util/amdtools/parse-bkdg.pl - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 #!/usr/bin/perl -w

 my $NAME = $0;
 my $VERSION = '0.01';
 my $DATE = '2009-09-04';
 my $AUTHOR = "Ward Vandewege <ward\@jhvc.com>";
 my $COPYRIGHT = "2009";
 my $LICENSE = "GPL v3 - http://www.fsf.org/licenses/gpl.txt";
 my $URL = "http://coreboot.org";

 my $DEBUG = 0;

 use strict;

 # Run the bkdg for k8 through pdftotext first (from the poppler package)

 my @registers = ();
 my $raw_register = '';

 my $name = '';
 my $description = '';
 my $step = 0;
 my $oldstep = 0;

 my $previous_res = 0;
 my $previous_start = 0;
 my $previous_stop = 0;
 my $strip_empties = 0;

 my $previous_bits = '';

 our %info;

 my %typos;

 $typos{'CkeDreStrength'} = 'CkeDrvStrength';

 while (<>) {
     my $line = $_;
     chomp($line);

     foreach my $k (keys %typos) {
         $line =~ s/$k/$typos{$k}/;
     }

     # Make sure we do not include headers in our output
     if (($line =~ /^Chapter 4/) || ($line =~ /Chapter 4$/)) {
         $oldstep = $step;
         $step = 99;
         next;
     }
     if ($step == 99) {  # header
         if ($line =~ /Processors$/) {
             $step = $oldstep;
             $strip_empties = 1;
         }
         next;
     }

     if ($strip_empties) {
         # Headers are followed by two blank lines. Strip them.
         if ($line =~ /^\s*$/) {
             next;
         } else {
             $strip_empties = 0;
         }
     }


     if (($step % 6 == 0) && ($line =~ /^\d+\.\d+\.\d+\s+(.*)$/)) {
         $step = 1;
         next;
     }
     if ($step == 1) {
         $description = "$line\n";
         $step = 2;
         next;
     }
     #print STDERR "STEP: $step\n";
     #print STDERR "$line\n";

     if ((($step == 0) || ($step == 6) || ($step == 2)) && ($line =~ /^(.*)\s+Function\s+\d+:\s+Offset\s+..h$/)) {
         $name = $1;
         $name =~ s/ +$//;
         $step = 3;
         $description =~ s/\n+$//ms;

         if ($previous_bits ne '') {
           &finish_record($previous_bits);
           $previous_bits = ''; # reset previous_bits (used in step 6)
         }


         next;
     } elsif ($step == 2) {
         $description .= "$line\n";
         next;
     }

     if (($step == 3) && ($line =~ /^\s+Index (.+h)$/)) {
         $raw_register= $1;
         @registers = split(/,/,$raw_register);
         for (my $i=0;$i<=$#registers;$i++) {
             $registers[$i] =~ s/ //g;
             $registers[$i] =~ s/h$//;
         }
         # OK, we have our register(s), so now we can print out the name and description lines.
         print "\$info{'$registers[0]'}{'name'} = \"$name\";\n";
         print "\$info{'$registers[0]'}{'description'} = \"$description\";\n";
         $step = 4;
         next;
     }

     if (($step == 4) && ($line =~ /^Bits\s+Mnemonic\s+Function\s+R\/W\s+Reset$/)) {
         $step = 5;
         next;
     }

     if (($step == 5) && (!($line =~ /^Field Descriptions$/))) {
         $line =~ s/^ +//; # Strip leading spaces
         my @f = split(/  +/,$line);

         # skip blank lines
         next if (!exists($f[0]));

         # skip headers (they could be repeated if the table crosses a page boundary
         next if ($f[0] eq 'Bits');

         # Clean up funky field separator
         if ($f[0] =~ /\d+.+\d+/) {
             $f[0] =~ s/[^\d]+/-/g;
         }

         my ($start, $stop, $width) = (0,0,0);
         if ($f[0] =~ /-/) {
             $f[0] =~ s/^(\d+)[^\d]+(\d+)$/$1-$2/;
             ($stop,$start) = ($1,$2);
             $width = $stop-$start+1;
         } else {
           if ($f[0] =~ /^\d+$/) {
             $start = $stop = $f[0];
             $width = 1;
           } else {
             # continuation from previous line
             $start = $stop = $width = 0;
           }
         }

