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602 lines
25 KiB
Perl
602 lines
25 KiB
Perl
########################################################################
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#*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA
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# 95_RRD_Log.pm
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# Feedback: http://groups.google.com/group/fhem-users
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# Logging to RRDs
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# Autor: a[PUNKT]r[BEI]oo2p[PUNKT]net
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# Stand: 13.04.2010
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# Version: 0.9.0
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#*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA
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#######################################################################
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#*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA
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# First:
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# Install Perl-RRDs-Lib:
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# debian/Ubunut: apt-get install librrds-perl
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#
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# Usage:
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# define <NAME< RRD_Log <path_to_rrd>
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# set <NAME> ADD/DEL <DEV-NAME> READING_1:READING_2 ...
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#
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# For each READING one RRD-File
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# Beispiel FHT-Name: FHT001
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# set <My-RRDLOG> ADD FHT001 measured_temperature:desired_temperature:actuator
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# Created RRD-Files
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# measured-temp => <path_to_rrd>/FHT001/measured_temperature.rrd
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# desired-temp => <path_to_rrd>/FHT001/desired_temperature.rrd
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# actuator => <path_to_rrd>/FHT001/actuator.rrd
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#
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# => To view the Files: http://web.taranis.org/drraw/
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#
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# For each READINNG you can create seperate RRD-Definitions:
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# %data{RRD_LOG}{DEV_TYPE}{READINGS} = RRD_LOG_TYPE
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#
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# Update :
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#
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# - keine Ueberpruefung ob READING vorhanden ist im SET
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#
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# attr -> IODEVSTATS
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# If set RRD_Log will log RSSI and MSGCNT
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# <IDOEV-Name>/<DEVICE_Name>_rssi RRD: RRD_Log_5minGAUGE
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# <IDOEV-Name>/<DEVICE_Name>_msgcnt RRD: RRD_Log_5minCOUNTER
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# also
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# <IDOEV-Name>_MSGCNT -> Counter for received Messeages by this IODEV
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# <IDOEV-Name>/RAWMSGCOUNT.rrd
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#
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# ADDTYPE
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# set RRDLog ADDTYPE HMS
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# es werden alle Devices des Types HMS dem RRDLog zugeordnet
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# enpstrechend den konfigurierten READINGs in $data{RRD_LOG}{READING}
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#
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#
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#*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA*BETA
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#######################################################################
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package main;
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use strict;
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use warnings;
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use POSIX;
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use Data::Dumper;
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use RRDs;
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use vars qw(%data);
