src/base64.h - platform/external/xmlrpcpp - Git at Google



 //  base64.hpp
 //  Autor Konstantin Pilipchuk
 //  mailto:lostd@ukr.net
 //
 //

 #if !defined(__BASE64_H_INCLUDED__)
 #define __BASE64_H_INCLUDED__ 1

 #ifndef MAKEDEPEND
 # include <iostream>
 # include <iterator>
 #endif

 static
 int _base64Chars[]= {'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P','Q','R','S','T','U','V','W','X','Y','Z',
 				     'a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z',
 			         '0','1','2','3','4','5','6','7','8','9',
 			         '+','/' };


 #define _0000_0011 0x03
 #define _1111_1100 0xFC
 #define _1111_0000 0xF0
 #define _0011_0000 0x30
 #define _0011_1100 0x3C
 #define _0000_1111 0x0F
 #define _1100_0000 0xC0
 #define _0011_1111 0x3F

 #define _EQUAL_CHAR   (-1)
 #define _UNKNOWN_CHAR (-2)

 #define _IOS_FAILBIT   std::ios_base::failbit
 #define _IOS_EOFBIT    std::ios_base::eofbit
 #define _IOS_BADBIT    std::ios_base::badbit
 #define _IOS_GOODBIT   std::ios_base::goodbit

 // TEMPLATE CLASS base64_put
 template<class _E = char, class _Tr = std::char_traits<_E> >
 class base64
 {
 public:

 	typedef unsigned char byte_t;
 	typedef _E            char_type;
 	typedef _Tr           traits_type;

 	// base64 requires max line length <= 72 characters
 	// you can fill end of line
 	// it may be crlf, crlfsp, noline or other class like it


 	struct crlf
 	{
 		template<class _OI>
 			_OI operator()(_OI _To) const{
 			*_To = _Tr::to_char_type('\r'); ++_To;
 			*_To = _Tr::to_char_type('\n'); ++_To;

 			return (_To);
 		}
 	};


 	struct crlfsp
 	{
 		template<class _OI>
 			_OI operator()(_OI _To) const{
 			*_To = _Tr::to_char_type('\r'); ++_To;
 			*_To = _Tr::to_char_type('\n'); ++_To;
 			*_To = _Tr::to_char_type(' '); ++_To;

 			return (_To);
 		}
 	};

 	struct noline
 	{
 		template<class _OI>
 			_OI operator()(_OI _To) const{
 			return (_To);
 		}
 	};

 	struct three2four
 	{
 		void zero()
 		{
 			_data[0] = 0;
 			_data[1] = 0;
 			_data[2] = 0;
 		}

 		byte_t get_0()	const
 		{
 			return _data[0];
 		}
 		byte_t get_1()	const
 		{
 			return _data[1];
 		}
 		byte_t get_2()	const
 		{
 			return _data[2];
 		}

 		void set_0(byte_t _ch)
 		{
 			_data[0] = _ch;
 		}

 		void set_1(byte_t _ch)
 		{
 			_data[1] = _ch;
 		}

 		void set_2(byte_t _ch)
 		{
 			_data[2] = _ch;
 		}

 		// 0000 0000  1111 1111  2222 2222
 		// xxxx xxxx  xxxx xxxx  xxxx xxxx
 		// 0000 0011  1111 2222  2233 3333

 		int b64_0()	const	{return (_data[0] & _1111_1100) >> 2;}
 		int b64_1()	const	{return ((_data[0] & _0000_0011) << 4) + ((_data[1] & _1111_0000)>>4);}
 		int b64_2()	const	{return ((_data[1] & _0000_1111) << 2) + ((_data[2] & _1100_0000)>>6);}
 		int b64_3()	const	{return (_data[2] & _0011_1111);}

 		void b64_0(int _ch)	{_data[0] = ((_ch & _0011_1111) << 2) | (_0000_0011 & _data[0]);}

