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CloverBootloader/Library/OpensslLib/openssl/crypto/poly1305/asm/poly1305-s390x.pl

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#! /usr/bin/env perl
# Copyright 2016 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/.
# ====================================================================
#
# This module implements Poly1305 hash for s390x.
#
# June 2015
#
# ~6.6/2.3 cpb on z10/z196+, >2x improvement over compiler-generated
# code. For older compiler improvement coefficient is >3x, because
# then base 2^64 and base 2^32 implementations are compared.
#
# On side note, z13 enables vector base 2^26 implementation...
#
# January 2019
#
# Add vx code path (base 2^26).
#
# Copyright IBM Corp. 2019
# Author: Patrick Steuer <patrick.steuer@de.ibm.com>
#
# January 2019
#
# Add vector base 2^26 implementation. It's problematic to accurately
# measure performance, because reference system is hardly idle. But
# it's sub-cycle, i.e. less than 1 cycle per processed byte, and it's
# >=20% faster than IBM's submission on long inputs, and much faster on
# short ones, because calculation of key powers is postponed till we
# know that input is long enough to justify the additional overhead.
use strict;
use FindBin qw($Bin);
use lib "$Bin/../..";
use perlasm::s390x qw(:DEFAULT :GE :EI :MI1 :VX 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 $stdframe=16*$SIZE_T+4*8;
my $sp="%r15";
my ($ctx,$inp,$len,$padbit) = map("%r$_",(2..5));
PERLASM_BEGIN($output);
INCLUDE ("s390x_arch.h");
TEXT ();
################
# static void poly1305_init(void *ctx, const unsigned char key[16])
{
GLOBL ("poly1305_init");
TYPE ("poly1305_init","\@function");
ALIGN (16);
LABEL ("poly1305_init");
lghi ("%r0",0);
lghi ("%r1",-1);
stg ("%r0","0($ctx)"); # zero hash value
stg ("%r0","8($ctx)");
stg ("%r0","16($ctx)");
st ("%r0","24($ctx)"); # clear is_base2_26
lgr ("%r5",$ctx); # reassign $ctx
lghi ("%r2",0);
&{$z? \&clgr:\&clr} ($inp,"%r0");
je (".Lno_key");
lrvg ("%r2","0($inp)"); # load little-endian key
lrvg ("%r3","8($inp)");
nihl ("%r1",0xffc0); # 0xffffffc0ffffffff
srlg ("%r0","%r1",4); # 0x0ffffffc0fffffff
srlg ("%r1","%r1",4);
nill ("%r1",0xfffc); # 0x0ffffffc0ffffffc
ngr ("%r2","%r0");
ngr ("%r3","%r1");
stmg ("%r2","%r3","32(%r5)");
larl ("%r1","OPENSSL_s390xcap_P");
lg ("%r0","16(%r1)");
srlg ("%r0","%r0",62);
nill ("%r0",1); # extract vx bit
lcgr ("%r0","%r0");
larl ("%r1",".Lpoly1305_blocks");
larl ("%r2",".Lpoly1305_blocks_vx");
larl ("%r3",".Lpoly1305_emit");
&{$z? \&xgr:\&xr} ("%r2","%r1"); # select between scalar and vector
&{$z? \&ngr:\&nr} ("%r2","%r0");
&{$z? \&xgr:\&xr} ("%r2","%r1");
&{$z? \&stmg:\&stm} ("%r2","%r3","0(%r4)");
lghi ("%r2",1);
LABEL (".Lno_key");
br ("%r14");
SIZE ("poly1305_init",".-poly1305_init");
}
################
# static void poly1305_blocks(void *ctx, const unsigned char *inp,
# size_t len, u32 padbit)
{
