424 lines
6.7 KiB
ArmAsm
424 lines
6.7 KiB
ArmAsm
/* threefish256_enc_asm.S */
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/*
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This file is part of the AVR-Crypto-Lib.
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Copyright (C) 2009 Daniel Otte (daniel.otte@rub.de)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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* \author Daniel Otte
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* \email daniel.otte@rub.de
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* \date 2009-03-16
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* \license GPLv3 or later
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*/
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#include "avr-asm-macros.S"
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/******************************************************************************/
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A0 = 14
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A1 = 15
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A2 = 16
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A3 = 17
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A4 = 18
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A5 = 19
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A6 = 20
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A7 = 21
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/*
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#define THREEFISH_KEY_CONST 0x5555.5555.5555.5555.LL / * 2**64/3 * /
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#define K(s) (((uint64_t*)key)[(s)])
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#define T(s) (((uint64_t*)tweak)[(s)])
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void threefish256_init(void* key, void* tweak, threefish256_ctx_t* ctx){
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memcpy(ctx->k, key, 4*8);
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memcpy(ctx->t, tweak, 2*8);
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uint8_t i;
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ctx->k[4] = THREEFISH_KEY_CONST;
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for(i=0; i<4; ++i){
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ctx->k[4] ^= K(i);
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}
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ctx->t[2] = T(0) ^ T(1);
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}
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*/
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/*
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* param key: r24:r25
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* param tweak: r22:r23
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* param ctx: r20:r21
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*/
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.global threefish256_init
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threefish256_init:
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push_range 14, 17
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movw r30, r20
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movw r26, r24
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ldi r24, 4
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ldi A7, 0x55
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mov A6, A7
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movw A4, A6
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movw A2, A6
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movw A0, A6
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1:
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ld r0, X+
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st Z+, r0
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eor A0, r0
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ld r0, X+
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st Z+, r0
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eor A1, r0
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ld r0, X+
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st Z+, r0
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eor A2, r0
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ld r0, X+
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st Z+, r0
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eor A3, r0
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ld r0, X+
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st Z+, r0
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eor A4, r0
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ld r0, X+
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st Z+, r0
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eor A5, r0
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ld r0, X+
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st Z+, r0
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eor A6, r0
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ld r0, X+
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st Z+, r0
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eor A7, r0
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dec r24
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brne 1b
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st Z+, A0
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st Z+, A1
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st Z+, A2
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st Z+, A3
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st Z+, A4
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st Z+, A5
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st Z+, A6
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st Z+, A7
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/* now the tweak */
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tst r23
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brne 3f
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tst r22
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brne 3f
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ldi r26, 3*8
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2:
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st Z+, r1
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dec r26
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brne 2b
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rjmp 9f
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3:
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movw r26, r22
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ld A0, X+
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ld A1, X+
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ld A2, X+
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ld A3, X+
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ld A4, X+
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ld A5, X+
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ld A6, X+
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ld A7, X+
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st Z+, A0
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st Z+, A1
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st Z+, A2
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st Z+, A3
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st Z+, A4
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st Z+, A5
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st Z+, A6
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st Z+, A7
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ld r0, X+
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eor A0, r0
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st Z+, r0
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ld r0, X+
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eor A1, r0
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st Z+, r0
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ld r0, X+
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eor A2, r0
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st Z+, r0
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ld r0, X+
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eor A3, r0
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st Z+, r0
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ld r0, X+
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eor A4, r0
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st Z+, r0
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ld r0, X+
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eor A5, r0
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st Z+, r0
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ld r0, X+
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eor A6, r0
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st Z+, r0
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ld r0, X+
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eor A7, r0
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st Z+, r0
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st Z+, A0
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st Z+, A1
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st Z+, A2
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st Z+, A3
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st Z+, A4
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st Z+, A5
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st Z+, A6
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st Z+, A7
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9:
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pop_range 14, 17
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ret
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/******************************************************************************/
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/*
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#define X(a) (((uint64_t*)data)[(a)])
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void permute_4(void* data){
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uint64_t t;
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t = X(1);
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X(1) = X(3);
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X(3) = t;
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}
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void add_key_4(void* data, threefish256_ctx_t* ctx, uint8_t s){ / * s: 0..19 * /
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X(0) += ctx->k[(s+0)%5];
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X(1) += ctx->k[(s+1)%5] + ctx->t[s%3];
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X(2) += ctx->k[(s+2)%5] + ctx->t[(s+1)%3];
