686 lines
21 KiB
Raku
Executable File
686 lines
21 KiB
Raku
Executable File
#!/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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# SHA256/512_Transform for Itanium.
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#
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# sha512_block runs in 1003 cycles on Itanium 2, which is almost 50%
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# faster than gcc and >60%(!) faster than code generated by HP-UX
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# compiler (yes, HP-UX is generating slower code, because unlike gcc,
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# it failed to deploy "shift right pair," 'shrp' instruction, which
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# substitutes for 64-bit rotate).
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#
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# 924 cycles long sha256_block outperforms gcc by over factor of 2(!)
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# and HP-UX compiler - by >40% (yes, gcc won sha512_block, but lost
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# this one big time). Note that "formally" 924 is about 100 cycles
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# too much. I mean it's 64 32-bit rounds vs. 80 virtually identical
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# 64-bit ones and 1003*64/80 gives 802. Extra cycles, 2 per round,
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# are spent on extra work to provide for 32-bit rotations. 32-bit
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# rotations are still handled by 'shrp' instruction and for this
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# reason lower 32 bits are deposited to upper half of 64-bit register
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# prior 'shrp' issue. And in order to minimize the amount of such
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# operations, X[16] values are *maintained* with copies of lower
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# halves in upper halves, which is why you'll spot such instructions
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# as custom 'mux2', "parallel 32-bit add," 'padd4' and "parallel
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# 32-bit unsigned right shift," 'pshr4.u' instructions here.
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#
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# Rules of engagement.
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#
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# There is only one integer shifter meaning that if I have two rotate,
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# deposit or extract instructions in adjacent bundles, they shall
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# split [at run-time if they have to]. But note that variable and
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# parallel shifts are performed by multi-media ALU and *are* pairable
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# with rotates [and alike]. On the backside MMALU is rather slow: it
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# takes 2 extra cycles before the result of integer operation is
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# available *to* MMALU and 2(*) extra cycles before the result of MM
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# operation is available "back" *to* integer ALU, not to mention that
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# MMALU itself has 2 cycles latency. However! I explicitly scheduled
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# these MM instructions to avoid MM stalls, so that all these extra
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# latencies get "hidden" in instruction-level parallelism.
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#
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# (*) 2 cycles on Itanium 1 and 1 cycle on Itanium 2. But I schedule
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# for 2 in order to provide for best *overall* performance,
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# because on Itanium 1 stall on MM result is accompanied by
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# pipeline flush, which takes 6 cycles:-(
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#
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# June 2012
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#
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# Improve performance by 15-20%. Note about "rules of engagement"
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# above. Contemporary cores are equipped with additional shifter,
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# so that they should perform even better than below, presumably
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# by ~10%.
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#
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######################################################################
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# Current performance in cycles per processed byte for Itanium 2
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# pre-9000 series [little-endian] system:
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#
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# SHA1(*) 5.7
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# SHA256 12.6
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# SHA512 6.7
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#
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# (*) SHA1 result is presented purely for reference purposes.
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#
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# To generate code, pass the file name with either 256 or 512 in its
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# name and compiler flags.
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$output=shift;
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if ($output =~ /512.*\.[s|asm]/) {
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$SZ=8;
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$BITS=8*$SZ;
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$LDW="ld8";
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$STW="st8";
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$ADD="add";
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$SHRU="shr.u";
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$TABLE="K512";
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$func="sha512_block_data_order";
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@Sigma0=(28,34,39);
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@Sigma1=(14,18,41);
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@sigma0=(1, 8, 7);
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@sigma1=(19,61, 6);
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$rounds=80;
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} elsif ($output =~ /256.*\.[s|asm]/) {
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$SZ=4;
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$BITS=8*$SZ;
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$LDW="ld4";
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$STW="st4";
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$ADD="padd4";
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$SHRU="pshr4.u";
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$TABLE="K256";
