| #! /usr/bin/env perl |
| # Copyright 2014-2016 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" |
| |
| # Further optimization by <appro@openssl.org>: |
| # |
| # this/original with/without -DECP_NISTZ256_ASM(*) |
| # Opteron +12-49% +110-150% |
| # Bulldozer +14-45% +175-210% |
| # P4 +18-46% n/a :-( |
| # Westmere +12-34% +80-87% |
| # Sandy Bridge +9-35% +110-120% |
| # Ivy Bridge +9-35% +110-125% |
| # Haswell +8-37% +140-160% |
| # Broadwell +18-58% +145-210% |
| # Atom +15-50% +130-180% |
| # VIA Nano +43-160% +300-480% |
| # |
| # (*) "without -DECP_NISTZ256_ASM" refers to build with |
| # "enable-ec_nistp_64_gcc_128"; |
| # |
| # Ranges denote minimum and maximum improvement coefficients depending |
| # on benchmark. Lower coefficients are for ECDSA sign, relatively fastest |
| # server-side operation. Keep in mind that +100% means 2x improvement. |
| |
| $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; |
| |
| # TODO(davidben): Set $addx to one once build problems are resolved. |
| $avx = 2; |
| $addx = 0; |
| |
| $code.=<<___; |
| .text |
| .extern OPENSSL_ia32cap_P |
| |
| # The polynomial |
| .align 64 |
| .Lpoly: |
| .quad 0xffffffffffffffff, 0x00000000ffffffff, 0x0000000000000000, 0xffffffff00000001 |
| |
| .LOne: |
| .long 1,1,1,1,1,1,1,1 |
| .LTwo: |
| .long 2,2,2,2,2,2,2,2 |
| .LThree: |
| .long 3,3,3,3,3,3,3,3 |
| .LONE_mont: |
| .quad 0x0000000000000001, 0xffffffff00000000, 0xffffffffffffffff, 0x00000000fffffffe |
| ___ |
| |
| { |
| my ($a0,$a1,$a2,$a3)=map("%r$_",(8..11)); |
| my ($t0,$t1,$t2,$t3,$t4)=("%rax","%rdx","%rcx","%r12","%r13"); |
| my ($r_ptr,$a_ptr,$b_ptr)=("%rdi","%rsi","%rdx"); |
| |
| $code.=<<___; |
| |
| ################################################################################ |
| # void ecp_nistz256_neg(uint64_t res[4], uint64_t a[4]); |
| .globl ecp_nistz256_neg |
| .type ecp_nistz256_neg,\@function,2 |
| .align 32 |
| ecp_nistz256_neg: |
| .cfi_startproc |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| .Lneg_body: |
| |
| xor $a0, $a0 |
| xor $a1, $a1 |
| xor $a2, $a2 |
| xor $a3, $a3 |
| xor $t4, $t4 |
| |
| sub 8*0($a_ptr), $a0 |
| sbb 8*1($a_ptr), $a1 |
| sbb 8*2($a_ptr), $a2 |
| mov $a0, $t0 |
| sbb 8*3($a_ptr), $a3 |
| lea .Lpoly(%rip), $a_ptr |
| mov $a1, $t1 |
| sbb \$0, $t4 |
| |
| add 8*0($a_ptr), $a0 |
| mov $a2, $t2 |
| adc 8*1($a_ptr), $a1 |
| adc 8*2($a_ptr), $a2 |
| mov $a3, $t3 |
| adc 8*3($a_ptr), $a3 |
| test $t4, $t4 |
| |
| cmovz $t0, $a0 |
| cmovz $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovz $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovz $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| mov 0(%rsp),%r13 |
| .cfi_restore %r13 |
| mov 8(%rsp),%r12 |
| .cfi_restore %r12 |
| lea 16(%rsp),%rsp |
| .cfi_adjust_cfa_offset -16 |
| .Lneg_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_neg,.-ecp_nistz256_neg |
| ___ |
| } |
| { |
| my ($r_ptr,$a_ptr,$b_org,$b_ptr)=("%rdi","%rsi","%rdx","%rbx"); |
| my ($acc0,$acc1,$acc2,$acc3,$acc4,$acc5,$acc6,$acc7)=map("%r$_",(8..15)); |
| my ($t0,$t1,$t2,$t3,$t4)=("%rcx","%rbp","%rbx","%rdx","%rax"); |
| my ($poly1,$poly3)=($acc6,$acc7); |
| |
| $code.=<<___; |
| ################################################################################ |
| # void ecp_nistz256_mul_mont( |
| # uint64_t res[4], |
| # uint64_t a[4], |
| # uint64_t b[4]); |
| |
| .globl ecp_nistz256_mul_mont |
| .type ecp_nistz256_mul_mont,\@function,3 |
| .align 32 |
| ecp_nistz256_mul_mont: |
| .cfi_startproc |
| ___ |
| $code.=<<___ if ($addx); |
| leaq OPENSSL_ia32cap_P(%rip), %rcx |
| mov 8(%rcx), %rcx |
| and \$0x80100, %ecx |
| ___ |
| $code.=<<___; |
| .Lmul_mont: |
| push %rbp |
| .cfi_push %rbp |
| push %rbx |
| .cfi_push %rbx |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| push %r14 |
| .cfi_push %r14 |
| push %r15 |
| .cfi_push %r15 |
| .Lmul_body: |
| ___ |
| $code.=<<___ if ($addx); |
| cmp \$0x80100, %ecx |
| je .Lmul_montx |
| ___ |
| $code.=<<___; |
| mov $b_org, $b_ptr |
| mov 8*0($b_org), %rax |
| mov 8*0($a_ptr), $acc1 |
| mov 8*1($a_ptr), $acc2 |
| mov 8*2($a_ptr), $acc3 |
| mov 8*3($a_ptr), $acc4 |
| |
| call __ecp_nistz256_mul_montq |
| ___ |
| $code.=<<___ if ($addx); |
| jmp .Lmul_mont_done |
| |
| .align 32 |
| .Lmul_montx: |
| mov $b_org, $b_ptr |
| mov 8*0($b_org), %rdx |
| mov 8*0($a_ptr), $acc1 |
| mov 8*1($a_ptr), $acc2 |
| mov 8*2($a_ptr), $acc3 |
| mov 8*3($a_ptr), $acc4 |
| lea -128($a_ptr), $a_ptr # control u-op density |
| |
| call __ecp_nistz256_mul_montx |
| ___ |
| $code.=<<___; |
| .Lmul_mont_done: |
| mov 0(%rsp),%r15 |
| .cfi_restore %r15 |
| mov 8(%rsp),%r14 |
| .cfi_restore %r14 |
| mov 16(%rsp),%r13 |
| .cfi_restore %r13 |
| mov 24(%rsp),%r12 |
| .cfi_restore %r12 |
| mov 32(%rsp),%rbx |
| .cfi_restore %rbx |
| mov 40(%rsp),%rbp |
| .cfi_restore %rbp |
| lea 48(%rsp),%rsp |
| .cfi_adjust_cfa_offset -48 |
| .Lmul_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_mul_mont,.-ecp_nistz256_mul_mont |
| |
| .type __ecp_nistz256_mul_montq,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_mul_montq: |
| ######################################################################## |
| # Multiply a by b[0] |
| mov %rax, $t1 |
| mulq $acc1 |
| mov .Lpoly+8*1(%rip),$poly1 |
| mov %rax, $acc0 |
| mov $t1, %rax |
| mov %rdx, $acc1 |
| |
| mulq $acc2 |
| mov .Lpoly+8*3(%rip),$poly3 |
| add %rax, $acc1 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $acc2 |
| |
| mulq $acc3 |
| add %rax, $acc2 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $acc3 |
| |
| mulq $acc4 |
| add %rax, $acc3 |
| mov $acc0, %rax |
| adc \$0, %rdx |
| xor $acc5, $acc5 |
| mov %rdx, $acc4 |
| |
| ######################################################################## |
| # First reduction step |
| # Basically now we want to multiply acc[0] by p256, |
| # and add the result to the acc. |
| # Due to the special form of p256 we do some optimizations |
| # |
| # acc[0] x p256[0..1] = acc[0] x 2^96 - acc[0] |
| # then we add acc[0] and get acc[0] x 2^96 |
| |
| mov $acc0, $t1 |
| shl \$32, $acc0 |
| mulq $poly3 |
| shr \$32, $t1 |
| add $acc0, $acc1 # +=acc[0]<<96 |
| adc $t1, $acc2 |
| adc %rax, $acc3 |
| mov 8*1($b_ptr), %rax |
| adc %rdx, $acc4 |
| adc \$0, $acc5 |
| xor $acc0, $acc0 |
| |
| ######################################################################## |
| # Multiply by b[1] |
| mov %rax, $t1 |
| mulq 8*0($a_ptr) |
| add %rax, $acc1 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*1($a_ptr) |
| add $t0, $acc2 |
| adc \$0, %rdx |
| add %rax, $acc2 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*2($a_ptr) |
| add $t0, $acc3 |
| adc \$0, %rdx |
| add %rax, $acc3 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*3($a_ptr) |
| add $t0, $acc4 |
| adc \$0, %rdx |
| add %rax, $acc4 |
| mov $acc1, %rax |
| adc %rdx, $acc5 |
| adc \$0, $acc0 |
| |
| ######################################################################## |
| # Second reduction step |
| mov $acc1, $t1 |
| shl \$32, $acc1 |
| mulq $poly3 |
| shr \$32, $t1 |
| add $acc1, $acc2 |
| adc $t1, $acc3 |
| adc %rax, $acc4 |
| mov 8*2($b_ptr), %rax |
| adc %rdx, $acc5 |
| adc \$0, $acc0 |
| xor $acc1, $acc1 |
| |
| ######################################################################## |
| # Multiply by b[2] |
| mov %rax, $t1 |
| mulq 8*0($a_ptr) |
| add %rax, $acc2 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*1($a_ptr) |
| add $t0, $acc3 |
| adc \$0, %rdx |
| add %rax, $acc3 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*2($a_ptr) |
| add $t0, $acc4 |
| adc \$0, %rdx |
| add %rax, $acc4 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*3($a_ptr) |
| add $t0, $acc5 |
| adc \$0, %rdx |
| add %rax, $acc5 |
| mov $acc2, %rax |
| adc %rdx, $acc0 |
| adc \$0, $acc1 |
| |
| ######################################################################## |
| # Third reduction step |
| mov $acc2, $t1 |
| shl \$32, $acc2 |
| mulq $poly3 |
| shr \$32, $t1 |
| add $acc2, $acc3 |
| adc $t1, $acc4 |
| adc %rax, $acc5 |
| mov 8*3($b_ptr), %rax |
| adc %rdx, $acc0 |
| adc \$0, $acc1 |
| xor $acc2, $acc2 |
| |
| ######################################################################## |
| # Multiply by b[3] |
| mov %rax, $t1 |
| mulq 8*0($a_ptr) |
| add %rax, $acc3 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*1($a_ptr) |
| add $t0, $acc4 |
| adc \$0, %rdx |
| add %rax, $acc4 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*2($a_ptr) |
| add $t0, $acc5 |
| adc \$0, %rdx |
| add %rax, $acc5 |
| mov $t1, %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq 8*3($a_ptr) |
| add $t0, $acc0 |
| adc \$0, %rdx |
| add %rax, $acc0 |
| mov $acc3, %rax |
| adc %rdx, $acc1 |
| adc \$0, $acc2 |
| |
| ######################################################################## |
| # Final reduction step |
| mov $acc3, $t1 |
| shl \$32, $acc3 |
| mulq $poly3 |
| shr \$32, $t1 |
| add $acc3, $acc4 |
| adc $t1, $acc5 |
| mov $acc4, $t0 |
| adc %rax, $acc0 |
| adc %rdx, $acc1 |
| mov $acc5, $t1 |
| adc \$0, $acc2 |
| |
| ######################################################################## |
| # Branch-less conditional subtraction of P |
| sub \$-1, $acc4 # .Lpoly[0] |
| mov $acc0, $t2 |
| sbb $poly1, $acc5 # .Lpoly[1] |
| sbb \$0, $acc0 # .Lpoly[2] |
| mov $acc1, $t3 |
| sbb $poly3, $acc1 # .Lpoly[3] |
| sbb \$0, $acc2 |
| |
| cmovc $t0, $acc4 |
| cmovc $t1, $acc5 |
| mov $acc4, 8*0($r_ptr) |
| cmovc $t2, $acc0 |
| mov $acc5, 8*1($r_ptr) |
| cmovc $t3, $acc1 |
| mov $acc0, 8*2($r_ptr) |
