| #! /usr/bin/env perl |
| # Copyright 2014-2018 The OpenSSL Project Authors. All Rights Reserved. |
| # Copyright (c) 2014, Intel Corporation. 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 |
| # |
| # Originally written by Shay Gueron (1, 2), and Vlad Krasnov (1) |
| # (1) Intel Corporation, Israel Development Center, Haifa, Israel |
| # (2) University of Haifa, Israel |
| # |
| # Reference: |
| # S.Gueron and V.Krasnov, "Fast Prime Field Elliptic Curve Cryptography with |
| # 256 Bit Primes" |
| |
| $flavour = shift; |
| $output = shift; |
| if ($flavour =~ /\./) { $output = $flavour; undef $flavour; } |
| |
| $win64=0; $win64=1 if ($flavour =~ /[nm]asm|mingw64/ || $output =~ /\.asm$/); |
| |
| $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1; |
| ( $xlate="${dir}x86_64-xlate.pl" and -f $xlate ) or |
| ( $xlate="${dir}../../perlasm/x86_64-xlate.pl" and -f $xlate) or |
| die "can't locate x86_64-xlate.pl"; |
| |
| open OUT,"| \"$^X\" $xlate $flavour $output"; |
| *STDOUT=*OUT; |
| |
| if (`$ENV{CC} -Wa,-v -c -o /dev/null -x assembler /dev/null 2>&1` |
| =~ /GNU assembler version ([2-9]\.[0-9]+)/) { |
| $avx = ($1>=2.19) + ($1>=2.22); |
| $addx = ($1>=2.23); |
| } |
| |
| if (!$addx && $win64 && ($flavour =~ /nasm/ || $ENV{ASM} =~ /nasm/) && |
| `nasm -v 2>&1` =~ /NASM version ([2-9]\.[0-9]+)/) { |
| $avx = ($1>=2.09) + ($1>=2.10); |
| $addx = ($1>=2.10); |
| } |
| |
| if (!$addx && $win64 && ($flavour =~ /masm/ || $ENV{ASM} =~ /ml64/) && |
| `ml64 2>&1` =~ /Version ([0-9]+)\./) { |
| $avx = ($1>=10) + ($1>=11); |
| $addx = ($1>=12); |
| } |
| |
| if (!$addx && `$ENV{CC} -v 2>&1` =~ /((?:^clang|LLVM) version|based on LLVM) ([3-9])\.([0-9]+)/) { |
| my $ver = $2 + $3/100.0; # 3.1->3.01, 3.10->3.10 |
| $avx = ($ver>=3.0) + ($ver>=3.01); |
| $addx = ($ver>=3.03); |
| } |
| |
| if ($avx>=2) {{ |
| $digit_size = "\$29"; |
| $n_digits = "\$9"; |
| |
| $code.=<<___; |
| .text |
| |
| .align 64 |
| .LAVX2_AND_MASK: |
| .LAVX2_POLY: |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x000001ff, 0x000001ff, 0x000001ff, 0x000001ff |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x00040000, 0x00040000, 0x00040000, 0x00040000 |
| .quad 0x1fe00000, 0x1fe00000, 0x1fe00000, 0x1fe00000 |
| .quad 0x00ffffff, 0x00ffffff, 0x00ffffff, 0x00ffffff |
| |
| .LAVX2_POLY_x2: |
| .quad 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC |
| .quad 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC |
| .quad 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC |
| .quad 0x400007FC, 0x400007FC, 0x400007FC, 0x400007FC |
| .quad 0x3FFFFFFE, 0x3FFFFFFE, 0x3FFFFFFE, 0x3FFFFFFE |
| .quad 0x3FFFFFFE, 0x3FFFFFFE, 0x3FFFFFFE, 0x3FFFFFFE |
| .quad 0x400FFFFE, 0x400FFFFE, 0x400FFFFE, 0x400FFFFE |
| .quad 0x7F7FFFFE, 0x7F7FFFFE, 0x7F7FFFFE, 0x7F7FFFFE |
| .quad 0x03FFFFFC, 0x03FFFFFC, 0x03FFFFFC, 0x03FFFFFC |
| |
| .LAVX2_POLY_x8: |
| .quad 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8 |
| .quad 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8 |
| .quad 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8, 0xFFFFFFF8 |
| .quad 0x80000FF8, 0x80000FF8, 0x80000FF8, 0x80000FF8 |
| .quad 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC |
| .quad 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC, 0x7FFFFFFC |
| .quad 0x801FFFFC, 0x801FFFFC, 0x801FFFFC, 0x801FFFFC |
| .quad 0xFEFFFFFC, 0xFEFFFFFC, 0xFEFFFFFC, 0xFEFFFFFC |
| .quad 0x07FFFFF8, 0x07FFFFF8, 0x07FFFFF8, 0x07FFFFF8 |
| |
| .LONE: |
| .quad 0x00000020, 0x00000020, 0x00000020, 0x00000020 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x1fffc000, 0x1fffc000, 0x1fffc000, 0x1fffc000 |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1f7fffff, 0x1f7fffff, 0x1f7fffff, 0x1f7fffff |
| .quad 0x03ffffff, 0x03ffffff, 0x03ffffff, 0x03ffffff |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| |
| # RR = 2^266 mod p in AVX2 format, to transform from the native OpenSSL |
| # Montgomery form (*2^256) to our format (*2^261) |
| |
| .LTO_MONT_AVX2: |
| .quad 0x00000400, 0x00000400, 0x00000400, 0x00000400 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x1ff80000, 0x1ff80000, 0x1ff80000, 0x1ff80000 |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x0fffffff, 0x0fffffff, 0x0fffffff, 0x0fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x00000003, 0x00000003, 0x00000003, 0x00000003 |
| |
| .LFROM_MONT_AVX2: |
| .quad 0x00000001, 0x00000001, 0x00000001, 0x00000001 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| .quad 0x1ffffe00, 0x1ffffe00, 0x1ffffe00, 0x1ffffe00 |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1fffffff, 0x1fffffff, 0x1fffffff, 0x1fffffff |
| .quad 0x1ffbffff, 0x1ffbffff, 0x1ffbffff, 0x1ffbffff |
| .quad 0x001fffff, 0x001fffff, 0x001fffff, 0x001fffff |
| .quad 0x00000000, 0x00000000, 0x00000000, 0x00000000 |
| |
| .LIntOne: |
| .long 1,1,1,1,1,1,1,1 |
| ___ |
| |
| { |
| # This function receives a pointer to an array of four affine points |
| # (X, Y, <1>) and rearranges the data for AVX2 execution, while |
| # converting it to 2^29 radix redundant form |
| |
| my ($X0,$X1,$X2,$X3, $Y0,$Y1,$Y2,$Y3, |
| $T0,$T1,$T2,$T3, $T4,$T5,$T6,$T7)=map("%ymm$_",(0..15)); |
| |
| $code.=<<___; |
| .globl ecp_nistz256_avx2_transpose_convert |
| .type ecp_nistz256_avx2_transpose_convert,\@function,2 |
| .align 64 |
| ecp_nistz256_avx2_transpose_convert: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -8-16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| # Load the data |
| vmovdqa 32*0(%rsi), $X0 |
| lea 112(%rsi), %rax # size optimization |
| vmovdqa 32*1(%rsi), $Y0 |
| lea .LAVX2_AND_MASK(%rip), %rdx |
| vmovdqa 32*2(%rsi), $X1 |
| vmovdqa 32*3(%rsi), $Y1 |
| vmovdqa 32*4-112(%rax), $X2 |
| vmovdqa 32*5-112(%rax), $Y2 |
| vmovdqa 32*6-112(%rax), $X3 |
| vmovdqa 32*7-112(%rax), $Y3 |
| |
| # Transpose X and Y independently |
| vpunpcklqdq $X1, $X0, $T0 # T0 = [B2 A2 B0 A0] |
| vpunpcklqdq $X3, $X2, $T1 # T1 = [D2 C2 D0 C0] |
| vpunpckhqdq $X1, $X0, $T2 # T2 = [B3 A3 B1 A1] |
| vpunpckhqdq $X3, $X2, $T3 # T3 = [D3 C3 D1 C1] |
| |
| vpunpcklqdq $Y1, $Y0, $T4 |
| vpunpcklqdq $Y3, $Y2, $T5 |
| vpunpckhqdq $Y1, $Y0, $T6 |
| vpunpckhqdq $Y3, $Y2, $T7 |
| |
| vperm2i128 \$0x20, $T1, $T0, $X0 # X0 = [D0 C0 B0 A0] |
| vperm2i128 \$0x20, $T3, $T2, $X1 # X1 = [D1 C1 B1 A1] |
| vperm2i128 \$0x31, $T1, $T0, $X2 # X2 = [D2 C2 B2 A2] |
| vperm2i128 \$0x31, $T3, $T2, $X3 # X3 = [D3 C3 B3 A3] |
| |
| vperm2i128 \$0x20, $T5, $T4, $Y0 |
| vperm2i128 \$0x20, $T7, $T6, $Y1 |
| vperm2i128 \$0x31, $T5, $T4, $Y2 |
| vperm2i128 \$0x31, $T7, $T6, $Y3 |
| vmovdqa (%rdx), $T7 |
| |
| vpand (%rdx), $X0, $T0 # out[0] = in[0] & mask; |
| vpsrlq \$29, $X0, $X0 |
| vpand $T7, $X0, $T1 # out[1] = (in[0] >> shift) & mask; |
| vpsrlq \$29, $X0, $X0 |
| vpsllq \$6, $X1, $T2 |
