openssl/crypto/bn/asm/x86_64-mont.pl
2013-07-05 21:15:16 +02:00

1818 lines
39 KiB
Perl
Executable file
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

#!/usr/bin/env perl
# ====================================================================
# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
# project. The module is, however, dual licensed under OpenSSL and
# CRYPTOGAMS licenses depending on where you obtain it. For further
# details see http://www.openssl.org/~appro/cryptogams/.
# ====================================================================
# October 2005.
#
# Montgomery multiplication routine for x86_64. While it gives modest
# 9% improvement of rsa4096 sign on Opteron, rsa512 sign runs more
# than twice, >2x, as fast. Most common rsa1024 sign is improved by
# respectful 50%. It remains to be seen if loop unrolling and
# dedicated squaring routine can provide further improvement...
# July 2011.
#
# Add dedicated squaring procedure. Performance improvement varies
# from platform to platform, but in average it's ~5%/15%/25%/33%
# for 512-/1024-/2048-/4096-bit RSA *sign* benchmarks respectively.
# August 2011.
#
# Unroll and modulo-schedule inner loops in such manner that they
# are "fallen through" for input lengths of 8, which is critical for
# 1024-bit RSA *sign*. Average performance improvement in comparison
# to *initial* version of this module from 2005 is ~0%/30%/40%/45%
# for 512-/1024-/2048-/4096-bit RSA *sign* benchmarks respectively.
# June 2013.
#
# Optmize reduction in squaring procedure and improve 1024+-bit RSA
# sign performance by 10-16% on Intel Sandy Bridge and later
# (virtually same on non-Intel processors).
$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;
# int bn_mul_mont(
$rp="%rdi"; # BN_ULONG *rp,
$ap="%rsi"; # const BN_ULONG *ap,
$bp="%rdx"; # const BN_ULONG *bp,
$np="%rcx"; # const BN_ULONG *np,
$n0="%r8"; # const BN_ULONG *n0,
$num="%r9"; # int num);
$lo0="%r10";
$hi0="%r11";
$hi1="%r13";
$i="%r14";
$j="%r15";
$m0="%rbx";
$m1="%rbp";
$code=<<___;
.text
.globl bn_mul_mont
.type bn_mul_mont,\@function,6
.align 16
bn_mul_mont:
test \$3,${num}d
jnz .Lmul_enter
cmp \$8,${num}d
jb .Lmul_enter
cmp $ap,$bp
jne .Lmul4x_enter
test \$7,${num}d
jz .Lsqr8x_enter
jmp .Lmul4x_enter
.align 16
.Lmul_enter:
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
mov ${num}d,${num}d
lea 2($num),%r10
mov %rsp,%r11
neg %r10
lea (%rsp,%r10,8),%rsp # tp=alloca(8*(num+2))
and \$-1024,%rsp # minimize TLB usage
mov %r11,8(%rsp,$num,8) # tp[num+1]=%rsp
.Lmul_body:
mov $bp,%r12 # reassign $bp
___
$bp="%r12";
$code.=<<___;
mov ($n0),$n0 # pull n0[0] value
mov ($bp),$m0 # m0=bp[0]
mov ($ap),%rax
xor $i,$i # i=0
xor $j,$j # j=0
mov $n0,$m1
mulq $m0 # ap[0]*bp[0]
mov %rax,$lo0
mov ($np),%rax
imulq $lo0,$m1 # "tp[0]"*n0
mov %rdx,$hi0
mulq $m1 # np[0]*m1
add %rax,$lo0 # discarded
mov 8($ap),%rax
adc \$0,%rdx
mov %rdx,$hi1
lea 1($j),$j # j++
jmp .L1st_enter
.align 16
.L1st:
add %rax,$hi1
mov ($ap,$j,8),%rax
adc \$0,%rdx
add $hi0,$hi1 # np[j]*m1+ap[j]*bp[0]
mov $lo0,$hi0
adc \$0,%rdx
mov $hi1,-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$hi1
.L1st_enter:
mulq $m0 # ap[j]*bp[0]
add %rax,$hi0
mov ($np,$j,8),%rax
adc \$0,%rdx
lea 1($j),$j # j++
mov %rdx,$lo0
mulq $m1 # np[j]*m1
cmp $num,$j
jne .L1st
add %rax,$hi1
mov ($ap),%rax # ap[0]
adc \$0,%rdx
add $hi0,$hi1 # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $hi1,-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$hi1
mov $lo0,$hi0
xor %rdx,%rdx
add $hi0,$hi1
adc \$0,%rdx
mov $hi1,-8(%rsp,$num,8)
mov %rdx,(%rsp,$num,8) # store upmost overflow bit
lea 1($i),$i # i++
jmp .Louter
.align 16
.Louter:
mov ($bp,$i,8),$m0 # m0=bp[i]
xor $j,$j # j=0
mov $n0,$m1
mov (%rsp),$lo0
mulq $m0 # ap[0]*bp[i]
add %rax,$lo0 # ap[0]*bp[i]+tp[0]
mov ($np),%rax
adc \$0,%rdx
imulq $lo0,$m1 # tp[0]*n0
mov %rdx,$hi0
mulq $m1 # np[0]*m1
add %rax,$lo0 # discarded
mov 8($ap),%rax
adc \$0,%rdx
mov 8(%rsp),$lo0 # tp[1]
mov %rdx,$hi1
lea 1($j),$j # j++
jmp .Linner_enter
.align 16
.Linner:
add %rax,$hi1
mov ($ap,$j,8),%rax
adc \$0,%rdx
add $lo0,$hi1 # np[j]*m1+ap[j]*bp[i]+tp[j]
mov (%rsp,$j,8),$lo0
adc \$0,%rdx
mov $hi1,-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$hi1
.Linner_enter:
mulq $m0 # ap[j]*bp[i]
add %rax,$hi0
mov ($np,$j,8),%rax
adc \$0,%rdx
add $hi0,$lo0 # ap[j]*bp[i]+tp[j]
mov %rdx,$hi0
adc \$0,$hi0
lea 1($j),$j # j++
mulq $m1 # np[j]*m1
cmp $num,$j
jne .Linner
add %rax,$hi1
mov ($ap),%rax # ap[0]
adc \$0,%rdx
add $lo0,$hi1 # np[j]*m1+ap[j]*bp[i]+tp[j]
mov (%rsp,$j,8),$lo0
adc \$0,%rdx
mov $hi1,-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$hi1
xor %rdx,%rdx
add $hi0,$hi1
adc \$0,%rdx
add $lo0,$hi1 # pull upmost overflow bit
adc \$0,%rdx
mov $hi1,-8(%rsp,$num,8)
mov %rdx,(%rsp,$num,8) # store upmost overflow bit
lea 1($i),$i # i++
cmp $num,$i
jl .Louter
xor $i,$i # i=0 and clear CF!
