Nagram/TMessagesProj/jni/boringssl/crypto/fipsmodule/aes/asm/aesni-x86.pl
2019-12-31 16:08:08 +03:00

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#! /usr/bin/env perl
# Copyright 2009-2016 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
# ====================================================================
# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
# project. The module is, however, dual licensed under OpenSSL and
# CRYPTOGAMS licenses depending on where you obtain it. For further
# details see http://www.openssl.org/~appro/cryptogams/.
# ====================================================================
#
# This module implements support for Intel AES-NI extension. In
# OpenSSL context it's used with Intel engine, but can also be used as
# drop-in replacement for crypto/aes/asm/aes-586.pl [see below for
# details].
#
# Performance.
#
# To start with see corresponding paragraph in aesni-x86_64.pl...
# Instead of filling table similar to one found there I've chosen to
# summarize *comparison* results for raw ECB, CTR and CBC benchmarks.
# The simplified table below represents 32-bit performance relative
# to 64-bit one in every given point. Ratios vary for different
# encryption modes, therefore interval values.
#
# 16-byte 64-byte 256-byte 1-KB 8-KB
# 53-67% 67-84% 91-94% 95-98% 97-99.5%
#
# Lower ratios for smaller block sizes are perfectly understandable,
# because function call overhead is higher in 32-bit mode. Largest
# 8-KB block performance is virtually same: 32-bit code is less than
# 1% slower for ECB, CBC and CCM, and ~3% slower otherwise.
# January 2011
#
# See aesni-x86_64.pl for details. Unlike x86_64 version this module
# interleaves at most 6 aes[enc|dec] instructions, because there are
# not enough registers for 8x interleave [which should be optimal for
# Sandy Bridge]. Actually, performance results for 6x interleave
# factor presented in aesni-x86_64.pl (except for CTR) are for this
# module.
# April 2011
#
# Add aesni_xts_[en|de]crypt. Westmere spends 1.50 cycles processing
# one byte out of 8KB with 128-bit key, Sandy Bridge - 1.09.
# November 2015
#
# Add aesni_ocb_[en|de]crypt. [Removed in BoringSSL]
######################################################################
# Current large-block performance in cycles per byte processed with
# 128-bit key (less is better).
#
# CBC en-/decrypt CTR XTS ECB OCB
# Westmere 3.77/1.37 1.37 1.52 1.27
# * Bridge 5.07/0.98 0.99 1.09 0.91 1.10
# Haswell 4.44/0.80 0.97 1.03 0.72 0.76
# Skylake 2.68/0.65 0.65 0.66 0.64 0.66
# Silvermont 5.77/3.56 3.67 4.03 3.46 4.03
# Goldmont 3.84/1.39 1.39 1.63 1.31 1.70
# Bulldozer 5.80/0.98 1.05 1.24 0.93 1.23
$PREFIX="aes_hw"; # if $PREFIX is set to "AES", the script
# generates drop-in replacement for
# crypto/aes/asm/aes-586.pl:-)
$AESNI_PREFIX="aes_hw";
$inline=1; # inline _aesni_[en|de]crypt
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
push(@INC,"${dir}","${dir}../../../perlasm");
require "x86asm.pl";
$output = pop;
open OUT,">$output";
*STDOUT=*OUT;
&asm_init($ARGV[0]);
&external_label("OPENSSL_ia32cap_P");
&preprocessor_ifndef("NDEBUG")
&external_label("BORINGSSL_function_hit");
&preprocessor_endif();
&static_label("key_const");
if ($PREFIX eq $AESNI_PREFIX) { $movekey=\&movups; }
else { $movekey=\&movups; }
$len="eax";
$rounds="ecx";
$key="edx";
$inp="esi";
$out="edi";
$rounds_="ebx"; # backup copy for $rounds
$key_="ebp"; # backup copy for $key
$rndkey0="xmm0";
$rndkey1="xmm1";
$inout0="xmm2";
$inout1="xmm3";
$inout2="xmm4";
$inout3="xmm5"; $in1="xmm5";
$inout4="xmm6"; $in0="xmm6";
$inout5="xmm7"; $ivec="xmm7";
# AESNI extension
sub aeskeygenassist
{ my($dst,$src,$imm)=@_;
if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/)
{ &data_byte(0x66,0x0f,0x3a,0xdf,0xc0|($1<<3)|$2,$imm); }
}
sub aescommon
{ my($opcodelet,$dst,$src)=@_;
if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/)
{ &data_byte(0x66,0x0f,0x38,$opcodelet,0xc0|($1<<3)|$2);}
}
sub aesimc { aescommon(0xdb,@_); }
sub aesenc { aescommon(0xdc,@_); }
sub aesenclast { aescommon(0xdd,@_); }
sub aesdec { aescommon(0xde,@_); }
sub aesdeclast { aescommon(0xdf,@_); }
# Inline version of internal aesni_[en|de]crypt1
{ my $sn;
sub aesni_inline_generate1
{ my ($p,$inout,$ivec)=@_; $inout=$inout0 if (!defined($inout));
$sn++;
&$movekey ($rndkey0,&QWP(0,$key));
&$movekey ($rndkey1,&QWP(16,$key));
&xorps ($ivec,$rndkey0) if (defined($ivec));
&lea ($key,&DWP(32,$key));
&xorps ($inout,$ivec) if (defined($ivec));
&xorps ($inout,$rndkey0) if (!defined($ivec));
&set_label("${p}1_loop_$sn");
eval"&aes${p} ($inout,$rndkey1)";
&dec ($rounds);
&$movekey ($rndkey1,&QWP(0,$key));
&lea ($key,&DWP(16,$key));
&jnz (&label("${p}1_loop_$sn"));
eval"&aes${p}last ($inout,$rndkey1)";
}}
sub aesni_generate1 # fully unrolled loop
{ my ($p,$inout)=@_; $inout=$inout0 if (!defined($inout));
&function_begin_B("_aesni_${p}rypt1");
&movups ($rndkey0,&QWP(0,$key));
&$movekey ($rndkey1,&QWP(0x10,$key));
&xorps ($inout,$rndkey0);
&$movekey ($rndkey0,&QWP(0x20,$key));
&lea ($key,&DWP(0x30,$key));
&cmp ($rounds,11);
&jb (&label("${p}128"));
&lea ($key,&DWP(0x20,$key));
&je (&label("${p}192"));
&lea ($key,&DWP(0x20,$key));
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(-0x40,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(-0x30,$key));
&set_label("${p}192");
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(-0x20,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(-0x10,$key));
&set_label("${p}128");
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(0,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(0x10,$key));
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(0x20,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(0x30,$key));
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(0x40,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(0x50,$key));
eval"&aes${p} ($inout,$rndkey1)";
&$movekey ($rndkey1,&QWP(0x60,$key));
eval"&aes${p} ($inout,$rndkey0)";
&$movekey ($rndkey0,&QWP(0x70,$key));
eval"&aes${p} ($inout,$rndkey1)";
eval"&aes${p}last ($inout,$rndkey0)";
&ret();
&function_end_B("_aesni_${p}rypt1");
}
# void $PREFIX_encrypt (const void *inp,void *out,const AES_KEY *key);
&aesni_generate1("enc") if (!$inline);
&function_begin_B("${PREFIX}_encrypt");
&record_function_hit(1);
&mov ("eax",&wparam(0));
&mov ($key,&wparam(2));
&movups ($inout0,&QWP(0,"eax"));
&mov ($rounds,&DWP(240,$key));
&mov ("eax",&wparam(1));
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&pxor ($rndkey0,$rndkey0); # clear register bank
&pxor ($rndkey1,$rndkey1);
&movups (&QWP(0,"eax"),$inout0);
&pxor ($inout0,$inout0);
&ret ();
&function_end_B("${PREFIX}_encrypt");
# void $PREFIX_decrypt (const void *inp,void *out,const AES_KEY *key);
&aesni_generate1("dec") if(!$inline);
&function_begin_B("${PREFIX}_decrypt");
&mov ("eax",&wparam(0));
&mov ($key,&wparam(2));
&movups ($inout0,&QWP(0,"eax"));
&mov ($rounds,&DWP(240,$key));
&mov ("eax",&wparam(1));
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&pxor ($rndkey0,$rndkey0); # clear register bank
&pxor ($rndkey1,$rndkey1);
&movups (&QWP(0,"eax"),$inout0);
&pxor ($inout0,$inout0);
&ret ();
&function_end_B("${PREFIX}_decrypt");
# _aesni_[en|de]cryptN are private interfaces, N denotes interleave
# factor. Why 3x subroutine were originally used in loops? Even though
# aes[enc|dec] latency was originally 6, it could be scheduled only
# every *2nd* cycle. Thus 3x interleave was the one providing optimal
# utilization, i.e. when subroutine's throughput is virtually same as
# of non-interleaved subroutine [for number of input blocks up to 3].
# This is why it originally made no sense to implement 2x subroutine.
# But times change and it became appropriate to spend extra 192 bytes
# on 2x subroutine on Atom Silvermont account. For processors that
# can schedule aes[enc|dec] every cycle optimal interleave factor
# equals to corresponding instructions latency. 8x is optimal for
# * Bridge, but it's unfeasible to accommodate such implementation
# in XMM registers addressable in 32-bit mode and therefore maximum
# of 6x is used instead...
sub aesni_generate2
{ my $p=shift;
&function_begin_B("_aesni_${p}rypt2");
&$movekey ($rndkey0,&QWP(0,$key));
&shl ($rounds,4);
&$movekey ($rndkey1,&QWP(16,$key));
&xorps ($inout0,$rndkey0);
&pxor ($inout1,$rndkey0);
&$movekey ($rndkey0,&QWP(32,$key));
&lea ($key,&DWP(32,$key,$rounds));
&neg ($rounds);
&add ($rounds,16);
&set_label("${p}2_loop");
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
eval"&aes${p} ($inout0,$rndkey0)";
eval"&aes${p} ($inout1,$rndkey0)";
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("${p}2_loop"));
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p}last ($inout0,$rndkey0)";
eval"&aes${p}last ($inout1,$rndkey0)";
&ret();
&function_end_B("_aesni_${p}rypt2");
}
sub aesni_generate3
{ my $p=shift;
&function_begin_B("_aesni_${p}rypt3");
&$movekey ($rndkey0,&QWP(0,$key));
&shl ($rounds,4);
&$movekey ($rndkey1,&QWP(16,$key));
&xorps ($inout0,$rndkey0);
&pxor ($inout1,$rndkey0);
&pxor ($inout2,$rndkey0);
&$movekey ($rndkey0,&QWP(32,$key));
&lea ($key,&DWP(32,$key,$rounds));
&neg ($rounds);
&add ($rounds,16);
&set_label("${p}3_loop");
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
eval"&aes${p} ($inout0,$rndkey0)";
eval"&aes${p} ($inout1,$rndkey0)";
eval"&aes${p} ($inout2,$rndkey0)";
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("${p}3_loop"));
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
eval"&aes${p}last ($inout0,$rndkey0)";
eval"&aes${p}last ($inout1,$rndkey0)";
eval"&aes${p}last ($inout2,$rndkey0)";
&ret();
&function_end_B("_aesni_${p}rypt3");
