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package MIME::WordDecoder; =head1 NAME MIME::WordDecoder - decode RFC 2047 encoded words to a local representation =head1 SYNOPSIS See L<MIME::Words> for the basics of encoded words. See L<"DESCRIPTION"> for how this class works. use MIME::WordDecoder; ### Get the default word-decoder (used by unmime()): $wd = default MIME::WordDecoder; ### Get a word-decoder which maps to ISO-8859-1 (Latin1): $wd = supported MIME::WordDecoder "ISO-8859-1"; ### Decode a MIME string (e.g., into Latin1) via the default decoder: $str = $wd->decode('To: =?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?= <keld>'); ### Decode a string using the default decoder, non-OO style: $str = unmime('To: =?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?= <keld>'); =head1 DESCRIPTION A MIME::WordDecoder consists, fundamentally, of a hash which maps a character set name (US-ASCII, ISO-8859-1, etc.) to a subroutine which knows how to take bytes in that character set and turn them into the target string representation. Ideally, this target representation would be Unicode, but we don't want to overspecify the translation that takes place: if you want to convert MIME strings directly to Big5, that's your own decision. The subroutine will be invoked with two arguments: DATA (the data in the given character set), and CHARSET (the upcased character set name). For example: ### Keep 7-bit characters as-is, convert 8-bit characters to '#': sub keep7bit { local $_ = shift; tr/\x00-\x7F/#/c; $_; } Here's a decoder which uses that: ### Construct a decoder: $wd = MIME::WordDecoder->new({'US-ASCII' => "KEEP", ### sub { $_[0] } 'ISO-8859-1' => \&keep7bit, 'ISO-8859-2' => \&keep7bit, 'Big5' => "WARN", '*' => "DIE"}); ### Convert some MIME text to a pure ASCII string... $ascii = $wd->decode('To: =?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?= <keld>'); ### ...which will now hold: "To: Keld J#rn Simonsen <keld>" =head1 PUBLIC INTERFACE =over =cut use strict; use Carp qw( carp croak ); use MIME::Words qw(decode_mimewords); use Exporter; use vars qw(@ISA @EXPORT); @ISA = qw(Exporter); @EXPORT = qw( unmime ); #------------------------------ # # Globals # #------------------------------ ### Decoders. my %DecoderFor = (); ### Standard handlers. my %Handler = ( KEEP => sub {$_[0]}, IGNORE => sub {''}, WARN => sub { carp "ignoring text in character set `$_[1]'\n" }, DIE => sub { croak "can't handle text in character set `$_[1]'\n" }, ); ### Global default decoder. We init it below. my $Default; #------------------------------ =item default [DECODER] I<Class method.> Get/set the default DECODER object. =cut sub default { my $class = shift; if (@_) { $Default = shift; } $Default; } #------------------------------ =item supported CHARSET, [DECODER] I<Class method.> If just CHARSET is given, returns a decoder object which maps data into that character set (the character set is forced to all-uppercase). $wd = supported MIME::WordDecoder "ISO-8859-1"; If DECODER is given, installs such an object: MIME::WordDecoder->supported("ISO-8859-1" => (new MIME::WordDecoder::ISO_8859 "1")); You should not override this method. =cut sub supported { my ($class, $charset, $decoder) = @_; $DecoderFor{uc($charset)} = $decoder if (@_ > 2); $DecoderFor{uc($charset)}; } #------------------------------ =item new [\@HANDLERS] I<Class method, constructor.