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- #! /usr/bin/env perl
- # Copyright 2016-2020 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/.
- # ====================================================================
- #
- # December 2014
- #
- # ChaCha20 for ARMv4.
- #
- # Performance in cycles per byte out of large buffer.
- #
- # IALU/gcc-4.4 1xNEON 3xNEON+1xIALU
- #
- # Cortex-A5 19.3(*)/+95% 21.8 14.1
- # Cortex-A8 10.5(*)/+160% 13.9 6.35
- # Cortex-A9 12.9(**)/+110% 14.3 6.50
- # Cortex-A15 11.0/+40% 16.0 5.00
- # Snapdragon S4 11.5/+125% 13.6 4.90
- #
- # (*) most "favourable" result for aligned data on little-endian
- # processor, result for misaligned data is 10-15% lower;
- # (**) this result is a trade-off: it can be improved by 20%,
- # but then Snapdragon S4 and Cortex-A8 results get
- # 20-25% worse;
- $flavour = shift;
- if ($flavour=~/\w[\w\-]*\.\w+$/) { $output=$flavour; undef $flavour; }
- else { while (($output=shift) && ($output!~/\w[\w\-]*\.\w+$/)) {} }
- if ($flavour && $flavour ne "void") {
- $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
- ( $xlate="${dir}arm-xlate.pl" and -f $xlate ) or
- ( $xlate="${dir}../../perlasm/arm-xlate.pl" and -f $xlate) or
- die "can't locate arm-xlate.pl";
- open STDOUT,"| \"$^X\" $xlate $flavour $output";
- } else {
- open STDOUT,">$output";
- }
- sub AUTOLOAD() # thunk [simplified] x86-style perlasm
- { my $opcode = $AUTOLOAD; $opcode =~ s/.*:://; $opcode =~ s/_/\./;
- my $arg = pop;
- $arg = "#$arg" if ($arg*1 eq $arg);
- $code .= "\t$opcode\t".join(',',@_,$arg)."\n";
- }
- my @x=map("r$_",(0..7,"x","x","x","x",12,"x",14,"x"));
- my @t=map("r$_",(8..11));
- sub ROUND {
- my ($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));
- my $odd = $d0&1;
- my ($xc,$xc_) = (@t[0..1]);
- my ($xd,$xd_) = $odd ? (@t[2],@x[$d1]) : (@x[$d0],@t[2]);
- my @ret;
- # Consider order in which variables are addressed by their
- # index:
- #
- # a b c d
- #
- # 0 4 8 12 < even round
- # 1 5 9 13
- # 2 6 10 14
- # 3 7 11 15
- # 0 5 10 15 < odd round
- # 1 6 11 12
- # 2 7 8 13
- # 3 4 9 14
- #
- # 'a', 'b' are permanently allocated in registers, @x[0..7],
- # while 'c's and pair of 'd's are maintained in memory. If
- # you observe 'c' column, you'll notice that pair of 'c's is
- # invariant between rounds. This means that we have to reload
- # them once per round, in the middle. This is why you'll see
- # bunch of 'c' stores and loads in the middle, but none in
- # the beginning or end. If you observe 'd' column, you'll
- # notice that 15 and 13 are reused in next pair of rounds.
- # This is why these two are chosen for offloading to memory,
- # to make loads count more.
- push @ret,(
- "&add (@x[$a0],@x[$a0],@x[$b0])",
- "&mov ($xd,$xd,'ror#16')",
- "&add (@x[$a1],@x[$a1],@x[$b1])",
- "&mov ($xd_,$xd_,'ror#16')",
- "&eor ($xd,$xd,@x[$a0],'ror#16')",
- "&eor ($xd_,$xd_,@x[$a1],'ror#16')",
- "&add ($xc,$xc,$xd)",
- "&mov (@x[$b0],@x[$b0],'ror#20')",
- "&add ($xc_,$xc_,$xd_)",
- "&mov (@x[$b1],@x[$b1],'ror#20')",
- "&eor (@x[$b0],@x[$b0],$xc,'ror#20')",
- "&eor (@x[$b1],@x[$b1],$xc_,'ror#20')",
- "&add (@x[$a0],@x[$a0],@x[$b0])",
- "&mov ($xd,$xd,'ror#24')",
- "&add (@x[$a1],@x[$a1],@x[$b1])",
- "&mov ($xd_,$xd_,'ror#24')",
- "&eor ($xd,$xd,@x[$a0],'ror#24')",
- "&eor ($xd_,$xd_,@x[$a1],'ror#24')",
- "&add ($xc,$xc,$xd)",
- "&mov (@x[$b0],@x[$b0],'ror#25')" );
- push @ret,(
- "&str ($xd,'[sp,#4*(16+$d0)]')",
- "&ldr ($xd,'[sp,#4*(16+$d2)]')" ) if ($odd);
- push @ret,(
- "&add ($xc_,$xc_,$xd_)",
- "&mov (@x[$b1],@x[$b1],'ror#25')" );
- push @ret,(
- "&str ($xd_,'[sp,#4*(16+$d1)]')",
