Exemple #1
0
void AST_BIN_Traversal::visit(SgNode* n) {
    if (n) {
      nrOfInstructions++;
      std::string name = "";
      if (isSgAsmInstruction(n))
        name = unparseInstruction(isSgAsmInstruction(n));
      SgNode* parent = n->get_parent();
      // node
      std::string add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=yellow,fontname=\"7x13bold\",fontcolor=black,style=filled";
      if (isSgAsmFunction(n)) { 
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=purple,fontname=\"7x13bold\",fontcolor=black,style=filled";
        name = isSgAsmFunction(n)->get_name();
      }
      if (isSgAsmX86Instruction(n) && isSgAsmX86Instruction(n)->get_kind() == x86_call)
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=red,fontname=\"7x13bold\",fontcolor=black,style=filled";
      if (isSgAsmValueExpression(n))
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=lightgreen,fontname=\"7x13bold\",fontcolor=black,style=filled";
      if (isSgAsmMemoryReferenceExpression(n))
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=lightblue,fontname=\"7x13bold\",fontcolor=black,style=filled";
      if (isSgAsmBinaryExpression(n))
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=orange,fontname=\"7x13bold\",fontcolor=black,style=filled";
      if (isSgAsmRegisterReferenceExpression(n)) {
        SgAsmRegisterReferenceExpression* rr = isSgAsmRegisterReferenceExpression(n);
        std::string exprName = unparseX86Register(rr->get_descriptor(), NULL);
        name += " "+exprName;
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=green,fontname=\"7x13bold\",fontcolor=black,style=filled";
      }
      if (isSgAsmOperandList(n))
        add = ",shape=ellipse,regular=0, sides=5,peripheries=1,color=\"Black\",fillcolor=white,fontname=\"7x13bold\",fontcolor=black,style=filled";
      myfile << "\"" << n << "\"[label=\"" << name << "\\n" << n->class_name() << "\"" << add << " ];\n"; 
      if (parent) {
        // edge
        myfile << "\"" << parent << "\" -> \"" << n << "\" [label=\"" << n->class_name() << "\" ];\n"; 
      }
    }
}
Exemple #2
0
/* Helper function for unparseArmExpression(SgAsmExpression*)
 * 
 * If this function is called for an EXPR node that cannot appear at the top of an ARM instruction operand tree then the node
 * might create two strings: the primary expression return value and an additional string returned through the SUFFIX
 * argument. What to do with the additional string depends on layers higher up in the call stack.
 * 
 * The sign will be prepended to the result if EXPR is a value expression of some sort. */
static std::string unparseArmExpression(SgAsmExpression* expr, const AsmUnparser::LabelMap *labels,
                                        ArmSignForExpressionUnparsing sign, std::string *suffix=NULL)
{
    std::string result, extra;
    if (!isSgAsmValueExpression(expr)) {
        result += unparseArmSign(sign);
    }
    switch (expr->variantT()) {
        case V_SgAsmBinaryMultiply:
            ROSE_ASSERT (isSgAsmByteValueExpression(isSgAsmBinaryExpression(expr)->get_rhs()));
            result = unparseArmExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, arm_sign_none) + "*" +
                     StringUtility::numberToString(isSgAsmByteValueExpression(isSgAsmBinaryExpression(expr)->get_rhs()));
            break;
        case V_SgAsmBinaryLsl:
            result = unparseArmExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, arm_sign_none) + ", lsl " +
                     unparseArmExpression(isSgAsmBinaryExpression(expr)->get_rhs(), labels, arm_sign_none);
            break;
        case V_SgAsmBinaryLsr:
            result = unparseArmExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, arm_sign_none) + ", lsr " +
                     unparseArmExpression(isSgAsmBinaryExpression(expr)->get_rhs(), labels, arm_sign_none);
            break;
        case V_SgAsmBinaryAsr:
            result = unparseArmExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, arm_sign_none) + ", asr " +
                     unparseArmExpression(isSgAsmBinaryExpression(expr)->get_rhs(), labels, arm_sign_none);
            break;
        case V_SgAsmBinaryRor:
            result = unparseArmExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, arm_sign_none) + ", ror " +
                     unparseArmExpression(isSgAsmBinaryExpression(expr)->get_rhs(), labels, arm_sign_none);
            break;
        case V_SgAsmUnaryRrx:
            result = unparseArmExpression(isSgAsmUnaryExpression(expr)->get_operand(), labels, arm_sign_none) + ", rrx";
            break;
        case V_SgAsmUnaryArmSpecialRegisterList:
            result += unparseArmExpression(isSgAsmUnaryExpression(expr)->get_operand(), labels, arm_sign_none) + "^";
            break;
        case V_SgAsmExprListExp: {
            SgAsmExprListExp* el = isSgAsmExprListExp(expr);
            const std::vector<SgAsmExpression*>& exprs = el->get_expressions();
            result += "{";
            for (size_t i = 0; i < exprs.size(); ++i) {
                if (i != 0) result += ", ";
                result += unparseArmExpression(exprs[i], labels, arm_sign_none);
            }
            result += "}";
            break;
        }


