=head1 NAME Mail::SpamAssassin - Mail::Audit spam detector plugin =head1 SYNOPSIS my $mail = Mail::SpamAssassin::NoMailAudit->new(); my $spamtest = Mail::SpamAssassin->new(); my $status = $spamtest->check ($mail); if ($status->is_spam ()) { $status->rewrite_mail (); $mail->accept("spamfolder"); } else { $mail->accept(); # to default incoming mailbox } ... =head1 DESCRIPTION Mail::SpamAssassin is a module to identify spam using text analysis and several internet-based realtime blacklists. Using its rule base, it uses a wide range of heuristic tests on mail headers and body text to identify "spam", also known as unsolicited commercial email. Once identified, the mail can then be optionally tagged as spam for later filtering using the user's own mail user-agent application. This module also implements a Mail::Audit plugin, allowing SpamAssassin to be used in a Mail::Audit filter. If you wish to use a command-line filter tool, try the C or C tools provided. Note that, if you're using Mail::Audit, the constructor for the Mail::Audit object must use the C option, like so: my $ma = new Mail::Audit ( nomime => 1 ); SpamAssassin also includes support for reporting spam messages to collaborative filtering databases, such as Vipul's Razor ( http://razor.sourceforge.net/ ). =head1 METHODS =over 4 =cut package Mail::SpamAssassin; use strict; use bytes; # We do our best to make SA run with any Perl downto 5.005. You might want to # read if you plan to # hack SA and are used to Perl 5.6+. use 5.005; use Mail::SpamAssassin::Conf; use Mail::SpamAssassin::ConfSourceSQL; use Mail::SpamAssassin::PerMsgStatus; use Mail::SpamAssassin::NoMailAudit; use Mail::SpamAssassin::Bayes; use File::Basename; use File::Path; use File::Spec 0.8; use File::Copy; use Cwd; use Config; # Load Time::HiRes if it's available BEGIN { eval { require Time::HiRes }; Time::HiRes->import( qw(time) ) unless $@; } use vars qw{ @ISA $VERSION $SUB_VERSION @EXTRA_VERSION $IS_DEVEL_BUILD $HOME_URL $DEBUG @default_rules_path @default_prefs_path @default_userprefs_path @default_userstate_dir @site_rules_path }; $VERSION = "2.62"; # update after release $IS_DEVEL_BUILD = 0; # change for release versions @ISA = qw(); # SUB_VERSION is now ---
- $SUB_VERSION = (split(/\s+/,'$LastChangedDate: 2004-01-11 14:21:28 -0500 (Sun, 11 Jan 2004) $ updated by SVN'))[1]; # If you hacked up your SA, add a token to identify it here. Eg.: I use # "mss", increasing with every hack. @EXTRA_VERSION = qw(); if (defined $IS_DEVEL_BUILD && $IS_DEVEL_BUILD) { push(@EXTRA_VERSION, ( 'r' . qw{$LastChangedRevision: 6141 $ updated by SVN}[1] )); } sub Version { join('-', $VERSION, @EXTRA_VERSION) } $HOME_URL = "http://spamassassin.org/"; # note that the CWD takes priority. This is required in case a user # is testing a new version of SpamAssassin on a machine with an older # version installed. Unless you can come up with a fix for this that # allows "make test" to work, don't change this. @default_rules_path = ( './rules', # REMOVEFORINST '../rules', # REMOVEFORINST '__def_rules_dir__', '__prefix__/share/spamassassin', '/usr/local/share/spamassassin', '/usr/share/spamassassin', ); # first 3 are BSDish, latter 2 Linuxish @site_rules_path = ( '__local_rules_dir__', '__prefix__/etc/mail/spamassassin', '__prefix__/etc/spamassassin', '/usr/local/etc/spamassassin', '/usr/pkg/etc/spamassassin', '/usr/etc/spamassassin', '/etc/mail/spamassassin', '/etc/spamassassin', ); @default_prefs_path = ( '__local_rules_dir__/user_prefs.template', '__prefix__/etc/mail/spamassassin/user_prefs.template', '__prefix__/share/spamassassin/user_prefs.template', '/etc/spamassassin/user_prefs.template', '/etc/mail/spamassassin/user_prefs.template', '/usr/local/share/spamassassin/user_prefs.template', '/usr/share/spamassassin/user_prefs.template', ); @default_userprefs_path = ( '~/.spamassassin/user_prefs', ); @default_userstate_dir = ( '~/.spamassassin', ); ########################################################################### =item $f = new Mail::SpamAssassin( [ { opt => val, ... } ] ) Constructs a new C object. You may pass the following attribute-value pairs to the constructor. =over 4 =item rules_filename The filename to load spam-identifying rules from. (optional) =item site_rules_filename The filename to load site-specific spam-identifying rules from. (optional) =item userprefs_filename The filename to load preferences from. (optional) =item userstate_dir The directory user state is stored in. (optional) =item config_text The text of all rules and preferences. If you prefer not to load the rules from files, read them in yourself and set this instead. As a result, this will override the settings for C, C, and C. =item languages_filename If you want to be able to use the language-guessing rule C, and are using C instead of C, C, and C, you will need to set this. It should be the path to the B file normally found in the SpamAssassin B directory. =item local_tests_only If set to 1, no tests that require