Implement the RC4 stream cipher in C++ . User should be able to enter any key th
ID: 3723085 • Letter: I
Question
Implement the RC4 stream cipher in C++ . User should be able to enter any key that is 5 bytes to 32 bytes long. Be sure to discard the first 3072 bytes of the pseudo random numbers. THE KEY MUST NOT BE HARD CODED IN THE PROGRAM.
Test your program with the following plain text: In cryptography, RC4 (Rivest Cipher 4 also known as ARC4 or ARCFOUR meaning Alleged RC4) is a stream cipher. While remarkable for its simplicity and speed in software, multiple vulnerabilities have been discovered in RC4, rendering it insecure. It is especially vulnerable when the beginning of the output keystream is not discarded, or when nonrandom or related keys are used. Particularly problematic uses of RC4 have led to very insecure protocols such as WEP.
Must be in C++
Explanation / Answer
#define SWAP(a, b) ((a) ^= (b), (b) ^= (a), (a) ^= (b))
class CRC4
{
public:
CRC4 ()
{
memset(sbox,0,256);
memset(key,0,256);
}
virtual ~CRC4 ()
{
memset(sbox,0,256);
memset(key,0,256);
}
char *Encrypt(char *pszText,const char *pszKey)
{
i=0, j=0,n = 0;
ilen = (int)strlen(pszKey);
for (m = 0; m < 256; m++)
{
*(key + m)= *(pszKey + (m % ilen));
*(sbox + m) = m;
}
for (m=0; m < 256; m++)
{
n = (n + *(sbox+m) + *(key + m)) &0xff;
SWAP(*(sbox + m),*(sbox + n));
}
ilen = (int)strlen(pszText);
for (m = 0; m < ilen; m++)
{
i = (i + 1) &0xff;
j = (j + *(sbox + i)) &0xff;
SWAP(*(sbox+i),*(sbox + j));
k = *(sbox + ((*(sbox + i) + *(sbox + j)) &0xff ));
if(k == *(pszText + m))
encoded text;
k = 0;
*(pszText + m) ^= k;
}
return pszText;
}
char *Decrypt(char *pszText,const char *pszKey)
{
return Encrypt(pszText,pszKey) ;
}
private:
unsigned char sbox[256];
unsigned char key[256],k;
int m, n, i, j, ilen;
};
class CBase32
{
public:
CBase32(){}
char *Encrypt(const char * srcp, int len, char * dstp)
{
register int i = 0;
char *dst = dstp;
for (i = 0; i < len - 2; i += 3)
{
*dstp++ = *(base32_map + ((*(srcp+i)>>2)&0x3f));
*dstp++ = *(base32_map + ((*(srcp+i)<< 4)&0x30 | (
*(srcp+i+1)>>4)&0x0f ));
*dstp++ = *(base32_map + ((*(srcp+i+1)<<2)&0x3C | (
*(srcp+i+2)>>6)&0x03));
*dstp++ = *(base32_map + (*(srcp+i+2)&0x3f));
}
srcp += i;
len -= i;
if(len & 0x02 )
{
*dstp++ = *(base32_map + ((*srcp>>2)&0x3f));
*dstp++ = *(base32_map + ((*srcp<< 4)&0x30 | (
*(srcp+1)>>4)&0x0f ));
*dstp++ = *(base32_map + ((*(srcp+1)<<2)&0x3C) );
*dstp++ = '=';
}
else if(len & 0x01 )
{
*dstp++ = *(base32_map + ((*srcp>>2)&0x3f));
*dstp++ = *(base32_map + ((*srcp<< 4)&0x30));
*dstp++ = '=';
*dstp++ = '=';
}
*dstp = '';
return dst;
}
void *Decrypt(const char * srcp, int len, char * dstp)
{
register int i = 0;
void *dst = dstp;
while(i < len)
{
*dstp++ = (B32_offset[*(srcp+i)] <<2 |
B32_offset[*(srcp+i+1)] >>4);
*dstp++ = (B32_offset[*(srcp+i+1)]<<4 |
B32_offset[*(srcp+i+2)]>>2);
*dstp++ = (B32_offset[*(srcp+i+2)]<<6 |
B32_offset[*(srcp+i+3)] );
i += 4;
}
srcp += i;
if(*(srcp-2) == '=')
{
*(dstp--) = '';
*(dstp--) = '';
}
else if(*(srcp-1) == '=')
*(dstp--) = '';
*dstp = '';
return dst;
};
size_t B32_length(size_t len)
{
size_t npad = len%3;
size_t size = (npad > 0)? (len +3-npad ) : len;
return (size*8)/6;
}
size_t Ascii_length(size_t len)
{
return (len*6)/8;
}
};
#include "Base32_RC4.h"
void main()
{
char str[32] = "This is a test for RC4 cypher";
CRC4 rc4;
printf("Demo for RC4 ");
printf("Plain text: %s ",str);
rc4.Encrypt(str,"Key");
printf("Encoded string: %s ",str);
rc4.Decrypt(str,"Key");
printf("Decoded string: %s ",str);
strcpy(str, "This is a test for Base32 cypher");
CBase32 base32;
char *dst;
dst = (char*)malloc( base32.B32_length(strlen(str))+1);
if(dst == NULL)
return;
printf(" Demo for Base32 ");
printf("Plain text: %s ",str);
base32.Encrypt(str,strlen(str),dst);
printf("Encoded string: %s ",dst);
memset(str,0,sizeof(str));
base32.Decrypt(dst,strlen(dst),str);
printf("Decoded string: %s ",str);
free(dst);
getchar();
}