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crypto: vmx - Add support for VMS instructions by ASM 

OpenSSL implements optimized ASM algorithms which support
VMX instructions on Power 8 CPU.

These scripts generate an endian-agnostic ASM implementation
in order to support both big and little-endian.
	- aesp8-ppc.pl: implements suport for AES instructions
	implemented by POWER8 processor.
	- ghashp8-ppc.pl: implements support for  GHASH for Power8.
	- ppc-xlate.pl:  ppc assembler distiller.

These code has been adopted from OpenSSL project in collaboration
with the original author (Andy Polyakov <appro@openssl.org>).

Signed-off-by: Leonidas S. Barbosa <leosilva@linux.vnet.ibm.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
hifive-unleashed-5.1
Leonidas S. Barbosa 2015-02-06 14:59:35 -02:00 committed by Herbert Xu
parent cc333cd68d
commit 5c380d623e
3 changed files with 2400 additions and 0 deletions
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1940
drivers/crypto/vmx/aesp8-ppc.pl 100755
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drivers/crypto/vmx/ghashp8-ppc.pl 100755
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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/.
# ====================================================================
#
# GHASH for for PowerISA v2.07.
#
# July 2014
#
# Accurate performance measurements are problematic, because it's
# always virtualized setup with possibly throttled processor.
# Relative comparison is therefore more informative. This initial
# version is ~2.1x slower than hardware-assisted AES-128-CTR, ~12x
# faster than "4-bit" integer-only compiler-generated 64-bit code.
# "Initial version" means that there is room for futher improvement.
$flavour=shift;
$output =shift;
if ($flavour =~ /64/) {
$SIZE_T=8;
$LRSAVE=2*$SIZE_T;
$STU="stdu";
$POP="ld";
$PUSH="std";
} elsif ($flavour =~ /32/) {
$SIZE_T=4;
$LRSAVE=$SIZE_T;
$STU="stwu";
$POP="lwz";
$PUSH="stw";
} else { die "nonsense $flavour"; }
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
( $xlate="${dir}ppc-xlate.pl" and -f $xlate ) or
( $xlate="${dir}../../perlasm/ppc-xlate.pl" and -f $xlate) or
die "can't locate ppc-xlate.pl";
open STDOUT,"| $^X $xlate $flavour $output" || die "can't call $xlate: $!";
my ($Xip,$Htbl,$inp,$len)=map("r$_",(3..6)); # argument block
my ($Xl,$Xm,$Xh,$IN)=map("v$_",(0..3));
my ($zero,$t0,$t1,$t2,$xC2,$H,$Hh,$Hl,$lemask)=map("v$_",(4..12));
my $vrsave="r12";
$code=<<___;
.machine "any"
.text
.globl .gcm_init_p8
.align 5
.gcm_init_p8:
lis r0,0xfff0
li r8,0x10
mfspr $vrsave,256
li r9,0x20
mtspr 256,r0
li r10,0x30
lvx_u $H,0,r4 # load H
vspltisb $xC2,-16 # 0xf0
vspltisb $t0,1 # one
vaddubm $xC2,$xC2,$xC2 # 0xe0
vxor $zero,$zero,$zero
vor $xC2,$xC2,$t0 # 0xe1
vsldoi $xC2,$xC2,$zero,15 # 0xe1...
vsldoi $t1,$zero,$t0,1 # ...1
vaddubm $xC2,$xC2,$xC2 # 0xc2...
vspltisb $t2,7
vor $xC2,$xC2,$t1 # 0xc2....01
vspltb $t1,$H,0 # most significant byte
vsl $H,$H,$t0 # H<<=1
vsrab $t1,$t1,$t2 # broadcast carry bit
vand $t1,$t1,$xC2
vxor $H,$H,$t1 # twisted H
vsldoi $H,$H,$H,8 # twist even more ...
