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- #! /usr/bin/env perl
- # Copyright 2008-2020 The OpenSSL Project Authors. All Rights Reserved.
- #
- # Licensed under the OpenSSL license (the "License"). You may not use
- # this file except in compliance with the License. You can obtain a copy
- # in the file LICENSE in the source distribution or at
- # https://www.openssl.org/source/license.html
- # ====================================================================
- # Copyright (c) 2008 Andy Polyakov <appro@openssl.org>
- #
- # This module may be used under the terms of either the GNU General
- # Public License version 2 or later, the GNU Lesser General Public
- # License version 2.1 or later, the Mozilla Public License version
- # 1.1 or the BSD License. The exact terms of either license are
- # distributed along with this module. For further details see
- # http://www.openssl.org/~appro/camellia/.
- # ====================================================================
- # Performance in cycles per processed byte (less is better) in
- # 'openssl speed ...' benchmark:
- #
- # AMD K8 Core2 PIII P4
- # -evp camellia-128-ecb 21.5 22.8 27.0 28.9
- # + over gcc 3.4.6 +90/11% +70/10% +53/4% +160/64%
- # + over icc 8.0 +48/19% +21/15% +21/17% +55/37%
- #
- # camellia-128-cbc 17.3 21.1 23.9 25.9
- #
- # 128-bit key setup 196 280 256 240 cycles/key
- # + over gcc 3.4.6 +30/0% +17/11% +11/0% +63/40%
- # + over icc 8.0 +18/3% +10/0% +10/3% +21/10%
- #
- # Pairs of numbers in "+" rows represent performance improvement over
- # compiler generated position-independent code, PIC, and non-PIC
- # respectively. PIC results are of greater relevance, as this module
- # is position-independent, i.e. suitable for a shared library or PIE.
- # Position independence "costs" one register, which is why compilers
- # are so close with non-PIC results, they have an extra register to
- # spare. CBC results are better than ECB ones thanks to "zero-copy"
- # private _x86_* interface, and are ~30-40% better than with compiler
- # generated cmll_cbc.o, and reach ~80-90% of x86_64 performance on
- # same CPU (where applicable).
- $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
- push(@INC,"${dir}","${dir}../../perlasm");
- require "x86asm.pl";
- $OPENSSL=1;
- $output = pop;
- open STDOUT,">$output";
- &asm_init($ARGV[0],$ARGV[$#ARGV] eq "386");
- @T=("eax","ebx","ecx","edx");
- $idx="esi";
- $key="edi";
- $Tbl="ebp";
- # stack frame layout in _x86_Camellia_* routines, frame is allocated
- # by caller
- $__ra=&DWP(0,"esp"); # return address
- $__s0=&DWP(4,"esp"); # s0 backing store
- $__s1=&DWP(8,"esp"); # s1 backing store
- $__s2=&DWP(12,"esp"); # s2 backing store
- $__s3=&DWP(16,"esp"); # s3 backing store
- $__end=&DWP(20,"esp"); # pointer to end/start of key schedule
- # stack frame layout in Camellia_[en|crypt] routines, which differs from
- # above by 4 and overlaps by pointer to end/start of key schedule
- $_end=&DWP(16,"esp");
- $_esp=&DWP(20,"esp");
- # const unsigned int Camellia_SBOX[4][256];
- # Well, sort of... Camellia_SBOX[0][] is interleaved with [1][],
- # and [2][] - with [3][]. This is done to optimize code size.
- $SBOX1_1110=0; # Camellia_SBOX[0]
- $SBOX4_4404=4; # Camellia_SBOX[1]
- $SBOX2_0222=2048; # Camellia_SBOX[2]
- $SBOX3_3033=2052; # Camellia_SBOX[3]
- &static_label("Camellia_SIGMA");
- &static_label("Camellia_SBOX");
- sub Camellia_Feistel {
- my $i=@_[0];
- my $seed=defined(@_[1])?@_[1]:0;
- my $scale=$seed<0?-8:8;
- my $frame=defined(@_[2])?@_[2]:0;
- my $j=($i&1)*2;
- my $t0=@T[($j)%4],$t1=@T[($j+1)%4],$t2=@T[($j+2)%4],$t3=@T[($j+3)%4];
- &xor ($t0,$idx); # t0^=key[0]
- &xor ($t1,&DWP($seed+$i*$scale+4,$key)); # t1^=key[1]
- &movz ($idx,&HB($t0)); # (t0>>8)&0xff
- &mov ($t3,&DWP($SBOX3_3033,$Tbl,$idx,8)); # t3=SBOX3_3033[0]
- &movz ($idx,&LB($t0)); # (t0>>0)&0xff
- &xor ($t3,&DWP($SBOX4_4404,$Tbl,$idx,8)); # t3^=SBOX4_4404[0]
- &shr ($t0,16);
- &movz ($idx,&LB($t1)); # (t1>>0)&0xff
- &mov ($t2,&DWP($SBOX1_1110,$Tbl,$idx,8)); # t2=SBOX1_1110[1]
- &movz ($idx,&HB($t0)); # (t0>>24)&0xff
- &xor ($t3,&DWP($SBOX1_1110,$Tbl,$idx,8)); # t3^=SBOX1_1110[0]
- &movz ($idx,&HB($t1)); # (t1>>8)&0xff
- &xor ($t2,&DWP($SBOX4_4404,$Tbl,$idx,8)); # t2^=SBOX4_4404[1]
- &shr ($t1,16);
- &movz ($t0,&LB($t0)); # (t0>>16)&0xff
- &xor ($t3,&DWP($SBOX2_0222,$Tbl,$t0,8)); # t3^=SBOX2_0222[0]
- &movz ($idx,&HB($t1)); # (t1>>24)&0xff
- &mov ($t0,&DWP($frame+4*(($j+3)%4),"esp")); # prefetch "s3"
- &xor ($t2,$t3); # t2^=t3
- &rotr ($t3,8); # t3=RightRotate(t3,8)
