CloverBootloader/Library/OpensslLib/openssl/crypto/chacha/asm/chacha-s390x.pl

1057 lines
26 KiB
Perl
Executable File

#! /usr/bin/env perl
# Copyright 2016-2019 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (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
#
# ====================================================================
# 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/.
# ====================================================================
#
# December 2015
#
# ChaCha20 for s390x.
#
# 3 times faster than compiler-generated code.
#
# August 2018
#
# Add vx code path: 4x"vertical".
#
# Copyright IBM Corp. 2018
# Author: Patrick Steuer <patrick.steuer@de.ibm.com>
#
# February 2019
#
# Add 6x"horizontal" VX implementation. It's ~25% faster than IBM's
# 4x"vertical" submission [on z13] and >3 faster than scalar code.
# But to harness overheads revert to transliteration of VSX code path
# from chacha-ppc module, which is also 4x"vertical", to handle inputs
# not longer than 256 bytes.
use strict;
use FindBin qw($Bin);
use lib "$Bin/../..";
use perlasm::s390x qw(:DEFAULT :VX :EI AUTOLOAD LABEL INCLUDE);
# $output is the last argument if it looks like a file (it has an extension)
# $flavour is the first argument if it doesn't look like a file
my $output = $#ARGV >= 0 && $ARGV[$#ARGV] =~ m|\.\w+$| ? pop : undef;
my $flavour = $#ARGV >= 0 && $ARGV[0] !~ m|\.| ? shift : undef;
my ($z,$SIZE_T);
if ($flavour =~ /3[12]/) {
$z=0; # S/390 ABI
$SIZE_T=4;
} else {
$z=1; # zSeries ABI
$SIZE_T=8;
}
my $sp="%r15";
my $stdframe=16*$SIZE_T+4*8;
sub ROUND {
my @x=map("%r$_",(0..7,"x","x","x","x",(10..13)));
my @t=map("%r$_",(8,9));
my ($a0,$b0,$c0,$d0)=@_;
my ($a1,$b1,$c1,$d1)=map(($_&~3)+(($_+1)&3),($a0,$b0,$c0,$d0));
my ($a2,$b2,$c2,$d2)=map(($_&~3)+(($_+1)&3),($a1,$b1,$c1,$d1));
my ($a3,$b3,$c3,$d3)=map(($_&~3)+(($_+1)&3),($a2,$b2,$c2,$d2));
my ($xc,$xc_)=map("$_",@t);
# Consider order in which variables are addressed by their
# index:
#
# a b c d
#
# 0 4 8 12 < even round
# 1 5 9 13
# 2 6 10 14
# 3 7 11 15
# 0 5 10 15 < odd round
# 1 6 11 12
# 2 7 8 13
# 3 4 9 14
#
# 'a', 'b' and 'd's are permanently allocated in registers,
# @x[0..7,12..15], while 'c's are maintained in memory. If
# you observe 'c' column, you'll notice that pair of 'c's is
# invariant between rounds. This means that we have to reload
# them once per round, in the middle. This is why you'll see
# 'c' stores and loads in the middle, but none in the beginning
# or end.
alr (@x[$a0],@x[$b0]); # Q1
alr (@x[$a1],@x[$b1]); # Q2
xr (@x[$d0],@x[$a0]);
xr (@x[$d1],@x[$a1]);
rll (@x[$d0],@x[$d0],16);
rll (@x[$d1],@x[$d1],16);
alr ($xc,@x[$d0]);
alr ($xc_,@x[$d1]);
xr (@x[$b0],$xc);
xr (@x[$b1],$xc_);
rll (@x[$b0],@x[$b0],12);
rll (@x[$b1],@x[$b1],12);
alr (@x[$a0],@x[$b0]);
alr (@x[$a1],@x[$b1]);
xr (@x[$d0],@x[$a0]);
xr (@x[$d1],@x[$a1]);
rll (@x[$d0],@x[$d0],8);
rll (@x[$d1],@x[$d1],8);
alr ($xc,@x[$d0]);
alr ($xc_,@x[$d1]);
xr (@x[$b0],$xc);
xr (@x[$b1],$xc_);
rll (@x[$b0],@x[$b0],7);
rll (@x[$b1],@x[$b1],7);
stm ($xc,$xc_,"$stdframe+4*8+4*$c0($sp)"); # reload pair of 'c's
lm ($xc,$xc_,"$stdframe+4*8+4*$c2($sp)");
alr (@x[$a2],@x[$b2]); # Q3
alr (@x[$a3],@x[$b3]); # Q4
xr (@x[$d2],@x[$a2]);
xr (@x[$d3],@x[$a3]);
rll (@x[$d2],@x[$d2],16);
rll (@x[$d3],@x[$d3],16);
alr ($xc,@x[$d2]);
alr ($xc_,@x[$d3]);
xr (@x[$b2],$xc);
