package MIME::QuotedPrint; # $Id: QuotedPrint.pm,v 1.2 2004/01/14 12:52:44 gisle Exp $ use strict; use vars qw(@ISA @EXPORT $VERSION); if (ord('A') == 193) { # on EBCDIC machines we need translation help require Encode; } require Exporter; @ISA = qw(Exporter); @EXPORT = qw(encode_qp decode_qp); $VERSION = "2.10"; my $RE_Z = "\\z"; $RE_Z = "\$" if $] < 5.005; sub encode_qp ($;$) { my $res = shift; if ($] >= 5.006) { require bytes; if (bytes::length($res) > length($res) || ($] >= 5.008 && $res =~ /[^\0-\xFF]/)) { require Carp; Carp::croak("The Quoted-Printable encoding is only defined for bytes"); } } my $eol = shift; $eol = "\n" unless defined $eol; # Do not mention ranges such as $res =~ s/([^ \t\n!-<>-~])/sprintf("=%02X", ord($1))/eg; # since that will not even compile on an EBCDIC machine (where ord('!') > ord('<')). if (ord('A') == 193) { # EBCDIC style machine if (ord('[') == 173) { $res =~ s/([^ \t\n!"#\$%&'()*+,\-.\/0-9:;<>?\@A-Z[\\\]^_`a-z{|}~])/sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('cp1047',$1))))/eg; # rule #2,#3 $res =~ s/([ \t]+)$/ join('', map { sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('cp1047',$_)))) } split('', $1) )/egm; # rule #3 (encode whitespace at eol) } elsif (ord('[') == 187) { $res =~ s/([^ \t\n!"#\$%&'()*+,\-.\/0-9:;<>?\@A-Z[\\\]^_`a-z{|}~])/sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('posix-bc',$1))))/eg; # rule #2,#3 $res =~ s/([ \t]+)$/ join('', map { sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('posix-bc',$_)))) } split('', $1) )/egm; # rule #3 (encode whitespace at eol) } elsif (ord('[') == 186) { $res =~ s/([^ \t\n!"#\$%&'()*+,\-.\/0-9:;<>?\@A-Z[\\\]^_`a-z{|}~])/sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('cp37',$1))))/eg; # rule #2,#3 $res =~ s/([ \t]+)$/ join('', map { sprintf("=%02X", ord(Encode::encode('iso-8859-1',Encode::decode('cp37',$_)))) } split('', $1) )/egm; # rule #3 (encode whitespace at eol) } } else { # ASCII style machine $res =~ s/([^ \t\n!"#\$%&'()*+,\-.\/0-9:;<>?\@A-Z[\\\]^_`a-z{|}~])/sprintf("=%02X", ord($1))/eg; # rule #2,#3 $res =~ s/\n/=0A/g unless length($eol); $res =~ s/([ \t]+)$/ join('', map { sprintf("=%02X", ord($_)) } split('', $1) )/egm; # rule #3 (encode whitespace at eol) } return $res unless length($eol); # rule #5 (lines must be shorter than 76 chars, but we are not allowed # to break =XX escapes. This makes things complicated :-( ) my $brokenlines = ""; $brokenlines .= "$1=$eol" while $res =~ s/(.*?^[^\n]{73} (?: [^=\n]{2} (?! [^=\n]{0,1} $) # 75 not followed by .?\n |[^=\n] (?! [^=\n]{0,2} $) # 74 not followed by .?.?\n | (?! [^=\n]{0,3} $) # 73 not followed by .?.?.?\n ))//xsm; $res =~ s/\n$RE_Z/$eol/o; "$brokenlines$res"; } sub decode_qp ($) { my $res = shift; $res =~ s/\r\n/\n/g; # normalize newlines $res =~ s/[ \t]+\n/\n/g; # rule #3 (trailing space must be deleted) $res =~ s/=\n//g; # rule #5 (soft line breaks) if (ord('A') == 193) { # EBCDIC style machine if (ord('[') == 173) { $res =~ s/=([\da-fA-F]{2})/Encode::encode('cp1047',Encode::decode('iso-8859-1',pack("C", hex($1))))/ge; } elsif (ord('[') == 187) { $res =~ s/=([\da-fA-F]{2})/Encode::encode('posix-bc',Encode::decode('iso-8859-1',pack("C", hex($1))))/ge; } elsif (ord('[') == 186) { $res =~ s/=([\da-fA-F]{2})/Encode::encode('cp37',Encode::decode('iso-8859-1',pack("C", hex($1))))/ge; } } else { # ASCII style machine $res =~ s/=([\da-fA-F]{2})/pack("C", hex($1))/ge; } $res; } 1; __END__ =head1 NAME MIME::QuotedPrint - Encoding and decoding of quoted-printable strings =head1 SYNOPSIS use MIME::QuotedPrint; $encoded = encode_qp($decoded); $decoded = decode_qp($encoded); =head1 DESCRIPTION This module provide the same interface as C, but these functions are implemented in pure perl. This module provides functions to encode and decode strings into and from the quoted-printable encoding specified in RFC 2045 - I. The quoted-printable encoding is intended to represent data that largely consists of bytes that correspond to printable characters in the ASCII character set. Each non-printable character (as defined by English Americans) is represented by a triplet consisting of the character "=" followed by two hexadecimal digits. The following functions are provided: =over 4 =item encode_qp($str) =item encode_qp($str, $eol) This function returns an encoded version of the string given as argument. The second argument is the line-ending sequence to use. It is optional and defaults to "\n". Every occurrence of "\n" is replaced with this string, and it is also used for additional "soft line breaks" to ensure that no line is longer than 76 characters. You might want to pass it as "\015\012" to produce data suitable for external consumption. The string "\r\n" produces the same result on many platforms, but not all. An $eol of "" (the empty string) is special. In this case, no "soft line breaks" are introduced and any literal "\n" in the original data is encoded as well. =item decode_qp($str); This function returns the plain text version of the string given as argument. The lines of the result are "\n" terminated, even if the $str argument contains "\r\n" terminated lines. =back =head1 COPYRIGHT Copyright 1995-1997,2002-2004 Gisle Aas. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO L, L =cut