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#######################################################################
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sub
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RRD_Log_Initialize($)
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{
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my ($hash) = @_;
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$hash->{DefFn} = "RRD_Log_Define";
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$hash->{SetFn} = "RRD_Log_Set";
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$hash->{NotifyFn} = "RRD_Log_Notify";
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$hash->{AttrList} = "do_not_notify:0,1 loglevel:0,5 disable:0,1 IODEVSTATS";
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# Global RRDLog conf
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# Mapping READING to RRD-File-Config
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# %data{RRD_LOG}{DEV_TYPE}{READINGS} = RRD_LOG_TYPE
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#FHT
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$data{RRD_LOG}{READING}{FHT}{'measured-temp'} = "RRD_Log_15minGAUGE";
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$data{RRD_LOG}{READING}{FHT}{'desired-temp'} = "RRD_Log_15minGAUGE";
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$data{RRD_LOG}{READING}{FHT}{'actuator'} = "RRD_Log_5minGAUGE";
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#HMS
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$data{RRD_LOG}{READING}{HMS}{'temperature'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{HMS}{'humidity'} = "RRD_Log_5minGAUGE";
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# KS300
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$data{RRD_LOG}{READING}{KS300}{'rain_15min'} = "RRD_Log_15minGAUGE";
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$data{RRD_LOG}{READING}{KS300}{'rain_now'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{KS300}{'rain'} = "RRD_Log_5minCOUNTER";
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$data{RRD_LOG}{READING}{KS300}{'temperature'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{KS300}{'humidity'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{KS300}{'wind'} = "RRD_Log_5minGAUGE";
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# CUL_WS => S55TH&S300TH
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$data{RRD_LOG}{READING}{CUL_WS}{'temperature'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{CUL_WS}{'humidity'} = "RRD_Log_5minGAUGE";
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#CUL_EM
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$data{RRD_LOG}{READING}{CUL_EM}{'current'} = "RRD_Log_5minGAUGE";
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#FS20
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$data{RRD_LOG}{READING}{FS20}{'state'} = "RRD_Log_10secGAUGE";
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# IODEVSTATS=CUL
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$data{RRD_LOG}{READING}{CUL}{'msg'} = "RRD_Log_5minCOUNTER";
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$data{RRD_LOG}{READING}{CUL}{'rssi'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{CUL}{'RAWMSGCOUNT'} = "RRD_Log_5minGAUGE";
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# IODEVSTATS=FHZ
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$data{RRD_LOG}{READING}{FHZ}{'msg'} = "RRD_Log_5minCOUNTER";
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$data{RRD_LOG}{READING}{FHZ}{'rssi'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{FHZ}{'RAWMSGCOUNT'} = "RRD_Log_5minGAUGE";
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# IODEVSTATS=CUL_RFR
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$data{RRD_LOG}{READING}{CUL_RFR}{'msg'} = "RRD_Log_5minCOUNTER";
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$data{RRD_LOG}{READING}{CUL_RFR}{'rssi'} = "RRD_Log_5minGAUGE";
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$data{RRD_LOG}{READING}{CUL_RFR}{'RAWMSGCOUNT'} = "RRD_Log_5minGAUGE";
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#WBS
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$data{RRD_LOG}{READING}{WBS}{'Temperature'} = "RRD_Log_5minGAUGE";
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# ALL4000T
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$data{RRD_LOG}{READING}{ALL4000T}{'Temperature'} = "RRD_Log_5minGAUGE";
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# temp. save Path to RRDs
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# $data{RRD_LOG}{RRDS}{<DEVICE-NAME>}{<READING>} = $rrd_path
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# reset RRS
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delete $data{RRD_LOG}{RRDS};
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#RESET RAWMSGCNT
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delete $data{RRD_LOG}{RAWMSGCOUNT}
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}
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#######################################################################