}
# 4x interleave is implemented to improve small block performance,
# most notably [and naturally] 4 block by ~30%. One can argue that one
# should have implemented 5x as well, but improvement would be <20%,
# so it's not worth it...
sub aesni_generate4
{ my $p=shift;
&function_begin_B("_aesni_${p}rypt4");
&$movekey ($rndkey0,&QWP(0,$key));
&$movekey ($rndkey1,&QWP(16,$key));
&shl ($rounds,4);
&xorps ($inout0,$rndkey0);
&pxor ($inout1,$rndkey0);
&pxor ($inout2,$rndkey0);
&pxor ($inout3,$rndkey0);
&$movekey ($rndkey0,&QWP(32,$key));
&lea ($key,&DWP(32,$key,$rounds));
&neg ($rounds);
&data_byte (0x0f,0x1f,0x40,0x00);
&add ($rounds,16);
&set_label("${p}4_loop");
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
eval"&aes${p} ($inout3,$rndkey1)";
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
eval"&aes${p} ($inout0,$rndkey0)";
eval"&aes${p} ($inout1,$rndkey0)";
eval"&aes${p} ($inout2,$rndkey0)";
eval"&aes${p} ($inout3,$rndkey0)";
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("${p}4_loop"));
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
eval"&aes${p} ($inout3,$rndkey1)";
eval"&aes${p}last ($inout0,$rndkey0)";
eval"&aes${p}last ($inout1,$rndkey0)";
eval"&aes${p}last ($inout2,$rndkey0)";
eval"&aes${p}last ($inout3,$rndkey0)";
&ret();
&function_end_B("_aesni_${p}rypt4");
}
sub aesni_generate6
{ my $p=shift;
&function_begin_B("_aesni_${p}rypt6");
&static_label("_aesni_${p}rypt6_enter");
&$movekey ($rndkey0,&QWP(0,$key));
&shl ($rounds,4);
&$movekey ($rndkey1,&QWP(16,$key));
&xorps ($inout0,$rndkey0);
&pxor ($inout1,$rndkey0); # pxor does better here
&pxor ($inout2,$rndkey0);
eval"&aes${p} ($inout0,$rndkey1)";
&pxor ($inout3,$rndkey0);
&pxor ($inout4,$rndkey0);
eval"&aes${p} ($inout1,$rndkey1)";
&lea ($key,&DWP(32,$key,$rounds));
&neg ($rounds);
eval"&aes${p} ($inout2,$rndkey1)";
&pxor ($inout5,$rndkey0);
&$movekey ($rndkey0,&QWP(0,$key,$rounds));
&add ($rounds,16);
&jmp (&label("_aesni_${p}rypt6_inner"));
&set_label("${p}6_loop",16);
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
&set_label("_aesni_${p}rypt6_inner");
eval"&aes${p} ($inout3,$rndkey1)";
eval"&aes${p} ($inout4,$rndkey1)";
eval"&aes${p} ($inout5,$rndkey1)";
&set_label("_aesni_${p}rypt6_enter");
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
eval"&aes${p} ($inout0,$rndkey0)";
eval"&aes${p} ($inout1,$rndkey0)";
eval"&aes${p} ($inout2,$rndkey0)";
eval"&aes${p} ($inout3,$rndkey0)";
eval"&aes${p} ($inout4,$rndkey0)";
eval"&aes${p} ($inout5,$rndkey0)";
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("${p}6_loop"));
eval"&aes${p} ($inout0,$rndkey1)";
eval"&aes${p} ($inout1,$rndkey1)";
eval"&aes${p} ($inout2,$rndkey1)";
eval"&aes${p} ($inout3,$rndkey1)";
eval"&aes${p} ($inout4,$rndkey1)";
eval"&aes${p} ($inout5,$rndkey1)";
eval"&aes${p}last ($inout0,$rndkey0)";
eval"&aes${p}last ($inout1,$rndkey0)";
eval"&aes${p}last ($inout2,$rndkey0)";
eval"&aes${p}last ($inout3,$rndkey0)";
eval"&aes${p}last ($inout4,$rndkey0)";
eval"&aes${p}last ($inout5,$rndkey0)";
&ret();
&function_end_B("_aesni_${p}rypt6");
}
&aesni_generate2("enc") if ($PREFIX eq $AESNI_PREFIX);
&aesni_generate2("dec");
&aesni_generate3("enc") if ($PREFIX eq $AESNI_PREFIX);
&aesni_generate3("dec");
&aesni_generate4("enc") if ($PREFIX eq $AESNI_PREFIX);
&aesni_generate4("dec");
&aesni_generate6("enc") if ($PREFIX eq $AESNI_PREFIX);
&aesni_generate6("dec");
if ($PREFIX eq $AESNI_PREFIX) {
######################################################################
# void aes_hw_ecb_encrypt (const void *in, void *out,
# size_t length, const AES_KEY *key,
# int enc);
&function_begin("${PREFIX}_ecb_encrypt");
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3));
&mov ($rounds_,&wparam(4));
&and ($len,-16);
&jz (&label("ecb_ret"));
&mov ($rounds,&DWP(240,$key));
&test ($rounds_,$rounds_);
&jz (&label("ecb_decrypt"));
&mov ($key_,$key); # backup $key
&mov ($rounds_,$rounds); # backup $rounds
&cmp ($len,0x60);
&jb (&label("ecb_enc_tail"));
&movdqu ($inout0,&QWP(0,$inp));
&movdqu ($inout1,&QWP(0x10,$inp));
&movdqu ($inout2,&QWP(0x20,$inp));
&movdqu ($inout3,&QWP(0x30,$inp));
&movdqu ($inout4,&QWP(0x40,$inp));
&movdqu ($inout5,&QWP(0x50,$inp));
&lea ($inp,&DWP(0x60,$inp));
&sub ($len,0x60);
&jmp (&label("ecb_enc_loop6_enter"));
&set_label("ecb_enc_loop6",16);
&movups (&QWP(0,$out),$inout0);
&movdqu ($inout0,&QWP(0,$inp));
&movups (&QWP(0x10,$out),$inout1);
&movdqu ($inout1,&QWP(0x10,$inp));
&movups (&QWP(0x20,$out),$inout2);
&movdqu ($inout2,&QWP(0x20,$inp));
&movups (&QWP(0x30,$out),$inout3);
&movdqu ($inout3,&QWP(0x30,$inp));
&movups (&QWP(0x40,$out),$inout4);
&movdqu ($inout4,&QWP(0x40,$inp));
&movups (&QWP(0x50,$out),$inout5);
&lea ($out,&DWP(0x60,$out));
&movdqu ($inout5,&QWP(0x50,$inp));
&lea ($inp,&DWP(0x60,$inp));
&set_label("ecb_enc_loop6_enter");
&call ("_aesni_encrypt6");
&mov ($key,$key_); # restore $key
&mov ($rounds,$rounds_); # restore $rounds
&sub ($len,0x60);
&jnc (&label("ecb_enc_loop6"));
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&movups (&QWP(0x40,$out),$inout4);
&movups (&QWP(0x50,$out),$inout5);
&lea ($out,&DWP(0x60,$out));
&add ($len,0x60);
&jz (&label("ecb_ret"));
&set_label("ecb_enc_tail");
&movups ($inout0,&QWP(0,$inp));
&cmp ($len,0x20);
&jb (&label("ecb_enc_one"));
&movups ($inout1,&QWP(0x10,$inp));
&je (&label("ecb_enc_two"));
&movups ($inout2,&QWP(0x20,$inp));
&cmp ($len,0x40);
&jb (&label("ecb_enc_three"));
&movups ($inout3,&QWP(0x30,$inp));
&je (&label("ecb_enc_four"));
&movups ($inout4,&QWP(0x40,$inp));
&xorps ($inout5,$inout5);
&call ("_aesni_encrypt6");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&movups (&QWP(0x40,$out),$inout4);
jmp (&label("ecb_ret"));
&set_label("ecb_enc_one",16);
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&movups (&QWP(0,$out),$inout0);
&jmp (&label("ecb_ret"));
&set_label("ecb_enc_two",16);
&call ("_aesni_encrypt2");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&jmp (&label("ecb_ret"));
&set_label("ecb_enc_three",16);
&call ("_aesni_encrypt3");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&jmp (&label("ecb_ret"));
&set_label("ecb_enc_four",16);
&call ("_aesni_encrypt4");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&jmp (&label("ecb_ret"));
######################################################################
&set_label("ecb_decrypt",16);
&mov ($key_,$key); # backup $key
&mov ($rounds_,$rounds); # backup $rounds
&cmp ($len,0x60);
&jb (&label("ecb_dec_tail"));
&movdqu ($inout0,&QWP(0,$inp));
&movdqu ($inout1,&QWP(0x10,$inp));
&movdqu ($inout2,&QWP(0x20,$inp));
&movdqu ($inout3,&QWP(0x30,$inp));
&movdqu ($inout4,&QWP(0x40,$inp));
&movdqu ($inout5,&QWP(0x50,$inp));
&lea ($inp,&DWP(0x60,$inp));
&sub ($len,0x60);
&jmp (&label("ecb_dec_loop6_enter"));
&set_label("ecb_dec_loop6",16);
&movups (&QWP(0,$out),$inout0);
&movdqu ($inout0,&QWP(0,$inp));
&movups (&QWP(0x10,$out),$inout1);
&movdqu ($inout1,&QWP(0x10,$inp));
&movups (&QWP(0x20,$out),$inout2);
&movdqu ($inout2,&QWP(0x20,$inp));
&movups (&QWP(0x30,$out),$inout3);
&movdqu ($inout3,&QWP(0x30,$inp));
&movups (&QWP(0x40,$out),$inout4);
&movdqu ($inout4,&QWP(0x40,$inp));
&movups (&QWP(0x50,$out),$inout5);
&lea ($out,&DWP(0x60,$out));
&movdqu ($inout5,&QWP(0x50,$inp));
&lea ($inp,&DWP(0x60,$inp));
&set_label("ecb_dec_loop6_enter");
&call ("_aesni_decrypt6");
&mov ($key,$key_); # restore $key
&mov ($rounds,$rounds_); # restore $rounds
&sub ($len,0x60);
&jnc (&label("ecb_dec_loop6"));
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&movups (&QWP(0x40,$out),$inout4);
&movups (&QWP(0x50,$out),$inout5);
&lea ($out,&DWP(0x60,$out));
&add ($len,0x60);
&jz (&label("ecb_ret"));
&set_label("ecb_dec_tail");
&movups ($inout0,&QWP(0,$inp));
&cmp ($len,0x20);
&jb (&label("ecb_dec_one"));
&movups ($inout1,&QWP(0x10,$inp));
&je (&label("ecb_dec_two"));
&movups ($inout2,&QWP(0x20,$inp));
&cmp ($len,0x40);
&jb (&label("ecb_dec_three"));
&movups ($inout3,&QWP(0x30,$inp));
&je (&label("ecb_dec_four"));
&movups ($inout4,&QWP(0x40,$inp));
&xorps ($inout5,$inout5);
&call ("_aesni_decrypt6");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&movups (&QWP(0x40,$out),$inout4);
&jmp (&label("ecb_ret"));
&set_label("ecb_dec_one",16);
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&movups (&QWP(0,$out),$inout0);
&jmp (&label("ecb_ret"));
&set_label("ecb_dec_two",16);
