Base64.cpp 6.5 KB

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  1. /*
  2. * Author: Patrick-Christopher Mattulat
  3. * Company: Lynar Studios
  4. * E-Mail: webmaster@lynarstudios.com
  5. * Created: 2022-01-03
  6. * Changed: 2023-02-04
  7. *
  8. * */
  9. #include <bitset>
  10. #include <ls-std/encoding/Base64.hpp>
  11. ls::std::encoding::Base64::Base64() = default;
  12. ls::std::encoding::Base64::~Base64() = default;
  13. ::std::string ls::std::encoding::Base64::encode(const ::std::string &_sequence)
  14. {
  15. ::std::string encodedString{};
  16. for (size_t index = 0; index < _sequence.size(); index += 3)
  17. {
  18. ::std::string byteTriple = ls::std::encoding::Base64::_getNextByteTriple(_sequence, index);
  19. encodedString += ls::std::encoding::Base64::_encodeByteTriple(byteTriple);
  20. }
  21. return ls::std::encoding::Base64::_applyEndingRule(encodedString, _sequence.size());
  22. }
  23. ::std::string ls::std::encoding::Base64::decode(const ::std::string &_sequence)
  24. {
  25. ::std::string decodedString{};
  26. for (int index{}; index < _sequence.size(); index += 4)
  27. {
  28. ::std::string quadruple = ls::std::encoding::Base64::_getNextByteQuadruple(_sequence, index);
  29. decodedString += ls::std::encoding::Base64::_decodeByteQuadruple(quadruple);
  30. }
  31. return decodedString;
  32. }
  33. ::std::string ls::std::encoding::Base64::_applyEndingRule(::std::string _encodedString, size_t _sequenceSize)
  34. {
  35. size_t size = _encodedString.size();
  36. if (_sequenceSize % 3 == 1)
  37. {
  38. _encodedString[size - 2] = '=';
  39. _encodedString[size - 1] = '=';
  40. }
  41. if (_sequenceSize % 3 == 2)
  42. {
  43. _encodedString[size - 1] = '=';
  44. }
  45. return _encodedString;
  46. }
  47. ::std::string ls::std::encoding::Base64::_decodeByteQuadruple(const ::std::string &_quadruple)
  48. {
  49. ::std::string decodedText{};
  50. uint8_t shiftValue = 16;
  51. uint32_t bitStorage = ls::std::encoding::Base64::_toDecodingBitStorage(_quadruple);
  52. for (uint8_t index = 0; index < ((uint8_t) _quadruple.size() - 1); index++)
  53. {
  54. uint32_t bitMask = ls::std::encoding::Base64::_generateBitMask(255, shiftValue);
  55. uint32_t bitSequence = ls::std::encoding::Base64::_extractBitSequence(bitMask, bitStorage);
  56. bitSequence = bitSequence >> shiftValue;
  57. decodedText += (char) bitSequence;
  58. shiftValue -= 8;
  59. }
  60. return decodedText;
  61. }
  62. ::std::string ls::std::encoding::Base64::_encodeByteTriple(const ::std::string &_byteTriple)
  63. {
  64. ::std::string encodedText{};
  65. uint32_t bitStorage = ls::std::encoding::Base64::_toEncodingBitStorage(_byteTriple);
  66. static ::std::vector<uint32_t> bitMaskStorage = {16515072, 258048, 4032, 63};
  67. static ::std::unordered_map<uint8_t, char> encodingMap = ls::std::encoding::Base64::_getEncodingMap();
  68. uint8_t shiftValue = 18;
  69. for (uint8_t bitMaskIndex = 0; bitMaskIndex < 4; bitMaskIndex++)
  70. {
  71. uint32_t extractedBitSequence = ls::std::encoding::Base64::_extractBitSequence(bitMaskStorage[bitMaskIndex], bitStorage);
  72. extractedBitSequence = extractedBitSequence >> shiftValue;
  73. encodedText += encodingMap[(uint8_t) extractedBitSequence];
  74. shiftValue -= 6;
  75. }
  76. return encodedText;
  77. }
  78. uint32_t ls::std::encoding::Base64::_extractBitSequence(uint32_t _bitMask, uint32_t _bitStorage)
  79. {
  80. return _bitStorage & _bitMask;
  81. }
  82. uint32_t ls::std::encoding::Base64::_generateBitMask(uint32_t _maskValue, uint8_t _shiftValue)
  83. {
  84. if (_shiftValue == 0)
  85. {
  86. return _maskValue;
  87. }
  88. if (_shiftValue < 0)
