null;
int skip_jsr = 0;
for (int ss = oldchain.size() - 1; ss >= 0; ss--) {
if (skip_jsr < 0) {
throw new AssertionViolatedException("More RET than JSR in execution chain?!");
}
// System.err.println("+"+oldchain.get(ss));
if (oldchain.get(ss).getInstruction()
.getInstruction() instanceof JsrInstruction)
{
if (skip_jsr == 0) {
lastJSR = oldchain.get(ss);
break;
} else {
skip_jsr--;
}
}
if (oldchain.get(ss).getInstruction()
.getInstruction() instanceof RET)
{
skip_jsr++;
}
}
if (lastJSR == null) {
throw new AssertionViolatedException("RET without a JSR before in ExecutionChain?! EC: '"
+ oldchain + "'.");
}
JsrInstruction jsr = (JsrInstruction) lastJSR.getInstruction()
.getInstruction();
if (theSuccessor != cfg.contextOf(jsr.physicalSuccessor())) {
throw new AssertionViolatedException("RET '"
+ u.getInstruction()
+ "' info inconsistent: jump back to '"
+ theSuccessor + "' or '"
+ cfg.contextOf(jsr.physicalSuccessor()) + "'?");
}
if (theSuccessor.execute(u.getOutFrame(oldchain),
newchain,
icv,
ev))
{
icq.add(theSuccessor, new ArrayList<InstructionContext>(newchain));
}
} else {// "not a ret"
// Normal successors. Add them to the queue of successors.
InstructionContext[] succs = u.getSuccessors();
for (int s = 0; s < succs.length; s++) {
InstructionContext v = succs[s];
if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
icq.add(v, new ArrayList<InstructionContext>(newchain));
}
}
}// end "not a ret"
// Exception Handlers. Add them to the queue of successors.
// [subroutines are never protected; mandated by JustIce]
ExceptionHandler[] exc_hds = u.getExceptionHandlers();
for (int s = 0; s < exc_hds.length; s++) {
InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
// TODO: the "oldchain" and "newchain" is used to determine the
// subroutine
// we're in (by searching for the last JSR) by the
// InstructionContext
// implementation. Therefore, we should not use this chain
// mechanism
// when dealing with exception handlers.
// Example: a JSR with an exception handler as its successor
// does not
// mean we're in a subroutine if we go to the exception handler.
// We should address this problem later; by now we simply "cut"
// the chain
// by using an empty chain for the exception handlers.
// if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
// new OperandStack (u.getOutFrame().getStack().maxStack(),
// (exc_hds[s].getExceptionType()==null? Type.THROWABLE :
// exc_hds[s].getExceptionType())) ), newchain), icv, ev){
// icq.add(v, (ArrayList) newchain.clone());
if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
new OperandStack(u.getOutFrame(oldchain)
.getStack()
.maxStack(),
(exc_hds[s].getExceptionType() == null
? Type.THROWABLE
: exc_hds[s].getExceptionType()))),
new ArrayList<InstructionContext>(),
icv,
ev))
{
icq.add(v, new ArrayList<InstructionContext>());
}
}
}// while (!icq.isEmpty()) END
// InstructionHandle ih = start.getInstruction();
// do{
// if ((ih.getInstruction() instanceof ReturnInstruction) &&
// (!(cfg.isDead(ih)))) {
// InstructionContext ic = cfg.contextOf(ih);
// Frame f = ic.getOutFrame(new ArrayList()); // TODO: This is buggy, we
// check only the top-level return instructions this way. Maybe some
// maniac returns from a method when in a subroutine?