| vpxor $X0, $T2, $T2 |
| vpand $T7, $T2, $T2 # out[2] = ((in[0] >> (shift*2)) ^ (in[1] << (64-shift*2))) & mask; |
| vpsrlq \$23, $X1, $X1 |
| vpand $T7, $X1, $T3 # out[3] = (in[1] >> ((shift*3)%64)) & mask; |
| vpsrlq \$29, $X1, $X1 |
| vpsllq \$12, $X2, $T4 |
| vpxor $X1, $T4, $T4 |
| vpand $T7, $T4, $T4 # out[4] = ((in[1] >> ((shift*4)%64)) ^ (in[2] << (64*2-shift*4))) & mask; |
| vpsrlq \$17, $X2, $X2 |
| vpand $T7, $X2, $T5 # out[5] = (in[2] >> ((shift*5)%64)) & mask; |
| vpsrlq \$29, $X2, $X2 |
| vpsllq \$18, $X3, $T6 |
| vpxor $X2, $T6, $T6 |
| vpand $T7, $T6, $T6 # out[6] = ((in[2] >> ((shift*6)%64)) ^ (in[3] << (64*3-shift*6))) & mask; |
| vpsrlq \$11, $X3, $X3 |
| vmovdqa $T0, 32*0(%rdi) |
| lea 112(%rdi), %rax # size optimization |
| vpand $T7, $X3, $T0 # out[7] = (in[3] >> ((shift*7)%64)) & mask; |
| vpsrlq \$29, $X3, $X3 # out[8] = (in[3] >> ((shift*8)%64)) & mask; |
| |
| vmovdqa $T1, 32*1(%rdi) |
| vmovdqa $T2, 32*2(%rdi) |
| vmovdqa $T3, 32*3(%rdi) |
| vmovdqa $T4, 32*4-112(%rax) |
| vmovdqa $T5, 32*5-112(%rax) |
| vmovdqa $T6, 32*6-112(%rax) |
| vmovdqa $T0, 32*7-112(%rax) |
| vmovdqa $X3, 32*8-112(%rax) |
| lea 448(%rdi), %rax # size optimization |
| |
| vpand $T7, $Y0, $T0 # out[0] = in[0] & mask; |
| vpsrlq \$29, $Y0, $Y0 |
| vpand $T7, $Y0, $T1 # out[1] = (in[0] >> shift) & mask; |
| vpsrlq \$29, $Y0, $Y0 |
| vpsllq \$6, $Y1, $T2 |
| vpxor $Y0, $T2, $T2 |
| vpand $T7, $T2, $T2 # out[2] = ((in[0] >> (shift*2)) ^ (in[1] << (64-shift*2))) & mask; |
| vpsrlq \$23, $Y1, $Y1 |
| vpand $T7, $Y1, $T3 # out[3] = (in[1] >> ((shift*3)%64)) & mask; |
| vpsrlq \$29, $Y1, $Y1 |
| vpsllq \$12, $Y2, $T4 |
| vpxor $Y1, $T4, $T4 |
| vpand $T7, $T4, $T4 # out[4] = ((in[1] >> ((shift*4)%64)) ^ (in[2] << (64*2-shift*4))) & mask; |
| vpsrlq \$17, $Y2, $Y2 |
| vpand $T7, $Y2, $T5 # out[5] = (in[2] >> ((shift*5)%64)) & mask; |
| vpsrlq \$29, $Y2, $Y2 |
| vpsllq \$18, $Y3, $T6 |
| vpxor $Y2, $T6, $T6 |
| vpand $T7, $T6, $T6 # out[6] = ((in[2] >> ((shift*6)%64)) ^ (in[3] << (64*3-shift*6))) & mask; |
| vpsrlq \$11, $Y3, $Y3 |
| vmovdqa $T0, 32*9-448(%rax) |
| vpand $T7, $Y3, $T0 # out[7] = (in[3] >> ((shift*7)%64)) & mask; |
| vpsrlq \$29, $Y3, $Y3 # out[8] = (in[3] >> ((shift*8)%64)) & mask; |
| |
| vmovdqa $T1, 32*10-448(%rax) |
| vmovdqa $T2, 32*11-448(%rax) |
| vmovdqa $T3, 32*12-448(%rax) |
| vmovdqa $T4, 32*13-448(%rax) |
| vmovdqa $T5, 32*14-448(%rax) |
| vmovdqa $T6, 32*15-448(%rax) |
| vmovdqa $T0, 32*16-448(%rax) |
| vmovdqa $Y3, 32*17-448(%rax) |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps 16*0(%rsp), %xmm6 |
| movaps 16*1(%rsp), %xmm7 |
| movaps 16*2(%rsp), %xmm8 |
| movaps 16*3(%rsp), %xmm9 |
| movaps 16*4(%rsp), %xmm10 |
| movaps 16*5(%rsp), %xmm11 |
| movaps 16*6(%rsp), %xmm12 |
| movaps 16*7(%rsp), %xmm13 |
| movaps 16*8(%rsp), %xmm14 |
| movaps 16*9(%rsp), %xmm15 |
| lea 8+16*10(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .size ecp_nistz256_avx2_transpose_convert,.-ecp_nistz256_avx2_transpose_convert |
| ___ |
| } |
| { |
| ################################################################################ |
| # This function receives a pointer to an array of four AVX2 formatted points |
| # (X, Y, Z) convert the data to normal representation, and rearranges the data |
| |
| my ($D0,$D1,$D2,$D3, $D4,$D5,$D6,$D7, $D8)=map("%ymm$_",(0..8)); |
| my ($T0,$T1,$T2,$T3, $T4,$T5,$T6)=map("%ymm$_",(9..15)); |
| |
| $code.=<<___; |
| |
| .globl ecp_nistz256_avx2_convert_transpose_back |
| .type ecp_nistz256_avx2_convert_transpose_back,\@function,2 |
| .align 32 |
| ecp_nistz256_avx2_convert_transpose_back: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -8-16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| mov \$3, %ecx |
| |
| .Lconv_loop: |
| vmovdqa 32*0(%rsi), $D0 |
| lea 160(%rsi), %rax # size optimization |
| vmovdqa 32*1(%rsi), $D1 |
| vmovdqa 32*2(%rsi), $D2 |
| vmovdqa 32*3(%rsi), $D3 |
| vmovdqa 32*4-160(%rax), $D4 |
| vmovdqa 32*5-160(%rax), $D5 |
| vmovdqa 32*6-160(%rax), $D6 |
| vmovdqa 32*7-160(%rax), $D7 |
| vmovdqa 32*8-160(%rax), $D8 |
| |
| vpsllq \$29, $D1, $D1 |
| vpsllq \$58, $D2, $T0 |
| vpaddq $D1, $D0, $D0 |
| vpaddq $T0, $D0, $D0 # out[0] = (in[0]) ^ (in[1] << shift*1) ^ (in[2] << shift*2); |
| |
| vpsrlq \$6, $D2, $D2 |
| vpsllq \$23, $D3, $D3 |
| vpsllq \$52, $D4, $T1 |
| vpaddq $D2, $D3, $D3 |
| vpaddq $D3, $T1, $D1 # out[1] = (in[2] >> (64*1-shift*2)) ^ (in[3] << shift*3%64) ^ (in[4] << shift*4%64); |
| |
| vpsrlq \$12, $D4, $D4 |
| vpsllq \$17, $D5, $D5 |
| vpsllq \$46, $D6, $T2 |
| vpaddq $D4, $D5, $D5 |
| vpaddq $D5, $T2, $D2 # out[2] = (in[4] >> (64*2-shift*4)) ^ (in[5] << shift*5%64) ^ (in[6] << shift*6%64); |
| |
| vpsrlq \$18, $D6, $D6 |
| vpsllq \$11, $D7, $D7 |
| vpsllq \$40, $D8, $T3 |
| vpaddq $D6, $D7, $D7 |
| vpaddq $D7, $T3, $D3 # out[3] = (in[6] >> (64*3-shift*6)) ^ (in[7] << shift*7%64) ^ (in[8] << shift*8%64); |
| |
| vpunpcklqdq $D1, $D0, $T0 # T0 = [B2 A2 B0 A0] |
| vpunpcklqdq $D3, $D2, $T1 # T1 = [D2 C2 D0 C0] |
| vpunpckhqdq $D1, $D0, $T2 # T2 = [B3 A3 B1 A1] |
| vpunpckhqdq $D3, $D2, $T3 # T3 = [D3 C3 D1 C1] |
| |
| vperm2i128 \$0x20, $T1, $T0, $D0 # X0 = [D0 C0 B0 A0] |
| vperm2i128 \$0x20, $T3, $T2, $D1 # X1 = [D1 C1 B1 A1] |
| vperm2i128 \$0x31, $T1, $T0, $D2 # X2 = [D2 C2 B2 A2] |
| vperm2i128 \$0x31, $T3, $T2, $D3 # X3 = [D3 C3 B3 A3] |
| |
| vmovdqa $D0, 32*0(%rdi) |
| vmovdqa $D1, 32*3(%rdi) |
| vmovdqa $D2, 32*6(%rdi) |
| vmovdqa $D3, 32*9(%rdi) |
| |
| lea 32*9(%rsi), %rsi |
| lea 32*1(%rdi), %rdi |
| |
| dec %ecx |
| jnz .Lconv_loop |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps 16*0(%rsp), %xmm6 |
| movaps 16*1(%rsp), %xmm7 |
| movaps 16*2(%rsp), %xmm8 |
| movaps 16*3(%rsp), %xmm9 |
| movaps 16*4(%rsp), %xmm10 |
| movaps 16*5(%rsp), %xmm11 |
| movaps 16*6(%rsp), %xmm12 |
| movaps 16*7(%rsp), %xmm13 |
| movaps 16*8(%rsp), %xmm14 |
| movaps 16*9(%rsp), %xmm15 |
| lea 8+16*10(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .size ecp_nistz256_avx2_convert_transpose_back,.-ecp_nistz256_avx2_convert_transpose_back |
| ___ |
| } |
| { |
| my ($r_ptr,$a_ptr,$b_ptr,$itr)=("%rdi","%rsi","%rdx","%ecx"); |
| my ($ACC0,$ACC1,$ACC2,$ACC3,$ACC4,$ACC5,$ACC6,$ACC7,$ACC8)=map("%ymm$_",(0..8)); |
| my ($B,$Y,$T0,$AND_MASK,$OVERFLOW)=map("%ymm$_",(9..13)); |
| |
| sub NORMALIZE { |
| my $ret=<<___; |
| vpsrlq $digit_size, $ACC0, $T0 |
| vpand $AND_MASK, $ACC0, $ACC0 |
| vpaddq $T0, $ACC1, $ACC1 |
| |
| vpsrlq $digit_size, $ACC1, $T0 |
| vpand $AND_MASK, $ACC1, $ACC1 |
| vpaddq $T0, $ACC2, $ACC2 |
| |
| vpsrlq $digit_size, $ACC2, $T0 |
| vpand $AND_MASK, $ACC2, $ACC2 |
| vpaddq $T0, $ACC3, $ACC3 |
| |
| vpsrlq $digit_size, $ACC3, $T0 |
| vpand $AND_MASK, $ACC3, $ACC3 |
| vpaddq $T0, $ACC4, $ACC4 |
| |
| vpsrlq $digit_size, $ACC4, $T0 |
| vpand $AND_MASK, $ACC4, $ACC4 |