&call ("_aesni_decrypt2");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&jmp (&label("ecb_ret"));
&set_label("ecb_dec_three",16);
&call ("_aesni_decrypt3");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&jmp (&label("ecb_ret"));
&set_label("ecb_dec_four",16);
&call ("_aesni_decrypt4");
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&set_label("ecb_ret");
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&pxor ("xmm5","xmm5");
&pxor ("xmm6","xmm6");
&pxor ("xmm7","xmm7");
&function_end("${PREFIX}_ecb_encrypt");
######################################################################
# void aes_hw_ccm64_[en|de]crypt_blocks (const void *in, void *out,
# size_t blocks, const AES_KEY *key,
# const char *ivec,char *cmac);
#
# Handles only complete blocks, operates on 64-bit counter and
# does not update *ivec! Nor does it finalize CMAC value
# (see engine/eng_aesni.c for details)
#
{ my $cmac=$inout1;
&function_begin("${PREFIX}_ccm64_encrypt_blocks");
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3));
&mov ($rounds_,&wparam(4));
&mov ($rounds,&wparam(5));
&mov ($key_,"esp");
&sub ("esp",60);
&and ("esp",-16); # align stack
&mov (&DWP(48,"esp"),$key_);
&movdqu ($ivec,&QWP(0,$rounds_)); # load ivec
&movdqu ($cmac,&QWP(0,$rounds)); # load cmac
&mov ($rounds,&DWP(240,$key));
# compose byte-swap control mask for pshufb on stack
&mov (&DWP(0,"esp"),0x0c0d0e0f);
&mov (&DWP(4,"esp"),0x08090a0b);
&mov (&DWP(8,"esp"),0x04050607);
&mov (&DWP(12,"esp"),0x00010203);
# compose counter increment vector on stack
&mov ($rounds_,1);
&xor ($key_,$key_);
&mov (&DWP(16,"esp"),$rounds_);
&mov (&DWP(20,"esp"),$key_);
&mov (&DWP(24,"esp"),$key_);
&mov (&DWP(28,"esp"),$key_);
&shl ($rounds,4);
&mov ($rounds_,16);
&lea ($key_,&DWP(0,$key));
&movdqa ($inout3,&QWP(0,"esp"));
&movdqa ($inout0,$ivec);
&lea ($key,&DWP(32,$key,$rounds));
&sub ($rounds_,$rounds);
&pshufb ($ivec,$inout3);
&set_label("ccm64_enc_outer");
&$movekey ($rndkey0,&QWP(0,$key_));
&mov ($rounds,$rounds_);
&movups ($in0,&QWP(0,$inp));
&xorps ($inout0,$rndkey0);
&$movekey ($rndkey1,&QWP(16,$key_));
&xorps ($rndkey0,$in0);
&xorps ($cmac,$rndkey0); # cmac^=inp
&$movekey ($rndkey0,&QWP(32,$key_));
&set_label("ccm64_enc2_loop");
&aesenc ($inout0,$rndkey1);
&aesenc ($cmac,$rndkey1);
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
&aesenc ($inout0,$rndkey0);
&aesenc ($cmac,$rndkey0);
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("ccm64_enc2_loop"));
&aesenc ($inout0,$rndkey1);
&aesenc ($cmac,$rndkey1);
&paddq ($ivec,&QWP(16,"esp"));
&dec ($len);
&aesenclast ($inout0,$rndkey0);
&aesenclast ($cmac,$rndkey0);
&lea ($inp,&DWP(16,$inp));
&xorps ($in0,$inout0); # inp^=E(ivec)
&movdqa ($inout0,$ivec);
&movups (&QWP(0,$out),$in0); # save output
&pshufb ($inout0,$inout3);
&lea ($out,&DWP(16,$out));
&jnz (&label("ccm64_enc_outer"));
&mov ("esp",&DWP(48,"esp"));
&mov ($out,&wparam(5));
&movups (&QWP(0,$out),$cmac);
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&pxor ("xmm5","xmm5");
&pxor ("xmm6","xmm6");
&pxor ("xmm7","xmm7");
&function_end("${PREFIX}_ccm64_encrypt_blocks");
&function_begin("${PREFIX}_ccm64_decrypt_blocks");
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3));
&mov ($rounds_,&wparam(4));
&mov ($rounds,&wparam(5));
&mov ($key_,"esp");
&sub ("esp",60);
&and ("esp",-16); # align stack
&mov (&DWP(48,"esp"),$key_);
&movdqu ($ivec,&QWP(0,$rounds_)); # load ivec
&movdqu ($cmac,&QWP(0,$rounds)); # load cmac
&mov ($rounds,&DWP(240,$key));
# compose byte-swap control mask for pshufb on stack
&mov (&DWP(0,"esp"),0x0c0d0e0f);
&mov (&DWP(4,"esp"),0x08090a0b);
&mov (&DWP(8,"esp"),0x04050607);
&mov (&DWP(12,"esp"),0x00010203);
# compose counter increment vector on stack
&mov ($rounds_,1);
&xor ($key_,$key_);
&mov (&DWP(16,"esp"),$rounds_);
&mov (&DWP(20,"esp"),$key_);
&mov (&DWP(24,"esp"),$key_);
&mov (&DWP(28,"esp"),$key_);
&movdqa ($inout3,&QWP(0,"esp")); # bswap mask
&movdqa ($inout0,$ivec);
&mov ($key_,$key);
&mov ($rounds_,$rounds);
&pshufb ($ivec,$inout3);
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&shl ($rounds_,4);
&mov ($rounds,16);
&movups ($in0,&QWP(0,$inp)); # load inp
&paddq ($ivec,&QWP(16,"esp"));
&lea ($inp,&QWP(16,$inp));
&sub ($rounds,$rounds_);
&lea ($key,&DWP(32,$key_,$rounds_));
&mov ($rounds_,$rounds);
&jmp (&label("ccm64_dec_outer"));
&set_label("ccm64_dec_outer",16);
&xorps ($in0,$inout0); # inp ^= E(ivec)
&movdqa ($inout0,$ivec);
&movups (&QWP(0,$out),$in0); # save output
&lea ($out,&DWP(16,$out));
&pshufb ($inout0,$inout3);
&sub ($len,1);
&jz (&label("ccm64_dec_break"));
&$movekey ($rndkey0,&QWP(0,$key_));
&mov ($rounds,$rounds_);
&$movekey ($rndkey1,&QWP(16,$key_));
&xorps ($in0,$rndkey0);
&xorps ($inout0,$rndkey0);
&xorps ($cmac,$in0); # cmac^=out
&$movekey ($rndkey0,&QWP(32,$key_));
&set_label("ccm64_dec2_loop");
&aesenc ($inout0,$rndkey1);
&aesenc ($cmac,$rndkey1);
&$movekey ($rndkey1,&QWP(0,$key,$rounds));
&add ($rounds,32);
&aesenc ($inout0,$rndkey0);
&aesenc ($cmac,$rndkey0);
&$movekey ($rndkey0,&QWP(-16,$key,$rounds));
&jnz (&label("ccm64_dec2_loop"));
&movups ($in0,&QWP(0,$inp)); # load inp
&paddq ($ivec,&QWP(16,"esp"));
&aesenc ($inout0,$rndkey1);
&aesenc ($cmac,$rndkey1);
&aesenclast ($inout0,$rndkey0);
&aesenclast ($cmac,$rndkey0);
&lea ($inp,&QWP(16,$inp));
&jmp (&label("ccm64_dec_outer"));
&set_label("ccm64_dec_break",16);
&mov ($rounds,&DWP(240,$key_));
&mov ($key,$key_);
if ($inline)
{ &aesni_inline_generate1("enc",$cmac,$in0); }
else
{ &call ("_aesni_encrypt1",$cmac); }
&mov ("esp",&DWP(48,"esp"));
&mov ($out,&wparam(5));
&movups (&QWP(0,$out),$cmac);
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&pxor ("xmm5","xmm5");
&pxor ("xmm6","xmm6");
&pxor ("xmm7","xmm7");
&function_end("${PREFIX}_ccm64_decrypt_blocks");
}
######################################################################
# void aes_hw_ctr32_encrypt_blocks (const void *in, void *out,
# size_t blocks, const AES_KEY *key,
# const char *ivec);
#
# Handles only complete blocks, operates on 32-bit counter and
# does not update *ivec! (see crypto/modes/ctr128.c for details)
#
# stack layout:
# 0 pshufb mask
# 16 vector addend: 0,6,6,6
# 32 counter-less ivec
# 48 1st triplet of counter vector
# 64 2nd triplet of counter vector
# 80 saved %esp
&function_begin("${PREFIX}_ctr32_encrypt_blocks");
&record_function_hit(0);
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3));
&mov ($rounds_,&wparam(4));
&mov ($key_,"esp");
&sub ("esp",88);
&and ("esp",-16); # align stack
&mov (&DWP(80,"esp"),$key_);
&cmp ($len,1);
&je (&label("ctr32_one_shortcut"));
&movdqu ($inout5,&QWP(0,$rounds_)); # load ivec
# compose byte-swap control mask for pshufb on stack
&mov (&DWP(0,"esp"),0x0c0d0e0f);
&mov (&DWP(4,"esp"),0x08090a0b);
&mov (&DWP(8,"esp"),0x04050607);
&mov (&DWP(12,"esp"),0x00010203);
# compose counter increment vector on stack
&mov ($rounds,6);
&xor ($key_,$key_);
&mov (&DWP(16,"esp"),$rounds);
&mov (&DWP(20,"esp"),$rounds);
&mov (&DWP(24,"esp"),$rounds);
&mov (&DWP(28,"esp"),$key_);
&pextrd ($rounds_,$inout5,3); # pull 32-bit counter
&pinsrd ($inout5,$key_,3); # wipe 32-bit counter
&mov ($rounds,&DWP(240,$key)); # key->rounds
# compose 2 vectors of 3x32-bit counters
&bswap ($rounds_);
&pxor ($rndkey0,$rndkey0);
&pxor ($rndkey1,$rndkey1);
&movdqa ($inout0,&QWP(0,"esp")); # load byte-swap mask
&pinsrd ($rndkey0,$rounds_,0);
&lea ($key_,&DWP(3,$rounds_));
&pinsrd ($rndkey1,$key_,0);
&inc ($rounds_);
&pinsrd ($rndkey0,$rounds_,1);
&inc ($key_);
&pinsrd ($rndkey1,$key_,1);
&inc ($rounds_);
&pinsrd ($rndkey0,$rounds_,2);
&inc ($key_);
&pinsrd ($rndkey1,$key_,2);
&movdqa (&QWP(48,"esp"),$rndkey0); # save 1st triplet
&pshufb ($rndkey0,$inout0); # byte swap
&movdqu ($inout4,&QWP(0,$key)); # key[0]
&movdqa (&QWP(64,"esp"),$rndkey1); # save 2nd triplet
&pshufb ($rndkey1,$inout0); # byte swap
&pshufd ($inout0,$rndkey0,3<<6); # place counter to upper dword
&pshufd ($inout1,$rndkey0,2<<6);
&cmp ($len,6);
&jb (&label("ctr32_tail"));
&pxor ($inout5,$inout4); # counter-less ivec^key[0]
&shl ($rounds,4);
&mov ($rounds_,16);
&movdqa (&QWP(32,"esp"),$inout5); # save counter-less ivec^key[0]
&mov ($key_,$key); # backup $key
&sub ($rounds_,$rounds); # backup twisted $rounds
&lea ($key,&DWP(32,$key,$rounds));
&sub ($len,6);
&jmp (&label("ctr32_loop6"));
&set_label("ctr32_loop6",16);