| mov $acc1, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_mul_montq,.-__ecp_nistz256_mul_montq |
| |
| ################################################################################ |
| # void ecp_nistz256_sqr_mont( |
| # uint64_t res[4], |
| # uint64_t a[4]); |
| |
| # we optimize the square according to S.Gueron and V.Krasnov, |
| # "Speeding up Big-Number Squaring" |
| .globl ecp_nistz256_sqr_mont |
| .type ecp_nistz256_sqr_mont,\@function,2 |
| .align 32 |
| ecp_nistz256_sqr_mont: |
| .cfi_startproc |
| ___ |
| $code.=<<___ if ($addx); |
| leaq OPENSSL_ia32cap_P(%rip), %rcx |
| mov 8(%rcx), %rcx |
| and \$0x80100, %ecx |
| ___ |
| $code.=<<___; |
| push %rbp |
| .cfi_push %rbp |
| push %rbx |
| .cfi_push %rbx |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| push %r14 |
| .cfi_push %r14 |
| push %r15 |
| .cfi_push %r15 |
| .Lsqr_body: |
| ___ |
| $code.=<<___ if ($addx); |
| cmp \$0x80100, %ecx |
| je .Lsqr_montx |
| ___ |
| $code.=<<___; |
| mov 8*0($a_ptr), %rax |
| mov 8*1($a_ptr), $acc6 |
| mov 8*2($a_ptr), $acc7 |
| mov 8*3($a_ptr), $acc0 |
| |
| call __ecp_nistz256_sqr_montq |
| ___ |
| $code.=<<___ if ($addx); |
| jmp .Lsqr_mont_done |
| |
| .align 32 |
| .Lsqr_montx: |
| mov 8*0($a_ptr), %rdx |
| mov 8*1($a_ptr), $acc6 |
| mov 8*2($a_ptr), $acc7 |
| mov 8*3($a_ptr), $acc0 |
| lea -128($a_ptr), $a_ptr # control u-op density |
| |
| call __ecp_nistz256_sqr_montx |
| ___ |
| $code.=<<___; |
| .Lsqr_mont_done: |
| mov 0(%rsp),%r15 |
| .cfi_restore %r15 |
| mov 8(%rsp),%r14 |
| .cfi_restore %r14 |
| mov 16(%rsp),%r13 |
| .cfi_restore %r13 |
| mov 24(%rsp),%r12 |
| .cfi_restore %r12 |
| mov 32(%rsp),%rbx |
| .cfi_restore %rbx |
| mov 40(%rsp),%rbp |
| .cfi_restore %rbp |
| lea 48(%rsp),%rsp |
| .cfi_adjust_cfa_offset -48 |
| .Lsqr_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_sqr_mont,.-ecp_nistz256_sqr_mont |
| |
| .type __ecp_nistz256_sqr_montq,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_sqr_montq: |
| mov %rax, $acc5 |
| mulq $acc6 # a[1]*a[0] |
| mov %rax, $acc1 |
| mov $acc7, %rax |
| mov %rdx, $acc2 |
| |
| mulq $acc5 # a[0]*a[2] |
| add %rax, $acc2 |
| mov $acc0, %rax |
| adc \$0, %rdx |
| mov %rdx, $acc3 |
| |
| mulq $acc5 # a[0]*a[3] |
| add %rax, $acc3 |
| mov $acc7, %rax |
| adc \$0, %rdx |
| mov %rdx, $acc4 |
| |
| ################################# |
| mulq $acc6 # a[1]*a[2] |
| add %rax, $acc3 |
| mov $acc0, %rax |
| adc \$0, %rdx |
| mov %rdx, $t1 |
| |
| mulq $acc6 # a[1]*a[3] |
| add %rax, $acc4 |
| mov $acc0, %rax |
| adc \$0, %rdx |
| add $t1, $acc4 |
| mov %rdx, $acc5 |
| adc \$0, $acc5 |
| |
| ################################# |
| mulq $acc7 # a[2]*a[3] |
| xor $acc7, $acc7 |
| add %rax, $acc5 |
| mov 8*0($a_ptr), %rax |
| mov %rdx, $acc6 |
| adc \$0, $acc6 |
| |
| add $acc1, $acc1 # acc1:6<<1 |
| adc $acc2, $acc2 |
| adc $acc3, $acc3 |
| adc $acc4, $acc4 |
| adc $acc5, $acc5 |
| adc $acc6, $acc6 |
| adc \$0, $acc7 |
| |
| mulq %rax |
| mov %rax, $acc0 |
| mov 8*1($a_ptr), %rax |
| mov %rdx, $t0 |
| |
| mulq %rax |
| add $t0, $acc1 |
| adc %rax, $acc2 |
| mov 8*2($a_ptr), %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq %rax |
| add $t0, $acc3 |
| adc %rax, $acc4 |
| mov 8*3($a_ptr), %rax |
| adc \$0, %rdx |
| mov %rdx, $t0 |
| |
| mulq %rax |
| add $t0, $acc5 |
| adc %rax, $acc6 |
| mov $acc0, %rax |
| adc %rdx, $acc7 |
| |
| mov .Lpoly+8*1(%rip), $a_ptr |
| mov .Lpoly+8*3(%rip), $t1 |
| |
| ########################################## |
| # Now the reduction |
| # First iteration |
| mov $acc0, $t0 |
| shl \$32, $acc0 |
| mulq $t1 |
| shr \$32, $t0 |
| add $acc0, $acc1 # +=acc[0]<<96 |
| adc $t0, $acc2 |
| adc %rax, $acc3 |
| mov $acc1, %rax |
| adc \$0, %rdx |
| |
| ########################################## |
| # Second iteration |
| mov $acc1, $t0 |
| shl \$32, $acc1 |
| mov %rdx, $acc0 |
| mulq $t1 |
| shr \$32, $t0 |
| add $acc1, $acc2 |
| adc $t0, $acc3 |
| adc %rax, $acc0 |
| mov $acc2, %rax |
| adc \$0, %rdx |
| |
| ########################################## |
| # Third iteration |
| mov $acc2, $t0 |
| shl \$32, $acc2 |
| mov %rdx, $acc1 |
| mulq $t1 |
| shr \$32, $t0 |
| add $acc2, $acc3 |
| adc $t0, $acc0 |
| adc %rax, $acc1 |
| mov $acc3, %rax |
| adc \$0, %rdx |
| |
| ########################################### |
| # Last iteration |
| mov $acc3, $t0 |
| shl \$32, $acc3 |
| mov %rdx, $acc2 |
| mulq $t1 |
| shr \$32, $t0 |
| add $acc3, $acc0 |
| adc $t0, $acc1 |
| adc %rax, $acc2 |
| adc \$0, %rdx |
| xor $acc3, $acc3 |
| |
| ############################################ |
| # Add the rest of the acc |
| add $acc0, $acc4 |
| adc $acc1, $acc5 |
| mov $acc4, $acc0 |
| adc $acc2, $acc6 |
| adc %rdx, $acc7 |
| mov $acc5, $acc1 |
| adc \$0, $acc3 |
| |
| sub \$-1, $acc4 # .Lpoly[0] |
| mov $acc6, $acc2 |
| sbb $a_ptr, $acc5 # .Lpoly[1] |
| sbb \$0, $acc6 # .Lpoly[2] |
| mov $acc7, $t0 |
| sbb $t1, $acc7 # .Lpoly[3] |
| sbb \$0, $acc3 |
| |
| cmovc $acc0, $acc4 |
| cmovc $acc1, $acc5 |
| mov $acc4, 8*0($r_ptr) |
| cmovc $acc2, $acc6 |
| mov $acc5, 8*1($r_ptr) |
| cmovc $t0, $acc7 |
| mov $acc6, 8*2($r_ptr) |
| mov $acc7, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_sqr_montq,.-__ecp_nistz256_sqr_montq |
| ___ |
| |
| if ($addx) { |
| $code.=<<___; |
| .type __ecp_nistz256_mul_montx,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_mul_montx: |
| ######################################################################## |
| # Multiply by b[0] |
| mulx $acc1, $acc0, $acc1 |
| mulx $acc2, $t0, $acc2 |
| mov \$32, $poly1 |
| xor $acc5, $acc5 # cf=0 |
| mulx $acc3, $t1, $acc3 |
| mov .Lpoly+8*3(%rip), $poly3 |
| adc $t0, $acc1 |
| mulx $acc4, $t0, $acc4 |
| mov $acc0, %rdx |
| adc $t1, $acc2 |
| shlx $poly1,$acc0,$t1 |
| adc $t0, $acc3 |
| shrx $poly1,$acc0,$t0 |
| adc \$0, $acc4 |
| |
| ######################################################################## |
| # First reduction step |
| add $t1, $acc1 |
| adc $t0, $acc2 |
| |
| mulx $poly3, $t0, $t1 |
| mov 8*1($b_ptr), %rdx |
| adc $t0, $acc3 |
| adc $t1, $acc4 |
| adc \$0, $acc5 |
| xor $acc0, $acc0 # $acc0=0,cf=0,of=0 |
| |
| ######################################################################## |
| # Multiply by b[1] |
| mulx 8*0+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc1 |
| adox $t1, $acc2 |
| |
| mulx 8*1+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc2 |
| adox $t1, $acc3 |
| |
| mulx 8*2+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc3 |
| adox $t1, $acc4 |
| |
| mulx 8*3+128($a_ptr), $t0, $t1 |
| mov $acc1, %rdx |
| adcx $t0, $acc4 |
| shlx $poly1, $acc1, $t0 |
| adox $t1, $acc5 |
| shrx $poly1, $acc1, $t1 |
| |
| adcx $acc0, $acc5 |
| adox $acc0, $acc0 |
| adc \$0, $acc0 |
| |
| ######################################################################## |
| # Second reduction step |
| add $t0, $acc2 |
| adc $t1, $acc3 |
| |
| mulx $poly3, $t0, $t1 |
| mov 8*2($b_ptr), %rdx |
| adc $t0, $acc4 |
| adc $t1, $acc5 |
| adc \$0, $acc0 |
| xor $acc1 ,$acc1 # $acc1=0,cf=0,of=0 |
| |
| ######################################################################## |
| # Multiply by b[2] |
| mulx 8*0+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc2 |
| adox $t1, $acc3 |
| |
| mulx 8*1+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc3 |
| adox $t1, $acc4 |
| |
| mulx 8*2+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc4 |
| adox $t1, $acc5 |
| |
| mulx 8*3+128($a_ptr), $t0, $t1 |
| mov $acc2, %rdx |
| adcx $t0, $acc5 |
| shlx $poly1, $acc2, $t0 |
| adox $t1, $acc0 |
| shrx $poly1, $acc2, $t1 |
| |
| adcx $acc1, $acc0 |
| adox $acc1, $acc1 |
| adc \$0, $acc1 |
| |
| ######################################################################## |
| # Third reduction step |
| add $t0, $acc3 |
| adc $t1, $acc4 |
| |
| mulx $poly3, $t0, $t1 |
| mov 8*3($b_ptr), %rdx |
| adc $t0, $acc5 |
| adc $t1, $acc0 |
| adc \$0, $acc1 |
| xor $acc2, $acc2 # $acc2=0,cf=0,of=0 |
| |
| ######################################################################## |
| # Multiply by b[3] |
| mulx 8*0+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc3 |
| adox $t1, $acc4 |
| |
| mulx 8*1+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc4 |
| adox $t1, $acc5 |
| |
| mulx 8*2+128($a_ptr), $t0, $t1 |
| adcx $t0, $acc5 |
| adox $t1, $acc0 |
| |
| mulx 8*3+128($a_ptr), $t0, $t1 |
| mov $acc3, %rdx |
| adcx $t0, $acc0 |
| shlx $poly1, $acc3, $t0 |
| adox $t1, $acc1 |
| shrx $poly1, $acc3, $t1 |
| |
| adcx $acc2, $acc1 |
| adox $acc2, $acc2 |
| adc \$0, $acc2 |
| |
| ######################################################################## |
| # Fourth reduction step |
| add $t0, $acc4 |
| adc $t1, $acc5 |
| |
| mulx $poly3, $t0, $t1 |
| mov $acc4, $t2 |
| mov .Lpoly+8*1(%rip), $poly1 |
| adc $t0, $acc0 |
| mov $acc5, $t3 |
| adc $t1, $acc1 |
| adc \$0, $acc2 |
| |
| ######################################################################## |
| # Branch-less conditional subtraction of P |
| xor %eax, %eax |
| mov $acc0, $t0 |
| sbb \$-1, $acc4 # .Lpoly[0] |
| sbb $poly1, $acc5 # .Lpoly[1] |
| sbb \$0, $acc0 # .Lpoly[2] |
| mov $acc1, $t1 |
| sbb $poly3, $acc1 # .Lpoly[3] |
| sbb \$0, $acc2 |
| |
| cmovc $t2, $acc4 |
| cmovc $t3, $acc5 |
| mov $acc4, 8*0($r_ptr) |
| cmovc $t0, $acc0 |
| mov $acc5, 8*1($r_ptr) |
| cmovc $t1, $acc1 |
| mov $acc0, 8*2($r_ptr) |
| mov $acc1, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_mul_montx,.-__ecp_nistz256_mul_montx |
| |
| .type __ecp_nistz256_sqr_montx,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_sqr_montx: |
| mulx $acc6, $acc1, $acc2 # a[0]*a[1] |
| mulx $acc7, $t0, $acc3 # a[0]*a[2] |
