#!/usr/bin/perl use lib "/usr/share/BackupPC/lib"; use BackupPC::Lib; use BackupPC::CGI::Lib; use POSIX; use JSON; use Getopt::Long; use Statistics::Descriptive; use Data::Dumper; my $host = undef; my $entity = undef; my $pretty = 0; GetOptions( "host=s" => \$host, "entity=s" => \$entity, "pretty" => \$pretty ); # We need to switch to backuppc UID/GID my $uid = getuid(); my $gid = getgid(); my (undef,undef,$bkpuid,$bkpgid) = getpwnam('backuppc'); setuid($bkpuid) if ($uid ne $bkpuid); setgid($bkpgid) if ($gid ne $bkpgid); my $bpc = BackupPC::Lib->new(); my $mainConf = $bpc->ConfigDataRead(); my $json = {}; if ( $host ) { my $hostConf = $bpc->ConfigDataRead($host); my $conf = { %$mainConf, %$hostConf }; my $age = -1; $json = { bkp => 0, full_size => 0, errors => 0, new_size => 0, new_size_avg => 0, new_size_median => 0, new_size_q1 => 0, new_size_q3 => 0, duration => 0, comp_ratio => 0 }; my $lastXferErrors = 0; my $maxErrors = 0; my $new_size_of_last_full = 0; my @bpc_info = $bpc->BackupInfoRead($host); my $sizes = new Statistics::Descriptive::Full; if ( scalar( @bpc_info ) ){ foreach my $backup ( @bpc_info ) { # Skip partial or active backups next if ( $backup->{type} !~ m/^full|incr$/ ); if ( $backup->{type} eq "full" ) { $json->{full_size} = $backup->{size}; $new_size_of_last_full = $backup->{sizeNew}; } # Push all the sizes in our data set to compute avg sizes # Exclude backup N°0 as it'll always have much more new data than normal backups $sizes->add_data($backup->{sizeNew}) unless ( $backup->{num} == 0 ); $json->{bkp}++; } # Ignore the last backup if it's not full or incr (which means it's either partial or active) my $i = ( $bpc_info[-1]->{type} =~ m/^full|incr$/ ) ? -1 : -2; $json->{errors} = $bpc_info[$i]->{xferErrs}; $json->{new_size} = $bpc_info[$i]->{sizeNew}; $json->{duration} = $bpc_info[$i]->{endTime} - $bpc_info[$i]->{startTime}; $json->{type} = $bpc_info[$i]->{type}; $json->{comp_ratio} = ( $bpc_info[$i]->{sizeNew} > 0 ) ? sprintf( "%.2f", 100 - ( $bpc_info[$i]->{sizeNewComp} * 100 / $bpc_info[$i]->{sizeNew} ) ) : 0; $json->{new_size_avg} = int $sizes->mean; $json->{new_size_median} = int $sizes->median; # Some old versions of Statistics::Descriptive (eg, on el5) do not support quantile $json->{new_size_q1} = eval { int $sizes->quantile(1) } || 0; $json->{new_size_q3} = eval { int $sizes->quantile(3) } || 0; $json->{enabled} = ( $conf->{BackupsDisable} > 0 ) ? 0 : 1; $json->{total_size} = $sizes->sum + $json->{full_size} - 2 * $new_size_of_last_full; $json->{age} = time - $bpc_info[$i]->{startTime}; $json->{max_errors} = $conf->{MaxXferError} || 0; } } elsif ( $entity ) { $json = { perf => 0, size => 0, hosts => 0, bkp => 0, ratio => 0 }; my $total_new = 0; my $total_comp = 0; foreach my $host ( keys %{ $bpc->HostInfoRead } ) { next unless $host =~ m/^(vm_)?\Q$entity\E_.*/; my $full_size; $json->{hosts}++; my $hostConf = $bpc->ConfigDataRead($host); my $conf = { %$mainConf, %$hostConf }; my $freq = ( $conf->{FullPeriod} > $conf->{IncrPeriod} ) ? $conf->{IncrPeriod} : $conf->{FullPeriod}; my $duration = 0; my $bkp_num = 0; my $new_size_of_last_full = 0; foreach my $backup ( $bpc->BackupInfoRead( $host ) ) { next if ( $backup->{type} !~ m/^full|incr$/ ); # Save the total size of the last full backup if ( $backup->{type} eq 'full' ) { $full_size = $backup->{size}; $new_size_of_last_full = $backup->{sizeNew}; } $json->{size} += $backup->{sizeNew}; $total_new += $backup->{sizeNew}; $total_comp += $backup->{sizeNewComp}; $duration += $backup->{endTime} - $backup->{startTime}; $bkp_num++; $json->{bkp}++; } # Compute the average cost as the number of hours per day spent # to backup this host $json->{perf} += ( $bkp_num > 0 ) ? $duration / ( 3600 * $bkp_num * $freq ) : 0; # $json->{size} represent the total size used by this host. # But we want to substract the new size of the last full, as for this one we # do not count sizeNew but size. As we've already added sizeNew we need to substract it 2 times $json->{size} += $full_size - 2 * $new_size_of_last_full; } $json->{ratio} = ( $total_new > 0 ) ? 100 - ( $total_comp * 100 / $total_new ) : 0; # Round some values foreach my $key ( qw(ratio perf) ) { $json->{$key} = sprintf( "%.2f", $json->{$key} ); } } else { print<<"EOF"; Usage: $0 --host= or --entity= EOF } print("\n----------------\n"); print("new_size_median : $json->{new_size_median}"); print("\n"); print("new_size_avg : $json->{new_size_avg}"); print("\n"); print("new_size_q3 : $json->{new_size_q3}"); print("\n"); print("new_size : $json->{new_size}"); print("\n"); print("new_size_q1 : $json->{new_size_q1}"); print("\n"); print("full_size : $json->{full_size}"); print("\n----------------\n"); print("\n----------------\n"); # TOO SMALL ? my $toosmall = "false"; # $json->{new_size} > $json->{new_size_q3} + $json->{new_size_q3} - $json->{new_size_q1}) * 1.5 # AND # $json->{new_size} > $json->{new_size_avg} * 6 # TOO BIG ? my $toobig = "false"; # $json->{new_size} < $json->{new_size_q1} - $json->{new_size_q3} - $json->{new_size_q1}) * 1.5 # AND # $json->{new_size} < $json->{new_size_avg} / 3 print("Size Consistency : "); if ( $toosmall == "false" && $toobig == "false" ) { print("Normal"); } else { print("ANOMALOUS"); } print("\n----------------\n"); exit(0);