#! /usr/bin/env perl # Copyright 2016 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 # # ==================================================================== # Written by Andy Polyakov for the OpenSSL # project. The module is, however, dual licensed under OpenSSL and # CRYPTOGAMS licenses depending on where you obtain it. For further # details see http://www.openssl.org/~appro/cryptogams/. # ==================================================================== # # November 2014 # # ChaCha20 for x86_64. # # December 2016 # # Add AVX512F code path. # # Performance in cycles per byte out of large buffer. # # IALU/gcc 4.8(i) 1xSSSE3/SSE2 4xSSSE3 NxAVX(v) # # P4 9.48/+99% -/22.7(ii) - # Core2 7.83/+55% 7.90/8.08 4.35 # Westmere 7.19/+50% 5.60/6.70 3.00 # Sandy Bridge 8.31/+42% 5.45/6.76 2.72 # Ivy Bridge 6.71/+46% 5.40/6.49 2.41 # Haswell 5.92/+43% 5.20/6.45 2.42 1.23 # Skylake[-X] 5.87/+39% 4.70/- 2.31 1.19[0.57] # Silvermont 12.0/+33% 7.75/7.40 7.03(iii) # Knights L 11.7/- - 9.60(iii) 0.80 # Goldmont 10.6/+17% 5.10/- 3.28 # Sledgehammer 7.28/+52% -/14.2(ii) - # Bulldozer 9.66/+28% 9.85/11.1 3.06(iv) # Ryzen 5.96/+50% 5.19/- 2.40 2.09 # VIA Nano 10.5/+46% 6.72/8.60 6.05 # # (i) compared to older gcc 3.x one can observe >2x improvement on # most platforms; # (ii) as it can be seen, SSE2 performance is too low on legacy # processors; NxSSE2 results are naturally better, but not # impressively better than IALU ones, which is why you won't # find SSE2 code below; # (iii) this is not optimal result for Atom because of MSROM # limitations, SSE2 can do better, but gain is considered too # low to justify the [maintenance] effort; # (iv) Bulldozer actually executes 4xXOP code path that delivers 2.20; # # Modified from upstream OpenSSL to remove the XOP code. $flavour = shift; $output = shift; if ($flavour =~ /\./) { $output = $flavour; undef $flavour; } $win64=0; $win64=1 if ($flavour =~ /[nm]asm|mingw64/ || $output =~ /\.asm$/); $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1; ( $xlate="${dir}x86_64-xlate.pl" and -f $xlate ) or ( $xlate="${dir}../../perlasm/x86_64-xlate.pl" and -f $xlate) or die "can't locate x86_64-xlate.pl"; $avx = 2; open OUT,"| \"$^X\" $xlate $flavour $output"; *STDOUT=*OUT; # input parameter block ($out,$inp,$len,$key,$counter)=("%rdi","%rsi","%rdx","%rcx","%r8"); $code.=<<___; .text .extern OPENSSL_ia32cap_P .align 64 .Lzero: .long 0,0,0,0 .Lone: .long 1,0,0,0 .Linc: .long 0,1,2,3 .Lfour: .long 4,4,4,4 .Lincy: .long 0,2,4,6,1,3,5,7 .Leight: .long 8,8,8,8,8,8,8,8 .Lrot16: .byte 0x2,0x3,0x0,0x1, 0x6,0x7,0x4,0x5, 0xa,0xb,0x8,0x9, 0xe,0xf,0xc,0xd .Lrot24: .byte 0x3,0x0,0x1,0x2, 0x7,0x4,0x5,0x6, 0xb,0x8,0x9,0xa, 0xf,0xc,0xd,0xe .Lsigma: .asciz "expand 32-byte k" .align 64 .Lzeroz: .long 0,0,0,0, 1,0,0,0, 2,0,0,0, 3,0,0,0 .Lfourz: .long 4,0,0,0, 4,0,0,0, 4,0,0,0, 4,0,0,0 .Lincz: .long 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 .Lsixteen: .long 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16 .asciz "ChaCha20 for x86_64, CRYPTOGAMS by " ___ sub AUTOLOAD() # thunk [simplified] 32-bit style perlasm { my $opcode = $AUTOLOAD; $opcode =~ s/.*:://; my $arg = pop; $arg = "\$$arg" if ($arg*1 eq $arg); $code .= "\t$opcode\t".join(',',$arg,reverse @_)."\n"; } @x=("%eax","%ebx","%ecx","%edx",map("%r${_}d",(8..11)), "%nox","%nox","%nox","%nox",map("%r${_}d",(12..15))); @t=("%esi","%edi"); sub ROUND { # critical path is 24 cycles per round my ($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,$d2)); my ($xc,$xc_)=map("\"$_\"",@t); my @x=map("\"$_\"",@x); # Consider order in which variables are addressed by their # index: # # a b c d # # 0 4 8 12 < even round # 1 5 9 13 # 2 6 10 14 # 3 7 11 15 # 0 5 10 15 < odd round # 1 6 11 12 # 2 7 8 13 # 3 4 9 14 # # 'a', 'b' and 'd's are permanently allocated in registers, # @x[0..7,12..15], while 'c's are maintained in memory. If # you observe 'c' column, you'll notice that pair of 'c's is # invariant between rounds. This means that we have to reload # them once per round, in the middle. This is why you'll see # bunch of 'c' stores and loads in the middle, but none in # the beginning or end. # Normally instructions would be interleaved to favour in-order # execution. Generally out-of-order cores manage it gracefully, # but not this time for some reason. As in-order execution # cores are dying breed, old Atom is the only one around, # instructions are left uninterleaved. Besides, Atom is better # off executing 1xSSSE3 code anyway... ( "&add (@x[$a0],@x[$b0])", # Q1 "&xor (@x[$d0],@x[$a0])", "&rol (@x[$d0],16)", "&add (@x[$a1],@x[$b1])", # Q2 "&xor (@x[$d1],@x[$a1])", "&rol (@x[$d1],16)", "&add ($xc,@x[$d0])", "&xor (@x[$b0],$xc)", "&rol (@x[$b0],12)", "&add ($xc_,@x[$d1])", "&xor (@x[$b1],$xc_)", "&rol (@x[$b1],12)", "&add (@x[$a0],@x[$b0])", "&xor (@x[$d0],@x[$a0])", "&rol (@x[$d0],8)", "&add (@x[$a1],@x[$b1])", "&xor (@x[$d1],@x[$a1])", "&rol (@x[$d1],8)", "&add ($xc,@x[$d0])", "&xor (@x[$b0],$xc)", "&rol (@x[$b0],7)", "&add ($xc_,@x[$d1])", "&xor (@x[$b1],$xc_)", "&rol (@x[$b1],7)", "&mov (\"4*$c0(%rsp)\",$xc)", # reload pair of 'c's "&mov (\"4*$c1(%rsp)\",$xc_)", "&mov ($xc,\"4*$c2(%rsp)\")", "&mov ($xc_,\"4*$c3(%rsp)\")", "&add (@x[$a2],@x[$b2])", # Q3 "&xor (@x[$d2],@x[$a2])", "&rol (@x[$d2],16)", "&add (@x[$a3],@x[$b3])", # Q4 "&xor (@x[$d3],@x[$a3])", "&rol (@x[$d3],16)", "&add ($xc,@x[$d2])", "&xor (@x[$b2],$xc)", "&rol (@x[$b2],12)", "&add ($xc_,@x[$d3])", "&xor (@x[$b3],$xc_)", "&rol (@x[$b3],12)", "&add (@x[$a2],@x[$b2])", "&xor (@x[$d2],@x[$a2])", "&rol (@x[$d2],8)", "&add (@x[$a3],@x[$b3])", "&xor (@x[$d3],@x[$a3])", "&rol (@x[$d3],8)", "&add ($xc,@x[$d2])", "&xor (@x[$b2],$xc)", "&rol (@x[$b2],7)", "&add ($xc_,@x[$d3])", "&xor (@x[$b3],$xc_)", "&rol (@x[$b3],7)" ); } ######################################################################## # Generic code path that handles all lengths on pre-SSSE3 processors. $code.