# iterate over mail archives, calling a function on each message. # # <@LICENSE> # Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to you 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. # package Mail::SpamAssassin::ArchiveIterator; use strict; use warnings; use bytes; use IO::Select; use IO::Socket; use Mail::SpamAssassin::Util; use Mail::SpamAssassin::Constants qw(:sa); use Mail::SpamAssassin::Logger; use Mail::SpamAssassin::AICache; use constant BIG_BYTES => 256*1024; # 256k is a big email use constant BIG_LINES => BIG_BYTES/65; # 65 bytes/line is a good approximation use vars qw { $MESSAGES $AICache }; my @ISA = qw($MESSAGES); =head1 NAME Mail::SpamAssassin::ArchiveIterator - find and process messages one at a time =head1 SYNOPSIS my $iter = new Mail::SpamAssassin::ArchiveIterator( { 'opt_j' => 0, 'opt_n' => 1, 'opt_all' => 1, 'opt_cache' => 1, } ); $iter->set_functions( \&wanted, sub { } ); eval { $iter->run(@ARGV); }; sub wanted { my($class, $filename, $recv_date, $msg_array) = @_; ... } =head1 DESCRIPTION The Mail::SpamAssassin::ArchiveIterator module will go through a set of mbox files, mbx files, and directories (with a single message per file) and generate a list of messages. It will then call the wanted and results functions appropriately per message. =head1 METHODS =over 4 =cut ########################################################################### =item $item = new Mail::SpamAssassin::ArchiveIterator( [ { opt => val, ... } ] ) Constructs a new C object. You may pass the following attribute-value pairs to the constructor. The pairs are optional unless otherwise noted. =over 4 =item opt_all Typically messages over 250k are skipped by ArchiveIterator. Use this option to keep from skipping messages based on size. =item opt_j (required) Specifies how many messages should be run at the same time, as well as the method with which to scan for the messages. If the value is 0, the list of messages to process will be kept in memory, and only 1 message at a time will be processed by the wanted subroutine. Restarting is not allowed. If the value is 1, the list of messages to process will be kept in a temporary file, and only 1 message at a time will be processed by the wanted subroutine. Restarting is not allowed. If the value is 2 or higher, the list of messages to process will be kept in a temporary file, and the process will split into a parent/child mode. The option value number of children will be forked off and each child will process messages via the wanted subroutine in parallel. Restarting is allowed. B For C >= 1, an extra child process will be created to determine the list of messages, sort the list, everything as appropriate. This will keep the list in memory (possibly multiple copies) before writing the final list to a temporary file which will be used for processing. The list generation child will exit, freeing up the memory. =item opt_n ArchiveIterator is typically used to simulate ham and spam moving through SpamAssassin. By default, the list of messages is sorted by received date so that the mails can be passed through in order. If opt_n is true, the sorting will not occur. This is useful if you don't care about the order of the messages. =item opt_restart If set to a positive integer value, children processes (see opt_j w/ value 2 or higher above) will restart after the option value number of messages, in total, have been processed. =item opt_head Only use the first N ham and N spam (or if the value is -N, only use the first N total messages regardless of class). =item opt_tail Only use the last N ham and N spam (or if the value is -N, only use the last N total messages regardless of class). If both C and C are specified, then the C value specifies a subset of the C selection to use; in other words, the C splice is applied first. =item opt_before Only use messages which are received after the given time_t value. Negative values are an offset from the current time, e.g. -86400 = last 24 hours; or as parsed by Time::ParseDate (e.g. '-6 months') =item opt_after Same as opt_before, except the messages are only used if after the given time_t value. =item opt_want_date Set to 1 (default) if you want the received date to be