191 lines
5.2 KiB
Perl
Executable File
191 lines
5.2 KiB
Perl
Executable File
#!/usr/bin/perl -w
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# -*- perl -*-
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=head1 NAME
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acpi_batt_ Munin plugin to monitor the (note|net)book battery states through procfs
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=head1 APPLICABLE SYSTEMS
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Notebooks and netbooks with avialable /proc/acpi/battery
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=head1 CONFIGURATION
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Configured change the name of symbolic link
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acpi_batt_X_capacity - chart of Design capacity, Last full capacity, Design capacity low,
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Design capacity warning, Capacity granularity 1, Capacity granularity 2,
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Remaining capacity, Present rate (mA)
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acpi_batt_X_percents - percentage chart of Current voltage, Current capacity, Full capacity (of design)
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acpi_batt_X_voltage - chart of Design voltage, Present voltage
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Where X is the number of battery from /proc/acpi/battery/BATX
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=head1 INTERPRETATION
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The plugin shows:
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Design capacity
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Last full capacity
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Design capacity low
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Design capacity warning
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Capacity granularity 1
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Capacity granularity 2
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Remaining capacity
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Present rate (mA)
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Percentage Current/design voltage
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Percentage Full/current capacity
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Percentage Design/full capacity
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Design voltage
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Present voltage
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=head1 MAGIC MARKERS
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#%# family=power
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=head1 VERSION
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=head1 BUGS
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None known.
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=head1 AUTHOR
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Gorlow Maxim <sheridan@sheridan-home.ru>
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=head1 LICENSE
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GPLv2
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=cut
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use strict;
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#use Data::Dumper;
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my ($graph_type, $batt_num);
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if ($0 =~ /^(?:|.*\/)acpi_batt_([^_]+)_(.+)$/)
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{
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$graph_type = $2;
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$batt_num = $1;
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}
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elsif (!defined($batt_num) or !defined($graph_type)) {
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die "# Error: couldn't understand what I'm supposed to monitor."; }
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#print "$batt_num, $graph_type \n";
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sub trim
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{
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my($string)=@_;
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for ($string)
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{
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s/^\s+//;
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s/\s+$//;
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}
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return $string;
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}
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sub read_data
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{
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my $file = $_[0];
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my ($fh, $var, $val);
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my @tmp;
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my $result = {};
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open($fh, '<', "/proc/acpi/battery/BAT${batt_num}/${file}") or die $!;
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foreach my $line (<$fh>)
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{
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chomp ($line);
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($var, $val) = split(':', $line);
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if ( $val =~ m/^\s*$/ )
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{
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$val = "unknown";
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}
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elsif ( $var ne "batery type" or $var ne "serial number" or $var ne "OEM info" )
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{
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@tmp = split(" " ,$val);
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$val = trim($tmp[0]);
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}
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$result->{$var} = $val;
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#print "$var, -$val- \n";
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}
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close($fh);
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return $result;
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}
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my $batt_data = {};
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$batt_data->{'info'} = read_data("info" );
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$batt_data->{'state'} = read_data("state");
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#print Dumper($batt_data);
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if ($ARGV[0] and $ARGV[0] eq "config")
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{
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my $batt_name = sprintf("%s %s %s", $batt_data->{'info'}{'OEM info'}, $batt_data->{'info'}{'battery type'}, $batt_data->{'info'}{'model number'});
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print ("graph_args --base 1000\n");
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printf ("graph_title Battery %s (%s) %s\n" , $batt_num, $batt_name, $graph_type);
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printf ("graph_info This graph shows battery %s (%s) %s\n" , $batt_num, $batt_name, $graph_type);
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print ("graph_category sensors\n");
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if ($graph_type eq "capacity")
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{
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print ("graph_vlabel Capacity, mAh\n");
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print ("dc.label Design capacity\ndc.type GAUGE\ndc.draw AREA\n");
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print ("lfc.label Last full capacity\nlfc.type GAUGE\nlfc.draw AREA\n");
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print ("dcl.label Design capacity low\ndcl.type GAUGE\ndcl.draw LINE2\n");
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print ("dcw.label Design capacity warning\ndcw.type GAUGE\ndcw.draw LINE2\n");
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print ("cg1.label Capacity granularity 1\ncg1.type GAUGE\ncg1.draw LINE2\n");
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print ("cg2.label Capacity granularity 2\ncg2.type GAUGE\ncg2.draw LINE2\n");
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print ("rc.label Remaining capacity\nrc.type GAUGE\nrc.draw LINE2\n");
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print ("pr.label Present rate (mA)\npr.type GAUGE\npr.draw LINE2\n");
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}
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elsif ($graph_type eq "voltage")
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{
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print ("graph_vlabel Voltage, mV\n");
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print ("d.label Design voltage\nd.type GAUGE\nd.draw AREA\n");
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print ("p.label Present voltage\np.type GAUGE\np.draw AREA\n");
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}
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elsif ($graph_type eq "percents")
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{
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print ("graph_vlabel %\n");
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print ("cv.label Current voltage\ncv.type GAUGE\ncv.draw LINE2\n");
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print ("cc.label Current capacity\ncc.type GAUGE\ncc.draw LINE2\n");
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print ("fc.label Full capacity (of design)\nfc.type GAUGE\nfc.draw LINE2\n");
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}
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exit 0;
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}
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#$batt_data->{'info'}{''}
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sub percent
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{
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my ($full, $current) = @_[0..1];
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return $current/($full/100);
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}
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if ($graph_type eq "capacity")
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{
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printf ("dc.value %s\n", $batt_data->{'info'}{'design capacity'});
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printf ("lfc.value %s\n", $batt_data->{'info'}{'last full capacity'});
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printf ("dcl.value %s\n", $batt_data->{'info'}{'design capacity low'});
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printf ("dcw.value %s\n", $batt_data->{'info'}{'design capacity warning'});
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printf ("cg1.value %s\n", $batt_data->{'info'}{'capacity granularity 1'});
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printf ("cg2.value %s\n", $batt_data->{'info'}{'capacity granularity 2'});
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printf ("rc.value %s\n", $batt_data->{'state'}{'remaining capacity'});
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printf ("pr.value %s\n", $batt_data->{'state'}{'present rate'});
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}
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elsif ($graph_type eq "voltage")
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{
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printf ("d.value %s\n", $batt_data->{'info'}{'design voltage'});
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printf ("p.value %s\n", $batt_data->{'state'}{'present voltage'});
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}
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elsif ($graph_type eq "percents")
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{
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printf ("cv.value %s\n", percent($batt_data->{'info'}{'design voltage'},$batt_data->{'state'}{'present voltage'}));
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printf ("cc.value %s\n", percent($batt_data->{'info'}{'design capacity'},$batt_data->{'state'}{'remaining capacity'}));
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printf ("fc.value %s\n", percent($batt_data->{'info'}{'design capacity'},$batt_data->{'info'}{'last full capacity'}));
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}
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