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$func="sha256_block_data_order";
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@Sigma0=( 2,13,22);
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@Sigma1=( 6,11,25);
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@sigma0=( 7,18, 3);
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@sigma1=(17,19,10);
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$rounds=64;
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} else { die "nonsense $output"; }
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open STDOUT,">$output" || die "can't open $output: $!";
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if ($^O eq "hpux") {
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$ADDP="addp4";
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for (@ARGV) { $ADDP="add" if (/[\+DD|\-mlp]64/); }
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} else { $ADDP="add"; }
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for (@ARGV) { $big_endian=1 if (/\-DB_ENDIAN/);
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$big_endian=0 if (/\-DL_ENDIAN/); }
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if (!defined($big_endian))
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{ $big_endian=(unpack('L',pack('N',1))==1); }
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$code=<<___;
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.ident \"$output, version 2.0\"
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.ident \"IA-64 ISA artwork by Andy Polyakov <appro\@openssl.org>\"
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.explicit
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.text
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pfssave=r2;
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lcsave=r3;
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prsave=r14;
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K=r15;
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A_=r16; B_=r17; C_=r18; D_=r19;
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E_=r20; F_=r21; G_=r22; H_=r23;
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T1=r24; T2=r25;
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s0=r26; s1=r27; t0=r28; t1=r29;
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Ktbl=r30;
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ctx=r31; // 1st arg
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input=r56; // 2nd arg
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num=r57; // 3rd arg
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sgm0=r58; sgm1=r59; // small constants
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// void $func (SHA_CTX *ctx, const void *in,size_t num[,int host])
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.global $func#
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.proc $func#
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.align 32
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.skip 16
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$func:
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.prologue
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.save ar.pfs,pfssave
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{ .mmi; alloc pfssave=ar.pfs,3,25,0,24
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$ADDP ctx=0,r32 // 1st arg
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.save ar.lc,lcsave
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mov lcsave=ar.lc }
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{ .mmi; $ADDP input=0,r33 // 2nd arg
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mov num=r34 // 3rd arg
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.save pr,prsave
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mov prsave=pr };;
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.body
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{ .mib; add r8=0*$SZ,ctx
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add r9=1*$SZ,ctx }
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{ .mib; add r10=2*$SZ,ctx
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add r11=3*$SZ,ctx };;
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// load A-H
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.Lpic_point:
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{ .mmi; $LDW A_=[r8],4*$SZ
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$LDW B_=[r9],4*$SZ
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mov Ktbl=ip }
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{ .mmi; $LDW C_=[r10],4*$SZ
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$LDW D_=[r11],4*$SZ
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mov sgm0=$sigma0[2] };;
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{ .mmi; $LDW E_=[r8]
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$LDW F_=[r9]
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add Ktbl=($TABLE#-.Lpic_point),Ktbl }
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{ .mmi; $LDW G_=[r10]
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$LDW H_=[r11]
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cmp.ne p0,p16=0,r0 };;
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___
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$code.=<<___ if ($BITS==64);
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{ .mii; and r8=7,input
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and input=~7,input;;
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cmp.eq p9,p0=1,r8 }
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{ .mmi; cmp.eq p10,p0=2,r8
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cmp.eq p11,p0=3,r8
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cmp.eq p12,p0=4,r8 }
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{ .mmi; cmp.eq p13,p0=5,r8
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cmp.eq p14,p0=6,r8
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cmp.eq p15,p0=7,r8 };;
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___
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$code.=<<___;
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.L_outer:
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.rotr R[8],X[16]
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A=R[0]; B=R[1]; C=R[2]; D=R[3]; E=R[4]; F=R[5]; G=R[6]; H=R[7]
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{ .mmi; ld1 X[15]=[input],$SZ // eliminated in sha512
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mov A=A_
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mov ar.lc=14 }
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{ .mmi; mov B=B_
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mov C=C_
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mov D=D_ }
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{ .mmi; mov E=E_
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mov F=F_
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mov ar.ec=2 };;
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{ .mmi; mov G=G_
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mov H=H_
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mov sgm1=$sigma1[2] }
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{ .mib; mov r8=0
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add r9=1-$SZ,input
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brp.loop.imp .L_first16,.L_first16_end-16 };;
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___
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$t0="A", $t1="E", $code.=<<___ if ($BITS==64);
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// in sha512 case I load whole X[16] at once and take care of alignment...
