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What is a simple and effective way to encrypt a plain text file? I'm not looking for safety, I just want the average user not to be able to tamper with it. Say I have a file with newline separated email addresses. I want it to look like a garbled mess when opened, but easy to decrypt.

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2  
XOR is the simplest, completely non-secure way. –  biziclop Dec 14 '11 at 16:17
    
What do you mean? CURRENT_BYTE XOR NEXT_BYTE? –  Milo Dec 14 '11 at 16:19
3  
ROT13 is equally simple and equally non-secure. –  Bob Kaufman Dec 14 '11 at 16:19
    
XOR simply means flip the bits in the binary representation of each character. You can do this by taking chr( 255 - asc( c )), e.g., "A" (01000001) becomes (10111110) –  Bob Kaufman Dec 14 '11 at 16:21
    
XOR is probably out since you need to control the possiblily of turning a char into a CR/LF or non-7bit ASCII text. (This is because you need to read it back in and decode) –  TomZ Dec 14 '11 at 16:22

7 Answers 7

up vote 7 down vote accepted

The simplest practical form is an XOR cipher. Basically you generate an encryption/decryption key of random numbers, of any length. To encrypt or decrypt your data, XOR the data with the key.

It is not very secure; it's mostly just used to do a light obfuscation.

#include <vector>

typedef unsigned __int8 BYTE;

std::vector<BYTE> xor_encryptdecrypt(const std::vector<BYTE>& encryptionKey, const std::vector<BYTE>& input)
{
    std::vector<BYTE> ret;
    ret.reserve(input.size());

    std::vector<BYTE>::const_iterator keyIterator = encryptionKey.begin();

    for(std::vector<BYTE>::const_iterator inputIterator = input.begin(); inputIterator != input.end(); ++ inputIterator)
    {
        ret.push_back(*inputIterator ^ *keyIterator);

        // advance the key iterator, wrapping to begin.
        if(++ keyIterator == encryptionKey.end())
            keyIterator = encryptionKey.begin();
    }
    return ret;
}


int main()
{
    // variable-length key of randomness, used for both encryption and decryption.
    std::vector<BYTE> key;
    key.push_back(0x55);
    key.push_back(0xae);
    key.push_back(0x8c);
    key.push_back(0x14);

    std::vector<BYTE> input;
    input.push_back(0x00);
    input.push_back(0x01);
    input.push_back(0x02);
    input.push_back(0x03);
    input.push_back(0x04);
    input.push_back(0x05);

    // encrypt
    std::vector<BYTE> encrypted = xor_encryptdecrypt(key, input);

    // decrypt
    std::vector<BYTE> decrypted = xor_encryptdecrypt(key, encrypted);

    return 0;
}
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Compressing a file and renaming the extension is very effective for keeping non-technical users out of files. Unless the OS knows that it is a zip file, it should be relatively safe against casual binary searches. This has the added benefit that you don't need any special tools to work with them remotely.

It isn't fool proof obviously, but the return on investment is pretty damn good.

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I think the OP is looking for something lighter weight than ZIP. –  IronMensan Dec 14 '11 at 17:11
1  
@IronMensan The amount of operational cost a custom file formats put on an organization is rarely worth the effort. It's a low cost solution that meets the requirements. I wonder what Knuth would say about zip not being lightweight enough. :) –  Tom Kerr Dec 14 '11 at 20:44

The simplest way is probably just to call srand with a constant value, then either xor rand() with each character. Better would be to use some available random object, which would avoid changing the global state of rand(). Decrypting is exactly the same algorithm; encrypting twice results in the initial string. The important thing is to always seed the random generator with the same value, and make the same sequence of calls to it.

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3  
The method is fair enough for the present, but can bite you quite badly when the random number generator implementation changes. –  thiton Dec 14 '11 at 16:32
    
@thiton Good point. You really do have to use an instance of the generator which you control (so it won't change without your approval). –  James Kanze Dec 14 '11 at 18:08

TEA is a pretty good little encryption algorithm for basic needs, and is simple enough to implement your own version, and there are versions made in many common languages.

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use caesar cipher: http://en.wikipedia.org/wiki/Caesar_cipher

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I think what you're looking for is 'keyless' scrambling, with the constraint that it should result in ASCII text and not introduce newlines.

Perhaps base64 encoding is appropriate:

Wikipedia Base64 link

Happy Coding!

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Base64. Even though just setting access permissions to world-readable and root-writeable be more appropriate.

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1  
One can recognize Base64 on first look or at least its made of ASCII chars ... doesnt look like a garbled mess ... I would prefer XOR mentioned above. –  Martin Nuc Dec 14 '11 at 16:21
    
I'd have gone for Base64 too since from the sound of the question we're not after any real encryption here, just something that will look sufficiently scary to put a user off messing around with it. Ultimately Milo this just highlights that you need to settle on just how "encrypted" you want the thing to be before you settle on any particular approach. –  PeteH Dec 14 '11 at 16:28
1  
I think it is a mistake to call it encrypted since the key (in any scheme) is going to be available (by definition) to an observer. Therefore, the tradeoff is based on how determined must someone be to recover the original text. –  TomZ Dec 14 '11 at 16:35

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