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sub RRD_Log_Define()
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{
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# define RRD001 RRD_Log <path_to_rrd>
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my ($self, $defs) = @_;
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my @a = split(/ /, $defs);
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my($package, $filename, $line, $subroutine) = caller(3);
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Log 5, "RRDLOG[Define]: $package: $filename LINE: $line SUB: $subroutine \n";
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return "RRDLOG[Define::ERROR] Unknown argument count " . int(@a) . " , usage set <name> RRD_Log <Path>" if(int(@a) != 3);
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# RRDPath
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my $rrdpath = $a[2];
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if(!-d $rrdpath) {
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return "RRDLOG[Define::ERROR] Invalid Path: $rrdpath";}
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$self->{RRDPATH} = $a[2];
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#RRD Startdate
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$self->{RRD_Start_Date_tsecs} = time();
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$self->{RRD_Start_Date} = TimeNow();
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#LogLevel auf 5
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my $my_name = $self->{NAME};
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$attr{$my_name}{'loglevel'} = '5';
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return undef;
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}
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#######################################################################
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sub RRD_Log_Set() {
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# set <NAME> ADD/DEL <DEVICENAME> READING_1:READING_2:READING_3
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my ($hash, @a) = @_ ;
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return "" if($attr{$hash->{NAME}} && $attr{$hash->{NAME}}{disable});
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# FHEMWEB Frage....Auswahliste
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return "RRDLOG[SET::ERROR] Unknown argument $a[1], choose one of ". join(" ",sort keys %{$hash->{READINGS}}) if($a[1] eq "?");
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#LogLevel
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my $ll = $attr{$hash->{NAME}}{'loglevel'};
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# Pruefen Uebergabeparameter
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# @a => a[0]:<NAME>; a[1]=ADD oder DEL; a[2]= DeviceName;
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# a[3]=READING_1:READING_2:READING_3
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# READINGS setzten oder löschen
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if($a[1] eq "DEL")
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{
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Log $ll,"RRDLOG[SET] DELETE: A0= ". $a[0] . " A1= " . $a[1] . " A2=" . $a[2];
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if(defined($hash->{READINGS}{$a[2]}))
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{
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delete($hash->{READINGS}{$a[2]})
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}
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}
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if($a[1] eq "ADDTYPE") {
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my $add_type = $a[2];
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if(!defined($data{RRD_LOG}{READING}{$add_type})) {return "RRDLOG[SET::ERROR] $a[2] => Unkown Type";}
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my ($reading,$reading_list);
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foreach $reading (keys %{$data{RRD_LOG}{READING}{$add_type}}) {
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$reading_list .= ":" . $reading;
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}
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$reading_list = reverse($reading_list);
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chop($reading_list);
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$reading_list = reverse($reading_list);
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my ($device);
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foreach $device (sort keys %defs) {
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next if($defs{$device}{TYPE} ne $add_type);
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$hash->{READINGS}{$device}{TIME} = TimeNow();
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$hash->{READINGS}{$device}{VAL} = $reading_list;
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}
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}