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{ .mmi; add r8=1*$SZ,input
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add r9=2*$SZ,input
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add r10=3*$SZ,input };;
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{ .mmb; $LDW X[15]=[input],4*$SZ
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$LDW X[14]=[r8],4*$SZ
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(p9) br.cond.dpnt.many .L1byte };;
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{ .mmb; $LDW X[13]=[r9],4*$SZ
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$LDW X[12]=[r10],4*$SZ
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(p10) br.cond.dpnt.many .L2byte };;
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{ .mmb; $LDW X[11]=[input],4*$SZ
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$LDW X[10]=[r8],4*$SZ
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(p11) br.cond.dpnt.many .L3byte };;
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{ .mmb; $LDW X[ 9]=[r9],4*$SZ
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$LDW X[ 8]=[r10],4*$SZ
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(p12) br.cond.dpnt.many .L4byte };;
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{ .mmb; $LDW X[ 7]=[input],4*$SZ
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$LDW X[ 6]=[r8],4*$SZ
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(p13) br.cond.dpnt.many .L5byte };;
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{ .mmb; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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(p14) br.cond.dpnt.many .L6byte };;
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{ .mmb; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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(p15) br.cond.dpnt.many .L7byte };;
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{ .mmb; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ }
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{ .mib; mov r8=0
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mux1 X[15]=X[15],\@rev // eliminated on big-endian
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br.many .L_first16 };;
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.L1byte:
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{ .mmi; $LDW X[13]=[r9],4*$SZ
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$LDW X[12]=[r10],4*$SZ
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shrp X[15]=X[15],X[14],56 };;
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{ .mmi; $LDW X[11]=[input],4*$SZ
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$LDW X[10]=[r8],4*$SZ
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shrp X[14]=X[14],X[13],56 }
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{ .mmi; $LDW X[ 9]=[r9],4*$SZ
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$LDW X[ 8]=[r10],4*$SZ
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shrp X[13]=X[13],X[12],56 };;
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{ .mmi; $LDW X[ 7]=[input],4*$SZ
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$LDW X[ 6]=[r8],4*$SZ
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shrp X[12]=X[12],X[11],56 }
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{ .mmi; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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shrp X[11]=X[11],X[10],56 };;
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{ .mmi; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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shrp X[10]=X[10],X[ 9],56 }
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{ .mmi; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ
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shrp X[ 9]=X[ 9],X[ 8],56 };;
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{ .mii; $LDW T1=[input]
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shrp X[ 8]=X[ 8],X[ 7],56
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shrp X[ 7]=X[ 7],X[ 6],56 }
