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path: root/drivers/builtin_openssl2/crypto/sha/asm/sha1-sparcv9.pl
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#!/usr/bin/env perl

# ====================================================================
# Written by Andy Polyakov <appro@fy.chalmers.se> 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/.
# ====================================================================

# Performance improvement is not really impressive on pre-T1 CPU: +8%
# over Sun C and +25% over gcc [3.3]. While on T1, a.k.a. Niagara, it
# turned to be 40% faster than 64-bit code generated by Sun C 5.8 and
# >2x than 64-bit code generated by gcc 3.4. And there is a gimmick.
# X[16] vector is packed to 8 64-bit registers and as result nothing
# is spilled on stack. In addition input data is loaded in compact
# instruction sequence, thus minimizing the window when the code is
# subject to [inter-thread] cache-thrashing hazard. The goal is to
# ensure scalability on UltraSPARC T1, or rather to avoid decay when
# amount of active threads exceeds the number of physical cores.

$bits=32;
for (@ARGV)	{ $bits=64 if (/\-m64/ || /\-xarch\=v9/); }
if ($bits==64)	{ $bias=2047; $frame=192; }
else		{ $bias=0;    $frame=112; }

$output=shift;
open STDOUT,">$output";

@X=("%o0","%o1","%o2","%o3","%o4","%o5","%g1","%o7");
$rot1m="%g2";
$tmp64="%g3";
$Xi="%g4";
$A="%l0";
$B="%l1";
$C="%l2";
$D="%l3";
$E="%l4";
@V=($A,$B,$C,$D,$E);
$K_00_19="%l5";
$K_20_39="%l6";
$K_40_59="%l7";
$K_60_79="%g5";
@K=($K_00_19,$K_20_39,$K_40_59,$K_60_79);

$ctx="%i0";
$inp="%i1";
$len="%i2";
$tmp0="%i3";
$tmp1="%i4";
$tmp2="%i5";

sub BODY_00_15 {
my ($i,$a,$b,$c,$d,$e)=@_;
my $xi=($i&1)?@X[($i/2)%8]:$Xi;

$code.=<<___;
	sll	$a,5,$tmp0		!! $i
	add	@K[$i/20],$e,$e
	srl	$a,27,$tmp1
	add	$tmp0,$e,$e
	and	$c,$b,$tmp0
	add	$tmp1,$e,$e
	sll	$b,30,$tmp2
	andn	$d,$b,$tmp1
	srl	$b,2,$b
	or	$tmp1,$tmp0,$tmp1
	or	$tmp2,$b,$b
	add	$xi,$e,$e
___
if ($i&1 && $i<15) {
	$code.=
	"	srlx	@X[(($i+1)/2)%8],32,$Xi\n";
}
$code.=<<___;
	add	$tmp1,$e,$e
___
}

sub Xupdate {
my ($i,$a,$b,$c,$d,$e)=@_;
my $j=$i/2;

if ($i&1) {
$code.=<<___;
	sll	$a,5,$tmp0		!! $i
	add	@K[$i/20],$e,$e
	srl	$a,27,$tmp1
___
} else {
$code.=<<___;
	sllx	@X[($j+6)%8],32,$Xi	! Xupdate($i)
	xor	@X[($j+1)%8],@X[$j%8],@X[$j%8]
	srlx	@X[($j+7)%8],32,$tmp1
	xor	@X[($j+4)%8],@X[$j%8],@X[$j%8]
	sll	$a,5,$tmp0		!! $i
	or	$tmp1,$Xi,$Xi
	add	@K[$i/20],$e,$e		!!
	xor	$Xi,@X[$j%8],@X[$j%8]
	srlx	@X[$j%8],31,$Xi
	add	@X[$j%8],@X[$j%8],@X[$j%8]
	and	$Xi,$rot1m,$Xi
	andn	@X[$j%8],$rot1m,@X[$j%8]
	srl	$a,27,$tmp1		!!
	or	$Xi,@X[$j%8],@X[$j%8]
___
}
}

sub BODY_16_19 {
my ($i,$a,$b,$c,$d,$e)=@_;

	&Xupdate(@_);
    if ($i&1) {
	$xi=@X[($i/2)%8];
    } else {
	$xi=$Xi;
	$code.="\tsrlx	@X[($i/2)%8],32,$xi\n";
    }
$code.=<<___;
	add	$tmp0,$e,$e		!!
	and	$c,$b,$tmp0
	add	$tmp1,$e,$e
	sll	$b,30,$tmp2
	add	$xi,$e,$e
	andn	$d,$b,$tmp1
	srl	$b,2,$b
	or	$tmp1,$tmp0,$tmp1
	or	$tmp2,$b,$b
	add	$tmp1,$e,$e
___
}

sub BODY_20_39 {
my ($i,$a,$b,$c,$d,$e)=@_;
my $xi;
	&Xupdate(@_);
    if ($i&1) {
	$xi=@X[($i/2)%8];
    } else {
	$xi=$Xi;
	$code.="\tsrlx	@X[($i/2)%8],32,$xi\n";
    }
$code.=<<___;
	add	$tmp0,$e,$e		!!
	xor	$c,$b,$tmp0
	add	$tmp1,$e,$e
	sll	$b,30,$tmp2
	xor	$d,$tmp0,$tmp1
	srl	$b,2,$b
	add	$tmp1,$e,$e
	or	$tmp2,$b,$b
	add	$xi,$e,$e
___
}