mov (%rsp),%rax # tp[0]
lea (%rsp),$ap # borrow ap for tp
mov $num,$j # j=num
jmp .Lsub
.align 16
.Lsub: sbb ($np,$i,8),%rax
mov %rax,($rp,$i,8) # rp[i]=tp[i]-np[i]
mov 8($ap,$i,8),%rax # tp[i+1]
lea 1($i),$i # i++
dec $j # doesnn't affect CF!
jnz .Lsub
sbb \$0,%rax # handle upmost overflow bit
xor $i,$i
and %rax,$ap
not %rax
mov $rp,$np
and %rax,$np
mov $num,$j # j=num
or $np,$ap # ap=borrow?tp:rp
.align 16
.Lcopy: # copy or in-place refresh
mov ($ap,$i,8),%rax
mov $i,(%rsp,$i,8) # zap temporary vector
mov %rax,($rp,$i,8) # rp[i]=tp[i]
lea 1($i),$i
sub \$1,$j
jnz .Lcopy
mov 8(%rsp,$num,8),%rsi # restore %rsp
mov \$1,%rax
mov (%rsi),%r15
mov 8(%rsi),%r14
mov 16(%rsi),%r13
mov 24(%rsi),%r12
mov 32(%rsi),%rbp
mov 40(%rsi),%rbx
lea 48(%rsi),%rsp
.Lmul_epilogue:
ret
.size bn_mul_mont,.-bn_mul_mont
___
{{{
my @A=("%r10","%r11");
my @N=("%r13","%rdi");
$code.=<<___;
.type bn_mul4x_mont,\@function,6
.align 16
bn_mul4x_mont:
.Lmul4x_enter:
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
mov ${num}d,${num}d
lea 4($num),%r10
mov %rsp,%r11
neg %r10
lea (%rsp,%r10,8),%rsp # tp=alloca(8*(num+4))
and \$-1024,%rsp # minimize TLB usage
mov %r11,8(%rsp,$num,8) # tp[num+1]=%rsp
.Lmul4x_body:
mov $rp,16(%rsp,$num,8) # tp[num+2]=$rp
mov %rdx,%r12 # reassign $bp
___
$bp="%r12";
$code.=<<___;
mov ($n0),$n0 # pull n0[0] value
mov ($bp),$m0 # m0=bp[0]
mov ($ap),%rax
xor $i,$i # i=0
xor $j,$j # j=0
mov $n0,$m1
mulq $m0 # ap[0]*bp[0]
mov %rax,$A[0]
mov ($np),%rax
imulq $A[0],$m1 # "tp[0]"*n0
mov %rdx,$A[1]
mulq $m1 # np[0]*m1
add %rax,$A[0] # discarded
mov 8($ap),%rax
adc \$0,%rdx
mov %rdx,$N[1]
mulq $m0
add %rax,$A[1]
mov 8($np),%rax
adc \$0,%rdx
mov %rdx,$A[0]
mulq $m1
add %rax,$N[1]
mov 16($ap),%rax
adc \$0,%rdx
add $A[1],$N[1]
lea 4($j),$j # j++
adc \$0,%rdx
mov $N[1],(%rsp)
mov %rdx,$N[0]
jmp .L1st4x
.align 16
.L1st4x:
mulq $m0 # ap[j]*bp[0]
add %rax,$A[0]
mov -16($np,$j,8),%rax
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov -8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[0],-24(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[0]
add %rax,$A[1]
mov -8($np,$j,8),%rax
adc \$0,%rdx
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov ($ap,$j,8),%rax
adc \$0,%rdx
add $A[1],$N[1] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[1],-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
mulq $m0 # ap[j]*bp[0]
add %rax,$A[0]
mov ($np,$j,8),%rax
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov 8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[0],-8(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[0]
add %rax,$A[1]
mov 8($np,$j,8),%rax
adc \$0,%rdx
lea 4($j),$j # j++
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov -16($ap,$j,8),%rax
adc \$0,%rdx
add $A[1],$N[1] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[1],-32(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
cmp $num,$j
jl .L1st4x
mulq $m0 # ap[j]*bp[0]
add %rax,$A[0]
mov -16($np,$j,8),%rax
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov -8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[0],-24(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[0]
add %rax,$A[1]
mov -8($np,$j,8),%rax
adc \$0,%rdx
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov ($ap),%rax # ap[0]
adc \$0,%rdx
add $A[1],$N[1] # np[j]*m1+ap[j]*bp[0]
adc \$0,%rdx
mov $N[1],-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
xor $N[1],$N[1]
add $A[0],$N[0]
adc \$0,$N[1]
mov $N[0],-8(%rsp,$j,8)
mov $N[1],(%rsp,$j,8) # store upmost overflow bit
lea 1($i),$i # i++
.align 4
.Louter4x:
mov ($bp,$i,8),$m0 # m0=bp[i]
xor $j,$j # j=0
mov (%rsp),$A[0]
mov $n0,$m1
mulq $m0 # ap[0]*bp[i]
add %rax,$A[0] # ap[0]*bp[i]+tp[0]
mov ($np),%rax
adc \$0,%rdx
imulq $A[0],$m1 # tp[0]*n0
mov %rdx,$A[1]
mulq $m1 # np[0]*m1
add %rax,$A[0] # "$N[0]", discarded
mov 8($ap),%rax
adc \$0,%rdx
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[i]
add %rax,$A[1]
mov 8($np),%rax
adc \$0,%rdx
add 8(%rsp),$A[1] # +tp[1]
adc \$0,%rdx
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov 16($ap),%rax
adc \$0,%rdx
add $A[1],$N[1] # np[j]*m1+ap[j]*bp[i]+tp[j]
lea 4($j),$j # j+=2
adc \$0,%rdx
mov $N[1],(%rsp) # tp[j-1]
mov %rdx,$N[0]
jmp .Linner4x
.align 16
.Linner4x:
mulq $m0 # ap[j]*bp[i]
add %rax,$A[0]
mov -16($np,$j,8),%rax
adc \$0,%rdx
add -16(%rsp,$j,8),$A[0] # ap[j]*bp[i]+tp[j]
