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fhem-mirror/FHEM/59_LuftdatenInfo.pm
igami 77fb322d6a 59_LuftdatenInfo: fix recognition of newlines in definition 
git-svn-id: https://svn.fhem.de/fhem/trunk/fhem@23228 2b470e98-0d58-463d-a4d8-8e2adae1ed80
2020-11-25 06:28:42 +00:00

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# Id ##########################################################################
# $Id$
# copyright ###################################################################
#
# 59_LuftdatenInfo.pm
#
# Copyright by igami
#
# This file is part of FHEM.
#
# FHEM is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# FHEM is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with FHEM. If not, see <http://www.gnu.org/licenses/>.
# packages ####################################################################
package main;
use Encode;
use strict;
use warnings;
use HttpUtils;
# forward declarations ########################################################
sub LuftdatenInfo_Initialize($);
sub LuftdatenInfo_Define($$);
sub LuftdatenInfo_Undefine($$);
sub LuftdatenInfo_Set($@);
sub LuftdatenInfo_Get($@);
sub LuftdatenInfo_Attr(@);
sub LuftdatenInfo_GetHttpResponse($$);
sub LuftdatenInfo_ParseHttpResponse($);
sub LuftdatenInfo_statusRequest($);
# initialize ##################################################################
sub LuftdatenInfo_Initialize($) {
my ($hash) = @_;
my $TYPE = "LuftdatenInfo";
$hash->{DefFn} = $TYPE."_Define";
$hash->{UndefFn} = $TYPE."_Undefine";
$hash->{SetFn} = $TYPE."_Set";
$hash->{GetFn} = $TYPE."_Get";
$hash->{AttrFn} = $TYPE."_Attr";
$hash->{AttrList} = ""
. "disable:1,0 "
. "disabledForIntervals "
. "interval "
. "rawReading:0,1 "
. "timeout "
. $readingFnAttributes
;
}
# regular Fn ##################################################################
sub LuftdatenInfo_Define($$) {
my ($hash, $def) = @_;
my ($SELF, $TYPE, $MODE, $DEF) = split(/[\s]+/, $def, 4);
my $rc = eval{
require JSON;
JSON->import();
1;
};
return(
"Error loading JSON. Maybe this module is not installed? "
. "\nUnder debian (based) system it can be installed using "
. "\"apt-get install libjson-perl\""
) unless($rc);
delete($hash->{SENSORIDS});
delete($hash->{ADDRESS});
delete($hash->{INTERVAL});
delete($hash->{TIMEOUT});
delete($hash->{MASTER});
delete($hash->{SENSORS});
my $hadTemperature = 1 if(ReadingsVal($SELF, "temperature", undef));
delete($hash->{READINGS});
$DEF =~ s/\s+/ /g;
if($MODE eq "remote"){
return("Usage: define <name> $TYPE $MODE <SENSORID1> [<SENSORID2> ...]")
if($DEF !~ m/^[\s\d]+$/);
$hash->{SENSORIDS} = $DEF;
}
elsif($MODE eq "local"){
return("Usage: define <name> $TYPE $MODE <IP>")
if($DEF =~ m/\s/);
$hash->{ADDRESS} = $DEF;
}
elsif($MODE eq "slave"){
return("Usage: define <name> $TYPE $MODE <master-name> <reading regexps>")
if($DEF !~ m/\s/);
($hash->{MASTER}, $hash->{SENSORS}) = split(/[\s]+/, $DEF, 2);
delete($defs{$hash->{MASTER}}->{READINGS})
if(IsDevice($hash->{MASTER}, $TYPE));
}
else{
if(looks_like_number($MODE)){
$hash->{SENSORIDS} = $MODE;
$hash->{SENSORIDS} .= " ".($MODE + 1) if($hadTemperature);
$hash->{SENSORIDS} .= " $DEF" if($DEF && looks_like_number($DEF));
$MODE = "remote";
$hash->{DEF} = "$MODE $hash->{SENSORIDS}";
}
elsif(!$DEF){
$hash->{ADDRESS} = $MODE;
$MODE = "local";
$hash->{DEF} = "$MODE $hash->{ADDRESS}";
}
else{
return(
"Usage: define <name> $TYPE remote <SENSORID1> [<SENSORID2> ...]"