filled in in the C callback below. Set this to 0 to avoid this; it's a good idea to set this to 0 if you can, as it imposes a performance hit. =item opt_cache Set to 0 (default) if you don't want to use cached information to help speed up ArchiveIterator. Set to 1 to enable. =item opt_cachedir Set to the path of a directory where you wish to store cached information for C, if you don't want to mix them with the input files (as is the default). The directory must be both readable and writable. =item wanted_sub Reference to a subroutine which will process message data. Usually set via set_functions(). The routine will be passed 5 values: class (scalar), filename (scalar), received date (scalar), message content (array reference, one message line per element), and the message format key ('f' for file, 'm' for mbox, 'b' for mbx). Note that if C is set to 0, the received date scalar will be undefined. =item result_sub Reference to a subroutine which will process the results of the wanted_sub for each message processed. Usually set via set_functions(). The routine will be passed 3 values: class (scalar), result (scalar, returned from wanted_sub), and received date (scalar). Note that if C is set to 0, the received date scalar will be undefined. =item scan_progress_sub Reference to a subroutine which will be called intermittently during the 'scan' phase of the mass-check. No guarantees are made as to how frequently this may happen, mind you. =back =cut sub new { my $class = shift; $class = ref($class) || $class; my $self = shift; if (!defined $self) { $self = { }; } bless ($self, $class); $self->{opt_head} = 0 unless (defined $self->{opt_head}); $self->{opt_tail} = 0 unless (defined $self->{opt_tail}); $self->{opt_want_date} = 1 unless (defined $self->{opt_want_date}); $self->{opt_cache} = 0 unless (defined $self->{opt_cache}); # If any of these options are set, we need to figure out the message's # receive date at scan time. opt_n == 0, opt_after, opt_before $self->{determine_receive_date} = !$self->{opt_n} || defined $self->{opt_after} || defined $self->{opt_before} || $self->{opt_want_date}; $self->{s} = [ ]; # spam, of course $self->{h} = [ ]; # ham, as if you couldn't guess $self->{access_problem} = 0; $self; } ########################################################################### =item set_functions( \&wanted_sub, \&result_sub ) Sets the subroutines used for message processing (wanted_sub), and result reporting. For more information, see I above. =cut sub set_functions { my ($self, $wanted, $result) = @_; $self->{wanted_sub} = $wanted; $self->{result_sub} = $result; } ########################################################################### =item run ( @target_paths ) Generates the list of messages to process, then runs each message through the configured wanted subroutine. Files which have a name ending in C<.gz> or C<.bz2> will be properly uncompressed via call to C and C respectively. The target_paths array is expected to be one element per path in the following format: class:format:raw_location run() returns 0 if there was an error (can't open a file, etc,) and 1 if there were no errors. =over 4 =item class Either 'h' for ham or 's' for spam. If the class is longer than 1 character, it will be truncated. If blank, 'h' is default. =item format Specifies the format of the raw_location. C is a directory whose files are individual messages, C a file with a single message, C an mbox formatted file, or C for an mbx formatted directory. C can also be used. This assumes C for any file whose path contains the pattern C, C anything that is not a directory, or C otherwise. =item raw_location Path to file or directory. File globbing is allowed using the standard csh-style globbing (see C). C<~> at the front of the value will be replaced by the C environment variable. Escaped whitespace is protected as well. B C<~user> is not allowed. B C<-> is not allowed as a raw location. To have ArchiveIterator deal with STDIN, generate a temp file. =back =cut sub run { my ($self, @targets) = @_; if (!defined $self->{wanted_sub}) { warn "archive-iterator: set_functions never called"; return 0; } # non-forking model (generally sa-learn), everything in a single process