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|
#!/usr/bin/env perl
#
# ====================================================================
# 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 support for ARMv8 AES instructions. The
# module is endian-agnostic in sense that it supports both big- and
# little-endian cases. As does it support both 32- and 64-bit modes
# of operation. Latter is achieved by limiting amount of utilized
# registers to 16, which implies additional NEON load and integer
# instructions. This has no effect on mighty Apple A7, where results
# are literally equal to the theoretical estimates based on AES
# instruction latencies and issue rates. On Cortex-A53, an in-order
# execution core, this costs up to 10-15%, which is partially
# compensated by implementing dedicated code path for 128-bit
# CBC encrypt case. On Cortex-A57 parallelizable mode performance
# seems to be limited by sheer amount of NEON instructions...
#
# Performance in cycles per byte processed with 128-bit key:
#
# CBC enc CBC dec CTR
# Apple A7 2.39 1.20 1.20
# Cortex-A53 2.45 1.87 1.94
# Cortex-A57 3.64 1.34 1.32
$flavour = shift;
open STDOUT,">".shift;
$prefix="aes_v8";
$code=<<___;
#include "arm_arch.h"
#if __ARM_MAX_ARCH__>=7
.text
___
$code.=".arch armv8-a+crypto\n" if ($flavour =~ /64/);
$code.=".arch armv7-a\n.fpu neon\n.code 32\n" if ($flavour !~ /64/);
#^^^^^^ this is done to simplify adoption by not depending
# on latest binutils.
# Assembler mnemonics are an eclectic mix of 32- and 64-bit syntax,
# NEON is mostly 32-bit mnemonics, integer - mostly 64. Goal is to
# maintain both 32- and 64-bit codes within single module and
# transliterate common code to either flavour with regex vodoo.
#
{{{
my ($inp,$bits,$out,$ptr,$rounds)=("x0","w1","x2","x3","w12");
my ($zero,$rcon,$mask,$in0,$in1,$tmp,$key)=
$flavour=~/64/? map("q$_",(0..6)) : map("q$_",(0..3,8..10));
$code.=<<___;
.align 5
rcon:
.long 0x01,0x01,0x01,0x01
.long 0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d // rotate-n-splat
.long 0x1b,0x1b,0x1b,0x1b
.globl ${prefix}_set_encrypt_key
.type ${prefix}_set_encrypt_key,%function
.align 5
${prefix}_set_encrypt_key:
.Lenc_key:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___;
mov $ptr,#-1
cmp $inp,#0
b.eq .Lenc_key_abort
cmp $out,#0
b.eq .Lenc_key_abort
mov $ptr,#-2
cmp $bits,#128
b.lt .Lenc_key_abort
cmp $bits,#256
b.gt .Lenc_key_abort
tst $bits,#0x3f
b.ne .Lenc_key_abort
adr $ptr,rcon
cmp $bits,#192
veor $zero,$zero,$zero
vld1.8 {$in0},[$inp],#16
mov $bits,#8 // reuse $bits
vld1.32 {$rcon,$mask},[$ptr],#32
b.lt .Loop128
b.eq .L192
b .L256
.align 4
.Loop128:
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
b.ne .Loop128
vld1.32 {$rcon},[$ptr]
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
veor $in0,$in0,$key
vst1.32 {$in0},[$out]
add $out,$out,#0x50
mov $rounds,#10
b .Ldone
.align 4
.L192:
vld1.8 {$in1},[$inp],#8
vmov.i8 $key,#8 // borrow $key
vst1.32 {$in0},[$out],#16
vsub.i8 $mask,$mask,$key // adjust the mask
.Loop192:
vtbl.8 $key,{$in1},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in1},[$out],#8
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vdup.32 $tmp,${in0}[3]
veor $tmp,$tmp,$in1
veor $key,$key,$rcon
vext.8 $in1,$zero,$in1,#12
vshl.u8 $rcon,$rcon,#1
veor $in1,$in1,$tmp
veor $in0,$in0,$key
veor $in1,$in1,$key
vst1.32 {$in0},[$out],#16