. " define <name> $TYPE local <IP>"
. " define <name> $TYPE slave <master-name> <sensor1 sensor2 ...>"
);
}
}
$hash->{MODE} = $MODE;
unless($MODE eq "slave"){
my $minInterval = $hash->{MODE} eq "local" ? 30 : 300;
my $interval = AttrVal($SELF, "interval", $minInterval);
$interval = $minInterval unless(looks_like_number($interval));
$interval = $minInterval if($interval < $minInterval);
my $minTimeout = 5;
my $timeout = AttrVal($SELF, "timeout", $minTimeout);
$timeout = $minTimeout unless(looks_like_number($timeout));
$timeout = $minTimeout if($timeout < $minTimeout);
$hash->{INTERVAL} = $interval;
$hash->{TIMEOUT} = $timeout;
}
readingsSingleUpdate($hash, "state", "active", 1);
LuftdatenInfo_statusRequest($hash);
return;
}
sub LuftdatenInfo_Undefine($$) {
my ($hash, $arg) = @_;
HttpUtils_Close($hash);
RemoveInternalTimer($hash);
return;
}
sub LuftdatenInfo_Set($@) {
my ($hash, @a) = @_;
my $TYPE = $hash->{TYPE};
return "\"set $TYPE\" needs at least one argument" if(@a < 2);
my $SELF = shift @a;
my $argument = shift @a;
my $value = join(" ", @a) if (@a);
my %LuftdatenInfo_sets = (
"statusRequest" => "statusRequest:noArg",
);
return(
"Unknown argument $argument, choose one of "
. join(" ", values %LuftdatenInfo_sets)
) if(!exists($LuftdatenInfo_sets{$argument}));
if(!IsDisabled($SELF)){
if($argument eq "statusRequest"){
LuftdatenInfo_statusRequest($hash);
}
}
return;
}
sub LuftdatenInfo_Get($@) {
my ($hash, @a) = @_;
my $TYPE = $hash->{TYPE};
return "\"get $TYPE\" needs at least one argument" if(@a < 2);
my $SELF = shift @a;
my $argument = shift @a;
my $value = join(" ", @a) if (@a);
my %LuftdatenInfo_gets = (
"sensors" => "sensors:noArg",
);
return(
"Unknown argument $argument, choose one of "
. join(" ", values %LuftdatenInfo_gets)
) if(!exists($LuftdatenInfo_gets{$argument}));
if($argument eq "sensors"){
return (join("\n", split(" ", ReadingsVal(
InternalVal($SELF, "MASTER", $SELF), ".sensors", "No sensors found."
))));
}
return;
}
sub LuftdatenInfo_Attr(@) {
my ($cmd, $SELF, $attribute, $value) = @_;
my $hash = $defs{$SELF};
my $TYPE = $hash->{TYPE};
Log3($SELF, 5, "$TYPE ($SELF) - entering LuftdatenInfo_Attr");
if($attribute eq "disable"){
if($value && $value == 1){
readingsSingleUpdate($hash, "state", "disabled", 1);
}
elsif($cmd eq "del" || !$value){
LuftdatenInfo_statusRequest($hash);
readingsSingleUpdate($hash, "state", "active", 1);
}
}
elsif($attribute eq "interval"){
my $minInterval = $hash->{MODE} eq "local" ? 30 : 300;
my $interval = $cmd eq "set" ? $value : $minInterval;
$interval = $minInterval unless(looks_like_number($interval));
$interval = $minInterval if($interval < $minInterval);
$hash->{INTERVAL} = $interval;
}
elsif($attribute eq "timeout"){
my $minTimeout = 5;
my $timeout = $cmd eq "set" ? $value : $minTimeout;
$timeout = $minTimeout unless(looks_like_number($timeout));
$timeout = $minTimeout if($timeout < $minTimeout);
$hash->{TIMEOUT} = $timeout;
}
return;
}
# HttpUtils Fn ################################################################
sub LuftdatenInfo_GetHttpResponse($$) {
my ($hash, $arg) = @_;
my $SELF = $hash->{NAME};
my $TYPE = $hash->{TYPE};
my $MODE = $hash->{MODE};
my $timeout = $hash->{TIMEOUT};
Log3($SELF, 5, "$TYPE ($SELF) - entering LuftdatenInfo_GetHttpResponse");
my $param = {
timeout => $timeout,
hash => $hash,
method => "GET",
header => "Accept: application/json",
callback => \&LuftdatenInfo_ParseHttpResponse,
};
$param->{url} = "http://api.luftdaten.info/v1/sensor/$arg/"
if($MODE eq "remote");