| xor %eax, %eax |
| adc $t0, $acc2 |
| mulx $acc0, $t1, $acc4 # a[0]*a[3] |
| mov $acc6, %rdx |
| adc $t1, $acc3 |
| adc \$0, $acc4 |
| xor $acc5, $acc5 # $acc5=0,cf=0,of=0 |
| |
| ################################# |
| mulx $acc7, $t0, $t1 # a[1]*a[2] |
| adcx $t0, $acc3 |
| adox $t1, $acc4 |
| |
| mulx $acc0, $t0, $t1 # a[1]*a[3] |
| mov $acc7, %rdx |
| adcx $t0, $acc4 |
| adox $t1, $acc5 |
| adc \$0, $acc5 |
| |
| ################################# |
| mulx $acc0, $t0, $acc6 # a[2]*a[3] |
| mov 8*0+128($a_ptr), %rdx |
| xor $acc7, $acc7 # $acc7=0,cf=0,of=0 |
| adcx $acc1, $acc1 # acc1:6<<1 |
| adox $t0, $acc5 |
| adcx $acc2, $acc2 |
| adox $acc7, $acc6 # of=0 |
| |
| mulx %rdx, $acc0, $t1 |
| mov 8*1+128($a_ptr), %rdx |
| adcx $acc3, $acc3 |
| adox $t1, $acc1 |
| adcx $acc4, $acc4 |
| mulx %rdx, $t0, $t4 |
| mov 8*2+128($a_ptr), %rdx |
| adcx $acc5, $acc5 |
| adox $t0, $acc2 |
| adcx $acc6, $acc6 |
| .byte 0x67 |
| mulx %rdx, $t0, $t1 |
| mov 8*3+128($a_ptr), %rdx |
| adox $t4, $acc3 |
| adcx $acc7, $acc7 |
| adox $t0, $acc4 |
| mov \$32, $a_ptr |
| adox $t1, $acc5 |
| .byte 0x67,0x67 |
| mulx %rdx, $t0, $t4 |
| mov .Lpoly+8*3(%rip), %rdx |
| adox $t0, $acc6 |
| shlx $a_ptr, $acc0, $t0 |
| adox $t4, $acc7 |
| shrx $a_ptr, $acc0, $t4 |
| mov %rdx,$t1 |
| |
| # reduction step 1 |
| add $t0, $acc1 |
| adc $t4, $acc2 |
| |
| mulx $acc0, $t0, $acc0 |
| adc $t0, $acc3 |
| shlx $a_ptr, $acc1, $t0 |
| adc \$0, $acc0 |
| shrx $a_ptr, $acc1, $t4 |
| |
| # reduction step 2 |
| add $t0, $acc2 |
| adc $t4, $acc3 |
| |
| mulx $acc1, $t0, $acc1 |
| adc $t0, $acc0 |
| shlx $a_ptr, $acc2, $t0 |
| adc \$0, $acc1 |
| shrx $a_ptr, $acc2, $t4 |
| |
| # reduction step 3 |
| add $t0, $acc3 |
| adc $t4, $acc0 |
| |
| mulx $acc2, $t0, $acc2 |
| adc $t0, $acc1 |
| shlx $a_ptr, $acc3, $t0 |
| adc \$0, $acc2 |
| shrx $a_ptr, $acc3, $t4 |
| |
| # reduction step 4 |
| add $t0, $acc0 |
| adc $t4, $acc1 |
| |
| mulx $acc3, $t0, $acc3 |
| adc $t0, $acc2 |
| adc \$0, $acc3 |
| |
| xor $t3, $t3 |
| add $acc0, $acc4 # accumulate upper half |
| mov .Lpoly+8*1(%rip), $a_ptr |
| adc $acc1, $acc5 |
| mov $acc4, $acc0 |
| adc $acc2, $acc6 |
| adc $acc3, $acc7 |
| mov $acc5, $acc1 |
| adc \$0, $t3 |
| |
| sub \$-1, $acc4 # .Lpoly[0] |
| mov $acc6, $acc2 |
| sbb $a_ptr, $acc5 # .Lpoly[1] |
| sbb \$0, $acc6 # .Lpoly[2] |
| mov $acc7, $acc3 |
| sbb $t1, $acc7 # .Lpoly[3] |
| sbb \$0, $t3 |
| |
| cmovc $acc0, $acc4 |
| cmovc $acc1, $acc5 |
| mov $acc4, 8*0($r_ptr) |
| cmovc $acc2, $acc6 |
| mov $acc5, 8*1($r_ptr) |
| cmovc $acc3, $acc7 |
| mov $acc6, 8*2($r_ptr) |
| mov $acc7, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_sqr_montx,.-__ecp_nistz256_sqr_montx |
| ___ |
| } |
| } |
| { |
| my ($val,$in_t,$index)=$win64?("%rcx","%rdx","%r8d"):("%rdi","%rsi","%edx"); |
| my ($ONE,$INDEX,$Ra,$Rb,$Rc,$Rd,$Re,$Rf)=map("%xmm$_",(0..7)); |
| my ($M0,$T0a,$T0b,$T0c,$T0d,$T0e,$T0f,$TMP0)=map("%xmm$_",(8..15)); |
| my ($M1,$T2a,$T2b,$TMP2,$M2,$T2a,$T2b,$TMP2)=map("%xmm$_",(8..15)); |
| |
| $code.=<<___; |
| ################################################################################ |
| # void ecp_nistz256_select_w5(uint64_t *val, uint64_t *in_t, int index); |
| .globl ecp_nistz256_select_w5 |
| .type ecp_nistz256_select_w5,\@abi-omnipotent |
| .align 32 |
| ecp_nistz256_select_w5: |
| ___ |
| $code.=<<___ if ($avx>1); |
| leaq OPENSSL_ia32cap_P(%rip), %rax |
| mov 8(%rax), %rax |
| test \$`1<<5`, %eax |
| jnz .Lavx2_select_w5 |
| ___ |
| $code.=<<___ if ($win64); |
| lea -0x88(%rsp), %rax |
| .LSEH_begin_ecp_nistz256_select_w5: |
| .byte 0x48,0x8d,0x60,0xe0 #lea -0x20(%rax), %rsp |
| .byte 0x0f,0x29,0x70,0xe0 #movaps %xmm6, -0x20(%rax) |
| .byte 0x0f,0x29,0x78,0xf0 #movaps %xmm7, -0x10(%rax) |
| .byte 0x44,0x0f,0x29,0x00 #movaps %xmm8, 0(%rax) |
| .byte 0x44,0x0f,0x29,0x48,0x10 #movaps %xmm9, 0x10(%rax) |
| .byte 0x44,0x0f,0x29,0x50,0x20 #movaps %xmm10, 0x20(%rax) |
| .byte 0x44,0x0f,0x29,0x58,0x30 #movaps %xmm11, 0x30(%rax) |
| .byte 0x44,0x0f,0x29,0x60,0x40 #movaps %xmm12, 0x40(%rax) |
| .byte 0x44,0x0f,0x29,0x68,0x50 #movaps %xmm13, 0x50(%rax) |
| .byte 0x44,0x0f,0x29,0x70,0x60 #movaps %xmm14, 0x60(%rax) |
| .byte 0x44,0x0f,0x29,0x78,0x70 #movaps %xmm15, 0x70(%rax) |
| ___ |
| $code.=<<___; |
| movdqa .LOne(%rip), $ONE |
| movd $index, $INDEX |
| |
| pxor $Ra, $Ra |
| pxor $Rb, $Rb |
| pxor $Rc, $Rc |
| pxor $Rd, $Rd |
| pxor $Re, $Re |
| pxor $Rf, $Rf |
| |
| movdqa $ONE, $M0 |
| pshufd \$0, $INDEX, $INDEX |
| |
| mov \$16, %rax |
| .Lselect_loop_sse_w5: |
| |
| movdqa $M0, $TMP0 |
| paddd $ONE, $M0 |
| pcmpeqd $INDEX, $TMP0 |
| |
| movdqa 16*0($in_t), $T0a |
| movdqa 16*1($in_t), $T0b |
| movdqa 16*2($in_t), $T0c |
| movdqa 16*3($in_t), $T0d |
| movdqa 16*4($in_t), $T0e |
| movdqa 16*5($in_t), $T0f |
| lea 16*6($in_t), $in_t |
| |
| pand $TMP0, $T0a |
| pand $TMP0, $T0b |
| por $T0a, $Ra |
| pand $TMP0, $T0c |
| por $T0b, $Rb |
| pand $TMP0, $T0d |
| por $T0c, $Rc |
| pand $TMP0, $T0e |
| por $T0d, $Rd |
| pand $TMP0, $T0f |
| por $T0e, $Re |
| por $T0f, $Rf |
| |
| dec %rax |
| jnz .Lselect_loop_sse_w5 |
| |
| movdqu $Ra, 16*0($val) |
| movdqu $Rb, 16*1($val) |
| movdqu $Rc, 16*2($val) |
| movdqu $Rd, 16*3($val) |
| movdqu $Re, 16*4($val) |
| movdqu $Rf, 16*5($val) |
| ___ |
| $code.=<<___ if ($win64); |
| movaps (%rsp), %xmm6 |
| movaps 0x10(%rsp), %xmm7 |
| movaps 0x20(%rsp), %xmm8 |
| movaps 0x30(%rsp), %xmm9 |
| movaps 0x40(%rsp), %xmm10 |
| movaps 0x50(%rsp), %xmm11 |
| movaps 0x60(%rsp), %xmm12 |
| movaps 0x70(%rsp), %xmm13 |
| movaps 0x80(%rsp), %xmm14 |
| movaps 0x90(%rsp), %xmm15 |
| lea 0xa8(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .LSEH_end_ecp_nistz256_select_w5: |
| .size ecp_nistz256_select_w5,.-ecp_nistz256_select_w5 |
| |
| ################################################################################ |
| # void ecp_nistz256_select_w7(uint64_t *val, uint64_t *in_t, int index); |
| .globl ecp_nistz256_select_w7 |
| .type ecp_nistz256_select_w7,\@abi-omnipotent |
| .align 32 |
| ecp_nistz256_select_w7: |
| ___ |
| $code.=<<___ if ($avx>1); |
| leaq OPENSSL_ia32cap_P(%rip), %rax |
| mov 8(%rax), %rax |
| test \$`1<<5`, %eax |
| jnz .Lavx2_select_w7 |
| ___ |
| $code.=<<___ if ($win64); |
| lea -0x88(%rsp), %rax |
| .LSEH_begin_ecp_nistz256_select_w7: |
| .byte 0x48,0x8d,0x60,0xe0 #lea -0x20(%rax), %rsp |
| .byte 0x0f,0x29,0x70,0xe0 #movaps %xmm6, -0x20(%rax) |
| .byte 0x0f,0x29,0x78,0xf0 #movaps %xmm7, -0x10(%rax) |
| .byte 0x44,0x0f,0x29,0x00 #movaps %xmm8, 0(%rax) |
| .byte 0x44,0x0f,0x29,0x48,0x10 #movaps %xmm9, 0x10(%rax) |
| .byte 0x44,0x0f,0x29,0x50,0x20 #movaps %xmm10, 0x20(%rax) |
| .byte 0x44,0x0f,0x29,0x58,0x30 #movaps %xmm11, 0x30(%rax) |
| .byte 0x44,0x0f,0x29,0x60,0x40 #movaps %xmm12, 0x40(%rax) |
| .byte 0x44,0x0f,0x29,0x68,0x50 #movaps %xmm13, 0x50(%rax) |
| .byte 0x44,0x0f,0x29,0x70,0x60 #movaps %xmm14, 0x60(%rax) |
| .byte 0x44,0x0f,0x29,0x78,0x70 #movaps %xmm15, 0x70(%rax) |
| ___ |
| $code.=<<___; |
| movdqa .LOne(%rip), $M0 |
| movd $index, $INDEX |
| |
| pxor $Ra, $Ra |
| pxor $Rb, $Rb |
| pxor $Rc, $Rc |
| pxor $Rd, $Rd |
| |
| movdqa $M0, $ONE |
| pshufd \$0, $INDEX, $INDEX |
| mov \$64, %rax |
| |
| .Lselect_loop_sse_w7: |
| movdqa $M0, $TMP0 |
| paddd $ONE, $M0 |
| movdqa 16*0($in_t), $T0a |
| movdqa 16*1($in_t), $T0b |
| pcmpeqd $INDEX, $TMP0 |
| movdqa 16*2($in_t), $T0c |
| movdqa 16*3($in_t), $T0d |
| lea 16*4($in_t), $in_t |
| |
| pand $TMP0, $T0a |
| pand $TMP0, $T0b |
| por $T0a, $Ra |
| pand $TMP0, $T0c |
| por $T0b, $Rb |
| pand $TMP0, $T0d |
| por $T0c, $Rc |
| prefetcht0 255($in_t) |
| por $T0d, $Rd |
| |
| dec %rax |
| jnz .Lselect_loop_sse_w7 |
| |
| movdqu $Ra, 16*0($val) |
| movdqu $Rb, 16*1($val) |
| movdqu $Rc, 16*2($val) |
| movdqu $Rd, 16*3($val) |
| ___ |
| $code.=<<___ if ($win64); |
| movaps (%rsp), %xmm6 |
| movaps 0x10(%rsp), %xmm7 |
| movaps 0x20(%rsp), %xmm8 |
| movaps 0x30(%rsp), %xmm9 |
| movaps 0x40(%rsp), %xmm10 |
| movaps 0x50(%rsp), %xmm11 |
| movaps 0x60(%rsp), %xmm12 |
| movaps 0x70(%rsp), %xmm13 |
| movaps 0x80(%rsp), %xmm14 |
| movaps 0x90(%rsp), %xmm15 |
| lea 0xa8(%rsp), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .LSEH_end_ecp_nistz256_select_w7: |
| .size ecp_nistz256_select_w7,.-ecp_nistz256_select_w7 |
| ___ |
| } |
| if ($avx>1) { |
| my ($val,$in_t,$index)=$win64?("%rcx","%rdx","%r8d"):("%rdi","%rsi","%edx"); |
| my ($TWO,$INDEX,$Ra,$Rb,$Rc)=map("%ymm$_",(0..4)); |
| my ($M0,$T0a,$T0b,$T0c,$TMP0)=map("%ymm$_",(5..9)); |
| my ($M1,$T1a,$T1b,$T1c,$TMP1)=map("%ymm$_",(10..14)); |
| |
| $code.=<<___; |
| ################################################################################ |
| # void ecp_nistz256_avx2_select_w5(uint64_t *val, uint64_t *in_t, int index); |
| .type ecp_nistz256_avx2_select_w5,\@abi-omnipotent |
| .align 32 |
| ecp_nistz256_avx2_select_w5: |
| .Lavx2_select_w5: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| lea -0x88(%rsp), %rax |
| mov %rsp,%r11 |
| .LSEH_begin_ecp_nistz256_avx2_select_w5: |
| .byte 0x48,0x8d,0x60,0xe0 # lea -0x20(%rax), %rsp |
| .byte 0xc5,0xf8,0x29,0x70,0xe0 # vmovaps %xmm6, -0x20(%rax) |
| .byte 0xc5,0xf8,0x29,0x78,0xf0 # vmovaps %xmm7, -0x10(%rax) |
| .byte 0xc5,0x78,0x29,0x40,0x00 # vmovaps %xmm8, 8(%rax) |
| .byte 0xc5,0x78,0x29,0x48,0x10 # vmovaps %xmm9, 0x10(%rax) |
| .byte 0xc5,0x78,0x29,0x50,0x20 # vmovaps %xmm10, 0x20(%rax) |
| .byte 0xc5,0x78,0x29,0x58,0x30 # vmovaps %xmm11, 0x30(%rax) |
| .byte 0xc5,0x78,0x29,0x60,0x40 # vmovaps %xmm12, 0x40(%rax) |
| .byte 0xc5,0x78,0x29,0x68,0x50 # vmovaps %xmm13, 0x50(%rax) |
