C x86_64/sha256-compress-n.asm ifelse(` Copyright (C) 2013, 2022 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/. ') .file "sha256-compress-n.asm" define(`STATE', `%rdi') define(`K', `%rsi') define(`BLOCKS', `%rdx') define(`INPUT', `%rcx') define(`STATE_SAVED', `64(%rsp)') define(`SA', `%eax') define(`SB', `%ebx') define(`SC', `%ebp') define(`SD', `%r8d') define(`SE', `%r9d') define(`SF', `%r10d') define(`SG', `%r11d') define(`SH', `%r12d') define(`T0', `%r13d') define(`T1', `%r14d') define(`COUNT', `%rdi') C Overlap STATE define(`W', `%r15d') define(`EXPN', ` movl OFFSET($1)(%rsp), W movl OFFSET(eval(($1 + 14) % 16))(%rsp), T0 movl T0, T1 shrl `$'10, T0 roll `$'13, T1 xorl T1, T0 roll `$'2, T1 xorl T1, T0 addl T0, W movl OFFSET(eval(($1 + 1) % 16))(%rsp), T0 movl T0, T1 shrl `$'3, T0 roll `$'14, T1 xorl T1, T0 roll `$'11, T1 xorl T1, T0 addl T0, W addl OFFSET(eval(($1 + 9) % 16))(%rsp), W movl W, OFFSET($1)(%rsp) ') C ROUND(A,B,C,D,E,F,G,H,K) C C H += S1(E) + Choice(E,F,G) + K + W C D += H C H += S0(A) + Majority(A,B,C) C C Where C C S1(E) = E<<<26 ^ E<<<21 ^ E<<<7 C S0(A) = A<<<30 ^ A<<<19 ^ A<<<10 C Choice (E, F, G) = G^(E&(F^G)) C Majority (A,B,C) = (A&B) + (C&(A^B)) define(`ROUND', ` movl $5, T0 movl $5, T1 roll `$'7, T0 roll `$'21, T1 xorl T0, T1 roll `$'19, T0 xorl T0, T1 addl W, $8 addl T1, $8 movl $7, T0 xorl $6, T0 andl $5, T0 xorl $7, T0 addl OFFSET($9)(K,COUNT,4), $8 addl T0, $8 addl $8, $4 movl $1, T0 movl $1, T1 roll `$'10, T0 roll `$'19, T1 xorl T0, T1 roll `$'20, T0 xorl T0, T1 addl T1, $8 movl $1, T0 movl $1, T1 andl $2, T0 xorl $2, T1 addl T0, $8 andl $3, T1 addl T1, $8 ') define(`NOEXPN', ` movl OFFSET($1)(INPUT, COUNT, 4), W bswapl W movl W, OFFSET($1)(%rsp, COUNT, 4) ') C const uint8_t * C _nettle_sha256_compress_n(uint32_t *state, const uint32_t *k, C size_t blocks, const uint8_t *input) .text ALIGN(16) PROLOGUE(_nettle_sha256_compress_n) W64_ENTRY(3, 0) test BLOCKS, BLOCKS jz .Lend sub $120, %rsp mov STATE, STATE_SAVED C Save state, to free a register mov %rbx, 72(%rsp) mov %rbp, 80(%rsp) mov %r12, 88(%rsp) mov %r13, 96(%rsp) mov %r14, 104(%rsp) mov %r15, 112(%rsp) movl (STATE), SA movl 4(STATE), SB movl 8(STATE), SC movl 12(STATE), SD movl 16(STATE), SE movl 20(STATE), SF movl 24(STATE), SG movl 28(STATE), SH .Loop_block: xorl XREG(COUNT), XREG(COUNT) ALIGN(16) .Loop1: NOEXPN(0) ROUND(SA,SB,SC,SD,SE,SF,SG,SH,0) NOEXPN(1) ROUND(SH,SA,SB,SC,SD,SE,SF,SG,1) NOEXPN(2) ROUND(SG,SH,SA,SB,SC,SD,SE,SF,2) NOEXPN(3) ROUND(SF,SG,SH,SA,SB,SC,SD,SE,3) NOEXPN(4) ROUND(SE,SF,SG,SH,SA,SB,SC,SD,4) NOEXPN(5) ROUND(SD,SE,SF,SG,SH,SA,SB,SC,5) NOEXPN(6) ROUND(SC,SD,SE,SF,SG,SH,SA,SB,6) NOEXPN(7) ROUND(SB,SC,SD,SE,SF,SG,SH,SA,7) addl $8, XREG(COUNT) cmpl $16, XREG(COUNT) jne .Loop1 .Loop2: EXPN( 0) ROUND(SA,SB,SC,SD,SE,SF,SG,SH,0) EXPN( 1) ROUND(SH,SA,SB,SC,SD,SE,SF,SG,1) EXPN( 2) ROUND(SG,SH,SA,SB,SC,SD,SE,SF,2) EXPN( 3) ROUND(SF,SG,SH,SA,SB,SC,SD,SE,3) EXPN( 4) ROUND(SE,SF,SG,SH,SA,SB,SC,SD,4) EXPN( 5) ROUND(SD,SE,SF,SG,SH,SA,SB,SC,5) EXPN( 6) ROUND(SC,SD,SE,SF,SG,SH,SA,SB,6) EXPN( 7) ROUND(SB,SC,SD,SE,SF,SG,SH,SA,7) EXPN( 8) ROUND(SA,SB,SC,SD,SE,SF,SG,SH,8) EXPN( 9) ROUND(SH,SA,SB,SC,SD,SE,SF,SG,9) EXPN(10) ROUND(SG,SH,SA,SB,SC,SD,SE,SF,10) EXPN(11) ROUND(SF,SG,SH,SA,SB,SC,SD,SE,11) EXPN(12) ROUND(SE,SF,SG,SH,SA,SB,SC,SD,12) EXPN(13) ROUND(SD,SE,SF,SG,SH,SA,SB,SC,13) EXPN(14) ROUND(SC,SD,SE,SF,SG,SH,SA,SB,14) EXPN(15) ROUND(SB,SC,SD,SE,SF,SG,SH,SA,15) addl $16, XREG(COUNT) cmpl $64, XREG(COUNT) jne .Loop2 mov STATE_SAVED, STATE addl (STATE), SA addl 4(STATE), SB addl 8(STATE), SC addl 12(STATE), SD addl 16(STATE), SE addl 20(STATE), SF addl 24(STATE), SG addl 28(STATE), SH movl SA, (STATE) movl SB, 4(STATE) movl SC, 8(STATE) movl SD, 12(STATE) movl SE, 16(STATE) movl SF, 20(STATE) movl SG, 24(STATE) movl SH, 28(STATE) add $64, INPUT dec BLOCKS jnz .Loop_block mov 72(%rsp), %rbx mov 80(%rsp), %rbp mov 88(%rsp), %r12 mov 96(%rsp), %r13 mov 104(%rsp),%r14 mov 112(%rsp),%r15 add $120, %rsp .Lend: mov INPUT, %rax W64_EXIT(3, 0) ret EPILOGUE(_nettle_sha256_compress_n)