$param->{url} = "http://$arg/data.json"
if($MODE eq "local");
HttpUtils_NonblockingGet($param);
}
sub LuftdatenInfo_ParseHttpResponse($) {
my ($param, $err, $data) = @_;
my $hash = $param->{hash};
my $SELF = $hash->{NAME};
my $TYPE = $hash->{TYPE};
Log3($SELF, 5, "$TYPE ($SELF) - entering LuftdatenInfo_ParseHttpResponse");
if($err ne ""){
Log3($SELF, 2, "$TYPE ($SELF) - error while request: $err");
readingsSingleUpdate($hash, "state", "error", 1);
}
elsif($data eq "[]"){
Log3($SELF, 2, "$TYPE ($SELF) - error while request: no data returned");
readingsSingleUpdate($hash, "state", "error", 1);
}
elsif($data ne ""){
Log3 $SELF, 4, "$TYPE ($SELF) - returned data: $data";
$data = encode('UTF-8', $data);
$data = eval{decode_json($data)};
if($@){
Log3($SELF, 2, "$TYPE ($SELF) - error while request: $@");
readingsSingleUpdate($hash, "state", "error", 1);
return;
}
my $MODE = $hash->{MODE};
my $rawReading = AttrVal($SELF, "rawReading", 0);
if($param->{url} =~ m/openstreetmap/){
my $address = $data->{address};
readingsSingleUpdate(
$hash, "location"
, "$address->{postcode} "
. ($address->{city} ? $address->{city} : $address->{town})
, 1
);
}
elsif($MODE eq "remote"){
my $sensor = @{$data}[-1];
my $sensor_type = $sensor->{sensor}{sensor_type}{name};
Log3 $SELF, 5, "$TYPE ($SELF) - parsing $sensor_type data";
my $latitude = $sensor->{location}{latitude};
my $longitude = $sensor->{location}{longitude};
if(
$latitude ne ReadingsVal($SELF, "latitude", $latitude)
|| $longitude ne ReadingsVal($SELF, "longitude", $longitude)
){
Log3(
$SELF, 2
, "$TYPE ($SELF) - "
. "$sensor->{sensor}{sensor_type}{name} position differs from "
. "other sensor position"
);
return;
}
unless(ReadingsVal($SELF, "location", undef)){
my $param = {
url => "http://nominatim.openstreetmap.org/reverse?".
"format=json&lat=$latitude&lon=$longitude",
timeout => $hash->{TIMEOUT},
hash => $hash,
method => "GET",
header => "Accept: application/json",
callback => \&LuftdatenInfo_ParseHttpResponse,
};
HttpUtils_NonblockingGet($param);
}
readingsBeginUpdate($hash);
foreach (@{$sensor->{sensordatavalues}}){
$_->{value} =~ m/^(\S+)(\s|$)/;
$_->{value} = $1;
my $knownReading = 1;
if($_->{value_type} eq "P1"){
$_->{value_type} = "PM10";
}
elsif($_->{value_type} eq "P2"){
$_->{value_type} = "PM2.5";
}
elsif($_->{value_type} =~ /temperature$/){
$_->{value_type} = "temperature";
}
elsif($_->{value_type} =~ /humidity$/){
$_->{value_type} = "humidity";
}
elsif($_->{value_type} =~ /pressure$/){
$_->{value} = ($_->{value} > 10000 ? $_->{value} / 100 : $_->{value});
$_->{value_type} = "pressure";
}
else{
$knownReading = 0;
}
readingsBulkUpdate($hash, $_->{value_type}, $_->{value})
if($knownReading || $rawReading);
}
readingsBulkUpdateIfChanged($hash, "latitude", $latitude);
readingsBulkUpdateIfChanged($hash, "longitude", $longitude);
readingsBulkUpdate($hash, "state", "active");
readingsEndUpdate($hash, 1);
}
elsif($MODE eq "local"){
my @slaves = devspec2array("TYPE=$TYPE:FILTER=MASTER=$SELF");
my @sensors;
push(@sensors, $_->{value_type}) foreach (@{$data->{sensordatavalues}});
readingsBeginUpdate($defs{$_}) foreach($SELF, @slaves);
readingsBulkUpdateIfChanged(
$hash, "softwareVersion", $data->{software_version}
);
readingsBulkUpdateIfChanged($hash, ".sensors", join(" ", sort(@sensors)));
foreach (@{$data->{sensordatavalues}}){
my $knownReading = 1;
$_->{value} =~ m/^(\S+)(\s|$)/;
$_->{value} = $1;
my $device = (devspec2array(
"MASTER=$SELF:FILTER=SENSORS=(.+ )?$_->{value_type}( .+)?"
