Examples of org.jakstab.rtl.Context

• org.jakstab.rtl.Context
  A context used for evaluating expressions. @author Johannes Kinder

      for (RTLNumber cVal : parentVal.concretize()) {
        if (cVal == null) {
          cValues = null;
          break;
        }
        Context ctx = new Context();
        ctx.addAssignment(parent, cVal);
        RTLExpression result = asParent.applyInverse(cRhs).evaluate(ctx);
        cValues.add((RTLNumber)result);
      }
      if (cValues != null) {
        A e = valueFactory.createAbstractValue(cValues);

                    targetValue)
                );
            // set next label to jump target
            nextLabel = new Location(new AbsoluteAddress(targetValue));
          }
          assumption = assumption.evaluate(new Context());
          RTLAssume assume = new RTLAssume(assumption, stmt);
          assume.setLabel(stmt.getLabel());
          assume.setNextLabel(nextLabel);
          // Target address sanity check
          if (nextLabel.getAddress().getValue() < 10L) {
            logger.warn("Control flow from " + stmt.getLabel() + " reaches address " + nextLabel.getAddress() + "!");
          }

          results.add(new CFAEdge(assume.getLabel(), assume.getNextLabel(), assume, Kind.MAY));
        }

        // Add all edges from under-approximation

        for (Tuple<RTLNumber> pair : dcs.projection(stmt.getCondition(), stmt.getTargetExpression())) {
          RTLNumber conditionValue = pair.get(0);
          RTLNumber targetValue = pair.get(1);
          Location nextLabel;
          // Start building the assume expression: assume correct condition case
          assert conditionValue != null;
          RTLExpression assumption =
              ExpressionFactory.createEqual(stmt.getCondition(), conditionValue);
          if (conditionValue.equals(ExpressionFactory.FALSE)) {
            // assume (condition = false), and set next statement to fallthrough
            nextLabel = stmt.getNextLabel();
          } else {
            assert targetValue != null;

            // Translate real library addresses into stub addresses. Necessary because the static analysis component
            // does not know about concrete import addresses, so it uses a stub system.
            if (!isProgramAddress(targetValue)) {
              logger.debug(dcs.getLocation() + ": Jumping out of module to " + targetValue.toHexString());

              // Attempt to map this out-of-module location to a stub
              if (realToStub.containsKey(targetValue)) {
                // If we saw this concrete address before, replace it by the known stub
                logger.debug("Replacing concrete target " + targetValue.toHexString() + " with stub to " + program.getSymbolFor(new AbsoluteAddress(realToStub.get(targetValue))));
                targetValue = realToStub.get(targetValue);
              } else {

                // Check the statically produced edges for one that is not yet mapped to a concrete address.
                // If the over-approximation resolved an import to a stub, it's going to be contained.
                boolean foundStub = false;
                for (CFAEdge e : results) {
                  RTLNumber staticTarget = e.getTarget().getAddress().toNumericConstant();
                  if (!isProgramAddress(staticTarget) && !stubToReal.containsKey(staticTarget)) {
                    // Take the first one that's neither taken nor in the program
                    // TODO: This could map the wrong addresses in some (hopefully) rare cases depending on analysis order
                    stubToReal.put(staticTarget, targetValue);
                    realToStub.put(targetValue, staticTarget);
                    targetValue = staticTarget;
                    foundStub = true;
                    break;
                  }
                }

                if (!foundStub) {
                  // If we have not found anything suitable, we need to create a new stub
                  // FIXME: The new stub will likely have incorrect stack height adjustment.
                  //        We should extract that information from the trace.

                  logger.info(dcs.getLocation() + ": Creating new stub for unknown function at " + targetValue.toHexString());
                  RTLNumber stubTarget = Program.getProgram().getProcAddress("JAK_UNKNOWN", "proc" + targetValue.toHexString()).toNumericConstant();
                  stubToReal.put(stubTarget, targetValue);
                  realToStub.put(targetValue, stubTarget);
                  targetValue = stubTarget;
                }
              }

            }

            // assume (condition = true AND targetExpression = targetValue)
            assumption = ExpressionFactory.createAnd(
                assumption,
                ExpressionFactory.createEqual(
                    stmt.getTargetExpression(),
                    targetValue)
                );
            // set next label to jump target
            nextLabel = new Location(new AbsoluteAddress(targetValue));
          }
          assumption = assumption.evaluate(new Context());
          RTLAssume assume = new RTLAssume(assumption, stmt);
          assume.setLabel(stmt.getLabel());
          assume.setNextLabel(nextLabel);

          results.add(new CFAEdge(assume.getLabel(), assume.getNextLabel(), assume, Kind.MUST));

        BDD postPreds = s.predicates.id();
        Writable lhs = stmt.getLeftHandSide();

        RTLExpression xprime = ExpressionFactory.createVariable("xprime" + lhs.getBitWidth(), lhs.getBitWidth());

        Context subCtx = new Context();
        subCtx.substitute(lhs, xprime);

        Solver solver = Solver.createSolver();
        RTLExpression stateFormula = s.getStateFormula(prec);
        solver.addAssertion(stateFormula);
        solver.addAssertion(ExpressionFactory.createEqual(xprime,