        case V_SgAsmBinaryAdd: {
            /* This node cannot appear at the top of an ARM instruction operand tree */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + ", " +
                      unparseArmExpression(e->get_rhs(), labels, arm_sign_plus);
            break;
        }

        case V_SgAsmBinarySubtract: {
            /* This node cannot appear at the top of an ARM instruction operand tree */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + ", " +
                      unparseArmExpression(e->get_rhs(), labels, arm_sign_minus);
            break;
        }

        case V_SgAsmBinaryAddPreupdate: {
            /* This node cannot appear at the top of an ARM instruction operand tree */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + ", " +
                      unparseArmExpression(e->get_rhs(), labels, arm_sign_plus);
            extra = "!";
            break;
        }
            
        case V_SgAsmBinarySubtractPreupdate: {
            /* This node cannot appear at the top of an ARM instruction operand tree */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + ", " +
                      unparseArmExpression(e->get_rhs(), labels, arm_sign_minus);
            extra = "!";
            break;
        }

        case V_SgAsmBinaryAddPostupdate: {
            /* Two styles of syntax depending on whether this is at top-level or inside a memory reference expression. */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            if (suffix) {
                result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none);
                extra = ", " + unparseArmExpression(e->get_rhs(), labels, arm_sign_plus);
            } else {
                /* Used by LDM* and STM* instructions outside memory reference expressions. RHS is unused. */
                result = unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + "!";
            }
            break;
        }
            
        case V_SgAsmBinarySubtractPostupdate: {
            /* Two styles of syntax depending on whether this is at top-level or inside a memory reference expression. */
            SgAsmBinaryExpression *e = isSgAsmBinaryExpression(expr);
            if (suffix) {
                result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none);
                extra = ", " + unparseArmExpression(e->get_rhs(), labels, arm_sign_minus);
            } else {
                /* Used by LDM* and STM* instructions outside memory reference expressions. RHS is unused. */
                result += unparseArmExpression(e->get_lhs(), labels, arm_sign_none) + "!";
            }
            break;
        }

        case V_SgAsmMemoryReferenceExpression: {
            SgAsmMemoryReferenceExpression* mr = isSgAsmMemoryReferenceExpression(expr);
            SgAsmExpression* addr = mr->get_address();
            switch (addr->variantT()) {
                case V_SgAsmRegisterReferenceExpression:
                case V_SgAsmBinaryAdd:
                case V_SgAsmBinarySubtract:
                case V_SgAsmBinaryAddPreupdate:
                case V_SgAsmBinarySubtractPreupdate:
                case V_SgAsmBinaryAddPostupdate:
                case V_SgAsmBinarySubtractPostupdate:
                    break;
                default: ROSE_ASSERT (!"Bad addressing mode");
            }

            std::string suffix;
            result += "[" + unparseArmExpression(addr, labels, arm_sign_none, &suffix) + "]";
            result += suffix;
            break;
        }

