diff options
Diffstat (limited to 'src/crypto/zinc/poly1305/poly1305-ppc.pl')
| -rw-r--r-- | src/crypto/zinc/poly1305/poly1305-ppc.pl | 1989 |
1 files changed, 1989 insertions, 0 deletions
diff --git a/src/crypto/zinc/poly1305/poly1305-ppc.pl b/src/crypto/zinc/poly1305/poly1305-ppc.pl new file mode 100644 index 0000000..dd4e3fb --- /dev/null +++ b/src/crypto/zinc/poly1305/poly1305-ppc.pl @@ -0,0 +1,1989 @@ +#! /usr/bin/env perl +# SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause +# +# This code is taken from the OpenSSL project but the author, Andy Polyakov, +# has relicensed it under the licenses specified in the SPDX header above. +# The original headers, including the original license headers, are +# included below for completeness. +# +# Changes: renamed poly1305_emit to poly1305_emit_int, +# renamed poly1305_blocks to poly1305_blocks_int +# Look in more places for ppc-xlate.pl +# +# Copyright 2016-2018 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, @dot-asm, initially for use in the OpenSSL +# project. The module is dual licensed under OpenSSL and CRYPTOGAMS +# licenses depending on where you obtain it. For further details see +# https://github.com/dot-asm/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 - 2.00/+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... +# +# January 2019 +# +# ... Unfortunately not:-( Estimate was a projection of ARM result, +# but ARM has vector multiply-n-add instruction, while PowerISA does +# not, not one usable in the context. Improvement is ~40% over -m64 +# result above and is ~1.43 on little-endian systems. + +$flavour = shift; + +if ($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 +( $xlate="${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($ctx) + stw r0,24($ctx) # clear is_base2_26 + + $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_int +.align 4 +.poly1305_blocks_int: +Lpoly1305_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,$FRAME +Labort: + blr + .long 0 + .byte 0,12,4,1,0x80,5,4,0 +.size .poly1305_blocks_int,.-.poly1305_blocks_int +___ +{ +my ($h0,$h1,$h2,$h3,$h4,$t0) = map("r$_",(7..12)); + +$code.=<<___; +.globl .poly1305_emit_int +.align 5 +.poly1305_emit_int: + lwz $h0,0($ctx) # load hash value base 2^26 + lwz $h1,4($ctx) + lwz $h2,8($ctx) + lwz $h3,12($ctx) + lwz $h4,16($ctx) + lwz r0,24($ctx) # is_base2_26 + + sldi $h1,$h1,26 # base 2^26 -> base 2^64 + sldi $t0,$h2,52 + srdi $h2,$h2,12 + sldi $h3,$h3,14 + add $h0,$h0,$h1 + addc $h0,$h0,$t0 + sldi $t0,$h4,40 + srdi $h4,$h4,24 + adde $h1,$h2,$h3 + addc $h1,$h1,$t0 + addze $h2,$h4 + + ld $h3,0($ctx) # load hash value base 2^64 + ld $h4,8($ctx) + ld $t0,16($ctx) + + neg r0,r0 + xor $h0,$h0,$h3 # choose between radixes + xor $h1,$h1,$h4 + xor $h2,$h2,$t0 + and $h0,$h0,r0 + and $h1,$h1,r0 + and $h2,$h2,r0 + xor $h0,$h0,$h3 + xor $h1,$h1,$h4 + xor $h2,$h2,$t0 + + addic $h3,$h0,5 # compare to modulus + addze $h4,$h1 + addze $t0,$h2 + + srdi $t0,$t0,2 # see if it carried/borrowed + neg $t0,$t0 + + andc $h0,$h0,$t0 + and $h3,$h3,$t0 + andc $h1,$h1,$t0 + and $h4,$h4,$t0 + or $h0,$h0,$h3 + or $h1,$h1,$h4 + + lwz $t0,4($nonce) + lwz $h2,12($nonce) + lwz $h3,0($nonce) + lwz $h4,8($nonce) + + insrdi $h3,$t0,32,0 + insrdi $h4,$h2,32,0 + + addc $h0,$h0,$h3 # accumulate nonce + adde $h1,$h1,$h4 + + addi $ctx,$mac,-1 + addi $mac,$mac,7 + + stbu $h0,1($ctx) # write [little-endian] result + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + srdi $h0,$h0,8 + stbu $h1,1($mac) + srdi $h1,$h1,8 + + stbu $h0,1($ctx) + stbu $h1,1($mac) + + blr + .long 0 + .byte 0,12,0x14,0,0,0,3,0 +.size .poly1305_emit_int,.-.poly1305_emit_int +___ +} } 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($ctx) + stw r0,24($ctx) # clear is_base2_26 + + $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_int +.align 4 +.poly1305_blocks_int: +Lpoly1305_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,$FRAME +Labort: + blr + .long 0 + .byte 0,12,4,1,0x80,18,4,0 +.size .poly1305_blocks_int,.-.poly1305_blocks_int +___ +{ +my ($h0,$h1,$h2,$h3,$h4,$t0,$t1) = map("r$_",(6..12)); + +$code.