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openssl/crypto/chacha/asm/chacha-ppc.pl
Rich Salz 6aa36e8e5a Add OpenSSL copyright to .pl files 
Reviewed-by: Richard Levitte <levitte@openssl.org>
2016-05-21 08:23:39 -04:00

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#! /usr/bin/env perl
# Copyright 2016 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (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/.
# ====================================================================
#
# October 2015
#
# ChaCha20 for PowerPC/AltiVec.
#
# Performance in cycles per byte out of large buffer.
#
# IALU/gcc-4.x 3xAltiVec+1xIALU
#
# Freescale e300 13.6/+115% -
# PPC74x0 6.81/+310% 4.66
# POWER7 8.62/+61% 4.27
# POWER8 8.70/+51% 3.96
$flavour = shift;
if ($flavour =~ /64/) {
$SIZE_T =8;
$LRSAVE =2*$SIZE_T;
$STU ="stdu";
$POP ="ld";
$PUSH ="std";
$UCMP ="cmpld";
} elsif ($flavour =~ /32/) {
$SIZE_T =4;
$LRSAVE =$SIZE_T;
$STU ="stwu";
$POP ="lwz";
$PUSH ="stw";
$UCMP ="cmplw";
} else { die "nonsense $flavour"; }
$LITTLE_ENDIAN = ($flavour=~/le$/) ? 1 : 0;
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $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 ".shift || die "can't call $xlate: $!";
$LOCALS=6*$SIZE_T;
$FRAME=$LOCALS+64+18*$SIZE_T; # 64 is for local variables
sub AUTOLOAD() # thunk [simplified] x86-style perlasm
{ my $opcode = $AUTOLOAD; $opcode =~ s/.*:://; $opcode =~ s/_/\./;
$code .= "\t$opcode\t".join(',',@_)."\n";
}
my $sp = "r1";
my ($out,$inp,$len,$key,$ctr) = map("r$_",(3..7));
my @x=map("r$_",(16..31));
my @d=map("r$_",(11,12,14,15));
my @t=map("r$_",(7..10));
sub 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));
(
"&add (@x[$a0],@x[$a0],@x[$b0])",
"&add (@x[$a1],@x[$a1],@x[$b1])",
"&add (@x[$a2],@x[$a2],@x[$b2])",
"&add (@x[$a3],@x[$a3],@x[$b3])",
"&xor (@x[$d0],@x[$d0],@x[$a0])",
"&xor (@x[$d1],@x[$d1],@x[$a1])",
"&xor (@x[$d2],@x[$d2],@x[$a2])",
"&xor (@x[$d3],@x[$d3],@x[$a3])",
"&rotlwi (@x[$d0],@x[$d0],16)",
"&rotlwi (@x[$d1],@x[$d1],16)",
"&rotlwi (@x[$d2],@x[$d2],16)",
"&rotlwi (@x[$d3],@x[$d3],16)",
"&add (@x[$c0],@x[$c0],@x[$d0])",
"&add (@x[$c1],@x[$c1],@x[$d1])",
"&add (@x[$c2],@x[$c2],@x[$d2])",
"&add (@x[$c3],@x[$c3],@x[$d3])",
"&xor (@x[$b0],@x[$b0],@x[$c0])",
"&xor (@x[$b1],@x[$b1],@x[$c1])",
"&xor (@x[$b2],@x[$b2],@x[$c2])",
"&xor (@x[$b3],@x[$b3],@x[$c3])",
"&rotlwi (@x[$b0],@x[$b0],12)",
"&rotlwi (@x[$b1],@x[$b1],12)",
"&rotlwi (@x[$b2],@x[$b2],12)",
"&rotlwi (@x[$b3],@x[$b3],12)",
"&add (@x[$a0],@x[$a0],@x[$b0])",
"&add (@x[$a1],@x[$a1],@x[$b1])",
"&add (@x[$a2],@x[$a2],@x[$b2])",
"&add (@x[$a3],@x[$a3],@x[$b3])",
"&xor (@x[$d0],@x[$d0],@x[$a0])",
"&xor (@x[$d1],@x[$d1],@x[$a1])",