# inlining _aesni_encrypt6's prologue gives ~6% improvement...
&pshufd ($inout2,$rndkey0,1<<6);
&movdqa ($rndkey0,&QWP(32,"esp")); # pull counter-less ivec
&pshufd ($inout3,$rndkey1,3<<6);
&pxor ($inout0,$rndkey0); # merge counter-less ivec
&pshufd ($inout4,$rndkey1,2<<6);
&pxor ($inout1,$rndkey0);
&pshufd ($inout5,$rndkey1,1<<6);
&$movekey ($rndkey1,&QWP(16,$key_));
&pxor ($inout2,$rndkey0);
&pxor ($inout3,$rndkey0);
&aesenc ($inout0,$rndkey1);
&pxor ($inout4,$rndkey0);
&pxor ($inout5,$rndkey0);
&aesenc ($inout1,$rndkey1);
&$movekey ($rndkey0,&QWP(32,$key_));
&mov ($rounds,$rounds_);
&aesenc ($inout2,$rndkey1);
&aesenc ($inout3,$rndkey1);
&aesenc ($inout4,$rndkey1);
&aesenc ($inout5,$rndkey1);
&call (&label("_aesni_encrypt6_enter"));
&movups ($rndkey1,&QWP(0,$inp));
&movups ($rndkey0,&QWP(0x10,$inp));
&xorps ($inout0,$rndkey1);
&movups ($rndkey1,&QWP(0x20,$inp));
&xorps ($inout1,$rndkey0);
&movups (&QWP(0,$out),$inout0);
&movdqa ($rndkey0,&QWP(16,"esp")); # load increment
&xorps ($inout2,$rndkey1);
&movdqa ($rndkey1,&QWP(64,"esp")); # load 2nd triplet
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&paddd ($rndkey1,$rndkey0); # 2nd triplet increment
&paddd ($rndkey0,&QWP(48,"esp")); # 1st triplet increment
&movdqa ($inout0,&QWP(0,"esp")); # load byte swap mask
&movups ($inout1,&QWP(0x30,$inp));
&movups ($inout2,&QWP(0x40,$inp));
&xorps ($inout3,$inout1);
&movups ($inout1,&QWP(0x50,$inp));
&lea ($inp,&DWP(0x60,$inp));
&movdqa (&QWP(48,"esp"),$rndkey0); # save 1st triplet
&pshufb ($rndkey0,$inout0); # byte swap
&xorps ($inout4,$inout2);
&movups (&QWP(0x30,$out),$inout3);
&xorps ($inout5,$inout1);
&movdqa (&QWP(64,"esp"),$rndkey1); # save 2nd triplet
&pshufb ($rndkey1,$inout0); # byte swap
&movups (&QWP(0x40,$out),$inout4);
&pshufd ($inout0,$rndkey0,3<<6);
&movups (&QWP(0x50,$out),$inout5);
&lea ($out,&DWP(0x60,$out));
&pshufd ($inout1,$rndkey0,2<<6);
&sub ($len,6);
&jnc (&label("ctr32_loop6"));
&add ($len,6);
&jz (&label("ctr32_ret"));
&movdqu ($inout5,&QWP(0,$key_));
&mov ($key,$key_);
&pxor ($inout5,&QWP(32,"esp")); # restore count-less ivec
&mov ($rounds,&DWP(240,$key_)); # restore $rounds
&set_label("ctr32_tail");
&por ($inout0,$inout5);
&cmp ($len,2);
&jb (&label("ctr32_one"));
&pshufd ($inout2,$rndkey0,1<<6);
&por ($inout1,$inout5);
&je (&label("ctr32_two"));
&pshufd ($inout3,$rndkey1,3<<6);
&por ($inout2,$inout5);
&cmp ($len,4);
&jb (&label("ctr32_three"));
&pshufd ($inout4,$rndkey1,2<<6);
&por ($inout3,$inout5);
&je (&label("ctr32_four"));
&por ($inout4,$inout5);
&call ("_aesni_encrypt6");
&movups ($rndkey1,&QWP(0,$inp));
&movups ($rndkey0,&QWP(0x10,$inp));
&xorps ($inout0,$rndkey1);
&movups ($rndkey1,&QWP(0x20,$inp));
&xorps ($inout1,$rndkey0);
&movups ($rndkey0,&QWP(0x30,$inp));
&xorps ($inout2,$rndkey1);
&movups ($rndkey1,&QWP(0x40,$inp));
&xorps ($inout3,$rndkey0);
&movups (&QWP(0,$out),$inout0);
&xorps ($inout4,$rndkey1);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&movups (&QWP(0x40,$out),$inout4);
&jmp (&label("ctr32_ret"));
&set_label("ctr32_one_shortcut",16);
&movups ($inout0,&QWP(0,$rounds_)); # load ivec
&mov ($rounds,&DWP(240,$key));
&set_label("ctr32_one");
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&movups ($in0,&QWP(0,$inp));
&xorps ($in0,$inout0);
&movups (&QWP(0,$out),$in0);
&jmp (&label("ctr32_ret"));
&set_label("ctr32_two",16);
&call ("_aesni_encrypt2");
&movups ($inout3,&QWP(0,$inp));
&movups ($inout4,&QWP(0x10,$inp));
&xorps ($inout0,$inout3);
&xorps ($inout1,$inout4);
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&jmp (&label("ctr32_ret"));
&set_label("ctr32_three",16);
&call ("_aesni_encrypt3");
&movups ($inout3,&QWP(0,$inp));
&movups ($inout4,&QWP(0x10,$inp));
&xorps ($inout0,$inout3);
&movups ($inout5,&QWP(0x20,$inp));
&xorps ($inout1,$inout4);
&movups (&QWP(0,$out),$inout0);
&xorps ($inout2,$inout5);
&movups (&QWP(0x10,$out),$inout1);
&movups (&QWP(0x20,$out),$inout2);
&jmp (&label("ctr32_ret"));
&set_label("ctr32_four",16);
&call ("_aesni_encrypt4");
&movups ($inout4,&QWP(0,$inp));
&movups ($inout5,&QWP(0x10,$inp));
&movups ($rndkey1,&QWP(0x20,$inp));
&xorps ($inout0,$inout4);
&movups ($rndkey0,&QWP(0x30,$inp));
&xorps ($inout1,$inout5);
&movups (&QWP(0,$out),$inout0);
&xorps ($inout2,$rndkey1);
&movups (&QWP(0x10,$out),$inout1);
&xorps ($inout3,$rndkey0);
&movups (&QWP(0x20,$out),$inout2);
&movups (&QWP(0x30,$out),$inout3);
&set_label("ctr32_ret");
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&movdqa (&QWP(32,"esp"),"xmm0"); # clear stack
&pxor ("xmm5","xmm5");
&movdqa (&QWP(48,"esp"),"xmm0");
&pxor ("xmm6","xmm6");
&movdqa (&QWP(64,"esp"),"xmm0");
&pxor ("xmm7","xmm7");
&mov ("esp",&DWP(80,"esp"));
&function_end("${PREFIX}_ctr32_encrypt_blocks");
######################################################################
# void aes_hw_xts_[en|de]crypt(const char *inp,char *out,size_t len,
# const AES_KEY *key1, const AES_KEY *key2
# const unsigned char iv[16]);
#
{ my ($tweak,$twtmp,$twres,$twmask)=($rndkey1,$rndkey0,$inout0,$inout1);
&function_begin("${PREFIX}_xts_encrypt");
&mov ($key,&wparam(4)); # key2
&mov ($inp,&wparam(5)); # clear-text tweak
&mov ($rounds,&DWP(240,$key)); # key2->rounds
&movups ($inout0,&QWP(0,$inp));
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3)); # key1
&mov ($key_,"esp");
&sub ("esp",16*7+8);
&mov ($rounds,&DWP(240,$key)); # key1->rounds
&and ("esp",-16); # align stack
&mov (&DWP(16*6+0,"esp"),0x87); # compose the magic constant
&mov (&DWP(16*6+4,"esp"),0);
&mov (&DWP(16*6+8,"esp"),1);
&mov (&DWP(16*6+12,"esp"),0);
&mov (&DWP(16*7+0,"esp"),$len); # save original $len
&mov (&DWP(16*7+4,"esp"),$key_); # save original %esp
&movdqa ($tweak,$inout0);
&pxor ($twtmp,$twtmp);
&movdqa ($twmask,&QWP(6*16,"esp")); # 0x0...010...87
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&and ($len,-16);
&mov ($key_,$key); # backup $key
&mov ($rounds_,$rounds); # backup $rounds
&sub ($len,16*6);
&jc (&label("xts_enc_short"));
&shl ($rounds,4);
&mov ($rounds_,16);
&sub ($rounds_,$rounds);
&lea ($key,&DWP(32,$key,$rounds));
&jmp (&label("xts_enc_loop6"));
&set_label("xts_enc_loop6",16);
for ($i=0;$i<4;$i++) {
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa (&QWP(16*$i,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd ($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
}
&pshufd ($inout5,$twtmp,0x13);
&movdqa (&QWP(16*$i++,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&$movekey ($rndkey0,&QWP(0,$key_));
&pand ($inout5,$twmask); # isolate carry and residue
&movups ($inout0,&QWP(0,$inp)); # load input
&pxor ($inout5,$tweak);
# inline _aesni_encrypt6 prologue and flip xor with tweak and key[0]
&mov ($rounds,$rounds_); # restore $rounds
&movdqu ($inout1,&QWP(16*1,$inp));
&xorps ($inout0,$rndkey0); # input^=rndkey[0]
&movdqu ($inout2,&QWP(16*2,$inp));
&pxor ($inout1,$rndkey0);
&movdqu ($inout3,&QWP(16*3,$inp));
&pxor ($inout2,$rndkey0);
&movdqu ($inout4,&QWP(16*4,$inp));
&pxor ($inout3,$rndkey0);
&movdqu ($rndkey1,&QWP(16*5,$inp));
&pxor ($inout4,$rndkey0);
&lea ($inp,&DWP(16*6,$inp));
&pxor ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movdqa (&QWP(16*$i,"esp"),$inout5); # save last tweak
&pxor ($inout5,$rndkey1);
&$movekey ($rndkey1,&QWP(16,$key_));
&pxor ($inout1,&QWP(16*1,"esp"));
&pxor ($inout2,&QWP(16*2,"esp"));
&aesenc ($inout0,$rndkey1);
&pxor ($inout3,&QWP(16*3,"esp"));
&pxor ($inout4,&QWP(16*4,"esp"));
&aesenc ($inout1,$rndkey1);
&pxor ($inout5,$rndkey0);
&$movekey ($rndkey0,&QWP(32,$key_));
&aesenc ($inout2,$rndkey1);
&aesenc ($inout3,$rndkey1);
&aesenc ($inout4,$rndkey1);
&aesenc ($inout5,$rndkey1);
&call (&label("_aesni_encrypt6_enter"));
&movdqa ($tweak,&QWP(16*5,"esp")); # last tweak
&pxor ($twtmp,$twtmp);
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&pcmpgtd ($twtmp,$tweak); # broadcast upper bits
&xorps ($inout1,&QWP(16*1,"esp"));
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout2,&QWP(16*2,"esp"));