xr (@x[$b3],$xc_);
rll (@x[$b2],@x[$b2],12);
rll (@x[$b3],@x[$b3],12);
alr (@x[$a2],@x[$b2]);
alr (@x[$a3],@x[$b3]);
xr (@x[$d2],@x[$a2]);
xr (@x[$d3],@x[$a3]);
rll (@x[$d2],@x[$d2],8);
rll (@x[$d3],@x[$d3],8);
alr ($xc,@x[$d2]);
alr ($xc_,@x[$d3]);
xr (@x[$b2],$xc);
xr (@x[$b3],$xc_);
rll (@x[$b2],@x[$b2],7);
rll (@x[$b3],@x[$b3],7);
}
sub VX_lane_ROUND {
my ($a0,$b0,$c0,$d0)=@_;
my ($a1,$b1,$c1,$d1)=map(($_&~3)+(($_+1)&3),($a0,$b0,$c0,$d0));
my ($a2,$b2,$c2,$d2)=map(($_&~3)+(($_+1)&3),($a1,$b1,$c1,$d1));
my ($a3,$b3,$c3,$d3)=map(($_&~3)+(($_+1)&3),($a2,$b2,$c2,$d2));
my @x=map("%v$_",(0..15));
vaf (@x[$a0],@x[$a0],@x[$b0]); # Q1
vx (@x[$d0],@x[$d0],@x[$a0]);
verllf (@x[$d0],@x[$d0],16);
vaf (@x[$a1],@x[$a1],@x[$b1]); # Q2
vx (@x[$d1],@x[$d1],@x[$a1]);
verllf (@x[$d1],@x[$d1],16);
vaf (@x[$a2],@x[$a2],@x[$b2]); # Q3
vx (@x[$d2],@x[$d2],@x[$a2]);
verllf (@x[$d2],@x[$d2],16);
vaf (@x[$a3],@x[$a3],@x[$b3]); # Q4
vx (@x[$d3],@x[$d3],@x[$a3]);
verllf (@x[$d3],@x[$d3],16);
vaf (@x[$c0],@x[$c0],@x[$d0]);
vx (@x[$b0],@x[$b0],@x[$c0]);
verllf (@x[$b0],@x[$b0],12);
vaf (@x[$c1],@x[$c1],@x[$d1]);
vx (@x[$b1],@x[$b1],@x[$c1]);
verllf (@x[$b1],@x[$b1],12);
vaf (@x[$c2],@x[$c2],@x[$d2]);
vx (@x[$b2],@x[$b2],@x[$c2]);
verllf (@x[$b2],@x[$b2],12);
vaf (@x[$c3],@x[$c3],@x[$d3]);
vx (@x[$b3],@x[$b3],@x[$c3]);
verllf (@x[$b3],@x[$b3],12);
vaf (@x[$a0],@x[$a0],@x[$b0]);
vx (@x[$d0],@x[$d0],@x[$a0]);
verllf (@x[$d0],@x[$d0],8);
vaf (@x[$a1],@x[$a1],@x[$b1]);
vx (@x[$d1],@x[$d1],@x[$a1]);
verllf (@x[$d1],@x[$d1],8);
vaf (@x[$a2],@x[$a2],@x[$b2]);
vx (@x[$d2],@x[$d2],@x[$a2]);
verllf (@x[$d2],@x[$d2],8);
vaf (@x[$a3],@x[$a3],@x[$b3]);
vx (@x[$d3],@x[$d3],@x[$a3]);
verllf (@x[$d3],@x[$d3],8);
vaf (@x[$c0],@x[$c0],@x[$d0]);
vx (@x[$b0],@x[$b0],@x[$c0]);
verllf (@x[$b0],@x[$b0],7);
vaf (@x[$c1],@x[$c1],@x[$d1]);
vx (@x[$b1],@x[$b1],@x[$c1]);
verllf (@x[$b1],@x[$b1],7);
vaf (@x[$c2],@x[$c2],@x[$d2]);
vx (@x[$b2],@x[$b2],@x[$c2]);
verllf (@x[$b2],@x[$b2],7);
vaf (@x[$c3],@x[$c3],@x[$d3]);
vx (@x[$b3],@x[$b3],@x[$c3]);
verllf (@x[$b3],@x[$b3],7);
}
sub VX_ROUND {
my @a=@_[0..5];
my @b=@_[6..11];
my @c=@_[12..17];
my @d=@_[18..23];
my $odd=@_[24];
vaf (@a[$_],@a[$_],@b[$_]) for (0..5);
vx (@d[$_],@d[$_],@a[$_]) for (0..5);
verllf (@d[$_],@d[$_],16) for (0..5);
vaf (@c[$_],@c[$_],@d[$_]) for (0..5);
vx (@b[$_],@b[$_],@c[$_]) for (0..5);
verllf (@b[$_],@b[$_],12) for (0..5);
vaf (@a[$_],@a[$_],@b[$_]) for (0..5);
vx (@d[$_],@d[$_],@a[$_]) for (0..5);
verllf (@d[$_],@d[$_],8) for (0..5);
vaf (@c[$_],@c[$_],@d[$_]) for (0..5);
vx (@b[$_],@b[$_],@c[$_]) for (0..5);
verllf (@b[$_],@b[$_],7) for (0..5);
vsldb (@c[$_],@c[$_],@c[$_],8) for (0..5);
vsldb (@b[$_],@b[$_],@b[$_],$odd?12:4) for (0..5);
vsldb (@d[$_],@d[$_],@d[$_],$odd?4:12) for (0..5);
}
PERLASM_BEGIN($output);
INCLUDE ("s390x_arch.h");
TEXT ();
################
# void ChaCha20_ctr32(unsigned char *out, const unsigned char *inp, size_t len,
# const unsigned int key[8], const unsigned int counter[4])
my ($out,$inp,$len,$key,$counter)=map("%r$_",(2..6));
{
my $frame=$stdframe+4*20;
my @x=map("%r$_",(0..7,"x","x","x","x",(10..13)));
my @t=map("%r$_",(8,9));
GLOBL ("ChaCha20_ctr32");
TYPE ("ChaCha20_ctr32","\@function");
ALIGN (32);
LABEL ("ChaCha20_ctr32");
larl ("%r1","OPENSSL_s390xcap_P");
lghi ("%r0",64);
&{$z? \&ltgr:\&ltr} ($len,$len); # len==0?
