# <@LICENSE> # Copyright 2004 Apache Software Foundation # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # =head1 NAME Mail::SpamAssassin::Message - decode, render, and hold an RFC-2822 message =head1 SYNOPSIS =head1 DESCRIPTION This module will encapsulate an email message and allow access to the various MIME message parts and message metadata. =head1 PUBLIC METHODS =over 4 =cut # the message structure, after initiating a parse() cycle, is now: # # Message object, also top-level node in Message::Node tree # | # +---> Message::Node for other parts in MIME structure # | |---> [ more Message::Node parts ... ] # | [ others ... ] # | # +---> Message::Metadata object to hold metadata package Mail::SpamAssassin::Message; use strict; use bytes; use Mail::SpamAssassin; use Mail::SpamAssassin::Message::Node; use Mail::SpamAssassin::Message::Metadata; use Mail::SpamAssassin::Constants qw(:sa); use vars qw(@ISA); @ISA = qw(Mail::SpamAssassin::Message::Node); # --------------------------------------------------------------------------- =item new() Creates a Mail::SpamAssassin::Message object. Takes a hash reference as a parameter. The used hash key/value pairs are as follows: C is either undef (which will use STDIN), a scalar of the entire message, an array reference of the message with 1 line per array element, or a file glob which holds the entire contents of the message. C specifies whether or not to create the MIME tree at object-creation time or later as necessary. The I option, by default, is set to false (0). This allows SpamAssassin to not have to generate the tree of Mail::SpamAssassin::Message::Node objects and their related data if the tree is not going to be used. This is handy, for instance, when running C, which only needs the pristine header and body which is always handled when the object is created. =cut # month mappings (ripped from Util.pm) my %MONTH = (jan => 1, feb => 2, mar => 3, apr => 4, may => 5, jun => 6, jul => 7, aug => 8, sep => 9, oct => 10, nov => 11, dec => 12); # day of week mapping (starting from zero) my @DAY_OF_WEEK = qw/Sun Mon Tue Wed Thu Fri Sat/ ; sub new { my $class = shift; $class = ref($class) || $class; my $self = $class->SUPER::new(); $self->{pristine_headers} = ''; $self->{pristine_body} = ''; $self->{mime_boundary_state} = {}; bless($self,$class); # create the metadata holder class $self->{metadata} = Mail::SpamAssassin::Message::Metadata->new($self); # Ok, go ahead and do the message "parsing" my($opts) = @_; my $message = $opts->{'message'} || \*STDIN; my $parsenow = $opts->{'parsenow'} || 0; # protect it from abuse ... local $_; # Figure out how the message was passed to us, and deal with it. my @message; if (ref $message eq 'ARRAY') { @message = @{$message}; } elsif (ref $message eq 'GLOB') { if (defined fileno $message) { @message = <$message>; } } else { @message = split ( /^/m, $message ); } # Go through all the headers of the message my $header = ''; my $boundary; while ( my $last = shift @message ) { if ( $last =~ /^From\s/ ) { # mbox formated mailbox $self->{'mbox_sep'} = $last; next; } elsif ($last =~ MBX_SEPARATOR) { # Munge the mbx message separator into mbox format as a sort of # de facto portability standard in SA's internals. We need to # to this so that Mail::SpamAssassin::Util::parse_rfc822_date # can parse the date string... if (/([\s|\d]\d)-([a-zA-Z]{3})-(\d{4})\s(\d{2}):(\d{2}):(\d{2})/o) { # $1 = day of month # $2 = month (text) # $3 = year # $4 = hour # $5 = min # $6 = sec my @arr = localtime(timelocal($6,$5,$4,$1,$MONTH{lc($2)}-1,$3)); my $address; foreach (@message) { if (/From:\s[^<]+<([^>]+)>/) { $address = $1; last; } elsif (/From:\s([^<^>]+)/) { $address = $1; last; } } $self->{'mbox_sep'} = "From $address $DAY_OF_WEEK[$arr[6]] $2 $1 $4:$5:$6 $3\n"; next; } } # Store the non-modified headers in a scalar $self->{'pristine_headers'} .= $last; # NB: Really need to figure out special folding rules here! if ( $last =~ /^[ \t]+/ ) { # if its a continuation if ($header) { $header .= $last; # fold continuations # If we're currently dealing with a content-type header, and there's a # boundary defined, use it. Since there could be multiple # content-type headers in a message, the last one will be the one we # should use, so just keep updating as they come in. if ($header =~ /^content-type:\s*(\S.