mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-28 12:25:19 +01:00
7c0aa811ec
Signed-off-by: Sergey Isakov <isakov-sl@bk.ru>
222 lines
5.0 KiB
Raku
222 lines
5.0 KiB
Raku
#!/usr/bin/env perl
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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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# May 2011
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#
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# The module implements bn_GF2m_mul_2x2 polynomial multiplication used
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# in bn_gf2m.c. It's kind of low-hanging mechanical port from C for
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# the time being... gcc 4.3 appeared to generate poor code, therefore
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# the effort. And indeed, the module delivers 55%-90%(*) improvement
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# on haviest ECDSA verify and ECDH benchmarks for 163- and 571-bit
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# key lengths on z990, 30%-55%(*) - on z10, and 70%-110%(*) - on z196.
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# This is for 64-bit build. In 32-bit "highgprs" case improvement is
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# even higher, for example on z990 it was measured 80%-150%. ECDSA
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# sign is modest 9%-12% faster. Keep in mind that these coefficients
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# are not ones for bn_GF2m_mul_2x2 itself, as not all CPU time is
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# burnt in it...
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#
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# (*) gcc 4.1 was observed to deliver better results than gcc 4.3,
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# so that improvement coefficients can vary from one specific
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# setup to another.
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$flavour = shift;
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if ($flavour =~ /3[12]/) {
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$SIZE_T=4;
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$g="";
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} else {
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$SIZE_T=8;
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$g="g";
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}
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while (($output=shift) && ($output!~/^\w[\w\-]*\.\w+$/)) {}
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open STDOUT,">$output";
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$stdframe=16*$SIZE_T+4*8;
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$rp="%r2";
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$a1="%r3";
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$a0="%r4";
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$b1="%r5";
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$b0="%r6";
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$ra="%r14";
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$sp="%r15";
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@T=("%r0","%r1");
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@i=("%r12","%r13");
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($a1,$a2,$a4,$a8,$a12,$a48)=map("%r$_",(6..11));
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($lo,$hi,$b)=map("%r$_",(3..5)); $a=$lo; $mask=$a8;
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$code.=<<___;
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.text
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.type _mul_1x1,\@function
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.align 16
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_mul_1x1:
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lgr $a1,$a
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sllg $a2,$a,1
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sllg $a4,$a,2
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sllg $a8,$a,3
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srag $lo,$a1,63 # broadcast 63rd bit
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nihh $a1,0x1fff
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srag @i[0],$a2,63 # broadcast 62nd bit
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nihh $a2,0x3fff
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srag @i[1],$a4,63 # broadcast 61st bit
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nihh $a4,0x7fff
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ngr $lo,$b
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ngr @i[0],$b
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ngr @i[1],$b
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lghi @T[0],0
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lgr $a12,$a1
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stg @T[0],`$stdframe+0*8`($sp) # tab[0]=0
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xgr $a12,$a2
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stg $a1,`$stdframe+1*8`($sp) # tab[1]=a1
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lgr $a48,$a4
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stg $a2,`$stdframe+2*8`($sp) # tab[2]=a2
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xgr $a48,$a8
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stg $a12,`$stdframe+3*8`($sp) # tab[3]=a1^a2
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xgr $a1,$a4
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stg $a4,`$stdframe+4*8`($sp) # tab[4]=a4
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xgr $a2,$a4
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stg $a1,`$stdframe+5*8`($sp) # tab[5]=a1^a4
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xgr $a12,$a4
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stg $a2,`$stdframe+6*8`($sp) # tab[6]=a2^a4
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xgr $a1,$a48
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stg $a12,`$stdframe+7*8`($sp) # tab[7]=a1^a2^a4
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xgr $a2,$a48
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stg $a8,`$stdframe+8*8`($sp) # tab[8]=a8
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xgr $a12,$a48
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stg $a1,`$stdframe+9*8`($sp) # tab[9]=a1^a8
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xgr $a1,$a4
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stg $a2,`$stdframe+10*8`($sp) # tab[10]=a2^a8
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xgr $a2,$a4
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stg $a12,`$stdframe+11*8`($sp) # tab[11]=a1^a2^a8
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xgr $a12,$a4
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stg $a48,`$stdframe+12*8`($sp) # tab[12]=a4^a8
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srlg $hi,$lo,1
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stg $a1,`$stdframe+13*8`($sp) # tab[13]=a1^a4^a8
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sllg $lo,$lo,63
