805 lines
19 KiB
C
805 lines
19 KiB
C
/***********************************************************
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Copyright 1991, 1992, 1993 by Stichting Mathematisch Centrum,
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Amsterdam, The Netherlands.
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All Rights Reserved
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Permission to use, copy, modify, and distribute this software and its
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documentation for any purpose and without fee is hereby granted,
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provided that the above copyright notice appear in all copies and that
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both that copyright notice and this permission notice appear in
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supporting documentation, and that the names of Stichting Mathematisch
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Centrum or CWI not be used in advertising or publicity pertaining to
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distribution of the software without specific, written prior permission.
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STICHTING MATHEMATISCH CENTRUM DISCLAIMS ALL WARRANTIES WITH REGARD TO
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THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
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FITNESS, IN NO EVENT SHALL STICHTING MATHEMATISCH CENTRUM BE LIABLE
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FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
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OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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******************************************************************/
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/******************************************************************
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Copyright 1992 by Lance Ellinghouse (lance@markv.com)
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All Rights Reserved
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Permission to use, copy, distribute for any purpose and without fee
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is hereby granted, provided that this copyright notice appear in
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all copies and that both this copyright notice and this permission
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notice appear in supporting documentation.
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Permission to make any changes is granted on the basis that all
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changes and improvements are also forwarded to Lance Ellinghouse
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before distribution.
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******************************************************************/
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/* This creates an encryption and decryption engine I am calling
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a rotor due to the original design was a harware rotor with
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contacts used in Germany during WWII.
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Rotor Module:
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- rotor.newrotor('key') -> rotorobject (default of 6 rotors)
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- rotor.newrotor('key', num_rotors) -> rotorobject
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Rotor Objects:
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- ro.setkey('string') -> None (resets the key as defined in newrotor().
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- ro.encrypt('string') -> encrypted string
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- ro.decrypt('encrypted string') -> unencrypted string
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- ro.encryptmore('string') -> encrypted string
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- ro.decryptmore('encrypted string') -> unencrypted string
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NOTE: the {en,de}cryptmore() methods use the setup that was
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established via the {en,de}crypt calls. They will NOT
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re-initalize the rotors unless: 1) They have not been
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initalized with {en,de}crypt since the last setkey() call;
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2) {en,de}crypt has not been called for this rotor yet.
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NOTE: you MUST use the SAME key in rotor.newrotor()
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if you wish to decrypt an encrypted string.
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Also, the encrypted string is NOT 0-127 ASCII.
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It is considered BINARY data.
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*/
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/* Rotor objects */
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#include "allobjects.h"
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#include "modsupport.h"
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#include <stdio.h>
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#include <math.h>
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#define TRUE 1
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#define FALSE 0
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typedef struct {
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OB_HEAD
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int seed[3];
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short key[5];
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int isinited;
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int size;
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int size_mask;
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int rotors;
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unsigned char *e_rotor; /* [num_rotors][size] */
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unsigned char *d_rotor; /* [num_rotors][size] */
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unsigned char *positions; /* [num_rotors] */
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unsigned char *advances; /* [num_rotors] */
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} rotorobject;
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extern typeobject Rotortype; /* Really static, forward */
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#define is_rotorobject(v) ((v)->ob_type == &Rotortype)
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/*
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This defines the necessary routines to manage rotor objects
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*/
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static void set_seed( r )
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rotorobject *r;
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{
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r->seed[0] = r->key[0];
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r->seed[1] = r->key[1];
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r->seed[2] = r->key[2];
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r->isinited = FALSE;
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}
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/* Return the next random number in the range [0.0 .. 1.0) */
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static float r_random( r )
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rotorobject *r;
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{
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int x, y, z;
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float val, term;
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x = r->seed[0];
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y = r->seed[1];