| .byte 0xc5,0x78,0x29,0x70,0x60 # vmovaps %xmm14, 0x60(%rax) |
| .byte 0xc5,0x78,0x29,0x78,0x70 # vmovaps %xmm15, 0x70(%rax) |
| ___ |
| $code.=<<___; |
| vmovdqa .LTwo(%rip), $TWO |
| |
| vpxor $Ra, $Ra, $Ra |
| vpxor $Rb, $Rb, $Rb |
| vpxor $Rc, $Rc, $Rc |
| |
| vmovdqa .LOne(%rip), $M0 |
| vmovdqa .LTwo(%rip), $M1 |
| |
| vmovd $index, %xmm1 |
| vpermd $INDEX, $Ra, $INDEX |
| |
| mov \$8, %rax |
| .Lselect_loop_avx2_w5: |
| |
| vmovdqa 32*0($in_t), $T0a |
| vmovdqa 32*1($in_t), $T0b |
| vmovdqa 32*2($in_t), $T0c |
| |
| vmovdqa 32*3($in_t), $T1a |
| vmovdqa 32*4($in_t), $T1b |
| vmovdqa 32*5($in_t), $T1c |
| |
| vpcmpeqd $INDEX, $M0, $TMP0 |
| vpcmpeqd $INDEX, $M1, $TMP1 |
| |
| vpaddd $TWO, $M0, $M0 |
| vpaddd $TWO, $M1, $M1 |
| lea 32*6($in_t), $in_t |
| |
| vpand $TMP0, $T0a, $T0a |
| vpand $TMP0, $T0b, $T0b |
| vpand $TMP0, $T0c, $T0c |
| vpand $TMP1, $T1a, $T1a |
| vpand $TMP1, $T1b, $T1b |
| vpand $TMP1, $T1c, $T1c |
| |
| vpxor $T0a, $Ra, $Ra |
| vpxor $T0b, $Rb, $Rb |
| vpxor $T0c, $Rc, $Rc |
| vpxor $T1a, $Ra, $Ra |
| vpxor $T1b, $Rb, $Rb |
| vpxor $T1c, $Rc, $Rc |
| |
| dec %rax |
| jnz .Lselect_loop_avx2_w5 |
| |
| vmovdqu $Ra, 32*0($val) |
| vmovdqu $Rb, 32*1($val) |
| vmovdqu $Rc, 32*2($val) |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps (%rsp), %xmm6 |
| movaps 0x10(%rsp), %xmm7 |
| movaps 0x20(%rsp), %xmm8 |
| movaps 0x30(%rsp), %xmm9 |
| movaps 0x40(%rsp), %xmm10 |
| movaps 0x50(%rsp), %xmm11 |
| movaps 0x60(%rsp), %xmm12 |
| movaps 0x70(%rsp), %xmm13 |
| movaps 0x80(%rsp), %xmm14 |
| movaps 0x90(%rsp), %xmm15 |
| lea (%r11), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .LSEH_end_ecp_nistz256_avx2_select_w5: |
| .size ecp_nistz256_avx2_select_w5,.-ecp_nistz256_avx2_select_w5 |
| ___ |
| } |
| if ($avx>1) { |
| my ($val,$in_t,$index)=$win64?("%rcx","%rdx","%r8d"):("%rdi","%rsi","%edx"); |
| my ($THREE,$INDEX,$Ra,$Rb)=map("%ymm$_",(0..3)); |
| my ($M0,$T0a,$T0b,$TMP0)=map("%ymm$_",(4..7)); |
| my ($M1,$T1a,$T1b,$TMP1)=map("%ymm$_",(8..11)); |
| my ($M2,$T2a,$T2b,$TMP2)=map("%ymm$_",(12..15)); |
| |
| $code.=<<___; |
| |
| ################################################################################ |
| # void ecp_nistz256_avx2_select_w7(uint64_t *val, uint64_t *in_t, int index); |
| .globl ecp_nistz256_avx2_select_w7 |
| .type ecp_nistz256_avx2_select_w7,\@abi-omnipotent |
| .align 32 |
| ecp_nistz256_avx2_select_w7: |
| .Lavx2_select_w7: |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| mov %rsp,%r11 |
| lea -0x88(%rsp), %rax |
| .LSEH_begin_ecp_nistz256_avx2_select_w7: |
| .byte 0x48,0x8d,0x60,0xe0 # lea -0x20(%rax), %rsp |
| .byte 0xc5,0xf8,0x29,0x70,0xe0 # vmovaps %xmm6, -0x20(%rax) |
| .byte 0xc5,0xf8,0x29,0x78,0xf0 # vmovaps %xmm7, -0x10(%rax) |
| .byte 0xc5,0x78,0x29,0x40,0x00 # vmovaps %xmm8, 8(%rax) |
| .byte 0xc5,0x78,0x29,0x48,0x10 # vmovaps %xmm9, 0x10(%rax) |
| .byte 0xc5,0x78,0x29,0x50,0x20 # vmovaps %xmm10, 0x20(%rax) |
| .byte 0xc5,0x78,0x29,0x58,0x30 # vmovaps %xmm11, 0x30(%rax) |
| .byte 0xc5,0x78,0x29,0x60,0x40 # vmovaps %xmm12, 0x40(%rax) |
| .byte 0xc5,0x78,0x29,0x68,0x50 # vmovaps %xmm13, 0x50(%rax) |
| .byte 0xc5,0x78,0x29,0x70,0x60 # vmovaps %xmm14, 0x60(%rax) |
| .byte 0xc5,0x78,0x29,0x78,0x70 # vmovaps %xmm15, 0x70(%rax) |
| ___ |
| $code.=<<___; |
| vmovdqa .LThree(%rip), $THREE |
| |
| vpxor $Ra, $Ra, $Ra |
| vpxor $Rb, $Rb, $Rb |
| |
| vmovdqa .LOne(%rip), $M0 |
| vmovdqa .LTwo(%rip), $M1 |
| vmovdqa .LThree(%rip), $M2 |
| |
| vmovd $index, %xmm1 |
| vpermd $INDEX, $Ra, $INDEX |
| # Skip index = 0, because it is implicitly the point at infinity |
| |
| mov \$21, %rax |
| .Lselect_loop_avx2_w7: |
| |
| vmovdqa 32*0($in_t), $T0a |
| vmovdqa 32*1($in_t), $T0b |
| |
| vmovdqa 32*2($in_t), $T1a |
| vmovdqa 32*3($in_t), $T1b |
| |
| vmovdqa 32*4($in_t), $T2a |
| vmovdqa 32*5($in_t), $T2b |
| |
| vpcmpeqd $INDEX, $M0, $TMP0 |
| vpcmpeqd $INDEX, $M1, $TMP1 |
| vpcmpeqd $INDEX, $M2, $TMP2 |
| |
| vpaddd $THREE, $M0, $M0 |
| vpaddd $THREE, $M1, $M1 |
| vpaddd $THREE, $M2, $M2 |
| lea 32*6($in_t), $in_t |
| |
| vpand $TMP0, $T0a, $T0a |
| vpand $TMP0, $T0b, $T0b |
| vpand $TMP1, $T1a, $T1a |
| vpand $TMP1, $T1b, $T1b |
| vpand $TMP2, $T2a, $T2a |
| vpand $TMP2, $T2b, $T2b |
| |
| vpxor $T0a, $Ra, $Ra |
| vpxor $T0b, $Rb, $Rb |
| vpxor $T1a, $Ra, $Ra |
| vpxor $T1b, $Rb, $Rb |
| vpxor $T2a, $Ra, $Ra |
| vpxor $T2b, $Rb, $Rb |
| |
| dec %rax |
| jnz .Lselect_loop_avx2_w7 |
| |
| |
| vmovdqa 32*0($in_t), $T0a |
| vmovdqa 32*1($in_t), $T0b |
| |
| vpcmpeqd $INDEX, $M0, $TMP0 |
| |
| vpand $TMP0, $T0a, $T0a |
| vpand $TMP0, $T0b, $T0b |
| |
| vpxor $T0a, $Ra, $Ra |
| vpxor $T0b, $Rb, $Rb |
| |
| vmovdqu $Ra, 32*0($val) |
| vmovdqu $Rb, 32*1($val) |
| vzeroupper |
| ___ |
| $code.=<<___ if ($win64); |
| movaps (%rsp), %xmm6 |
| movaps 0x10(%rsp), %xmm7 |
| movaps 0x20(%rsp), %xmm8 |
| movaps 0x30(%rsp), %xmm9 |
| movaps 0x40(%rsp), %xmm10 |
| movaps 0x50(%rsp), %xmm11 |
| movaps 0x60(%rsp), %xmm12 |
| movaps 0x70(%rsp), %xmm13 |
| movaps 0x80(%rsp), %xmm14 |
| movaps 0x90(%rsp), %xmm15 |
| lea (%r11), %rsp |
| ___ |
| $code.=<<___; |
| ret |
| .LSEH_end_ecp_nistz256_avx2_select_w7: |
| .size ecp_nistz256_avx2_select_w7,.-ecp_nistz256_avx2_select_w7 |
| ___ |
| } else { |
| $code.=<<___; |
| .globl ecp_nistz256_avx2_select_w7 |
| .type ecp_nistz256_avx2_select_w7,\@function,3 |
| .align 32 |
| ecp_nistz256_avx2_select_w7: |
| .byte 0x0f,0x0b # ud2 |
| ret |
| .size ecp_nistz256_avx2_select_w7,.-ecp_nistz256_avx2_select_w7 |
| ___ |
| } |
| {{{ |
| ######################################################################## |
| # This block implements higher level point_double, point_add and |
| # point_add_affine. The key to performance in this case is to allow |
| # out-of-order execution logic to overlap computations from next step |
| # with tail processing from current step. By using tailored calling |
| # sequence we minimize inter-step overhead to give processor better |
| # shot at overlapping operations... |
| # |
| # You will notice that input data is copied to stack. Trouble is that |
| # there are no registers to spare for holding original pointers and |
| # reloading them, pointers, would create undesired dependencies on |
| # effective addresses calculation paths. In other words it's too done |
| # to favour out-of-order execution logic. |
| # <appro@openssl.org> |
| |
| my ($r_ptr,$a_ptr,$b_org,$b_ptr)=("%rdi","%rsi","%rdx","%rbx"); |
| my ($acc0,$acc1,$acc2,$acc3,$acc4,$acc5,$acc6,$acc7)=map("%r$_",(8..15)); |
| my ($t0,$t1,$t2,$t3,$t4)=("%rax","%rbp","%rcx",$acc4,$acc4); |
| my ($poly1,$poly3)=($acc6,$acc7); |
| |
| sub load_for_mul () { |
| my ($a,$b,$src0) = @_; |
| my $bias = $src0 eq "%rax" ? 0 : -128; |
| |
| " mov $b, $src0 |
| lea $b, $b_ptr |
| mov 8*0+$a, $acc1 |
| mov 8*1+$a, $acc2 |
| lea $bias+$a, $a_ptr |
| mov 8*2+$a, $acc3 |
| mov 8*3+$a, $acc4" |
| } |
| |
| sub load_for_sqr () { |
| my ($a,$src0) = @_; |
| my $bias = $src0 eq "%rax" ? 0 : -128; |
| |
| " mov 8*0+$a, $src0 |
| mov 8*1+$a, $acc6 |
| lea $bias+$a, $a_ptr |
| mov 8*2+$a, $acc7 |
| mov 8*3+$a, $acc0" |
| } |
| |
| { |
| ######################################################################## |
| # operate in 4-5-0-1 "name space" that matches multiplication output |
| # |
| my ($a0,$a1,$a2,$a3,$t3,$t4)=($acc4,$acc5,$acc0,$acc1,$acc2,$acc3); |
| |
| $code.=<<___; |
| .type __ecp_nistz256_add_toq,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_add_toq: |
| xor $t4,$t4 |
| add 8*0($b_ptr), $a0 |
| adc 8*1($b_ptr), $a1 |
| mov $a0, $t0 |
| adc 8*2($b_ptr), $a2 |
| adc 8*3($b_ptr), $a3 |
| mov $a1, $t1 |
| adc \$0, $t4 |
| |
| sub \$-1, $a0 |
| mov $a2, $t2 |
| sbb $poly1, $a1 |
| sbb \$0, $a2 |
| mov $a3, $t3 |
| sbb $poly3, $a3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $a0 |
| cmovc $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovc $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovc $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_add_toq,.-__ecp_nistz256_add_toq |
| |
| .type __ecp_nistz256_sub_fromq,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_sub_fromq: |
| sub 8*0($b_ptr), $a0 |
| sbb 8*1($b_ptr), $a1 |
| mov $a0, $t0 |
| sbb 8*2($b_ptr), $a2 |
| sbb 8*3($b_ptr), $a3 |
| mov $a1, $t1 |
| sbb $t4, $t4 |
| |
| add \$-1, $a0 |
| mov $a2, $t2 |
| adc $poly1, $a1 |
| adc \$0, $a2 |
| mov $a3, $t3 |
| adc $poly3, $a3 |
| test $t4, $t4 |
| |
| cmovz $t0, $a0 |
| cmovz $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovz $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovz $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_sub_fromq,.-__ecp_nistz256_sub_fromq |
| |
| .type __ecp_nistz256_subq,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_subq: |
| sub $a0, $t0 |
| sbb $a1, $t1 |
| mov $t0, $a0 |
| sbb $a2, $t2 |
| sbb $a3, $t3 |
| mov $t1, $a1 |
| sbb $t4, $t4 |
| |
| add \$-1, $t0 |
| mov $t2, $a2 |
| adc $poly1, $t1 |
| adc \$0, $t2 |
| mov $t3, $a3 |
| adc $poly3, $t3 |
| test $t4, $t4 |
| |
| cmovnz $t0, $a0 |
| cmovnz $t1, $a1 |
| cmovnz $t2, $a2 |
| cmovnz $t3, $a3 |
| |
| ret |
| .size __ecp_nistz256_subq,.-__ecp_nistz256_subq |
| |
| .type __ecp_nistz256_mul_by_2q,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_mul_by_2q: |
| xor $t4, $t4 |
| add $a0, $a0 # a0:a3+a0:a3 |
| adc $a1, $a1 |
| mov $a0, $t0 |
| adc $a2, $a2 |
| adc $a3, $a3 |
| mov $a1, $t1 |
| adc \$0, $t4 |
| |
| sub \$-1, $a0 |
| mov $a2, $t2 |
| sbb $poly1, $a1 |
| sbb \$0, $a2 |
| mov $a3, $t3 |