        case V_SgAsmArmRegisterReferenceExpression:
            result += unparseArmRegister(isSgAsmArmRegisterReferenceExpression(expr));
            break;
        case V_SgAsmByteValueExpression:
        case V_SgAsmWordValueExpression:
        case V_SgAsmDoubleWordValueExpression: {
            SgAsmValueExpression *ve = isSgAsmValueExpression(expr);
            assert(ve!=NULL);
            uint64_t v = SageInterface::getAsmConstant(ve);
            result += "#" + unparseArmSign(sign) + StringUtility::numberToString(v);
            if (labels && v!=0) {
                AsmUnparser::LabelMap::const_iterator li=labels->find(v);
                if (li!=labels->end())
                    result += "<" + li->second + ">";
            }
            break;
        }

        default: {
            std::cerr << "Unhandled expression kind " << expr->class_name() << std::endl;
            ROSE_ASSERT (false);
        }
    }

    /* The extra data should be passed back up the call stack so it can be inserted into the ultimate return string. We can't
     * insert it here because the string can't be generated strictly left-to-right. If "suffix" is the null pointer then the
     * caller isn't expecting a suffix and we'll have to just do our best -- the result will not be valid ARM assembly. */
    if (extra.size()>0 && !suffix)
        result = "\"" + result + "\" and \"" + extra + "\"";
    if (suffix)
        *suffix = extra;

    if (expr->get_replacement() != "") {
        result += " <" + expr->get_replacement() + ">";
    }
    return result;
}
Exemple #3
0
/* Helper for unparsePowerpcExpression(SgAsmExpression*) */
static std::string unparsePowerpcExpression(SgAsmExpression* expr, const AsmUnparser::LabelMap *labels,
                                            const RegisterDictionary *registers, bool useHex) {
    std::string result = "";
    if (expr == NULL) return "BOGUS:NULL";
    switch (expr->variantT()) {
        case V_SgAsmBinaryAdd:
            result = unparsePowerpcExpression(isSgAsmBinaryExpression(expr)->get_lhs(), labels, registers, false) + " + " +
                     unparsePowerpcExpression(isSgAsmBinaryExpression(expr)->get_rhs(), labels, registers, false);
            break;
        case V_SgAsmMemoryReferenceExpression: {
            SgAsmMemoryReferenceExpression* mr = isSgAsmMemoryReferenceExpression(expr);
            SgAsmExpression* addr = mr->get_address();
            switch (addr->variantT()) {
                case V_SgAsmBinaryAdd: {
                    SgAsmBinaryAdd* a = isSgAsmBinaryAdd(addr);
                    std::string lhs = unparsePowerpcExpression(a->get_lhs(), labels, registers, false);
                    if (isSgAsmValueExpression(a->get_rhs())) {
                        // Sign-extend from 16 bits
                        SgAsmValueExpression *ve = isSgAsmValueExpression(a->get_rhs());
                        assert(ve!=NULL);
                        result = boost::lexical_cast<std::string>(
                                   (int64_t)IntegerOps::signExtend<16, 64>(SageInterface::getAsmConstant(ve)));
                        result += "(" + lhs + ")";
                    } else {
                        result = lhs + ", " + unparsePowerpcExpression(a->get_rhs(), labels, registers, false);
                    }
                    break;
                }
                default:
                    result = "(" + unparsePowerpcExpression(addr, labels, registers, false) + ")";
                    break;
            }
            break;
        }
        case V_SgAsmPowerpcRegisterReferenceExpression: {
            SgAsmPowerpcRegisterReferenceExpression* rr = isSgAsmPowerpcRegisterReferenceExpression(expr);
            result = unparsePowerpcRegister(rr->get_descriptor(), registers);
            break;
        }
        case V_SgAsmIntegerValueExpression: {
            uint64_t v = isSgAsmIntegerValueExpression(expr)->get_absolute_value();
            if (useHex) {
                result = StringUtility::intToHex(v);
            } else {
                result = StringUtility::numberToString(v);
            }
            if (labels) {
                AsmUnparser::LabelMap::const_iterator li = labels->find(v);
                if (li!=labels->end())
                    result = StringUtility::appendAsmComment(result, li->second);
            }
            break;
        }
        default: {
            std::cerr << "Unhandled expression kind " << expr->class_name() << std::endl;
            ROSE_ASSERT (false);
        }
    }
    result = StringUtility::appendAsmComment(result, expr->get_replacement());
    return result;
}