#!/usr/bin/env perl # # ==================================================================== # Written by Andy Polyakov, @dot-asm, initially for use with OpenSSL. # ==================================================================== # # ChaCha20 for Itanium. # # March 2019 # # Itanium 9xxx, which has pair of shifters, manages to process one byte # in 9.3 cycles. This aligns perfectly with theoretical estimate. # On the other hand, pre-9000 CPU has single shifter and each extr/dep # pairs below takes additional cycle. Then final input->xor->output # pass runs slower than expected... Overall result is 15.6 cpb, two # cycles more than theoretical estimate. $output = pop; open STDOUT, ">$output" if $output; my @k = map("r$_",(16..31)); my @x = map("r$_",(38..53)); my @y = map("r$_",(8..11)); my @z = map("r$_",(15,35..37)); my ($out,$inp,$len,$key,$counter) = map("r$_",(32..36)); $code.=<<___; #if defined(_HPUX_SOURCE) # if !defined(_LP64) # define ADDP addp4 # else # define ADDP add # endif #else # define ADDP add #endif .text .global ChaCha20_ctr32# .proc ChaCha20_ctr32# .align 32 ChaCha20_ctr32: .prologue .save ar.pfs,r2 { .mmi; alloc r2=ar.pfs,5,17,0,0 ADDP @k[11]=4,$key .save ar.lc,r3 mov r3=ar.lc } { .mmi; ADDP $key=0,$key ADDP $counter=0,$counter .save pr,r14 mov r14=pr };; .body { .mlx; ld4 @k[4]=[$key],8 movl @k[0]=0x61707865 } { .mlx; ld4 @k[5]=[@k[11]],8 movl @k[1]=0x3320646e };; { .mlx; ld4 @k[6]=[$key],8 movl @k[2]=0x79622d32 } { .mlx; ld4 @k[7]=[@k[11]],8 movl @k[3]=0x6b206574 };; { .mmi; ld4 @k[8]=[$key],8 ld4 @k[9]=[@k[11]],8 add @k[15]=4,$counter };; { .mmi; ld4 @k[10]=[$key] ld4 @k[11]=[@k[11]] mov @x[0]=@k[0] };; { .mmi; ld4 @k[12]=[$counter],8 ld4 @k[13]=[@k[15]],8 mov @x[1]=@k[1] };; { .mmi; ld4 @k[14]=[$counter] ld4 @k[15]=[@k[15]] mov @x[2]=@k[2] } { .mmi; mov @x[3]=@k[3] mov @x[4]=@k[4] mov @x[5]=@k[5] };; { .mmi; mov @x[6]=@k[6] mov @x[7]=@k[7] mov @x[8]=@k[8] } { .mmi; mov @x[9]=@k[9] mov @x[10]=@k[10] mov @x[11]=@k[11] } { .mmi; mov @x[12]=@k[12] mov @x[13]=@k[13] mov @x[14]=@k[14] };; .Loop_outer: { .mii; mov @x[15]=@k[15] mov ar.lc=9 mov ar.ec=1 } { .mmb; cmp.geu p6,p0=64,$len sub @z[1]=64,$len brp.loop.imp .Loop_top,.Loop_end-16 };; .Loop_top: ___ sub ROUND { my ($a0,$b0,$c0,$d0)=@_; my ($a1,$b1,$c1,$d1)=map(($_&~3)+(($_+1)&3),($a0,$b0,$c0,$d0)); my ($a2,$b2,$c2,$d2)=map(($_&~3)+(($_+1)&3),($a1,$b1,$c1,$d1)); my ($a3,$b3,$c3,$d3)=map(($_&~3)+(($_+1)&3),($a2,$b2,$c2,$d2)); $code.