*)$/is) { my($type,$temp_boundary) = Mail::SpamAssassin::Util::parse_content_type($1); $boundary = $temp_boundary if ($type =~ /^multipart/ && defined $temp_boundary); } # Go onto the next header line, unless the next line is a # multipart mime boundary, where we know we're going to stop # below, so drop through for final header processing. next unless (defined $boundary && $message[0] =~ /^--\Q$boundary\E(?:--|\s*$)/); } else { # There was no previous header and this is just "out there"? # Ignore it! next; } } # Ok, there's a header here, let's go ahead and add it in. if ($header) { # Yes, the /s is needed to match \n too. my ($key, $value) = split (/:\s*(?=.)/s, $header, 2); # If it's not a valid header (aka: not in the form "foo: bar"), skip it. if (defined $value) { # limit the length of the pairs we store if (length($key) > MAX_HEADER_KEY_LENGTH) { $key = substr($key, 0, MAX_HEADER_KEY_LENGTH); $self->{'truncated_header'} = 1; } if (length($value) > MAX_HEADER_VALUE_LENGTH) { $value = substr($value, 0, MAX_HEADER_VALUE_LENGTH); $self->{'truncated_header'} = 1; } $self->header($key, $value); # If we're currently dealing with a content-type header, and there's a # boundary defined, use it. Since there could be multiple # content-type headers in a message, the last one will be the one we # should use, so just keep updating as they come in. if (lc $key eq 'content-type') { my($type,$temp_boundary) = Mail::SpamAssassin::Util::parse_content_type($value); $boundary = $temp_boundary if ($type =~ /^multipart/ && defined $temp_boundary); } } } # not a continuation... $header = $last; # Ok, we found the header/body blank line ... last if ($last =~ /^\r?$/m); # Alternately, if a multipart mime boundary is found in the header area, # aka it's malformed, exit out as well and treat it as part of the body. last if (defined $boundary && $message[0] =~ /^--\Q$boundary\E(?:--|\s*$)/); } # Store the pristine body for later -- store as a copy since @message # will get modified below $self->{'pristine_body'} = join('', @message); # CRLF -> LF for ( @message ) { s/\r\n/\n/; } # If the message does need to get parsed, save off a copy of the body # in a format we can easily parse later so we don't have to rip from # pristine_body ... If we do want to parse now, go ahead and do so ... # if ($parsenow) { $self->_do_parse(\@message); } else { $self->{'toparse'} = \@message; } $self; } # --------------------------------------------------------------------------- =item _do_parse() Non-Public function which will initiate a MIME part parse (generates a tree) of the current message. Typically called by find_parts() as necessary. =cut sub _do_parse { my($self, $array) = @_; # We can either be passed the array to parse, or we may have find it # in the object data ... my $toparse; if (defined $array) { $toparse = $array; } elsif (exists $self->{'toparse'}) { $toparse = $self->{'toparse'}; delete $self->{'toparse'}; } # If we're called when we don't need to be, then just go ahead and return. return if (!defined $toparse); dbg("---- MIME PARSER START ----"); # Figure out the boundary my ($boundary); ($self->{'type'}, $boundary) = Mail::SpamAssassin::Util::parse_content_type($self->header('content-type')); dbg("main message type: ".$self->{'type'}); # Make the tree $self->parse_body( $self, $self, $boundary, $toparse, 1 ); dbg("---- MIME PARSER END ----"); } =item find_parts() Used to search the tree for specific MIME parts. See I for more details. =cut # Used to find any MIME parts whose simple content-type matches a given regexp # Searches it's own and any children parts. Returns an array of MIME # objects which match. # sub find_parts { my ($self, $re, $onlyleaves, $recursive) = @_; # ok, we need to do the parsing now... $self->_do_parse() if (exists $self->{'toparse'}); # and pass through to the Message::Node version of the method return $self->SUPER::find_parts($re, $onlyleaves, $recursive); } # --------------------------------------------------------------------------- =item get_pristine_header() Returns