&movups (&QWP(16*1,$out),$inout1);
&xorps ($inout3,&QWP(16*3,"esp"));
&movups (&QWP(16*2,$out),$inout2);
&xorps ($inout4,&QWP(16*4,"esp"));
&movups (&QWP(16*3,$out),$inout3);
&xorps ($inout5,$tweak);
&movups (&QWP(16*4,$out),$inout4);
&pshufd ($twres,$twtmp,0x13);
&movups (&QWP(16*5,$out),$inout5);
&lea ($out,&DWP(16*6,$out));
&movdqa ($twmask,&QWP(16*6,"esp")); # 0x0...010...87
&pxor ($twtmp,$twtmp);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&sub ($len,16*6);
&jnc (&label("xts_enc_loop6"));
&mov ($rounds,&DWP(240,$key_)); # restore $rounds
&mov ($key,$key_); # restore $key
&mov ($rounds_,$rounds);
&set_label("xts_enc_short");
&add ($len,16*6);
&jz (&label("xts_enc_done6x"));
&movdqa ($inout3,$tweak); # put aside previous tweak
&cmp ($len,0x20);
&jb (&label("xts_enc_one"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&je (&label("xts_enc_two"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa ($inout4,$tweak); # put aside previous tweak
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&cmp ($len,0x40);
&jb (&label("xts_enc_three"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa ($inout5,$tweak); # put aside previous tweak
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&movdqa (&QWP(16*0,"esp"),$inout3);
&movdqa (&QWP(16*1,"esp"),$inout4);
&je (&label("xts_enc_four"));
&movdqa (&QWP(16*2,"esp"),$inout5);
&pshufd ($inout5,$twtmp,0x13);
&movdqa (&QWP(16*3,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($inout0,1);
&pand ($inout5,$twmask); # isolate carry and residue
&pxor ($inout5,$tweak);
&movdqu ($inout0,&QWP(16*0,$inp)); # load input
&movdqu ($inout1,&QWP(16*1,$inp));
&movdqu ($inout2,&QWP(16*2,$inp));
&pxor ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movdqu ($inout3,&QWP(16*3,$inp));
&pxor ($inout1,&QWP(16*1,"esp"));
&movdqu ($inout4,&QWP(16*4,$inp));
&pxor ($inout2,&QWP(16*2,"esp"));
&lea ($inp,&DWP(16*5,$inp));
&pxor ($inout3,&QWP(16*3,"esp"));
&movdqa (&QWP(16*4,"esp"),$inout5); # save last tweak
&pxor ($inout4,$inout5);
&call ("_aesni_encrypt6");
&movaps ($tweak,&QWP(16*4,"esp")); # last tweak
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,&QWP(16*2,"esp"));
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout3,&QWP(16*3,"esp"));
&movups (&QWP(16*1,$out),$inout1);
&xorps ($inout4,$tweak);
&movups (&QWP(16*2,$out),$inout2);
&movups (&QWP(16*3,$out),$inout3);
&movups (&QWP(16*4,$out),$inout4);
&lea ($out,&DWP(16*5,$out));
&jmp (&label("xts_enc_done"));
&set_label("xts_enc_one",16);
&movups ($inout0,&QWP(16*0,$inp)); # load input
&lea ($inp,&DWP(16*1,$inp));
&xorps ($inout0,$inout3); # input^=tweak
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&xorps ($inout0,$inout3); # output^=tweak
&movups (&QWP(16*0,$out),$inout0); # write output
&lea ($out,&DWP(16*1,$out));
&movdqa ($tweak,$inout3); # last tweak
&jmp (&label("xts_enc_done"));
&set_label("xts_enc_two",16);
&movaps ($inout4,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&lea ($inp,&DWP(16*2,$inp));
&xorps ($inout0,$inout3); # input^=tweak
&xorps ($inout1,$inout4);
&call ("_aesni_encrypt2");
&xorps ($inout0,$inout3); # output^=tweak
&xorps ($inout1,$inout4);
&movups (&QWP(16*0,$out),$inout0); # write output
&movups (&QWP(16*1,$out),$inout1);
&lea ($out,&DWP(16*2,$out));
&movdqa ($tweak,$inout4); # last tweak
&jmp (&label("xts_enc_done"));
&set_label("xts_enc_three",16);
&movaps ($inout5,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&movups ($inout2,&QWP(16*2,$inp));
&lea ($inp,&DWP(16*3,$inp));
&xorps ($inout0,$inout3); # input^=tweak
&xorps ($inout1,$inout4);
&xorps ($inout2,$inout5);
&call ("_aesni_encrypt3");
&xorps ($inout0,$inout3); # output^=tweak
&xorps ($inout1,$inout4);
&xorps ($inout2,$inout5);
&movups (&QWP(16*0,$out),$inout0); # write output
&movups (&QWP(16*1,$out),$inout1);
&movups (&QWP(16*2,$out),$inout2);
&lea ($out,&DWP(16*3,$out));
&movdqa ($tweak,$inout5); # last tweak
&jmp (&label("xts_enc_done"));
&set_label("xts_enc_four",16);
&movaps ($inout4,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&movups ($inout2,&QWP(16*2,$inp));
&xorps ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movups ($inout3,&QWP(16*3,$inp));
&lea ($inp,&DWP(16*4,$inp));
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,$inout5);
&xorps ($inout3,$inout4);
&call ("_aesni_encrypt4");
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,$inout5);
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout3,$inout4);
&movups (&QWP(16*1,$out),$inout1);
&movups (&QWP(16*2,$out),$inout2);
&movups (&QWP(16*3,$out),$inout3);
&lea ($out,&DWP(16*4,$out));
&movdqa ($tweak,$inout4); # last tweak
&jmp (&label("xts_enc_done"));
&set_label("xts_enc_done6x",16); # $tweak is pre-calculated
&mov ($len,&DWP(16*7+0,"esp")); # restore original $len
&and ($len,15);
&jz (&label("xts_enc_ret"));
&movdqa ($inout3,$tweak);
&mov (&DWP(16*7+0,"esp"),$len); # save $len%16
&jmp (&label("xts_enc_steal"));
&set_label("xts_enc_done",16);
&mov ($len,&DWP(16*7+0,"esp")); # restore original $len
&pxor ($twtmp,$twtmp);
&and ($len,15);
&jz (&label("xts_enc_ret"));
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&mov (&DWP(16*7+0,"esp"),$len); # save $len%16
&pshufd ($inout3,$twtmp,0x13);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($inout3,&QWP(16*6,"esp")); # isolate carry and residue
&pxor ($inout3,$tweak);
&set_label("xts_enc_steal");
&movz ($rounds,&BP(0,$inp));
&movz ($key,&BP(-16,$out));
&lea ($inp,&DWP(1,$inp));
&mov (&BP(-16,$out),&LB($rounds));
&mov (&BP(0,$out),&LB($key));
&lea ($out,&DWP(1,$out));
&sub ($len,1);
&jnz (&label("xts_enc_steal"));
&sub ($out,&DWP(16*7+0,"esp")); # rewind $out
&mov ($key,$key_); # restore $key
&mov ($rounds,$rounds_); # restore $rounds
&movups ($inout0,&QWP(-16,$out)); # load input
&xorps ($inout0,$inout3); # input^=tweak
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&xorps ($inout0,$inout3); # output^=tweak
&movups (&QWP(-16,$out),$inout0); # write output
&set_label("xts_enc_ret");
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&movdqa (&QWP(16*0,"esp"),"xmm0"); # clear stack
&pxor ("xmm3","xmm3");
&movdqa (&QWP(16*1,"esp"),"xmm0");
&pxor ("xmm4","xmm4");
&movdqa (&QWP(16*2,"esp"),"xmm0");
&pxor ("xmm5","xmm5");
&movdqa (&QWP(16*3,"esp"),"xmm0");
&pxor ("xmm6","xmm6");
&movdqa (&QWP(16*4,"esp"),"xmm0");
&pxor ("xmm7","xmm7");
&movdqa (&QWP(16*5,"esp"),"xmm0");
&mov ("esp",&DWP(16*7+4,"esp")); # restore %esp
&function_end("${PREFIX}_xts_encrypt");
&function_begin("${PREFIX}_xts_decrypt");
&mov ($key,&wparam(4)); # key2
&mov ($inp,&wparam(5)); # clear-text tweak
&mov ($rounds,&DWP(240,$key)); # key2->rounds
&movups ($inout0,&QWP(0,$inp));
if ($inline)
{ &aesni_inline_generate1("enc"); }
else
{ &call ("_aesni_encrypt1"); }
&mov ($inp,&wparam(0));
&mov ($out,&wparam(1));
&mov ($len,&wparam(2));
&mov ($key,&wparam(3)); # key1
&mov ($key_,"esp");
&sub ("esp",16*7+8);
&and ("esp",-16); # align stack
&xor ($rounds_,$rounds_); # if(len%16) len-=16;
&test ($len,15);
&setnz (&LB($rounds_));
&shl ($rounds_,4);
&sub ($len,$rounds_);
&mov (&DWP(16*6+0,"esp"),0x87); # compose the magic constant
&mov (&DWP(16*6+4,"esp"),0);
&mov (&DWP(16*6+8,"esp"),1);
&mov (&DWP(16*6+12,"esp"),0);
&mov (&DWP(16*7+0,"esp"),$len); # save original $len
&mov (&DWP(16*7+4,"esp"),$key_); # save original %esp
&mov ($rounds,&DWP(240,$key)); # key1->rounds
&mov ($key_,$key); # backup $key
&mov ($rounds_,$rounds); # backup $rounds
&movdqa ($tweak,$inout0);
&pxor ($twtmp,$twtmp);
&movdqa ($twmask,&QWP(6*16,"esp")); # 0x0...010...87
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&and ($len,-16);
&sub ($len,16*6);
&jc (&label("xts_dec_short"));
&shl ($rounds,4);
&mov ($rounds_,16);
&sub ($rounds_,$rounds);
&lea ($key,&DWP(32,$key,$rounds));
&jmp (&label("xts_dec_loop6"));
&set_label("xts_dec_loop6",16);
for ($i=0;$i<4;$i++) {
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa (&QWP(16*$i,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd ($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