=<<___; { .mmi; add @x[$a0]=@x[$a0],@x[$b0] add @x[$a1]=@x[$a1],@x[$b1] add @x[$a2]=@x[$a2],@x[$b2] };; { .mmi; add @x[$a3]=@x[$a3],@x[$b3] xor @x[$d0]=@x[$d0],@x[$a0] xor @x[$d1]=@x[$d1],@x[$a1] };; { .mmi; xor @x[$d2]=@x[$d2],@x[$a2] xor @x[$d3]=@x[$d3],@x[$a3] extr.u @y[0]=@x[$d0],16,16 };; { .mii; extr.u @y[1]=@x[$d1],16,16 dep @x[$d0]=@x[$d0],@y[0],16,16 };; { .mii; add @x[$c0]=@x[$c0],@x[$d0] extr.u @y[2]=@x[$d2],16,16 dep @x[$d1]=@x[$d1],@y[1],16,16 };; { .mii; add @x[$c1]=@x[$c1],@x[$d1] xor @x[$b0]=@x[$b0],@x[$c0] extr.u @y[3]=@x[$d3],16,16 };; { .mii; xor @x[$b1]=@x[$b1],@x[$c1] dep @x[$d2]=@x[$d2],@y[2],16,16 dep @x[$d3]=@x[$d3],@y[3],16,16 };; { .mmi; add @x[$c2]=@x[$c2],@x[$d2] add @x[$c3]=@x[$c3],@x[$d3] extr.u @y[0]=@x[$b0],20,12 };; { .mmi; xor @x[$b2]=@x[$b2],@x[$c2] xor @x[$b3]=@x[$b3],@x[$c3] dep.z @x[$b0]=@x[$b0],12,20 };; { .mii; or @x[$b0]=@x[$b0],@y[0] extr.u @y[1]=@x[$b1],20,12 dep.z @x[$b1]=@x[$b1],12,20 };; { .mii; add @x[$a0]=@x[$a0],@x[$b0] extr.u @y[2]=@x[$b2],20,12 extr.u @y[3]=@x[$b3],20,12 } { .mii; or @x[$b1]=@x[$b1],@y[1] dep.z @x[$b2]=@x[$b2],12,20 dep.z @x[$b3]=@x[$b3],12,20 };; { .mmi; or @x[$b2]=@x[$b2],@y[2] or @x[$b3]=@x[$b3],@y[3] add @x[$a1]=@x[$a1],@x[$b1] };; { .mmi; add @x[$a2]=@x[$a2],@x[$b2] add @x[$a3]=@x[$a3],@x[$b3] xor @x[$d0]=@x[$d0],@x[$a0] };; { .mii; xor @x[$d1]=@x[$d1],@x[$a1] extr.u @y[0]=@x[$d0],24,8 dep.z @x[$d0]=@x[$d0],8,24 };; { .mii; or @x[$d0]=@x[$d0],@y[0] extr.u @y[1]=@x[$d1],24,8 dep.z @x[$d1]=@x[$d1],8,24 };; { .mmi; or @x[$d1]=@x[$d1],@y[1] xor @x[$d2]=@x[$d2],@x[$a2] xor @x[$d3]=@x[$d3],@x[$a3] };; { .mii; add @x[$c0]=@x[$c0],@x[$d0] extr.u @y[2]=@x[$d2],24,8 dep.z @x[$d2]=@x[$d2],8,24 };; { .mii; xor @x[$b0]=@x[$b0],@x[$c0] extr.u @y[3]=@x[$d3],24,8 dep.z @x[$d3]=@x[$d3],8,24 };; { .mmi; or @x[$d2]=@x[$d2],@y[2] or @x[$d3]=@x[$d3],@y[3] extr.u @y[0]=@x[$b0],25,7 };; { .mmi; add @x[$c1]=@x[$c1],@x[$d1] add @x[$c2]=@x[$c2],@x[$d2] dep.z @x[$b0]=@x[$b0],7,25 };; { .mmi; xor @x[$b1]=@x[$b1],@x[$c1] xor @x[$b2]=@x[$b2],@x[$c2] add @x[$c3]=@x[$c3],@x[$d3] };; { .mii; xor @x[$b3]=@x[$b3],@x[$c3] extr.u @y[1]=@x[$b1],25,7 dep.z @x[$b1]=@x[$b1],7,25 };; { .mii; or @x[$b0]=@x[$b0],@y[0] extr.u @y[2]=@x[$b2],25,7 dep.z @x[$b2]=@x[$b2],7,25 };; { .mii; or @x[$b1]=@x[$b1],@y[1] extr.u @y[3]=@x[$b3],25,7 dep.z @x[$b3]=@x[$b3],7,25 };; ___ $code.=<<___ if ($d0 == 12); { .mmi; or @x[$b2]=@x[$b2],@y[2] or @x[$b3]=@x[$b3],@y[3] mov @z[0]=-1 };; ___ $code.=<<___ if ($d0 == 15); { .mmb; or @x[$b2]=@x[$b2],@y[2] or @x[$b3]=@x[$b3],@y[3] br.ctop.sptk .Loop_top };; ___ } &ROUND(0, 4, 8, 12); &ROUND(0, 5, 10, 15); $code.