pristine headers of the message. If no specific header name is given as a parameter (case-insensitive), then all headers will be returned as a scalar, including the blank line at the end of the headers. If called in an array context, an array will be returned with each specific header in a different element. In a scalar context, the last specific header is returned. ie: If 'Subject' is specified as the header, and there are 2 Subject headers in a message, the last/bottom one in the message is returned in scalar context or both are returned in array context. Note: the returned header will include the ending newline and any embedded whitespace folding. =cut sub get_pristine_header { my ($self, $hdr) = @_; return $self->{pristine_headers} unless $hdr; my(@ret) = $self->{pristine_headers} =~ /^(?:$hdr:[ \t]+(.*\n(?:\s+\S.*\n)*))/mig; if (@ret) { return wantarray ? @ret : $ret[-1]; } else { return $self->get_header($hdr); } } =item get_mbox_separator() Returns the mbox separator found in the message, or undef if there wasn't one. =cut sub get_mbox_separator { return $_[0]->{mbox_sep}; } =item get_body() Returns an array of the pristine message body, one line per array element. =cut sub get_body { my ($self) = @_; my @ret = split(/^/m, $self->{pristine_body}); return \@ret; } # --------------------------------------------------------------------------- =item get_pristine() Returns a scalar of the entire pristine message. =cut sub get_pristine { my ($self) = @_; return $self->{pristine_headers} . $self->{pristine_body}; } =item get_pristine_body() Returns a scalar of the pristine message body. =cut sub get_pristine_body { my ($self) = @_; return $self->{pristine_body}; } # --------------------------------------------------------------------------- =back =head1 PARSING METHODS, NON-PUBLIC These methods take a RFC2822-esque formatted message and create a tree with all of the MIME body parts included. Those parts will be decoded as necessary, and text/html parts will be rendered into a standard text format, suitable for use in SpamAssassin. =over 4 =item parse_body() parse_body() passes the body part that was passed in onto the correct part parser, either _parse_multipart() for multipart/* parts, or _parse_normal() for everything else. Multipart sections become the root of sub-trees, while everything else becomes a leaf in the tree. For multipart messages, the first call to parse_body() doesn't create a new sub-tree and just uses the parent node to contain children. All other calls to parse_body() will cause a new sub-tree root to be created and children will exist underneath that root. (this is just so the tree doesn't have a root node which points at the actual root node ...) =cut sub parse_body { my($self, $msg, $_msg, $boundary, $body, $initial) = @_; # Figure out the simple content-type, or set it to text/plain my $type = $_msg->header('Content-Type') || 'text/plain; charset=us-ascii'; # multipart sections are required to have a boundary set ... If this # one doesn't, assume it's malformed and send it to be parsed as a # non-multipart section # if ( $type =~ /^multipart\//i && defined $boundary ) { # Treat an initial multipart parse differently. This will keep the tree: # obj(multipart->[ part1, part2 ]) instead of # obj(obj(multipart ...)) # if ( $initial ) { $self->_parse_multipart( $msg, $_msg, $boundary, $body ); } else { $self->_parse_multipart( $_msg, $_msg, $boundary, $body ); $msg->add_body_part( $_msg ); } } else { # If it's not multipart, go ahead and just deal with it. $self->_parse_normal( $msg, $_msg, $boundary, $body ); } } =item _parse_multipart() Generate a root node, and for each child part call parse_body() to generate the tree. =cut sub _parse_multipart { my($self, $msg, $_msg, $boundary, $body) = @_; dbg("parsing multipart, got boundary: ".