# Title: TTFMOD.PL # Author: M. Hosken # Description: Read TTF file calling user functions for each table # and output transformed tables to new TTF file. # Useage: TTFMOD provides the complete control loop for processing # the TTF files. All that the caller need supply is an # associative array of functions to call keyed by the TTF # table name and the two filenames. # # &ttfmod($infile, $outfile, *fns [, @must]); # # *fns is an associative array keyed by table name with # values of the name of the subroutine in package main to # be called to transfer the table from INFILE to OUTFILE. # The subroutine is called with the following parameters and # expected return values: # # ($len, $csum) = &sub(*INFILE, *OUTFILE, $len); # # INFILE and OUTFILE are the input and output streams, $len # is the length of the table according to the directory. # The return values are $len = new length of table to be # given in the table directory. $csum = new value of table # checksum. A way to test that this is correct is to # checksum the whole file (e.g. using CSUM.BAT) and to # ensure that the value is 0xB1B0AFBA according to a 32 bit # checksum calculated bigendien. # # @must consists of a list of tables which must exist in the # final output file, either by being there alread or by being # inserted. # # Modifications: # MJPH 1.00 22-SEP-1994 Original # MJPH 1.1 18-MAR-1998 Added @must to ttfmod() # MJPH 1.1.1 25-MAR-1998 Added $csum to copytab (to make reusable) package ttfmod; sub main'ttfmod { local($infile, $outfile, *fns, @must) = @_; # open files as binary. Notice OUTFILE is opened for update not just write open(INFILE, "$infile") || die "Unable top open \"$infile\" for reading"; binmode INFILE; open(OUTFILE, "+>$outfile") || die "Unable to open \"$outfile\" for writing"; binmode OUTFILE; seek(INFILE, 0, 0); read(INFILE, $dir_head, 12) || die "Reading table header"; ($dir_num) = unpack("x4n", $dir_head); print OUTFILE $dir_head; # read and unpack table directory for ($i = 0; $i < $dir_num; $i++) { read(INFILE, $dir_val, 16) || die "Reading table entry"; $dir{unpack("a4", $dir_val)} = join(":", $i, unpack("x4NNN", $dir_val)); print OUTFILE $dir_val; printf STDERR "%s %08x\n", unpack("a4", $dir_val), unpack("x8N", $dir_val) if (defined $main'opt_z); } foreach $n (@must) { next if defined $dir{$n}; $dir{$n} = "$i:0:-1:0"; $i++; $dir_num++; print OUTFILE pack("a4NNN", $n, 0, -1, 0); } substr($dir_head, 4, 2) = pack("n", $dir_num); $csum = unpack("%32N*", $dir_head); $off = tell(OUTFILE); seek(OUTFILE, 0, 0); print OUTFILE $dir_head; seek (OUTFILE, $off, 0); # process tables in order they occur in the file @dirlist = sort byoffset keys(%dir); foreach $tab (@dirlist) { @tab_split = split(':', $dir{$tab}); seek(INFILE, $tab_split[2], 0); # offset $tab_split[2] = tell(OUTFILE); if (defined $fns{$tab}) { $temp = "main'$fns{$tab}"; ($dir_len, $sum) = &$temp(*INFILE, *OUTFILE, $tab_split[3]); } else { ($dir_len, $sum) = ©tab(*INFILE, *OUTFILE, $tab_split[3]); } $tab_split[3] = $dir_len; # len $tab_split[1] = $sum; # checksum $out_dir{$tab} = join(":", @tab_split); } # now output directory in same order as original directory @dirlist = sort byindex keys(%out_dir); foreach $tab (@dirlist) { @tab_split = split(':', $out_dir{$tab}); seek (OUTFILE, 12 + $tab_split[0] * 16, 0); # directory index print OUTFILE pack("A4N3", $tab, @tab_split[1..3]); foreach $i (1..3, 1) # checksum directory values with csum twice { $csum += $tab_split[$i]; # this line ensures $csum stays within 32 bit bounds, clipping as necessary if ($csum > 0xffffffff) { $csum -= 0xffffffff; $csum--; } } # checksum the tag $csum += unpack("N", $tab); if ($csum > 0xffffffff) { $csum -= 0xffffffff; $csum--; } } # handle main checksum @tab_split = split(':', $out_dir{"head"}); seek(OUTFILE, $tab_split[2], 0); read(OUTFILE, $head_head, 12); # read first bit of "head" table @head_split = unpack("N3", $head_head); $tab_split[1] -= $head_split[2]; # subtract old checksum $csum -= $head_split[2] * 2; # twice because had double effect # already if ($csum < 0 ) { $csum += 0xffffffff; $csum++; } $head_split[2] = 0xB1B0AFBA - $csum; # calculate new checksum seek (OUTFILE, 12 + $tab_split[0] * 16, 0); print OUTFILE pack("A4N3", "head", @tab_split[1..3]); seek (OUTFILE, $tab_split[2], 0); # rewrite first bit of "head" table print OUTFILE pack("N3", @head_split); # finish up close(OUTFILE); close(INFILE); } # support function for sorting by table offset sub byoffset { @t1 = split(':', $dir{$a}); @t2 = split(':', $dir{$b}); return 1 if ($t1[2] == -1); # put inserted tables at the end return -1 if ($t2[2] == -1); return $t1[2] <=> $t2[2]; } # support function for sorting by directory entry order sub byindex { $t1 = split(':', $dir{$a}, 1); $t2 = split(':', $dir{$b}, 1); return $t1 <=> $t2; } # default table action: copies a table from input to output, recalculating # the checksum (just to be absolutely sure). sub copytab { local(*INFILE, *OUTFILE, $len, $csum) = @_; while ($len > 0) { $count = ($len > 8192) ? 8192 : $len; # 8K buffering read(INFILE, $buf, $count) == $count || die "Copying"; $buf .= "\0" x (4 - ($count & 3)) if ($count & 3); # pad to long print OUTFILE $buf; $csum += unpack("%32N*", $buf); if ($csum > 0xffffffff) { $csum -= 0xffffffff; $csum--; } $len -= $count; } ($_[2], $csum); } # test routine to copy file from input to output, no changes package main; if ($test_package) { &ttfmod($ARGV[0], $ARGV[1], *dummy); } else { 1; }