Version 2.0 Pre-Release #20

Merged
marko merged 29 commits from devel into main 2021-12-05 11:25:38 +00:00
12 changed files with 2619 additions and 2264 deletions

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###############################################################################
#
# Developed with Kate
#
# (c) 2016-2021 Copyright: Marko Oldenburg (fhemdevelopment at cooltux dot net)
# All rights reserved
#
# This script 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
# any later version.
#
# The GNU General Public License can be found at
# http://www.gnu.org/copyleft/gpl.html.
# A copy is found in the textfile GPL.txt and important notices to the license
# from the author is found in LICENSE.txt distributed with these scripts.
#
# This script 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.
#
#
# $Id$
#
###############################################################################
package main;
use strict;
use warnings;
package FHEM::NUKIDevice;
use strict;
use warnings;
use FHEM::Meta;
use GPUtils qw(GP_Import GP_Export);
main::LoadModule('NUKIBridge');
# try to use JSON::MaybeXS wrapper
# for chance of better performance + open code
eval {
require JSON::MaybeXS;
import JSON::MaybeXS qw( decode_json encode_json );
1;
};
if ($@) {
$@ = undef;
# try to use JSON wrapper
# for chance of better performance
eval {
# JSON preference order
local $ENV{PERL_JSON_BACKEND} =
'Cpanel::JSON::XS,JSON::XS,JSON::PP,JSON::backportPP'
unless ( defined( $ENV{PERL_JSON_BACKEND} ) );
require JSON;
import JSON qw( decode_json encode_json );
1;
};
if ($@) {
$@ = undef;
# In rare cases, Cpanel::JSON::XS may
# be installed but JSON|JSON::MaybeXS not ...
eval {
require Cpanel::JSON::XS;
import Cpanel::JSON::XS qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# In rare cases, JSON::XS may
# be installed but JSON not ...
eval {
require JSON::XS;
import JSON::XS qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# Fallback to built-in JSON which SHOULD
# be available since 5.014 ...
eval {
require JSON::PP;
import JSON::PP qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# Fallback to JSON::backportPP in really rare cases
require JSON::backportPP;
import JSON::backportPP qw(decode_json encode_json);
1;
}
}
}
}
}
## Import der FHEM Funktionen
#-- Run before package compilation
BEGIN {
# Import from main context
GP_Import(
qw(
readingsSingleUpdate
readingsBulkUpdate
readingsBeginUpdate
readingsEndUpdate
readingFnAttributes
makeDeviceName
defs
modules
Log3
CommandAttr
AttrVal
IsDisabled
deviceEvents
init_done
InternalVal
ReadingsVal
AssignIoPort
IOWrite
data)
);
}
#-- Export to main context with different name
GP_Export(
qw(
Initialize
)
);
my %deviceTypes = (
0 => 'smartlock',
2 => 'opener',
4 => 'smartlockNG'
);
my %modes = (
2 => {
0 => 'door mode',
2 => 'door mode'
},
3 => {
0 => '-',
2 => ' continuous mode'
}
);
my %lockStates = (
0 => {
0 => 'uncalibrated',
2 => 'untrained',
4 => 'uncalibrated'
},
1 => {
0 => 'locked',
2 => 'online',
4 => 'locked'
},
2 => {
0 => 'unlocking',
2 => '-',
4 => 'unlocking'
},
3 => {
0 => 'unlocked',
2 => 'rto active',
4 => 'unlocked'
},
4 => {
0 => 'locking',
2 => '-',
4 => 'locking'
},
5 => {
0 => 'unlatched',
2 => 'open',
4 => 'unlatched'
},
6 => {
0 => 'unlocked (lock n go)',
2 => '-',
4 => 'unlocked (lock n go)'
},
7 => {
0 => 'unlatching',
2 => 'opening',
4 => 'unlatching'
},
253 => {
0 => '-',
2 => 'boot run',
4 => '-'
},
254 => {
0 => 'motor blocked',
2 => '-',
4 => 'motor blocked'
},
255 => {
0 => 'undefined',
2 => 'undefined',
4 => 'undefined'
}
);
my %deviceTypeIds = reverse(%deviceTypes);
sub Initialize($) {
my ($hash) = @_;
$hash->{Match} = '^{.*}$';
$hash->{SetFn} = 'FHEM::NUKIDevice::Set';
$hash->{DefFn} = 'FHEM::NUKIDevice::Define';
$hash->{UndefFn} = 'FHEM::NUKIDevice::Undef';
$hash->{NotifyFn} = 'FHEM::NUKIDevice::Notify';
$hash->{AttrFn} = 'FHEM::NUKIDevice::Attr';
$hash->{ParseFn} = 'FHEM::NUKIDevice::Parse';
$hash->{AttrList} =
'IODev '
. 'model:opener,smartlock '
. 'disable:1 '
. $readingFnAttributes;
return FHEM::Meta::InitMod( __FILE__, $hash );
}
sub Define($$) {
my ( $hash, $def ) = @_;
my @a = split( '[ \t][ \t]*', $def );
return $@ unless ( FHEM::Meta::SetInternals($hash) );
use version 0.60; our $VERSION = FHEM::Meta::Get( $hash, 'version' );
return 'too few parameters: define <name> NUKIDevice <nukiId> <deviceType>'
if ( @a != 4 );
my $name = $a[0];
my $nukiId = $a[2];
my $deviceType = ( defined $a[3] ) ? $a[3] : 0;
$hash->{NUKIID} = $nukiId;
$hash->{DEVICETYPE} = ( defined $deviceType ) ? $deviceType : 0;
$hash->{VERSION} = version->parse($VERSION)->normal;
$hash->{STATE} = 'Initialized';
$hash->{NOTIFYDEV} = 'global,autocreate,' . $name;
my $iodev = AttrVal( $name, 'IODev', 'none' );
AssignIoPort( $hash, $iodev ) if ( !$hash->{IODev} );
if ( defined( $hash->{IODev}->{NAME} ) ) {
Log3( $name, 3,
"NUKIDevice ($name) - I/O device is " . $hash->{IODev}->{NAME} );
}
else {
Log3( $name, 1, "NUKIDevice ($name) - no I/O device" );
}
$iodev = $hash->{IODev}->{NAME};
$hash->{BRIDGEAPI} = $defs{$iodev}->{BRIDGEAPI};
my $d = $modules{NUKIDevice}{defptr}{$nukiId};
return
'NUKIDevice device '
. $name
. ' on NUKIBridge '
. $iodev
. ' already defined.'