- "&ldr ($xd_,'[sp,#4*(16+$d3)]')" ) if (!$odd);
- push @ret,(
- "&eor (@x[$b0],@x[$b0],$xc,'ror#25')",
- "&eor (@x[$b1],@x[$b1],$xc_,'ror#25')" );
- $xd=@x[$d2] if (!$odd);
- $xd_=@x[$d3] if ($odd);
- push @ret,(
- "&str ($xc,'[sp,#4*(16+$c0)]')",
- "&ldr ($xc,'[sp,#4*(16+$c2)]')",
- "&add (@x[$a2],@x[$a2],@x[$b2])",
- "&mov ($xd,$xd,'ror#16')",
- "&str ($xc_,'[sp,#4*(16+$c1)]')",
- "&ldr ($xc_,'[sp,#4*(16+$c3)]')",
- "&add (@x[$a3],@x[$a3],@x[$b3])",
- "&mov ($xd_,$xd_,'ror#16')",
- "&eor ($xd,$xd,@x[$a2],'ror#16')",
- "&eor ($xd_,$xd_,@x[$a3],'ror#16')",
- "&add ($xc,$xc,$xd)",
- "&mov (@x[$b2],@x[$b2],'ror#20')",
- "&add ($xc_,$xc_,$xd_)",
- "&mov (@x[$b3],@x[$b3],'ror#20')",
- "&eor (@x[$b2],@x[$b2],$xc,'ror#20')",
- "&eor (@x[$b3],@x[$b3],$xc_,'ror#20')",
- "&add (@x[$a2],@x[$a2],@x[$b2])",
- "&mov ($xd,$xd,'ror#24')",
- "&add (@x[$a3],@x[$a3],@x[$b3])",
- "&mov ($xd_,$xd_,'ror#24')",
- "&eor ($xd,$xd,@x[$a2],'ror#24')",
- "&eor ($xd_,$xd_,@x[$a3],'ror#24')",
- "&add ($xc,$xc,$xd)",
- "&mov (@x[$b2],@x[$b2],'ror#25')",
- "&add ($xc_,$xc_,$xd_)",
- "&mov (@x[$b3],@x[$b3],'ror#25')",
- "&eor (@x[$b2],@x[$b2],$xc,'ror#25')",
- "&eor (@x[$b3],@x[$b3],$xc_,'ror#25')" );
- @ret;
- }
- $code.=<<___;
- #include "arm_arch.h"
- .text
- #if defined(__thumb2__) || defined(__clang__)
- .syntax unified
- #endif
- #if defined(__thumb2__)
- .thumb
- #else
- .code 32
- #endif
- #if defined(__thumb2__) || defined(__clang__)
- #define ldrhsb ldrbhs
- #endif
- .align 5
- .Lsigma:
- .long 0x61707865,0x3320646e,0x79622d32,0x6b206574 @ endian-neutral
- .Lone:
- .long 1,0,0,0
- #if __ARM_MAX_ARCH__>=7
- .LOPENSSL_armcap:
- .word OPENSSL_armcap_P-.LChaCha20_ctr32
- #else
- .word -1
- #endif
- .globl ChaCha20_ctr32
- .type ChaCha20_ctr32,%function
- .align 5
- ChaCha20_ctr32:
- .LChaCha20_ctr32:
- ldr r12,[sp,#0] @ pull pointer to counter and nonce
- stmdb sp!,{r0-r2,r4-r11,lr}
- #if __ARM_ARCH__<7 && !defined(__thumb2__)
- sub r14,pc,#16 @ ChaCha20_ctr32
- #else
- adr r14,.LChaCha20_ctr32
- #endif
- cmp r2,#0 @ len==0?
- #ifdef __thumb2__
- itt eq
- #endif
- addeq sp,sp,#4*3
- beq .Lno_data
- #if __ARM_MAX_ARCH__>=7
- cmp r2,#192 @ test len
- bls .Lshort
- ldr r4,[r14,#-32]
- ldr r4,[r14,r4]
- # ifdef __APPLE__
- ldr r4,[r4]
- # endif
- tst r4,#ARMV7_NEON
- bne .LChaCha20_neon
- .Lshort:
- #endif
- ldmia r12,{r4-r7} @ load counter and nonce
- sub sp,sp,#4*(16) @ off-load area
- sub r14,r14,#64 @ .Lsigma
- stmdb sp!,{r4-r7} @ copy counter and nonce
- ldmia r3,{r4-r11} @ load key
- ldmia r14,{r0-r3} @ load sigma
- stmdb sp!,{r4-r11} @ copy key
- stmdb sp!,{r0-r3} @ copy sigma
- str r10,[sp,#4*(16+10)] @ off-load "@x[10]"
- str r11,[sp,#4*(16+11)] @ off-load "@x[11]"
- b .Loop_outer_enter
- .align 4
- .Loop_outer:
- ldmia sp,{r0-r9} @ load key material
- str @t[3],[sp,#4*(32+2)] @ save len
- str r12, [sp,#4*(32+1)] @ save inp
- str r14, [sp,#4*(32+0)] @ save out
- .Loop_outer_enter:
- ldr @t[3], [sp,#4*(15)]
- ldr @x[12],[sp,#4*(12)] @ modulo-scheduled load
- ldr @t[2], [sp,#4*(13)]
- ldr @x[14],[sp,#4*(14)]
- str @t[3], [sp,#4*(16+15)]
- mov @t[3],#10
- b .Loop
- .align 4
- .Loop:
- subs @t[3],@t[3],#1
- ___
- foreach (&ROUND(0, 4, 8,12)) { eval; }
- foreach (&ROUND(0, 5,10,15)) { eval; }
- $code.=<<___;
- bne .Loop
- ldr @t[3],[sp,#4*(32+2)] @ load len
- str @t[0], [sp,#4*(16+8)] @ modulo-scheduled store
- str @t[1], [sp,#4*(16+9)]
- str @x[12],[sp,#4*(16+12)]
- str @t[2], [sp,#4*(16+13)]
- str @x[14],[sp,#4*(16+14)]
- @ at this point we have first half of 512-bit result in
- @ @x[0-7] and second half at sp+4*(16+8)
- cmp @t[3],#64 @ done yet?
