private void analyzeLocal(SootMethod method, Value value) {
   Local l = (Local) value;
   boolean objIsThreadLocal = tloa.isObjectThreadLocal(l, method);
   if (objIsThreadLocal) {
     G.v().out.println("[lg.tlo] LOCAL " + l.toString() + " is thread-local in method " + method);
   } else {
     G.v().out.println("[lg.tlo] LOCAL " + l.toString() + " is thread-shared in method " + method);
   }
 }
Esempio n. 2
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  /** Prints the given <code>JimpleBody</code> to the specified <code>PrintWriter</code>. */
  private void printLocalsInBody(Body body, UnitPrinter up) {
    // Print out local variables
    {
      Map typeToLocals = new DeterministicHashMap(body.getLocalCount() * 2 + 1, 0.7f);

      // Collect locals
      {
        Iterator localIt = body.getLocals().iterator();

        while (localIt.hasNext()) {
          Local local = (Local) localIt.next();

          List localList;

          Type t = local.getType();

          if (typeToLocals.containsKey(t)) localList = (List) typeToLocals.get(t);
          else {
            localList = new ArrayList();
            typeToLocals.put(t, localList);
          }

          localList.add(local);
        }
      }

      // Print locals
      {
        Iterator typeIt = typeToLocals.keySet().iterator();

        while (typeIt.hasNext()) {
          Type type = (Type) typeIt.next();

          List localList = (List) typeToLocals.get(type);
          Object[] locals = localList.toArray();
          up.type(type);
          up.literal(" ");

          for (int k = 0; k < locals.length; k++) {
            if (k != 0) up.literal(", ");

            up.local((Local) locals[k]);
          }

          up.literal(";");
          up.newline();
        }
      }

      if (!typeToLocals.isEmpty()) {
        up.newline();
      }
    }
  }
Esempio n. 3
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  public void outADeclaration(ADeclaration node) {
    List localNameList = (List) mProductions.removeLast();
    Type type = (Type) mProductions.removeLast();
    Iterator it = localNameList.iterator();
    List localList = new ArrayList();

    while (it.hasNext()) {
      Local l = Jimple.v().newLocal((String) it.next(), type);
      mLocals.put(l.getName(), l);
      localList.add(l);
    }
    mProductions.addLast(localList);
  }
Esempio n. 4
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  /** Flatten complex expressions within the AST */
  public Node leave(Node old, Node n, NodeVisitor v) {
    if (n == noFlatten) {
      noFlatten = null;
      return n;
    }

    if (n instanceof Block) {
      List l = (List) stack.removeFirst();
      return ((Block) n).statements(l);
    } else if (n instanceof Stmt && !(n instanceof LocalDecl)) {
      List l = (List) stack.getFirst();
      l.add(n);
      return n;
    } else if (n instanceof Expr
        && !(n instanceof Lit)
        && !(n instanceof Special)
        && !(n instanceof Local)) {

      Expr e = (Expr) n;

      if (e instanceof Assign) {
        return n;
      }

      // create a local temp, initialized to the value of the complex
      // expression

      String name = newID();
      LocalDecl def =
          nf.LocalDecl(
              e.position(), Flags.FINAL, nf.CanonicalTypeNode(e.position(), e.type()), name, e);
      def = def.localInstance(ts.localInstance(e.position(), Flags.FINAL, e.type(), name));

      List l = (List) stack.getFirst();
      l.add(def);

      // return the local temp instead of the complex expression
      Local use = nf.Local(e.position(), name);
      use = (Local) use.type(e.type());
      use = use.localInstance(ts.localInstance(e.position(), Flags.FINAL, e.type(), name));
      return use;
    }

    return n;
  }
Esempio n. 5
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  /** Perform the appropriate flow operations for assignment to a local variable */
  protected Map flowLocalAssign(
      DataFlowItem inItem, FlowGraph graph, LocalAssign a, Set succEdgeKeys) {
    Local l = (Local) a.left();
    Map m = new HashMap(inItem.initStatus);
    MinMaxInitCount initCount = (MinMaxInitCount) m.get(l.localInstance());