(defined $boundary ? $boundary : '')); # NOTE: The MIME boundary REs here are very specific to be mostly RFC 1521 # compliant, but also allow possible malformations to still work. Please # see Bugzilla bug 3749 for more information before making any changes! # ignore preamble per RFC 1521, unless there's no boundary ... if ( defined $boundary ) { my $line; my $tmp_line = @{$body}; for ($line=0; $line < $tmp_line; $line++) { # specifically look for an opening boundary if ($body->[$line] =~ /^--\Q$boundary\E\s*$/) { # Make note that we found the opening boundary $self->{mime_boundary_state}->{$boundary} = 1; last; } } # Found a boundary, ignore the preamble if ( $line < $tmp_line ) { splice @{$body}, 0, $line+1; } # Else, there's no boundary, so leave the whole part... } my $part_msg = Mail::SpamAssassin::Message::Node->new(); # prepare a new tree node my $in_body = 0; my $header; my $part_array; my $line_count = @{$body}; foreach ( @{$body} ) { # if we're on the last body line, or we find any boundary marker, # deal with the mime part if ( --$line_count == 0 || (defined $boundary && /^--\Q$boundary\E(?:--|\s*$)/) ) { my $line = $_; # remember the last line # per rfc 1521, the CRLF before the boundary is part of the boundary: # NOTE: The CRLF preceding the encapsulation line is conceptually # attached to the boundary so that it is possible to have a part # that does not end with a CRLF (line break). Body parts that must # be considered to end with line breaks, therefore, must have two # CRLFs preceding the encapsulation line, the first of which is part # of the preceding body part, and the second of which is part of the # encapsulation boundary. if ($part_array) { chomp( $part_array->[-1] ); # trim the CRLF that's part of the boundary splice @{$part_array}, -1 if ( $part_array->[-1] eq '' ); # blank line for the boundary only ... } else { # Invalid parts can have no body, so fake in a blank body # in that case. $part_array = []; } my($p_boundary); ($part_msg->{'type'}, $p_boundary) = Mail::SpamAssassin::Util::parse_content_type($part_msg->header('content-type')); $p_boundary ||= $boundary; dbg("found part of type ".$part_msg->{'type'}.", boundary: ".(defined $p_boundary ? $p_boundary : '')); $self->parse_body( $msg, $part_msg, $p_boundary, $part_array, 0 ); # rfc 1521 says /^--boundary--$/ but MUAs have a tendancy to just # require /^--boundary--/ due to malformed messages, so that'll work for # us as well. if (defined $boundary && $line =~ /^--\Q${boundary}\E--/) { # Make a note that we've seen the end boundary $self->{mime_boundary_state}->{$boundary}--; last; } # make sure we start with a new clean node $in_body = 0; $part_msg = Mail::SpamAssassin::Message::Node->new(); undef $part_array; undef $header; next; } if ($in_body) { # we run into a perl bug if the lines are astronomically long (probably # due to lots of regexp backtracking); so cut short any individual line # over MAX_BODY_LINE_LENGTH bytes in length. This can wreck HTML # totally -- but IMHO the only reason a luser would use # MAX_BODY_LINE_LENGTH-byte lines is to crash filters, anyway. while (length ($_) > MAX_BODY_LINE_LENGTH) { push (@{$part_array}, substr($_, 0, MAX_BODY_LINE_LENGTH)."\n"); substr($_, 0, MAX_BODY_LINE_LENGTH) = ''; } push ( @{$part_array}, $_ ); } else { s/\s+$//; if (m/^\S/) { if ($header) { my ( $key, $value ) = split ( /:\s*/, $header, 2 ); $part_msg->header( $key, $value ); } $header = $_; } elsif (/^$/) { if ($header) { my ( $key, $value ) = split ( /:\s*/, $header, 2 ); $part_msg->header( $key, $value ); } $in_body = 1; } else { $_ =~ s/^\s*//; $header .= $_; } } } } =item _parse_normal() Generate a leaf node and add it to the parent. =cut sub _parse_normal { my ($self, $msg, $part_msg, $boundary, $body) = @_; dbg("parsing normal part"); $part_msg->{'type'} = Mail::SpamAssassin::Util::parse_content_type($part_msg->header('content-type')); # multipart sections are required to have a boundary set ... If this # one doesn't, assume it's malformed and revert to text/plain $part_msg->{'type'} = 'text/plain' if ( $part_msg->{'type'} =~ /^multipart\//i && !defined $boundary ); # attempt to figure out a name for this attachment if there is one ... my $disp = $part_msg->header('content-disposition') || ''; my($filename) = $disp =~ /name="?([^\";]+)"?/i || $part_msg->{'type'} =~ /name="?([^\";]+)"?