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/* 
 * Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved. 
 * 
 * Licensed under the OpenSSL license (the "License").  You may not use 
 * this file except in compliance with the License.  You can obtain a copy 
 * in the file LICENSE in the source distribution or at 
 * https://www.openssl.org/source/license.html 
 */ 
 
#ifndef OSSL_CRYPTO_DES_LOCAL_H 
# define OSSL_CRYPTO_DES_LOCAL_H 
 
# include <openssl/e_os2.h> 
 
# include <stdio.h> 
# include <stdlib.h> 
# include <string.h> 
 
# include <openssl/des.h> 
 
# ifdef OPENSSL_BUILD_SHLIBCRYPTO 
#  undef OPENSSL_EXTERN 
#  define OPENSSL_EXTERN OPENSSL_EXPORT 
# endif 
 
# define ITERATIONS 16 
# define HALF_ITERATIONS 8 
 
# define c2l(c,l)        (l =((DES_LONG)(*((c)++)))    , \ 
                         l|=((DES_LONG)(*((c)++)))<< 8L, \ 
                         l|=((DES_LONG)(*((c)++)))<<16L, \ 
                         l|=((DES_LONG)(*((c)++)))<<24L) 
 
/* NOTE - c is not incremented as per c2l */ 
# define c2ln(c,l1,l2,n) { \ 
                        c+=n; \ 
                        l1=l2=0; \ 
                        switch (n) { \ 
                        case 8: l2 =((DES_LONG)(*(--(c))))<<24L; \ 
                        /* fall thru */                          \ 
                        case 7: l2|=((DES_LONG)(*(--(c))))<<16L; \ 
                        /* fall thru */                          \ 
                        case 6: l2|=((DES_LONG)(*(--(c))))<< 8L; \ 
                        /* fall thru */                          \ 
                        case 5: l2|=((DES_LONG)(*(--(c))));      \ 
                        /* fall thru */                          \ 
                        case 4: l1 =((DES_LONG)(*(--(c))))<<24L; \ 
                        /* fall thru */                          \ 
                        case 3: l1|=((DES_LONG)(*(--(c))))<<16L; \ 
                        /* fall thru */                          \ 
                        case 2: l1|=((DES_LONG)(*(--(c))))<< 8L; \ 
                        /* fall thru */                          \ 
                        case 1: l1|=((DES_LONG)(*(--(c))));      \ 
                                } \ 
                        } 
 
# define l2c(l,c)        (*((c)++)=(unsigned char)(((l)     )&0xff), \ 
                         *((c)++)=(unsigned char)(((l)>> 8L)&0xff), \ 
                         *((c)++)=(unsigned char)(((l)>>16L)&0xff), \ 
                         *((c)++)=(unsigned char)(((l)>>24L)&0xff)) 
 
/* 
 * replacements for htonl and ntohl since I have no idea what to do when 
 * faced with machines with 8 byte longs. 
 */ 
 
# define n2l(c,l)        (l =((DES_LONG)(*((c)++)))<<24L, \ 
                         l|=((DES_LONG)(*((c)++)))<<16L, \ 
                         l|=((DES_LONG)(*((c)++)))<< 8L, \ 
                         l|=((DES_LONG)(*((c)++)))) 
 
# define l2n(l,c)        (*((c)++)=(unsigned char)(((l)>>24L)&0xff), \ 
                         *((c)++)=(unsigned char)(((l)>>16L)&0xff), \ 
                         *((c)++)=(unsigned char)(((l)>> 8L)&0xff), \ 
                         *((c)++)=(unsigned char)(((l)     )&0xff)) 
 
/* NOTE - c is not incremented as per l2c */ 
# define l2cn(l1,l2,c,n) { \ 
                        c+=n; \ 
                        switch (n) { \ 
                        case 8: *(--(c))=(unsigned char)(((l2)>>24L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 7: *(--(c))=(unsigned char)(((l2)>>16L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 6: *(--(c))=(unsigned char)(((l2)>> 8L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 5: *(--(c))=(unsigned char)(((l2)     )&0xff); \ 
                        /* fall thru */                                     \ 
                        case 4: *(--(c))=(unsigned char)(((l1)>>24L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 3: *(--(c))=(unsigned char)(((l1)>>16L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 2: *(--(c))=(unsigned char)(((l1)>> 8L)&0xff); \ 
                        /* fall thru */                                     \ 
                        case 1: *(--(c))=(unsigned char)(((l1)     )&0xff); \ 
                                } \ 
                        } 
 
# if defined(_MSC_VER) 
#  define ROTATE(a,n)     (_lrotr(a,n)) 
# elif defined(__ICC) 
#  define ROTATE(a,n)     (_rotr(a,n)) 
# elif defined(__GNUC__) && __GNUC__>=2 && !defined(__STRICT_ANSI__) && !defined(OPENSSL_NO_ASM) && !defined(OPENSSL_NO_INLINE_ASM) && !defined(PEDANTIC) 
#  if defined(__i386) || defined(__i386__) || defined(__x86_64) || defined(__x86_64__) 
#   define ROTATE(a,n)   ({ register unsigned int ret;   \ 
                                asm ("rorl %1,%0"       \ 
                                        : "=r"(ret)     \ 
                                        : "I"(n),"0"(a) \ 
                                        : "cc");        \ 
                           ret;                         \ 
                        }) 
#  endif 
# endif 
# ifndef ROTATE 
#  define ROTATE(a,n)     (((a)>>(n))+((a)<<(32-(n)))) 
# endif 
 