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if($a[1] eq "ADD") {
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# Device check
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if(!defined($defs{$a[2]})) {return "RRDLOG[SET::ERROR] $a[2] => Unkown Device";}
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# Mindestens 3 Parameter
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my @readings = split(/:/, $a[3]);
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return "RRDLOG[SET::ERROR] No READING found " if(int(@readings) < 1);
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# Reading check
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my $def_type = $defs{$a[2]}{TYPE};
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foreach my $reading (@readings){
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# if(!defined($defs{$a[2]}{READINGS}{$reading})) {return "RRDLOG[SET::ERROR] $a[2] => $reading => Unkown";}
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if(!defined($data{RRD_LOG}{READING}{$def_type}{$reading})) {return "RRDLOG[SET::ERROR] $a[2] => $reading => not supported";}
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}
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$hash->{READINGS}{$a[2]}{TIME} = TimeNow();
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$hash->{READINGS}{$a[2]}{VAL} = $a[3];
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$hash->{CHANGED}[0] = $a[1];
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$hash->{STATE} = $a[1];
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}
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return undef;
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}
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#######################################################################
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sub RRD_Log_Notify() {
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my ($self, $changed_device) = @_;
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my $my_name = $self->{NAME};
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return "" if($attr{$my_name} && $attr{$my_name}{disable});
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#LogLevel
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my $ll = $attr{$my_name}{'loglevel'};
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# Log $ll, "RRDLOG[DEF::DUMPER]" . Dumper($changed_device);
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my $dev_name = $changed_device->{NAME};
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# Not Undefined Devices
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if(lc($dev_name) eq "undefined") {
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Log $ll,"RRDLOG[Notify::ERROR] Undefined Device";
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return undef;}
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# Device configured
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if(!defined($defs{$my_name}{READINGS}{$dev_name})){
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Log $ll,"RRDLOG[Notify::ERROR] $dev_name => Not configured";
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return undef;}
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# Readings configured
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### if $d_reading =~ m//
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my %dev_name_readings;
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foreach my $d_reading (split(/:/,$defs{$my_name}{READINGS}{$dev_name}{VAL})) {
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$dev_name_readings{$d_reading} = 1 ;
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}
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my $max = int(@{$defs{$dev_name}{CHANGED}});
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my ($changed_reading, $changed_value);
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#FS20 => CHANGED => [on],
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my $timestamp = time();
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# IODEVSTATS
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if(defined($attr{$my_name}{IODEVSTATS}) && defined($defs{$dev_name}{LASTIODev})){
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Log $ll,"RRDLOG|IODEVSTATS|$dev_name: " . $defs{$dev_name}{LASTIODev};
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# 'LASTIODev' => 'MyCUL',MyCUN_MSGCNT' => 1,MyCUN_RSSI' => '-79.5',
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# Aufruf RRD_Log_disptach_reading(RRD_LOG,LASTIODev,READING,VALUE,$timestamp);
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# Maximal 19 Zeichen DS-Name
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my $LASTIODev = $defs{$dev_name}{LASTIODev};
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my $iostat_reading = $dev_name . "_rssi";
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my $iostat_index = $LASTIODev . "_RSSI";
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$iostat_reading =~ s/\./_/g ;