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stg $a2,`$stdframe+14*8`($sp) # tab[14]=a2^a4^a8
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srlg @T[0],@i[0],2
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stg $a12,`$stdframe+15*8`($sp) # tab[15]=a1^a2^a4^a8
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lghi $mask,`0xf<<3`
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sllg $a1,@i[0],62
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sllg @i[0],$b,3
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srlg @T[1],@i[1],3
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ngr @i[0],$mask
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sllg $a2,@i[1],61
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srlg @i[1],$b,4-3
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xgr $hi,@T[0]
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ngr @i[1],$mask
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xgr $lo,$a1
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xgr $hi,@T[1]
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xgr $lo,$a2
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xg $lo,$stdframe(@i[0],$sp)
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srlg @i[0],$b,8-3
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ngr @i[0],$mask
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___
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for($n=1;$n<14;$n++) {
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$code.=<<___;
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lg @T[1],$stdframe(@i[1],$sp)
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srlg @i[1],$b,`($n+2)*4`-3
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sllg @T[0],@T[1],`$n*4`
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ngr @i[1],$mask
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srlg @T[1],@T[1],`64-$n*4`
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xgr $lo,@T[0]
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xgr $hi,@T[1]
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___
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push(@i,shift(@i)); push(@T,shift(@T));
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}
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$code.=<<___;
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lg @T[1],$stdframe(@i[1],$sp)
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sllg @T[0],@T[1],`$n*4`
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srlg @T[1],@T[1],`64-$n*4`
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xgr $lo,@T[0]
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xgr $hi,@T[1]
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lg @T[0],$stdframe(@i[0],$sp)
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sllg @T[1],@T[0],`($n+1)*4`
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srlg @T[0],@T[0],`64-($n+1)*4`
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xgr $lo,@T[1]
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xgr $hi,@T[0]
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br $ra
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.size _mul_1x1,.-_mul_1x1
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.globl bn_GF2m_mul_2x2
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.type bn_GF2m_mul_2x2,\@function
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.align 16
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bn_GF2m_mul_2x2:
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stm${g} %r3,%r15,3*$SIZE_T($sp)
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lghi %r1,-$stdframe-128
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la %r0,0($sp)
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la $sp,0(%r1,$sp) # alloca
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st${g} %r0,0($sp) # back chain
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___
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if ($SIZE_T==8) {
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my @r=map("%r$_",(6..9));
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$code.=<<___;
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bras $ra,_mul_1x1 # a1<61>b1
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stmg $lo,$hi,16($rp)
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lg $a,`$stdframe+128+4*$SIZE_T`($sp)
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lg $b,`$stdframe+128+6*$SIZE_T`($sp)
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bras $ra,_mul_1x1 # a0<61>b0
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stmg $lo,$hi,0($rp)
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lg $a,`$stdframe+128+3*$SIZE_T`($sp)
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lg $b,`$stdframe+128+5*$SIZE_T`($sp)
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xg $a,`$stdframe+128+4*$SIZE_T`($sp)
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xg $b,`$stdframe+128+6*$SIZE_T`($sp)
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bras $ra,_mul_1x1 # (a0+a1)<29>(b0+b1)
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lmg @r[0],@r[3],0($rp)
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xgr $lo,$hi
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xgr $hi,@r[1]
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xgr $lo,@r[0]
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xgr $hi,@r[2]
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xgr $lo,@r[3]
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xgr $hi,@r[3]
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xgr $lo,$hi
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stg $hi,16($rp)
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stg $lo,8($rp)
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___
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} else {
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$code.=<<___;
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sllg %r3,%r3,32
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sllg %r5,%r5,32
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or %r3,%r4
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or %r5,%r6
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bras $ra,_mul_1x1
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rllg $lo,$lo,32
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rllg $hi,$hi,32
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stmg $lo,$hi,0($rp)
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___
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}
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$code.=<<___;
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lm${g} %r6,%r15,`$stdframe+128+6*$SIZE_T`($sp)
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br $ra
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.size bn_GF2m_mul_2x2,.-bn_GF2m_mul_2x2
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.string "GF(2^m) Multiplication for s390x, CRYPTOGAMS by <appro\@openssl.org>"
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___
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$code =~ s/\`([^\`]*)\`/eval($1)/gem;
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print $code;
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close STDOUT;
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