#!/usr/bin/env perl # This script is a very simple prototype to learn fann from rspamd logs # For now, it is intended for internal use only use strict; use warnings FATAL => 'all'; use AI::FANN qw(:all); use Getopt::Std; my %sym_idx; # Symbols by index my %sym_names; # Symbols by name my $num = 1; # Number of symbols my @spam; my @ham; my $max_samples = -1; my $split = 1; my $preprocessed = 0; # ouptut is in format :<0|1>: my $score_spam = 12; my $score_ham = -6; sub process { my ($input, $spam, $ham) = @_; my $samples = 0; while(<$input>) { if (!$preprocessed) { if (/^.*rspamd_task_write_log.*: \[(-?\d+\.?\d*)\/(\d+\.?\d*)\]\s*\[(.+)\].*$/) { if ($1 > $score_spam) { $_ = "$1:1: $3"; } elsif ($1 < $score_ham) { $_ = "$1:0: $3\n"; } else { # Out of boundary next; } } else { # Not our log message next; } } $_ =~ /^(-?\d+\.?\d*):([01]):\s*(\S.*)$/; my $is_spam = 0; if ($2 == 1) { $is_spam = 1; } my @ar = split /,/, $3; my %sample; foreach my $sym (@ar) { chomp $sym; if (!$sym_idx{$sym}) { $sym_idx{$sym} = $num; $sym_names{$num} = $sym; $num++; } $sample{$sym_idx{$sym}} = 1; } if ($is_spam) { push @{$spam}, \%sample; } else { push @{$ham}, \%sample; } $samples++; if ($max_samples > 0 && $samples > $max_samples) { return; } } } # Shuffle array sub fisher_yates_shuffle { my $array = shift; my $i = @$array; while ( --$i ) { my $j = int rand( $i + 1 ); @$array[$i, $j] = @$array[$j, $i]; } } # Train network sub train { my ($ann, $sample, $result) = @_; my @row; for (my $i = 1; $i < $num; $i++) { if ($sample->{$i}) { push @row, 1; } else { push @row, 0; } } #print "@row -> @{$result}\n"; $ann->train(\@row, \@{$result}); } sub test { my ($ann, $sample) = @_; my @row; for (my $i = 1; $i < $num; $i++) { if ($sample->{$i}) { push @row, 1; } else { push @row, 0; } } my $ret = $ann->run(\@row); return $ret; } my %opts; getopts('o:i:s:n:t:hpS:H:', \%opts); if ($opts{'h'}) { print "$0 [-i input] [-o output] [-s scores] [-n max_samples] [-S spam_score] [-H ham_score] [-ph]\n"; exit; } my $input = *STDIN; if ($opts{'i'}) { open($input, '<', $opts{'i'}) or die "cannot open $opts{i}"; } if ($opts{'n'}) { $max_samples = $opts{'n'}; } if ($opts{'t'}) { # Test split $split = $opts{'t'}; } if ($opts{'p'}) { $preprocessed = 1; } if ($opts{'H'}) { $score_ham = $opts{'H'}; } if ($opts{'S'}) { $score_spam = $opts{'S'}; } # ham_prob, spam_prob my @spam_out = (1); my @ham_out = (0); process($input, \@spam, \@ham); fisher_yates_shuffle(\@spam); fisher_yates_shuffle(\@ham); my $nspam = int(scalar(@spam) / $split); my $nham = int(scalar(@ham) / $split); my $ann = AI::FANN->new_standard($num - 1, ($num + 2) / 2, 1); my @train_data; # Train ANN for (my $i = 0; $i < $nham; $i++) { push @train_data, [ $ham[$i], \@ham_out ]; } for (my $i = 0; $i < $nspam; $i++) { push @train_data, [ $spam[$i], \@spam_out ]; } fisher_yates_shuffle(\@train_data); foreach my $train_row (@train_data) { train($ann, @{$train_row}[0], @{$train_row}[1]); } print "Trained $nspam SPAM and $nham HAM samples\n"; # Now run fann if ($split > 1) { my $sample = 0.0; my $correct = 0.0; for (my $i = $nham; $i < $nham * $split; $i++) { my $ret = test($ann, $ham[$i]); #print "@{$ret}\n"; if (@{$ret}[0] < 0.5) { $correct++; } $sample++; } print "Tested $sample HAM samples, correct matched: $correct, rate: ".($correct / $sample)."\n"; $sample = 0.0; $correct = 0.0; for (my $i = $nspam; $i < $nspam * $split; $i++) { my $ret = test($ann, $spam[$i]); #print "@{$ret}\n"; if (@{$ret}[0] > 0.5) { $correct++; } $sample++; } print "Tested $sample SPAM samples, correct matched: $correct, rate: ".($correct / $sample)."\n"; } if ($opts{'o'}) { $ann->save($opts{'o'}) or die "cannot save ann into $opts{o}"; } if ($opts{'s'}) { open(my $scores, '>', $opts{'s'}) or die "cannot open score file $opts{'s'}"; print $scores "{"; for (my $i = 1; $i < $num; $i++) { my $n = $i - 1; if ($i != $num - 1) { print $scores "\"$sym_names{$i}\":$n,"; } else { print $scores "\"$sym_names{$i}\":$n}\n"; } } }