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Sometimes it make sense to hide string value from binary (executable) file. For example, it really make sense to hide encryption key from executable file.

What I mean when I say "hide"?

Such code:


    const char* encryptionKey = "My strong encryption key";
    // Using the key

after compilation produce executable file with such section in data section:


4D 79 20 73 74 72 6F 6E-67 20 65 6E 63 72 79 70   |My strong encryp|
74 69 6F 6E 20 6B 65 79                           |tion key        |

This string can be easyly found and/or modified.

I can hide the string:


    char encryptionKey[30];
    int n = 0;
    encryptionKey[n++] = 'M';
    encryptionKey[n++] = 'y';
    encryptionKey[n++] = ' ';
    encryptionKey[n++] = 's';
    encryptionKey[n++] = 't';
    encryptionKey[n++] = 'r';
    encryptionKey[n++] = 'o';
    encryptionKey[n++] = 'n';
    encryptionKey[n++] = 'g';
    encryptionKey[n++] = ' ';
    encryptionKey[n++] = 'e';
    encryptionKey[n++] = 'n';
    encryptionKey[n++] = 'c';
    encryptionKey[n++] = 'r';
    encryptionKey[n++] = 'y';
    encryptionKey[n++] = 'p';
    encryptionKey[n++] = 't';
    encryptionKey[n++] = 'i';
    encryptionKey[n++] = 'o';
    encryptionKey[n++] = 'n';
    encryptionKey[n++] = ' ';
    encryptionKey[n++] = 'k';
    encryptionKey[n++] = 'e';
    encryptionKey[n++] = 'y';
    // Using the key

But it's not nice method.

Any ideas?

PS: I know that it doesn't work against real hacker, but it's much beter than nothing...

Edit

I know about assymetric encryption, but it's not acceptable in this case.
I refactoring existing appication which uses Blowfish encryption.
Encrypted data passed to server and server decrypt data.
I can't change ecryption algorithm because I should provide backward compatibility.
I even can't change encryption key.

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9  
There are public key encryption systems for which you don't have to hide the key. –  AProgrammer Aug 31 '09 at 10:58
2  
I know about pairs of keys, but it not acceptable in this case. I refactoring existing appication which uses Blowfish encryption. Encrypted data passed to server and server decrypt data. I can't change ecryption algorithm because I should provide backward compatibility. –  Dmitriy Aug 31 '09 at 11:15
3  
Hiding a key in the executable is almost always not a good idea. –  Evan Teran Aug 31 '09 at 13:40

14 Answers 14

up vote 26 down vote accepted

As noted in the comment to pavium's answer, you have two choices:

  • Secure the key
  • Secure the decryption algorithm

Unfortunately, if you must resort to embedding both the key and the algorithm within the code, neither is truly secret, so you're left with the (far weaker) alternative of security through obscurity. In other words, as you mentioned, you need a clever way to hide either or both of them inside your executable.

Here are some options, though you need to remember that none of these is truly secure according to any cryptographic best practices, and each has its drawbacks:

  1. Disguise your key as a string that would normally appear within the code. One example would be the format string of a printf() statement, which tends to have numbers, letters, and punctuation.
  2. Hash some or all of the code or data segments on startup, and use that as the key. (You'll need to be a bit clever about this to ensure the key doesn't change unexpectedly!) This has a potentially desirable side-effect of verifying the hashed portion of your code each time it runs.
  3. Generate the key at run-time from something that is unique to (and constant within) the system for example, by hashing the MAC address of a network adapter.
  4. Create the key by choosing bytes from other data. If you have static or global data, regardless of type (int, char, etc.), take a byte from somewhere within each variable after it's initialized (to a non-zero value, of course) and before it changes.

Please let us know how you solve the problem!

Edit: You commented that you're refactoring existing code, so I'll assume you can't necessarily choose the key yourself. In that case, follow a 2-step process: Use one of the above methods to encrypt the key itself, then use that key to decrypt the users' data.

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I'm sorry for long answer.

Your answers are absolutely correct, but the question was how to hide string and do it nicely.