=<<___; .globl ChaCha20_ctr32 .type ChaCha20_ctr32,\@function,5 .align 64 ChaCha20_ctr32: .cfi_startproc cmp \$0,$len je .Lno_data mov OPENSSL_ia32cap_P+4(%rip),%r10 ___ $code.=<<___; test \$`1<<(41-32)`,%r10d jnz .LChaCha20_ssse3 push %rbx .cfi_push rbx push %rbp .cfi_push rbp push %r12 .cfi_push r12 push %r13 .cfi_push r13 push %r14 .cfi_push r14 push %r15 .cfi_push r15 sub \$64+24,%rsp .cfi_adjust_cfa_offset `64+24` .Lctr32_body: #movdqa .Lsigma(%rip),%xmm0 movdqu ($key),%xmm1 movdqu 16($key),%xmm2 movdqu ($counter),%xmm3 movdqa .Lone(%rip),%xmm4 #movdqa %xmm0,4*0(%rsp) # key[0] movdqa %xmm1,4*4(%rsp) # key[1] movdqa %xmm2,4*8(%rsp) # key[2] movdqa %xmm3,4*12(%rsp) # key[3] mov $len,%rbp # reassign $len jmp .Loop_outer .align 32 .Loop_outer: mov \$0x61707865,@x[0] # 'expa' mov \$0x3320646e,@x[1] # 'nd 3' mov \$0x79622d32,@x[2] # '2-by' mov \$0x6b206574,@x[3] # 'te k' mov 4*4(%rsp),@x[4] mov 4*5(%rsp),@x[5] mov 4*6(%rsp),@x[6] mov 4*7(%rsp),@x[7] movd %xmm3,@x[12] mov 4*13(%rsp),@x[13] mov 4*14(%rsp),@x[14] mov 4*15(%rsp),@x[15] mov %rbp,64+0(%rsp) # save len mov \$10,%ebp mov $inp,64+8(%rsp) # save inp movq %xmm2,%rsi # "@x[8]" mov $out,64+16(%rsp) # save out mov %rsi,%rdi shr \$32,%rdi # "@x[9]" jmp .Loop .align 32 .Loop: ___ foreach (&ROUND (0, 4, 8,12)) { eval; } foreach (&ROUND (0, 5,10,15)) { eval; } &dec ("%ebp"); &jnz (".Loop"); $code.=<<___; mov @t[1],4*9(%rsp) # modulo-scheduled mov @t[0],4*8(%rsp) mov 64(%rsp),%rbp # load len movdqa %xmm2,%xmm1 mov 64+8(%rsp),$inp # load inp paddd %xmm4,%xmm3 # increment counter mov 64+16(%rsp),$out # load out add \$0x61707865,@x[0] # 'expa' add \$0x3320646e,@x[1] # 'nd 3' add \$0x79622d32,@x[2] # '2-by' add \$0x6b206574,@x[3] # 'te k' add 4*4(%rsp),@x[4] add 4*5(%rsp),@x[5] add 4*6(%rsp),@x[6] add 4*7(%rsp),@x[7] add 4*12(%rsp),@x[12] add 4*13(%rsp),@x[13] add 4*14(%rsp),@x[14] add 4*15(%rsp),@x[15] paddd 4*8(%rsp),%xmm1 cmp \$64,%rbp jb .Ltail xor 4*0($inp),@x[0] # xor with input xor 4*1($inp),@x[1] xor 4*2($inp),@x[2] xor 4*3($inp),@x[3] xor 4*4($inp),@x[4] xor 4*5($inp),@x[5] xor 4*6($inp),@x[6] xor 4*7($inp),@x[7] movdqu 4*8($inp),%xmm0 xor 4*12($inp),@x[12] xor 4*13($inp),@x[13] xor 4*14($inp),@x[14] xor 4*15($inp),@x[15] lea 4*16($inp),$inp # inp+=64 pxor %xmm1,%xmm0 movdqa %xmm2,4*8(%rsp) movd %xmm3,4*12(%rsp) mov @x[0],4*0($out) # write output mov @x[1],4*1($out) mov @x[2],4*2($out) mov @x[3],4*3($out) mov @x[4],4*4($out) mov @x[5],4*5($out) mov @x[6],4*6($out) mov @x[7],4*7($out) movdqu %xmm0,4*8($out) mov @x[12],4*12($out) mov @x[13],4*13($out) mov @x[14],4*14($out) mov @x[15],4*15($out) lea 4*16($out),$out # out+=64 sub \$64,%rbp jnz .Loop_outer jmp .Ldone .align 16 .Ltail: mov @x[0],4*0(%rsp) mov @x[1],4*1(%rsp) xor %rbx,%rbx mov @x[2],4*2(%rsp) mov @x[3],4*3(%rsp) mov @x[4],4*4(%rsp) mov @x[5],4*5(%rsp) mov @x[6],4*6(%rsp) mov @x[7],4*7(%rsp) movdqa %xmm1,4*8(%rsp) mov @x[12],4*12(%rsp) mov @x[13],4*13(%rsp) mov @x[14],4*14(%rsp) mov @x[15],4*15(%rsp) .Loop_tail: movzb ($inp,%rbx),%eax movzb (%rsp,%rbx),%edx lea 1(%rbx),%rbx xor %edx,%eax mov %al,-1($out,%rbx) dec %rbp jnz .Loop_tail .Ldone: lea 64+24+48(%rsp),%rsi mov -48(%rsi),%r15 .cfi_restore r15 mov -40(%rsi),%r14 .cfi_restore r14 mov -32(%rsi),%r13 .cfi_restore r13 mov -24(%rsi),%r12 .cfi_restore r12 mov -16(%rsi),%rbp .cfi_restore rbp mov -8(%rsi),%rbx .cfi_restore rbx lea (%rsi),%rsp .cfi_adjust_cfa_offset `-64-24-48` .Lno_data: ret .cfi_endproc .size ChaCha20_ctr32,.-ChaCha20_ctr32 ___ ######################################################################## # SSSE3 code path that handles shorter lengths { my ($a,$b,$c,$d,$t,$t1,$rot16,$rot24)=map("%xmm$_",(0..7)); sub SSSE3ROUND { # critical path is 20 "SIMD ticks" per round &paddd ($a,$b); &pxor ($d,$a); &pshufb ($d,$rot16); &paddd ($c,$d); &pxor ($b,$c); &movdqa ($t,$b); &psrld ($b,20); &pslld ($t,12); &por ($b,$t); &paddd ($a,$b); &pxor ($d,$a); &pshufb ($d,$rot24); &paddd ($c,$d); &pxor ($b,$c); &movdqa ($t,$b); &psrld ($b,25); &pslld ($t,7); &por ($b,$t); } my $xframe = $win64 ? 32+8 : 8; $code.=<<___; .type ChaCha20_ssse3,\@function,5 .align 32 ChaCha20_ssse3: .LChaCha20_ssse3: .cfi_startproc mov %rsp,%r9 # frame pointer .cfi_def_cfa_register r9 ___ $code.=<<___; cmp \$128,$len # we might throw away some data, ja .LChaCha20_4x # but overall it won't be slower .Ldo_sse3_after_all: sub \$64+$xframe,%rsp ___ $code.=<<___ if ($win64); movaps %xmm6,-0x28(%r9) movaps %xmm7,-0x18(%r9) .Lssse3_body: ___ $code.=<<___; movdqa .Lsigma(%rip),$a movdqu ($key),$b movdqu 16($key),$c movdqu ($counter),$d movdqa .Lrot16(%rip),$rot16 movdqa .Lrot24(%rip),$rot24 movdqa $a,0x00(%rsp) movdqa $b,0x10(%rsp) movdqa $c,0x20(%rsp) movdqa $d,0x30(%rsp) mov \$10,$counter # reuse $counter jmp .Loop_ssse3 .align 32 .Loop_outer_ssse3: movdqa .Lone(%rip),$d movdqa 0x00(%rsp),$a movdqa 0x10(%rsp),$b movdqa 0x20(%rsp),$c paddd 0x30(%rsp),$d mov \$10,$counter movdqa $d,0x30(%rsp) jmp .Loop_ssse3 .align 32 .Loop_ssse3: ___ &SSSE3ROUND(); &pshufd ($c,$c,0b01001110); &pshufd ($b,$b,0b00111001); &pshufd ($d,$d,0b10010011); &nop (); &SSSE3ROUND(); &pshufd ($c,$c,0b01001110); &pshufd ($b,$b,0b10010011); &pshufd ($d,$d,0b00111001); &dec ($counter); &jnz (".Loop_ssse3"); $code.