#! /usr/bin/perl # Copyright 2000, 2001 Free Software Foundation, Inc. # # This file is part of the GNU MP Library. # # The GNU MP Library is free software; you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation; either version 2.1 of the License, or (at # your option) any later version. # # The GNU MP Library is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY # or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public # License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with the GNU MP Library; see the file COPYING.LIB. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, # MA 02110-1301, USA. # Usage: cross.pl [filename.o]... # # Produce an annotated disassembly of the given object files, indicating # certain code alignment and addressing mode problems afflicting K6 chips. # "ZZ" is used on all annotations, so this can be searched for. # # With no arguments, all .o files corresponding to .asm files are processed. # This is good in the mpn object directory of a k6*-*-* build. # # Code alignments of 8 bytes or more are handled. When 32 is used, cache # line boundaries will fall in at offsets 0x20,0x40,etc and problems are # flagged at those locations. When 16 is used, the line boundaries can also # fall at offsets 0x10,0x30,0x50,etc, depending where the file is loaded, so # problems are identified there too. Likewise when 8 byte alignment is used # problems are flagged additionally at 0x08,0x18,0x28,etc. # # Usually 32 byte alignment is used for k6 routines, but less is certainly # possible if through good luck, or a little tweaking, cache line crossing # problems can be avoided at the extra locations. # # Bugs: # # Instructions without mod/rm bytes or which are already vector decoded are # unaffected by cache line boundary crossing, but not all of these have yet # been put in as exceptions. All that occur in practice in GMP are present # though. # # There's no messages for using the vector decoded addressing mode (%esi), # but that's easy to avoid when coding. # # Future: # # Warn about jump targets that are poorly aligned (less than 2 instructions # before a cache line boundary). use strict; sub disassemble { my ($file) = @_; my ($addr,$b1,$b2,$b3, $prefix,$opcode,$modrm); my $align; open (IN, "objdump -Srfh $file |") || die "Cannot open pipe from objdump\n"; while () { print; if (/^[ \t]*[0-9]+[ \t]+\.text[ \t]/ && /2\*\*([0-9]+)$/) { $align = 1 << $1; if ($align < 8) { print "ZZ cross.pl cannot handle alignment < 2**3\n"; $align = 8 } } if (/^[ \t]*([0-9a-f]*):[ \t]*([0-9a-f]+)[ \t]+([0-9a-f]+)[ \t]+([0-9a-f]+)/) { ($addr,$b1,$b2,$b3) = ($1,$2,$3,$4); } elsif (/^[ \t]*([0-9a-f]*):[ \t]*([0-9a-f]+)[ \t]+([0-9a-f]+)/) { ($addr,$b1,$b2,$b3) = ($1,$2,$3,''); } elsif (/^[ \t]*([0-9a-f]*):[ \t]*([0-9a-f]+)/) { ($addr,$b1,$b2,$b3) = ($1,$2,'',''); } else { next; } if ($b1 =~ /0f/) { $prefix = $b1; $opcode = $b2; $modrm = $b3; } else { $prefix = ''; $opcode = $b1; $modrm = $b2; } # modrm of the form 00-xxx-100 with an 0F prefix is the problem case # for K6 and pre-CXT K6-2 if ($prefix =~ /0f/ && $opcode !~ /^8/ # jcond disp32 && $modrm =~ /^[0-3][4c]/) { print "ZZ ($file) >3 bytes to determine instruction length [K6]\n"; } # with just an opcode, starting 1f mod 20h if (($align==32 && $addr =~ /[13579bdf]f$/ || $align==16 && $addr =~ /f$/ || $align==8 && $addr =~ /[7f]$/) && $prefix !~ /0f/ && $opcode !~ /1[012345]/ # adc && $opcode !~ /1[89abcd]/ # sbb && $opcode !~ /^4/ # inc/dec reg && $opcode !~ /^5/ # push/pop reg && $opcode !~ /68/ # push $imm32 && $opcode !~ /^7/ # jcond disp8 && $opcode !~ /a[89]/ # test+imm && $opcode !~ /a[a-f]/ # stos/lods/scas && $opcode !~ /b8/ # movl $imm32,%eax && $opcode !~ /d[0123]/ # rcl && $opcode !~ /e[0123]/ # loop/loopz/loopnz/jcxz && $opcode !~ /e8/ # call disp32 && $opcode !~ /e[9b]/ # jmp disp32/disp8 && $opcode !~ /f[89abcd]/ # clc,stc,cli,sti,cld,std && !($opcode =~ /f[67]/ # grp 1 && $modrm =~ /^[2367abef]/) # mul, imul, div, idiv && $modrm !~ /^$/) { print "ZZ ($file) opcode/modrm cross 32-byte boundary\n"; } # with an 0F prefix, anything starting at 1f mod 20h if (($align==32 && $addr =~ /[13579bdf][f]$/ || $align==16 && $addr =~ /f$/ || $align==8 && $addr =~ /[7f]$/) && $prefix =~ /0f/ && $opcode !~ /af/ # imul && $opcode !~ /a[45]/ # shldl && $opcode !~ /a[cd]/ # shrdl ) { print "ZZ ($file) prefix/opcode cross 32-byte boundary\n"; } # with an 0F prefix, anything with mod/rm starting at 1e mod 20h if (($align==32 && $addr =~ /[13579bdf][e]$/ || $align==16 && $addr =~ /[e]$/ || $align==8 && $addr =~ /[6e]$/) && $prefix =~ /0f/ && $opcode !~ /^8/ # jcond disp32 && $opcode !~ /af/ # imull reg,reg && $opcode !~ /a[45]/ # shldl && $opcode !~ /a[cd]/ # shrdl && $modrm !~ /^$/) { print "ZZ ($file) prefix/opcode/modrm cross 32-byte boundary\n"; } } close IN || die "Error from objdump (or objdump not available)\n"; } my @files; if ($#ARGV >= 0) { @files = @ARGV; } else { @files = glob "*.asm"; map {s/.asm/.o/} @files; } foreach (@files) { disassemble($_); }