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my $cul_rssi_return;
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if(defined($defs{$dev_name}{$iostat_index})){
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my $iodev_rssi = $defs{$dev_name}{$iostat_index};
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# RSSI ist negativ...wollen aber nur positive Werte
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if($iodev_rssi =~ m/-/){$iodev_rssi =~ s/-//;}
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Log $ll,"RRDLOG|IODEVSTATS|RSSI|RRD_Log_disptach_reading: $self,$LASTIODev,$iostat_reading ,$iodev_rssi,$timestamp";
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$cul_rssi_return = &RRD_Log_disptach_reading($self,$LASTIODev,$iostat_reading ,$iodev_rssi,$timestamp);
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}
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$iostat_index = $LASTIODev . "_MSGCNT";
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$iostat_reading = $dev_name . "_msg";
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$iostat_reading =~ s/\./_/g ;
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my $iodev_msgcnt = $defs{$dev_name}{$iostat_index };
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Log $ll,"RRDLOG|IODEVSTATS|MSGCNT|RRD_Log_disptach_reading: $self,$LASTIODev,$iostat_reading ,$iodev_msgcnt,$timestamp";
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$cul_rssi_return = &RRD_Log_disptach_reading($self,$LASTIODev,$iostat_reading ,$iodev_msgcnt,$timestamp);
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#RAWMSGCOUNT
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# 5min Werte = 300sec
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if(defined($defs{$LASTIODev}{"${LASTIODev}_MSGCNT"})){
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#INIT
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my $tsecs = time();
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my $secs = 300;
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my $msgcnt = $defs{$LASTIODev}{"${LASTIODev}_MSGCNT"};
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if(!defined($data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev})){
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$data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{TSECS} = $tsecs;
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$data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{CNT} = $msgcnt;
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Log $ll,"RRDLOG|IODEVSTATS|RAWMSGCOUNT|$LASTIODev|INIT:" . $msgcnt;
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}
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#Calculate
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my $calc_next = $tsecs - $data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{TSECS};
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Log $ll,"RRDLOG|IODEVSTATS|RAWMSGCOUNT|$LASTIODev|calc_next: $calc_next";
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if($calc_next > $secs) {
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$iodev_msgcnt = $msgcnt - $data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{CNT};
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$iostat_reading = "RAWMSGCOUNT";
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Log $ll,"RRDLOG|IODEVSTATS|RAWMSGCOUNT|$LASTIODev|RRD_Log_disptach_reading: $self,$LASTIODev,$iostat_reading ,$iodev_msgcnt,$timestamp";
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$cul_rssi_return = &RRD_Log_disptach_reading($self,$LASTIODev,$iostat_reading ,$iodev_msgcnt,$timestamp);
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$data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{TSECS} = $tsecs;
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$data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{CNT} = $msgcnt;
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$data{RRD_LOG}{RAWMSGCOUNT}{$LASTIODev}{LAST} = $iodev_msgcnt;
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Log $ll,"RRDLOG|IODEVSTATS|RAWMSGCOUNT|$LASTIODev|Update: $tsecs|" . $msgcnt . "|$iodev_msgcnt";
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}
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}
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#RAWMSGCOUNT
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}
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# IODEVSTATS
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# Loop $def{<NAME>}{CHANGED}[i]
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for(my $i = 0; $i < $max; $i++) {
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Log $ll,"RRDLOG[Notify] $dev_name => " . $defs{$dev_name}{CHANGED}[$i];
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# Handle Changed READINGS
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# Abzweig falls eine Funktion für READING angegeben wurde...foreach
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if($defs{$dev_name}{TYPE} eq "FS20"){