b.ne .Loop192
mov $rounds,#12
add $out,$out,#0x20
b .Ldone
.align 4
.L256:
vld1.8 {$in1},[$inp]
mov $bits,#7
mov $rounds,#14
vst1.32 {$in0},[$out],#16
.Loop256:
vtbl.8 $key,{$in1},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in1},[$out],#16
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
vst1.32 {$in0},[$out],#16
b.eq .Ldone
vdup.32 $key,${in0}[3] // just splat
vext.8 $tmp,$zero,$in1,#12
aese $key,$zero
veor $in1,$in1,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in1,$in1,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in1,$in1,$tmp
veor $in1,$in1,$key
b .Loop256
.Ldone:
str $rounds,[$out]
mov $ptr,#0
.Lenc_key_abort:
mov x0,$ptr // return value
`"ldr x29,[sp],#16" if ($flavour =~ /64/)`
ret
.size ${prefix}_set_encrypt_key,.-${prefix}_set_encrypt_key
.globl ${prefix}_set_decrypt_key
.type ${prefix}_set_decrypt_key,%function
.align 5
${prefix}_set_decrypt_key:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
stmdb sp!,{r4,lr}
___
$code.=<<___;
bl .Lenc_key
cmp x0,#0
b.ne .Ldec_key_abort
sub $out,$out,#240 // restore original $out
mov x4,#-16
add $inp,$out,x12,lsl#4 // end of key schedule
vld1.32 {v0.16b},[$out]
vld1.32 {v1.16b},[$inp]
vst1.32 {v0.16b},[$inp],x4
vst1.32 {v1.16b},[$out],#16
.Loop_imc:
vld1.32 {v0.16b},[$out]
vld1.32 {v1.16b},[$inp]
aesimc v0.16b,v0.16b
aesimc v1.16b,v1.16b
vst1.32 {v0.16b},[$inp],x4
vst1.32 {v1.16b},[$out],#16
cmp $inp,$out
b.hi .Loop_imc
vld1.32 {v0.16b},[$out]
aesimc v0.16b,v0.16b
vst1.32 {v0.16b},[$inp]
eor x0,x0,x0 // return value
.Ldec_key_abort:
___
$code.=<<___ if ($flavour !~ /64/);
ldmia sp!,{r4,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldp x29,x30,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_set_decrypt_key,.-${prefix}_set_decrypt_key
___
}}}
{{{
sub gen_block () {
my $dir = shift;
my ($e,$mc) = $dir eq "en" ? ("e","mc") : ("d","imc");
my ($inp,$out,$key)=map("x$_",(0..2));
my $rounds="w3";
my ($rndkey0,$rndkey1,$inout)=map("q$_",(0..3));
$code.=<<___;
.globl ${prefix}_${dir}crypt
.type ${prefix}_${dir}crypt,%function
.align 5
${prefix}_${dir}crypt:
ldr $rounds,[$key,#240]
vld1.32 {$rndkey0},[$key],#16
vld1.8 {$inout},[$inp]
sub $rounds,$rounds,#2
vld1.32 {$rndkey1},[$key],#16
.Loop_${dir}c:
aes$e $inout,$rndkey0
vld1.32 {$rndkey0},[$key],#16
aes$mc $inout,$inout
subs $rounds,$rounds,#2
aes$e $inout,$rndkey1
vld1.32 {$rndkey1},[$key],#16
aes$mc $inout,$inout
b.gt .Loop_${dir}c
aes$e $inout,$rndkey0
vld1.32 {$rndkey0},[$key]
aes$mc $inout,$inout
aes$e $inout,$rndkey1
veor $inout,$inout,$rndkey0
vst1.8 {$inout},[$out]
ret
.size ${prefix}_${dir}crypt,.-${prefix}_${dir}crypt
___
}
&gen_block("en");
&gen_block("de");
}}}
{{{
my ($inp,$out,$len,$key,$ivp)=map("x$_",(0..4)); my $enc="w5";
my ($rounds,$cnt,$key_,$step,$step1)=($enc,"w6","x7","x8","x12");
my ($dat0,$dat1,$in0,$in1,$tmp0,$tmp1,$ivec,$rndlast)=map("q$_",(0..7));
my ($dat,$tmp,$rndzero_n_last)=($dat0,$tmp0,$tmp1);
### q8-q15 preloaded key schedule
$code.=<<___;
.globl ${prefix}_cbc_encrypt
.type ${prefix}_cbc_encrypt,%function
.align 5
${prefix}_cbc_encrypt:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
mov ip,sp
stmdb sp!,{r4-r8,lr}
vstmdb sp!,{d8-d15} @ ABI specification says so
ldmia ip,{r4-r5} @ load remaining args
___
$code.=<<___;
subs $len,$len,#16
mov $step,#16
b.lo .Lcbc_abort
cclr $step,eq
cmp $enc,#0 // en- or decrypting?