=<<___; paddd 0x00(%rsp),$a paddd 0x10(%rsp),$b paddd 0x20(%rsp),$c paddd 0x30(%rsp),$d cmp \$64,$len jb .Ltail_ssse3 movdqu 0x00($inp),$t movdqu 0x10($inp),$t1 pxor $t,$a # xor with input movdqu 0x20($inp),$t pxor $t1,$b movdqu 0x30($inp),$t1 lea 0x40($inp),$inp # inp+=64 pxor $t,$c pxor $t1,$d movdqu $a,0x00($out) # write output movdqu $b,0x10($out) movdqu $c,0x20($out) movdqu $d,0x30($out) lea 0x40($out),$out # out+=64 sub \$64,$len jnz .Loop_outer_ssse3 jmp .Ldone_ssse3 .align 16 .Ltail_ssse3: movdqa $a,0x00(%rsp) movdqa $b,0x10(%rsp) movdqa $c,0x20(%rsp) movdqa $d,0x30(%rsp) xor $counter,$counter .Loop_tail_ssse3: movzb ($inp,$counter),%eax movzb (%rsp,$counter),%ecx lea 1($counter),$counter xor %ecx,%eax mov %al,-1($out,$counter) dec $len jnz .Loop_tail_ssse3 .Ldone_ssse3: ___ $code.=<<___ if ($win64); movaps -0x28(%r9),%xmm6 movaps -0x18(%r9),%xmm7 ___ $code.=<<___; lea (%r9),%rsp .cfi_def_cfa_register rsp .Lssse3_epilogue: ret .cfi_endproc .size ChaCha20_ssse3,.-ChaCha20_ssse3 ___ } ######################################################################## # SSSE3 code path that handles longer messages. { # assign variables to favor Atom front-end my ($xd0,$xd1,$xd2,$xd3, $xt0,$xt1,$xt2,$xt3, $xa0,$xa1,$xa2,$xa3, $xb0,$xb1,$xb2,$xb3)=map("%xmm$_",(0..15)); my @xx=($xa0,$xa1,$xa2,$xa3, $xb0,$xb1,$xb2,$xb3, "%nox","%nox","%nox","%nox", $xd0,$xd1,$xd2,$xd3); sub SSSE3_lane_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)); my ($xc,$xc_,$t0,$t1)=map("\"$_\"",$xt0,$xt1,$xt2,$xt3); my @x=map("\"$_\"",@xx); # Consider order in which variables are addressed by their # index: # # a b c d # # 0 4 8 12 < even round # 1 5 9 13 # 2 6 10 14 # 3 7 11 15 # 0 5 10 15 < odd round # 1 6 11 12 # 2 7 8 13 # 3 4 9 14 # # 'a', 'b' and 'd's are permanently allocated in registers, # @x[0..7,12..15], while 'c's are maintained in memory. If # you observe 'c' column, you'll notice that pair of 'c's is # invariant between rounds. This means that we have to reload # them once per round, in the middle. This is why you'll see # bunch of 'c' stores and loads in the middle, but none in # the beginning or end. ( "&paddd (@x[$a0],@x[$b0])", # Q1 "&paddd (@x[$a1],@x[$b1])", # Q2 "&pxor (@x[$d0],@x[$a0])", "&pxor (@x[$d1],@x[$a1])", "&pshufb (@x[$d0],$t1)", "&pshufb (@x[$d1],$t1)", "&paddd ($xc,@x[$d0])", "&paddd ($xc_,@x[$d1])", "&pxor (@x[$b0],$xc)", "&pxor (@x[$b1],$xc_)", "&movdqa ($t0,@x[$b0])", "&pslld (@x[$b0],12)", "&psrld ($t0,20)", "&movdqa ($t1,@x[$b1])", "&pslld (@x[$b1],12)", "&por (@x[$b0],$t0)", "&psrld ($t1,20)", "&movdqa ($t0,'(%r11)')", # .Lrot24(%rip) "&por (@x[$b1],$t1)", "&paddd (@x[$a0],@x[$b0])", "&paddd (@x[$a1],@x[$b1])", "&pxor (@x[$d0],@x[$a0])", "&pxor (@x[$d1],@x[$a1])", "&pshufb (@x[$d0],$t0)", "&pshufb (@x[$d1],$t0)", "&paddd ($xc,@x[$d0])", "&paddd ($xc_,@x[$d1])", "&pxor (@x[$b0],$xc)", "&pxor (@x[$b1],$xc_)", "&movdqa ($t1,@x[$b0])", "&pslld (@x[$b0],7)", "&psrld ($t1,25)", "&movdqa ($t0,@x[$b1])", "&pslld (@x[$b1],7)", "&por (@x[$b0],$t1)", "&psrld ($t0,25)", "&movdqa ($t1,'(%r10)')", # .Lrot16(%rip) "&por (@x[$b1],$t0)", "&movdqa (\"`16*($c0-8)`(%rsp)\",$xc)", # reload pair of 'c's "&movdqa (\"`16*($c1-8)`(%rsp)\",$xc_)", "&movdqa ($xc,\"`16*($c2-8)`(%rsp)\")", "&movdqa ($xc_,\"`16*($c3-8)`(%rsp)\")", "&paddd (@x[$a2],@x[$b2])", # Q3 "&paddd (@x[$a3],@x[$b3])", # Q4 "&pxor (@x[$d2],@x[$a2])", "&pxor (@x[$d3],@x[$a3])", "&pshufb (@x[$d2],$t1)", "&pshufb (@x[$d3],$t1)", "&paddd ($xc,@x[$d2])", "&paddd ($xc_,@x[$d3])", "&pxor (@x[$b2],$xc)", "&pxor (@x[$b3],$xc_)", "&movdqa ($t0,@x[$b2])", "&pslld (@x[$b2],12)", "&psrld ($t0,20)", "&movdqa ($t1,@x[$b3])", "&pslld (@x[$b3],12)", "&por (@x[$b2],$t0)", "&psrld ($t1,20)", "&movdqa ($t0,'(%r11)')", # .Lrot24(%rip) "&por (@x[$b3],$t1)", "&paddd (@x[$a2],@x[$b2])", "&paddd (@x[$a3],@x[$b3])", "&pxor (@x[$d2],@x[$a2])", "&pxor (@x[$d3],@x[$a3])", "&pshufb (@x[$d2],$t0)", "&pshufb (@x[$d3],$t0)", "&paddd ($xc,@x[$d2])", "&paddd ($xc_,@x[$d3])", "&pxor (@x[$b2],$xc)", "&pxor (@x[$b3],$xc_)", "&movdqa ($t1,@x[$b2])", "&pslld (@x[$b2],7)", "&psrld ($t1,25)", "&movdqa ($t0,@x[$b3])", "&pslld (@x[$b3],7)", "&por (@x[$b2],$t1)", "&psrld ($t0,25)", "&movdqa ($t1,'(%r10)')", # .Lrot16(%rip) "&por (@x[$b3],$t0)" ); } my $xframe = $win64 ? 0xa8 : 8; $code.=<<___; .type ChaCha20_4x,\@function,5 .align 32 ChaCha20_4x: .LChaCha20_4x: .cfi_startproc mov %rsp,%r9 # frame pointer .cfi_def_cfa_register r9 mov %r10,%r11 ___ $code.=<<___ if ($avx>1); shr \$32,%r10 # OPENSSL_ia32cap_P+8 test \$`1<<5`,%r10 # test AVX2 jnz .LChaCha20_8x ___ $code.=<<___; cmp \$192,$len ja .Lproceed4x and \$`1<<26|1<<22`,%r11 # isolate XSAVE+MOVBE cmp \$`1<<22`,%r11 # check for MOVBE without XSAVE je .Ldo_sse3_after_all # to detect Atom .Lproceed4x: sub \$0x140+$xframe,%rsp ___ ################ stack layout # +0x00 SIMD equivalent of @x[8-12] # ... # +0x40 constant copy of key[0-2] smashed by lanes # ... # +0x100 SIMD counters (with nonce smashed by lanes) # ... # +0x140 $code.=<<___ if ($win64); movaps %xmm6,-0xa8(%r9) movaps %xmm7,-0x98(%r9) movaps %xmm8,-0x88(%r9) movaps %xmm9,-0x78(%r9) movaps %xmm10,-0x68(%r9) movaps %xmm11,-0x58(%r9) movaps %xmm12,-0x48(%r9) movaps %xmm13,-0x38(%r9) movaps %xmm14,-0x28(%r9) movaps %xmm15,-0x18(%r9) .L4x_body: ___ $code.