#!/usr/bin/env perl # # ==================================================================== # 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/. # ==================================================================== # # SHA256 block transform for x86. September 2007. # # Performance improvement over compiler generated code varies from # 10% to 40% [see below]. Not very impressive on some ยต-archs, but # it's 5 times smaller and optimizies amount of writes. # # May 2012. # # Optimization including two of Pavel Semjanov's ideas, alternative # Maj and full unroll, resulted in ~20-25% improvement on most CPUs, # ~7% on Pentium, ~40% on Atom. As fully unrolled loop body is almost # 15x larger, 8KB vs. 560B, it's fired only for longer inputs. But not # on P4, where it kills performance, nor Sandy Bridge, where folded # loop is approximately as fast... # # June 2012. # # Add AMD XOP-specific code path, >30% improvement on Bulldozer over # May version, >60% over original. Add AVX+shrd code path, >25% # improvement on Sandy Bridge over May version, 60% over original. # # May 2013. # # Replace AMD XOP code path with SSSE3 to cover more processors. # (Biggest improvement coefficient is on upcoming Atom Silvermont, # not shown.) Add AVX+BMI code path. # # March 2014. # # Add support for Intel SHA Extensions. # # Performance in clock cycles per processed byte (less is better): # # gcc icc x86 asm(*) SIMD x86_64 asm(**) # Pentium 46 57 40/38 - - # PIII 36 33 27/24 - - # P4 41 38 28 - 17.3 # AMD K8 27 25 19/15.5 - 14.9 # Core2 26 23 18/15.6 14.3 13.8 # Westmere 27 - 19/15.7 13.4 12.3 # Sandy Bridge 25 - 15.9 12.4 11.6 # Ivy Bridge 24 - 15.0 11.4 10.3 # Haswell 22 - 13.9 9.46 7.80 # Bulldozer 36 - 27/22 17.0 13.6 # VIA Nano 36 - 25/22 16.8 16.5 # Atom 50 - 30/25 21.9 18.9 # Silvermont 40 - 34/31 22.9 20.6 # # (*) numbers after slash are for unrolled loop, where applicable; # (**) x86_64 assembly performance is presented for reference # purposes, results are best-available; $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1; push(@INC,"${dir}","${dir}../../perlasm"); require "x86asm.pl"; $output=pop; open STDOUT,">$output"; &asm_init($ARGV[0],"sha512-586.pl",$ARGV[$#ARGV] eq "386"); $xmm=$avx=0; for (@ARGV) { $xmm=1 if (/-DOPENSSL_IA32_SSE2/); } # In upstream, this is controlled by shelling out to the compiler to check # versions, but BoringSSL is intended to be used with pre-generated perlasm # output, so this isn't useful anyway. # # TODO(davidben): Enable AVX2 code after testing by setting $avx to 2. $avx = 1; $avx = 0 unless ($xmm); $shaext=$xmm; ### set to zero if compiling for 1.0.1 # TODO(davidben): Consider enabling the Intel SHA Extensions code once it's # been tested. $shaext = 0; $unroll_after = 64*4; # If pre-evicted from L1P cache first spin of # fully unrolled loop was measured to run about # 3-4x slower. If slowdown coefficient is N and # unrolled loop is m times faster, then you break # even at (N-1)/(m-1) blocks. Then it needs to be # adjusted for probability of code being evicted, # code size/cache size=1/4. Typical m is 1.15... $A="eax"; $E="edx"; $T="ebx"; $Aoff=&DWP(4,"esp"); $Boff=&DWP(8,"esp"); $Coff=&DWP(12,"esp"); $Doff=&DWP(16,"esp"); $Eoff=&DWP(20,"esp"); $Foff=&DWP(24,"esp"); $Goff=&DWP(28,"esp"); $Hoff=&DWP(32,"esp"); $Xoff=&DWP(36,"esp"); $K256="ebp"; sub BODY_16_63() { &mov ($T,"ecx"); # "ecx" is preloaded &mov ("esi",&DWP(4*(9+15+16-14),"esp")); &ror ("ecx",18-7); &mov ("edi","esi"); &ror ("esi",19-17); &xor ("ecx",$T); &shr ($T,3); &ror ("ecx",7); &xor ("esi","edi"); &xor ($T,"ecx"); # T = sigma0(X[-15]) &ror ("esi",17); &add ($T,&DWP(4*(9+15+16),"esp")); # T += X[-16] &shr ("edi",10); &add ($T,&DWP(4*(9+15+16-9),"esp")); # T += X[-7] #&xor ("edi","esi") # sigma1(X[-2]) # &add ($T,"edi"); # T += sigma1(X[-2]) # &mov (&DWP(4*(9+15),"esp"),$T); # save X[0] &BODY_00_15(1); } sub BODY_00_15() { my $in_16_63=shift; &mov ("ecx",$E); &xor ("edi","esi") if ($in_16_63); # sigma1(X[-2]) &mov ("esi",$Foff); &ror ("ecx",25-11); &add ($T,"edi") if ($in_16_63); # T += sigma1(X[-2]) &mov ("edi",$Goff); &xor ("ecx",$E); &xor ("esi","edi"); &mov ($T,&DWP(4*(9+15),"esp")) if (!