"&xor (@x[$d2],@x[$d2],@x[$a2])",
"&xor (@x[$d3],@x[$d3],@x[$a3])",
"&rotlwi (@x[$d0],@x[$d0],8)",
"&rotlwi (@x[$d1],@x[$d1],8)",
"&rotlwi (@x[$d2],@x[$d2],8)",
"&rotlwi (@x[$d3],@x[$d3],8)",
"&add (@x[$c0],@x[$c0],@x[$d0])",
"&add (@x[$c1],@x[$c1],@x[$d1])",
"&add (@x[$c2],@x[$c2],@x[$d2])",
"&add (@x[$c3],@x[$c3],@x[$d3])",
"&xor (@x[$b0],@x[$b0],@x[$c0])",
"&xor (@x[$b1],@x[$b1],@x[$c1])",
"&xor (@x[$b2],@x[$b2],@x[$c2])",
"&xor (@x[$b3],@x[$b3],@x[$c3])",
"&rotlwi (@x[$b0],@x[$b0],7)",
"&rotlwi (@x[$b1],@x[$b1],7)",
"&rotlwi (@x[$b2],@x[$b2],7)",
"&rotlwi (@x[$b3],@x[$b3],7)"
);
}
$code.=<<___;
.machine "any"
.globl .ChaCha20_ctr32_int
.align 5
.ChaCha20_ctr32_int:
__ChaCha20_ctr32_int:
${UCMP}i $len,0
beqlr-
$STU $sp,-$FRAME($sp)
mflr r0
$PUSH r14,`$FRAME-$SIZE_T*18`($sp)
$PUSH r15,`$FRAME-$SIZE_T*17`($sp)
$PUSH r16,`$FRAME-$SIZE_T*16`($sp)
$PUSH r17,`$FRAME-$SIZE_T*15`($sp)
$PUSH r18,`$FRAME-$SIZE_T*14`($sp)
$PUSH r19,`$FRAME-$SIZE_T*13`($sp)
$PUSH r20,`$FRAME-$SIZE_T*12`($sp)
$PUSH r21,`$FRAME-$SIZE_T*11`($sp)
$PUSH r22,`$FRAME-$SIZE_T*10`($sp)
$PUSH r23,`$FRAME-$SIZE_T*9`($sp)
$PUSH r24,`$FRAME-$SIZE_T*8`($sp)
$PUSH r25,`$FRAME-$SIZE_T*7`($sp)
$PUSH r26,`$FRAME-$SIZE_T*6`($sp)
$PUSH r27,`$FRAME-$SIZE_T*5`($sp)
$PUSH r28,`$FRAME-$SIZE_T*4`($sp)
$PUSH r29,`$FRAME-$SIZE_T*3`($sp)
$PUSH r30,`$FRAME-$SIZE_T*2`($sp)
$PUSH r31,`$FRAME-$SIZE_T*1`($sp)
$PUSH r0,`$FRAME+$LRSAVE`($sp)
lwz @d[0],0($ctr) # load counter
lwz @d[1],4($ctr)
lwz @d[2],8($ctr)
lwz @d[3],12($ctr)
bl __ChaCha20_1x
$POP r0,`$FRAME+$LRSAVE`($sp)
$POP r14,`$FRAME-$SIZE_T*18`($sp)
$POP r15,`$FRAME-$SIZE_T*17`($sp)
$POP r16,`$FRAME-$SIZE_T*16`($sp)
$POP r17,`$FRAME-$SIZE_T*15`($sp)
$POP r18,`$FRAME-$SIZE_T*14`($sp)
$POP r19,`$FRAME-$SIZE_T*13`($sp)
$POP r20,`$FRAME-$SIZE_T*12`($sp)
$POP r21,`$FRAME-$SIZE_T*11`($sp)
$POP r22,`$FRAME-$SIZE_T*10`($sp)
$POP r23,`$FRAME-$SIZE_T*9`($sp)
$POP r24,`$FRAME-$SIZE_T*8`($sp)
$POP r25,`$FRAME-$SIZE_T*7`($sp)
$POP r26,`$FRAME-$SIZE_T*6`($sp)
$POP r27,`$FRAME-$SIZE_T*5`($sp)
$POP r28,`$FRAME-$SIZE_T*4`($sp)
$POP r29,`$FRAME-$SIZE_T*3`($sp)
$POP r30,`$FRAME-$SIZE_T*2`($sp)
$POP r31,`$FRAME-$SIZE_T*1`($sp)
mtlr r0
addi $sp,$sp,$FRAME
blr
.long 0
.byte 0,12,4,1,0x80,18,5,0
.long 0
.size .ChaCha20_ctr32_int,.-.ChaCha20_ctr32_int
.align 5
__ChaCha20_1x:
Loop_outer:
lis @x[0],0x6170 # synthesize sigma
lis @x[1],0x3320
lis @x[2],0x7962
lis @x[3],0x6b20
ori @x[0],@x[0],0x7865
ori @x[1],@x[1],0x646e
ori @x[2],@x[2],0x2d32
ori @x[3],@x[3],0x6574
li r0,10 # inner loop counter
lwz @x[4],0($key) # load key
lwz @x[5],4($key)
lwz @x[6],8($key)
lwz @x[7],12($key)
lwz @x[8],16($key)
mr @x[12],@d[0] # copy counter
lwz @x[9],20($key)
mr @x[13],@d[1]
lwz @x[10],24($key)
mr @x[14],@d[2]