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z = r->seed[2];
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x = 171 * (x % 177) - 2 * (x/177);
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y = 172 * (y % 176) - 35 * (y/176);
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z = 170 * (z % 178) - 63 * (z/178);
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if (x < 0) x = x + 30269;
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if (y < 0) y = y + 30307;
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if (z < 0) z = z + 30323;
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r->seed[0] = x;
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r->seed[1] = y;
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r->seed[2] = z;
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term = (float)(
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(((float)x)/(float)30269.0) +
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(((float)y)/(float)30307.0) +
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(((float)z)/(float)30323.0)
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);
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val = term - (float)floor((double)term);
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if (val >= 1.0) val = 0.0;
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return val;
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}
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static short r_rand(r,s)
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rotorobject *r;
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short s;
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{
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/*short tmp = (short)((int)(r_random(r) * (float)32768.0) % 32768);*/
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short tmp = (short)((short)(r_random(r) * (float)s) % s);
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return tmp;
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}
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static void set_key(r, key)
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rotorobject *r;
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char *key;
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{
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int k1=995, k2=576, k3=767, k4=671, k5=463;
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int i;
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int len=strlen(key);
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for (i=0;i<len;i++) {
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k1 = (((k1<<3 | k1<<-13) + key[i]) & 65535);
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k2 = (((k2<<3 | k2<<-13) ^ key[i]) & 65535);
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k3 = (((k3<<3 | k3<<-13) - key[i]) & 65535);
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k4 = ((key[i] - (k4<<3 | k4<<-13)) & 65535);
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k5 = (((k5<<3 | k5<<-13) ^ ~key[i]) & 65535);
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}
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r->key[0] = (short)k1;
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r->key[1] = (short)(k2|1);
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r->key[2] = (short)k3;
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r->key[3] = (short)k4;
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r->key[4] = (short)k5;
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set_seed(r);
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}
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/* These define the interface to a rotor object */
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static rotorobject *
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newrotorobject(num_rotors, key)
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int num_rotors;
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char *key;
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{
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rotorobject *xp;
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xp = NEWOBJ(rotorobject, &Rotortype);
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if (xp == NULL)
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return NULL;
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set_key(xp, key);
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xp->size = 256;
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xp->size_mask = xp->size - 1;
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xp->size_mask = 0;
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xp->rotors = num_rotors;
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xp->e_rotor = NULL;
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xp->d_rotor = NULL;
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xp->positions = NULL;
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xp->advances = NULL;
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xp->e_rotor =
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(unsigned char *)malloc((num_rotors * (xp->size * sizeof(char))));
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if (xp->e_rotor == (unsigned char *)NULL)
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goto fail;
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xp->d_rotor =
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(unsigned char *)malloc((num_rotors * (xp->size * sizeof(char))));
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if (xp->d_rotor == (unsigned char *)NULL)
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goto fail;
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xp->positions = (unsigned char *)malloc(num_rotors * sizeof(char));
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if (xp->positions == (unsigned char *)NULL)
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goto fail;
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xp->advances = (unsigned char *)malloc(num_rotors * sizeof(char));
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if (xp->advances == (unsigned char *)NULL)
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goto fail;
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return xp;
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fail:
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DECREF(xp);
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return (rotorobject *)err_nomem();
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}
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/* These routines impliment the rotor itself */
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/* Here is a fairly sofisticated {en,de}cryption system. It is bassed
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on the idea of a "rotor" machine. A bunch of rotors, each with a
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different permutation of the alphabet, rotate around a different
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amount after encrypting one character. The current state of the
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rotors is used to encrypt one character.
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The code is smart enought to tell if your alphabet has a number of
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characters equal to a power of two. If it does, it uses logical
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operations, if not it uses div and mod (both require a division).
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You will need to make two changes to the code 1) convert to c, and
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customize for an alphabet of 255 chars 2) add a filter at the
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begining, and end, which subtracts one on the way in, and adds one on
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the way out.
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You might wish to do some timing studies. Another viable
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alternative is to "byte stuff" the encrypted data of a normal (perhaps
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this one) encryption routine.
