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I want to encrypt/encode a string at compile time so that the original string does not appear in the compiled executable.

I've seen several examples but they can't take a string literal as argument. See the following example:

template<char c> struct add_three {
    enum { value = c+3 };

template <char... Chars> struct EncryptCharsA {
    static const char value[sizeof...(Chars) + 1];

template<char... Chars>
char const EncryptCharsA<Chars...>::value[sizeof...(Chars) + 1] = {

int main() {   
    std::cout << EncryptCharsA<'A','B','C'>::value << std::endl;
    // prints "DEF"

I don't want to provide each character separately like it does. My goal is to pass a string literal like follows:

EncryptString<"String to encrypt">::value

There's also some examples like this one:

#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");

But it limits the size of the string.

Is there any way to achieve what I want?

share|improve this question
A common approach for this type of problem is to write a script that takes your source file as an input and creates a modified file as output, which would then used by your build process. In this case, the script would look for EncryptString<"String to encrypt"> and replace the string with the encrypted/encoded version. – jdigital Aug 3 '11 at 22:52
up vote 4 down vote accepted

Save yourself a heap of trouble down the line with template metaprogramming and just write a stand alone program that encrypts the string and produces a cpp source file which is then compiled in. This program would run before you compile and would produce a cpp and/or header file that would contain the encrypted string for you to use.

So here is what you start with:

  1. encrypted_string.cpp and encrypted_string.h (which are blank)
  2. A script or standalone app that takes a text file as an input and over writes encrypted_string.cpp and encrypted_string.h

If the script fails, your compiling will fail because there will be references in your code to a variable that does not exist. You could get smarter, but that's enough to get you started.

share|improve this answer

The reason why the examples you found can't take string literals as template argument is because it's not allowed by the ISO C++ standard. That's because, even though c++ has a string class, a string literal is still a const char *. So, you can't, or shouldn't, alter it (leads to undefined behaviour), even if you can access the characters of such an compile-time string literal.

The only way I see is using defines, as they are handled by the preprocessor before the compiler. Maybe boost will give you a helping hand in that case.

share|improve this answer

A macro based solution would be to take a variadic argument and pass in each part of the string as a single token. Then stringify the token and encrypt it and concatenate all tokens. The end result would look something like this

CRYPT(m y _ s t r i n g)

Where _ is some placeholder for a whitespace character literal. Horribly messy and I would prefer every other solution over this.

Something like this could do it although the Boost.PP Sequence isn't making it any prettier.

#include <iostream>
#include <boost/preprocessor/stringize.hpp>
#include <boost/preprocessor/seq/for_each.hpp>

#define GARBLE(x) GARBLE_ ## x
#define GARBLE_a x
#define GARBLE_b y
#define GARBLE_c z

#define SEQ (a)(b)(c)
#define MACRO(r, data, elem) BOOST_PP_STRINGIZE(GARBLE(elem))

int main() {
  const char* foo = BOOST_PP_SEQ_FOR_EACH(MACRO, _, SEQ);
  std::cout << foo << std::endl;
share|improve this answer

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