| sbb $poly3, $a3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $a0 |
| cmovc $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovc $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovc $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_mul_by_2q,.-__ecp_nistz256_mul_by_2q |
| ___ |
| } |
| sub gen_double () { |
| my $x = shift; |
| my ($src0,$sfx,$bias); |
| my ($S,$M,$Zsqr,$in_x,$tmp0)=map(32*$_,(0..4)); |
| |
| if ($x ne "x") { |
| $src0 = "%rax"; |
| $sfx = ""; |
| $bias = 0; |
| |
| $code.=<<___; |
| .globl ecp_nistz256_point_double |
| .type ecp_nistz256_point_double,\@function,2 |
| .align 32 |
| ecp_nistz256_point_double: |
| .cfi_startproc |
| ___ |
| $code.=<<___ if ($addx); |
| leaq OPENSSL_ia32cap_P(%rip), %rcx |
| mov 8(%rcx), %rcx |
| and \$0x80100, %ecx |
| cmp \$0x80100, %ecx |
| je .Lpoint_doublex |
| ___ |
| } else { |
| $src0 = "%rdx"; |
| $sfx = "x"; |
| $bias = 128; |
| |
| $code.=<<___; |
| .type ecp_nistz256_point_doublex,\@function,2 |
| .align 32 |
| ecp_nistz256_point_doublex: |
| .cfi_startproc |
| .Lpoint_doublex: |
| ___ |
| } |
| $code.=<<___; |
| push %rbp |
| .cfi_push %rbp |
| push %rbx |
| .cfi_push %rbx |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| push %r14 |
| .cfi_push %r14 |
| push %r15 |
| .cfi_push %r15 |
| sub \$32*5+8, %rsp |
| .cfi_adjust_cfa_offset 32*5+8 |
| .Lpoint_double${x}_body: |
| |
| .Lpoint_double_shortcut$x: |
| movdqu 0x00($a_ptr), %xmm0 # copy *(P256_POINT *)$a_ptr.x |
| mov $a_ptr, $b_ptr # backup copy |
| movdqu 0x10($a_ptr), %xmm1 |
| mov 0x20+8*0($a_ptr), $acc4 # load in_y in "5-4-0-1" order |
| mov 0x20+8*1($a_ptr), $acc5 |
| mov 0x20+8*2($a_ptr), $acc0 |
| mov 0x20+8*3($a_ptr), $acc1 |
| mov .Lpoly+8*1(%rip), $poly1 |
| mov .Lpoly+8*3(%rip), $poly3 |
| movdqa %xmm0, $in_x(%rsp) |
| movdqa %xmm1, $in_x+0x10(%rsp) |
| lea 0x20($r_ptr), $acc2 |
| lea 0x40($r_ptr), $acc3 |
| movq $r_ptr, %xmm0 |
| movq $acc2, %xmm1 |
| movq $acc3, %xmm2 |
| |
| lea $S(%rsp), $r_ptr |
| call __ecp_nistz256_mul_by_2$x # p256_mul_by_2(S, in_y); |
| |
| mov 0x40+8*0($a_ptr), $src0 |
| mov 0x40+8*1($a_ptr), $acc6 |
| mov 0x40+8*2($a_ptr), $acc7 |
| mov 0x40+8*3($a_ptr), $acc0 |
| lea 0x40-$bias($a_ptr), $a_ptr |
| lea $Zsqr(%rsp), $r_ptr |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Zsqr, in_z); |
| |
| `&load_for_sqr("$S(%rsp)", "$src0")` |
| lea $S(%rsp), $r_ptr |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(S, S); |
| |
| mov 0x20($b_ptr), $src0 # $b_ptr is still valid |
| mov 0x40+8*0($b_ptr), $acc1 |
| mov 0x40+8*1($b_ptr), $acc2 |
| mov 0x40+8*2($b_ptr), $acc3 |
| mov 0x40+8*3($b_ptr), $acc4 |
| lea 0x40-$bias($b_ptr), $a_ptr |
| lea 0x20($b_ptr), $b_ptr |
| movq %xmm2, $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(res_z, in_z, in_y); |
| call __ecp_nistz256_mul_by_2$x # p256_mul_by_2(res_z, res_z); |
| |
| mov $in_x+8*0(%rsp), $acc4 # "5-4-0-1" order |
| mov $in_x+8*1(%rsp), $acc5 |
| lea $Zsqr(%rsp), $b_ptr |
| mov $in_x+8*2(%rsp), $acc0 |
| mov $in_x+8*3(%rsp), $acc1 |
| lea $M(%rsp), $r_ptr |
| call __ecp_nistz256_add_to$x # p256_add(M, in_x, Zsqr); |
| |
| mov $in_x+8*0(%rsp), $acc4 # "5-4-0-1" order |
| mov $in_x+8*1(%rsp), $acc5 |
| lea $Zsqr(%rsp), $b_ptr |
| mov $in_x+8*2(%rsp), $acc0 |
| mov $in_x+8*3(%rsp), $acc1 |
| lea $Zsqr(%rsp), $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(Zsqr, in_x, Zsqr); |
| |
| `&load_for_sqr("$S(%rsp)", "$src0")` |
| movq %xmm1, $r_ptr |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(res_y, S); |
| ___ |
| { |
| ######## ecp_nistz256_div_by_2(res_y, res_y); ########################## |
| # operate in 4-5-6-7 "name space" that matches squaring output |
| # |
| my ($poly1,$poly3)=($a_ptr,$t1); |
| my ($a0,$a1,$a2,$a3,$t3,$t4,$t1)=($acc4,$acc5,$acc6,$acc7,$acc0,$acc1,$acc2); |
| |
| $code.=<<___; |
| xor $t4, $t4 |
| mov $a0, $t0 |
| add \$-1, $a0 |
| mov $a1, $t1 |
| adc $poly1, $a1 |
| mov $a2, $t2 |
| adc \$0, $a2 |
| mov $a3, $t3 |
| adc $poly3, $a3 |
| adc \$0, $t4 |
| xor $a_ptr, $a_ptr # borrow $a_ptr |
| test \$1, $t0 |
| |
| cmovz $t0, $a0 |
| cmovz $t1, $a1 |
| cmovz $t2, $a2 |
| cmovz $t3, $a3 |
| cmovz $a_ptr, $t4 |
| |
| mov $a1, $t0 # a0:a3>>1 |
| shr \$1, $a0 |
| shl \$63, $t0 |
| mov $a2, $t1 |
| shr \$1, $a1 |
| or $t0, $a0 |
| shl \$63, $t1 |
| mov $a3, $t2 |
| shr \$1, $a2 |
| or $t1, $a1 |
| shl \$63, $t2 |
| mov $a0, 8*0($r_ptr) |
| shr \$1, $a3 |
| mov $a1, 8*1($r_ptr) |
| shl \$63, $t4 |
| or $t2, $a2 |
| or $t4, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| ___ |
| } |
| $code.=<<___; |
| `&load_for_mul("$M(%rsp)", "$Zsqr(%rsp)", "$src0")` |
| lea $M(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(M, M, Zsqr); |
| |
| lea $tmp0(%rsp), $r_ptr |
| call __ecp_nistz256_mul_by_2$x |
| |
| lea $M(%rsp), $b_ptr |
| lea $M(%rsp), $r_ptr |
| call __ecp_nistz256_add_to$x # p256_mul_by_3(M, M); |
| |
| `&load_for_mul("$S(%rsp)", "$in_x(%rsp)", "$src0")` |
| lea $S(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S, S, in_x); |
| |
| lea $tmp0(%rsp), $r_ptr |
| call __ecp_nistz256_mul_by_2$x # p256_mul_by_2(tmp0, S); |
| |
| `&load_for_sqr("$M(%rsp)", "$src0")` |
| movq %xmm0, $r_ptr |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(res_x, M); |
| |
| lea $tmp0(%rsp), $b_ptr |
| mov $acc6, $acc0 # harmonize sqr output and sub input |
| mov $acc7, $acc1 |
| mov $a_ptr, $poly1 |
| mov $t1, $poly3 |
| call __ecp_nistz256_sub_from$x # p256_sub(res_x, res_x, tmp0); |
| |
| mov $S+8*0(%rsp), $t0 |
| mov $S+8*1(%rsp), $t1 |
| mov $S+8*2(%rsp), $t2 |
| mov $S+8*3(%rsp), $acc2 # "4-5-0-1" order |
| lea $S(%rsp), $r_ptr |
| call __ecp_nistz256_sub$x # p256_sub(S, S, res_x); |
| |
| mov $M(%rsp), $src0 |
| lea $M(%rsp), $b_ptr |
| mov $acc4, $acc6 # harmonize sub output and mul input |
| xor %ecx, %ecx |
| mov $acc4, $S+8*0(%rsp) # have to save:-( |
| mov $acc5, $acc2 |
| mov $acc5, $S+8*1(%rsp) |
| cmovz $acc0, $acc3 |
| mov $acc0, $S+8*2(%rsp) |
| lea $S-$bias(%rsp), $a_ptr |
| cmovz $acc1, $acc4 |
| mov $acc1, $S+8*3(%rsp) |
| mov $acc6, $acc1 |
| lea $S(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S, S, M); |
| |
| movq %xmm1, $b_ptr |
| movq %xmm1, $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(res_y, S, res_y); |
| |
| lea 32*5+56(%rsp), %rsi |
| .cfi_def_cfa %rsi,8 |
| mov -48(%rsi),%r15 |
| .cfi_restore %r15 |
| mov -40(%rsi),%r14 |
| .cfi_restore %r14 |
| mov -32(%rsi),%r13 |
| .cfi_restore %r13 |
| mov -24(%rsi),%r12 |
| .cfi_restore %r12 |
| mov -16(%rsi),%rbx |
| .cfi_restore %rbx |
| mov -8(%rsi),%rbp |
| .cfi_restore %rbp |
| lea (%rsi),%rsp |
| .cfi_def_cfa_register %rsp |
| .Lpoint_double${x}_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_point_double$sfx,.-ecp_nistz256_point_double$sfx |
| ___ |
| } |
| &gen_double("q"); |
| |
| sub gen_add () { |
| my $x = shift; |
| my ($src0,$sfx,$bias); |
| my ($H,$Hsqr,$R,$Rsqr,$Hcub, |
| $U1,$U2,$S1,$S2, |
| $res_x,$res_y,$res_z, |
| $in1_x,$in1_y,$in1_z, |
| $in2_x,$in2_y,$in2_z)=map(32*$_,(0..17)); |
| my ($Z1sqr, $Z2sqr) = ($Hsqr, $Rsqr); |
| |
| if ($x ne "x") { |
| $src0 = "%rax"; |
| $sfx = ""; |
| $bias = 0; |
| |
| $code.=<<___; |
| .globl ecp_nistz256_point_add |
| .type ecp_nistz256_point_add,\@function,3 |
| .align 32 |
| ecp_nistz256_point_add: |
| .cfi_startproc |
| ___ |
| $code.=<<___ if ($addx); |
| leaq OPENSSL_ia32cap_P(%rip), %rcx |
| mov 8(%rcx), %rcx |
| and \$0x80100, %ecx |
| cmp \$0x80100, %ecx |
| je .Lpoint_addx |
| ___ |
| } else { |
| $src0 = "%rdx"; |
| $sfx = "x"; |
| $bias = 128; |
| |
| $code.=<<___; |
| .type ecp_nistz256_point_addx,\@function,3 |
| .align 32 |
| ecp_nistz256_point_addx: |
| .cfi_startproc |
| .Lpoint_addx: |
| ___ |
| } |
| $code.=<<___; |
| push %rbp |
| .cfi_push %rbp |
| push %rbx |
| .cfi_push %rbx |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| push %r14 |
| .cfi_push %r14 |
| push %r15 |
| .cfi_push %r15 |
| sub \$32*18+8, %rsp |
| .cfi_adjust_cfa_offset 32*18+8 |
| .Lpoint_add${x}_body: |
| |
| movdqu 0x00($a_ptr), %xmm0 # copy *(P256_POINT *)$a_ptr |
| movdqu 0x10($a_ptr), %xmm1 |
| movdqu 0x20($a_ptr), %xmm2 |
| movdqu 0x30($a_ptr), %xmm3 |
| movdqu 0x40($a_ptr), %xmm4 |
| movdqu 0x50($a_ptr), %xmm5 |
| mov $a_ptr, $b_ptr # reassign |
| mov $b_org, $a_ptr # reassign |
| movdqa %xmm0, $in1_x(%rsp) |
| movdqa %xmm1, $in1_x+0x10(%rsp) |
| movdqa %xmm2, $in1_y(%rsp) |
| movdqa %xmm3, $in1_y+0x10(%rsp) |
| movdqa %xmm4, $in1_z(%rsp) |
| movdqa %xmm5, $in1_z+0x10(%rsp) |
| por %xmm4, %xmm5 |
| |
| movdqu 0x00($a_ptr), %xmm0 # copy *(P256_POINT *)$b_ptr |
| pshufd \$0xb1, %xmm5, %xmm3 |
| movdqu 0x10($a_ptr), %xmm1 |
| movdqu 0x20($a_ptr), %xmm2 |
| por %xmm3, %xmm5 |
| movdqu 0x30($a_ptr), %xmm3 |
| mov 0x40+8*0($a_ptr), $src0 # load original in2_z |
| mov 0x40+8*1($a_ptr), $acc6 |
| mov 0x40+8*2($a_ptr), $acc7 |
| mov 0x40+8*3($a_ptr), $acc0 |
| movdqa %xmm0, $in2_x(%rsp) |
| pshufd \$0x1e, %xmm5, %xmm4 |
| movdqa %xmm1, $in2_x+0x10(%rsp) |
| movdqu 0x40($a_ptr),%xmm0 # in2_z again |
| movdqu 0x50($a_ptr),%xmm1 |
| movdqa %xmm2, $in2_y(%rsp) |
| movdqa %xmm3, $in2_y+0x10(%rsp) |
| por %xmm4, %xmm5 |
| pxor %xmm4, %xmm4 |
| por %xmm0, %xmm1 |
| movq $r_ptr, %xmm0 # save $r_ptr |
| |
| lea 0x40-$bias($a_ptr), $a_ptr # $a_ptr is still valid |
| mov $src0, $in2_z+8*0(%rsp) # make in2_z copy |
| mov $acc6, $in2_z+8*1(%rsp) |
| mov $acc7, $in2_z+8*2(%rsp) |
| mov $acc0, $in2_z+8*3(%rsp) |
| lea $Z2sqr(%rsp), $r_ptr # Z2^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Z2sqr, in2_z); |
| |
| pcmpeqd %xmm4, %xmm5 |
| pshufd \$0xb1, %xmm1, %xmm4 |