if ( defined($d)
and $d->{IODev} == $hash->{IODev}
and $d->{NAME} ne $name );
Log3( $name, 3, "NUKIDevice ($name) - defined with NukiId: $nukiId" );
CommandAttr( undef, $name . ' room NUKI' )
if ( AttrVal( $name, 'room', 'none' ) eq 'none' );
CommandAttr( undef, $name . ' model ' . $deviceTypes{$deviceType} )
if ( AttrVal( $name, 'model', 'none' ) eq 'none' );
$modules{NUKIDevice}{defptr}{$nukiId} = $hash;
GetUpdate($hash)
if ( ReadingsVal( $name, 'success', 'none' ) eq 'none'
and $init_done );
return undef;
}
sub Undef($$) {
my ( $hash, $arg ) = @_;
my $nukiId = $hash->{NUKIID};
my $name = $hash->{NAME};
Log3( $name, 3, "NUKIDevice ($name) - undefined with NukiId: $nukiId" );
delete( $modules{NUKIDevice}{defptr}{$nukiId} );
return undef;
}
sub Attr(@) {
my ( $cmd, $name, $attrName, $attrVal ) = @_;
my $hash = $defs{$name};
my $token = $hash->{IODev}->{TOKEN};
if ( $attrName eq 'disable' ) {
if ( $cmd eq 'set' and $attrVal == 1 ) {
readingsSingleUpdate( $hash, 'state', 'disabled', 1 );
Log3( $name, 3, "NUKIDevice ($name) - disabled" );
}
elsif ( $cmd eq 'del' ) {
readingsSingleUpdate( $hash, 'state', 'active', 1 );
Log3( $name, 3, "NUKIDevice ($name) - enabled" );
}
}
elsif ( $attrName eq 'disabledForIntervals' ) {
if ( $cmd eq 'set' ) {
Log3( $name, 3,
"NUKIDevice ($name) - enable disabledForIntervals" );
readingsSingleUpdate( $hash, 'state', 'Unknown', 1 );
}
elsif ( $cmd eq 'del' ) {
readingsSingleUpdate( $hash, 'state', 'active', 1 );
Log3( $name, 3,
"NUKIDevice ($name) - delete disabledForIntervals" );
}
}
elsif ( $attrName eq 'model' ) {
if ( $cmd eq 'set' ) {
Log3( $name, 3, "NUKIDevice ($name) - change model" );
$hash->{DEVICETYPE} = $deviceTypeIds{$attrVal};
}
}
return undef;
}
sub Notify($$) {
my ( $hash, $dev ) = @_;
my $name = $hash->{NAME};
return if ( IsDisabled($name) );
my $devname = $dev->{NAME};
my $devtype = $dev->{TYPE};
my $events = deviceEvents( $dev, 1 );
return if ( !$events );
GetUpdate($hash)
if (
(
grep /^INITIALIZED$/,
@{$events}
or grep /^REREADCFG$/,
@{$events}
or grep /^MODIFIED.$name$/,
@{$events}
or grep /^DEFINED.$name$/,
@{$events}
)
and $devname eq 'global'
and $init_done
);
return;
}
sub Set($$@) {
my ( $hash, $name, @aa ) = @_;
my ( $cmd, @args ) = @aa;
my $lockAction;
if ( lc($cmd) eq 'statusrequest' ) {
return ('usage: statusRequest') if ( @args != 0 );
GetUpdate($hash);
return undef;
}
elsif ($cmd eq 'lock'
or lc($cmd) eq 'deactivaterto'
or $cmd eq 'unlock'
or lc($cmd) eq 'activaterto'
or $cmd eq 'unlatch'
or lc($cmd) eq 'electricstrikeactuation'
or lc($cmd) eq 'lockngo'
or lc($cmd) eq 'activatecontinuousmode'
or lc($cmd) eq 'lockngowithunlatch'
or lc($cmd) eq 'deactivatecontinuousmode'
or $cmd eq 'unpair' )
{
return ( 'usage: ' . $cmd )
if ( @args != 0 );
$lockAction = $cmd;
}
else {
my $list = '';
$list =
'statusRequest:noArg unlock:noArg lock:noArg unlatch:noArg locknGo:noArg locknGoWithUnlatch:noArg unpair:noArg'
if ( $hash->{DEVICETYPE} == 0
|| $hash->{DEVICETYPE} == 4 );
$list =
'statusRequest:noArg activateRto:noArg deactivateRto:noArg electricStrikeActuation:noArg activateContinuousMode:noArg deactivateContinuousMode:noArg unpair:noArg'
if ( $hash->{DEVICETYPE} == 2 );
return ( 'Unknown argument ' . $cmd . ', choose one of ' . $list );
}
$hash->{helper}{lockAction} = $lockAction;
# IOWrite( $hash, 'lockAction', $lockAction, $hash->{NUKIID},
# $hash->{DEVICETYPE} );
IOWrite( $hash, 'lockAction', '{"param":"' . $lockAction
. '","nukiId":' . $hash->{NUKIID} . ',"deviceType":' . $hash->{DEVICETYPE} . '}' );
return undef;
}
sub GetUpdate($) {
my $hash = shift;
my $name = $hash->{NAME};
if ( !IsDisabled($name) ) {
# IOWrite( $hash, 'lockState', undef, $hash->{NUKIID},
# $hash->{DEVICETYPE} );
IOWrite( $hash, 'lockState', '{"nukiId":' . $hash->{NUKIID}
. ',"deviceType":' . $hash->{DEVICETYPE} . '}' );
Log3( $name, 2, "NUKIDevice ($name) - GetUpdate Call IOWrite" );
}
return undef;
}
sub Parse($$) {
my ( $hash, $json ) = @_;
my $name = $hash->{NAME};
Log3( $name, 5, "NUKIDevice ($name) - Parse with result: $json" );
#########################################
####### Errorhandling #############
if ( $json !~ m/^[\[{].*[}\]]$/ ) {
Log3( $name, 3, "NUKIDevice ($name) - invalid json detected: $json" );
return "NUKIDevice ($name) - invalid json detected: $json";
}
#########################################
#### verarbeiten des JSON Strings #######
my $decode_json = eval { decode_json($json) };
if ($@) {