bzr ("%r14");
lg ("%r1","S390X_STFLE+16(%r1)");
&{$z? \&clgr:\&clr} ($len,"%r0");
jle (".Lshort");
tmhh ("%r1",0x4000); # check for vx bit
jnz (".LChaCha20_ctr32_vx");
LABEL (".Lshort");
&{$z? \&aghi:\&ahi} ($len,-64);
&{$z? \&lghi:\&lhi} ("%r1",-$frame);
&{$z? \&stmg:\&stm} ("%r6","%r15","6*$SIZE_T($sp)");
&{$z? \&slgr:\&slr} ($out,$inp); # difference
la ($len,"0($inp,$len)"); # end of input minus 64
larl ("%r7",".Lsigma");
lgr ("%r0",$sp);
la ($sp,"0(%r1,$sp)");
&{$z? \&stg:\&st} ("%r0","0($sp)");
lmg ("%r8","%r11","0($key)"); # load key
lmg ("%r12","%r13","0($counter)"); # load counter
lmg ("%r6","%r7","0(%r7)"); # load sigma constant
la ("%r14","0($inp)");
&{$z? \&stg:\&st} ($out,"$frame+3*$SIZE_T($sp)");
&{$z? \&stg:\&st} ($len,"$frame+4*$SIZE_T($sp)");
stmg ("%r6","%r13","$stdframe($sp)");# copy key schedule to stack
srlg (@x[12],"%r12",32); # 32-bit counter value
j (".Loop_outer");
ALIGN (16);
LABEL (".Loop_outer");
lm (@x[0],@x[7],"$stdframe+4*0($sp)"); # load x[0]-x[7]
lm (@t[0],@t[1],"$stdframe+4*10($sp)"); # load x[10]-x[11]
lm (@x[13],@x[15],"$stdframe+4*13($sp)"); # load x[13]-x[15]
stm (@t[0],@t[1],"$stdframe+4*8+4*10($sp)");# offload x[10]-x[11]
lm (@t[0],@t[1],"$stdframe+4*8($sp)"); # load x[8]-x[9]
st (@x[12],"$stdframe+4*12($sp)"); # save counter
&{$z? \&stg:\&st} ("%r14","$frame+2*$SIZE_T($sp)");# save input pointer
lhi ("%r14",10);
j (".Loop");
ALIGN (4);
LABEL (".Loop");
ROUND (0, 4, 8,12);
ROUND (0, 5,10,15);
brct ("%r14",".Loop");
&{$z? \&lg:\&l} ("%r14","$frame+2*$SIZE_T($sp)");# pull input pointer
stm (@t[0],@t[1],"$stdframe+4*8+4*8($sp)"); # offload x[8]-x[9]
&{$z? \&lmg:\&lm} (@t[0],@t[1],"$frame+3*$SIZE_T($sp)");
al (@x[0],"$stdframe+4*0($sp)"); # accumulate key schedule
al (@x[1],"$stdframe+4*1($sp)");
al (@x[2],"$stdframe+4*2($sp)");
al (@x[3],"$stdframe+4*3($sp)");
al (@x[4],"$stdframe+4*4($sp)");
al (@x[5],"$stdframe+4*5($sp)");
al (@x[6],"$stdframe+4*6($sp)");
al (@x[7],"$stdframe+4*7($sp)");
lrvr (@x[0],@x[0]);
lrvr (@x[1],@x[1]);
lrvr (@x[2],@x[2]);
lrvr (@x[3],@x[3]);
lrvr (@x[4],@x[4]);
lrvr (@x[5],@x[5]);
lrvr (@x[6],@x[6]);
lrvr (@x[7],@x[7]);
al (@x[12],"$stdframe+4*12($sp)");
al (@x[13],"$stdframe+4*13($sp)");
al (@x[14],"$stdframe+4*14($sp)");
al (@x[15],"$stdframe+4*15($sp)");
lrvr (@x[12],@x[12]);
lrvr (@x[13],@x[13]);
lrvr (@x[14],@x[14]);
lrvr (@x[15],@x[15]);
la (@t[0],"0(@t[0],%r14)"); # reconstruct output pointer
&{$z? \&clgr:\&clr} ("%r14",@t[1]);
jh (".Ltail");
x (@x[0],"4*0(%r14)"); # xor with input
x (@x[1],"4*1(%r14)");
st (@x[0],"4*0(@t[0])"); # store output
x (@x[2],"4*2(%r14)");
st (@x[1],"4*1(@t[0])");
x (@x[3],"4*3(%r14)");
st (@x[2],"4*2(@t[0])");
x (@x[4],"4*4(%r14)");
st (@x[3],"4*3(@t[0])");
lm (@x[0],@x[3],"$stdframe+4*8+4*8($sp)"); # load x[8]-x[11]
x (@x[5],"4*5(%r14)");
st (@x[4],"4*4(@t[0])");
x (@x[6],"4*6(%r14)");
al (@x[0],"$stdframe+4*8($sp)");
st (@x[5],"4*5(@t[0])");
x (@x[7],"4*7(%r14)");
al (@x[1],"$stdframe+4*9($sp)");
st (@x[6],"4*6(@t[0])");
x (@x[12],"4*12(%r14)");
al (@x[2],"$stdframe+4*10($sp)");
st (@x[7],"4*7(@t[0])");
x (@x[13],"4*13(%r14)");
al (@x[3],"$stdframe+4*11($sp)");
st (@x[12],"4*12(@t[0])");
x (@x[14],"4*14(%r14)");
st (@x[13],"4*13(@t[0])");
x (@x[15],"4*15(%r14)");
st (@x[14],"4*14(@t[0])");
lrvr (@x[0],@x[0]);
st (@x[15],"4*15(@t[0])");
lrvr (@x[1],@x[1]);
lrvr (@x[2],@x[2]);
lrvr (@x[3],@x[3]);
lhi (@x[12],1);
x (@x[0],"4*8(%r14)");
al (@x[12],"$stdframe+4*12($sp)"); # increment counter
x (@x[1],"4*9(%r14)");
st (@x[0],"4*8(@t[0])");
x (@x[2],"4*10(%r14)");
st (@x[1],"4*9(@t[0])");
x (@x[3],"4*11(%r14)");
st (@x[2],"4*10(@t[0])");
st (@x[3],"4*11(@t[0])");
&{$z? \&clgr:\&clr} ("%r14",@t[1]); # done yet?