=<<___; movdqa .Lsigma(%rip),$xa3 # key[0] movdqu ($key),$xb3 # key[1] movdqu 16($key),$xt3 # key[2] movdqu ($counter),$xd3 # key[3] lea 0x100(%rsp),%rcx # size optimization lea .Lrot16(%rip),%r10 lea .Lrot24(%rip),%r11 pshufd \$0x00,$xa3,$xa0 # smash key by lanes... pshufd \$0x55,$xa3,$xa1 movdqa $xa0,0x40(%rsp) # ... and offload pshufd \$0xaa,$xa3,$xa2 movdqa $xa1,0x50(%rsp) pshufd \$0xff,$xa3,$xa3 movdqa $xa2,0x60(%rsp) movdqa $xa3,0x70(%rsp) pshufd \$0x00,$xb3,$xb0 pshufd \$0x55,$xb3,$xb1 movdqa $xb0,0x80-0x100(%rcx) pshufd \$0xaa,$xb3,$xb2 movdqa $xb1,0x90-0x100(%rcx) pshufd \$0xff,$xb3,$xb3 movdqa $xb2,0xa0-0x100(%rcx) movdqa $xb3,0xb0-0x100(%rcx) pshufd \$0x00,$xt3,$xt0 # "$xc0" pshufd \$0x55,$xt3,$xt1 # "$xc1" movdqa $xt0,0xc0-0x100(%rcx) pshufd \$0xaa,$xt3,$xt2 # "$xc2" movdqa $xt1,0xd0-0x100(%rcx) pshufd \$0xff,$xt3,$xt3 # "$xc3" movdqa $xt2,0xe0-0x100(%rcx) movdqa $xt3,0xf0-0x100(%rcx) pshufd \$0x00,$xd3,$xd0 pshufd \$0x55,$xd3,$xd1 paddd .Linc(%rip),$xd0 # don't save counters yet pshufd \$0xaa,$xd3,$xd2 movdqa $xd1,0x110-0x100(%rcx) pshufd \$0xff,$xd3,$xd3 movdqa $xd2,0x120-0x100(%rcx) movdqa $xd3,0x130-0x100(%rcx) jmp .Loop_enter4x .align 32 .Loop_outer4x: movdqa 0x40(%rsp),$xa0 # re-load smashed key movdqa 0x50(%rsp),$xa1 movdqa 0x60(%rsp),$xa2 movdqa 0x70(%rsp),$xa3 movdqa 0x80-0x100(%rcx),$xb0 movdqa 0x90-0x100(%rcx),$xb1 movdqa 0xa0-0x100(%rcx),$xb2 movdqa 0xb0-0x100(%rcx),$xb3 movdqa 0xc0-0x100(%rcx),$xt0 # "$xc0" movdqa 0xd0-0x100(%rcx),$xt1 # "$xc1" movdqa 0xe0-0x100(%rcx),$xt2 # "$xc2" movdqa 0xf0-0x100(%rcx),$xt3 # "$xc3" movdqa 0x100-0x100(%rcx),$xd0 movdqa 0x110-0x100(%rcx),$xd1 movdqa 0x120-0x100(%rcx),$xd2 movdqa 0x130-0x100(%rcx),$xd3 paddd .Lfour(%rip),$xd0 # next SIMD counters .Loop_enter4x: movdqa $xt2,0x20(%rsp) # SIMD equivalent of "@x[10]" movdqa $xt3,0x30(%rsp) # SIMD equivalent of "@x[11]" movdqa (%r10),$xt3 # .Lrot16(%rip) mov \$10,%eax movdqa $xd0,0x100-0x100(%rcx) # save SIMD counters jmp .Loop4x .align 32 .Loop4x: ___ foreach (&SSSE3_lane_ROUND(0, 4, 8,12)) { eval; } foreach (&SSSE3_lane_ROUND(0, 5,10,15)) { eval; } $code.=<<___; dec %eax jnz .Loop4x paddd 0x40(%rsp),$xa0 # accumulate key material paddd 0x50(%rsp),$xa1 paddd 0x60(%rsp),$xa2 paddd 0x70(%rsp),$xa3 movdqa $xa0,$xt2 # "de-interlace" data punpckldq $xa1,$xa0 movdqa $xa2,$xt3 punpckldq $xa3,$xa2 punpckhdq $xa1,$xt2 punpckhdq $xa3,$xt3 movdqa $xa0,$xa1 punpcklqdq $xa2,$xa0 # "a0" movdqa $xt2,$xa3 punpcklqdq $xt3,$xt2 # "a2" punpckhqdq $xa2,$xa1 # "a1" punpckhqdq $xt3,$xa3 # "a3" ___ ($xa2,$xt2)=($xt2,$xa2); $code.=<<___; paddd 0x80-0x100(%rcx),$xb0 paddd 0x90-0x100(%rcx),$xb1 paddd 0xa0-0x100(%rcx),$xb2 paddd 0xb0-0x100(%rcx),$xb3 movdqa $xa0,0x00(%rsp) # offload $xaN movdqa $xa1,0x10(%rsp) movdqa 0x20(%rsp),$xa0 # "xc2" movdqa 0x30(%rsp),$xa1 # "xc3" movdqa $xb0,$xt2 punpckldq $xb1,$xb0 movdqa $xb2,$xt3 punpckldq $xb3,$xb2 punpckhdq $xb1,$xt2 punpckhdq $xb3,$xt3 movdqa $xb0,$xb1 punpcklqdq $xb2,$xb0 # "b0" movdqa $xt2,$xb3 punpcklqdq $xt3,$xt2 # "b2" punpckhqdq $xb2,$xb1 # "b1" punpckhqdq $xt3,$xb3 # "b3" ___ ($xb2,$xt2)=($xt2,$xb2); my ($xc0,$xc1,$xc2,$xc3)=($xt0,$xt1,$xa0,$xa1); $code.=<<___; paddd 0xc0-0x100(%rcx),$xc0 paddd 0xd0-0x100(%rcx),$xc1 paddd 0xe0-0x100(%rcx),$xc2 paddd 0xf0-0x100(%rcx),$xc3 movdqa $xa2,0x20(%rsp) # keep offloading $xaN movdqa $xa3,0x30(%rsp) movdqa $xc0,$xt2 punpckldq $xc1,$xc0 movdqa $xc2,$xt3 punpckldq $xc3,$xc2 punpckhdq $xc1,$xt2 punpckhdq $xc3,$xt3 movdqa $xc0,$xc1 punpcklqdq $xc2,$xc0 # "c0" movdqa $xt2,$xc3 punpcklqdq $xt3,$xt2 # "c2" punpckhqdq $xc2,$xc1 # "c1" punpckhqdq $xt3,$xc3 # "c3" ___ ($xc2,$xt2)=($xt2,$xc2); ($xt0,$xt1)=($xa2,$xa3); # use $xaN as temporary $code.=<<___; paddd 0x100-0x100(%rcx),$xd0 paddd 0x110-0x100(%rcx),$xd1 paddd 0x120-0x100(%rcx),$xd2 paddd 0x130-0x100(%rcx),$xd3 movdqa $xd0,$xt2 punpckldq $xd1,$xd0 movdqa $xd2,$xt3 punpckldq $xd3,$xd2 punpckhdq $xd1,$xt2 punpckhdq $xd3,$xt3 movdqa $xd0,$xd1 punpcklqdq $xd2,$xd0 # "d0" movdqa $xt2,$xd3 punpcklqdq $xt3,$xt2 # "d2" punpckhqdq $xd2,$xd1 # "d1" punpckhqdq $xt3,$xd3 # "d3" ___ ($xd2,$xt2)=($xt2,$xd2); $code.=<<___; cmp \$64*4,$len jb .Ltail4x movdqu 0x00($inp),$xt0 # xor with input movdqu 0x10($inp),$xt1 movdqu 0x20($inp),$xt2 movdqu 0x30($inp),$xt3 pxor 0x00(%rsp),$xt0 # $xaN is offloaded, remember? pxor $xb0,$xt1 pxor $xc0,$xt2 pxor $xd0,$xt3 movdqu $xt0,0x00($out) movdqu 0x40($inp),$xt0 movdqu $xt1,0x10($out) movdqu 0x50($inp),$xt1 movdqu $xt2,0x20($out) movdqu 0x60($inp),$xt2 movdqu $xt3,0x30($out) movdqu 0x70($inp),$xt3 lea 0x80($inp),$inp # size optimization pxor 0x10(%rsp),$xt0 pxor $xb1,$xt1 pxor $xc1,$xt2 pxor $xd1,$xt3 movdqu $xt0,0x40($out) movdqu 0x00($inp),$xt0 movdqu $xt1,0x50($out) movdqu 0x10($inp),$xt1 movdqu $xt2,0x60($out) movdqu 0x20($inp),$xt2 movdqu $xt3,0x70($out) lea 0x80($out),$out # size optimization movdqu 0x30($inp),$xt3 pxor 0x20(%rsp),$xt0 pxor $xb2,$xt1 pxor $xc2,$xt2 pxor $xd2,$xt3 movdqu $xt0,0x00($out) movdqu 0x40($inp),$xt0 movdqu $xt1,0x10($out) movdqu 0x50($inp),$xt1 movdqu $xt2,0x20($out) movdqu 0x60($inp),$xt2 movdqu $xt3,0x30($out) movdqu 0x70($inp),$xt3 lea 0x80($inp),$inp # inp+=64*4 pxor 0x30(%rsp),$xt0 pxor $xb3,$xt1 pxor $xc3,$xt2 pxor $xd3,$xt3 movdqu $xt0,0x40($out) movdqu $xt1,0x50($out) movdqu $xt2,0x60($out) movdqu $xt3,0x70($out) lea 0x80($out),$out # out+=64*4 sub \$64*4,$len jnz .Loop_outer4x jmp .Ldone4x .Ltail4x: cmp \$192,$len jae .L192_or_more4x cmp \$128,$len jae .L128_or_more4x cmp \$64,$len jae .L64_or_more4x #movdqa 0x00(%rsp),$xt0 # $xaN is offloaded, remember? xor %r10,%r10 #movdqa $xt0,0x00(%rsp) movdqa $xb0,0x10(%rsp) movdqa $xc0,0x20(%rsp) movdqa $xd0,0x30(%rsp) jmp .Loop_tail4x .align 32 .L64_or_more4x: movdqu 0x00($inp),$xt0 # xor with input movdqu 0x10($inp),$xt1 movdqu 0x20($inp),$xt2 movdqu 0x30($inp),$xt3 pxor 0x00(%rsp),$xt0 # $xaxN is offloaded, remember? pxor $xb0,$xt1 pxor $xc0,$xt2 pxor $xd0,$xt3 movdqu $xt0,0x00($out) movdqu $xt1,0x10($out) movdqu $xt2,0x20($out) movdqu $xt3,0x30($out) je .Ldone4x movdqa 0x10(%rsp),$xt0 # $xaN is offloaded, remember? lea 0x40($inp),$inp # inp+=64*1 xor %r10,%r10 movdqa $xt0,0x00(%rsp) movdqa $xb1,0x10(%rsp) lea 0x40($out),$out # out+=64*1 movdqa $xc1,0x20(%rsp) sub \$64,$len # len-=64*1 movdqa $xd1,0x30(%rsp) jmp .Loop_tail4x .align 32 .L128_or_more4x: movdqu 0x00($inp),$xt0 # xor with input movdqu 0x10($inp),$xt1 movdqu 0x20($inp),$xt2 movdqu 0x30($inp),$xt3 pxor 0x00(%rsp),$xt0 # $xaN is offloaded, remember? pxor $xb0,$xt1 pxor $xc0,$xt2 pxor $xd0,$xt3 movdqu $xt0,0x00($out) movdqu 0x40($inp),$xt0 movdqu $xt1,0x10($out) movdqu 0x50($inp),$xt1 movdqu $xt2,0x20($out) movdqu 0x60($inp),$xt2 movdqu $xt3,0x30($out) movdqu 0x70($inp),$xt3 pxor 0x10(%rsp),$xt0 pxor $xb1,$xt1 pxor $xc1,$xt2 pxor $xd1,$xt3 movdqu $xt0,0x40($out) movdqu $xt1,0x50($out) movdqu $xt2,0x60($out) movdqu $xt3,0x70($out) je .Ldone4x movdqa 0x20(%rsp),$xt0 # $xaN is offloaded, remember? lea 0x80($inp),$inp # inp+=64*2 xor %r10,%r10 movdqa $xt0,0x00(%rsp) movdqa $xb2,0x10(%rsp) lea 0x80($out),$out # out+=64*2 movdqa $xc2,0x20(%rsp) sub \$128,$len # len-=64*2 movdqa $xd2,0x30(%rsp) jmp .Loop_tail4x .align 32 .L192_or_more4x: movdqu 0x00($inp),$xt0 # xor with input movdqu 0x10($inp),$xt1 movdqu 0x20($inp),$xt2 movdqu 0x30($inp),$xt3 pxor 0x00(%rsp),$xt0 # $xaN is offloaded, remember? pxor $xb0,$xt1 pxor $xc0,$xt2 pxor $xd0,$xt3 movdqu $xt0,0x00($out) movdqu 0x40($inp),$xt0 movdqu $xt1,0x10($out) movdqu 0x50($inp),$xt1 movdqu $xt2,0x20($out) movdqu 0x60($inp),$xt2 movdqu $xt3,0x30($out) movdqu 0x70($inp),$xt3 lea 0x80($inp),$inp # size optimization pxor 0x10(%rsp),$xt0 pxor $xb1,$xt1 pxor $xc1,$xt2 pxor $xd1,$xt3 movdqu $xt0,0x40($out) movdqu 0x00($inp),$xt0 movdqu $xt1,0x50($out) movdqu 0x10($inp),$xt1 movdqu $xt2,0x60($out) movdqu 0x20($inp),$xt2 movdqu $xt3,0x70($out) lea 0x80($out),$out # size optimization movdqu 0x30($inp),$xt3 pxor 0x20(%rsp),$xt0 pxor $xb2,$xt1 pxor $xc2,$xt2 pxor $xd2,$xt3 movdqu $xt0,0x00($out) movdqu $xt1,0x10($out) movdqu $xt2,0x20($out) movdqu $xt3,0x30($out) je .Ldone4x movdqa 0x30(%rsp),$xt0 # $xaN is offloaded, remember? lea 0x40($inp),$inp # inp+=64*3 xor %r10,%r10 movdqa $xt0,0x00(%rsp) movdqa $xb3,0x10(%rsp) lea 0x40($out),$out # out+=64*3 movdqa $xc3,0x20(%rsp) sub \$192,$len # len-=64*3 movdqa $xd3,0x30(%rsp) .Loop_tail4x: movzb ($inp,%r10),%eax movzb (%rsp,%r10),%ecx lea 1(%r10),%r10 xor %ecx,%eax mov %al,-1($out,%r10) dec $len jnz .Loop_tail4x .Ldone4x: ___ $code.=<<___ if ($win64); movaps -0xa8(%r9),%xmm6 movaps -0x98(%r9),%xmm7 movaps -0x88(%r9),%xmm8 movaps -0x78(%r9),%xmm9 movaps -0x68(%r9),%xmm10 movaps -0x58(%r9),%xmm11 movaps -0x48(%r9),%xmm12 movaps -0x38(%r9),%xmm13 movaps -0x28(%r9),%xmm14 movaps -0x18(%r9),%xmm15 ___ $code.=<<___; lea (%r9),%rsp .cfi_def_cfa_register rsp .L4x_epilogue: ret .cfi_endproc .size ChaCha20_4x,.-ChaCha20_4x ___ } ######################################################################## # AVX2 code path if ($avx>1) { my ($xb0,$xb1,$xb2,$xb3, $xd0,$xd1,$xd2,$xd3, $xa0,$xa1,$xa2,$xa3, $xt0,$xt1,$xt2,$xt3)=map("%ymm$_",(0..15)); my @xx=($xa0,$xa1,$xa2,$xa3, $xb0,$xb1,$xb2,$xb3, "%nox","%nox","%nox","%nox", $xd0,$xd1,$xd2,$xd3); sub AVX2_lane_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)); my ($xc,$xc_,$t0,$t1)=map("\"$_\"",$xt0,$xt1,$xt2,$xt3); my @x=map("\"$_\"",@xx); # Consider order in which variables are addressed by their # index: # # a b c d # # 0 4 8 12 < even round # 1 5 9 13 # 2 6 10 14 # 3 7 11 15 # 0 5 10 15 < odd round # 1 6 11 12 # 2 7 8 13 # 3 4 9 14 # # 'a', 'b' and 'd's are permanently allocated in registers, # @x[0..7,12..15], while 'c's are maintained in memory. If # you observe 'c' column, you'll notice that pair of 'c's is # invariant between rounds. This means that we have to reload # them once per round, in the middle. This is why you'll see # bunch of 'c' stores and loads in the middle, but none in # the beginning or end. ( "&vpaddd (@x[$a0],@x[$a0],@x[$b0])", # Q1 "&vpxor (@x[$d0],@x[$a0],@x[$d0])", "&vpshufb (@x[$d0],@x[$d0],$t1)", "&vpaddd (@x[$a1],@x[$a1],@x[$b1])", # Q2 "&vpxor (@x[$d1],@x[$a1],@x[$d1])", "&vpshufb (@x[$d1],@x[$d1],$t1)", "&vpaddd ($xc,$xc,@x[$d0])", "&vpxor (@x[$b0],$xc,@x[$b0])", "&vpslld ($t0,@x[$b0],12)", "&vpsrld (@x[$b0],@x[$b0],20)", "&vpor (@x[$b0],$t0,@x[$b0])", "&vbroadcasti128($t0,'(%r11)')", # .Lrot24(%rip) "&vpaddd ($xc_,$xc_,@x[$d1])", "&vpxor (@x[$b1],$xc_,@x[$b1])", "&vpslld ($t1,@x[$b1],12)", "&vpsrld (@x[$b1],@x[$b1],20)", "&vpor (@x[$b1],$t1,@x[$b1])", "&vpaddd (@x[$a0],@x[$a0],@x[$b0])", "&vpxor (@x[$d0],@x[$a0],@x[$d0])", "&vpshufb (@x[$d0],@x[$d0],$t0)", "&vpaddd (@x[$a1],@x[$a1],@x[$b1])", "&vpxor (@x[$d1],@x[$a1],@x[$d1])", "&vpshufb (@x[$d1],@x[$d1],$t0)", "&vpaddd ($xc,$xc,@x[$d0])", "&vpxor (@x[$b0],$xc,@x[$b0])", "&vpslld ($t1,@x[$b0],7)", "&vpsrld (@x[$b0],@x[$b0],25)", "&vpor (@x[$b0],$t1,@x[$b0])", "&vbroadcasti128($t1,'(%r10)')", # .Lrot16(%rip) "&vpaddd ($xc_,$xc_,@x[$d1])", "&vpxor (@x[$b1],$xc_,@x[$b1])", "&vpslld ($t0,@x[$b1],7)", "&vpsrld (@x[$b1],@x[$b1],25)", "&vpor (@x[$b1],$t0,@x[$b1])", "&vmovdqa (\"`32*($c0-8)`(%rsp)\",$xc)", # reload pair of 'c's "&vmovdqa (\"`32*($c1-8)`(%rsp)\",$xc_)", "&vmovdqa ($xc,\"`32*($c2-8)`(%rsp)\")", "&vmovdqa ($xc_,\"`32*($c3-8)`(%rsp)\")", "&vpaddd (@x[$a2],@x[$a2],@x[$b2])", # Q3 "&vpxor (@x[$d2],@x[$a2],@x[$d2])", "&vpshufb (@x[$d2],@x[$d2],$t1)", "&vpaddd (@x[$a3],@x[$a3],@x[$b3])", # Q4 "&vpxor (@x[$d3],@x[$a3],@x[$d3])", "&vpshufb (@x[$d3],@x[$d3],$t1)", "&vpaddd ($xc,$xc,@x[$d2])", "&vpxor (@x[$b2],$xc,@x[$b2])", "&vpslld ($t0,@x[$b2],12)", "&vpsrld (@x[$b2],@x[$b2],20)", "&vpor (@x[$b2],$t0,@x[$b2])", "&vbroadcasti128($t0,'(%r11)')", # .Lrot24(%rip) "&vpaddd ($xc_,$xc_,@x[$d3])", "&vpxor (@x[$b3],$xc_,@x[$b3])", "&vpslld ($t1,@x[$b3],12)", "&vpsrld (@x[$b3],@x[$b3],20)", "&vpor (@x[$b3],$t1,@x[$b3])", "&vpaddd (@x[$a2],@x[$a2],@x[$b2])", "&vpxor (@x[$d2],@x[$a2],@x[$d2])", "&vpshufb (@x[$d2],@x[$d2],$t0)", "&vpaddd (@x[$a3],@x[$a3],@x[$b3])", "&vpxor (@x[$d3],@x[$a3],@x[$d3])", "&vpshufb (@x[$d3],@x[$d3],$t0)", "&vpaddd ($xc,$xc,@x[$d2])", "&vpxor (@x[$b2],$xc,@x[$b2])", "&vpslld ($t1,@x[$b2],7)", "&vpsrld (@x[$b2],@x[$b2],25)", "&vpor (@x[$b2],$t1,@x[$b2])", "&vbroadcasti128($t1,'(%r10)')", # .Lrot16(%rip) "&vpaddd ($xc_,$xc_,@x[$d3])", "&vpxor (@x[$b3],$xc_,@x[$b3])", "&vpslld ($t0,@x[$b3],7)", "&vpsrld (@x[$b3],@x[$b3],25)", "&vpor (@x[$b3],$t0,@x[$b3])" ); } my $xframe = $win64 ? 