| por %xmm1, %xmm4 |
| pshufd \$0, %xmm5, %xmm5 # in1infty |
| pshufd \$0x1e, %xmm4, %xmm3 |
| por %xmm3, %xmm4 |
| pxor %xmm3, %xmm3 |
| pcmpeqd %xmm3, %xmm4 |
| pshufd \$0, %xmm4, %xmm4 # in2infty |
| mov 0x40+8*0($b_ptr), $src0 # load original in1_z |
| mov 0x40+8*1($b_ptr), $acc6 |
| mov 0x40+8*2($b_ptr), $acc7 |
| mov 0x40+8*3($b_ptr), $acc0 |
| movq $b_ptr, %xmm1 |
| |
| lea 0x40-$bias($b_ptr), $a_ptr |
| lea $Z1sqr(%rsp), $r_ptr # Z1^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Z1sqr, in1_z); |
| |
| `&load_for_mul("$Z2sqr(%rsp)", "$in2_z(%rsp)", "$src0")` |
| lea $S1(%rsp), $r_ptr # S1 = Z2^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S1, Z2sqr, in2_z); |
| |
| `&load_for_mul("$Z1sqr(%rsp)", "$in1_z(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr # S2 = Z1^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, Z1sqr, in1_z); |
| |
| `&load_for_mul("$S1(%rsp)", "$in1_y(%rsp)", "$src0")` |
| lea $S1(%rsp), $r_ptr # S1 = Y1*Z2^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S1, S1, in1_y); |
| |
| `&load_for_mul("$S2(%rsp)", "$in2_y(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr # S2 = Y2*Z1^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, S2, in2_y); |
| |
| lea $S1(%rsp), $b_ptr |
| lea $R(%rsp), $r_ptr # R = S2 - S1 |
| call __ecp_nistz256_sub_from$x # p256_sub(R, S2, S1); |
| |
| or $acc5, $acc4 # see if result is zero |
| movdqa %xmm4, %xmm2 |
| or $acc0, $acc4 |
| or $acc1, $acc4 |
| por %xmm5, %xmm2 # in1infty || in2infty |
| movq $acc4, %xmm3 |
| |
| `&load_for_mul("$Z2sqr(%rsp)", "$in1_x(%rsp)", "$src0")` |
| lea $U1(%rsp), $r_ptr # U1 = X1*Z2^2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(U1, in1_x, Z2sqr); |
| |
| `&load_for_mul("$Z1sqr(%rsp)", "$in2_x(%rsp)", "$src0")` |
| lea $U2(%rsp), $r_ptr # U2 = X2*Z1^2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(U2, in2_x, Z1sqr); |
| |
| lea $U1(%rsp), $b_ptr |
| lea $H(%rsp), $r_ptr # H = U2 - U1 |
| call __ecp_nistz256_sub_from$x # p256_sub(H, U2, U1); |
| |
| or $acc5, $acc4 # see if result is zero |
| or $acc0, $acc4 |
| or $acc1, $acc4 |
| |
| .byte 0x3e # predict taken |
| jnz .Ladd_proceed$x # is_equal(U1,U2)? |
| movq %xmm2, $acc0 |
| movq %xmm3, $acc1 |
| test $acc0, $acc0 |
| jnz .Ladd_proceed$x # (in1infty || in2infty)? |
| test $acc1, $acc1 |
| jz .Ladd_double$x # is_equal(S1,S2)? |
| |
| movq %xmm0, $r_ptr # restore $r_ptr |
| pxor %xmm0, %xmm0 |
| movdqu %xmm0, 0x00($r_ptr) |
| movdqu %xmm0, 0x10($r_ptr) |
| movdqu %xmm0, 0x20($r_ptr) |
| movdqu %xmm0, 0x30($r_ptr) |
| movdqu %xmm0, 0x40($r_ptr) |
| movdqu %xmm0, 0x50($r_ptr) |
| jmp .Ladd_done$x |
| |
| .align 32 |
| .Ladd_double$x: |
| movq %xmm1, $a_ptr # restore $a_ptr |
| movq %xmm0, $r_ptr # restore $r_ptr |
| add \$`32*(18-5)`, %rsp # difference in frame sizes |
| jmp .Lpoint_double_shortcut$x |
| |
| .align 32 |
| .Ladd_proceed$x: |
| `&load_for_sqr("$R(%rsp)", "$src0")` |
| lea $Rsqr(%rsp), $r_ptr # R^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Rsqr, R); |
| |
| `&load_for_mul("$H(%rsp)", "$in1_z(%rsp)", "$src0")` |
| lea $res_z(%rsp), $r_ptr # Z3 = H*Z1*Z2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(res_z, H, in1_z); |
| |
| `&load_for_sqr("$H(%rsp)", "$src0")` |
| lea $Hsqr(%rsp), $r_ptr # H^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Hsqr, H); |
| |
| `&load_for_mul("$res_z(%rsp)", "$in2_z(%rsp)", "$src0")` |
| lea $res_z(%rsp), $r_ptr # Z3 = H*Z1*Z2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(res_z, res_z, in2_z); |
| |
| `&load_for_mul("$Hsqr(%rsp)", "$H(%rsp)", "$src0")` |
| lea $Hcub(%rsp), $r_ptr # H^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(Hcub, Hsqr, H); |
| |
| `&load_for_mul("$Hsqr(%rsp)", "$U1(%rsp)", "$src0")` |
| lea $U2(%rsp), $r_ptr # U1*H^2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(U2, U1, Hsqr); |
| ___ |
| { |
| ####################################################################### |
| # operate in 4-5-0-1 "name space" that matches multiplication output |
| # |
| my ($acc0,$acc1,$acc2,$acc3,$t3,$t4)=($acc4,$acc5,$acc0,$acc1,$acc2,$acc3); |
| my ($poly1, $poly3)=($acc6,$acc7); |
| |
| $code.=<<___; |
| #lea $U2(%rsp), $a_ptr |
| #lea $Hsqr(%rsp), $r_ptr # 2*U1*H^2 |
| #call __ecp_nistz256_mul_by_2 # ecp_nistz256_mul_by_2(Hsqr, U2); |
| |
| xor $t4, $t4 |
| add $acc0, $acc0 # a0:a3+a0:a3 |
| lea $Rsqr(%rsp), $a_ptr |
| adc $acc1, $acc1 |
| mov $acc0, $t0 |
| adc $acc2, $acc2 |
| adc $acc3, $acc3 |
| mov $acc1, $t1 |
| adc \$0, $t4 |
| |
| sub \$-1, $acc0 |
| mov $acc2, $t2 |
| sbb $poly1, $acc1 |
| sbb \$0, $acc2 |
| mov $acc3, $t3 |
| sbb $poly3, $acc3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $acc0 |
| mov 8*0($a_ptr), $t0 |
| cmovc $t1, $acc1 |
| mov 8*1($a_ptr), $t1 |
| cmovc $t2, $acc2 |
| mov 8*2($a_ptr), $t2 |
| cmovc $t3, $acc3 |
| mov 8*3($a_ptr), $t3 |
| |
| call __ecp_nistz256_sub$x # p256_sub(res_x, Rsqr, Hsqr); |
| |
| lea $Hcub(%rsp), $b_ptr |
| lea $res_x(%rsp), $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(res_x, res_x, Hcub); |
| |
| mov $U2+8*0(%rsp), $t0 |
| mov $U2+8*1(%rsp), $t1 |
| mov $U2+8*2(%rsp), $t2 |
| mov $U2+8*3(%rsp), $t3 |
| lea $res_y(%rsp), $r_ptr |
| |
| call __ecp_nistz256_sub$x # p256_sub(res_y, U2, res_x); |
| |
| mov $acc0, 8*0($r_ptr) # save the result, as |
| mov $acc1, 8*1($r_ptr) # __ecp_nistz256_sub doesn't |
| mov $acc2, 8*2($r_ptr) |
| mov $acc3, 8*3($r_ptr) |
| ___ |
| } |
| $code.=<<___; |
| `&load_for_mul("$S1(%rsp)", "$Hcub(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, S1, Hcub); |
| |
| `&load_for_mul("$R(%rsp)", "$res_y(%rsp)", "$src0")` |
| lea $res_y(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(res_y, R, res_y); |
| |
| lea $S2(%rsp), $b_ptr |
| lea $res_y(%rsp), $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(res_y, res_y, S2); |
| |
| movq %xmm0, $r_ptr # restore $r_ptr |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_z, in2_z, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_z(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_z+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand $in2_z(%rsp), %xmm2 |
| pand $in2_z+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_z, in1_z, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_z(%rsp), %xmm2 |
| pand $in1_z+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x40($r_ptr) |
| movdqu %xmm3, 0x50($r_ptr) |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_x, in2_x, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_x(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_x+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand $in2_x(%rsp), %xmm2 |
| pand $in2_x+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_x, in1_x, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_x(%rsp), %xmm2 |
| pand $in1_x+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x00($r_ptr) |
| movdqu %xmm3, 0x10($r_ptr) |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_y, in2_y, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_y(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_y+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand $in2_y(%rsp), %xmm2 |
| pand $in2_y+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_y, in1_y, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_y(%rsp), %xmm2 |
| pand $in1_y+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x20($r_ptr) |
| movdqu %xmm3, 0x30($r_ptr) |
| |
| .Ladd_done$x: |
| lea 32*18+56(%rsp), %rsi |
| .cfi_def_cfa %rsi,8 |
| mov -48(%rsi),%r15 |
| .cfi_restore %r15 |
| mov -40(%rsi),%r14 |
| .cfi_restore %r14 |
| mov -32(%rsi),%r13 |
| .cfi_restore %r13 |
| mov -24(%rsi),%r12 |
| .cfi_restore %r12 |
| mov -16(%rsi),%rbx |
| .cfi_restore %rbx |
| mov -8(%rsi),%rbp |
| .cfi_restore %rbp |
| lea (%rsi),%rsp |
| .cfi_def_cfa_register %rsp |
| .Lpoint_add${x}_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_point_add$sfx,.-ecp_nistz256_point_add$sfx |
| ___ |
| } |
| &gen_add("q"); |
| |
| sub gen_add_affine () { |
| my $x = shift; |
| my ($src0,$sfx,$bias); |
| my ($U2,$S2,$H,$R,$Hsqr,$Hcub,$Rsqr, |
| $res_x,$res_y,$res_z, |
| $in1_x,$in1_y,$in1_z, |
| $in2_x,$in2_y)=map(32*$_,(0..14)); |
| my $Z1sqr = $S2; |
| |
| if ($x ne "x") { |
| $src0 = "%rax"; |
| $sfx = ""; |
| $bias = 0; |
| |
| $code.=<<___; |
| .globl ecp_nistz256_point_add_affine |
| .type ecp_nistz256_point_add_affine,\@function,3 |
| .align 32 |
| ecp_nistz256_point_add_affine: |
| .cfi_startproc |
| ___ |
| $code.=<<___ if ($addx); |
| leaq OPENSSL_ia32cap_P(%rip), %rcx |
| mov 8(%rcx), %rcx |
| and \$0x80100, %ecx |
| cmp \$0x80100, %ecx |
| je .Lpoint_add_affinex |
| ___ |
| } else { |
| $src0 = "%rdx"; |
| $sfx = "x"; |
| $bias = 128; |
| |
| $code.=<<___; |
| .type ecp_nistz256_point_add_affinex,\@function,3 |
| .align 32 |
| ecp_nistz256_point_add_affinex: |
| .cfi_startproc |
| .Lpoint_add_affinex: |
| ___ |
| } |
| $code.=<<___; |
| push %rbp |
| .cfi_push %rbp |
| push %rbx |
| .cfi_push %rbx |
| push %r12 |
| .cfi_push %r12 |
| push %r13 |
| .cfi_push %r13 |
| push %r14 |
| .cfi_push %r14 |
| push %r15 |
| .cfi_push %r15 |
| sub \$32*15+8, %rsp |
| .cfi_adjust_cfa_offset 32*15+8 |
| .Ladd_affine${x}_body: |
| |
| movdqu 0x00($a_ptr), %xmm0 # copy *(P256_POINT *)$a_ptr |
| mov $b_org, $b_ptr # reassign |
| movdqu 0x10($a_ptr), %xmm1 |
| movdqu 0x20($a_ptr), %xmm2 |
| movdqu 0x30($a_ptr), %xmm3 |
| movdqu 0x40($a_ptr), %xmm4 |
| movdqu 0x50($a_ptr), %xmm5 |
| mov 0x40+8*0($a_ptr), $src0 # load original in1_z |
| mov 0x40+8*1($a_ptr), $acc6 |