// LocalVariables lvs = f.getLocals();
// for (int i=0; i<lvs.maxLocals(); i++){
// if (lvs.get(i) instanceof UninitializedObjectType){
// //this.addMessage("Warning: ReturnInstruction '"+ic+"' may leave
// method with an uninitialized object in the local variables array
// '"+lvs+"'.");
// }
// }
// OperandStack os = f.getStack();
// for (int i=0; i<os.size(); i++){
// if (os.peek(i) instanceof UninitializedObjectType){
// this.addMessage("Warning: ReturnInstruction '"+ic+"' may leave method
// with an uninitialized object on the operand stack '"+os+"'.");
// }
// }
// }
// }while ((ih = ih.getNext()) != null);
}
/**
* Pass 3b implements the data flow analysis as described in the Java
* Virtual Machine Specification, Second Edition. Later versions will use
* LocalVariablesInfo objects to verify if the verifier-inferred types and
* the class file's debug information (LocalVariables attributes) match
* [TODO].
*
* @return TODO
*
* @see org.apache.bcel.verifier.statics.LocalVariablesInfo
* @see org.apache.bcel.verifier.statics.Pass2Verifier#getLocalVariablesInfo(int)
*/
public VerificationResult do_verify() {
ConstantPoolGen constantPoolGen = new ConstantPoolGen(jc.getConstantPool());
// Init Visitors
InstConstraintVisitor icv = new InstConstraintVisitor();
icv.setConstantPoolGen(constantPoolGen);
ExecutionVisitor ev = new ExecutionVisitor();
ev.setConstantPoolGen(constantPoolGen);
Method[] methods = jc.getMethods(); // Method no "method_no" exists, we
// ran Pass3a before on it!
try {
MethodGen mg = new MethodGen(methods[method_no],
jc.getClassName(),
constantPoolGen);
icv.setMethodGen(mg);
// //////////// DFA BEGINS HERE ////////////////
if (!(mg.isAbstract() || mg.isNative())) { // IF mg HAS CODE (See
// pass 2)
ControlFlowGraph cfg = new ControlFlowGraph(mg);
// Build the initial frame situation for this method.
Frame f = new Frame(mg.getMaxLocals(), mg.getMaxStack());
if (!mg.isStatic()) {
if (mg.getName().equals(Constants.CONSTRUCTOR_NAME)) {
Frame._this = new UninitializedObjectType(new ObjectType(jc.getClassName()));
f.getLocals().set(0, Frame._this);
} else {
Frame._this = null;
f.getLocals().set(0, new ObjectType(jc.getClassName()));
}
}
Type[] argtypes = mg.getArgumentTypes();
int twoslotoffset = 0;
for (int j = 0; j < argtypes.length; j++) {
if (argtypes[j] == Type.SHORT || argtypes[j] == Type.BYTE
|| argtypes[j] == Type.CHAR
|| argtypes[j] == Type.BOOLEAN)
{
argtypes[j] = Type.INT;
}
f.getLocals().set(twoslotoffset + j
+ (mg.isStatic() ? 0 : 1),
argtypes[j]);
if (argtypes[j].getSize() == 2) {
twoslotoffset++;
f.getLocals().set(twoslotoffset + j
+ (mg.isStatic() ? 0 : 1),
Type.UNKNOWN);
}
}
circulationPump(cfg, cfg.contextOf(mg.getInstructionList()
.getStart()), f, icv, ev);
}
} catch (VerifierConstraintViolatedException ce) {
ce.extendMessage("Constraint violated in method '"
+ methods[method_no] + "':\n", "");
return new VerificationResult(VerificationResult.VERIFIED_REJECTED,
ce.getMessage());
} catch (RuntimeException re) {
// These are internal errors
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
re.printStackTrace(pw);
throw new AssertionViolatedException("Some RuntimeException occured while verify()ing class '"
+ jc.getClassName()
+ "', method '"
+ methods[method_no]
+ "'. Original RuntimeException's stack trace:\n---\n"
+ sw
+ "---\n");
}
return VerificationResult.VR_OK;
}
/**
* Returns the method number as supplied when instantiating.
*
* @return TODO
*/
public int getMethodNo() {
return method_no;
}
}
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