| vpaddq $T0, $ACC5, $ACC5 |
| |
| vpsrlq $digit_size, $ACC5, $T0 |
| vpand $AND_MASK, $ACC5, $ACC5 |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpsrlq $digit_size, $ACC6, $T0 |
| vpand $AND_MASK, $ACC6, $ACC6 |
| vpaddq $T0, $ACC7, $ACC7 |
| |
| vpsrlq $digit_size, $ACC7, $T0 |
| vpand $AND_MASK, $ACC7, $ACC7 |
| vpaddq $T0, $ACC8, $ACC8 |
| #vpand $AND_MASK, $ACC8, $ACC8 |
| ___ |
| $ret; |
| } |
| |
| sub STORE { |
| my $ret=<<___; |
| vmovdqa $ACC0, 32*0(%rdi) |
| lea 160(%rdi), %rax # size optimization |
| vmovdqa $ACC1, 32*1(%rdi) |
| vmovdqa $ACC2, 32*2(%rdi) |
| vmovdqa $ACC3, 32*3(%rdi) |
| vmovdqa $ACC4, 32*4-160(%rax) |
| vmovdqa $ACC5, 32*5-160(%rax) |
| vmovdqa $ACC6, 32*6-160(%rax) |
| vmovdqa $ACC7, 32*7-160(%rax) |
| vmovdqa $ACC8, 32*8-160(%rax) |
| ___ |
| $ret; |
| } |
| |
| $code.=<<___; |
| .type avx2_normalize,\@abi-omnipotent |
| .align 32 |
| avx2_normalize: |
| vpsrlq $digit_size, $ACC0, $T0 |
| vpand $AND_MASK, $ACC0, $ACC0 |
| vpaddq $T0, $ACC1, $ACC1 |
| |
| vpsrlq $digit_size, $ACC1, $T0 |
| vpand $AND_MASK, $ACC1, $ACC1 |
| vpaddq $T0, $ACC2, $ACC2 |
| |
| vpsrlq $digit_size, $ACC2, $T0 |
| vpand $AND_MASK, $ACC2, $ACC2 |
| vpaddq $T0, $ACC3, $ACC3 |
| |
| vpsrlq $digit_size, $ACC3, $T0 |
| vpand $AND_MASK, $ACC3, $ACC3 |
| vpaddq $T0, $ACC4, $ACC4 |
| |
| vpsrlq $digit_size, $ACC4, $T0 |
| vpand $AND_MASK, $ACC4, $ACC4 |
| vpaddq $T0, $ACC5, $ACC5 |
| |
| vpsrlq $digit_size, $ACC5, $T0 |
| vpand $AND_MASK, $ACC5, $ACC5 |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpsrlq $digit_size, $ACC6, $T0 |
| vpand $AND_MASK, $ACC6, $ACC6 |
| vpaddq $T0, $ACC7, $ACC7 |
| |
| vpsrlq $digit_size, $ACC7, $T0 |
| vpand $AND_MASK, $ACC7, $ACC7 |
| vpaddq $T0, $ACC8, $ACC8 |
| #vpand $AND_MASK, $ACC8, $ACC8 |
| |
| ret |
| .size avx2_normalize,.-avx2_normalize |
| |
| .type avx2_normalize_n_store,\@abi-omnipotent |
| .align 32 |
| avx2_normalize_n_store: |
| vpsrlq $digit_size, $ACC0, $T0 |
| vpand $AND_MASK, $ACC0, $ACC0 |
| vpaddq $T0, $ACC1, $ACC1 |
| |
| vpsrlq $digit_size, $ACC1, $T0 |
| vpand $AND_MASK, $ACC1, $ACC1 |
| vmovdqa $ACC0, 32*0(%rdi) |
| lea 160(%rdi), %rax # size optimization |
| vpaddq $T0, $ACC2, $ACC2 |
| |
| vpsrlq $digit_size, $ACC2, $T0 |
| vpand $AND_MASK, $ACC2, $ACC2 |
| vmovdqa $ACC1, 32*1(%rdi) |
| vpaddq $T0, $ACC3, $ACC3 |
| |
| vpsrlq $digit_size, $ACC3, $T0 |
| vpand $AND_MASK, $ACC3, $ACC3 |
| vmovdqa $ACC2, 32*2(%rdi) |
| vpaddq $T0, $ACC4, $ACC4 |
| |
| vpsrlq $digit_size, $ACC4, $T0 |
| vpand $AND_MASK, $ACC4, $ACC4 |
| vmovdqa $ACC3, 32*3(%rdi) |
| vpaddq $T0, $ACC5, $ACC5 |
| |
| vpsrlq $digit_size, $ACC5, $T0 |
| vpand $AND_MASK, $ACC5, $ACC5 |
| vmovdqa $ACC4, 32*4-160(%rax) |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpsrlq $digit_size, $ACC6, $T0 |
| vpand $AND_MASK, $ACC6, $ACC6 |
| vmovdqa $ACC5, 32*5-160(%rax) |
| vpaddq $T0, $ACC7, $ACC7 |
| |
| vpsrlq $digit_size, $ACC7, $T0 |
| vpand $AND_MASK, $ACC7, $ACC7 |
| vmovdqa $ACC6, 32*6-160(%rax) |
| vpaddq $T0, $ACC8, $ACC8 |
| #vpand $AND_MASK, $ACC8, $ACC8 |
| vmovdqa $ACC7, 32*7-160(%rax) |
| vmovdqa $ACC8, 32*8-160(%rax) |
| |
| ret |
| .size avx2_normalize_n_store,.-avx2_normalize_n_store |
| |
| ################################################################################ |
| # void avx2_mul_x4(void* RESULTx4, void *Ax4, void *Bx4); |
| .type avx2_mul_x4,\@abi-omnipotent |
| .align 32 |
| avx2_mul_x4: |
| lea .LAVX2_POLY(%rip), %rax |
| |
| vpxor $ACC0, $ACC0, $ACC0 |
| vpxor $ACC1, $ACC1, $ACC1 |
| vpxor $ACC2, $ACC2, $ACC2 |
| vpxor $ACC3, $ACC3, $ACC3 |
| vpxor $ACC4, $ACC4, $ACC4 |
| vpxor $ACC5, $ACC5, $ACC5 |
| vpxor $ACC6, $ACC6, $ACC6 |
| vpxor $ACC7, $ACC7, $ACC7 |
| |
| vmovdqa 32*7(%rax), %ymm14 |
| vmovdqa 32*8(%rax), %ymm15 |
| |
| mov $n_digits, $itr |
| lea -512($a_ptr), $a_ptr # strategic bias to control u-op density |
| jmp .Lavx2_mul_x4_loop |
| |
| .align 32 |
| .Lavx2_mul_x4_loop: |
| vmovdqa 32*0($b_ptr), $B |
| lea 32*1($b_ptr), $b_ptr |
| |
| vpmuludq 32*0+512($a_ptr), $B, $T0 |
| vpmuludq 32*1+512($a_ptr), $B, $OVERFLOW # borrow $OVERFLOW |
| vpaddq $T0, $ACC0, $ACC0 |
| vpmuludq 32*2+512($a_ptr), $B, $T0 |
| vpaddq $OVERFLOW, $ACC1, $ACC1 |
| vpand $AND_MASK, $ACC0, $Y |
| vpmuludq 32*3+512($a_ptr), $B, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC2 |
| vpmuludq 32*4+512($a_ptr), $B, $T0 |
| vpaddq $OVERFLOW, $ACC3, $ACC3 |
| vpmuludq 32*5+512($a_ptr), $B, $OVERFLOW |
| vpaddq $T0, $ACC4, $ACC4 |
| vpmuludq 32*6+512($a_ptr), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*7+512($a_ptr), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| # Skip some multiplications, optimizing for the constant poly |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*8+512($a_ptr), $B, $ACC8 |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| .byte 0x67 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $OVERFLOW |
| .byte 0x67 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $OVERFLOW |
| vpaddq $T0, $ACC7, $ACC6 |
| vpaddq $OVERFLOW, $ACC8, $ACC7 |
| |
| dec $itr |
| jnz .Lavx2_mul_x4_loop |
| |
| vpxor $ACC8, $ACC8, $ACC8 |
| |
| ret |
| .size avx2_mul_x4,.-avx2_mul_x4 |
| |
| # Function optimized for the constant 1 |
| ################################################################################ |
| # void avx2_mul_by1_x4(void* RESULTx4, void *Ax4); |
| .type avx2_mul_by1_x4,\@abi-omnipotent |
| .align 32 |
| avx2_mul_by1_x4: |
| lea .LAVX2_POLY(%rip), %rax |
| |
| vpxor $ACC0, $ACC0, $ACC0 |
| vpxor $ACC1, $ACC1, $ACC1 |
| vpxor $ACC2, $ACC2, $ACC2 |
| vpxor $ACC3, $ACC3, $ACC3 |
| vpxor $ACC4, $ACC4, $ACC4 |
| vpxor $ACC5, $ACC5, $ACC5 |
| vpxor $ACC6, $ACC6, $ACC6 |
| vpxor $ACC7, $ACC7, $ACC7 |
| vpxor $ACC8, $ACC8, $ACC8 |
| |
| vmovdqa 32*3+.LONE(%rip), %ymm14 |
| vmovdqa 32*7+.LONE(%rip), %ymm15 |
| |
| mov $n_digits, $itr |
| jmp .Lavx2_mul_by1_x4_loop |
| |
| .align 32 |
| .Lavx2_mul_by1_x4_loop: |
| vmovdqa 32*0($a_ptr), $B |
| .byte 0x48,0x8d,0xb6,0x20,0,0,0 # lea 32*1($a_ptr), $a_ptr |
| |
| vpsllq \$5, $B, $OVERFLOW |
| vpmuludq %ymm14, $B, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC3 |
| .byte 0x67 |
| vpmuludq $AND_MASK, $B, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $T0, $ACC4, $ACC4 |
| vpaddq $T0, $ACC5, $ACC5 |
| vpaddq $T0, $ACC6, $ACC6 |
| vpsllq \$23, $B, $T0 |
| |
| .byte 0x67,0x67 |
| vpmuludq %ymm15, $B, $OVERFLOW |
| vpsubq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| .byte 0x67,0x67 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $OVERFLOW |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq 32*7(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC6, $ACC5 |
| vpaddq $T0, $ACC7, $ACC6 |
| vpmuludq 32*8(%rax), $Y, $ACC7 |
| |
| dec $itr |
| jnz .Lavx2_mul_by1_x4_loop |
| |
| ret |