I did it in such way:

#include "HideString.h"

DEFINE_HIDDEN_STRING(EncryptionKey, 0x7f, ('M')('y')(' ')('s')('t')('r')('o')('n')('g')(' ')('e')('n')('c')('r')('y')('p')('t')('i')('o')('n')(' ')('k')('e')('y'))
DEFINE_HIDDEN_STRING(EncryptionKey2, 0x27, ('T')('e')('s')('t'))

int main()
{
    std::cout << GetEncryptionKey() << std::endl;
    std::cout << GetEncryptionKey2() << std::endl;

    return 0;
}

HideString.h:

#include <boost/preprocessor/cat.hpp>
#include <boost/preprocessor/seq/for_each_i.hpp>
#include <boost/preprocessor/seq/enum.hpp>

#define CRYPT_MACRO(r, d, i, elem) ( elem ^ ( d - i ) )

#define DEFINE_HIDDEN_STRING(NAME, SEED, SEQ)\
static const char* BOOST_PP_CAT(Get, NAME)()\
{\
    static char data[] = {\
        BOOST_PP_SEQ_ENUM(BOOST_PP_SEQ_FOR_EACH_I(CRYPT_MACRO, SEED, SEQ)),\
        '\0'\
    };\
\
    static bool isEncrypted = true;\
    if ( isEncrypted )\
    {\
        for (unsigned i = 0; i < ( sizeof(data) / sizeof(data[0]) ) - 1; ++i)\
        {\
            data[i] = CRYPT_MACRO(_, SEED, i, data[i]);\
        }\
\
        isEncrypted = false;\
    }\
\
    return data;\
}

Most tricky line in HideString.h is:

BOOST_PP_SEQ_ENUM(BOOST_PP_SEQ_FOR_EACH_I(CRYPT_MACRO, SEED, SEQ))

Lets me explane the line. For code:

DEFINE_HIDDEN_STRING(EncryptionKey2, 0x27, ('T')('e')('s')('t'))
BOOST_PP_SEQ_FOR_EACH_I(CRYPT_MACRO, SEED, SEQ)
generate sequence:
( 'T'  ^ ( 0x27 - 0 ) ) ( 'e'  ^ ( 0x27 - 1 ) ) ( 's'  ^ ( 0x27 - 2 ) ) ( 't'  ^ ( 0x27 - 3 ) )
BOOST_PP_SEQ_ENUM(BOOST_PP_SEQ_FOR_EACH_I(CRYPT_MACRO, SEED, SEQ))
generate:
'T' ^ ( 0x27 - 0 ), 'e' ^ ( 0x27 - 1 ), 's' ^ ( 0x27 - 2 ), 't' ^ ( 0x27 - 3 )

and finally,

DEFINE_HIDDEN_STRING(EncryptionKey2, 0x27, ('T')('e')('s')('t'))
generate:
static const char* GetEncryptionKey2()
{
    static char data[] = {
        'T' ^ ( 0x27 - 0 ), 'e' ^ ( 0x27 - 1 ), 's' ^ ( 0x27 - 2 ), 't' ^ ( 0x27 - 3 ),
        '\0'
    };
    static bool isEncrypted = true;
    if ( isEncrypted )
    {
        for (unsigned i = 0; i < ( sizeof(data) / sizeof(data[0]) ) - 1; ++i)
        {
            data[i] = ( data[i] ^ ( 0x27 - i ) );
        }
        isEncrypted = false;
    }
    return data;
}

data for "My strong encryption key" looks like:

0x00B0200C  32 07 5d 0f 0f 08 16 16 10 56 10 1a 10 00 08  2.]......V.....
0x00B0201B  00 1b 07 02 02 4b 01 0c 11 00 00 00 00 00 00  .....K.........

Thank you very much for your answers!

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Your example doesn't hide the string at all; the string is still presented as a series of characters in the output.

There are a variety of ways you can obfuscate strings. There's the simple substitution cypher, or you might perform a mathematical operation on each character (an XOR, for instance) where the result feeds into the next character's operation, etc., etc.

The goal would be to end up with data that doesn't look like a string, so for example if you're working in most western languages, most of your character values will be in the range 32-127 — so your goal would be for the operation to mostly put them mostly out of that range, so they don't draw attention.