- &xor ($t2,&DWP($SBOX2_0222,$Tbl,$idx,8)); # t2^=SBOX2_0222[1]
- &movz ($idx,&LB($t1)); # (t1>>16)&0xff
- &mov ($t1,&DWP($frame+4*(($j+2)%4),"esp")); # prefetch "s2"
- &xor ($t3,$t0); # t3^=s3
- &xor ($t2,&DWP($SBOX3_3033,$Tbl,$idx,8)); # t2^=SBOX3_3033[1]
- &mov ($idx,&DWP($seed+($i+1)*$scale,$key)); # prefetch key[i+1]
- &xor ($t3,$t2); # t3^=t2
- &mov (&DWP($frame+4*(($j+3)%4),"esp"),$t3); # s3=t3
- &xor ($t2,$t1); # t2^=s2
- &mov (&DWP($frame+4*(($j+2)%4),"esp"),$t2); # s2=t2
- }
- # void Camellia_EncryptBlock_Rounds(
- # int grandRounds,
- # const Byte plaintext[],
- # const KEY_TABLE_TYPE keyTable,
- # Byte ciphertext[])
- &function_begin("Camellia_EncryptBlock_Rounds");
- &mov ("eax",&wparam(0)); # load grandRounds
- &mov ($idx,&wparam(1)); # load plaintext pointer
- &mov ($key,&wparam(2)); # load key schedule pointer
- &mov ("ebx","esp");
- &sub ("esp",7*4); # place for s[0-3],keyEnd,esp and ra
- &and ("esp",-64);
- # place stack frame just "above mod 1024" the key schedule
- # this ensures that cache associativity of 2 suffices
- &lea ("ecx",&DWP(-64-63,$key));
- &sub ("ecx","esp");
- &neg ("ecx");
- &and ("ecx",0x3C0); # modulo 1024, but aligned to cache-line
- &sub ("esp","ecx");
- &add ("esp",4); # 4 is reserved for callee's return address
- &shl ("eax",6);
- &lea ("eax",&DWP(0,$key,"eax"));
- &mov ($_esp,"ebx"); # save %esp
- &mov ($_end,"eax"); # save keyEnd
- &call (&label("pic_point"));
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &mov (@T[0],&DWP(0,$idx)); # load plaintext
- &mov (@T[1],&DWP(4,$idx));
- &mov (@T[2],&DWP(8,$idx));
- &bswap (@T[0]);
- &mov (@T[3],&DWP(12,$idx));
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &call ("_x86_Camellia_encrypt");
- &mov ("esp",$_esp);
- &bswap (@T[0]);
- &mov ($idx,&wparam(3)); # load ciphertext pointer
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &mov (&DWP(0,$idx),@T[0]); # write ciphertext
- &mov (&DWP(4,$idx),@T[1]);
- &mov (&DWP(8,$idx),@T[2]);
- &mov (&DWP(12,$idx),@T[3]);
- &function_end("Camellia_EncryptBlock_Rounds");
- # V1.x API
- &function_begin_B("Camellia_EncryptBlock");
- &mov ("eax",128);
- &sub ("eax",&wparam(0)); # load keyBitLength
- &mov ("eax",3);
- &adc ("eax",0); # keyBitLength==128?3:4
- &mov (&wparam(0),"eax");
- &jmp (&label("Camellia_EncryptBlock_Rounds"));
- &function_end_B("Camellia_EncryptBlock");
- if ($OPENSSL) {
- # void Camellia_encrypt(
- # const unsigned char *in,
- # unsigned char *out,
- # const CAMELLIA_KEY *key)
- &function_begin("Camellia_encrypt");
- &mov ($idx,&wparam(0)); # load plaintext pointer
- &mov ($key,&wparam(2)); # load key schedule pointer
- &mov ("ebx","esp");
- &sub ("esp",7*4); # place for s[0-3],keyEnd,esp and ra
- &and ("esp",-64);
- &mov ("eax",&DWP(272,$key)); # load grandRounds counter
- # place stack frame just "above mod 1024" the key schedule
- # this ensures that cache associativity of 2 suffices
- &lea ("ecx",&DWP(-64-63,$key));
- &sub ("ecx","esp");
- &neg ("ecx");
- &and ("ecx",0x3C0); # modulo 1024, but aligned to cache-line
- &sub ("esp","ecx");
- &add ("esp",4); # 4 is reserved for callee's return address
- &shl ("eax",6);
- &lea ("eax",&DWP(0,$key,"eax"));
- &mov ($_esp,"ebx"); # save %esp
- &mov ($_end,"eax"); # save keyEnd
- &call (&label("pic_point"));
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &mov (@T[0],&DWP(0,$idx)); # load plaintext
- &mov (@T[1],&DWP(4,$idx));
- &mov (@T[2],&DWP(8,$idx));
- &bswap (@T[0]);
- &mov (@T[3],&DWP(12,$idx));
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &call ("_x86_Camellia_encrypt");
- &mov ("esp",$_esp);
- &bswap (@T[0]);
- &mov ($idx,&wparam(1)); # load ciphertext pointer
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &mov (&DWP(0,$idx),@T[0]); # write ciphertext
- &mov (&DWP(4,$idx),@T[1]);
- &mov (&DWP(8,$idx),@T[2]);
- &mov (&DWP(12,$idx),@T[3]);
- &function_end("Camellia_encrypt");
- }
- &function_begin_B("_x86_Camellia_encrypt");
- &xor (@T[0],&DWP(0,$key)); # ^=key[0-3]
- &xor (@T[1],&DWP(4,$key));
- &xor (@T[2],&DWP(8,$key));
- &xor (@T[3],&DWP(12,$key));
- &mov ($idx,&DWP(16,$key)); # prefetch key[4]
- &mov ($__s0,@T[0]); # save s[0-3]
- &mov ($__s1,@T[1]);
- &mov ($__s2,@T[2]);
- &mov ($__s3,@T[3]);
- &set_label("loop",16);
- for ($i=0;$i<6;$i++) { Camellia_Feistel($i,16,4); }
- &add ($key,16*4);
- &cmp ($key,$__end);
- &je (&label("done"));
- # @T[0-1] are preloaded, $idx is preloaded with key[0]
- &and ($idx,@T[0]);
- &mov (@T[3],$__s3);
- &rotl ($idx,1);
- &mov (@T[2],@T[3]);
- &xor (@T[1],$idx);
