/** Checks the specific method for consistency. */
  public static void checkMgen(MethodGen mgen) {

    if (skip_checks) return;

    try {
      mgen.toString();
      mgen.getLineNumberTable(mgen.getConstantPool());

      InstructionList ilist = mgen.getInstructionList();
      if (ilist == null || ilist.getStart() == null) return;
      CodeExceptionGen[] exceptionHandlers = mgen.getExceptionHandlers();
      for (CodeExceptionGen gen : exceptionHandlers) {
        assert ilist.contains(gen.getStartPC())
            : "exception handler "
                + gen
                + " has been forgotten in "
                + mgen.getClassName()
                + "."
                + mgen.getName();
      }
      MethodGen nmg = new MethodGen(mgen.getMethod(), mgen.getClassName(), mgen.getConstantPool());
      nmg.getLineNumberTable(mgen.getConstantPool());
    } catch (Throwable t) {
      System.out.printf("failure in method %s.%s\n", mgen.getClassName(), mgen.getName());
      t.printStackTrace();
      throw new Error(t);
    }
  }
  /**
   * Adds a prefix to the original method. To make it callable only from within the framework
   * itself.
   *
   * @param mg the MethodGen
   * @param method the current method
   * @param methodSequence the methods sequence number
   * @param uuid the definition UUID
   * @return the modified method
   */
  private Method addPrefixToMethod(
      final MethodGen mg, final Method method, final int methodSequence, final String uuid) {

    // change the method access flags (should always be set to protected)
    int accessFlags = mg.getAccessFlags();
    if ((accessFlags & Constants.ACC_PROTECTED) == 0) {
      // set the protected flag
      accessFlags |= Constants.ACC_PROTECTED;
    }
    if ((accessFlags & Constants.ACC_PRIVATE) != 0) {
      // clear the private flag
      accessFlags &= ~Constants.ACC_PRIVATE;
    }
    if ((accessFlags & Constants.ACC_PUBLIC) != 0) {
      // clear the public flag
      accessFlags &= ~Constants.ACC_PUBLIC;
    }

    mg.setName(getPrefixedMethodName(method, methodSequence, mg.getClassName()));

    mg.setAccessFlags(accessFlags);

    mg.setMaxStack();
    mg.setMaxLocals();

    return mg.getMethod();
  }
Exemple #3
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 public LockAnalysis(MethodGen methodGen, ValueNumberDataflow vnaDataflow, DepthFirstSearch dfs) {
   super(dfs);
   this.methodGen = methodGen;
   this.vnaDataflow = vnaDataflow;
   this.vna = vnaDataflow.getAnalysis();
   this.isSynchronized = methodGen.isSynchronized();
   this.isStatic = methodGen.isStatic();
   if (DEBUG) {
     System.out.println(
         "Analyzing Locks in " + methodGen.getClassName() + "." + methodGen.getName());
   }
 }
Exemple #4
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  @Override
  public void initEntryFact(LockSet result) {
    result.clear();
    result.setDefaultLockCount(0);

    if (isSynchronized && !isStatic) {
      ValueNumber thisValue = vna.getThisValue();
      result.setLockCount(thisValue.getNumber(), 1);
    } else if (isSynchronized && isStatic) {
      ValueNumber thisValue = vna.getClassObjectValue(methodGen.getClassName());
      result.setLockCount(thisValue.getNumber(), 1);
    }
  }
Exemple #5
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 private void lockOp(LockSet fact, int lockNumber, int delta) {
   int value = fact.getLockCount(lockNumber);
   if (value < 0) {
     return;
   }
   value += delta;
   if (value < 0) {
     value = LockSet.BOTTOM;
   }
   if (DEBUG) {
     System.out.println(
         "Setting "
             + lockNumber
             + " to "
             + value
             + " in "
             + methodGen.getClassName()
             + "."
             + methodGen.getName());
   }
   fact.setLockCount(lockNumber, value);
 }
  /**
   * Sets the locals to 'this' and each of the arguments. Any other locals are removed. An
   * instruction list with at least one instruction must exist.
   */
  public static void setup_init_locals(MethodGen mg) {