 		void b64_1(int _ch)	{
 			_data[0] = ((_ch & _0011_0000) >> 4) | (_1111_1100 & _data[0]);
 			_data[1] = ((_ch & _0000_1111) << 4) | (_0000_1111 & _data[1]);	}

 		void b64_2(int _ch)	{
 			_data[1] = ((_ch & _0011_1100) >> 2) | (_1111_0000 & _data[1]);
 			_data[2] = ((_ch & _0000_0011) << 6) | (_0011_1111 & _data[2]);	}

 		void b64_3(int _ch){
 			_data[2] = (_ch & _0011_1111) | (_1100_0000 & _data[2]);}

 	private:
 		byte_t _data[3];

 	};


 	template<class _II, class _OI, class _State, class _Endline>
 		_II put(_II _First, _II _Last, _OI _To, _State& /* _St */, _Endline /* _Endl */)  const
 	{
 		three2four _3to4;
 		int line_octets = 0;

 		while(_First != _Last)
 		{
 			_3to4.zero();

 			// áåð¸ì ïî 3 ñèìâîëà
 			_3to4.set_0(*_First);
 			_First++;

 			if(_First == _Last)
 			{
 				*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
 				*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
 				*_To = _Tr::to_char_type('='); ++_To;
 				*_To = _Tr::to_char_type('='); ++_To;
 				goto __end;
 			}

 			_3to4.set_1(*_First);
 			_First++;

 			if(_First == _Last)
 			{
 				*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
 				*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
 				*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
 				*_To = _Tr::to_char_type('='); ++_To;
 				goto __end;
 			}

 			_3to4.set_2(*_First);
 			_First++;

 			*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
 			*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
 			*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
 			*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_3()]); ++_To;

 			if(line_octets == 17) // base64 ïîçâîëÿåò äëèíó ñòðîêè íå áîëåå 72 ñèìâîëîâ
 			{
 				//_To = _Endl(_To);
         *_To = '\n'; ++_To;
 				line_octets = 0;
 			}
 			else
 				++line_octets;
 		}

 		__end: ;

 		return (_First);

 	}


 	template<class _II, class _OI, class _State>
 		_II get(_II _First, _II _Last, _OI _To, _State& _St) const
 	{
 		three2four _3to4;
 		int _Char;

 		while(_First != _Last)
 		{

 			// Take octet
 			_3to4.zero();

 			// -- 0 --
 			// Search next valid char...
 			while((_Char =  _getCharType(*_First)) < 0 && _Char == _UNKNOWN_CHAR)
 			{
 				if(++_First == _Last)
 				{
 					_St |= _IOS_FAILBIT|_IOS_EOFBIT; return _First; // unexpected EOF
 				}
 			}

 			if(_Char == _EQUAL_CHAR){
 				// Error! First character in octet can't be '='
 				_St |= _IOS_FAILBIT;
 				return _First;
 			}
 			else
 				_3to4.b64_0(_Char);


 			// -- 1 --
 			// Search next valid char...
 			while(++_First != _Last)
 				if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
 					break;

 			if(_First == _Last)	{
 				_St |= _IOS_FAILBIT|_IOS_EOFBIT; // unexpected EOF
 				return _First;
 			}

 			if(_Char == _EQUAL_CHAR){
 				// Error! Second character in octet can't be '='
 				_St |= _IOS_FAILBIT;
 				return _First;
 			}
 			else
 				_3to4.b64_1(_Char);


 			// -- 2 --
 			// Search next valid char...
 			while(++_First != _Last)
 				if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
 					break;

 			if(_First == _Last)	{
 				// Error! Unexpected EOF. Must be '=' or base64 character
 				_St |= _IOS_FAILBIT|_IOS_EOFBIT;
 				return _First;
 			}

 			if(_Char == _EQUAL_CHAR){
 				// OK!
 				_3to4.b64_2(0);
 				_3to4.b64_3(0);