}
&pshufd ($inout5,$twtmp,0x13);
&movdqa (&QWP(16*$i++,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&$movekey ($rndkey0,&QWP(0,$key_));
&pand ($inout5,$twmask); # isolate carry and residue
&movups ($inout0,&QWP(0,$inp)); # load input
&pxor ($inout5,$tweak);
# inline _aesni_encrypt6 prologue and flip xor with tweak and key[0]
&mov ($rounds,$rounds_);
&movdqu ($inout1,&QWP(16*1,$inp));
&xorps ($inout0,$rndkey0); # input^=rndkey[0]
&movdqu ($inout2,&QWP(16*2,$inp));
&pxor ($inout1,$rndkey0);
&movdqu ($inout3,&QWP(16*3,$inp));
&pxor ($inout2,$rndkey0);
&movdqu ($inout4,&QWP(16*4,$inp));
&pxor ($inout3,$rndkey0);
&movdqu ($rndkey1,&QWP(16*5,$inp));
&pxor ($inout4,$rndkey0);
&lea ($inp,&DWP(16*6,$inp));
&pxor ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movdqa (&QWP(16*$i,"esp"),$inout5); # save last tweak
&pxor ($inout5,$rndkey1);
&$movekey ($rndkey1,&QWP(16,$key_));
&pxor ($inout1,&QWP(16*1,"esp"));
&pxor ($inout2,&QWP(16*2,"esp"));
&aesdec ($inout0,$rndkey1);
&pxor ($inout3,&QWP(16*3,"esp"));
&pxor ($inout4,&QWP(16*4,"esp"));
&aesdec ($inout1,$rndkey1);
&pxor ($inout5,$rndkey0);
&$movekey ($rndkey0,&QWP(32,$key_));
&aesdec ($inout2,$rndkey1);
&aesdec ($inout3,$rndkey1);
&aesdec ($inout4,$rndkey1);
&aesdec ($inout5,$rndkey1);
&call (&label("_aesni_decrypt6_enter"));
&movdqa ($tweak,&QWP(16*5,"esp")); # last tweak
&pxor ($twtmp,$twtmp);
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&pcmpgtd ($twtmp,$tweak); # broadcast upper bits
&xorps ($inout1,&QWP(16*1,"esp"));
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout2,&QWP(16*2,"esp"));
&movups (&QWP(16*1,$out),$inout1);
&xorps ($inout3,&QWP(16*3,"esp"));
&movups (&QWP(16*2,$out),$inout2);
&xorps ($inout4,&QWP(16*4,"esp"));
&movups (&QWP(16*3,$out),$inout3);
&xorps ($inout5,$tweak);
&movups (&QWP(16*4,$out),$inout4);
&pshufd ($twres,$twtmp,0x13);
&movups (&QWP(16*5,$out),$inout5);
&lea ($out,&DWP(16*6,$out));
&movdqa ($twmask,&QWP(16*6,"esp")); # 0x0...010...87
&pxor ($twtmp,$twtmp);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&sub ($len,16*6);
&jnc (&label("xts_dec_loop6"));
&mov ($rounds,&DWP(240,$key_)); # restore $rounds
&mov ($key,$key_); # restore $key
&mov ($rounds_,$rounds);
&set_label("xts_dec_short");
&add ($len,16*6);
&jz (&label("xts_dec_done6x"));
&movdqa ($inout3,$tweak); # put aside previous tweak
&cmp ($len,0x20);
&jb (&label("xts_dec_one"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&je (&label("xts_dec_two"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa ($inout4,$tweak); # put aside previous tweak
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&cmp ($len,0x40);
&jb (&label("xts_dec_three"));
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa ($inout5,$tweak); # put aside previous tweak
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&movdqa (&QWP(16*0,"esp"),$inout3);
&movdqa (&QWP(16*1,"esp"),$inout4);
&je (&label("xts_dec_four"));
&movdqa (&QWP(16*2,"esp"),$inout5);
&pshufd ($inout5,$twtmp,0x13);
&movdqa (&QWP(16*3,"esp"),$tweak);
&paddq ($tweak,$tweak); # &psllq($inout0,1);
&pand ($inout5,$twmask); # isolate carry and residue
&pxor ($inout5,$tweak);
&movdqu ($inout0,&QWP(16*0,$inp)); # load input
&movdqu ($inout1,&QWP(16*1,$inp));
&movdqu ($inout2,&QWP(16*2,$inp));
&pxor ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movdqu ($inout3,&QWP(16*3,$inp));
&pxor ($inout1,&QWP(16*1,"esp"));
&movdqu ($inout4,&QWP(16*4,$inp));
&pxor ($inout2,&QWP(16*2,"esp"));
&lea ($inp,&DWP(16*5,$inp));
&pxor ($inout3,&QWP(16*3,"esp"));
&movdqa (&QWP(16*4,"esp"),$inout5); # save last tweak
&pxor ($inout4,$inout5);
&call ("_aesni_decrypt6");
&movaps ($tweak,&QWP(16*4,"esp")); # last tweak
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,&QWP(16*2,"esp"));
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout3,&QWP(16*3,"esp"));
&movups (&QWP(16*1,$out),$inout1);
&xorps ($inout4,$tweak);
&movups (&QWP(16*2,$out),$inout2);
&movups (&QWP(16*3,$out),$inout3);
&movups (&QWP(16*4,$out),$inout4);
&lea ($out,&DWP(16*5,$out));
&jmp (&label("xts_dec_done"));
&set_label("xts_dec_one",16);
&movups ($inout0,&QWP(16*0,$inp)); # load input
&lea ($inp,&DWP(16*1,$inp));
&xorps ($inout0,$inout3); # input^=tweak
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&xorps ($inout0,$inout3); # output^=tweak
&movups (&QWP(16*0,$out),$inout0); # write output
&lea ($out,&DWP(16*1,$out));
&movdqa ($tweak,$inout3); # last tweak
&jmp (&label("xts_dec_done"));
&set_label("xts_dec_two",16);
&movaps ($inout4,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&lea ($inp,&DWP(16*2,$inp));
&xorps ($inout0,$inout3); # input^=tweak
&xorps ($inout1,$inout4);
&call ("_aesni_decrypt2");
&xorps ($inout0,$inout3); # output^=tweak
&xorps ($inout1,$inout4);
&movups (&QWP(16*0,$out),$inout0); # write output
&movups (&QWP(16*1,$out),$inout1);
&lea ($out,&DWP(16*2,$out));
&movdqa ($tweak,$inout4); # last tweak
&jmp (&label("xts_dec_done"));
&set_label("xts_dec_three",16);
&movaps ($inout5,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&movups ($inout2,&QWP(16*2,$inp));
&lea ($inp,&DWP(16*3,$inp));
&xorps ($inout0,$inout3); # input^=tweak
&xorps ($inout1,$inout4);
&xorps ($inout2,$inout5);
&call ("_aesni_decrypt3");
&xorps ($inout0,$inout3); # output^=tweak
&xorps ($inout1,$inout4);
&xorps ($inout2,$inout5);
&movups (&QWP(16*0,$out),$inout0); # write output
&movups (&QWP(16*1,$out),$inout1);
&movups (&QWP(16*2,$out),$inout2);
&lea ($out,&DWP(16*3,$out));
&movdqa ($tweak,$inout5); # last tweak
&jmp (&label("xts_dec_done"));
&set_label("xts_dec_four",16);
&movaps ($inout4,$tweak); # put aside last tweak
&movups ($inout0,&QWP(16*0,$inp)); # load input
&movups ($inout1,&QWP(16*1,$inp));
&movups ($inout2,&QWP(16*2,$inp));
&xorps ($inout0,&QWP(16*0,"esp")); # input^=tweak
&movups ($inout3,&QWP(16*3,$inp));
&lea ($inp,&DWP(16*4,$inp));
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,$inout5);
&xorps ($inout3,$inout4);
&call ("_aesni_decrypt4");
&xorps ($inout0,&QWP(16*0,"esp")); # output^=tweak
&xorps ($inout1,&QWP(16*1,"esp"));
&xorps ($inout2,$inout5);
&movups (&QWP(16*0,$out),$inout0); # write output
&xorps ($inout3,$inout4);
&movups (&QWP(16*1,$out),$inout1);
&movups (&QWP(16*2,$out),$inout2);
&movups (&QWP(16*3,$out),$inout3);
&lea ($out,&DWP(16*4,$out));
&movdqa ($tweak,$inout4); # last tweak
&jmp (&label("xts_dec_done"));
&set_label("xts_dec_done6x",16); # $tweak is pre-calculated
&mov ($len,&DWP(16*7+0,"esp")); # restore original $len
&and ($len,15);
&jz (&label("xts_dec_ret"));
&mov (&DWP(16*7+0,"esp"),$len); # save $len%16
&jmp (&label("xts_dec_only_one_more"));
&set_label("xts_dec_done",16);
&mov ($len,&DWP(16*7+0,"esp")); # restore original $len
&pxor ($twtmp,$twtmp);
&and ($len,15);
&jz (&label("xts_dec_ret"));
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&mov (&DWP(16*7+0,"esp"),$len); # save $len%16
&pshufd ($twres,$twtmp,0x13);
&pxor ($twtmp,$twtmp);
&movdqa ($twmask,&QWP(16*6,"esp"));
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($twres,$twmask); # isolate carry and residue
&pcmpgtd($twtmp,$tweak); # broadcast upper bits
&pxor ($tweak,$twres);
&set_label("xts_dec_only_one_more");
&pshufd ($inout3,$twtmp,0x13);
&movdqa ($inout4,$tweak); # put aside previous tweak
&paddq ($tweak,$tweak); # &psllq($tweak,1);
&pand ($inout3,$twmask); # isolate carry and residue
&pxor ($inout3,$tweak);
&mov ($key,$key_); # restore $key
&mov ($rounds,$rounds_); # restore $rounds
&movups ($inout0,&QWP(0,$inp)); # load input
&xorps ($inout0,$inout3); # input^=tweak
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&xorps ($inout0,$inout3); # output^=tweak
&movups (&QWP(0,$out),$inout0); # write output
&set_label("xts_dec_steal");
&movz ($rounds,&BP(16,$inp));
&movz ($key,&BP(0,$out));
&lea ($inp,&DWP(1,$inp));
&mov (&BP(0,$out),&LB($rounds));
&mov (&BP(16,$out),&LB($key));
&lea ($out,&DWP(1,$out));