=<<___; +.globl .poly1305_emit_int +.align 5 +.poly1305_emit_int: + lwz r0,24($ctx) # is_base2_26 + lwz $h0,0($ctx) # load hash value + lwz $h1,4($ctx) + lwz $h2,8($ctx) + lwz $h3,12($ctx) + lwz $h4,16($ctx) + cmplwi r0,0 + beq Lemit_base2_32 + + slwi $t0,$h1,26 # base 2^26 -> base 2^32 + srwi $h1,$h1,6 + slwi $t1,$h2,20 + srwi $h2,$h2,12 + addc $h0,$h0,$t0 + slwi $t0,$h3,14 + srwi $h3,$h3,18 + adde $h1,$h1,$t1 + slwi $t1,$h4,8 + srwi $h4,$h4,24 + adde $h2,$h2,$t0 + adde $h3,$h3,$t1 + addze $h4,$h4 + +Lemit_base2_32: + addic r0,$h0,5 # compare to modulus + addze r0,$h1 + addze r0,$h2 + addze r0,$h3 + addze r0,$h4 + + srwi r0,r0,2 # see if it carried/borrowed + neg r0,r0 + andi. r0,r0,5 + + addc $h0,$h0,r0 + lwz r0,0($nonce) + addze $h1,$h1 + lwz $t0,4($nonce) + addze $h2,$h2 + lwz $t1,8($nonce) + addze $h3,$h3 + lwz $h4,12($nonce) + + addc $h0,$h0,r0 # accumulate nonce + adde $h1,$h1,$t0 + adde $h2,$h2,$t1 + adde $h3,$h3,$h4 + + addi $ctx,$mac,-1 + addi $mac,$mac,7 + + stbu $h0,1($ctx) # write [little-endian] result + srwi $h0,$h0,8 + stbu $h2,1($mac) + srwi $h2,$h2,8 + + stbu $h0,1($ctx) + srwi $h0,$h0,8 + stbu $h2,1($mac) + srwi $h2,$h2,8 + + stbu $h0,1($ctx) + srwi $h0,$h0,8 + stbu $h2,1($mac) + srwi $h2,$h2,8 + + stbu $h0,1($ctx) + stbu $h2,1($mac) + + stbu $h1,1($ctx) + srwi $h1,$h1,8 + stbu $h3,1($mac) + srwi $h3,$h3,8 + + stbu $h1,1($ctx) + srwi $h1,$h1,8 + stbu $h3,1($mac) + srwi $h3,$h3,8 + + stbu $h1,1($ctx) + srwi $h1,$h1,8 + stbu $h3,1($mac) + srwi $h3,$h3,8 + + stbu $h1,1($ctx) + stbu $h3,1($mac) + + blr + .long 0 + .byte 0,12,0x14,0,0,0,3,0 +.size .poly1305_emit_int,.-.poly1305_emit_int +___ +} } +{{{ +######################################################################## +# PowerISA 2.07/VSX section # +######################################################################## + +my $LOCALS= 6*$SIZE_T; +my $VSXFRAME = $LOCALS + 6*$SIZE_T; + $VSXFRAME += 128; # local variables + $VSXFRAME += 13*16; # v20-v31 offload + +my $BIG_ENDIAN = ($flavour !~ /le/) ? 4 : 0; + +######################################################################## +# Layout of opaque area is following: +# +# unsigned __int32 h[5]; # current hash value base 2^26 +# unsigned __int32 pad; +# unsigned __int32 is_base2_26, pad; +# unsigned __int64 r[2]; # key value base 2^64 +# struct { unsigned __int32 r^2, r^4, r^1, r^3; } r[9]; +# +# where r^n are base 2^26 digits of powers of multiplier key. There are +# 5 digits, but last four are interleaved with multiples of 5, totalling +# in 9 elements: r0, r1, 5*r1, r2, 5*r2, r3, 5*r3, r4, 5*r4. Order of +# powers is as they appear in register, not memory. + +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, $S4) = ($R1, $S1, $R2, $S2); +my ($ACC0, $ACC1, $ACC2, $ACC3, $ACC4) = map("v$_",(15..19)); +my ($T0, $T1, $T2, $T3, $T4) = map("v$_",(20..24)); +my ($_26,$_4,$_40,$_14,$mask26,$padbits,$I2perm) = map("v$_",(25..31)); +my ($x00,$x60,$x70,$x10,$x20,$x30,$x40,$x50) = (0, map("r$_",(7,8,27..31))); +my ($ctx_,$_ctx,$const) = map("r$_",(10..12)); + + if ($flavour =~ /64/) { +############################################################################### +# setup phase of poly1305_blocks_vsx is different on 32- and 64-bit platforms, +# but the base 2^26 computational part is same... + +my ($h0,$h1,$h2,$d0,$d1,$d2, $r0,$r1,$s1, $t0,$t1) = map("r$_",(6..11,27..31)); +my $mask = "r0"; + +$code.=<<___; +.globl .poly1305_blocks_vsx +.align 5 +.poly1305_blocks_vsx: + lwz r7,24($ctx) # is_base2_26 + cmpldi $len,128 + bge __poly1305_blocks_vsx + + neg r0,r7 # is_base2_26 as mask + lwz r7,0($ctx) # load hash base 2^26 + lwz r8,4($ctx) + lwz r9,8($ctx) + lwz r10,12($ctx) + lwz r11,16($ctx) + + sldi r8,r8,26 # base 2^26 -> base 2^64 + sldi r12,r9,52 + add r7,r7,r8 + srdi r9,r9,12 + sldi r10,r10,14 + addc r7,r7,r12 + sldi r8,r11,40 + adde r9,r9,r10 + srdi r11,r11,24 + addc r9,r9,r8 + addze r11,r11 + + ld r8,0($ctx) # load hash base 2^64 + ld r10,8($ctx) + ld r12,16($ctx) + + xor r7,r7,r8 # select between radixes + xor r9,r9,r10 + xor r11,r11,r12 + and r7,r7,r0 + and r9,r9,r0 + and r11,r11,r0 + xor r7,r7,r8 + xor r9,r9,r10 + xor r11,r11,r12 + + li r0,0 + std r7,0($ctx) # store hash base 2^64 + std r9,8($ctx) + std r11,16($ctx) + stw r0,24($ctx) # clear is_base2_26 + + b Lpoly1305_blocks + .long 0 + .byte 0,12,0x14,0,0,0,4,0 +.size .poly1305_blocks_vsx,.