internet access will be performed. (default: 0) =item dont_copy_prefs If set to 1, the user preferences file will not be created if it doesn't already exist. (default: 0) =item save_pattern_hits If set to 1, the patterns hit can be retrieved from the C object. Used for debugging. =item home_dir_for_helpers If set, the B environment variable will be set to this value when using test applications that require their configuration data, such as Razor, Pyzor and DCC. =item username If set, the C attribute will use this as the current user's name. Otherwise, the default is taken from the runtime environment (ie. this process' effective UID under UNIX). =back If none of C, C, C, or C is set, the C module will search for the configuration files in the usual installed locations. =cut sub new { my $class = shift; $class = ref($class) || $class; my $self = shift; if (!defined $self) { $self = { }; } bless ($self, $class); $DEBUG->{enabled} = 0; if (defined $self->{debug} && $self->{debug} > 0) { $DEBUG->{enabled} = 1; } # if the libs are installed in an alternate location, and the caller # didn't set PREFIX, we should have an estimated guess ready ... $self->{PREFIX} ||= '@@PREFIX@@'; # substituted at 'make' time # This should be moved elsewhere, I know, but SA really needs debug sets # I'm putting the intialization here for now, move it if you want # For each part of the code, you can set debug levels. If the level is # progressive, use negative numbers (the more negative, the move debug info # is put out), and if you want to use bit fields, use positive numbers # All code path debug codes should be listed here with a value of 0 if you # want them disabled -- Marc $DEBUG->{datediff}=-1; $DEBUG->{razor}=-3; $DEBUG->{dcc}=0; $DEBUG->{pyzor}=0; $DEBUG->{rbl}=0; $DEBUG->{dnsavailable}=-2; $DEBUG->{bayes}=0; # Bitfield: # header regex: 1 | body-text: 2 | uri tests: 4 | raw-body-text: 8 # full-text regexp: 16 | run_eval_tests: 32 | run_rbl_eval_tests: 64 $DEBUG->{rulesrun}=64; $self->{conf} ||= new Mail::SpamAssassin::Conf ($self); $self->{save_pattern_hits} ||= 0; # Make sure that we clean $PATH if we're tainted Mail::SpamAssassin::Util::clean_path_in_taint_mode(); # this could probably be made a little faster; for now I'm going # for slow but safe, by keeping in quotes if (Mail::SpamAssassin::Util::am_running_on_windows()) { eval ' use Mail::SpamAssassin::Win32Locker; $self->{locker} = new Mail::SpamAssassin::Win32Locker ($self); '; ($@) and die $@; } else { eval ' use Mail::SpamAssassin::UnixLocker; $self->{locker} = new Mail::SpamAssassin::UnixLocker ($self); '; ($@) and die $@; } $self->{encapsulated_content_description} = 'original message before SpamAssassin'; if (!defined $self->{username}) { $self->{username} = (Mail::SpamAssassin::Util::portable_getpwuid ($>))[0]; } $self; } ########################################################################### =item $f->trim_rules ($regexp) Remove all rules that don't match the given regexp (or are sub-rules of meta-tests that match the regexp). =cut my @rule_types = ("body_tests", "uri_tests", "uri_evals", "head_tests", "head_evals", "body_evals", "full_tests", "full_evals", "rawbody_tests", "rawbody_evals", "meta_tests"); sub trim_rules { my ($self, $regexp) = @_; my @all_rules; foreach my $rule_type (@rule_types) { push(@all_rules, keys(%{$self->{conf}->{$rule_type}})); } my @rules_to_keep = grep(/$regexp/, @all_rules); if (@rules_to_keep == 0) { die "trim_rules(): All rules excluded, nothing to test.\n"; } my @meta_tests = grep(/$regexp/, keys(%{$self->{conf}->{meta_tests}})); foreach my $meta (@meta_tests) { push(@rules_to_keep, add_meta_depends($self->{conf}, $meta)) } my %rules_to_keep_hash = (); foreach my $rule (@rules_to_keep) { $rules_to_keep_hash{$rule} = 1; } foreach my $rule_type (@rule_types) { foreach my $rule (keys(%{$self->{conf}->{$rule_type}})) { delete $self->{conf}->{$rule_type}->{$rule} if (!$rules_to_keep_hash{$rule}); } } } # trim_rules() sub add_meta_depends { my ($conf, $meta) = @_; my @rules = (); my @tokens = $conf->{meta_tests}->{$meta} =~ m/(\w+)/g; @tokens = grep(!/^\d+$/, @tokens); # @tokens now only consists of sub-rules foreach my $token (@tokens) { push(@rules, $token); # If the sub-rule is a meta-test, recurse if ($conf->{meta_tests}->{$token}) { push(@rules, add_meta_depends($conf, $token)); } } # foreach my $token (@tokens) return @rules; } # add_meta_depends() ########################################################################### =item $status = $f->check ($mail) Check a mail, encapsulated in a C or C object, to determine if it is spam or not. Returns a C object which can be used to test or manipulate the mail message. Note that the C object can be re-used for further messages without affecting this check; in OO terminology, the C object is a "factory". However, if you do this, be sure to call the C method on the status objects when you're done with them. =cut sub check { my ($self, $mail_obj) = @_; local ($_); $self->init(1); my $mail = $self->encapsulate_mail_object ($mail_obj); my $msg = Mail::SpamAssassin::PerMsgStatus->new($self, $mail); # Message-Id is used for a filename on disk, so we can't have '/' in it. $msg->check(); $msg; } ########################################################################### =item $status = $f->learn ($mail, $id, $isspam, $forget) Learn from a mail, encapsulated in a C or C object. If C<$isspam> is set, the mail is assumed to be spam, otherwise it will be learnt as non-spam. If C<$forget> is set, the attributes of the mail will be removed from both the non-spam and spam learning databases. C<$id> is an optional message-identification string, used internally to tag the message. If it is C, the Message-Id of the message will be used. It should be unique to that message. Returns a C object which can be used to manipulate the learning process for each mail. Note that the C object can be re-used for further messages without affecting this check; in OO terminology, the C object is a "factory". However, if you do this, be sure to call the C method on the learner objects when you're done with them. C and C can be run using the same factory. C must be called before using this method. =cut sub learn { my ($self, $mail_obj, $id, $isspam, $forget) = @_; local ($_); require Mail::SpamAssassin::PerMsgLearner; $self->init(1); my $mail = $self->encapsulate_mail_object ($mail_obj); my $msg = Mail::SpamAssassin::PerMsgLearner->new($self, $mail); if ($forget) { $msg->forget($id); } elsif ($isspam) { dbg("Learning Spam"); $msg->learn_spam($id); } else { dbg("Learning Ham"); $msg->learn_ham($id); } $msg; } ########################################################################### =item $f->init_learner ( [ { opt => val, ... } ] ) Initialise learning. You may pass the following attribute-value pairs to this method. =over 4 =item caller_will_untie Whether or not the code calling this method will take care of untie'ing from the Bayes databases (by calling C) (optional, default 0). =item force_expire Should an expiration run be forced to occur immediately? (optional, default 0). =item learn_to_journal Should learning data be written to the journal, instead of directly to the databases? (optional, default 0). =item wait_for_lock Whether or not to wait a long time for locks to complete (optional, default 0). =back =cut sub init_learner { my $self = shift; my $opts = shift; dbg ("Initialising learner"); if (defined $opts->{force_expire}) { $self->{learn_force_expire} = $opts->{force_expire}; } if (defined $opts->{learn_to_journal}) { $self->{learn_to_journal} = $opts->{learn_to_journal}; } if (defined $opts->{caller_will_untie}) { $self->{learn_caller_will_untie} = $opts->{caller_will_untie}; } if (defined $opts->{wait_for_lock}) { $self->{learn_wait_for_lock} = $opts->{wait_for_lock}; } 1; } ########################################################################### =item $f->rebuild_learner_caches ({ opt => val }) Rebuild any cache databases; should be called after the learning process. Options include: C, which will output diagnostics to C if set to 1. =cut sub rebuild_learner_caches { my $self = shift; my $opts = shift; $self->{bayes_scanner}->sync(1,1,$opts); 1; } =item $f->finish_learner () Finish learning. =cut sub finish_learner { my $self = shift; $self->{bayes_scanner}->finish(); 1; } =item $f->dump_bayes_db() Dump the contents of the Bayes DB =cut sub dump_bayes_db { my($self,@opts) = @_; $self->{bayes_scanner}->dump_bayes_db(@opts); 1; } =item $f->signal_user_changed ( [ { opt => val, ... } ] ) Signals that the current user has changed (possibly using C), meaning that SpamAssassin should close any per-user databases it has open, and re-open using ones appropriate for the new user. Note that this should be called I reading any per-user configuration, as that data may override some paths opened in this method. You may pass the following attribute-value pairs: =over 4 =item username The username of the user. This will be used for the C attribute. =item user_dir A directory to use as a 'home directory' for the current user's data, overriding the system default. This directory must be readable and writable by the process. =back =cut sub signal_user_changed { my $self = shift; my $opts = shift; my $set = 0; dbg ("user has changed"); if (defined $opts && $opts->{username}) { $self->{username} = $opts->{username}; } if (defined $opts && $opts->{user_dir}) { $self->{user_dir} = $opts->{user_dir}; } # reopen bayes dbs for this user $self->{bayes_scanner}->finish(); $self->{bayes_scanner} = new Mail::SpamAssassin::Bayes ($self); $set |= 1 unless $self->{local_tests_only}; $set |= 2 if $self->{bayes_scanner}->is_scan_available(); $self->{conf}->set_score_set ($set); 1; } ########################################################################### =item $status = $f->check_message_text ($mailtext) Check a mail, encapsulated in a plain string, to determine if it is spam or not. Otherwise identical to