46f4e1bec5
Around 138 distinct errors found and fixed; thanks! Reviewed-by: Kurt Roeckx <kurt@roeckx.be> Reviewed-by: Tim Hudson <tjh@openssl.org> Reviewed-by: Rich Salz <rsalz@openssl.org> (Merged from https://github.com/openssl/openssl/pull/3459)
160 lines
4 KiB
Raku
160 lines
4 KiB
Raku
#! /usr/bin/env perl
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# Copyright 2012-2016 The OpenSSL Project Authors. All Rights Reserved.
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#
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# Licensed under the OpenSSL license (the "License"). You may not use
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# this file except in compliance with the License. You can obtain a copy
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# in the file LICENSE in the source distribution or at
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# https://www.openssl.org/source/license.html
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#
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# ====================================================================
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# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
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# project. The module is, however, dual licensed under OpenSSL and
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# CRYPTOGAMS licenses depending on where you obtain it. For further
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# details see http://www.openssl.org/~appro/cryptogams/.
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# ====================================================================
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#
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# February 2012
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#
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# The module implements bn_GF2m_mul_2x2 polynomial multiplication
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# used in bn_gf2m.c. It's kind of low-hanging mechanical port from
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# C for the time being... The subroutine runs in 37 cycles, which is
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# 4.5x faster than compiler-generated code. Though comparison is
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# totally unfair, because this module utilizes Galois Field Multiply
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# instruction.
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while (($output=shift) && ($output!~/\w[\w\-]*\.\w+$/)) {}
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open STDOUT,">$output";
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($rp,$a1,$a0,$b1,$b0)=("A4","B4","A6","B6","A8"); # argument vector
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($Alo,$Alox0,$Alox1,$Alox2,$Alox3)=map("A$_",(16..20));
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($Ahi,$Ahix0,$Ahix1,$Ahix2,$Ahix3)=map("B$_",(16..20));
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($B_0,$B_1,$B_2,$B_3)=("B5","A5","A7","B7");
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($A,$B)=($Alo,$B_1);
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$xFF="B1";
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sub mul_1x1_upper {
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my ($A,$B)=@_;
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$code.=<<___;
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EXTU $B,8,24,$B_2 ; smash $B to 4 bytes
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|| AND $B,$xFF,$B_0
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|| SHRU $B,24,$B_3
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SHRU $A,16, $Ahi ; smash $A to two halfwords
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|| EXTU $A,16,16,$Alo
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XORMPY $Alo,$B_2,$Alox2 ; 16x8 bits multiplication
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|| XORMPY $Ahi,$B_2,$Ahix2
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|| EXTU $B,16,24,$B_1
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XORMPY $Alo,$B_0,$Alox0
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|| XORMPY $Ahi,$B_0,$Ahix0
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XORMPY $Alo,$B_3,$Alox3
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|| XORMPY $Ahi,$B_3,$Ahix3
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XORMPY $Alo,$B_1,$Alox1
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|| XORMPY $Ahi,$B_1,$Ahix1
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___
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}
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sub mul_1x1_merged {
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my ($OUTlo,$OUThi,$A,$B)=@_;
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$code.=<<___;
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EXTU $B,8,24,$B_2 ; smash $B to 4 bytes
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|| AND $B,$xFF,$B_0
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|| SHRU $B,24,$B_3
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SHRU $A,16, $Ahi ; smash $A to two halfwords
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|| EXTU $A,16,16,$Alo
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XOR $Ahix0,$Alox2,$Ahix0
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|| MV $Ahix2,$OUThi
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|| XORMPY $Alo,$B_2,$Alox2
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XORMPY $Ahi,$B_2,$Ahix2
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|| EXTU $B,16,24,$B_1
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|| XORMPY $Alo,$B_0,A1 ; $Alox0
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XOR $Ahix1,$Alox3,$Ahix1
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|| SHL $Ahix0,16,$OUTlo
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|| SHRU $Ahix0,16,$Ahix0
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XOR $Alox0,$OUTlo,$OUTlo
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|| XOR $Ahix0,$OUThi,$OUThi
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|| XORMPY $Ahi,$B_0,$Ahix0
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|| XORMPY $Alo,$B_3,$Alox3
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|| SHL $Alox1,8,$Alox1
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|| SHL $Ahix3,8,$Ahix3
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XOR $Alox1,$OUTlo,$OUTlo
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|| XOR $Ahix3,$OUThi,$OUThi
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|| XORMPY $Ahi,$B_3,$Ahix3
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|| SHL $Ahix1,24,$Alox1
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|| SHRU $Ahix1,8, $Ahix1
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XOR $Alox1,$OUTlo,$OUTlo
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|| XOR $Ahix1,$OUThi,$OUThi
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|| XORMPY $Alo,$B_1,$Alox1
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|| XORMPY $Ahi,$B_1,$Ahix1
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|| MV A1,$Alox0
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___
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}
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sub mul_1x1_lower {
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my ($OUTlo,$OUThi)=@_;
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$code.=<<___;
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;NOP
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XOR $Ahix0,$Alox2,$Ahix0
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|| MV $Ahix2,$OUThi
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NOP
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XOR $Ahix1,$Alox3,$Ahix1
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|| SHL $Ahix0,16,$OUTlo
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|| SHRU $Ahix0,16,$Ahix0
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XOR $Alox0,$OUTlo,$OUTlo
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|| XOR $Ahix0,$OUThi,$OUThi
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|| SHL $Alox1,8,$Alox1
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|| SHL $Ahix3,8,$Ahix3
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XOR $Alox1,$OUTlo,$OUTlo
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|| XOR $Ahix3,$OUThi,$OUThi
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|| SHL $Ahix1,24,$Alox1
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|| SHRU $Ahix1,8, $Ahix1
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XOR $Alox1,$OUTlo,$OUTlo
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|| XOR $Ahix1,$OUThi,$OUThi
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___
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}
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$code.=<<___;
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.text
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.if .ASSEMBLER_VERSION<7000000
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.asg 0,__TI_EABI__
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.endif
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.if __TI_EABI__
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.asg bn_GF2m_mul_2x2,_bn_GF2m_mul_2x2
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.endif
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.global _bn_GF2m_mul_2x2
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_bn_GF2m_mul_2x2:
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.asmfunc
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MVK 0xFF,$xFF
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___
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&mul_1x1_upper($a0,$b0); # a0·b0
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$code.=<<___;
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|| MV $b1,$B
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MV $a1,$A
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___
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&mul_1x1_merged("A28","B28",$A,$B); # a0·b0/a1·b1
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$code.=<<___;
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|| XOR $b0,$b1,$B
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XOR $a0,$a1,$A
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___
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&mul_1x1_merged("A31","B31",$A,$B); # a1·b1/(a0+a1)·(b0+b1)
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$code.=<<___;
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XOR A28,A31,A29
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|| XOR B28,B31,B29 ; a0·b0+a1·b1
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___
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&mul_1x1_lower("A30","B30"); # (a0+a1)·(b0+b1)
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$code.=<<___;
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|| BNOP B3
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XOR A29,A30,A30
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|| XOR B29,B30,B30 ; (a0+a1)·(b0+b1)-a0·b0-a1·b1
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XOR B28,A30,A30
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|| STW A28,*${rp}[0]
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XOR B30,A31,A31
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|| STW A30,*${rp}[1]
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STW A31,*${rp}[2]
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STW B31,*${rp}[3]
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.endasmfunc
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___
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print $code;
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close STDOUT;
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