- &or (@T[2],&DWP(12,$key));
- &mov ($__s1,@T[1]); # s1^=LeftRotate(s0&key[0],1);
- &xor (@T[2],$__s2);
- &mov ($idx,&DWP(4,$key));
- &mov ($__s2,@T[2]); # s2^=s3|key[3];
- &or ($idx,@T[1]);
- &and (@T[2],&DWP(8,$key));
- &xor (@T[0],$idx);
- &rotl (@T[2],1);
- &mov ($__s0,@T[0]); # s0^=s1|key[1];
- &xor (@T[3],@T[2]);
- &mov ($idx,&DWP(16,$key)); # prefetch key[4]
- &mov ($__s3,@T[3]); # s3^=LeftRotate(s2&key[2],1);
- &jmp (&label("loop"));
- &set_label("done",8);
- &mov (@T[2],@T[0]); # SwapHalf
- &mov (@T[3],@T[1]);
- &mov (@T[0],$__s2);
- &mov (@T[1],$__s3);
- &xor (@T[0],$idx); # $idx is preloaded with key[0]
- &xor (@T[1],&DWP(4,$key));
- &xor (@T[2],&DWP(8,$key));
- &xor (@T[3],&DWP(12,$key));
- &ret ();
- &function_end_B("_x86_Camellia_encrypt");
- # void Camellia_DecryptBlock_Rounds(
- # int grandRounds,
- # const Byte ciphertext[],
- # const KEY_TABLE_TYPE keyTable,
- # Byte plaintext[])
- &function_begin("Camellia_DecryptBlock_Rounds");
- &mov ("eax",&wparam(0)); # load grandRounds
- &mov ($idx,&wparam(1)); # load ciphertext pointer
- &mov ($key,&wparam(2)); # load key schedule pointer
- &mov ("ebx","esp");
- &sub ("esp",7*4); # place for s[0-3],keyEnd,esp and ra
- &and ("esp",-64);
- # place stack frame just "above mod 1024" the key schedule
- # this ensures that cache associativity of 2 suffices
- &lea ("ecx",&DWP(-64-63,$key));
- &sub ("ecx","esp");
- &neg ("ecx");
- &and ("ecx",0x3C0); # modulo 1024, but aligned to cache-line
- &sub ("esp","ecx");
- &add ("esp",4); # 4 is reserved for callee's return address
- &shl ("eax",6);
- &mov (&DWP(4*4,"esp"),$key); # save keyStart
- &lea ($key,&DWP(0,$key,"eax"));
- &mov (&DWP(5*4,"esp"),"ebx");# save %esp
- &call (&label("pic_point"));
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &mov (@T[0],&DWP(0,$idx)); # load ciphertext
- &mov (@T[1],&DWP(4,$idx));
- &mov (@T[2],&DWP(8,$idx));
- &bswap (@T[0]);
- &mov (@T[3],&DWP(12,$idx));
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &call ("_x86_Camellia_decrypt");
- &mov ("esp",&DWP(5*4,"esp"));
- &bswap (@T[0]);
- &mov ($idx,&wparam(3)); # load plaintext pointer
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &mov (&DWP(0,$idx),@T[0]); # write plaintext
- &mov (&DWP(4,$idx),@T[1]);
- &mov (&DWP(8,$idx),@T[2]);
- &mov (&DWP(12,$idx),@T[3]);
- &function_end("Camellia_DecryptBlock_Rounds");
- # V1.x API
- &function_begin_B("Camellia_DecryptBlock");
- &mov ("eax",128);
- &sub ("eax",&wparam(0)); # load keyBitLength
- &mov ("eax",3);
- &adc ("eax",0); # keyBitLength==128?3:4
- &mov (&wparam(0),"eax");
- &jmp (&label("Camellia_DecryptBlock_Rounds"));
- &function_end_B("Camellia_DecryptBlock");
- if ($OPENSSL) {
- # void Camellia_decrypt(
- # const unsigned char *in,
- # unsigned char *out,
- # const CAMELLIA_KEY *key)
- &function_begin("Camellia_decrypt");
- &mov ($idx,&wparam(0)); # load ciphertext pointer
- &mov ($key,&wparam(2)); # load key schedule pointer
- &mov ("ebx","esp");
- &sub ("esp",7*4); # place for s[0-3],keyEnd,esp and ra
- &and ("esp",-64);
- &mov ("eax",&DWP(272,$key)); # load grandRounds counter
- # place stack frame just "above mod 1024" the key schedule
- # this ensures that cache associativity of 2 suffices
- &lea ("ecx",&DWP(-64-63,$key));
- &sub ("ecx","esp");
- &neg ("ecx");
- &and ("ecx",0x3C0); # modulo 1024, but aligned to cache-line
- &sub ("esp","ecx");
- &add ("esp",4); # 4 is reserved for callee's return address
- &shl ("eax",6);
- &mov (&DWP(4*4,"esp"),$key); # save keyStart
- &lea ($key,&DWP(0,$key,"eax"));
- &mov (&DWP(5*4,"esp"),"ebx");# save %esp
- &call (&label("pic_point"));
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &mov (@T[0],&DWP(0,$idx)); # load ciphertext
- &mov (@T[1],&DWP(4,$idx));
- &mov (@T[2],&DWP(8,$idx));
- &bswap (@T[0]);
- &mov (@T[3],&DWP(12,$idx));
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &call ("_x86_Camellia_decrypt");
- &mov ("esp",&DWP(5*4,"esp"));
- &bswap (@T[0]);
- &mov ($idx,&wparam(1)); # load plaintext pointer
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &mov (&DWP(0,$idx),@T[0]); # write plaintext
- &mov (&DWP(4,$idx),@T[1]);
- &mov (&DWP(8,$idx),@T[2]);
- &mov (&DWP(12,$idx),@T[3]);
- &function_end("Camellia_decrypt");
- }
- &function_begin_B("_x86_Camellia_decrypt");
- &xor (@T[0],&DWP(0,$key)); # ^=key[0-3]
- &xor (@T[1],&DWP(4,$key));
- &xor (@T[2],&DWP(8,$key));
- &xor (@T[3],&DWP(12,$key));
- &mov ($idx,&DWP(-8,$key)); # prefetch key[-2]
- &mov ($__s0,@T[0]); # save s[0-3]
- &mov ($__s1,@T[1]);
- &mov ($__s2,@T[2]);
