/* * "enigma.c" is in file cbw.tar from * anonymous FTP host watmsg.waterloo.edu: pub/crypt/cbw.tar.Z * * A one-rotor machine designed along the lines of Enigma * but considerably trivialized. * * A public-domain replacement for the UNIX "crypt" command. * * Upgraded to function properly on 64-bit machines. */ #ifndef lint static const char rcsid[] = "$FreeBSD$"; #endif /* not lint */ #include #include #include #include #include #include #define MINUSKVAR "CrYpTkEy" #define ECHO 010 #define ROTORSZ 256 #define MASK 0377 char t1[ROTORSZ]; char t2[ROTORSZ]; char t3[ROTORSZ]; char deck[ROTORSZ]; char buf[13]; void shuffle(char *); void setup(pw) char *pw; { int ic, i, k, temp, pf[2], pid; unsigned random; long seed; strncpy(buf, pw, 8); while (*pw) *pw++ = '\0'; buf[8] = buf[0]; buf[9] = buf[1]; pipe(pf); if ((pid=fork())==0) { close(0); close(1); dup(pf[0]); dup(pf[1]); execlp("makekey", "-", 0); execl("/usr/libexec/makekey", "-", 0); /* BSDI */ execl("/usr/lib/makekey", "-", 0); execl("/usr/bin/makekey", "-", 0); /* IBM */ execl("/lib/makekey", "-", 0); perror("makekey"); fprintf(stderr, "enigma: cannot execute 'makekey', aborting\n"); exit(1); } write(pf[1], buf, 10); close(pf[1]); i=wait((int *)NULL); if (i<0) perror("enigma: wait"); if (i!=pid) { fprintf(stderr, "enigma: expected pid %d, got pid %d\n", pid, i); exit(1); } if ((i=read(pf[0], buf, 13)) != 13) { fprintf(stderr, "enigma: cannot generate key, read %d\n",i); exit(1); } seed = 123; for (i=0; i<13; i++) seed = seed*buf[i] + i; for(i=0;i 4 ) { /* Force seed to stay in 32-bit signed math */ if( seed & 0x80000000 ) seed = seed | (-1L & ~0xFFFFFFFFL); else seed &= 0x7FFFFFFF; } random = seed % 65521; k = ROTORSZ-1 - i; ic = (random&MASK)%(k+1); random >>= 8; temp = t1[k]; t1[k] = t1[ic]; t1[ic] = temp; if(t3[k]!=0) continue; ic = (random&MASK) % k; while(t3[ic]!=0) ic = (ic+1) % k; t3[k] = ic; t3[ic] = k; } for(i=0;i 1 && argv[1][0] == '-') { if (argv[1][1] == 's') { argc--; argv++; secureflg = 1; } else if (argv[1][1] == 'k') { argc--; argv++; kflag = 1; } } if (kflag) { if ((cp = getenv(MINUSKVAR)) == NULL) { fprintf(stderr, "%s not set\n", MINUSKVAR); exit(1); } setup(cp); } else if (argc != 2) { setup(getpass("Enter key:")); } else setup(argv[1]); n1 = 0; n2 = 0; nr2 = 0; while((i=getchar()) != -1) { if (secureflg) { nr1 = deck[n1]&MASK; nr2 = deck[nr1]&MASK; } else { nr1 = n1; } i = t2[(t3[(t1[(i+nr1)&MASK]+nr2)&MASK]-nr2)&MASK]-nr1; putchar(i); n1++; if(n1==ROTORSZ) { n1 = 0; n2++; if(n2==ROTORSZ) n2 = 0; if (secureflg) { shuffle(deck); } else { nr2 = n2; } } } return 0; } void shuffle(deck) char deck[]; { int i, ic, k, temp; unsigned random; static long seed = 123; for(i=0;i