0xa8 : 8; $code.=<<___; .type ChaCha20_8x,\@function,5 .align 32 ChaCha20_8x: .LChaCha20_8x: .cfi_startproc mov %rsp,%r9 # frame register .cfi_def_cfa_register r9 sub \$0x280+$xframe,%rsp and \$-32,%rsp ___ $code.=<<___ if ($win64); movaps %xmm6,-0xa8(%r9) movaps %xmm7,-0x98(%r9) movaps %xmm8,-0x88(%r9) movaps %xmm9,-0x78(%r9) movaps %xmm10,-0x68(%r9) movaps %xmm11,-0x58(%r9) movaps %xmm12,-0x48(%r9) movaps %xmm13,-0x38(%r9) movaps %xmm14,-0x28(%r9) movaps %xmm15,-0x18(%r9) .L8x_body: ___ $code.=<<___; vzeroupper ################ stack layout # +0x00 SIMD equivalent of @x[8-12] # ... # +0x80 constant copy of key[0-2] smashed by lanes # ... # +0x200 SIMD counters (with nonce smashed by lanes) # ... # +0x280 vbroadcasti128 .Lsigma(%rip),$xa3 # key[0] vbroadcasti128 ($key),$xb3 # key[1] vbroadcasti128 16($key),$xt3 # key[2] vbroadcasti128 ($counter),$xd3 # key[3] lea 0x100(%rsp),%rcx # size optimization lea 0x200(%rsp),%rax # size optimization lea .Lrot16(%rip),%r10 lea .Lrot24(%rip),%r11 vpshufd \$0x00,$xa3,$xa0 # smash key by lanes... vpshufd \$0x55,$xa3,$xa1 vmovdqa $xa0,0x80-0x100(%rcx) # ... and offload vpshufd \$0xaa,$xa3,$xa2 vmovdqa $xa1,0xa0-0x100(%rcx) vpshufd \$0xff,$xa3,$xa3 vmovdqa $xa2,0xc0-0x100(%rcx) vmovdqa $xa3,0xe0-0x100(%rcx) vpshufd \$0x00,$xb3,$xb0 vpshufd \$0x55,$xb3,$xb1 vmovdqa $xb0,0x100-0x100(%rcx) vpshufd \$0xaa,$xb3,$xb2 vmovdqa $xb1,0x120-0x100(%rcx) vpshufd \$0xff,$xb3,$xb3 vmovdqa $xb2,0x140-0x100(%rcx) vmovdqa $xb3,0x160-0x100(%rcx) vpshufd \$0x00,$xt3,$xt0 # "xc0" vpshufd \$0x55,$xt3,$xt1 # "xc1" vmovdqa $xt0,0x180-0x200(%rax) vpshufd \$0xaa,$xt3,$xt2 # "xc2" vmovdqa $xt1,0x1a0-0x200(%rax) vpshufd \$0xff,$xt3,$xt3 # "xc3" vmovdqa $xt2,0x1c0-0x200(%rax) vmovdqa $xt3,0x1e0-0x200(%rax) vpshufd \$0x00,$xd3,$xd0 vpshufd \$0x55,$xd3,$xd1 vpaddd .Lincy(%rip),$xd0,$xd0 # don't save counters yet vpshufd \$0xaa,$xd3,$xd2 vmovdqa $xd1,0x220-0x200(%rax) vpshufd \$0xff,$xd3,$xd3 vmovdqa $xd2,0x240-0x200(%rax) vmovdqa $xd3,0x260-0x200(%rax) jmp .Loop_enter8x .align 32 .Loop_outer8x: vmovdqa 0x80-0x100(%rcx),$xa0 # re-load smashed key vmovdqa 0xa0-0x100(%rcx),$xa1 vmovdqa 0xc0-0x100(%rcx),$xa2 vmovdqa 0xe0-0x100(%rcx),$xa3 vmovdqa 0x100-0x100(%rcx),$xb0 vmovdqa 0x120-0x100(%rcx),$xb1 vmovdqa 0x140-0x100(%rcx),$xb2 vmovdqa 0x160-0x100(%rcx),$xb3 vmovdqa 0x180-0x200(%rax),$xt0 # "xc0" vmovdqa 0x1a0-0x200(%rax),$xt1 # "xc1" vmovdqa 0x1c0-0x200(%rax),$xt2 # "xc2" vmovdqa 0x1e0-0x200(%rax),$xt3 # "xc3" vmovdqa 0x200-0x200(%rax),$xd0 vmovdqa 0x220-0x200(%rax),$xd1 vmovdqa 0x240-0x200(%rax),$xd2 vmovdqa 0x260-0x200(%rax),$xd3 vpaddd .Leight(%rip),$xd0,$xd0 # next SIMD counters .Loop_enter8x: vmovdqa $xt2,0x40(%rsp) # SIMD equivalent of "@x[10]" vmovdqa $xt3,0x60(%rsp) # SIMD equivalent of "@x[11]" vbroadcasti128 (%r10),$xt3 vmovdqa $xd0,0x200-0x200(%rax) # save SIMD counters mov \$10,%eax jmp .Loop8x .align 32 .Loop8x: ___ foreach (&AVX2_lane_ROUND(0, 4, 8,12)) { eval; } foreach (&AVX2_lane_ROUND(0, 5,10,15)) { eval; } $code.=<<___; dec %eax jnz .Loop8x lea 0x200(%rsp),%rax # size optimization vpaddd 0x80-0x100(%rcx),$xa0,$xa0 # accumulate key vpaddd 0xa0-0x100(%rcx),$xa1,$xa1 vpaddd 0xc0-0x100(%rcx),$xa2,$xa2 vpaddd 0xe0-0x100(%rcx),$xa3,$xa3 vpunpckldq $xa1,$xa0,$xt2 # "de-interlace" data vpunpckldq $xa3,$xa2,$xt3 vpunpckhdq $xa1,$xa0,$xa0 vpunpckhdq $xa3,$xa2,$xa2 vpunpcklqdq $xt3,$xt2,$xa1 # "a0" vpunpckhqdq $xt3,$xt2,$xt2 # "a1" vpunpcklqdq $xa2,$xa0,$xa3 # "a2" vpunpckhqdq $xa2,$xa0,$xa0 # "a3" ___ ($xa0,$xa1,$xa2,$xa3,$xt2)=($xa1,$xt2,$xa3,$xa0,$xa2); $code.=<<___; vpaddd 0x100-0x100(%rcx),$xb0,$xb0 vpaddd 0x120-0x100(%rcx),$xb1,$xb1 vpaddd 0x140-0x100(%rcx),$xb2,$xb2 vpaddd 0x160-0x100(%rcx),$xb3,$xb3 vpunpckldq $xb1,$xb0,$xt2 vpunpckldq $xb3,$xb2,$xt3 vpunpckhdq $xb1,$xb0,$xb0 vpunpckhdq $xb3,$xb2,$xb2 vpunpcklqdq $xt3,$xt2,$xb1 # "b0" vpunpckhqdq $xt3,$xt2,$xt2 # "b1" vpunpcklqdq $xb2,$xb0,$xb3 # "b2" vpunpckhqdq $xb2,$xb0,$xb0 # "b3" ___ ($xb0,$xb1,$xb2,$xb3,$xt2)=($xb1,$xt2,$xb3,$xb0,$xb2); $code.=<<___; vperm2i128 \$0x20,$xb0,$xa0,$xt3 # "de-interlace" further vperm2i128 \$0x31,$xb0,$xa0,$xb0 vperm2i128 \$0x20,$xb1,$xa1,$xa0 vperm2i128 \$0x31,$xb1,$xa1,$xb1 vperm2i128 \$0x20,$xb2,$xa2,$xa1 vperm2i128 \$0x31,$xb2,$xa2,$xb2 vperm2i128 \$0x20,$xb3,$xa3,$xa2 vperm2i128 \$0x31,$xb3,$xa3,$xb3 ___ ($xa0,$xa1,$xa2,$xa3,$xt3)=($xt3,$xa0,$xa1,$xa2,$xa3); my ($xc0,$xc1,$xc2,$xc3)=($xt0,$xt1,$xa0,$xa1); $code.=<<___; vmovdqa $xa0,0x00(%rsp) # offload $xaN vmovdqa $xa1,0x20(%rsp) vmovdqa 0x40(%rsp),$xc2 # $xa0 vmovdqa 0x60(%rsp),$xc3 # $xa1 vpaddd 0x180-0x200(%rax),$xc0,$xc0 vpaddd 0x1a0-0x200(%rax),$xc1,$xc1 vpaddd 0x1c0-0x200(%rax),$xc2,$xc2 vpaddd 0x1e0-0x200(%rax),$xc3,$xc3 vpunpckldq $xc1,$xc0,$xt2 vpunpckldq $xc3,$xc2,$xt3 vpunpckhdq $xc1,$xc0,$xc0 vpunpckhdq $xc3,$xc2,$xc2 vpunpcklqdq $xt3,$xt2,$xc1 # "c0" vpunpckhqdq $xt3,$xt2,$xt2 # "c1" vpunpcklqdq $xc2,$xc0,$xc3 # "c2" vpunpckhqdq $xc2,$xc0,$xc0 # "c3" ___ ($xc0,$xc1,$xc2,$xc3,$xt2)=($xc1,$xt2,$xc3,$xc0,$xc2); $code.