예제 #1
0
파일: runRandom.C 프로젝트: iN3O/edg4x-rose
int
main(int argc, char *argv[]) {
    Diagnostics::initialize();
    mlog = Sawyer::Message::Facility("tool");
    Diagnostics::mfacilities.insertAndAdjust(mlog);

    // Parse command-line
    P2::Engine engine;
    Settings settings;
    std::vector<std::string> specimenNames = parseCommandLine(argc, argv, settings).unreachedArgs();
    if (specimenNames.size() != 1)
        throw std::runtime_error("exactly one binary specimen file should be specified; see --help");
    std::string specimenName = boost::starts_with(specimenNames[0], "run:") ? specimenNames[0].substr(4) : specimenNames[0];
    Stream info(mlog[INFO]);

    // Parse, map, link, and/or relocate
    info <<"performing parse, map, and optional link steps";
    engine.parseContainers(specimenNames);
    Sawyer::Stopwatch loadTimer;
    if (settings.performLink) {
        BinaryLoader *loader = engine.obtainLoader();
        ASSERT_not_null(loader);
        loader->set_perform_dynamic_linking(true);
#if 0 // [Robb P. Matzke 2014-10-09]: not always working, but maybe not needed for this analysis
        loader->set_perform_relocations(true);
#endif
        BOOST_FOREACH (const std::string &paths, settings.libDirs) {
            BOOST_FOREACH (const std::string &path, split(':', paths)) {
                loader->add_directory(path);
            }
        }
    }
int
main(int argc, char *argv[]) {
    ROSE_INITIALIZE;
    Diagnostics::initAndRegister(&::mlog, "tool");

    // Parse command-line
    P2::Engine engine;
    Settings settings;
    std::vector<std::string> specimen = parseCommandLine(argc, argv, engine, settings);
    if (specimen.empty()) {
        ::mlog[FATAL] <<"no specimen supplied on command-line; see --help\n";
        exit(1);
    }

    // Load specimen into ROSE's simulated memory
    if (!engine.parseContainers(specimen.front())) {
        ::mlog[FATAL] <<"cannot parse specimen binary container\n";
        exit(1);
    }
    Disassembler *disassembler = engine.obtainDisassembler();
    if (!disassembler) {
        ::mlog[FATAL] <<"no disassembler for this architecture\n";
        exit(1);
    }
    const RegisterDescriptor REG_IP = disassembler->instructionPointerRegister();
    ASSERT_require2(REG_IP.is_valid(), "simulation must know what register serves as the instruction pointer");

    // Single-step the specimen natively in a debugger and show each instruction.
    BinaryDebugger debugger(specimen);
    while (!debugger.isTerminated()) {
        uint64_t ip = debugger.readRegister(REG_IP).toInteger();
        uint8_t buf[16];                                // 16 should be large enough for any instruction
        size_t nBytes = debugger.readMemory(ip, sizeof buf, buf);
        if (0 == nBytes) {
            ::mlog[ERROR] <<"cannot read memory at " <<StringUtility::addrToString(ip) <<"\n";
        } else if (SgAsmInstruction *insn = disassembler->disassembleOne(buf, ip, nBytes, ip)) {
            std::cout <<unparseInstructionWithAddress(insn) <<"\n";
        } else {
            ::mlog[ERROR] <<"cannot disassemble instruction at " <<StringUtility::addrToString(ip) <<"\n";
        }
        debugger.singleStep();
    }
    std::cout <<debugger.howTerminated();
}