- &mov ($__s3,@T[3]);
- &set_label("loop",16);
- for ($i=0;$i<6;$i++) { Camellia_Feistel($i,-8,4); }
- &sub ($key,16*4);
- &cmp ($key,$__end);
- &je (&label("done"));
- # @T[0-1] are preloaded, $idx is preloaded with key[2]
- &and ($idx,@T[0]);
- &mov (@T[3],$__s3);
- &rotl ($idx,1);
- &mov (@T[2],@T[3]);
- &xor (@T[1],$idx);
- &or (@T[2],&DWP(4,$key));
- &mov ($__s1,@T[1]); # s1^=LeftRotate(s0&key[0],1);
- &xor (@T[2],$__s2);
- &mov ($idx,&DWP(12,$key));
- &mov ($__s2,@T[2]); # s2^=s3|key[3];
- &or ($idx,@T[1]);
- &and (@T[2],&DWP(0,$key));
- &xor (@T[0],$idx);
- &rotl (@T[2],1);
- &mov ($__s0,@T[0]); # s0^=s1|key[1];
- &xor (@T[3],@T[2]);
- &mov ($idx,&DWP(-8,$key)); # prefetch key[4]
- &mov ($__s3,@T[3]); # s3^=LeftRotate(s2&key[2],1);
- &jmp (&label("loop"));
- &set_label("done",8);
- &mov (@T[2],@T[0]); # SwapHalf
- &mov (@T[3],@T[1]);
- &mov (@T[0],$__s2);
- &mov (@T[1],$__s3);
- &xor (@T[2],$idx); # $idx is preloaded with key[2]
- &xor (@T[3],&DWP(12,$key));
- &xor (@T[0],&DWP(0,$key));
- &xor (@T[1],&DWP(4,$key));
- &ret ();
- &function_end_B("_x86_Camellia_decrypt");
- # shld is very slow on Intel P4 family. Even on AMD it limits
- # instruction decode rate [because it's VectorPath] and consequently
- # performance. PIII, PM and Core[2] seem to be the only ones which
- # execute this code ~7% faster...
- sub __rotl128 {
- my ($i0,$i1,$i2,$i3,$rot,$rnd,@T)=@_;
- $rnd *= 2;
- if ($rot) {
- &mov ($idx,$i0);
- &shld ($i0,$i1,$rot);
- &shld ($i1,$i2,$rot);
- &shld ($i2,$i3,$rot);
- &shld ($i3,$idx,$rot);
- }
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i0 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i1 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i2 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i3 eq @T[0]);
- }
- # ... Implementing 128-bit rotate without shld gives >3x performance
- # improvement on P4, only ~7% degradation on other Intel CPUs and
- # not worse performance on AMD. This is therefore preferred.
- sub _rotl128 {
- my ($i0,$i1,$i2,$i3,$rot,$rnd,@T)=@_;
- $rnd *= 2;
- if ($rot) {
- &mov ($Tbl,$i0);
- &shl ($i0,$rot);
- &mov ($idx,$i1);
- &shr ($idx,32-$rot);
- &shl ($i1,$rot);
- &or ($i0,$idx);
- &mov ($idx,$i2);
- &shl ($i2,$rot);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i0 eq @T[0]);
- &shr ($idx,32-$rot);
- &or ($i1,$idx);
- &shr ($Tbl,32-$rot);
- &mov ($idx,$i3);
- &shr ($idx,32-$rot);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i1 eq @T[0]);
- &shl ($i3,$rot);
- &or ($i2,$idx);
- &or ($i3,$Tbl);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i2 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i3 eq @T[0]);
- } else {
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i0 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i1 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i2 eq @T[0]);
- &mov (&DWP(-128+4*$rnd++,$key),shift(@T)) if ($i3 eq @T[0]);
- }
- }
- sub _saveround {
- my ($rnd,$key,@T)=@_;
- my $bias=int(@T[0])?shift(@T):0;
- &mov (&DWP($bias+$rnd*8+0,$key),@T[0]);
- &mov (&DWP($bias+$rnd*8+4,$key),@T[1]) if ($#T>=1);
- &mov (&DWP($bias+$rnd*8+8,$key),@T[2]) if ($#T>=2);
- &mov (&DWP($bias+$rnd*8+12,$key),@T[3]) if ($#T>=3);
- }
- sub _loadround {
- my ($rnd,$key,@T)=@_;
- my $bias=int(@T[0])?shift(@T):0;
- &mov (@T[0],&DWP($bias+$rnd*8+0,$key));
- &mov (@T[1],&DWP($bias+$rnd*8+4,$key)) if ($#T>=1);
- &mov (@T[2],&DWP($bias+$rnd*8+8,$key)) if ($#T>=2);
- &mov (@T[3],&DWP($bias+$rnd*8+12,$key)) if ($#T>=3);
- }
- # void Camellia_Ekeygen(
- # const int keyBitLength,
- # const Byte *rawKey,
- # KEY_TABLE_TYPE keyTable)
- &function_begin("Camellia_Ekeygen");
- { my $step=0;
- &stack_push(4); # place for s[0-3]
- &mov ($Tbl,&wparam(0)); # load arguments
- &mov ($idx,&wparam(1));
- &mov ($key,&wparam(2));
- &mov (@T[0],&DWP(0,$idx)); # load 0-127 bits
- &mov (@T[1],&DWP(4,$idx));
- &mov (@T[2],&DWP(8,$idx));
- &mov (@T[3],&DWP(12,$idx));
- &bswap (@T[0]);
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &_saveround (0,$key,@T); # KL<<<0
- &cmp ($Tbl,128);
- &je (&label("1st128"));
- &mov (@T[0],&DWP(16,$idx)); # load 128-191 bits
- &mov (@T[1],&DWP(20,$idx));
- &cmp ($Tbl,192);
- &je (&label("1st192"));
- &mov (@T[2],&DWP(24,$idx)); # load 192-255 bits
- &mov (@T[3],&DWP(28,$idx));
- &jmp (&label("1st256"));
- &set_label("1st192",4);
- &mov (@T[2],@T[0]);
- &mov (@T[3],@T[1]);
- ¬ (@T[2]);
- ¬ (@T[3]);
- &set_label("1st256",4);
- &bswap (@T[0]);
- &bswap (@T[1]);
- &bswap (@T[2]);
- &bswap (@T[3]);
- &_saveround (4,$key,@T); # temporary storage for KR!
