/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2020 - Raw Material Software Limited
JUCE is an open source library subject to commercial or open-source
licensing.
By using JUCE, you agree to the terms of both the JUCE 6 End-User License
Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020).
End User License Agreement: www.juce.com/juce-6-licence
Privacy Policy: www.juce.com/juce-privacy-policy
Or: You may also use this code under the terms of the GPL v3 (see
www.gnu.org/licenses).
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
//==============================================================================
/**
RSA public/private key-pair encryption class.
An object of this type makes up one half of a public/private RSA key pair. Use the
createKeyPair() method to create a matching pair for encoding/decoding.
If you need to use this class in conjunction with a compatible enc/decryption
algorithm on a webserver, you can achieve the same thing in PHP like this:
@code
include ('Math/BigInteger.php'); // get this from: phpseclib.sourceforge.net
function applyToValue ($message, $key_part1, $key_part2)
{
$result = new Math_BigInteger();
$zero = new Math_BigInteger();
$value = new Math_BigInteger (strrev ($message), 256);
$part1 = new Math_BigInteger ($key_part1, 16);
$part2 = new Math_BigInteger ($key_part2, 16);
while (! $value->equals ($zero))
{
$result = $result->multiply ($part2);
list ($value, $remainder) = $value->divide ($part2);
$result = $result->add ($remainder->modPow ($part1, $part2));
}
return ($result->toBytes());
}
@endcode
..or in Java with something like this:
@code
public class RSAKey
{
static BigInteger applyToValue (BigInteger value, String key_part1, String key_part2)
{
BigInteger result = BigInteger.ZERO;
BigInteger part1 = new BigInteger (key_part1, 16);
BigInteger part2 = new BigInteger (key_part2, 16);
if (part1.equals (BigInteger.ZERO) || part2.equals (BigInteger.ZERO)
|| value.compareTo (BigInteger.ZERO) <= 0)
return result;
while (! value.equals (BigInteger.ZERO))
{
result = result.multiply (part2);
BigInteger[] div = value.divideAndRemainder (part2);
value = div[0];
result = result.add (div[1].modPow (part1, part2));
}
return result;
}
}
@endcode
Disclaimer: neither of the code snippets above are tested! Please let me know if you have
any corrections for them!
@tags{Cryptography}
*/
class JUCE_API RSAKey
{
public:
//==============================================================================
/** Creates a null key object.
Initialise a pair of objects for use with the createKeyPair() method.
*/
RSAKey();
/** Loads a key from an encoded string representation.
This reloads a key from a string created by the toString() method.
*/
explicit RSAKey (const String& stringRepresentation);
/** Destructor. */
~RSAKey();
bool operator== (const RSAKey& other) const noexcept;
bool operator!= (const RSAKey& other) const noexcept;
//==============================================================================
/** Turns the key into a string representation.
This can be reloaded using the constructor that takes a string.
*/
String toString() const;
/** Returns true if the object is a valid key, or false if it was created by
the default constructor.
*/
bool isValid() const noexcept;
//==============================================================================
/** Encodes or decodes a value.
Call this on the public key object to encode some data, then use the matching
private key object to decode it.
Returns false if the operation couldn't be completed, e.g. if this key hasn't been
initialised correctly.
NOTE: This method dumbly applies this key to this data. If you encode some data
and then try to decode it with a key that doesn't match, this method will still
happily do its job and return true, but the result won't be what you were expecting.
It's your responsibility to check that the result is what you wanted.
*/
bool applyToValue (BigInteger& value) const;
//==============================================================================
/** Creates a public/private key-pair.
Each key will perform one-way encryption that can only be reversed by
using the other key.
The numBits parameter specifies the size of key, e.g. 128, 256, 512 bit. Bigger
sizes are more secure, but this method will take longer to execute.
The randomSeeds parameter lets you optionally pass it a set of values with
which to seed the random number generation, improving the security of the
keys generated. If you supply these, make sure you provide more than 2 values,
and the more your provide, the better the security.
*/
static void createKeyPair (RSAKey& publicKey,
RSAKey& privateKey,
int numBits,
const int* randomSeeds = nullptr,
int numRandomSeeds = 0);
protected:
//==============================================================================
BigInteger part1, part2;
private:
//==============================================================================
static BigInteger findBestCommonDivisor (const BigInteger& p, const BigInteger& q);
JUCE_LEAK_DETECTOR (RSAKey)
};
} // namespace juce