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aes.h

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    serpent-set-key.c 10.02 KiB
    /* serpent-set-key.c
    
       The serpent block cipher.
    
       For more details on this algorithm, see the Serpent website at
       http://www.cl.cam.ac.uk/~rja14/serpent.html
    
       Copyright (C) 2011, 2014  Niels Möller
       Copyright (C) 2010, 2011  Simon Josefsson
       Copyright (C) 2003, 2004, 2005 Free Software Foundation, Inc.
    
       This file is part of GNU Nettle.
    
       GNU Nettle is free software: you can redistribute it and/or
       modify it under the terms of either:
    
         * the GNU Lesser General Public License as published by the Free
           Software Foundation; either version 3 of the License, or (at your
           option) any later version.
    
       or
    
         * the GNU General Public License as published by the Free
           Software Foundation; either version 2 of the License, or (at your
           option) any later version.
    
       or both in parallel, as here.
    
       GNU Nettle is distributed in the hope that it will be useful,
       but WITHOUT ANY WARRANTY; without even the implied warranty of
       MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
       General Public License for more details.
    
       You should have received copies of the GNU General Public License and
       the GNU Lesser General Public License along with this program.  If
       not, see http://www.gnu.org/licenses/.
    */
    
    /* This file is derived from cipher/serpent.c in Libgcrypt v1.4.6.
       The adaption to Nettle was made by Simon Josefsson on 2010-12-07
       with final touches on 2011-05-30.  Changes include replacing
       libgcrypt with nettle in the license template, renaming
       serpent_context to serpent_ctx, renaming u32 to uint32_t, removing
       libgcrypt stubs and selftests, modifying entry function prototypes,
       using FOR_BLOCKS to iterate through data in encrypt/decrypt, using
       LE_READ_UINT32 and LE_WRITE_UINT32 to access data in
       encrypt/decrypt, and running indent on the code. */
    
    #if HAVE_CONFIG_H
    #include "config.h"
    #endif
    
    #include <assert.h>
    #include <limits.h>
    
    #include "serpent.h"
    
    #include "macros.h"
    #include "serpent-internal.h"
    
    /* Magic number, used during generating of the subkeys.  */
    #define PHI 0x9E3779B9
    
    /* These are the S-Boxes of Serpent.  They are copied from Serpents
       reference implementation (the optimized one, contained in
       `floppy2') and are therefore:
    
         Copyright (C) 1998 Ross Anderson, Eli Biham, Lars Knudsen.
    
      To quote the Serpent homepage
      (http://www.cl.cam.ac.uk/~rja14/serpent.html):
    
      "Serpent is now completely in the public domain, and we impose no
       restrictions on its use.  This was announced on the 21st August at
       the First AES Candidate Conference. The optimised implementations
       in the submission package are now under the GNU PUBLIC LICENSE
       (GPL), although some comments in the code still say otherwise. You
       are welcome to use Serpent for any application."  */
    
    /* FIXME: Except when used within the key schedule, the inputs are not
       used after the substitution, and hence we could allow them to be
       destroyed. Can this freedom be used to optimize the sboxes? */
    #define SBOX0(type, a, b, c, d, w, x, y, z)	\
      do { \
        type t02, t03, t05, t06, t07, t08, t09; \
        type t11, t12, t13, t14, t15, t17, t01; \
        t01 = b   ^ c  ; \
        t02 = a   | d  ; \
        t03 = a   ^ b  ; \
        z   = t02 ^ t01; \
        t05 = c   | z  ; \
        t06 = a   ^ d  ; \
        t07 = b   | c  ; \
        t08 = d   & t05; \
        t09 = t03 & t07; \
        y   = t09 ^ t08; \
        t11 = t09 & y  ; \
        t12 = c   ^ d  ; \
        t13 = t07 ^ t11; \
        t14 = b   & t06; \
        t15 = t06 ^ t13; \
        w   =     ~ t15; \
        t17 = w   ^ t14; \
        x   = t12 ^ t17; \
      } while (0)
    
    #define SBOX1(type, a, b, c, d, w, x, y, z)	\
      do { \
        type t02, t03, t04, t05, t06, t07, t08; \
        type t10, t11, t12, t13, t16, t17, t01; \
        t01 = a   | d  ; \
        t02 = c   ^ d  ; \
        t03 =     ~ b  ; \
        t04 = a   ^ c  ; \
        t05 = a   | t03; \
        t06 = d   & t04; \
        t07 = t01 & t02; \
        t08 = b   | t06; \
        y   = t02 ^ t05; \
        t10 = t07 ^ t08; \
        t11 = t01 ^ t10; \
        t12 = y   ^ t11; \
        t13 = b   & d  ; \
        z   =     ~ t10; \
        x   = t13 ^ t12; \
        t16 = t10 | x  ; \
        t17 = t05 & t16; \
        w   = c   ^ t17; \
      } while (0)
    