- &xor (@T[0],&DWP(0*8+0,$key)); # KR^KL
- &xor (@T[1],&DWP(0*8+4,$key));
- &xor (@T[2],&DWP(1*8+0,$key));
- &xor (@T[3],&DWP(1*8+4,$key));
- &set_label("1st128",4);
- &call (&label("pic_point"));
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &lea ($key,&DWP(&label("Camellia_SIGMA")."-".&label("Camellia_SBOX"),$Tbl));
- &mov ($idx,&DWP($step*8,$key)); # prefetch SIGMA[0]
- &mov (&swtmp(0),@T[0]); # save s[0-3]
- &mov (&swtmp(1),@T[1]);
- &mov (&swtmp(2),@T[2]);
- &mov (&swtmp(3),@T[3]);
- &Camellia_Feistel($step++);
- &Camellia_Feistel($step++);
- &mov (@T[2],&swtmp(2));
- &mov (@T[3],&swtmp(3));
- &mov ($idx,&wparam(2));
- &xor (@T[0],&DWP(0*8+0,$idx)); # ^KL
- &xor (@T[1],&DWP(0*8+4,$idx));
- &xor (@T[2],&DWP(1*8+0,$idx));
- &xor (@T[3],&DWP(1*8+4,$idx));
- &mov ($idx,&DWP($step*8,$key)); # prefetch SIGMA[4]
- &mov (&swtmp(0),@T[0]); # save s[0-3]
- &mov (&swtmp(1),@T[1]);
- &mov (&swtmp(2),@T[2]);
- &mov (&swtmp(3),@T[3]);
- &Camellia_Feistel($step++);
- &Camellia_Feistel($step++);
- &mov (@T[2],&swtmp(2));
- &mov (@T[3],&swtmp(3));
- &mov ($idx,&wparam(0));
- &cmp ($idx,128);
- &jne (&label("2nd256"));
- &mov ($key,&wparam(2));
- &lea ($key,&DWP(128,$key)); # size optimization
- ####### process KA
- &_saveround (2,$key,-128,@T); # KA<<<0
- &_rotl128 (@T,15,6,@T); # KA<<<15
- &_rotl128 (@T,15,8,@T); # KA<<<(15+15=30)
- &_rotl128 (@T,15,12,@T[0],@T[1]); # KA<<<(30+15=45)
- &_rotl128 (@T,15,14,@T); # KA<<<(45+15=60)
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,2,20,@T); # KA<<<(60+32+2=94)
- &_rotl128 (@T,17,24,@T); # KA<<<(94+17=111)
- ####### process KL
- &_loadround (0,$key,-128,@T); # load KL
- &_rotl128 (@T,15,4,@T); # KL<<<15
- &_rotl128 (@T,30,10,@T); # KL<<<(15+30=45)
- &_rotl128 (@T,15,13,@T[2],@T[3]); # KL<<<(45+15=60)
- &_rotl128 (@T,17,16,@T); # KL<<<(60+17=77)
- &_rotl128 (@T,17,18,@T); # KL<<<(77+17=94)
- &_rotl128 (@T,17,22,@T); # KL<<<(94+17=111)
- while (@T[0] ne "eax") # restore order
- { unshift (@T,pop(@T)); }
- &mov ("eax",3); # 3 grandRounds
- &jmp (&label("done"));
- &set_label("2nd256",16);
- &mov ($idx,&wparam(2));
- &_saveround (6,$idx,@T); # temporary storage for KA!
- &xor (@T[0],&DWP(4*8+0,$idx)); # KA^KR
- &xor (@T[1],&DWP(4*8+4,$idx));
- &xor (@T[2],&DWP(5*8+0,$idx));
- &xor (@T[3],&DWP(5*8+4,$idx));
- &mov ($idx,&DWP($step*8,$key)); # prefetch SIGMA[8]
- &mov (&swtmp(0),@T[0]); # save s[0-3]
- &mov (&swtmp(1),@T[1]);
- &mov (&swtmp(2),@T[2]);
- &mov (&swtmp(3),@T[3]);
- &Camellia_Feistel($step++);
- &Camellia_Feistel($step++);
- &mov (@T[2],&swtmp(2));
- &mov (@T[3],&swtmp(3));
- &mov ($key,&wparam(2));
- &lea ($key,&DWP(128,$key)); # size optimization
- ####### process KB
- &_saveround (2,$key,-128,@T); # KB<<<0
- &_rotl128 (@T,30,10,@T); # KB<<<30
- &_rotl128 (@T,30,20,@T); # KB<<<(30+30=60)
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,19,32,@T); # KB<<<(60+32+19=111)
- ####### process KR
- &_loadround (4,$key,-128,@T); # load KR
- &_rotl128 (@T,15,4,@T); # KR<<<15
- &_rotl128 (@T,15,8,@T); # KR<<<(15+15=30)
- &_rotl128 (@T,30,18,@T); # KR<<<(30+30=60)
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,2,26,@T); # KR<<<(60+32+2=94)
- ####### process KA
- &_loadround (6,$key,-128,@T); # load KA
- &_rotl128 (@T,15,6,@T); # KA<<<15
- &_rotl128 (@T,30,14,@T); # KA<<<(15+30=45)
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,0,24,@T); # KA<<<(45+32+0=77)
- &_rotl128 (@T,17,28,@T); # KA<<<(77+17=94)
- ####### process KL
- &_loadround (0,$key,-128,@T); # load KL
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,13,12,@T); # KL<<<(32+13=45)
- &_rotl128 (@T,15,16,@T); # KL<<<(45+15=60)
- &_rotl128 (@T,17,22,@T); # KL<<<(60+17=77)
- push (@T,shift(@T)); # rotl128(@T,32);
- &_rotl128 (@T,2,30,@T); # KL<<<(77+32+2=111)
- while (@T[0] ne "eax") # restore order
- { unshift (@T,pop(@T)); }
- &mov ("eax",4); # 4 grandRounds
- &set_label("done");
- &lea ("edx",&DWP(272-128,$key)); # end of key schedule
- &stack_pop(4);
- }
- &function_end("Camellia_Ekeygen");
- if ($OPENSSL) {
- # int Camellia_set_key (
- # const unsigned char *userKey,
- # int bits,
- # CAMELLIA_KEY *key)
- &function_begin_B("Camellia_set_key");
- &push ("ebx");
- &mov ("ecx",&wparam(0)); # pull arguments
- &mov ("ebx",&wparam(1));
- &mov ("edx",&wparam(2));
- &mov ("eax",-1);
- &test ("ecx","ecx");
- &jz (&label("done")); # userKey==NULL?