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I can use someting like encryptionKey[n++] = 'M' ^ 0x79; but it still "not nice method". –  Dmitriy Aug 31 '09 at 11:19
1  
What's your definition of "nice"? –  T.J. Crowder Aug 31 '09 at 11:38
1  
@Dmitry I think that this type of "hiding" is about the best you can do. I have done something similar before for the same reasons as you want (except I rotated through 4 different xor constants over the length of the string). If a hacker has the ability to find and decode my strings then they also can directly edit return values of routines etc I wish I knew a better answer. –  Peter M Aug 31 '09 at 11:41
3  
"Rotate by 4 characters" increases the cracking time from about 30 seconds to about 120 seconds - and that's with pen&paper. –  MSalters Aug 31 '09 at 12:29

Hiding passwords in your code is security by obscurity. This is harmful because makes you think you have some level of protection, when in fact you have very little. If something is worth securing, it is worth securing properly.

PS: I know that it doesn't work against real hacker, but it's much better than nothing...

Actually, in a lot of situations nothing is better than weak security. At least you know exactly where you stand. You don't need to be a "real hacker" to circumvent an embedded password ...

EDIT: Responding to this comment:

I know about pairs of keys, but it not acceptable in this case. I refactoring existing appication which uses Blowfish encryption. Encrypted data passed to server and server decrypt data. I can't change ecryption algorithm because I should provide backward compatibility.

If you care about security at all, maintaining backwards compatibility is a really bad reason to leave yourself vulnerable with embedded passwords. It is a GOOD THING to break backwards compatibility with an insecure security scheme.

It is like when the street kids discover that you leave your front door key under the mat, but you keep doing it because grandpa expects to find it there.

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6  
+1 For the analogy! –  Ali Parr Nov 16 '09 at 16:13
3  
Almost all software license keys and serial numbers are examples of security through obscurity and are perfectly legitimate use cases. By yours and others reasoning, you should never lock a bicycle to bike rack because all bike locks can be beaten rather easily with the right tools. At least when your bike is unlocked "you know exactly where you stand." –  Harvey Oct 23 '12 at 19:23
    
@Harvey - My point about knowing where you stand is that with a password-less system it is obvious to everyone who USES the system that it is insecure ... and that they should not expect anything. By contrast, if you have a weak scheme, then lots of people will think it is secure when it really isn't ... and may entrust it with secrets that they shouldn't. –  Stephen C Oct 24 '12 at 1:23
    
@Harvey - I didn't make up that 'bike' analogy. You did. But a better analogy would be a lockable public bike rack. If I thought the rack had a sound lock, I might trust it to securely park my bike. But if the lock could actually be picked in two seconds with a paperclip, my trust would be misplaced ... –  Stephen C Oct 24 '12 at 1:27
1  
@Harvey - and it is exactly why people are able to find the keys and pirate the software. License keys only protect you against people who are either honest, or don't want to take the risk of getting caught. –  Stephen C Nov 18 '12 at 10:45

This is as secure as leaving your bike unlocked in Amsterdam, the Netherlands near Central Station. (Blink, and it's gone!)

If you're trying to add security to your application then you're doomed to fail from the start since any protection scheme will fail. All you can do is make it more complex for a hacker to find the information he needs. Still, a few tricks:

*) Make sure the string is stored as UTF-16 in your binary.

*) Add numbers and special characters to the string.

*) Use an array of 32-bits integers instead of a string! Convert each to a string and concatenate them all.

*) Use a GUID, store it as binary and convert it to a string to use.

And if you really need some pre-defined text, encrypt it and store the encrypted value in your binary. Decrypt it in runtime where the key to decrypt is one of the options I've mentioned before.

Do realize that hackers will tend to crack your application in other ways than this. Even an expert at cryptography will not be able to keep something safe. In general, the only thing that protects you is the profit a hacker can gain from hacking your code, compared to the cost of hacking it. (These costs would often be just a lot of time, but if it takes a week to hack your application and just 2 days to hack something else, something else is more likely to be attacked.)