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov -8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0]
adc \$0,%rdx
mov $N[0],-24(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[i]
add %rax,$A[1]
mov -8($np,$j,8),%rax
adc \$0,%rdx
add -8(%rsp,$j,8),$A[1]
adc \$0,%rdx
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov ($ap,$j,8),%rax
adc \$0,%rdx
add $A[1],$N[1]
adc \$0,%rdx
mov $N[1],-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
mulq $m0 # ap[j]*bp[i]
add %rax,$A[0]
mov ($np,$j,8),%rax
adc \$0,%rdx
add (%rsp,$j,8),$A[0] # ap[j]*bp[i]+tp[j]
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov 8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0]
adc \$0,%rdx
mov $N[0],-8(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[i]
add %rax,$A[1]
mov 8($np,$j,8),%rax
adc \$0,%rdx
add 8(%rsp,$j,8),$A[1]
adc \$0,%rdx
lea 4($j),$j # j++
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov -16($ap,$j,8),%rax
adc \$0,%rdx
add $A[1],$N[1]
adc \$0,%rdx
mov $N[1],-32(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
cmp $num,$j
jl .Linner4x
mulq $m0 # ap[j]*bp[i]
add %rax,$A[0]
mov -16($np,$j,8),%rax
adc \$0,%rdx
add -16(%rsp,$j,8),$A[0] # ap[j]*bp[i]+tp[j]
adc \$0,%rdx
mov %rdx,$A[1]
mulq $m1 # np[j]*m1
add %rax,$N[0]
mov -8($ap,$j,8),%rax
adc \$0,%rdx
add $A[0],$N[0]
adc \$0,%rdx
mov $N[0],-24(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[1]
mulq $m0 # ap[j]*bp[i]
add %rax,$A[1]
mov -8($np,$j,8),%rax
adc \$0,%rdx
add -8(%rsp,$j,8),$A[1]
adc \$0,%rdx
lea 1($i),$i # i++
mov %rdx,$A[0]
mulq $m1 # np[j]*m1
add %rax,$N[1]
mov ($ap),%rax # ap[0]
adc \$0,%rdx
add $A[1],$N[1]
adc \$0,%rdx
mov $N[1],-16(%rsp,$j,8) # tp[j-1]
mov %rdx,$N[0]
xor $N[1],$N[1]
add $A[0],$N[0]
adc \$0,$N[1]
add (%rsp,$num,8),$N[0] # pull upmost overflow bit
adc \$0,$N[1]
mov $N[0],-8(%rsp,$j,8)
mov $N[1],(%rsp,$j,8) # store upmost overflow bit
cmp $num,$i
jl .Louter4x
___
{
my @ri=("%rax","%rdx",$m0,$m1);
$code.=<<___;
mov 16(%rsp,$num,8),$rp # restore $rp
mov 0(%rsp),@ri[0] # tp[0]
pxor %xmm0,%xmm0
mov 8(%rsp),@ri[1] # tp[1]
shr \$2,$num # num/=4
lea (%rsp),$ap # borrow ap for tp
xor $i,$i # i=0 and clear CF!
sub 0($np),@ri[0]
mov 16($ap),@ri[2] # tp[2]
mov 24($ap),@ri[3] # tp[3]
sbb 8($np),@ri[1]
lea -1($num),$j # j=num/4-1
jmp .Lsub4x
.align 16
.Lsub4x:
mov @ri[0],0($rp,$i,8) # rp[i]=tp[i]-np[i]
mov @ri[1],8($rp,$i,8) # rp[i]=tp[i]-np[i]
sbb 16($np,$i,8),@ri[2]
mov 32($ap,$i,8),@ri[0] # tp[i+1]
mov 40($ap,$i,8),@ri[1]
sbb 24($np,$i,8),@ri[3]
mov @ri[2],16($rp,$i,8) # rp[i]=tp[i]-np[i]
mov @ri[3],24($rp,$i,8) # rp[i]=tp[i]-np[i]
sbb 32($np,$i,8),@ri[0]
mov 48($ap,$i,8),@ri[2]
mov 56($ap,$i,8),@ri[3]
sbb 40($np,$i,8),@ri[1]
lea 4($i),$i # i++
dec $j # doesnn't affect CF!
jnz .Lsub4x
mov @ri[0],0($rp,$i,8) # rp[i]=tp[i]-np[i]
mov 32($ap,$i,8),@ri[0] # load overflow bit
sbb 16($np,$i,8),@ri[2]
mov @ri[1],8($rp,$i,8) # rp[i]=tp[i]-np[i]
sbb 24($np,$i,8),@ri[3]
mov @ri[2],16($rp,$i,8) # rp[i]=tp[i]-np[i]
sbb \$0,@ri[0] # handle upmost overflow bit
mov @ri[3],24($rp,$i,8) # rp[i]=tp[i]-np[i]
xor $i,$i # i=0
and @ri[0],$ap
not @ri[0]
mov $rp,$np
and @ri[0],$np
lea -1($num),$j
or $np,$ap # ap=borrow?tp:rp
movdqu ($ap),%xmm1
movdqa %xmm0,(%rsp)
movdqu %xmm1,($rp)
jmp .Lcopy4x
.align 16
.Lcopy4x: # copy or in-place refresh
movdqu 16($ap,$i),%xmm2
movdqu 32($ap,$i),%xmm1
movdqa %xmm0,16(%rsp,$i)
movdqu %xmm2,16($rp,$i)
movdqa %xmm0,32(%rsp,$i)
movdqu %xmm1,32($rp,$i)
lea 32($i),$i
dec $j
jnz .Lcopy4x
shl \$2,$num
movdqu 16($ap,$i),%xmm2
movdqa %xmm0,16(%rsp,$i)
movdqu %xmm2,16($rp,$i)
___
}
$code.=<<___;
mov 8(%rsp,$num,8),%rsi # restore %rsp
mov \$1,%rax
mov (%rsi),%r15
mov 8(%rsi),%r14
mov 16(%rsi),%r13
mov 24(%rsi),%r12
mov 32(%rsi),%rbp
mov 40(%rsi),%rbx
lea 48(%rsi),%rsp
.Lmul4x_epilogue:
ret
.size bn_mul4x_mont,.-bn_mul4x_mont
___
}}}
{{{
######################################################################
# void bn_sqr8x_mont(
my $rptr="%rdi"; # const BN_ULONG *rptr,
my $aptr="%rsi"; # const BN_ULONG *aptr,
my $bptr="%rdx"; # not used
my $nptr="%rcx"; # const BN_ULONG *nptr,
my $n0 ="%r8"; # const BN_ULONG *n0);
my $num ="%r9"; # int num, has to be divisible by 8
my ($i,$j,$tptr)=("%rbp","%rcx",$rptr);
my @A0=("%r10","%r11");
my @A1=("%r12","%r13");
my ($a0,$a1,$ai)=("%r14","%r15","%rbx");
$code.=<<___;
.type bn_sqr8x_mont,\@function,6