| .size avx2_mul_by1_x4,.-avx2_mul_by1_x4 |
| |
| ################################################################################ |
| # void avx2_sqr_x4(void* RESULTx4, void *Ax4, void *Bx4); |
| .type avx2_sqr_x4,\@abi-omnipotent |
| .align 32 |
| avx2_sqr_x4: |
| lea .LAVX2_POLY(%rip), %rax |
| |
| vmovdqa 32*7(%rax), %ymm14 |
| vmovdqa 32*8(%rax), %ymm15 |
| |
| vmovdqa 32*0($a_ptr), $B |
| vmovdqa 32*1($a_ptr), $ACC1 |
| vmovdqa 32*2($a_ptr), $ACC2 |
| vmovdqa 32*3($a_ptr), $ACC3 |
| vmovdqa 32*4($a_ptr), $ACC4 |
| vmovdqa 32*5($a_ptr), $ACC5 |
| vmovdqa 32*6($a_ptr), $ACC6 |
| vmovdqa 32*7($a_ptr), $ACC7 |
| vpaddq $ACC1, $ACC1, $ACC1 # 2*$ACC0..7 |
| vmovdqa 32*8($a_ptr), $ACC8 |
| vpaddq $ACC2, $ACC2, $ACC2 |
| vmovdqa $ACC1, 32*0(%rcx) |
| vpaddq $ACC3, $ACC3, $ACC3 |
| vmovdqa $ACC2, 32*1(%rcx) |
| vpaddq $ACC4, $ACC4, $ACC4 |
| vmovdqa $ACC3, 32*2(%rcx) |
| vpaddq $ACC5, $ACC5, $ACC5 |
| vmovdqa $ACC4, 32*3(%rcx) |
| vpaddq $ACC6, $ACC6, $ACC6 |
| vmovdqa $ACC5, 32*4(%rcx) |
| vpaddq $ACC7, $ACC7, $ACC7 |
| vmovdqa $ACC6, 32*5(%rcx) |
| vpaddq $ACC8, $ACC8, $ACC8 |
| vmovdqa $ACC7, 32*6(%rcx) |
| vmovdqa $ACC8, 32*7(%rcx) |
| |
| #itr 1 |
| vpmuludq $B, $B, $ACC0 |
| vpmuludq $B, $ACC1, $ACC1 |
| vpand $AND_MASK, $ACC0, $Y |
| vpmuludq $B, $ACC2, $ACC2 |
| vpmuludq $B, $ACC3, $ACC3 |
| vpmuludq $B, $ACC4, $ACC4 |
| vpmuludq $B, $ACC5, $ACC5 |
| vpmuludq $B, $ACC6, $ACC6 |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpmuludq $B, $ACC7, $ACC7 |
| vpmuludq $B, $ACC8, $ACC8 |
| vmovdqa 32*1($a_ptr), $B |
| |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 2 |
| vpmuludq $B, $B, $OVERFLOW |
| vpand $AND_MASK, $ACC0, $Y |
| vpmuludq 32*1(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC1, $ACC1 |
| vpmuludq 32*2(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC2 |
| vpmuludq 32*3(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC3, $ACC3 |
| vpmuludq 32*4(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC4, $ACC4 |
| vpmuludq 32*5(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*2($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 3 |
| vpmuludq $B, $B, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpmuludq 32*2(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC2 |
| vpmuludq 32*3(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC3, $ACC3 |
| vpmuludq 32*4(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC4, $ACC4 |
| vpmuludq 32*5(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*3($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 4 |
| vpmuludq $B, $B, $OVERFLOW |
| vpmuludq 32*3(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC3, $ACC3 |
| vpmuludq 32*4(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC4, $ACC4 |
| vpmuludq 32*5(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*4($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 5 |
| vpmuludq $B, $B, $T0 |
| vpmuludq 32*4(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC4, $ACC4 |
| vpmuludq 32*5(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*5($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3+.LAVX2_POLY(%rip), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 6 |
| vpmuludq $B, $B, $OVERFLOW |
| vpmuludq 32*5(%rcx), $B, $T0 |
| vpaddq $OVERFLOW, $ACC5, $ACC5 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*6($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 7 |
| vpmuludq $B, $B, $T0 |
| vpmuludq 32*6(%rcx), $B, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC6 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*7($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 8 |
| vpmuludq $B, $B, $OVERFLOW |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC7 |
| vpmuludq 32*7(%rcx), $B, $ACC8 |
| vmovdqa 32*8($a_ptr), $B |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpand $AND_MASK, $ACC0, $Y |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| #itr 9 |
| vpmuludq $B, $B, $ACC8 |
| |
| vpmuludq $AND_MASK, $Y, $T0 |
| vpaddq $T0, $ACC0, $OVERFLOW |
| vpsrlq $digit_size, $OVERFLOW, $OVERFLOW |
| vpaddq $T0, $ACC1, $ACC0 |
| vpaddq $T0, $ACC2, $ACC1 |
| vpmuludq 32*3(%rax), $Y, $T0 |
| vpaddq $OVERFLOW, $ACC0, $ACC0 |
| vpaddq $T0, $ACC3, $ACC2 |
| vmovdqa $ACC4, $ACC3 |
| vpsllq \$18, $Y, $T0 |
| vmovdqa $ACC5, $ACC4 |
| vpmuludq %ymm14, $Y, $OVERFLOW |
| vpaddq $T0, $ACC6, $ACC5 |
| vpmuludq %ymm15, $Y, $T0 |
| vpaddq $OVERFLOW, $ACC7, $ACC6 |
| vpaddq $T0, $ACC8, $ACC7 |
| |
| vpxor $ACC8, $ACC8, $ACC8 |
| |
| ret |
| .size avx2_sqr_x4,.-avx2_sqr_x4 |
| |
| ################################################################################ |
| # void avx2_sub_x4(void* RESULTx4, void *Ax4, void *Bx4); |
| .type avx2_sub_x4,\@abi-omnipotent |
| .align 32 |
| avx2_sub_x4: |
| vmovdqa 32*0($a_ptr), $ACC0 |
| lea 160($a_ptr), $a_ptr |
| lea .LAVX2_POLY_x8+128(%rip), %rax |
| lea 128($b_ptr), $b_ptr |
| vmovdqa 32*1-160($a_ptr), $ACC1 |
| vmovdqa 32*2-160($a_ptr), $ACC2 |
| vmovdqa 32*3-160($a_ptr), $ACC3 |
| vmovdqa 32*4-160($a_ptr), $ACC4 |
| vmovdqa 32*5-160($a_ptr), $ACC5 |
| vmovdqa 32*6-160($a_ptr), $ACC6 |
| vmovdqa 32*7-160($a_ptr), $ACC7 |
| vmovdqa 32*8-160($a_ptr), $ACC8 |
| |
| vpaddq 32*0-128(%rax), $ACC0, $ACC0 |
| vpaddq 32*1-128(%rax), $ACC1, $ACC1 |
| vpaddq 32*2-128(%rax), $ACC2, $ACC2 |
| vpaddq 32*3-128(%rax), $ACC3, $ACC3 |
| vpaddq 32*4-128(%rax), $ACC4, $ACC4 |
| vpaddq 32*5-128(%rax), $ACC5, $ACC5 |
| vpaddq 32*6-128(%rax), $ACC6, $ACC6 |
| vpaddq 32*7-128(%rax), $ACC7, $ACC7 |
| vpaddq 32*8-128(%rax), $ACC8, $ACC8 |
| |
| vpsubq 32*0-128($b_ptr), $ACC0, $ACC0 |
| vpsubq 32*1-128($b_ptr), $ACC1, $ACC1 |
| vpsubq 32*2-128($b_ptr), $ACC2, $ACC2 |
| vpsubq 32*3-128($b_ptr), $ACC3, $ACC3 |
| vpsubq 32*4-128($b_ptr), $ACC4, $ACC4 |
| vpsubq 32*5-128($b_ptr), $ACC5, $ACC5 |
| vpsubq 32*6-128($b_ptr), $ACC6, $ACC6 |
| vpsubq 32*7-128($b_ptr), $ACC7, $ACC7 |
| vpsubq 32*8-128($b_ptr), $ACC8, $ACC8 |
| |
| ret |
| .size avx2_sub_x4,.-avx2_sub_x4 |
| |
| .type avx2_select_n_store,\@abi-omnipotent |
| .align 32 |
| avx2_select_n_store: |
| vmovdqa `8+32*9*8`(%rsp), $Y |
| vpor `8+32*9*8+32`(%rsp), $Y, $Y |
| |
| vpandn $ACC0, $Y, $ACC0 |
| vpandn $ACC1, $Y, $ACC1 |
| vpandn $ACC2, $Y, $ACC2 |
| vpandn $ACC3, $Y, $ACC3 |
| vpandn $ACC4, $Y, $ACC4 |
| vpandn $ACC5, $Y, $ACC5 |
| vpandn $ACC6, $Y, $ACC6 |
| vmovdqa `8+32*9*8+32`(%rsp), $B |
| vpandn $ACC7, $Y, $ACC7 |
| vpandn `8+32*9*8`(%rsp), $B, $B |
| vpandn $ACC8, $Y, $ACC8 |
| |
| vpand 32*0(%rsi), $B, $T0 |
| lea 160(%rsi), %rax |
| vpand 32*1(%rsi), $B, $Y |
| vpxor $T0, $ACC0, $ACC0 |
| vpand 32*2(%rsi), $B, $T0 |
| vpxor $Y, $ACC1, $ACC1 |
| vpand 32*3(%rsi), $B, $Y |
| vpxor $T0, $ACC2, $ACC2 |
| vpand 32*4-160(%rax), $B, $T0 |
| vpxor $Y, $ACC3, $ACC3 |
| vpand 32*5-160(%rax), $B, $Y |
| vpxor $T0, $ACC4, $ACC4 |