ldr $rounds,[$key,#240]
and $len,$len,#-16
vld1.8 {$ivec},[$ivp]
vld1.8 {$dat},[$inp],$step
vld1.32 {q8-q9},[$key] // load key schedule...
sub $rounds,$rounds,#6
add $key_,$key,x5,lsl#4 // pointer to last 7 round keys
sub $rounds,$rounds,#2
vld1.32 {q10-q11},[$key_],#32
vld1.32 {q12-q13},[$key_],#32
vld1.32 {q14-q15},[$key_],#32
vld1.32 {$rndlast},[$key_]
add $key_,$key,#32
mov $cnt,$rounds
b.eq .Lcbc_dec
cmp $rounds,#2
veor $dat,$dat,$ivec
veor $rndzero_n_last,q8,$rndlast
b.eq .Lcbc_enc128
.Loop_cbc_enc:
aese $dat,q8
vld1.32 {q8},[$key_],#16
aesmc $dat,$dat
subs $cnt,$cnt,#2
aese $dat,q9
vld1.32 {q9},[$key_],#16
aesmc $dat,$dat
b.gt .Loop_cbc_enc
aese $dat,q8
aesmc $dat,$dat
subs $len,$len,#16
aese $dat,q9
aesmc $dat,$dat
cclr $step,eq
aese $dat,q10
aesmc $dat,$dat
add $key_,$key,#16
aese $dat,q11
aesmc $dat,$dat
vld1.8 {q8},[$inp],$step
aese $dat,q12
aesmc $dat,$dat
veor q8,q8,$rndzero_n_last
aese $dat,q13
aesmc $dat,$dat
vld1.32 {q9},[$key_],#16 // re-pre-load rndkey[1]
aese $dat,q14
aesmc $dat,$dat
aese $dat,q15
mov $cnt,$rounds
veor $ivec,$dat,$rndlast
vst1.8 {$ivec},[$out],#16
b.hs .Loop_cbc_enc
b .Lcbc_done
.align 5
.Lcbc_enc128:
vld1.32 {$in0-$in1},[$key_]
aese $dat,q8
aesmc $dat,$dat
b .Lenter_cbc_enc128
.Loop_cbc_enc128:
aese $dat,q8
aesmc $dat,$dat
vst1.8 {$ivec},[$out],#16
.Lenter_cbc_enc128:
aese $dat,q9
aesmc $dat,$dat
subs $len,$len,#16
aese $dat,$in0
aesmc $dat,$dat
cclr $step,eq
aese $dat,$in1
aesmc $dat,$dat
aese $dat,q10
aesmc $dat,$dat
aese $dat,q11
aesmc $dat,$dat
vld1.8 {q8},[$inp],$step
aese $dat,q12
aesmc $dat,$dat
aese $dat,q13
aesmc $dat,$dat
aese $dat,q14
aesmc $dat,$dat
veor q8,q8,$rndzero_n_last
aese $dat,q15
veor $ivec,$dat,$rndlast
b.hs .Loop_cbc_enc128
vst1.8 {$ivec},[$out],#16
b .Lcbc_done
___
{
my ($dat2,$in2,$tmp2)=map("q$_",(10,11,9));
$code.=<<___;
.align 5
.Lcbc_dec:
vld1.8 {$dat2},[$inp],#16
subs $len,$len,#32 // bias
add $cnt,$rounds,#2
vorr $in1,$dat,$dat
vorr $dat1,$dat,$dat
vorr $in2,$dat2,$dat2
b.lo .Lcbc_dec_tail
vorr $dat1,$dat2,$dat2
vld1.8 {$dat2},[$inp],#16
vorr $in0,$dat,$dat
vorr $in1,$dat1,$dat1
vorr $in2,$dat2,$dat2
.Loop3x_cbc_dec:
aesd $dat0,q8
aesd $dat1,q8
aesd $dat2,q8
vld1.32 {q8},[$key_],#16
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
subs $cnt,$cnt,#2
aesd $dat0,q9
aesd $dat1,q9
aesd $dat2,q9
vld1.32 {q9},[$key_],#16