/i; $part_msg->{'raw'} = $body; $part_msg->{'boundary'} = $boundary; $part_msg->{'name'} = $filename if $filename; # If this part is a message/* part, and the parent isn't also a # message/* part (ie: the main part) go ahead and parse into a tree. if ($part_msg->{'type'} =~ /^message\b/i) { # Get the part ready... my $message = $part_msg->decode(); if ($message) { my $msg_obj = Mail::SpamAssassin::Message->new({message=>$message, parsenow=>1}); # main message is a message/* part ... if ($msg == $part_msg) { $msg->add_body_part($msg_obj); } else { # Add the new part as a child to the parent # NOTE: if the message only has this one part, we'll be recursive so delete # the body_parts list appropriately. $msg->add_body_part($part_msg); $part_msg->add_body_part($msg_obj); } return; } } # Add the new part as a child to the parent # NOTE: if the message only has this one part, we'll be recursive so delete # the body_parts list appropriately. $msg->add_body_part($part_msg); # now that we've added the leaf node, let's go ahead and kill # body_parts (used for sub-trees). there's no point for a leaf to have it, # and if the main and child parts are the same, we'll end up being recursive, # and well, let's avoid that. ;) # # BTW: please leave this after add_body_parts() since it'll add it back. # delete $part_msg->{body_parts}; } # --------------------------------------------------------------------------- sub get_rendered_body_text_array { my ($self) = @_; if (exists $self->{text_rendered}) { return $self->{text_rendered}; } $self->{text_rendered} = []; # Find all parts which are leaves my @parts = $self->find_parts(qr/^(?:text|message)\b/i,1); return $self->{text_rendered} unless @parts; # Go through each part my $text = $self->get_header ('subject') || ''; for(my $pt = 0 ; $pt <= $#parts ; $pt++ ) { my $p = $parts[$pt]; # put a blank line between parts ... $text .= "\n" if ( $text ); my($type, $rnd) = $p->rendered(); # decode this part if ( defined $rnd ) { # Only text/* types are rendered ... $text .= $rnd; # TVD - if there are multiple parts, what should we do? # right now, just use the last one ... $self->{metadata}->{html} = $p->{html_results} if ( $type eq 'text/html' ); } else { $text .= $p->decode(); } } # whitespace handling (warning: small changes have large effects!) $text =~ s/\n+\s*\n+/\f/gs; # double newlines => form feed $text =~ tr/ \t\n\r\x0b\xa0/ /s; # whitespace => space $text =~ tr/\f/\n/; # form feeds => newline # warn "JMD $text"; my @textary = split_into_array_of_short_lines ($text); $self->{text_rendered} = \@textary; return $self->{text_rendered}; } # --------------------------------------------------------------------------- # TODO: possibly this should just replace get_rendered_body_text_array(). # (although watch out, this one doesn't copy {html} to metadata) sub get_visible_rendered_body_text_array { my ($self) = @_; if (exists $self->{text_visible_rendered}) { return $self->{text_visible_rendered}; } $self->{text_visible_rendered} = []; # Find all parts which are leaves my @parts = $self->find_parts(qr/^(?:text|message)\b/i,1); return $self->{text_visible_rendered} unless @parts; # Go through each part my $text = $self->get_header ('subject') || ''; for(my $pt = 0 ; $pt <= $#parts ; $pt++ ) { my $p = $parts[$pt]; # put a blank line between parts ... $text .= "\n" if ( $text ); my($type, $rnd) = $p->visible_rendered(); # decode this part if ( defined $rnd ) { # Only text/* types are rendered ... $text .= $rnd; } else { $text .= $p->decode(); } } # whitespace handling (warning: small changes have large effects!) $text =~ s/\n+\s*\n+/\f/gs; # double newlines => form feed $text =~ tr/ \t\n\r\x0b\xa0/ /s; # whitespace => space $text =~ tr/\f/\n/; # form feeds => newline my @textary = split_into_array_of_short_lines ($text); $self->{text_visible_rendered} = \@textary; return $self->{text_visible_rendered}; } sub get_invisible_rendered_body_text_array { my ($self) = @_; if (exists $self->{text_invisible_rendered}) { return $self->{text_invisible_rendered}; } $self->{text_invisible_rendered} = []; # Find all parts which are leaves my @parts = $self->find_parts(qr/^(?:text|message)\b/i,1); return $self->{text_invisible_rendered} unless @parts; # Go through each part my $text = ''; for(my $pt = 0 ; $pt <= $#parts ; $pt++ ) { my $p = $parts[$pt]; # put a blank line between parts ... $text .