| vpand 32*6-160(%rax), $B, $T0 |
| vpxor $Y, $ACC5, $ACC5 |
| vpand 32*7-160(%rax), $B, $Y |
| vpxor $T0, $ACC6, $ACC6 |
| vpand 32*8-160(%rax), $B, $T0 |
| vmovdqa `8+32*9*8+32`(%rsp), $B |
| vpxor $Y, $ACC7, $ACC7 |
| |
| vpand 32*0(%rdx), $B, $Y |
| lea 160(%rdx), %rax |
| vpxor $T0, $ACC8, $ACC8 |
| vpand 32*1(%rdx), $B, $T0 |
| vpxor $Y, $ACC0, $ACC0 |
| vpand 32*2(%rdx), $B, $Y |
| vpxor $T0, $ACC1, $ACC1 |
| vpand 32*3(%rdx), $B, $T0 |
| vpxor $Y, $ACC2, $ACC2 |
| vpand 32*4-160(%rax), $B, $Y |
| vpxor $T0, $ACC3, $ACC3 |
| vpand 32*5-160(%rax), $B, $T0 |
| vpxor $Y, $ACC4, $ACC4 |
| vpand 32*6-160(%rax), $B, $Y |
| vpxor $T0, $ACC5, $ACC5 |
| vpand 32*7-160(%rax), $B, $T0 |
| vpxor $Y, $ACC6, $ACC6 |
| vpand 32*8-160(%rax), $B, $Y |
| vpxor $T0, $ACC7, $ACC7 |
| vpxor $Y, $ACC8, $ACC8 |
| `&STORE` |
| |
| ret |
| .size avx2_select_n_store,.-avx2_select_n_store |
| ___ |
| $code.=<<___ if (0); # inlined |
| ################################################################################ |
| # void avx2_mul_by2_x4(void* RESULTx4, void *Ax4); |
| .type avx2_mul_by2_x4,\@abi-omnipotent |
| .align 32 |
| avx2_mul_by2_x4: |
| vmovdqa 32*0($a_ptr), $ACC0 |
| lea 160($a_ptr), %rax |
| vmovdqa 32*1($a_ptr), $ACC1 |
| vmovdqa 32*2($a_ptr), $ACC2 |
| vmovdqa 32*3($a_ptr), $ACC3 |
| vmovdqa 32*4-160(%rax), $ACC4 |
| vmovdqa 32*5-160(%rax), $ACC5 |
| vmovdqa 32*6-160(%rax), $ACC6 |
| vmovdqa 32*7-160(%rax), $ACC7 |
| vmovdqa 32*8-160(%rax), $ACC8 |
| |
| vpaddq $ACC0, $ACC0, $ACC0 |
| vpaddq $ACC1, $ACC1, $ACC1 |
| vpaddq $ACC2, $ACC2, $ACC2 |
| vpaddq $ACC3, $ACC3, $ACC3 |
| vpaddq $ACC4, $ACC4, $ACC4 |
| vpaddq $ACC5, $ACC5, $ACC5 |
| vpaddq $ACC6, $ACC6, $ACC6 |
| vpaddq $ACC7, $ACC7, $ACC7 |
| vpaddq $ACC8, $ACC8, $ACC8 |
| |
| ret |
| .size avx2_mul_by2_x4,.-avx2_mul_by2_x4 |
| ___ |
| my ($r_ptr_in,$a_ptr_in,$b_ptr_in)=("%rdi","%rsi","%rdx"); |
| my ($r_ptr,$a_ptr,$b_ptr)=("%r8","%r9","%r10"); |
| |
| $code.=<<___; |
| ################################################################################ |
| # void ecp_nistz256_avx2_point_add_affine_x4(void* RESULTx4, void *Ax4, void *Bx4); |
| .globl ecp_nistz256_avx2_point_add_affine_x4 |
| .type ecp_nistz256_avx2_point_add_affine_x4,\@function,3 |
| .align 32 |
| ecp_nistz256_avx2_point_add_affine_x4: |
| mov %rsp, %rax |
| push %rbp |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| lea -8(%rax), %rbp |
| |
| # Result + 32*0 = Result.X |
| # Result + 32*9 = Result.Y |
| # Result + 32*18 = Result.Z |
| |
| # A + 32*0 = A.X |
| # A + 32*9 = A.Y |
| # A + 32*18 = A.Z |
| |
| # B + 32*0 = B.X |
| # B + 32*9 = B.Y |
| |
| sub \$`32*9*8+32*2+32*8`, %rsp |
| and \$-64, %rsp |
| |
| mov $r_ptr_in, $r_ptr |
| mov $a_ptr_in, $a_ptr |
| mov $b_ptr_in, $b_ptr |
| |
| vmovdqa 32*0($a_ptr_in), %ymm0 |
| vmovdqa .LAVX2_AND_MASK(%rip), $AND_MASK |
| vpxor %ymm1, %ymm1, %ymm1 |
| lea 256($a_ptr_in), %rax # size optimization |
| vpor 32*1($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*2($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*3($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*4-256(%rax), %ymm0, %ymm0 |
| lea 256(%rax), %rcx # size optimization |
| vpor 32*5-256(%rax), %ymm0, %ymm0 |
| vpor 32*6-256(%rax), %ymm0, %ymm0 |
| vpor 32*7-256(%rax), %ymm0, %ymm0 |
| vpor 32*8-256(%rax), %ymm0, %ymm0 |
| vpor 32*9-256(%rax), %ymm0, %ymm0 |
| vpor 32*10-256(%rax), %ymm0, %ymm0 |
| vpor 32*11-256(%rax), %ymm0, %ymm0 |
| vpor 32*12-512(%rcx), %ymm0, %ymm0 |
| vpor 32*13-512(%rcx), %ymm0, %ymm0 |
| vpor 32*14-512(%rcx), %ymm0, %ymm0 |
| vpor 32*15-512(%rcx), %ymm0, %ymm0 |
| vpor 32*16-512(%rcx), %ymm0, %ymm0 |
| vpor 32*17-512(%rcx), %ymm0, %ymm0 |
| vpcmpeqq %ymm1, %ymm0, %ymm0 |
| vmovdqa %ymm0, `32*9*8`(%rsp) |
| |
| vpxor %ymm1, %ymm1, %ymm1 |
| vmovdqa 32*0($b_ptr), %ymm0 |
| lea 256($b_ptr), %rax # size optimization |
| vpor 32*1($b_ptr), %ymm0, %ymm0 |
| vpor 32*2($b_ptr), %ymm0, %ymm0 |
| vpor 32*3($b_ptr), %ymm0, %ymm0 |
| vpor 32*4-256(%rax), %ymm0, %ymm0 |
| lea 256(%rax), %rcx # size optimization |
| vpor 32*5-256(%rax), %ymm0, %ymm0 |
| vpor 32*6-256(%rax), %ymm0, %ymm0 |
| vpor 32*7-256(%rax), %ymm0, %ymm0 |
| vpor 32*8-256(%rax), %ymm0, %ymm0 |
| vpor 32*9-256(%rax), %ymm0, %ymm0 |
| vpor 32*10-256(%rax), %ymm0, %ymm0 |
| vpor 32*11-256(%rax), %ymm0, %ymm0 |
| vpor 32*12-512(%rcx), %ymm0, %ymm0 |
| vpor 32*13-512(%rcx), %ymm0, %ymm0 |
| vpor 32*14-512(%rcx), %ymm0, %ymm0 |
| vpor 32*15-512(%rcx), %ymm0, %ymm0 |
| vpor 32*16-512(%rcx), %ymm0, %ymm0 |
| vpor 32*17-512(%rcx), %ymm0, %ymm0 |
| vpcmpeqq %ymm1, %ymm0, %ymm0 |
| vmovdqa %ymm0, `32*9*8+32`(%rsp) |
| |
| # Z1^2 = Z1*Z1 |
| lea `32*9*2`($a_ptr), %rsi |
| lea `32*9*2`(%rsp), %rdi |
| lea `32*9*8+32*2`(%rsp), %rcx # temporary vector |
| call avx2_sqr_x4 |
| call avx2_normalize_n_store |
| |
| # U2 = X2*Z1^2 |
| lea `32*9*0`($b_ptr), %rsi |
| lea `32*9*2`(%rsp), %rdx |
| lea `32*9*0`(%rsp), %rdi |
| call avx2_mul_x4 |
| #call avx2_normalize |
| `&STORE` |
| |
| # S2 = Z1*Z1^2 = Z1^3 |
| lea `32*9*2`($a_ptr), %rsi |
| lea `32*9*2`(%rsp), %rdx |
| lea `32*9*1`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # S2 = S2*Y2 = Y2*Z1^3 |
| lea `32*9*1`($b_ptr), %rsi |
| lea `32*9*1`(%rsp), %rdx |
| lea `32*9*1`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # H = U2 - U1 = U2 - X1 |
| lea `32*9*0`(%rsp), %rsi |
| lea `32*9*0`($a_ptr), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # R = S2 - S1 = S2 - Y1 |
| lea `32*9*1`(%rsp), %rsi |
| lea `32*9*1`($a_ptr), %rdx |
| lea `32*9*4`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # Z3 = H*Z1*Z2 |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*2`($a_ptr), %rdx |
| lea `32*9*2`($r_ptr), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize |
| |
| lea .LONE(%rip), %rsi |
| lea `32*9*2`($a_ptr), %rdx |
| call avx2_select_n_store |
| |
| # R^2 = R^2 |
| lea `32*9*4`(%rsp), %rsi |
| lea `32*9*6`(%rsp), %rdi |
| lea `32*9*8+32*2`(%rsp), %rcx # temporary vector |
| call avx2_sqr_x4 |
| call avx2_normalize_n_store |
| |
| # H^2 = H^2 |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*5`(%rsp), %rdi |
| call avx2_sqr_x4 |
| call avx2_normalize_n_store |
| |
| # H^3 = H^2*H |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*5`(%rsp), %rdx |
| lea `32*9*7`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # U2 = U1*H^2 |
| lea `32*9*0`($a_ptr), %rsi |
| lea `32*9*5`(%rsp), %rdx |
| lea `32*9*0`(%rsp), %rdi |
| call avx2_mul_x4 |
| #call avx2_normalize |
| `&STORE` |
| |
| # Hsqr = U2*2 |
| #lea 32*9*0(%rsp), %rsi |
| #lea 32*9*5(%rsp), %rdi |
| #call avx2_mul_by2_x4 |
| |
| vpaddq $ACC0, $ACC0, $ACC0 # inlined avx2_mul_by2_x4 |
| lea `32*9*5`(%rsp), %rdi |
| vpaddq $ACC1, $ACC1, $ACC1 |
| vpaddq $ACC2, $ACC2, $ACC2 |
| vpaddq $ACC3, $ACC3, $ACC3 |