my ($d0hi,$d0lo,$d1hi,$d1lo,$t0,$h0,$t1,$h1,$h2) = map("%r$_",(6..14));
my ($r0,$r1,$s1) = map("%r$_",(0..2));
GLOBL ("poly1305_blocks");
TYPE ("poly1305_blocks","\@function");
ALIGN (16);
LABEL ("poly1305_blocks");
LABEL (".Lpoly1305_blocks");
&{$z? \&ltgr:\&ltr} ("%r0",$len);
jz (".Lno_data");
&{$z? \&stmg:\&stm} ("%r6","%r14","6*$SIZE_T($sp)");
lg ($h0,"0($ctx)"); # load hash value
lg ($h1,"8($ctx)");
lg ($h2,"16($ctx)");
LABEL (".Lpoly1305_blocks_entry");
if ($z) {
srlg ($len,$len,4);
} else {
srl ($len,4);
}
llgfr ($padbit,$padbit); # clear upper half, much needed with
# non-64-bit ABI
lg ($r0,"32($ctx)"); # load key
lg ($r1,"40($ctx)");
&{$z? \&stg:\&st} ($ctx,"2*$SIZE_T($sp)"); # off-load $ctx
srlg ($s1,$r1,2);
algr ($s1,$r1); # s1 = r1 + r1>>2
j (".Loop");
ALIGN (16);
LABEL (".Loop");
lrvg ($d0lo,"0($inp)"); # load little-endian input
lrvg ($d1lo,"8($inp)");
la ($inp,"16($inp)");
algr ($d0lo,$h0); # accumulate input
alcgr ($d1lo,$h1);
alcgr ($h2,$padbit);
lgr ($h0,$d0lo);
mlgr ($d0hi,$r0); # h0*r0 -> $d0hi:$d0lo
lgr ($h1,$d1lo);
mlgr ($d1hi,$s1); # h1*5*r1 -> $d1hi:$d1lo
mlgr ($t0,$r1); # h0*r1 -> $t0:$h0
mlgr ($t1,$r0); # h1*r0 -> $t1:$h1
algr ($d0lo,$d1lo);
lgr ($d1lo,$h2);
alcgr ($d0hi,$d1hi);
lghi ($d1hi,0);
algr ($h1,$h0);
alcgr ($t1,$t0);
msgr ($d1lo,$s1); # h2*s1
msgr ($h2,$r0); # h2*r0
algr ($h1,$d1lo);
alcgr ($t1,$d1hi); # $d1hi is zero
algr ($h1,$d0hi);
alcgr ($h2,$t1);
lghi ($h0,-4); # final reduction step
ngr ($h0,$h2);
srlg ($t0,$h2,2);
algr ($h0,$t0);
lghi ($t1,3);
ngr ($h2,$t1);
algr ($h0,$d0lo);
alcgr ($h1,$d1hi); # $d1hi is still zero
alcgr ($h2,$d1hi); # $d1hi is still zero
&{$z? \&brctg:\&brct} ($len,".Loop");
&{$z? \&lg:\&l} ($ctx,"2*$SIZE_T($sp)");# restore $ctx
stg ($h0,"0($ctx)"); # store hash value
stg ($h1,"8($ctx)");
stg ($h2,"16($ctx)");
&{$z? \&lmg:\&lm} ("%r6","%r14","6*$SIZE_T($sp)");
LABEL (".Lno_data");
br ("%r14");
SIZE ("poly1305_blocks",".-poly1305_blocks");
}
################
# static void poly1305_blocks_vx(void *ctx, const unsigned char *inp,
# size_t len, u32 padbit)
{
my ($H0, $H1, $H2, $H3, $H4) = map("%v$_",(0..4));
my ($I0, $I1, $I2, $I3, $I4) = map("%v$_",(5..9));
my ($R0, $R1, $S1, $R2, $S2) = map("%v$_",(10..14));
my ($R3, $S3, $R4, $S4) = map("%v$_",(15..18));
my ($ACC0, $ACC1, $ACC2, $ACC3, $ACC4) = map("%v$_",(19..23));
my ($T1, $T2, $T3, $T4) = map("%v$_",(24..27));
my ($mask26,$bswaplo,$bswaphi,$bswapmi) = map("%v$_",(28..31));
my ($d2,$d0,$h0,$d1,$h1,$h2)=map("%r$_",(9..14));
TYPE ("poly1305_blocks_vx","\@function");
ALIGN (16);
LABEL ("poly1305_blocks_vx");
LABEL (".Lpoly1305_blocks_vx");
&{$z? \&clgfi:\&clfi} ($len,128);
jhe ("__poly1305_blocks_vx");
&{$z? \&stmg:\&stm} ("%r6","%r14","6*$SIZE_T($sp)");
lg ($d0,"0($ctx)");
lg ($d1,"8($ctx)");
lg ($d2,"16($ctx)");
llgfr ("%r0",$d0); # base 2^26 -> base 2^64
srlg ($h0,$d0,32);
llgfr ("%r1",$d1);
srlg ($h1,$d1,32);
srlg ($h2,$d2,32);
sllg ("%r0","%r0",26);
algr ($h0,"%r0");