- #ifdef __thumb2__
- itete lo
- #endif
- addlo r12,sp,#4*(0) @ shortcut or ...
- ldrhs r12,[sp,#4*(32+1)] @ ... load inp
- addlo r14,sp,#4*(0) @ shortcut or ...
- ldrhs r14,[sp,#4*(32+0)] @ ... load out
- ldr @t[0],[sp,#4*(0)] @ load key material
- ldr @t[1],[sp,#4*(1)]
- #if __ARM_ARCH__>=6 || !defined(__ARMEB__)
- # if __ARM_ARCH__<7
- orr @t[2],r12,r14
- tst @t[2],#3 @ are input and output aligned?
- ldr @t[2],[sp,#4*(2)]
- bne .Lunaligned
- cmp @t[3],#64 @ restore flags
- # else
- ldr @t[2],[sp,#4*(2)]
- # endif
- ldr @t[3],[sp,#4*(3)]
- add @x[0],@x[0],@t[0] @ accumulate key material
- add @x[1],@x[1],@t[1]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[0],[r12],#16 @ load input
- ldrhs @t[1],[r12,#-12]
- add @x[2],@x[2],@t[2]
- add @x[3],@x[3],@t[3]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[2],[r12,#-8]
- ldrhs @t[3],[r12,#-4]
- # if __ARM_ARCH__>=6 && defined(__ARMEB__)
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- # endif
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[0],@x[0],@t[0] @ xor with input
- eorhs @x[1],@x[1],@t[1]
- add @t[0],sp,#4*(4)
- str @x[0],[r14],#16 @ store output
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[2],@x[2],@t[2]
- eorhs @x[3],@x[3],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[1],[r14,#-12]
- str @x[2],[r14,#-8]
- str @x[3],[r14,#-4]
- add @x[4],@x[4],@t[0] @ accumulate key material
- add @x[5],@x[5],@t[1]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[0],[r12],#16 @ load input
- ldrhs @t[1],[r12,#-12]
- add @x[6],@x[6],@t[2]
- add @x[7],@x[7],@t[3]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[2],[r12,#-8]
- ldrhs @t[3],[r12,#-4]
- # if __ARM_ARCH__>=6 && defined(__ARMEB__)
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[4],@x[4],@t[0]
- eorhs @x[5],@x[5],@t[1]
- add @t[0],sp,#4*(8)
- str @x[4],[r14],#16 @ store output
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[6],@x[6],@t[2]
- eorhs @x[7],@x[7],@t[3]
- str @x[5],[r14,#-12]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[6],[r14,#-8]
- add @x[0],sp,#4*(16+8)
- str @x[7],[r14,#-4]
- ldmia @x[0],{@x[0]-@x[7]} @ load second half
- add @x[0],@x[0],@t[0] @ accumulate key material
- add @x[1],@x[1],@t[1]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[0],[r12],#16 @ load input
- ldrhs @t[1],[r12,#-12]
- # ifdef __thumb2__
- itt hi
- # endif
- strhi @t[2],[sp,#4*(16+10)] @ copy "@x[10]" while at it
- strhi @t[3],[sp,#4*(16+11)] @ copy "@x[11]" while at it
- add @x[2],@x[2],@t[2]
- add @x[3],@x[3],@t[3]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[2],[r12,#-8]
- ldrhs @t[3],[r12,#-4]
- # if __ARM_ARCH__>=6 && defined(__ARMEB__)
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- # endif
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[0],@x[0],@t[0]
- eorhs @x[1],@x[1],@t[1]
- add @t[0],sp,#4*(12)
- str @x[0],[r14],#16 @ store output
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[2],@x[2],@t[2]
- eorhs @x[3],@x[3],@t[3]
- str @x[1],[r14,#-12]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[2],[r14,#-8]
- str @x[3],[r14,#-4]