Log3( $name, 3, "NUKIDevice ($name) - JSON error while request: $@" );
return;
}
if ( ref($decode_json) ne 'HASH' ) {
Log3( $name, 2,
"NUKIDevice ($name) - got wrong status message for $name: $decode_json"
);
return undef;
}
my $nukiId = $decode_json->{nukiId};
if ( my $hash = $modules{NUKIDevice}{defptr}{$nukiId} ) {
my $name = $hash->{NAME};
WriteReadings( $hash, $decode_json );
Log3( $name, 4,
"NUKIDevice ($name) - find logical device: $hash->{NAME}" );
##################
## Zwischenlösung so für die Umstellung, kann später gelöscht werden
if ( AttrVal( $name, 'model', '' ) eq '' ) {
CommandDefMod( undef,
$name
. ' NUKIDevice '
. $hash->{NUKIID} . ' '
. $decode_json->{deviceType} );
CommandAttr( undef,
$name
. ' model '
. $deviceTypes{ $decode_json->{deviceType} } );
Log3( $name, 2, "NUKIDevice ($name) - redefined Defmod" );
}
return $hash->{NAME};
}
else {
Log3( $name, 4,
"NUKIDevice ($name) - autocreate new device "
. makeDeviceName( $decode_json->{name} )
. " with nukiId $decode_json->{nukiId}, model $decode_json->{deviceType}"
);
return
'UNDEFINED '
. makeDeviceName( $decode_json->{name} )
. " NUKIDevice $decode_json->{nukiId} $decode_json->{deviceType}";
}
Log3( $name, 5, "NUKIDevice ($name) - parse status message for $name" );
WriteReadings( $hash, $decode_json );
}
sub WriteReadings($$) {
my ( $hash, $decode_json ) = @_;
my $name = $hash->{NAME};
############################
#### Status des Smartlock
if ( defined( $hash->{helper}{lockAction} ) ) {
my $state;
if (
defined( $decode_json->{success} )
and ( $decode_json->{success} eq 'true'
or $decode_json->{success} == 1 )
)
{
$state = $hash->{helper}{lockAction};
# IOWrite( $hash, 'lockState', undef, $hash->{NUKIID} )
IOWrite( $hash, 'lockState', '{"nukiId":' . $hash->{NUKIID}
. ',"deviceType":' . $hash->{DEVICETYPE} . '}' )
if (
ReadingsVal( $hash->{IODev}->{NAME}, 'bridgeType', 'Software' )
eq 'Software' );
}
elsif (
defined( $decode_json->{success} )
and ( $decode_json->{success} eq 'false'
or $decode_json->{success} == 0 )
)
{
$state = $deviceTypes{ $hash->{DEVICETYPE} } . ' response error';
# IOWrite( $hash, 'lockState', undef, $hash->{NUKIID},
# $hash->{DEVICETYPE} );
IOWrite( $hash, 'lockState', '{"nukiId":' . $hash->{NUKIID}
. ',"deviceType":' . $hash->{DEVICETYPE} . '}' );
}
$decode_json->{'state'} = $state;
delete $hash->{helper}{lockAction};
}
readingsBeginUpdate($hash);
my $t;
my $v;
if ( defined( $decode_json->{lastKnownState} )
and ref( $decode_json->{lastKnownState} ) eq 'HASH' )
{
while ( ( $t, $v ) = each %{ $decode_json->{lastKnownState} } ) {
$decode_json->{$t} = $v;
}
delete $decode_json->{lastKnownState};
}
while ( ( $t, $v ) = each %{$decode_json} ) {
readingsBulkUpdate( $hash, $t, $v )
unless ( $t eq 'state'
or $t eq 'mode'
or $t eq 'deviceType'
or $t eq 'paired'
or $t eq 'batteryCritical'
or $t eq 'timestamp' );
readingsBulkUpdate( $hash, $t,
( $v =~ m/^[0-9]$/ ? $lockStates{$v}{ $hash->{DEVICETYPE} } : $v ) )
if ( $t eq 'state' );
readingsBulkUpdate( $hash, $t, $modes{$v}{ $hash->{DEVICETYPE} } )
if ( $t eq 'mode' );
readingsBulkUpdate( $hash, $t, $deviceTypes{$v} )
if ( $t eq 'deviceType' );
readingsBulkUpdate( $hash, $t, ( $v == 1 ? 'true' : 'false' ) )
if ( $t eq 'paired' );
readingsBulkUpdate( $hash, 'batteryState',
( ( $v eq 'true' or $v == 1 ) ? 'low' : 'ok' ) )
if ( $t eq 'batteryCritical' );
}
readingsEndUpdate( $hash, 1 );
Log3( $name, 5, "NUKIDevice ($name) - lockAction readings set for $name" );
return undef;
}
1;
=pod
=item device
=item summary Modul to control the Nuki Smartlock's
=item summary_DE Modul zur Steuerung des Nuki Smartlocks.
=begin html
<a name="NUKIDevice"></a>
<h3>NUKIDevice</h3>
<ul>
<u><b>NUKIDevice - Controls the Nuki Smartlock</b></u>
<br>
The Nuki module connects FHEM over the Nuki Bridge with a Nuki Smartlock or Nuki Opener. After that, it´s possible to lock and unlock the Smartlock.<br>
Normally the Nuki devices are automatically created by the bridge module.
<br><br>
<a name="NUKIDevicedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIDevice &lt;Nuki-Id&gt; &lt;IODev-Device&gt; &lt;Device-Type&gt;</code>
<br><br>
Device-Type is 0 for the Smartlock and 2 for the Opener.
<br><br>
Example:
<ul><br>
<code>define Frontdoor NUKIDevice 1 NBridge1 0</code><br>
</ul>
<br>
This statement creates a NUKIDevice with the name Frontdoor, the NukiId 1 and the IODev device NBridge1.<br>
After the device has been created, the current state of the Smartlock is automatically read from the bridge.