sllg ("%r0",$h1,52);
srlg ($h1,$h1,12);
sllg ("%r1","%r1",14);
algr ($h0,"%r0");
alcgr ($h1,"%r1");
sllg ("%r0",$h2,40);
srlg ($h2,$h2,24);
lghi ("%r1",0);
algr ($h1,"%r0");
alcgr ($h2,"%r1");
llgf ("%r0","24($ctx)"); # is_base2_26
lcgr ("%r0","%r0");
xgr ($h0,$d0); # choose between radixes
xgr ($h1,$d1);
xgr ($h2,$d2);
ngr ($h0,"%r0");
ngr ($h1,"%r0");
ngr ($h2,"%r0");
xgr ($h0,$d0);
xgr ($h1,$d1);
xgr ($h2,$d2);
lhi ("%r0",0);
st ("%r0","24($ctx)"); # clear is_base2_26
j (".Lpoly1305_blocks_entry");
SIZE ("poly1305_blocks_vx",".-poly1305_blocks_vx");
TYPE ("__poly1305_mul","\@function");
ALIGN (16);
LABEL ("__poly1305_mul");
vmlof ($ACC0,$H0,$R0);
vmlof ($ACC1,$H0,$R1);
vmlof ($ACC2,$H0,$R2);
vmlof ($ACC3,$H0,$R3);
vmlof ($ACC4,$H0,$R4);
vmalof ($ACC0,$H1,$S4,$ACC0);
vmalof ($ACC1,$H1,$R0,$ACC1);
vmalof ($ACC2,$H1,$R1,$ACC2);
vmalof ($ACC3,$H1,$R2,$ACC3);
vmalof ($ACC4,$H1,$R3,$ACC4);
vmalof ($ACC0,$H2,$S3,$ACC0);
vmalof ($ACC1,$H2,$S4,$ACC1);
vmalof ($ACC2,$H2,$R0,$ACC2);
vmalof ($ACC3,$H2,$R1,$ACC3);
vmalof ($ACC4,$H2,$R2,$ACC4);
vmalof ($ACC0,$H3,$S2,$ACC0);
vmalof ($ACC1,$H3,$S3,$ACC1);
vmalof ($ACC2,$H3,$S4,$ACC2);
vmalof ($ACC3,$H3,$R0,$ACC3);
vmalof ($ACC4,$H3,$R1,$ACC4);
vmalof ($ACC0,$H4,$S1,$ACC0);
vmalof ($ACC1,$H4,$S2,$ACC1);
vmalof ($ACC2,$H4,$S3,$ACC2);
vmalof ($ACC3,$H4,$S4,$ACC3);
vmalof ($ACC4,$H4,$R0,$ACC4);
################################################################
# lazy reduction
vesrlg ($H4,$ACC3,26);
vesrlg ($H1,$ACC0,26);
vn ($H3,$ACC3,$mask26);
vn ($H0,$ACC0,$mask26);
vag ($H4,$H4,$ACC4); # h3 -> h4
vag ($H1,$H1,$ACC1); # h0 -> h1
vesrlg ($ACC4,$H4,26);
vesrlg ($ACC1,$H1,26);
vn ($H4,$H4,$mask26);
vn ($H1,$H1,$mask26);
vag ($H0,$H0,$ACC4);
vag ($H2,$ACC2,$ACC1); # h1 -> h2
veslg ($ACC4,$ACC4,2); # <<2
vesrlg ($ACC2,$H2,26);
vn ($H2,$H2,$mask26);
vag ($H0,$H0,$ACC4); # h4 -> h0
vag ($H3,$H3,$ACC2); # h2 -> h3
vesrlg ($ACC0,$H0,26);
vesrlg ($ACC3,$H3,26);
vn ($H0,$H0,$mask26);
vn ($H3,$H3,$mask26);
vag ($H1,$H1,$ACC0); # h0 -> h1
vag ($H4,$H4,$ACC3); # h3 -> h4
br ("%r14");
SIZE ("__poly1305_mul",".-__poly1305_mul");
TYPE ("__poly1305_blocks_vx","\@function");
ALIGN (16);
LABEL ("__poly1305_blocks_vx");
&{$z? \&lgr:\&lr} ("%r0",$sp);
&{$z? \&stmg:\&stm} ("%r10","%r15","10*$SIZE_T($sp)");
if (!$z) {
std ("%f4","16*$SIZE_T+2*8($sp)");
std ("%f6","16*$SIZE_T+3*8($sp)");
ahi ($sp,-$stdframe);
st ("%r0","0($sp)"); # back-chain
llgfr ($len,$len); # so that srlg works on $len
} else {
aghi ($sp,"-($stdframe+8*8)");
stg ("%r0","0($sp)"); # back-chain
std ("%f8","$stdframe+0*8($sp)");
std ("%f9","$stdframe+1*8($sp)");
std ("%f10","$stdframe+2*8($sp)");
std ("%f11","$stdframe+3*8($sp)");
std ("%f12","$stdframe+4*8($sp)");
std ("%f13","$stdframe+5*8($sp)");
std ("%f14","$stdframe+6*8($sp)");
std ("%f15","$stdframe+7*8($sp)");
}
larl ("%r1",".Lconst");
vgmg ($mask26,38,63);
vlm ($bswaplo,$bswapmi,"16(%r1)");
&lt ("%r0","24($ctx)"); # is_base2_26?
