DISTRHO
/
JUCE
mirror of https://github.com/DISTRHO/JUCE
1
0
Fork 0
Code Releases 1 Activity
The JUCE cross-platform C++ framework, with DISTRHO/KXStudio specific changes
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
8335 Commits
11 Branches
891MB
Tree: 8b78af48b9
Branches Tags
${ item.name }
Create branch ${ searchTerm }
from '8b78af48b9'
${ noResults }
JUCE/modules/juce_cryptography/encryption/juce_Primes.cpp

246 lines
6.4KB
Raw Blame History 

  1. /*

  2.   ==============================================================================

  3. 

  4.    This file is part of the JUCE library.

  5.    Copyright (c) 2017 - ROLI Ltd.

  6. 

  7.    JUCE is an open source library subject to commercial or open-source

  8.    licensing.

  9. 

  10.    By using JUCE, you agree to the terms of both the JUCE 5 End-User License

  11.    Agreement and JUCE 5 Privacy Policy (both updated and effective as of the

  12.    27th April 2017).

  13. 

  14.    End User License Agreement: www.juce.com/juce-5-licence

  15.    Privacy Policy: www.juce.com/juce-5-privacy-policy

  16. 

  17.    Or: You may also use this code under the terms of the GPL v3 (see

  18.    www.gnu.org/licenses).

  19. 

  20.    JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER

  21.    EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE

  22.    DISCLAIMED.

  23. 

  24.   ==============================================================================

  25. */

  26. 

  27. namespace juce

  28. {

  29. 

  30. namespace PrimesHelpers

  31. {

  32.     static void createSmallSieve (const int numBits, BigInteger& result)

  33.     {

  34.         result.setBit (numBits);

  35.         result.clearBit (numBits); // to enlarge the array

  36. 

  37.         result.setBit (0);

  38.         int n = 2;

  39. 

  40.         do

  41.         {

  42.             for (int i = n + n; i < numBits; i += n)

  43.                 result.setBit (i);

  44. 

  45.             n = result.findNextClearBit (n + 1);

  46.         }

  47.         while (n <= (numBits >> 1));

  48.     }

  49. 

  50.     static void bigSieve (const BigInteger& base, const int numBits, BigInteger& result,

  51.                           const BigInteger& smallSieve, const int smallSieveSize)

  52.     {

  53.         jassert (! base[0]); // must be even!

  54. 

  55.         result.setBit (numBits);

  56.         result.clearBit (numBits);  // to enlarge the array

  57. 

  58.         int index = smallSieve.findNextClearBit (0);

  59. 

  60.         do

  61.         {

  62.             const unsigned int prime = ((unsigned int) index << 1) + 1;

  63. 

  64.             BigInteger r (base), remainder;

  65.             r.divideBy (prime, remainder);

  66. 

  67.             unsigned int i = prime - remainder.getBitRangeAsInt (0, 32);

  68. 

  69.             if (r.isZero())

  70.                 i += prime;

  71. 

  72.             if ((i & 1) == 0)

  73.                 i += prime;

  74. 

  75.             i = (i - 1) >> 1;

  76. 

  77.             while (i < (unsigned int) numBits)

  78.             {

  79.                 result.setBit ((int) i);

  80.                 i += prime;

  81.             }

  82. 

  83.             index = smallSieve.findNextClearBit (index + 1);

  84.         }

  85.         while (index < smallSieveSize);

  86.     }

  87. 

  88.     static bool findCandidate (const BigInteger& base, const BigInteger& sieve,

  89.                                const int numBits, BigInteger& result, const int certainty)

  90.     {

  91.         for (int i = 0; i < numBits; ++i)

  92.         {

  93.             if (! sieve[i])

  94.             {

  95.                 result = base + (unsigned int) ((i << 1) + 1);

  96. 

  97.                 if (Primes::isProbablyPrime (result, certainty))

  98.                     return true;

  99.             }

  100.         }

  101. 

  102.         return false;

  103.     }

  104. 

  105.     static bool passesMillerRabin (const BigInteger& n, int iterations)

  106.     {

  107.         const BigInteger one (1), two (2);

  108.         const BigInteger nMinusOne (n - one);

  109. 

  110.         BigInteger d (nMinusOne);

  111.         const int s = d.findNextSetBit (0);

  112.         d >>= s;

  113. 