&sub ($len,1);
&jnz (&label("xts_dec_steal"));
&sub ($out,&DWP(16*7+0,"esp")); # rewind $out
&mov ($key,$key_); # restore $key
&mov ($rounds,$rounds_); # restore $rounds
&movups ($inout0,&QWP(0,$out)); # load input
&xorps ($inout0,$inout4); # input^=tweak
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&xorps ($inout0,$inout4); # output^=tweak
&movups (&QWP(0,$out),$inout0); # write output
&set_label("xts_dec_ret");
&pxor ("xmm0","xmm0"); # clear register bank
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&movdqa (&QWP(16*0,"esp"),"xmm0"); # clear stack
&pxor ("xmm3","xmm3");
&movdqa (&QWP(16*1,"esp"),"xmm0");
&pxor ("xmm4","xmm4");
&movdqa (&QWP(16*2,"esp"),"xmm0");
&pxor ("xmm5","xmm5");
&movdqa (&QWP(16*3,"esp"),"xmm0");
&pxor ("xmm6","xmm6");
&movdqa (&QWP(16*4,"esp"),"xmm0");
&pxor ("xmm7","xmm7");
&movdqa (&QWP(16*5,"esp"),"xmm0");
&mov ("esp",&DWP(16*7+4,"esp")); # restore %esp
&function_end("${PREFIX}_xts_decrypt");
}
}
######################################################################
# void $PREFIX_cbc_encrypt (const void *inp, void *out,
# size_t length, const AES_KEY *key,
# unsigned char *ivp,const int enc);
&function_begin("${PREFIX}_cbc_encrypt");
&mov ($inp,&wparam(0));
&mov ($rounds_,"esp");
&mov ($out,&wparam(1));
&sub ($rounds_,24);
&mov ($len,&wparam(2));
&and ($rounds_,-16);
&mov ($key,&wparam(3));
&mov ($key_,&wparam(4));
&test ($len,$len);
&jz (&label("cbc_abort"));
&cmp (&wparam(5),0);
&xchg ($rounds_,"esp"); # alloca
&movups ($ivec,&QWP(0,$key_)); # load IV
&mov ($rounds,&DWP(240,$key));
&mov ($key_,$key); # backup $key
&mov (&DWP(16,"esp"),$rounds_); # save original %esp
&mov ($rounds_,$rounds); # backup $rounds
&je (&label("cbc_decrypt"));
&movaps ($inout0,$ivec);
&cmp ($len,16);
&jb (&label("cbc_enc_tail"));
&sub ($len,16);
&jmp (&label("cbc_enc_loop"));
&set_label("cbc_enc_loop",16);
&movups ($ivec,&QWP(0,$inp)); # input actually
&lea ($inp,&DWP(16,$inp));
if ($inline)
{ &aesni_inline_generate1("enc",$inout0,$ivec); }
else
{ &xorps($inout0,$ivec); &call("_aesni_encrypt1"); }
&mov ($rounds,$rounds_); # restore $rounds
&mov ($key,$key_); # restore $key
&movups (&QWP(0,$out),$inout0); # store output
&lea ($out,&DWP(16,$out));
&sub ($len,16);
&jnc (&label("cbc_enc_loop"));
&add ($len,16);
&jnz (&label("cbc_enc_tail"));
&movaps ($ivec,$inout0);
&pxor ($inout0,$inout0);
&jmp (&label("cbc_ret"));
&set_label("cbc_enc_tail");
&mov ("ecx",$len); # zaps $rounds
&data_word(0xA4F3F689); # rep movsb
&mov ("ecx",16); # zero tail
&sub ("ecx",$len);
&xor ("eax","eax"); # zaps $len
&data_word(0xAAF3F689); # rep stosb
&lea ($out,&DWP(-16,$out)); # rewind $out by 1 block
&mov ($rounds,$rounds_); # restore $rounds
&mov ($inp,$out); # $inp and $out are the same
&mov ($key,$key_); # restore $key
&jmp (&label("cbc_enc_loop"));
######################################################################
&set_label("cbc_decrypt",16);
&cmp ($len,0x50);
&jbe (&label("cbc_dec_tail"));
&movaps (&QWP(0,"esp"),$ivec); # save IV
&sub ($len,0x50);
&jmp (&label("cbc_dec_loop6_enter"));
&set_label("cbc_dec_loop6",16);
&movaps (&QWP(0,"esp"),$rndkey0); # save IV
&movups (&QWP(0,$out),$inout5);
&lea ($out,&DWP(0x10,$out));
&set_label("cbc_dec_loop6_enter");
&movdqu ($inout0,&QWP(0,$inp));
&movdqu ($inout1,&QWP(0x10,$inp));
&movdqu ($inout2,&QWP(0x20,$inp));
&movdqu ($inout3,&QWP(0x30,$inp));
&movdqu ($inout4,&QWP(0x40,$inp));
&movdqu ($inout5,&QWP(0x50,$inp));
&call ("_aesni_decrypt6");
&movups ($rndkey1,&QWP(0,$inp));
&movups ($rndkey0,&QWP(0x10,$inp));
&xorps ($inout0,&QWP(0,"esp")); # ^=IV
&xorps ($inout1,$rndkey1);
&movups ($rndkey1,&QWP(0x20,$inp));
&xorps ($inout2,$rndkey0);
&movups ($rndkey0,&QWP(0x30,$inp));
&xorps ($inout3,$rndkey1);
&movups ($rndkey1,&QWP(0x40,$inp));
&xorps ($inout4,$rndkey0);
&movups ($rndkey0,&QWP(0x50,$inp)); # IV
&xorps ($inout5,$rndkey1);
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&lea ($inp,&DWP(0x60,$inp));
&movups (&QWP(0x20,$out),$inout2);
&mov ($rounds,$rounds_); # restore $rounds
&movups (&QWP(0x30,$out),$inout3);
&mov ($key,$key_); # restore $key
&movups (&QWP(0x40,$out),$inout4);
&lea ($out,&DWP(0x50,$out));
&sub ($len,0x60);
&ja (&label("cbc_dec_loop6"));
&movaps ($inout0,$inout5);
&movaps ($ivec,$rndkey0);
&add ($len,0x50);
&jle (&label("cbc_dec_clear_tail_collected"));
&movups (&QWP(0,$out),$inout0);
&lea ($out,&DWP(0x10,$out));
&set_label("cbc_dec_tail");
&movups ($inout0,&QWP(0,$inp));
&movaps ($in0,$inout0);
&cmp ($len,0x10);
&jbe (&label("cbc_dec_one"));
&movups ($inout1,&QWP(0x10,$inp));
&movaps ($in1,$inout1);
&cmp ($len,0x20);
&jbe (&label("cbc_dec_two"));
&movups ($inout2,&QWP(0x20,$inp));
&cmp ($len,0x30);
&jbe (&label("cbc_dec_three"));
&movups ($inout3,&QWP(0x30,$inp));
&cmp ($len,0x40);
&jbe (&label("cbc_dec_four"));
&movups ($inout4,&QWP(0x40,$inp));
&movaps (&QWP(0,"esp"),$ivec); # save IV
&movups ($inout0,&QWP(0,$inp));
&xorps ($inout5,$inout5);
&call ("_aesni_decrypt6");
&movups ($rndkey1,&QWP(0,$inp));
&movups ($rndkey0,&QWP(0x10,$inp));
&xorps ($inout0,&QWP(0,"esp")); # ^= IV
&xorps ($inout1,$rndkey1);
&movups ($rndkey1,&QWP(0x20,$inp));
&xorps ($inout2,$rndkey0);
&movups ($rndkey0,&QWP(0x30,$inp));
&xorps ($inout3,$rndkey1);
&movups ($ivec,&QWP(0x40,$inp)); # IV
&xorps ($inout4,$rndkey0);
&movups (&QWP(0,$out),$inout0);
&movups (&QWP(0x10,$out),$inout1);
&pxor ($inout1,$inout1);
&movups (&QWP(0x20,$out),$inout2);
&pxor ($inout2,$inout2);
&movups (&QWP(0x30,$out),$inout3);
&pxor ($inout3,$inout3);
&lea ($out,&DWP(0x40,$out));
&movaps ($inout0,$inout4);
&pxor ($inout4,$inout4);
&sub ($len,0x50);
&jmp (&label("cbc_dec_tail_collected"));
&set_label("cbc_dec_one",16);
if ($inline)
{ &aesni_inline_generate1("dec"); }
else
{ &call ("_aesni_decrypt1"); }
&xorps ($inout0,$ivec);
&movaps ($ivec,$in0);
&sub ($len,0x10);
&jmp (&label("cbc_dec_tail_collected"));
&set_label("cbc_dec_two",16);
&call ("_aesni_decrypt2");
&xorps ($inout0,$ivec);
&xorps ($inout1,$in0);
&movups (&QWP(0,$out),$inout0);
&movaps ($inout0,$inout1);
&pxor ($inout1,$inout1);
&lea ($out,&DWP(0x10,$out));
&movaps ($ivec,$in1);
&sub ($len,0x20);
&jmp (&label("cbc_dec_tail_collected"));
&set_label("cbc_dec_three",16);
&call ("_aesni_decrypt3");
&xorps ($inout0,$ivec);
&xorps ($inout1,$in0);
&xorps ($inout2,$in1);
&movups (&QWP(0,$out),$inout0);
&movaps ($inout0,$inout2);
&pxor ($inout2,$inout2);
&movups (&QWP(0x10,$out),$inout1);
&pxor ($inout1,$inout1);
&lea ($out,&DWP(0x20,$out));
&movups ($ivec,&QWP(0x20,$inp));
&sub ($len,0x30);
&jmp (&label("cbc_dec_tail_collected"));
&set_label("cbc_dec_four",16);
&call ("_aesni_decrypt4");
&movups ($rndkey1,&QWP(0x10,$inp));
&movups ($rndkey0,&QWP(0x20,$inp));
&xorps ($inout0,$ivec);
&movups ($ivec,&QWP(0x30,$inp));
&xorps ($inout1,$in0);
&movups (&QWP(0,$out),$inout0);
&xorps ($inout2,$rndkey1);
&movups (&QWP(0x10,$out),$inout1);
&pxor ($inout1,$inout1);
&xorps ($inout3,$rndkey0);
&movups (&QWP(0x20,$out),$inout2);
&pxor ($inout2,$inout2);
&lea ($out,&DWP(0x30,$out));
&movaps ($inout0,$inout3);
&pxor ($inout3,$inout3);
&sub ($len,0x40);
&jmp (&label("cbc_dec_tail_collected"));
&set_label("cbc_dec_clear_tail_collected",16);
&pxor ($inout1,$inout1);
&pxor ($inout2,$inout2);
&pxor ($inout3,$inout3);
&pxor ($inout4,$inout4);
&set_label("cbc_dec_tail_collected");
&and ($len,15);
&jnz (&label("cbc_dec_tail_partial"));
&movups (&QWP(0,$out),$inout0);
&pxor ($rndkey0,$rndkey0);
&jmp (&label("cbc_ret"));
&set_label("cbc_dec_tail_partial",16);
&movaps (&QWP(0,"esp"),$inout0);
&pxor ($rndkey0,$rndkey0);
&mov ("ecx",16);
&mov ($inp,"esp");
&sub ("ecx",$len);
&data_word(0xA4F3F689); # rep movsb
&movdqa (&QWP(0,"esp"),$inout0);
&set_label("cbc_ret");
&mov ("esp",&DWP(16,"esp")); # pull original %esp
&mov ($key_,&wparam(4));
&pxor ($inout0,$inout0);
&pxor ($rndkey1,$rndkey1);
&movups (&QWP(0,$key_),$ivec); # output IV
&pxor ($ivec,$ivec);
&set_label("cbc_abort");
&function_end("${PREFIX}_cbc_encrypt");