=<<___; .Loop_end: { .mmi; add @x[0]=@x[0],@k[0] add @x[1]=@x[1],@k[1] (p6) shr.u @z[0]=@z[0],@z[1] } { .mmb; add @x[2]=@x[2],@k[2] add @x[3]=@x[3],@k[3] clrrrb.pr };; { .mmi; add @x[4]=@x[4],@k[4] add @x[5]=@x[5],@k[5] add @x[6]=@x[6],@k[6] } { .mmi; add @x[7]=@x[7],@k[7] add @x[8]=@x[8],@k[8] add @x[9]=@x[9],@k[9] } { .mmi; add @x[10]=@x[10],@k[10] add @x[11]=@x[11],@k[11] add @x[12]=@x[12],@k[12] } { .mmi; add @x[13]=@x[13],@k[13] add @x[14]=@x[14],@k[14] add @x[15]=@x[15],@k[15] } { .mmi; add @k[12]=1,@k[12] // next counter mov pr=@z[0],0x1ffff };; ////////////////////////////////////////////////////////////////// // Each predicate bit corresponds to byte to be processed. Note // that p0 is wired to 1, but it works out, because there always // is at least one byte to process... { .mmi; (p0) ld1 @z[0]=[$inp],1 shr.u @y[1]=@x[0],8 };; { .mmi; (p1) ld1 @z[1]=[$inp],1 (p2) shr.u @y[2]=@x[0],16 };; { .mmi; (p2) ld1 @z[2]=[$inp],1 (p0) xor @z[0]=@z[0],@x[0] (p3) shr.u @y[3]=@x[0],24 };; ___ for(my $i0=0; $i0<60; $i0+=4) { my ($i1, $i2, $i3, $i4, $i5, $i6, $i7) = map($i0+$_,(1..7)); my $k = $i0/4+1; $code.=<<___; { .mmi; (p$i3) ld1 @z[3]=[$inp],1 (p$i0) st1 [$out]=@z[0],1 (p$i1) xor @z[1]=@z[1],@y[1] };; { .mmi; (p$i4) ld1 @z[0]=[$inp],1 (p$i5) shr.u @y[1]=@x[$k],8 } { .mmi; (p$i1) st1 [$out]=@z[1],1 (p$i2) xor @z[2]=@z[2],@y[2] (p1) mov @x[$k-1]=@k[$k-1] };; { .mfi; (p$i5) ld1 @z[1]=[$inp],1 (p$i6) shr.u @y[2]=@x[$k],16 } { .mfi; (p$i2) st1 [$out]=@z[2],1 (p$i3) xor @z[3]=@z[3],@y[3] };; { .mfi; (p$i6) ld1 @z[2]=[$inp],1 (p$i7) shr.u @y[3]=@x[$k],24 } ___ $code.=<<___ if ($i0==0); # p1,p2 are available for reuse in first round { .mmi; (p$i3) st1 [$out]=@z[3],1 (p$i4) xor @z[0]=@z[0],@x[$k] cmp.ltu p1,p2=64,$len };; ___ $code.=<<___ if ($i0>0); { .mfi; (p$i3) st1 [$out]=@z[3],1 (p$i4) xor @z[0]=@z[0],@x[$k] };; ___ } $code.=<<___; { .mmi; (p63) ld1 @z[3]=[$inp],1 (p60) st1 [$out]=@z[0],1 (p61) xor @z[1]=@z[1],@y[1] };; { .mmi; (p61) st1 [$out]=@z[1],1 (p62) xor @z[2]=@z[2],@y[2] };; { .mmi; (p62) st1 [$out]=@z[2],1 (p63) xor @z[3]=@z[3],@y[3] (p2) mov ar.lc=r3 };; { .mib; (p63) st1 [$out]=@z[3],1 (p1) add $len=-64,$len (p1) br.dptk.many .Loop_outer };; { .mmi; mov @k[4]=0 // wipe key material mov @k[5]=0 mov @k[6]=0 } { .mmi; mov @k[7]=0 mov @k[8]=0 mov @k[9]=0 } { .mmi; mov @k[10]=0 mov @k[11]=0 mov @k[12]=0 } { .mmi; mov @k[13]=0 mov @k[14]=0 mov @k[15]=0 } { .mib; mov pr=r14,0x1ffff br.ret.sptk.many b0 };; .endp ChaCha20_ctr32# stringz "ChaCha20 for IA64, CRYPTOGAMS by \@dot-asm" ___ print $code; close STDOUT;