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{ .mii; shrp X[ 6]=X[ 6],X[ 5],56
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shrp X[ 5]=X[ 5],X[ 4],56 };;
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{ .mii; shrp X[ 4]=X[ 4],X[ 3],56
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shrp X[ 3]=X[ 3],X[ 2],56 }
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{ .mii; shrp X[ 2]=X[ 2],X[ 1],56
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shrp X[ 1]=X[ 1],X[ 0],56 }
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{ .mib; shrp X[ 0]=X[ 0],T1,56 }
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{ .mib; mov r8=0
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mux1 X[15]=X[15],\@rev // eliminated on big-endian
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br.many .L_first16 };;
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.L2byte:
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{ .mmi; $LDW X[11]=[input],4*$SZ
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$LDW X[10]=[r8],4*$SZ
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shrp X[15]=X[15],X[14],48 }
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{ .mmi; $LDW X[ 9]=[r9],4*$SZ
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$LDW X[ 8]=[r10],4*$SZ
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shrp X[14]=X[14],X[13],48 };;
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{ .mmi; $LDW X[ 7]=[input],4*$SZ
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$LDW X[ 6]=[r8],4*$SZ
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shrp X[13]=X[13],X[12],48 }
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{ .mmi; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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shrp X[12]=X[12],X[11],48 };;
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{ .mmi; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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shrp X[11]=X[11],X[10],48 }
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{ .mmi; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ
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shrp X[10]=X[10],X[ 9],48 };;
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{ .mii; $LDW T1=[input]
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shrp X[ 9]=X[ 9],X[ 8],48
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shrp X[ 8]=X[ 8],X[ 7],48 }
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{ .mii; shrp X[ 7]=X[ 7],X[ 6],48
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shrp X[ 6]=X[ 6],X[ 5],48 };;
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{ .mii; shrp X[ 5]=X[ 5],X[ 4],48
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shrp X[ 4]=X[ 4],X[ 3],48 }
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{ .mii; shrp X[ 3]=X[ 3],X[ 2],48
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shrp X[ 2]=X[ 2],X[ 1],48 }
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{ .mii; shrp X[ 1]=X[ 1],X[ 0],48
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shrp X[ 0]=X[ 0],T1,48 }
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{ .mib; mov r8=0
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mux1 X[15]=X[15],\@rev // eliminated on big-endian
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br.many .L_first16 };;
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.L3byte:
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{ .mmi; $LDW X[ 9]=[r9],4*$SZ
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$LDW X[ 8]=[r10],4*$SZ
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shrp X[15]=X[15],X[14],40 };;
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{ .mmi; $LDW X[ 7]=[input],4*$SZ
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$LDW X[ 6]=[r8],4*$SZ
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shrp X[14]=X[14],X[13],40 }
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{ .mmi; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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shrp X[13]=X[13],X[12],40 };;