lwz @x[11],28($key)
mr @x[15],@d[3]
mr @t[0],@x[4]
mr @t[1],@x[5]
mr @t[2],@x[6]
mr @t[3],@x[7]
mtctr r0
Loop:
___
foreach (&ROUND(0, 4, 8,12)) { eval; }
foreach (&ROUND(0, 5,10,15)) { eval; }
$code.=<<___;
bdnz Loop
subic $len,$len,64 # $len-=64
addi @x[0],@x[0],0x7865 # accumulate key block
addi @x[1],@x[1],0x646e
addi @x[2],@x[2],0x2d32
addi @x[3],@x[3],0x6574
addis @x[0],@x[0],0x6170
addis @x[1],@x[1],0x3320
addis @x[2],@x[2],0x7962
addis @x[3],@x[3],0x6b20
subfe. r0,r0,r0 # borrow?-1:0
add @x[4],@x[4],@t[0]
lwz @t[0],16($key)
add @x[5],@x[5],@t[1]
lwz @t[1],20($key)
add @x[6],@x[6],@t[2]
lwz @t[2],24($key)
add @x[7],@x[7],@t[3]
lwz @t[3],28($key)
add @x[8],@x[8],@t[0]
add @x[9],@x[9],@t[1]
add @x[10],@x[10],@t[2]
add @x[11],@x[11],@t[3]
add @x[12],@x[12],@d[0]
add @x[13],@x[13],@d[1]
add @x[14],@x[14],@d[2]
add @x[15],@x[15],@d[3]
addi @d[0],@d[0],1 # increment counter
___
if (!$LITTLE_ENDIAN) { for($i=0;$i<16;$i++) { # flip byte order
$code.=<<___;
mr @t[$i&3],@x[$i]
rotlwi @x[$i],@x[$i],8
rlwimi @x[$i],@t[$i&3],24,0,7
rlwimi @x[$i],@t[$i&3],24,16,23
___
} }
$code.=<<___;
bne Ltail # $len-=64 borrowed
lwz @t[0],0($inp) # load input, aligned or not
lwz @t[1],4($inp)
${UCMP}i $len,0 # done already?
lwz @t[2],8($inp)
lwz @t[3],12($inp)
xor @x[0],@x[0],@t[0] # xor with input
lwz @t[0],16($inp)
xor @x[1],@x[1],@t[1]
lwz @t[1],20($inp)
xor @x[2],@x[2],@t[2]
lwz @t[2],24($inp)
xor @x[3],@x[3],@t[3]
lwz @t[3],28($inp)
xor @x[4],@x[4],@t[0]
lwz @t[0],32($inp)
xor @x[5],@x[5],@t[1]
lwz @t[1],36($inp)
xor @x[6],@x[6],@t[2]
lwz @t[2],40($inp)
xor @x[7],@x[7],@t[3]
lwz @t[3],44($inp)
xor @x[8],@x[8],@t[0]
lwz @t[0],48($inp)
xor @x[9],@x[9],@t[1]
lwz @t[1],52($inp)
xor @x[10],@x[10],@t[2]
lwz @t[2],56($inp)
xor @x[11],@x[11],@t[3]
lwz @t[3],60($inp)
xor @x[12],@x[12],@t[0]
stw @x[0],0($out) # store output, aligned or not
xor @x[13],@x[13],@t[1]
stw @x[1],4($out)
xor @x[14],@x[14],@t[2]
stw @x[2],8($out)
xor @x[15],@x[15],@t[3]
stw @x[3],12($out)
stw @x[4],16($out)
stw @x[5],20($out)
stw @x[6],24($out)
stw @x[7],28($out)
stw @x[8],32($out)
stw @x[9],36($out)
stw @x[10],40($out)
stw @x[11],44($out)
stw @x[12],48($out)
stw @x[13],52($out)
stw @x[14],56($out)
addi $inp,$inp,64
stw @x[15],60($out)
addi $out,$out,64
bne Loop_outer
blr
.align 4
Ltail:
addi $len,$len,64 # restore tail length
subi $inp,$inp,1 # prepare for *++ptr
subi $out,$out,1
addi @t[0],$sp,$LOCALS-1
mtctr $len
stw @x[0],`$LOCALS+0`($sp) # save whole block to stack
stw @x[1],`$LOCALS+4`($sp)
stw @x[2],`$LOCALS+8`($sp)
stw @x[3],`$LOCALS+12`($sp)
stw @x[4],`$LOCALS+16`($sp)
stw @x[5],`$LOCALS+20`($sp)
stw @x[6],`$LOCALS+24`($sp)
stw @x[7],`$LOCALS+28`($sp)
stw @x[8],`$LOCALS+32`($sp)