jnz (".Lskip_init");
lg ($h0,"32($ctx)"); # load key base 2^64
lg ($h1,"40($ctx)");
risbg ($d0,$h0,38,0x80+63,38); # base 2^64 -> 2^26
srlg ($d1,$h0,52);
risbg ($h0,$h0,38,0x80+63,0);
vlvgg ($R0,$h0,0);
risbg ($d1,$h1,38,51,12);
vlvgg ($R1,$d0,0);
risbg ($d0,$h1,38,63,50);
vlvgg ($R2,$d1,0);
srlg ($d1,$h1,40);
vlvgg ($R3,$d0,0);
vlvgg ($R4,$d1,0);
veslg ($S1,$R1,2);
veslg ($S2,$R2,2);
veslg ($S3,$R3,2);
veslg ($S4,$R4,2);
vlr ($H0,$R0);
vlr ($H1,$R1);
vlr ($H2,$R2);
vlr ($H3,$R3);
vlr ($H4,$R4);
vag ($S1,$S1,$R1); # * 5
vag ($S2,$S2,$R2);
vag ($S3,$S3,$R3);
vag ($S4,$S4,$R4);
brasl ("%r14","__poly1305_mul"); # r^1:- * r^1:-
vpdi ($R0,$H0,$R0,0); # r^2:r^1
vpdi ($R1,$H1,$R1,0);
vpdi ($R2,$H2,$R2,0);
vpdi ($R3,$H3,$R3,0);
vpdi ($R4,$H4,$R4,0);
vpdi ($H0,$H0,$H0,0); # r^2:r^2
vpdi ($H1,$H1,$H1,0);
vpdi ($H2,$H2,$H2,0);
vpdi ($H3,$H3,$H3,0);
vpdi ($H4,$H4,$H4,0);
veslg ($S1,$R1,2);
veslg ($S2,$R2,2);
veslg ($S3,$R3,2);
veslg ($S4,$R4,2);
vag ($S1,$S1,$R1); # * 5
vag ($S2,$S2,$R2);
vag ($S3,$S3,$R3);
vag ($S4,$S4,$R4);
brasl ("%r14,__poly1305_mul"); # r^2:r^2 * r^2:r^1
vl ($I0,"0(%r1)"); # borrow $I0
vperm ($R0,$R0,$H0,$I0); # r^2:r^4:r^1:r^3
vperm ($R1,$R1,$H1,$I0);
vperm ($R2,$R2,$H2,$I0);
vperm ($R3,$R3,$H3,$I0);
vperm ($R4,$R4,$H4,$I0);
veslf ($S1,$R1,2);
veslf ($S2,$R2,2);
veslf ($S3,$R3,2);
veslf ($S4,$R4,2);
vaf ($S1,$S1,$R1); # * 5
vaf ($S2,$S2,$R2);
vaf ($S3,$S3,$R3);
vaf ($S4,$S4,$R4);
lg ($h0,"0($ctx)"); # load hash base 2^64
lg ($h1,"8($ctx)");
lg ($h2,"16($ctx)");
vzero ($H0);
vzero ($H1);
vzero ($H2);
vzero ($H3);
vzero ($H4);
risbg ($d0,$h0,38,0x80+63,38); # base 2^64 -> 2^26
srlg ($d1,$h0,52);
risbg ($h0,$h0,38,0x80+63,0);
vlvgg ($H0,$h0,0);
risbg ($d1,$h1,38,51,12);
vlvgg ($H1,$d0,0);
risbg ($d0,$h1,38,63,50);
vlvgg ($H2,$d1,0);
srlg ($d1,$h1,40);
vlvgg ($H3,$d0,0);
risbg ($d1,$h2,37,39,24);
vlvgg ($H4,$d1,0);
lhi ("%r0",1);
st ("%r0","24($ctx)"); # set is_base2_26
vstm ($R0,$S4,"48($ctx)"); # save key schedule base 2^26
vpdi ($R0,$R0,$R0,0); # broadcast r^2:r^4
vpdi ($R1,$R1,$R1,0);
vpdi ($S1,$S1,$S1,0);
vpdi ($R2,$R2,$R2,0);
vpdi ($S2,$S2,$S2,0);
vpdi ($R3,$R3,$R3,0);
vpdi ($S3,$S3,$S3,0);
vpdi ($R4,$R4,$R4,0);
vpdi ($S4,$S4,$S4,0);
j (".Loaded_hash");
ALIGN (16);
LABEL (".Lskip_init");
vllezf ($H0,"0($ctx)"); # load hash base 2^26
vllezf ($H1,"4($ctx)");
vllezf ($H2,"8($ctx)");
vllezf ($H3,"12($ctx)");
vllezf ($H4,"16($ctx)");
vlrepg ($R0,"0x30($ctx)"); # broadcast r^2:r^4
vlrepg ($R1,"0x40($ctx)");
vlrepg ($S1,"0x50($ctx)");
vlrepg ($R2,"0x60($ctx)");
vlrepg ($S2,"0x70($ctx)");
vlrepg ($R3,"0x80($ctx)");
vlrepg ($S3,"0x90($ctx)");
vlrepg ($R4,"0xa0($ctx)");
vlrepg ($S4,"0xb0($ctx)");