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{ .mmi; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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shrp X[12]=X[12],X[11],40 }
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{ .mmi; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ
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shrp X[11]=X[11],X[10],40 };;
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{ .mii; $LDW T1=[input]
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shrp X[10]=X[10],X[ 9],40
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shrp X[ 9]=X[ 9],X[ 8],40 }
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{ .mii; shrp X[ 8]=X[ 8],X[ 7],40
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shrp X[ 7]=X[ 7],X[ 6],40 };;
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{ .mii; shrp X[ 6]=X[ 6],X[ 5],40
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shrp X[ 5]=X[ 5],X[ 4],40 }
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{ .mii; shrp X[ 4]=X[ 4],X[ 3],40
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shrp X[ 3]=X[ 3],X[ 2],40 }
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{ .mii; shrp X[ 2]=X[ 2],X[ 1],40
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shrp X[ 1]=X[ 1],X[ 0],40 }
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{ .mib; shrp X[ 0]=X[ 0],T1,40 }
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{ .mib; mov r8=0
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mux1 X[15]=X[15],\@rev // eliminated on big-endian
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br.many .L_first16 };;
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.L4byte:
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{ .mmi; $LDW X[ 7]=[input],4*$SZ
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$LDW X[ 6]=[r8],4*$SZ
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shrp X[15]=X[15],X[14],32 }
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{ .mmi; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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shrp X[14]=X[14],X[13],32 };;
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{ .mmi; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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shrp X[13]=X[13],X[12],32 }
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{ .mmi; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ
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shrp X[12]=X[12],X[11],32 };;
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{ .mii; $LDW T1=[input]
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shrp X[11]=X[11],X[10],32
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shrp X[10]=X[10],X[ 9],32 }
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{ .mii; shrp X[ 9]=X[ 9],X[ 8],32
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shrp X[ 8]=X[ 8],X[ 7],32 };;
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{ .mii; shrp X[ 7]=X[ 7],X[ 6],32
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shrp X[ 6]=X[ 6],X[ 5],32 }
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{ .mii; shrp X[ 5]=X[ 5],X[ 4],32
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shrp X[ 4]=X[ 4],X[ 3],32 }
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{ .mii; shrp X[ 3]=X[ 3],X[ 2],32
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shrp X[ 2]=X[ 2],X[ 1],32 }
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{ .mii; shrp X[ 1]=X[ 1],X[ 0],32
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shrp X[ 0]=X[ 0],T1,32 }
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{ .mib; mov r8=0
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mux1 X[15]=X[15],\@rev // eliminated on big-endian
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br.many .L_first16 };;
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.L5byte:
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{ .mmi; $LDW X[ 5]=[r9],4*$SZ