))[0];
$device = IsDevice($device, $TYPE) ? $defs{$device} : $hash;
if($_->{value_type} =~ /P0$/){
$_->{value_type} = "PM1";
}
elsif($_->{value_type} =~ /P1$/){
$_->{value_type} = "PM10";
}
elsif($_->{value_type} =~ /P2$/){
$_->{value_type} = "PM2.5";
}
elsif($_->{value_type} =~ /_air_quality$/){
$_->{value_type} = "airQuality";
}
elsif($_->{value_type} =~ /_height$/){
$_->{value_type} = "altitude";
}
elsif($_->{value_type} =~ /_date$/){
$_->{value_type} = "date";
}
elsif($_->{value_type} =~ /humidity$/){
$_->{value_type} = "humidity";
}
elsif($_->{value_type} =~ /_Full$/){
$_->{value_type} = "illuminanceFull";
}
elsif($_->{value_type} =~ /_UV$/){
$_->{value_type} = "illuminanceUV";
}
elsif($_->{value_type} =~ /_IR$/){
$_->{value_type} = "illuminanceIR";
}
elsif($_->{value_type} =~ /_Visible$/){
$_->{value_type} = "illuminanceVisible";
}
elsif($_->{value_type} =~ /_lat$/){
$_->{value_type} = "latitude";
}
elsif($_->{value_type} =~ /_lon$/){
$_->{value_type} = "longitude";
}
elsif($_->{value_type} =~ /pressure$/){
$_->{value} = ($_->{value} > 10000 ? $_->{value} / 100 : $_->{value});
$_->{value_type} = "pressure";
}
elsif($_->{value_type} =~ /pressure_nn$/){
$_->{value} = ($_->{value} > 10000 ? $_->{value} / 100 : $_->{value});
$_->{value_type} = "pressureNN";
}
elsif($_->{value_type} =~ /_risk/){
$_->{value_type} = "UVRisk";
}
elsif($_->{value_type} eq "signal"){
$_->{value_type} = "signal";
}
elsif($_->{value_type} =~ /temperature$/){
$_->{value_type} = "temperature";
}
elsif($_->{value_type} =~ /_watt/){
$_->{value_type} = "UVIntensity";
}
elsif($_->{value_type} =~ /_time$/){
$_->{value_type} = "time";
}
else{
$knownReading = 0;
}
readingsBulkUpdate($device, $_->{value_type}, $_->{value})
if($knownReading || $rawReading);
}
foreach($SELF, @slaves){
readingsBulkUpdate($defs{$_}, "state", "active");
readingsEndUpdate($defs{$_}, 1);
}
}
}
return;
}
# module Fn ###################################################################
sub LuftdatenInfo_statusRequest($) {
my ($hash) = @_;
my $SELF = $hash->{NAME};
my $TYPE = $hash->{TYPE};
my $MODE = $hash->{MODE};
my $interval = InternalVal($SELF, "INTERVAL", undef);
Log3($SELF, 5, "$TYPE ($SELF) - entering LuftdatenInfo_statusRequest");
if($interval){
RemoveInternalTimer($hash);
InternalTimer(
gettimeofday() + $interval, "LuftdatenInfo_statusRequest", $hash
);
}
return if(IsDisabled($SELF));
if($MODE eq "remote"){
LuftdatenInfo_GetHttpResponse($hash, $_)
foreach(split(/[\s]+/, $hash->{SENSORIDS}));
}
elsif($MODE eq "local"){
LuftdatenInfo_GetHttpResponse($hash, $hash->{ADDRESS});
}
elsif($MODE eq "slave"){
if( IsDevice($hash->{MASTER}, $TYPE)
&& InternalVal($hash->{MASTER}, "MODE", "") eq "local"
){
readingsSingleUpdate($hash, "state", "active", 1);
LuftdatenInfo_statusRequest($defs{$hash->{MASTER}});
}
else{
readingsSingleUpdate($hash, "state", "master not defined", 1);