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j'
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*/
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/*(defun RTR-make-id-rotor (rotor)
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"Set ROTOR to the identity permutation"
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(let ((j 0))
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(while (< j RTR-size)
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(aset rotor j j)
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(setq j (+ 1 j)))
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rotor))*/
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static void RTR_make_id_rotor(r, rtr)
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rotorobject *r;
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unsigned char *rtr;
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{
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register int j;
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register int size = r->size;
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for (j=0;j<size;j++) {
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rtr[j] = (unsigned char)j;
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}
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}
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/*(defvar RTR-e-rotors
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(let ((rv (make-vector RTR-number-of-rotors 0))
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(i 0)
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tr)
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(while (< i RTR-number-of-rotors)
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(setq tr (make-vector RTR-size 0))
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(RTR-make-id-rotor tr)
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(aset rv i tr)
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(setq i (+ 1 i)))
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rv)
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"The current set of encryption rotors")*/
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static void RTR_e_rotors(r)
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rotorobject *r;
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{
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int i;
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for (i=0;i<r->rotors;i++) {
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RTR_make_id_rotor(r,&(r->e_rotor[(i*r->size)]));
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}
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}
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/*(defvar RTR-d-rotors
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(let ((rv (make-vector RTR-number-of-rotors 0))
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(i 0)
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tr)
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(while (< i RTR-number-of-rotors)
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(setq tr (make-vector RTR-size 0))
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(setq j 0)
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(while (< j RTR-size)
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(aset tr j j)
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(setq j (+ 1 j)))
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(aset rv i tr)
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(setq i (+ 1 i)))
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rv)
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"The current set of decryption rotors")*/
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static void RTR_d_rotors(r)
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rotorobject *r;
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{
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register int i, j;
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for (i=0;i<r->rotors;i++) {
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for (j=0;j<r->size;j++) {
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r->d_rotor[((i*r->size)+j)] = (unsigned char)j;
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}
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}
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}
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/*(defvar RTR-positions (make-vector RTR-number-of-rotors 1)
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"The positions of the rotors at this time")*/
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static void RTR_positions(r)
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rotorobject *r;
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{
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int i;
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for (i=0;i<r->rotors;i++) {
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r->positions[i] = 1;
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}
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}
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/*(defvar RTR-advances (make-vector RTR-number-of-rotors 1)
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"The number of positions to advance the rotors at a time")*/
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static void RTR_advances(r)
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rotorobject *r;
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{
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int i;
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for (i=0;i<r->rotors;i++) {
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r->advances[i] = 1;
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}
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}
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/*(defun RTR-permute-rotor (e d)
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"Permute the E rotor, and make the D rotor its inverse"
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;; see Knuth for explaination of algorythm.
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(RTR-make-id-rotor e)
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(let ((i RTR-size)
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q j)
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(while (<= 2 i)
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(setq q (fair16 i)) ; a little tricky, decrement here
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(setq i (- i 1)) ; since we have origin 0 array's
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(setq j (aref e q))
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(aset e q (aref e i))
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(aset e i j)
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(aset d j i))
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(aset e 0 (aref e 0)) ; don't forget e[0] and d[0]
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(aset d (aref e 0) 0)))*/
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static void RTR_permute_rotor(r, e, d)
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rotorobject *r;
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unsigned char *e;
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unsigned char *d;
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{
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short i = r->size;
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short q;
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unsigned char j;
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RTR_make_id_rotor(r,e);
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while (2 <= i) {
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q = r_rand(r,i);
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i--;
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j = e[q];
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e[q] = (unsigned char)e[i];
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e[i] = (unsigned char)j;
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d[j] = (unsigned char)i;
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}
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e[0] = (unsigned char)e[0];
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d[(e[0])] = (unsigned char)0;
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}
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/*(defun RTR-init (key)
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"Given KEY (a list of 5 16 bit numbers), initialize the rotor machine.