$in_16_63); &mov (&DWP(4*(9+15),"esp"),$T) if ($in_16_63); # save X[0] &ror ("ecx",11-6); &and ("esi",$E); &mov ($Eoff,$E); # modulo-scheduled &xor ($E,"ecx"); &add ($T,$Hoff); # T += h &xor ("esi","edi"); # Ch(e,f,g) &ror ($E,6); # Sigma1(e) &mov ("ecx",$A); &add ($T,"esi"); # T += Ch(e,f,g) &ror ("ecx",22-13); &add ($T,$E); # T += Sigma1(e) &mov ("edi",$Boff); &xor ("ecx",$A); &mov ($Aoff,$A); # modulo-scheduled &lea ("esp",&DWP(-4,"esp")); &ror ("ecx",13-2); &mov ("esi",&DWP(0,$K256)); &xor ("ecx",$A); &mov ($E,$Eoff); # e in next iteration, d in this one &xor ($A,"edi"); # a ^= b &ror ("ecx",2); # Sigma0(a) &add ($T,"esi"); # T+= K[i] &mov (&DWP(0,"esp"),$A); # (b^c) in next round &add ($E,$T); # d += T &and ($A,&DWP(4,"esp")); # a &= (b^c) &add ($T,"ecx"); # T += Sigma0(a) &xor ($A,"edi"); # h = Maj(a,b,c) = Ch(a^b,c,b) &mov ("ecx",&DWP(4*(9+15+16-1),"esp")) if ($in_16_63); # preload T &add ($K256,4); &add ($A,$T); # h += T } &external_label("OPENSSL_ia32cap_P") if (!$i386); &function_begin("sha256_block_data_order"); &mov ("esi",wparam(0)); # ctx &mov ("edi",wparam(1)); # inp &mov ("eax",wparam(2)); # num &mov ("ebx","esp"); # saved sp &call (&label("pic_point")); # make it PIC! &set_label("pic_point"); &blindpop($K256); &lea ($K256,&DWP(&label("K256")."-".&label("pic_point"),$K256)); &sub ("esp",16); &and ("esp",-64); &shl ("eax",6); &add ("eax","edi"); &mov (&DWP(0,"esp"),"esi"); # ctx &mov (&DWP(4,"esp"),"edi"); # inp &mov (&DWP(8,"esp"),"eax"); # inp+num*128 &mov (&DWP(12,"esp"),"ebx"); # saved sp if (!$i386 && $xmm) { &picmeup("edx","OPENSSL_ia32cap_P",$K256,&label("K256")); &mov ("ecx",&DWP(0,"edx")); &mov ("ebx",&DWP(4,"edx")); &test ("ecx",1<<20); # check for P4 &jnz (&label("loop")); &mov ("edx",&DWP(8,"edx")) if ($xmm); &test ("ecx",1<<24); # check for FXSR &jz ($unroll_after?&label("no_xmm"):&label("loop")); &and ("ecx",1<<30); # mask "Intel CPU" bit &and ("ebx",1<<28|1<<9); # mask AVX and SSSE3 bits &test ("edx",1<<29) if ($shaext); # check for SHA &jnz (&label("shaext")) if ($shaext); &or ("ecx","ebx"); &and ("ecx",1<<28|1<<30); &cmp ("ecx",1<<28|1<<30); if ($xmm) { &je (&label("AVX")) if ($avx); &test ("ebx",1<<9); # check for SSSE3 &jnz (&label("SSSE3")); } else { &je (&label("loop_shrd")); } if ($unroll_after) { &set_label("no_xmm"); &sub ("eax","edi"); &cmp ("eax",$unroll_after); &jae (&label("unrolled")); } } &jmp (&label("loop")); sub COMPACT_LOOP() { my $suffix=shift; &set_label("loop$suffix",$suffix?32:16); # copy input block to stack reversing byte and dword order for($i=0;$i<4;$i++) { &mov ("eax",&DWP($i*16+0,"edi")); &mov ("ebx",&DWP($i*16+4,"edi")); &mov ("ecx",&DWP($i*16+8,"edi")); &bswap ("eax"); &mov ("edx",&DWP($i*16+12,"edi")); &bswap ("ebx"); &push ("eax"); &bswap ("ecx"); &push ("ebx"); &bswap ("edx"); &push ("ecx"); &push ("edx"); } &add ("edi",64); &lea ("esp",&DWP(-4*9,"esp"));# place for A,B,C,D,E,F,G,H &mov (&DWP(4*(9+16)+4,"esp"),"edi"); # copy ctx->h[0-7] to A,B,C,D,E,F,G,H on stack &mov ($A,&DWP(0,"esi")); &mov ("ebx",&DWP(4,"esi")); &mov ("ecx",&DWP(8,"esi")); &mov ("edi",&DWP(12,"esi")); # &mov ($Aoff,$A); &mov ($Boff,"ebx"); &xor ("ebx","ecx"); &mov ($Coff,"ecx"); &mov ($Doff,"edi"); &mov (&DWP(0,"esp"),"ebx"); # magic &mov ($E,&DWP(16,"esi")); &mov ("ebx",&DWP(20,"esi")); &mov ("ecx",&DWP(24,"esi")); &mov ("edi",&DWP(28,"esi")); # &mov ($Eoff,$E); &mov ($Foff,"ebx"); &mov ($Goff,"ecx"); &mov ($Hoff,"edi"); &set_label("00_15$suffix",16); &BODY_00_15(); &cmp ("esi",0xc19bf174); &jne (&label("00_15$suffix")); &mov ("ecx",&DWP(4*(9+15+16-1),"esp")); # preloaded in BODY_00_15(1) &jmp (&label("16_63$suffix")); &set_label("16_63$suffix",16); &BODY_16_63(); &cmp ("esi",0xc67178f2); &jne (&label("16_63$suffix")); &mov ("esi",&DWP(4*(9+16+64)+0,"esp"));#ctx # &mov ($A,$Aoff); &mov ("ebx",$Boff); # &mov ("edi",$Coff); &mov ("ecx",$Doff); &add ($A,&DWP(0,"esi")); &add ("ebx",&DWP(4,"esi")); &add ("edi",&DWP(8,"esi")); &add ("ecx",&DWP(12,"esi")); &mov (&DWP(0,"esi"),$A); &mov (&DWP(4,"esi"),"ebx"); &mov (&DWP(8,"esi"),"edi"); &mov (&DWP(12,"esi"),"ecx"); # &mov ($E,$Eoff); &mov ("eax",$Foff); &mov ("ebx",$Goff); &mov ("ecx",$Hoff); &mov ("edi",&DWP(4*(9+16+64)+4,"esp"));#inp &add ($E,&DWP(16,"esi")); &add ("eax",&DWP(20,"esi")); &add ("ebx",&DWP(24,"esi")); &add ("ecx",&DWP(28,"esi")); &mov (&DWP(16,"esi"),$E); &mov (&DWP(20,"esi"),"eax"); &mov (&DWP(24,"esi"),"ebx"); &mov (&DWP(28,"esi"),"ecx"); &lea ("esp",&DWP(4*(9+16+64),"esp"));# destroy frame &sub ($K256,4*64); # rewind K &cmp ("edi",&DWP(8,"esp")); # are we done yet? &jb (&label("loop$suffix")); } &COMPACT_LOOP(); &mov ("esp",&DWP(12,"esp")); # restore sp &function_end_A(); if (!