= "\n" if ( $text ); my($type, $rnd) = $p->invisible_rendered(); # decode this part if ( defined $rnd ) { # Only text/* types are rendered ... $text .= $rnd; } } # whitespace handling (warning: small changes have large effects!) $text =~ s/\n+\s*\n+/\f/gs; # double newlines => form feed $text =~ tr/ \t\n\r\x0b\xa0/ /s; # whitespace => space $text =~ tr/\f/\n/; # form feeds => newline my @textary = split_into_array_of_short_lines ($text); $self->{text_invisible_rendered} = \@textary; return $self->{text_invisible_rendered}; } # --------------------------------------------------------------------------- sub get_decoded_body_text_array { my ($self) = @_; if (defined $self->{text_decoded}) { return $self->{text_decoded}; } $self->{text_decoded} = [ ]; # Find all parts which are leaves my @parts = $self->find_parts(qr/^(?:text|message)\b/i,1); return $self->{text_decoded} unless @parts; # Go through each part for(my $pt = 0 ; $pt <= $#parts ; $pt++ ) { push(@{$self->{text_decoded}}, "\n") if ( @{$self->{text_decoded}} ); push(@{$self->{text_decoded}}, split_into_array_of_short_lines($parts[$pt]->decode())); } return $self->{text_decoded}; } # --------------------------------------------------------------------------- sub split_into_array_of_short_lines { my @result = (); foreach my $line (split (/^/m, $_[0])) { while (length ($line) > MAX_BODY_LINE_LENGTH) { push (@result, substr($line, 0, MAX_BODY_LINE_LENGTH)); substr($line, 0, MAX_BODY_LINE_LENGTH) = ''; } push (@result, $line); } @result; } # --------------------------------------------------------------------------- =item $str = get_metadata($hdr) =cut sub extract_message_metadata { my ($self, $main) = @_; # do this only once per message, it can be expensive if ($self->{already_extracted_metadata}) { return; } $self->{already_extracted_metadata} = 1; $self->{metadata}->extract ($self, $main); } # --------------------------------------------------------------------------- =item $str = get_metadata($hdr) =cut sub get_metadata { my ($self, $hdr) = @_; if (!$self->{metadata}) { warn "oops! get_metadata() called after finish_metadata()"; return; } $self->{metadata}->{strings}->{$hdr}; } =item put_metadata($hdr, $text) =cut sub put_metadata { my ($self, $hdr, $text) = @_; if (!$self->{metadata}) { warn "oops! put_metadata() called after finish_metadata()"; return; } $self->{metadata}->{strings}->{$hdr} = $text; } =item delete_metadata($hdr) =cut sub delete_metadata { my ($self, $hdr) = @_; if (!$self->{metadata}) { warn "oops! delete_metadata() called after finish_metadata()"; return; } delete $self->{metadata}->{strings}->{$hdr}; } =item $str = get_all_metadata() =cut sub get_all_metadata { my ($self) = @_; if (!$self->{metadata}) { warn "oops! get_all_metadata() called after finish_metadata()"; return; } my @ret = (); foreach my $key (sort keys %{$self->{metadata}->{strings}}) { push (@ret, "$key: " . $self->{metadata}->{strings}->{$key} . "\n"); } return (wantarray ? @ret : join('', @ret)); } # --------------------------------------------------------------------------- =item finish_metadata() Destroys the metadata for this message. Once a message has been scanned fully, the metadata is no longer required. Destroying this will free up some memory. =cut sub finish_metadata { my ($self) = @_; if (defined ($self->{metadata})) { $self->{metadata}->finish(); delete $self->{metadata}; } } =item finish() Clean up an object so that it can be destroyed. =cut sub finish { my ($self) = @_; # Clean ourself up $self->finish_metadata(); delete $self->{pristine_headers}; delete $self->{pristine_body}; delete $self->{text_decoded}; delete $self->{text_rendered}; # Destroy the tree ... $self->SUPER::finish(); } # --------------------------------------------------------------------------- =item receive_date() Return a time_t value with the received date of the current message, or current time if received time couldn't be determined. =cut sub receive_date { my($self) = @_; return Mail::SpamAssassin::Util::receive_date(scalar $self->get_all_headers(0,1)); } # --------------------------------------------------------------------------- sub dbg { Mail::SpamAssassin::dbg (@_); } 1;