virtualx-engine/drivers/builtin_openssl2/crypto/bn/asm/x86_64-mont.pl
Juan Linietsky 678948068b Small Issues & Maintenance
-=-=-=-=-=-=-=-=-=-=-=-=-=

-Begin work on Navigation Meshes (simple pathfinding for now, will improve soon)
-More doc on theme overriding
-Upgraded OpenSSL to version without bugs
-Misc bugfixes
2014-08-01 22:10:38 -03:00

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Perl
Executable file
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#!/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.
$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
jmp .Lsqr4x_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_sqr4x_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 $num ="%r9"; # int num, has to be divisible by 4 and
# not less than 8
my ($i,$j,$tptr)=("%rbp","%rcx",$rptr);
my @A0=("%r10","%r11");
my @A1=("%r12","%r13");
my ($a0,$a1,$ai)=("%r14","%r15","%rbx");
$code.=<<___;
.type bn_sqr4x_mont,\@function,6
.align 16
bn_sqr4x_mont:
.Lsqr4x_enter:
push %rbx
push %rbp
push %r12
push %r13
push %r14
push %r15
shl \$3,${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 $n0, 48(%rsp)
mov %r11, 56(%rsp) # save original %rsp
.Lsqr4x_body:
##############################################################
# Squaring part:
#
# a) multiply-n-add everything but a[i]*a[i];
# b) shift result of a) by 1 to the left and accumulate
# a[i]*a[i] products;
#
lea 32(%r10),$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]
xor $A0[0],$A0[0]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
adc %rdx,$A0[0]
mov $A0[1],-16($tptr,$i) # t[2]
lea -16($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]
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
lea 16($j),$j
adc \$0,$A0[1]
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],-8($tptr,$j) # t[3]
jmp .Lsqr4x_1st
.align 16
.Lsqr4x_1st:
mov ($aptr,$j),$ai # a[4]
xor $A1[0],$A1[0]
mul $a1 # a[3]*a[1]
add %rax,$A1[1] # a[3]*a[1]+t[4]
mov $ai,%rax
adc %rdx,$A1[0]
xor $A0[0],$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a0 # a[4]*a[0]
add %rax,$A0[1] # a[4]*a[0]+a[3]*a[1]+t[4]
mov $ai,%rax # a[3]
adc %rdx,$A0[0]
mov $A0[1],($tptr,$j) # t[4]
mov 8($aptr,$j),$ai # a[5]
xor $A1[1],$A1[1]
mul $a1 # a[4]*a[3]
add %rax,$A1[0] # a[4]*a[3]+t[5]
mov $ai,%rax
adc %rdx,$A1[1]
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mul $a0 # a[5]*a[2]
add %rax,$A0[0] # a[5]*a[2]+a[4]*a[3]+t[5]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],8($tptr,$j) # t[5]
mov 16($aptr,$j),$ai # a[6]
xor $A1[0],$A1[0]
mul $a1 # a[5]*a[3]
add %rax,$A1[1] # a[5]*a[3]+t[6]
mov $ai,%rax
adc %rdx,$A1[0]
xor $A0[0],$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a0 # a[6]*a[2]
add %rax,$A0[1] # a[6]*a[2]+a[5]*a[3]+t[6]
mov $ai,%rax # a[3]
adc %rdx,$A0[0]
mov $A0[1],16($tptr,$j) # t[6]
mov 24($aptr,$j),$ai # a[7]
xor $A1[1],$A1[1]
mul $a1 # a[6]*a[5]
add %rax,$A1[0] # a[6]*a[5]+t[7]
mov $ai,%rax
adc %rdx,$A1[1]
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
lea 32($j),$j
adc \$0,$A0[1]
mul $a0 # a[7]*a[4]
