mirror of
https://github.com/netsurf-browser/netsurf
synced 2024-11-30 02:03:14 +03:00
379 lines
9.7 KiB
Perl
379 lines
9.7 KiB
Perl
#
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# Public suffix C code generator
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#
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# Copyright 2015 Vincent Sanders <vince@kyllikki.og>
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#
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# Permission to use, copy, modify, and/or distribute this software for
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# any purpose with or without fee is hereby granted, provided that the
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# above copyright notice and this permission notice appear in all
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# copies.
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#
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# THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
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# WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
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# WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
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# AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
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# DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA
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# OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
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# TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
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# PERFORMANCE OF THIS SOFTWARE.
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# This program converts the public suffix list data [1] into a C
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# program with static data representation and acessor function.
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#
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# The actual data list [2] should be placed in a file effective_tld_names.dat
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#
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# The C program is written to stdout, the typical 160K input file
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# generates 500K of program and compiles down to a 100K object file
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#
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# There is a single exported function
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#
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# const char *getpublicsuffix(const char *hostname)
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#
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# This returns the public suffix of the passed hostname or NULL if
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# there was an error processing the hostname. The returned pointer is
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# within the passed hostname so if the returned pointer is the same as
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# hostname the whole hostname is a public suffix otherwise the passed
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# hostname has a private part.
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#
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# The resulting C file is mearly a conversion of the input data (the
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# added c code is from this source and licenced under the same terms)
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# and imposes no additional copyright above that of the source data
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# file.
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#
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# Note: The pnode structure is built assuming there will never be more
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# label nodes than can fit in an unsigned 16 bit value (65535) but as
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# there are currently around 7500 nodes there is space for another
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# 58,000 before this becomes an issue.
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#
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# [1] https://publicsuffix.org/
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# [2] https://publicsuffix.org/list/effective_tld_names.dat
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# debian package for ordered hashes: libtie-ixhash-perl
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use strict;
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use warnings;
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use utf8;
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use Tie::IxHash;
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sub treesubdom
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{
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my ($tldtree_ref, $nodeidx_ref, $strtab_ref, $stridx_ref, $parts_ref) = @_;
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my $domelem = pop @{$parts_ref};
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my $isexception = 0;
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tie my %node, 'Tie::IxHash'; # this nodes hash
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# deal with explicit domain exceptions
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$isexception = ($domelem =~ s/\A!//);
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if ($isexception != 0) {
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$node{"!"} = {};
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$$nodeidx_ref += 1;
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}
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# Update string table
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if (! exists $strtab_ref->{$domelem}) {
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# add to string table
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$strtab_ref->{$domelem} = $$stridx_ref;
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{
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use bytes;
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# update the character count index
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$$stridx_ref += length($domelem);
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$$stridx_ref += 1; # terminator
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}
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}
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# link new node list into tree
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if (! exists $tldtree_ref->{$domelem}) {
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$tldtree_ref->{$domelem} = \%node;
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$$nodeidx_ref += 1;
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}
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# recurse down if there are more parts to the domain
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if (($isexception == 0) && (scalar(@{$parts_ref}) > 0)) {
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treesubdom($tldtree_ref->{$domelem}, $nodeidx_ref, $strtab_ref, $stridx_ref, $parts_ref);
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}
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}
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sub phexstr
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{
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use bytes;
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my ($str) = @_;
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my $ret;
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my @bytes = unpack('C*', $str);
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$ret = $ret . sprintf("0x%02x, ", scalar(@bytes));
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foreach (@bytes) {
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$ret = $ret . sprintf("0x%02x, ", $_);
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}
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return $ret;
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}
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# generate all the children of a parent node and recurse into each of
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# those updating optidx to point to the next free node
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sub calc_pnode
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{
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my ($parent_ref, $strtab_ref, $opidx_ref) = @_;
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my $our_dat;
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my $child_dat = "";
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my $startidx = $$opidx_ref;
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my $lineidx = -1;
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# update the output index to after this node
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$$opidx_ref += scalar keys %$parent_ref;
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# entry block
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if ($startidx == ($$opidx_ref - 1)) {
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$our_dat = "\n /* entry " . $startidx . " */\n ";
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} else {
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$our_dat = "\n /* entries " . $startidx . " to " . ($$opidx_ref - 1) . " */\n ";
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}
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# iterate over each child element domain/ref pair
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while ( my ($cdom, $cref) = each(%$parent_ref) ) {
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# make array look pretty by limiting entries per line
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if ($lineidx == 3) {
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$our_dat .= "\n ";
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$lineidx = 0;
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} elsif ($lineidx == -1) {
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$lineidx = 1;
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} else {
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$our_dat .= " ";
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$lineidx += 1;
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}
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$our_dat .= "{ ";
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$our_dat .= $strtab_ref->{$cdom} . ", ";
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my $child_count = scalar keys (%$cref);
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$our_dat .= $child_count . ", ";
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if ($child_count != 0) {
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$our_dat .= $$opidx_ref;
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$child_dat .= calc_pnode($cref, $strtab_ref, $opidx_ref);
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} else {
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$our_dat .= 0;
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}
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$our_dat .= " },";
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}
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return $our_dat . $child_dat;
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}
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# main
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binmode(STDOUT, ":utf8");
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my $filename = "effective_tld_names.dat";
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open(my $fh, '<:encoding(UTF-8)', $filename)
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or die "Could not open file '$filename' $!";
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tie my %tldtree, 'Tie::IxHash'; # node tree
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my $nodeidx = 1; # count of nodes allowing for the root node
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tie my %strtab, 'Tie::IxHash'; # string table
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my $stridx = 0;
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# put the wildcard match at 0 in the string table
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$strtab{'*'} = $stridx;
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$stridx += 2;
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# put the invert match at 2 in the string table
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$strtab{'!'} = $stridx;
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$stridx += 2;
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# read each line from prefix data and inject into hash tree
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while (my $line = <$fh>) {
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chomp $line;
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if (($line ne "") && ($line !~ /\/\/.*$/)) {
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# print "$line\n";
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my @parts=split("\\.", $line);
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# recusrsive call to build tree from root
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treesubdom(\%tldtree, \$nodeidx, \%strtab, \$stridx, \@parts);
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}
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}
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# C program header
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print <<EOF;
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/*
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* Generated with the genpubsuffix tool from effective_tld_names.dat
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*/
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#include <stdint.h>
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#include <string.h>
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EOF
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# output string table
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#
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# array of characters each string is prefixed with its length and the
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# node table below directly indexes emtries. As labels cannot be more
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# than 63 characters a byte length is more than sufficient.
