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How does one store sensitive data (ex: passwords) in std::string?

I have an application which prompts the user for a password and passes it to a downstream server during connection setup. I want to securely clear the password value after the connection has been established.

If I store the password as a char * array, I can use APIs like SecureZeroMemory to get rid of the sensitive data from the process memory. However, I want to avoid char arrays in my code and am looking for something similar for std::string?

thanks in advance for your time.

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1  
According to this link, std::strings are not designed for security purposes. –  Marlon Apr 18 '11 at 2:45
    
thanks Marlon, that means I have no choice but to clutter my method interfaces with char *buf, size_t len :) –  ajd. Apr 18 '11 at 3:53
    
@user34965: It's not that binary. You should design a class SecureString. It's a good idea to copy the interface of std::string so it's a drop-in replacement. –  MSalters Apr 18 '11 at 8:02
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4 Answers

std::string is based on a char*. Somewhere behind all the dynamic magic as a char*. So when you say you don't want to use char*'s on your code, you are still using a char*, it's just in the background with a whole bunch of other garbage piled on top of it.

I'm not too experienced with process memory, but you could always iterate through each character (after you've encrypted and stored the password in a DB?), and set it to a different value.

There's also a std::basic_string, but I'm not sure what help that would do for you.

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a manual overwrite of every character won't do - as the compiler can optimize such code if the string is about to be destroyed. see the question Marlon linked to in his comment above. –  ajd. Apr 18 '11 at 3:49
    
then overwrite each character, and then use the string ;) –  arasmussen Apr 18 '11 at 3:52
1  
The main problem with overwriting anything in std::string is, that nothing in the world guarantees you that it will actually rewrite the memory the string was in or that it rewrites all the memory the string ever was in, because std::string may move the underlying buffer around. –  Jan Hudec Apr 18 '11 at 9:22
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std::string mystring;
...
std::fill(mystring.begin(), mystring.end(), 0);

or even better write your own function:

void clear(std::string &v)
{
  std::fill(v.begin(), v.end(), 0);
}
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2  
Won't work. There is no guarantee that you overwrote all memory the string was ever in, because it may have been moved during some operation. –  Jan Hudec Apr 18 '11 at 9:24
    
A sufficiently smart optimizer could also detect that you never use the zeros again, and skip the filling. –  Bo Persson Apr 18 '11 at 16:35
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up vote 6 down vote accepted

Based on the answer given here, I wrote an allocator to securely zero memory.

#include <string>
#include <windows.h>

namespace secure
{
  template <class T> class allocator : public std::allocator<T>
  {
  public:

    template<class U> struct rebind { typedef allocator<U> other; };
    allocator() throw() {}
    allocator(const allocator &) throw() {}
    template <class U> allocator(const allocator<U>&) throw() {}

    void deallocate(pointer p, size_type num)
    {
      SecureZeroMemory((void *)p, num);
      std::allocator<T>::deallocate(p, num);
    }
  };

  typedef std::basic_string<char, std::char_traits<char>, allocator<char> > string;
}

int main()
{
  {
    secure::string bar("bar");
    secure::string longbar("baaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaar");
  }
}

However, it turns out, depending on how std::string is implemented, it is possible that the allocator isn't even invoked for small values. In my code, for example, the deallocate doesn't even get called for the string bar (on Visual Studio).

The answer, then, is that we cannot use std::string to store sensitive data. Of course, we have the option to write a new class that handles the use case, but I was specifically interested in using std::string as defined.

Thanks everyone for your help!

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For posterity, I once decided to ignore this advice and use std::string anyway, and wrote a zero() method using c_str() (and casting away the constness) and volatile. If I was careful and didn't cause a reallocate/move of the contents, and I manually called zero() where I needed it clean, all seemed to function properly. Alas, I discovered another serious flaw the hard way: std::string can also be a referenced-counted object... blasting the memory at c_str() (or the memory the referenced object is pointing to) will unknowingly blast the other object.

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