if ($self->{opt_j} == 0) { my $messages; # message-array ($MESSAGES, $messages) = $self->message_array(\@targets); while (my $message = shift @{$messages}) { my($class, undef, $date, undef, $result) = $self->run_message($message); &{$self->{result_sub}}($class, $result, $date) if $result; } } # forking model (generally mass-check), avoid extended memory usage else { my $tmpf; ($tmpf, $self->{messageh}) = Mail::SpamAssassin::Util::secure_tmpfile() or die 'archive-iterator: failed to create temp file'; unlink $tmpf or die "archive-iterator: unlink '$tmpf': $!"; undef $tmpf; # forked child process scans messages if ($tmpf = fork()) { # parent waitpid($tmpf, 0); } elsif (defined $tmpf) { # child $self->message_array(\@targets, $self->{messageh}); exit; } else { die "archive-iterator: cannot fork: $!"; } # we now have a temporary file with the messages to process # in theory, our file pointer is at the start of the file, but make sure. # NOTE: do this here, not in message_array, since that will only affect # the child. seek($self->{messageh}, 0, 0); $MESSAGES = $self->next_message(); if (!$MESSAGES) { die "archive-iterator: no messages to process\n"; } # only do 1 process, message list in a temp file, no restarting if ($self->{opt_j} == 1 && !defined $self->{opt_restart}) { my $message; my $messages; my $total_count = 0; while (($MESSAGES > $total_count) && ($message = $self->next_message())) { my($class, undef, $date, undef, $result) = $self->run_message($message); &{$self->{result_sub}}($class, $result, $date) if $result; $total_count++; } } # more than one process or one process with restarts else { my $select = IO::Select->new(); my $total_count = 0; my $needs_restart = 0; my @child = (); my @pid = (); my $messages; # start children processes $self->start_children($self->{opt_j}, \@child, \@pid, $select); # feed childen, make them work for it, repeat while ($select->count()) { foreach my $socket ($select->can_read()) { my $line = $self->read_line($socket); # some error happened during the read! if (!defined $line) { $needs_restart = 1; warn "archive-iterator: readline failed, attempting to recover\n"; $select->remove($socket); } elsif ($line =~ /^([^\0]+)\0RESULT (.+)$/s) { my $result = $1; my ($date,$class,$type) = index_unpack($2); #warn ">> RESULT: $class, $type, $date\n"; if (defined $self->{opt_restart} && ($total_count % $self->{opt_restart}) == 0) { $needs_restart = 1; } # if messages remain, and we don't need to restart, send message if (($MESSAGES > $total_count) && !$needs_restart) { $self->send_line($socket, $self->next_message()); $total_count++; #warn ">> recv: $MESSAGES $total_count\n"; } else { # stop listening on this child since we're done with it #warn ">> removeresult: $needs_restart $MESSAGES $total_count\n"; $select->remove($socket); } # deal with the result we received if ($result) { &{$self->{result_sub}}($class, $result, $date); } } elsif ($line eq "START") { if ($MESSAGES > $total_count) { # we still have messages, send one to child $self->send_line($socket, $self->next_message()); $total_count++; #warn ">> new: $MESSAGES $total_count\n"; } else { # no more messages, so stop listening on this child #warn ">> removestart: $needs_restart $MESSAGES $total_count\n"; $select->remove($socket); } } } #warn ">> out of loop, $MESSAGES $total_count $needs_restart ".$select->count()."\n"; # If there are still messages to process, and we need to restart # the children, and all of the children are idle, let's go ahead. if ($needs_restart && $select->count == 0 && $MESSAGES > $total_count) { $needs_restart = 0; #warn "debug: needs restart, $MESSAGES total, $total_count done\n"; $self->reap_children($self->{opt_j}, \@child, \@pid); @child=(); @pid=(); $self->start_children($self->{opt_j}, \@child, \@pid, $select); } } # reap children $self->reap_children($self->{opt_j}, \@child, \@pid); } # close tempfile so it will be unlinked close($self->{messageh}); } return ! $self->{access_problem}; } ############################################################################ ## run_message and related functions to process a single message sub run_message { my ($self, $msg) = @_; my ($date, $class, $format, $mail) = index_unpack($msg); if ($format