| vpaddq $ACC4, $ACC4, $ACC4 |
| vpaddq $ACC5, $ACC5, $ACC5 |
| vpaddq $ACC6, $ACC6, $ACC6 |
| vpaddq $ACC7, $ACC7, $ACC7 |
| vpaddq $ACC8, $ACC8, $ACC8 |
| call avx2_normalize_n_store |
| |
| # X3 = R^2 - H^3 |
| #lea 32*9*6(%rsp), %rsi |
| #lea 32*9*7(%rsp), %rdx |
| #lea 32*9*5(%rsp), %rcx |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_sub_x4 |
| #NORMALIZE |
| #STORE |
| |
| # X3 = X3 - U2*2 |
| #lea 32*9*0($r_ptr), %rsi |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_sub_x4 |
| #NORMALIZE |
| #STORE |
| |
| lea `32*9*6+128`(%rsp), %rsi |
| lea .LAVX2_POLY_x2+128(%rip), %rax |
| lea `32*9*7+128`(%rsp), %rdx |
| lea `32*9*5+128`(%rsp), %rcx |
| lea `32*9*0`($r_ptr), %rdi |
| |
| vmovdqa 32*0-128(%rsi), $ACC0 |
| vmovdqa 32*1-128(%rsi), $ACC1 |
| vmovdqa 32*2-128(%rsi), $ACC2 |
| vmovdqa 32*3-128(%rsi), $ACC3 |
| vmovdqa 32*4-128(%rsi), $ACC4 |
| vmovdqa 32*5-128(%rsi), $ACC5 |
| vmovdqa 32*6-128(%rsi), $ACC6 |
| vmovdqa 32*7-128(%rsi), $ACC7 |
| vmovdqa 32*8-128(%rsi), $ACC8 |
| |
| vpaddq 32*0-128(%rax), $ACC0, $ACC0 |
| vpaddq 32*1-128(%rax), $ACC1, $ACC1 |
| vpaddq 32*2-128(%rax), $ACC2, $ACC2 |
| vpaddq 32*3-128(%rax), $ACC3, $ACC3 |
| vpaddq 32*4-128(%rax), $ACC4, $ACC4 |
| vpaddq 32*5-128(%rax), $ACC5, $ACC5 |
| vpaddq 32*6-128(%rax), $ACC6, $ACC6 |
| vpaddq 32*7-128(%rax), $ACC7, $ACC7 |
| vpaddq 32*8-128(%rax), $ACC8, $ACC8 |
| |
| vpsubq 32*0-128(%rdx), $ACC0, $ACC0 |
| vpsubq 32*1-128(%rdx), $ACC1, $ACC1 |
| vpsubq 32*2-128(%rdx), $ACC2, $ACC2 |
| vpsubq 32*3-128(%rdx), $ACC3, $ACC3 |
| vpsubq 32*4-128(%rdx), $ACC4, $ACC4 |
| vpsubq 32*5-128(%rdx), $ACC5, $ACC5 |
| vpsubq 32*6-128(%rdx), $ACC6, $ACC6 |
| vpsubq 32*7-128(%rdx), $ACC7, $ACC7 |
| vpsubq 32*8-128(%rdx), $ACC8, $ACC8 |
| |
| vpsubq 32*0-128(%rcx), $ACC0, $ACC0 |
| vpsubq 32*1-128(%rcx), $ACC1, $ACC1 |
| vpsubq 32*2-128(%rcx), $ACC2, $ACC2 |
| vpsubq 32*3-128(%rcx), $ACC3, $ACC3 |
| vpsubq 32*4-128(%rcx), $ACC4, $ACC4 |
| vpsubq 32*5-128(%rcx), $ACC5, $ACC5 |
| vpsubq 32*6-128(%rcx), $ACC6, $ACC6 |
| vpsubq 32*7-128(%rcx), $ACC7, $ACC7 |
| vpsubq 32*8-128(%rcx), $ACC8, $ACC8 |
| call avx2_normalize |
| |
| lea 32*0($b_ptr), %rsi |
| lea 32*0($a_ptr), %rdx |
| call avx2_select_n_store |
| |
| # H = U2 - X3 |
| lea `32*9*0`(%rsp), %rsi |
| lea `32*9*0`($r_ptr), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*4`(%rsp), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # |
| lea `32*9*7`(%rsp), %rsi |
| lea `32*9*1`($a_ptr), %rdx |
| lea `32*9*1`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*1`(%rsp), %rdx |
| lea `32*9*1`($r_ptr), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize |
| |
| lea 32*9($b_ptr), %rsi |
| lea 32*9($a_ptr), %rdx |
| call avx2_select_n_store |
| |
| #lea 32*9*0($r_ptr), %rsi |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_mul_by1_x4 |
| #NORMALIZE |
| #STORE |
| |
| lea `32*9*1`($r_ptr), %rsi |
| lea `32*9*1`($r_ptr), %rdi |
| call avx2_mul_by1_x4 |
| call avx2_normalize_n_store |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps %xmm6, -16*10(%rbp) |
| movaps %xmm7, -16*9(%rbp) |
| movaps %xmm8, -16*8(%rbp) |
| movaps %xmm9, -16*7(%rbp) |
| movaps %xmm10, -16*6(%rbp) |
| movaps %xmm11, -16*5(%rbp) |
| movaps %xmm12, -16*4(%rbp) |
| movaps %xmm13, -16*3(%rbp) |
| movaps %xmm14, -16*2(%rbp) |
| movaps %xmm15, -16*1(%rbp) |
| ___ |
| $code.=<<___; |
| mov %rbp, %rsp |
| pop %rbp |
| ret |
| .size ecp_nistz256_avx2_point_add_affine_x4,.-ecp_nistz256_avx2_point_add_affine_x4 |
| |
| ################################################################################ |
| # void ecp_nistz256_avx2_point_add_affines_x4(void* RESULTx4, void *Ax4, void *Bx4); |
| .globl ecp_nistz256_avx2_point_add_affines_x4 |
| .type ecp_nistz256_avx2_point_add_affines_x4,\@function,3 |
| .align 32 |
| ecp_nistz256_avx2_point_add_affines_x4: |
| mov %rsp, %rax |
| push %rbp |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| lea -8(%rax), %rbp |
| |
| # Result + 32*0 = Result.X |
| # Result + 32*9 = Result.Y |
| # Result + 32*18 = Result.Z |
| |
| # A + 32*0 = A.X |
| # A + 32*9 = A.Y |
| |
| # B + 32*0 = B.X |
| # B + 32*9 = B.Y |
| |
| sub \$`32*9*8+32*2+32*8`, %rsp |
| and \$-64, %rsp |
| |
| mov $r_ptr_in, $r_ptr |
| mov $a_ptr_in, $a_ptr |
| mov $b_ptr_in, $b_ptr |
| |
| vmovdqa 32*0($a_ptr_in), %ymm0 |
| vmovdqa .LAVX2_AND_MASK(%rip), $AND_MASK |
| vpxor %ymm1, %ymm1, %ymm1 |
| lea 256($a_ptr_in), %rax # size optimization |
| vpor 32*1($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*2($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*3($a_ptr_in), %ymm0, %ymm0 |
| vpor 32*4-256(%rax), %ymm0, %ymm0 |
| lea 256(%rax), %rcx # size optimization |
| vpor 32*5-256(%rax), %ymm0, %ymm0 |
| vpor 32*6-256(%rax), %ymm0, %ymm0 |
| vpor 32*7-256(%rax), %ymm0, %ymm0 |
| vpor 32*8-256(%rax), %ymm0, %ymm0 |
| vpor 32*9-256(%rax), %ymm0, %ymm0 |
| vpor 32*10-256(%rax), %ymm0, %ymm0 |
| vpor 32*11-256(%rax), %ymm0, %ymm0 |
| vpor 32*12-512(%rcx), %ymm0, %ymm0 |
| vpor 32*13-512(%rcx), %ymm0, %ymm0 |
| vpor 32*14-512(%rcx), %ymm0, %ymm0 |
| vpor 32*15-512(%rcx), %ymm0, %ymm0 |
| vpor 32*16-512(%rcx), %ymm0, %ymm0 |
| vpor 32*17-512(%rcx), %ymm0, %ymm0 |
| vpcmpeqq %ymm1, %ymm0, %ymm0 |
| vmovdqa %ymm0, `32*9*8`(%rsp) |
| |
| vpxor %ymm1, %ymm1, %ymm1 |
| vmovdqa 32*0($b_ptr), %ymm0 |
| lea 256($b_ptr), %rax # size optimization |
| vpor 32*1($b_ptr), %ymm0, %ymm0 |
| vpor 32*2($b_ptr), %ymm0, %ymm0 |
| vpor 32*3($b_ptr), %ymm0, %ymm0 |
| vpor 32*4-256(%rax), %ymm0, %ymm0 |
| lea 256(%rax), %rcx # size optimization |
| vpor 32*5-256(%rax), %ymm0, %ymm0 |
| vpor 32*6-256(%rax), %ymm0, %ymm0 |
| vpor 32*7-256(%rax), %ymm0, %ymm0 |
| vpor 32*8-256(%rax), %ymm0, %ymm0 |
| vpor 32*9-256(%rax), %ymm0, %ymm0 |
| vpor 32*10-256(%rax), %ymm0, %ymm0 |
| vpor 32*11-256(%rax), %ymm0, %ymm0 |
| vpor 32*12-512(%rcx), %ymm0, %ymm0 |
| vpor 32*13-512(%rcx), %ymm0, %ymm0 |
| vpor 32*14-512(%rcx), %ymm0, %ymm0 |
| vpor 32*15-512(%rcx), %ymm0, %ymm0 |
| vpor 32*16-512(%rcx), %ymm0, %ymm0 |
| vpor 32*17-512(%rcx), %ymm0, %ymm0 |
| vpcmpeqq %ymm1, %ymm0, %ymm0 |
| vmovdqa %ymm0, `32*9*8+32`(%rsp) |
| |
| # H = U2 - U1 = X2 - X1 |
| lea `32*9*0`($b_ptr), %rsi |
| lea `32*9*0`($a_ptr), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # R = S2 - S1 = Y2 - Y1 |
| lea `32*9*1`($b_ptr), %rsi |
| lea `32*9*1`($a_ptr), %rdx |
| lea `32*9*4`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # Z3 = H*Z1*Z2 = H |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*2`($r_ptr), %rdi |
| call avx2_mul_by1_x4 |
| call avx2_normalize |
| |
| vmovdqa `32*9*8`(%rsp), $B |
| vpor `32*9*8+32`(%rsp), $B, $B |
| |
| vpandn $ACC0, $B, $ACC0 |
| lea .LONE+128(%rip), %rax |
| vpandn $ACC1, $B, $ACC1 |
| vpandn $ACC2, $B, $ACC2 |
| vpandn $ACC3, $B, $ACC3 |