    #define SBOX2(type, a, b, c, d, w, x, y, z) \
      do {					   \
        type t02, t03, t05, t06, t07, t08; \
        type t09, t10, t12, t13, t14, t01; \
        t01 = a   | c  ; \
        t02 = a   ^ b  ; \
        t03 = d   ^ t01; \
        w   = t02 ^ t03; \
        t05 = c   ^ w  ; \
        t06 = b   ^ t05; \
        t07 = b   | t05; \
        t08 = t01 & t06; \
        t09 = t03 ^ t07; \
        t10 = t02 | t09; \
        x   = t10 ^ t08; \
        t12 = a   | d  ; \
        t13 = t09 ^ x  ; \
        t14 = b   ^ t13; \
        z   =     ~ t09; \
        y   = t12 ^ t14; \
      } while (0)
    
    #define SBOX3(type, a, b, c, d, w, x, y, z) \
      do {						\
        type t02, t03, t04, t05, t06, t07, t08; \
        type t09, t10, t11, t13, t14, t15, t01; \
        t01 = a   ^ c  ; \
        t02 = a   | d  ; \
        t03 = a   & d  ; \
        t04 = t01 & t02; \
        t05 = b   | t03; \
        t06 = a   & b  ; \
        t07 = d   ^ t04; \
        t08 = c   | t06; \
        t09 = b   ^ t07; \
        t10 = d   & t05; \
        t11 = t02 ^ t10; \
        z   = t08 ^ t09; \
        t13 = d   | z  ; \
        t14 = a   | t07; \
        t15 = b   & t13; \
        y   = t08 ^ t11; \
        w   = t14 ^ t15; \
        x   = t05 ^ t04; \
      } while (0)
    
    #define SBOX4(type, a, b, c, d, w, x, y, z) \
      do { \
        type t02, t03, t04, t05, t06, t08, t09; \
        type t10, t11, t12, t13, t14, t15, t16, t01; \
        t01 = a   | b  ; \
        t02 = b   | c  ; \
        t03 = a   ^ t02; \
        t04 = b   ^ d  ; \
        t05 = d   | t03; \
        t06 = d   & t01; \
        z   = t03 ^ t06; \
        t08 = z   & t04; \
        t09 = t04 & t05; \
        t10 = c   ^ t06; \
        t11 = b   & c  ; \
        t12 = t04 ^ t08; \
        t13 = t11 | t03; \
        t14 = t10 ^ t09; \
        t15 = a   & t05; \
        t16 = t11 | t12; \
        y   = t13 ^ t08; \
        x   = t15 ^ t16; \
        w   =     ~ t14; \
      } while (0)
    
    #define SBOX5(type, a, b, c, d, w, x, y, z) \
      do { \
        type t02, t03, t04, t05, t07, t08, t09; \
        type t10, t11, t12, t13, t14, t01; \
        t01 = b   ^ d  ; \
        t02 = b   | d  ; \
        t03 = a   & t01; \
        t04 = c   ^ t02; \
        t05 = t03 ^ t04; \
        w   =     ~ t05; \
        t07 = a   ^ t01; \
        t08 = d   | w  ; \
        t09 = b   | t05; \
        t10 = d   ^ t08; \
        t11 = b   | t07; \
        t12 = t03 | w  ; \
        t13 = t07 | t10; \
        t14 = t01 ^ t11; \
        y   = t09 ^ t13; \
        x   = t07 ^ t08; \
        z   = t12 ^ t14; \
      } while (0)
    
    #define SBOX6(type, a, b, c, d, w, x, y, z) \
      do { \
        type t02, t03, t04, t05, t07, t08, t09, t10;	\
        type t11, t12, t13, t15, t17, t18, t01; \
        t01 = a   & d  ; \
        t02 = b   ^ c  ; \
        t03 = a   ^ d  ; \
        t04 = t01 ^ t02; \
        t05 = b   | c  ; \
        x   =     ~ t04; \
        t07 = t03 & t05; \
        t08 = b   & x  ; \
        t09 = a   | c  ; \
        t10 = t07 ^ t08; \
        t11 = b   | d  ; \
        t12 = c   ^ t11; \
        t13 = t09 ^ t10; \
        y   =     ~ t13; \
        t15 = x   & t03; \
        z   = t12 ^ t07; \
        t17 = a   ^ b  ; \
        t18 = y   ^ t15; \
        w   = t17 ^ t18; \
      } while (0)
    