- &test ("edx","edx");
- &jz (&label("done")); # key==NULL?
- &mov ("eax",-2);
- &cmp ("ebx",256);
- &je (&label("arg_ok")); # bits==256?
- &cmp ("ebx",192);
- &je (&label("arg_ok")); # bits==192?
- &cmp ("ebx",128);
- &jne (&label("done")); # bits!=128?
- &set_label("arg_ok",4);
- &push ("edx"); # push arguments
- &push ("ecx");
- &push ("ebx");
- &call ("Camellia_Ekeygen");
- &stack_pop(3);
- # eax holds grandRounds and edx points at where to put it
- &mov (&DWP(0,"edx"),"eax");
- &xor ("eax","eax");
- &set_label("done",4);
- &pop ("ebx");
- &ret ();
- &function_end_B("Camellia_set_key");
- }
- @SBOX=(
- 112,130, 44,236,179, 39,192,229,228,133, 87, 53,234, 12,174, 65,
- 35,239,107,147, 69, 25,165, 33,237, 14, 79, 78, 29,101,146,189,
- 134,184,175,143,124,235, 31,206, 62, 48,220, 95, 94,197, 11, 26,
- 166,225, 57,202,213, 71, 93, 61,217, 1, 90,214, 81, 86,108, 77,
- 139, 13,154,102,251,204,176, 45,116, 18, 43, 32,240,177,132,153,
- 223, 76,203,194, 52,126,118, 5,109,183,169, 49,209, 23, 4,215,
- 20, 88, 58, 97,222, 27, 17, 28, 50, 15,156, 22, 83, 24,242, 34,
- 254, 68,207,178,195,181,122,145, 36, 8,232,168, 96,252,105, 80,
- 170,208,160,125,161,137, 98,151, 84, 91, 30,149,224,255,100,210,
- 16,196, 0, 72,163,247,117,219,138, 3,230,218, 9, 63,221,148,
- 135, 92,131, 2,205, 74,144, 51,115,103,246,243,157,127,191,226,
- 82,155,216, 38,200, 55,198, 59,129,150,111, 75, 19,190, 99, 46,
- 233,121,167,140,159,110,188,142, 41,245,249,182, 47,253,180, 89,
- 120,152, 6,106,231, 70,113,186,212, 37,171, 66,136,162,141,250,
- 114, 7,185, 85,248,238,172, 10, 54, 73, 42,104, 60, 56,241,164,
- 64, 40,211,123,187,201, 67,193, 21,227,173,244,119,199,128,158);
- sub S1110 { my $i=shift; $i=@SBOX[$i]; return $i<<24|$i<<16|$i<<8; }
- sub S4404 { my $i=shift; $i=($i<<1|$i>>7)&0xff; $i=@SBOX[$i]; return $i<<24|$i<<16|$i; }
- sub S0222 { my $i=shift; $i=@SBOX[$i]; $i=($i<<1|$i>>7)&0xff; return $i<<16|$i<<8|$i; }
- sub S3033 { my $i=shift; $i=@SBOX[$i]; $i=($i>>1|$i<<7)&0xff; return $i<<24|$i<<8|$i; }
- &set_label("Camellia_SIGMA",64);
- &data_word(
- 0xa09e667f, 0x3bcc908b, 0xb67ae858, 0x4caa73b2,
- 0xc6ef372f, 0xe94f82be, 0x54ff53a5, 0xf1d36f1c,
- 0x10e527fa, 0xde682d1d, 0xb05688c2, 0xb3e6c1fd,
- 0, 0, 0, 0);
- &set_label("Camellia_SBOX",64);
- # tables are interleaved, remember?
- for ($i=0;$i<256;$i++) { &data_word(&S1110($i),&S4404($i)); }
- for ($i=0;$i<256;$i++) { &data_word(&S0222($i),&S3033($i)); }
- # void Camellia_cbc_encrypt (const void char *inp, unsigned char *out,
- # size_t length, const CAMELLIA_KEY *key,
- # unsigned char *ivp,const int enc);
- {
- # stack frame layout
- # -4(%esp) # return address 0(%esp)
- # 0(%esp) # s0 4(%esp)
- # 4(%esp) # s1 8(%esp)
- # 8(%esp) # s2 12(%esp)
- # 12(%esp) # s3 16(%esp)
- # 16(%esp) # end of key schedule 20(%esp)
- # 20(%esp) # %esp backup
- my $_inp=&DWP(24,"esp"); #copy of wparam(0)
- my $_out=&DWP(28,"esp"); #copy of wparam(1)
- my $_len=&DWP(32,"esp"); #copy of wparam(2)
- my $_key=&DWP(36,"esp"); #copy of wparam(3)
- my $_ivp=&DWP(40,"esp"); #copy of wparam(4)
- my $ivec=&DWP(44,"esp"); #ivec[16]
- my $_tmp=&DWP(44,"esp"); #volatile variable [yes, aliases with ivec]
- my ($s0,$s1,$s2,$s3) = @T;
- &function_begin("Camellia_cbc_encrypt");
- &mov ($s2 eq "ecx"? $s2 : "",&wparam(2)); # load len
- &cmp ($s2,0);
- &je (&label("enc_out"));
- &pushf ();
- &cld ();
- &mov ($s0,&wparam(0)); # load inp
- &mov ($s1,&wparam(1)); # load out
- #&mov ($s2,&wparam(2)); # load len
- &mov ($s3,&wparam(3)); # load key
- &mov ($Tbl,&wparam(4)); # load ivp
- # allocate aligned stack frame...