C<$f->check()> above. =cut sub check_message_text { my $self = shift; my @lines = split (/^/m, $_[0]); my $mail_obj = Mail::SpamAssassin::NoMailAudit->new ('data' => \@lines); return $self->check ($mail_obj); } ########################################################################### =item $f->report_as_spam ($mail, $options) Report a mail, encapsulated in a C object, as human-verified spam. This will submit the mail message to live, collaborative, spam-blocker databases, allowing other users to block this message. It will also submit the mail to SpamAssassin's Bayesian learner. Options is an optional reference to a hash of options. Currently these can be: =over 4 =item dont_report_to_razor Inhibits reporting of the spam to Razor; useful if you know it's already been listed there. =item dont_report_to_dcc Inhibits reporting of the spam to DCC; useful if you know it's already been listed there. =item dont_report_to_pyzor Inhibits reporting of the spam to Pyzor; useful if you know it's already been listed there. =back =cut sub report_as_spam { my ($self, $mail, $options) = @_; local ($_); $self->init(1); # Let's make sure the markup was removed first ... my @msg = split (/^/m, $self->remove_spamassassin_markup($mail)); $mail = Mail::SpamAssassin::NoMailAudit->new ('data' => \@msg); $mail = $self->encapsulate_mail_object ($mail); # learn as spam if enabled if ( $self->{conf}->{bayes_learn_during_report} ) { $self->learn ($mail, undef, 1, 0); } require Mail::SpamAssassin::Reporter; $mail = Mail::SpamAssassin::Reporter->new($self, $mail, $options); $mail->report (); } ########################################################################### =item $f->revoke_as_spam ($mail, $options) Revoke a mail, encapsulated in a C object, as human-verified ham (non-spam). This will revoke the mail message from live, collaborative, spam-blocker databases, allowing other users to block this message. It will also submit the mail to SpamAssassin's Bayesian learner as nonspam. Options is an optional reference to a hash of options. Currently these can be: =over 4 =item dont_report_to_razor Inhibits revoking of the spam to Razor. =back =cut sub revoke_as_spam { my ($self, $mail, $options) = @_; local ($_); $self->init(1); # Let's make sure the markup was removed first ... my @msg = split (/^/m, $self->remove_spamassassin_markup($mail)); $mail = Mail::SpamAssassin::NoMailAudit->new ('data' => \@msg); $mail = $self->encapsulate_mail_object ($mail); # learn as nonspam $self->learn ($mail, undef, 0, 0); require Mail::SpamAssassin::Reporter; $mail = Mail::SpamAssassin::Reporter->new($self, $mail, $options); $mail->revoke (); } ########################################################################### =item $f->add_address_to_whitelist ($addr) Given a string containing an email address, add it to the automatic whitelist database. =cut sub add_address_to_whitelist { my ($self, $addr) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); if ($list->add_known_good_address ($addr)) { print "SpamAssassin auto-whitelist: adding address: $addr\n"; } $list->finish(); } =item $f->add_all_addresses_to_whitelist ($mail) Given a mail message, find as many addresses in the usual headers (To, Cc, From etc.), and the message body, and add them to the automatic whitelist database. =cut sub add_all_addresses_to_whitelist { my ($self, $mail_obj) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); foreach my $addr ($self->find_all_addrs_in_mail ($mail_obj)) { if ($list->add_known_good_address ($addr)) { print "SpamAssassin auto-whitelist: adding address: $addr\n"; } } $list->finish(); } ########################################################################### =item $f->remove_address_from_whitelist ($addr) Given a string containing an email address, remove it from the automatic whitelist database. =cut sub remove_address_from_whitelist { my ($self, $addr) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); if ($list->remove_address ($addr)) { print "SpamAssassin auto-whitelist: removing address: $addr\n"; } $list->finish(); } =item $f->remove_all_addresses_from_whitelist ($mail) Given a mail message, find as many addresses in the usual headers (To, Cc, From etc.), and the message body, and remove them from the automatic whitelist database. =cut sub remove_all_addresses_from_whitelist { my ($self, $mail_obj) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); foreach my $addr ($self->find_all_addrs_in_mail ($mail_obj)) { if ($list->remove_address ($addr)) { print "SpamAssassin auto-whitelist: removing address: $addr\n"; } } $list->finish(); } ########################################################################### =item $f->add_address_to_blacklist ($addr) Given a string containing an email address, add it to the automatic whitelist database with a high score, effectively blacklisting them. =cut sub add_address_to_blacklist { my ($self, $addr) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); if ($list->add_known_bad_address ($addr)) { print "SpamAssassin auto-whitelist: blacklisting address: $addr\n"; } $list->finish(); } =item $f->add_all_addresses_to_blacklist ($mail) Given a mail message, find addresses in the From headers and add them to the automatic whitelist database with a high score, effectively blacklisting them. Note that To and Cc addresses are not used. =cut sub add_all_addresses_to_blacklist { my ($self, $mail_obj) = @_; my $list = Mail::SpamAssassin::AutoWhitelist->new($self); $self->init(1); my $mail = $self->encapsulate_mail_object ($mail_obj); my @addrlist = (); my @hdrs = $mail->get_header ('From'); if ($#hdrs >= 0) { push (@addrlist, $self->find_all_addrs_in_line (join (" ", @hdrs))); } foreach my $addr (@addrlist) { if ($list->add_known_bad_address ($addr)) { print "SpamAssassin auto-whitelist: blacklisting address: $addr\n"; } } $list->finish(); } ########################################################################### =item $f->reply_with_warning ($mail, $replysender) Reply to the sender of a mail, encapsulated in a C object, explaining that their message has been added to spam-tracking databases and deleted. To be used in conjunction with C. The C<$replysender> argument should contain an email address to use as the sender of the reply message. =cut sub reply_with_warning { my ($self, $mail, $replysender) = @_; $self->init(1); $mail = $self->encapsulate_mail_object ($mail); require Mail::SpamAssassin::Replier; $mail = Mail::SpamAssassin::Replier->new ($self, $mail); $mail->reply ($replysender); } ########################################################################### =item $text = $f->remove_spamassassin_markup ($mail) Returns the text of the message, with any SpamAssassin-added text (such as the report, or X-Spam-Status headers) stripped. Note that the B<$mail> object is not modified. =cut sub remove_spamassassin_markup { my ($self, $mail_obj) = @_; local ($_); dbg("Removing Markup"); $self->init(1); my $ct = $mail_obj->get_header("Content-Type") || ''; if ( $ct && $ct =~ m!^\s*multipart/mixed;\s+boundary\s*=\s*["']?(.+?)["']?(?:;|$)!i ) { # Ok, this is a possible encapsulated message, search for the # appropriate mime part and deal with it if necessary. my $boundary = "\Q$1\E"; my @msg = split(/^/,$mail_obj->get_pristine()); my $flag = 0; $ct = ''; my $cd = ''; for ( my $i = 0 ; $i <= $#msg ; $i++ ) { next unless ( $msg[$i] =~ /^--$boundary$/ || $flag ) ; # only look at mime headers if ( $msg[$i] =~ /^\s*$/ ) { # end of mime header # Ok, we found the encapsulated piece ... if ($ct =~ m@(?:message/rfc822|text/plain);\s+x-spam-type=original@ || ($ct eq "message/rfc822" && $cd eq $self->{'encapsulated_content_description'})) { splice @msg, 1, $i; ; # remove the front part, leave the 'From ' header. splice @msg, 0, 1 if ( $msg[0] !~ /^From / ); # not From? remove it. # find the end and chop it off for ( $i = 0 ; $i <= $#msg ; $i++ ) { if ( $msg[$i] =~ /^--$boundary/ ) { splice @msg, ($msg[$i-1] =~ /\S/ ? $i : $i-1); # will remove the blank line (not sure it'll always be # there) and everything below. don't worry, the splice # guarantees the for will stop ... } } # Ok, we're done. Return the message. return join('',@msg); } $flag = 0; $ct = ''; $cd = ''; next; } # Ok, we're in the mime header ... Capture the appropriate headers... $flag = 1; if ( $msg[$i] =~ /^Content-Type:\s+(.+?)\s*$/i ) { $ct = $1; } elsif ( $msg[$i] =~ /^Content-Description:\s+(.+?)\s*$/i ) { $cd = $1; } } } my $mail = $self->encapsulate_mail_object ($mail_obj); my $hdrs = $mail->get_all_headers(); # remove DOS line endings $hdrs =~ s/\r//gs; # de-break lines on SpamAssassin-modified headers. 1 while $hdrs =~ s/(\n(?:X-Spam|Subject)[^\n]+?)\n[ \t]+/$1 /gs; # reinstate the old content type if ($hdrs =~ /^X-Spam-Prev-Content-Type: /m) { $hdrs =~ s/\nContent-Type: [^\n]*?\n/\n/gs; $hdrs =~ s/\nX-Spam-Prev-(Content-Type: [^\n]*\n)/\n$1/gs; # remove embedded spaces where they shouldn't be; a common problem $hdrs =~ s/(Content-Type: .*?boundary=\".*?) (.*?\".*?\n)/$1$2/gs; } # reinstate the old content transfer encoding if ($hdrs =~ /^X-Spam-Prev-Content-Transfer-Encoding: /m) { $hdrs =~ s/\nContent-Transfer-Encoding: [^\n]*?\n/\n/gs; $hdrs =~ s/\nX-Spam-Prev-(Content-Transfer-Encoding: [^\n]*\n)/\n$1/gs; } # reinstate the return-receipt-to header if ($hdrs =~ /^X-Spam-Prev-Return-Receipt-To: /m) { $hdrs =~ s/\nX-Spam-Prev-(Return-Receipt-To: [^\n]*\n)/\n$1/gs; } # remove the headers we added 1 while $hdrs =~ s/\nX-Spam-[^\n]*?\n/\n/gs; my $tag = $self->{conf}->{subject_tag}; while ( $tag =~ /(_HITS_|_REQD_)/g ) { my $typeoftag = $1; $hdrs =~ s/^Subject: (\D*)\d\d\.\d\d/Subject: $1$typeoftag/m; } # Wow. Very Hackish. 1 while $hdrs =~ s/^Subject: \Q${tag}\E /Subject: /gm; # ok, next, the report. # This is a little tricky since we can have either 0, 1 or 2 reports; # 0 for the non-spam case, 1 for normal filtering, and 2 for -t (where # an extra report is appended at the end of the mail). my @newbody = (); my $inreport = 0; foreach $_ (@{$mail->get_body()}) { s/\r?