LABEL (".Loaded_hash");
vzero ($I1);
vzero ($I3);
vlm ($T1,$T4,"0x00($inp)"); # load first input block
la ($inp,"0x40($inp)");
vgmg ($mask26,6,31);
vgmf ($I4,5,5); # padbit<<2
vperm ($I0,$T3,$T4,$bswaplo);
vperm ($I2,$T3,$T4,$bswapmi);
vperm ($T3,$T3,$T4,$bswaphi);
verimg ($I1,$I0,$mask26,6); # >>26
veslg ($I0,$I0,32);
veslg ($I2,$I2,28); # >>4
verimg ($I3,$T3,$mask26,18); # >>14
verimg ($I4,$T3,$mask26,58); # >>38
vn ($I0,$I0,$mask26);
vn ($I2,$I2,$mask26);
vesrlf ($I4,$I4,2); # >>2
vgmg ($mask26,38,63);
vperm ($T3,$T1,$T2,$bswaplo);
vperm ($T4,$T1,$T2,$bswaphi);
vperm ($T2,$T1,$T2,$bswapmi);
verimg ($I0,$T3,$mask26,0);
verimg ($I1,$T3,$mask26,38); # >>26
verimg ($I2,$T2,$mask26,60); # >>4
verimg ($I3,$T4,$mask26,50); # >>14
vesrlg ($T4,$T4,40);
vo ($I4,$I4,$T4);
srlg ("%r0",$len,6);
&{$z? \&aghi:\&ahi} ("%r0",-1);
ALIGN (16);
LABEL (".Loop_vx");
vmlef ($ACC0,$I0,$R0);
vmlef ($ACC1,$I0,$R1);
vmlef ($ACC2,$I0,$R2);
vmlef ($ACC3,$I0,$R3);
vmlef ($ACC4,$I0,$R4);
vmalef ($ACC0,$I1,$S4,$ACC0);
vmalef ($ACC1,$I1,$R0,$ACC1);
vmalef ($ACC2,$I1,$R1,$ACC2);
vmalef ($ACC3,$I1,$R2,$ACC3);
vmalef ($ACC4,$I1,$R3,$ACC4);
vaf ($H2,$H2,$I2);
vaf ($H0,$H0,$I0);
vaf ($H3,$H3,$I3);
vaf ($H1,$H1,$I1);
vaf ($H4,$H4,$I4);
vmalef ($ACC0,$I2,$S3,$ACC0);
vmalef ($ACC1,$I2,$S4,$ACC1);
vmalef ($ACC2,$I2,$R0,$ACC2);
vmalef ($ACC3,$I2,$R1,$ACC3);
vmalef ($ACC4,$I2,$R2,$ACC4);
vlm ($T1,$T4,"0x00($inp)"); # load next input block
la ($inp,"0x40($inp)");
vgmg ($mask26,6,31);
vmalef ($ACC0,$I3,$S2,$ACC0);
vmalef ($ACC1,$I3,$S3,$ACC1);
vmalef ($ACC2,$I3,$S4,$ACC2);
vmalef ($ACC3,$I3,$R0,$ACC3);
vmalef ($ACC4,$I3,$R1,$ACC4);
vperm ($I0,$T3,$T4,$bswaplo);
vperm ($I2,$T3,$T4,$bswapmi);
vperm ($T3,$T3,$T4,$bswaphi);
vmalef ($ACC0,$I4,$S1,$ACC0);
vmalef ($ACC1,$I4,$S2,$ACC1);
vmalef ($ACC2,$I4,$S3,$ACC2);
vmalef ($ACC3,$I4,$S4,$ACC3);
vmalef ($ACC4,$I4,$R0,$ACC4);
verimg ($I1,$I0,$mask26,6); # >>26
veslg ($I0,$I0,32);
veslg ($I2,$I2,28); # >>4
verimg ($I3,$T3,$mask26,18); # >>14
vmalof ($ACC0,$H0,$R0,$ACC0);
vmalof ($ACC1,$H0,$R1,$ACC1);
vmalof ($ACC2,$H0,$R2,$ACC2);
vmalof ($ACC3,$H0,$R3,$ACC3);
vmalof ($ACC4,$H0,$R4,$ACC4);
vgmf ($I4,5,5); # padbit<<2
verimg ($I4,$T3,$mask26,58); # >>38
vn ($I0,$I0,$mask26);
vn ($I2,$I2,$mask26);
vesrlf ($I4,$I4,2); # >>2
vmalof ($ACC0,$H1,$S4,$ACC0);
vmalof ($ACC1,$H1,$R0,$ACC1);
vmalof ($ACC2,$H1,$R1,$ACC2);
vmalof ($ACC3,$H1,$R2,$ACC3);
vmalof ($ACC4,$H1,$R3,$ACC4);
vgmg ($mask26,38,63);
vperm ($T3,$T1,$T2,$bswaplo);
vperm ($T4,$T1,$T2,$bswaphi);
vperm ($T2,$T1,$T2,$bswapmi);
vmalof ($ACC0,$H2,$S3,$ACC0);
vmalof ($ACC1,$H2,$S4,$ACC1);
vmalof ($ACC2,$H2,$R0,$ACC2);
vmalof ($ACC3,$H2,$R1,$ACC3);