-.poly1305_blocks_vsx + +.align 5 +__poly1305_mul: + mulld $d0,$h0,$r0 # h0*r0 + mulhdu $d1,$h0,$r0 + + 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 + + blr + .long 0 + .byte 0,12,0x14,0,0,0,0,0 +.size __poly1305_mul,.-__poly1305_mul + +.align 5 +__poly1305_splat: + extrdi $d0,$h0,26,38 + extrdi $d1,$h0,26,12 + stw $d0,0x00($t1) + + extrdi $d2,$h0,12,0 + slwi $d0,$d1,2 + stw $d1,0x10($t1) + add $d0,$d0,$d1 # * 5 + stw $d0,0x20($t1) + + insrdi $d2,$h1,14,38 + slwi $d0,$d2,2 + stw $d2,0x30($t1) + add $d0,$d0,$d2 # * 5 + stw $d0,0x40($t1) + + extrdi $d1,$h1,26,24 + extrdi $d2,$h1,24,0 + slwi $d0,$d1,2 + stw $d1,0x50($t1) + add $d0,$d0,$d1 # * 5 + stw $d0,0x60($t1) + + insrdi $d2,$h2,3,37 + slwi $d0,$d2,2 + stw $d2,0x70($t1) + add $d0,$d0,$d2 # * 5 + stw $d0,0x80($t1) + + blr + .long 0 + .byte 0,12,0x14,0,0,0,0,0 +.size __poly1305_splat,.-__poly1305_splat + +.align 5 +__poly1305_blocks_vsx: + $STU $sp,-$VSXFRAME($sp) + mflr r0 + li r10,`15+$LOCALS+128` + li r11,`31+$LOCALS+128` + mfspr r12,256 + stvx v20,r10,$sp + addi r10,r10,32 + stvx v21,r11,$sp + addi r11,r11,32 + stvx v22,r10,$sp + addi r10,r10,32 + stvx v23,r10,$sp + addi r10,r10,32 + stvx v24,r11,$sp + addi r11,r11,32 + stvx v25,r10,$sp + addi r10,r10,32 + stvx v26,r10,$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,$sp + stw r12,`$VSXFRAME-$SIZE_T*5-4`($sp)# save vrsave + li r12,-1 + mtspr 256,r12 # preserve all AltiVec registers + $PUSH r27,`$VSXFRAME-$SIZE_T*5`($sp) + $PUSH r28,`$VSXFRAME-$SIZE_T*4`($sp) + $PUSH r29,`$VSXFRAME-$SIZE_T*3`($sp) + $PUSH r30,`$VSXFRAME-$SIZE_T*2`($sp) + $PUSH r31,`$VSXFRAME-$SIZE_T*1`($sp) + $PUSH r0,`$VSXFRAME+$LRSAVE`($sp) + + bl LPICmeup + + li $x10,0x10 + li $x20,0x20 + li $x30,0x30 + li $x40,0x40 + li $x50,0x50 + lvx_u $mask26,$x00,$const + lvx_u $_26,$x10,$const + lvx_u $_40,$x20,$const + lvx_u $I2perm,$x30,$const + lvx_u $padbits,$x40,$const + + cmplwi r7,0 # is_base2_26? + bne Lskip_init_vsx + + ld $r0,32($ctx) # load key base 2^64 + ld $r1,40($ctx) + srdi $s1,$r1,2 + li $mask,3 + add $s1,$s1,$r1 # s1 = r1 + r1>>2 + + mr $h0,$r0 # "calculate" r^1 + mr $h1,$r1 + li $h2,0 + addi $t1,$ctx,`48+(12^$BIG_ENDIAN)` + bl __poly1305_splat + + bl __poly1305_mul # caclulate r^2 + addi $t1,$ctx,`48+(4^$BIG_ENDIAN)` + bl __poly1305_splat + + bl __poly1305_mul # caclulate r^3 + addi $t1,$ctx,`48+(8^$BIG_ENDIAN)` + bl __poly1305_splat + + bl __poly1305_mul # caclulate r^4 + addi $t1,$ctx,`48+(0^$BIG_ENDIAN)` + bl __poly1305_splat + + ld $h0,0($ctx) # load hash + ld $h1,8($ctx) + ld $h2,16($ctx) + + extrdi $d0,$h0,26,38 # base 2^64 -> base 2^26 + extrdi $d1,$h0,26,12 + extrdi $d2,$h0,12,0 + mtvrwz $H0,$d0 + insrdi $d2,$h1,14,38 + mtvrwz $H1,$d1 + extrdi $d1,$h1,26,24 + mtvrwz $H2,$d2 + extrdi $d2,$h1,24,0 + mtvrwz $H3,$d1 + insrdi $d2,$h2,3,37 + mtvrwz $H4,$d2 +___ + } else { +############################################################################### +# 32-bit initialization + +my ($h0,$h1,$h2,$h3,$h4,$t0,$t1) = map("r$_",(7..11,0,12)); +my ($R3,$S3,$R4,$S4)=($I1,$I2,$I3,$I4); + +$code.=<<___; +.globl .poly1305_blocks_vsx +.align 5 +.poly1305_blocks_vsx: + lwz r7,24($ctx) # is_base2_26 + cmplwi $len,128 + bge __poly1305_blocks_vsx + cmplwi r7,0 + beq Lpoly1305_blocks + + lwz $h0,0($ctx) # load hash + lwz $h1,4($ctx) + lwz $h2,8($ctx) + lwz $h3,12($ctx) + lwz $h4,16($ctx) + + slwi $t0,$h1,26 # base 2^26 -> base 2^32 + srwi $h1,$h1,6 + slwi $t1,$h2,20 + srwi $h2,$h2,12 + addc $h0,$h0,$t0 + slwi $t0,$h3,14 + srwi $h3,$h3,18 + adde $h1,$h1,$t1 + slwi $t1,$h4,8 + srwi $h4,$h4,24 + adde $h2,$h2,$t0 + li $t0,0 + adde $h3,$h3,$t1 + addze $h4,$h4 + + stw $h0,0($ctx) # store hash base 2^32 + stw $h1,4($ctx) + stw $h2,8($ctx) + stw $h3,12($ctx) + stw $h4,16($ctx) + stw $t0,24($ctx) # clear is_base2_26 + + b Lpoly1305_blocks + .long 0 + .byte 0,12,0x14,0,0,0,4,0 +.size .poly1305_blocks_vsx,.