 				// chek for EOF
 				if(++_First == _Last)
 				{
 					// Error! Unexpected EOF. Must be '='. Ignore it.
 					//_St |= _IOS_BADBIT|_IOS_EOFBIT;
 					_St |= _IOS_EOFBIT;
 				}
 				else
 					if(_getCharType(*_First) != _EQUAL_CHAR)
 					{
 						// Error! Must be '='. Ignore it.
 						//_St |= _IOS_BADBIT;
 					}
 				else
 					++_First; // Skip '='

 				// write 1 byte to output
 				*_To = (byte_t) _3to4.get_0();
 				return _First;
 			}
 			else
 				_3to4.b64_2(_Char);


 			// -- 3 --
 			// Search next valid char...
 			while(++_First != _Last)
 				if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
 					break;

 			if(_First == _Last)	{
 				// Unexpected EOF. It's error. But ignore it.
 				//_St |= _IOS_FAILBIT|_IOS_EOFBIT;
 					_St |= _IOS_EOFBIT;

 				return _First;
 			}

 			if(_Char == _EQUAL_CHAR)
 			{
 				// OK!
 				_3to4.b64_3(0);

 				// write to output 2 bytes
 				*_To = (byte_t) _3to4.get_0();
 				*_To = (byte_t) _3to4.get_1();

 				++_First; // set position to next character

 				return _First;
 			}
 			else
 				_3to4.b64_3(_Char);


 			// write to output 3 bytes
 			*_To = (byte_t) _3to4.get_0();
 			*_To = (byte_t) _3to4.get_1();
 			*_To = (byte_t) _3to4.get_2();

 			++_First;


 		} // while(_First != _Last)

 		return (_First);
 	}

 protected:

 	int _getCharType(int _Ch) const
 	{
 		if(_base64Chars[62] == _Ch)
 			return 62;

 		if(_base64Chars[63] == _Ch)
 			return 63;

 		if((_base64Chars[0] <= _Ch) && (_base64Chars[25] >= _Ch))
 			return _Ch - _base64Chars[0];

 		if((_base64Chars[26] <= _Ch) && (_base64Chars[51] >= _Ch))
 			return _Ch - _base64Chars[26] + 26;

 		if((_base64Chars[52] <= _Ch) && (_base64Chars[61] >= _Ch))
 			return _Ch - _base64Chars[52] + 52;

 		if(_Ch == _Tr::to_int_type('='))
 			return _EQUAL_CHAR;

 		return _UNKNOWN_CHAR;
 	}


 };


 #endif


	// base64.hpp
	// Autor Konstantin Pilipchuk
	// mailto:lostd@ukr.net
	//
	//

	#if !defined(__BASE64_H_INCLUDED__)
	#define __BASE64_H_INCLUDED__ 1

	#ifndef MAKEDEPEND
	# include <iostream>
	# include <iterator>
	#endif

	static
	int _base64Chars[]= {'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P','Q','R','S','T','U','V','W','X','Y','Z',
	'a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z',
	'0','1','2','3','4','5','6','7','8','9',
	'+','/' };


	#define _0000_0011 0x03
	#define _1111_1100 0xFC
	#define _1111_0000 0xF0
	#define _0011_0000 0x30
	#define _0011_1100 0x3C
	#define _0000_1111 0x0F
	#define _1100_0000 0xC0
	#define _0011_1111 0x3F

	#define _EQUAL_CHAR (-1)
	#define _UNKNOWN_CHAR (-2)

	#define _IOS_FAILBIT std::ios_base::failbit
	#define _IOS_EOFBIT std::ios_base::eofbit
	#define _IOS_BADBIT std::ios_base::badbit
	#define _IOS_GOODBIT std::ios_base::goodbit

	// TEMPLATE CLASS base64_put
	template<class _E = char, class _Tr = std::char_traits<_E> >
	class base64
	{
	public:

	typedef unsigned char byte_t;
	typedef _E char_type;
	typedef _Tr traits_type;

