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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/.
# ====================================================================
#
# This module implements Poly1305 hash for PowerPC.
#
# June 2015
#
# Numbers are cycles per processed byte with poly1305_blocks alone,
# and improvement coefficients relative to gcc-generated code.
#
# -m32 -m64
#
# Freescale e300 14.8/+80% -
# PPC74x0 7.60/+60% -
# PPC970 7.00/+114% 3.51/+205%
# POWER7 3.75/+260% 1.93/+100%
# POWER8 - 2.03/+200%
# POWER9 - 1.56/+150%
#
# Do we need floating-point implementation for PPC? Results presented
# in poly1305_ieee754.c are tricky to compare to, because they are for
# compiler-generated code. On the other hand it's known that floating-
# point performance can be dominated by FPU latency, which means that
# there is limit even for ideally optimized (and even vectorized) code.
# And this limit is estimated to be higher than above -m64 results. Or
# in other words floating-point implementation can be meaningful to
# consider only in 32-bit application context. We probably have to
# recognize that 32-bit builds are getting less popular on high-end
# systems and therefore tend to target embedded ones, which might not
# even have FPU...
#
# On side note, Power ISA 2.07 enables vector base 2^26 implementation,
# and POWER8 might have capacity to break 1.0 cycle per byte barrier...
$flavour = shift;
if ($flavour =~ /64/) {
$SIZE_T =8;
$LRSAVE =2*$SIZE_T;
$UCMP ="cmpld";
$STU ="stdu";
$POP ="ld";
$PUSH ="std";
} elsif ($flavour =~ /32/) {
$SIZE_T =4;
$LRSAVE =$SIZE_T;
$UCMP ="cmplw";
$STU ="stwu";
$POP ="lwz";
$PUSH ="stw";
} else { die "nonsense $flavour"; }
# Define endianness based on flavour
# i.e.: linux64le
$LITTLE_ENDIAN = ($flavour=~/le$/) ? $SIZE_T : 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: $!";
$FRAME=24*$SIZE_T;
$sp="r1";
my ($ctx,$inp,$len,$padbit) = map("r$_",(3..6));
my ($mac,$nonce)=($inp,$len);
my $mask = "r0";
$code=<<___;
.machine "any"
.text
___
if ($flavour =~ /64/) {
###############################################################################
# base 2^64 implementation
my ($h0,$h1,$h2,$d0,$d1,$d2, $r0,$r1,$s1, $t0,$t1) = map("r$_",(7..12,27..31));
$code.=<<___;
.globl .poly1305_init_int
.align 4
.poly1305_init_int:
xor r0,r0,r0
std r0,0($ctx) # zero hash value
std r0,8($ctx)
std r0,16($ctx)
$UCMP $inp,r0
beq- Lno_key
___
$code.=<<___ if ($LITTLE_ENDIAN);
ld $d0,0($inp) # load key material
ld $d1,8($inp)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
li $h0,4
lwbrx $d0,0,$inp # load key material
li $d1,8
lwbrx $h0,$h0,$inp
li $h1,12
lwbrx $d1,$d1,$inp
lwbrx $h1,$h1,$inp
insrdi $d0,$h0,32,0