- add @x[4],@x[4],@t[0] @ accumulate key material
- add @x[5],@x[5],@t[1]
- # ifdef __thumb2__
- itt hi
- # endif
- addhi @t[0],@t[0],#1 @ next counter value
- strhi @t[0],[sp,#4*(12)] @ save next counter value
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[0],[r12],#16 @ load input
- ldrhs @t[1],[r12,#-12]
- add @x[6],@x[6],@t[2]
- add @x[7],@x[7],@t[3]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhs @t[2],[r12,#-8]
- ldrhs @t[3],[r12,#-4]
- # if __ARM_ARCH__>=6 && defined(__ARMEB__)
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[4],@x[4],@t[0]
- eorhs @x[5],@x[5],@t[1]
- # ifdef __thumb2__
- it ne
- # endif
- ldrne @t[0],[sp,#4*(32+2)] @ re-load len
- # ifdef __thumb2__
- itt hs
- # endif
- eorhs @x[6],@x[6],@t[2]
- eorhs @x[7],@x[7],@t[3]
- str @x[4],[r14],#16 @ store output
- str @x[5],[r14,#-12]
- # ifdef __thumb2__
- it hs
- # endif
- subhs @t[3],@t[0],#64 @ len-=64
- str @x[6],[r14,#-8]
- str @x[7],[r14,#-4]
- bhi .Loop_outer
- beq .Ldone
- # if __ARM_ARCH__<7
- b .Ltail
- .align 4
- .Lunaligned: @ unaligned endian-neutral path
- cmp @t[3],#64 @ restore flags
- # endif
- #endif
- #if __ARM_ARCH__<7
- ldr @t[3],[sp,#4*(3)]
- ___
- for ($i=0;$i<16;$i+=4) {
- my $j=$i&0x7;
- $code.=<<___ if ($i==4);
- add @x[0],sp,#4*(16+8)
- ___
- $code.=<<___ if ($i==8);
- ldmia @x[0],{@x[0]-@x[7]} @ load second half
- # ifdef __thumb2__
- itt hi
- # endif
- strhi @t[2],[sp,#4*(16+10)] @ copy "@x[10]"
- strhi @t[3],[sp,#4*(16+11)] @ copy "@x[11]"
- ___
- $code.=<<___;
- add @x[$j+0],@x[$j+0],@t[0] @ accumulate key material
- ___
- $code.=<<___ if ($i==12);
- # ifdef __thumb2__
- itt hi
- # endif
- addhi @t[0],@t[0],#1 @ next counter value
- strhi @t[0],[sp,#4*(12)] @ save next counter value
- ___
- $code.=<<___;
- add @x[$j+1],@x[$j+1],@t[1]
- add @x[$j+2],@x[$j+2],@t[2]
- # ifdef __thumb2__
- itete lo
- # endif
- eorlo @t[0],@t[0],@t[0] @ zero or ...
- ldrhsb @t[0],[r12],#16 @ ... load input
- eorlo @t[1],@t[1],@t[1]
- ldrhsb @t[1],[r12,#-12]
- add @x[$j+3],@x[$j+3],@t[3]
- # ifdef __thumb2__
- itete lo
- # endif
- eorlo @t[2],@t[2],@t[2]
- ldrhsb @t[2],[r12,#-8]
- eorlo @t[3],@t[3],@t[3]
- ldrhsb @t[3],[r12,#-4]
- eor @x[$j+0],@t[0],@x[$j+0] @ xor with input (or zero)
- eor @x[$j+1],@t[1],@x[$j+1]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[0],[r12,#-15] @ load more input
- ldrhsb @t[1],[r12,#-11]
- eor @x[$j+2],@t[2],@x[$j+2]
- strb @x[$j+0],[r14],#16 @ store output
- eor @x[$j+3],@t[3],@x[$j+3]
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[2],[r12,#-7]
- ldrhsb @t[3],[r12,#-3]
- strb @x[$j+1],[r14,#-12]
- eor @x[$j+0],@t[0],@x[$j+0],lsr#8
- strb @x[$j+2],[r14,#-8]
- eor @x[$j+1],@t[1],@x[$j+1],lsr#8
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[0],[r12,#-14] @ load more input
- ldrhsb @t[1],[r12,#-10]
- strb @x[$j+3],[r14,#-4]
- eor @x[$j+2],@t[2],@x[$j+2],lsr#8
- strb @x[$j+0],[r14,#-15]
- eor @x[$j+3],@t[3],@x[$j+3],lsr#8
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[2],[r12,#-6]
- ldrhsb @t[3],[r12,#-2]
- strb @x[$j+1],[r14,#-11]
- eor @x[$j+0],@t[0],@x[$j+0],lsr#8
- strb @x[$j+2],[r14,#-7]