| mov 0x40+8*2($a_ptr), $acc7 |
| mov 0x40+8*3($a_ptr), $acc0 |
| movdqa %xmm0, $in1_x(%rsp) |
| movdqa %xmm1, $in1_x+0x10(%rsp) |
| movdqa %xmm2, $in1_y(%rsp) |
| movdqa %xmm3, $in1_y+0x10(%rsp) |
| movdqa %xmm4, $in1_z(%rsp) |
| movdqa %xmm5, $in1_z+0x10(%rsp) |
| por %xmm4, %xmm5 |
| |
| movdqu 0x00($b_ptr), %xmm0 # copy *(P256_POINT_AFFINE *)$b_ptr |
| pshufd \$0xb1, %xmm5, %xmm3 |
| movdqu 0x10($b_ptr), %xmm1 |
| movdqu 0x20($b_ptr), %xmm2 |
| por %xmm3, %xmm5 |
| movdqu 0x30($b_ptr), %xmm3 |
| movdqa %xmm0, $in2_x(%rsp) |
| pshufd \$0x1e, %xmm5, %xmm4 |
| movdqa %xmm1, $in2_x+0x10(%rsp) |
| por %xmm0, %xmm1 |
| movq $r_ptr, %xmm0 # save $r_ptr |
| movdqa %xmm2, $in2_y(%rsp) |
| movdqa %xmm3, $in2_y+0x10(%rsp) |
| por %xmm2, %xmm3 |
| por %xmm4, %xmm5 |
| pxor %xmm4, %xmm4 |
| por %xmm1, %xmm3 |
| |
| lea 0x40-$bias($a_ptr), $a_ptr # $a_ptr is still valid |
| lea $Z1sqr(%rsp), $r_ptr # Z1^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Z1sqr, in1_z); |
| |
| pcmpeqd %xmm4, %xmm5 |
| pshufd \$0xb1, %xmm3, %xmm4 |
| mov 0x00($b_ptr), $src0 # $b_ptr is still valid |
| #lea 0x00($b_ptr), $b_ptr |
| mov $acc4, $acc1 # harmonize sqr output and mul input |
| por %xmm3, %xmm4 |
| pshufd \$0, %xmm5, %xmm5 # in1infty |
| pshufd \$0x1e, %xmm4, %xmm3 |
| mov $acc5, $acc2 |
| por %xmm3, %xmm4 |
| pxor %xmm3, %xmm3 |
| mov $acc6, $acc3 |
| pcmpeqd %xmm3, %xmm4 |
| pshufd \$0, %xmm4, %xmm4 # in2infty |
| |
| lea $Z1sqr-$bias(%rsp), $a_ptr |
| mov $acc7, $acc4 |
| lea $U2(%rsp), $r_ptr # U2 = X2*Z1^2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(U2, Z1sqr, in2_x); |
| |
| lea $in1_x(%rsp), $b_ptr |
| lea $H(%rsp), $r_ptr # H = U2 - U1 |
| call __ecp_nistz256_sub_from$x # p256_sub(H, U2, in1_x); |
| |
| `&load_for_mul("$Z1sqr(%rsp)", "$in1_z(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr # S2 = Z1^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, Z1sqr, in1_z); |
| |
| `&load_for_mul("$H(%rsp)", "$in1_z(%rsp)", "$src0")` |
| lea $res_z(%rsp), $r_ptr # Z3 = H*Z1*Z2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(res_z, H, in1_z); |
| |
| `&load_for_mul("$S2(%rsp)", "$in2_y(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr # S2 = Y2*Z1^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, S2, in2_y); |
| |
| lea $in1_y(%rsp), $b_ptr |
| lea $R(%rsp), $r_ptr # R = S2 - S1 |
| call __ecp_nistz256_sub_from$x # p256_sub(R, S2, in1_y); |
| |
| `&load_for_sqr("$H(%rsp)", "$src0")` |
| lea $Hsqr(%rsp), $r_ptr # H^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Hsqr, H); |
| |
| `&load_for_sqr("$R(%rsp)", "$src0")` |
| lea $Rsqr(%rsp), $r_ptr # R^2 |
| call __ecp_nistz256_sqr_mont$x # p256_sqr_mont(Rsqr, R); |
| |
| `&load_for_mul("$H(%rsp)", "$Hsqr(%rsp)", "$src0")` |
| lea $Hcub(%rsp), $r_ptr # H^3 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(Hcub, Hsqr, H); |
| |
| `&load_for_mul("$Hsqr(%rsp)", "$in1_x(%rsp)", "$src0")` |
| lea $U2(%rsp), $r_ptr # U1*H^2 |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(U2, in1_x, Hsqr); |
| ___ |
| { |
| ####################################################################### |
| # operate in 4-5-0-1 "name space" that matches multiplication output |
| # |
| my ($acc0,$acc1,$acc2,$acc3,$t3,$t4)=($acc4,$acc5,$acc0,$acc1,$acc2,$acc3); |
| my ($poly1, $poly3)=($acc6,$acc7); |
| |
| $code.=<<___; |
| #lea $U2(%rsp), $a_ptr |
| #lea $Hsqr(%rsp), $r_ptr # 2*U1*H^2 |
| #call __ecp_nistz256_mul_by_2 # ecp_nistz256_mul_by_2(Hsqr, U2); |
| |
| xor $t4, $t4 |
| add $acc0, $acc0 # a0:a3+a0:a3 |
| lea $Rsqr(%rsp), $a_ptr |
| adc $acc1, $acc1 |
| mov $acc0, $t0 |
| adc $acc2, $acc2 |
| adc $acc3, $acc3 |
| mov $acc1, $t1 |
| adc \$0, $t4 |
| |
| sub \$-1, $acc0 |
| mov $acc2, $t2 |
| sbb $poly1, $acc1 |
| sbb \$0, $acc2 |
| mov $acc3, $t3 |
| sbb $poly3, $acc3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $acc0 |
| mov 8*0($a_ptr), $t0 |
| cmovc $t1, $acc1 |
| mov 8*1($a_ptr), $t1 |
| cmovc $t2, $acc2 |
| mov 8*2($a_ptr), $t2 |
| cmovc $t3, $acc3 |
| mov 8*3($a_ptr), $t3 |
| |
| call __ecp_nistz256_sub$x # p256_sub(res_x, Rsqr, Hsqr); |
| |
| lea $Hcub(%rsp), $b_ptr |
| lea $res_x(%rsp), $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(res_x, res_x, Hcub); |
| |
| mov $U2+8*0(%rsp), $t0 |
| mov $U2+8*1(%rsp), $t1 |
| mov $U2+8*2(%rsp), $t2 |
| mov $U2+8*3(%rsp), $t3 |
| lea $H(%rsp), $r_ptr |
| |
| call __ecp_nistz256_sub$x # p256_sub(H, U2, res_x); |
| |
| mov $acc0, 8*0($r_ptr) # save the result, as |
| mov $acc1, 8*1($r_ptr) # __ecp_nistz256_sub doesn't |
| mov $acc2, 8*2($r_ptr) |
| mov $acc3, 8*3($r_ptr) |
| ___ |
| } |
| $code.=<<___; |
| `&load_for_mul("$Hcub(%rsp)", "$in1_y(%rsp)", "$src0")` |
| lea $S2(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(S2, Hcub, in1_y); |
| |
| `&load_for_mul("$H(%rsp)", "$R(%rsp)", "$src0")` |
| lea $H(%rsp), $r_ptr |
| call __ecp_nistz256_mul_mont$x # p256_mul_mont(H, H, R); |
| |
| lea $S2(%rsp), $b_ptr |
| lea $res_y(%rsp), $r_ptr |
| call __ecp_nistz256_sub_from$x # p256_sub(res_y, H, S2); |
| |
| movq %xmm0, $r_ptr # restore $r_ptr |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_z, ONE, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_z(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_z+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand .LONE_mont(%rip), %xmm2 |
| pand .LONE_mont+0x10(%rip), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_z, in1_z, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_z(%rsp), %xmm2 |
| pand $in1_z+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x40($r_ptr) |
| movdqu %xmm3, 0x50($r_ptr) |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_x, in2_x, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_x(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_x+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand $in2_x(%rsp), %xmm2 |
| pand $in2_x+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_x, in1_x, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_x(%rsp), %xmm2 |
| pand $in1_x+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x00($r_ptr) |
| movdqu %xmm3, 0x10($r_ptr) |
| |
| movdqa %xmm5, %xmm0 # copy_conditional(res_y, in2_y, in1infty); |
| movdqa %xmm5, %xmm1 |
| pandn $res_y(%rsp), %xmm0 |
| movdqa %xmm5, %xmm2 |
| pandn $res_y+0x10(%rsp), %xmm1 |
| movdqa %xmm5, %xmm3 |
| pand $in2_y(%rsp), %xmm2 |
| pand $in2_y+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| |
| movdqa %xmm4, %xmm0 # copy_conditional(res_y, in1_y, in2infty); |
| movdqa %xmm4, %xmm1 |
| pandn %xmm2, %xmm0 |
| movdqa %xmm4, %xmm2 |
| pandn %xmm3, %xmm1 |
| movdqa %xmm4, %xmm3 |
| pand $in1_y(%rsp), %xmm2 |
| pand $in1_y+0x10(%rsp), %xmm3 |
| por %xmm0, %xmm2 |
| por %xmm1, %xmm3 |
| movdqu %xmm2, 0x20($r_ptr) |
| movdqu %xmm3, 0x30($r_ptr) |
| |
| lea 32*15+56(%rsp), %rsi |
| .cfi_def_cfa %rsi,8 |
| mov -48(%rsi),%r15 |
| .cfi_restore %r15 |
| mov -40(%rsi),%r14 |
| .cfi_restore %r14 |
| mov -32(%rsi),%r13 |
| .cfi_restore %r13 |
| mov -24(%rsi),%r12 |
| .cfi_restore %r12 |
| mov -16(%rsi),%rbx |
| .cfi_restore %rbx |
| mov -8(%rsi),%rbp |
| .cfi_restore %rbp |
| lea (%rsi),%rsp |
| .cfi_def_cfa_register %rsp |
| .Ladd_affine${x}_epilogue: |
| ret |
| .cfi_endproc |
| .size ecp_nistz256_point_add_affine$sfx,.-ecp_nistz256_point_add_affine$sfx |
| ___ |
| } |
| &gen_add_affine("q"); |
| |
| ######################################################################## |
| # AD*X magic |
| # |
| if ($addx) { { |
| ######################################################################## |
| # operate in 4-5-0-1 "name space" that matches multiplication output |
| # |
| my ($a0,$a1,$a2,$a3,$t3,$t4)=($acc4,$acc5,$acc0,$acc1,$acc2,$acc3); |
| |
| $code.=<<___; |
| .type __ecp_nistz256_add_tox,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_add_tox: |
| xor $t4, $t4 |
| adc 8*0($b_ptr), $a0 |
| adc 8*1($b_ptr), $a1 |
| mov $a0, $t0 |
| adc 8*2($b_ptr), $a2 |
| adc 8*3($b_ptr), $a3 |
| mov $a1, $t1 |
| adc \$0, $t4 |
| |
| xor $t3, $t3 |
| sbb \$-1, $a0 |
| mov $a2, $t2 |
| sbb $poly1, $a1 |
| sbb \$0, $a2 |
| mov $a3, $t3 |
| sbb $poly3, $a3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $a0 |
| cmovc $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovc $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovc $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_add_tox,.-__ecp_nistz256_add_tox |
| |
| .type __ecp_nistz256_sub_fromx,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_sub_fromx: |
| xor $t4, $t4 |
| sbb 8*0($b_ptr), $a0 |
| sbb 8*1($b_ptr), $a1 |
| mov $a0, $t0 |
| sbb 8*2($b_ptr), $a2 |
| sbb 8*3($b_ptr), $a3 |
| mov $a1, $t1 |
| sbb \$0, $t4 |
| |
| xor $t3, $t3 |
| adc \$-1, $a0 |
| mov $a2, $t2 |
| adc $poly1, $a1 |
| adc \$0, $a2 |
| mov $a3, $t3 |
| adc $poly3, $a3 |
| |
| bt \$0, $t4 |
| cmovnc $t0, $a0 |
| cmovnc $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovnc $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovnc $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_sub_fromx,.-__ecp_nistz256_sub_fromx |
| |
| .type __ecp_nistz256_subx,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_subx: |
| xor $t4, $t4 |
| sbb $a0, $t0 |
| sbb $a1, $t1 |
| mov $t0, $a0 |
| sbb $a2, $t2 |
| sbb $a3, $t3 |
| mov $t1, $a1 |
| sbb \$0, $t4 |
| |
| xor $a3 ,$a3 |
| adc \$-1, $t0 |
| mov $t2, $a2 |
| adc $poly1, $t1 |
| adc \$0, $t2 |
| mov $t3, $a3 |
| adc $poly3, $t3 |
| |
| bt \$0, $t4 |
| cmovc $t0, $a0 |
| cmovc $t1, $a1 |
| cmovc $t2, $a2 |
| cmovc $t3, $a3 |
| |
| ret |
| .size __ecp_nistz256_subx,.-__ecp_nistz256_subx |
