C x86_64/memxor3.asm ifelse(` Copyright (C) 2010, 2014 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/. ') C Register usage: define(`DST', `%rax') C Originally in %rdi define(`AP', `%rsi') define(`BP', `%rdx') define(`N', `%r10') define(`TMP', `%r8') define(`TMP2', `%r9') define(`CNT', `%rdi') define(`S0', `%r11') define(`S1', `%rdi') C Overlaps with CNT define(`USE_SSE2', `no') .file "memxor3.asm" .text C memxor3(void *dst, const void *a, const void *b, size_t n) C %rdi %rsi %rdx %rcx ALIGN(16) PROLOGUE(nettle_memxor3) W64_ENTRY(4, 0) C %cl needed for shift count, so move away N mov %rcx, N .Lmemxor3_entry: test N, N C Get number of unaligned bytes at the end C %rdi is used as CNT, %rax as DST and as return value mov %rdi, %rax jz .Ldone add N, CNT and $7, CNT jz .Laligned cmp $8, N jc .Lfinal_next C FIXME: Instead of this loop, could try cmov with memory C destination, as a sequence of one 8-bit, one 16-bit and one C 32-bit operations. (Except that cmov can't do 8-bit ops, so C that step has to use a conditional). .Lalign_loop: sub $1, N movb (AP, N), LREG(TMP) xorb (BP, N), LREG(TMP) movb LREG(TMP), (DST, N) sub $1, CNT jnz .Lalign_loop .Laligned: ifelse(USE_SSE2, yes, ` cmp $16, N jnc .Lsse2_case ') C Check for the case that AP and BP have the same alignment, C but different from DST. mov AP, TMP sub BP, TMP test $7, TMP jnz .Lno_shift_case mov AP, %rcx sub DST, %rcx and $7, %rcx jz .Lno_shift_case sub %rcx, AP sub %rcx, BP shl $3, %rcx C Unrolling, with aligned values alternating in S0 and S1 test $8, N jnz .Lshift_odd mov (AP, N), S1 xor (BP, N), S1 jmp .Lshift_next .Lshift_odd: mov -8(AP, N), S1 mov (AP, N), S0 xor -8(BP, N), S1 xor (BP, N), S0 mov S1, TMP shr %cl, TMP neg %cl shl %cl, S0 neg %cl or S0, TMP mov TMP, -8(DST, N) sub $8, N jz .Ldone jmp .Lshift_next ALIGN(16) .Lshift_loop: mov 8(AP, N), S0 xor 8(BP, N), S0 mov S0, TMP shr %cl, TMP neg %cl shl %cl, S1 neg %cl or S1, TMP mov TMP, 8(DST, N) mov (AP, N), S1 xor (BP, N), S1 mov S1, TMP shr %cl, TMP neg %cl shl %cl, S0 neg %cl or S0, TMP mov TMP, (DST, N) .Lshift_next: sub $16, N C FIXME: Handle the case N == 16 specially, C like in the non-shifted case? C ja .Lshift_loop C jz .Ldone jnc .Lshift_loop add $15, N jnc .Ldone shr $3, %rcx add %rcx, AP add %rcx, BP jmp .Lfinal_loop .Lno_shift_case: C Next destination word is -8(DST, N) C Setup for unrolling test $8, N jz .Lword_next sub $8, N jz .Lone_word mov (AP, N), TMP xor (BP, N), TMP mov TMP, (DST, N) jmp .Lword_next ALIGN(16) .Lword_loop: mov 8(AP, N), TMP mov (AP, N), TMP2 xor 8(BP, N), TMP xor (BP, N), TMP2 mov TMP, 8(DST, N) mov TMP2, (DST, N) .Lword_next: sub $16, N ja .Lword_loop C Not zero and no carry jnz .Lfinal C Final operation is word aligned mov 8(AP, N), TMP xor 8(BP, N), TMP mov TMP, 8(DST, N) .Lone_word: mov (AP, N), TMP xor (BP, N), TMP mov TMP, (DST, N) C ENTRY might have been 3 args, too, but it doesn't matter for the exit W64_EXIT(4, 0) ret .Lfinal: add $15, N .Lfinal_loop: movb (AP, N), LREG(TMP) xorb (BP, N), LREG(TMP) movb LREG(TMP), (DST, N) .Lfinal_next: sub $1, N jnc .Lfinal_loop .Ldone: C ENTRY might have been 3 args, too, but it doesn't matter for the exit W64_EXIT(4, 0) ret ifelse(USE_SSE2, yes, ` .Lsse2_case: lea (DST, N), TMP test $8, TMP jz .Lsse2_next sub $8, N mov (AP, N), TMP xor (BP, N), TMP mov TMP, (DST, N) jmp .Lsse2_next ALIGN(16) .Lsse2_loop: movdqu (AP, N), %xmm0 movdqu (BP, N), %xmm1 pxor %xmm0, %xmm1 movdqa %xmm1, (DST, N) .Lsse2_next: sub $16, N ja .Lsse2_loop C FIXME: See if we can do a full word first, before the C byte-wise final loop. jnz .Lfinal C Final operation is aligned movdqu (AP), %xmm0 movdqu (BP), %xmm1 pxor %xmm0, %xmm1 movdqa %xmm1, (DST) C ENTRY might have been 3 args, too, but it doesn't matter for the exit W64_EXIT(4, 0) ret ') EPILOGUE(nettle_memxor3)