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
b.gt .Loop3x_cbc_dec
aesd $dat0,q8
aesd $dat1,q8
aesd $dat2,q8
veor $tmp0,$ivec,$rndlast
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
veor $tmp1,$in0,$rndlast
aesd $dat0,q9
aesd $dat1,q9
aesd $dat2,q9
veor $tmp2,$in1,$rndlast
subs $len,$len,#0x30
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
vorr $ivec,$in2,$in2
mov.lo x6,$len // x6, $cnt, is zero at this point
aesd $dat0,q12
aesd $dat1,q12
aesd $dat2,q12
add $inp,$inp,x6 // $inp is adjusted in such way that
// at exit from the loop $dat1-$dat2
// are loaded with last "words"
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
mov $key_,$key
aesd $dat0,q13
aesd $dat1,q13
aesd $dat2,q13
vld1.8 {$in0},[$inp],#16
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
vld1.8 {$in1},[$inp],#16
aesd $dat0,q14
aesd $dat1,q14
aesd $dat2,q14
vld1.8 {$in2},[$inp],#16
aesimc $dat0,$dat0
aesimc $dat1,$dat1
aesimc $dat2,$dat2
vld1.32 {q8},[$key_],#16 // re-pre-load rndkey[0]
aesd $dat0,q15
aesd $dat1,q15
aesd $dat2,q15
add $cnt,$rounds,#2
veor $tmp0,$tmp0,$dat0
veor $tmp1,$tmp1,$dat1
veor $dat2,$dat2,$tmp2
vld1.32 {q9},[$key_],#16 // re-pre-load rndkey[1]
vorr $dat0,$in0,$in0
vst1.8 {$tmp0},[$out],#16
vorr $dat1,$in1,$in1
vst1.8 {$tmp1},[$out],#16
vst1.8 {$dat2},[$out],#16
vorr $dat2,$in2,$in2
b.hs .Loop3x_cbc_dec
cmn $len,#0x30
b.eq .Lcbc_done
nop
.Lcbc_dec_tail:
aesd $dat1,q8
aesd $dat2,q8
vld1.32 {q8},[$key_],#16
aesimc $dat1,$dat1
aesimc $dat2,$dat2
subs $cnt,$cnt,#2
aesd $dat1,q9
aesd $dat2,q9
vld1.32 {q9},[$key_],#16
aesimc $dat1,$dat1
aesimc $dat2,$dat2
b.gt .Lcbc_dec_tail
aesd $dat1,q8
aesd $dat2,q8
aesimc $dat1,$dat1
aesimc $dat2,$dat2
aesd $dat1,q9
aesd $dat2,q9
aesimc $dat1,$dat1
aesimc $dat2,$dat2
aesd $dat1,q12
aesd $dat2,q12
aesimc $dat1,$dat1
aesimc $dat2,$dat2
cmn $len,#0x20
aesd $dat1,q13
aesd $dat2,q13
aesimc $dat1,$dat1
aesimc $dat2,$dat2
veor $tmp1,$ivec,$rndlast
aesd $dat1,q14
aesd $dat2,q14
aesimc $dat1,$dat1
aesimc $dat2,$dat2
veor $tmp2,$in1,$rndlast
aesd $dat1,q15
aesd $dat2,q15
b.eq .Lcbc_dec_one
veor $tmp1,$tmp1,$dat1
veor $tmp2,$tmp2,$dat2
vorr $ivec,$in2,$in2
vst1.8 {$tmp1},[$out],#16
vst1.8 {$tmp2},[$out],#16
b .Lcbc_done
.Lcbc_dec_one:
veor $tmp1,$tmp1,$dat2
vorr $ivec,$in2,$in2
vst1.8 {$tmp1},[$out],#16
.Lcbc_done:
vst1.8 {$ivec},[$ivp]
.Lcbc_abort:
___
}
$code.=<<___ if ($flavour !~ /64/);