vsldoi $xC2,$zero,$xC2,8 # 0xc2.0
vsldoi $Hl,$zero,$H,8 # ... and split
vsldoi $Hh,$H,$zero,8
stvx_u $xC2,0,r3 # save pre-computed table
stvx_u $Hl,r8,r3
stvx_u $H, r9,r3
stvx_u $Hh,r10,r3
mtspr 256,$vrsave
blr
.long 0
.byte 0,12,0x14,0,0,0,2,0
.long 0
.size .gcm_init_p8,.-.gcm_init_p8
.globl .gcm_gmult_p8
.align 5
.gcm_gmult_p8:
lis r0,0xfff8
li r8,0x10
mfspr $vrsave,256
li r9,0x20
mtspr 256,r0
li r10,0x30
lvx_u $IN,0,$Xip # load Xi
lvx_u $Hl,r8,$Htbl # load pre-computed table
le?lvsl $lemask,r0,r0
lvx_u $H, r9,$Htbl
le?vspltisb $t0,0x07
lvx_u $Hh,r10,$Htbl
le?vxor $lemask,$lemask,$t0
lvx_u $xC2,0,$Htbl
le?vperm $IN,$IN,$IN,$lemask
vxor $zero,$zero,$zero
vpmsumd $Xl,$IN,$Hl # H.lo·Xi.lo
vpmsumd $Xm,$IN,$H # H.hi·Xi.lo+H.lo·Xi.hi
vpmsumd $Xh,$IN,$Hh # H.hi·Xi.hi
vpmsumd $t2,$Xl,$xC2 # 1st phase
vsldoi $t0,$Xm,$zero,8
vsldoi $t1,$zero,$Xm,8
vxor $Xl,$Xl,$t0
vxor $Xh,$Xh,$t1
vsldoi $Xl,$Xl,$Xl,8
vxor $Xl,$Xl,$t2
vsldoi $t1,$Xl,$Xl,8 # 2nd phase
vpmsumd $Xl,$Xl,$xC2
vxor $t1,$t1,$Xh
vxor $Xl,$Xl,$t1
le?vperm $Xl,$Xl,$Xl,$lemask
stvx_u $Xl,0,$Xip # write out Xi
mtspr 256,$vrsave
blr
.long 0
.byte 0,12,0x14,0,0,0,2,0
.long 0
.size .gcm_gmult_p8,.-.gcm_gmult_p8
.globl .gcm_ghash_p8
.align 5
.gcm_ghash_p8:
lis r0,0xfff8
li r8,0x10
mfspr $vrsave,256
li r9,0x20
mtspr 256,r0
li r10,0x30
lvx_u $Xl,0,$Xip # load Xi
lvx_u $Hl,r8,$Htbl # load pre-computed table
le?lvsl $lemask,r0,r0
lvx_u $H, r9,$Htbl
le?vspltisb $t0,0x07
lvx_u $Hh,r10,$Htbl
le?vxor $lemask,$lemask,$t0
lvx_u $xC2,0,$Htbl
le?vperm $Xl,$Xl,$Xl,$lemask
vxor $zero,$zero,$zero
lvx_u $IN,0,$inp
addi $inp,$inp,16
subi $len,$len,16
le?vperm $IN,$IN,$IN,$lemask
vxor $IN,$IN,$Xl
b Loop
.align 5
Loop:
subic $len,$len,16
vpmsumd $Xl,$IN,$Hl # H.lo·Xi.lo
subfe. r0,r0,r0 # borrow?-1:0
vpmsumd $Xm,$IN,$H # H.hi·Xi.lo+H.lo·Xi.hi
and r0,r0,$len
vpmsumd $Xh,$IN,$Hh # H.hi·Xi.hi
add $inp,$inp,r0
vpmsumd $t2,$Xl,$xC2 # 1st phase
vsldoi $t0,$Xm,$zero,8
vsldoi $t1,$zero,$Xm,8
vxor $Xl,$Xl,$t0
vxor $Xh,$Xh,$t1
vsldoi $Xl,$Xl,$Xl,8
vxor $Xl,$Xl,$t2
lvx_u $IN,0,$inp
addi $inp,$inp,16
vsldoi $t1,$Xl,$Xl,8 # 2nd phase
vpmsumd $Xl,$Xl,$xC2
le?vperm $IN,$IN,$IN,$lemask
vxor $t1,$t1,$Xh
vxor $IN,$IN,$t1
vxor $IN,$IN,$Xl
beq Loop # did $len-=16 borrow?
vxor $Xl,$Xl,$t1
le?vperm $Xl,$Xl,$Xl,$lemask
stvx_u $Xl,0,$Xip # write out Xi
mtspr 256,$vrsave
blr
.long 0
.byte 0,12,0x14,0,0,0,4,0
.long 0
.size .gcm_ghash_p8,.-.gcm_ghash_p8
.asciz "GHASH for PowerISA 2.07, CRYPTOGAMS by <appro\@openssl.org>"
.align 2
___
foreach (split("\n",$code)) {
if ($flavour =~ /le$/o) { # little-endian
s/le\?//o or
s/be\?/#be#/o;
} else {
s/le\?/#le#/o or
s/be\?//o;
}
print $_,"\n";
}
close STDOUT; # enforce flush

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drivers/crypto/vmx/ppc-xlate.pl 100755