- eor @x[$j+1],@t[1],@x[$j+1],lsr#8
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[0],[r12,#-13] @ load more input
- ldrhsb @t[1],[r12,#-9]
- strb @x[$j+3],[r14,#-3]
- eor @x[$j+2],@t[2],@x[$j+2],lsr#8
- strb @x[$j+0],[r14,#-14]
- eor @x[$j+3],@t[3],@x[$j+3],lsr#8
- # ifdef __thumb2__
- itt hs
- # endif
- ldrhsb @t[2],[r12,#-5]
- ldrhsb @t[3],[r12,#-1]
- strb @x[$j+1],[r14,#-10]
- strb @x[$j+2],[r14,#-6]
- eor @x[$j+0],@t[0],@x[$j+0],lsr#8
- strb @x[$j+3],[r14,#-2]
- eor @x[$j+1],@t[1],@x[$j+1],lsr#8
- strb @x[$j+0],[r14,#-13]
- eor @x[$j+2],@t[2],@x[$j+2],lsr#8
- strb @x[$j+1],[r14,#-9]
- eor @x[$j+3],@t[3],@x[$j+3],lsr#8
- strb @x[$j+2],[r14,#-5]
- strb @x[$j+3],[r14,#-1]
- ___
- $code.=<<___ if ($i<12);
- add @t[0],sp,#4*(4+$i)
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- ___
- }
- $code.=<<___;
- # ifdef __thumb2__
- it ne
- # endif
- ldrne @t[0],[sp,#4*(32+2)] @ re-load len
- # ifdef __thumb2__
- it hs
- # endif
- subhs @t[3],@t[0],#64 @ len-=64
- bhi .Loop_outer
- beq .Ldone
- #endif
- .Ltail:
- ldr r12,[sp,#4*(32+1)] @ load inp
- add @t[1],sp,#4*(0)
- ldr r14,[sp,#4*(32+0)] @ load out
- .Loop_tail:
- ldrb @t[2],[@t[1]],#1 @ read buffer on stack
- ldrb @t[3],[r12],#1 @ read input
- subs @t[0],@t[0],#1
- eor @t[3],@t[3],@t[2]
- strb @t[3],[r14],#1 @ store output
- bne .Loop_tail
- .Ldone:
- add sp,sp,#4*(32+3)
- .Lno_data:
- ldmia sp!,{r4-r11,pc}
- .size ChaCha20_ctr32,.-ChaCha20_ctr32
- ___
- {{{
- my ($a0,$b0,$c0,$d0,$a1,$b1,$c1,$d1,$a2,$b2,$c2,$d2,$t0,$t1,$t2,$t3) =
- map("q$_",(0..15));
- sub NEONROUND {
- my $odd = pop;
- my ($a,$b,$c,$d,$t)=@_;
- (
- "&vadd_i32 ($a,$a,$b)",
- "&veor ($d,$d,$a)",
- "&vrev32_16 ($d,$d)", # vrot ($d,16)
- "&vadd_i32 ($c,$c,$d)",
- "&veor ($t,$b,$c)",
- "&vshr_u32 ($b,$t,20)",
- "&vsli_32 ($b,$t,12)",
- "&vadd_i32 ($a,$a,$b)",
- "&veor ($t,$d,$a)",
- "&vshr_u32 ($d,$t,24)",
- "&vsli_32 ($d,$t,8)",
- "&vadd_i32 ($c,$c,$d)",
- "&veor ($t,$b,$c)",
- "&vshr_u32 ($b,$t,25)",
- "&vsli_32 ($b,$t,7)",
- "&vext_8 ($c,$c,$c,8)",
- "&vext_8 ($b,$b,$b,$odd?12:4)",
- "&vext_8 ($d,$d,$d,$odd?4:12)"
- );
- }
- $code.=<<___;
- #if __ARM_MAX_ARCH__>=7
- .arch armv7-a
- .fpu neon
- .type ChaCha20_neon,%function
- .align 5
- ChaCha20_neon:
- ldr r12,[sp,#0] @ pull pointer to counter and nonce
- stmdb sp!,{r0-r2,r4-r11,lr}
- .LChaCha20_neon:
- adr r14,.Lsigma
- vstmdb sp!,{d8-d15} @ ABI spec says so
- stmdb sp!,{r0-r3}
- vld1.32 {$b0-$c0},[r3] @ load key
- ldmia r3,{r4-r11} @ load key
- sub sp,sp,#4*(16+16)
- vld1.32 {$d0},[r12] @ load counter and nonce
- add r12,sp,#4*8
- ldmia r14,{r0-r3} @ load sigma
- vld1.32 {$a0},[r14]! @ load sigma
- vld1.32 {$t0},[r14] @ one
- vst1.32 {$c0-$d0},[r12] @ copy 1/2key|counter|nonce
- vst1.32 {$a0-$b0},[sp] @ copy sigma|1/2key
- str r10,[sp,#4*(16+10)] @ off-load "@x[10]"
- str r11,[sp,#4*(16+11)] @ off-load "@x[11]"
- vshl.i32 $t1#lo,$t0#lo,#1 @ two
- vstr $t0#lo,[sp,#4*(16+0)]
- vshl.i32 $t2#lo,$t0#lo,#2 @ four
- vstr $t1#lo,[sp,#4*(16+2)]
- vmov $a1,$a0
- vstr $t2#lo,[sp,#4*(16+4)]
- vmov $a2,$a0
- vmov $b1,$b0
- vmov $b2,$b0
- b .Loop_neon_enter