> If \@HANDLERS is given, then @HANDLERS is passed to handler() to initiallize the internal map. =cut sub new { my ($class, $h) = @_; my $self = bless { MWD_Map=>{} }, $class; ### Init the map: $self->handler(@$h); ### Add fallbacks: $self->{MWD_Map}{'*'} ||= $Handler{WARN}; $self->{MWD_Map}{'raw'} ||= $self->{MWD_Map}{'US-ASCII'}; $self; } #------------------------------ =item handler CHARSET=>\&SUBREF, ... I<Instance method.> Set the handler SUBREF for a given CHARSET, for as many pairs as you care to supply. When performing the translation of a MIME-encoded string, a given SUBREF will be invoked when translating a block of text in character set CHARSET. The subroutine will be invoked with the following arguments: DATA - the data in the given character set. CHARSET - the upcased character set name, which may prove useful if you are using the same SUBREF for multiple CHARSETs. DECODER - the decoder itself, if it contains configuration information that your handler function needs. For example: $wd = new MIME::WordDecoder; $wd->handler('US-ASCII' => "KEEP"); $wd->handler('ISO-8859-1' => \&handle_latin1, 'ISO-8859-2' => \&handle_latin1, '*' => "DIE"); Notice that, much as with %SIG, the SUBREF can also be taken from a set of special keywords: KEEP Pass data through unchanged. IGNORE Ignore data in this character set, without warning. WARN Ignore data in this character set, with warning. DIE Fatal exception with "can't handle character set" message. The subroutine for the special CHARSET of 'raw' is used for raw (non-MIME-encoded) text, which is supposed to be US-ASCII. The handler for 'raw' defaults to whatever was specified for 'US-ASCII' at the time of construction. The subroutine for the special CHARSET of '*' is used for any unrecognized character set. The default action for '*' is WARN. =cut sub handler { my $self = shift; ### Copy the hash, and edit it: while (@_) { my $c = shift; my $sub = shift; $self->{MWD_Map}{$c} = $self->real_handler($sub); } $self; } #------------------------------ =item decode STRING I<Instance method.> Decode a STRING which might contain MIME-encoded components into a local representation (e.g., UTF-8, etc.). =cut sub decode { my ($self, $str) = @_; defined($str) or return undef; join('', map { ### Get the data and (upcased) charset: my $data = $_->[0]; my $charset = (defined($_->[1]) ? uc($_->[1]) : 'raw'); $charset =~ s/\*\w+\Z//; ### RFC2184 language suffix ### Get the handler; guess if never seen before: defined($self->{MWD_Map}{$charset}) or $self->{MWD_Map}{$charset} = ($self->real_handler($self->guess_handler($charset)) || 0); my $subr = $self->{MWD_Map}{$charset} || $self->{MWD_Map}{'*'}; ### Map this chunk: &$subr($data, $charset, $self); } decode_mimewords($str)); } #------------------------------ # # guess_handler CHARSET # # Instance method. # An unrecognized charset has been seen. Guess a handler subref # for the given charset, returning false if there is none. # Successful mappings will be cached in the main map. # sub guess_handler { undef; } #------------------------------ # # real_handler HANDLER # # Instance method. # Translate the given handler, which might be a subref or a string. # sub real_handler { my ($self, $sub) = @_; (!$sub) or (ref($sub) eq 'CODE') or $sub = ($Handler{$sub} || croak "bad named handler: $sub\n"); $sub; } #------------------------------ =item unmime STRING I<Function, exported.