la ("%r14","64(%r14)");
jl (".Loop_outer");
LABEL (".Ldone");
xgr ("%r0","%r0");
xgr ("%r1","%r1");
xgr ("%r2","%r2");
xgr ("%r3","%r3");
stmg ("%r0","%r3","$stdframe+4*4($sp)"); # wipe key copy
stmg ("%r0","%r3","$stdframe+4*12($sp)");
&{$z? \&lmg:\&lm} ("%r6","%r15","$frame+6*$SIZE_T($sp)");
br ("%r14");
ALIGN (16);
LABEL (".Ltail");
la (@t[1],"64($t[1])");
stm (@x[0],@x[7],"$stdframe+4*0($sp)");
&{$z? \&slgr:\&slr} (@t[1],"%r14");
lm (@x[0],@x[3],"$stdframe+4*8+4*8($sp)");
&{$z? \&lghi:\&lhi} (@x[6],0);
stm (@x[12],@x[15],"$stdframe+4*12($sp)");
al (@x[0],"$stdframe+4*8($sp)");
al (@x[1],"$stdframe+4*9($sp)");
al (@x[2],"$stdframe+4*10($sp)");
al (@x[3],"$stdframe+4*11($sp)");
lrvr (@x[0],@x[0]);
lrvr (@x[1],@x[1]);
lrvr (@x[2],@x[2]);
lrvr (@x[3],@x[3]);
stm (@x[0],@x[3],"$stdframe+4*8($sp)");
LABEL (".Loop_tail");
llgc (@x[4],"0(@x[6],%r14)");
llgc (@x[5],"$stdframe(@x[6],$sp)");
xr (@x[5],@x[4]);
stc (@x[5],"0(@x[6],@t[0])");
la (@x[6],"1(@x[6])");
brct (@t[1],".Loop_tail");
j (".Ldone");
SIZE ("ChaCha20_ctr32",".-ChaCha20_ctr32");
}
########################################################################
# 4x"vertical" layout minimizes amount of instructions, but pipeline
# runs underutilized [because of vector instructions' high latency].
# On the other hand minimum amount of data it takes to fully utilize
# the pipeline is higher, so that effectively, short inputs would be
# processed slower. Hence this code path targeting <=256 bytes lengths.
#
{
my ($xa0,$xa1,$xa2,$xa3, $xb0,$xb1,$xb2,$xb3,
$xc0,$xc1,$xc2,$xc3, $xd0,$xd1,$xd2,$xd3)=map("%v$_",(0..15));
my @K=map("%v$_",(16..19));
my $CTR="%v26";
my ($xt0,$xt1,$xt2,$xt3)=map("%v$_",(27..30));
my $beperm="%v31";
my ($x00,$x10,$x20,$x30)=(0,map("r$_",(8..10)));
my $FRAME=$stdframe+4*16;
ALIGN (32);
LABEL ("ChaCha20_ctr32_4x");
LABEL (".LChaCha20_ctr32_4x");
&{$z? \&stmg:\&stm} ("%r6","%r7","6*$SIZE_T($sp)");
if (!$z) {
std ("%f4","16*$SIZE_T+2*8($sp)");
std ("%f6","16*$SIZE_T+3*8($sp)");
}
&{$z? \&lghi:\&lhi} ("%r1",-$FRAME);
lgr ("%r0",$sp);
la ($sp,"0(%r1,$sp)");
&{$z? \&stg:\&st} ("%r0","0($sp)"); # back-chain
if ($z) {
std ("%f8","$stdframe+8*0($sp)");
std ("%f9","$stdframe+8*1($sp)");
std ("%f10","$stdframe+8*2($sp)");
std ("%f11","$stdframe+8*3($sp)");
std ("%f12","$stdframe+8*4($sp)");
std ("%f13","$stdframe+8*5($sp)");
std ("%f14","$stdframe+8*6($sp)");
std ("%f15","$stdframe+8*7($sp)");
}
larl ("%r7",".Lsigma");
lhi ("%r0",10);
lhi ("%r1",0);
vl (@K[0],"0(%r7)"); # load sigma
vl (@K[1],"0($key)"); # load key
vl (@K[2],"16($key)");