    // Get the parameter types and names.
    Type[] arg_types = mg.getArgumentTypes();
    String[] arg_names = mg.getArgumentNames();

    // Remove any existing locals
    mg.setMaxLocals(0);
    mg.removeLocalVariables();

    // Add a local for the instance variable (this)
    if (!mg.isStatic()) mg.addLocalVariable("this", new ObjectType(mg.getClassName()), null, null);

    // Add a local for each parameter
    for (int ii = 0; ii < arg_names.length; ii++) {
      mg.addLocalVariable(arg_names[ii], arg_types[ii], null, null);
    }

    // Reset the current number of locals so that when other locals
    // are added they get added at the correct offset
    mg.setMaxLocals();

    return;
  }
 /**
  * Constructor.
  *
  * @param rdfs the reverse depth-first-search (for the block order)
  * @param cfg the CFG for the method
  * @param methodGen the MethodGen for the method
  * @param vnaDataflow
  * @param assertionMethods AssertionMethods for the analyzed class
  */
 public UnconditionalValueDerefAnalysis(
     ReverseDepthFirstSearch rdfs,
     DepthFirstSearch dfs,
     CFG cfg,
     Method method,
     MethodGen methodGen,
     ValueNumberDataflow vnaDataflow,
     AssertionMethods assertionMethods) {
   super(rdfs, dfs);
   this.cfg = cfg;
   this.methodGen = methodGen;
   this.method = method;
   this.vnaDataflow = vnaDataflow;
   this.assertionMethods = assertionMethods;
   if (DEBUG) {
     System.out.println(
         "UnconditionalValueDerefAnalysis analysis "
             + methodGen.getClassName()
             + "."
             + methodGen.getName()
             + " : "
             + methodGen.getSignature());
   }
 }
 private static String getFullMethodName(MethodGen methodGen) {
   String methodNameWithSignature = methodGen.getName() + methodGen.getSignature();
   String slashedClassName = methodGen.getClassName().replace('.', '/');
   return slashedClassName + "." + methodNameWithSignature;
 }
  /**
   * Transforms invoke instructions that match the specified list for this class to call the
   * specified static call instead.
   */
  private InstructionList xform_inst(MethodGen mg, Instruction inst) {

    switch (inst.getOpcode()) {
      case Constants.INVOKESTATIC:
        {
          InstructionList il = new InstructionList();
          INVOKESTATIC is = (INVOKESTATIC) inst;
          String cname = is.getClassName(pgen);
          String mname = is.getMethodName(pgen);
          Type[] args = is.getArgumentTypes(pgen);
          MethodDef orig = new MethodDef(cname + "." + mname, args);
          MethodInfo call = method_map.get(orig);
          if (call != null) {
            call.cnt++;
            String classname = call.method_class;
            String methodname = mname;
            debug_map.log(
                "%s.%s: Replacing method %s.%s (%s) with %s.%s%n",
                mg.getClassName(),
                mg.getName(),
                cname,
                mname,
                UtilMDE.join(args, ", "),
                classname,
                methodname);
            il.append(
                ifact.createInvoke(
                    classname, methodname, is.getReturnType(pgen), args, Constants.INVOKESTATIC));
          }
          return (il);
        }

      case Constants.INVOKEVIRTUAL:
        {
          InstructionList il = new InstructionList();
          INVOKEVIRTUAL iv = (INVOKEVIRTUAL) inst;
          String cname = iv.getClassName(pgen);
          String mname = iv.getMethodName(pgen);
          Type[] args = iv.getArgumentTypes(pgen);
          Type instance_type = iv.getReferenceType(pgen);
          Type[] new_args = BCELUtil.insert_type(instance_type, args);
          MethodDef orig = new MethodDef(cname + "." + mname, args);
          if (debug_class) System.out.printf("looking for %s in map %s%n", orig, method_map);
          MethodInfo call = method_map.get(orig);
          if (call != null) {
            call.cnt++;
            String classname = call.method_class;
            String methodname = mname;
            debug_map.log(
                "Replacing method %s.%s (%s) with %s.%s%n",
                cname, mname, ArraysMDE.toString(args), classname, methodname);
            il.append(
                ifact.createInvoke(
                    classname,
                    methodname,
                    iv.getReturnType(pgen),
                    new_args,
                    Constants.INVOKESTATIC));
          }
          return (il);
        }

      default:
        return (null);
    }
  }
  private void analyzeMethod(ClassContext classContext, Method method)
      throws CFGBuilderException, DataflowAnalysisException {
    if (isSynthetic(method) || !prescreen(classContext, method)) return;
    XMethod xmethod = XFactory.createXMethod(classContext.getJavaClass(), method);
    if (xmethod.isSynthetic()) return;

