172 lines
5.4 KiB
Perl
Executable File
172 lines
5.4 KiB
Perl
Executable File
#!/usr/bin/perl
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use IPC::Cmd qw[ run ];
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use Getopt::Long;
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my $usage = "Usage: calcrom.pl file.map [--data]\n";
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my $showData;
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GetOptions("data" => \$showData) or die $usage;
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(@ARGV == 1)
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or die $usage;
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open(my $file, $ARGV[0])
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or die "ERROR: could not open file '$ARGV[0]'.\n";
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my $src = 0;
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my $asm = 0;
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my $srcdata = 0;
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my $data = 0;
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while (my $line = <$file>)
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{
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if ($line =~ /^ \.(\w+)\s+0x[0-9a-f]+\s+(0x[0-9a-f]+) (\w+)\/.+\.o/)
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{
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my $section = $1;
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my $size = hex($2);
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my $dir = $3;
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if ($section =~ /text/)
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{
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if ($dir eq 'src')
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{
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$src += $size;
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}
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elsif ($dir eq 'asm')
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{
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$asm += $size;
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}
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}
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elsif ($section =~ /rodata/)
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{
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if ($dir eq 'src')
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{
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$srcdata += $size;
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}
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elsif ($dir eq 'data')
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{
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$data += $size;
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}
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}
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}
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}
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(my $elffname = $ARGV[0]) =~ s/\.map/.elf/;
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# Note that the grep filters out all branch labels. It also requires a minimum
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# line length of 5, to filter out a ton of generated symbols (like AcCn). No
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# settings to nm seem to remove these symbols. Finally, nm prints out a separate
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# entry for whenever a name appears in a file, not just where it's defined. uniq
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# removes all the duplicate entries.
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#
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#
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# You'd expect this to take a while, because of uniq. It runs in under a second,
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# though. Uniq is pretty fast!
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my $base_cmd = "nm $elffname | awk '{print \$3}' | grep '^[^_].\\{4\\}' | uniq";
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# This looks for Unknown_, Unknown_, or sub_, followed by an address. Note that
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# it matches even if stuff precedes the unknown, like sUnknown/gUnknown.
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my $undoc_cmd = "grep '[Uu]nknown_[0-9a-fA-F]\\{5,7\\}\\|sub_[0-9a-fA-F]\\{5,7\\}'";
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# This looks for every symbol with an address at the end of it. Some things are
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# given a name based on their type / location, but still have an unknown purpose.
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# For example, FooMap_EventScript_FFFFFFF.
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my $partial_doc_cmd = "grep '_[0-28][0-9a-fA-F]\\{5,7\\}'";
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my $count_cmd = "wc -l";
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# It sucks that we have to run this three times, but I can't figure out how to get
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# stdin working for subcommands in perl while still having a timeout. It's decently
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# fast anyway.
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my $total_syms_as_string;
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(run (
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command => "$base_cmd | $count_cmd",
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buffer => \$total_syms_as_string,
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timeout => 60
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))
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or die "ERROR: Error while getting all symbols: $?";
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my $undocumented_as_string;
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(run (
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command => "$base_cmd | $undoc_cmd | $count_cmd",
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buffer => \$undocumented_as_string,
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timeout => 60
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))
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or die "ERROR: Error while filtering for undocumented symbols: $?";
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my $partial_documented_as_string;
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(run (
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command => "$base_cmd | $partial_doc_cmd | $count_cmd",
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buffer => \$partial_documented_as_string,
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timeout => 60
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))
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or die "ERROR: Error while filtering for partial symbols: $?";
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# Performing addition on a string converts it to a number. Any string that fails
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# to convert to a number becomes 0. So if our converted number is 0, but our string
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# is nonzero, then the conversion was an error.
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$undocumented_as_string =~ s/^\s+|\s+$//g;
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my $undocumented = $undocumented_as_string + 0;
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(($undocumented != 0) or (($undocumented == 0) and ($undocumented_as_string eq "0")))
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or die "ERROR: Cannot convert string to num: '$undocumented_as_string'";
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$partial_documented_as_string =~ s/^\s+|\s+$//g;
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my $partial_documented = $partial_documented_as_string + 0;
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(($partial_documented != 0) or (($partial_documented == 0) and ($partial_documented_as_string eq "0")))
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or die "ERROR: Cannot convert string to num: '$partial_documented_as_string'";
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$total_syms_as_string =~ s/^\s+|\s+$//g;
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my $total_syms = $total_syms_as_string + 0;
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(($total_syms != 0) or (($total_syms == 0) and ($total_syms_as_string eq "0")))
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or die "ERROR: Cannot convert string to num: '$total_syms_as_string'";
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($total_syms != 0)
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or die "ERROR: No symbols found.";
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my $total = $src + $asm;
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my $srcPct = sprintf("%.4f", 100 * $src / $total);
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my $asmPct = sprintf("%.4f", 100 * $asm / $total);
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# partial_documented is double-counting the unknown_* and sub_* symbols.
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$partial_documented = $partial_documented - $undocumented;
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my $documented = $total_syms - ($undocumented + $partial_documented);
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my $docPct = sprintf("%.4f", 100 * $documented / $total_syms);
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my $partialPct = sprintf("%.4f", 100 * $partial_documented / $total_syms);
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my $undocPct = sprintf("%.4f", 100 * $undocumented / $total_syms);
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if ($asm == 0)
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{
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print "Code decompilation is 100% complete\n"
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}
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else
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{
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print "$total total bytes of code\n";
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print "$src bytes of code in src ($srcPct%)\n";
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print "$asm bytes of code in asm ($asmPct%)\n";
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}
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print "\n";
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if ($partial_documented == 0 && $undocumented == 0)
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{
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print "Documentation is 100% complete\n"
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}
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else
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{
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print "$total_syms total symbols\n";
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print "$documented symbols documented ($docPct%)\n";
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print "$partial_documented symbols partially documented ($partialPct%)\n";
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print "$undocumented symbols undocumented ($undocPct%)\n";
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}
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if ($showData)
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{
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print "\n";
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my $dataTotal = $srcdata + $data;
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my $srcDataPct = sprintf("%.4f", 100 * $srcdata / $dataTotal);
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my $dataPct = sprintf("%.4f", 100 * $data / $dataTotal);
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print "$dataTotal total bytes of data\n";
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print "$srcdata bytes of data in src ($srcDataPct%)\n";
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print "$data bytes of data in data ($dataPct%)\n";
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}
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