BEGIN {
$VERSION = 1.00;
- @EXPORT_OK = qw(parse decode_rfc1522 encode_rfc1522 convert_to_utf8);
+ @EXPORT_OK = qw(parse decode_rfc1522 encode_rfc1522 convert_to_utf8 create_mime_message);
}
use File::Path;
# for decode_rfc1522
use MIME::WordDecoder qw();
-use Unicode::MapUTF8 qw(to_utf8 utf8_supported_charset);
+use Encode qw(decode encode encode_utf8 decode_utf8 is_utf8);
# for encode_rfc1522
use MIME::Words qw();
return { header => [@headerlines], body => [@bodylines]};
}
+=head2 create_mime_message
+
+ create_mime_message([To=>'don@debian.org'],$body,[$attach1, $attach2]);
+
+Creates a MIME encoded message with headers given by the first
+argument, and a message given by the second.
+
+Optional attachments can be specified in the third arrayref argument.
+
+Headers are passed directly to MIME::Entity::build, the message is the
+first attachment.
+
+Each of the elements of the attachment arrayref is attached as an
+rfc822 message if it is a scalar or an arrayref; otherwise if it is a
+hashref, the contents are passed as an argument to
+MIME::Entity::attach
+
+=cut
+
+sub create_mime_message{
+ my ($headers,$body,$attachments) = @_;
+ $attachments = [] if not defined $attachments;
+
+ die "The first argument to create_mime_message must be an arrayref" unless ref($headers) eq 'ARRAY';
+ die "The third argument to create_mime_message must be an arrayref" unless ref($attachments) eq 'ARRAY';
+
+ # Build the message
+ # MIME::Entity is stupid, and doesn't rfc1522 encode its headers, so we do it for it.
+ my $msg = MIME::Entity->build('Content-Type' => 'text/plain; charset=utf-8',
+ 'Encoding' => 'quoted-printable',
+ (map{encode_rfc1522($_)} @{$headers}),
+ Data => $body
+ );
+
+ # Attach the attachments
+ for my $attachment (@{$attachments}) {
+ if (ref($attachment) eq 'HASH') {
+ $msg->attach(%{$attachment});
+ }
+ else {
+ # This is *craptacular*, but because various MTAs
+ # (sendmail and exim4, at least) appear to eat From
+ # lines in message/rfc822 attachments, we need eat
+ # the entire From line ourselves so the MTA doesn't
+ # leave \n detrius around.
+ if (ref($attachment) eq 'ARRAY' and $attachment->[1] =~ /^From /) {
+ # make a copy so that we don't screw up anything
+ # that is expecting this arrayref to stay constant
+ $attachment = [@{$attachment}];
+ # remove the from line
+ splice @$attachment, 1, 1;
+ }
+ elsif (not ref($attachment)) {
+ # It's a scalar; remove the from line
+ $attachment =~ s/^(Received:[^\n]+\n)(From [^\n]+\n)/$1/s;
+ }
+ $msg->attach(Type => 'message/rfc822',
+ Data => $attachment,
+ Encoding => '7bit',
+ );
+ }
+ }
+ return $msg->as_string;
+}
+
+
# Bug #61342 et al.
sub convert_to_utf8 {
my ($data, $charset) = @_;
- $charset =~ s/^(UTF)\-(\d+)/$1$2/i;
- return $data unless utf8_supported_charset($charset);
- return to_utf8({
- -string => $data,
- -charset => $charset,
- });
+ # raw data just gets returned (that's the charset WordDecorder
+ # uses when it doesn't know what to do)
+ return $data if $charset eq 'raw' or is_utf8($data,1);
+ my $result;
+ eval {
+ # this encode/decode madness is to make sure that the data
+ # really is valid utf8 and that the is_utf8 flag is off.
+ $result = encode("utf8",decode($charset,$data))
+ };
+ if ($@) {
+ warn "Unable to decode charset; '$charset' and '$data': $@";
+ return $data;
+ }
+ return $result;
}
return MIME::WordDecoder::unmime($string);
}
-sub encode_rfc1522 ($)
-{
- my ($string) = @_;
+=head2 encode_rfc1522
+
+ encode_rfc1522('Dön Armströng <don@donarmstrong.com>')
+
+Encodes headers according to the RFC1522 standard by calling
+MIME::Words::encode_mimeword on distinct words as appropriate.
+
+=cut
+
+# We cannot use MIME::Words::encode_mimewords because that function
+# does not handle spaces properly at all.
+
+sub encode_rfc1522 ($) {
+ my ($rawstr) = @_;
+
+ # We process words in reverse so we can preserve spacing between
+ # encoded words. This regex splits on word|nonword boundaries and
+ # nonword|nonword boundaries.
+ my @words = reverse split /(?:(?<=[\s\n])|(?=[\s\n]))/m, $rawstr;
- return MIME::Words::encode_mimewords($string, Charset => 'UTF-8');
+ my $previous_word_encoded = 0;
+ my $string = '';
+ for my $word (@words) {
+ if ($word !~ m#[\x00-\x1F\x7F-\xFF]#o and $word ne ' ') {
+ $string = $word.$string;
+ $previous_word_encoded=0;
+ }
+ elsif ($word =~ /^[\s\n]$/) {
+ $string = $word.$string;
+ $previous_word_encoded = 0 if $word eq "\n";
+ }
+ else {
+ my $encoded = MIME::Words::encode_mimeword($word, 'q', 'UTF-8');
+ # RFC 1522 mandates that segments be at most 76 characters
+ # long. If that's the case, we split the word up into 10
+ # character pieces and encode it. We must use the Encode
+ # magic here to avoid breaking on bit boundaries here.
+ if (length $encoded > 75) {
+ # Turn utf8 into the internal perl representation
+ # so . is a character, not a byte.
+ my $tempstr = decode_utf8($word,Encode::FB_DEFAULT);
+ my @encoded;
+ # Strip it into 10 character long segments, and encode
+ # the segments
+ # XXX It's possible that these segments are > 76 characters
+ while ($tempstr =~ s/(.{1,10})$//) {
+ # turn the character back into the utf8 representation.
+ my $tempword = encode_utf8($1);
+ # It may actually be better to eventually use
+ # the base64 encoding here, but I'm not sure
+ # if that's as widely supported as quoted
+ # printable.
+ unshift @encoded, MIME::Words::encode_mimeword($tempword,'q','UTF-8');
+ }
+ $encoded = join(" ",@encoded);
+ # If the previous word was encoded, we must
+ # include a trailing _ that gets encoded as a
+ # space.
+ $encoded =~ s/\?\=$/_\?\=/ if $previous_word_encoded;
+ $string = $encoded.$string;
+ }
+ else {
+ # If the previous word was encoded, we must
+ # include a trailing _ that gets encoded as a
+ # space.
+ $encoded =~ s/\?\=$/_\?\=/ if $previous_word_encoded;
+ $string = $encoded.$string;
+ }
+ $previous_word_encoded = 1;
+ }
+ }
+ return $string;
}
1;