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X(3) += ctx->k[(s+3)%5] + s;
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}
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void threefish256_enc(void* data, threefish256_ctx_t* ctx){
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uint8_t i=0,s=0;
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uint8_t r0[8] = { 5, 36, 13, 58, 26, 53, 11, 59};
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uint8_t r1[8] = {56, 28, 46, 44, 20, 35, 42, 50};
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do{
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if(i%4==0){
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add_key_4(data, ctx, s);
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++s;
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}
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threefish_mix(data, r0[i%8]);
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threefish_mix((uint8_t*)data + 16, r1[i%8]);
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permute_4(data);
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++i;
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}while(i!=72);
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add_key_4(data, ctx, s);
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}
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*/
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I = 2
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S = 3
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DATA0 = 4
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DATA1 = 5
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CTX0 = 6
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CTX1 = 7
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IDX0 = 8
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IDX1 = 9
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IDX2 = 10
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IDX3 = 11
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/*
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* param data: r24:r25
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* param ctx: r22:r23
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*/
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.global threefish256_enc
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threefish256_enc:
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push r28
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push r29
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push_range 2, 17
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movw DATA0, r24
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movw CTX0, r22
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clr I
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clr S
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1:
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mov r30, I
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andi r30, 0x03
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breq 2f
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rjmp 4f
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2:
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ldi r30, lo8(threefish256_slut5)
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ldi r31, hi8(threefish256_slut5)
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add r30, S
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adc r31, r1
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lpm IDX0, Z+
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lpm IDX1, Z+
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lpm IDX2, Z+
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lpm IDX3, Z
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movw r30, CTX0
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movw r26, DATA0
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add r30, IDX0
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adc r31, r1
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rcall add_z_to_x8
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movw r30, CTX0
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add r30, IDX1
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adc r31, r1
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rcall add_z_to_x8
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movw r30, CTX0
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add r30, IDX2
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adc r31, r1
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rcall add_z_to_x8
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movw r30, CTX0
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add r30, IDX3
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adc r31, r1
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rcall add_z_to_x8
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/* now the remaining key */
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sbiw r26, 3*8
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ldi r30, lo8(threefish256_slut3)
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ldi r31, hi8(threefish256_slut3)
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add r30, S
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adc r31, r1
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lpm IDX0, Z+
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lpm IDX1, Z
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movw r30, CTX0
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adiw r30, 5*8
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movw IDX2, r30
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add r30, IDX0
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adc r31, r1
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rcall add_z_to_x8
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movw r30, IDX2
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add r30, IDX1
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adc r31, r1
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rcall add_z_to_x8
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ld r0, X
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add r0, S
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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ld r0, X
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adc r0, r1
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st X+, r0
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inc S
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mov r26, S
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cpi r26, 19
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brmi 4f
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exit:
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pop_range 2, 17
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pop r29
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pop r28
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ret
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4:
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/* call mix */
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ldi r30, lo8(threefish256_rc0)
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ldi r31, hi8(threefish256_rc0)
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mov r26, I
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andi r26, 0x07
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add r30, r26
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adc r31, r1
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lpm r22, Z
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adiw r30, 8
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lpm IDX0, Z
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movw r24, DATA0
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call threefish_mix_asm /* no rcall? */
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movw r24, DATA0
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adiw r24, 16
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mov r22, IDX0
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call threefish_mix_asm /* no rcall? */
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/* now the permutation */
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movw r26, DATA0
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adiw r26, 8
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movw r30, r26
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adiw r30, 16
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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ld IDX0, X
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ld IDX1, Z
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st X+, IDX1
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st Z+, IDX0
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inc I
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rjmp 1b
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threefish256_slut5:
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.byte 0x00, 0x08, 0x10, 0x18, 0x20, 0x00, 0x08, 0x10
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.byte 0x18, 0x20, 0x00, 0x08, 0x10, 0x18, 0x20, 0x00
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.byte 0x08, 0x10, 0x18, 0x20, 0x00, 0x08, 0x10
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threefish256_slut3:
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.byte 0x00, 0x08, 0x10, 0x00, 0x08, 0x10, 0x00, 0x08
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.byte 0x10, 0x00, 0x08, 0x10, 0x00, 0x08, 0x10, 0x00
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.byte 0x08, 0x10, 0x00, 0x08, 0x10, 0x00, 0x08
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;threefish256_rc0: .byte 5, 36, 13, 58, 26, 53, 11, 59
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;threefish256_rc1: .byte 56, 28, 46, 44, 20, 35, 42, 50
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threefish256_rc0: .byte 0x1b, 0x44, 0x2b, 0x72, 0x32, 0x7b, 0x13, 0x73
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threefish256_rc1: .byte 0x70, 0x34, 0x6a, 0x54, 0x24, 0x43, 0x52, 0x62
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add_z_to_x8:
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ld r0, Z+
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ld r1, X
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add r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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ld r0, Z+
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ld r1, X
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adc r1, r0
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st X+, r1
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clr r1
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ret
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