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package Encode::MIME::Header; use strict; use warnings; no warnings 'redefine'; our $VERSION = do { my @r = ( q$Revision: 2.13 $ =~ /\d+/g ); sprintf "%d." . "%02d" x $#r, @r }; use Encode qw(find_encoding encode_utf8 decode_utf8); use MIME::Base64; use Carp; my %seed = ( decode_b => '1', # decodes 'B' encoding ? decode_q => '1', # decodes 'Q' encoding ? encode => 'B', # encode with 'B' or 'Q' ? bpl => 75, # bytes per line ); $Encode::Encoding{'MIME-Header'} = bless { %seed, Name => 'MIME-Header', } => __PACKAGE__; $Encode::Encoding{'MIME-B'} = bless { %seed, decode_q => 0, Name => 'MIME-B', } => __PACKAGE__; $Encode::Encoding{'MIME-Q'} = bless { %seed, decode_q => 1, encode => 'Q', Name => 'MIME-Q', } => __PACKAGE__; use base qw(Encode::Encoding); sub needs_lines { 1 } sub perlio_ok { 0 } sub decode($$;$) { use utf8; my ( $obj, $str, $chk ) = @_; # zap spaces between encoded words $str =~ s/\?=\s+=\?/\?==\?/gos; # multi-line header to single line $str =~ s/(?:\r\n|[\r\n])[ \t]//gos; 1 while ( $str =~ s/(=\?[-0-9A-Za-z_]+\?[Qq]\?)(.*?)\?=\1(.*?\?=)/$1$2$3/ ) ; # Concat consecutive QP encoded mime headers # Fixes breaking inside multi-byte characters $str =~ s{ =\? # begin encoded word ([-0-9A-Za-z_]+) # charset (encoding) (?:\*[A-Za-z]{1,8}(?:-[A-Za-z]{1,8})*)? # language (RFC 2231) \?([QqBb])\? # delimiter (.*?) # Base64-encodede contents \?= # end encoded word }{ if (uc($2) eq 'B'){ $obj->{decode_b} or croak qq(MIME "B" unsupported); decode_b($1, $3, $chk); } elsif (uc($2) eq 'Q'){ $obj->{decode_q} or croak qq(MIME "Q" unsupported); decode_q($1, $3, $chk); } else { croak qq(MIME "$2" encoding is nonexistent!); } }egox; $_[1] = $str if $chk; return $str; } sub decode_b { my $enc = shift; my $d = find_encoding($enc) or croak qq(Unknown encoding "$enc"); my $db64 = decode_base64(shift); my $chk = shift; return $d->name eq 'utf8' ? Encode::decode_utf8($db64) : $d->decode( $db64, $chk || Encode::FB_PERLQQ ); } sub decode_q { my ( $enc, $q, $chk ) = @_; my $d = find_encoding($enc) or croak qq(Unknown encoding "$enc"); $q =~ s/_/ /go; $q =~ s/=([0-9A-Fa-f]{2})/pack("C", hex($1))/ego; return $d->name eq 'utf8' ? Encode::decode_utf8($q) : $d->decode( $q, $chk || Encode::FB_PERLQQ ); } my $especials = join( '|' => map { quotemeta( chr($_) ) } unpack( "C*", qq{()<>,;:"'/[]?=} ) ); my $re_encoded_word = qr{ =\? # begin encoded word (?:[-0-9A-Za-z_]+) # charset (encoding) (?:\*[A-Za-z]{1,8}(?:-[A-Za-z]{1,8})*)? # language (RFC 2231) \?(?:[QqBb])\? # delimiter (?:.*?) # Base64-encodede contents \?= # end encoded word }xo; my $re_especials = qr{$re_encoded_word|$especials}xo; sub encode($$;$) { my ( $obj, $str, $chk ) = @_; my @line = (); for my $line ( split /\r\n|[\r\n]/o, $str ) { my ( @word, @subline ); for my $word ( split /($re_especials)/o, $line ) { if ( $word =~ /[^\x00-\x7f]/o or $word =~ /^$re_encoded_word$/o ) { push @word, $obj->_encode($word); } else { push @word, $word; } } my $subline = ''; for my $word (@word) { use bytes (); if ( bytes::length($subline) + bytes::length($word) > $obj->{bpl} - 1 ) { push @subline, $subline; $subline = ''; } $subline .= ' ' if ($subline =~ /\?=$/ and $word =~ /^=\?/); $subline .= $word; } $subline and push @subline, $subline; push @line, join( "\n " => @subline ); } $_[1] = '' if $chk; return join( "\n", @line ); } use constant HEAD => '=?UTF-8?'; use constant TAIL => '?='; use constant SINGLE => { B => \&_encode_b, Q => \&_encode_q, }; sub _encode { my ( $o, $str ) = @_; my $enc = $o->{encode}; my $llen = ( $o->{bpl} - length(HEAD) - 2 - length(TAIL) ); # to coerce a floating-point arithmetics, the following contains # .0 in numbers -- dankogai $llen *= $enc eq 'B' ? 3.0 / 4.0 : 1.0 / 3.0; my @result = (); my $chunk = ''; while ( length( my $chr = substr( $str, 0, 1, '' ) ) ) { use bytes (); if ( bytes::length($chunk) + bytes::length($chr) > $llen ) { push @result, SINGLE->{$enc}($chunk); $chunk = ''; } $chunk .= $chr; } length($chunk) and push @result, SINGLE->{$enc}($chunk); return @result; } sub _encode_b { HEAD . 'B?' . encode_base64( encode_utf8(shift), '' ) . TAIL; } sub _encode_q { my $chunk = shift; $chunk = encode_utf8($chunk); $chunk =~ s{ ([^0-9A-Za-z]) }{ join("" => map {sprintf "=%02X", $_} unpack("C*", $1)) }egox; return HEAD . 'Q?' . $chunk . TAIL; } 1; __END__ =head1 NAME Encode::MIME::Header -- MIME 'B' and 'Q' header encoding =head1 SYNOPSIS use Encode qw/encode decode/; $utf8 = decode('MIME-Header', $header); $header = encode('MIME-Header', $utf8); =head1 ABSTRACT This module implements RFC 2047 Mime Header Encoding. There are 3 variant encoding names; C<MIME-Header>, C<MIME-B> and C<MIME-Q>. The difference is described below decode() encode() ---------------------------------------------- MIME-Header Both B and Q =?UTF-8?B?....?= MIME-B B only; Q croaks =?UTF-8?B?....?= MIME-Q Q only; B croaks =?UTF-8?Q?....?= =head1 DESCRIPTION When you decode(=?I<encoding>?I<X>?I<ENCODED WORD>?=), I<ENCODED WORD> is extracted and decoded for I<X> encoding (B for Base64, Q for Quoted-Printable). Then the decoded chunk is fed to decode(I<encoding>). So long as I<encoding> is supported by Encode, any source encoding is fine. When you encode, it just encodes UTF-8 string with I<X> encoding then quoted with =?UTF-8?I<X>?....?= . The parts that RFC 2047 forbids to encode are left as is and long lines are folded within 76 bytes per line. =head1 BUGS It would be nice to support encoding to non-UTF8, such as =?ISO-2022-JP? and =?ISO-8859-1?= but that makes the implementation too complicated. These days major mail agents all support =?UTF-8? so I think it is just good enough. Due to popular demand, 'MIME-Header-ISO_2022_JP' was introduced by Makamaka. Thre are still too many MUAs especially cellular phone handsets which does not grok UTF-8. =head1 SEE ALSO L<Encode> RFC 2047, L<http://www.faqs.org/rfcs/rfc2047.html> and many other locations. =cut