vldmia sp!,{d8-d15}
ldmia sp!,{r4-r8,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldr x29,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_cbc_encrypt,.-${prefix}_cbc_encrypt
___
}}}
{{{
my ($inp,$out,$len,$key,$ivp)=map("x$_",(0..4));
my ($rounds,$cnt,$key_)=("w5","w6","x7");
my ($ctr,$tctr0,$tctr1,$tctr2)=map("w$_",(8..10,12));
my $step="x12"; # aliases with $tctr2
my ($dat0,$dat1,$in0,$in1,$tmp0,$tmp1,$ivec,$rndlast)=map("q$_",(0..7));
my ($dat2,$in2,$tmp2)=map("q$_",(10,11,9));
my ($dat,$tmp)=($dat0,$tmp0);
### q8-q15 preloaded key schedule
$code.=<<___;
.globl ${prefix}_ctr32_encrypt_blocks
.type ${prefix}_ctr32_encrypt_blocks,%function
.align 5
${prefix}_ctr32_encrypt_blocks:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
mov ip,sp
stmdb sp!,{r4-r10,lr}
vstmdb sp!,{d8-d15} @ ABI specification says so
ldr r4, [ip] @ load remaining arg
___
$code.=<<___;
ldr $rounds,[$key,#240]
ldr $ctr, [$ivp, #12]
vld1.32 {$dat0},[$ivp]
vld1.32 {q8-q9},[$key] // load key schedule...
sub $rounds,$rounds,#4
mov $step,#16
cmp $len,#2
add $key_,$key,x5,lsl#4 // pointer to last 5 round keys
sub $rounds,$rounds,#2
vld1.32 {q12-q13},[$key_],#32
vld1.32 {q14-q15},[$key_],#32
vld1.32 {$rndlast},[$key_]
add $key_,$key,#32
mov $cnt,$rounds
cclr $step,lo
#ifndef __ARMEB__
rev $ctr, $ctr
#endif
vorr $dat1,$dat0,$dat0
add $tctr1, $ctr, #1
vorr $dat2,$dat0,$dat0
add $ctr, $ctr, #2
vorr $ivec,$dat0,$dat0
rev $tctr1, $tctr1
vmov.32 ${dat1}[3],$tctr1
b.ls .Lctr32_tail
rev $tctr2, $ctr
sub $len,$len,#3 // bias
vmov.32 ${dat2}[3],$tctr2
b .Loop3x_ctr32
.align 4
.Loop3x_ctr32:
aese $dat0,q8
aese $dat1,q8
aese $dat2,q8
vld1.32 {q8},[$key_],#16
aesmc $dat0,$dat0
aesmc $dat1,$dat1
aesmc $dat2,$dat2
subs $cnt,$cnt,#2
aese $dat0,q9
aese $dat1,q9
aese $dat2,q9
vld1.32 {q9},[$key_],#16
aesmc $dat0,$dat0
aesmc $dat1,$dat1
aesmc $dat2,$dat2
b.gt .Loop3x_ctr32
aese $dat0,q8
aese $dat1,q8
aese $dat2,q8
mov $key_,$key
aesmc $tmp0,$dat0
vld1.8 {$in0},[$inp],#16
aesmc $tmp1,$dat1
aesmc $dat2,$dat2
vorr $dat0,$ivec,$ivec
aese $tmp0,q9
vld1.8 {$in1},[$inp],#16
aese $tmp1,q9
aese $dat2,q9
vorr $dat1,$ivec,$ivec
aesmc $tmp0,$tmp0
vld1.8 {$in2},[$inp],#16
aesmc $tmp1,$tmp1
aesmc $tmp2,$dat2
vorr $dat2,$ivec,$ivec
add $tctr0,$ctr,#1
aese $tmp0,q12
aese $tmp1,q12
aese $tmp2,q12
veor $in0,$in0,$rndlast
add $tctr1,$ctr,#2
aesmc $tmp0,$tmp0
aesmc $tmp1,$tmp1