######################################################################
# Mechanical port from aesni-x86_64.pl.
#
# _aesni_set_encrypt_key is private interface,
# input:
# "eax" const unsigned char *userKey
# $rounds int bits
# $key AES_KEY *key
# output:
# "eax" return code
# $round rounds
&function_begin_B("_aesni_set_encrypt_key");
&push ("ebp");
&push ("ebx");
&test ("eax","eax");
&jz (&label("bad_pointer"));
&test ($key,$key);
&jz (&label("bad_pointer"));
&call (&label("pic"));
&set_label("pic");
&blindpop("ebx");
&lea ("ebx",&DWP(&label("key_const")."-".&label("pic"),"ebx"));
&picmeup("ebp","OPENSSL_ia32cap_P","ebx",&label("key_const"));
&movups ("xmm0",&QWP(0,"eax")); # pull first 128 bits of *userKey
&xorps ("xmm4","xmm4"); # low dword of xmm4 is assumed 0
&mov ("ebp",&DWP(4,"ebp"));
&lea ($key,&DWP(16,$key));
&and ("ebp",1<<28|1<<11); # AVX and XOP bits
&cmp ($rounds,256);
&je (&label("14rounds"));
&cmp ($rounds,192);
&je (&label("12rounds"));
&cmp ($rounds,128);
&jne (&label("bad_keybits"));
&set_label("10rounds",16);
&cmp ("ebp",1<<28);
&je (&label("10rounds_alt"));
&mov ($rounds,9);
&$movekey (&QWP(-16,$key),"xmm0"); # round 0
&aeskeygenassist("xmm1","xmm0",0x01); # round 1
&call (&label("key_128_cold"));
&aeskeygenassist("xmm1","xmm0",0x2); # round 2
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x04); # round 3
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x08); # round 4
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x10); # round 5
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x20); # round 6
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x40); # round 7
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x80); # round 8
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x1b); # round 9
&call (&label("key_128"));
&aeskeygenassist("xmm1","xmm0",0x36); # round 10
&call (&label("key_128"));
&$movekey (&QWP(0,$key),"xmm0");
&mov (&DWP(80,$key),$rounds);
&jmp (&label("good_key"));
&set_label("key_128",16);
&$movekey (&QWP(0,$key),"xmm0");
&lea ($key,&DWP(16,$key));
&set_label("key_128_cold");
&shufps ("xmm4","xmm0",0b00010000);
&xorps ("xmm0","xmm4");
&shufps ("xmm4","xmm0",0b10001100);
&xorps ("xmm0","xmm4");
&shufps ("xmm1","xmm1",0b11111111); # critical path
&xorps ("xmm0","xmm1");
&ret();
&set_label("10rounds_alt",16);
&movdqa ("xmm5",&QWP(0x00,"ebx"));
&mov ($rounds,8);
&movdqa ("xmm4",&QWP(0x20,"ebx"));
&movdqa ("xmm2","xmm0");
&movdqu (&QWP(-16,$key),"xmm0");
&set_label("loop_key128");
&pshufb ("xmm0","xmm5");
&aesenclast ("xmm0","xmm4");
&pslld ("xmm4",1);
&lea ($key,&DWP(16,$key));
&movdqa ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm2","xmm3");
&pxor ("xmm0","xmm2");
&movdqu (&QWP(-16,$key),"xmm0");
&movdqa ("xmm2","xmm0");
&dec ($rounds);
&jnz (&label("loop_key128"));
&movdqa ("xmm4",&QWP(0x30,"ebx"));
&pshufb ("xmm0","xmm5");
&aesenclast ("xmm0","xmm4");
&pslld ("xmm4",1);
&movdqa ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm2","xmm3");
&pxor ("xmm0","xmm2");
&movdqu (&QWP(0,$key),"xmm0");
&movdqa ("xmm2","xmm0");
&pshufb ("xmm0","xmm5");
&aesenclast ("xmm0","xmm4");
&movdqa ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm3","xmm2");
&pslldq ("xmm2",4);
&pxor ("xmm2","xmm3");
&pxor ("xmm0","xmm2");
&movdqu (&QWP(16,$key),"xmm0");
&mov ($rounds,9);
&mov (&DWP(96,$key),$rounds);
&jmp (&label("good_key"));
&set_label("12rounds",16);
&movq ("xmm2",&QWP(16,"eax")); # remaining 1/3 of *userKey
&cmp ("ebp",1<<28);
&je (&label("12rounds_alt"));
&mov ($rounds,11);
&$movekey (&QWP(-16,$key),"xmm0"); # round 0
&aeskeygenassist("xmm1","xmm2",0x01); # round 1,2
&call (&label("key_192a_cold"));
&aeskeygenassist("xmm1","xmm2",0x02); # round 2,3
&call (&label("key_192b"));
&aeskeygenassist("xmm1","xmm2",0x04); # round 4,5
&call (&label("key_192a"));
&aeskeygenassist("xmm1","xmm2",0x08); # round 5,6
&call (&label("key_192b"));
&aeskeygenassist("xmm1","xmm2",0x10); # round 7,8
&call (&label("key_192a"));
&aeskeygenassist("xmm1","xmm2",0x20); # round 8,9
&call (&label("key_192b"));
&aeskeygenassist("xmm1","xmm2",0x40); # round 10,11
&call (&label("key_192a"));
&aeskeygenassist("xmm1","xmm2",0x80); # round 11,12
&call (&label("key_192b"));
&$movekey (&QWP(0,$key),"xmm0");
&mov (&DWP(48,$key),$rounds);
&jmp (&label("good_key"));
&set_label("key_192a",16);
&$movekey (&QWP(0,$key),"xmm0");
&lea ($key,&DWP(16,$key));
&set_label("key_192a_cold",16);
&movaps ("xmm5","xmm2");
&set_label("key_192b_warm");
&shufps ("xmm4","xmm0",0b00010000);
&movdqa ("xmm3","xmm2");
&xorps ("xmm0","xmm4");
&shufps ("xmm4","xmm0",0b10001100);
&pslldq ("xmm3",4);
&xorps ("xmm0","xmm4");
&pshufd ("xmm1","xmm1",0b01010101); # critical path
&pxor ("xmm2","xmm3");
&pxor ("xmm0","xmm1");
&pshufd ("xmm3","xmm0",0b11111111);
&pxor ("xmm2","xmm3");
&ret();
&set_label("key_192b",16);
&movaps ("xmm3","xmm0");
&shufps ("xmm5","xmm0",0b01000100);
&$movekey (&QWP(0,$key),"xmm5");
&shufps ("xmm3","xmm2",0b01001110);
&$movekey (&QWP(16,$key),"xmm3");
&lea ($key,&DWP(32,$key));
&jmp (&label("key_192b_warm"));
&set_label("12rounds_alt",16);
&movdqa ("xmm5",&QWP(0x10,"ebx"));
&movdqa ("xmm4",&QWP(0x20,"ebx"));
&mov ($rounds,8);
&movdqu (&QWP(-16,$key),"xmm0");
&set_label("loop_key192");
&movq (&QWP(0,$key),"xmm2");
&movdqa ("xmm1","xmm2");
&pshufb ("xmm2","xmm5");
&aesenclast ("xmm2","xmm4");
&pslld ("xmm4",1);
&lea ($key,&DWP(24,$key));
&movdqa ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm0","xmm3");
&pshufd ("xmm3","xmm0",0xff);
&pxor ("xmm3","xmm1");
&pslldq ("xmm1",4);
&pxor ("xmm3","xmm1");
&pxor ("xmm0","xmm2");
&pxor ("xmm2","xmm3");
&movdqu (&QWP(-16,$key),"xmm0");
&dec ($rounds);
&jnz (&label("loop_key192"));
&mov ($rounds,11);
&mov (&DWP(32,$key),$rounds);
&jmp (&label("good_key"));
&set_label("14rounds",16);
&movups ("xmm2",&QWP(16,"eax")); # remaining half of *userKey
&lea ($key,&DWP(16,$key));
&cmp ("ebp",1<<28);
&je (&label("14rounds_alt"));
&mov ($rounds,13);
&$movekey (&QWP(-32,$key),"xmm0"); # round 0
&$movekey (&QWP(-16,$key),"xmm2"); # round 1
&aeskeygenassist("xmm1","xmm2",0x01); # round 2
&call (&label("key_256a_cold"));
&aeskeygenassist("xmm1","xmm0",0x01); # round 3
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x02); # round 4
&call (&label("key_256a"));
&aeskeygenassist("xmm1","xmm0",0x02); # round 5
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x04); # round 6
&call (&label("key_256a"));
&aeskeygenassist("xmm1","xmm0",0x04); # round 7
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x08); # round 8
&call (&label("key_256a"));
&aeskeygenassist("xmm1","xmm0",0x08); # round 9
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x10); # round 10
&call (&label("key_256a"));
&aeskeygenassist("xmm1","xmm0",0x10); # round 11
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x20); # round 12
&call (&label("key_256a"));
&aeskeygenassist("xmm1","xmm0",0x20); # round 13
&call (&label("key_256b"));
&aeskeygenassist("xmm1","xmm2",0x40); # round 14
&call (&label("key_256a"));
&$movekey (&QWP(0,$key),"xmm0");
&mov (&DWP(16,$key),$rounds);
&xor ("eax","eax");
&jmp (&label("good_key"));
&set_label("key_256a",16);
&$movekey (&QWP(0,$key),"xmm2");
&lea ($key,&DWP(16,$key));
&set_label("key_256a_cold");
&shufps ("xmm4","xmm0",0b00010000);
&xorps ("xmm0","xmm4");
&shufps ("xmm4","xmm0",0b10001100);
&xorps ("xmm0","xmm4");
&shufps ("xmm1","xmm1",0b11111111); # critical path
&xorps ("xmm0","xmm1");
&ret();
&set_label("key_256b",16);
&$movekey (&QWP(0,$key),"xmm0");
&lea ($key,&DWP(16,$key));
&shufps ("xmm4","xmm2",0b00010000);
&xorps ("xmm2","xmm4");
&shufps ("xmm4","xmm2",0b10001100);
&xorps ("xmm2","xmm4");
&shufps ("xmm1","xmm1",0b10101010); # critical path
&xorps ("xmm2","xmm1");
&ret();
&set_label("14rounds_alt",16);
&movdqa ("xmm5",&QWP(0x00,"ebx"));
&movdqa ("xmm4",&QWP(0x20,"ebx"));
&mov ($rounds,7);
&movdqu (&QWP(-32,$key),"xmm0");
&movdqa ("xmm1","xmm2");
&movdqu (&QWP(-16,$key),"xmm2");
&set_label("loop_key256");
&pshufb ("xmm2","xmm5");
&aesenclast ("xmm2","xmm4");
&movdqa ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm3","xmm0");
&pslldq ("xmm0",4);
&pxor ("xmm0","xmm3");
&pslld ("xmm4",1);
&pxor ("xmm0","xmm2");
&movdqu (&QWP(0,$key),"xmm0");
&dec ($rounds);
&jz (&label("done_key256"));
&pshufd ("xmm2","xmm0",0xff);
&pxor ("xmm3","xmm3");
&aesenclast ("xmm2","xmm3");
&movdqa ("xmm3","xmm1");
&pslldq ("xmm1",4);
&pxor ("xmm3","xmm1");
&pslldq ("xmm1",4);
&pxor ("xmm3","xmm1");
&pslldq ("xmm1",4);
&pxor ("xmm1","xmm3");
&pxor ("xmm2","xmm1");
&movdqu (&QWP(16,$key),"xmm2");
&lea ($key,&DWP(32,$key));
&movdqa ("xmm1","xmm2");
&jmp (&label("loop_key256"));
&set_label("done_key256");
&mov ($rounds,13);
&mov (&DWP(16,$key),$rounds);
&set_label("good_key");
&pxor ("xmm0","xmm0");
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&pxor ("xmm5","xmm5");
&xor ("eax","eax");
&pop ("ebx");
&pop ("ebp");
&ret ();
&set_label("bad_pointer",4);
&mov ("eax",-1);
&pop ("ebx");
&pop ("ebp");
&ret ();
&set_label("bad_keybits",4);
&pxor ("xmm0","xmm0");
&mov ("eax",-2);
&pop ("ebx");
&pop ("ebp");
&ret ();
&function_end_B("_aesni_set_encrypt_key");
# int $PREFIX_set_encrypt_key (const unsigned char *userKey, int bits,
# AES_KEY *key)
&function_begin_B("${PREFIX}_set_encrypt_key");
&record_function_hit(3);
&mov ("eax",&wparam(0));
&mov ($rounds,&wparam(1));
&mov ($key,&wparam(2));
&call ("_aesni_set_encrypt_key");
&ret ();
&function_end_B("${PREFIX}_set_encrypt_key");
# int $PREFIX_set_decrypt_key (const unsigned char *userKey, int bits,
# AES_KEY *key)
&function_begin_B("${PREFIX}_set_decrypt_key");
&mov ("eax",&wparam(0));
&mov ($rounds,&wparam(1));
&mov ($key,&wparam(2));
&call ("_aesni_set_encrypt_key");
&mov ($key,&wparam(2));
&shl ($rounds,4); # rounds-1 after _aesni_set_encrypt_key
&test ("eax","eax");
&jnz (&label("dec_key_ret"));
&lea ("eax",&DWP(16,$key,$rounds)); # end of key schedule
&$movekey ("xmm0",&QWP(0,$key)); # just swap
&$movekey ("xmm1",&QWP(0,"eax"));
&$movekey (&QWP(0,"eax"),"xmm0");
&$movekey (&QWP(0,$key),"xmm1");
&lea ($key,&DWP(16,$key));
&lea ("eax",&DWP(-16,"eax"));
&set_label("dec_key_inverse");
&$movekey ("xmm0",&QWP(0,$key)); # swap and inverse
&$movekey ("xmm1",&QWP(0,"eax"));
&aesimc ("xmm0","xmm0");
&aesimc ("xmm1","xmm1");
&lea ($key,&DWP(16,$key));
&lea ("eax",&DWP(-16,"eax"));
&$movekey (&QWP(16,"eax"),"xmm0");
&$movekey (&QWP(-16,$key),"xmm1");
&cmp ("eax",$key);
&ja (&label("dec_key_inverse"));
&$movekey ("xmm0",&QWP(0,$key)); # inverse middle
&aesimc ("xmm0","xmm0");
&$movekey (&QWP(0,$key),"xmm0");
&pxor ("xmm0","xmm0");
&pxor ("xmm1","xmm1");
&xor ("eax","eax"); # return success
&set_label("dec_key_ret");
&ret ();
&function_end_B("${PREFIX}_set_decrypt_key");
&set_label("key_const",64);
&data_word(0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d);
&data_word(0x04070605,0x04070605,0x04070605,0x04070605);
&data_word(1,1,1,1);
&data_word(0x1b,0x1b,0x1b,0x1b);
&asciz("AES for Intel AES-NI, CRYPTOGAMS by <appro\@openssl.org>");
&asm_finish();
close STDOUT or die "error closing STDOUT";