vl (@K[3],"0($counter)"); # load counter
vl ($beperm,"0x40(%r7)");
vl ($xt1,"0x50(%r7)");
vrepf ($CTR,@K[3],0);
vlvgf (@K[3],"%r1",0); # clear @K[3].word[0]
vaf ($CTR,$CTR,$xt1);
#LABEL (".Loop_outer_4x");
vlm ($xa0,$xa3,"0x60(%r7)"); # load [smashed] sigma
vrepf ($xb0,@K[1],0); # smash the key
vrepf ($xb1,@K[1],1);
vrepf ($xb2,@K[1],2);
vrepf ($xb3,@K[1],3);
vrepf ($xc0,@K[2],0);
vrepf ($xc1,@K[2],1);
vrepf ($xc2,@K[2],2);
vrepf ($xc3,@K[2],3);
vlr ($xd0,$CTR);
vrepf ($xd1,@K[3],1);
vrepf ($xd2,@K[3],2);
vrepf ($xd3,@K[3],3);
LABEL (".Loop_4x");
VX_lane_ROUND(0, 4, 8,12);
VX_lane_ROUND(0, 5,10,15);
brct ("%r0",".Loop_4x");
vaf ($xd0,$xd0,$CTR);
vmrhf ($xt0,$xa0,$xa1); # transpose data
vmrhf ($xt1,$xa2,$xa3);
vmrlf ($xt2,$xa0,$xa1);
vmrlf ($xt3,$xa2,$xa3);
vpdi ($xa0,$xt0,$xt1,0b0000);
vpdi ($xa1,$xt0,$xt1,0b0101);
vpdi ($xa2,$xt2,$xt3,0b0000);
vpdi ($xa3,$xt2,$xt3,0b0101);
vmrhf ($xt0,$xb0,$xb1);
vmrhf ($xt1,$xb2,$xb3);
vmrlf ($xt2,$xb0,$xb1);
vmrlf ($xt3,$xb2,$xb3);
vpdi ($xb0,$xt0,$xt1,0b0000);
vpdi ($xb1,$xt0,$xt1,0b0101);
vpdi ($xb2,$xt2,$xt3,0b0000);
vpdi ($xb3,$xt2,$xt3,0b0101);
vmrhf ($xt0,$xc0,$xc1);
vmrhf ($xt1,$xc2,$xc3);
vmrlf ($xt2,$xc0,$xc1);
vmrlf ($xt3,$xc2,$xc3);
vpdi ($xc0,$xt0,$xt1,0b0000);
vpdi ($xc1,$xt0,$xt1,0b0101);
vpdi ($xc2,$xt2,$xt3,0b0000);
vpdi ($xc3,$xt2,$xt3,0b0101);
vmrhf ($xt0,$xd0,$xd1);
vmrhf ($xt1,$xd2,$xd3);
vmrlf ($xt2,$xd0,$xd1);
vmrlf ($xt3,$xd2,$xd3);
vpdi ($xd0,$xt0,$xt1,0b0000);
vpdi ($xd1,$xt0,$xt1,0b0101);
vpdi ($xd2,$xt2,$xt3,0b0000);
vpdi ($xd3,$xt2,$xt3,0b0101);
#vrepif ($xt0,4);
#vaf ($CTR,$CTR,$xt0); # next counter value
vaf ($xa0,$xa0,@K[0]);
vaf ($xb0,$xb0,@K[1]);
vaf ($xc0,$xc0,@K[2]);
vaf ($xd0,$xd0,@K[3]);
vperm ($xa0,$xa0,$xa0,$beperm);
vperm ($xb0,$xb0,$xb0,$beperm);
vperm ($xc0,$xc0,$xc0,$beperm);
vperm ($xd0,$xd0,$xd0,$beperm);
#&{$z? \&clgfi:\&clfi} ($len,0x40);
#jl (".Ltail_4x");
vlm ($xt0,$xt3,"0($inp)");
vx ($xt0,$xt0,$xa0);
vx ($xt1,$xt1,$xb0);
vx ($xt2,$xt2,$xc0);
vx ($xt3,$xt3,$xd0);
vstm ($xt0,$xt3,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
#je (".Ldone_4x");
vaf ($xa0,$xa1,@K[0]);
vaf ($xb0,$xb1,@K[1]);
vaf ($xc0,$xc1,@K[2]);
vaf ($xd0,$xd1,@K[3]);
vperm ($xa0,$xa0,$xa0,$beperm);
vperm ($xb0,$xb0,$xb0,$beperm);
vperm ($xc0,$xc0,$xc0,$beperm);
vperm ($xd0,$xd0,$xd0,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_4x");
vlm ($xt0,$xt3,"0($inp)");
vx ($xt0,$xt0,$xa0);
vx ($xt1,$xt1,$xb0);
vx ($xt2,$xt2,$xc0);
vx ($xt3,$xt3,$xd0);
vstm ($xt0,$xt3,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_4x");