    BugAccumulator accumulator = new BugAccumulator(bugReporter);

    CFG cfg = classContext.getCFG(method);
    TypeDataflow typeDataflow = classContext.getTypeDataflow(method);
    ValueNumberDataflow vnDataflow = classContext.getValueNumberDataflow(method);

    ConstantPoolGen cpg = classContext.getConstantPoolGen();
    MethodGen methodGen = classContext.getMethodGen(method);
    if (methodGen == null) return;
    String fullMethodName = methodGen.getClassName() + "." + methodGen.getName();

    String sourceFile = classContext.getJavaClass().getSourceFileName();
    if (DEBUG) {
      System.out.println("\n" + fullMethodName);
    }

    // Process each instruction
    for (Iterator<Location> iter = cfg.locationIterator(); iter.hasNext(); ) {
      Location location = iter.next();
      InstructionHandle handle = location.getHandle();
      Instruction ins = handle.getInstruction();

      // Only consider invoke instructions
      if (!(ins instanceof InvokeInstruction)) continue;

      InvokeInstruction inv = (InvokeInstruction) ins;

      XMethod invokedMethod = XFactory.createXMethod(inv, cpg);

      String invokedMethodName = invokedMethod.getName();
      String argSignature = invokedMethod.getSignature();
      argSignature = argSignature.substring(0, argSignature.indexOf(')') + 1);
      String call = invokedMethodName + argSignature;
      SignatureParser sigParser = new SignatureParser(inv.getSignature(cpg));

      Collection<Info> collection = callMap.get(call);
      if (!callMap.containsKey(call)) continue;
      for (Info info : collection) {
        Subtypes2 subtypes2 = AnalysisContext.currentAnalysisContext().getSubtypes2();
        if (DEBUG)
          System.out.println(
              "at "
                  + handle.getPosition()
                  + " Checking call to "
                  + info.interfaceForCall
                  + " : "
                  + invokedMethod);
        try {
          if (!subtypes2.isSubtype(invokedMethod.getClassDescriptor(), info.interfaceForCall))
            continue;
        } catch (ClassNotFoundException e) {
          if (info.interfaceForCall.getClassName().equals("java/util/Collection")
              && invokedMethod.getClassName().equals("com.google.common.collect.Multiset")) {
            assert true;
            // we know this is OK without needing to find definition of Multiset
          } else {
            AnalysisContext.reportMissingClass(e);
            continue;
          }
        }

        boolean allMethod;

        int typeArgument;
        if (info.typeIndex >= 0) {
          allMethod = false;
          typeArgument = info.typeIndex;
        } else {
          allMethod = true;
          typeArgument = -(1 + info.typeIndex);
        }
        int pos = info.argumentIndex;

        int lhsPos;
        if (inv instanceof INVOKESTATIC) lhsPos = sigParser.getSlotsFromTopOfStackForParameter(0);
        else lhsPos = sigParser.getTotalArgumentSize();

        int stackPos = sigParser.getSlotsFromTopOfStackForParameter(pos);

        TypeFrame frame = typeDataflow.getFactAtLocation(location);
        if (!frame.isValid()) {
          // This basic block is probably dead
          continue;
        }

        Type operandType = frame.getStackValue(stackPos);
        if (operandType.equals(TopType.instance())) {
          // unreachable
          continue;
        }

        if (operandType.equals(NullType.instance())) {
          // ignore
          continue;
        }

        ValueNumberFrame vnFrame = vnDataflow.getFactAtLocation(location);

        if (!vnFrame.isValid()) {
          AnalysisContext.logError("Invalid value number frame in " + xmethod);
          continue;
        }