aesmc $tmp2,$tmp2
veor $in1,$in1,$rndlast
add $ctr,$ctr,#3
aese $tmp0,q13
aese $tmp1,q13
aese $tmp2,q13
veor $in2,$in2,$rndlast
rev $tctr0,$tctr0
aesmc $tmp0,$tmp0
vld1.32 {q8},[$key_],#16 // re-pre-load rndkey[0]
aesmc $tmp1,$tmp1
aesmc $tmp2,$tmp2
vmov.32 ${dat0}[3], $tctr0
rev $tctr1,$tctr1
aese $tmp0,q14
aese $tmp1,q14
aese $tmp2,q14
vmov.32 ${dat1}[3], $tctr1
rev $tctr2,$ctr
aesmc $tmp0,$tmp0
aesmc $tmp1,$tmp1
aesmc $tmp2,$tmp2
vmov.32 ${dat2}[3], $tctr2
subs $len,$len,#3
aese $tmp0,q15
aese $tmp1,q15
aese $tmp2,q15
mov $cnt,$rounds
veor $in0,$in0,$tmp0
veor $in1,$in1,$tmp1
veor $in2,$in2,$tmp2
vld1.32 {q9},[$key_],#16 // re-pre-load rndkey[1]
vst1.8 {$in0},[$out],#16
vst1.8 {$in1},[$out],#16
vst1.8 {$in2},[$out],#16
b.hs .Loop3x_ctr32
adds $len,$len,#3
b.eq .Lctr32_done
cmp $len,#1
mov $step,#16
cclr $step,eq
.Lctr32_tail:
aese $dat0,q8
aese $dat1,q8
vld1.32 {q8},[$key_],#16
aesmc $dat0,$dat0
aesmc $dat1,$dat1
subs $cnt,$cnt,#2
aese $dat0,q9
aese $dat1,q9
vld1.32 {q9},[$key_],#16
aesmc $dat0,$dat0
aesmc $dat1,$dat1
b.gt .Lctr32_tail
aese $dat0,q8
aese $dat1,q8
aesmc $dat0,$dat0
aesmc $dat1,$dat1
aese $dat0,q9
aese $dat1,q9
aesmc $dat0,$dat0
aesmc $dat1,$dat1
vld1.8 {$in0},[$inp],$step
aese $dat0,q12
aese $dat1,q12
vld1.8 {$in1},[$inp]
aesmc $dat0,$dat0
aesmc $dat1,$dat1
aese $dat0,q13
aese $dat1,q13
aesmc $dat0,$dat0
aesmc $dat1,$dat1
aese $dat0,q14
aese $dat1,q14
veor $in0,$in0,$rndlast
aesmc $dat0,$dat0
aesmc $dat1,$dat1
veor $in1,$in1,$rndlast
aese $dat0,q15
aese $dat1,q15
cmp $len,#1
veor $in0,$in0,$dat0
veor $in1,$in1,$dat1
vst1.8 {$in0},[$out],#16
b.eq .Lctr32_done
vst1.8 {$in1},[$out]
.Lctr32_done:
___
$code.=<<___ if ($flavour !~ /64/);
vldmia sp!,{d8-d15}
ldmia sp!,{r4-r10,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldr x29,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_ctr32_encrypt_blocks,.-${prefix}_ctr32_encrypt_blocks
___
}}}
$code.=<<___;
#endif
___
########################################
if ($flavour =~ /64/) { ######## 64-bit code
my %opcode = (
"aesd" => 0x4e285800, "aese" => 0x4e284800,
"aesimc"=> 0x4e287800, "aesmc" => 0x4e286800 );
local *unaes = sub {
my ($mnemonic,$arg)=@_;
$arg =~ m/[qv]([0-9]+)[^,]*,\s*[qv]([0-9]+)/o &&
sprintf ".inst\t0x%08x\t//%s %s",
$opcode{$mnemonic}|$1|($2<<5),
$mnemonic,$arg;
};
foreach(split("\n",$code)) {
s/\`([^\`]*)\`/eval($1)/geo;
