1#! /usr/bin/env perl 2# Copyright 1995-2022 The OpenSSL Project Authors. All Rights Reserved. 3# 4# Licensed under the Apache License 2.0 (the "License"). You may not use 5# this file except in compliance with the License. You can obtain a copy 6# in the file LICENSE in the source distribution or at 7# https://www.openssl.org/source/license.html 8 9 10# require 'x86asm.pl'; 11# &asm_init(<flavor>[,$i386only]); 12# &function_begin("foo"); 13# ... 14# &function_end("foo"); 15# &asm_finish 16 17$out=(); 18$i386=0; 19 20# AUTOLOAD is this context has quite unpleasant side effect, namely 21# that typos in function calls effectively go to assembler output, 22# but on the pros side we don't have to implement one subroutine per 23# each opcode... 24sub ::AUTOLOAD 25{ my $opcode = $AUTOLOAD; 26 27 die "more than 4 arguments passed to $opcode" if ($#_>3); 28 29 $opcode =~ s/.*:://; 30 if ($opcode =~ /^push/) { $stack+=4; } 31 elsif ($opcode =~ /^pop/) { $stack-=4; } 32 33 &generic($opcode,@_) or die "undefined subroutine \&$AUTOLOAD"; 34} 35 36sub ::emit 37{ my $opcode=shift; 38 39 if ($#_==-1) { push(@out,"\t$opcode\n"); } 40 else { push(@out,"\t$opcode\t".join(',',@_)."\n"); } 41} 42 43sub ::LB 44{ $_[0] =~ m/^e?([a-d])x$/o or die "$_[0] does not have a 'low byte'"; 45 $1."l"; 46} 47sub ::HB 48{ $_[0] =~ m/^e?([a-d])x$/o or die "$_[0] does not have a 'high byte'"; 49 $1."h"; 50} 51sub ::stack_push{ my $num=$_[0]*4; $stack+=$num; &sub("esp",$num); } 52sub ::stack_pop { my $num=$_[0]*4; $stack-=$num; &add("esp",$num); } 53sub ::blindpop { &pop($_[0]); $stack+=4; } 54sub ::wparam { &DWP($stack+4*$_[0],"esp"); } 55sub ::swtmp { &DWP(4*$_[0],"esp"); } 56 57sub ::bswap 58{ if ($i386) # emulate bswap for i386 59 { &comment("bswap @_"); 60 &xchg(&HB(@_),&LB(@_)); 61 &ror (@_,16); 62 &xchg(&HB(@_),&LB(@_)); 63 } 64 else 65 { &generic("bswap",@_); } 66} 67# These are made-up opcodes introduced over the years essentially 68# by ignorance, just alias them to real ones... 69sub ::movb { &mov(@_); } 70sub ::xorb { &xor(@_); } 71sub ::rotl { &rol(@_); } 72sub ::rotr { &ror(@_); } 73sub ::exch { &xchg(@_); } 74sub ::halt { &hlt; } 75sub ::movz { &movzx(@_); } 76sub ::pushf { &pushfd; } 77sub ::popf { &popfd; } 78 79# 3 argument instructions 80sub ::movq 81{ my($p1,$p2,$optimize)=@_; 82 83 if ($optimize && $p1=~/^mm[0-7]$/ && $p2=~/^mm[0-7]$/) 84 # movq between mmx registers can sink Intel CPUs 85 { &::pshufw($p1,$p2,0xe4); } 86 else 87 { &::generic("movq",@_); } 88} 89 90# SSE>2 instructions 91my %regrm = ( "eax"=>0, "ecx"=>1, "edx"=>2, "ebx"=>3, 92 "esp"=>4, "ebp"=>5, "esi"=>6, "edi"=>7 ); 93sub ::pextrd 94{ my($dst,$src,$imm)=@_; 95 if ("$dst:$src" =~ /(e[a-dsd][ixp]):xmm([0-7])/) 96 { &::data_byte(0x66,0x0f,0x3a,0x16,0xc0|($2<<3)|$regrm{$1},$imm); } 97 else 98 { &::generic("pextrd",@_); } 99} 100 101sub ::pinsrd 102{ my($dst,$src,$imm)=@_; 103 if ("$dst:$src" =~ /xmm([0-7]):(e[a-dsd][ixp])/) 104 { &::data_byte(0x66,0x0f,0x3a,0x22,0xc0|($1<<3)|$regrm{$2},$imm); } 105 else 106 { &::generic("pinsrd",@_); } 107} 108 109sub ::pshufb 110{ my($dst,$src)=@_; 111 if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/) 112 { &data_byte(0x66,0x0f,0x38,0x00,0xc0|($1<<3)|$2); } 113 else 114 { &::generic("pshufb",@_); } 115} 116 117sub ::palignr 118{ my($dst,$src,$imm)=@_; 119 if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/) 120 { &::data_byte(0x66,0x0f,0x3a,0x0f,0xc0|($1<<3)|$2,$imm); } 121 else 122 { &::generic("palignr",@_); } 123} 124 125sub ::pclmulqdq 126{ my($dst,$src,$imm)=@_; 127 if ("$dst:$src" =~ /xmm([0-7]):xmm([0-7])/) 128 { &::data_byte(0x66,0x0f,0x3a,0x44,0xc0|($1<<3)|$2,$imm); } 129 else 130 { &::generic("pclmulqdq",@_); } 131} 132 133sub ::rdrand 134{ my ($dst)=@_; 135 if ($dst =~ /(e[a-dsd][ixp])/) 136 { &::data_byte(0x0f,0xc7,0xf0|$regrm{$dst}); } 137 else 138 { &::generic("rdrand",@_); } 139} 140 141sub ::rdseed 142{ my ($dst)=@_; 143 if ($dst =~ /(e[a-dsd][ixp])/) 144 { &::data_byte(0x0f,0xc7,0xf8|$regrm{$dst}); } 145 else 146 { &::generic("rdrand",@_); } 147} 148 149sub rxb { 150 local *opcode=shift; 151 my ($dst,$src1,$src2,$rxb)=@_; 152 153 $rxb|=0x7<<5; 154 $rxb&=~(0x04<<5) if($dst>=8); 155 $rxb&=~(0x01<<5) if($src1>=8); 156 $rxb&=~(0x02<<5) if($src2>=8); 157 push @opcode,$rxb; 158} 159 160sub ::vprotd 161{ my $args=join(',',@_); 162 if ($args =~ /xmm([0-7]),xmm([0-7]),([x0-9a-f]+)/) 163 { my @opcode=(0x8f); 164 rxb(\@opcode,$1,$2,-1,0x08); 165 push @opcode,0x78,0xc2; 166 push @opcode,0xc0|($2&7)|(($1&7)<<3); # ModR/M 167 my $c=$3; 168 push @opcode,$c=~/^0/?oct($c):$c; 169 &::data_byte(@opcode); 170 } 171 else 172 { &::generic("vprotd",@_); } 173} 174 175sub ::endbranch 176{ 177 &::generic("#ifdef __CET__\n"); 178 &::data_byte(0xf3,0x0f,0x1e,0xfb); 179 &::generic("#endif\n"); 180} 181 182# label management 183$lbdecor="L"; # local label decoration, set by package 184$label="000"; 185 186sub ::islabel # see is argument is a known label 187{ my $i; 188 foreach $i (values %label) { return $i if ($i eq $_[0]); } 189 $label{$_[0]}; # can be undef 190} 191 192sub ::label # instantiate a function-scope label 193{ if (!defined($label{$_[0]})) 194 { $label{$_[0]}="${lbdecor}${label}${_[0]}"; $label++; } 195 $label{$_[0]}; 196} 197 198sub ::LABEL # instantiate a file-scope label 199{ $label{$_[0]}=$_[1] if (!defined($label{$_[0]})); 200 $label{$_[0]}; 201} 202 203sub ::static_label { &::LABEL($_[0],$lbdecor.$_[0]); } 204 205sub ::set_label_B { push(@out,"@_:\n"); } 206sub ::set_label 207{ my $label=&::label($_[0]); 208 &::align($_[1]) if ($_[1]>1); 209 &::set_label_B($label); 210 $label; 211} 212 213sub ::wipe_labels # wipes function-scope labels 214{ foreach $i (keys %label) 215 { delete $label{$i} if ($label{$i} =~ /^\Q${lbdecor}\E[0-9]{3}/); } 216} 217 218# subroutine management 219sub ::function_begin 220{ &function_begin_B(@_); 221 $stack=4; 222 &push("ebp"); 223 &push("ebx"); 224 &push("esi"); 225 &push("edi"); 226} 227 228sub ::function_end 229{ &pop("edi"); 230 &pop("esi"); 231 &pop("ebx"); 232 &pop("ebp"); 233 &ret(); 234 &function_end_B(@_); 235 $stack=0; 236 &wipe_labels(); 237} 238 239sub ::function_end_A 240{ &pop("edi"); 241 &pop("esi"); 242 &pop("ebx"); 243 &pop("ebp"); 244 &ret(); 245 $stack+=16; # readjust esp as if we didn't pop anything 246} 247 248sub ::asciz 249{ my @str=unpack("C*",shift); 250 push @str,0; 251 while ($#str>15) { 252 &data_byte(@str[0..15]); 253 foreach (0..15) { shift @str; } 254 } 255 &data_byte(@str) if (@str); 256} 257 258sub ::asm_finish 259{ &file_end(); 260 print @out; 261} 262 263sub ::asm_init 264{ my ($type,$cpu)=@_; 265 266 $i386=$cpu; 267 268 $elf=$cpp=$coff=$aout=$macosx=$win32=$mwerks=$android=0; 269 if (($type eq "elf")) 270 { $elf=1; require "x86gas.pl"; } 271 elsif (($type eq "elf-1")) 272 { $elf=-1; require "x86gas.pl"; } 273 elsif (($type eq "a\.out")) 274 { $aout=1; require "x86gas.pl"; } 275 elsif (($type eq "coff" or $type eq "gaswin")) 276 { $coff=1; require "x86gas.pl"; } 277 elsif (($type eq "win32n")) 278 { $win32=1; require "x86nasm.pl"; } 279 elsif (($type eq "win32")) 280 { $win32=1; require "x86masm.pl"; } 281 elsif (($type eq "macosx")) 282 { $aout=1; $macosx=1; require "x86gas.pl"; } 283 elsif (($type eq "android")) 284 { $elf=1; $android=1; require "x86gas.pl"; } 285 else 286 { print STDERR <<"EOF"; 287Pick one target type from 288 elf - Linux, FreeBSD, Solaris x86, etc. 289 a.out - DJGPP, elder OpenBSD, etc. 290 coff - GAS/COFF such as Win32 targets 291 win32n - Windows 95/Windows NT NASM format 292 macosx - Mac OS X 293EOF 294 exit(1); 295 } 296 297 $pic=0; 298 for (@ARGV) { $pic=1 if (/\-[fK]PIC/i); } 299 300 &file(); 301} 302 303sub ::hidden {} 304 3051; 306