stw @x[9],`$LOCALS+36`($sp)
stw @x[10],`$LOCALS+40`($sp)
stw @x[11],`$LOCALS+44`($sp)
stw @x[12],`$LOCALS+48`($sp)
stw @x[13],`$LOCALS+52`($sp)
stw @x[14],`$LOCALS+56`($sp)
stw @x[15],`$LOCALS+60`($sp)
Loop_tail: # byte-by-byte loop
lbzu @d[0],1($inp)
lbzu @x[0],1(@t[0])
xor @d[1],@d[0],@x[0]
stbu @d[1],1($out)
bdnz Loop_tail
stw $sp,`$LOCALS+0`($sp) # wipe block on stack
stw $sp,`$LOCALS+4`($sp)
stw $sp,`$LOCALS+8`($sp)
stw $sp,`$LOCALS+12`($sp)
stw $sp,`$LOCALS+16`($sp)
stw $sp,`$LOCALS+20`($sp)
stw $sp,`$LOCALS+24`($sp)
stw $sp,`$LOCALS+28`($sp)
stw $sp,`$LOCALS+32`($sp)
stw $sp,`$LOCALS+36`($sp)
stw $sp,`$LOCALS+40`($sp)
stw $sp,`$LOCALS+44`($sp)
stw $sp,`$LOCALS+48`($sp)
stw $sp,`$LOCALS+52`($sp)
stw $sp,`$LOCALS+56`($sp)
stw $sp,`$LOCALS+60`($sp)
blr
.long 0
.byte 0,12,0x14,0,0,0,0,0
___
{{{
my ($A0,$B0,$C0,$D0,$A1,$B1,$C1,$D1,$A2,$B2,$C2,$D2,$T0,$T1,$T2) =
map("v$_",(0..14));
my (@K)=map("v$_",(15..20));
my ($FOUR,$sixteen,$twenty4,$twenty,$twelve,$twenty5,$seven) =
map("v$_",(21..27));
my ($inpperm,$outperm,$outmask) = map("v$_",(28..30));
my @D=("v31",$seven,$T0,$T1,$T2);
my $FRAME=$LOCALS+64+13*16+18*$SIZE_T; # 13*16 is for v20-v31 offload
sub VMXROUND {
my $odd = pop;
my ($a,$b,$c,$d,$t)=@_;
(
"&vadduwm ('$a','$a','$b')",
"&vxor ('$d','$d','$a')",
"&vperm ('$d','$d','$d','$sixteen')",
"&vadduwm ('$c','$c','$d')",
"&vxor ('$t','$b','$c')",
"&vsrw ('$b','$t','$twenty')",
"&vslw ('$t','$t','$twelve')",
"&vor ('$b','$b','$t')",
"&vadduwm ('$a','$a','$b')",
"&vxor ('$d','$d','$a')",
"&vperm ('$d','$d','$d','$twenty4')",
"&vadduwm ('$c','$c','$d')",
"&vxor ('$t','$b','$c')",
"&vsrw ('$b','$t','$twenty5')",
"&vslw ('$t','$t','$seven')",
"&vor ('$b','$b','$t')",
"&vsldoi ('$c','$c','$c',8)",
"&vsldoi ('$b','$b','$b',$odd?4:12)",
"&vsldoi ('$d','$d','$d',$odd?12:4)"
);
}
$code.=<<___;
.globl .ChaCha20_ctr32_vmx
.align 5
.ChaCha20_ctr32_vmx:
${UCMP}i $len,256
blt __ChaCha20_ctr32_int
$STU $sp,-$FRAME($sp)
mflr r0
li r10,`15+$LOCALS+64`
li r11,`31+$LOCALS+64`
mfspr r12,256
stvx v20,r10,$sp
addi r10,r10,32
stvx v21,r11,$sp
addi r11,r11,32
stvx v22,r10,$sp
addi r10,r10,32
stvx v23,r11,$sp
addi r11,r11,32
stvx v24,r10,$sp
addi r10,r10,32
stvx v25,r11,$sp
addi r11,r11,32
stvx v26,r10,$sp
addi r10,r10,32
stvx v27,r11,$sp
addi r11,r11,32
stvx v28,r10,$sp
addi r10,r10,32
stvx v29,r11,$sp
addi r11,r11,32
stvx v30,r10,$sp
stvx v31,r11,$sp
stw r12,`$FRAME-$SIZE_T*18-4`($sp) # save vrsave
$PUSH r14,`$FRAME-$SIZE_T*18`($sp)
$PUSH r15,`$FRAME-$SIZE_T*17`($sp)
$PUSH r16,`$FRAME-$SIZE_T*16`($sp)
$PUSH r17,`$FRAME-$SIZE_T*15`($sp)
$PUSH r18,`$FRAME-$SIZE_T*14`($sp)
$PUSH r19,`$FRAME-$SIZE_T*13`($sp)
$PUSH r20,`$FRAME-$SIZE_T*12`($sp)
$PUSH r21,`$FRAME-$SIZE_T*11`($sp)