vmalof ($ACC4,$H2,$R2,$ACC4);
verimg ($I0,$T3,$mask26,0);
verimg ($I1,$T3,$mask26,38); # >>26
verimg ($I2,$T2,$mask26,60); # >>4
vmalof ($ACC0,$H3,$S2,$ACC0);
vmalof ($ACC1,$H3,$S3,$ACC1);
vmalof ($ACC2,$H3,$S4,$ACC2);
vmalof ($ACC3,$H3,$R0,$ACC3);
vmalof ($ACC4,$H3,$R1,$ACC4);
verimg ($I3,$T4,$mask26,50); # >>14
vesrlg ($T4,$T4,40);
vo ($I4,$I4,$T4);
vmalof ($ACC0,$H4,$S1,$ACC0);
vmalof ($ACC1,$H4,$S2,$ACC1);
vmalof ($ACC2,$H4,$S3,$ACC2);
vmalof ($ACC3,$H4,$S4,$ACC3);
vmalof ($ACC4,$H4,$R0,$ACC4);
################################################################
# lazy reduction as discussed in "NEON crypto" by D.J. Bernstein
# and P. Schwabe
vesrlg ($H4,$ACC3,26);
vesrlg ($H1,$ACC0,26);
vn ($H3,$ACC3,$mask26);
vn ($H0,$ACC0,$mask26);
vag ($H4,$H4,$ACC4); # h3 -> h4
vag ($H1,$H1,$ACC1); # h0 -> h1
vesrlg ($ACC4,$H4,26);
vesrlg ($ACC1,$H1,26);
vn ($H4,$H4,$mask26);
vn ($H1,$H1,$mask26);
vag ($H0,$H0,$ACC4);
vag ($H2,$ACC2,$ACC1); # h1 -> h2
veslg ($ACC4,$ACC4,2); # <<2
vesrlg ($ACC2,$H2,26);
vn ($H2,$H2,$mask26);
vag ($H0,$H0,$ACC4); # h4 -> h0
vag ($H3,$H3,$ACC2); # h2 -> h3
vesrlg ($ACC0,$H0,26);
vesrlg ($ACC3,$H3,26);
vn ($H0,$H0,$mask26);
vn ($H3,$H3,$mask26);
vag ($H1,$H1,$ACC0); # h0 -> h1
vag ($H4,$H4,$ACC3); # h3 -> h4
&{$z? \&brctg:\&brct} ("%r0",".Loop_vx");
vlm ($R0,$S4,"48($ctx)"); # load all powers
lghi ("%r0",0x30);
&{$z? \&lcgr:\&lcr} ($len,$len);
&{$z? \&ngr:\&nr} ($len,"%r0");
&{$z? \&slgr:\&slr} ($inp,$len);
LABEL (".Last");
vmlef ($ACC0,$I0,$R0);
vmlef ($ACC1,$I0,$R1);
vmlef ($ACC2,$I0,$R2);
vmlef ($ACC3,$I0,$R3);
vmlef ($ACC4,$I0,$R4);
vmalef ($ACC0,$I1,$S4,$ACC0);
vmalef ($ACC1,$I1,$R0,$ACC1);
vmalef ($ACC2,$I1,$R1,$ACC2);
vmalef ($ACC3,$I1,$R2,$ACC3);
vmalef ($ACC4,$I1,$R3,$ACC4);
vaf ($H0,$H0,$I0);
vaf ($H1,$H1,$I1);
vaf ($H2,$H2,$I2);
vaf ($H3,$H3,$I3);
vaf ($H4,$H4,$I4);
vmalef ($ACC0,$I2,$S3,$ACC0);
vmalef ($ACC1,$I2,$S4,$ACC1);
vmalef ($ACC2,$I2,$R0,$ACC2);
vmalef ($ACC3,$I2,$R1,$ACC3);
vmalef ($ACC4,$I2,$R2,$ACC4);
vmalef ($ACC0,$I3,$S2,$ACC0);
vmalef ($ACC1,$I3,$S3,$ACC1);
vmalef ($ACC2,$I3,$S4,$ACC2);
vmalef ($ACC3,$I3,$R0,$ACC3);
vmalef ($ACC4,$I3,$R1,$ACC4);
vmalef ($ACC0,$I4,$S1,$ACC0);
vmalef ($ACC1,$I4,$S2,$ACC1);
vmalef ($ACC2,$I4,$S3,$ACC2);
vmalef ($ACC3,$I4,$S4,$ACC3);
vmalef ($ACC4,$I4,$R0,$ACC4);
vmalof ($ACC0,$H0,$R0,$ACC0);
vmalof ($ACC1,$H0,$R1,$ACC1);
vmalof ($ACC2,$H0,$R2,$ACC2);
vmalof ($ACC3,$H0,$R3,$ACC3);
vmalof ($ACC4,$H0,$R4,$ACC4);
vmalof ($ACC0,$H1,$S4,$ACC0);
vmalof ($ACC1,$H1,$R0,$ACC1);
vmalof ($ACC2,$H1,$R1,$ACC2);
vmalof ($ACC3,$H1,$R2,$ACC3);
vmalof ($ACC4,$H1,$R3,$ACC4);
vmalof ($ACC0,$H2,$S3,$ACC0);
vmalof ($ACC1,$H2,$S4,$ACC1);