    // initcount could be null if the local is defined in the outer
    // class, or if we have not yet seen its declaration (i.e. the
    // local is used in its own initialization)
    if (initCount == null) {
      initCount = new MinMaxInitCount(InitCount.ZERO, InitCount.ZERO);
    }

    initCount = new MinMaxInitCount(initCount.getMin().increment(), initCount.getMax().increment());

    m.put(l.localInstance(), initCount);
    return itemToMap(new DataFlowItem(m), succEdgeKeys);
  }
Esempio n. 6
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  /**
   * Create a method conveniently. The method is added to the class "TestClass". Parameters can be
   * given as an (positional) array of local variables (the "identity statements", required by Soot
   * to map parameters to local variables, are inserted automatically)
   */
  public SootMethod makeMethod(
      int modifier, String name, List<Local> params, soot.Type retType, List<Unit> bodyStmts) {
    SootMethod m =
        new SootMethod(
            name, params.stream().map(Local::getType).collect(toList()), retType, modifier);
    this.testClass.addMethod(m);
    Body body = Jimple.v().newBody(m);
    m.setActiveBody(body);

    // set the statements for the body.. first the identity statements, then the bodyStmts
    if (!m.isStatic()) {
      body.getLocals().add(localThis);
      body.getUnits()
          .add(Jimple.v().newIdentityStmt(localThis, Jimple.v().newThisRef(testClass.getType())));
    }
    IntStream.range(0, params.size())
        .forEach(
            pos -> {
              Local l = params.get(pos);
              ParameterRef pr = Jimple.v().newParameterRef(l.getType(), pos);
              body.getUnits().add(Jimple.v().newIdentityStmt(l, pr));
            });
    body.getUnits().addAll(bodyStmts);

    // set the locals for the body
    Set<Local> locals =
        Stream.concat(
                params.stream(),
                body.getUseAndDefBoxes()
                    .stream()
                    .filter(b -> b.getValue() instanceof Local)
                    .map(b -> (Local) b.getValue()))
            .collect(toSet());
    locals.removeAll(body.getLocals());
    body.getLocals().addAll(locals);

    return m;
  }
Esempio n. 7
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 /** Check that the local variable <code>l</code> is used correctly. */
 protected void checkLocal(FlowGraph graph, Local l, DataFlowItem dfIn, DataFlowItem dfOut)
     throws SemanticException {
   if (!currCBI.localDeclarations.contains(l.localInstance())) {
     // it's a local variable that has not been declared within
     // this scope. The only way this can arise is from an
     // inner class that is not a member of a class (typically
     // a local class, or an anonymous class declared in a method,
     // constructor or initializer).
     // We need to check that it is a final local, and also
     // keep track of it, to ensure that it has been definitely
     // assigned at this point.
     currCBI.outerLocalsUsed.add(l.localInstance());
   } else {
     MinMaxInitCount initCount = (MinMaxInitCount) dfIn.initStatus.get(l.localInstance());
     if (initCount != null && InitCount.ZERO.equals(initCount.getMin())) {
       // the local variable may not have been initialized.
       // However, we only want to complain if the local is reachable
       if (l.reachable()) {
         throw new SemanticException(
             "Local variable \"" + l.name() + "\" may not have been initialized", l.position());
       }
     }
   }
 }
Esempio n. 8
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  private static boolean internalAggregate(
      StmtBody body, Map<ValueBox, Zone> boxToZone, boolean onlyStackVars) {
    LocalUses localUses;
    LocalDefs localDefs;
    ExceptionalUnitGraph graph;
    boolean hadAggregation = false;
    Chain<Unit> units = body.getUnits();

    graph = new ExceptionalUnitGraph(body);
    localDefs = new SmartLocalDefs(graph, new SimpleLiveLocals(graph));
    localUses = new SimpleLocalUses(graph, localDefs);

    List<Unit> unitList = new PseudoTopologicalOrderer<Unit>().newList(graph, false);
    for (Unit u : unitList) {
      if (!(u instanceof AssignStmt)) continue;
      AssignStmt s = (AssignStmt) u;

      Value lhs = s.getLeftOp();
      if (!(lhs instanceof Local)) continue;
      Local lhsLocal = (Local) lhs;

      if (onlyStackVars && !lhsLocal.getName().startsWith("$")) continue;

      List<UnitValueBoxPair> lu = localUses.getUsesOf(s);
      if (lu.size() != 1) continue;

      UnitValueBoxPair usepair = lu.get(0);
      Unit use = usepair.unit;
      ValueBox useBox = usepair.valueBox;

      List<Unit> ld = localDefs.getDefsOfAt(lhsLocal, use);
      if (ld.size() != 1) continue;

      // Check to make sure aggregation pair in the same zone
      if (boxToZone.get(s.getRightOpBox()) != boxToZone.get(usepair.valueBox)) {
        continue;
      }