         # Some lines have only bit entries
         if (($#f < 1) && ($f[0] =~ /^\d+(|\-\d+)/)) {
           $f[4] = '';
           $f[3] = '';
           $f[2] = '';
           $f[1] = '';
         } elsif ($#f < 1) {
           # Some lines are a continuation of the function field a line above
           $f[4] = '';
           $f[3] = '';
           $f[2] = $f[0];
           $f[1] = '';
           $f[0] = '';
           my $tmp = "\$info{'$registers[0]'}{'ranges'}{" . $previous_res . "}{'function'} .= \"" . $f[2] . "\";\n";
           print &multiply($tmp,$previous_res,$previous_start,$previous_stop);
           next;
         }

         # Some lines have only bit and reset entries
         if ($#f < 2) {
           $f[4] = $f[1];
           $f[3] = '';
           $f[2] = '';
           $f[1] = '';
         }

         # Some lines have no mnemonic and no function
         if ($#f < 3) {
           $f[4] = $f[2];
           $f[3] = $f[1];
           $f[2] = '';
           $f[1] = '';
         }

         # functions with 'reserved' mnemonic have no function
         if ($f[1] =~ /^reserved$/i) {
             $f[4] = $f[3];
             $f[3] = $f[2];
             $f[2] = '';
         }

         $previous_res = $f[0];
         $previous_start = $start;
         $previous_stop = $stop;

         # the 'range' field is not useful in this instance, but used in the 'fields' version of this block to easily go
         # from a bit position to the corresponding range.
         my $str = "
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'function'} = \"" . $f[2] . "\";
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'mnemonic'} = \"" . $f[1] . "\";
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'description'} = \"" . "\";
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'begin'} = $start;
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'end'} = $stop;
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'width'} = $width;
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'rw'} = \"" . $f[3] . "\";
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'reset'} = \"" . $f[4] . "\";
 \$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'range'} = \"" . $f[0] . "\";
 ";
         my $output;

         $output = &multiply($str,$f[0],$start,$stop);

         # Load the data structure here, too
         eval($output);

         print $output . "\n\n";
     } elsif (($step == 5) && ($line =~ /^Field Descriptions$/)) {
         $step = 6;
         next;
     }

     if ($step == 6) {
         if ($line =~ /^(.*?)\((.*?)\).+Bit(s|) +(.*?)\. (.*)$/) {
           my $bits = $4;
           my $desc = $5;
           $bits =~ s/[^\d]+/-/;

           if ($previous_bits ne '') {
             # We're done with a field description block
             print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'description'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'description'} . "\";\n";
             foreach my $k (keys %{$info{$registers[0]}{'ranges'}{$previous_bits}{'values'}}) {
               print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'values'}{'$k'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$k} . "\";\n";
             }
           }

           if (exists($info{$registers[0]}{'ranges'}{$bits})) {
             print STDERR "match ($bits) on $line\n";
             $info{$registers[0]}{'ranges'}{$bits}{'description'} = $desc . "\n";
             $previous_bits = $bits;
           }
         } elsif ($previous_bits ne '') {
           $info{$registers[0]}{'ranges'}{$previous_bits}{'description'} .= $line . "\n";
           if ($line =~ /([0-9a-f]+b|[0-9a-f]+h) = (.*)$/i) {
             $info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$1} = $2;
           }
         }
     }

 }
 &finish_record($previous_bits);


 print "1;\n";

 sub multiply {
   my $str = shift;
   my $range = shift;
   my $start = shift;
   my $stop = shift;
   my $output = '';
   for (my $i=$start;$i<=$stop;$i++) {
     my $tmp = $str;
     $tmp =~ s/\{'$range'\}/{'$i'}/g;
     $tmp =~ s/\{'ranges'\}/{'fields'}/g;
     $tmp .=
     $output .= $tmp;
   }

   #$output .= $str if (($stop - $start + 1) > 1);
   $output .= $str;

   return $output;
 }

 sub finish_record {
   my $previous_bits = shift;
    # We're done with a field description block
           print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'description'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'description'} . "\";\n";
           foreach my $k (keys %{$info{$registers[0]}{'ranges'}{$previous_bits}{'values'}}) {
             print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'values'}{'$k'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$k} . "\";\n";
           }

           # End of table. If this data applies to more than one register, print duplication lines.
           for (my $i=1;$i<=$#registers;$i++) {
             print "\$info{'$registers[$i]'} = \$info{'$registers[0]'};\n";
           }