$PUSH r22,`$FRAME-$SIZE_T*10`($sp)
$PUSH r23,`$FRAME-$SIZE_T*9`($sp)
$PUSH r24,`$FRAME-$SIZE_T*8`($sp)
$PUSH r25,`$FRAME-$SIZE_T*7`($sp)
$PUSH r26,`$FRAME-$SIZE_T*6`($sp)
$PUSH r27,`$FRAME-$SIZE_T*5`($sp)
$PUSH r28,`$FRAME-$SIZE_T*4`($sp)
$PUSH r29,`$FRAME-$SIZE_T*3`($sp)
$PUSH r30,`$FRAME-$SIZE_T*2`($sp)
$PUSH r31,`$FRAME-$SIZE_T*1`($sp)
li r12,-1
$PUSH r0, `$FRAME+$LRSAVE`($sp)
mtspr 256,r12 # preserve all AltiVec registers
bl Lconsts # returns pointer Lsigma in r12
li @x[0],16
li @x[1],32
li @x[2],48
li @x[3],64
li @x[4],31 # 31 is not a typo
li @x[5],15 # nor is 15
lvx @K[1],0,$key # load key
?lvsr $T0,0,$key # prepare unaligned load
lvx @K[2],@x[0],$key
lvx @D[0],@x[4],$key
lvx @K[3],0,$ctr # load counter
?lvsr $T1,0,$ctr # prepare unaligned load
lvx @D[1],@x[5],$ctr
lvx @K[0],0,r12 # load constants
lvx @K[5],@x[0],r12 # one
lvx $FOUR,@x[1],r12
lvx $sixteen,@x[2],r12
lvx $twenty4,@x[3],r12
?vperm @K[1],@K[2],@K[1],$T0 # align key
?vperm @K[2],@D[0],@K[2],$T0
?vperm @K[3],@D[1],@K[3],$T1 # align counter
lwz @d[0],0($ctr) # load counter to GPR
lwz @d[1],4($ctr)
vadduwm @K[3],@K[3],@K[5] # adjust AltiVec counter
lwz @d[2],8($ctr)
vadduwm @K[4],@K[3],@K[5]
lwz @d[3],12($ctr)
vadduwm @K[5],@K[4],@K[5]
vspltisw $twenty,-12 # synthesize constants
vspltisw $twelve,12
vspltisw $twenty5,-7
#vspltisw $seven,7 # synthesized in the loop
vxor $T0,$T0,$T0 # 0x00..00
vspltisw $outmask,-1 # 0xff..ff
?lvsr $inpperm,0,$inp # prepare for unaligned load
?lvsl $outperm,0,$out # prepare for unaligned store
?vperm $outmask,$outmask,$T0,$outperm
be?lvsl $T0,0,@x[0] # 0x00..0f
be?vspltisb $T1,3 # 0x03..03
be?vxor $T0,$T0,$T1 # swap bytes within words
be?vxor $outperm,$outperm,$T1
be?vperm $inpperm,$inpperm,$inpperm,$T0
b Loop_outer_vmx
.align 4
Loop_outer_vmx:
lis @x[0],0x6170 # synthesize sigma
lis @x[1],0x3320
vmr $A0,@K[0]
lis @x[2],0x7962
lis @x[3],0x6b20
vmr $A1,@K[0]
ori @x[0],@x[0],0x7865
ori @x[1],@x[1],0x646e
vmr $A2,@K[0]
ori @x[2],@x[2],0x2d32
ori @x[3],@x[3],0x6574
vmr $B0,@K[1]
li r0,10 # inner loop counter
lwz @x[4],0($key) # load key to GPR
vmr $B1,@K[1]
lwz @x[5],4($key)
vmr $B2,@K[1]
lwz @x[6],8($key)
vmr $C0,@K[2]
lwz @x[7],12($key)
vmr $C1,@K[2]
lwz @x[8],16($key)
vmr $C2,@K[2]
mr @x[12],@d[0] # copy GPR counter
lwz @x[9],20($key)
vmr $D0,@K[3]
mr @x[13],@d[1]
lwz @x[10],24($key)
vmr $D1,@K[4]
mr @x[14],@d[2]
lwz @x[11],28($key)
vmr $D2,@K[5]
mr @x[15],@d[3]
mr @t[0],@x[4]
mr @t[1],@x[5]
mr @t[2],@x[6]
mr @t[3],@x[7]
vspltisw $seven,7
mtctr r0
nop
Loop_vmx:
___
my @thread0=&VMXROUND($A0,$B0,$C0,$D0,$T0,0);
my @thread1=&VMXROUND($A1,$B1,$C1,$D1,$T1,0);
my @thread2=&VMXROUND($A2,$B2,$C2,$D2,$T2,0);
my @thread3=&ROUND(0,4,8,12);
foreach (@thread0) {
eval; eval(shift(@thread3));