vmalof ($ACC2,$H2,$R0,$ACC2);
vmalof ($ACC3,$H2,$R1,$ACC3);
vmalof ($ACC4,$H2,$R2,$ACC4);
vmalof ($ACC0,$H3,$S2,$ACC0);
vmalof ($ACC1,$H3,$S3,$ACC1);
vmalof ($ACC2,$H3,$S4,$ACC2);
vmalof ($ACC3,$H3,$R0,$ACC3);
vmalof ($ACC4,$H3,$R1,$ACC4);
vmalof ($ACC0,$H4,$S1,$ACC0);
vmalof ($ACC1,$H4,$S2,$ACC1);
vmalof ($ACC2,$H4,$S3,$ACC2);
vmalof ($ACC3,$H4,$S4,$ACC3);
vmalof ($ACC4,$H4,$R0,$ACC4);
################################################################
# horizontal addition
vzero ($H0);
vsumqg ($ACC0,$ACC0,$H0);
vsumqg ($ACC1,$ACC1,$H0);
vsumqg ($ACC2,$ACC2,$H0);
vsumqg ($ACC3,$ACC3,$H0);
vsumqg ($ACC4,$ACC4,$H0);
################################################################
# lazy reduction
vesrlg ($H4,$ACC3,26);
vesrlg ($H1,$ACC0,26);
vn ($H3,$ACC3,$mask26);
vn ($H0,$ACC0,$mask26);
vag ($H4,$H4,$ACC4); # h3 -> h4
vag ($H1,$H1,$ACC1); # h0 -> h1
vesrlg ($ACC4,$H4,26);
vesrlg ($ACC1,$H1,26);
vn ($H4,$H4,$mask26);
vn ($H1,$H1,$mask26);
vag ($H0,$H0,$ACC4);
vag ($H2,$ACC2,$ACC1); # h1 -> h2
veslg ($ACC4,$ACC4,2); # <<2
vesrlg ($ACC2,$H2,26);
vn ($H2,$H2,$mask26);
vag ($H0,$H0,$ACC4); # h4 -> h0
vag ($H3,$H3,$ACC2); # h2 -> h3
vesrlg ($ACC0,$H0,26);
vesrlg ($ACC3,$H3,26);
vn ($H0,$H0,$mask26);
vn ($H3,$H3,$mask26);
vag ($H1,$H1,$ACC0); # h0 -> h1
vag ($H4,$H4,$ACC3); # h3 -> h4
&{$z? \&clgfi:\&clfi} ($len,0);
je (".Ldone");
vlm ($T1,$T4,"0x00($inp)"); # load last partial block
vgmg ($mask26,6,31);
vgmf ($I4,5,5); # padbit<<2
vperm ($I0,$T3,$T4,$bswaplo);
vperm ($I2,$T3,$T4,$bswapmi);
vperm ($T3,$T3,$T4,$bswaphi);
vl ($ACC0,"0x30($len,%r1)"); # borrow $ACC0,1
vl ($ACC1,"0x60($len,%r1)");
verimg ($I1,$I0,$mask26,6); # >>26
veslg ($I0,$I0,32);
veslg ($I2,$I2,28); # >>4
verimg ($I3,$T3,$mask26,18); # >>14
verimg ($I4,$T3,$mask26,58); # >>38
vn ($I0,$I0,$mask26);
vn ($I2,$I2,$mask26);
vesrlf ($I4,$I4,2); # >>2
vgmg ($mask26,38,63);
vperm ($T3,$T1,$T2,$bswaplo);
vperm ($T4,$T1,$T2,$bswaphi);
vperm ($T2,$T1,$T2,$bswapmi);
verimg ($I0,$T3,$mask26,0);
verimg ($I1,$T3,$mask26,38); # >>26
verimg ($I2,$T2,$mask26,60); # >>4
verimg ($I3,$T4,$mask26,50); # >>14
vesrlg ($T4,$T4,40);
vo ($I4,$I4,$T4);
vperm ($H0,$H0,$H0,$ACC0); # move hash to right lane
vn ($I0,$I0,$ACC1); # mask redundant lane[s]
vperm ($H1,$H1,$H1,$ACC0);
vn ($I1,$I1,$ACC1);
vperm ($H2,$H2,$H2,$ACC0);
vn ($I2,$I2,$ACC1);
vperm ($H3,$H3,$H3,$ACC0);
vn ($I3,$I3,$ACC1);
vperm ($H4,$H4,$H4,$ACC0);
vn ($I4,$I4,$ACC1);
vaf ($I0,$I0,$H0); # accumulate hash
vzero ($H0); # wipe hash value
vaf ($I1,$I1,$H1);
vzero ($H1);
vaf ($I2,$I2,$H2);
vzero ($H2);
vaf ($I3,$I3,$H3);
vzero ($H3);
vaf ($I4,$I4,$H4);
vzero ($H4);
&{$z? \&lghi:\&lhi} ($len,0);
j (".Last");