Reply to comment: UTF-16 would be two bytes per character, thus harder to recognize for users who look at a dump of the binary, simply because there's an additional byte between every letter. You can still see the words, though. UTF-32 would even be better because it adds more space between letters. Then again, you could also compress the text a bit by changing to an 6-bit-per-character scheme. Every 4 characters would then compact to three numbers. But this would restrict you to 2x26 letters, 10 digits and perhaps the space and dot to get at 64 characters.

The use of a GUID is practical if you store the GUID in it's binary format, not it's textual format. A GUID is 16 bytes long and can be randomly generated. Thus it's difficult to guess the GUID that's used as password. But if you still need to send plain text over, a GUID could be converted to a string representation to be something like "3F2504E0-4F89-11D3-9A0C-0305E82C3301". (Or Base64-encoded as "7QDBkvCA1+B9K/U0vrQx1A==".) But users won't see any plain text in the code, just some apparently random data. Not all bytes in a GUID are random, though. There's a version number hidden in GUIDs. Using a GUID isn't the best option for cryptographic purposes, though. It's either calculated based on your MAC address or by a pseudo-random number, making it reasonable predictable. Still, it's easy to create and easy to store, convert and use. Creating something longer doesn't add more value since a hacker would just try to find other tricks to crack the security. It's just a question about how willing they are to invest more time into analyzing the binaries.

In general, the most important thing that keeps your applications safe is the number of people who are interested in it. If no one cares about your application then no one will bother to hack it either. When you're the top product with 500 million users, then your application is cracked within an hour.

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2  
Your concerns are all valid, but unfortunately the business world is less than ideal, and problems must be solved within acceptable parameters. That said, I'm curious about some of your recommendations. UTF-16: why? Bits are bits. :-) Wouldn't it be better to allow all values, including non-printable ones? GUID: Why is this better than any other (possibly longer) sequence of bytes? –  Adam Liss Aug 31 '09 at 11:55
    
Other tips I've read: Locate the secret string in multiple places in your app that are unrelated to licensing. Also, if you can delay your secret-using code from running, perhaps triggered by a timed event, it makes it harder to debug by a cracker. –  Harvey Oct 23 '12 at 19:28

If you store the encryption key in reverse ("yek noitpyrcne gnorts yM") and then reverse it in your code (String.Reverse), this would prevent a simple search through the binary for the text of your encryption key.

To reiterate the point made by every other poster here, however, this will accomplish virtually nothing for you in terms of security.

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The technology of encryption is strong enough to secure important data without hiding it in a binary file.

Or is your idea to use a binary file to disguise the fact that something is hidden?

That would be called steganography.

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@pavium: No matter how strong the encryption, there must be a key and an algorithm to decrypt the data. Although the algorithm can be public, the key must not be. I think the question is about embedding the key so it will not (easily) be revealed. –  Adam Liss Aug 31 '09 at 11:18
    
@Adam Liss: See my comment to this question about my case. –  Dmitriy Aug 31 '09 at 11:23
    
@Adam Liss: I thought the question was about disguising a message by hiding it in a binary file, and I didn't think it was a simple misunderstanding that the word 'Key' and not 'plaintext' was used in the Question. Maybe I jumped to the wrong conclusion. I hope we find out. –  pavium Aug 31 '09 at 12:04

It's a client-server application! Don't store it in the client itself, that's the place where hackers will obviously look. Instead, add (for your new client only) an extra server function (over HTTPS) to retrieve this password. Thus this password should never hit the client disk.

As a bonus, it becomes a lot easier to fix the server later. Just send a different, per-client time-limited password every time. Don't forget to allow for longer passwords in your new client.

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The password (AKA client_secret) is used to authenticate the client to the server. So, what's to stop a malicious client from requesting the password from the server? –  MattDiPasquale Feb 19 at 14:10
    
@MattDiPasquale: Considering that a malicious client can essentially be the regular client with an injected DLL, nothing - but that's the case for any answer here. –  MSalters Feb 19 at 14:37
  1. Post it as a code golf problem
  2. Wait for a solution written in J
  3. Embed a J interpreter in your app
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+1: BEST ANSWER EVER! –  Thomas Eding May 5 '11 at 20:41

You can encode the string using some trivial encoding, e.g. xor with binary 01010101. No real protection of course, but foils the use of tools like string.