eval(shift(@thread1)); eval(shift(@thread3));
eval(shift(@thread2)); eval(shift(@thread3));
}
@thread0=&VMXROUND($A0,$B0,$C0,$D0,$T0,1);
@thread1=&VMXROUND($A1,$B1,$C1,$D1,$T1,1);
@thread2=&VMXROUND($A2,$B2,$C2,$D2,$T2,1);
@thread3=&ROUND(0,5,10,15);
foreach (@thread0) {
eval; eval(shift(@thread3));
eval(shift(@thread1)); eval(shift(@thread3));
eval(shift(@thread2)); eval(shift(@thread3));
}
$code.=<<___;
bdnz Loop_vmx
subi $len,$len,256 # $len-=256
addi @x[0],@x[0],0x7865 # accumulate key block
addi @x[1],@x[1],0x646e
addi @x[2],@x[2],0x2d32
addi @x[3],@x[3],0x6574
addis @x[0],@x[0],0x6170
addis @x[1],@x[1],0x3320
addis @x[2],@x[2],0x7962
addis @x[3],@x[3],0x6b20
add @x[4],@x[4],@t[0]
lwz @t[0],16($key)
add @x[5],@x[5],@t[1]
lwz @t[1],20($key)
add @x[6],@x[6],@t[2]
lwz @t[2],24($key)
add @x[7],@x[7],@t[3]
lwz @t[3],28($key)
add @x[8],@x[8],@t[0]
add @x[9],@x[9],@t[1]
add @x[10],@x[10],@t[2]
add @x[11],@x[11],@t[3]
add @x[12],@x[12],@d[0]
add @x[13],@x[13],@d[1]
add @x[14],@x[14],@d[2]
add @x[15],@x[15],@d[3]
vadduwm $A0,$A0,@K[0] # accumulate key block
vadduwm $A1,$A1,@K[0]
vadduwm $A2,$A2,@K[0]
vadduwm $B0,$B0,@K[1]
vadduwm $B1,$B1,@K[1]
vadduwm $B2,$B2,@K[1]
vadduwm $C0,$C0,@K[2]
vadduwm $C1,$C1,@K[2]
vadduwm $C2,$C2,@K[2]
vadduwm $D0,$D0,@K[3]
vadduwm $D1,$D1,@K[4]
vadduwm $D2,$D2,@K[5]
addi @d[0],@d[0],4 # increment counter
vadduwm @K[3],@K[3],$FOUR
vadduwm @K[4],@K[4],$FOUR
vadduwm @K[5],@K[5],$FOUR
___
if (!$LITTLE_ENDIAN) { for($i=0;$i<16;$i++) { # flip byte order
$code.=<<___;
mr @t[$i&3],@x[$i]
rotlwi @x[$i],@x[$i],8
rlwimi @x[$i],@t[$i&3],24,0,7
rlwimi @x[$i],@t[$i&3],24,16,23
___
} }
$code.=<<___;
lwz @t[0],0($inp) # load input, aligned or not
lwz @t[1],4($inp)
lwz @t[2],8($inp)
lwz @t[3],12($inp)
xor @x[0],@x[0],@t[0] # xor with input
lwz @t[0],16($inp)
xor @x[1],@x[1],@t[1]
lwz @t[1],20($inp)
xor @x[2],@x[2],@t[2]
lwz @t[2],24($inp)
xor @x[3],@x[3],@t[3]
lwz @t[3],28($inp)
xor @x[4],@x[4],@t[0]
lwz @t[0],32($inp)
xor @x[5],@x[5],@t[1]
lwz @t[1],36($inp)
xor @x[6],@x[6],@t[2]
lwz @t[2],40($inp)
xor @x[7],@x[7],@t[3]
lwz @t[3],44($inp)
xor @x[8],@x[8],@t[0]
lwz @t[0],48($inp)
xor @x[9],@x[9],@t[1]
lwz @t[1],52($inp)
xor @x[10],@x[10],@t[2]
lwz @t[2],56($inp)
xor @x[11],@x[11],@t[3]
lwz @t[3],60($inp)
xor @x[12],@x[12],@t[0]
stw @x[0],0($out) # store output, aligned or not
xor @x[13],@x[13],@t[1]
stw @x[1],4($out)
xor @x[14],@x[14],@t[2]
stw @x[2],8($out)
xor @x[15],@x[15],@t[3]
stw @x[3],12($out)
addi $inp,$inp,64
stw @x[4],16($out)
li @t[0],16
stw @x[5],20($out)
li @t[1],32
stw @x[6],24($out)
li @t[2],48
stw @x[7],28($out)
li @t[3],64
stw @x[8],32($out)
stw @x[9],36($out)
stw @x[10],40($out)
stw @x[11],44($out)
stw @x[12],48($out)