</ul>
<br><br>
<a name="NUKIDevicereadings"></a>
<b>Readings</b>
<ul>
<li>state - Status of the Smartlock or error message if any error.</li>
<li>lockState - current lock status uncalibrated, locked, unlocked, unlocked (lock n go), unlatched, locking, unlocking, unlatching, motor blocked, undefined.</li>
<li>name - name of the device</li>
<li>paired - paired information false/true</li>
<li>rssi - value of rssi</li>
<li>succes - true, false Returns the status of the last closing command. Ok or not Ok.</li>
<li>batteryCritical - Is the battery in a critical state? True, false</li>
<li>batteryState - battery status, ok / low</li>
</ul>
<br><br>
<a name="NUKIDeviceset"></a>
<b>Set</b>
<ul>
<li>statusRequest - retrieves the current state of the smartlock from the bridge.</li>
<li>lock - lock</li>
<li>unlock - unlock</li>
<li>unlatch - unlock / open Door</li>
<li>unpair - Removes the pairing with a given Smart Lock</li>
<li>locknGo - lock when gone</li>
<li>locknGoWithUnlatch - lock after the door has been opened</li>
<br>
</ul>
<br><br>
<a name="NUKIDeviceattribut"></a>
<b>Attributes</b>
<ul>
<li>disable - disables the Nuki device</li>
<br>
</ul>
</ul>
=end html
=begin html_DE
<a name="NUKIDevice"></a>
<h3>NUKIDevice</h3>
<ul>
<u><b>NUKIDevice - Steuert das Nuki Smartlock</b></u>
<br>
Das Nuki Modul verbindet FHEM über die Nuki Bridge mit einem Nuki Smartlock oder Nuki Opener. Es ist dann m&ouml;glich das Schloss zu ver- und entriegeln.<br>
In der Regel werden die Nuki Devices automatisch durch das Bridgemodul angelegt.
<br><br>
<a name="NUKIDevicedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIDevice &lt;Nuki-Id&gt; &lt;IODev-Device&gt; &lt;Device-Type&gt;</code>
<br><br>
Device-Type ist 0 f&uuml;r das Smartlock und 2 f&üuml;r den Opener.
<br><br>
Beispiel:
<ul><br>
<code>define Haust&uuml;r NUKIDevice 1 NBridge1 0</code><br>
</ul>
<br>
Diese Anweisung erstellt ein NUKIDevice mit Namen Haust&uuml;r, der NukiId 1 sowie dem IODev Device NBridge1.<br>
Nach dem anlegen des Devices wird automatisch der aktuelle Zustand des Smartlocks aus der Bridge gelesen.
</ul>
<br><br>
<a name="NUKIDevicereadings"></a>
<b>Readings</b>
<ul>
<li>state - Status des Smartlock bzw. Fehlermeldung von Fehler vorhanden.</li>
<li>lockState - aktueller Schlie&szlig;status uncalibrated, locked, unlocked, unlocked (lock n go), unlatched, locking, unlocking, unlatching, motor blocked, undefined.</li>
<li>name - Name des Smart Locks</li>
<li>paired - pairing Status des Smart Locks</li>
<li>rssi - rssi Wert des Smart Locks</li>
<li>succes - true, false Gibt des Status des letzten Schlie&szlig;befehles wieder. Geklappt oder nicht geklappt.</li>
<li>batteryCritical - Ist die Batterie in einem kritischen Zustand? true, false</li>
<li>batteryState - Status der Batterie, ok/low</li>
</ul>
<br><br>
<a name="NUKIDeviceset"></a>
<b>Set</b>
<ul>
<li>statusRequest - ruft den aktuellen Status des Smartlocks von der Bridge ab.</li>
<li>lock - verschlie&szlig;en</li>
<li>unlock - aufschlie&szlig;en</li>
<li>unlatch - entriegeln/Falle &ouml;ffnen.</li>
<li>unpair - entfernt das pairing mit dem Smart Lock</li>
<li>locknGo - verschlie&szlig;en wenn gegangen</li>
<li>locknGoWithUnlatch - verschlie&szlig;en nach dem die Falle ge&ouml;ffnet wurde.</li>
<br>
</ul>
<br><br>
<a name="NUKIDeviceattribut"></a>
<b>Attribute</b>
<ul>
<li>disable - deaktiviert das Nuki Device</li>
<br>
</ul>
</ul>
=end html_DE
=for :application/json;q=META.json 74_NUKIDevice.pm
{
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge",
"x_lang": {
"de": {
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge"
}
},
"keywords": [
"fhem-mod-device",
"fhem-core",
"Smartlock",
"Nuki",
"Control"
],
"release_status": "stable",
"license": "GPL_2",
"version": "v1.9.50",
"author": [
"Marko Oldenburg <leongaultier@gmail.com>"
],
"x_fhem_maintainer": [
"CoolTux"
],
"x_fhem_maintainer_github": [
"LeonGaultier"
],
"prereqs": {
"runtime": {
"requires": {
"FHEM": 5.00918799,
"perl": 5.016,
"Meta": 0,
"JSON": 0,
"Date::Parse": 0
},
"recommends": {
},
"suggests": {
}
}
}
}
=end :application/json;q=META.json
=cut

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###############################################################################
#
# Developed with Kate
#
# (c) 2016-2021 Copyright: Marko Oldenburg (fhemdevelopment at cooltux dot net)
# All rights reserved
#
# This script 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
# any later version.
#
# The GNU General Public License can be found at
# http://www.gnu.org/copyleft/gpl.html.
# A copy is found in the textfile GPL.txt and important notices to the license
# from the author is found in LICENSE.txt distributed with these scripts.
#
# This script 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.
#
#
# $Id$
#
###############################################################################
#################################
######### Wichtige Hinweise und Links #################
## Beispiel für Logausgabe
# https://forum.fhem.de/index.php/topic,55756.msg508412.html#msg508412
##
#
################################
package FHEM::NUKIBridge;
use strict;
use warnings;
use FHEM::Meta;
require FHEM::Devices::Nuki::Bridge;
sub ::NUKIBridge_Initialize { goto &Initialize }
sub Initialize {
my ($hash) = @_;
# Provider
$hash->{WriteFn} = \&FHEM::Devices::Nuki::Bridge::Write;
$hash->{Clients} = ':NUKIDevice:';
$hash->{MatchList} = { '1:NUKIDevice' => '^{.*}$' };
my $webhookFWinstance =
join( ",", ::devspec2array('TYPE=FHEMWEB:FILTER=TEMPORARY!=1') );
# Consumer
$hash->{SetFn} = \&FHEM::Devices::Nuki::Bridge::Set;
$hash->{GetFn} = \&FHEM::Devices::Nuki::Bridge::Get;
$hash->{DefFn} = \&FHEM::Devices::Nuki::Bridge::Define;
$hash->{UndefFn} = \&FHEM::Devices::Nuki::Bridge::Undef;
$hash->{NotifyFn} = \&FHEM::Devices::Nuki::Bridge::Notify;
$hash->{AttrFn} = \&FHEM::Devices::Nuki::Bridge::Attr;
$hash->{AttrList} =
'disable:1 ' . 'port '
. 'webhookFWinstance:'
. $webhookFWinstance . ' '
. 'webhookHttpHostname '
. $::readingFnAttributes;
return FHEM::Meta::InitMod( __FILE__, $hash );
}
1;
=pod
=item device
=item summary Modul to control the Nuki Smartlock's over the Nuki Bridge.