insrdi $d1,$h1,32,0
___
$code.=<<___;
lis $h1,0xfff # 0x0fff0000
ori $h1,$h1,0xfffc # 0x0ffffffc
insrdi $h1,$h1,32,0 # 0x0ffffffc0ffffffc
ori $h0,$h1,3 # 0x0ffffffc0fffffff
and $d0,$d0,$h0
and $d1,$d1,$h1
std $d0,32($ctx) # store key
std $d1,40($ctx)
Lno_key:
xor r3,r3,r3
blr
.long 0
.byte 0,12,0x14,0,0,0,2,0
.size .poly1305_init_int,.-.poly1305_init_int
.globl .poly1305_blocks
.align 4
.poly1305_blocks:
srdi. $len,$len,4
beq- Labort
$STU $sp,-$FRAME($sp)
mflr r0
$PUSH r27,`$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)
ld $r0,32($ctx) # load key
ld $r1,40($ctx)
ld $h0,0($ctx) # load hash value
ld $h1,8($ctx)
ld $h2,16($ctx)
srdi $s1,$r1,2
mtctr $len
add $s1,$s1,$r1 # s1 = r1 + r1>>2
li $mask,3
b Loop
.align 4
Loop:
___
$code.=<<___ if ($LITTLE_ENDIAN);
ld $t0,0($inp) # load input
ld $t1,8($inp)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
li $d0,4
lwbrx $t0,0,$inp # load input
li $t1,8
lwbrx $d0,$d0,$inp
li $d1,12
lwbrx $t1,$t1,$inp
lwbrx $d1,$d1,$inp
insrdi $t0,$d0,32,0
insrdi $t1,$d1,32,0
___
$code.=<<___;
addi $inp,$inp,16
addc $h0,$h0,$t0 # accumulate input
adde $h1,$h1,$t1
mulld $d0,$h0,$r0 # h0*r0
mulhdu $d1,$h0,$r0
adde $h2,$h2,$padbit
mulld $t0,$h1,$s1 # h1*5*r1
mulhdu $t1,$h1,$s1
addc $d0,$d0,$t0
adde $d1,$d1,$t1
mulld $t0,$h0,$r1 # h0*r1
mulhdu $d2,$h0,$r1
addc $d1,$d1,$t0
addze $d2,$d2
mulld $t0,$h1,$r0 # h1*r0
mulhdu $t1,$h1,$r0
addc $d1,$d1,$t0
adde $d2,$d2,$t1
mulld $t0,$h2,$s1 # h2*5*r1
mulld $t1,$h2,$r0 # h2*r0
addc $d1,$d1,$t0
adde $d2,$d2,$t1
andc $t0,$d2,$mask # final reduction step
and $h2,$d2,$mask
srdi $t1,$t0,2
add $t0,$t0,$t1
addc $h0,$d0,$t0
addze $h1,$d1
addze $h2,$h2
bdnz Loop
std $h0,0($ctx) # store hash value
std $h1,8($ctx)
std $h2,16($ctx)
$POP r27,`$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)
addi $sp,$sp,$FRAME
Labort:
blr
.long 0
.byte 0,12,4,1,0x80,5,4,0
.size .poly1305_blocks,.-.poly1305_blocks
.globl .poly1305_emit
.align 4
.poly1305_emit:
ld $h0,0($ctx) # load hash
ld $h1,8($ctx)
ld $h2,16($ctx)
ld $padbit,0($nonce) # load nonce
ld $nonce,8($nonce)
addic $d0,$h0,5 # compare to modulus
addze $d1,$h1
addze $d2,$h2
srdi $mask,$d2,2 # did it carry/borrow?
neg $mask,$mask
andc $h0,$h0,$mask
and $d0,$d0,$mask
andc $h1,$h1,$mask
and $d1,$d1,$mask
or $h0,$h0,$d0
or $h1,$h1,$d1
___
$code.=<<___ if (!$LITTLE_ENDIAN);
rotldi $padbit,$padbit,32 # flip nonce words
rotldi $nonce,$nonce,32
___
$code.=<<___;
addc $h0,$h0,$padbit # accumulate nonce
adde $h1,$h1,$nonce
___
$code.=<<___ if ($LITTLE_ENDIAN);
std $h0,0($mac) # write result
std $h1,8($mac)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
extrdi r0,$h0,32,0
li $d0,4
stwbrx $h0,0,$mac # write result
extrdi $h0,$h1,32,0
li $d1,8
stwbrx r0,$d0,$mac