# I don't bother to tell apart cases when only one multiplication
# pass is sufficient, because I argue that mispredicted branch
# penalties are comparable to overhead of sometimes redundant
# multiplication pass...
LABEL (".Ldone");
vstef ($H0,"0($ctx)",3); # store hash base 2^26
vstef ($H1,"4($ctx)",3);
vstef ($H2,"8($ctx)",3);
vstef ($H3,"12($ctx)",3);
vstef ($H4,"16($ctx)",3);
if ($z) {
ld ("%f8","$stdframe+0*8($sp)");
ld ("%f9","$stdframe+1*8($sp)");
ld ("%f10","$stdframe+2*8($sp)");
ld ("%f11","$stdframe+3*8($sp)");
ld ("%f12","$stdframe+4*8($sp)");
ld ("%f13","$stdframe+5*8($sp)");
ld ("%f14","$stdframe+6*8($sp)");
ld ("%f15","$stdframe+7*8($sp)");
&{$z? \&lmg:\&lm} ("%r10","%r15","$stdframe+8*8+10*$SIZE_T($sp)");
} else {
ld ("%f4","$stdframe+16*$SIZE_T+2*8($sp)");
ld ("%f6","$stdframe+16*$SIZE_T+3*8($sp)");
&{$z? \&lmg:\&lm} ("%r10","%r15","$stdframe+10*$SIZE_T($sp)");
}
br ("%r14");
SIZE ("__poly1305_blocks_vx",".-__poly1305_blocks_vx");
}
################
# static void poly1305_emit(void *ctx, unsigned char mac[16],
# const u32 nonce[4])
{
my ($mac,$nonce)=($inp,$len);
my ($h0,$h1,$h2,$d0,$d1,$d2)=map("%r$_",(5..10));
GLOBL ("poly1305_emit");
TYPE ("poly1305_emit","\@function");
ALIGN (16);
LABEL ("poly1305_emit");
LABEL (".Lpoly1305_emit");
&{$z? \&stmg:\&stm} ("%r6","%r10","6*$SIZE_T($sp)");
lg ($d0,"0($ctx)");
lg ($d1,"8($ctx)");
lg ($d2,"16($ctx)");
llgfr ("%r0",$d0); # base 2^26 -> base 2^64
srlg ($h0,$d0,32);
llgfr ("%r1",$d1);
srlg ($h1,$d1,32);
srlg ($h2,$d2,32);
sllg ("%r0","%r0",26);
algr ($h0,"%r0");
sllg ("%r0",$h1,52);
srlg ($h1,$h1,12);
sllg ("%r1","%r1",14);
algr ($h0,"%r0");
alcgr ($h1,"%r1");
sllg ("%r0",$h2,40);
srlg ($h2,$h2,24);
lghi ("%r1",0);
algr ($h1,"%r0");
alcgr ($h2,"%r1");
llgf ("%r0","24($ctx)"); # is_base2_26
lcgr ("%r0","%r0");
xgr ($h0,$d0); # choose between radixes
xgr ($h1,$d1);
xgr ($h2,$d2);
ngr ($h0,"%r0");
ngr ($h1,"%r0");
ngr ($h2,"%r0");
xgr ($h0,$d0);
xgr ($h1,$d1);
xgr ($h2,$d2);
lghi ("%r0",5);
lgr ($d0,$h0);
lgr ($d1,$h1);
algr ($h0,"%r0"); # compare to modulus
alcgr ($h1,"%r1");
alcgr ($h2,"%r1");
srlg ($h2,$h2,2); # did it borrow/carry?
slgr ("%r1",$h2); # 0-$h2>>2
lg ($d2,"0($nonce)"); # load nonce
lg ($ctx,"8($nonce)");
xgr ($h0,$d0);
xgr ($h1,$d1);
ngr ($h0,"%r1");
ngr ($h1,"%r1");
xgr ($h0,$d0);
rllg ($d0,$d2,32); # flip nonce words
xgr ($h1,$d1);
rllg ($d1,$ctx,32);
algr ($h0,$d0); # accumulate nonce
alcgr ($h1,$d1);
strvg ($h0,"0($mac)"); # write little-endian result
strvg ($h1,"8($mac)");
&{$z? \&lmg:\&lm} ("%r6","%r10","6*$SIZE_T($sp)");
br ("%r14");
SIZE ("poly1305_emit",".-poly1305_emit");
}
################
ALIGN (16);
LABEL (".Lconst");
LONG (0x04050607,0x14151617,0x0c0d0e0f,0x1c1d1e1f); # merge odd
LONG (0x07060504,0x03020100,0x17161514,0x13121110); # byte swap masks
LONG (0x0f0e0d0c,0x0b0a0908,0x1f1e1d1c,0x1b1a1918);
LONG (0x00000000,0x09080706,0x00000000,0x19181716);
LONG (0x00000000,0x00000000,0x00000000,0x0c0d0e0f); # magic tail masks
LONG (0x0c0d0e0f,0x00000000,0x00000000,0x00000000);
LONG (0x00000000,0x00000000,0x0c0d0e0f,0x00000000);
LONG (0xffffffff,0x00000000,0xffffffff,0xffffffff);
LONG (0xffffffff,0x00000000,0xffffffff,0x00000000);
LONG (0x00000000,0x00000000,0xffffffff,0x00000000);
STRING ("\"Poly1305 for s390x, CRYPTOGAMS by <appro\@openssl.org>\"");
PERLASM_END();
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