  89. {
  90. return _maskValue >> _shiftValue;
  91. }
  92. return _maskValue << _shiftValue;
  93. }
  94. ::std::unordered_map<char, uint8_t> ls::std::encoding::Base64::_getDecodingMap()
  95. {
  96. static ::std::unordered_map<char, uint8_t> decodingMap =
  97. {
  98. {'A', 0}, {'B', 1}, {'C', 2}, {'D', 3}, {'E', 4}, {'F', 5}, {'G', 6}, {'H', 7},
  99. {'I', 8}, {'J', 9}, {'K', 10}, {'L', 11}, {'M', 12}, {'N', 13}, {'O', 14}, {'P', 15},
  100. {'Q', 16}, {'R', 17}, {'S', 18}, {'T', 19}, {'U', 20}, {'V', 21}, {'W', 22}, {'X', 23},
  101. {'Y', 24}, {'Z', 25}, {'a', 26}, {'b', 27}, {'c', 28}, {'d', 29}, {'e', 30}, {'f', 31},
  102. {'g', 32}, {'h', 33}, {'i', 34}, {'j', 35}, {'k', 36}, {'l', 37}, {'m', 38}, {'n', 39},
  103. {'o', 40}, {'p', 41}, {'q', 42}, {'r', 43}, {'s', 44}, {'t', 45}, {'u', 46}, {'v', 47},
  104. {'w', 48}, {'x', 49}, {'y', 50}, {'z', 51}, {'0', 52}, {'1', 53}, {'2', 54}, {'3', 55},
  105. {'4', 56}, {'5', 57}, {'6', 58}, {'7', 59}, {'8', 60}, {'9', 61}, {'+', 62}, {'/', 63}
  106. };
  107. return decodingMap;
  108. }
  109. ::std::unordered_map<uint8_t, char> ls::std::encoding::Base64::_getEncodingMap()
  110. {
  111. static ::std::unordered_map<uint8_t, char> encodingMap =
  112. {
  113. {0, 'A'}, {1, 'B'}, {2, 'C'}, {3, 'D'}, {4, 'E'}, {5, 'F'}, {6, 'G'}, {7, 'H'},
  114. {8, 'I'}, {9, 'J'}, {10, 'K'}, {11, 'L'}, {12, 'M'}, {13, 'N'}, {14, 'O'}, {15, 'P'},
  115. {16, 'Q'}, {17, 'R'}, {18, 'S'}, {19, 'T'}, {20, 'U'}, {21, 'V'}, {22, 'W'}, {23, 'X'},
  116. {24, 'Y'}, {25, 'Z'}, {26, 'a'}, {27, 'b'}, {28, 'c'}, {29, 'd'}, {30, 'e'}, {31, 'f'},
  117. {32, 'g'}, {33, 'h'}, {34, 'i'}, {35, 'j'}, {36, 'k'}, {37, 'l'}, {38, 'm'}, {39, 'n'},
  118. {40, 'o'}, {41, 'p'}, {42, 'q'}, {43, 'r'}, {44, 's'}, {45, 't'}, {46, 'u'}, {47, 'v'},
  119. {48, 'w'}, {49, 'x'}, {50, 'y'}, {51, 'z'}, {52, '0'}, {53, '1'}, {54, '2'}, {55, '3'},
  120. {56, '4'}, {57, '5'}, {58, '6'}, {59, '7'}, {60, '8'}, {61, '9'}, {62, '+'}, {63, '/'},
  121. };
  122. return encodingMap;
  123. }
  124. ::std::string ls::std::encoding::Base64::_getNextByteQuadruple(const ::std::string &_sequence, size_t _index)
  125. {
  126. return _sequence.substr(_index, 4);
  127. }
  128. ::std::string ls::std::encoding::Base64::_getNextByteTriple(const ::std::string &_sequence, size_t _index)
  129. {
  130. return _sequence.substr(_index, 3);
  131. }
  132. void ls::std::encoding::Base64::_mergeBitSequence(uint32_t &_bitStorage, const uint32_t &_bitMask)
  133. {
  134. _bitStorage = _bitStorage | _bitMask;
  135. }
  136. uint32_t ls::std::encoding::Base64::_toDecodingBitStorage(const ::std::string &_quadruple)
  137. {
  138. uint32_t bitStorage{};
  139. uint8_t letterCounter = 1;
  140. ::std::unordered_map<char, uint8_t> decodingMap = ls::std::encoding::Base64::_getDecodingMap();
  141. for (char letter : _quadruple)
  142. {
  143. uint32_t bitMask = ls::std::encoding::Base64::_generateBitMask(decodingMap[(char) letter], (4 - letterCounter) * 6); // must be hardcoded - even in case of less than 4 characters, so that conversion is correct
  144. ls::std::encoding::Base64::_mergeBitSequence(bitStorage, bitMask);
  145. ++letterCounter;
  146. }
  147. return bitStorage;
  148. }
  149. uint32_t ls::std::encoding::Base64::_toEncodingBitStorage(const ::std::string &_triple)
  150. {
  151. uint32_t bitStorage{};
  152. uint8_t shiftValue = 16;
  153. for (char letter : _triple)
  154. {
  155. uint32_t bitMask = ls::std::encoding::Base64::_generateBitMask((uint8_t) letter, shiftValue);
  156. ls::std::encoding::Base64::_mergeBitSequence(bitStorage, bitMask);
  157. shiftValue -= 8;
  158. }
  159. return bitStorage;
  160. }