=item summary_DE Modul zur Steuerung des Nuki Smartlock über die Nuki Bridge.
=begin html
<a name="NUKIBridge"></a>
<h3>NUKIBridge</h3>
<ul>
<u><b>NUKIBridge - controls the Nuki Smartlock over the Nuki Bridge</b></u>
<br>
The Nuki Bridge module connects FHEM to the Nuki Bridge and then reads all the smartlocks available on the bridge. Furthermore, the detected Smartlocks are automatically created as independent devices.
<br><br>
<a name="NUKIBridgedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIBridge &lt;HOST&gt; &lt;API-TOKEN&gt;</code>
<br><br>
Example:
<ul><br>
<code>define NBridge1 NUKIBridge 192.168.0.23 F34HK6</code><br>
</ul>
<br>
This statement creates a NUKIBridge device with the name NBridge1 and the IP 192.168.0.23 as well as the token F34HK6.<br>
After the bridge device is created, all available Smartlocks are automatically placed in FHEM.
</ul>
<br><br>
<a name="NUKIBridgereadings"></a>
<b>Readings</b>
<ul>
<li>bridgeAPI - API Version of bridge</li>
<li>bridgeType - Hardware bridge / Software bridge</li>
<li>currentTime - Current timestamp</li>
<li>firmwareVersion - Version of the bridge firmware</li>
<li>hardwareId - Hardware ID</li>
<li>lastError - Last connected error</li>
<li>serverConnected - Flag indicating whether or not the bridge is connected to the Nuki server</li>
<li>serverId - Server ID</li>
<li>uptime - Uptime of the bridge in seconds</li>
<li>wifiFirmwareVersion- Version of the WiFi modules firmware</li>
<br>
The preceding number is continuous, starts with 0 und returns the properties of <b>one</b> Smartlock.
</ul>
<br><br>
<a name="NUKIBridgeset"></a>
<b>Set</b>
<ul>
<li>getDeviceList - Prompts to re-read all devices from the bridge and if not already present in FHEM, create the automatically.</li>
<li>callbackRemove - Removes a previously added callback</li>
<li>clearLog - Clears the log of the Bridge (only hardwarebridge)</li>
<li>factoryReset - Performs a factory reset (only hardwarebridge)</li>
<li>fwUpdate - Immediately checks for a new firmware update and installs it (only hardwarebridge)</li>
<li>info - Returns all Smart Locks in range and some device information of the bridge itself</li>
<li>reboot - reboots the bridge (only hardwarebridge)</li>
<br>
</ul>
<br><br>
<a name="NUKIBridgeget"></a>
<b>Get</b>
<ul>
<li>callbackList - List of register url callbacks.</li>
<li>logFile - Retrieves the log of the Bridge</li>
<br>
</ul>
<br><br>
<a name="NUKIBridgeattribut"></a>
<b>Attributes</b>
<ul>
<li>disable - disables the Nuki Bridge</li>
<li>webhookFWinstance - Webinstanz of the Callback</li>
<li>webhookHttpHostname - IP or FQDN of the FHEM Server Callback</li>
<br>
</ul>
</ul>
=end html
=begin html_DE
<a name="NUKIBridge"></a>
<h3>NUKIBridge</h3>
<ul>
<u><b>NUKIBridge - Steuert das Nuki Smartlock über die Nuki Bridge</b></u>
<br>
Das Nuki Bridge Modul verbindet FHEM mit der Nuki Bridge und liest dann alle auf der Bridge verf&uuml;gbaren Smartlocks ein. Desweiteren werden automatisch die erkannten Smartlocks als eigenst&auml;ndige Devices an gelegt.
<br><br>
<a name="NUKIBridgedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIBridge &lt;HOST&gt; &lt;API-TOKEN&gt;</code>
<br><br>
Beispiel:
<ul><br>
<code>define NBridge1 NUKIBridge 192.168.0.23 F34HK6</code><br>
</ul>
<br>
Diese Anweisung erstellt ein NUKIBridge Device mit Namen NBridge1 und der IP 192.168.0.23 sowie dem Token F34HK6.<br>
Nach dem anlegen des Bridge Devices werden alle zur verf&uuml;gung stehende Smartlock automatisch in FHEM an gelegt.
</ul>
<br><br>
<a name="NUKIBridgereadings"></a>
<b>Readings</b>
<ul>
<li>bridgeAPI - API Version der Bridge</li>
<li>bridgeType - Hardware oder Software/App Bridge</li>
<li>currentTime - aktuelle Zeit auf der Bridge zum zeitpunkt des Info holens</li>
<li>firmwareVersion - aktuell auf der Bridge verwendete Firmwareversion</li>
<li>hardwareId - ID der Hardware Bridge</li>
<li>lastError - gibt die letzte HTTP Errormeldung wieder</li>
<li>serverConnected - true/false gibt an ob die Hardwarebridge Verbindung zur Nuki-Cloude hat.</li>
<li>serverId - gibt die ID des Cloudeservers wieder</li>
<li>uptime - Uptime der Bridge in Sekunden</li>
<li>wifiFirmwareVersion- Firmwareversion des Wifi Modules der Bridge</li>
<br>
Die vorangestellte Zahl ist forlaufend und gibt beginnend bei 0 die Eigenschaften <b>Eines</b> Smartlocks wieder.