- .align 4
- .Loop_neon_outer:
- ldmia sp,{r0-r9} @ load key material
- cmp @t[3],#64*2 @ if len<=64*2
- bls .Lbreak_neon @ switch to integer-only
- vmov $a1,$a0
- str @t[3],[sp,#4*(32+2)] @ save len
- vmov $a2,$a0
- str r12, [sp,#4*(32+1)] @ save inp
- vmov $b1,$b0
- str r14, [sp,#4*(32+0)] @ save out
- vmov $b2,$b0
- .Loop_neon_enter:
- ldr @t[3], [sp,#4*(15)]
- vadd.i32 $d1,$d0,$t0 @ counter+1
- ldr @x[12],[sp,#4*(12)] @ modulo-scheduled load
- vmov $c1,$c0
- ldr @t[2], [sp,#4*(13)]
- vmov $c2,$c0
- ldr @x[14],[sp,#4*(14)]
- vadd.i32 $d2,$d1,$t0 @ counter+2
- str @t[3], [sp,#4*(16+15)]
- mov @t[3],#10
- add @x[12],@x[12],#3 @ counter+3
- b .Loop_neon
- .align 4
- .Loop_neon:
- subs @t[3],@t[3],#1
- ___
- my @thread0=&NEONROUND($a0,$b0,$c0,$d0,$t0,0);
- my @thread1=&NEONROUND($a1,$b1,$c1,$d1,$t1,0);
- my @thread2=&NEONROUND($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=&NEONROUND($a0,$b0,$c0,$d0,$t0,1);
- @thread1=&NEONROUND($a1,$b1,$c1,$d1,$t1,1);
- @thread2=&NEONROUND($a2,$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));
- }
- $code.=<<___;
- bne .Loop_neon
- add @t[3],sp,#32
- vld1.32 {$t0-$t1},[sp] @ load key material
- vld1.32 {$t2-$t3},[@t[3]]
- ldr @t[3],[sp,#4*(32+2)] @ load len
- str @t[0], [sp,#4*(16+8)] @ modulo-scheduled store
- str @t[1], [sp,#4*(16+9)]
- str @x[12],[sp,#4*(16+12)]
- str @t[2], [sp,#4*(16+13)]
- str @x[14],[sp,#4*(16+14)]
- @ at this point we have first half of 512-bit result in
- @ @x[0-7] and second half at sp+4*(16+8)
- ldr r12,[sp,#4*(32+1)] @ load inp
- ldr r14,[sp,#4*(32+0)] @ load out
- vadd.i32 $a0,$a0,$t0 @ accumulate key material
- vadd.i32 $a1,$a1,$t0
- vadd.i32 $a2,$a2,$t0
- vldr $t0#lo,[sp,#4*(16+0)] @ one
- vadd.i32 $b0,$b0,$t1
- vadd.i32 $b1,$b1,$t1
- vadd.i32 $b2,$b2,$t1
- vldr $t1#lo,[sp,#4*(16+2)] @ two
- vadd.i32 $c0,$c0,$t2
- vadd.i32 $c1,$c1,$t2
- vadd.i32 $c2,$c2,$t2
- vadd.i32 $d1#lo,$d1#lo,$t0#lo @ counter+1
- vadd.i32 $d2#lo,$d2#lo,$t1#lo @ counter+2
- vadd.i32 $d0,$d0,$t3
- vadd.i32 $d1,$d1,$t3
- vadd.i32 $d2,$d2,$t3
- cmp @t[3],#64*4
- blo .Ltail_neon
- vld1.8 {$t0-$t1},[r12]! @ load input
- mov @t[3],sp
- vld1.8 {$t2-$t3},[r12]!
- veor $a0,$a0,$t0 @ xor with input
- veor $b0,$b0,$t1
- vld1.8 {$t0-$t1},[r12]!
- veor $c0,$c0,$t2
- veor $d0,$d0,$t3
- vld1.8 {$t2-$t3},[r12]!
- veor $a1,$a1,$t0
- vst1.8 {$a0-$b0},[r14]! @ store output
- veor $b1,$b1,$t1
- vld1.8 {$t0-$t1},[r12]!
- veor $c1,$c1,$t2
- vst1.8 {$c0-$d0},[r14]!
- veor $d1,$d1,$t3
- vld1.8 {$t2-$t3},[r12]!
- veor $a2,$a2,$t0
- vld1.32 {$a0-$b0},[@t[3]]! @ load for next iteration
- veor $t0#hi,$t0#hi,$t0#hi
- vldr $t0#lo,[sp,#4*(16+4)] @ four
- veor $b2,$b2,$t1
- vld1.32 {$c0-$d0},[@t[3]]
- veor $c2,$c2,$t2
- vst1.8 {$a1-$b1},[r14]!
- veor $d2,$d2,$t3
- vst1.8 {$c1-$d1},[r14]!
- vadd.i32 $d0#lo,$d0#lo,$t0#lo @ next counter value
- vldr $t0#lo,[sp,#4*(16+0)] @ one
- ldmia sp,{@t[0]-@t[3]} @ load key material
- add @x[0],@x[0],@t[0] @ accumulate key material
- ldr @t[0],[r12],#16 @ load input
- vst1.8 {$a2-$b2},[r14]!
- add @x[1],@x[1],@t[1]
- ldr @t[1],[r12,#-12]
- vst1.8 {$c2-$d2},[r14]!