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$changed_reading = "state";
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$changed_value = $defs{$dev_name}{CHANGED}[$i];
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}
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else {
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($changed_reading, $changed_value) = split(/:/,$defs{$dev_name}{CHANGED}[$i]);
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}
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if(!defined($defs{$dev_name}{READINGS}{$changed_reading})) {
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Log 0, "RRDLOG[NOTIFY::ERROR] $dev_name => $changed_reading => Unkown";
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next;}
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Log $ll, "RRDLOG[Notify] $dev_name => $changed_reading => $changed_value";
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#Trim
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if($changed_reading =~ m/^\s+/) {$changed_reading =~ s/^\s+//;}
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if($changed_reading =~ m/\s+$/) {$changed_reading =~ s/\s+$//;}
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if($changed_reading =~ m/^\s+/) {$changed_value =~ s/^\s+//;}
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if($changed_reading =~ m/\s+$/) {$changed_value =~ s/\s+$//;}
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next if (!defined($dev_name_readings{$changed_reading}));
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my $rrd_dispatch_return = &RRD_Log_disptach_reading($self,$dev_name,$changed_reading,$changed_value,$timestamp);
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}
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}
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########################################################################
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sub RRD_Log_disptach_reading($$$) {
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my ($self,$changed_device,$changed_reading,$changed_value,$changed_timestamp ) = @_;
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#LogLevel
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my $ll = $attr{$self->{NAME}}{'loglevel'};
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Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => $changed_value";
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# Reading To Number
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$changed_value = &RRD_Log_ReadingToNumber($changed_value,$ll);
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Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => $changed_value";
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if(!defined($changed_value)) {
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Log 0, "RRDLOG[Disptach::ERROR] Invalid Value = $changed_value";
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return undef;
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}
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# Exists
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my $rrd_file;
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if(defined($data{RRD_LOG}{RRDS}{$changed_device}{$changed_reading})) {
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# Get RRD File
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$rrd_file = $data{RRD_LOG}{RRDS}{$changed_device}{$changed_reading};
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#File exists
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if(-e $rrd_file) {
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Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => $changed_value";
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# Update Values in RRD
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my $rrd_last = RRDs::last ($rrd_file);
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my $rrd_update = "$changed_timestamp:$changed_value";
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Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRD-Update: $rrd_update";
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RRDs::update ($rrd_file , $rrd_update);
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my $rrd_new = RRDs::last ($rrd_file);
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Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRDS $rrd_last => $rrd_new";
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return undef;
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}
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else {
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Log 0, "RRDLOG[Disptach::ERROR] DISPATCHER => File not found => $rrd_file";
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return undef;}
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}
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# Create New RRD or Add to hash
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my $changed_device_type = $defs{$changed_device}{TYPE};