eq 'f') { return $self->run_file($class, $format, $mail, $date); } elsif ($format eq 'm') { return $self->run_mailbox($class, $format, $mail, $date); } elsif ($format eq 'b') { return $self->run_mbx($class, $format, $mail, $date); } } sub run_file { my ($self, $class, $format, $where, $date) = @_; if (!mail_open($where)) { $self->{access_problem} = 1; return; } # skip too-big mails if (! $self->{opt_all} && -s INPUT > BIG_BYTES) { info("archive-iterator: skipping large message\n"); close INPUT; return; } my @msg; my $header; while () { push(@msg, $_); if (!defined $header && /^\s*$/) { $header = $#msg; } } close INPUT; if ($date == AI_TIME_UNKNOWN && $self->{determine_receive_date}) { $date = Mail::SpamAssassin::Util::receive_date(join('', splice(@msg, 0, $header))); } return($class, $format, $date, $where, &{$self->{wanted_sub}}($class, $where, $date, \@msg, $format)); } sub run_mailbox { my ($self, $class, $format, $where, $date) = @_; my ($file, $offset) = ($where =~ m/(.*)\.(\d+)$/); my @msg; my $header; if (!mail_open($file)) { $self->{access_problem} = 1; return; } seek(INPUT,$offset,0); while () { last if (substr($_,0,5) eq "From " && @msg); push (@msg, $_); # skip too-big mails if (! $self->{opt_all} && @msg > BIG_LINES) { info("archive-iterator: skipping large message\n"); close INPUT; return; } if (!defined $header && /^\s*$/) { $header = $#msg; } } close INPUT; if ($date == AI_TIME_UNKNOWN && $self->{determine_receive_date}) { $date = Mail::SpamAssassin::Util::receive_date(join('', splice(@msg, 0, $header))); } return($class, $format, $date, $where, &{$self->{wanted_sub}}($class, $where, $date, \@msg, $format)); } sub run_mbx { my ($self, $class, $format, $where, $date) = @_; my ($file, $offset) = ($where =~ m/(.*)\.(\d+)$/); my @msg; my $header; if (!mail_open($file)) { $self->{access_problem} = 1; return; } seek(INPUT, $offset, 0); while () { last if ($_ =~ MBX_SEPARATOR); push (@msg, $_); # skip mails that are too big if (! $self->{opt_all} && @msg > BIG_LINES) { info("archive-iterator: skipping large message\n"); close INPUT; return; } if (!defined $header && /^\s*$/) { $header = $#msg; } } close INPUT; if ($date == AI_TIME_UNKNOWN && $self->{determine_receive_date}) { $date = Mail::SpamAssassin::Util::receive_date(join('', splice(@msg, 0, $header))); } return($class, $format, $date, $where, &{$self->{wanted_sub}}($class, $where, $date, \@msg, $format)); } ############################################################################ ## figure out the next message to process, used when opt_j >= 1 sub next_message { my ($self) = @_; my $line = $self->read_line($self->{messageh}); return $line; } ############################################################################ ## children processors, start and process, used when opt_j > 1 sub start_children { my ($self, $count, $child, $pid, $socket) = @_; my $io = IO::Socket->new(); my $parent; # create children for (my $i = 0; $i < $count; $i++) { ($child->[$i],$parent) = $io->socketpair(AF_UNIX,SOCK_STREAM,PF_UNSPEC) or die "archive-iterator: socketpair failed: $!"; if ($pid->[$i] = fork) { close $parent; # disable caching for parent<->child relations my ($old) = select($child->[$i]); $|++; select($old); $socket->add($child->[$i]); #warn "debug: starting new child $i (pid ",$pid->[$i],")\n"; next; } elsif (defined $pid->[$i]) { my $result; my $line; close $self->{messageh} if defined $self->{messageh}; close $child->[$i]; select($parent); $| = 1; # print to parent by default, turn off buffering $self->send_line($parent,"START"); while ($line = $self->read_line($parent)) { if ($line eq "exit") { close $parent; exit; } my($class, $format, $date, $where, $result) = $self->run_message($line); $result ||= ''; # If determine_receive_date is not set, the original input date # wasn't calculated, but run_message would have done so, so reset # the packed version if possible ... use defined for date since # it could == 0. if (!