=<<___; vpaddd 0x200-0x200(%rax),$xd0,$xd0 vpaddd 0x220-0x200(%rax),$xd1,$xd1 vpaddd 0x240-0x200(%rax),$xd2,$xd2 vpaddd 0x260-0x200(%rax),$xd3,$xd3 vpunpckldq $xd1,$xd0,$xt2 vpunpckldq $xd3,$xd2,$xt3 vpunpckhdq $xd1,$xd0,$xd0 vpunpckhdq $xd3,$xd2,$xd2 vpunpcklqdq $xt3,$xt2,$xd1 # "d0" vpunpckhqdq $xt3,$xt2,$xt2 # "d1" vpunpcklqdq $xd2,$xd0,$xd3 # "d2" vpunpckhqdq $xd2,$xd0,$xd0 # "d3" ___ ($xd0,$xd1,$xd2,$xd3,$xt2)=($xd1,$xt2,$xd3,$xd0,$xd2); $code.=<<___; vperm2i128 \$0x20,$xd0,$xc0,$xt3 # "de-interlace" further vperm2i128 \$0x31,$xd0,$xc0,$xd0 vperm2i128 \$0x20,$xd1,$xc1,$xc0 vperm2i128 \$0x31,$xd1,$xc1,$xd1 vperm2i128 \$0x20,$xd2,$xc2,$xc1 vperm2i128 \$0x31,$xd2,$xc2,$xd2 vperm2i128 \$0x20,$xd3,$xc3,$xc2 vperm2i128 \$0x31,$xd3,$xc3,$xd3 ___ ($xc0,$xc1,$xc2,$xc3,$xt3)=($xt3,$xc0,$xc1,$xc2,$xc3); ($xb0,$xb1,$xb2,$xb3,$xc0,$xc1,$xc2,$xc3)= ($xc0,$xc1,$xc2,$xc3,$xb0,$xb1,$xb2,$xb3); ($xa0,$xa1)=($xt2,$xt3); $code.=<<___; vmovdqa 0x00(%rsp),$xa0 # $xaN was offloaded, remember? vmovdqa 0x20(%rsp),$xa1 cmp \$64*8,$len jb .Ltail8x vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 lea 0x80($inp),$inp # size optimization vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) lea 0x80($out),$out # size optimization vpxor 0x00($inp),$xa1,$xa1 vpxor 0x20($inp),$xb1,$xb1 vpxor 0x40($inp),$xc1,$xc1 vpxor 0x60($inp),$xd1,$xd1 lea 0x80($inp),$inp # size optimization vmovdqu $xa1,0x00($out) vmovdqu $xb1,0x20($out) vmovdqu $xc1,0x40($out) vmovdqu $xd1,0x60($out) lea 0x80($out),$out # size optimization vpxor 0x00($inp),$xa2,$xa2 vpxor 0x20($inp),$xb2,$xb2 vpxor 0x40($inp),$xc2,$xc2 vpxor 0x60($inp),$xd2,$xd2 lea 0x80($inp),$inp # size optimization vmovdqu $xa2,0x00($out) vmovdqu $xb2,0x20($out) vmovdqu $xc2,0x40($out) vmovdqu $xd2,0x60($out) lea 0x80($out),$out # size optimization vpxor 0x00($inp),$xa3,$xa3 vpxor 0x20($inp),$xb3,$xb3 vpxor 0x40($inp),$xc3,$xc3 vpxor 0x60($inp),$xd3,$xd3 lea 0x80($inp),$inp # size optimization vmovdqu $xa3,0x00($out) vmovdqu $xb3,0x20($out) vmovdqu $xc3,0x40($out) vmovdqu $xd3,0x60($out) lea 0x80($out),$out # size optimization sub \$64*8,$len jnz .Loop_outer8x jmp .Ldone8x .Ltail8x: cmp \$448,$len jae .L448_or_more8x cmp \$384,$len jae .L384_or_more8x cmp \$320,$len jae .L320_or_more8x cmp \$256,$len jae .L256_or_more8x cmp \$192,$len jae .L192_or_more8x cmp \$128,$len jae .L128_or_more8x cmp \$64,$len jae .L64_or_more8x xor %r10,%r10 vmovdqa $xa0,0x00(%rsp) vmovdqa $xb0,0x20(%rsp) jmp .Loop_tail8x .align 32 .L64_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) je .Ldone8x lea 0x40($inp),$inp # inp+=64*1 xor %r10,%r10 vmovdqa $xc0,0x00(%rsp) lea 0x40($out),$out # out+=64*1 sub \$64,$len # len-=64*1 vmovdqa $xd0,0x20(%rsp) jmp .Loop_tail8x .align 32 .L128_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) je .Ldone8x lea 0x80($inp),$inp # inp+=64*2 xor %r10,%r10 vmovdqa $xa1,0x00(%rsp) lea 0x80($out),$out # out+=64*2 sub \$128,$len # len-=64*2 vmovdqa $xb1,0x20(%rsp) jmp .Loop_tail8x .align 32 .L192_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vpxor 0x80($inp),$xa1,$xa1 vpxor 0xa0($inp),$xb1,$xb1 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) vmovdqu $xa1,0x80($out) vmovdqu $xb1,0xa0($out) je .Ldone8x lea 0xc0($inp),$inp # inp+=64*3 xor %r10,%r10 vmovdqa $xc1,0x00(%rsp) lea 0xc0($out),$out # out+=64*3 sub \$192,$len # len-=64*3 vmovdqa $xd1,0x20(%rsp) jmp .Loop_tail8x .align 32 .L256_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vpxor 0x80($inp),$xa1,$xa1 vpxor 0xa0($inp),$xb1,$xb1 vpxor 0xc0($inp),$xc1,$xc1 vpxor 0xe0($inp),$xd1,$xd1 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) vmovdqu $xa1,0x80($out) vmovdqu $xb1,0xa0($out) vmovdqu $xc1,0xc0($out) vmovdqu $xd1,0xe0($out) je .Ldone8x lea 0x100($inp),$inp # inp+=64*4 xor %r10,%r10 vmovdqa $xa2,0x00(%rsp) lea 0x100($out),$out # out+=64*4 sub \$256,$len # len-=64*4 vmovdqa $xb2,0x20(%rsp) jmp .Loop_tail8x .align 32 .L320_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vpxor 0x80($inp),$xa1,$xa1 vpxor 0xa0($inp),$xb1,$xb1 vpxor 0xc0($inp),$xc1,$xc1 vpxor 0xe0($inp),$xd1,$xd1 vpxor 0x100($inp),$xa2,$xa2 vpxor 0x120($inp),$xb2,$xb2 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) vmovdqu $xa1,0x80($out) vmovdqu $xb1,0xa0($out) vmovdqu $xc1,0xc0($out) vmovdqu $xd1,0xe0($out) vmovdqu $xa2,0x100($out) vmovdqu $xb2,0x120($out) je .Ldone8x lea 0x140($inp),$inp # inp+=64*5 xor %r10,%r10 vmovdqa $xc2,0x00(%rsp) lea 0x140($out),$out # out+=64*5 sub \$320,$len # len-=64*5 vmovdqa $xd2,0x20(%rsp) jmp .Loop_tail8x .align 32 .L384_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vpxor 0x80($inp),$xa1,$xa1 vpxor 0xa0($inp),$xb1,$xb1 vpxor 0xc0($inp),$xc1,$xc1 vpxor 0xe0($inp),$xd1,$xd1 vpxor 0x100($inp),$xa2,$xa2 vpxor 0x120($inp),$xb2,$xb2 vpxor 0x140($inp),$xc2,$xc2 vpxor 0x160($inp),$xd2,$xd2 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) vmovdqu $xa1,0x80($out) vmovdqu $xb1,0xa0($out) vmovdqu $xc1,0xc0($out) vmovdqu $xd1,0xe0($out) vmovdqu $xa2,0x100($out) vmovdqu $xb2,0x120($out) vmovdqu $xc2,0x140($out) vmovdqu $xd2,0x160($out) je .Ldone8x lea 0x180($inp),$inp # inp+=64*6 xor %r10,%r10 vmovdqa $xa3,0x00(%rsp) lea 0x180($out),$out # out+=64*6 sub \$384,$len # len-=64*6 vmovdqa $xb3,0x20(%rsp) jmp .Loop_tail8x .align 32 .L448_or_more8x: vpxor 0x00($inp),$xa0,$xa0 # xor with input vpxor 0x20($inp),$xb0,$xb0 vpxor 0x40($inp),$xc0,$xc0 vpxor 0x60($inp),$xd0,$xd0 vpxor 0x80($inp),$xa1,$xa1 vpxor 0xa0($inp),$xb1,$xb1 vpxor 0xc0($inp),$xc1,$xc1 vpxor 0xe0($inp),$xd1,$xd1 vpxor 0x100($inp),$xa2,$xa2 vpxor 0x120($inp),$xb2,$xb2 vpxor 0x140($inp),$xc2,$xc2 vpxor 0x160($inp),$xd2,$xd2 vpxor 0x180($inp),$xa3,$xa3 vpxor 0x1a0($inp),$xb3,$xb3 vmovdqu $xa0,0x00($out) vmovdqu $xb0,0x20($out) vmovdqu $xc0,0x40($out) vmovdqu $xd0,0x60($out) vmovdqu $xa1,0x80($out) vmovdqu $xb1,0xa0($out) vmovdqu $xc1,0xc0($out) vmovdqu $xd1,0xe0($out) vmovdqu $xa2,0x100($out) vmovdqu $xb2,0x120($out) vmovdqu $xc2,0x140($out) vmovdqu $xd2,0x160($out) vmovdqu $xa3,0x180($out) vmovdqu $xb3,0x1a0($out) je .Ldone8x lea 0x1c0($inp),$inp # inp+=64*7 xor %r10,%r10 vmovdqa $xc3,0x00(%rsp) lea 0x1c0($out),$out # out+=64*7 sub \$448,$len # len-=64*7 vmovdqa $xd3,0x20(%rsp) .Loop_tail8x: movzb ($inp,%r10),%eax movzb (%rsp,%r10),%ecx lea 1(%r10),%r10 xor %ecx,%eax mov %al,-1($out,%r10) dec $len jnz .Loop_tail8x .Ldone8x: vzeroall ___ $code.