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Set the advancement, position, and permutation of the rotors"
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(R16-set-state key)
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(let (i)
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(setq i 0)
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(while (< i RTR-number-of-rotors)
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(aset RTR-positions i (fair16 RTR-size))
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(aset RTR-advances i (+ 1 (* 2 (fair16 (/ RTR-size 2)))))
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(message "Initializing rotor %d..." i)
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(RTR-permute-rotor (aref RTR-e-rotors i) (aref RTR-d-rotors i))
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(setq i (+ 1 i)))))*/
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static void RTR_init(r)
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rotorobject *r;
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{
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int i;
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set_seed(r);
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RTR_positions(r);
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RTR_advances(r);
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RTR_e_rotors(r);
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RTR_d_rotors(r);
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for(i=0;i<r->rotors;i++) {
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r->positions[i] = r_rand(r,r->size);
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r->advances[i] = (1+(2*(r_rand(r,r->size/2))));
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RTR_permute_rotor(r,&(r->e_rotor[(i*r->size)]),&(r->d_rotor[(i*r->size)]));
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}
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r->isinited = TRUE;
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}
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/*(defun RTR-advance ()
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"Change the RTR-positions vector, using the RTR-advances vector"
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(let ((i 0)
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(temp 0))
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(if RTR-size-mask
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(while (< i RTR-number-of-rotors)
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(setq temp (+ (aref RTR-positions i) (aref RTR-advances i)))
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(aset RTR-positions i (logand temp RTR-size-mask))
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(if (and (>= temp RTR-size)
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(< i (- RTR-number-of-rotors 1)))
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(aset RTR-positions (+ i 1)
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(+ 1 (aref RTR-positions (+ i 1)))))
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(setq i (+ i 1)))
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(while (< i RTR-number-of-rotors)
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(setq temp (+ (aref RTR-positions i) (aref RTR-advances i)))
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(aset RTR-positions i (% temp RTR-size))
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(if (and (>= temp RTR-size)
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(< i (- RTR-number-of-rotors 1)))
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(aset RTR-positions (+ i 1)
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(+ 1 (aref RTR-positions (+ i 1)))))
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(setq i (+ i 1))))))*/
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static void RTR_advance(r)
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rotorobject *r;
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{
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register int i=0, temp=0;
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if (r->size_mask) {