/* 
 * Don't worry about the LOAD_DATA() stuff, that is used by fcrypt() to add 
 * it's little bit to the front 
 */ 
 
# ifdef DES_FCRYPT 
 
#  define LOAD_DATA_tmp(R,S,u,t,E0,E1) \ 
        { DES_LONG tmp; LOAD_DATA(R,S,u,t,E0,E1,tmp); } 
 
#  define LOAD_DATA(R,S,u,t,E0,E1,tmp) \ 
        t=R^(R>>16L); \ 
        u=t&E0; t&=E1; \ 
        tmp=(u<<16); u^=R^s[S  ]; u^=tmp; \ 
        tmp=(t<<16); t^=R^s[S+1]; t^=tmp 
# else 
#  define LOAD_DATA_tmp(a,b,c,d,e,f) LOAD_DATA(a,b,c,d,e,f,g) 
#  define LOAD_DATA(R,S,u,t,E0,E1,tmp) \ 
        u=R^s[S  ]; \ 
        t=R^s[S+1] 
# endif 
 
/* 
 * It recently occurred to me that 0^0^0^0^0^0^0 == 0, so there is no reason 
 * to not xor all the sub items together.  This potentially saves a register 
 * since things can be xored directly into L 
 */ 
 
# define D_ENCRYPT(LL,R,S) { \ 
        LOAD_DATA_tmp(R,S,u,t,E0,E1); \ 
        t=ROTATE(t,4); \ 
        LL^= \ 
            DES_SPtrans[0][(u>> 2L)&0x3f]^ \ 
            DES_SPtrans[2][(u>>10L)&0x3f]^ \ 
            DES_SPtrans[4][(u>>18L)&0x3f]^ \ 
            DES_SPtrans[6][(u>>26L)&0x3f]^ \ 
            DES_SPtrans[1][(t>> 2L)&0x3f]^ \ 
            DES_SPtrans[3][(t>>10L)&0x3f]^ \ 
            DES_SPtrans[5][(t>>18L)&0x3f]^ \ 
            DES_SPtrans[7][(t>>26L)&0x3f]; } 
 
        /*- 
         * IP and FP 
         * The problem is more of a geometric problem that random bit fiddling. 
         0  1  2  3  4  5  6  7      62 54 46 38 30 22 14  6 
         8  9 10 11 12 13 14 15      60 52 44 36 28 20 12  4 
        16 17 18 19 20 21 22 23      58 50 42 34 26 18 10  2 
        24 25 26 27 28 29 30 31  to  56 48 40 32 24 16  8  0 
 
        32 33 34 35 36 37 38 39      63 55 47 39 31 23 15  7 
        40 41 42 43 44 45 46 47      61 53 45 37 29 21 13  5 
        48 49 50 51 52 53 54 55      59 51 43 35 27 19 11  3 
        56 57 58 59 60 61 62 63      57 49 41 33 25 17  9  1 
 
        The output has been subject to swaps of the form 
        0 1 -> 3 1 but the odd and even bits have been put into 
        2 3    2 0 
        different words.  The main trick is to remember that 
        t=((l>>size)^r)&(mask); 
        r^=t; 
        l^=(t<<size); 
        can be used to swap and move bits between words. 
 
        So l =  0  1  2  3  r = 16 17 18 19 
                4  5  6  7      20 21 22 23 
                8  9 10 11      24 25 26 27 
               12 13 14 15      28 29 30 31 
        becomes (for size == 2 and mask == 0x3333) 
           t =   2^16  3^17 -- --   l =  0  1 16 17  r =  2  3 18 19 
                 6^20  7^21 -- --        4  5 20 21       6  7 22 23 
                10^24 11^25 -- --        8  9 24 25      10 11 24 25 
                14^28 15^29 -- --       12 13 28 29      14 15 28 29 
 
        Thanks for hints from Richard Outerbridge - he told me IP&FP 
        could be done in 15 xor, 10 shifts and 5 ands. 
        When I finally started to think of the problem in 2D 
        I first got ~42 operations without xors.  When I remembered 
        how to use xors :-) I got it to its final state. 
        */ 
# define PERM_OP(a,b,t,n,m) ((t)=((((a)>>(n))^(b))&(m)),\ 
        (b)^=(t),\ 
        (a)^=((t)<<(n))) 
 
# define IP(l,r) \ 
        { \ 
        register DES_LONG tt; \ 
        PERM_OP(r,l,tt, 4,0x0f0f0f0fL); \ 
        PERM_OP(l,r,tt,16,0x0000ffffL); \ 
        PERM_OP(r,l,tt, 2,0x33333333L); \ 
        PERM_OP(l,r,tt, 8,0x00ff00ffL); \ 
        PERM_OP(r,l,tt, 1,0x55555555L); \ 
        } 
 
# define FP(l,r) \ 
        { \ 
        register DES_LONG tt; \ 
        PERM_OP(l,r,tt, 1,0x55555555L); \ 
        PERM_OP(r,l,tt, 8,0x00ff00ffL); \ 
        PERM_OP(l,r,tt, 2,0x33333333L); \ 
        PERM_OP(r,l,tt,16,0x0000ffffL); \ 
        PERM_OP(l,r,tt, 4,0x0f0f0f0fL); \ 
        } 
 
extern const DES_LONG DES_SPtrans[8][64]; 
 
void fcrypt_body(DES_LONG *out, DES_key_schedule *ks, 
                 DES_LONG Eswap0, DES_LONG Eswap1); 
 
#endif