add %rax,$A0[0] # a[7]*a[4]+a[6]*a[5]+t[6]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],-8($tptr,$j) # t[7]
cmp \$0,$j
jne .Lsqr4x_1st
xor $A1[0],$A1[0]
add $A0[1],$A1[1]
adc \$0,$A1[0]
mul $a1 # a[7]*a[5]
add %rax,$A1[1]
adc %rdx,$A1[0]
mov $A1[1],($tptr) # t[8]
lea 16($i),$i
mov $A1[0],8($tptr) # t[9]
jmp .Lsqr4x_outer
.align 16
.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]
xor $A0[1],$A0[1]
mul $a0 # a[1]*a[0]
add %rax,$A0[0] # a[1]*a[0]+t[1]
mov $ai,%rax # a[2]
adc %rdx,$A0[1]
mov $A0[0],-24($tptr,$i) # t[1]
xor $A0[0],$A0[0]
add -16($tptr,$i),$A0[1] # a[2]*a[0]+t[2]
adc \$0,$A0[0]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
adc %rdx,$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]
xor $A1[1],$A1[1]
add 8($tptr,$j),$A1[0]
adc \$0,$A1[1]
mul $a1 # a[2]*a[1]
add %rax,$A1[0] # a[2]*a[1]+t[3]
mov $ai,%rax
adc %rdx,$A1[1]
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
adc \$0,$A0[1]
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],8($tptr,$j) # t[3]
lea 16($j),$j
jmp .Lsqr4x_inner
.align 16
.Lsqr4x_inner:
mov ($aptr,$j),$ai # a[4]
xor $A1[0],$A1[0]
add ($tptr,$j),$A1[1]
adc \$0,$A1[0]
mul $a1 # a[3]*a[1]
add %rax,$A1[1] # a[3]*a[1]+t[4]
mov $ai,%rax
adc %rdx,$A1[0]
xor $A0[0],$A0[0]
add $A1[1],$A0[1]
adc \$0,$A0[0]
mul $a0 # a[4]*a[0]
add %rax,$A0[1] # a[4]*a[0]+a[3]*a[1]+t[4]
mov $ai,%rax # a[3]
adc %rdx,$A0[0]
mov $A0[1],($tptr,$j) # t[4]
mov 8($aptr,$j),$ai # a[5]
xor $A1[1],$A1[1]
add 8($tptr,$j),$A1[0]
adc \$0,$A1[1]
mul $a1 # a[4]*a[3]
add %rax,$A1[0] # a[4]*a[3]+t[5]
mov $ai,%rax
adc %rdx,$A1[1]
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
lea 16($j),$j # j++
adc \$0,$A0[1]
mul $a0 # a[5]*a[2]
add %rax,$A0[0] # a[5]*a[2]+a[4]*a[3]+t[5]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],-8($tptr,$j) # t[5], "preloaded t[1]" below
cmp \$0,$j
jne .Lsqr4x_inner
xor $A1[0],$A1[0]
add $A0[1],$A1[1]
adc \$0,$A1[0]
mul $a1 # a[5]*a[3]
add %rax,$A1[1]
adc %rdx,$A1[0]
mov $A1[1],($tptr) # t[6], "preloaded t[2]" below
mov $A1[0],8($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
xor $A0[1],$A0[1]
mul $a0 # a[1]*a[0]
add %rax,$A0[0] # a[1]*a[0]+t[1], preloaded t[1]
mov $ai,%rax # a[2]
adc %rdx,$A0[1]
mov $A0[0],-24($tptr) # t[1]
xor $A0[0],$A0[0]
add $A1[1],$A0[1] # a[2]*a[0]+t[2], preloaded t[2]
adc \$0,$A0[0]
mul $a0 # a[2]*a[0]
add %rax,$A0[1]
mov $ai,%rax
adc %rdx,$A0[0]
mov $A0[1],-16($tptr) # t[2]
mov -8($aptr),$ai # a[3]
mul $a1 # a[2]*a[1]
add %rax,$A1[0] # a[2]*a[1]+t[3], preloaded t[3]
mov $ai,%rax
adc \$0,%rdx
xor $A0[1],$A0[1]
add $A1[0],$A0[0]
mov %rdx,$A1[1]
adc \$0,$A0[1]
mul $a0 # a[3]*a[0]
add %rax,$A0[0] # a[3]*a[0]+a[2]*a[1]+t[3]
mov $ai,%rax
adc %rdx,$A0[1]
mov $A0[0],-8($tptr) # t[3]
xor $A1[0],$A1[0]
add $A0[1],$A1[1]
adc \$0,$A1[0]
mul $a1 # a[3]*a[1]
add %rax,$A1[1]
mov -16($aptr),%rax # a[2]
adc %rdx,$A1[0]
mov $A1[1],($tptr) # t[4]
mov $A1[0],8($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,$carry
jmp .Lsqr4x_shift_n_add
.align 16
.Lsqr4x_shift_n_add:
lea ($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.