 }
	#!/usr/bin/perl -w

	my $NAME = $0;
	my $VERSION = '0.01';
	my $DATE = '2009-09-04';
	my $AUTHOR = "Ward Vandewege <ward\@jhvc.com>";
	my $COPYRIGHT = "2009";
	my $LICENSE = "GPL v3 - http://www.fsf.org/licenses/gpl.txt";
	my $URL = "http://coreboot.org";

	my $DEBUG = 0;

	use strict;

	# Run the bkdg for k8 through pdftotext first (from the poppler package)

	my @registers = ();
	my $raw_register = '';

	my $name = '';
	my $description = '';
	my $step = 0;
	my $oldstep = 0;

	my $previous_res = 0;
	my $previous_start = 0;
	my $previous_stop = 0;
	my $strip_empties = 0;

	my $previous_bits = '';

	our %info;

	my %typos;

	$typos{'CkeDreStrength'} = 'CkeDrvStrength';

	while (<>) {
	my $line = $_;
	chomp($line);

	foreach my $k (keys %typos) {
	$line =~ s/$k/$typos{$k}/;
	}

	# Make sure we do not include headers in our output
	if (($line =~ /^Chapter 4/) \|\| ($line =~ /Chapter 4$/)) {
	$oldstep = $step;
	$step = 99;
	next;
	}
	if ($step == 99) { # header
	if ($line =~ /Processors$/) {
	$step = $oldstep;
	$strip_empties = 1;
	}
	next;
	}

	if ($strip_empties) {
	# Headers are followed by two blank lines. Strip them.
	if ($line =~ /^\s*$/) {
	next;
	} else {
	$strip_empties = 0;
	}
	}


	if (($step % 6 == 0) && ($line =~ /^\d+\.\d+\.\d+\s+(.*)$/)) {
	$step = 1;
	next;
	}
	if ($step == 1) {
	$description = "$line\n";
	$step = 2;
	next;
	}
	#print STDERR "STEP: $step\n";
	#print STDERR "$line\n";

	if ((($step == 0) \|\| ($step == 6) \|\| ($step == 2)) && ($line =~ /^(.*)\s+Function\s+\d+:\s+Offset\s+..h$/)) {
	$name = $1;
	$name =~ s/ +$//;
	$step = 3;
	$description =~ s/\n+$//ms;

	if ($previous_bits ne '') {
	&finish_record($previous_bits);
	$previous_bits = ''; # reset previous_bits (used in step 6)
	}


	next;
	} elsif ($step == 2) {
	$description .= "$line\n";
	next;
	}

	if (($step == 3) && ($line =~ /^\s+Index (.+h)$/)) {
	$raw_register= $1;
	@registers = split(/,/,$raw_register);
	for (my $i=0;$i<=$#registers;$i++) {
	$registers[$i] =~ s/ //g;
	$registers[$i] =~ s/h$//;
	}
	# OK, we have our register(s), so now we can print out the name and description lines.
	print "\$info{'$registers[0]'}{'name'} = \"$name\";\n";
	print "\$info{'$registers[0]'}{'description'} = \"$description\";\n";
	$step = 4;
	next;
	}

	if (($step == 4) && ($line =~ /^Bits\s+Mnemonic\s+Function\s+R\/W\s+Reset$/)) {
	$step = 5;
	next;
	}

	if (($step == 5) && (!($line =~ /^Field Descriptions$/))) {
	$line =~ s/^ +//; # Strip leading spaces
	my @f = split(/ +/,$line);

	# skip blank lines
	next if (!exists($f[0]));

	# skip headers (they could be repeated if the table crosses a page boundary
	next if ($f[0] eq 'Bits');

	# Clean up funky field separator
	if ($f[0] =~ /\d+.+\d+/) {
	$f[0] =~ s/[^\d]+/-/g;
	}

	my ($start, $stop, $width) = (0,0,0);
	if ($f[0] =~ /-/) {
	$f[0] =~ s/^(\d+)[^\d]+(\d+)$/$1-$2/;
	($stop,$start) = ($1,$2);
	$width = $stop-$start+1;
	} else {
	if ($f[0] =~ /^\d+$/) {
	$start = $stop = $f[0];
	$width = 1;
	} else {
	# continuation from previous line
	$start = $stop = $width = 0;
	}
	}