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$LDW X[ 4]=[r10],4*$SZ
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shrp X[15]=X[15],X[14],24 };;
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{ .mmi; $LDW X[ 3]=[input],4*$SZ
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$LDW X[ 2]=[r8],4*$SZ
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shrp X[14]=X[14],X[13],24 }
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{ .mmi; $LDW X[ 1]=[r9],4*$SZ
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$LDW X[ 0]=[r10],4*$SZ
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shrp X[13]=X[13],X[12],24 };;
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{ .mii; $LDW T1=[input]
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shrp X[12]=X[12],X[11],24
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shrp X[11]=X[11],X[10],24 }
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{ .mii; shrp X[10]=X[10],X[ 9],24
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shrp X[ 9]=X[ 9],X[ 8],24 };;
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{ .mii; shrp X[ 8]=X[ 8],X[ 7],24
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shrp X[ 7]=X[ 7],X[ 6],24 }
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{ .mii; shrp X[ 6]=X[ 6],X[ 5],24
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shrp X[ 5]=X[ 5],X[ 4],24 }
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{ .mii; shrp X[ 4]=X[ 4],X[ 3],24
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shrp X[ 3]=X[ 3],X[ 2],24 }
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{ .mii; shrp X[ 2]=X[ 2],X[ 1],24
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shrp X[ 1]=X[ 1],X[ 0],24 }
|
|
{ .mib; shrp X[ 0]=X[ 0],T1,24 }
|
|
{ .mib; mov r8=0
|
|
mux1 X[15]=X[15],\@rev // eliminated on big-endian
|
|
br.many .L_first16 };;
|
|
.L6byte:
|
|
{ .mmi; $LDW X[ 3]=[input],4*$SZ
|
|
$LDW X[ 2]=[r8],4*$SZ
|
|
shrp X[15]=X[15],X[14],16 }
|
|
{ .mmi; $LDW X[ 1]=[r9],4*$SZ
|
|
$LDW X[ 0]=[r10],4*$SZ
|
|
shrp X[14]=X[14],X[13],16 };;
|
|
{ .mii; $LDW T1=[input]
|
|
shrp X[13]=X[13],X[12],16
|
|
shrp X[12]=X[12],X[11],16 }
|
|
{ .mii; shrp X[11]=X[11],X[10],16
|
|
shrp X[10]=X[10],X[ 9],16 };;
|
|
{ .mii; shrp X[ 9]=X[ 9],X[ 8],16
|
|
shrp X[ 8]=X[ 8],X[ 7],16 }
|
|
{ .mii; shrp X[ 7]=X[ 7],X[ 6],16
|
|
shrp X[ 6]=X[ 6],X[ 5],16 }
|
|
{ .mii; shrp X[ 5]=X[ 5],X[ 4],16
|
|
shrp X[ 4]=X[ 4],X[ 3],16 }
|
|
{ .mii; shrp X[ 3]=X[ 3],X[ 2],16
|
|
shrp X[ 2]=X[ 2],X[ 1],16 }
|
|
{ .mii; shrp X[ 1]=X[ 1],X[ 0],16
|
|
shrp X[ 0]=X[ 0],T1,16 }
|
|
{ .mib; mov r8=0
|
|
mux1 X[15]=X[15],\@rev // eliminated on big-endian
|
|
br.many .L_first16 };;
|
|
.L7byte:
|
|
{ .mmi; $LDW X[ 1]=[r9],4*$SZ
|
|
$LDW X[ 0]=[r10],4*$SZ
|
|
shrp X[15]=X[15],X[14],8 };;
|
|
{ .mii; $LDW T1=[input]
|
|
shrp X[14]=X[14],X[13],8
|
|
shrp X[13]=X[13],X[12],8 }
|
|
{ .mii; shrp X[12]=X[12],X[11],8
|
|
shrp X[11]=X[11],X[10],8 };;
|
|
{ .mii; shrp X[10]=X[10],X[ 9],8
|
|
shrp X[ 9]=X[ 9],X[ 8],8 }
|
|
{ .mii; shrp X[ 8]=X[ 8],X[ 7],8
|
|
shrp X[ 7]=X[ 7],X[ 6],8 }
|
|
{ .mii; shrp X[ 6]=X[ 6],X[ 5],8
|
|
shrp X[ 5]=X[ 5],X[ 4],8 }
|
|
{ .mii; shrp X[ 4]=X[ 4],X[ 3],8
|
|
shrp X[ 3]=X[ 3],X[ 2],8 }
|
|
{ .mii; shrp X[ 2]=X[ 2],X[ 1],8
|
|
shrp X[ 1]=X[ 1],X[ 0],8 }
|
|
{ .mib; shrp X[ 0]=X[ 0],T1,8 }
|
|
{ .mib; mov r8=0
|
|
mux1 X[15]=X[15],\@rev };; // eliminated on big-endian
|
|
|
|
.align 32
|
|
.L_first16:
|
|
{ .mmi; $LDW K=[Ktbl],$SZ
|
|
add A=A,r8 // H+=Sigma(0) from the past
|
|
_rotr r10=$t1,$Sigma1[0] } // ROTR(e,14)
|
|
{ .mmi; and T1=F,E
|
|
andcm r8=G,E
|
|
(p16) mux1 X[14]=X[14],\@rev };; // eliminated on big-endian
|
|
{ .mmi; and T2=A,B
|
|
and r9=A,C
|
|
_rotr r11=$t1,$Sigma1[1] } // ROTR(e,41)
|
|
{ .mmi; xor T1=T1,r8 // T1=((e & f) ^ (~e & g))
|
|
and r8=B,C };;
|
|
___
|
|
$t0="t0", $t1="t1", $code.=<<___ if ($BITS==32);
|
|
.align 32
|
|
.L_first16:
|
|
{ .mmi; add A=A,r8 // H+=Sigma(0) from the past
|
|
add r10=2-$SZ,input
|
|
add r11=3-$SZ,input };;
|
|
{ .mmi; ld1 r9=[r9]
|
|
ld1 r10=[r10]
|
|
dep.z $t1=E,32,32 }
|
|
{ .mmi; ld1 r11=[r11]
|
|