> Decode the given STRING using the default() decoder. See L<default()|/default>. =cut sub unmime($) { my $str = shift; $Default->decode($str); } =back =cut =head1 SUBCLASSES =over =cut #------------------------------------------------------------ #------------------------------------------------------------ =item MIME::WordDecoder::ISO_8859 A simple decoder which keeps US-ASCII and the 7-bit characters of ISO-8859 character sets and UTF8, and also keeps 8-bit characters from the indicated character set. ### Construct: $wd = new MIME::WordDecoder::ISO_8859 2; ### ISO-8859-2 ### What to translate unknown characters to (can also use empty): ### Default is "?". $wd->unknown("?"); ### Collapse runs of unknown characters to a single unknown()? ### Default is false. $wd->collapse(1); According to B<http://czyborra.com/charsets/iso8859.html> (ca. November 2000): ISO 8859 is a full series of 10 (and soon even more) standardized multilingual single-byte coded (8bit) graphic character sets for writing in alphabetic languages: 1. Latin1 (West European) 2. Latin2 (East European) 3. Latin3 (South European) 4. Latin4 (North European) 5. Cyrillic 6. Arabic 7. Greek 8. Hebrew 9. Latin5 (Turkish) 10. Latin6 (Nordic) The ISO 8859 charsets are not even remotely as complete as the truly great Unicode but they have been around and usable for quite a while (first registered Internet charsets for use with MIME) and have already offered a major improvement over the plain 7bit US-ASCII. Characters 0 to 127 are always identical with US-ASCII and the positions 128 to 159 hold some less used control characters: the so-called C1 set from ISO 6429. =cut package MIME::WordDecoder::ISO_8859; use strict; use vars qw(@ISA); @ISA = qw( MIME::WordDecoder ); #------------------------------ # # HANDLERS # #------------------------------ ### Keep 7bit characters. ### Turn all else to the special \x00. sub h_keep7bit { local $_ = $_[0]; # my $unknown = $_[2]->{MWDI_Unknown}; s{[\x80-\xFF]}{\x00}g; $_; } ### Note: should use Unicode::String, converting/manipulating ### everything into full Unicode form. ### Keep 7bit UTF8 characters (ASCII). ### Keep ISO-8859-1 if this decoder is for Latin-1. ### Turn all else to the special \x00. sub h_utf8 { local $_ = $_[0]; # my $unknown = $_[2]->{MWDI_Unknown}; my $latin1 = ($_[2]->{MWDI_Num} == 1); #print STDERR "UTF8 in: <$_>\n"; my $tgt = ''; while (m{\G( ([\x00-\x7F]) | # 0xxxxxxx ([\xC0-\xDF] [\x80-\xBF]) | # 110yyyyy 10xxxxxx ([\xE0-\xEF] [\x80-\xBF]{2}) | # 1110zzzz 10yyyyyy 10xxxxxx ([\xF0-\xF7] [\x80-\xBF]{3}) | # 11110uuu 10uuzzzz 10yyyyyy 10xxxxxx . # error; synch )}gcsx and ($1 ne '')) { if (defined($2)) { $tgt .= $2 } elsif (defined($3) && $latin1) { $tgt .= "\x00" } else { $tgt .= "\x00" } } #print STDERR "UTF8 out: <$tgt>\n"; $tgt; } ### Keep characters which are 7bit in UTF8 (ASCII). ### Keep ISO-8859-1 if this decoder is for Latin-1. ### Turn all else to the special \x00. sub h_utf16 { local $_ = $_[0]; # my $unknown = $_[2]->{MWDI_Unknown}; my $latin1 = ($_[2]->{MWDI_Num} == 1); #print STDERR "UTF16 in: <$_>\n"; my $tgt = ''; while (m{\G( ( \x00 ([\x00-\x7F])) | # 00000000 0xxxxxxx ( \x00 ([\x80-\xFF])) | # 00000000 1xxxxxxx ( [^\x00] [\x00-\xFF]) | # etc ) }gcsx and ($1 ne '')) { if (defined($2)) { $tgt .= $3 } elsif (defined($4) && $latin1) { $tgt .= $5 } else { $tgt .