s/\bq([0-9]+)\b/"v".($1<8?$1:$1+8).".16b"/geo; # old->new registers
s/@\s/\/\//o; # old->new style commentary
#s/[v]?(aes\w+)\s+([qv].*)/unaes($1,$2)/geo or
s/cclr\s+([wx])([^,]+),\s*([a-z]+)/csel $1$2,$1zr,$1$2,$3/o or
s/mov\.([a-z]+)\s+([wx][0-9]+),\s*([wx][0-9]+)/csel $2,$3,$2,$1/o or
s/vmov\.i8/movi/o or # fix up legacy mnemonics
s/vext\.8/ext/o or
s/vrev32\.8/rev32/o or
s/vtst\.8/cmtst/o or
s/vshr/ushr/o or
s/^(\s+)v/$1/o or # strip off v prefix
s/\bbx\s+lr\b/ret/o;
# fix up remainig legacy suffixes
s/\.[ui]?8//o;
m/\],#8/o and s/\.16b/\.8b/go;
s/\.[ui]?32//o and s/\.16b/\.4s/go;
s/\.[ui]?64//o and s/\.16b/\.2d/go;
s/\.[42]([sd])\[([0-3])\]/\.$1\[$2\]/o;
print $_,"\n";
}
} else { ######## 32-bit code
my %opcode = (
"aesd" => 0xf3b00340, "aese" => 0xf3b00300,
"aesimc"=> 0xf3b003c0, "aesmc" => 0xf3b00380 );
local *unaes = sub {
my ($mnemonic,$arg)=@_;
if ($arg =~ m/[qv]([0-9]+)[^,]*,\s*[qv]([0-9]+)/o) {
my $word = $opcode{$mnemonic}|(($1&7)<<13)|(($1&8)<<19)
|(($2&7)<<1) |(($2&8)<<2);
# since ARMv7 instructions are always encoded little-endian.
# correct solution is to use .inst directive, but older
# assemblers don't implement it:-(
sprintf ".byte\t0x%02x,0x%02x,0x%02x,0x%02x\t@ %s %s",
$word&0xff,($word>>8)&0xff,
($word>>16)&0xff,($word>>24)&0xff,
$mnemonic,$arg;
}
};
sub unvtbl {
my $arg=shift;
$arg =~ m/q([0-9]+),\s*\{q([0-9]+)\},\s*q([0-9]+)/o &&
sprintf "vtbl.8 d%d,{q%d},d%d\n\t".
"vtbl.8 d%d,{q%d},d%d", 2*$1,$2,2*$3, 2*$1+1,$2,2*$3+1;
}
sub unvdup32 {
my $arg=shift;
$arg =~ m/q([0-9]+),\s*q([0-9]+)\[([0-3])\]/o &&
sprintf "vdup.32 q%d,d%d[%d]",$1,2*$2+($3>>1),$3&1;
}
sub unvmov32 {
my $arg=shift;
$arg =~ m/q([0-9]+)\[([0-3])\],(.*)/o &&
sprintf "vmov.32 d%d[%d],%s",2*$1+($2>>1),$2&1,$3;
}
foreach(split("\n",$code)) {
s/\`([^\`]*)\`/eval($1)/geo;
s/\b[wx]([0-9]+)\b/r$1/go; # new->old registers
s/\bv([0-9])\.[12468]+[bsd]\b/q$1/go; # new->old registers
s/\/\/\s?/@ /o; # new->old style commentary
# fix up remainig new-style suffixes
s/\{q([0-9]+)\},\s*\[(.+)\],#8/sprintf "{d%d},[$2]!",2*$1/eo or
s/\],#[0-9]+/]!/o;
s/[v]?(aes\w+)\s+([qv].*)/unaes($1,$2)/geo or
s/cclr\s+([^,]+),\s*([a-z]+)/mov$2 $1,#0/o or
s/vtbl\.8\s+(.*)/unvtbl($1)/geo or
s/vdup\.32\s+(.*)/unvdup32($1)/geo or
s/vmov\.32\s+(.*)/unvmov32($1)/geo or
s/^(\s+)b\./$1b/o or
s/^(\s+)mov\./$1mov/o or
s/^(\s+)ret/$1bx\tlr/o;
print $_,"\n";
}
}
close STDOUT;
|