    #define SBOX7(type, a, b, c, d, w, x, y, z) \
      do { \
        type t02, t03, t04, t05, t06, t08, t09, t10;	\
        type t11, t13, t14, t15, t16, t17, t01; \
        t01 = a   & c  ; \
        t02 =     ~ d  ; \
        t03 = a   & t02; \
        t04 = b   | t01; \
        t05 = a   & b  ; \
        t06 = c   ^ t04; \
        z   = t03 ^ t06; \
        t08 = c   | z  ; \
        t09 = d   | t05; \
        t10 = a   ^ t08; \
        t11 = t04 & z  ; \
        x   = t09 ^ t10; \
        t13 = b   ^ x  ; \
        t14 = t01 ^ x  ; \
        t15 = c   ^ t05; \
        t16 = t11 | t13; \
        t17 = t02 | t14; \
        w   = t15 ^ t17; \
        y   = a   ^ t16; \
      } while (0)
    
    /* Key schedule */
    /* Note: Increments k */
    #define KS_RECURRENCE(w, i, k)						\
      do {									\
        uint32_t _wn = (w)[(i)] ^ (w)[((i)+3)&7] ^ w[((i)+5)&7]		\
          ^ w[((i)+7)&7] ^ PHI ^ (k)++;					\
        ((w)[(i)] = ROTL32(11, _wn));					\
      } while (0)
    
    /* Note: Increments k four times and keys once */
    #define KS(keys, s, w, i, k)					\
      do {								\
        KS_RECURRENCE(w, (i), (k));					\
        KS_RECURRENCE(w, (i)+1, (k));				\
        KS_RECURRENCE(w, (i)+2, (k));				\
        KS_RECURRENCE(w, (i)+3, (k));				\
        SBOX##s(uint32_t, w[(i)],w[(i)+1],w[(i)+2],w[(i)+3],		\
    	    (*keys)[0],(*keys)[1],(*keys)[2],(*keys)[3]);	\
        (keys)++;							\
      } while (0)
    
    /* Pad user key and convert to an array of 8 uint32_t. */
    static void
    serpent_key_pad (const uint8_t *key, unsigned int key_length,
    		 uint32_t *w)
    {
      unsigned int i;
    
      assert (key_length <= SERPENT_MAX_KEY_SIZE);
      
      for (i = 0; key_length >= 4; key_length -=4, key += 4)
        w[i++] = LE_READ_UINT32(key);
    
      if (i < 8)
        {
          /* Key must be padded according to the Serpent specification.
             "aabbcc" -> "aabbcc0100...00" -> 0x01ccbbaa. */
          uint32_t pad = 0x01;
          
          while (key_length > 0)
    	pad = pad << 8 | key[--key_length];
    
          w[i++] = pad;
    
          while (i < 8)
    	w[i++] = 0;
        }
    }
    
    /* Initialize CONTEXT with the key KEY of LENGTH bytes.  */
    void
    serpent_set_key (struct serpent_ctx *ctx,
    		 size_t length, const uint8_t * key)
    {
      uint32_t w[8];
      uint32_t (*keys)[4];
      unsigned k;
      
      serpent_key_pad (key, length, w);
    
      /* Derive the 33 subkeys from KEY and store them in SUBKEYS. We do
         the recurrence in the key schedule using W as a circular buffer
         of just 8 uint32_t. */
    
      /* FIXME: Would be better to invoke SBOX with scalar variables as
         arguments, no arrays. To do that, unpack w into separate
         variables, use temporary variables as the SBOX destination. */
    
      keys = ctx->keys;
      k = 0;
      for (;;)
        {
          KS(keys, 3, w, 0, k);
          if (k == 132)
    	break;
          KS(keys, 2, w, 4, k);
          KS(keys, 1, w, 0, k);
          KS(keys, 0, w, 4, k);
          KS(keys, 7, w, 0, k);
          KS(keys, 6, w, 4, k);
          KS(keys, 5, w, 0, k);
          KS(keys, 4, w, 4, k);
        }
      assert (keys == ctx->keys + 33);
    }
    
    void
    serpent128_set_key (struct serpent_ctx *ctx, const uint8_t *key)
    {
      serpent_set_key (ctx, SERPENT128_KEY_SIZE, key);
    }
    
    void
    serpent192_set_key (struct serpent_ctx *ctx, const uint8_t *key)
    {
      serpent_set_key (ctx, SERPENT192_KEY_SIZE, key);
    }
    
    void
    serpent256_set_key (struct serpent_ctx *ctx, const uint8_t *key)
    {
      serpent_set_key (ctx, SERPENT256_KEY_SIZE, key);
    }