$LDW K=[Ktbl],$SZ
|
|
zxt4 E=E };;
|
|
{ .mii; or $t1=$t1,E
|
|
dep X[15]=X[15],r9,8,8
|
|
mux2 $t0=A,0x44 };; // copy lower half to upper
|
|
{ .mmi; and T1=F,E
|
|
andcm r8=G,E
|
|
dep r11=r10,r11,8,8 };;
|
|
{ .mmi; and T2=A,B
|
|
and r9=A,C
|
|
dep X[15]=X[15],r11,16,16 };;
|
|
{ .mmi; (p16) ld1 X[15-1]=[input],$SZ // prefetch
|
|
xor T1=T1,r8 // T1=((e & f) ^ (~e & g))
|
|
_rotr r10=$t1,$Sigma1[0] } // ROTR(e,14)
|
|
{ .mmi; and r8=B,C
|
|
_rotr r11=$t1,$Sigma1[1] };; // ROTR(e,18)
|
|
___
|
|
$code.=<<___;
|
|
{ .mmi; add T1=T1,H // T1=Ch(e,f,g)+h
|
|
xor r10=r10,r11
|
|
_rotr r11=$t1,$Sigma1[2] } // ROTR(e,41)
|
|
{ .mmi; xor T2=T2,r9
|
|
add K=K,X[15] };;
|
|
{ .mmi; add T1=T1,K // T1+=K[i]+X[i]
|
|
xor T2=T2,r8 // T2=((a & b) ^ (a & c) ^ (b & c))
|
|
_rotr r8=$t0,$Sigma0[0] } // ROTR(a,28)
|
|
{ .mmi; xor r11=r11,r10 // Sigma1(e)
|
|
_rotr r9=$t0,$Sigma0[1] };; // ROTR(a,34)
|
|
{ .mmi; add T1=T1,r11 // T+=Sigma1(e)
|
|
xor r8=r8,r9
|
|
_rotr r9=$t0,$Sigma0[2] };; // ROTR(a,39)
|
|
{ .mmi; xor r8=r8,r9 // Sigma0(a)
|
|
add D=D,T1
|
|
mux2 H=X[15],0x44 } // mov H=X[15] in sha512
|
|
{ .mib; (p16) add r9=1-$SZ,input // not used in sha512
|
|
add X[15]=T1,T2 // H=T1+Maj(a,b,c)
|
|
br.ctop.sptk .L_first16 };;
|
|
.L_first16_end:
|
|
|
|
{ .mib; mov ar.lc=$rounds-17
|
|
brp.loop.imp .L_rest,.L_rest_end-16 }
|
|
{ .mib; mov ar.ec=1
|
|
br.many .L_rest };;
|
|
|
|
.align 32
|
|
.L_rest:
|
|
{ .mmi; $LDW K=[Ktbl],$SZ
|
|
add A=A,r8 // H+=Sigma0(a) from the past
|
|
_rotr r8=X[15-1],$sigma0[0] } // ROTR(s0,1)
|
|
{ .mmi; add X[15]=X[15],X[15-9] // X[i&0xF]+=X[(i+9)&0xF]
|
|
$SHRU s0=X[15-1],sgm0 };; // s0=X[(i+1)&0xF]>>7
|
|
{ .mib; and T1=F,E
|
|
_rotr r9=X[15-1],$sigma0[1] } // ROTR(s0,8)
|
|
{ .mib; andcm r10=G,E
|
|
$SHRU s1=X[15-14],sgm1 };; // s1=X[(i+14)&0xF]>>6
|
|
// Pair of mmi; splits on Itanium 1 and prevents pipeline flush
|
|
// upon $SHRU output usage
|
|
{ .mmi; xor T1=T1,r10 // T1=((e & f) ^ (~e & g))
|
|
xor r9=r8,r9
|
|
_rotr r10=X[15-14],$sigma1[0] }// ROTR(s1,19)
|
|
{ .mmi; and T2=A,B
|
|
and r8=A,C
|
|
_rotr r11=X[15-14],$sigma1[1] };;// ROTR(s1,61)
|
|
___
|
|
$t0="t0", $t1="t1", $code.=<<___ if ($BITS==32);
|
|
{ .mib; xor s0=s0,r9 // s0=sigma0(X[(i+1)&0xF])
|
|
dep.z $t1=E,32,32 }
|
|
{ .mib; xor r10=r11,r10
|
|
zxt4 E=E };;
|
|
{ .mii; xor s1=s1,r10 // s1=sigma1(X[(i+14)&0xF])
|
|
shrp r9=E,$t1,32+$Sigma1[0] // ROTR(e,14)
|
|
mux2 $t0=A,0x44 };; // copy lower half to upper
|
|
// Pair of mmi; splits on Itanium 1 and prevents pipeline flush
|
|
// upon mux2 output usage
|
|
{ .mmi; xor T2=T2,r8
|
|
shrp r8=E,$t1,32+$Sigma1[1]} // ROTR(e,18)
|
|
{ .mmi; and r10=B,C
|
|
add T1=T1,H // T1=Ch(e,f,g)+h
|
|
or $t1=$t1,E };;
|
|
___
|
|
$t0="A", $t1="E", $code.=<<___ if ($BITS==64);
|
|
{ .mib; xor s0=s0,r9 // s0=sigma0(X[(i+1)&0xF])
|
|
_rotr r9=$t1,$Sigma1[0] } // ROTR(e,14)
|
|
{ .mib; xor r10=r11,r10
|
|
xor T2=T2,r8 };;
|
|
{ .mib; xor s1=s1,r10 // s1=sigma1(X[(i+14)&0xF])
|
|
_rotr r8=$t1,$Sigma1[1] } // ROTR(e,18)
|
|
{ .mib; and r10=B,C
|
|
add T1=T1,H };; // T1+=H
|
|
___
|
|
$code.=<<___;
|
|
{ .mib; xor r9=r9,r8
|
|
_rotr r8=$t1,$Sigma1[2] } // ROTR(e,41)
|
|
{ .mib; xor T2=T2,r10 // T2=((a & b) ^ (a & c) ^ (b & c))
|
|
add X[15]=X[15],s0 };; // X[i]+=sigma0(X[i+1])
|
|
{ .mmi; xor r9=r9,r8 // Sigma1(e)
|
|
add X[15]=X[15],s1 // X[i]+=sigma0(X[i+14])
|
|
_rotr r8=$t0,$Sigma0[0] };; // ROTR(a,28)
|
|
{ .mmi; add K=K,X[15]
|
|
add T1=T1,r9 // T1+=Sigma1(e)
|
|
_rotr r9=$t0,$Sigma0[1] };; // ROTR(a,34)
|
|
{ .mmi; add T1=T1,K // T1+=K[i]+X[i]
|
|
xor r8=r8,r9
|
|
_rotr r9=$t0,$Sigma0[2] };; // ROTR(a,39)
|
|
{ .mib; add D=D,T1
|
|
mux2 H=X[15],0x44 } // mov H=X[15] in sha512
|
|
{ .mib; xor r8=r8,r9 // Sigma0(a)
|
|
add X[15]=T1,T2 // H=T1+Maj(a,b,c)
|
|
br.ctop.sptk .L_rest };;
|
|
.L_rest_end:
|
|
|
|
{ .mmi; add A=A,r8 };; // H+=Sigma0(a) from the past
|
|
{ .mmi; add A_=A_,A
|
|
add B_=B_,B
|
|
add C_=C_,C }
|
|
{ .mmi; add D_=D_,D
|
|
add E_=E_,E
|
|
cmp.ltu p16,p0=1,num };;
|
|
{ .mmi; add F_=F_,F
|
|
add G_=G_,G
|
|
add H_=H_,H }
|
|
{ .mmb; add Ktbl=-$SZ*$rounds,Ktbl
|
|