.align 32
bn_sqr8x_mont:
.Lsqr8x_enter:
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
shl \$3,${num}d # convert $num to bytes
xor %r10,%r10
mov %rsp,%r11 # put aside %rsp
sub $num,%r10 # -$num
mov ($n0),$n0 # *n0
lea -72(%rsp,%r10,2),%rsp # alloca(frame+2*$num)
and \$-1024,%rsp # minimize TLB usage
##############################################################
# Stack layout
#
# +0 saved $num, used in reduction section
# +8 &t[2*$num], used in reduction section
# +32 saved $rptr
# +40 saved $nptr
# +48 saved *n0
# +56 saved %rsp
# +64 t[2*$num]
#
mov $rptr,32(%rsp) # save $rptr
mov $nptr,40(%rsp)
mov $n0, 48(%rsp)
mov %r11, 56(%rsp) # save original %rsp
.Lsqr8x_body:
##############################################################
# Squaring part:
#
# a) multiply-n-add everything but a[i]*a[i];
# b) shift result of a) by 1 to the left and accumulate
# a[i]*a[i] products;
#
##############################################################
# a[1]a[0]
# a[2]a[0]
# a[3]a[0]
# a[2]a[1]
# a[4]a[0]
# a[3]a[1]
# a[5]a[0]
# a[4]a[1]
# a[3]a[2]
# a[6]a[0]
# a[5]a[1]
# a[4]a[2]
# a[7]a[0]
# a[6]a[1]
# a[5]a[2]
# a[4]a[3]
# a[7]a[1]
# a[6]a[2]
# a[5]a[3]
# a[7]a[2]
# a[6]a[3]
# a[5]a[4]
# a[7]a[3]
# a[6]a[4]
# a[7]a[4]
# a[6]a[5]
# a[7]a[5]
# a[7]a[6]
# a[1]a[0]
# a[2]a[0]
# a[3]a[0]
# a[4]a[0]
# a[5]a[0]
# a[6]a[0]
# a[7]a[0]
# a[2]a[1]
# a[3]a[1]
# a[4]a[1]
# a[5]a[1]
# a[6]a[1]
# a[7]a[1]
# a[3]a[2]
# a[4]a[2]
# a[5]a[2]
# a[6]a[2]
# a[7]a[2]
# a[4]a[3]
# a[5]a[3]
# a[6]a[3]
# a[7]a[3]
# a[5]a[4]
# a[6]a[4]
# a[7]a[4]
# a[6]a[5]
# a[7]a[5]
# a[7]a[6]
# a[0]a[0]
# a[1]a[1]
# a[2]a[2]
# a[3]a[3]
# a[4]a[4]
# a[5]a[5]
# a[6]a[6]
# a[7]a[7]
lea 32(%r10),$i # $i=-($num-32)
lea ($aptr,$num),$aptr # end of a[] buffer, ($aptr,$i)=&ap[2]
mov $num,$j # $j=$num
# comments apply to $num==8 case
mov -32($aptr,$i),$a0 # a[0]
lea 64(%rsp,$num,2),$tptr # end of tp[] buffer, &tp[2*$num]
mov -24($aptr,$i),%rax # a[1]
lea -32($tptr,$i),$tptr # end of tp[] window, &tp[2*$num-"$i"]
mov -16($aptr,$i),$ai # a[2]
mov %rax,$a1
mul $a0 # a[1]*a[0]
mov %rax,$A0[0] # a[1]*a[0]
mov $ai,%rax # a[2]
mov %rdx,$A0[1]
mov $A0[0],-24($tptr,$i) # t[1]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
adc \$0,%rdx
mov $A0[1],-16($tptr,$i) # t[2]
mov %rdx,$A0[0]
lea -16($i),$j # j=-16
mov 8($aptr,$j),$ai # a[3]
mul $a1 # a[2]*a[1]
mov %rax,$A1[0] # a[2]*a[1]+t[3]
mov $ai,%rax
mov %rdx,$A1[1]
lea 16($j),$j
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
mov %rdx,$A0[1]
adc \$0,$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mov $A0[0],-8($tptr,$j) # t[3]
jmp .Lsqr4x_1st
.align 32
.Lsqr4x_1st:
mov ($aptr,$j),$ai # a[4]
mul $a1 # a[3]*a[1]
add %rax,$A1[1] # a[3]*a[1]+t[4]
mov $ai,%rax
mov %rdx,$A1[0]
adc \$0,$A1[0]
mul $a0 # a[4]*a[0]
add %rax,$A0[1] # a[4]*a[0]+a[3]*a[1]+t[4]
mov $ai,%rax # a[3]
mov 8($aptr,$j),$ai # a[5]
mov %rdx,$A0[0]
adc \$0,$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a1 # a[4]*a[3]
add %rax,$A1[0] # a[4]*a[3]+t[5]
mov $ai,%rax
mov $A0[1],($tptr,$j) # t[4]
mov %rdx,$A1[1]
adc \$0,$A1[1]
mul $a0 # a[5]*a[2]
add %rax,$A0[0] # a[5]*a[2]+a[4]*a[3]+t[5]
mov $ai,%rax
mov 16($aptr,$j),$ai # a[6]
mov %rdx,$A0[1]
adc \$0,$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mul $a1 # a[5]*a[3]
add %rax,$A1[1] # a[5]*a[3]+t[6]
mov $ai,%rax
mov $A0[0],8($tptr,$j) # t[5]
mov %rdx,$A1[0]
adc \$0,$A1[0]
mul $a0 # a[6]*a[2]
add %rax,$A0[1] # a[6]*a[2]+a[5]*a[3]+t[6]
mov $ai,%rax # a[3]
mov 24($aptr,$j),$ai # a[7]
mov %rdx,$A0[0]
adc \$0,$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a1 # a[6]*a[5]
add %rax,$A1[0] # a[6]*a[5]+t[7]
mov $ai,%rax
mov $A0[1],16($tptr,$j) # t[6]
mov %rdx,$A1[1]
adc \$0,$A1[1]
mul $a0 # a[7]*a[4]
add %rax,$A0[0] # a[7]*a[4]+a[6]*a[5]+t[6]
mov $ai,%rax
lea 32($j),$j
mov %rdx,$A0[1]
adc \$0,$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mov $A0[0],-8($tptr,$j) # t[7]
cmp \$0,$j
jne .Lsqr4x_1st
mul $a1 # a[7]*a[5]
add %rax,$A1[1]
lea 16($i),$i
adc \$0,%rdx
add $A0[1],$A1[1]
adc \$0,%rdx
mov $A1[1],($tptr) # t[8]
mov %rdx,$A1[0]
mov %rdx,8($tptr) # t[9]
jmp .Lsqr4x_outer
.align 32
.Lsqr4x_outer: # comments apply to $num==6 case
mov -32($aptr,$i),$a0 # a[0]
lea 64(%rsp,$num,2),$tptr # end of tp[] buffer, &tp[2*$num]
mov -24($aptr,$i),%rax # a[1]
lea -32($tptr,$i),$tptr # end of tp[] window, &tp[2*$num-"$i"]
