#include #include #include #ifdef __MSDOS__ #include #endif #ifdef unix /* Assume POSIX */ #include #include #endif #include #include "md4.h" #if (defined(__MSDOS__) || defined(MPU8086) || defined(MPU8080) \ || defined(vax) || defined (MIPSEL)) #define LITTLE_ENDIAN /* Low order bytes are first in memory */ #endif /* Almost all other machines are big-endian */ /* Crunch a key: * concatenate the seed and the password, run through MD4 and * collapse to 64 bits. This is defined as the user's starting key. */ int keycrunch(result,seed,passwd) char *result; /* 8-byte result */ char *seed; /* Seed, any length */ char *passwd; /* Password, any length */ { char *buf; MDstruct md; unsigned int buflen; #ifndef LITTLE_ENDIAN int i; register long tmp; #endif buflen = strlen(seed) + strlen(passwd); if((buf = malloc(buflen+1)) == NULL) return -1; strcpy(buf,seed); strcat(buf,passwd); /* Crunch the key through MD4 */ sevenbit(buf); MDbegin(&md); MDupdate(&md,(unsigned char *)buf,8*buflen); free(buf); /* Fold result from 128 to 64 bits */ md.buffer[0] ^= md.buffer[2]; md.buffer[1] ^= md.buffer[3]; #ifdef LITTLE_ENDIAN /* Only works on byte-addressed little-endian machines!! */ memcpy(result,(char *)md.buffer,8); #else /* Default (but slow) code that will convert to * little-endian byte ordering on any machine */ for(i=0;i<2;i++){ tmp = md.buffer[i]; *result++ = tmp; tmp >>= 8; *result++ = tmp; tmp >>= 8; *result++ = tmp; tmp >>= 8; *result++ = tmp; } #endif return 0; } /* The one-way function f(). Takes 8 bytes and returns 8 bytes in place */ void f(x) char *x; { MDstruct md; #ifndef LITTLE_ENDIAN register long tmp; #endif MDbegin(&md); MDupdate(&md,(unsigned char *)x,64); /* Fold 128 to 64 bits */ md.buffer[0] ^= md.buffer[2]; md.buffer[1] ^= md.buffer[3]; #ifdef LITTLE_ENDIAN /* Only works on byte-addressed little-endian machines!! */ memcpy(x,(char *)md.buffer,8); #else /* Default (but slow) code that will convert to * little-endian byte ordering on any machine */ tmp = md.buffer[0]; *x++ = tmp; tmp >>= 8; *x++ = tmp; tmp >>= 8; *x++ = tmp; tmp >>= 8; *x++ = tmp; tmp = md.buffer[1]; *x++ = tmp; tmp >>= 8; *x++ = tmp; tmp >>= 8; *x++ = tmp; tmp >>= 8; *x = tmp; #endif } /* Strip trailing cr/lf from a line of text */ void rip(buf) char *buf; { char *cp; if((cp = strchr(buf,'\r')) != NULL) *cp = '\0'; if((cp = strchr(buf,'\n')) != NULL) *cp = '\0'; } /************************/ #ifdef __MSDOS__ char * readpass(buf,n) char *buf; int n; { int i; char *cp; for(cp=buf,i = 0; i < n ; i++) if ((*cp++ = bdos(7,0,0)) == '\r') break; *cp = '\0'; printf("\n"); rip(buf); return buf; } #else char * readpass(buf,n) char *buf; int n; { struct termios saved_ttymode; struct termios noecho_ttymode; /* Save normal line editing modes */ tcgetattr(0, &saved_ttymode); /* Turn off echoing */ tcgetattr(0, &noecho_ttymode); noecho_ttymode.c_lflag &= ~ECHO; tcsetattr(0, TCSANOW, &noecho_ttymode); fgets(buf,n,stdin); rip(buf); /* Restore previous tty modes */ tcsetattr(0, TCSANOW, &saved_ttymode); /* after the secret key is taken from the keyboard, the line feed is written to standard error instead of standard output. That means that anyone using the program from a terminal won't notice, but capturing standard output will get the key words without a newline in front of them. */ fprintf(stderr, "\n"); fflush(stderr); sevenbit(buf); return buf; } #endif /* removebackspaced over charaters from the string*/ backspace(buf) char *buf; { char bs = 0x8; char *cp = buf; char *out = buf; while(*cp){ if( *cp == bs ) { if(out == buf){ cp++; continue; } else { cp++; out--; } } else { *out++ = *cp++; } } *out = '\0'; } sevenbit(s) char *s; { /* make sure there are only 7 bit code in the line*/ while(*s){ *s = 0x7f & ( *s); s++; } }