(p16) add num=-1,num
|
|
(p16) br.dptk.many .L_outer };;
|
|
|
|
{ .mib; add r8=0*$SZ,ctx
|
|
add r9=1*$SZ,ctx }
|
|
{ .mib; add r10=2*$SZ,ctx
|
|
add r11=3*$SZ,ctx };;
|
|
{ .mmi; $STW [r8]=A_,4*$SZ
|
|
$STW [r9]=B_,4*$SZ
|
|
mov ar.lc=lcsave }
|
|
{ .mmi; $STW [r10]=C_,4*$SZ
|
|
$STW [r11]=D_,4*$SZ
|
|
mov pr=prsave,0x1ffff };;
|
|
{ .mmb; $STW [r8]=E_
|
|
$STW [r9]=F_ }
|
|
{ .mmb; $STW [r10]=G_
|
|
$STW [r11]=H_
|
|
br.ret.sptk.many b0 };;
|
|
.endp $func#
|
|
___
|
|
|
|
foreach(split($/,$code)) {
|
|
s/\`([^\`]*)\`/eval $1/gem;
|
|
s/_rotr(\s+)([^=]+)=([^,]+),([0-9]+)/shrp$1$2=$3,$3,$4/gm;
|
|
if ($BITS==64) {
|
|
s/mux2(\s+)([^=]+)=([^,]+),\S+/mov$1 $2=$3/gm;
|
|
s/mux1(\s+)\S+/nop.i$1 0x0/gm if ($big_endian);
|
|
s/(shrp\s+X\[[^=]+)=([^,]+),([^,]+),([1-9]+)/$1=$3,$2,64-$4/gm
|
|
if (!$big_endian);
|
|
s/ld1(\s+)X\[\S+/nop.m$1 0x0/gm;
|
|
}
|
|
|
|
print $_,"\n";
|
|
}
|
|
|
|
print<<___ if ($BITS==32);
|
|
.align 64
|
|
.type K256#,\@object
|
|
K256: data4 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5
|
|
data4 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5
|
|
data4 0xd807aa98,0x12835b01,0x243185be,0x550c7dc3
|
|
data4 0x72be5d74,0x80deb1fe,0x9bdc06a7,0xc19bf174
|
|
data4 0xe49b69c1,0xefbe4786,0x0fc19dc6,0x240ca1cc
|
|
data4 0x2de92c6f,0x4a7484aa,0x5cb0a9dc,0x76f988da
|
|
data4 0x983e5152,0xa831c66d,0xb00327c8,0xbf597fc7
|
|
data4 0xc6e00bf3,0xd5a79147,0x06ca6351,0x14292967
|
|
data4 0x27b70a85,0x2e1b2138,0x4d2c6dfc,0x53380d13
|
|
data4 0x650a7354,0x766a0abb,0x81c2c92e,0x92722c85
|
|
data4 0xa2bfe8a1,0xa81a664b,0xc24b8b70,0xc76c51a3
|
|
data4 0xd192e819,0xd6990624,0xf40e3585,0x106aa070
|
|
data4 0x19a4c116,0x1e376c08,0x2748774c,0x34b0bcb5
|
|
data4 0x391c0cb3,0x4ed8aa4a,0x5b9cca4f,0x682e6ff3
|
|
data4 0x748f82ee,0x78a5636f,0x84c87814,0x8cc70208
|
|
data4 0x90befffa,0xa4506ceb,0xbef9a3f7,0xc67178f2
|
|
.size K256#,$SZ*$rounds
|
|
stringz "SHA256 block transform for IA64, CRYPTOGAMS by <appro\@openssl.org>"
|
|
___
|
|
print<<___ if ($BITS==64);
|
|
.align 64
|
|
.type K512#,\@object
|
|
K512: data8 0x428a2f98d728ae22,0x7137449123ef65cd
|
|
data8 0xb5c0fbcfec4d3b2f,0xe9b5dba58189dbbc
|
|
data8 0x3956c25bf348b538,0x59f111f1b605d019
|
|
data8 0x923f82a4af194f9b,0xab1c5ed5da6d8118
|
|
data8 0xd807aa98a3030242,0x12835b0145706fbe
|
|
data8 0x243185be4ee4b28c,0x550c7dc3d5ffb4e2
|
|
data8 0x72be5d74f27b896f,0x80deb1fe3b1696b1
|
|
data8 0x9bdc06a725c71235,0xc19bf174cf692694
|
|
data8 0xe49b69c19ef14ad2,0xefbe4786384f25e3
|
|
data8 0x0fc19dc68b8cd5b5,0x240ca1cc77ac9c65
|
|
data8 0x2de92c6f592b0275,0x4a7484aa6ea6e483
|
|
data8 0x5cb0a9dcbd41fbd4,0x76f988da831153b5
|
|
data8 0x983e5152ee66dfab,0xa831c66d2db43210
|
|
data8 0xb00327c898fb213f,0xbf597fc7beef0ee4
|
|
data8 0xc6e00bf33da88fc2,0xd5a79147930aa725
|
|
data8 0x06ca6351e003826f,0x142929670a0e6e70
|
|
data8 0x27b70a8546d22ffc,0x2e1b21385c26c926
|
|
data8 0x4d2c6dfc5ac42aed,0x53380d139d95b3df
|
|
data8 0x650a73548baf63de,0x766a0abb3c77b2a8
|
|
data8 0x81c2c92e47edaee6,0x92722c851482353b
|
|
data8 0xa2bfe8a14cf10364,0xa81a664bbc423001
|
|
data8 0xc24b8b70d0f89791,0xc76c51a30654be30
|
|
data8 0xd192e819d6ef5218,0xd69906245565a910
|
|
data8 0xf40e35855771202a,0x106aa07032bbd1b8
|
|
data8 0x19a4c116b8d2d0c8,0x1e376c085141ab53
|
|
data8 0x2748774cdf8eeb99,0x34b0bcb5e19b48a8
|
|
data8 0x391c0cb3c5c95a63,0x4ed8aa4ae3418acb
|
|
data8 0x5b9cca4f7763e373,0x682e6ff3d6b2b8a3
|
|
data8 0x748f82ee5defb2fc,0x78a5636f43172f60
|
|
data8 0x84c87814a1f0ab72,0x8cc702081a6439ec
|
|
data8 0x90befffa23631e28,0xa4506cebde82bde9
|
|
data8 0xbef9a3f7b2c67915,0xc67178f2e372532b
|
|
data8 0xca273eceea26619c,0xd186b8c721c0c207
|
|
data8 0xeada7dd6cde0eb1e,0xf57d4f7fee6ed178
|
|
data8 0x06f067aa72176fba,0x0a637dc5a2c898a6
|
|
data8 0x113f9804bef90dae,0x1b710b35131c471b
|
|
data8 0x28db77f523047d84,0x32caab7b40c72493
|
|
data8 0x3c9ebe0a15c9bebc,0x431d67c49c100d4c
|
|
data8 0x4cc5d4becb3e42b6,0x597f299cfc657e2a
|
|
data8 0x5fcb6fab3ad6faec,0x6c44198c4a475817
|
|
.size K512#,$SZ*$rounds
|
|
stringz "SHA512 block transform for IA64, CRYPTOGAMS by <appro\@openssl.org>"
|
|
___
|