#!/usr/bin/env perl use Getopt::Std; $DEBUG = 0; sub parse_objdump_file { my ($filename) = @_; my @result; open (INPUT, $filename) or die "$filename: $!\n"; print "opened objdump output file $filename\n" if $DEBUG; while (<INPUT>) { if (/\s*([0-9a-f]*):\t(([0-9a-f]{2} )+) *\t(.*)$/) { my ($addr, $bytes, $instr) = ($1, $2, $4); $addr = "0x" . $addr; $bytes =~ s/\s*(.*\S)\s*/$1/; # trim any remaining whitespace $instr =~ s/\s*(.*\S)\s*/$1/; push (@result, {'addr' => $addr, 'bytes' => $bytes, 'instr' => $instr}); print "addr=$addr bytes='$bytes' instr='$instr'\n" if $DEBUG; } } close INPUT; return @result; } sub parse_gdb_file { my ($filename) = @_; my @result; my $got_addr; open (INPUT, $filename) or die "$filename: $!\n"; print "opened gdb output file $filename\n" if $DEBUG; while (<INPUT>) { if (/^(0x[0-9a-f]*):\t([^\t]*)\t[^:]*:\t((0x[0-9a-f]{2}\s*)+)\s*$/) { my ($addr, $bytes, $instr) = ($1, $3, $2); $bytes =~ s/0x//g; $bytes =~ s/\s+/ /g; # regularize whitespace $bytes =~ s/\s*(.*\S)\s*/$1/; # trim any remaining whitespace $instr =~ s/\s*(.*\S)\s*/$1/; push (@result, {'addr' => $addr, 'bytes' => $bytes, 'instr' => $instr}); print "addr=$addr bytes='$bytes' instr='$instr'\n" if $DEBUG; } elsif (/^(0x[0-9a-f]*):\t$/) { # deal with gdb's line breaker $got_addr = $1; } elsif ($got_addr && /^ ([^\t]*)\t[^:]*:\t((0x[0-9a-f]{2}\s*)+)\s*$/) { my ($addr, $bytes, $instr) = ($got_addr, $2, $1); $bytes =~ s/0x//g; $bytes =~ s/\s+/ /g; # regularize whitespace $bytes =~ s/\s*(.*\S)\s*/$1/; # trim any remaining whitespace $instr =~ s/\s*(.*\S)\s*/$1/; push (@result, {'addr' => $addr, 'bytes' => $bytes, 'instr' => $instr}); print "addr=$addr bytes='$bytes' instr='$instr'\n" if $DEBUG; undef $got_addr; } } close INPUT; return @result; } sub binary_diffs { my ($objdump_file, $gdb_file) = @_; my @file1 = parse_objdump_file ($objdump_file); my @file2 = parse_gdb_file ($gdb_file); my $lastrecord = ($#file1 >= $#file2) ? ($#file1) : ($#file2); for (my $i = 0; $i <= $lastrecord; ++$i) { my $d1 = $file1[$i]; my $d2 = $file2[$i]; if ($d1->{'bytes'} ne $d2->{'bytes'}) { next if (($d1->{'instr'} eq $d2->{'instr'}) && $opt_d); printf "0x%08x:\t%30s \t%s\n", 0+$d1->{'addr'}, $d1->{'bytes'}, $d1->{'instr'}; printf "0x%08x:\t%30s \t%s\n\n", 0+$d2->{'addr'}, $d2->{'bytes'}, $d2->{'instr'}; } } } &getopts('d'); $objdump_file = $ARGV[0]; $gdb_file = $ARGV[1]; binary_diffs ($objdump_file, $gdb_file); exit (0); __END__ =pod =head1 NAME codegen-diff =head1 SYNOPSIS codegen-diff [-d] I<OBJDUMP-OUTPUT-FILE> I<GDB-DISASSEMBLY-FILE> =head1 DESCRIPTION B<codegen-diff> is a program that tries to show you the differences between the code that B<llc> generated and the code that B<lli> generated. The way you use it is as follows: first, you create I<OBJDUMP-OUTPUT-FILE> by running B<objdump> on the B<llc> compiled and linked binary. You need to trim down the result so it contains only the function of interest. Second, you create I<GDB-DISASSEMBLY-FILE> by running B<gdb>, with my patch to print out hex bytes in the B<disassemble> command output, on B<lli>. Set a breakpoint in C<Emitter::finishFunction()> and wait until the function you want is compiled. Then use the B<disassemble> command to print out the assembly dump of the function B<lli> just compiled. (Use C<lli -debug> to find out where the function starts and ends in memory.) It's easiest to save this output by using B<script>. Finally, you run B<codegen-diff>, as indicated in the Synopsis section of this manpage. It will print out a two-line stanza for each mismatched instruction, with the B<llc> version first, and the B<lli> version second. =head1 OPTIONS =over 4 =item -d Don't show instructions where the bytes are different but they disassemble to the same thing. This puts a lot of trust in the disassembler, but it might help you highlight the more egregious cases of misassembly. =back =head1 AUTHOR B<codegen-diff> was written by Brian Gaeke. =head1 SEE ALSO L<gdb(1)>, L<objdump(1)>, L<script(1)>. You will need my B<gdb> patch: http://llvm.cs.uiuc.edu/~gaeke/gdb-disassembly-print-bytes.patch =cut