| vpandn $ACC4, $B, $ACC4 |
| vpandn $ACC5, $B, $ACC5 |
| vpandn $ACC6, $B, $ACC6 |
| vpandn $ACC7, $B, $ACC7 |
| |
| vpand 32*0-128(%rax), $B, $T0 |
| vpandn $ACC8, $B, $ACC8 |
| vpand 32*1-128(%rax), $B, $Y |
| vpxor $T0, $ACC0, $ACC0 |
| vpand 32*2-128(%rax), $B, $T0 |
| vpxor $Y, $ACC1, $ACC1 |
| vpand 32*3-128(%rax), $B, $Y |
| vpxor $T0, $ACC2, $ACC2 |
| vpand 32*4-128(%rax), $B, $T0 |
| vpxor $Y, $ACC3, $ACC3 |
| vpand 32*5-128(%rax), $B, $Y |
| vpxor $T0, $ACC4, $ACC4 |
| vpand 32*6-128(%rax), $B, $T0 |
| vpxor $Y, $ACC5, $ACC5 |
| vpand 32*7-128(%rax), $B, $Y |
| vpxor $T0, $ACC6, $ACC6 |
| vpand 32*8-128(%rax), $B, $T0 |
| vpxor $Y, $ACC7, $ACC7 |
| vpxor $T0, $ACC8, $ACC8 |
| `&STORE` |
| |
| # R^2 = R^2 |
| lea `32*9*4`(%rsp), %rsi |
| lea `32*9*6`(%rsp), %rdi |
| lea `32*9*8+32*2`(%rsp), %rcx # temporary vector |
| call avx2_sqr_x4 |
| call avx2_normalize_n_store |
| |
| # H^2 = H^2 |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*5`(%rsp), %rdi |
| call avx2_sqr_x4 |
| call avx2_normalize_n_store |
| |
| # H^3 = H^2*H |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*5`(%rsp), %rdx |
| lea `32*9*7`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # U2 = U1*H^2 |
| lea `32*9*0`($a_ptr), %rsi |
| lea `32*9*5`(%rsp), %rdx |
| lea `32*9*0`(%rsp), %rdi |
| call avx2_mul_x4 |
| #call avx2_normalize |
| `&STORE` |
| |
| # Hsqr = U2*2 |
| #lea 32*9*0(%rsp), %rsi |
| #lea 32*9*5(%rsp), %rdi |
| #call avx2_mul_by2_x4 |
| |
| vpaddq $ACC0, $ACC0, $ACC0 # inlined avx2_mul_by2_x4 |
| lea `32*9*5`(%rsp), %rdi |
| vpaddq $ACC1, $ACC1, $ACC1 |
| vpaddq $ACC2, $ACC2, $ACC2 |
| vpaddq $ACC3, $ACC3, $ACC3 |
| vpaddq $ACC4, $ACC4, $ACC4 |
| vpaddq $ACC5, $ACC5, $ACC5 |
| vpaddq $ACC6, $ACC6, $ACC6 |
| vpaddq $ACC7, $ACC7, $ACC7 |
| vpaddq $ACC8, $ACC8, $ACC8 |
| call avx2_normalize_n_store |
| |
| # X3 = R^2 - H^3 |
| #lea 32*9*6(%rsp), %rsi |
| #lea 32*9*7(%rsp), %rdx |
| #lea 32*9*5(%rsp), %rcx |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_sub_x4 |
| #NORMALIZE |
| #STORE |
| |
| # X3 = X3 - U2*2 |
| #lea 32*9*0($r_ptr), %rsi |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_sub_x4 |
| #NORMALIZE |
| #STORE |
| |
| lea `32*9*6+128`(%rsp), %rsi |
| lea .LAVX2_POLY_x2+128(%rip), %rax |
| lea `32*9*7+128`(%rsp), %rdx |
| lea `32*9*5+128`(%rsp), %rcx |
| lea `32*9*0`($r_ptr), %rdi |
| |
| vmovdqa 32*0-128(%rsi), $ACC0 |
| vmovdqa 32*1-128(%rsi), $ACC1 |
| vmovdqa 32*2-128(%rsi), $ACC2 |
| vmovdqa 32*3-128(%rsi), $ACC3 |
| vmovdqa 32*4-128(%rsi), $ACC4 |
| vmovdqa 32*5-128(%rsi), $ACC5 |
| vmovdqa 32*6-128(%rsi), $ACC6 |
| vmovdqa 32*7-128(%rsi), $ACC7 |
| vmovdqa 32*8-128(%rsi), $ACC8 |
| |
| vpaddq 32*0-128(%rax), $ACC0, $ACC0 |
| vpaddq 32*1-128(%rax), $ACC1, $ACC1 |
| vpaddq 32*2-128(%rax), $ACC2, $ACC2 |
| vpaddq 32*3-128(%rax), $ACC3, $ACC3 |
| vpaddq 32*4-128(%rax), $ACC4, $ACC4 |
| vpaddq 32*5-128(%rax), $ACC5, $ACC5 |
| vpaddq 32*6-128(%rax), $ACC6, $ACC6 |
| vpaddq 32*7-128(%rax), $ACC7, $ACC7 |
| vpaddq 32*8-128(%rax), $ACC8, $ACC8 |
| |
| vpsubq 32*0-128(%rdx), $ACC0, $ACC0 |
| vpsubq 32*1-128(%rdx), $ACC1, $ACC1 |
| vpsubq 32*2-128(%rdx), $ACC2, $ACC2 |
| vpsubq 32*3-128(%rdx), $ACC3, $ACC3 |
| vpsubq 32*4-128(%rdx), $ACC4, $ACC4 |
| vpsubq 32*5-128(%rdx), $ACC5, $ACC5 |
| vpsubq 32*6-128(%rdx), $ACC6, $ACC6 |
| vpsubq 32*7-128(%rdx), $ACC7, $ACC7 |
| vpsubq 32*8-128(%rdx), $ACC8, $ACC8 |
| |
| vpsubq 32*0-128(%rcx), $ACC0, $ACC0 |
| vpsubq 32*1-128(%rcx), $ACC1, $ACC1 |
| vpsubq 32*2-128(%rcx), $ACC2, $ACC2 |
| vpsubq 32*3-128(%rcx), $ACC3, $ACC3 |
| vpsubq 32*4-128(%rcx), $ACC4, $ACC4 |
| vpsubq 32*5-128(%rcx), $ACC5, $ACC5 |
| vpsubq 32*6-128(%rcx), $ACC6, $ACC6 |
| vpsubq 32*7-128(%rcx), $ACC7, $ACC7 |
| vpsubq 32*8-128(%rcx), $ACC8, $ACC8 |
| call avx2_normalize |
| |
| lea 32*0($b_ptr), %rsi |
| lea 32*0($a_ptr), %rdx |
| call avx2_select_n_store |
| |
| # H = U2 - X3 |
| lea `32*9*0`(%rsp), %rsi |
| lea `32*9*0`($r_ptr), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize_n_store |
| |
| # H = H*R |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*4`(%rsp), %rdx |
| lea `32*9*3`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # S2 = S1 * H^3 |
| lea `32*9*7`(%rsp), %rsi |
| lea `32*9*1`($a_ptr), %rdx |
| lea `32*9*1`(%rsp), %rdi |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| # |
| lea `32*9*3`(%rsp), %rsi |
| lea `32*9*1`(%rsp), %rdx |
| lea `32*9*1`($r_ptr), %rdi |
| call avx2_sub_x4 |
| call avx2_normalize |
| |
| lea 32*9($b_ptr), %rsi |
| lea 32*9($a_ptr), %rdx |
| call avx2_select_n_store |
| |
| #lea 32*9*0($r_ptr), %rsi |
| #lea 32*9*0($r_ptr), %rdi |
| #call avx2_mul_by1_x4 |
| #NORMALIZE |
| #STORE |
| |
| lea `32*9*1`($r_ptr), %rsi |
| lea `32*9*1`($r_ptr), %rdi |
| call avx2_mul_by1_x4 |
| call avx2_normalize_n_store |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps %xmm6, -16*10(%rbp) |
| movaps %xmm7, -16*9(%rbp) |
| movaps %xmm8, -16*8(%rbp) |
| movaps %xmm9, -16*7(%rbp) |
| movaps %xmm10, -16*6(%rbp) |
| movaps %xmm11, -16*5(%rbp) |
| movaps %xmm12, -16*4(%rbp) |
| movaps %xmm13, -16*3(%rbp) |
| movaps %xmm14, -16*2(%rbp) |
| movaps %xmm15, -16*1(%rbp) |
| ___ |
| $code.=<<___; |
| mov %rbp, %rsp |
| pop %rbp |
| ret |
| .size ecp_nistz256_avx2_point_add_affines_x4,.-ecp_nistz256_avx2_point_add_affines_x4 |
| |
| ################################################################################ |
| # void ecp_nistz256_avx2_to_mont(void* RESULTx4, void *Ax4); |
| .globl ecp_nistz256_avx2_to_mont |
| .type ecp_nistz256_avx2_to_mont,\@function,2 |
| .align 32 |
| ecp_nistz256_avx2_to_mont: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -8-16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| vmovdqa .LAVX2_AND_MASK(%rip), $AND_MASK |
| lea .LTO_MONT_AVX2(%rip), %rdx |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps 16*0(%rsp), %xmm6 |
| movaps 16*1(%rsp), %xmm7 |
| movaps 16*2(%rsp), %xmm8 |
| movaps 16*3(%rsp), %xmm9 |
| movaps 16*4(%rsp), %xmm10 |
| movaps 16*5(%rsp), %xmm11 |
| movaps 16*6(%rsp), %xmm12 |
| movaps 16*7(%rsp), %xmm13 |
| movaps 16*8(%rsp), %xmm14 |
| movaps 16*9(%rsp), %xmm15 |
| lea 8+16*10(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .size ecp_nistz256_avx2_to_mont,.-ecp_nistz256_avx2_to_mont |
| |
| ################################################################################ |
| # void ecp_nistz256_avx2_from_mont(void* RESULTx4, void *Ax4); |
| .globl ecp_nistz256_avx2_from_mont |
| .type ecp_nistz256_avx2_from_mont,\@function,2 |
| .align 32 |
| ecp_nistz256_avx2_from_mont: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -8-16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| vmovdqa .LAVX2_AND_MASK(%rip), $AND_MASK |
| lea .LFROM_MONT_AVX2(%rip), %rdx |
| call avx2_mul_x4 |