#
{
my ($topbit,$nptr)=("%rbp",$aptr);
my ($m0,$m1)=($a0,$a1);
my @Ni=("%rbx","%r9");
$code.=<<___;
mov 40(%rsp),$nptr # restore $nptr
mov 48(%rsp),$n0 # restore *n0
xor $j,$j
mov $num,0(%rsp) # save $num
sub $num,$j # $j=-$num
mov 64(%rsp),$A0[0] # t[0] # modsched #
mov $n0,$m0 # # modsched #
lea 64(%rsp,$num,2),%rax # end of t[] buffer
lea 64(%rsp,$num),$tptr # end of t[] window
mov %rax,8(%rsp) # save end of t[] buffer
lea ($nptr,$num),$nptr # end of n[] buffer
xor $topbit,$topbit # $topbit=0
mov 0($nptr,$j),%rax # n[0] # modsched #
mov 8($nptr,$j),$Ni[1] # n[1] # modsched #
imulq $A0[0],$m0 # m0=t[0]*n0 # modsched #
mov %rax,$Ni[0] # # modsched #
jmp .Lsqr4x_mont_outer
.align 16
.Lsqr4x_mont_outer:
xor $A0[1],$A0[1]
mul $m0 # n[0]*m0
add %rax,$A0[0] # n[0]*m0+t[0]
mov $Ni[1],%rax
adc %rdx,$A0[1]
mov $n0,$m1
xor $A0[0],$A0[0]
add 8($tptr,$j),$A0[1]
adc \$0,$A0[0]
mul $m0 # n[1]*m0
add %rax,$A0[1] # n[1]*m0+t[1]
mov $Ni[0],%rax
adc %rdx,$A0[0]
imulq $A0[1],$m1
mov 16($nptr,$j),$Ni[0] # n[2]
xor $A1[1],$A1[1]
add $A0[1],$A1[0]
adc \$0,$A1[1]
mul $m1 # n[0]*m1
add %rax,$A1[0] # n[0]*m1+"t[1]"
mov $Ni[0],%rax
adc %rdx,$A1[1]
mov $A1[0],8($tptr,$j) # "t[1]"
xor $A0[1],$A0[1]
add 16($tptr,$j),$A0[0]
adc \$0,$A0[1]
mul $m0 # n[2]*m0
add %rax,$A0[0] # n[2]*m0+t[2]
mov $Ni[1],%rax
adc %rdx,$A0[1]
mov 24($nptr,$j),$Ni[1] # n[3]
xor $A1[0],$A1[0]
add $A0[0],$A1[1]
adc \$0,$A1[0]
mul $m1 # n[1]*m1
add %rax,$A1[1] # n[1]*m1+"t[2]"
mov $Ni[1],%rax
adc %rdx,$A1[0]
mov $A1[1],16($tptr,$j) # "t[2]"
xor $A0[0],$A0[0]
add 24($tptr,$j),$A0[1]
lea 32($j),$j
adc \$0,$A0[0]
mul $m0 # n[3]*m0
add %rax,$A0[1] # n[3]*m0+t[3]
mov $Ni[0],%rax
adc %rdx,$A0[0]
jmp .Lsqr4x_mont_inner
.align 16
.Lsqr4x_mont_inner:
mov ($nptr,$j),$Ni[0] # n[4]
xor $A1[1],$A1[1]
add $A0[1],$A1[0]
adc \$0,$A1[1]
mul $m1 # n[2]*m1
add %rax,$A1[0] # n[2]*m1+"t[3]"
mov $Ni[0],%rax
adc %rdx,$A1[1]
mov $A1[0],-8($tptr,$j) # "t[3]"
xor $A0[1],$A0[1]
add ($tptr,$j),$A0[0]
adc \$0,$A0[1]
mul $m0 # n[4]*m0
add %rax,$A0[0] # n[4]*m0+t[4]
mov $Ni[1],%rax
adc %rdx,$A0[1]
mov 8($nptr,$j),$Ni[1] # n[5]
xor $A1[0],$A1[0]
add $A0[0],$A1[1]
adc \$0,$A1[0]
mul $m1 # n[3]*m1
add %rax,$A1[1] # n[3]*m1+"t[4]"
mov $Ni[1],%rax
adc %rdx,$A1[0]
mov $A1[1],($tptr,$j) # "t[4]"
xor $A0[0],$A0[0]
add 8($tptr,$j),$A0[1]
adc \$0,$A0[0]
mul $m0 # n[5]*m0
add %rax,$A0[1] # n[5]*m0+t[5]
mov $Ni[0],%rax
adc %rdx,$A0[0]
mov 16($nptr,$j),$Ni[0] # n[6]
xor $A1[1],$A1[1]
add $A0[1],$A1[0]
adc \$0,$A1[1]
mul $m1 # n[4]*m1