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print "static const char stab[" . $stridx . "] = {\n";
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while ( my ($key, $value) = each(%strtab) ) {
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print " " . phexstr($key) . "/* " . $key . " " . $value . " */\n";
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}
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print "};\n\n";
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print "enum stab_entities {\n";
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print " STAB_WILDCARD = 0,\n";
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print " STAB_EXCEPTION = 2\n";
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print "};\n\n";
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# output static node array
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#
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# The constructed array of nodes has all siblings sequentialy and an
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# index/count to its children. This yeilds a very compact data
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# structure easily traversable.
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#
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# Additional flags for * (match all) and ! (exception) are omitted as
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# they can be infered by having a node with a label of 0 (*) or 2 (!)
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# as the string table has those values explicitly created.
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print "struct pnode {\n";
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print " uint32_t label; /* index of domain element in string table */\n";
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print " uint16_t child_count; /* number of children of this node */\n";
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print " uint16_t child_index; /* index of first child node */\n";
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print "};\n\n";
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my $opidx = 1; # output index of node
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print "static const struct pnode pnodes[" . $nodeidx . "] = {\n";
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# root node
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print " /* root entry */\n { 0," . scalar keys(%tldtree) . ", " . $opidx . " },";
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# all subsequent nodes
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print calc_pnode(\%tldtree, \%strtab, \$opidx);
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print "\n};\n\n";
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# lookup code
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print <<EOF;
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#define DOMSEP '.'
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static int matchlabel(int parent, const char *start, int len)
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{
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int clast = pnodes[parent].child_index + pnodes[parent].child_count;
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int cidx; /*child node index */
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int ridx = -1; /* index of match or -1 */
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if (pnodes[parent].child_count != 0) {
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/* there are child nodes present to scan */
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for (cidx = pnodes[parent].child_index; cidx < clast; cidx++) {
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if (pnodes[cidx].label == STAB_WILDCARD) {
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/* wildcard match */
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ridx = cidx;
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} else {
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if ((stab[pnodes[cidx].label] == len) &&
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(strncasecmp(&stab[pnodes[cidx].label + 1],
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start,
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len) == 0)) {
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if ((pnodes[cidx].child_count == 1) &&
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(pnodes[pnodes[cidx].child_index].label == STAB_EXCEPTION)) {
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/* exception to previous */
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ridx = -1;
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} else {
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ridx = cidx;
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}
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break;
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}
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}
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}
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}
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return ridx;
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}
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/*
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* Exported public API
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*/
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const char *getpublicsuffix(const char *hostname)
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{
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int treeidx = 0; /* index to current tree node */
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const char *elem_start;
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const char *elem_end;
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int lab_count = 0;
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/* deal with obviously bad hostname */
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if ((hostname == NULL) ||
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(hostname[0]) == 0 ||
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(hostname[0] == DOMSEP)) {
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return NULL;
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}
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/* hostnames are ass backwards and we need to consider elemets
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* from the end first.
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*/
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elem_end = hostname + strlen(hostname);
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/* fqdn have a separator on the end */
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if (elem_end[-1] == DOMSEP) {
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elem_end--;
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}
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elem_start = elem_end;
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/* extract the element and check for a match in our tree */
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for(;;) {
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/* find the start of the element */
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while ((elem_start > hostname) && (*elem_start != DOMSEP)) {
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elem_start--;
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}
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if (*elem_start == DOMSEP) {
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elem_start++;
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}
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lab_count++;
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/* search child nodes for label */
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treeidx = matchlabel(treeidx, elem_start, elem_end - elem_start);
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if (treeidx == -1) {
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break;
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}
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if (elem_start == hostname) {
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/* not valid */
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return NULL;
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}
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elem_end = elem_start - 1;
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elem_start = elem_end - 1;
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}
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/* The public suffix algorithm says: "the domain must match
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* the public suffix plus one additional label." This
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* requires there to be at least two labels so we need to
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* check
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*/
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if (lab_count == 1) {
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if (elem_start == hostname) {
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elem_start = NULL;
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} else {
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/* strip the non matching part */
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elem_start -= 2;
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while (elem_start > hostname && *elem_start != DOMSEP) {
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elem_start--;
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}
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if (*elem_start == DOMSEP)
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elem_start++;
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}
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}
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return elem_start;
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}
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EOF
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