mov -16($aptr,$i),$ai # a[2]
mov %rax,$a1
mov -24($tptr,$i),$A0[0] # t[1]
mul $a0 # a[1]*a[0]
add %rax,$A0[0] # a[1]*a[0]+t[1]
mov $ai,%rax # a[2]
adc \$0,%rdx
mov $A0[0],-24($tptr,$i) # t[1]
mov %rdx,$A0[1]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
adc \$0,%rdx
add -16($tptr,$i),$A0[1] # a[2]*a[0]+t[2]
mov %rdx,$A0[0]
adc \$0,$A0[0]
mov $A0[1],-16($tptr,$i) # t[2]
lea -16($i),$j # j=-16
xor $A1[0],$A1[0]
mov 8($aptr,$j),$ai # a[3]
mul $a1 # a[2]*a[1]
add %rax,$A1[0] # a[2]*a[1]+t[3]
mov $ai,%rax
adc \$0,%rdx
add 8($tptr,$j),$A1[0]
mov %rdx,$A1[1]
adc \$0,$A1[1]
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
adc \$0,%rdx
add $A1[0],$A0[0]
mov %rdx,$A0[1]
adc \$0,$A0[1]
mov $A0[0],8($tptr,$j) # t[3]
lea 16($j),$j
jmp .Lsqr4x_inner
.align 32
.Lsqr4x_inner:
mov ($aptr,$j),$ai # a[4]
mul $a1 # a[3]*a[1]
add %rax,$A1[1] # a[3]*a[1]+t[4]
mov $ai,%rax
mov %rdx,$A1[0]
adc \$0,$A1[0]
add ($tptr,$j),$A1[1]
adc \$0,$A1[0]
mul $a0 # a[4]*a[0]
add %rax,$A0[1] # a[4]*a[0]+a[3]*a[1]+t[4]
mov $ai,%rax # a[3]
mov 8($aptr,$j),$ai # a[5]
mov %rdx,$A0[0]
adc \$0,$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a1 # a[4]*a[3]
add %rax,$A1[0] # a[4]*a[3]+t[5]
mov $A0[1],($tptr,$j) # t[4]
mov $ai,%rax
mov %rdx,$A1[1]
adc \$0,$A1[1]
add 8($tptr,$j),$A1[0]
lea 16($j),$j # j++
adc \$0,$A1[1]
mul $a0 # a[5]*a[2]
add %rax,$A0[0] # a[5]*a[2]+a[4]*a[3]+t[5]
mov $ai,%rax
adc \$0,%rdx
add $A1[0],$A0[0]
mov %rdx,$A0[1]
adc \$0,$A0[1]
mov $A0[0],-8($tptr,$j) # t[5], "preloaded t[1]" below
cmp \$0,$j
jne .Lsqr4x_inner
mul $a1 # a[5]*a[3]
add %rax,$A1[1]
adc \$0,%rdx
add $A0[1],$A1[1]
adc \$0,%rdx
mov $A1[1],($tptr) # t[6], "preloaded t[2]" below
mov %rdx,$A1[0]
mov %rdx,8($tptr) # t[7], "preloaded t[3]" below
add \$16,$i
jnz .Lsqr4x_outer
# comments apply to $num==4 case
mov -32($aptr),$a0 # a[0]
lea 64(%rsp,$num,2),$tptr # end of tp[] buffer, &tp[2*$num]
mov -24($aptr),%rax # a[1]
lea -32($tptr,$i),$tptr # end of tp[] window, &tp[2*$num-"$i"]
mov -16($aptr),$ai # a[2]
mov %rax,$a1
mul $a0 # a[1]*a[0]
add %rax,$A0[0] # a[1]*a[0]+t[1], preloaded t[1]
mov $ai,%rax # a[2]
mov %rdx,$A0[1]
adc \$0,$A0[1]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
mov $A0[0],-24($tptr) # t[1]
mov %rdx,$A0[0]
adc \$0,$A0[0]
add $A1[1],$A0[1] # a[2]*a[0]+t[2], preloaded t[2]
mov -8($aptr),$ai # a[3]
adc \$0,$A0[0]
mul $a1 # a[2]*a[1]
add %rax,$A1[0] # a[2]*a[1]+t[3], preloaded t[3]
mov $ai,%rax
mov $A0[1],-16($tptr) # t[2]
mov %rdx,$A1[1]
adc \$0,$A1[1]
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
mov %rdx,$A0[1]
adc \$0,$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mov $A0[0],-8($tptr) # t[3]
mul $a1 # a[3]*a[1]
add %rax,$A1[1]
mov -16($aptr),%rax # a[2]
adc \$0,%rdx
add $A0[1],$A1[1]
adc \$0,%rdx
mov $A1[1],($tptr) # t[4]
mov %rdx,$A1[0]
mov %rdx,8($tptr) # t[5]
mul $ai # a[2]*a[3]
___
{
my ($shift,$carry)=($a0,$a1);
my @S=(@A1,$ai,$n0);
$code.=<<___;
add \$16,$i
xor $shift,$shift
sub $num,$i # $i=16-$num
xor $carry,$carry
add $A1[0],%rax # t[5]
adc \$0,%rdx
mov %rax,8($tptr) # t[5]
mov %rdx,16($tptr) # t[6]
mov $carry,24($tptr) # t[7]
mov -16($aptr,$i),%rax # a[0]
lea 64(%rsp,$num,2),$tptr
xor $A0[0],$A0[0] # t[0]
mov -24($tptr,$i,2),$A0[1] # t[1]
lea ($shift,$A0[0],2),$S[0] # t[2*i]<<1 | shift
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[1] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[1] # | t[2*i]>>63
mov -16($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov -8($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[0]
mov -8($aptr,$i),%rax # a[i+1] # prefetch
mov $S[0],-32($tptr,$i,2)
adc %rdx,$S[1]
lea ($shift,$A0[0],2),$S[2] # t[2*i]<<1 | shift
mov $S[1],-24($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[3] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[3] # | t[2*i]>>63
mov 0($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov 8($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[2]
mov 0($aptr,$i),%rax # a[i+1] # prefetch
mov $S[2],-16($tptr,$i,2)
adc %rdx,$S[3]
lea 16($i),$i
mov $S[3],-40($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
jmp .Lsqr4x_shift_n_add
.align 32
.Lsqr4x_shift_n_add:
lea ($shift,$A0[0],2),$S[0] # t[2*i]<<1 | shift
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[1] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[1] # | t[2*i]>>63