$//; # DOS line endings if (/^SPAM: ----/ && $inreport == 0) { # we've just entered a report. If there's a blank line before the # report, get rid of it... if ($#newbody > 0 && $newbody[$#newbody-1] =~ /^$/) { pop (@newbody); } # and skip on to the next line... $inreport = 1; next; } if ($inreport && /^$/) { # blank line at end of report; skip it. Also note that we're # now out of the report. $inreport = 0; next; } # finally, if we're not in the report, add it to the body array if (!$inreport) { push (@newbody, $_); } } return $hdrs."\n".join ('', @newbody); } ########################################################################### =item $f->read_scoreonly_config ($filename) Read a configuration file and parse only scores from it. This is used to safely allow multi-user daemons to read per-user config files without having to use C. =cut sub read_scoreonly_config { my ($self, $filename) = @_; if (!open(IN,"<$filename")) { # the file may not exist; this should not be verbose dbg ("read_scoreonly_config: cannot open \"$filename\": $!"); return; } my $text = join ('',); close IN; $self->{conf}->parse_scores_only ($text); if ($self->{conf}->{allow_user_rules}) { dbg("finishing parsing!"); $self->{conf}->finish_parsing(); } } ########################################################################### =item $f->load_scoreonly_sql ($username) Read configuration paramaters from SQL database and parse scores from it. This will only take effect if the perl C module is installed, and the configuration parameters C, C, and C are set correctly. The username in C<$username> will also be used for the C attribute of the Mail::SpamAssassin object. =cut sub load_scoreonly_sql { my ($self, $username) = @_; my $src = Mail::SpamAssassin::ConfSourceSQL->new ($self); $self->{username} = $username; $src->load($username); } ########################################################################### =item $f->set_persistent_address_list_factory ($factoryobj) Set the persistent address list factory, used to create objects for the automatic whitelist algorithm's persistent-storage back-end. See C for the API these factory objects must implement, and the API the objects they produce must implement. =cut sub set_persistent_address_list_factory { my ($self, $fac) = @_; $self->{pers_addr_list_factory} = $fac; } ########################################################################### =item $f->compile_now ($use_user_prefs) Compile all patterns, load all configuration files, and load all possibly-required Perl modules. Normally, Mail::SpamAssassin uses lazy evaluation where possible, but if you plan to fork() or start a new perl interpreter thread to process a message, this is suboptimal, as each process/thread will have to perform these actions. Call this function in the master thread or process to perform the actions straightaway, so that the sub-processes will not have to. If C<$use_user_prefs> is 0, this will initialise the SpamAssassin configuration without reading the per-user configuration file and it will assume that you will call C at a later point. =cut sub compile_now { my ($self, $use_user_prefs) = @_; # note: this may incur network access. Good. We want to make sure # as much as possible is preloaded! my @testmsg = ("From: ignore\@compiling.spamassassin.taint.org\n", "Message-Id: <".time."\@spamassassin_spamd_init>\n", "\n", "I need to make this message body somewhat long so TextCat preloads\n"x20); dbg ("ignore: test message to precompile patterns and load modules"); $self->init($use_user_prefs); my $mail = Mail::SpamAssassin::NoMailAudit->new(data => \@testmsg); my $encapped = $self->encapsulate_mail_object ($mail); my $status = Mail::SpamAssassin::PerMsgStatus->new($self, $encapped, { disable_auto_learning => 1 } ); $status->word_is_in_dictionary("aba"); # load triplets.txt into memory $status->check(); $status->finish(); # load SQL modules now as well my $dsn = $self->{conf}->{user_scores_dsn}; if ($dsn ne '') { Mail::SpamAssassin::ConfSourceSQL::load_modules(); } $self->{bayes_scanner}->sanity_check_is_untied(); 1; } ########################################################################### =item $failed = $f->lint_rules () Syntax-check the current set of rules. Returns the number of syntax errors discovered, or 0 if the configuration is valid. =cut sub lint_rules { my ($self) = @_; dbg ("ignore: using a test message to lint rules"); my @testmsg = ("From: ignore\@compiling.spamassassin.taint.org\n", "Subject: \n", "Message-Id: <".CORE::time()."