=<<___ if ($win64); movaps -0xa8(%r9),%xmm6 movaps -0x98(%r9),%xmm7 movaps -0x88(%r9),%xmm8 movaps -0x78(%r9),%xmm9 movaps -0x68(%r9),%xmm10 movaps -0x58(%r9),%xmm11 movaps -0x48(%r9),%xmm12 movaps -0x38(%r9),%xmm13 movaps -0x28(%r9),%xmm14 movaps -0x18(%r9),%xmm15 ___ $code.=<<___; lea (%r9),%rsp .cfi_def_cfa_register rsp .L8x_epilogue: ret .cfi_endproc .size ChaCha20_8x,.-ChaCha20_8x ___ } ######################################################################## # AVX512 code paths were removed # EXCEPTION_DISPOSITION handler (EXCEPTION_RECORD *rec,ULONG64 frame, # CONTEXT *context,DISPATCHER_CONTEXT *disp) if ($win64) { $rec="%rcx"; $frame="%rdx"; $context="%r8"; $disp="%r9"; $code.=<<___; .extern __imp_RtlVirtualUnwind .type se_handler,\@abi-omnipotent .align 16 se_handler: push %rsi push %rdi push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 pushfq sub \$64,%rsp mov 120($context),%rax # pull context->Rax mov 248($context),%rbx # pull context->Rip mov 8($disp),%rsi # disp->ImageBase mov 56($disp),%r11 # disp->HandlerData lea .Lctr32_body(%rip),%r10 cmp %r10,%rbx # context->Rip<.Lprologue jb .Lcommon_seh_tail mov 152($context),%rax # pull context->Rsp lea .Lno_data(%rip),%r10 # epilogue label cmp %r10,%rbx # context->Rip>=.Lepilogue jae .Lcommon_seh_tail lea 64+24+48(%rax),%rax mov -8(%rax),%rbx mov -16(%rax),%rbp mov -24(%rax),%r12 mov -32(%rax),%r13 mov -40(%rax),%r14 mov -48(%rax),%r15 mov %rbx,144($context) # restore context->Rbx mov %rbp,160($context) # restore context->Rbp mov %r12,216($context) # restore context->R12 mov %r13,224($context) # restore context->R13 mov %r14,232($context) # restore context->R14 mov %r15,240($context) # restore context->R14 .Lcommon_seh_tail: mov 8(%rax),%rdi mov 16(%rax),%rsi mov %rax,152($context) # restore context->Rsp mov %rsi,168($context) # restore context->Rsi mov %rdi,176($context) # restore context->Rdi mov 40($disp),%rdi # disp->ContextRecord mov $context,%rsi # context mov \$154,%ecx # sizeof(CONTEXT) .long 0xa548f3fc # cld; rep movsq mov $disp,%rsi xor %rcx,%rcx # arg1, UNW_FLAG_NHANDLER mov 8(%rsi),%rdx # arg2, disp->ImageBase mov 0(%rsi),%r8 # arg3, disp->ControlPc mov 16(%rsi),%r9 # arg4, disp->FunctionEntry mov 40(%rsi),%r10 # disp->ContextRecord lea 56(%rsi),%r11 # &disp->HandlerData lea 24(%rsi),%r12 # &disp->EstablisherFrame mov %r10,32(%rsp) # arg5 mov %r11,40(%rsp) # arg6 mov %r12,48(%rsp) # arg7 mov %rcx,56(%rsp) # arg8, (NULL) call *__imp_RtlVirtualUnwind(%rip) mov \$1,%eax # ExceptionContinueSearch add \$64,%rsp popfq pop %r15 pop %r14 pop %r13 pop %r12 pop %rbp pop %rbx pop %rdi pop %rsi ret .size se_handler,.-se_handler .type ssse3_handler,\@abi-omnipotent .align 16 ssse3_handler: push %rsi push %rdi push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 pushfq sub \$64,%rsp mov 120($context),%rax # pull context->Rax mov 248($context),%rbx # pull context->Rip mov 8($disp),%rsi # disp->ImageBase mov 56($disp),%r11 # disp->HandlerData mov 0(%r11),%r10d # HandlerData[0] lea (%rsi,%r10),%r10 # prologue label cmp %r10,%rbx # context->RipR9 mov 4(%r11),%r10d # HandlerData[1] lea (%rsi,%r10),%r10 # epilogue label cmp %r10,%rbx # context->Rip>=epilogue label jae .Lcommon_seh_tail lea -0x28(%rax),%rsi lea 512($context),%rdi # &context.Xmm6 mov \$4,%ecx .long 0xa548f3fc # cld; rep movsq jmp .Lcommon_seh_tail .size ssse3_handler,.-ssse3_handler .type full_handler,\@abi-omnipotent .align 16 full_handler: push %rsi push %rdi push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 pushfq sub \$64,%rsp mov 120($context),%rax # pull context->Rax mov 248($context),%rbx # pull context->Rip mov 8($disp),%rsi # disp->ImageBase mov 56($disp),%r11 # disp->HandlerData mov 0(%r11),%r10d # HandlerData[0] lea (%rsi,%r10),%r10 # prologue label cmp %r10,%rbx # context->RipR9 mov 4(%r11),%r10d # HandlerData[1] lea (%rsi,%r10),%r10 # epilogue label cmp %r10,%rbx # context->Rip>=epilogue label jae .Lcommon_seh_tail lea -0xa8(%rax),%rsi lea 512($context),%rdi # &context.Xmm6 mov \$20,%ecx .long 0xa548f3fc # cld; rep movsq jmp .Lcommon_seh_tail .size full_handler,.-full_handler .section .pdata .align 4 .rva .LSEH_begin_ChaCha20_ctr32 .rva .LSEH_end_ChaCha20_ctr32 .rva .LSEH_info_ChaCha20_ctr32 .rva .LSEH_begin_ChaCha20_ssse3 .rva .LSEH_end_ChaCha20_ssse3 .rva .LSEH_info_ChaCha20_ssse3 .rva .LSEH_begin_ChaCha20_4x .rva .LSEH_end_ChaCha20_4x .rva .LSEH_info_ChaCha20_4x ___ $code.=<<___ if ($avx>1); .rva .LSEH_begin_ChaCha20_8x .rva .LSEH_end_ChaCha20_8x .rva .LSEH_info_ChaCha20_8x ___ $code.=<<___; .section .xdata .align 8 .LSEH_info_ChaCha20_ctr32: .byte 9,0,0,0 .rva se_handler .LSEH_info_ChaCha20_ssse3: .byte 9,0,0,0 .rva ssse3_handler .rva .Lssse3_body,.Lssse3_epilogue .LSEH_info_ChaCha20_4x: .byte 9,0,0,0 .rva full_handler .rva .L4x_body,.L4x_epilogue ___ $code.=<<___ if ($avx>1); .LSEH_info_ChaCha20_8x: .byte 9,0,0,0 .rva full_handler .rva .L8x_body,.L8x_epilogue # HandlerData[] ___ } foreach (split("\n",$code)) { s/\`([^\`]*)\`/eval $1/ge; s/%x#%[yz]/%x/g; # "down-shift" print $_,"\n"; } close STDOUT or die "error closing STDOUT";