        ValueNumber objectVN = vnFrame.getStackValue(lhsPos);
        ValueNumber argVN = vnFrame.getStackValue(stackPos);

        if (objectVN.equals(argVN)) {
          String bugPattern = "DMI_COLLECTIONS_SHOULD_NOT_CONTAIN_THEMSELVES";
          int priority = HIGH_PRIORITY;
          if (invokedMethodName.equals("removeAll")) {
            bugPattern = "DMI_USING_REMOVEALL_TO_CLEAR_COLLECTION";
            priority = NORMAL_PRIORITY;
          } else if (invokedMethodName.endsWith("All")) {
            bugPattern = "DMI_VACUOUS_SELF_COLLECTION_CALL";
            priority = NORMAL_PRIORITY;
          }
          if (invokedMethodName.startsWith("contains")) {
            InstructionHandle next = handle.getNext();
            if (next != null) {
              Instruction nextIns = next.getInstruction();

              if (nextIns instanceof InvokeInstruction) {
                XMethod nextMethod = XFactory.createXMethod((InvokeInstruction) nextIns, cpg);
                if (nextMethod.getName().equals("assertFalse")) continue;
              }
            }
          }
          accumulator.accumulateBug(
              new BugInstance(this, bugPattern, priority)
                  .addClassAndMethod(methodGen, sourceFile)
                  .addCalledMethod(methodGen, (InvokeInstruction) ins)
                  .addOptionalAnnotation(
                      ValueNumberSourceInfo.findAnnotationFromValueNumber(
                          method, location, objectVN, vnFrame, "INVOKED_ON")),
              SourceLineAnnotation.fromVisitedInstruction(
                  classContext, methodGen, sourceFile, handle));
        }

        // Only consider generic...
        Type objectType = frame.getStackValue(lhsPos);
        if (!(objectType instanceof GenericObjectType)) continue;

        GenericObjectType operand = (GenericObjectType) objectType;

        int expectedTypeParameters = 1;
        String simpleName = info.interfaceForCall.getSimpleName();
        if (simpleName.toLowerCase().endsWith("map") || simpleName.equals("Hashtable"))
          expectedTypeParameters = 2;
        else if (simpleName.equals("Table")) expectedTypeParameters = 3;

        // ... containers
        if (!operand.hasParameters()) continue;
        if (operand.getNumParameters() != expectedTypeParameters) continue;
        ClassDescriptor operandClass = DescriptorFactory.getClassDescriptor(operand);
        if (!isGenericCollection(operandClass)) continue;

        if (expectedTypeParameters == 2
            && Subtypes2.instanceOf(operandClass, Map.class)
            && !TypeFrameModelingVisitor.isStraightGenericMap(operandClass)) continue;
        Type expectedType;
        if (allMethod) expectedType = operand;
        else expectedType = operand.getParameterAt(typeArgument);
        Type actualType = frame.getStackValue(stackPos);
        Type equalsType = actualType;
        if (allMethod) {
          if (!(actualType instanceof GenericObjectType)) {
            continue;
          }
          equalsType = ((GenericObjectType) actualType).getParameterAt(typeArgument);
        }

        IncompatibleTypes matchResult = compareTypes(expectedType, actualType, allMethod);

        boolean parmIsObject = expectedType.getSignature().equals("Ljava/lang/Object;");
        boolean selfOperation = !allMethod && operand.equals(actualType) && !parmIsObject;
        if (!allMethod && !parmIsObject && actualType instanceof GenericObjectType) {

          GenericObjectType p2 = (GenericObjectType) actualType;
          List<? extends ReferenceType> parameters = p2.getParameters();
          if (parameters != null && parameters.equals(operand.getParameters()))
            selfOperation = true;
        }

        if (!selfOperation
            && (matchResult == IncompatibleTypes.SEEMS_OK
                || matchResult.getPriority() == Priorities.IGNORE_PRIORITY)) continue;

        if (invokedMethodName.startsWith("contains") || invokedMethodName.equals("remove")) {
          InstructionHandle next = handle.getNext();
          if (next != null) {
            Instruction nextIns = next.getInstruction();