- add @x[2],@x[2],@t[2]
- ldr @t[2],[r12,#-8]
- add @x[3],@x[3],@t[3]
- ldr @t[3],[r12,#-4]
- # ifdef __ARMEB__
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- # endif
- eor @x[0],@x[0],@t[0] @ xor with input
- add @t[0],sp,#4*(4)
- eor @x[1],@x[1],@t[1]
- str @x[0],[r14],#16 @ store output
- eor @x[2],@x[2],@t[2]
- str @x[1],[r14,#-12]
- eor @x[3],@x[3],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[2],[r14,#-8]
- str @x[3],[r14,#-4]
- add @x[4],@x[4],@t[0] @ accumulate key material
- ldr @t[0],[r12],#16 @ load input
- add @x[5],@x[5],@t[1]
- ldr @t[1],[r12,#-12]
- add @x[6],@x[6],@t[2]
- ldr @t[2],[r12,#-8]
- add @x[7],@x[7],@t[3]
- ldr @t[3],[r12,#-4]
- # ifdef __ARMEB__
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- eor @x[4],@x[4],@t[0]
- add @t[0],sp,#4*(8)
- eor @x[5],@x[5],@t[1]
- str @x[4],[r14],#16 @ store output
- eor @x[6],@x[6],@t[2]
- str @x[5],[r14,#-12]
- eor @x[7],@x[7],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[6],[r14,#-8]
- add @x[0],sp,#4*(16+8)
- str @x[7],[r14,#-4]
- ldmia @x[0],{@x[0]-@x[7]} @ load second half
- add @x[0],@x[0],@t[0] @ accumulate key material
- ldr @t[0],[r12],#16 @ load input
- add @x[1],@x[1],@t[1]
- ldr @t[1],[r12,#-12]
- # ifdef __thumb2__
- it hi
- # endif
- strhi @t[2],[sp,#4*(16+10)] @ copy "@x[10]" while at it
- add @x[2],@x[2],@t[2]
- ldr @t[2],[r12,#-8]
- # ifdef __thumb2__
- it hi
- # endif
- strhi @t[3],[sp,#4*(16+11)] @ copy "@x[11]" while at it
- add @x[3],@x[3],@t[3]
- ldr @t[3],[r12,#-4]
- # ifdef __ARMEB__
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- # endif
- eor @x[0],@x[0],@t[0]
- add @t[0],sp,#4*(12)
- eor @x[1],@x[1],@t[1]
- str @x[0],[r14],#16 @ store output
- eor @x[2],@x[2],@t[2]
- str @x[1],[r14,#-12]
- eor @x[3],@x[3],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- str @x[2],[r14,#-8]
- str @x[3],[r14,#-4]
- add @x[4],@x[4],@t[0] @ accumulate key material
- add @t[0],@t[0],#4 @ next counter value
- add @x[5],@x[5],@t[1]
- str @t[0],[sp,#4*(12)] @ save next counter value
- ldr @t[0],[r12],#16 @ load input
- add @x[6],@x[6],@t[2]
- add @x[4],@x[4],#3 @ counter+3
- ldr @t[1],[r12,#-12]
- add @x[7],@x[7],@t[3]
- ldr @t[2],[r12,#-8]
- ldr @t[3],[r12,#-4]
- # ifdef __ARMEB__
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- eor @x[4],@x[4],@t[0]
- # ifdef __thumb2__
- it hi
- # endif
- ldrhi @t[0],[sp,#4*(32+2)] @ re-load len
- eor @x[5],@x[5],@t[1]
- eor @x[6],@x[6],@t[2]
- str @x[4],[r14],#16 @ store output
- eor @x[7],@x[7],@t[3]
- str @x[5],[r14,#-12]
- sub @t[3],@t[0],#64*4 @ len-=64*4
- str @x[6],[r14,#-8]
- str @x[7],[r14,#-4]
- bhi .Loop_neon_outer
- b .Ldone_neon
- .align 4
- .Lbreak_neon:
- @ harmonize NEON and integer-only stack frames: load data
- @ from NEON frame, but save to integer-only one; distance
- @ between the two is 4*(32+4+16-32)=4*(20).
- str @t[3], [sp,#4*(20+32+2)] @ save len
- add @t[3],sp,#4*(32+4)
- str r12, [sp,#4*(20+32+1)] @ save inp
- str r14, [sp,#4*(20+32+0)] @ save out
- ldr @x[12],[sp,#4*(16+10)]
- ldr @x[14],[sp,#4*(16+11)]
- vldmia @t[3],{d8-d15} @ fulfill ABI requirement
- str @x[12],[sp,#4*(20+16+10)] @ copy "@x[10]"
- str @x[14],[sp,#4*(20+16+11)] @ copy "@x[11]"
- ldr @t[3], [sp,#4*(15)]
- ldr @x[12],[sp,#4*(12)] @ modulo-scheduled load
- ldr @t[2], [sp,#4*(13)]
- ldr @x[14],[sp,#4*(14)]
- str @t[3], [sp,#4*(20+16+15)]
- add @t[3],sp,#4*(20)
- vst1.32 {$a0-$b0},[@t[3]]! @ copy key
- add sp,sp,#4*(20) @ switch frame
- vst1.32 {$c0-$d0},[@t[3]]
- mov @t[3],#10
- b .Loop @ go integer-only
- .align 4
- .Ltail_neon:
- cmp @t[3],#64*3
- bhs .L192_or_more_neon
- cmp @t[3],#64*2
- bhs .L128_or_more_neon
- cmp @t[3],#64*1
- bhs .L64_or_more_neon
- add @t[0],sp,#4*(8)
- vst1.8 {$a0-$b0},[sp]
- add @t[2],sp,#4*(0)
- vst1.8 {$c0-$d0},[@t[0]]
- b .Loop_tail_neon
- .align 4
- .L64_or_more_neon:
- vld1.8 {$t0-$t1},[r12]!
- vld1.8 {$t2-$t3},[r12]!
- veor $a0,$a0,$t0
- veor $b0,$b0,$t1
- veor $c0,$c0,$t2
- veor $d0,$d0,$t3
- vst1.8 {$a0-$b0},[r14]!
- vst1.8 {$c0-$d0},[r14]!
- beq .Ldone_neon
- add @t[0],sp,#4*(8)
- vst1.8 {$a1-$b1},[sp]
- add @t[2],sp,#4*(0)
- vst1.8 {$c1-$d1},[@t[0]]
- sub @t[3],@t[3],#64*1 @ len-=64*1
- b .Loop_tail_neon
- .align 4
- .L128_or_more_neon:
- vld1.8 {$t0-$t1},[r12]!