mov -16($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov -8($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[0]
mov -8($aptr,$i),%rax # a[i+1] # prefetch
mov $S[0],-32($tptr,$i,2)
adc %rdx,$S[1]
lea ($shift,$A0[0],2),$S[2] # t[2*i]<<1 | shift
mov $S[1],-24($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[3] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[3] # | t[2*i]>>63
mov 0($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov 8($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[2]
mov 0($aptr,$i),%rax # a[i+1] # prefetch
mov $S[2],-16($tptr,$i,2)
adc %rdx,$S[3]
lea ($shift,$A0[0],2),$S[0] # t[2*i]<<1 | shift
mov $S[3],-8($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[1] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[1] # | t[2*i]>>63
mov 16($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov 24($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[0]
mov 8($aptr,$i),%rax # a[i+1] # prefetch
mov $S[0],0($tptr,$i,2)
adc %rdx,$S[1]
lea ($shift,$A0[0],2),$S[2] # t[2*i]<<1 | shift
mov $S[1],8($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[3] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[3] # | t[2*i]>>63
mov 32($tptr,$i,2),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov 40($tptr,$i,2),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[2]
mov 16($aptr,$i),%rax # a[i+1] # prefetch
mov $S[2],16($tptr,$i,2)
adc %rdx,$S[3]
mov $S[3],24($tptr,$i,2)
sbb $carry,$carry # mov cf,$carry
add \$32,$i
jnz .Lsqr4x_shift_n_add
lea ($shift,$A0[0],2),$S[0] # t[2*i]<<1 | shift
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[1] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[1] # | t[2*i]>>63
mov -16($tptr),$A0[0] # t[2*i+2] # prefetch
mov $A0[1],$shift # shift=t[2*i+1]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
mov -8($tptr),$A0[1] # t[2*i+2+1] # prefetch
adc %rax,$S[0]
mov -8($aptr),%rax # a[i+1] # prefetch
mov $S[0],-32($tptr)
adc %rdx,$S[1]
lea ($shift,$A0[0],2),$S[2] # t[2*i]<<1|shift
mov $S[1],-24($tptr)
sbb $carry,$carry # mov cf,$carry
shr \$63,$A0[0]
lea ($j,$A0[1],2),$S[3] # t[2*i+1]<<1 |
shr \$63,$A0[1]
or $A0[0],$S[3] # | t[2*i]>>63
mul %rax # a[i]*a[i]
neg $carry # mov $carry,cf
adc %rax,$S[2]
adc %rdx,$S[3]
mov $S[2],-16($tptr)
mov $S[3],-8($tptr)
___
}
######################################################################
# Montgomery reduction part, "word-by-word" algorithm.
#
# This new path is inspired by multiple submissions from Intel, by
# Shay Gueron, Vlad Krasnov, Erdinc Ozturk, James Guilford,
# Vinodh Gopal...
{
my ($nptr,$tptr,$carry,$m0)=("%rbp","%rdi","%rsi","%rbx");
$code.=<<___;
mov 40(%rsp),$nptr # pull $nptr
xor %rax,%rax
lea ($nptr,$num),%rdx # end of n[]
lea 64(%rsp,$num,2),$tptr # end of t[] buffer
mov %rdx,0(%rsp)
mov $tptr,8(%rsp)
mov %rax,($tptr) # clear top-most carry bit
lea 64(%rsp,$num),$tptr # end of initial t[] window
neg $num
jmp .L8x_reduction_loop
.align 32
.L8x_reduction_loop:
lea ($tptr,$num),$tptr # start of current t[] window
mov 8*0($tptr),$m0
mov 8*1($tptr),%r9
mov 8*2($tptr),%r10
mov 8*3($tptr),%r11
mov 8*4($tptr),%r12
mov 8*5($tptr),%r13
mov 8*6($tptr),%r14
mov 8*7($tptr),%r15
lea 8*8($tptr),$tptr
mov $m0,%r8
imulq 48(%rsp),$m0 # n0*a[0]
mov 8*0($nptr),%rax # n[0]
mov \$8,%ecx
jmp .L8x_reduce
.align 32
.L8x_reduce:
mulq $m0
mov 8*1($nptr),%rax # n[1]
neg %r8
mov %rdx,%r8
adc \$0,%r8
mulq $m0
add %rax,%r9
mov 8*2($nptr),%rax
adc \$0,%rdx
add %r9,%r8
mov $m0,64-8(%rsp,%rcx,8) # put aside n0*a[i]
mov %rdx,%r9
adc \$0,%r9
mulq $m0
add %rax,%r10
mov 8*3($nptr),%rax
adc \$0,%rdx
add %r10,%r9
mov 48(%rsp),$carry # pull n0, borrow $carry
mov %rdx,%r10
adc \$0,%r10
mulq $m0
add %rax,%r11
mov 8*4($nptr),%rax
adc \$0,%rdx
imulq %r8,$carry # modulo-scheduled
add %r11,%r10
mov %rdx,%r11
adc \$0,%r11
mulq $m0
add %rax,%r12
mov 8*5($nptr),%rax
adc \$0,%rdx
add %r12,%r11
mov %rdx,%r12
adc \$0,%r12
mulq $m0
add %rax,%r13
mov 8*6($nptr),%rax
adc \$0,%rdx
add %r13,%r12
mov %rdx,%r13
adc \$0,%r13
mulq $m0
add %rax,%r14
mov 8*7($nptr),%rax
adc \$0,%rdx
add %r14,%r13
mov %rdx,%r14
adc \$0,%r14
mulq $m0
mov $carry,$m0 # n0*a[i]
add %rax,%r15
mov 8*0($nptr),%rax # n[0]
adc \$0,%rdx
add %r15,%r14
mov %rdx,%r15
adc \$0,%r15
dec %ecx
jnz .L8x_reduce
lea 8*8($nptr),$nptr
xor %rax,%rax
mov 8(%rsp),%rdx # pull end of t[]
xor $carry,$carry
cmp 0(%rsp),$nptr # end of n[]?
