Пример #1
0
//! [basicReadTest]
static void
basicReadTest(const P2::Partitioner &partitioner) {
    std::cout <<"\n" <<std::string(40, '=') <<"\nbasicReadTest\n" <<std::string(40, '=') <<"\n";
    SymbolicSemantics::Formatter fmt;
    fmt.set_line_prefix("  ");

    // Create the RiscOperators and the initial state.
    const RegisterDictionary *regdict = partitioner.instructionProvider().registerDictionary();
    const RegisterDescriptor REG = partitioner.instructionProvider().stackPointerRegister();
    const std::string REG_NAME = RegisterNames(regdict)(REG);
    BaseSemantics::RiscOperatorsPtr ops = SymbolicSemantics::RiscOperators::instance(regdict);
    ops->currentState()->memoryState()->set_byteOrder(partitioner.instructionProvider().defaultByteOrder());
    BaseSemantics::StatePtr initialState = ops->currentState()->clone();
    ops->initialState(initialState);                    // lazily evaluated initial state
    std::cout <<"Initial state before reading:\n" <<(*initialState+fmt);

    // Read some memory and a register, which should cause them to spring into existence in both the current state and the
    // initial state.
    BaseSemantics::SValuePtr addr1 = ops->number_(32, 0);
    BaseSemantics::SValuePtr dflt1m = ops->number_(32, 0x11223344);
    BaseSemantics::SValuePtr read1m = ops->readMemory(RegisterDescriptor(), addr1, dflt1m, ops->boolean_(true));
    BaseSemantics::SValuePtr dflt1r = ops->undefined_(REG.get_nbits());
    BaseSemantics::SValuePtr read1r = ops->readRegister(REG, dflt1r);

    std::cout <<"Initial state after reading " <<*read1m <<" from address " <<*addr1 <<"\n"
              <<"and " <<*read1r <<" from " <<REG_NAME <<"\n"
              <<(*initialState+fmt);
    ASSERT_always_require(read1m->must_equal(dflt1m));
    ASSERT_always_require(read1r->must_equal(dflt1r));

    // Create a new current state and read again. We should get the same value even though the current state is empty.
    BaseSemantics::StatePtr curState = ops->currentState()->clone();
    curState->clear();
    ops->currentState(curState);
    BaseSemantics::SValuePtr dflt2m = ops->number_(32, 0x55667788);
    BaseSemantics::SValuePtr read2m = ops->readMemory(RegisterDescriptor(), addr1, dflt2m, ops->boolean_(true));
    BaseSemantics::SValuePtr dflt2r = ops->undefined_(REG.get_nbits());
    BaseSemantics::SValuePtr read2r = ops->readRegister(REG, dflt2r);

    std::cout <<"Initial state after reading " <<*read2m <<" from address " <<*addr1 <<"\n"
              <<"and " <<*read2r <<" from " <<REG_NAME <<"\n"
              <<(*initialState+fmt);
    ASSERT_always_require(read1m->must_equal(read2m));
    ASSERT_always_require(read1r->must_equal(read2r));

    // Disable the initial state. If we re-read the same address we'll still get the same result because it's now present in
    // the current state also.
    ops->initialState(BaseSemantics::StatePtr());
    BaseSemantics::SValuePtr dflt3m = ops->number_(32, 0x99aabbcc);
    BaseSemantics::SValuePtr read3m = ops->readMemory(RegisterDescriptor(), addr1, dflt3m, ops->boolean_(true));
    BaseSemantics::SValuePtr dflt3r = ops->undefined_(REG.get_nbits());
    BaseSemantics::SValuePtr read3r = ops->readRegister(REG, dflt3r);
    ASSERT_always_require(read1m->must_equal(read3m));
    ASSERT_always_require(read1r->must_equal(read3r));
}
Пример #2
0
 void reset(const MemoryMap::Ptr &map) {
     BOOST_FOREACH (MemoryMap::Segment &segment, map->segments())
         segment.buffer()->copyOnWrite(true);        // prevent the VM from changing the real map
     BaseSemantics::StatePtr state = ops_->currentState()->clone();
     state->clear();
     ConcreteSemantics::MemoryStatePtr memState = ConcreteSemantics::MemoryState::promote(state->memoryState());
     memState->memoryMap(map);
     ops_->currentState(state);
     BaseSemantics::SValuePtr sp = ops_->number_(wordSize_, stackVa_);
     ops_->writeRegister(regSp_, sp);
     ops_->writeMemory(regSs_, sp, ops_->number_(wordSize_, returnMarker_), ops_->boolean_(true));
 }
Пример #3
0
BaseSemantics::StatePtr
NoOperation::initialState(SgAsmInstruction *insn) const {
    ASSERT_not_null(insn);
    ASSERT_not_null(cpu_);
    BaseSemantics::StatePtr state;
    if (normalizer_) {
        state = normalizer_->initialState(cpu_, insn);
    } else {
        state = cpu_->currentState()->clone();
        state->clear();
        RegisterDescriptor IP = cpu_->instructionPointerRegister();
        state->writeRegister(IP, cpu_->number_(IP.get_nbits(), insn->get_address()), cpu_->get_operators().get());
    }

    // Set the stack pointer to a concrete value
    if (initialSp_) {
        const RegisterDescriptor regSp = cpu_->stackPointerRegister();
        BaseSemantics::RiscOperatorsPtr ops = cpu_->get_operators();
        state->writeRegister(regSp, ops->number_(regSp.get_nbits(), *initialSp_), ops.get());
    }

    return state;
}
Пример #4
0
std::string
NoOperation::StateNormalizer::toString(const BaseSemantics::DispatcherPtr &cpu, const BaseSemantics::StatePtr &state_) {
    BaseSemantics::StatePtr state = state_;
    BaseSemantics::RiscOperatorsPtr ops = cpu->get_operators();
    if (!state)
        return "";
    bool isCloned = false;                              // do we have our own copy of the state?

    // If possible and appropriate, remove the instruction pointer register
    const RegisterDescriptor regIp = cpu->instructionPointerRegister();
    BaseSemantics::RegisterStateGenericPtr rstate = BaseSemantics::RegisterStateGeneric::promote(state->registerState());
    if (rstate && rstate->is_partly_stored(regIp)) {
        BaseSemantics::SValuePtr ip = ops->readRegister(cpu->instructionPointerRegister());
        if (ip->is_number()) {
            state = state->clone();
            isCloned = true;
            rstate = BaseSemantics::RegisterStateGeneric::promote(state->registerState());
            rstate->erase_register(regIp, ops.get());
        }
    }

    // Get the memory state, cloning the state if not done so above.
    BaseSemantics::MemoryCellStatePtr mem =
        boost::dynamic_pointer_cast<BaseSemantics::MemoryCellState>(state->memoryState());
    if (mem && !isCloned) {
        state = state->clone();
        isCloned = true;
        mem = BaseSemantics::MemoryCellState::promote(state->memoryState());
    }

    // Erase memory that has never been written (i.e., cells that sprang into existence by reading an address) of which appears
    // to have been recently popped from the stack.
    CellErasurePredicate predicate(ops, ops->readRegister(cpu->stackPointerRegister()), ignorePoppedMemory_);
    if (mem)
        mem->eraseMatchingCells(predicate);

    BaseSemantics::Formatter fmt;
    fmt.set_show_latest_writers(false);
    fmt.set_show_properties(false);
    std::ostringstream ss;
    ss <<(*state+fmt);
    return ss.str();
}