            if (nextIns instanceof InvokeInstruction) {
              XMethod nextMethod = XFactory.createXMethod((InvokeInstruction) nextIns, cpg);
              if (nextMethod.getName().equals("assertFalse")) continue;
            }
          }
        } else if (invokedMethodName.equals("get") || invokedMethodName.equals("remove")) {
          InstructionHandle next = handle.getNext();
          if (next != null) {
            Instruction nextIns = next.getInstruction();

            if (nextIns instanceof InvokeInstruction) {
              XMethod nextMethod = XFactory.createXMethod((InvokeInstruction) nextIns, cpg);
              if (nextMethod.getName().equals("assertNull")) continue;
            }
          }
        }
        boolean noisy = false;
        if (invokedMethodName.equals("get")) {
          UnconditionalValueDerefDataflow unconditionalValueDerefDataflow =
              classContext.getUnconditionalValueDerefDataflow(method);

          UnconditionalValueDerefSet unconditionalDeref =
              unconditionalValueDerefDataflow.getFactAtLocation(location);
          ValueNumberFrame vnAfter = vnDataflow.getFactAfterLocation(location);
          ValueNumber top = vnAfter.getTopValue();
          noisy =
              unconditionalDeref.getValueNumbersThatAreUnconditionallyDereferenced().contains(top);
        }
        // Prepare bug report
        SourceLineAnnotation sourceLineAnnotation =
            SourceLineAnnotation.fromVisitedInstruction(
                classContext, methodGen, sourceFile, handle);

        // Report a bug that mentions each of the failed arguments in
        // matches

        if (expectedType instanceof GenericObjectType)
          expectedType = ((GenericObjectType) expectedType).getUpperBound();

        int priority = matchResult.getPriority();
        if (!operandClass.getClassName().startsWith("java/util")
            && priority == Priorities.HIGH_PRIORITY)
          priority = Math.max(priority, Priorities.NORMAL_PRIORITY);
        if (TestCaseDetector.likelyTestCase(xmethod))
          priority = Math.max(priority, Priorities.NORMAL_PRIORITY);
        else if (selfOperation) priority = Priorities.HIGH_PRIORITY;
        ClassDescriptor expectedClassDescriptor =
            DescriptorFactory.createClassOrObjectDescriptorFromSignature(
                expectedType.getSignature());
        ClassDescriptor actualClassDescriptor =
            DescriptorFactory.createClassOrObjectDescriptorFromSignature(equalsType.getSignature());
        ClassSummary classSummary = AnalysisContext.currentAnalysisContext().getClassSummary();
        Set<XMethod> targets = null;
        try {
          targets =
              Hierarchy2.resolveVirtualMethodCallTargets(
                  actualClassDescriptor, "equals", "(Ljava/lang/Object;)Z", false, false);
          boolean allOk = targets.size() > 0;
          for (XMethod m2 : targets)
            if (!classSummary.mightBeEqualTo(m2.getClassDescriptor(), expectedClassDescriptor))
              allOk = false;
          if (allOk) priority += 2;
        } catch (ClassNotFoundException e) {
          AnalysisContext.reportMissingClass(e);
        }
        String bugPattern = "GC_UNRELATED_TYPES";

        BugInstance bug =
            new BugInstance(this, bugPattern, priority)
                .addClassAndMethod(methodGen, sourceFile)
                .addFoundAndExpectedType(actualType, expectedType)
                .addCalledMethod(methodGen, (InvokeInstruction) ins)
                .addOptionalAnnotation(
                    ValueNumberSourceInfo.findAnnotationFromValueNumber(
                        method, location, objectVN, vnFrame, "INVOKED_ON"))
                .addOptionalAnnotation(
                    ValueNumberSourceInfo.findAnnotationFromValueNumber(
                        method, location, argVN, vnFrame, "ARGUMENT"))
                .addEqualsMethodUsed(targets);
        if (noisy) {
          WarningPropertySet<WarningProperty> propertySet =
              new WarningPropertySet<WarningProperty>();

          propertySet.addProperty(GeneralWarningProperty.NOISY_BUG);
          propertySet.decorateBugInstance(bug);
        }
        accumulator.accumulateBug(bug, sourceLineAnnotation);
      }
    }
    accumulator.reportAccumulatedBugs();
  }