| |
| .type __ecp_nistz256_mul_by_2x,\@abi-omnipotent |
| .align 32 |
| __ecp_nistz256_mul_by_2x: |
| xor $t4, $t4 |
| adc $a0, $a0 # a0:a3+a0:a3 |
| adc $a1, $a1 |
| mov $a0, $t0 |
| adc $a2, $a2 |
| adc $a3, $a3 |
| mov $a1, $t1 |
| adc \$0, $t4 |
| |
| xor $t3, $t3 |
| sbb \$-1, $a0 |
| mov $a2, $t2 |
| sbb $poly1, $a1 |
| sbb \$0, $a2 |
| mov $a3, $t3 |
| sbb $poly3, $a3 |
| sbb \$0, $t4 |
| |
| cmovc $t0, $a0 |
| cmovc $t1, $a1 |
| mov $a0, 8*0($r_ptr) |
| cmovc $t2, $a2 |
| mov $a1, 8*1($r_ptr) |
| cmovc $t3, $a3 |
| mov $a2, 8*2($r_ptr) |
| mov $a3, 8*3($r_ptr) |
| |
| ret |
| .size __ecp_nistz256_mul_by_2x,.-__ecp_nistz256_mul_by_2x |
| ___ |
| } |
| &gen_double("x"); |
| &gen_add("x"); |
| &gen_add_affine("x"); |
| } |
| }}} |
| |
| # EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame, |
| # CONTEXT *context,DISPATCHER_CONTEXT *disp) |
| if ($win64) { |
| $rec="%rcx"; |
| $frame="%rdx"; |
| $context="%r8"; |
| $disp="%r9"; |
| |
| $code.=<<___; |
| .extern __imp_RtlVirtualUnwind |
| |
| .type short_handler,\@abi-omnipotent |
| .align 16 |
| short_handler: |
| push %rsi |
| push %rdi |
| push %rbx |
| push %rbp |
| push %r12 |
| push %r13 |
| push %r14 |
| push %r15 |
| pushfq |
| sub \$64,%rsp |
| |
| mov 120($context),%rax # pull context->Rax |
| mov 248($context),%rbx # pull context->Rip |
| |
| mov 8($disp),%rsi # disp->ImageBase |
| mov 56($disp),%r11 # disp->HandlerData |
| |
| mov 0(%r11),%r10d # HandlerData[0] |
| lea (%rsi,%r10),%r10 # end of prologue label |
| cmp %r10,%rbx # context->Rip<end of prologue label |
| jb .Lcommon_seh_tail |
| |
| mov 152($context),%rax # pull context->Rsp |
| |
| mov 4(%r11),%r10d # HandlerData[1] |
| lea (%rsi,%r10),%r10 # epilogue label |
| cmp %r10,%rbx # context->Rip>=epilogue label |
| jae .Lcommon_seh_tail |
| |
| lea 16(%rax),%rax |
| |
| mov -8(%rax),%r12 |
| mov -16(%rax),%r13 |
| mov %r12,216($context) # restore context->R12 |
| mov %r13,224($context) # restore context->R13 |
| |
| jmp .Lcommon_seh_tail |
| .size short_handler,.-short_handler |
| |
| .type full_handler,\@abi-omnipotent |
| .align 16 |
| full_handler: |
| push %rsi |
| push %rdi |
| push %rbx |
| push %rbp |
| push %r12 |
| push %r13 |
| push %r14 |
| push %r15 |
| pushfq |
| sub \$64,%rsp |
| |
| mov 120($context),%rax # pull context->Rax |
| mov 248($context),%rbx # pull context->Rip |
| |
| mov 8($disp),%rsi # disp->ImageBase |
| mov 56($disp),%r11 # disp->HandlerData |
| |
| mov 0(%r11),%r10d # HandlerData[0] |
| lea (%rsi,%r10),%r10 # end of prologue label |
| cmp %r10,%rbx # context->Rip<end of prologue label |
| jb .Lcommon_seh_tail |
| |
| mov 152($context),%rax # pull context->Rsp |
| |
| mov 4(%r11),%r10d # HandlerData[1] |
| lea (%rsi,%r10),%r10 # epilogue label |
| cmp %r10,%rbx # context->Rip>=epilogue label |
| jae .Lcommon_seh_tail |
| |
| mov 8(%r11),%r10d # HandlerData[2] |
| lea (%rax,%r10),%rax |
| |
| mov -8(%rax),%rbp |
| mov -16(%rax),%rbx |
| mov -24(%rax),%r12 |
| mov -32(%rax),%r13 |
| mov -40(%rax),%r14 |
| mov -48(%rax),%r15 |
| mov %rbx,144($context) # restore context->Rbx |
| mov %rbp,160($context) # restore context->Rbp |
| mov %r12,216($context) # restore context->R12 |
| mov %r13,224($context) # restore context->R13 |
| mov %r14,232($context) # restore context->R14 |
| mov %r15,240($context) # restore context->R15 |
| |
| .Lcommon_seh_tail: |
| mov 8(%rax),%rdi |
| mov 16(%rax),%rsi |
| mov %rax,152($context) # restore context->Rsp |
| mov %rsi,168($context) # restore context->Rsi |
| mov %rdi,176($context) # restore context->Rdi |
| |
| mov 40($disp),%rdi # disp->ContextRecord |
| mov $context,%rsi # context |
| mov \$154,%ecx # sizeof(CONTEXT) |
| .long 0xa548f3fc # cld; rep movsq |
| |
| mov $disp,%rsi |
| xor %rcx,%rcx # arg1, UNW_FLAG_NHANDLER |
| mov 8(%rsi),%rdx # arg2, disp->ImageBase |
| mov 0(%rsi),%r8 # arg3, disp->ControlPc |
| mov 16(%rsi),%r9 # arg4, disp->FunctionEntry |
| mov 40(%rsi),%r10 # disp->ContextRecord |
| lea 56(%rsi),%r11 # &disp->HandlerData |
| lea 24(%rsi),%r12 # &disp->EstablisherFrame |
| mov %r10,32(%rsp) # arg5 |
| mov %r11,40(%rsp) # arg6 |
| mov %r12,48(%rsp) # arg7 |
| mov %rcx,56(%rsp) # arg8, (NULL) |
| call *__imp_RtlVirtualUnwind(%rip) |
| |
| mov \$1,%eax # ExceptionContinueSearch |
| add \$64,%rsp |
| popfq |
| pop %r15 |
| pop %r14 |
| pop %r13 |
| pop %r12 |
| pop %rbp |
| pop %rbx |
| pop %rdi |
| pop %rsi |
| ret |
| .size full_handler,.-full_handler |
| |
| .section .pdata |
| .align 4 |
| .rva .LSEH_begin_ecp_nistz256_neg |
| .rva .LSEH_end_ecp_nistz256_neg |
| .rva .LSEH_info_ecp_nistz256_neg |
| |
| .rva .LSEH_begin_ecp_nistz256_mul_mont |
| .rva .LSEH_end_ecp_nistz256_mul_mont |
| .rva .LSEH_info_ecp_nistz256_mul_mont |
| |
| .rva .LSEH_begin_ecp_nistz256_sqr_mont |
| .rva .LSEH_end_ecp_nistz256_sqr_mont |
| .rva .LSEH_info_ecp_nistz256_sqr_mont |
| |
| .rva .LSEH_begin_ecp_nistz256_select_w5 |
| .rva .LSEH_end_ecp_nistz256_select_w5 |
| .rva .LSEH_info_ecp_nistz256_select_wX |
| |
| .rva .LSEH_begin_ecp_nistz256_select_w7 |
| .rva .LSEH_end_ecp_nistz256_select_w7 |
| .rva .LSEH_info_ecp_nistz256_select_wX |
| ___ |
| $code.=<<___ if ($avx>1); |
| .rva .LSEH_begin_ecp_nistz256_avx2_select_w5 |
| .rva .LSEH_end_ecp_nistz256_avx2_select_w5 |
| .rva .LSEH_info_ecp_nistz256_avx2_select_wX |
| |
| .rva .LSEH_begin_ecp_nistz256_avx2_select_w7 |
| .rva .LSEH_end_ecp_nistz256_avx2_select_w7 |
| .rva .LSEH_info_ecp_nistz256_avx2_select_wX |
| ___ |
| $code.=<<___; |
| .rva .LSEH_begin_ecp_nistz256_point_double |
| .rva .LSEH_end_ecp_nistz256_point_double |
| .rva .LSEH_info_ecp_nistz256_point_double |
| |
| .rva .LSEH_begin_ecp_nistz256_point_add |
| .rva .LSEH_end_ecp_nistz256_point_add |
| .rva .LSEH_info_ecp_nistz256_point_add |
| |
| .rva .LSEH_begin_ecp_nistz256_point_add_affine |
| .rva .LSEH_end_ecp_nistz256_point_add_affine |
| .rva .LSEH_info_ecp_nistz256_point_add_affine |
| ___ |
| $code.=<<___ if ($addx); |
| .rva .LSEH_begin_ecp_nistz256_point_doublex |
| .rva .LSEH_end_ecp_nistz256_point_doublex |
| .rva .LSEH_info_ecp_nistz256_point_doublex |
| |
| .rva .LSEH_begin_ecp_nistz256_point_addx |
| .rva .LSEH_end_ecp_nistz256_point_addx |
| .rva .LSEH_info_ecp_nistz256_point_addx |
| |
| .rva .LSEH_begin_ecp_nistz256_point_add_affinex |
| .rva .LSEH_end_ecp_nistz256_point_add_affinex |
| .rva .LSEH_info_ecp_nistz256_point_add_affinex |
| ___ |
| $code.=<<___; |
| |
| .section .xdata |
| .align 8 |
| .LSEH_info_ecp_nistz256_neg: |
| .byte 9,0,0,0 |
| .rva short_handler |
| .rva .Lneg_body,.Lneg_epilogue # HandlerData[] |
| .LSEH_info_ecp_nistz256_mul_mont: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lmul_body,.Lmul_epilogue # HandlerData[] |
| .long 48,0 |
| .LSEH_info_ecp_nistz256_sqr_mont: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lsqr_body,.Lsqr_epilogue # HandlerData[] |
| .long 48,0 |
| .LSEH_info_ecp_nistz256_select_wX: |
| .byte 0x01,0x33,0x16,0x00 |
| .byte 0x33,0xf8,0x09,0x00 #movaps 0x90(rsp),xmm15 |
| .byte 0x2e,0xe8,0x08,0x00 #movaps 0x80(rsp),xmm14 |
| .byte 0x29,0xd8,0x07,0x00 #movaps 0x70(rsp),xmm13 |
| .byte 0x24,0xc8,0x06,0x00 #movaps 0x60(rsp),xmm12 |
| .byte 0x1f,0xb8,0x05,0x00 #movaps 0x50(rsp),xmm11 |
| .byte 0x1a,0xa8,0x04,0x00 #movaps 0x40(rsp),xmm10 |
| .byte 0x15,0x98,0x03,0x00 #movaps 0x30(rsp),xmm9 |
| .byte 0x10,0x88,0x02,0x00 #movaps 0x20(rsp),xmm8 |
| .byte 0x0c,0x78,0x01,0x00 #movaps 0x10(rsp),xmm7 |
| .byte 0x08,0x68,0x00,0x00 #movaps 0x00(rsp),xmm6 |
| .byte 0x04,0x01,0x15,0x00 #sub rsp,0xa8 |
| .align 8 |
| ___ |
| $code.=<<___ if ($avx>1); |
| .LSEH_info_ecp_nistz256_avx2_select_wX: |
| .byte 0x01,0x36,0x17,0x0b |
| .byte 0x36,0xf8,0x09,0x00 # vmovaps 0x90(rsp),xmm15 |
| .byte 0x31,0xe8,0x08,0x00 # vmovaps 0x80(rsp),xmm14 |
| .byte 0x2c,0xd8,0x07,0x00 # vmovaps 0x70(rsp),xmm13 |
| .byte 0x27,0xc8,0x06,0x00 # vmovaps 0x60(rsp),xmm12 |
| .byte 0x22,0xb8,0x05,0x00 # vmovaps 0x50(rsp),xmm11 |
| .byte 0x1d,0xa8,0x04,0x00 # vmovaps 0x40(rsp),xmm10 |
| .byte 0x18,0x98,0x03,0x00 # vmovaps 0x30(rsp),xmm9 |
| .byte 0x13,0x88,0x02,0x00 # vmovaps 0x20(rsp),xmm8 |
| .byte 0x0e,0x78,0x01,0x00 # vmovaps 0x10(rsp),xmm7 |
| .byte 0x09,0x68,0x00,0x00 # vmovaps 0x00(rsp),xmm6 |
| .byte 0x04,0x01,0x15,0x00 # sub rsp,0xa8 |
| .byte 0x00,0xb3,0x00,0x00 # set_frame r11 |
| .align 8 |
| ___ |
| $code.=<<___; |
| .LSEH_info_ecp_nistz256_point_double: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lpoint_doubleq_body,.Lpoint_doubleq_epilogue # HandlerData[] |
| .long 32*5+56,0 |
| .LSEH_info_ecp_nistz256_point_add: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lpoint_addq_body,.Lpoint_addq_epilogue # HandlerData[] |
| .long 32*18+56,0 |
| .LSEH_info_ecp_nistz256_point_add_affine: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Ladd_affineq_body,.Ladd_affineq_epilogue # HandlerData[] |
| .long 32*15+56,0 |
| ___ |
| $code.=<<___ if ($addx); |
| .align 8 |
| .LSEH_info_ecp_nistz256_point_doublex: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lpoint_doublex_body,.Lpoint_doublex_epilogue # HandlerData[] |
| .long 32*5+56,0 |
| .LSEH_info_ecp_nistz256_point_addx: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Lpoint_addx_body,.Lpoint_addx_epilogue # HandlerData[] |
| .long 32*18+56,0 |
| .LSEH_info_ecp_nistz256_point_add_affinex: |
| .byte 9,0,0,0 |
| .rva full_handler |
| .rva .Ladd_affinex_body,.Ladd_affinex_epilogue # HandlerData[] |
| .long 32*15+56,0 |
| ___ |
| } |
| |
| $code =~ s/\`([^\`]*)\`/eval $1/gem; |
| print $code; |
| close STDOUT; |