| call avx2_normalize_n_store |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps 16*0(%rsp), %xmm6 |
| movaps 16*1(%rsp), %xmm7 |
| movaps 16*2(%rsp), %xmm8 |
| movaps 16*3(%rsp), %xmm9 |
| movaps 16*4(%rsp), %xmm10 |
| movaps 16*5(%rsp), %xmm11 |
| movaps 16*6(%rsp), %xmm12 |
| movaps 16*7(%rsp), %xmm13 |
| movaps 16*8(%rsp), %xmm14 |
| movaps 16*9(%rsp), %xmm15 |
| lea 8+16*10(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .size ecp_nistz256_avx2_from_mont,.-ecp_nistz256_avx2_from_mont |
| |
| ################################################################################ |
| # void ecp_nistz256_avx2_set1(void* RESULTx4); |
| .globl ecp_nistz256_avx2_set1 |
| .type ecp_nistz256_avx2_set1,\@function,1 |
| .align 32 |
| ecp_nistz256_avx2_set1: |
| lea .LONE+128(%rip), %rax |
| lea 128(%rdi), %rdi |
| vzeroupper |
| vmovdqa 32*0-128(%rax), %ymm0 |
| vmovdqa 32*1-128(%rax), %ymm1 |
| vmovdqa 32*2-128(%rax), %ymm2 |
| vmovdqa 32*3-128(%rax), %ymm3 |
| vmovdqa 32*4-128(%rax), %ymm4 |
| vmovdqa 32*5-128(%rax), %ymm5 |
| vmovdqa %ymm0, 32*0-128(%rdi) |
| vmovdqa 32*6-128(%rax), %ymm0 |
| vmovdqa %ymm1, 32*1-128(%rdi) |
| vmovdqa 32*7-128(%rax), %ymm1 |
| vmovdqa %ymm2, 32*2-128(%rdi) |
| vmovdqa 32*8-128(%rax), %ymm2 |
| vmovdqa %ymm3, 32*3-128(%rdi) |
| vmovdqa %ymm4, 32*4-128(%rdi) |
| vmovdqa %ymm5, 32*5-128(%rdi) |
| vmovdqa %ymm0, 32*6-128(%rdi) |
| vmovdqa %ymm1, 32*7-128(%rdi) |
| vmovdqa %ymm2, 32*8-128(%rdi) |
| |
| vzeroupper |
| ret |
| .size ecp_nistz256_avx2_set1,.-ecp_nistz256_avx2_set1 |
| ___ |
| } |
| { |
| ################################################################################ |
| # void ecp_nistz256_avx2_multi_gather_w7(void* RESULT, void *in, |
| # int index0, int index1, int index2, int index3); |
| ################################################################################ |
| |
| my ($val,$in_t,$index0,$index1,$index2,$index3)=("%rdi","%rsi","%edx","%ecx","%r8d","%r9d"); |
| my ($INDEX0,$INDEX1,$INDEX2,$INDEX3)=map("%ymm$_",(0..3)); |
| my ($R0a,$R0b,$R1a,$R1b,$R2a,$R2b,$R3a,$R3b)=map("%ymm$_",(4..11)); |
| my ($M0,$T0,$T1,$TMP0)=map("%ymm$_",(12..15)); |
| |
| $code.=<<___; |
| .globl ecp_nistz256_avx2_multi_gather_w7 |
| .type ecp_nistz256_avx2_multi_gather_w7,\@function,6 |
| .align 32 |
| ecp_nistz256_avx2_multi_gather_w7: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -8-16*10(%rsp), %rsp |
| vmovaps %xmm6, -8-16*10(%rax) |
| vmovaps %xmm7, -8-16*9(%rax) |
| vmovaps %xmm8, -8-16*8(%rax) |
| vmovaps %xmm9, -8-16*7(%rax) |
| vmovaps %xmm10, -8-16*6(%rax) |
| vmovaps %xmm11, -8-16*5(%rax) |
| vmovaps %xmm12, -8-16*4(%rax) |
| vmovaps %xmm13, -8-16*3(%rax) |
| vmovaps %xmm14, -8-16*2(%rax) |
| vmovaps %xmm15, -8-16*1(%rax) |
| ___ |
| $code.=<<___; |
| lea .LIntOne(%rip), %rax |
| |
| vmovd $index0, %xmm0 |
| vmovd $index1, %xmm1 |
| vmovd $index2, %xmm2 |
| vmovd $index3, %xmm3 |
| |
| vpxor $R0a, $R0a, $R0a |
| vpxor $R0b, $R0b, $R0b |
| vpxor $R1a, $R1a, $R1a |
| vpxor $R1b, $R1b, $R1b |
| vpxor $R2a, $R2a, $R2a |
| vpxor $R2b, $R2b, $R2b |
| vpxor $R3a, $R3a, $R3a |
| vpxor $R3b, $R3b, $R3b |
| vmovdqa (%rax), $M0 |
| |
| vpermd $INDEX0, $R0a, $INDEX0 |
| vpermd $INDEX1, $R0a, $INDEX1 |
| vpermd $INDEX2, $R0a, $INDEX2 |
| vpermd $INDEX3, $R0a, $INDEX3 |
| |
| mov \$64, %ecx |
| lea 112($val), $val # size optimization |
| jmp .Lmulti_select_loop_avx2 |
| |
| # INDEX=0, corresponds to the point at infty (0,0) |
| .align 32 |
| .Lmulti_select_loop_avx2: |
| vpcmpeqd $INDEX0, $M0, $TMP0 |
| |
| vmovdqa `32*0+32*64*2*0`($in_t), $T0 |
| vmovdqa `32*1+32*64*2*0`($in_t), $T1 |
| vpand $TMP0, $T0, $T0 |
| vpand $TMP0, $T1, $T1 |
| vpxor $T0, $R0a, $R0a |
| vpxor $T1, $R0b, $R0b |
| |
| vpcmpeqd $INDEX1, $M0, $TMP0 |
| |
| vmovdqa `32*0+32*64*2*1`($in_t), $T0 |
| vmovdqa `32*1+32*64*2*1`($in_t), $T1 |
| vpand $TMP0, $T0, $T0 |
| vpand $TMP0, $T1, $T1 |
| vpxor $T0, $R1a, $R1a |
| vpxor $T1, $R1b, $R1b |
| |
| vpcmpeqd $INDEX2, $M0, $TMP0 |
| |
| vmovdqa `32*0+32*64*2*2`($in_t), $T0 |
| vmovdqa `32*1+32*64*2*2`($in_t), $T1 |
| vpand $TMP0, $T0, $T0 |
| vpand $TMP0, $T1, $T1 |
| vpxor $T0, $R2a, $R2a |
| vpxor $T1, $R2b, $R2b |
| |
| vpcmpeqd $INDEX3, $M0, $TMP0 |
| |
| vmovdqa `32*0+32*64*2*3`($in_t), $T0 |
| vmovdqa `32*1+32*64*2*3`($in_t), $T1 |
| vpand $TMP0, $T0, $T0 |
| vpand $TMP0, $T1, $T1 |
| vpxor $T0, $R3a, $R3a |
| vpxor $T1, $R3b, $R3b |
| |
| vpaddd (%rax), $M0, $M0 # increment |
| lea 32*2($in_t), $in_t |
| |
| dec %ecx |
| jnz .Lmulti_select_loop_avx2 |
| |
| vmovdqu $R0a, 32*0-112($val) |
| vmovdqu $R0b, 32*1-112($val) |
| vmovdqu $R1a, 32*2-112($val) |
| vmovdqu $R1b, 32*3-112($val) |
| vmovdqu $R2a, 32*4-112($val) |
| vmovdqu $R2b, 32*5-112($val) |
| vmovdqu $R3a, 32*6-112($val) |
| vmovdqu $R3b, 32*7-112($val) |
| |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps 16*0(%rsp), %xmm6 |
| movaps 16*1(%rsp), %xmm7 |
| movaps 16*2(%rsp), %xmm8 |
| movaps 16*3(%rsp), %xmm9 |
| movaps 16*4(%rsp), %xmm10 |
| movaps 16*5(%rsp), %xmm11 |
| movaps 16*6(%rsp), %xmm12 |
| movaps 16*7(%rsp), %xmm13 |
| movaps 16*8(%rsp), %xmm14 |
| movaps 16*9(%rsp), %xmm15 |
| lea 8+16*10(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .size ecp_nistz256_avx2_multi_gather_w7,.-ecp_nistz256_avx2_multi_gather_w7 |
| |
| .extern OPENSSL_ia32cap_P |
| .globl ecp_nistz_avx2_eligible |
| .type ecp_nistz_avx2_eligible,\@abi-omnipotent |
| .align 32 |
| ecp_nistz_avx2_eligible: |
| mov OPENSSL_ia32cap_P+8(%rip),%eax |
| shr \$5,%eax |
| and \$1,%eax |
| ret |
| .size ecp_nistz_avx2_eligible,.-ecp_nistz_avx2_eligible |
| ___ |
| } |
| }} else {{ # assembler is too old |
| $code.=<<___; |
| .text |
| |
| .globl ecp_nistz256_avx2_transpose_convert |
| .globl ecp_nistz256_avx2_convert_transpose_back |
| .globl ecp_nistz256_avx2_point_add_affine_x4 |
| .globl ecp_nistz256_avx2_point_add_affines_x4 |
| .globl ecp_nistz256_avx2_to_mont |
| .globl ecp_nistz256_avx2_from_mont |
| .globl ecp_nistz256_avx2_set1 |
| .globl ecp_nistz256_avx2_multi_gather_w7 |
| .type ecp_nistz256_avx2_multi_gather_w7,\@abi-omnipotent |
| ecp_nistz256_avx2_transpose_convert: |
| ecp_nistz256_avx2_convert_transpose_back: |
| ecp_nistz256_avx2_point_add_affine_x4: |
| ecp_nistz256_avx2_point_add_affines_x4: |
| ecp_nistz256_avx2_to_mont: |
| ecp_nistz256_avx2_from_mont: |
| ecp_nistz256_avx2_set1: |
| ecp_nistz256_avx2_multi_gather_w7: |
| .byte 0x0f,0x0b # ud2 |
| ret |
| .size ecp_nistz256_avx2_multi_gather_w7,.-ecp_nistz256_avx2_multi_gather_w7 |
| |
| .globl ecp_nistz_avx2_eligible |
| .type ecp_nistz_avx2_eligible,\@abi-omnipotent |
| ecp_nistz_avx2_eligible: |
| xor %eax,%eax |
| ret |
| .size ecp_nistz_avx2_eligible,.-ecp_nistz_avx2_eligible |
| ___ |
| }} |
| |
| foreach (split("\n",$code)) { |
| s/\`([^\`]*)\`/eval($1)/geo; |
| |
| print $_,"\n"; |
| } |
| |
| close STDOUT; |