= "\x00" } } #print STDERR "UTF16 out: <$tgt>\n"; $tgt; } #------------------------------ # # PUBLIC INTERFACE # #------------------------------ #------------------------------ # # new NUMBER # sub new { my ($class, $num) = @_; my $self = $class->SUPER::new(); $self->handler('raw' => 'KEEP', 'US-ASCII' => 'KEEP'); $self->{MWDI_Num} = $num; $self->{MWDI_Unknown} = "?"; $self->{MWDI_Collapse} = 0; $self; } #------------------------------ # # guess_handler CHARSET # sub guess_handler { my ($self, $charset) = @_; return 'KEEP' if (($charset =~ /^ISO[-_]?8859[-_](\d+)$/) && ($1 eq $self->{MWDI_Num})); return \&h_keep7bit if ($charset =~ /^ISO[-_]?8859/); return \&h_utf8 if ($charset =~ /^UTF[-_]?8$/); return \&h_utf16 if ($charset =~ /^UTF[-_]?16$/); undef; } #------------------------------ # # unknown [REPLACEMENT] # sub unknown { my $self = shift; $self->{MWDI_Unknown} = shift if @_; $self->{MWDI_Unknown}; } #------------------------------ # # collapse [YESNO] # sub collapse { my $self = shift; $self->{MWDI_Collapse} = shift if @_; $self->{MWDI_Collapse}; } #------------------------------ # # decode STRING # sub decode { my $self = shift; ### Do inherited action: my $basic = $self->SUPER::decode(@_); defined($basic) or return undef; ### Translate/consolidate illegal characters: $basic =~ tr{\x00}{\x00}c if $self->{MWDI_Collapse}; $basic =~ s{\x00}{$self->{MWDI_Unknown}}g; $basic; } #------------------------------------------------------------ #------------------------------------------------------------ =item MIME::WordDecoder::US_ASCII A subclass of the ISO-8859-1 decoder which discards 8-bit characters. You're probably better off using ISO-8859-1. =cut package MIME::WordDecoder::US_ASCII; use strict; use vars qw(@ISA); @ISA = qw( MIME::WordDecoder::ISO_8859 ); sub new { my ($class) = @_; return $class->SUPER::new("1"); } sub decode { my $self = shift; ### Do inherited action: my $basic = $self->SUPER::decode(@_); defined($basic) or return undef; ### Translate/consolidate 8-bit characters: $basic =~ tr{\x80-\xFF}{}c if $self->{MWDI_Collapse}; $basic =~ s{[\x80-\xFF]}{$self->{MWDI_Unknown}}g; $basic; } =back =cut #------------------------------------------------------------ #------------------------------------------------------------ package MIME::WordDecoder; ### Now we can init the default handler. $Default = (MIME::WordDecoder::ISO_8859->new('1')); ### Add US-ASCII handler: $DecoderFor{"US-ASCII"} = MIME::WordDecoder::US_ASCII->new; ### Add ISO-8859-{1..15} handlers: for (1..15) { $DecoderFor{"ISO-8859-$_"} = MIME::WordDecoder::ISO_8859->new($_); } 1; # end the module __END__ =head1 SEE ALSO L<MIME::Tools> =head1 AUTHOR Eryq (F<eryq@zeegee.com>), ZeeGee Software Inc (F<http://www.zeegee.com>). David F. Skoll (dfs@roaringpenguin.com) http://www.roaringpenguin.com =cut BEGIN { unshift @INC, ".", "./etc", "./lib" }; import MIME::WordDecoder; ### Decode a MIME string (e.g., into Latin1) via the default decoder: my $charset = $ARGV[0] || 'ISO-8859-1'; my $wd = MIME::WordDecoder->supported($charset) || die "unsupported charset: $charset\n"; $wd->unknown('#'); my @encs = ( 'ASCII: =?US-ASCII?Q?Keith_Moore?= <moore@cs.utk.edu>', 'Latin1: =?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?= <keld@dkuug.dk>', 'Latin1: =?ISO-8859-1?Q?Andr=E9_?= Pirard <PIRARD@vm1.ulg.ac.be>', 'Latin1: =?ISO-8859-1?Q?Andr=E9_?=Pirard <PIRARD@vm1.ulg.ac.be>', ' UTF-8: =?UTF-8?Q?Andr=E9_?=Pirard <PIRARD@vm1.ulg.ac.be>', 'UTF-16: =?UTF-16?Q?=00A=00n=00d=00r=00=E9?= Pirard <PIRARD@vm1.ulg.ac.be>', ('=?ISO-8859-1?B?SWYgeW91IGNhbiByZWFkIHRoaXMgeW8=?='. '=?ISO-8859-2?B?dSB1bmRlcnN0YW5kIHRoZSBleGFtcGxlLg==?='. '=?US-ASCII?Q?.._cool!?=')); $str = $wd->decode(join "\n", @encs); print "$str\n"; 1;