vaf ($xa0,$xa2,@K[0]);
vaf ($xb0,$xb2,@K[1]);
vaf ($xc0,$xc2,@K[2]);
vaf ($xd0,$xd2,@K[3]);
vperm ($xa0,$xa0,$xa0,$beperm);
vperm ($xb0,$xb0,$xb0,$beperm);
vperm ($xc0,$xc0,$xc0,$beperm);
vperm ($xd0,$xd0,$xd0,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_4x");
vlm ($xt0,$xt3,"0($inp)");
vx ($xt0,$xt0,$xa0);
vx ($xt1,$xt1,$xb0);
vx ($xt2,$xt2,$xc0);
vx ($xt3,$xt3,$xd0);
vstm ($xt0,$xt3,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_4x");
vaf ($xa0,$xa3,@K[0]);
vaf ($xb0,$xb3,@K[1]);
vaf ($xc0,$xc3,@K[2]);
vaf ($xd0,$xd3,@K[3]);
vperm ($xa0,$xa0,$xa0,$beperm);
vperm ($xb0,$xb0,$xb0,$beperm);
vperm ($xc0,$xc0,$xc0,$beperm);
vperm ($xd0,$xd0,$xd0,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_4x");
vlm ($xt0,$xt3,"0($inp)");
vx ($xt0,$xt0,$xa0);
vx ($xt1,$xt1,$xb0);
vx ($xt2,$xt2,$xc0);
vx ($xt3,$xt3,$xd0);
vstm ($xt0,$xt3,"0($out)");
#la $inp,0x40($inp));
#la $out,0x40($out));
#lhi %r0,10);
#&{$z? \&aghi:\&ahi} $len,-0x40);
#jne .Loop_outer_4x);
LABEL (".Ldone_4x");
if (!$z) {
ld ("%f4","$FRAME+16*$SIZE_T+2*8($sp)");
ld ("%f6","$FRAME+16*$SIZE_T+3*8($sp)");
} else {
ld ("%f8","$stdframe+8*0($sp)");
ld ("%f9","$stdframe+8*1($sp)");
ld ("%f10","$stdframe+8*2($sp)");
ld ("%f11","$stdframe+8*3($sp)");
ld ("%f12","$stdframe+8*4($sp)");
ld ("%f13","$stdframe+8*5($sp)");
ld ("%f14","$stdframe+8*6($sp)");
ld ("%f15","$stdframe+8*7($sp)");
}
&{$z? \&lmg:\&lm} ("%r6","%r7","$FRAME+6*$SIZE_T($sp)");
la ($sp,"$FRAME($sp)");
br ("%r14");
ALIGN (16);
LABEL (".Ltail_4x");
if (!$z) {
vlr ($xt0,$xb0);
ld ("%f4","$FRAME+16*$SIZE_T+2*8($sp)");
ld ("%f6","$FRAME+16*$SIZE_T+3*8($sp)");
vst ($xa0,"$stdframe+0x00($sp)");
vst ($xt0,"$stdframe+0x10($sp)");
vst ($xc0,"$stdframe+0x20($sp)");
vst ($xd0,"$stdframe+0x30($sp)");
} else {
vlr ($xt0,$xc0);
ld ("%f8","$stdframe+8*0($sp)");
ld ("%f9","$stdframe+8*1($sp)");
ld ("%f10","$stdframe+8*2($sp)");
ld ("%f11","$stdframe+8*3($sp)");
vlr ($xt1,$xd0);
ld ("%f12","$stdframe+8*4($sp)");
ld ("%f13","$stdframe+8*5($sp)");
ld ("%f14","$stdframe+8*6($sp)");
ld ("%f15","$stdframe+8*7($sp)");
vst ($xa0,"$stdframe+0x00($sp)");
vst ($xb0,"$stdframe+0x10($sp)");
vst ($xt0,"$stdframe+0x20($sp)");
vst ($xt1,"$stdframe+0x30($sp)");
}
lghi ("%r1",0);
LABEL (".Loop_tail_4x");
llgc ("%r5","0(%r1,$inp)");
llgc ("%r6","$stdframe(%r1,$sp)");
xr ("%r6","%r5");
stc ("%r6","0(%r1,$out)");
la ("%r1","1(%r1)");
brct ($len,".Loop_tail_4x");
&{$z? \&lmg:\&lm} ("%r6","%r7","$FRAME+6*$SIZE_T($sp)");
la ($sp,"$FRAME($sp)");
br ("%r14");
SIZE ("ChaCha20_ctr32_4x",".-ChaCha20_ctr32_4x");