	// base64 requires max line length <= 72 characters
	// you can fill end of line
	// it may be crlf, crlfsp, noline or other class like it


	struct crlf
	{
	template<class _OI>
	_OI operator()(_OI _To) const{
	*_To = _Tr::to_char_type('\r'); ++_To;
	*_To = _Tr::to_char_type('\n'); ++_To;

	return (_To);
	}
	};


	struct crlfsp
	{
	template<class _OI>
	_OI operator()(_OI _To) const{
	*_To = _Tr::to_char_type('\r'); ++_To;
	*_To = _Tr::to_char_type('\n'); ++_To;
	*_To = _Tr::to_char_type(' '); ++_To;

	return (_To);
	}
	};

	struct noline
	{
	template<class _OI>
	_OI operator()(_OI _To) const{
	return (_To);
	}
	};

	struct three2four
	{
	void zero()
	{
	_data[0] = 0;
	_data[1] = 0;
	_data[2] = 0;
	}

	byte_t get_0() const
	{
	return _data[0];
	}
	byte_t get_1() const
	{
	return _data[1];
	}
	byte_t get_2() const
	{
	return _data[2];
	}

	void set_0(byte_t _ch)
	{
	_data[0] = _ch;
	}

	void set_1(byte_t _ch)
	{
	_data[1] = _ch;
	}

	void set_2(byte_t _ch)
	{
	_data[2] = _ch;
	}

	// 0000 0000 1111 1111 2222 2222
	// xxxx xxxx xxxx xxxx xxxx xxxx
	// 0000 0011 1111 2222 2233 3333

	int b64_0() const {return (_data[0] & _1111_1100) >> 2;}
	int b64_1() const {return ((_data[0] & _0000_0011) << 4) + ((_data[1] & _1111_0000)>>4);}
	int b64_2() const {return ((_data[1] & _0000_1111) << 2) + ((_data[2] & _1100_0000)>>6);}
	int b64_3() const {return (_data[2] & _0011_1111);}

	void b64_0(int _ch) {_data[0] = ((_ch & _0011_1111) << 2) \| (_0000_0011 & _data[0]);}

	void b64_1(int _ch) {
	_data[0] = ((_ch & _0011_0000) >> 4) \| (_1111_1100 & _data[0]);
	_data[1] = ((_ch & _0000_1111) << 4) \| (_0000_1111 & _data[1]); }

	void b64_2(int _ch) {
	_data[1] = ((_ch & _0011_1100) >> 2) \| (_1111_0000 & _data[1]);
	_data[2] = ((_ch & _0000_0011) << 6) \| (_0011_1111 & _data[2]); }

	void b64_3(int _ch){
	_data[2] = (_ch & _0011_1111) \| (_1100_0000 & _data[2]);}

	private:
	byte_t _data[3];

	};




	template<class _II, class _OI, class _State, class _Endline>
	_II put(_II _First, _II _Last, _OI _To, _State& /* _St /, _Endline / _Endl */) const
	{
	three2four _3to4;
	int line_octets = 0;

	while(_First != _Last)
	{
	_3to4.zero();

	// áåð¸ì ïî 3 ñèìâîëà
	_3to4.set_0(*_First);
	_First++;

	if(_First == _Last)
	{
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
	*_To = _Tr::to_char_type('='); ++_To;
	*_To = _Tr::to_char_type('='); ++_To;
	goto __end;
	}

	_3to4.set_1(*_First);
	_First++;

	if(_First == _Last)
	{
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
	*_To = _Tr::to_char_type('='); ++_To;
	goto __end;
	}

	_3to4.set_2(*_First);
	_First++;

	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
	*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_3()]); ++_To;

	if(line_octets == 17) // base64 ïîçâîëÿåò äëèíó ñòðîêè íå áîëåå 72 ñèìâîëîâ
	{
	//_To = _Endl(_To);
	*_To = '\n'; ++_To;
	line_octets = 0;
	}
	else
	++line_octets;
	}

	__end: ;

	return (_First);