	# Some lines have only bit entries
	if (($#f < 1) && ($f[0] =~ /^\d+(\|\-\d+)/)) {
	$f[4] = '';
	$f[3] = '';
	$f[2] = '';
	$f[1] = '';
	} elsif ($#f < 1) {
	# Some lines are a continuation of the function field a line above
	$f[4] = '';
	$f[3] = '';
	$f[2] = $f[0];
	$f[1] = '';
	$f[0] = '';
	my $tmp = "\$info{'$registers[0]'}{'ranges'}{" . $previous_res . "}{'function'} .= \"" . $f[2] . "\";\n";
	print &multiply($tmp,$previous_res,$previous_start,$previous_stop);
	next;
	}

	# Some lines have only bit and reset entries
	if ($#f < 2) {
	$f[4] = $f[1];
	$f[3] = '';
	$f[2] = '';
	$f[1] = '';
	}

	# Some lines have no mnemonic and no function
	if ($#f < 3) {
	$f[4] = $f[2];
	$f[3] = $f[1];
	$f[2] = '';
	$f[1] = '';
	}

	# functions with 'reserved' mnemonic have no function
	if ($f[1] =~ /^reserved$/i) {
	$f[4] = $f[3];
	$f[3] = $f[2];
	$f[2] = '';
	}

	$previous_res = $f[0];
	$previous_start = $start;
	$previous_stop = $stop;

	# the 'range' field is not useful in this instance, but used in the 'fields' version of this block to easily go
	# from a bit position to the corresponding range.
	my $str = "
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'function'} = \"" . $f[2] . "\";
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'mnemonic'} = \"" . $f[1] . "\";
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'description'} = \"" . "\";
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'begin'} = $start;
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'end'} = $stop;
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'width'} = $width;
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'rw'} = \"" . $f[3] . "\";
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'reset'} = \"" . $f[4] . "\";
	\$info{'$registers[0]'}{'ranges'}{'" . $f[0] . "'}{'range'} = \"" . $f[0] . "\";
	";
	my $output;

	$output = &multiply($str,$f[0],$start,$stop);

	# Load the data structure here, too
	eval($output);

	print $output . "\n\n";
	} elsif (($step == 5) && ($line =~ /^Field Descriptions$/)) {
	$step = 6;
	next;
	}

	if ($step == 6) {
	if ($line =~ /^(.?)\((.?)\).+Bit(s\|) +(.?)\. (.)$/) {
	my $bits = $4;
	my $desc = $5;
	$bits =~ s/[^\d]+/-/;

	if ($previous_bits ne '') {
	# We're done with a field description block
	print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'description'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'description'} . "\";\n";
	foreach my $k (keys %{$info{$registers[0]}{'ranges'}{$previous_bits}{'values'}}) {
	print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'values'}{'$k'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$k} . "\";\n";
	}
	}

	if (exists($info{$registers[0]}{'ranges'}{$bits})) {
	print STDERR "match ($bits) on $line\n";
	$info{$registers[0]}{'ranges'}{$bits}{'description'} = $desc . "\n";
	$previous_bits = $bits;
	}
	} elsif ($previous_bits ne '') {
	$info{$registers[0]}{'ranges'}{$previous_bits}{'description'} .= $line . "\n";
	if ($line =~ /([0-9a-f]+b\|[0-9a-f]+h) = (.*)$/i) {
	$info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$1} = $2;
	}
	}
	}

	}
	&finish_record($previous_bits);


	print "1;\n";

	sub multiply {
	my $str = shift;
	my $range = shift;
	my $start = shift;
	my $stop = shift;
	my $output = '';
	for (my $i=$start;$i<=$stop;$i++) {
	my $tmp = $str;
	$tmp =~ s/\{'$range'\}/{'$i'}/g;
	$tmp =~ s/\{'ranges'\}/{'fields'}/g;
	$tmp .=
	$output .= $tmp;
	}

	#$output .= $str if (($stop - $start + 1) > 1);
	$output .= $str;

	return $output;
	}

	sub finish_record {
	my $previous_bits = shift;
	# We're done with a field description block
	print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'description'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'description'} . "\";\n";
	foreach my $k (keys %{$info{$registers[0]}{'ranges'}{$previous_bits}{'values'}}) {
	print "\$info{'$registers[0]'}{'ranges'}{'$previous_bits'}{'values'}{'$k'} = \"" . $info{$registers[0]}{'ranges'}{$previous_bits}{'values'}{$k} . "\";\n";
	}

	# End of table. If this data applies to more than one register, print duplication lines.
	for (my $i=1;$i<=$#registers;$i++) {
	print "\$info{'$registers[$i]'} = \$info{'$registers[0]'};\n";
	}

	}