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while (i<r->rotors) {
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temp = r->positions[i] + r->advances[i];
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r->positions[i] = temp & r->size_mask;
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if ((temp >= r->size) && (i < (r->rotors - 1))) {
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r->positions[(i+1)] = 1 + r->positions[(i+1)];
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}
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i++;
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}
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} else {
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while (i<r->rotors) {
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temp = r->positions[i] + r->advances[i];
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r->positions[i] = temp%r->size;
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if ((temp >= r->size) && (i < (r->rotors - 1))) {
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r->positions[(i+1)] = 1 + r->positions[(i+1)];
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}
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i++;
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}
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}
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}
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/*(defun RTR-e-char (p)
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"Encrypt the character P with the current rotor machine"
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(let ((i 0))
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(if RTR-size-mask
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(while (< i RTR-number-of-rotors)
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(setq p (aref (aref RTR-e-rotors i)
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(logand (logxor (aref RTR-positions i)
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p)
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RTR-size-mask)))
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(setq i (+ 1 i)))
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(while (< i RTR-number-of-rotors)
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(setq p (aref (aref RTR-e-rotors i)
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(% (logxor (aref RTR-positions i)
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p)
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RTR-size)))
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(setq i (+ 1 i))))
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(RTR-advance)
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p))*/
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static unsigned char RTR_e_char(r, p)
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rotorobject *r;
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unsigned char p;
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{
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register int i=0;
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register unsigned char tp=p;
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if (r->size_mask) {
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while (i < r->rotors) {
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tp = r->e_rotor[(i*r->size)+(((r->positions[i] ^ tp) & r->size_mask))];
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i++;
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}
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} else {
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while (i < r->rotors) {
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tp = r->e_rotor[(i*r->size)+(((r->positions[i] ^ tp) % r->size))];
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i++;
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}
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}
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RTR_advance(r);
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return ((unsigned char)tp);
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}
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/*(defun RTR-d-char (c)