}
########################################################################
# 6x"horizontal" layout is optimal fit for the platform in its current
# shape, more specifically for given vector instructions' latency. Well,
# computational part of 8x"vertical" would be faster, but it consumes
# all registers and dealing with that will diminish the return...
#
{
my ($a0,$b0,$c0,$d0, $a1,$b1,$c1,$d1,
$a2,$b2,$c2,$d2, $a3,$b3,$c3,$d3,
$a4,$b4,$c4,$d4, $a5,$b5,$c5,$d5)=map("%v$_",(0..23));
my @K=map("%v$_",(27,24..26));
my ($t0,$t1,$t2,$t3)=map("%v$_",27..30);
my $beperm="%v31";
my $FRAME=$stdframe + 4*16;
GLOBL ("ChaCha20_ctr32_vx");
ALIGN (32);
LABEL ("ChaCha20_ctr32_vx");
LABEL (".LChaCha20_ctr32_vx");
&{$z? \&clgfi:\&clfi} ($len,256);
jle (".LChaCha20_ctr32_4x");
&{$z? \&stmg:\&stm} ("%r6","%r7","6*$SIZE_T($sp)");
if (!$z) {
std ("%f4","16*$SIZE_T+2*8($sp)");
std ("%f6","16*$SIZE_T+3*8($sp)");
}
&{$z? \&lghi:\&lhi} ("%r1",-$FRAME);
lgr ("%r0",$sp);
la ($sp,"0(%r1,$sp)");
&{$z? \&stg:\&st} ("%r0","0($sp)"); # back-chain
if ($z) {
std ("%f8","$FRAME-8*8($sp)");
std ("%f9","$FRAME-8*7($sp)");
std ("%f10","$FRAME-8*6($sp)");
std ("%f11","$FRAME-8*5($sp)");
std ("%f12","$FRAME-8*4($sp)");
std ("%f13","$FRAME-8*3($sp)");
std ("%f14","$FRAME-8*2($sp)");
std ("%f15","$FRAME-8*1($sp)");
}
larl ("%r7",".Lsigma");
lhi ("%r0",10);
vlm (@K[1],@K[2],"0($key)"); # load key
vl (@K[3],"0($counter)"); # load counter
vlm (@K[0],"$beperm","0(%r7)"); # load sigma, increments, ...
LABEL (".Loop_outer_vx");
vlr ($a0,@K[0]);
vlr ($b0,@K[1]);
vlr ($a1,@K[0]);
vlr ($b1,@K[1]);
vlr ($a2,@K[0]);
vlr ($b2,@K[1]);
vlr ($a3,@K[0]);
vlr ($b3,@K[1]);
vlr ($a4,@K[0]);
vlr ($b4,@K[1]);
vlr ($a5,@K[0]);
vlr ($b5,@K[1]);
vlr ($d0,@K[3]);
vaf ($d1,@K[3],$t1); # K[3]+1
vaf ($d2,@K[3],$t2); # K[3]+2
vaf ($d3,@K[3],$t3); # K[3]+3
vaf ($d4,$d2,$t2); # K[3]+4
vaf ($d5,$d2,$t3); # K[3]+5
vlr ($c0,@K[2]);
vlr ($c1,@K[2]);
vlr ($c2,@K[2]);
vlr ($c3,@K[2]);
vlr ($c4,@K[2]);
vlr ($c5,@K[2]);
vlr ($t1,$d1);
vlr ($t2,$d2);
vlr ($t3,$d3);
ALIGN (4);
LABEL (".Loop_vx");
VX_ROUND($a0,$a1,$a2,$a3,$a4,$a5,
$b0,$b1,$b2,$b3,$b4,$b5,
$c0,$c1,$c2,$c3,$c4,$c5,
$d0,$d1,$d2,$d3,$d4,$d5,
0);
VX_ROUND($a0,$a1,$a2,$a3,$a4,$a5,
$b0,$b1,$b2,$b3,$b4,$b5,
$c0,$c1,$c2,$c3,$c4,$c5,
$d0,$d1,$d2,$d3,$d4,$d5,
1);
brct ("%r0",".Loop_vx");
vaf ($a0,$a0,@K[0]);
vaf ($b0,$b0,@K[1]);
vaf ($c0,$c0,@K[2]);
vaf ($d0,$d0,@K[3]);
vaf ($a1,$a1,@K[0]);
vaf ($d1,$d1,$t1); # +K[3]+1
vperm ($a0,$a0,$a0,$beperm);
vperm ($b0,$b0,$b0,$beperm);
vperm ($c0,$c0,$c0,$beperm);
vperm ($d0,$d0,$d0,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vaf ($d2,$d2,$t2); # +K[3]+2
vaf ($d3,$d3,$t3); # +K[3]+3
vlm ($t0,$t3,"0($inp)");
vx ($a0,$a0,$t0);
vx ($b0,$b0,$t1);
vx ($c0,$c0,$t2);
vx ($d0,$d0,$t3);
vlm (@K[0],$t3,"0(%r7)"); # re-load sigma and increments
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_vx");
vaf ($b1,$b1,@K[1]);
vaf ($c1,$c1,@K[2]);
vperm ($a0,$a1,$a1,$beperm);
vperm ($b0,$b1,$b1,$beperm);
vperm ($c0,$c1,$c1,$beperm);
vperm ($d0,$d1,$d1,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vlm ($a1,$d1,"0($inp)");
vx ($a0,$a0,$a1);
vx ($b0,$b0,$b1);
vx ($c0,$c0,$c1);
vx ($d0,$d0,$d1);
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_vx");
vaf ($a2,$a2,@K[0]);
vaf ($b2,$b2,@K[1]);
vaf ($c2,$c2,@K[2]);
vperm ($a0,$a2,$a2,$beperm);
vperm ($b0,$b2,$b2,$beperm);
vperm ($c0,$c2,$c2,$beperm);
vperm ($d0,$d2,$d2,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vlm ($a1,$d1,"0($inp)");