}
}
}
1;
# commandref ##################################################################
=pod
=item summary provides data from Luftdaten.info
=item summary_DE stellt Daten von Luftdaten.info bereit
=begin html
<a name="LuftdatenInfo"></a>
<h3>LuftdatenInfo</h3>
(en | <a href="commandref_DE.html#LuftdatenInfo"><u>de</u></a>)
<div>
<ul>
LuftdatenInfo is the FHEM module to read particulate matter, temperature
and humidity values from the self-assembly particulate matter sensors
from <a href="http://Luftdaten.info"><u>Luftdaten.info</u></a>.<br>
The values can be queried directly from the server or locally.<br>
There is an
<a href="https://forum.fhem.de/index.php/topic,73879">
<u>alternative Firmware</u>
</a>
to support more sensors.<br>
<br>
<b>Prerequisites</b>
<ul>
The Perl module "JSON" is required.<br>
Under Debian (based) system, this can be installed using
<code>"apt-get install libjson-perl"</code>.
</ul>
<br>
<a name="LuftdatenInfodefine"></a>
<b>Define</b>
<ul>
<code>
define &lt;name&gt; LuftdatenInfo remote
&lt;SENSORID1&gt; [&lt;SENSORID2&gt; ..]<br>
define &lt;name&gt; LuftdatenInfo local &lt;IP&gt;<br>
define &lt;name&gt; LuftdatenInfo
slave &lt;master-name&gt; &lt;sensor1 sensor2 ...&gt;
</code><br>
To query the data from the server, all affected SensorIDs must be
specified. The IDs of the SDS01 stands right at
<a href="http://maps.luftdaten.info/">
<u>http://maps.luftdaten.info/</u>
</a>
. The DHT22 SensorID is usually the SDS011 SensorID + 1. While parsing
the data the location values from all sensors will be compared and a
message will be written into the log if they differ.<br>
For a local query of the data, the IP address or hostname must be
specified.<br>
If several similar sensors are used, the duplicate values can be written
in another device.
</ul><br>
<a name="LuftdatenInfoset"></a>
<b>Set</b>
<ul>
<li>
<code>statusRequest</code><br>
Starts a status request.
</li>
</ul><br>
<a name="LuftdatenInfoget"></a>
<b>Get</b>
<ul>
<li>
<code>sensors</code><br>
Lists all senors.
</li>
</ul><br>
<a name="LuftdatenInforeadings"></a>
<b>Readings</b><br>
<ul>
<li>
<code>airQuality</code>
1 => good<br>
2 => moderate<br>
3 => unhealthy for sensitive groups<br>
4 => unhealthy<br>
5 => very unhealthy<br>
6 => hazardous<br>
</li>
<li>
<code>altitude</code>
</li>
<li>
<code>humidity</code><br>
Relative humidity in %
</li>
<li>
<code>illuminanceFull</code><br>
Illuminace of the full spectrum in lux
</li>
<li>
<code>illuminanceIR</code><br>
Iilluminace of the IR spectrum in lux
</li>
<li>
<code>illuminanceUV</code><br>
Iilluminace of the UV spectrum in lux
</li>
<li>
<code>illuminanceVisible</code><br>
Iilluminace of the visible spectrum in lux
</li>
<li>
<code>latitude</code>
</li>
<li>
<code>location</code><br>
location as "postcode city"<br>
Only available with remote query.