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#CUL-Weiche
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if($changed_device_type eq "CUL" && $changed_device_type eq "FHZ" && $changed_device_type eq "CUL_RFR"){
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if(!defined($data{RRD_LOG}{READING}{$changed_device_type})) {
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Log $ll, "RRDLOG|Disptach|CUL_WEICHE: $changed_device Type $changed_device_type not configured";
|
|
return undef;}
|
|
}
|
|
Log $ll, "RRDLOG[Disptach] $changed_device => Type => $changed_device_type";
|
|
|
|
# Pruefen on File bereits existiert und nur im HASH nachgetragen werden muss
|
|
# Falls nein => NEU ANLAGE
|
|
# File exists
|
|
# Timestamp
|
|
my $timestamp = $self->{RRD_Start_Date_tsecs};
|
|
my $rrd_path = $self->{RRDPATH};
|
|
# Backslash
|
|
$rrd_path =~ s/\/$//;
|
|
$rrd_path = $rrd_path . "/" . $changed_device;
|
|
$rrd_file = $rrd_path . "/" . $changed_reading . ".rrd";
|
|
# RRD-file exists => ADD to HASH
|
|
if(-e $rrd_file) {
|
|
# Add to hash
|
|
$data{RRD_LOG}{RRDS}{$changed_device}{$changed_reading} = $rrd_file;
|
|
# Update Values in RRD
|
|
my $rrd_last = 0;
|
|
my $rrd_new = 0;
|
|
$rrd_last = RRDs::last ($rrd_file);
|
|
my $rrd_update = "$changed_timestamp:$changed_value";
|
|
Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRD-Update: $rrd_update";
|
|
RRDs::update ($rrd_file , $rrd_update);
|
|
$rrd_new = RRDs::last ($rrd_file);
|
|
Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRDS $rrd_last => $rrd_new";
|
|
return undef;
|
|
}
|
|
# NEU ANLAGE
|
|
# Create Directoty
|
|
my $rrd_path_ok;
|
|
if(!-d $rrd_path) {
|
|
$rrd_path_ok=mkdir($rrd_path,0777);
|
|
}
|
|
no strict "refs";
|
|
|
|
my $rrd_create_func;
|
|
if($changed_device_type eq "CUL" || $changed_device_type eq "FHZ" || $changed_device_type eq "CUL_RFR"){
|
|
my $cul_reading;
|
|
if(lc($changed_reading) =~ m/_rssi$/){$cul_reading = "rssi";}
|
|
if(lc($changed_reading) =~ m/_msg$/){$cul_reading = "msg";}
|
|
if(lc($changed_reading) eq "RAWMSGCOUNT"){$cul_reading = "RAWMSGCOUNT";}
|
|
$rrd_create_func = $data{RRD_LOG}{READING}{"CUL"}{$cul_reading};
|
|
Log $ll, "RRDLOG[Disptach] CUL -> rrd_create_func = $rrd_create_func";
|
|
}
|
|
else {$rrd_create_func = $data{RRD_LOG}{READING}{$changed_device_type}{$changed_reading};}
|
|
if(!defined($rrd_create_func)){
|
|
Log $ll, "RRDLOG[ERRROR] dispatch rrd_create_func $changed_device_type:$changed_reading Function not defined";
|
|
return undef;
|
|
}
|
|
$rrd_file = &$rrd_create_func($self,$changed_device,$changed_reading,$rrd_file,$timestamp);
|
|
use strict "refs";
|
|
if($rrd_file) {
|
|
# Add to hash
|
|
$data{RRD_LOG}{RRDS}{$changed_device}{$changed_reading} = $rrd_file;
|
|
# Update Values in RRD
|
|
my $rrd_last = 0;
|
|
my $rrd_new = 0;
|
|
$rrd_last = RRDs::last ($rrd_file);
|
|
my $rrd_update = "$changed_timestamp:$changed_value";
|
|
Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRD-Update: $rrd_update";
|
|
RRDs::update ($rrd_file , $rrd_update);
|
|
$rrd_new = RRDs::last ($rrd_file);
|
|
Log $ll, "RRDLOG[Disptach] $changed_device => $changed_reading => RRDS $rrd_last => $rrd_new";
|
|
}
|
|
|
|
}
|
|
########################################################################
|
|
sub RRD_Log_ReadingToNumber($$)
|
|
{
|
|
# Input: reading z.B. 21.1 (Celsius) oder dim10%, on-for-oldtimer etc.
|
|
# Output: 21.1 oder 10
|
|
# ERROR = undef
|
|
# Alles außer Nummern loeschen $t =~ s/[^0123456789.]//g;
|
|
my ($in,$ll) = @_;
|
|
Log $ll, "RRDLOG[ReadingToNumber] In => $in";
|
|
# Bekannte READINGS FS20 Devices oder FHT
|
|
if($in =~ /^on|Switch.*on|israining:.*yes|^yes/i) {$in = 10;}
|
|
if($in =~ /^off|Switch.*off|toggle|israining:.*no|^no/i) {$in = 5;}
|
|
if($in =~ /lime-protection|syncnow/i) {$in = 0;}
|
|
# Keine Zahl vorhanden
|
|
if($in !~ /\d{1}/) {
|
|
Log $ll, "RRDLOG[ReadingToNumber] No Number: $in";
|
|
return undef;}
|
|
# Mehrfachwerte in READING z.B. CUM_DAY: 5.040 CUM: 334.420 COST: 0.00
|
|
my @b = split(' ', $in);
|
|
if(int(@b) gt 2) {
|
|
Log $ll, "RRDLOG[ReadingToNumber] CUM_DAY: $in";
|
|
return undef;}
|
|
# Nur noch Zahlen z.B. dim10% = 10 oder 21.1 (Celsius) = 21.1
|
|
if (int(@b) eq 2){
|
|
Log $ll, "RRDLOG[ReadingToNumber] Split:WhiteSpace-0- $b[0]";
|
|
$in = $b[0];
|
|
}
|
|
$in =~ s/[^0123456789\.-]//g;
|
|
Log $ll, "RRDLOG[ReadingToNumber] Out => $in";
|
|
return scalar($in);
|
|
}
|
|
################################################################################
|
|
sub RRD_Log_5minGAUGE($$$){
|
|
my ($self,$changed_device,$changed_reading,$rrd_file,$timestamp) = @_;
|
|
# Log 0, "RRDLOG-5min- $self,$changed_device,$changed_reading,$rrd_file,$timestamp";
|
|
# Create RRD
|
|
# Tagesverlauf: Alle 5 min ein neuer Wert
|
|
# --step 300
|
|
# min Value = -30
|
|
# max Value = 100
|
|
# 3 Werte = 15min koennen ausfallen => Hartbeat 900
|
|
# DS:<temp>:GAUGE:900:-20:100
|
|
# 5 min Werte 5 Tag speicherne => 12 Werte/h * 24 * 5 = 1440
|
|
# RRA:AVERAGE:0.5:1:1440
|
|
# 15min Werte 6 Monat lang speichern
|
|
# 15min/5min = 3, 4 Werte/h * 24 * 30 * 6 = 17280
|
|
# RRA:AVERAGE:0.5:3:17280
|
|
# 30min Werte 5 Jahre speichern
|
|