jae .L8x_no_tail
add 8*0($tptr),%r8
adc 8*1($tptr),%r9
adc 8*2($tptr),%r10
adc 8*3($tptr),%r11
adc 8*4($tptr),%r12
adc 8*5($tptr),%r13
adc 8*6($tptr),%r14
adc 8*7($tptr),%r15
sbb $carry,$carry # top carry
mov 64+56(%rsp),$m0 # pull n0*a[0]
mov \$8,%ecx
mov 8*0($nptr),%rax
jmp .L8x_tail
.align 32
.L8x_tail:
mulq $m0
add %rax,%r8
mov 8*1($nptr),%rax
mov %r8,($tptr) # save result
mov %rdx,%r8
adc \$0,%r8
mulq $m0
add %rax,%r9
mov 8*2($nptr),%rax
adc \$0,%rdx
add %r9,%r8
lea 8($tptr),$tptr # $tptr++
mov %rdx,%r9
adc \$0,%r9
mulq $m0
add %rax,%r10
mov 8*3($nptr),%rax
adc \$0,%rdx
add %r10,%r9
mov %rdx,%r10
adc \$0,%r10
mulq $m0
add %rax,%r11
mov 8*4($nptr),%rax
adc \$0,%rdx
add %r11,%r10
mov %rdx,%r11
adc \$0,%r11
mulq $m0
add %rax,%r12
mov 8*5($nptr),%rax
adc \$0,%rdx
add %r12,%r11
mov %rdx,%r12
adc \$0,%r12
mulq $m0
add %rax,%r13
mov 8*6($nptr),%rax
adc \$0,%rdx
add %r13,%r12
mov %rdx,%r13
adc \$0,%r13
mulq $m0
add %rax,%r14
mov 8*7($nptr),%rax
adc \$0,%rdx
add %r14,%r13
mov %rdx,%r14
adc \$0,%r14
mulq $m0
mov 64-16(%rsp,%rcx,8),$m0 # pull n0*a[i]
add %rax,%r15
adc \$0,%rdx
add %r15,%r14
mov 8*0($nptr),%rax # pull n[0]
mov %rdx,%r15
adc \$0,%r15
dec %ecx
jnz .L8x_tail
lea 8*8($nptr),$nptr
mov 8(%rsp),%rdx # pull end of t[]
cmp 0(%rsp),$nptr # end of n[]?
jae .L8x_tail_done # break out of loop
mov 64+56(%rsp),$m0 # pull n0*a[0]
neg $carry
mov 8*0($nptr),%rax # pull n[0]
adc 8*0($tptr),%r8
adc 8*1($tptr),%r9
adc 8*2($tptr),%r10
adc 8*3($tptr),%r11
adc 8*4($tptr),%r12
adc 8*5($tptr),%r13
adc 8*6($tptr),%r14
adc 8*7($tptr),%r15
sbb $carry,$carry # top carry
mov \$8,%ecx
jmp .L8x_tail
.align 32
.L8x_tail_done:
add (%rdx),%r8 # can this overflow?
adc \$0,%r9
adc \$0,%r10
adc \$0,%r11
adc \$0,%r12
adc \$0,%r13
adc \$0,%r14
adc \$0,%r15
sbb %rax,%rax
.L8x_no_tail:
neg $carry
adc 8*0($tptr),%r8
adc 8*1($tptr),%r9
adc 8*2($tptr),%r10
adc 8*3($tptr),%r11
adc 8*4($tptr),%r12
adc 8*5($tptr),%r13
adc 8*6($tptr),%r14
adc 8*7($tptr),%r15
sbb $carry,$carry
neg %rax
sub $carry,%rax # top-most carry
mov 40(%rsp),$nptr # restore $nptr
mov %r8,8*0($tptr) # store top 512 bits
mov %r9,8*1($tptr)
mov $nptr,$num # $num is %r9, can't be moved upwards
mov %r10,8*2($tptr)
sub 0(%rsp),$num # -$num
mov %r11,8*3($tptr)
mov %r12,8*4($tptr)
mov %r13,8*5($tptr)
mov %r14,8*6($tptr)
mov %r15,8*7($tptr)
lea 8*8($tptr),$tptr
mov %rax,(%rdx) # store top-most carry
cmp %rdx,$tptr # end of t[]?
jb .L8x_reduction_loop
neg $num # restore $num
___
}
##############################################################
# Post-condition, 4x unrolled copy from bn_mul_mont
#
{
my ($tptr,$nptr)=("%rbx",$aptr);
my @ri=("%rax","%rdx","%r10","%r11");
$code.=<<___;
mov 64(%rsp,$num),@ri[0] # tp[0]
lea 64(%rsp,$num),$tptr # upper half of t[2*$num] holds result
mov 40(%rsp),$nptr # restore $nptr
shr \$5,$num # num/4
mov 8($tptr),@ri[1] # t[1]
xor $i,$i # i=0 and clear CF!