  114.         BigInteger smallPrimes;

  115.         int numBitsInSmallPrimes = 0;

  116. 

  117.         for (;;)

  118.         {

  119.             numBitsInSmallPrimes += 256;

  120.             createSmallSieve (numBitsInSmallPrimes, smallPrimes);

  121. 

  122.             const int numPrimesFound = numBitsInSmallPrimes - smallPrimes.countNumberOfSetBits();

  123. 

  124.             if (numPrimesFound > iterations + 1)

  125.                 break;

  126.         }

  127. 

  128.         int smallPrime = 2;

  129. 

  130.         while (--iterations >= 0)

  131.         {

  132.             smallPrime = smallPrimes.findNextClearBit (smallPrime + 1);

  133. 

  134.             BigInteger r (smallPrime);

  135.             r.exponentModulo (d, n);

  136. 

  137.             if (r != one && r != nMinusOne)

  138.             {

  139.                 for (int j = 0; j < s; ++j)

  140.                 {

  141.                     r.exponentModulo (two, n);

  142. 

  143.                     if (r == nMinusOne)

  144.                         break;

  145.                 }

  146. 

  147.                 if (r != nMinusOne)

  148.                     return false;

  149.             }

  150.         }

  151. 

  152.         return true;

  153.     }

  154. }

  155. 

  156. //==============================================================================

  157. BigInteger Primes::createProbablePrime (const int bitLength,

  158.                                         const int certainty,

  159.                                         const int* randomSeeds,

  160.                                         int numRandomSeeds)

  161. {

  162.     using namespace PrimesHelpers;

  163.     int defaultSeeds [16];

  164. 

  165.     if (numRandomSeeds <= 0)

  166.     {

  167.         randomSeeds = defaultSeeds;

  168.         numRandomSeeds = numElementsInArray (defaultSeeds);

  169.         Random r1, r2;

  170. 

  171.         for (int j = 10; --j >= 0;)

  172.         {

  173.             r1.setSeedRandomly();

  174. 

  175.             for (int i = numRandomSeeds; --i >= 0;)

  176.                 defaultSeeds[i] ^= r1.nextInt() ^ r2.nextInt();

  177.         }

  178.     }

  179. 

  180.     BigInteger smallSieve;

  181.     const int smallSieveSize = 15000;

  182.     createSmallSieve (smallSieveSize, smallSieve);

  183. 

  184.     BigInteger p;

  185. 

  186.     for (int i = numRandomSeeds; --i >= 0;)

  187.     {

  188.         BigInteger p2;

  189. 

  190.         Random r (randomSeeds[i]);

  191.         r.fillBitsRandomly (p2, 0, bitLength);

  192. 

  193.         p ^= p2;

  194.     }

  195. 

  196.     p.setBit (bitLength - 1);

  197.     p.clearBit (0);

  198. 

  199.     const int searchLen = jmax (1024, (bitLength / 20) * 64);

  200. 

  201.     while (p.getHighestBit() < bitLength)

  202.     {

  203.         p += 2 * searchLen;

  204. 

  205.         BigInteger sieve;

  206.         bigSieve (p, searchLen, sieve,

  207.                   smallSieve, smallSieveSize);

  208. 

  209.         BigInteger candidate;

  210. 

  211.         if (findCandidate (p, sieve, searchLen, candidate, certainty))

  212.             return candidate;

  213.     }

  214. 

  215.     jassertfalse;

  216.     return BigInteger();

  217. }

  218. 

  219. bool Primes::isProbablyPrime (const BigInteger& number, const int certainty)

  220. {

  221.     using namespace PrimesHelpers;

  222. 

  223.     if (! number[0])

  224.         return false;

  225. 

  226.     if (number.getHighestBit() <= 10)

  227.     {

  228.         const unsigned int num = number.getBitRangeAsInt (0, 10);

  229. 

  230.         for (unsigned int i = num / 2; --i > 1;)

  231.             if (num % i == 0)

  232.                 return false;

  233. 

  234.         return true;

  235.     }

  236.     else

  237.     {

  238.         if (number.findGreatestCommonDivisor (2 * 3 * 5 * 7 * 11 * 13 * 17 * 19 * 23) != 1)

  239.             return false;

  240. 

  241.         return passesMillerRabin (number, certainty);

  242.     }

  243. }

  244. 

  245. } // namespace juce