C x86/aes-encrypt-internal.asm ifelse(` Copyright (C) 2001, 2002, 2005, Rafael R. Sevilla, Niels Möller Copyright (C) 2008, 2013 Niels Möller 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/. ') include_src(`x86/aes.m4') C Register usage: C AES state define(`SA',`%eax') define(`SB',`%ebx') define(`SC',`%ecx') define(`SD',`%edx') C Primary use of these registers. They're also used temporarily for other things. define(`T',`%ebp') define(`TMP',`%edi') define(`KEY',`%esi') define(`PARAM_ROUNDS', `40(%esp)') define(`PARAM_KEYS', `44(%esp)') define(`PARAM_TABLE', `48(%esp)') define(`PARAM_LENGTH', `52(%esp)') define(`PARAM_DST', `56(%esp)') define(`PARAM_SRC', `60(%esp)') define(`FRAME_KEY', `16(%esp)') define(`FRAME_COUNT', `12(%esp)') define(`TA', `8(%esp)') define(`TB', `4(%esp)') define(`TC', `(%esp)') C The aes state is kept in %eax, %ebx, %ecx and %edx C C %esi is used as temporary, to point to the input, and to the C subkeys, etc. C C %ebp is used as the round counter, and as a temporary in the final round. C C %edi is a temporary, often used as an accumulator. .file "aes-encrypt-internal.asm" C _aes_encrypt(unsigned rounds, const uint32_t *keys, C const struct aes_table *T, C size_t length, uint8_t *dst, C uint8_t *src) .text ALIGN(16) PROLOGUE(_nettle_aes_encrypt) C save all registers that need to be saved pushl %ebx C 20(%esp) pushl %ebp C 16(%esp) pushl %esi C 12(%esp) pushl %edi C 8(%esp) subl $20, %esp C loop counter and save area for the key pointer movl PARAM_LENGTH, %ebp testl %ebp,%ebp jz .Lend shrl $4, PARAM_LENGTH subl $1, PARAM_ROUNDS .Lblock_loop: movl PARAM_KEYS, KEY C address of subkeys movl PARAM_SRC, TMP C address of plaintext AES_LOAD(SA, SB, SC, SD, TMP, KEY) addl $16, PARAM_SRC C Increment src pointer movl PARAM_TABLE, T movl PARAM_ROUNDS, TMP C Loop counter on stack movl TMP, FRAME_COUNT addl $16,KEY C point to next key movl KEY,FRAME_KEY ALIGN(16) .Lround_loop: AES_ROUND(T, SA,SB,SC,SD, TMP, KEY) movl TMP, TA AES_ROUND(T, SB,SC,SD,SA, TMP, KEY) movl TMP, TB AES_ROUND(T, SC,SD,SA,SB, TMP, KEY) movl TMP, TC AES_ROUND(T, SD,SA,SB,SC, SD, KEY) movl TA, SA movl TB, SB movl TC, SC movl FRAME_KEY, KEY xorl (KEY),SA C add current session key to plaintext xorl 4(KEY),SB xorl 8(KEY),SC xorl 12(KEY),SD addl $16,FRAME_KEY C point to next key decl FRAME_COUNT jnz .Lround_loop C last round AES_FINAL_ROUND(SA,SB,SC,SD, T, TMP, KEY) movl TMP, TA AES_FINAL_ROUND(SB,SC,SD,SA, T, TMP, KEY) movl TMP, TB AES_FINAL_ROUND(SC,SD,SA,SB, T, TMP, KEY) movl TMP, TC AES_FINAL_ROUND(SD,SA,SB,SC, T, SD, KEY) movl TA, SA movl TB, SB movl TC, SC C S-box substitution mov $3,TMP .Lsubst: AES_SUBST_BYTE(SA,SB,SC,SD, T, KEY) decl TMP jnz .Lsubst C Add last subkey, and store encrypted data movl PARAM_DST,TMP movl FRAME_KEY, KEY AES_STORE(SA,SB,SC,SD, KEY, TMP) addl $16, PARAM_DST C Increment destination pointer decl PARAM_LENGTH jnz .Lblock_loop .Lend: addl $20, %esp popl %edi popl %esi popl %ebp popl %ebx ret EPILOGUE(_nettle_aes_encrypt)