</li>
<li>
<code>longitude</code>
</li>
<li>
<code>PM1</code><br>
Quantity of particles with a diameter of less than 1 μm in μg/m³
</li>
<li>
<code>PM2.5</code><br>
Quantity of particles with a diameter of less than 2.5 μm in μg/m³
</li>
<li>
<code>PM10</code><br>
Quantity of particles with a diameter of less than 10 μm in μg/m³
</li>
<li>
<code>pressure</code><br>
Pressure in hPa
</li>
<li>
<code>pressureNN</code><br>
Pressure at sea level in hPa<br>
Is calculated if pressure and temperature sensor are active and the
sensor is not at sea level.<br>
The height, can be determined by maps or SmartPhone, needs to be
specified at the configuration page.
</li>
<li>
<code>signal</code><br>
WLAN signal strength in dBm<br>
Only available with local query.
</li>
<li>
<code>temperature</code><br>
Temperature in °C
</li>
<li>
<code>UVIntensity</code><br>
UV intensity in W
</li>
<li>
<code>UVRisk</code><br>
UV risk from 1 to 5
</li>
</ul><br>
<a name="LuftdatenInfoattr"></a>
<b>Attribute</b>
<ul>
<li>
<code>disable 1</code><br>
No queries are started.
</li>
<li>
<a href="#disabledForIntervals">
<u><code>disabledForIntervals HH:MM-HH:MM HH:MM-HH-MM ...</code></u>
</a>
</li>
<li>
<code>interval &lt;seconds&gt;</code><br>
Interval in seconds in which queries are performed.<br>
The default and minimum value is 300 seconds for remote request and 30 seconds for local requests.
</li>
<li>
<code>timeout &lt;seconds&gt;</code><br>
Timeout in seconds for the queries.<br>
The default and minimum value is 5 seconds.
</li>
</ul>
</ul>
</div>
=end html
=begin html_DE
<a name="LuftdatenInfo"></a>
<h3>LuftdatenInfo</h3>
(<a href="commandref.html#LuftdatenInfo"><u>en</u></a> | de)
<div>
<ul>
LuftdatenInfo ist das FHEM Modul um Feinstaub-, Temperatur- und
Luftfeuchtichkeitswerte von den selbstbau Feinstaub Sensoren von
<a href="http://Luftdaten.info"><u>Luftdaten.info</u></a> auszulesen.<br>
Dabei k&ouml;nnen die Werte direkt vom Server oder auch lokal abgefragt
werden.<br>
Bei einer lokalen Abfrage werden durch eine
<a href="https://forum.fhem.de/index.php/topic,73879">
<u>alternative Firmware</u>
</a>
noch weitere Sensoren unterstützt.<br>
<br>
<b>Vorraussetzungen</b>
<ul>
Das Perl-Modul "JSON" wird ben&ouml;tigt.<br>
Unter Debian (basierten) System, kann dies mittels
<code>"apt-get install libjson-perl"</code> installiert werden.
</ul>
<br>
<a name="LuftdatenInfodefine"></a>
<b>Define</b>
<ul>
<code>
define &lt;name&gt; LuftdatenInfo remote
&lt;SENSORID1&gt; [&lt;SENSORID2&gt; ..]<br>
define &lt;name&gt; LuftdatenInfo local &lt;IP&gt;<br>
define &lt;name&gt; LuftdatenInfo
slave &lt;master-name&gt; &lt;sensor1 sensor2 ...&gt;
</code><br>
F&uuml;r eine Abfrage der Daten vom Server müssem alle betroffenenen
SensorIDs angegeben werden. Die IDs vom SDS01 stehen rechts auf der Seite
<a href="http://maps.luftdaten.info/">
<u>http://maps.luftdaten.info/</u>
</a>
. Die DHT22 SensorID entspricht normalerweise der SDS011 SensorID + 1.