stw @x[13],52($out)
stw @x[14],56($out)
stw @x[15],60($out)
addi $out,$out,64
lvx @D[0],0,$inp # load input
lvx @D[1],@t[0],$inp
lvx @D[2],@t[1],$inp
lvx @D[3],@t[2],$inp
lvx @D[4],@t[3],$inp
addi $inp,$inp,64
?vperm @D[0],@D[1],@D[0],$inpperm # align input
?vperm @D[1],@D[2],@D[1],$inpperm
?vperm @D[2],@D[3],@D[2],$inpperm
?vperm @D[3],@D[4],@D[3],$inpperm
vxor $A0,$A0,@D[0] # xor with input
vxor $B0,$B0,@D[1]
lvx @D[1],@t[0],$inp # keep loading input
vxor $C0,$C0,@D[2]
lvx @D[2],@t[1],$inp
vxor $D0,$D0,@D[3]
lvx @D[3],@t[2],$inp
lvx @D[0],@t[3],$inp
addi $inp,$inp,64
li @t[3],63 # 63 is not a typo
vperm $A0,$A0,$A0,$outperm # pre-misalign output
vperm $B0,$B0,$B0,$outperm
vperm $C0,$C0,$C0,$outperm
vperm $D0,$D0,$D0,$outperm
?vperm @D[4],@D[1],@D[4],$inpperm # align input
?vperm @D[1],@D[2],@D[1],$inpperm
?vperm @D[2],@D[3],@D[2],$inpperm
?vperm @D[3],@D[0],@D[3],$inpperm
vxor $A1,$A1,@D[4]
vxor $B1,$B1,@D[1]
lvx @D[1],@t[0],$inp # keep loading input
vxor $C1,$C1,@D[2]
lvx @D[2],@t[1],$inp
vxor $D1,$D1,@D[3]
lvx @D[3],@t[2],$inp
lvx @D[4],@t[3],$inp # redundant in aligned case
addi $inp,$inp,64
vperm $A1,$A1,$A1,$outperm # pre-misalign output
vperm $B1,$B1,$B1,$outperm
vperm $C1,$C1,$C1,$outperm
vperm $D1,$D1,$D1,$outperm
?vperm @D[0],@D[1],@D[0],$inpperm # align input
?vperm @D[1],@D[2],@D[1],$inpperm
?vperm @D[2],@D[3],@D[2],$inpperm
?vperm @D[3],@D[4],@D[3],$inpperm
vxor $A2,$A2,@D[0]
vxor $B2,$B2,@D[1]
vxor $C2,$C2,@D[2]
vxor $D2,$D2,@D[3]
vperm $A2,$A2,$A2,$outperm # pre-misalign output
vperm $B2,$B2,$B2,$outperm
vperm $C2,$C2,$C2,$outperm
vperm $D2,$D2,$D2,$outperm
andi. @x[1],$out,15 # is $out aligned?
mr @x[0],$out
vsel @D[0],$A0,$B0,$outmask # collect pre-misaligned output
vsel @D[1],$B0,$C0,$outmask
vsel @D[2],$C0,$D0,$outmask
vsel @D[3],$D0,$A1,$outmask
vsel $B0,$A1,$B1,$outmask
vsel $C0,$B1,$C1,$outmask
vsel $D0,$C1,$D1,$outmask
vsel $A1,$D1,$A2,$outmask
vsel $B1,$A2,$B2,$outmask
vsel $C1,$B2,$C2,$outmask
vsel $D1,$C2,$D2,$outmask
#stvx $A0,0,$out # take it easy on the edges
stvx @D[0],@t[0],$out # store output
stvx @D[1],@t[1],$out
stvx @D[2],@t[2],$out
addi $out,$out,64
stvx @D[3],0,$out
stvx $B0,@t[0],$out
stvx $C0,@t[1],$out
stvx $D0,@t[2],$out
addi $out,$out,64
stvx $A1,0,$out
stvx $B1,@t[0],$out
stvx $C1,@t[1],$out
stvx $D1,@t[2],$out
addi $out,$out,64
beq Laligned_vmx
sub @x[2],$out,@x[1] # in misaligned case edges
li @x[3],0 # are written byte-by-byte
Lunaligned_tail_vmx:
stvebx $D2,@x[3],@x[2]
addi @x[3],@x[3],1
cmpw @x[3],@x[1]
bne Lunaligned_tail_vmx
sub @x[2],@x[0],@x[1]
Lunaligned_head_vmx:
stvebx $A0,@x[1],@x[2]
cmpwi @x[1],15
addi @x[1],@x[1],1
bne Lunaligned_head_vmx
${UCMP}i $len,255 # done with 256-byte blocks yet?