- &lea ($idx,&DWP(-64,"esp"));
- &and ($idx,-64);
- # place stack frame just "above mod 1024" the key schedule
- # this ensures that cache associativity of 2 suffices
- &lea ($key,&DWP(-64-63,$s3));
- &sub ($key,$idx);
- &neg ($key);
- &and ($key,0x3C0); # modulo 1024, but aligned to cache-line
- &sub ($idx,$key);
- &mov ($key,&wparam(5)); # load enc
- &exch ("esp",$idx);
- &add ("esp",4); # reserve for return address!
- &mov ($_esp,$idx); # save %esp
- &mov ($_inp,$s0); # save copy of inp
- &mov ($_out,$s1); # save copy of out
- &mov ($_len,$s2); # save copy of len
- &mov ($_key,$s3); # save copy of key
- &mov ($_ivp,$Tbl); # save copy of ivp
- &call (&label("pic_point")); # make it PIC!
- &set_label("pic_point");
- &blindpop($Tbl);
- &lea ($Tbl,&DWP(&label("Camellia_SBOX")."-".&label("pic_point"),$Tbl));
- &mov ($idx,32);
- &set_label("prefetch_sbox",4);
- &mov ($s0,&DWP(0,$Tbl));
- &mov ($s1,&DWP(32,$Tbl));
- &mov ($s2,&DWP(64,$Tbl));
- &mov ($s3,&DWP(96,$Tbl));
- &lea ($Tbl,&DWP(128,$Tbl));
- &dec ($idx);
- &jnz (&label("prefetch_sbox"));
- &mov ($s0,$_key);
- &sub ($Tbl,4096);
- &mov ($idx,$_inp);
- &mov ($s3,&DWP(272,$s0)); # load grandRounds
- &cmp ($key,0);
- &je (&label("DECRYPT"));
- &mov ($s2,$_len);
- &mov ($key,$_ivp);
- &shl ($s3,6);
- &lea ($s3,&DWP(0,$s0,$s3));
- &mov ($_end,$s3);
- &test ($s2,0xFFFFFFF0);
- &jz (&label("enc_tail")); # short input...
- &mov ($s0,&DWP(0,$key)); # load iv
- &mov ($s1,&DWP(4,$key));
- &set_label("enc_loop",4);
- &mov ($s2,&DWP(8,$key));
- &mov ($s3,&DWP(12,$key));
- &xor ($s0,&DWP(0,$idx)); # xor input data
- &xor ($s1,&DWP(4,$idx));
- &xor ($s2,&DWP(8,$idx));
- &bswap ($s0);
- &xor ($s3,&DWP(12,$idx));
- &bswap ($s1);
- &mov ($key,$_key); # load key
- &bswap ($s2);
- &bswap ($s3);
- &call ("_x86_Camellia_encrypt");
- &mov ($idx,$_inp); # load inp
- &mov ($key,$_out); # load out
- &bswap ($s0);
- &bswap ($s1);
- &bswap ($s2);
- &mov (&DWP(0,$key),$s0); # save output data
- &bswap ($s3);
- &mov (&DWP(4,$key),$s1);
- &mov (&DWP(8,$key),$s2);
- &mov (&DWP(12,$key),$s3);
- &mov ($s2,$_len); # load len
- &lea ($idx,&DWP(16,$idx));
- &mov ($_inp,$idx); # save inp
- &lea ($s3,&DWP(16,$key));
- &mov ($_out,$s3); # save out
- &sub ($s2,16);
- &test ($s2,0xFFFFFFF0);
- &mov ($_len,$s2); # save len
- &jnz (&label("enc_loop"));
- &test ($s2,15);
- &jnz (&label("enc_tail"));
- &mov ($idx,$_ivp); # load ivp
- &mov ($s2,&DWP(8,$key)); # restore last dwords
- &mov ($s3,&DWP(12,$key));
- &mov (&DWP(0,$idx),$s0); # save ivec
- &mov (&DWP(4,$idx),$s1);
- &mov (&DWP(8,$idx),$s2);
- &mov (&DWP(12,$idx),$s3);
- &mov ("esp",$_esp);
- &popf ();
- &set_label("enc_out");
- &function_end_A();
- &pushf (); # kludge, never executed
- &set_label("enc_tail",4);
- &mov ($s0,$key eq "edi" ? $key : "");
- &mov ($key,$_out); # load out
- &push ($s0); # push ivp
- &mov ($s1,16);
- &sub ($s1,$s2);
- &cmp ($key,$idx); # compare with inp
- &je (&label("enc_in_place"));
- &align (4);
- &data_word(0xA4F3F689); # rep movsb # copy input
- &jmp (&label("enc_skip_in_place"));
- &set_label("enc_in_place");
- &lea ($key,&DWP(0,$key,$s2));
- &set_label("enc_skip_in_place");
- &mov ($s2,$s1);
- &xor ($s0,$s0);
- &align (4);
- &data_word(0xAAF3F689); # rep stosb # zero tail
- &pop ($key); # pop ivp
- &mov ($idx,$_out); # output as input
- &mov ($s0,&DWP(0,$key));
- &mov ($s1,&DWP(4,$key));
- &mov ($_len,16); # len=16
- &jmp (&label("enc_loop")); # one more spin...
- #----------------------------- DECRYPT -----------------------------#
- &set_label("DECRYPT",16);
- &shl ($s3,6);
- &lea ($s3,&DWP(0,$s0,$s3));
- &mov ($_end,$s0);
- &mov ($_key,$s3);
- &cmp ($idx,$_out);
- &je (&label("dec_in_place")); # in-place processing...