li $d2,12
stwbrx $h1,$d1,$mac
stwbrx $h0,$d2,$mac
___
$code.=<<___;
blr
.long 0
.byte 0,12,0x14,0,0,0,3,0
.size .poly1305_emit,.-.poly1305_emit
___
} else {
###############################################################################
# base 2^32 implementation
my ($h0,$h1,$h2,$h3,$h4, $r0,$r1,$r2,$r3, $s1,$s2,$s3,
$t0,$t1,$t2,$t3, $D0,$D1,$D2,$D3, $d0,$d1,$d2,$d3
) = map("r$_",(7..12,14..31));
$code.=<<___;
.globl .poly1305_init_int
.align 4
.poly1305_init_int:
xor r0,r0,r0
stw r0,0($ctx) # zero hash value
stw r0,4($ctx)
stw r0,8($ctx)
stw r0,12($ctx)
stw r0,16($ctx)
$UCMP $inp,r0
beq- Lno_key
___
$code.=<<___ if ($LITTLE_ENDIAN);
lw $h0,0($inp) # load key material
lw $h1,4($inp)
lw $h2,8($inp)
lw $h3,12($inp)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
li $h1,4
lwbrx $h0,0,$inp # load key material
li $h2,8
lwbrx $h1,$h1,$inp
li $h3,12
lwbrx $h2,$h2,$inp
lwbrx $h3,$h3,$inp
___
$code.=<<___;
lis $mask,0xf000 # 0xf0000000
li $r0,-4
andc $r0,$r0,$mask # 0x0ffffffc
andc $h0,$h0,$mask
and $h1,$h1,$r0
and $h2,$h2,$r0
and $h3,$h3,$r0
stw $h0,32($ctx) # store key
stw $h1,36($ctx)
stw $h2,40($ctx)
stw $h3,44($ctx)
Lno_key:
xor r3,r3,r3
blr
.long 0
.byte 0,12,0x14,0,0,0,2,0
.size .poly1305_init_int,.-.poly1305_init_int
.globl .poly1305_blocks
.align 4
.poly1305_blocks:
srwi. $len,$len,4
beq- Labort
$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 $r0,32($ctx) # load key
lwz $r1,36($ctx)
lwz $r2,40($ctx)
lwz $r3,44($ctx)
lwz $h0,0($ctx) # load hash value
lwz $h1,4($ctx)
lwz $h2,8($ctx)
lwz $h3,12($ctx)
lwz $h4,16($ctx)
srwi $s1,$r1,2
srwi $s2,$r2,2
srwi $s3,$r3,2
add $s1,$s1,$r1 # si = ri + ri>>2
add $s2,$s2,$r2
add $s3,$s3,$r3
mtctr $len
li $mask,3
b Loop
.align 4
Loop:
___
$code.=<<___ if ($LITTLE_ENDIAN);
lwz $d0,0($inp) # load input
lwz $d1,4($inp)
lwz $d2,8($inp)
lwz $d3,12($inp)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
li $d1,4
lwbrx $d0,0,$inp # load input
li $d2,8
lwbrx $d1,$d1,$inp
li $d3,12
lwbrx $d2,$d2,$inp
lwbrx $d3,$d3,$inp
___
$code.=<<___;
addi $inp,$inp,16
addc $h0,$h0,$d0 # accumulate input
adde $h1,$h1,$d1
adde $h2,$h2,$d2
mullw $d0,$h0,$r0 # h0*r0
mulhwu $D0,$h0,$r0
mullw $d1,$h0,$r1 # h0*r1
mulhwu $D1,$h0,$r1
mullw $d2,$h0,$r2 # h0*r2
mulhwu $D2,$h0,$r2
adde $h3,$h3,$d3
adde $h4,$h4,$padbit
mullw $d3,$h0,$r3 # h0*r3
mulhwu $D3,$h0,$r3
mullw $t0,$h1,$s3 # h1*s3
mulhwu $t1,$h1,$s3
mullw $t2,$h1,$r0 # h1*r0
mulhwu $t3,$h1,$r0
addc $d0,$d0,$t0
adde $D0,$D0,$t1
mullw $t0,$h1,$r1 # h1*r1
mulhwu $t1,$h1,$r1
addc $d1,$d1,$t2
adde $D1,$D1,$t3
mullw $t2,$h1,$r2 # h1*r2
mulhwu $t3,$h1,$r2
addc $d2,$d2,$t0
adde $D2,$D2,$t1
mullw $t0,$h2,$s2 # h2*s2
mulhwu $t1,$h2,$s2
addc $d3,$d3,$t2
adde $D3,$D3,$t3
mullw $t2,$h2,$s3 # h2*s3