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#!/usr/bin/env perl
# PowerPC assembler distiller by <appro>.
my $flavour = shift;
my $output = shift;
open STDOUT,">$output" || die "can't open $output: $!";
my %GLOBALS;
my $dotinlocallabels=($flavour=~/linux/)?1:0;
################################################################
# directives which need special treatment on different platforms
################################################################
my $globl = sub {
my $junk = shift;
my $name = shift;
my $global = \$GLOBALS{$name};
my $ret;
$name =~ s|^[\.\_]||;
SWITCH: for ($flavour) {
/aix/ && do { $name = ".$name";
last;
};
/osx/ && do { $name = "_$name";
last;
};
/linux.*(32|64le)/
&& do { $ret .= ".globl $name\n";
$ret .= ".type $name,\@function";
last;
};
/linux.*64/ && do { $ret .= ".globl $name\n";
$ret .= ".type $name,\@function\n";
$ret .= ".section \".opd\",\"aw\"\n";
$ret .= ".align 3\n";
$ret .= "$name:\n";
$ret .= ".quad .$name,.TOC.\@tocbase,0\n";
$ret .= ".previous\n";
$name = ".$name";
last;
};
}
$ret = ".globl $name" if (!$ret);
$$global = $name;
$ret;
};
my $text = sub {
my $ret = ($flavour =~ /aix/) ? ".csect\t.text[PR],7" : ".text";
$ret = ".abiversion 2\n".$ret if ($flavour =~ /linux.*64le/);
$ret;
};
my $machine = sub {
my $junk = shift;
my $arch = shift;
if ($flavour =~ /osx/)
{ $arch =~ s/\"//g;
$arch = ($flavour=~/64/) ? "ppc970-64" : "ppc970" if ($arch eq "any");
}
".machine $arch";
};
my $size = sub {
if ($flavour =~ /linux/)
{ shift;
my $name = shift; $name =~ s|^[\.\_]||;
my $ret = ".size $name,.-".($flavour=~/64$/?".":"").$name;
$ret .= "\n.size .$name,.-.$name" if ($flavour=~/64$/);
$ret;
}
else
{ ""; }
};
my $asciz = sub {
shift;
my $line = join(",",@_);
if ($line =~ /^"(.*)"$/)
{ ".byte " . join(",",unpack("C*",$1),0) . "\n.align 2"; }
else
{ ""; }
};
my $quad = sub {
shift;
my @ret;
my ($hi,$lo);
for (@_) {
if (/^0x([0-9a-f]*?)([0-9a-f]{1,8})$/io)
{ $hi=$1?"0x$1":"0"; $lo="0x$2"; }
elsif (/^([0-9]+)$/o)
{ $hi=$1>>32; $lo=$1&0xffffffff; } # error-prone with 32-bit perl
else
{ $hi=undef; $lo=$_; }
if (defined($hi))
{ push(@ret,$flavour=~/le$/o?".long\t$lo,$hi":".long\t$hi,$lo"); }
else
{ push(@ret,".quad $lo"); }
}
join("\n",@ret);
};
################################################################
# simplified mnemonics not handled by at least one assembler
################################################################
my $cmplw = sub {
my $f = shift;
my $cr = 0; $cr = shift if ($#_>1);
# Some out-of-date 32-bit GNU assembler just can't handle cmplw...
($flavour =~ /linux.*32/) ?
" .long ".sprintf "0x%x",31<<26|$cr<<23|$_[0]<<16|$_[1]<<11|64 :
" cmplw ".join(',',$cr,@_);
};
my $bdnz = sub {
my $f = shift;
my $bo = $f=~/[\+\-]/ ? 16+9 : 16; # optional "to be taken" hint
" bc $bo,0,".shift;
} if ($flavour!~/linux/);
my $bltlr = sub {
my $f = shift;
my $bo = $f=~/\-/ ? 12+2 : 12; # optional "not to be taken" hint
($flavour =~ /linux/) ? # GNU as doesn't allow most recent hints
" .long ".sprintf "0x%x",19<<26|$bo<<21|16<<1 :
" bclr $bo,0";
};
my $bnelr = sub {
my $f = shift;
my $bo = $f=~/\-/ ? 4+2 : 4; # optional "not to be taken" hint
($flavour =~ /linux/) ? # GNU as doesn't allow most recent hints
" .long ".sprintf "0x%x",19<<26|$bo<<21|2<<16|16<<1 :
" bclr $bo,2";
};
my $beqlr = sub {
my $f = shift;
my $bo = $f=~/-/ ? 12+2 : 12; # optional "not to be taken" hint
($flavour =~ /linux/) ? # GNU as doesn't allow most recent hints
" .long ".sprintf "0x%X",19<<26|$bo<<21|2<<16|16<<1 :
" bclr $bo,2";
};