- &mov ($key,$_ivp); # load ivp
- &mov ($_tmp,$key);
- &set_label("dec_loop",4);
- &mov ($s0,&DWP(0,$idx)); # read input
- &mov ($s1,&DWP(4,$idx));
- &mov ($s2,&DWP(8,$idx));
- &bswap ($s0);
- &mov ($s3,&DWP(12,$idx));
- &bswap ($s1);
- &mov ($key,$_key); # load key
- &bswap ($s2);
- &bswap ($s3);
- &call ("_x86_Camellia_decrypt");
- &mov ($key,$_tmp); # load ivp
- &mov ($idx,$_len); # load len
- &bswap ($s0);
- &bswap ($s1);
- &bswap ($s2);
- &xor ($s0,&DWP(0,$key)); # xor iv
- &bswap ($s3);
- &xor ($s1,&DWP(4,$key));
- &xor ($s2,&DWP(8,$key));
- &xor ($s3,&DWP(12,$key));
- &sub ($idx,16);
- &jc (&label("dec_partial"));
- &mov ($_len,$idx); # save len
- &mov ($idx,$_inp); # load inp
- &mov ($key,$_out); # load out
- &mov (&DWP(0,$key),$s0); # write output
- &mov (&DWP(4,$key),$s1);
- &mov (&DWP(8,$key),$s2);
- &mov (&DWP(12,$key),$s3);
- &mov ($_tmp,$idx); # save ivp
- &lea ($idx,&DWP(16,$idx));
- &mov ($_inp,$idx); # save inp
- &lea ($key,&DWP(16,$key));
- &mov ($_out,$key); # save out
- &jnz (&label("dec_loop"));
- &mov ($key,$_tmp); # load temp ivp
- &set_label("dec_end");
- &mov ($idx,$_ivp); # load user ivp
- &mov ($s0,&DWP(0,$key)); # load iv
- &mov ($s1,&DWP(4,$key));
- &mov ($s2,&DWP(8,$key));
- &mov ($s3,&DWP(12,$key));
- &mov (&DWP(0,$idx),$s0); # copy back to user
- &mov (&DWP(4,$idx),$s1);
- &mov (&DWP(8,$idx),$s2);
- &mov (&DWP(12,$idx),$s3);
- &jmp (&label("dec_out"));
- &set_label("dec_partial",4);
- &lea ($key,$ivec);
- &mov (&DWP(0,$key),$s0); # dump output to stack
- &mov (&DWP(4,$key),$s1);
- &mov (&DWP(8,$key),$s2);
- &mov (&DWP(12,$key),$s3);
- &lea ($s2 eq "ecx" ? $s2 : "",&DWP(16,$idx));
- &mov ($idx eq "esi" ? $idx : "",$key);
- &mov ($key eq "edi" ? $key : "",$_out); # load out
- &data_word(0xA4F3F689); # rep movsb # copy output
- &mov ($key,$_inp); # use inp as temp ivp
- &jmp (&label("dec_end"));
- &set_label("dec_in_place",4);
- &set_label("dec_in_place_loop");
- &lea ($key,$ivec);
- &mov ($s0,&DWP(0,$idx)); # read input
- &mov ($s1,&DWP(4,$idx));
- &mov ($s2,&DWP(8,$idx));
- &mov ($s3,&DWP(12,$idx));
- &mov (&DWP(0,$key),$s0); # copy to temp
- &mov (&DWP(4,$key),$s1);
- &mov (&DWP(8,$key),$s2);
- &bswap ($s0);
- &mov (&DWP(12,$key),$s3);
- &bswap ($s1);
- &mov ($key,$_key); # load key
- &bswap ($s2);
- &bswap ($s3);
- &call ("_x86_Camellia_decrypt");
- &mov ($key,$_ivp); # load ivp
- &mov ($idx,$_out); # load out
- &bswap ($s0);
- &bswap ($s1);
- &bswap ($s2);
- &xor ($s0,&DWP(0,$key)); # xor iv
- &bswap ($s3);
- &xor ($s1,&DWP(4,$key));
- &xor ($s2,&DWP(8,$key));
- &xor ($s3,&DWP(12,$key));
- &mov (&DWP(0,$idx),$s0); # write output
- &mov (&DWP(4,$idx),$s1);
- &mov (&DWP(8,$idx),$s2);
- &mov (&DWP(12,$idx),$s3);
- &lea ($idx,&DWP(16,$idx));
- &mov ($_out,$idx); # save out
- &lea ($idx,$ivec);
- &mov ($s0,&DWP(0,$idx)); # read temp
- &mov ($s1,&DWP(4,$idx));
- &mov ($s2,&DWP(8,$idx));
- &mov ($s3,&DWP(12,$idx));
- &mov (&DWP(0,$key),$s0); # copy iv
- &mov (&DWP(4,$key),$s1);
- &mov (&DWP(8,$key),$s2);
- &mov (&DWP(12,$key),$s3);
- &mov ($idx,$_inp); # load inp
- &lea ($idx,&DWP(16,$idx));
- &mov ($_inp,$idx); # save inp
- &mov ($s2,$_len); # load len
- &sub ($s2,16);
- &jc (&label("dec_in_place_partial"));
- &mov ($_len,$s2); # save len
- &jnz (&label("dec_in_place_loop"));
- &jmp (&label("dec_out"));
- &set_label("dec_in_place_partial",4);
- # one can argue if this is actually required...
- &mov ($key eq "edi" ? $key : "",$_out);
- &lea ($idx eq "esi" ? $idx : "",$ivec);
- &lea ($key,&DWP(0,$key,$s2));
- &lea ($idx,&DWP(16,$idx,$s2));
- &neg ($s2 eq "ecx" ? $s2 : "");
- &data_word(0xA4F3F689); # rep movsb # restore tail
- &set_label("dec_out",4);
- &mov ("esp",$_esp);
- &popf ();
- &function_end("Camellia_cbc_encrypt");
- }
- &asciz("Camellia for x86 by <appro\@openssl.org>");
- &asm_finish();
- close STDOUT or die "error closing STDOUT: $!";
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