</ul>
<br><br>
<a name="NUKIBridgeset"></a>
<b>Set</b>
<ul>
<li>getDeviceList - Veranlasst ein erneutes Einlesen aller Devices von der Bridge und falls noch nicht in FHEM vorhanden das automatische anlegen.</li>
<li>callbackRemove - L&ouml;schen der Callback Instanz auf der Bridge.</li>
<li>clearLog - l&ouml;scht das Logfile auf der Bridge</li>
<li>fwUpdate - schaut nach einer neueren Firmware und installiert diese sofern vorhanden</li>
<li>info - holt aktuellen Informationen &uuml;ber die Bridge</li>
<li>reboot - veranl&auml;sst ein reboot der Bridge</li>
<br>
</ul>
<br><br>
<a name="NUKIBridgeget"></a>
<b>Get</b>
<ul>
<li>callbackList - Gibt die Liste der eingetragenen Callback URL's wieder.</li>
<li>logFile - Zeigt das Logfile der Bridge an</li>
<br>
</ul>
<br><br>
<a name="NUKIBridgeattribut"></a>
<b>Attribute</b>
<ul>
<li>disable - deaktiviert die Nuki Bridge</li>
<li>webhookFWinstance - zu verwendene Webinstanz für den Callbackaufruf</li>
<li>webhookHttpHostname - IP oder FQDN vom FHEM Server für den Callbackaufruf</li>
<br>
</ul>
</ul>
=end html_DE
=for :application/json;q=META.json 73_NUKIBridge.pm
{
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge",
"x_lang": {
"de": {
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge"
}
},
"keywords": [
"fhem-mod-device",
"fhem-core",
"Smartlock",
"Nuki",
"Control"
],
"release_status": "stable",
"license": "GPL_2",
"version": "v2.0.0",
"x_apiversion": "1.12.3",
"author": [
"Marko Oldenburg <leongaultier@gmail.com>"
],
"x_fhem_maintainer": [
"CoolTux"
],
"x_fhem_maintainer_github": [
"LeonGaultier"
],
"prereqs": {
"runtime": {
"requires": {
"FHEM": 5.00918799,
"perl": 5.016,
"Meta": 0,
"JSON": 0,
"Date::Parse": 0
},
"recommends": {
},
"suggests": {
}
}
}
}
=end :application/json;q=META.json
=cut

235
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@ -0,0 +1,235 @@
###############################################################################
#
# Developed with Kate
#
# (c) 2016-2021 Copyright: Marko Oldenburg (fhemdevelopment at cooltux dot net)
# All rights reserved
#
# This script 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
# any later version.
#
# The GNU General Public License can be found at
# http://www.gnu.org/copyleft/gpl.html.
# A copy is found in the textfile GPL.txt and important notices to the license
# from the author is found in LICENSE.txt distributed with these scripts.
#
# This script 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.
#
#
# $Id$
#
###############################################################################
package FHEM::NUKIDevice;
use strict;
use warnings;
use FHEM::Meta;
require FHEM::Devices::Nuki::Device;
main::LoadModule('NUKIBridge');
sub ::NUKIDevice_Initialize { goto &Initialize }
sub Initialize($) {
my ($hash) = @_;
$hash->{Match} = '^{.*}$';
$hash->{SetFn} = \&FHEM::Devices::Nuki::Device::Set;
$hash->{DefFn} = \&FHEM::Devices::Nuki::Device::Define;
$hash->{UndefFn} = \&FHEM::Devices::Nuki::Device::Undef;
$hash->{NotifyFn} = \&FHEM::Devices::Nuki::Device::Notify;
$hash->{AttrFn} = \&FHEM::Devices::Nuki::Device::Attr;
$hash->{ParseFn} = \&FHEM::Devices::Nuki::Device::Parse;
$hash->{AttrList} =
'IODev '
. 'model:smartlock,opener,smartdoor,smartlock3 '
. 'disable:1 '
. $::readingFnAttributes;
return FHEM::Meta::InitMod( __FILE__, $hash );
}
1;
=pod
=item device
=item summary Modul to control the Nuki Smartlock's
=item summary_DE Modul zur Steuerung des Nuki Smartlocks.
=begin html
<a name="NUKIDevice"></a>
<h3>NUKIDevice</h3>
<ul>
<u><b>NUKIDevice - Controls the Nuki Smartlock</b></u>
<br>
The Nuki module connects FHEM over the Nuki Bridge with a Nuki Smartlock or Nuki Opener. After that, it´s possible to lock and unlock the Smartlock.<br>
Normally the Nuki devices are automatically created by the bridge module.
<br><br>
<a name="NUKIDevicedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIDevice &lt;Nuki-Id&gt; &lt;IODev-Device&gt; &lt;Device-Type&gt;</code>
<br><br>
Device-Type is 0 for the Smartlock and 2 for the Opener.
<br><br>
Example:
<ul><br>
<code>define Frontdoor NUKIDevice 1 NBridge1 0</code><br>
</ul>
<br>
This statement creates a NUKIDevice with the name Frontdoor, the NukiId 1 and the IODev device NBridge1.<br>
After the device has been created, the current state of the Smartlock is automatically read from the bridge.
</ul>
<br><br>
<a name="NUKIDevicereadings"></a>
<b>Readings</b>
<ul>
<li>state - Status of the Smartlock or error message if any error.</li>
<li>lockState - current lock status uncalibrated, locked, unlocked, unlocked (lock n go), unlatched, locking, unlocking, unlatching, motor blocked, undefined.</li>
<li>name - name of the device</li>
<li>paired - paired information false/true</li>
<li>rssi - value of rssi</li>
<li>succes - true, false Returns the status of the last closing command. Ok or not Ok.</li>
<li>batteryCritical - Is the battery in a critical state? True, false</li>
<li>batteryState - battery status, ok / low</li>
</ul>
<br><br>
<a name="NUKIDeviceset"></a>
<b>Set</b>
<ul>
<li>statusRequest - retrieves the current state of the smartlock from the bridge.</li>
<li>lock - lock</li>
<li>unlock - unlock</li>
<li>unlatch - unlock / open Door</li>
<li>unpair - Removes the pairing with a given Smart Lock</li>
<li>locknGo - lock when gone</li>
<li>locknGoWithUnlatch - lock after the door has been opened</li>
<br>
</ul>
<br><br>
<a name="NUKIDeviceattribut"></a>
<b>Attributes</b>
<ul>
<li>disable - disables the Nuki device</li>
<br>
</ul>
</ul>
=end html
=begin html_DE
<a name="NUKIDevice"></a>
<h3>NUKIDevice</h3>
<ul>
<u><b>NUKIDevice - Steuert das Nuki Smartlock</b></u>
<br>
Das Nuki Modul verbindet FHEM über die Nuki Bridge mit einem Nuki Smartlock oder Nuki Opener. Es ist dann m&ouml;glich das Schloss zu ver- und entriegeln.<br>
In der Regel werden die Nuki Devices automatisch durch das Bridgemodul angelegt.