Bei einer Abfrage werden die die Positionsangaben verglichen und bei
einer Abweichung eine Meldung ins Log geschrieben.<br>
F&uuml;r eine lokale Abfrage der Daten muss die IP Addresse oder der
Hostname angegeben werden.<br>
Werden mehrere ähnliche Sensoren betrieben lassen sich die doppelten
Werte in einem anderen Gerät geschrieben werden.
</ul><br>
<a name="LuftdatenInfoset"></a>
<b>Set</b>
<ul>
<li>
<code>statusRequest</code><br>
Startet eine Abfrage der Daten.
</li>
</ul><br>
<a name="LuftdatenInfoget"></a>
<b>Get</b>
<ul>
<li>
<code>sensors</code><br>
Listet alle Sensoren auf.
</li>
</ul><br>
<a name="LuftdatenInforeadings"></a>
<b>Readings</b><br>
<ul>
<li>
<code>airQuality</code>
1 => gut<br>
2 => mittelmä&suml;ig<br>
3 => ungesund für empfindliche Menschen<br>
4 => ungesund<br>
5 => sehr ungesund<br>
6 => katastrophal<br>
</li>
<li>
<code>altitude</code><br>
Höhe über NN
</li>
<li>
<code>humidity</code><br>
Relative Luftfeuchtgkeit in %
</li>
<li>
<code>illuminanceFull</code><br>
Helligkeit des vollen Bereich in lux
</li>
<li>
<code>illuminanceIR</code><br>
Helligkeit des IR Bereich in lux
</li>
<li>
<code>illuminanceUV</code><br>
Helligkeit des UV Bereich in lux
</li>
<li>
<code>illuminanceVisible</code><br>
Helligkeit des sichtbaren Bereich in lux
</li>
<li>
<code>latitude</code><br>
Längengrad
</li>
<li>
<code>location</code><br>
Standort als "Postleitzahl Ort"<br>
Nur bei remote Abfrage verf&uuml;gbar.
</li>
<li>
<code>longitude</code><br>
Breitengrad
</li>
<li>
<code>PM1</code><br>
Menge der Partikel mit einem Durchmesser von weniger als 1 µm in µg/m³
</li>
<li>
<code>PM2.5</code><br>
Menge der Partikel mit einem Durchmesser von weniger als 2.5 µm in µg/m³
</li>
<li>
<code>PM10</code><br>
Menge der Partikel mit einem Durchmesser von weniger als 10 µm in µg/m³
</li>
<li>
<code>pressure</code><br>
Luftdruck in hPa
</li>
<li>
<code>pressureNN</code><br>
Luftdruck für Normal Null in hPa<br>
Wird bei aktivem Luftdruck- und Temperatursensor berechnet, sofern sich
der Sensor nicht auf Normal Null befindet.<br>
Hierzu ist die Höhe, kann über Kartendienste oder SmartPhone ermittelt
werden, auf der Konfigurationsseite anzugeben.
</li>
<li>
<code>signal</code><br>
WLAN Signalst&auml;rke in dBm<br>
Nur bei local Abfrage verf&uuml;gbar.
</li>
<li>
<code>temperature</code><br>
Temperatur in °C
</li>
<li>
<code>UVIntensity</code><br>
UV Intensität in W
</li>
<li>
<code>UVRisk</code><br>
UV Risiko von 1 bis 5
</li>
</ul><br>
<a name="LuftdatenInfoattr"></a>
<b>Attribute</b>
<ul>
<li>
<code>disable 1</code><br>
Es werden keine Abfragen mehr gestartet.
</li>
<li>
<a href="#disabledForIntervals">
<u><code>disabledForIntervals HH:MM-HH:MM HH:MM-HH-MM ...</code></u>
</a>
</li>
<li>
<code>interval &lt;seconds&gt;</code><br>
Intervall in Sekunden in dem Abfragen durchgef&uuml;hrt werden.<br>
Der Vorgabe- und Mindestwert betr&auml;gt 300 Sekunden für remote Abfragen und 30 Sekunden für local Abfragen.
</li>
<li>
<code>timeout &lt;seconds&gt;</code><br>
Timeout in Sekunden für die Abfragen.<br>
Der Vorgabe- und Mindestwert betr&auml;gt 5 Sekunden.
</li>
</ul>
</ul>
</div>
=end html_DE
=cut
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