	}


	template<class _II, class _OI, class _State>
	_II get(_II _First, _II _Last, _OI _To, _State& _St) const
	{
	three2four _3to4;
	int _Char;

	while(_First != _Last)
	{

	// Take octet
	_3to4.zero();

	// -- 0 --
	// Search next valid char...
	while((_Char = _getCharType(*_First)) < 0 && _Char == _UNKNOWN_CHAR)
	{
	if(++_First == _Last)
	{
	_St \|= _IOS_FAILBIT\|_IOS_EOFBIT; return _First; // unexpected EOF
	}
	}

	if(_Char == _EQUAL_CHAR){
	// Error! First character in octet can't be '='
	_St \|= _IOS_FAILBIT;
	return _First;
	}
	else
	_3to4.b64_0(_Char);


	// -- 1 --
	// Search next valid char...
	while(++_First != _Last)
	if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
	break;

	if(_First == _Last) {
	_St \|= _IOS_FAILBIT\|_IOS_EOFBIT; // unexpected EOF
	return _First;
	}

	if(_Char == _EQUAL_CHAR){
	// Error! Second character in octet can't be '='
	_St \|= _IOS_FAILBIT;
	return _First;
	}
	else
	_3to4.b64_1(_Char);


	// -- 2 --
	// Search next valid char...
	while(++_First != _Last)
	if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
	break;

	if(_First == _Last) {
	// Error! Unexpected EOF. Must be '=' or base64 character
	_St \|= _IOS_FAILBIT\|_IOS_EOFBIT;
	return _First;
	}

	if(_Char == _EQUAL_CHAR){
	// OK!
	_3to4.b64_2(0);
	_3to4.b64_3(0);

	// chek for EOF
	if(++_First == _Last)
	{
	// Error! Unexpected EOF. Must be '='. Ignore it.
	//_St \|= _IOS_BADBIT\|_IOS_EOFBIT;
	_St \|= _IOS_EOFBIT;
	}
	else
	if(_getCharType(*_First) != _EQUAL_CHAR)
	{
	// Error! Must be '='. Ignore it.
	//_St \|= _IOS_BADBIT;
	}
	else
	++_First; // Skip '='

	// write 1 byte to output
	*_To = (byte_t) _3to4.get_0();
	return _First;
	}
	else
	_3to4.b64_2(_Char);


	// -- 3 --
	// Search next valid char...
	while(++_First != _Last)
	if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
	break;

	if(_First == _Last) {
	// Unexpected EOF. It's error. But ignore it.
	//_St \|= _IOS_FAILBIT\|_IOS_EOFBIT;
	_St \|= _IOS_EOFBIT;

	return _First;
	}

	if(_Char == _EQUAL_CHAR)
	{
	// OK!
	_3to4.b64_3(0);

	// write to output 2 bytes
	*_To = (byte_t) _3to4.get_0();
	*_To = (byte_t) _3to4.get_1();

	++_First; // set position to next character

	return _First;
	}
	else
	_3to4.b64_3(_Char);


	// write to output 3 bytes
	*_To = (byte_t) _3to4.get_0();
	*_To = (byte_t) _3to4.get_1();
	*_To = (byte_t) _3to4.get_2();

	++_First;


	} // while(_First != _Last)

	return (_First);
	}

	protected:

	int _getCharType(int _Ch) const
	{
	if(_base64Chars[62] == _Ch)
	return 62;

	if(_base64Chars[63] == _Ch)
	return 63;

	if((_base64Chars[0] <= _Ch) && (_base64Chars[25] >= _Ch))
	return _Ch - _base64Chars[0];

	if((_base64Chars[26] <= _Ch) && (_base64Chars[51] >= _Ch))
	return _Ch - _base64Chars[26] + 26;

	if((_base64Chars[52] <= _Ch) && (_base64Chars[61] >= _Ch))
	return _Ch - _base64Chars[52] + 52;

	if(_Ch == _Tr::to_int_type('='))
	return _EQUAL_CHAR;

	return _UNKNOWN_CHAR;
	}


	};


	#endif