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I want to hide some strings in my .exe so people can't simply just open the .exe and look at all the strings there. I don't care about the strength of the encrypting method, so I will probably use XOR etc.

How can I do this at compile time? That way my strings won't be stored in the .exe but the encrypted versions would. Then, I would just use my decrypting function every time to display those strings on screen.

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up vote 7 down vote accepted

you can encrypt it using macros or write your own preprocessor

#define CRYPT8(str) { CRYPT8_(str "\0\0\0\0\0\0\0\0") }
#define CRYPT8_(str) (str)[0] + 1, (str)[1] + 2, (str)[2] + 3, (str)[3] + 4, (str)[4] + 5, (str)[5] + 6, (str)[6] + 7, (str)[7] + 8, '\0'

// calling it
const char str[] = CRYPT8("ntdll");
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so this macro can only encrypt as many letters as i repeat the marco code there? :D argh.. well its all i got, better use it then., – Newbie Nov 5 '10 at 12:54
is there some way to use a predefined key there, instead of manually typing +1 +2 +3... ? also without revealing the key in the exe... – Newbie Nov 5 '10 at 13:07
also, why (str)[0] instead of str[0] ? both works – Newbie Nov 5 '10 at 16:26
you will get encrypted string in your .exe file there will not be this encryption algorithm. – tga Nov 6 '10 at 15:35
(str)[0] if you write macros it's variables and parameters are put into brackets. because in some cases you can get other thing that you want. – tga Nov 6 '10 at 15:37

You can't encrypt strings (string literals) by С++ compiler or preprocessor, but you can write a pre-build tool which will parse your source code, and encrypt strings.

Or, you can try to use boost::mpl::string.

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wait, why this got upvote if the above tells the exact opposite? which one is right ? :/ – Newbie Nov 5 '10 at 12:47
@Newbie which one is above?) – Abyx Nov 5 '10 at 13:14
lol, forgot these answers arent in static order, i was refering to that #define solution – Newbie Nov 5 '10 at 16:59

About the only way to do exactly what you suggest is to write a truly horrible macro. But here are some alternatives.

  1. Store the encrypted strings in a data file.
  2. Collect the strings in a single source file, then in the build, before actually compiling, go over it with a tool that will encrypt them (e.g. sed). You can automate this step.
  3. Use a powerful editor so that you can encrypt/decrypt the strings effortlessly, while you work.
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If you are only trying to hide the strings, then you could just try compressing your executable with something like UPX.

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no, that doesnt hide anything, anyone could just uncompress it... and besides, i dont want a slowdown to the loading time. not to mention 7zip is way better than zip... – Newbie Nov 5 '10 at 12:47

I also thought this wasn't possible, even though it's very simple, people wrote solutions where you need a custom tool to scan the built file afterwards and scan for strings and encrypt the strings like that, which wasn't bad but I wanted a package that's compiled from Visual Studio, and it's possible now!

What you need is C++ 11 (Visual Studio 2015 Update 1 out of the box)

the magic happens with this new command constexpr

By magic happens in this #define

#define XorString( String ) ( CXorString<ConstructIndexList<sizeof( String ) - 1>::Result>( String ).decrypt() )

It won't decrypt the XorString at compile-time, only at run-time, but it will encrypt the string only in compile-time, so the strings will not appear in the Executable file

printf(XorString( "this string is hidden!" ));

It will print out "this string is hidden!" but you won't find it inside Executable file as strings!, check it yourself with Microsoft Sysinternals Strings program download link:

The full source code is quite large but could easily be included into one header file. But also quite random so the encrypted string outputs will always change every new compile, the seed is changed based on the time it took it compile, pretty much solid,perfect solution.

Create a file called XorString.h

#pragma once

// "Malware related compile-time hacks with C++11" by LeFF   //
// You can use this code however you like, I just don't really //
// give a shit, but if you feel some respect for me, please //
// don't cut off this comment when copy-pasting... ;-)       //

template <int X> struct EnsureCompileTime {
    enum : int {
        Value = X

//Use Compile-Time as seed
#define Seed ((__TIME__[7] - '0') * 1  + (__TIME__[6] - '0') * 10  + \
              (__TIME__[4] - '0') * 60   + (__TIME__[3] - '0') * 600 + \
              (__TIME__[1] - '0') * 3600 + (__TIME__[0] - '0') * 36000)

constexpr int LinearCongruentGenerator(int Rounds) {
    return 1013904223 + 1664525 * ((Rounds> 0) ? LinearCongruentGenerator(Rounds - 1) : Seed & 0xFFFFFFFF);
#define Random() EnsureCompileTime<LinearCongruentGenerator(10)>::Value //10 Rounds
#define RandomNumber(Min, Max) (Min + (Random() % (Max - Min + 1)))

template <int... Pack> struct IndexList {};

template <typename IndexList, int Right> struct Append;
template <int... Left, int Right> struct Append<IndexList<Left...>, Right> {
    typedef IndexList<Left..., Right> Result;

template <int N> struct ConstructIndexList {
    typedef typename Append<typename ConstructIndexList<N - 1>::Result, N - 1>::Result Result;
template <> struct ConstructIndexList<0> {
    typedef IndexList<> Result;

const char XORKEY = static_cast<char>(RandomNumber(0, 0xFF));
constexpr char EncryptCharacter(const char Character, int Index) {
    return Character ^ (XORKEY + Index);

template <typename IndexList> class CXorString;
template <int... Index> class CXorString<IndexList<Index...> > {
    char Value[sizeof...(Index) + 1];
    constexpr CXorString(const char* const String)
    : Value{ EncryptCharacter(String[Index], Index)... } {}

    char* decrypt() {
        for(int t = 0; t < sizeof...(Index); t++) {
            Value[t] = Value[t] ^ (XORKEY + t);
        Value[sizeof...(Index)] = '\0';
        return Value;

    char* get() {
        return Value;
#define XorS(X, String) CXorString<ConstructIndexList<sizeof(String)-1>::Result> X(String)
#define XorString( String ) ( CXorString<ConstructIndexList<sizeof( String ) - 1>::Result>( String ).decrypt() )
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No matter the details of your solution it will involve encrypting the strings using some encryption program.

You might write a script to encrypt literals in your source code.

Or for a Windows exe you might encrypt literals in an [.rc] file, embedding the strings as a string table resource in the exe.

But probably the best solution is to not try any hiding.

When Microsoft tried the XOR hiding trick on the Windows code that arbitrarily warned about non-Microsoft DOS-es being unreliable and incompatible with this and that, it just backfired on them. Of course the idea of saying bad things about competitors and bundling that bad-saying with Windows was a Really Stupid Idea in the first place. But, trying to hide the code was what made it into a public embarrassment: nobody had really noticed the warnings the code produced, but when people discovered "encrypted" code, naturally their curiosity was engaged, they just had to find out what it was, and write articles about it.

Cheers & hth.,

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The article Examining the Windows AARD Detection Code from the Sept. 1993 Dr. Dobbs Journal is still a good read. – Stephen P Nov 5 '10 at 0:03
Whoever downvoted, please explain why so others can learn what's incorrect with the answer, or with the downvote. :-) – Cheers and hth. - Alf Nov 6 '10 at 22:46

Any crypto that is done at compile time must also be undoable in the raw EXE (unless you're doing something Really Strange). And your app is running on their hardware. Doomed... barring DRM, which is (in my mind) Evil.

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yeah of course someone could decrypt it, but that is very unlikely they find the correct key or even the correct data. im just trying to avoid some n00bs looking at the exe :P sure everything can be cracked... im not trying to make it uncrackable. – Newbie Nov 5 '10 at 12:50

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