$self->{determine_receive_date} && $class && $format && defined $date && $where) { $line = index_pack($date, $class, $format, $where); } $self->send_line($parent,"$result\0RESULT $line"); } exit; } else { die "archive-iterator: cannot fork: $!"; } } } ## handling killing off the children sub reap_children { my ($self, $count, $socket, $pid) = @_; # If the child died, sending it the exit will generate a SIGPIPE, but we # don't really care since the readline will go undef (which is fine), # then we do the waitpid which will finish it off. So we end up in the # right state, in theory. local $SIG{'PIPE'} = 'IGNORE'; for (my $i = 0; $i < $count; $i++) { #warn "debug: killing child $i (pid ",$pid->[$i],")\n"; $self->send_line($socket->[$i],"exit"); # tell the child to die. close $socket->[$i]; waitpid($pid->[$i], 0); # wait for the signal ... } } ############################################################################ # four bytes in network/vax format (little endian) as length of message # the rest is the actual message sub read_line { my($self, $fd) = @_; my($length,$msg); # read in the 4 byte length and unpack sysread($fd, $length, 4); $length = unpack("V", $length); # warn "<< $$ $length\n"; return unless $length; # read in the rest of the single message sysread($fd, $msg, $length); # warn "<< $$ $msg\n"; return $msg; } sub send_line { my $self = shift; my $fd = shift; foreach ( @_ ) { my $length = pack("V", length $_); # warn ">> $$ ".length($_)." $_\n"; syswrite($fd, $length . $_); } } ############################################################################ ## FUNCTIONS BELOW THIS POINT ARE FOR FINDING THE MESSAGES TO RUN AGAINST ############################################################################ sub message_array { my ($self, $targets, $fh) = @_; foreach my $target (@${targets}) { if (!defined $target) { warn "archive-iterator: invalid (undef) value in target list"; next; } my ($class, $format, $rawloc) = split(/:/, $target, 3); # "class" if (!defined $format) { warn "archive-iterator: invalid (undef) format in target list, $target"; next; } # "class:format" if (!defined $rawloc) { warn "archive-iterator: invalid (undef) raw location in target list, $target"; next; } if ($rawloc eq '-') { warn 'archive-iterator: raw location "-" is not supported'; next; } # use ham by default, things like "spamassassin" can't specify the type $class = substr($class, 0, 1) || 'h'; my @locations = $self->fix_globs($rawloc); foreach my $location (@locations) { my $method; if ($format eq 'detect') { # detect the format if (!-d $location && $location =~ /\.mbox/i) { # filename indicates mbox $method = \&scan_mailbox; } elsif (!(-d $location)) { $method = \&scan_file; } else { # it's a directory $method = \&scan_directory; } } else { if ($format eq "dir") { $method = \&scan_directory; } elsif ($format eq "file") { $method = \&scan_file; } elsif ($format eq "mbox") { $method = \&scan_mailbox; } elsif ($format eq "mbx") { $method = \&scan_mbx; } } if(defined($method)) { &{$method}($self, $class, $location); } else { warn "archive-iterator: format $format unknown!"; } } } my @messages; if ($self->{opt_n}) { # OPT_N == 1 means don't bother sorting on message receive date # head or tail > 0 means crop each list if ($self->{opt_tail} > 0) { splice(@{$self->{s}}, 0, -$self->{opt_tail}); splice(@{$self->{h}}, 0, -$self->{opt_tail}); } if ($self->{opt_head} > 0) { splice(@{$self->{s}}, min ($self->{opt_head}, scalar @{$self->{s}})); splice(@{$self->{h}}, min ($self->{opt_head}, scalar @{$self->{h}})); } @messages = ( @{$self->{s}}, @{$self->{h}} ); undef $self->{s}; undef $self->{h}; } else { # OPT_N == 0 means sort on message receive date # Sort the spam and ham groups by date my @s = sort { $a cmp $b } @{$self->{s}}; undef $self->{s}; my @h = sort { $a cmp $b } @{$self->{h}}; undef $self->{h}; # head or tail > 0 means crop each list if ($self->{opt_tail} > 0) { splice(@s, 0, -$self->{opt_tail}); splice(@h, 0, -$self->{opt_tail}); } if ($self->{opt_head} > 0) { splice(@s, min ($self->{opt_head}, scalar @s)); splice(@h, min ($self->{opt_head}, scalar @h)); } # interleave ordered spam and ham if (@s && @h) { my $ratio = @s / @h; while (@s && @h) { push @messages, (@s / @h > $ratio) ? (shift @s) : (shift @h); } } # push the rest onto the end push @messages, @s, @h; } # head or tail < 0 means crop the total list, negate the value appropriately if ($self->{opt_tail} < 0) { splice(@messages, 0, $self->{opt_tail}); } if ($self->{opt_head} < 