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"Decrypt the character C with the current rotor machine"
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(let ((i (- RTR-number-of-rotors 1)))
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(if RTR-size-mask
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(while (<= 0 i)
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(setq c (logand (logxor (aref RTR-positions i)
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(aref (aref RTR-d-rotors i)
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c))
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RTR-size-mask))
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(setq i (- i 1)))
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(while (<= 0 i)
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(setq c (% (logxor (aref RTR-positions i)
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(aref (aref RTR-d-rotors i)
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c))
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RTR-size))
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(setq i (- i 1))))
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(RTR-advance)
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c))*/
|
|
static unsigned char RTR_d_char(r, c)
|
|
rotorobject *r;
|
|
unsigned char c;
|
|
{
|
|
register int i=r->rotors - 1;
|
|
register unsigned char tc=c;
|
|
if (r->size_mask) {
|
|
while (0 <= i) {
|
|
tc = (r->positions[i] ^ r->d_rotor[(i*r->size)+tc]) & r->size_mask;
|
|
i--;
|
|
}
|
|
} else {
|
|
while (0 <= i) {
|
|
tc = (r->positions[i] ^ r->d_rotor[(i*r->size)+tc]) % r->size;
|
|
i--;
|
|
}
|
|
}
|
|
RTR_advance(r);
|
|
return(tc);
|
|
}
|
|
|
|
/*(defun RTR-e-region (beg end key)
|
|
"Perform a rotor encryption of the region from BEG to END by KEY"
|
|
(save-excursion
|
|
(let ((tenth (/ (- end beg) 10)))
|
|
(RTR-init key)
|
|
(goto-char beg)
|
|
;; ### make it stop evry 10% or so to tell us
|
|
(while (< (point) end)
|
|
(let ((fc (following-char)))
|
|
(insert-char (RTR-e-char fc) 1)
|
|
(delete-char 1))))))*/
|
|
static void RTR_e_region(r, beg, len, doinit)
|
|
rotorobject *r;
|
|
unsigned char *beg;
|
|
int len;
|
|
int doinit;
|
|
{
|
|
register int i;
|
|
if (doinit || r->isinited == FALSE)
|
|
RTR_init(r);
|
|
for (i=0;i<len;i++) {
|
|
beg[i]=RTR_e_char(r,beg[i]);
|
|
}
|
|
}
|
|
|
|
/*(defun RTR-d-region (beg end key)
|
|
"Perform a rotor decryption of the region from BEG to END by KEY"
|
|
(save-excursion
|
|
(progn
|
|
(RTR-init key)
|
|
(goto-char beg)
|
|
(while (< (point) end)
|
|
(let ((fc (following-char)))
|
|
(insert-char (RTR-d-char fc) 1)
|
|
(delete-char 1))))))*/
|
|
void static RTR_d_region(r, beg, len, doinit)
|
|
rotorobject *r;
|
|
unsigned char *beg;
|
|
int len;
|
|
int doinit;
|
|
{
|
|
register int i;
|
|
if (doinit || r->isinited == FALSE)
|
|
RTR_init(r);
|
|
for (i=0;i<len;i++) {
|
|
beg[i]=RTR_d_char(r,beg[i]);
|
|
}
|
|
}
|
|
|
|
|
|
/*(defun RTR-key-string-to-ints (key)
|
|
"Convert a string into a list of 4 numbers"
|
|
(let ((k1 995)
|
|
(k2 576)
|
|
(k3 767)
|
|
(k4 671)
|
|
(k5 463)
|
|
(i 0))
|
|
(while (< i (length key))
|
|
(setq k1 (logand (+ (logior (lsh k1 3) (lsh k1 -13)) (aref key i)) 65535))
|
|
(setq k2 (logand (logxor (logior (lsh k2 3) (lsh k2 -13)) (aref key i)) 65535))
|
|
(setq k3 (logand (- (logior (lsh k3 3) (lsh k3 -13)) (aref key i)) 65535))
|
|
(setq k4 (logand (- (aref key i) (logior (lsh k4 3) (lsh k4 -13))) 65535))
|
|
(setq k5 (logand (logxor (logior (lsh k5 3) (lsh k5 -13)) (lognot (aref key i))) 65535))
|
|
(setq i (+ i 1)))
|
|
(list k1 (logior 1 k2) k3 k4 k5)))*/
|
|
/* This is done in set_key() above */
|
|
|
|
/*(defun encrypt-region (beg end key)
|
|
"Interactivly encrypt the region"
|
|
(interactive "r\nsKey:")
|
|
(RTR-e-region beg end (RTR-key-string-to-ints key)))*/
|
|
static void encrypt_region(r, region, len)
|
|
rotorobject *r;
|
|
unsigned char *region;
|
|
int len;
|
|
{
|
|
RTR_e_region(r,region,len,TRUE);
|
|
}
|
|
|
|
/*(defun decrypt-region (beg end key)
|
|
"Interactivly decrypt the region"
|
|
(interactive "r\nsKey:")
|
|
(RTR-d-region beg end (RTR-key-string-to-ints key)))*/
|
|
static void decrypt_region(r, region, len)
|
|
rotorobject *r;
|
|