<br><br>
<a name="NUKIDevicedefine"></a>
<b>Define</b>
<ul><br>
<code>define &lt;name&gt; NUKIDevice &lt;Nuki-Id&gt; &lt;IODev-Device&gt; &lt;Device-Type&gt;</code>
<br><br>
Device-Type ist 0 f&uuml;r das Smartlock und 2 f&üuml;r den Opener.
<br><br>
Beispiel:
<ul><br>
<code>define Haust&uuml;r NUKIDevice 1 NBridge1 0</code><br>
</ul>
<br>
Diese Anweisung erstellt ein NUKIDevice mit Namen Haust&uuml;r, der NukiId 1 sowie dem IODev Device NBridge1.<br>
Nach dem anlegen des Devices wird automatisch der aktuelle Zustand des Smartlocks aus der Bridge gelesen.
</ul>
<br><br>
<a name="NUKIDevicereadings"></a>
<b>Readings</b>
<ul>
<li>state - Status des Smartlock bzw. Fehlermeldung von Fehler vorhanden.</li>
<li>lockState - aktueller Schlie&szlig;status uncalibrated, locked, unlocked, unlocked (lock n go), unlatched, locking, unlocking, unlatching, motor blocked, undefined.</li>
<li>name - Name des Smart Locks</li>
<li>paired - pairing Status des Smart Locks</li>
<li>rssi - rssi Wert des Smart Locks</li>
<li>succes - true, false Gibt des Status des letzten Schlie&szlig;befehles wieder. Geklappt oder nicht geklappt.</li>
<li>batteryCritical - Ist die Batterie in einem kritischen Zustand? true, false</li>
<li>batteryState - Status der Batterie, ok/low</li>
</ul>
<br><br>
<a name="NUKIDeviceset"></a>
<b>Set</b>
<ul>
<li>statusRequest - ruft den aktuellen Status des Smartlocks von der Bridge ab.</li>
<li>lock - verschlie&szlig;en</li>
<li>unlock - aufschlie&szlig;en</li>
<li>unlatch - entriegeln/Falle &ouml;ffnen.</li>
<li>unpair - entfernt das pairing mit dem Smart Lock</li>
<li>locknGo - verschlie&szlig;en wenn gegangen</li>
<li>locknGoWithUnlatch - verschlie&szlig;en nach dem die Falle ge&ouml;ffnet wurde.</li>
<br>
</ul>
<br><br>
<a name="NUKIDeviceattribut"></a>
<b>Attribute</b>
<ul>
<li>disable - deaktiviert das Nuki Device</li>
<br>
</ul>
</ul>
=end html_DE
=for :application/json;q=META.json 74_NUKIDevice.pm
{
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge",
"x_lang": {
"de": {
"abstract": "Modul to control the Nuki Smartlock's over the Nuki Bridge"
}
},
"keywords": [
"fhem-mod-device",
"fhem-core",
"Smartlock",
"Nuki",
"Control"
],
"release_status": "stable",
"license": "GPL_2",
"version": "v2.0.0",
"author": [
"Marko Oldenburg <leongaultier@gmail.com>"
],
"x_fhem_maintainer": [
"CoolTux"
],
"x_fhem_maintainer_github": [
"LeonGaultier"
],
"prereqs": {
"runtime": {
"requires": {
"FHEM": 5.00918799,
"perl": 5.016,
"Meta": 0,
"JSON": 0,
"Date::Parse": 0
},
"recommends": {
},
"suggests": {
}
}
}
}
=end :application/json;q=META.json
=cut

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README.md Normal file
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@ -0,0 +1,18 @@
# FHEM::NUKIBridge
# FHEM::NUKIDevice
## Used branching model
* Master branch: Production version (copy of [fhem/fhem-mirror/blob/master/fhem/FHEM/73_NUKIBridge.pm](https://github.com/fhem/fhem-mirror/blob/master/fhem/FHEM/73_NUKIBridge.pm))
* Master branch: Production version (copy of [fhem/fhem-mirror/blob/master/fhem/FHEM/74_NUKIBDevice.pm](https://github.com/fhem/fhem-mirror/blob/master/fhem/FHEM/74_NUKIDevice.pm
* Devel branch: Latest development version
## Community support
The FHEM Forum is available [here](https://forum.fhem.de/) for general support.
In case you have a specific question about this module, it is recommended to find the right sub-forum.
It can either be found from the module info card using the FHEM Installer (e.g. using command `search <MODULE_NAME>`) or it can be determined from the [MAINTAINER.txt](https://github.com/fhem/fhem-mirror/blob/master/fhem/MAINTAINER.txt) file.
## Bug reports and feature requests
Identified bugs and feature requests are tracked using [Github Issues](https://github.com/fhem/Nuki/issues).
## Pull requests / How to participate into development
You are invited to send pull requests to the devel branch whenever you think you can contribute with some useful improvements to the module. The module maintainer will review you code and decide whether it is going to be part of the module in a future release.

4
controls_NukiSmart.txt Normal file
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@ -0,0 +1,4 @@
UPD 2021-12-05_12:10:05 9217 FHEM/73_NUKIBridge.pm
UPD 2021-12-05_12:10:05 7569 FHEM/74_NUKIDevice.pm
UPD 2021-12-05_12:14:27 40875 lib/FHEM/Devices/Nuki/Bridge.pm
UPD 2021-12-05_12:10:05 15802 lib/FHEM/Devices/Nuki/Device.pm

53
hooks/pre-commit Executable file
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@ -0,0 +1,53 @@
#!/usr/bin/perl -w
use File::Basename;
use POSIX qw(strftime);
use strict;
my @filenames = ( 'FHEM/73_AutoShuttersControl.pm',
'lib/FHEM/Automation/ShuttersControl.pm',
'lib/FHEM/Automation/ShuttersControl/Dev.pm',
'lib/FHEM/Automation/ShuttersControl/Roommate.pm',
'lib/FHEM/Automation/ShuttersControl/Shutters.pm',
'lib/FHEM/Automation/ShuttersControl/Shading.pm',
'lib/FHEM/Automation/ShuttersControl/EventProcessingFunctions.pm',
'lib/FHEM/Automation/ShuttersControl/Helper.pm',
'lib/FHEM/Automation/ShuttersControl/Window.pm',
'lib/FHEM/Automation/ShuttersControl/Dev/Attr.pm',
'lib/FHEM/Automation/ShuttersControl/Dev/Readings.pm',
'lib/FHEM/Automation/ShuttersControl/Shutters/Attr.pm',
'lib/FHEM/Automation/ShuttersControl/Shutters/Readings.pm',
'lib/FHEM/Automation/ShuttersControl/Window/Attr.pm',
'lib/FHEM/Automation/ShuttersControl/Window/Readings.pm',
'lib/FHEM/Automation/ShuttersControl/Rainprotection.pm'
);
my $controlsfile = 'controls_AutoShuttersControl.txt';
open(FH, ">$controlsfile") || return("Can't open $controlsfile: $!");
for my $filename (@filenames) {
my @statOutput = stat($filename);
if (scalar @statOutput != 13) {
printf 'error: stat has unexpected return value for ' . $filename . "\n";
next;
}
my $mtime = $statOutput[9];
my $date = POSIX::strftime("%Y-%m-%d", localtime($mtime));
my $time = POSIX::strftime("%H:%M:%S", localtime($mtime));
my $filetime = $date."_".$time;
my $filesize = $statOutput[7];
printf FH 'UPD ' . $filetime . ' ' . $filesize . ' ' .$filename . "\n";
}
close(FH);
system("git add $controlsfile");
print 'Create controls File succesfully' . "\n";
exit 0;

File diff suppressed because it is too large Load Diff