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1  
This does not explain how to do the conversion automatically. –  EFraim Aug 31 '09 at 11:00

I was once in a similarly awkward position. I had data that needed to be in the binary but not in plain text. My solution was to encrypt the data using a very simple scheme that made it look like the rest of the program. I encrypted it by writing a program that took a string, converted all the characters to the ASCII code (padded with zeros as necessary to get a three digit number) and then added a random digit to the beginning and the end of the 3 digit code. Thus each character of the string was represented by 5 characters (all numbers) in the encrypted string. I pasted that string into the application as a constant and then when I needed to use the string, I decrypted and stored the result in a variable just long enough to do what I needed to.

So to use your example, "My strong encryption key" becomes "207719121310329211541116181145111157110071030703283101101109309926114151216611289116161056811109110470321510787101511213". Then when you need your encryption key, decode it but undoing the process.

It's certainly not bulletproof but I wasn't aiming for that.

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3  
I just cracked your application. Thanks for the info needed to do so. –  Thomas Eding May 5 '11 at 20:37
    
And what application did you just crack? –  Corin May 9 '11 at 20:50

Here is a example of what they explained, but be aware this will be fairly simply broken by anyone thats a "hacker" but will stop kiddies with a hex editor. The example i provided simply adds the value 80 and subtracks the index from it and then makes a string again. If you where planning on storing this in a binary file then there are plenty of ways to convert a string to a byte[] array.

When you have this working in your app, i would make the "math" i used a bit more complex

To make it clear, for those not understanding.... You encrypt the string before you save it so its NOT saved in clear text. If the encrypted text is never gonna change you dont even include the encrypt function in your release, you just have the decrypt one. So when you want to decrypt the string, you read the file, and then decrypt the content. Meaning your string is never gonna be stored on file in plain text format.

You can off course also have the encrypted string stored as a constants string in your application and decrypt when you need it, choose what is right for you problem depending on the size of the string and how often it changes.

string Encrypted = EncryptMystring("AAbbBb");
string Decrypted = DecryptMystring(Encrypted);

string DecryptMystring(string RawStr)
    {
        string DecryptedStr = "";
        for (int i = 0; i < RawStr.Length; i++)
        {
            DecryptedStr += (char)((int)RawStr[i] - 80 + i);
        }

        return DecryptedStr;
    }

    string EncryptMystring(string RawStr)
    {
        string EncryptedStr = "";
        for (int i = 0; i < RawStr.Length; i++)
        {
            EncryptedStr += (char)((int)RawStr[i] + 80 - i);
        }

        return EncryptedStr;
    }
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If only I could get all of my developers to write such clear code! Thanks for the example. –  Adam Liss Aug 31 '09 at 11:45
5  
This doesnt change the fact that 'AAbbBb' still exists as plaintext in the binary file. In terms of binary files, this protects nothing more than the original situation. –  ezpz Aug 31 '09 at 11:55
    
No it does not, you encrypt the string and then save it in the binary file. Then read the binary file and decrypt it. If you dont need to you done have the encrypt function in the released software ( unless your changing that file ) –  EKS Aug 31 '09 at 12:06
    
Edited reply to clear up what ezpz was not understanding. –  EKS Aug 31 '09 at 13:38

I think you want to make it look like instructions, your example of

x[y++]='M'; x[y++]='y'; ...

Would do just that, the long sequence of repeated instructions with a little variation may stand out and that would be bad, the byte in question may get encoded in the instruction as is and that would be bad, so perhaps the xor method, and perhaps some other tricks to make that long section of code not stand out, some dummy function calls perhaps. Depends on your processor as well, ARM for example it is real easy to look at binary data and pick out the instructions from the data and from there (if you are looking for a default key) to possibly pick out what might be the key because it is data but is not ascii and attack that. Likewise a block of similar instructions with the immediate field varying, even if you have the compiler xor the data with a constant.

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I wonder if after first obscuring it like others have mentioned, you could embed your string in an assembly block to try and make it look like instructions. You could then have an "if 0" or "goto just_past_string_assembly" to jump over the "code" which is really hiding your string. This would probably require a bit more work to retrieve the string in code (a one-time coding cost), but it might prove to be a bit more obscure.

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