vx ($a0,$a0,$a1);
vx ($b0,$b0,$b1);
vx ($c0,$c0,$c1);
vx ($d0,$d0,$d1);
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_vx");
vaf ($a3,$a3,@K[0]);
vaf ($b3,$b3,@K[1]);
vaf ($c3,$c3,@K[2]);
vaf ($d2,@K[3],$t3); # K[3]+3
vperm ($a0,$a3,$a3,$beperm);
vperm ($b0,$b3,$b3,$beperm);
vperm ($c0,$c3,$c3,$beperm);
vperm ($d0,$d3,$d3,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vaf ($d3,$d2,$t1); # K[3]+4
vlm ($a1,$d1,"0($inp)");
vx ($a0,$a0,$a1);
vx ($b0,$b0,$b1);
vx ($c0,$c0,$c1);
vx ($d0,$d0,$d1);
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_vx");
vaf ($a4,$a4,@K[0]);
vaf ($b4,$b4,@K[1]);
vaf ($c4,$c4,@K[2]);
vaf ($d4,$d4,$d3); # +K[3]+4
vaf ($d3,$d3,$t1); # K[3]+5
vaf (@K[3],$d2,$t3); # K[3]+=6
vperm ($a0,$a4,$a4,$beperm);
vperm ($b0,$b4,$b4,$beperm);
vperm ($c0,$c4,$c4,$beperm);
vperm ($d0,$d4,$d4,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vlm ($a1,$d1,"0($inp)");
vx ($a0,$a0,$a1);
vx ($b0,$b0,$b1);
vx ($c0,$c0,$c1);
vx ($d0,$d0,$d1);
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
&{$z? \&aghi:\&ahi} ($len,-0x40);
je (".Ldone_vx");
vaf ($a5,$a5,@K[0]);
vaf ($b5,$b5,@K[1]);
vaf ($c5,$c5,@K[2]);
vaf ($d5,$d5,$d3); # +K[3]+5
vperm ($a0,$a5,$a5,$beperm);
vperm ($b0,$b5,$b5,$beperm);
vperm ($c0,$c5,$c5,$beperm);
vperm ($d0,$d5,$d5,$beperm);
&{$z? \&clgfi:\&clfi} ($len,0x40);
jl (".Ltail_vx");
vlm ($a1,$d1,"0($inp)");
vx ($a0,$a0,$a1);
vx ($b0,$b0,$b1);
vx ($c0,$c0,$c1);
vx ($d0,$d0,$d1);
vstm ($a0,$d0,"0($out)");
la ($inp,"0x40($inp)");
la ($out,"0x40($out)");
lhi ("%r0",10);
&{$z? \&aghi:\&ahi} ($len,-0x40);
jne (".Loop_outer_vx");
LABEL (".Ldone_vx");
if (!$z) {
ld ("%f4","$FRAME+16*$SIZE_T+2*8($sp)");
ld ("%f6","$FRAME+16*$SIZE_T+3*8($sp)");
} else {
ld ("%f8","$FRAME-8*8($sp)");
ld ("%f9","$FRAME-8*7($sp)");
ld ("%f10","$FRAME-8*6($sp)");
ld ("%f11","$FRAME-8*5($sp)");
ld ("%f12","$FRAME-8*4($sp)");
ld ("%f13","$FRAME-8*3($sp)");
ld ("%f14","$FRAME-8*2($sp)");
ld ("%f15","$FRAME-8*1($sp)");
}
&{$z? \&lmg:\&lm} ("%r6","%r7","$FRAME+6*$SIZE_T($sp)");
la ($sp,"$FRAME($sp)");
br ("%r14");
ALIGN (16);
LABEL (".Ltail_vx");
if (!$z) {
ld ("%f4","$FRAME+16*$SIZE_T+2*8($sp)");
ld ("%f6","$FRAME+16*$SIZE_T+3*8($sp)");
} else {
ld ("%f8","$FRAME-8*8($sp)");
ld ("%f9","$FRAME-8*7($sp)");
ld ("%f10","$FRAME-8*6($sp)");
ld ("%f11","$FRAME-8*5($sp)");
ld ("%f12","$FRAME-8*4($sp)");
ld ("%f13","$FRAME-8*3($sp)");
ld ("%f14","$FRAME-8*2($sp)");
ld ("%f15","$FRAME-8*1($sp)");
}
vstm ($a0,$d0,"$stdframe($sp)");
lghi ("%r1",0);
LABEL (".Loop_tail_vx");
llgc ("%r5","0(%r1,$inp)");
llgc ("%r6","$stdframe(%r1,$sp)");
xr ("%r6","%r5");
stc ("%r6","0(%r1,$out)");
la ("%r1","1(%r1)");
brct ($len,".Loop_tail_vx");
&{$z? \&lmg:\&lm} ("%r6","%r7","$FRAME+6*$SIZE_T($sp)");
la ($sp,"$FRAME($sp)");
br ("%r14");
SIZE ("ChaCha20_ctr32_vx",".-ChaCha20_ctr32_vx");
}
################
ALIGN (32);
LABEL (".Lsigma");
LONG (0x61707865,0x3320646e,0x79622d32,0x6b206574); # endian-neutral sigma
LONG (1,0,0,0);
LONG (2,0,0,0);
LONG (3,0,0,0);
LONG (0x03020100,0x07060504,0x0b0a0908,0x0f0e0d0c); # byte swap
LONG (0,1,2,3);
LONG (0x61707865,0x61707865,0x61707865,0x61707865); # smashed sigma
LONG (0x3320646e,0x3320646e,0x3320646e,0x3320646e);
LONG (0x79622d32,0x79622d32,0x79622d32,0x79622d32);
LONG (0x6b206574,0x6b206574,0x6b206574,0x6b206574);
ASCIZ ("\"ChaCha20 for s390x, CRYPTOGAMS by <appro\@openssl.org>\"");
ALIGN (4);
PERLASM_END();