# 30min/5min = 6; 6 Werte/h * 24 * 365 * 5 = 262800
|
|
# RRA:AVERAGE:0.5:6:262800
|
|
# Min/Max Werte = 4 pro Tag für 5 Jahre
|
|
# (4*60)/5min = 48; 4 Werte/Tag * 365 * 5 = 7300
|
|
# RRA:MIN:0.5:48:7300
|
|
# RRA:MAX:0.5:48:7300
|
|
# Last 100 Werte
|
|
# RRD:LAST:1:1:100
|
|
Log 0, "RRDLOG[5minCOUNTER] => NEW RRD-FILE => $rrd_file => Start: $timestamp";
|
|
RRDs::create($rrd_file,
|
|
"--step=120",
|
|
"--start=$timestamp",
|
|
"DS:$changed_reading:GAUGE:900:-20:100",
|
|
"RRA:MIN:0.5:48:7300",
|
|
"RRA:MAX:0.5:48:7300",
|
|
"RRA:AVERAGE:0.5:3:17280",
|
|
"RRA:AVERAGE:0.5:6:262800",
|
|
"RRA:AVERAGE:0.5:1:1440");
|
|
my $ERR=RRDs::error;
|
|
if (defined($ERR)) {
|
|
Log 0, "RRDLOG[5minGAUGE]::ERROR Create RRD: $ERR";
|
|
return undef;}
|
|
else {return $rrd_file;}
|
|
}
|
|
################################################################################
|
|
sub RRD_Log_5minCOUNTER($$$){
|
|
my ($self,$changed_device,$changed_reading,$rrd_file,$timestamp) = @_;
|
|
# Create RRD
|
|
# Tagesverlauf: Alle 5 min ein neuer Wert
|
|
# --step 300
|
|
# min Value = -30
|
|
# max Value = 100
|
|
# 3 Werte = 15min koennen ausfallen => Hartbeat 900
|
|
# DS:<temp>:GAUGE:900:-20:100
|
|
# 5 min Werte 5 Tag speicherne => 12 Werte/h * 24 * 5 = 1440
|
|
# RRA:AVERAGE:0.5:1:1440
|
|
# 15min Werte 6 Monat lang speichern
|
|
# 15min/5min = 3, 4 Werte/h * 24 * 30 * 6 = 17280
|
|
# RRA:AVERAGE:0.5:3:17280
|
|
# 30min Werte 5 Jahre speichern
|
|
# 30min/5min = 6; 6 Werte/h * 24 * 365 * 5 = 262800
|
|
# RRA:AVERAGE:0.5:6:262800
|
|
# Min/Max Werte = 4 pro Tag für 5 Jahre
|
|
# (4*60)/5min = 48; 4 Werte/Tag * 365 * 5 = 7300
|
|
|
|
Log 0, "RRDLOG[5minCOUNTER] => NEW RRD-FILE => $rrd_file => Start: $timestamp";
|
|
RRDs::create($rrd_file,
|
|
"--step=120",
|
|
"--start=$timestamp",
|
|
"DS:$changed_reading:COUNTER:900:0:1000",
|
|
"RRA:AVERAGE:0.5:3:17280",
|
|
"RRA:AVERAGE:0.5:6:262800",
|
|
"RRA:AVERAGE:0.5:1:1440");
|
|
my $ERR=RRDs::error;
|
|
if (defined($ERR)) {
|
|
Log 0, "RRDLOG[5minCOUNTER]::ERROR Create RRD: $ERR";
|
|
return undef;}
|
|
else {return $rrd_file;}
|
|
}
|
|
################################################################################
|
|
sub RRD_Log_15minGAUGE($$$){
|
|
my ($self,$changed_device,$changed_reading,$rrd_file,$timestamp) = @_;
|
|
# FHT => measured-temp ~ 4 Werte/Stunde
|
|
# Create RRD
|
|
# Tagesverlauf: Alle 15 min ein neuer Wert
|
|
# --step 900
|
|
# min Value = 0
|
|
# max Value = 100
|
|
# 3 Werte = 45min koennen ausfallen => Hartbeat 2700
|
|
# DS:<temp>:GAUGE:1800:0:70
|
|
# 15 min Werte 30 Tag speicherne => 4 Werte/h * 24 * 30 = 2880
|
|
# RRA:AVERAGE:0.5:1:2880
|
|
# 30min Werte 5 Jahre lang speichern
|
|
# 30min/15min = 2, 2 Werte/h * 24 * 30 * 6 * 5 = 43200
|
|
# RRA:AVERAGE:0.5:2:43200
|
|
# Min/Max Werte = 4 pro Tag (alle 6h) )für 5 Jahre
|
|
# 6h/15min = 12; 4 Werte/Tag * 365 * 5 = 7300
|
|
# RRA:MIN:0.5:12:7300
|
|
# RRA:MAX:0.5:12:7300
|
|
|
|
|
|
Log 0, "RRDLOG[5minCOUNTER] => NEW RRD-FILE => $rrd_file => Start: $timestamp";
|
|
RRDs::create($rrd_file,
|
|
"--step=900",
|
|
"--start=$timestamp",
|
|
"DS:$changed_reading:GAUGE:2700:0:70",
|
|
"RRA:MIN:0.5:12:7300",
|
|
"RRA:MAX:0.5:12:7300",
|
|
"RRA:AVERAGE:0.5:1:2880",
|
|
"RRA:AVERAGE:0.5:2:43400",
|
|
"RRA:AVERAGE:0.5:1:1880");
|
|
my $ERR=RRDs::error;
|
|
if (defined($ERR)) {
|
|
Log 0, "RRDLOG[15minGAUGE]::ERROR Create RRD: $ERR";
|
|
return undef;}
|
|
else {return $rrd_file;}
|
|
}
|
|
################################################################################
|
|
sub RRD_Log_10secGAUGE($$$){
|
|
my ($self,$changed_device,$changed_reading,$rrd_file,$timestamp) = @_;
|
|
#
|
|
# RRSI
|
|
# alle 10sec einen Wert 8640 Werte pro Tag
|
|
# für 5 Tage = 43200
|
|
# Archiv 15min für 6 Monate
|
|
# 90 => 4/h * 24 * 30 * 6 = 17280
|
|
|
|
Log 0, "RRDLOG[10secGAUGE] => NEW RRD-FILE => $rrd_file => Start: $timestamp";
|
|
RRDs::create($rrd_file,
|
|
"--step=10",
|
|
"--start=$timestamp",
|
|
"DS:$changed_reading:GAUGE:10:-100:100",
|
|
"RRA:AVERAGE:0.5:1:43200",
|
|
"RRA:AVERAGE:0.5:90:17280");
|
|
my $ERR=RRDs::error;
|
|
if (defined($ERR)) {
|
|
Log 0, "RRDLOG[10secGAUGE]::ERROR Create RRD: $ERR";
|
|
return undef;}
|
|
else {return $rrd_file;}
|
|
}
|
|
################################################################################
|
|
sub RRD_Log_10minDERIVE($$$){
|
|
my ($self,$changed_device,$changed_reading,$rrd_file,$timestamp) = @_;
|
|
print "$self,$changed_device,$changed_reading,$rrd_file,$timestamp\n";
|
|
# 30 Tage 10min Werte => 4320
|
|
# 5 Jahre 30min Werte => 86700
|
|
# 4 Max-Werte pro tag für 5 Jahre = 6h/30min = 12 => 7300
|
|
# "RRA:MAX:0.5:1:7300","RRA:AVERAGE:0.5:12:7300"
|
|
Log 0, "RRDLOG[5minCOUNTER] => NEW RRD-FILE => $changed_reading => $rrd_file => Start: $timestamp";
|
|
RRDs::create($rrd_file,
|
|
"--step=60",
|
|
"--start=$timestamp",
|
|
"DS:$changed_reading:DERIVE:120:0:1000",
|
|
"RRA:MAX:0.5:1:7300",
|
|
"RRA:AVERAGE:0.5:12:7300",
|
|
"RRA:AVERAGE:0.5:1:4320");
|
|
my $ERR=RRDs::error;
|
|
if (defined($ERR)) {
|
|
Log 0, "RRDLOG[10minDERIVE]::ERROR Create RRD: $ERR";
|
|
return undef;}
|
|
else {return $rrd_file;}
|
|
}
|
|
1;
|