0) { splice(@messages, -$self->{opt_head}); } # Dump out the messages to the temp file if we're using one if (defined $fh) { $self->send_line($fh, scalar(@messages), @messages); return; } return scalar(@messages), \@messages; } sub mail_open { my ($file) = @_; # bug 5288: the "magic" version of open will strip leading and trailing # whitespace from the expression. switch to the three-argument version # of open which does not strip whitespace. see "perldoc -f open" and # "perldoc perlipc" for more information. # Assume that the file by default is just a plain file my @expr = ( $file ); my $mode = '<'; # Handle different types of compressed files if ($file =~ /\.gz$/) { $mode = '-|'; unshift @expr, 'gunzip', '-cd'; } elsif ($file =~ /\.bz2$/) { $mode = '-|'; unshift @expr, 'bzip2', '-cd'; } # Go ahead and try to open the file if (!open (INPUT, $mode, @expr)) { warn "archive-iterator: unable to open $file: $!\n"; return 0; } # bug 5249: mail could have 8-bit data, need this on some platforms binmode INPUT; return 1; } ############################################################################ sub message_is_useful_by_date { my ($self, $date) = @_; return 0 unless $date; # undef or 0 date = unusable if (!$self->{opt_after} && !$self->{opt_before}) { # Not using the feature return 1; } elsif (!$self->{opt_before}) { # Just case about after return $date > $self->{opt_after}; } else { return (($date < $self->{opt_before}) && ($date > $self->{opt_after})); } } ############################################################################ # 0 850852128 atime # 1 h class # 2 m format # 3 ./ham/goodmsgs.0 path # put the date in first, big-endian packed format # this format lets cmp easily sort by date, then class, format, and path. sub index_pack { return pack("NAAA*", @_); } sub index_unpack { return unpack("NAAA*", $_[0]); } ############################################################################ sub scan_directory { my ($self, $class, $folder) = @_; my @files; opendir(DIR, $folder) || die "archive-iterator: can't open '$folder' dir: $!\n"; if (-f "$folder/cyrus.header") { # cyrus metadata: http://unix.lsa.umich.edu/docs/imap/imap-lsa-srv_3.html @files = grep { /^\S+$/ && !/^cyrus\.(?:index|header|cache|seen)/ } readdir(DIR); } else { # ignore ,234 (deleted or refiled messages) and MH metadata dotfiles @files = grep { !/^[,.]/ } readdir(DIR); } closedir(DIR); @files = grep { -f } map { "$folder/$_" } @files; if (!@files) { # this is not a problem; no need to warn about it # warn "archive-iterator: readdir found no mail in '$folder' directory\n"; return; } $self->create_cache('dir', $folder); foreach my $mail (@files) { $self->scan_file($class, $mail); } if (defined $AICache) { $AICache = $AICache->finish(); } } sub scan_file { my ($self, $class, $mail) = @_; $self->bump_scan_progress(); if (!$self->{determine_receive_date}) { push(@{$self->{$class}}, index_pack(AI_TIME_UNKNOWN, $class, "f", $mail)); return; } my $date; unless (defined $AICache and $date = $AICache->check($mail)) { my $header; if (!mail_open($mail)) { $self->{access_problem} = 1; return; } while () { last if /^\s*$/; $header .= $_; } close(INPUT); $date = Mail::SpamAssassin::Util::receive_date($header); if (defined $AICache) { $AICache->update($mail, $date); } } return if !$self->message_is_useful_by_date($date); push(@{$self->{$class}}, index_pack($date, $class, "f", $mail)); } sub scan_mailbox { my ($self, $class, $folder) = @_; my @files; if (-d $folder) { # passed a directory of mboxes $folder =~ s/\/\s*$//; #Remove trailing slash, if there if (!opendir(DIR, $folder)) { warn "archive-iterator: can't open '$folder' dir: $!\n"; $self->{access_problem} = 1; return; } while ($_ = readdir(DIR)) { if(/^[^\.]\S*$/ && ! -d "$folder/$_") { push(@files, "$folder/$_"); } } closedir(DIR); } else { push(@files, $folder); } foreach my $file (@files) { $self->bump_scan_progress(); if ($file =~ /\.