mov 32(%rsp),$rptr # restore $rptr
sub 0($nptr),@ri[0]
mov 16($tptr),@ri[2] # t[2]
mov 24($tptr),@ri[3] # t[3]
sbb 8($nptr),@ri[1]
lea -1($num),$j # j=num/4-1
jmp .Lsqr4x_sub
.align 32
.Lsqr4x_sub:
mov @ri[0],0($rptr,$i,8) # rp[i]=tp[i]-np[i]
mov @ri[1],8($rptr,$i,8) # rp[i]=tp[i]-np[i]
sbb 16($nptr,$i,8),@ri[2]
mov 32($tptr,$i,8),@ri[0] # tp[i+1]
mov 40($tptr,$i,8),@ri[1]
sbb 24($nptr,$i,8),@ri[3]
mov @ri[2],16($rptr,$i,8) # rp[i]=tp[i]-np[i]
mov @ri[3],24($rptr,$i,8) # rp[i]=tp[i]-np[i]
sbb 32($nptr,$i,8),@ri[0]
mov 48($tptr,$i,8),@ri[2]
mov 56($tptr,$i,8),@ri[3]
sbb 40($nptr,$i,8),@ri[1]
lea 4($i),$i # i++
dec $j # doesn't affect CF!
jnz .Lsqr4x_sub
mov @ri[0],0($rptr,$i,8) # rp[i]=tp[i]-np[i]
mov 32($tptr,$i,8),@ri[0] # load overflow bit
sbb 16($nptr,$i,8),@ri[2]
mov @ri[1],8($rptr,$i,8) # rp[i]=tp[i]-np[i]
sbb 24($nptr,$i,8),@ri[3]
mov @ri[2],16($rptr,$i,8) # rp[i]=tp[i]-np[i]
sbb \$0,@ri[0] # handle upmost overflow bit
mov @ri[3],24($rptr,$i,8) # rp[i]=tp[i]-np[i]
xor $i,$i # i=0
and @ri[0],$tptr
not @ri[0]
mov $rptr,$nptr
and @ri[0],$nptr
lea -1($num),$j
or $nptr,$tptr # tp=borrow?tp:rp
pxor %xmm0,%xmm0
lea 64(%rsp,$num,8),$nptr
movdqu ($tptr),%xmm1
lea ($nptr,$num,8),$nptr
movdqa %xmm0,64(%rsp) # zap lower half of temporary vector
movdqa %xmm0,($nptr) # zap upper half of temporary vector
movdqu %xmm1,($rptr)
jmp .Lsqr4x_copy
.align 32
.Lsqr4x_copy: # copy or in-place refresh
movdqu 16($tptr,$i),%xmm2
movdqu 32($tptr,$i),%xmm1
movdqa %xmm0,80(%rsp,$i) # zap lower half of temporary vector
movdqa %xmm0,96(%rsp,$i) # zap lower half of temporary vector
movdqa %xmm0,16($nptr,$i) # zap upper half of temporary vector
movdqa %xmm0,32($nptr,$i) # zap upper half of temporary vector
movdqu %xmm2,16($rptr,$i)
movdqu %xmm1,32($rptr,$i)
lea 32($i),$i
dec $j
jnz .Lsqr4x_copy
movdqu 16($tptr,$i),%xmm2
movdqa %xmm0,80(%rsp,$i) # zap lower half of temporary vector
movdqa %xmm0,16($nptr,$i) # zap upper half of temporary vector
movdqu %xmm2,16($rptr,$i)
___
}
$code.=<<___;
mov 56(%rsp),%rsi # restore %rsp
mov \$1,%rax
mov 0(%rsi),%r15
mov 8(%rsi),%r14
mov 16(%rsi),%r13
mov 24(%rsi),%r12
mov 32(%rsi),%rbp
mov 40(%rsi),%rbx
lea 48(%rsi),%rsp
.Lsqr8x_epilogue:
ret
.size bn_sqr8x_mont,.-bn_sqr8x_mont
___
}}}
$code.=<<___;
.asciz "Montgomery Multiplication for x86_64, CRYPTOGAMS by <appro\@openssl.org>"
.align 16
___
# EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame,
# CONTEXT *context,DISPATCHER_CONTEXT *disp)
if ($win64) {
$rec="%rcx";
$frame="%rdx";
$context="%r8";
$disp="%r9";
$code.=<<___;
.extern __imp_RtlVirtualUnwind
.type mul_handler,\@abi-omnipotent
.align 16
mul_handler:
push %rsi
push %rdi
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
pushfq
sub \$64,%rsp
mov 120($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 192($context),%r10 # pull $num
mov 8(%rax,%r10,8),%rax # pull saved stack pointer
lea 48(%rax),%rax
mov -8(%rax),%rbx
mov -16(%rax),%rbp
mov -24(%rax),%r12
mov -32(%rax),%r13
mov -40(%rax),%r14
mov -48(%rax),%r15
mov %rbx,144($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($context) # restore context->R15
jmp .Lcommon_seh_tail
.size mul_handler,.-mul_handler
.type sqr_handler,\@abi-omnipotent
.align 16
sqr_handler:
push %rsi
push %rdi
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
pushfq
sub \$64,%rsp
mov 120($context),%rax # pull context->Rax
mov 248($context),%rbx # pull context->Rip
lea .Lsqr8x_body(%rip),%r10
cmp %r10,%rbx # context->Rip<.Lsqr_body
jb .Lcommon_seh_tail
mov 152($context),%rax # pull context->Rsp
lea .Lsqr8x_epilogue(%rip),%r10
cmp %r10,%rbx # context->Rip>=.Lsqr_epilogue
jae .Lcommon_seh_tail
mov 56(%rax),%rax # pull saved stack pointer
lea 48(%rax),%rax
mov -8(%rax),%rbx
mov -16(%rax),%rbp
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 sqr_handler,.-sqr_handler
.section .pdata
.align 4
.rva .LSEH_begin_bn_mul_mont
.rva .LSEH_end_bn_mul_mont
.rva .LSEH_info_bn_mul_mont
.rva .LSEH_begin_bn_mul4x_mont
.rva .LSEH_end_bn_mul4x_mont
.rva .LSEH_info_bn_mul4x_mont
.rva .LSEH_begin_bn_sqr8x_mont
.rva .LSEH_end_bn_sqr8x_mont
.rva .LSEH_info_bn_sqr8x_mont
.section .xdata
.align 8
.LSEH_info_bn_mul_mont:
.byte 9,0,0,0
.rva mul_handler
.rva .Lmul_body,.Lmul_epilogue # HandlerData[]
.LSEH_info_bn_mul4x_mont:
.byte 9,0,0,0
.rva mul_handler
.rva .Lmul4x_body,.Lmul4x_epilogue # HandlerData[]
.LSEH_info_bn_sqr8x_mont:
.byte 9,0,0,0
.rva sqr_handler
___
}
print $code;
close STDOUT;