\@lint_rules>\n", "\n", "I need to make this message body somewhat long so TextCat preloads\n"x20); $self->{lint_rules} = $self->{conf}->{lint_rules} = 1; $self->{syntax_errors} = 0; $self->{rule_errors} = 0; $self->init(1); $self->{syntax_errors} += $self->{conf}->{errors}; my $mail = Mail::SpamAssassin::NoMailAudit->new(data => \@testmsg); my $encapped = $self->encapsulate_mail_object ($mail); my $status = Mail::SpamAssassin::PerMsgStatus->new($self, $encapped, { disable_auto_learning => 1 } ); $status->check(); $self->{syntax_errors} += $status->{rule_errors}; $status->finish(); return ($self->{syntax_errors}); } ########################################################################### # non-public methods. sub init { my ($self, $use_user_pref) = @_; if (defined $self->{_initted}) { # seed PRNG whenever the process id changes if ($self->{_initted} != $$) { $self->{_initted} = $$; srand; } return; } $self->{_initted} = $$; #fix spamd reading root prefs file unless (defined $use_user_pref) { $use_user_pref = 1; } if (!defined $self->{config_text}) { $self->{config_text} = ''; my $fname = $self->{rules_filename}; $fname ||= $self->first_existing_path (@default_rules_path); if ($fname) { $self->{config_text} .= $self->read_cf ($fname, 'default rules dir'); if (-f "$fname/languages") { $self->{languages_filename} = "$fname/languages"; } } $fname = $self->{site_rules_filename}; $fname ||= $self->first_existing_path (@site_rules_path); if ($fname) { $self->{config_text} .= $self->read_cf ($fname, 'site rules dir'); } if ( $use_user_pref != 0 ) { $self->get_and_create_userstate_dir(); # user prefs file $fname = $self->{userprefs_filename}; $fname ||= $self->first_existing_path (@default_userprefs_path); if (defined $fname) { if (!-f $fname && !$self->{dont_copy_prefs} && !$self->create_default_prefs($fname)) { warn "Failed to create default user preference file $fname\n"; } } $self->{config_text} .= $self->read_cf ($fname, 'user prefs file'); } } if ($self->{config_text} !~ /\S/) { warn "No configuration text or files found! Please check your setup.\n"; } $self->{conf}->parse_rules ($self->{config_text}); $self->{conf}->finish_parsing (); delete $self->{config_text}; $self->{bayes_scanner} = new Mail::SpamAssassin::Bayes ($self); my $set = 0; $set |= 1 unless $self->{local_tests_only}; $set |= 2 if $self->{bayes_scanner}->is_scan_available(); $self->{conf}->set_score_set ($set); $self->init_learner({ 'learn_to_journal' => $self->{conf}->{bayes_learn_to_journal} }); if ($self->{only_these_rules}) { $self->trim_rules($self->{only_these_rules}); } # TODO -- open DNS cache etc. if necessary } sub read_cf { my ($self, $path, $desc) = @_; return '' unless defined ($path); dbg ("using \"$path\" for $desc"); my $txt = ''; if (-d $path) { foreach my $file ($self->get_cf_files_in_dir ($path)) { open (IN, "<".$file) or warn "cannot open \"$file\": $!\n", next; $txt .= "file start $file\n"; # let Conf know $txt .= join ('', ); # add an extra \n in case file did not end in one. $txt .= "\nfile end $file\n"; close IN; } } elsif (-f $path && -s _ && -r _) { open (IN, "<".$path) or warn "cannot open \"$path\": $!\n"; $txt .= "file start $path\n"; $txt = join ('', ); $txt .= "file end $path\n"; close IN; } return $txt; } sub get_and_create_userstate_dir { my ($self) = @_; # user state directory my $fname = $self->{userstate_dir}; $fname ||= $self->first_existing_path (@default_userstate_dir); # If vpopmail is enabled then set fname to virtual homedir # if (defined $self->{user_dir}) { $fname = File::Spec->catdir ($self->{user_dir}, ".spamassassin"); } if (defined $fname && !$self->{dont_copy_prefs}) { dbg ("using \"$fname\" for user state dir"); } if (!-d $fname) { # not being able to create the *dir* is not worth a warning at all times eval { mkpath ($fname, 0, 0700) } or dbg ("mkdir $fname failed: $@ $!\n"); } $fname; } =item $f->create_default_prefs ($filename, $username [ , $userdir ] ) Copy default preferences file into home directory for later use and modification, if it does not already exist and C is not set. =cut sub create_default_prefs { # $userdir will only exist if vpopmail config is enabled thru spamd # Its value will be the virtual user's maildir # my ($self, $fname, $user, $userdir) = @_; if ($self->{dont_copy_prefs}) { return(0); } if ($userdir && $userdir ne $self->{user_dir}) { warn "Oops! user_dirs don't match! '$userdir' vs '$self->{user_dir}'\n"; } if (!-f $fname) { # Pass on the value of $userdir for virtual users in vpopmail # otherwise it is empty and the user's normal homedir is used $self->get_and_create_userstate_dir(); # copy in the default one for later editing my $defprefs = $self->first_existing_path (@Mail::SpamAssassin::default_prefs_path); if (open (IN, "<$defprefs")) { $fname = Mail::SpamAssassin::Util::untaint_file_path($fname); if (open (OUT, ">$fname")) { while () { /^\#\* / and next; print OUT; } close OUT; close IN; if (($< == 0) && ($> == 0) && defined($user)) { # chown it my ($uid,$gid) = (getpwnam($user))[2,3]; unless (chown($uid, $gid, $fname)) { warn "Couldn't chown $fname to $uid:$gid for $user: $!\n"; } } warn "Created user preferences file: $fname\n"; return(1); } else { warn "Cannot write to $fname: $!\n"; } } else { warn "Cannot open $defprefs: $!