- vld1.8 {$t2-$t3},[r12]!
- veor $a0,$a0,$t0
- veor $b0,$b0,$t1
- vld1.8 {$t0-$t1},[r12]!
- veor $c0,$c0,$t2
- veor $d0,$d0,$t3
- vld1.8 {$t2-$t3},[r12]!
- veor $a1,$a1,$t0
- veor $b1,$b1,$t1
- vst1.8 {$a0-$b0},[r14]!
- veor $c1,$c1,$t2
- vst1.8 {$c0-$d0},[r14]!
- veor $d1,$d1,$t3
- vst1.8 {$a1-$b1},[r14]!
- vst1.8 {$c1-$d1},[r14]!
- beq .Ldone_neon
- add @t[0],sp,#4*(8)
- vst1.8 {$a2-$b2},[sp]
- add @t[2],sp,#4*(0)
- vst1.8 {$c2-$d2},[@t[0]]
- sub @t[3],@t[3],#64*2 @ len-=64*2
- b .Loop_tail_neon
- .align 4
- .L192_or_more_neon:
- vld1.8 {$t0-$t1},[r12]!
- vld1.8 {$t2-$t3},[r12]!
- veor $a0,$a0,$t0
- veor $b0,$b0,$t1
- vld1.8 {$t0-$t1},[r12]!
- veor $c0,$c0,$t2
- veor $d0,$d0,$t3
- vld1.8 {$t2-$t3},[r12]!
- veor $a1,$a1,$t0
- veor $b1,$b1,$t1
- vld1.8 {$t0-$t1},[r12]!
- veor $c1,$c1,$t2
- vst1.8 {$a0-$b0},[r14]!
- veor $d1,$d1,$t3
- vld1.8 {$t2-$t3},[r12]!
- veor $a2,$a2,$t0
- vst1.8 {$c0-$d0},[r14]!
- veor $b2,$b2,$t1
- vst1.8 {$a1-$b1},[r14]!
- veor $c2,$c2,$t2
- vst1.8 {$c1-$d1},[r14]!
- veor $d2,$d2,$t3
- vst1.8 {$a2-$b2},[r14]!
- vst1.8 {$c2-$d2},[r14]!
- beq .Ldone_neon
- ldmia sp,{@t[0]-@t[3]} @ load key material
- add @x[0],@x[0],@t[0] @ accumulate key material
- add @t[0],sp,#4*(4)
- add @x[1],@x[1],@t[1]
- add @x[2],@x[2],@t[2]
- add @x[3],@x[3],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- add @x[4],@x[4],@t[0] @ accumulate key material
- add @t[0],sp,#4*(8)
- add @x[5],@x[5],@t[1]
- add @x[6],@x[6],@t[2]
- add @x[7],@x[7],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- # ifdef __ARMEB__
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- stmia sp,{@x[0]-@x[7]}
- add @x[0],sp,#4*(16+8)
- ldmia @x[0],{@x[0]-@x[7]} @ load second half
- add @x[0],@x[0],@t[0] @ accumulate key material
- add @t[0],sp,#4*(12)
- add @x[1],@x[1],@t[1]
- add @x[2],@x[2],@t[2]
- add @x[3],@x[3],@t[3]
- ldmia @t[0],{@t[0]-@t[3]} @ load key material
- add @x[4],@x[4],@t[0] @ accumulate key material
- add @t[0],sp,#4*(8)
- add @x[5],@x[5],@t[1]
- add @x[4],@x[4],#3 @ counter+3
- add @x[6],@x[6],@t[2]
- add @x[7],@x[7],@t[3]
- ldr @t[3],[sp,#4*(32+2)] @ re-load len
- # ifdef __ARMEB__
- rev @x[0],@x[0]
- rev @x[1],@x[1]
- rev @x[2],@x[2]
- rev @x[3],@x[3]
- rev @x[4],@x[4]
- rev @x[5],@x[5]
- rev @x[6],@x[6]
- rev @x[7],@x[7]
- # endif
- stmia @t[0],{@x[0]-@x[7]}
- add @t[2],sp,#4*(0)
- sub @t[3],@t[3],#64*3 @ len-=64*3
- .Loop_tail_neon:
- ldrb @t[0],[@t[2]],#1 @ read buffer on stack
- ldrb @t[1],[r12],#1 @ read input
- subs @t[3],@t[3],#1
- eor @t[0],@t[0],@t[1]
- strb @t[0],[r14],#1 @ store output
- bne .Loop_tail_neon
- .Ldone_neon:
- add sp,sp,#4*(32+4)
- vldmia sp,{d8-d15}
- add sp,sp,#4*(16+3)
- ldmia sp!,{r4-r11,pc}
- .size ChaCha20_neon,.-ChaCha20_neon
- .comm OPENSSL_armcap_P,4,4
- #endif
- ___
- }}}
- foreach (split("\n",$code)) {
- s/\`([^\`]*)\`/eval $1/geo;
- s/\bq([0-9]+)#(lo|hi)/sprintf "d%d",2*$1+($2 eq "hi")/geo;
- print $_,"\n";
- }
- close STDOUT or die "error closing STDOUT: $!";
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