-.poly1305_blocks_vsx + +.align 5 +__poly1305_mul: + vmulouw $ACC0,$H0,$R0 + vmulouw $ACC1,$H1,$R0 + vmulouw $ACC2,$H2,$R0 + vmulouw $ACC3,$H3,$R0 + vmulouw $ACC4,$H4,$R0 + + vmulouw $T0,$H4,$S1 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H0,$R1 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H1,$R1 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H2,$R1 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H3,$R1 + vaddudm $ACC4,$ACC4,$T0 + + vmulouw $T0,$H3,$S2 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H4,$S2 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H0,$R2 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H1,$R2 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H2,$R2 + vaddudm $ACC4,$ACC4,$T0 + + vmulouw $T0,$H2,$S3 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H3,$S3 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H4,$S3 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H0,$R3 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H1,$R3 + vaddudm $ACC4,$ACC4,$T0 + + vmulouw $T0,$H1,$S4 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H2,$S4 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H3,$S4 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H4,$S4 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H0,$R4 + vaddudm $ACC4,$ACC4,$T0 + + ################################################################ + # lazy reduction + + vspltisb $T0,2 + vsrd $H4,$ACC3,$_26 + vsrd $H1,$ACC0,$_26 + vand $H3,$ACC3,$mask26 + vand $H0,$ACC0,$mask26 + vaddudm $H4,$H4,$ACC4 # h3 -> h4 + vaddudm $H1,$H1,$ACC1 # h0 -> h1 + + vsrd $ACC4,$H4,$_26 + vsrd $ACC1,$H1,$_26 + vand $H4,$H4,$mask26 + vand $H1,$H1,$mask26 + vaddudm $H0,$H0,$ACC4 + vaddudm $H2,$ACC2,$ACC1 # h1 -> h2 + + vsld $ACC4,$ACC4,$T0 # <<2 + vsrd $ACC2,$H2,$_26 + vand $H2,$H2,$mask26 + vaddudm $H0,$H0,$ACC4 # h4 -> h0 + vaddudm $H3,$H3,$ACC2 # h2 -> h3 + + vsrd $ACC0,$H0,$_26 + vsrd $ACC3,$H3,$_26 + vand $H0,$H0,$mask26 + vand $H3,$H3,$mask26 + vaddudm $H1,$H1,$ACC0 # h0 -> h1 + vaddudm $H4,$H4,$ACC3 # h3 -> h4 + + blr + .long 0 + .byte 0,12,0x14,0,0,0,0,0 +.size __poly1305_mul,.-__poly1305_mul + +.align 5 +__poly1305_blocks_vsx: + $STU $sp,-$VSXFRAME($sp) + mflr r0 + li r10,`15+$LOCALS+128` + li r11,`31+$LOCALS+128` + mfspr r12,256 + stvx v20,r10,$sp + addi r10,r10,32 + stvx v21,r11,$sp + addi r11,r11,32 + stvx v22,r10,$sp + addi r10,r10,32 + stvx v23,r10,$sp + addi r10,r10,32 + stvx v24,r11,$sp + addi r11,r11,32 + stvx v25,r10,$sp + addi r10,r10,32 + stvx v26,r10,$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,$sp + stw r12,`$VSXFRAME-$SIZE_T*5-4`($sp)# save vrsave + li r12,-1 + mtspr 256,r12 # preserve all AltiVec registers + $PUSH r27,`$VSXFRAME-$SIZE_T*5`($sp) + $PUSH r28,`$VSXFRAME-$SIZE_T*4`($sp) + $PUSH r29,`$VSXFRAME-$SIZE_T*3`($sp) + $PUSH r30,`$VSXFRAME-$SIZE_T*2`($sp) + $PUSH r31,`$VSXFRAME-$SIZE_T*1`($sp) + $PUSH r0,`$VSXFRAME+$LRSAVE`($sp) + + bl LPICmeup + + li $x10,0x10 + li $x20,0x20 + li $x30,0x30 + li $x40,0x40 + li $x50,0x50 + lvx_u $mask26,$x00,$const + lvx_u $_26,$x10,$const + lvx_u $_40,$x20,$const + lvx_u $I2perm,$x30,$const + lvx_u $padbits,$x40,$const + + cmplwi r7,0 # is_base2_26? + bne Lskip_init_vsx + + lwz $h1,32($ctx) # load key base 2^32 + lwz $h2,36($ctx) + lwz $h3,40($ctx) + lwz $h4,44($ctx) + + extrwi $h0,$h1,26,6 # base 2^32 -> base 2^26 + extrwi $h1,$h1,6,0 + insrwi $h1,$h2,20,6 + extrwi $h2,$h2,12,0 + insrwi $h2,$h3,14,6 + extrwi $h3,$h3,18,0 + insrwi $h3,$h4,8,6 + extrwi $h4,$h4,24,0 + + mtvrwz $R0,$h0 + slwi $h0,$h1,2 + mtvrwz $R1,$h1 + add $h1,$h1,$h0 + mtvrwz $S1,$h1 + slwi $h1,$h2,2 + mtvrwz $R2,$h2 + add $h2,$h2,$h1 + mtvrwz $S2,$h2 + slwi $h2,$h3,2 + mtvrwz $R3,$h3 + add $h3,$h3,$h2 + mtvrwz $S3,$h3 + slwi $h3,$h4,2 + mtvrwz $R4,$h4 + add $h4,$h4,$h3 + mtvrwz $S4,$h4 + + vmr $H0,$R0 + vmr $H1,$R1 + vmr $H2,$R2 + vmr $H3,$R3 + vmr $H4,$R4 + + bl __poly1305_mul # r^1:- * r^1:- + + vpermdi $R0,$H0,$R0,0b00 + vpermdi $R1,$H1,$R1,0b00 + vpermdi $R2,$H2,$R2,0b00 + vpermdi $R3,$H3,$R3,0b00 + vpermdi $R4,$H4,$R4,0b00 + vpermdi $H0,$H0,$H0,0b00 + vpermdi $H1,$H1,$H1,0b00 + vpermdi $H2,$H2,$H2,0b00 + vpermdi $H3,$H3,$H3,0b00 + vpermdi $H4,$H4,$H4,0b00 + vsld $S1,$R1,$T0 # <<2 + vsld $S2,$R2,$T0 + vsld $S3,$R3,$T0 + vsld $S4,$R4,$T0 + vaddudm $S1,$S1,$R1 + vaddudm $S2,$S2,$R2 + vaddudm $S3,$S3,$R3 + vaddudm $S4,$S4,$R4 + + bl __poly1305_mul # r^2:r^2 * r^2:r^1 + + addi $h0,$ctx,0x60 + lwz $h1,0($ctx) # load hash + lwz $h2,4($ctx) + lwz $h3,8($ctx) + lwz $h4,12($ctx) + lwz $t0,16($ctx) + + vmrgow $R0,$R0,$H0 # r^2:r^4:r^1:r^3 + vmrgow $R1,$R1,$H1 + vmrgow $R2,$R2,$H2 + vmrgow $R3,$R3,$H3 + vmrgow $R4,$R4,$H4 + vslw $S1,$R1,$T0 # <<2 + vslw $S2,$R2,$T0 + vslw $S3,$R3,$T0 + vslw $S4,$R4,$T0 + vadduwm $S1,$S1,$R1 + vadduwm $S2,$S2,$R2 + vadduwm $S3,$S3,$R3 + vadduwm $S4,$S4,$R4 + + stvx_u $R0,$x30,$ctx + stvx_u $R1,$x40,$ctx + stvx_u $S1,$x50,$ctx + stvx_u $R2,$x00,$h0 + stvx_u $S2,$x10,$h0 + stvx_u $R3,$x20,$h0 + stvx_u $S3,$x30,$h0 + stvx_u $R4,$x40,$h0 + stvx_u $S4,$x50,$h0 + + extrwi $h0,$h1,26,6 # base 2^32 -> base 2^26 + extrwi $h1,$h1,6,0 + mtvrwz $H0,$h0 + insrwi $h1,$h2,20,6 + extrwi $h2,$h2,12,0 + mtvrwz $H1,$h1 + insrwi $h2,$h3,14,6 + extrwi $h3,$h3,18,0 + mtvrwz $H2,$h2 + insrwi $h3,$h4,8,6 + extrwi $h4,$h4,24,0 + mtvrwz $H3,$h3 + insrwi $h4,$t0,3,5 + mtvrwz $H4,$h4 +___ + } +$code.=<<___; + li r0,1 + stw r0,24($ctx) # set is_base2_26 + b Loaded_vsx + +.align 4 +Lskip_init_vsx: + li $x10,4 + li $x20,8 + li $x30,12 + li $x40,16 + lvwzx_u $H0,$x00,$ctx + lvwzx_u $H1,$x10,$ctx + lvwzx_u $H2,$x20,$ctx + lvwzx_u $H3,$x30,$ctx + lvwzx_u $H4,$x40,$ctx + +Loaded_vsx: + li $x10,0x10 + li $x20,0x20 + li $x30,0x30 + li $x40,0x40 + li $x50,0x50 + li $x60,0x60 + li $x70,0x70 + addi $ctx_,$ctx,64 # &ctx->r[1] + addi $_ctx,$sp,`$LOCALS+15` # &ctx->r[1], r^2:r^4 shadow + + vxor $T0,$T0,$T0 # ensure second half is zero + vpermdi $H0,$H0,$T0,0b00 + vpermdi $H1,$H1,$T0,0b00 + vpermdi $H2,$H2,$T0,0b00 + vpermdi $H3,$H3,$T0,0b00 + vpermdi $H4,$H4,$T0,0b00 + + be?lvx_u $_4,$x50,$const # byte swap mask + lvx_u $T1,$x00,$inp # load first input block + lvx_u $T2,$x10,$inp + lvx_u $T3,$x20,$inp + lvx_u $T4,$x30,$inp + be?vperm $T1,$T1,$T1,$_4 + be?vperm $T2,$T2,$T2,$_4 + be?vperm $T3,$T3,$T3,$_4 + be?vperm $T4,$T4,$T4,$_4 + + vpermdi $I0,$T1,$T2,0b00 # smash input to base 2^26 + vspltisb $_4,4 + vperm $I2,$T1,$T2,$I2perm # 0x...0e0f0001...1e1f1011 + vspltisb $_14,14 + vpermdi $I3,$T1,$T2,0b11 + + vsrd $I1,$I0,$_26 + vsrd $I2,$I2,$_4 + vsrd $I4,$I3,$_40 + vsrd $I3,$I3,$_14 + vand $I0,$I0,$mask26 + vand $I1,$I1,$mask26 + vand $I2,$I2,$mask26 + vand $I3,$I3,$mask26 + + vpermdi $T1,$T3,$T4,0b00 + vperm $T2,$T3,$T4,$I2perm # 0x...0e0f0001...1e1f1011 + vpermdi $T3,$T3,$T4,0b11 + + vsrd $T0,$T1,$_26 + vsrd $T2,$T2,$_4 + vsrd $T4,$T3,$_40 + vsrd $T3,$T3,$_14 + vand $T1,$T1,$mask26 + vand $T0,$T0,$mask26 + vand $T2,$T2,$mask26 + vand $T3,$T3,$mask26 + + # inp[2]:inp[0]:inp[3]:inp[1] + vmrgow $I4,$T4,$I4 + vmrgow $I0,$T1,$I0 + vmrgow $I1,$T0,$I1 + vmrgow $I2,$T2,$I2 + vmrgow $I3,$T3,$I3 + vor $I4,$I4,$padbits + + lvx_splt $R0,$x30,$ctx # taking lvx_vsplt out of loop + lvx_splt $R1,$x00,$ctx_ # gives ~8% improvement + lvx_splt $S1,$x10,$ctx_ + lvx_splt $R2,$x20,$ctx_ + lvx_splt $S2,$x30,$ctx_ + lvx_splt $T1,$x40,$ctx_ + lvx_splt $T2,$x50,$ctx_ + lvx_splt $T3,$x60,$ctx_ + lvx_splt $T4,$x70,$ctx_ + stvx $R1,$x00,$_ctx + stvx $S1,$x10,$_ctx + stvx $R2,$x20,$_ctx + stvx $S2,$x30,$_ctx + stvx $T1,$x40,$_ctx + stvx $T2,$x50,$_ctx + stvx $T3,$x60,$_ctx + stvx $T4,$x70,$_ctx + + addi $inp,$inp,0x40 + addi $const,$const,0x50 + addi r0,$len,-64 + srdi r0,r0,6 + mtctr r0 + b Loop_vsx + +.align 4 +Loop_vsx: + ################################################################ + ## ((inp[0]*r^4+inp[2]*r^2+inp[4])*r^4+inp[6]*r^2 + ## ((inp[1]*r^4+inp[3]*r^2+inp[5])*r^3+inp[7]*r + ## \___________________/ + ## + ## Note that we start with inp[2:3]*r^2. This is because it + ## doesn't depend on reduction in previous iteration. + ################################################################ + ## d4 = h4*r0 + h3*r1 + h2*r2 + h1*r3 + h0*r4 + ## d3 = h3*r0 + h2*r1 + h1*r2 + h0*r3 + h4*5*r4 + ## d2 = h2*r0 + h1*r1 + h0*r2 + h4*5*r3 + h3*5*r4 + ## d1 = h1*r0 + h0*r1 + h4*5*r2 + h3*5*r3 + h2*5*r4 + ## d0 = h0*r0 + h4*5*r1 + h3*5*r2 + h2*5*r3 + h1*5*r4 + + vmuleuw $ACC0,$I0,$R0 + vmuleuw $ACC1,$I0,$R1 + vmuleuw $ACC2,$I0,$R2 + vmuleuw $ACC3,$I1,$R2 + + vmuleuw $T0,$I1,$R0 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I1,$R1 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $ACC4,$I2,$R2 + vmuleuw $T0,$I4,$S1 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I2,$R1 + vaddudm $ACC3,$ACC3,$T0 + lvx $S3,$x50,$_ctx + vmuleuw $T0,$I3,$R1 + vaddudm $ACC4,$ACC4,$T0 + lvx $R3,$x40,$_ctx + + vaddudm $H2,$H2,$I2 + vaddudm $H0,$H0,$I0 + vaddudm $H3,$H3,$I3 + vaddudm $H1,$H1,$I1 + vaddudm $H4,$H4,$I4 + + vmuleuw $T0,$I3,$S2 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I4,$S2 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I2,$R0 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I3,$R0 + vaddudm $ACC3,$ACC3,$T0 + lvx $S4,$x70,$_ctx + vmuleuw $T0,$I4,$R0 + vaddudm $ACC4,$ACC4,$T0 + lvx $R4,$x60,$_ctx + + vmuleuw $T0,$I2,$S3 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I3,$S3 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I4,$S3 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I0,$R3 + vaddudm $ACC3,$ACC3,$T0 + vmuleuw $T0,$I1,$R3 + vaddudm $ACC4,$ACC4,$T0 + + be?lvx_u $_4,$x00,$const # byte swap mask + lvx_u $T1,$x00,$inp # load next input block + lvx_u $T2,$x10,$inp + lvx_u $T3,$x20,$inp + lvx_u $T4,$x30,$inp + be?vperm $T1,$T1,$T1,$_4 + be?vperm $T2,$T2,$T2,$_4 + be?vperm $T3,$T3,$T3,$_4 + be?vperm $T4,$T4,$T4,$_4 + + vmuleuw $T0,$I1,$S4 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I2,$S4 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I3,$S4 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I4,$S4 + vaddudm $ACC3,$ACC3,$T0 + vmuleuw $T0,$I0,$R4 + vaddudm $ACC4,$ACC4,$T0 + + vpermdi $I0,$T1,$T2,0b00 # smash input to base 2^26 + vspltisb $_4,4 + vperm $I2,$T1,$T2,$I2perm # 0x...0e0f0001...1e1f1011 + vpermdi $I3,$T1,$T2,0b11 + + # (hash + inp[0:1]) * r^4 + vmulouw $T0,$H0,$R0 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H1,$R0 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H2,$R0 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H3,$R0 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H4,$R0 + vaddudm $ACC4,$ACC4,$T0 + + vpermdi $T1,$T3,$T4,0b00 + vperm $T2,$T3,$T4,$I2perm # 0x...0e0f0001...1e1f1011 + vpermdi $T3,$T3,$T4,0b11 + + vmulouw $T0,$H2,$S3 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H3,$S3 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H4,$S3 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H0,$R3 + vaddudm $ACC3,$ACC3,$T0 + lvx $S1,$x10,$_ctx + vmulouw $T0,$H1,$R3 + vaddudm $ACC4,$ACC4,$T0 + lvx $R1,$x00,$_ctx + + vsrd $I1,$I0,$_26 + vsrd $I2,$I2,$_4 + vsrd $I4,$I3,$_40 + vsrd $I3,$I3,$_14 + + vmulouw $T0,$H1,$S4 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H2,$S4 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H3,$S4 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H4,$S4 + vaddudm $ACC3,$ACC3,$T0 + lvx $S2,$x30,$_ctx + vmulouw $T0,$H0,$R4 + vaddudm $ACC4,$ACC4,$T0 + lvx $R2,$x20,$_ctx + + vand $I0,$I0,$mask26 + vand $I1,$I1,$mask26 + vand $I2,$I2,$mask26 + vand $I3,$I3,$mask26 + + vmulouw $T0,$H4,$S1 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H0,$R1 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H1,$R1 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H2,$R1 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H3,$R1 + vaddudm $ACC4,$ACC4,$T0 + + vsrd $T2,$T2,$_4 + vsrd $_4,$T1,$_26 + vsrd $T4,$T3,$_40 + vsrd $T3,$T3,$_14 + + vmulouw $T0,$H3,$S2 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H4,$S2 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H0,$R2 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H1,$R2 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H2,$R2 + vaddudm $ACC4,$ACC4,$T0 + + vand $T1,$T1,$mask26 + vand $_4,$_4,$mask26 + vand $T2,$T2,$mask26 + vand $T3,$T3,$mask26 + + ################################################################ + # lazy reduction as discussed in "NEON crypto" by D.J. Bernstein + # and P. Schwabe + + vspltisb $T0,2 + vsrd $H4,$ACC3,$_26 + vsrd $H1,$ACC0,$_26 + vand $H3,$ACC3,$mask26 + vand $H0,$ACC0,$mask26 + vaddudm $H4,$H4,$ACC4 # h3 -> h4 + vaddudm $H1,$H1,$ACC1 # h0 -> h1 + + vmrgow $I4,$T4,$I4 + vmrgow $I0,$T1,$I0 + vmrgow $I1,$_4,$I1 + vmrgow $I2,$T2,$I2 + vmrgow $I3,$T3,$I3 + vor $I4,$I4,$padbits + + vsrd $ACC4,$H4,$_26 + vsrd $ACC1,$H1,$_26 + vand $H4,$H4,$mask26 + vand $H1,$H1,$mask26 + vaddudm $H0,$H0,$ACC4 + vaddudm $H2,$ACC2,$ACC1 # h1 -> h2 + + vsld $ACC4,$ACC4,$T0 # <<2 + vsrd $ACC2,$H2,$_26 + vand $H2,$H2,$mask26 + vaddudm $H0,$H0,$ACC4 # h4 -> h0 + vaddudm $H3,$H3,$ACC2 # h2 -> h3 + + vsrd $ACC0,$H0,$_26 + vsrd $ACC3,$H3,$_26 + vand $H0,$H0,$mask26 + vand $H3,$H3,$mask26 + vaddudm $H1,$H1,$ACC0 # h0 -> h1 + vaddudm $H4,$H4,$ACC3 # h3 -> h4 + + addi $inp,$inp,0x40 + bdnz Loop_vsx + + neg $len,$len + andi. $len,$len,0x30 + sub $inp,$inp,$len + + lvx_u $R0,$x30,$ctx # load all powers + lvx_u $R1,$x00,$ctx_ + lvx_u $S1,$x10,$ctx_ + lvx_u $R2,$x20,$ctx_ + lvx_u $S2,$x30,$ctx_ + +Last_vsx: + vmuleuw $ACC0,$I0,$R0 + vmuleuw $ACC1,$I1,$R0 + vmuleuw $ACC2,$I2,$R0 + vmuleuw $ACC3,$I3,$R0 + vmuleuw $ACC4,$I4,$R0 + + vmuleuw $T0,$I4,$S1 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I0,$R1 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I1,$R1 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I2,$R1 + vaddudm $ACC3,$ACC3,$T0 + lvx_u $S3,$x50,$ctx_ + vmuleuw $T0,$I3,$R1 + vaddudm $ACC4,$ACC4,$T0 + lvx_u $R3,$x40,$ctx_ + + vaddudm $H2,$H2,$I2 + vaddudm $H0,$H0,$I0 + vaddudm $H3,$H3,$I3 + vaddudm $H1,$H1,$I1 + vaddudm $H4,$H4,$I4 + + vmuleuw $T0,$I3,$S2 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I4,$S2 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I0,$R2 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I1,$R2 + vaddudm $ACC3,$ACC3,$T0 + lvx_u $S4,$x70,$ctx_ + vmuleuw $T0,$I2,$R2 + vaddudm $ACC4,$ACC4,$T0 + lvx_u $R4,$x60,$ctx_ + + vmuleuw $T0,$I2,$S3 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I3,$S3 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I4,$S3 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I0,$R3 + vaddudm $ACC3,$ACC3,$T0 + vmuleuw $T0,$I1,$R3 + vaddudm $ACC4,$ACC4,$T0 + + vmuleuw $T0,$I1,$S4 + vaddudm $ACC0,$ACC0,$T0 + vmuleuw $T0,$I2,$S4 + vaddudm $ACC1,$ACC1,$T0 + vmuleuw $T0,$I3,$S4 + vaddudm $ACC2,$ACC2,$T0 + vmuleuw $T0,$I4,$S4 + vaddudm $ACC3,$ACC3,$T0 + vmuleuw $T0,$I0,$R4 + vaddudm $ACC4,$ACC4,$T0 + + # (hash + inp[0:1]) * r^4 + vmulouw $T0,$H0,$R0 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H1,$R0 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H2,$R0 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H3,$R0 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H4,$R0 + vaddudm $ACC4,$ACC4,$T0 + + vmulouw $T0,$H2,$S3 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H3,$S3 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H4,$S3 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H0,$R3 + vaddudm $ACC3,$ACC3,$T0 + lvx_u $S1,$x10,$ctx_ + vmulouw $T0,$H1,$R3 + vaddudm $ACC4,$ACC4,$T0 + lvx_u $R1,$x00,$ctx_ + + vmulouw $T0,$H1,$S4 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H2,$S4 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H3,$S4 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H4,$S4 + vaddudm $ACC3,$ACC3,$T0 + lvx_u $S2,$x30,$ctx_ + vmulouw $T0,$H0,$R4 + vaddudm $ACC4,$ACC4,$T0 + lvx_u $R2,$x20,$ctx_ + + vmulouw $T0,$H4,$S1 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H0,$R1 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H1,$R1 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H2,$R1 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H3,$R1 + vaddudm $ACC4,$ACC4,$T0 + + vmulouw $T0,$H3,$S2 + vaddudm $ACC0,$ACC0,$T0 + vmulouw $T0,$H4,$S2 + vaddudm $ACC1,$ACC1,$T0 + vmulouw $T0,$H0,$R2 + vaddudm $ACC2,$ACC2,$T0 + vmulouw $T0,$H1,$R2 + vaddudm $ACC3,$ACC3,$T0 + vmulouw $T0,$H2,$R2 + vaddudm $ACC4,$ACC4,$T0 + + ################################################################ + # horizontal addition + + vpermdi $H0,$ACC0,$ACC0,0b10 + vpermdi $H1,$ACC1,$ACC1,0b10 + vpermdi $H2,$ACC2,$ACC2,0b10 + vpermdi $H3,$ACC3,$ACC3,0b10 + vpermdi $H4,$ACC4,$ACC4,0b10 + vaddudm $ACC0,$ACC0,$H0 + vaddudm $ACC1,$ACC1,$H1 + vaddudm $ACC2,$ACC2,$H2 + vaddudm $ACC3,$ACC3,$H3 + vaddudm $ACC4,$ACC4,$H4 + + ################################################################ + # lazy reduction + + vspltisb $T0,2 + vsrd $H4,$ACC3,$_26 + vsrd $H1,$ACC0,$_26 + vand $H3,$ACC3,$mask26 + vand $H0,$ACC0,$mask26 + vaddudm $H4,$H4,$ACC4 # h3 -> h4 + vaddudm $H1,$H1,$ACC1 # h0 -> h1 + + vsrd $ACC4,$H4,$_26 + vsrd $ACC1,$H1,$_26 + vand $H4,$H4,$mask26 + vand $H1,$H1,$mask26 + vaddudm $H0,$H0,$ACC4 + vaddudm $H2,$ACC2,$ACC1 # h1 -> h2 + + vsld $ACC4,$ACC4,$T0 # <<2 + vsrd $ACC2,$H2,$_26 + vand $H2,$H2,$mask26 + vaddudm $H0,$H0,$ACC4 # h4 -> h0 + vaddudm $H3,$H3,$ACC2 # h2 -> h3 + + vsrd $ACC0,$H0,$_26 + vsrd $ACC3,$H3,$_26 + vand $H0,$H0,$mask26 + vand $H3,$H3,$mask26 + vaddudm $H1,$H1,$ACC0 # h0 -> h1 + vaddudm $H4,$H4,$ACC3 # h3 -> h4 + + beq Ldone_vsx + + add r6,$const,$len + + be?lvx_u $_4,$x00,$const # byte swap mask + lvx_u $T1,$x00,$inp # load last partial input block + lvx_u $T2,$x10,$inp + lvx_u $T3,$x20,$inp + lvx_u $T4,$x30,$inp + be?vperm $T1,$T1,$T1,$_4 + be?vperm $T2,$T2,$T2,$_4 + be?vperm $T3,$T3,$T3,$_4 + be?vperm $T4,$T4,$T4,$_4 + + vpermdi $I0,$T1,$T2,0b00 # smash input to base 2^26 + vspltisb $_4,4 + vperm $I2,$T1,$T2,$I2perm # 0x...0e0f0001...1e1f1011 + vpermdi $I3,$T1,$T2,0b11 + + vsrd $I1,$I0,$_26 + vsrd $I2,$I2,$_4 + vsrd $I4,$I3,$_40 + vsrd $I3,$I3,$_14 + vand $I0,$I0,$mask26 + vand $I1,$I1,$mask26 + vand $I2,$I2,$mask26 + vand $I3,$I3,$mask26 + + vpermdi $T0,$T3,$T4,0b00 + vperm $T1,$T3,$T4,$I2perm # 0x...0e0f0001...1e1f1011 + vpermdi $T2,$T3,$T4,0b11 + + lvx_u $ACC0,$x00,r6 + lvx_u $ACC1,$x30,r6 + + vsrd $T3,$T0,$_26 + vsrd $T1,$T1,$_4 + vsrd $T4,$T2,$_40 + vsrd $T2,$T2,$_14 + vand $T0,$T0,$mask26 + vand $T3,$T3,$mask26 + vand $T1,$T1,$mask26 + vand $T2,$T2,$mask26 + + # inp[2]:inp[0]:inp[3]:inp[1] + vmrgow $I4,$T4,$I4 + vmrgow $I0,$T0,$I0 + vmrgow $I1,$T3,$I1 + vmrgow $I2,$T1,$I2 + vmrgow $I3,$T2,$I3 + vor $I4,$I4,$padbits + + vperm $H0,$H0,$H0,$ACC0 # move hash to right lane + vand $I0,$I0, $ACC1 # mask redundant input lane[s] + vperm $H1,$H1,$H1,$ACC0 + vand $I1,$I1, $ACC1 + vperm $H2,$H2,$H2,$ACC0 + vand $I2,$I2, $ACC1 + vperm $H3,$H3,$H3,$ACC0 + vand $I3,$I3, $ACC1 + vperm $H4,$H4,$H4,$ACC0 + vand $I4,$I4, $ACC1 + + vaddudm $I0,$I0,$H0 # accumulate hash + vxor $H0,$H0,$H0 # wipe hash value + vaddudm $I1,$I1,$H1 + vxor $H1,$H1,$H1 + vaddudm $I2,$I2,$H2 + vxor $H2,$H2,$H2 + vaddudm $I3,$I3,$H3 + vxor $H3,$H3,$H3 + vaddudm $I4,$I4,$H4 + vxor $H4,$H4,$H4 + + xor. $len,$len,$len + b Last_vsx + +.align 4 +Ldone_vsx: + $POP r0,`$VSXFRAME+$LRSAVE`($sp) + li $x10,4 + li $x20,8 + li $x30,12 + li $x40,16 + stvwx_u $H0,$x00,$ctx # store hash + stvwx_u $H1,$x10,$ctx + stvwx_u $H2,$x20,$ctx + stvwx_u $H3,$x30,$ctx + stvwx_u $H4,$x40,$ctx + + lwz r12,`$VSXFRAME-$SIZE_T*5-4`($sp)# pull vrsave + mtlr r0 + li r10,`15+$LOCALS+128` + li r11,`31+$LOCALS+128` + mtspr 256,r12 # restore vrsave + lvx v20,r10,$sp + addi r10,r10,32 + lvx v21,r10,$sp + addi r10,r10,32 + lvx v22,r11,$sp + addi r11,r11,32 + lvx v23,r10,$sp + addi r10,r10,32 + lvx v24,r11,$sp + addi r11,r11,32 + lvx v25,r10,$sp + addi r10,r10,32 + lvx v26,r11,$sp + addi r11,r11,32 + lvx v27,r10,$sp + addi r10,r10,32 + lvx v28,r11,$sp + addi r11,r11,32 + lvx v29,r10,$sp + addi r10,r10,32 + lvx v30,r11,$sp + lvx v31,r10,$sp + $POP r27,`$VSXFRAME-$SIZE_T*5`($sp) + $POP r28,`$VSXFRAME-$SIZE_T*4`($sp) + $POP r29,`$VSXFRAME-$SIZE_T*3`($sp) + $POP r30,`$VSXFRAME-$SIZE_T*2`($sp) + $POP r31,`$VSXFRAME-$SIZE_T*1`($sp) + addi $sp,$sp,$VSXFRAME + blr + .long 0 + .byte 0,12,0x04,1,0x80,5,4,0 + .long 0 +.size __poly1305_blocks_vsx,.-__poly1305_blocks_vsx + +.align 6 +LPICmeup: + mflr r0 + bcl 20,31,\$+4 + mflr $const # vvvvvv "distance" between . and 1st data entry + addi $const,$const,`64-8` + mtlr r0 + blr + .long 0 + .byte 0,12,0x14,0,0,0,0,0 + .space `64-9*4` + +.quad 0x0000000003ffffff,0x0000000003ffffff # mask26 +.quad 0x000000000000001a,0x000000000000001a # _26 +.quad 0x0000000000000028,0x0000000000000028 # _40 +.quad 0x000000000e0f0001,0x000000001e1f1011 # I2perm +.quad 0x0100000001000000,0x0100000001000000 # padbits +.quad 0x0706050403020100,0x0f0e0d0c0b0a0908 # byte swap for big-endian + +.quad 0x0000000000000000,0x0000000004050607 # magic tail masks +.quad 0x0405060700000000,0x0000000000000000 +.quad 0x0000000000000000,0x0405060700000000 + +.quad 0xffffffff00000000,0xffffffffffffffff +.quad 0xffffffff00000000,0xffffffff00000000 +.quad 0x0000000000000000,0xffffffff00000000 +___ +}}} +$code.=<<___; +.asciz "Poly1305 for PPC, CRYPTOGAMS by \@dot-asm" +___ + +foreach (split("\n",$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#/ + } else { # little-endian + s/le\?// or + s/be\?/#be#/ + } + + print $_,"\n"; +} +close STDOUT; |