$i386 && !$xmm) { # ~20% improvement on Sandy Bridge local *ror = sub { &shrd(@_[0],@_) }; &COMPACT_LOOP("_shrd"); &mov ("esp",&DWP(12,"esp")); # restore sp &function_end_A(); } &set_label("K256",64); # Yes! I keep it in the code segment! @K256=( 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5, 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5, 0xd807aa98,0x12835b01,0x243185be,0x550c7dc3, 0x72be5d74,0x80deb1fe,0x9bdc06a7,0xc19bf174, 0xe49b69c1,0xefbe4786,0x0fc19dc6,0x240ca1cc, 0x2de92c6f,0x4a7484aa,0x5cb0a9dc,0x76f988da, 0x983e5152,0xa831c66d,0xb00327c8,0xbf597fc7, 0xc6e00bf3,0xd5a79147,0x06ca6351,0x14292967, 0x27b70a85,0x2e1b2138,0x4d2c6dfc,0x53380d13, 0x650a7354,0x766a0abb,0x81c2c92e,0x92722c85, 0xa2bfe8a1,0xa81a664b,0xc24b8b70,0xc76c51a3, 0xd192e819,0xd6990624,0xf40e3585,0x106aa070, 0x19a4c116,0x1e376c08,0x2748774c,0x34b0bcb5, 0x391c0cb3,0x4ed8aa4a,0x5b9cca4f,0x682e6ff3, 0x748f82ee,0x78a5636f,0x84c87814,0x8cc70208, 0x90befffa,0xa4506ceb,0xbef9a3f7,0xc67178f2 ); &data_word(@K256); &data_word(0x00010203,0x04050607,0x08090a0b,0x0c0d0e0f); # byte swap mask &asciz("SHA256 block transform for x86, CRYPTOGAMS by "); ($a,$b,$c,$d,$e,$f,$g,$h)=(0..7); # offsets sub off { &DWP(4*(((shift)-$i)&7),"esp"); } if (!$i386 && $unroll_after) { my @AH=($A,$K256); &set_label("unrolled",16); &lea ("esp",&DWP(-96,"esp")); # copy ctx->h[0-7] to A,B,C,D,E,F,G,H on stack &mov ($AH[0],&DWP(0,"esi")); &mov ($AH[1],&DWP(4,"esi")); &mov ("ecx",&DWP(8,"esi")); &mov ("ebx",&DWP(12,"esi")); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"ecx"); # magic &mov (&DWP(8,"esp"),"ecx"); &mov (&DWP(12,"esp"),"ebx"); &mov ($E,&DWP(16,"esi")); &mov ("ebx",&DWP(20,"esi")); &mov ("ecx",&DWP(24,"esi")); &mov ("esi",&DWP(28,"esi")); #&mov (&DWP(16,"esp"),$E); &mov (&DWP(20,"esp"),"ebx"); &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esp"),"esi"); &jmp (&label("grand_loop")); &set_label("grand_loop",16); # copy input block to stack reversing byte order for($i=0;$i<5;$i++) { &mov ("ebx",&DWP(12*$i+0,"edi")); &mov ("ecx",&DWP(12*$i+4,"edi")); &bswap ("ebx"); &mov ("esi",&DWP(12*$i+8,"edi")); &bswap ("ecx"); &mov (&DWP(32+12*$i+0,"esp"),"ebx"); &bswap ("esi"); &mov (&DWP(32+12*$i+4,"esp"),"ecx"); &mov (&DWP(32+12*$i+8,"esp"),"esi"); } &mov ("ebx",&DWP($i*12,"edi")); &add ("edi",64); &bswap ("ebx"); &mov (&DWP(96+4,"esp"),"edi"); &mov (&DWP(32+12*$i,"esp"),"ebx"); my ($t1,$t2) = ("ecx","esi"); for ($i=0;$i<64;$i++) { if ($i>=16) { &mov ($T,$t1); # $t1 is preloaded # &mov ($t2,&DWP(32+4*(($i+14)&15),"esp")); &ror ($t1,18-7); &mov ("edi",$t2); &ror ($t2,19-17); &xor ($t1,$T); &shr ($T,3); &ror ($t1,7); &xor ($t2,"edi"); &xor ($T,$t1); # T = sigma0(X[-15]) &ror ($t2,17); &add ($T,&DWP(32+4*($i&15),"esp")); # T += X[-16] &shr ("edi",10); &add ($T,&DWP(32+4*(($i+9)&15),"esp")); # T += X[-7] #&xor ("edi",$t2) # sigma1(X[-2]) # &add ($T,"edi"); # T += sigma1(X[-2]) # &mov (&DWP(4*(9+15),"esp"),$T); # save X[0] } &mov ($t1,$E); &xor ("edi",$t2) if ($i>=16); # sigma1(X[-2]) &mov ($t2,&off($f)); &ror ($E,25-11); &add ($T,"edi") if ($i>=16); # T += sigma1(X[-2]) &mov ("edi",&off($g)); &xor ($E,$t1); &mov ($T,&DWP(32+4*($i&15),"esp")) if ($i<16); # X[i] &mov (&DWP(32+4*($i&15),"esp"),$T) if ($i>=16 && $i<62); # save X[0] &xor ($t2,"edi"); &ror ($E,11-6); &and ($t2,$t1); &mov (&off($e),$t1); # save $E, modulo-scheduled &xor ($E,$t1); &add ($T,&off($h)); # T += h &xor ("edi",$t2); # Ch(e,f,g) &ror ($E,6); # Sigma1(e) &mov ($t1,$AH[0]); &add ($T,"edi"); # T += Ch(e,f,g) &ror ($t1,22-13); &mov ($t2,$AH[0]); &mov ("edi",&off($b)); &xor ($t1,$AH[0]); &mov (&off($a),$AH[0]); # save $A, modulo-scheduled &xor ($AH[0],"edi"); # a ^= b, (b^c) in next round &ror ($t1,13-2); &and ($AH[1],$AH[0]); # (b^c) &= (a^b) &lea ($E,&DWP(@K256[$i],$T,$E)); # T += Sigma1(1)+K[i] &xor ($t1,$t2); &xor ($AH[1],"edi"); # h = Maj(a,b,c) = Ch(a^b,c,b) &mov ($t2,&DWP(32+4*(($i+2)&15),"esp")) if ($i>=15 && $i<63); &ror ($t1,2); # Sigma0(a) &add ($AH[1],$E); # h += T &add ($E,&off($d)); # d += T &add ($AH[1],$t1); # h += Sigma0(a) &mov ($t1,&DWP(32+4*(($i+15)&15),"esp")) if ($i>=15 && $i<63); @AH = reverse(@AH); # rotate(a,h) ($t1,$t2) = ($t2,$t1); # rotate(t1,t2) } &mov ("esi",&DWP(96,"esp")); #ctx #&mov ($AH[0],&DWP(0,"esp")); &xor ($AH[1],"edi"); #&mov ($AH[1],&DWP(4,"esp")); #&mov ("edi", &DWP(8,"esp")); &mov ("ecx",&DWP(12,"esp")); &add ($AH[0],&DWP(0,"esi")); &add ($AH[1],&DWP(4,"esi")); &add ("edi",&DWP(8,"esi")); &add ("ecx",&DWP(12,"esi")); &mov (&DWP(0,"esi"),$AH[0]); &mov (&DWP(4,"esi"),$AH[1]); &mov (&DWP(8,"esi"),"edi"); &mov (&DWP(12,"esi"),"ecx"); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"edi"); # magic &mov (&DWP(8,"esp"),"edi"); &mov (&DWP(12,"esp"),"ecx"); #&mov ($E,&DWP(16,"esp")); &mov ("edi",&DWP(20,"esp")); &mov ("ebx",&DWP(24,"esp")); &mov ("ecx",&DWP(28,"esp")); &add ($E,&DWP(16,"esi")); &add ("edi",&DWP(20,"esi")); &add ("ebx",&DWP(24,"esi")); &add ("ecx",&DWP(28,"esi")); &mov (&DWP(16,"esi"),$E); &mov (&DWP(20,"esi"),"edi"); &mov (&DWP(24,"esi"),"ebx"); &mov (&DWP(28,"esi"),"ecx"); #&mov (&DWP(16,"esp"),$E); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &mov (&DWP(24,"esp"),"ebx"); &mov (&DWP(28,"esp"),"ecx"); &cmp ("edi",&DWP(96+8,"esp")); # are we done yet? &jb (&label("grand_loop")); &mov ("esp",&DWP(96+12,"esp")); # restore sp &function_end_A(); } if (!$i386 && $xmm) {{{ if ($shaext) { ###################################################################### # Intel SHA Extensions implementation of SHA256 update function. # my ($ctx,$inp,$end)=("esi","edi","eax"); my ($Wi,$ABEF,$CDGH,$TMP)=map("xmm$_",(0..2,7)); my @MSG=map("xmm$_",(3..6)); sub sha256op38 { my ($opcodelet,$dst,$src)=@_; if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/) { &data_byte(0x0f,0x38,$opcodelet,0xc0|($1<<3)|$2); } } sub sha256rnds2 { sha256op38(0xcb,@_); } sub sha256msg1 { sha256op38(0xcc,@_); } sub sha256msg2 { sha256op38(0xcd,@_); } &set_label("shaext",32); &sub ("esp",32); &movdqu ($ABEF,&QWP(0,$ctx)); # DCBA &lea ($K256,&DWP(0x80,$K256)); &movdqu ($CDGH,&QWP(16,$ctx)); # HGFE &movdqa ($TMP,&QWP(0x100-0x80,$K256)); # byte swap mask &pshufd ($Wi,$ABEF,0x1b); # ABCD &pshufd ($ABEF,$ABEF,0xb1); # CDAB &pshufd ($CDGH,$CDGH,0x1b); # EFGH &palignr ($ABEF,$CDGH,8); # ABEF &punpcklqdq ($CDGH,$Wi); # CDGH &jmp (&label("loop_shaext")); &set_label("loop_shaext",16); &movdqu (@MSG[0],&QWP(0,$inp)); &movdqu (@MSG[1],&QWP(0x10,$inp)); &movdqu (@MSG[2],&QWP(0x20,$inp)); &pshufb (@MSG[0],$TMP); &movdqu (@MSG[3],&QWP(0x30,$inp)); &movdqa (&QWP(16,"esp"),$CDGH); # offload &movdqa ($Wi,&QWP(0*16-0x80,$K256)); &paddd ($Wi,@MSG[0]); &pshufb (@MSG[1],$TMP); &sha256rnds2 ($CDGH,$ABEF); # 0-3 &pshufd ($Wi,$Wi,0x0e); &nop (); &movdqa (&QWP(0,"esp"),$ABEF); # offload &sha256rnds2 ($ABEF,$CDGH); &movdqa ($Wi,&QWP(1*16-0x80,$K256)); &paddd ($Wi,@MSG[1]); &pshufb (@MSG[2],$TMP); &sha256rnds2 ($CDGH,$ABEF); # 4-7 &pshufd ($Wi,$Wi,0x0e); &lea ($inp,&DWP(0x40,$inp)); &sha256msg1 (@MSG[0],@MSG[1]); &sha256rnds2 ($ABEF,$CDGH); &movdqa ($Wi,&QWP(2*16-0x80,$K256)); &paddd ($Wi,@MSG[2]); &pshufb (@MSG[3],$TMP); &sha256rnds2 ($CDGH,$ABEF); # 8-11 &pshufd ($Wi,$Wi,0x0e); &movdqa ($TMP,@MSG[3]); &palignr ($TMP,@MSG[2],4); &nop (); &paddd (@MSG[0],$TMP); &sha256msg1 (@MSG[1],@MSG[2]); &sha256rnds2 ($ABEF,$CDGH); &movdqa ($Wi,&QWP(3*16-0x80,$K256)); &paddd ($Wi,@MSG[3]); &sha256msg2 (@MSG[0],@MSG[3]); &sha256rnds2 ($CDGH,$ABEF); # 12-15 &pshufd ($Wi,$Wi,0x0e); &movdqa ($TMP,@MSG[0]); &palignr ($TMP,@MSG[3],4); &nop (); &paddd (@MSG[1],$TMP); &sha256msg1 (@MSG[2],@MSG[3]); &sha256rnds2 ($ABEF,$CDGH); for($i=4;$i<16-3;$i++) { &movdqa ($Wi,&QWP($i*16-0x80,$K256)); &paddd ($Wi,@MSG[0]); &sha256msg2 (@MSG[1],@MSG[0]); &sha256rnds2 ($CDGH,$ABEF); # 16-19... &pshufd ($Wi,$Wi,0x0e); &movdqa ($TMP,@MSG[1]); &palignr ($TMP,@MSG[0],4); &nop (); &paddd (@MSG[2],$TMP); &sha256msg1 (@MSG[3],@MSG[0]); &sha256rnds2 ($ABEF,$CDGH); push(@MSG,shift(@MSG)); } &movdqa ($Wi,&QWP(13*16-0x80,$K256)); &paddd ($Wi,@MSG[0]); &sha256msg2 (@MSG[1],@MSG[0]); &sha256rnds2 ($CDGH,$ABEF); # 52-55 &pshufd ($Wi,$Wi,0x0e); &movdqa ($TMP,@MSG[1]) &palignr ($TMP,@MSG[0],4); &sha256rnds2 ($ABEF,$CDGH); &paddd (@MSG[2],$TMP); &movdqa ($Wi,&QWP(14*16-0x80,$K256)); &paddd ($Wi,@MSG[1]); &sha256rnds2 ($CDGH,$ABEF); # 56-59 &pshufd ($Wi,$Wi,0x0e); &sha256msg2 (@MSG[2],@MSG[1]); &movdqa ($TMP,&QWP(0x100-0x80,$K256)); # byte swap mask &sha256rnds2 ($ABEF,$CDGH); &movdqa ($Wi,&QWP(15*16-0x80,$K256)); &paddd ($Wi,@MSG[2]); &nop (); &sha256rnds2 ($CDGH,$ABEF); # 60-63 &pshufd ($Wi,$Wi,0x0e); &cmp ($end,$inp); &nop (); &sha256rnds2 ($ABEF,$CDGH); &paddd ($CDGH,&QWP(16,"esp")); &paddd ($ABEF,&QWP(0,"esp")); &jnz (&label("loop_shaext")); &pshufd ($CDGH,$CDGH,0xb1); # DCHG &pshufd ($TMP,$ABEF,0x1b); # FEBA &pshufd ($ABEF,$ABEF,0xb1); # BAFE &punpckhqdq ($ABEF,$CDGH); # DCBA &palignr ($CDGH,$TMP,8); # HGFE &mov ("esp",&DWP(32+12,"esp")); &movdqu (&QWP(0,$ctx),$ABEF); &movdqu (&QWP(16,$ctx),$CDGH); &function_end_A(); } my @X = map("xmm$_",(0..3)); my ($t0,$t1,$t2,$t3) = map("xmm$_",(4..7)); my @AH = ($A,$T); &set_label("SSSE3",32); &lea ("esp",&DWP(-96,"esp")); # copy ctx->h[0-7] to A,B,C,D,E,F,G,H on stack &mov ($AH[0],&DWP(0,"esi")); &mov ($AH[1],&DWP(4,"esi")); &mov ("ecx",&DWP(8,"esi")); &mov ("edi",&DWP(12,"esi")); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"ecx"); # magic &mov (&DWP(8,"esp"),"ecx"); &mov (&DWP(12,"esp"),"edi"); &mov ($E,&DWP(16,"esi")); &mov ("edi",&DWP(20,"esi")); &mov ("ecx",&DWP(24,"esi")); &mov ("esi",&DWP(28,"esi")); #&mov (&DWP(16,"esp"),$E); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esp"),"esi"); &movdqa ($t3,&QWP(256,$K256)); &jmp (&label("grand_ssse3")); &set_label("grand_ssse3",16); # load input, reverse byte order, add K256[0..15], save to stack &movdqu (@X[0],&QWP(0,"edi")); &movdqu (@X[1],&QWP(16,"edi")); &movdqu (@X[2],&QWP(32,"edi")); &movdqu (@X[3],&QWP(48,"edi")); &add ("edi",64); &pshufb (@X[0],$t3); &mov (&DWP(96+4,"esp"),"edi"); &pshufb (@X[1],$t3); &movdqa ($t0,&QWP(0,$K256)); &pshufb (@X[2],$t3); &movdqa ($t1,&QWP(16,$K256)); &paddd ($t0,@X[0]); &pshufb (@X[3],$t3); &movdqa ($t2,&QWP(32,$K256)); &paddd ($t1,@X[1]); &movdqa ($t3,&QWP(48,$K256)); &movdqa (&QWP(32+0,"esp"),$t0); &paddd ($t2,@X[2]); &movdqa (&QWP(32+16,"esp"),$t1); &paddd ($t3,@X[3]); &movdqa (&QWP(32+32,"esp"),$t2); &movdqa (&QWP(32+48,"esp"),$t3); &jmp (&label("ssse3_00_47")); &set_label("ssse3_00_47",16); &add ($K256,64); sub SSSE3_00_47 () { my $j = shift; my $body = shift; my @X = @_; my @insns = (&$body,&$body,&$body,&$body); # 120 instructions eval(shift(@insns)); &movdqa ($t0,@X[1]); eval(shift(@insns)); # @ eval(shift(@insns)); &movdqa ($t3,@X[3]); eval(shift(@insns)); eval(shift(@insns)); &palignr ($t0,@X[0],4); # X[1..4] eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); &palignr ($t3,@X[2],4); # X[9..12] eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); &movdqa ($t1,$t0); eval(shift(@insns)); # @ eval(shift(@insns)); &movdqa ($t2,$t0); eval(shift(@insns)); eval(shift(@insns)); &psrld ($t0,3); eval(shift(@insns)); eval(shift(@insns)); # @ &paddd (@X[0],$t3); # X[0..3] += X[9..12] eval(shift(@insns)); eval(shift(@insns)); &psrld ($t2,7); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); &pshufd ($t3,@X[3],0b11111010); # X[14..15] eval(shift(@insns)); eval(shift(@insns)); &pslld ($t1,32-18); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t0,$t2); eval(shift(@insns)); eval(shift(@insns)); &psrld ($t2,18-7); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t0,$t1); eval(shift(@insns)); eval(shift(@insns)); &pslld ($t1,18-7); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t0,$t2); eval(shift(@insns)); eval(shift(@insns)); &movdqa ($t2,$t3); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t0,$t1); # sigma0(X[1..4]) eval(shift(@insns)); eval(shift(@insns)); &psrld ($t3,10); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &paddd (@X[0],$t0); # X[0..3] += sigma0(X[1..4]) eval(shift(@insns)); eval(shift(@insns)); &psrlq ($t2,17); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t3,$t2); eval(shift(@insns)); eval(shift(@insns)); &psrlq ($t2,19-17); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t3,$t2); eval(shift(@insns)); eval(shift(@insns)); &pshufd ($t3,$t3,0b10000000); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); &psrldq ($t3,8); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); &paddd (@X[0],$t3); # X[0..1] += sigma1(X[14..15]) eval(shift(@insns)); # @ eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); &pshufd ($t3,@X[0],0b01010000); # X[16..17] eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); &movdqa ($t2,$t3); eval(shift(@insns)); # @ &psrld ($t3,10); eval(shift(@insns)); &psrlq ($t2,17); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t3,$t2); eval(shift(@insns)); eval(shift(@insns)); &psrlq ($t2,19-17); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &pxor ($t3,$t2); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); &pshufd ($t3,$t3,0b00001000); eval(shift(@insns)); eval(shift(@insns)); # @ &movdqa ($t2,&QWP(16*$j,$K256)); eval(shift(@insns)); eval(shift(@insns)); &pslldq ($t3,8); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); # @ &paddd (@X[0],$t3); # X[2..3] += sigma1(X[16..17]) eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); eval(shift(@insns)); &paddd ($t2,@X[0]); eval(shift(@insns)); # @ foreach (@insns) { eval; } # remaining instructions &movdqa (&QWP(32+16*$j,"esp"),$t2); } sub body_00_15 () { ( '&mov ("ecx",$E);', '&ror ($E,25-11);', '&mov ("esi",&off($f));', '&xor ($E,"ecx");', '&mov ("edi",&off($g));', '&xor ("esi","edi");', '&ror ($E,11-6);', '&and ("esi","ecx");', '&mov (&off($e),"ecx");', # save $E, modulo-scheduled '&xor ($E,"ecx");', '&xor ("edi","esi");', # Ch(e,f,g) '&ror ($E,6);', # T = Sigma1(e) '&mov ("ecx",$AH[0]);', '&add ($E,"edi");', # T += Ch(e,f,g) '&mov ("edi",&off($b));', '&mov ("esi",$AH[0]);', '&ror ("ecx",22-13);', '&mov (&off($a),$AH[0]);', # save $A, modulo-scheduled '&xor ("ecx",$AH[0]);', '&xor ($AH[0],"edi");', # a ^= b, (b^c) in next round '&add ($E,&off($h));', # T += h '&ror ("ecx",13-2);', '&and ($AH[1],$AH[0]);', # (b^c) &= (a^b) '&xor ("ecx","esi");', '&add ($E,&DWP(32+4*($i&15),"esp"));', # T += K[i]+X[i] '&xor ($AH[1],"edi");', # h = Maj(a,b,c) = Ch(a^b,c,b) '&ror ("ecx",2);', # Sigma0(a) '&add ($AH[1],$E);', # h += T '&add ($E,&off($d));', # d += T '&add ($AH[1],"ecx");'. # h += Sigma0(a) '@AH = reverse(@AH); $i++;' # rotate(a,h) ); } for ($i=0,$j=0; $j<4; $j++) { &SSSE3_00_47($j,\&body_00_15,@X); push(@X,shift(@X)); # rotate(@X) } &cmp (&DWP(16*$j,$K256),0x00010203); &jne (&label("ssse3_00_47")); for ($i=0; $i<16; ) { foreach(body_00_15()) { eval; } } &mov ("esi",&DWP(96,"esp")); #ctx #&mov ($AH[0],&DWP(0,"esp")); &xor ($AH[1],"edi"); #&mov ($AH[1],&DWP(4,"esp")); #&mov ("edi", &DWP(8,"esp")); &mov ("ecx",&DWP(12,"esp")); &add ($AH[0],&DWP(0,"esi")); &add ($AH[1],&DWP(4,"esi")); &add ("edi",&DWP(8,"esi")); &add ("ecx",&DWP(12,"esi")); &mov (&DWP(0,"esi"),$AH[0]); &mov (&DWP(4,"esi"),$AH[1]); &mov (&DWP(8,"esi"),"edi"); &mov (&DWP(12,"esi"),"ecx"); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"edi"); # magic &mov (&DWP(8,"esp"),"edi"); &mov (&DWP(12,"esp"),"ecx"); #&mov ($E,&DWP(16,"esp")); &mov ("edi",&DWP(20,"esp")); &mov ("ecx",&DWP(24,"esp")); &add ($E,&DWP(16,"esi")); &add ("edi",&DWP(20,"esi")); &add ("ecx",&DWP(24,"esi")); &mov (&DWP(16,"esi"),$E); &mov (&DWP(20,"esi"),"edi"); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(28,"esp")); &mov (&DWP(24,"esi"),"ecx"); #&mov (&DWP(16,"esp"),$E); &add ("edi",&DWP(28,"esi")); &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esi"),"edi"); &mov (&DWP(28,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &movdqa ($t3,&QWP(64,$K256)); &sub ($K256,3*64); # rewind K &cmp ("edi",&DWP(96+8,"esp")); # are we done yet? &jb (&label("grand_ssse3")); &mov ("esp",&DWP(96+12,"esp")); # restore sp &function_end_A(); if ($avx) { &set_label("AVX",32); if ($avx>1) { &and ("edx",1<<8|1<<3); # check for BMI2+BMI1 &cmp ("edx",1<<8|1<<3); &je (&label("AVX_BMI")); } &lea ("esp",&DWP(-96,"esp")); &vzeroall (); # copy ctx->h[0-7] to A,B,C,D,E,F,G,H on stack &mov ($AH[0],&DWP(0,"esi")); &mov ($AH[1],&DWP(4,"esi")); &mov ("ecx",&DWP(8,"esi")); &mov ("edi",&DWP(12,"esi")); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"ecx"); # magic &mov (&DWP(8,"esp"),"ecx"); &mov (&DWP(12,"esp"),"edi"); &mov ($E,&DWP(16,"esi")); &mov ("edi",&DWP(20,"esi")); &mov ("ecx",&DWP(24,"esi")); &mov ("esi",&DWP(28,"esi")); #&mov (&DWP(16,"esp"),$E); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esp"),"esi"); &vmovdqa ($t3,&QWP(256,$K256)); &jmp (&label("grand_avx")); &set_label("grand_avx",32); # load input, reverse byte order, add K256[0..15], save to stack &vmovdqu (@X[0],&QWP(0,"edi")); &vmovdqu (@X[1],&QWP(16,"edi")); &vmovdqu (@X[2],&QWP(32,"edi")); &vmovdqu (@X[3],&QWP(48,"edi")); &add ("edi",64); &vpshufb (@X[0],@X[0],$t3); &mov (&DWP(96+4,"esp"),"edi"); &vpshufb (@X[1],@X[1],$t3); &vpshufb (@X[2],@X[2],$t3); &vpaddd ($t0,@X[0],&QWP(0,$K256)); &vpshufb (@X[3],@X[3],$t3); &vpaddd ($t1,@X[1],&QWP(16,$K256)); &vpaddd ($t2,@X[2],&QWP(32,$K256)); &vpaddd ($t3,@X[3],&QWP(48,$K256)); &vmovdqa (&QWP(32+0,"esp"),$t0); &vmovdqa (&QWP(32+16,"esp"),$t1); &vmovdqa (&QWP(32+32,"esp"),$t2); &vmovdqa (&QWP(32+48,"esp"),$t3); &jmp (&label("avx_00_47")); &set_label("avx_00_47",16); &add ($K256,64); sub Xupdate_AVX () { ( '&vpalignr ($t0,@X[1],@X[0],4);', # X[1..4] '&vpalignr ($t3,@X[3],@X[2],4);', # X[9..12] '&vpsrld ($t2,$t0,7);', '&vpaddd (@X[0],@X[0],$t3);', # X[0..3] += X[9..16] '&vpsrld ($t3,$t0,3);', '&vpslld ($t1,$t0,14);', '&vpxor ($t0,$t3,$t2);', '&vpshufd ($t3,@X[3],0b11111010)',# X[14..15] '&vpsrld ($t2,$t2,18-7);', '&vpxor ($t0,$t0,$t1);', '&vpslld ($t1,$t1,25-14);', '&vpxor ($t0,$t0,$t2);', '&vpsrld ($t2,$t3,10);', '&vpxor ($t0,$t0,$t1);', # sigma0(X[1..4]) '&vpsrlq ($t1,$t3,17);', '&vpaddd (@X[0],@X[0],$t0);', # X[0..3] += sigma0(X[1..4]) '&vpxor ($t2,$t2,$t1);', '&vpsrlq ($t3,$t3,19);', '&vpxor ($t2,$t2,$t3);', # sigma1(X[14..15] '&vpshufd ($t3,$t2,0b10000100);', '&vpsrldq ($t3,$t3,8);', '&vpaddd (@X[0],@X[0],$t3);', # X[0..1] += sigma1(X[14..15]) '&vpshufd ($t3,@X[0],0b01010000)',# X[16..17] '&vpsrld ($t2,$t3,10);', '&vpsrlq ($t1,$t3,17);', '&vpxor ($t2,$t2,$t1);', '&vpsrlq ($t3,$t3,19);', '&vpxor ($t2,$t2,$t3);', # sigma1(X[16..17] '&vpshufd ($t3,$t2,0b11101000);', '&vpslldq ($t3,$t3,8);', '&vpaddd (@X[0],@X[0],$t3);' # X[2..3] += sigma1(X[16..17]) ); } local *ror = sub { &shrd(@_[0],@_) }; sub AVX_00_47 () { my $j = shift; my $body = shift; my @X = @_; my @insns = (&$body,&$body,&$body,&$body); # 120 instructions my $insn; foreach (Xupdate_AVX()) { # 31 instructions eval; eval(shift(@insns)); eval(shift(@insns)); eval($insn = shift(@insns)); eval(shift(@insns)) if ($insn =~ /rorx/ && @insns[0] =~ /rorx/); } &vpaddd ($t2,@X[0],&QWP(16*$j,$K256)); foreach (@insns) { eval; } # remaining instructions &vmovdqa (&QWP(32+16*$j,"esp"),$t2); } for ($i=0,$j=0; $j<4; $j++) { &AVX_00_47($j,\&body_00_15,@X); push(@X,shift(@X)); # rotate(@X) } &cmp (&DWP(16*$j,$K256),0x00010203); &jne (&label("avx_00_47")); for ($i=0; $i<16; ) { foreach(body_00_15()) { eval; } } &mov ("esi",&DWP(96,"esp")); #ctx #&mov ($AH[0],&DWP(0,"esp")); &xor ($AH[1],"edi"); #&mov ($AH[1],&DWP(4,"esp")); #&mov ("edi", &DWP(8,"esp")); &mov ("ecx",&DWP(12,"esp")); &add ($AH[0],&DWP(0,"esi")); &add ($AH[1],&DWP(4,"esi")); &add ("edi",&DWP(8,"esi")); &add ("ecx",&DWP(12,"esi")); &mov (&DWP(0,"esi"),$AH[0]); &mov (&DWP(4,"esi"),$AH[1]); &mov (&DWP(8,"esi"),"edi"); &mov (&DWP(12,"esi"),"ecx"); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"edi"); # magic &mov (&DWP(8,"esp"),"edi"); &mov (&DWP(12,"esp"),"ecx"); #&mov ($E,&DWP(16,"esp")); &mov ("edi",&DWP(20,"esp")); &mov ("ecx",&DWP(24,"esp")); &add ($E,&DWP(16,"esi")); &add ("edi",&DWP(20,"esi")); &add ("ecx",&DWP(24,"esi")); &mov (&DWP(16,"esi"),$E); &mov (&DWP(20,"esi"),"edi"); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(28,"esp")); &mov (&DWP(24,"esi"),"ecx"); #&mov (&DWP(16,"esp"),$E); &add ("edi",&DWP(28,"esi")); &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esi"),"edi"); &mov (&DWP(28,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &vmovdqa ($t3,&QWP(64,$K256)); &sub ($K256,3*64); # rewind K &cmp ("edi",&DWP(96+8,"esp")); # are we done yet? &jb (&label("grand_avx")); &mov ("esp",&DWP(96+12,"esp")); # restore sp &vzeroall (); &function_end_A(); if ($avx>1) { sub bodyx_00_15 () { # +10% ( '&rorx ("ecx",$E,6)', '&rorx ("esi",$E,11)', '&mov (&off($e),$E)', # save $E, modulo-scheduled '&rorx ("edi",$E,25)', '&xor ("ecx","esi")', '&andn ("esi",$E,&off($g))', '&xor ("ecx","edi")', # Sigma1(e) '&and ($E,&off($f))', '&mov (&off($a),$AH[0]);', # save $A, modulo-scheduled '&or ($E,"esi")', # T = Ch(e,f,g) '&rorx ("edi",$AH[0],2)', '&rorx ("esi",$AH[0],13)', '&lea ($E,&DWP(0,$E,"ecx"))', # T += Sigma1(e) '&rorx ("ecx",$AH[0],22)', '&xor ("esi","edi")', '&mov ("edi",&off($b))', '&xor ("ecx","esi")', # Sigma0(a) '&xor ($AH[0],"edi")', # a ^= b, (b^c) in next round '&add ($E,&off($h))', # T += h '&and ($AH[1],$AH[0])', # (b^c) &= (a^b) '&add ($E,&DWP(32+4*($i&15),"esp"))', # T += K[i]+X[i] '&xor ($AH[1],"edi")', # h = Maj(a,b,c) = Ch(a^b,c,b) '&add ("ecx",$E)', # h += T '&add ($E,&off($d))', # d += T '&lea ($AH[1],&DWP(0,$AH[1],"ecx"));'. # h += Sigma0(a) '@AH = reverse(@AH); $i++;' # rotate(a,h) ); } &set_label("AVX_BMI",32); &lea ("esp",&DWP(-96,"esp")); &vzeroall (); # copy ctx->h[0-7] to A,B,C,D,E,F,G,H on stack &mov ($AH[0],&DWP(0,"esi")); &mov ($AH[1],&DWP(4,"esi")); &mov ("ecx",&DWP(8,"esi")); &mov ("edi",&DWP(12,"esi")); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"ecx"); # magic &mov (&DWP(8,"esp"),"ecx"); &mov (&DWP(12,"esp"),"edi"); &mov ($E,&DWP(16,"esi")); &mov ("edi",&DWP(20,"esi")); &mov ("ecx",&DWP(24,"esi")); &mov ("esi",&DWP(28,"esi")); #&mov (&DWP(16,"esp"),$E); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esp"),"esi"); &vmovdqa ($t3,&QWP(256,$K256)); &jmp (&label("grand_avx_bmi")); &set_label("grand_avx_bmi",32); # load input, reverse byte order, add K256[0..15], save to stack &vmovdqu (@X[0],&QWP(0,"edi")); &vmovdqu (@X[1],&QWP(16,"edi")); &vmovdqu (@X[2],&QWP(32,"edi")); &vmovdqu (@X[3],&QWP(48,"edi")); &add ("edi",64); &vpshufb (@X[0],@X[0],$t3); &mov (&DWP(96+4,"esp"),"edi"); &vpshufb (@X[1],@X[1],$t3); &vpshufb (@X[2],@X[2],$t3); &vpaddd ($t0,@X[0],&QWP(0,$K256)); &vpshufb (@X[3],@X[3],$t3); &vpaddd ($t1,@X[1],&QWP(16,$K256)); &vpaddd ($t2,@X[2],&QWP(32,$K256)); &vpaddd ($t3,@X[3],&QWP(48,$K256)); &vmovdqa (&QWP(32+0,"esp"),$t0); &vmovdqa (&QWP(32+16,"esp"),$t1); &vmovdqa (&QWP(32+32,"esp"),$t2); &vmovdqa (&QWP(32+48,"esp"),$t3); &jmp (&label("avx_bmi_00_47")); &set_label("avx_bmi_00_47",16); &add ($K256,64); for ($i=0,$j=0; $j<4; $j++) { &AVX_00_47($j,\&bodyx_00_15,@X); push(@X,shift(@X)); # rotate(@X) } &cmp (&DWP(16*$j,$K256),0x00010203); &jne (&label("avx_bmi_00_47")); for ($i=0; $i<16; ) { foreach(bodyx_00_15()) { eval; } } &mov ("esi",&DWP(96,"esp")); #ctx #&mov ($AH[0],&DWP(0,"esp")); &xor ($AH[1],"edi"); #&mov ($AH[1],&DWP(4,"esp")); #&mov ("edi", &DWP(8,"esp")); &mov ("ecx",&DWP(12,"esp")); &add ($AH[0],&DWP(0,"esi")); &add ($AH[1],&DWP(4,"esi")); &add ("edi",&DWP(8,"esi")); &add ("ecx",&DWP(12,"esi")); &mov (&DWP(0,"esi"),$AH[0]); &mov (&DWP(4,"esi"),$AH[1]); &mov (&DWP(8,"esi"),"edi"); &mov (&DWP(12,"esi"),"ecx"); #&mov (&DWP(0,"esp"),$AH[0]); &mov (&DWP(4,"esp"),$AH[1]); &xor ($AH[1],"edi"); # magic &mov (&DWP(8,"esp"),"edi"); &mov (&DWP(12,"esp"),"ecx"); #&mov ($E,&DWP(16,"esp")); &mov ("edi",&DWP(20,"esp")); &mov ("ecx",&DWP(24,"esp")); &add ($E,&DWP(16,"esi")); &add ("edi",&DWP(20,"esi")); &add ("ecx",&DWP(24,"esi")); &mov (&DWP(16,"esi"),$E); &mov (&DWP(20,"esi"),"edi"); &mov (&DWP(20,"esp"),"edi"); &mov ("edi",&DWP(28,"esp")); &mov (&DWP(24,"esi"),"ecx"); #&mov (&DWP(16,"esp"),$E); &add ("edi",&DWP(28,"esi")); &mov (&DWP(24,"esp"),"ecx"); &mov (&DWP(28,"esi"),"edi"); &mov (&DWP(28,"esp"),"edi"); &mov ("edi",&DWP(96+4,"esp")); # inp &vmovdqa ($t3,&QWP(64,$K256)); &sub ($K256,3*64); # rewind K &cmp ("edi",&DWP(96+8,"esp")); # are we done yet? &jb (&label("grand_avx_bmi")); &mov ("esp",&DWP(96+12,"esp")); # restore sp &vzeroall (); &function_end_A(); } } }}} &function_end_B("sha256_block_data_order"); &asm_finish(); close STDOUT;