sub BODY_40_59 {
my ($i,$a,$b,$c,$d,$e)=@_;
my $xi;
	&Xupdate(@_);
    if ($i&1) {
	$xi=@X[($i/2)%8];
    } else {
	$xi=$Xi;
	$code.="\tsrlx	@X[($i/2)%8],32,$xi\n";
    }
$code.=<<___;
	add	$tmp0,$e,$e		!!
	and	$c,$b,$tmp0
	add	$tmp1,$e,$e
	sll	$b,30,$tmp2
	or	$c,$b,$tmp1
	srl	$b,2,$b
	and	$d,$tmp1,$tmp1
	add	$xi,$e,$e
	or	$tmp1,$tmp0,$tmp1
	or	$tmp2,$b,$b
	add	$tmp1,$e,$e
___
}

$code.=<<___ if ($bits==64);
.register	%g2,#scratch
.register	%g3,#scratch
___
$code.=<<___;
.section	".text",#alloc,#execinstr

.align	32
.globl	sha1_block_data_order
sha1_block_data_order:
	save	%sp,-$frame,%sp
	sllx	$len,6,$len
	add	$inp,$len,$len

	or	%g0,1,$rot1m
	sllx	$rot1m,32,$rot1m
	or	$rot1m,1,$rot1m

	ld	[$ctx+0],$A
	ld	[$ctx+4],$B
	ld	[$ctx+8],$C
	ld	[$ctx+12],$D
	ld	[$ctx+16],$E
	andn	$inp,7,$tmp0

	sethi	%hi(0x5a827999),$K_00_19
	or	$K_00_19,%lo(0x5a827999),$K_00_19
	sethi	%hi(0x6ed9eba1),$K_20_39
	or	$K_20_39,%lo(0x6ed9eba1),$K_20_39
	sethi	%hi(0x8f1bbcdc),$K_40_59
	or	$K_40_59,%lo(0x8f1bbcdc),$K_40_59
	sethi	%hi(0xca62c1d6),$K_60_79
	or	$K_60_79,%lo(0xca62c1d6),$K_60_79

.Lloop:
	ldx	[$tmp0+0],@X[0]
	ldx	[$tmp0+16],@X[2]
	ldx	[$tmp0+32],@X[4]
	ldx	[$tmp0+48],@X[6]
	and	$inp,7,$tmp1
	ldx	[$tmp0+8],@X[1]
	sll	$tmp1,3,$tmp1
	ldx	[$tmp0+24],@X[3]
	subcc	%g0,$tmp1,$tmp2	! should be 64-$tmp1, but -$tmp1 works too
	ldx	[$tmp0+40],@X[5]
	bz,pt	%icc,.Laligned
	ldx	[$tmp0+56],@X[7]

	sllx	@X[0],$tmp1,@X[0]
	ldx	[$tmp0+64],$tmp64
___
for($i=0;$i<7;$i++)
{   $code.=<<___;
	srlx	@X[$i+1],$tmp2,$Xi
	sllx	@X[$i+1],$tmp1,@X[$i+1]
	or	$Xi,@X[$i],@X[$i]
___
}
$code.=<<___;
	srlx	$tmp64,$tmp2,$tmp64
	or	$tmp64,@X[7],@X[7]
.Laligned:
	srlx	@X[0],32,$Xi
___
for ($i=0;$i<16;$i++)	{ &BODY_00_15($i,@V); unshift(@V,pop(@V)); }
for (;$i<20;$i++)	{ &BODY_16_19($i,@V); unshift(@V,pop(@V)); }
for (;$i<40;$i++)	{ &BODY_20_39($i,@V); unshift(@V,pop(@V)); }
for (;$i<60;$i++)	{ &BODY_40_59($i,@V); unshift(@V,pop(@V)); }
for (;$i<80;$i++)	{ &BODY_20_39($i,@V); unshift(@V,pop(@V)); }
$code.=<<___;

	ld	[$ctx+0],@X[0]
	ld	[$ctx+4],@X[1]
	ld	[$ctx+8],@X[2]
	ld	[$ctx+12],@X[3]
	add	$inp,64,$inp
	ld	[$ctx+16],@X[4]
	cmp	$inp,$len

	add	$A,@X[0],$A
	st	$A,[$ctx+0]
	add	$B,@X[1],$B
	st	$B,[$ctx+4]
	add	$C,@X[2],$C
	st	$C,[$ctx+8]
	add	$D,@X[3],$D
	st	$D,[$ctx+12]
	add	$E,@X[4],$E
	st	$E,[$ctx+16]

	bne	`$bits==64?"%xcc":"%icc"`,.Lloop
	andn	$inp,7,$tmp0

	ret
	restore
.type	sha1_block_data_order,#function
.size	sha1_block_data_order,(.-sha1_block_data_order)
.asciz	"SHA1 block transform for SPARCv9, CRYPTOGAMS by <appro\@openssl.org>"
.align	4
___

$code =~ s/\`([^\`]*)\`/eval $1/gem;
print $code;
close STDOUT;