(?:gz|bz2)$/) { warn "archive-iterator: compressed mbox folders are not supported at this time\n"; $self->{access_problem} = 1; next; } my $info = {}; my $count; $self->create_cache('mbox', $file); if ($self->{opt_cache}) { if ($count = $AICache->count()) { $info = $AICache->check(); } } unless ($count) { if (!mail_open($file)) { $self->{access_problem} = 1; next; } my $start = 0; # start of a message my $where = 0; # current byte offset my $first = ''; # first line of message my $header = ''; # header text my $in_header = 0; # are in we a header? while (!eof INPUT) { my $offset = $start; # byte offset of this message my $header = $first; # remember first line while () { if ($in_header) { if (/^$/) { $in_header = 0; } else { $header .= $_; } } if (substr($_,0,5) eq "From ") { $in_header = 1; $first = $_; $start = $where; $where = tell INPUT; last; } $where = tell INPUT; } if ($header) { $self->bump_scan_progress(); $info->{$offset} = Mail::SpamAssassin::Util::receive_date($header); } } close INPUT; } while(my($k,$v) = each %{$info}) { if (defined $AICache && !$count) { $AICache->update($k, $v); } if ($self->{determine_receive_date}) { next if !$self->message_is_useful_by_date($v); } push(@{$self->{$class}}, index_pack($v, $class, "m", "$file.$k")); } if (defined $AICache) { $AICache = $AICache->finish(); } } } sub scan_mbx { my ($self, $class, $folder) = @_; my (@files, $fp); if (-d $folder) { # got passed a directory full of mbx folders. $folder =~ s/\/\s*$//; # remove trailing slash, if there is one if (!opendir(DIR, $folder)) { warn "archive-iterator: can't open '$folder' dir: $!\n"; $self->{access_problem} = 1; return; } while ($_ = readdir(DIR)) { if(/^[^\.]\S*$/ && ! -d "$folder/$_") { push(@files, "$folder/$_"); } } closedir(DIR); } else { push(@files, $folder); } foreach my $file (@files) { $self->bump_scan_progress(); if ($folder =~ /\.(?:gz|bz2)$/) { warn "archive-iterator: compressed mbx folders are not supported at this time\n"; $self->{access_problem} = 1; next; } my $info = {}; my $count; $self->create_cache('mbx', $file); if ($self->{opt_cache}) { if ($count = $AICache->count()) { $info = $AICache->check(); } } unless ($count) { if (!mail_open($file)) { $self->{access_problem} = 1; next; } # check the mailbox is in mbx format $fp = ; if ($fp !~ /\*mbx\*/) { die "archive-iterator: error: mailbox not in mbx format!\n"; } # skip mbx headers to the first email... seek(INPUT, 2048, 0); my $sep = MBX_SEPARATOR; while () { if ($_ =~ /$sep/) { my $offset = tell INPUT; my $size = $2; # gather up the headers... my $header = ''; while () { last if (/^\s*$/); $header .= $_; } $self->bump_scan_progress(); $info->{$offset} = Mail::SpamAssassin::Util::receive_date($header); # go onto the next message seek(INPUT, $offset + $size, 0); } else { die "archive-iterator: error: failure to read message body!\n"; } } close INPUT; } while(my($k,$v) = each %{$info}) { if (defined $AICache && !$count) { $AICache->update($k, $v); } if ($self->{determine_receive_date}) { next if !$self->message_is_useful_by_date($v); } push(@{$self->{$class}}, index_pack($v, $class, "b", "$file.$k")); } if (defined $AICache) { $AICache = $AICache->finish(); } } } ############################################################################ sub bump_scan_progress { my ($self) = @_; if (exists $self->{scan_progress_sub}) { return unless ($self->{scan_progress_counter}++ % 50 == 0); $self->{scan_progress_sub}->(); } } ############################################################################ { my $home; sub fix_globs { my ($self, $path) = @_; unless (defined $home) { $home = $ENV{'HOME'}; # No $HOME set? Try to find it, portably. unless ($home) { if (!Mail::SpamAssassin::Util::am_running_on_windows()) { $home = (Mail::SpamAssassin::Util::portable_getpwuid($<))[7]; } else { my $vol = $ENV{'HOMEDRIVE'} || 'C:'; my $dir = $ENV{'HOMEPATH'} || '\\'; $home = File::Spec->catpath($vol, $dir, ''); } # Fall back to no replacement at all. $home ||= '~'; } } $path =~ s,^~/,${home}/,; # protect/escape spaces: ./Mail/My Letters => ./Mail/My\ Letters $path =~ s/(? er, you know what it does ;) return glob($path); } } sub min { return ($_[0] < $_[1] ? $_[0] : $_[1]); } sub create_cache { my ($self, $type, $path) = @_; if ($self->{opt_cache}) { $AICache = Mail::SpamAssassin::AICache->new({ 'type' => $type, 'prefix' => $self->{opt_cachedir}, 'path' => $path, }); } } ############################################################################ 1; __END__ =back =head1 SEE ALSO C C C =cut # vim: ts=8 sw=2 et