\n"; } } return(0); } ########################################################################### sub expand_name ($) { my ($self, $name) = @_; my $home = $self->{user_dir} || $ENV{HOME} || ''; if (Mail::SpamAssassin::Util::am_running_on_windows()) { my $userprofile = $ENV{USERPROFILE} || ''; return $userprofile if ($userprofile && $userprofile =~ m/^[a-z]\:[\/\\]/oi); return $userprofile if ($userprofile =~ m/^\\\\/o); return $home if ($home && $home =~ m/^[a-z]\:[\/\\]/oi); return $home if ($home =~ m/^\\\\/o); return ''; } else { return $home if ($home && $home =~ /\//o); return (getpwnam($name))[7] if ($name ne ''); return (getpwuid($>))[7]; } } sub sed_path { my ($self, $path) = @_; return undef if (!defined $path); $path =~ s/__local_rules_dir__/$self->{LOCAL_RULES_DIR} || ''/ges; $path =~ s/__def_rules_dir__/$self->{DEF_RULES_DIR} || ''/ges; $path =~ s{__prefix__}{$self->{PREFIX} || $Config{prefix} || '/usr'}ges; $path =~ s{__userstate__}{$self->get_and_create_userstate_dir()}ges; $path =~ s/^\~([^\/]*)/$self->expand_name($1)/es; return Mail::SpamAssassin::Util::untaint_file_path ($path); } sub first_existing_path { my $self = shift; my $path; foreach my $p (@_) { $path = $self->sed_path ($p); if (defined $path && -e $path) { return $path; } } $path; } sub get_cf_files_in_dir { my ($self, $dir) = @_; opendir(SA_CF_DIR, $dir) or warn "cannot opendir $dir: $!\n"; my @cfs = grep { /\.cf$/ && -f "$dir/$_" } readdir(SA_CF_DIR); closedir SA_CF_DIR; return map { "$dir/$_" } sort { $a cmp $b } @cfs; # sort numerically } ########################################################################### sub encapsulate_mail_object { my ($self, $mail_obj) = @_; # first, check to see if this is not actually a Mail::Audit object; # it could also be an already-encapsulated Mail::Audit wrapped inside # a Mail::SpamAssassin::Message. if ($mail_obj->{is_spamassassin_wrapper_object}) { return $mail_obj; } if ($self->{use_my_mail_class}) { my $class = $self->{use_my_mail_class}; (my $file = $class) =~ s/::/\//g; require "$file.pm"; return $class->new($mail_obj); } # new versions of Mail::Audit can have one of 2 different base classes. URGH. # we can tell which class, by querying the is_mime() method. Support for # MIME::Entity contributed by Andrew Wilson . # my $ismime = 0; if ($mail_obj->can ("is_mime")) { $ismime = $mail_obj->is_mime(); } if ($ismime) { require Mail::SpamAssassin::EncappedMIME; return Mail::SpamAssassin::EncappedMIME->new($mail_obj); } else { require Mail::SpamAssassin::EncappedMessage; return Mail::SpamAssassin::EncappedMessage->new($mail_obj); } } sub find_all_addrs_in_mail { my ($self, $mail_obj) = @_; $self->init(1); my $mail = $self->encapsulate_mail_object ($mail_obj); my @addrlist = (); foreach my $header (qw(To From Cc Reply-To Sender Errors-To Mail-Followup-To)) { my @hdrs = $mail->get_header ($header); if ($#hdrs < 0) { next; } push (@addrlist, $self->find_all_addrs_in_line (join (" ", @hdrs))); } # find addrs in body, too foreach my $line (@{$mail->get_body()}) { push (@addrlist, $self->find_all_addrs_in_line ($line)); } my @ret = (); my %done = (); foreach $_ (@addrlist) { s/^mailto://; # from Outlook "forwarded" message next if defined ($done{$_}); $done{$_} = 1; push (@ret, $_); } @ret; } sub find_all_addrs_in_line { my ($self, $line) = @_; my $ID_PATTERN = '[-a-z0-9_\+\:\/\.]+'; my $HOST_PATTERN = '[-a-z0-9_\+\:\/]+'; my @addrs = (); my %seen = (); while ($line =~ s/(?:mailto:)?\s* ($ID_PATTERN \@ $HOST_PATTERN(?:\.$HOST_PATTERN)+)//oix) { my $addr = $1; $addr =~ s/^mailto://; next if (defined ($seen{$addr})); $seen{$addr} = 1; push (@addrs, $addr); } return @addrs; } # Only the first argument is needed, and it can be a reference to a list if # you want sub dbg { my $dbg=$Mail::SpamAssassin::DEBUG; return unless $dbg->{enabled}; my ($msg, $codepath, $level) = @_; $msg=join('',@{$msg}) if (ref $msg); if (defined $codepath) { if (not defined $dbg->{$codepath}) { warn("dbg called with codepath $codepath, but it's not defined, skipping (message was \"$msg\"\n"); return 0; } elsif (not defined $level) { warn("dbg called with codepath $codepath, but no level threshold (message was \"$msg\"\n"); } } # Negative levels are just level numbers, the more negative, the more debug return if (defined $level and $level<0 and not $dbg->{$codepath} <= $level); # Positive levels are bit fields return if (defined $level and $level>0 and not $dbg->{$codepath} & $level); warn "debug: $msg\n"; } # sa_die -- used to die with a useful exit code. sub sa_die { my $exitcode = shift; warn @_; exit $exitcode; } 1; __END__ ########################################################################### =back =head1 PREREQUISITES C C =head1 COREQUISITES C =head1 MORE DOCUMENTATION See also http://spamassassin.org/ for more information. =head1 SEE ALSO C C C =head1 BUGS http://bugzilla.spamassassin.org/ =head1 AUTHOR Justin Mason Ejm /at/ jmason.orgE =head1 COPYRIGHT SpamAssassin is distributed under Perl's Artistic license. =head1 AVAILABILITY The latest version of this library is likely to be available from CPAN as well as: http://spamassassin.org/ =cut