mulhwu $t3,$h2,$s3
addc $d0,$d0,$t0
adde $D0,$D0,$t1
mullw $t0,$h2,$r0 # h2*r0
mulhwu $t1,$h2,$r0
addc $d1,$d1,$t2
adde $D1,$D1,$t3
mullw $t2,$h2,$r1 # h2*r1
mulhwu $t3,$h2,$r1
addc $d2,$d2,$t0
adde $D2,$D2,$t1
mullw $t0,$h3,$s1 # h3*s1
mulhwu $t1,$h3,$s1
addc $d3,$d3,$t2
adde $D3,$D3,$t3
mullw $t2,$h3,$s2 # h3*s2
mulhwu $t3,$h3,$s2
addc $d0,$d0,$t0
adde $D0,$D0,$t1
mullw $t0,$h3,$s3 # h3*s3
mulhwu $t1,$h3,$s3
addc $d1,$d1,$t2
adde $D1,$D1,$t3
mullw $t2,$h3,$r0 # h3*r0
mulhwu $t3,$h3,$r0
addc $d2,$d2,$t0
adde $D2,$D2,$t1
mullw $t0,$h4,$s1 # h4*s1
addc $d3,$d3,$t2
adde $D3,$D3,$t3
addc $d1,$d1,$t0
mullw $t1,$h4,$s2 # h4*s2
addze $D1,$D1
addc $d2,$d2,$t1
addze $D2,$D2
mullw $t2,$h4,$s3 # h4*s3
addc $d3,$d3,$t2
addze $D3,$D3
mullw $h4,$h4,$r0 # h4*r0
addc $h1,$d1,$D0
adde $h2,$d2,$D1
adde $h3,$d3,$D2
adde $h4,$h4,$D3
andc $D0,$h4,$mask # final reduction step
and $h4,$h4,$mask
srwi $D1,$D0,2
add $D0,$D0,$D1
addc $h0,$d0,$D0
addze $h1,$h1
addze $h2,$h2
addze $h3,$h3
addze $h4,$h4
bdnz Loop
stw $h0,0($ctx) # store hash value
stw $h1,4($ctx)
stw $h2,8($ctx)
stw $h3,12($ctx)
stw $h4,16($ctx)
$POP r14,`$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)
addi $sp,$sp,$FRAME
Labort:
blr
.long 0
.byte 0,12,4,1,0x80,18,4,0
.size .poly1305_blocks,.-.poly1305_blocks
.globl .poly1305_emit
.align 4
.poly1305_emit:
$STU $sp,-$FRAME($sp)
mflr r0
$PUSH r28,`$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 $h0,0($ctx) # load hash
lwz $h1,4($ctx)
lwz $h2,8($ctx)
lwz $h3,12($ctx)
lwz $h4,16($ctx)
addic $d0,$h0,5 # compare to modulus
addze $d1,$h1
addze $d2,$h2
addze $d3,$h3
addze $mask,$h4
srwi $mask,$mask,2 # did it carry/borrow?
neg $mask,$mask
andc $h0,$h0,$mask
and $d0,$d0,$mask
andc $h1,$h1,$mask
and $d1,$d1,$mask
or $h0,$h0,$d0
lwz $d0,0($nonce) # load nonce
andc $h2,$h2,$mask
and $d2,$d2,$mask
or $h1,$h1,$d1
lwz $d1,4($nonce)
andc $h3,$h3,$mask
and $d3,$d3,$mask
or $h2,$h2,$d2
lwz $d2,8($nonce)
or $h3,$h3,$d3
lwz $d3,12($nonce)
addc $h0,$h0,$d0 # accumulate nonce
adde $h1,$h1,$d1
adde $h2,$h2,$d2
adde $h3,$h3,$d3
___
$code.=<<___ if ($LITTLE_ENDIAN);
stw $h0,0($mac) # write result
stw $h1,4($mac)
stw $h2,8($mac)
stw $h3,12($mac)
___
$code.=<<___ if (!$LITTLE_ENDIAN);
li $d1,4
stwbrx $h0,0,$mac # write result
li $d2,8
stwbrx $h1,$d1,$mac
li $d3,12
stwbrx $h2,$d2,$mac
stwbrx $h3,$d3,$mac
___
$code.=<<___;
$POP r28,`$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)
addi $sp,$sp,$FRAME
blr
.long 0
.byte 0,12,4,1,0x80,4,3,0
.size .poly1305_emit,.-.poly1305_emit
___
}
$code.=<<___;
.asciz "Poly1305 for PPC, CRYPTOGAMS by <appro\@openssl.org>"
___
$code =~ s/\`([^\`]*)\`/eval $1/gem;
print $code;
close STDOUT;
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