unsigned char *region;
|
|
int len;
|
|
{
|
|
RTR_d_region(r,region,len,TRUE);
|
|
}
|
|
|
|
/* Rotor methods */
|
|
|
|
static void
|
|
rotor_dealloc(xp)
|
|
rotorobject *xp;
|
|
{
|
|
XDEL(xp->e_rotor);
|
|
XDEL(xp->d_rotor);
|
|
XDEL(xp->positions);
|
|
XDEL(xp->advances);
|
|
DEL(xp);
|
|
}
|
|
|
|
static object *
|
|
rotor_encrypt(self, args)
|
|
rotorobject *self;
|
|
object *args;
|
|
{
|
|
char *string = (char *)NULL;
|
|
int len = 0;
|
|
object *rtn = (object *)NULL;
|
|
char *tmp;
|
|
|
|
if (!getargs(args,"s#",&string, &len))
|
|
return NULL;
|
|
if (!(tmp = (char *)malloc(len+5))) {
|
|
err_nomem();
|
|
return NULL;
|
|
}
|
|
memset(tmp,'\0',len+1);
|
|
memcpy(tmp,string,len);
|
|
RTR_e_region(self,tmp,len, TRUE);
|
|
rtn = newsizedstringobject(tmp,len);
|
|
free(tmp);
|
|
return(rtn);
|
|
}
|
|
|
|
static object *
|
|
rotor_encryptmore(self, args)
|
|
rotorobject *self;
|
|
object *args;
|
|
{
|
|
char *string = (char *)NULL;
|
|
int len = 0;
|
|
object *rtn = (object *)NULL;
|
|
char *tmp;
|
|
|
|
if (!getargs(args,"s#",&string, &len))
|
|
return NULL;
|
|
if (!(tmp = (char *)malloc(len+5))) {
|
|
err_nomem();
|
|
return NULL;
|
|
}
|
|
memset(tmp,'\0',len+1);
|
|
memcpy(tmp,string,len);
|
|
RTR_e_region(self,tmp,len, FALSE);
|
|
rtn = newsizedstringobject(tmp,len);
|
|
free(tmp);
|
|
return(rtn);
|
|
}
|
|
|
|
static object *
|
|
rotor_decrypt(self, args)
|
|
rotorobject *self;
|
|
object *args;
|
|
{
|
|
char *string = (char *)NULL;
|
|
int len = 0;
|
|
object *rtn = (object *)NULL;
|
|
char *tmp;
|
|
|
|
if (!getargs(args,"s#",&string, &len))
|
|
return NULL;
|
|
if (!(tmp = (char *)malloc(len+5))) {
|
|
err_nomem();
|
|
return NULL;
|
|
}
|
|
memset(tmp,'\0',len+1);
|
|
memcpy(tmp,string,len);
|
|
RTR_d_region(self,tmp,len, TRUE);
|
|
rtn = newsizedstringobject(tmp,len);
|
|
free(tmp);
|
|
return(rtn);
|
|
}
|
|
|
|
static object *
|
|
rotor_decryptmore(self, args)
|
|
rotorobject *self;
|
|
object *args;
|
|
{
|
|
char *string = (char *)NULL;
|
|
int len = 0;
|
|
object *rtn = (object *)NULL;
|
|
char *tmp;
|
|
|
|
if (!getargs(args,"s#",&string, &len))
|
|
return NULL;
|
|
if (!(tmp = (char *)malloc(len+5))) {
|
|
err_nomem();
|
|
return NULL;
|
|
}
|
|
memset(tmp,'\0',len+1);
|
|
memcpy(tmp,string,len);
|
|
RTR_d_region(self,tmp,len, FALSE);
|
|
rtn = newsizedstringobject(tmp,len);
|
|
free(tmp);
|
|
return(rtn);
|
|
}
|
|
|
|
static object *
|
|
rotor_setkey(self, args)
|
|
rotorobject *self;
|
|
object *args;
|
|
{
|
|
char *key;
|
|
char *string;
|
|
|
|
if (getargs(args,"s",&string))
|
|
set_key(self,string);
|
|
INCREF(None);
|
|
return None;
|
|
}
|
|
|
|
static struct methodlist rotor_methods[] = {
|
|
{"encrypt", rotor_encrypt},
|
|
{"encryptmore", rotor_encryptmore},
|
|
{"decrypt", rotor_decrypt},
|
|
{"decryptmore", rotor_decryptmore},
|
|
{"setkey", rotor_setkey},
|
|
{NULL, NULL} /* sentinel */
|
|
};
|
|
|
|
|
|
/* Return a rotor object's named attribute. */
|
|
static object *
|
|
rotor_getattr(s, name)
|
|
rotorobject *s;
|
|
char *name;
|
|
{
|
|
return findmethod(rotor_methods, (object *) s, name);
|
|
}
|
|
|
|
static typeobject Rotortype = {
|
|
OB_HEAD_INIT(&Typetype)
|
|
0, /*ob_size*/
|
|
"rotor", /*tp_name*/
|
|
sizeof(rotorobject), /*tp_size*/
|
|
0, /*tp_itemsize*/
|
|
/* methods */
|
|
rotor_dealloc, /*tp_dealloc*/
|
|
0, /*tp_print*/
|
|
rotor_getattr, /*tp_getattr*/
|
|
0, /*tp_setattr*/
|
|
0, /*tp_compare*/
|
|
0, /*tp_repr*/
|
|
};
|
|
|
|
|
|
static object *
|
|
rotor_rotor(self, args)
|
|
object *self;
|
|
object *args;
|
|
{
|
|
char *string;
|
|
rotorobject *r;
|
|
int len;
|
|
int num_rotors;
|
|
|
|
if (getargs(args,"s#", &string, &len)) {
|
|
num_rotors = 6;
|
|
} else {
|
|
err_clear();
|
|
if (!getargs(args,"(s#i)", &string, &len, &num_rotors))
|
|
return NULL;
|
|
}
|
|
r = newrotorobject(num_rotors, string);
|
|
return (object *)r;
|
|
}
|
|
|
|
static struct methodlist rotor_rotor_methods[] = {
|
|
{"newrotor", rotor_rotor},
|
|
{NULL, NULL} /* Sentinel */
|
|
};
|
|
|
|
|
|
/* Initialize this module.
|
|
This is called when the first 'import rotor' is done,
|
|
via a table in config.c, if config.c is compiled with USE_ROTOR
|
|
defined. */
|
|
|
|
void
|
|
initrotor()
|
|
{
|
|
object *m;
|
|
|
|
m = initmodule("rotor", rotor_rotor_methods);
|
|
}
|