bgt Loop_outer_vmx
b Ldone_vmx
.align 4
Laligned_vmx:
stvx $A0,0,@x[0] # head hexaword was not stored
${UCMP}i $len,255 # done with 256-byte blocks yet?
bgt Loop_outer_vmx
nop
Ldone_vmx:
${UCMP}i $len,0 # done yet?
bnel __ChaCha20_1x
lwz r12,`$FRAME-$SIZE_T*18-4`($sp) # pull vrsave
li r10,`15+$LOCALS+64`
li r11,`31+$LOCALS+64`
mtspr 256,r12 # restore vrsave
lvx v20,r10,$sp
addi r10,r10,32
lvx v21,r11,$sp
addi r11,r11,32
lvx v22,r10,$sp
addi r10,r10,32
lvx v23,r11,$sp
addi r11,r11,32
lvx v24,r10,$sp
addi r10,r10,32
lvx v25,r11,$sp
addi r11,r11,32
lvx v26,r10,$sp
addi r10,r10,32
lvx v27,r11,$sp
addi r11,r11,32
lvx v28,r10,$sp
addi r10,r10,32
lvx v29,r11,$sp
addi r11,r11,32
lvx v30,r10,$sp
lvx v31,r11,$sp
$POP r0, `$FRAME+$LRSAVE`($sp)
$POP r14,`$FRAME-$SIZE_T*18`($sp)
$POP r15,`$FRAME-$SIZE_T*17`($sp)
$POP r16,`$FRAME-$SIZE_T*16`($sp)
$POP r17,`$FRAME-$SIZE_T*15`($sp)
$POP r18,`$FRAME-$SIZE_T*14`($sp)
$POP r19,`$FRAME-$SIZE_T*13`($sp)
$POP r20,`$FRAME-$SIZE_T*12`($sp)
$POP r21,`$FRAME-$SIZE_T*11`($sp)
$POP r22,`$FRAME-$SIZE_T*10`($sp)
$POP r23,`$FRAME-$SIZE_T*9`($sp)
$POP r24,`$FRAME-$SIZE_T*8`($sp)
$POP r25,`$FRAME-$SIZE_T*7`($sp)
$POP r26,`$FRAME-$SIZE_T*6`($sp)
$POP r27,`$FRAME-$SIZE_T*5`($sp)
$POP r28,`$FRAME-$SIZE_T*4`($sp)
$POP r29,`$FRAME-$SIZE_T*3`($sp)
$POP r30,`$FRAME-$SIZE_T*2`($sp)
$POP r31,`$FRAME-$SIZE_T*1`($sp)
mtlr r0
addi $sp,$sp,$FRAME
blr
.long 0
.byte 0,12,0x04,1,0x80,18,5,0
.long 0
.size .ChaCha20_ctr32_vmx,.-.ChaCha20_ctr32_vmx
.align 5
Lconsts:
mflr r0
bcl 20,31,\$+4
mflr r12 #vvvvv "distance between . and _vpaes_consts
addi r12,r12,`64-8`
mtlr r0
blr
.long 0
.byte 0,12,0x14,0,0,0,0,0
.space `64-9*4`
Lsigma:
.long 0x61707865,0x3320646e,0x79622d32,0x6b206574
.long 1,0,0,0
.long 4,0,0,0
___
$code.=<<___ if ($LITTLE_ENDIAN);
.long 0x0e0f0c0d,0x0a0b0809,0x06070405,0x02030001
.long 0x0d0e0f0c,0x090a0b08,0x05060704,0x01020300
___
$code.=<<___ if (!$LITTLE_ENDIAN); # flipped words
.long 0x02030001,0x06070405,0x0a0b0809,0x0e0f0c0d
.long 0x01020300,0x05060704,0x090a0b08,0x0d0e0f0c
___
$code.=<<___;
.asciz "ChaCha20 for PowerPC/AltiVec, CRYPTOGAMS by <appro\@openssl.org>"
.align 2
___
}}}
foreach (split("\n",$code)) {
s/\`([^\`]*)\`/eval $1/ge;
# instructions prefixed with '?' are endian-specific and need
# to be adjusted accordingly...
if ($flavour !~ /le$/) { # big-endian
s/be\?// or
s/le\?/#le#/ or
s/\?lvsr/lvsl/ or
s/\?lvsl/lvsr/ or
s/\?(vperm\s+v[0-9]+,\s*)(v[0-9]+,\s*)(v[0-9]+,\s*)(v[0-9]+)/$1$3$2$4/ or
s/(vsldoi\s+v[0-9]+,\s*)(v[0-9]+,)\s*(v[0-9]+,\s*)([0-9]+)/$1$3$2 16-$4/;
} else { # little-endian
s/le\?// or
s/be\?/#be#/ or
s/\?([a-z]+)/$1/;
}
print $_,"\n";
}
close STDOUT;
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