# GNU assembler can't handle extrdi rA,rS,16,48, or when sum of last two
# arguments is 64, with "operand out of range" error.
my $extrdi = sub {
my ($f,$ra,$rs,$n,$b) = @_;
$b = ($b+$n)&63; $n = 64-$n;
" rldicl $ra,$rs,$b,$n";
};
my $vmr = sub {
my ($f,$vx,$vy) = @_;
" vor $vx,$vy,$vy";
};
# PowerISA 2.06 stuff
sub vsxmem_op {
my ($f, $vrt, $ra, $rb, $op) = @_;
" .long ".sprintf "0x%X",(31<<26)|($vrt<<21)|($ra<<16)|($rb<<11)|($op*2+1);
}
# made-up unaligned memory reference AltiVec/VMX instructions
my $lvx_u = sub { vsxmem_op(@_, 844); }; # lxvd2x
my $stvx_u = sub { vsxmem_op(@_, 972); }; # stxvd2x
my $lvdx_u = sub { vsxmem_op(@_, 588); }; # lxsdx
my $stvdx_u = sub { vsxmem_op(@_, 716); }; # stxsdx
my $lvx_4w = sub { vsxmem_op(@_, 780); }; # lxvw4x
my $stvx_4w = sub { vsxmem_op(@_, 908); }; # stxvw4x
# PowerISA 2.07 stuff
sub vcrypto_op {
my ($f, $vrt, $vra, $vrb, $op) = @_;
" .long ".sprintf "0x%X",(4<<26)|($vrt<<21)|($vra<<16)|($vrb<<11)|$op;
}
my $vcipher = sub { vcrypto_op(@_, 1288); };
my $vcipherlast = sub { vcrypto_op(@_, 1289); };
my $vncipher = sub { vcrypto_op(@_, 1352); };
my $vncipherlast= sub { vcrypto_op(@_, 1353); };
my $vsbox = sub { vcrypto_op(@_, 0, 1480); };
my $vshasigmad = sub { my ($st,$six)=splice(@_,-2); vcrypto_op(@_, $st<<4|$six, 1730); };
my $vshasigmaw = sub { my ($st,$six)=splice(@_,-2); vcrypto_op(@_, $st<<4|$six, 1666); };
my $vpmsumb = sub { vcrypto_op(@_, 1032); };
my $vpmsumd = sub { vcrypto_op(@_, 1224); };
my $vpmsubh = sub { vcrypto_op(@_, 1096); };
my $vpmsumw = sub { vcrypto_op(@_, 1160); };
my $vaddudm = sub { vcrypto_op(@_, 192); };
my $mtsle = sub {
my ($f, $arg) = @_;
" .long ".sprintf "0x%X",(31<<26)|($arg<<21)|(147*2);
};
while($line=<>) {
$line =~ s|[#!;].*$||; # get rid of asm-style comments...
$line =~ s|/\*.*\*/||; # ... and C-style comments...
$line =~ s|^\s+||; # ... and skip white spaces in beginning...
$line =~ s|\s+$||; # ... and at the end
{
$line =~ s|\b\.L(\w+)|L$1|g; # common denominator for Locallabel
$line =~ s|\bL(\w+)|\.L$1|g if ($dotinlocallabels);
}
{
$line =~ s|(^[\.\w]+)\:\s*||;
my $label = $1;
if ($label) {
printf "%s:",($GLOBALS{$label} or $label);
printf "\n.localentry\t$GLOBALS{$label},0" if ($GLOBALS{$label} && $flavour =~ /linux.*64le/);
}
}
{
$line =~ s|^\s*(\.?)(\w+)([\.\+\-]?)\s*||;
my $c = $1; $c = "\t" if ($c eq "");
my $mnemonic = $2;
my $f = $3;
my $opcode = eval("\$$mnemonic");
$line =~ s/\b(c?[rf]|v|vs)([0-9]+)\b/$2/g if ($c ne "." and $flavour !~ /osx/);
if (ref($opcode) eq 'CODE') { $line = &$opcode($f,split(',',$line)); }
elsif ($mnemonic) { $line = $c.$mnemonic.$f."\t".$line; }
}
print $line if ($line);
print "\n";
}
close STDOUT;