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/*************************************************
* ARC4 Source File                               *
* (C) 1999-2006 The Botan Project                *
*************************************************/

#include <botan/arc4.h>
#include <botan/bit_ops.h>
#include <botan/parsing.h>

namespace Botan {

/*************************************************
* Combine cipher stream with message             *
*************************************************/
void ARC4::cipher(const byte in[], byte out[], u32bit length)
   {
   while(length >= buffer.size() - position)
      {
      xor_buf(out, in, buffer.begin() + position, buffer.size() - position);
      length -= (buffer.size() - position);
      in += (buffer.size() - position);
      out += (buffer.size() - position);
      generate();
      }
   xor_buf(out, in, buffer.begin() + position, length);
   position += length;
   }

/*************************************************
* Generate cipher stream                         *
*************************************************/
void ARC4::generate()
   {
   u32bit SX, SY;
   for(u32bit j = 0; j != buffer.size(); j += 4)
      {
      SX = state[X+1]; Y = (Y + SX) % 256; SY = state[Y];
      state[X+1] = SY; state[Y] = SX;
      buffer[j] = state[(SX + SY) % 256];

      SX = state[X+2]; Y = (Y + SX) % 256; SY = state[Y];
      state[X+2] = SY; state[Y] = SX;
      buffer[j+1] = state[(SX + SY) % 256];

      SX = state[X+3]; Y = (Y + SX) % 256; SY = state[Y];
      state[X+3] = SY; state[Y] = SX;
      buffer[j+2] = state[(SX + SY) % 256];

      X = (X + 4) % 256;
      SX = state[X]; Y = (Y + SX) % 256; SY = state[Y];
      state[X] = SY; state[Y] = SX;
      buffer[j+3] = state[(SX + SY) % 256];
      }
   position = 0;
   }

/*************************************************
* ARC4 Key Schedule                              *
*************************************************/
void ARC4::key(const byte key[], u32bit length)
   {
   clear();
   for(u32bit j = 0; j != 256; ++j)
      state[j] = j;
   for(u32bit j = 0, state_index = 0; j != 256; ++j)
      {
      state_index = (state_index + key[j % length] + state[j]) % 256;
      std::swap(state[j], state[state_index]);
      }
   for(u32bit j = 0; j <= SKIP; j += buffer.size())
      generate();
   position += (SKIP % buffer.size());
   }

/*************************************************
* Return the name of this type                   *
*************************************************/
std::string ARC4::name() const
   {
   if(SKIP == 0)   return "ARC4";
   if(SKIP == 256) return "MARK-4";
   else            return "RC4_skip(" + to_string(SKIP) + ")";
   }

/*************************************************
* Clear memory of sensitive data                 *
*************************************************/
void ARC4::clear() throw()
   {
   state.clear();
   buffer.clear();
   position = X = Y = 0;
   }

/*************************************************
* ARC4 Constructor                               *
*************************************************/
ARC4::ARC4(u32bit s) : StreamCipher(1, 256), SKIP(s)
   {
   clear();
   }

}