      /* we need to check the path between def and use */
      /* to see if there are any intervening re-defs of RHS */
      /* in fact, we should check that this path is unique. */
      /* if the RHS uses only locals, then we know what
      to do; if RHS has a method invocation f(a, b,
      c) or field access, we must ban field writes, other method
      calls and (as usual) writes to a, b, c. */

      boolean cantAggr = false;
      boolean propagatingInvokeExpr = false;
      boolean propagatingFieldRef = false;
      boolean propagatingArrayRef = false;
      ArrayList<FieldRef> fieldRefList = new ArrayList<FieldRef>();

      LinkedList<Value> localsUsed = new LinkedList<Value>();
      for (ValueBox vb : s.getUseBoxes()) {
        Value v = vb.getValue();
        if (v instanceof Local) localsUsed.add(v);
        else if (v instanceof InvokeExpr) propagatingInvokeExpr = true;
        else if (v instanceof ArrayRef) propagatingArrayRef = true;
        else if (v instanceof FieldRef) {
          propagatingFieldRef = true;
          fieldRefList.add((FieldRef) v);
        }
      }

      // look for a path from s to use in graph.
      // only look in an extended basic block, though.

      List<Unit> path = graph.getExtendedBasicBlockPathBetween(s, use);

      if (path == null) continue;

      Iterator<Unit> pathIt = path.iterator();

      // skip s.
      if (pathIt.hasNext()) pathIt.next();

      while (pathIt.hasNext() && !cantAggr) {
        Stmt between = (Stmt) (pathIt.next());

        if (between != use) {
          // Check for killing definitions

          for (ValueBox vb : between.getDefBoxes()) {
            Value v = vb.getValue();
            if (localsUsed.contains(v)) {
              cantAggr = true;
              break;
            }

            if (propagatingInvokeExpr || propagatingFieldRef || propagatingArrayRef) {
              if (v instanceof FieldRef) {
                if (propagatingInvokeExpr) {
                  cantAggr = true;
                  break;
                } else if (propagatingFieldRef) {
                  // Can't aggregate a field access if passing a definition of a field
                  // with the same name, because they might be aliased
                  for (FieldRef fieldRef : fieldRefList) {
                    if (((FieldRef) v).getField() == fieldRef.getField()) {
                      cantAggr = true;
                      break;
                    }
                  }
                }
              } else if (v instanceof ArrayRef) {
                if (propagatingInvokeExpr) {
                  // Cannot aggregate an invoke expr past an array write
                  cantAggr = true;
                  break;
                } else if (propagatingArrayRef) {
                  // cannot aggregate an array read past a write
                  // this is somewhat conservative
                  // (if types differ they may not be aliased)

                  cantAggr = true;
                  break;
                }
              }
            }
          }

          // Make sure not propagating past a {enter,exit}Monitor
          if (propagatingInvokeExpr && between instanceof MonitorStmt) cantAggr = true;
        }

        // Check for intervening side effects due to method calls
        if (propagatingInvokeExpr || propagatingFieldRef || propagatingArrayRef) {
          for (final ValueBox box : between.getUseBoxes()) {
            if (between == use && box == useBox) {
              // Reached use point, stop looking for
              // side effects
              break;
            }

            Value v = box.getValue();

            if (v instanceof InvokeExpr
                || (propagatingInvokeExpr && (v instanceof FieldRef || v instanceof ArrayRef))) {
              cantAggr = true;
              break;
            }
          }
        }
      }

      // we give up: can't aggregate.
      if (cantAggr) {
        continue;
      }
      /* assuming that the d-u chains are correct, */
      /* we need not check the actual contents of ld */

      Value aggregatee = s.getRightOp();

      if (usepair.valueBox.canContainValue(aggregatee)) {
        boolean wasSimpleCopy = isSimpleCopy(usepair.unit);
        usepair.valueBox.setValue(aggregatee);
        units.remove(s);
        hadAggregation = true;
        // clean up the tags. If s was not a simple copy, the new statement should get
        // the tags of s.
        // OK, this fix was wrong. The condition should not be
        // "If s was not a simple copy", but rather "If usepair.unit
        // was a simple copy". This way, when there's a load of a constant
        // followed by an invoke, the invoke gets the tags.
        if (wasSimpleCopy) {
          // usepair.unit.removeAllTags();
          usepair.unit.addAllTagsOf(s);
        }
      } else {
        /*
        if(Options.v().verbose())
        {
            G.v().out.println("[debug] failed aggregation");
              G.v().out.println("[debug] tried to put "+aggregatee+
                             " into "+usepair.stmt +
                             ": in particular, "+usepair.valueBox);
              G.v().out.println("[debug] aggregatee instanceof Expr: "
                             +(aggregatee instanceof Expr));
        }*/
      }
    }
    return hadAggregation;
  }