add %rax,$A1[0] # n[4]*m1+"t[5]"
mov $Ni[0],%rax
adc %rdx,$A1[1]
mov $A1[0],8($tptr,$j) # "t[5]"
xor $A0[1],$A0[1]
add 16($tptr,$j),$A0[0]
adc \$0,$A0[1]
mul $m0 # n[6]*m0
add %rax,$A0[0] # n[6]*m0+t[6]
mov $Ni[1],%rax
adc %rdx,$A0[1]
mov 24($nptr,$j),$Ni[1] # n[7]
xor $A1[0],$A1[0]
add $A0[0],$A1[1]
adc \$0,$A1[0]
mul $m1 # n[5]*m1
add %rax,$A1[1] # n[5]*m1+"t[6]"
mov $Ni[1],%rax
adc %rdx,$A1[0]
mov $A1[1],16($tptr,$j) # "t[6]"
xor $A0[0],$A0[0]
add 24($tptr,$j),$A0[1]
lea 32($j),$j
adc \$0,$A0[0]
mul $m0 # n[7]*m0
add %rax,$A0[1] # n[7]*m0+t[7]
mov $Ni[0],%rax
adc %rdx,$A0[0]
cmp \$0,$j
jne .Lsqr4x_mont_inner
sub 0(%rsp),$j # $j=-$num # modsched #
mov $n0,$m0 # # modsched #
xor $A1[1],$A1[1]
add $A0[1],$A1[0]
adc \$0,$A1[1]
mul $m1 # n[6]*m1
add %rax,$A1[0] # n[6]*m1+"t[7]"
mov $Ni[1],%rax
adc %rdx,$A1[1]
mov $A1[0],-8($tptr) # "t[7]"
xor $A0[1],$A0[1]
add ($tptr),$A0[0] # +t[8]
adc \$0,$A0[1]
mov 0($nptr,$j),$Ni[0] # n[0] # modsched #
add $topbit,$A0[0]
adc \$0,$A0[1]
imulq 16($tptr,$j),$m0 # m0=t[0]*n0 # modsched #
xor $A1[0],$A1[0]
mov 8($nptr,$j),$Ni[1] # n[1] # modsched #
add $A0[0],$A1[1]
mov 16($tptr,$j),$A0[0] # t[0] # modsched #
adc \$0,$A1[0]
mul $m1 # n[7]*m1
add %rax,$A1[1] # n[7]*m1+"t[8]"
mov $Ni[0],%rax # # modsched #
adc %rdx,$A1[0]
mov $A1[1],($tptr) # "t[8]"
xor $topbit,$topbit
add 8($tptr),$A1[0] # +t[9]
adc $topbit,$topbit
add $A0[1],$A1[0]
lea 16($tptr),$tptr # "t[$num]>>128"
adc \$0,$topbit
mov $A1[0],-8($tptr) # "t[9]"
cmp 8(%rsp),$tptr # are we done?
jb .Lsqr4x_mont_outer
mov 0(%rsp),$num # restore $num
mov $topbit,($tptr) # save $topbit
___
}
##############################################################
# Post-condition, 4x unrolled copy from bn_mul_mont
#
{
my ($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),$j # j=num/4-1
jmp .Lsqr4x_sub
.align 16
.Lsqr4x_sub:
mov @ri[0],0($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 16
.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
.Lsqr4x_epilogue:
ret
.size bn_sqr4x_mont,.-bn_sqr4x_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($context),%rbx # pull context->Rip
lea .Lsqr4x_body(%rip),%r10
cmp %r10,%rbx # context->Rip<.Lsqr_body
jb .Lcommon_seh_tail
mov 152($context),%rax # pull context->Rsp
lea .Lsqr4x_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_sqr4x_mont
.rva .LSEH_end_bn_sqr4x_mont
.rva .LSEH_info_bn_sqr4x_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_sqr4x_mont:
.byte 9,0,0,0
.rva sqr_handler
___
}
print $code;
close STDOUT;