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@ -0,0 +1,598 @@
###############################################################################
#
# Developed with Kate
#
# (c) 2016-2021 Copyright: Marko Oldenburg (fhemdevelopment at cooltux dot net)
# All rights reserved
#
# This script 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
# any later version.
#
# The GNU General Public License can be found at
# http://www.gnu.org/copyleft/gpl.html.
# A copy is found in the textfile GPL.txt and important notices to the license
# from the author is found in LICENSE.txt distributed with these scripts.
#
# This script 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.
#
#
# $Id$
#
###############################################################################
package FHEM::Devices::Nuki::Device;
use strict;
use warnings;
use FHEM::Meta;
# try to use JSON::MaybeXS wrapper
# for chance of better performance + open code
eval {
require JSON::MaybeXS;
import JSON::MaybeXS qw( decode_json encode_json );
1;
};
if ($@) {
$@ = undef;
# try to use JSON wrapper
# for chance of better performance
eval {
# JSON preference order
local $ENV{PERL_JSON_BACKEND} =
'Cpanel::JSON::XS,JSON::XS,JSON::PP,JSON::backportPP'
unless ( defined( $ENV{PERL_JSON_BACKEND} ) );
require JSON;
import JSON qw( decode_json encode_json );
1;
};
if ($@) {
$@ = undef;
# In rare cases, Cpanel::JSON::XS may
# be installed but JSON|JSON::MaybeXS not ...
eval {
require Cpanel::JSON::XS;
import Cpanel::JSON::XS qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# In rare cases, JSON::XS may
# be installed but JSON not ...
eval {
require JSON::XS;
import JSON::XS qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# Fallback to built-in JSON which SHOULD
# be available since 5.014 ...
eval {
require JSON::PP;
import JSON::PP qw(decode_json encode_json);
1;
};
if ($@) {
$@ = undef;
# Fallback to JSON::backportPP in really rare cases
require JSON::backportPP;
import JSON::backportPP qw(decode_json encode_json);
1;
}
}
}
}
}
######## Begin Device
my %deviceTypes = (
0 => 'smartlock',
2 => 'opener',
3 => 'smartdoor',
4 => 'smartlock3'
);
my %deviceTypeIds = reverse(%deviceTypes);
my %modes = (
2 => {
0 => 'door mode',
2 => 'door mode'
},
3 => {
0 => '-',
2 => ' continuous mode'
}
);
my %lockStates = (
0 => {
0 => 'uncalibrated',
2 => 'untrained',
4 => 'uncalibrated'
},
1 => {
0 => 'locked',
2 => 'online',
4 => 'locked'
},
2 => {
0 => 'unlocking',
2 => '-',
4 => 'unlocking'
},
3 => {
0 => 'unlocked',
2 => 'rto active',
4 => 'unlocked'
},
4 => {
0 => 'locking',
2 => '-',
4 => 'locking'
},
5 => {
0 => 'unlatched',
2 => 'open',
4 => 'unlatched'
},
6 => {
0 => 'unlocked (lock n go)',
2 => '-',
4 => 'unlocked (lock n go)'
},
7 => {
0 => 'unlatching',
2 => 'opening',
4 => 'unlatching'
},
253 => {
0 => '-',
2 => 'boot run',
4 => '-'
},
254 => {
0 => 'motor blocked',
2 => '-',
4 => 'motor blocked'
},
255 => {
0 => 'undefined',
2 => 'undefined',
4 => 'undefined'
}
);
my %doorsensorStates = (
1 => 'deactivated',
2 => 'door closed',
3 => 'door opened',
4 => 'door state unknown',
5 => 'calibrating'
);
sub Define {
my $hash = shift;
my $def = shift // return;
return $@ unless ( FHEM::Meta::SetInternals($hash) );
use version 0.60; our $VERSION = FHEM::Meta::Get( $hash, 'version' );
my ( $name, undef, $nukiId, $deviceType ) = split( m{\s+}xms, $def );
return 'too few parameters: define <name> NUKIDevice <nukiId> <deviceType>'
if ( !defined($nukiId)
|| !defined($name) );
$deviceType =
defined($deviceType)
? $deviceType
: 0;
$hash->{NUKIID} = $nukiId;
$hash->{DEVICETYPEID} = $deviceType;
$hash->{VERSION} = version->parse($VERSION)->normal;
$hash->{STATE} = 'Initialized';
$hash->{NOTIFYDEV} = 'global,autocreate,' . $name;
my $iodev = ::AttrVal( $name, 'IODev', 'none' );
::AssignIoPort( $hash, $iodev ) if ( !$hash->{IODev} );
if ( defined( $hash->{IODev}->{NAME} ) ) {
::Log3( $name, 3,
"NUKIDevice ($name) - I/O device is " . $hash->{IODev}->{NAME} );
}
else {
::Log3( $name, 1, "NUKIDevice ($name) - no I/O device" );
}
$iodev = $hash->{IODev}->{NAME};
$hash->{BRIDGEAPI} = $::defs{$iodev}->{BRIDGEAPI}
if ( defined($iodev)
&& $iodev );
my $d = $::modules{NUKIDevice}{defptr}{$nukiId};
return
'NUKIDevice device '
. $name
. ' on NUKIBridge '
. $iodev
. ' already defined.'
if ( defined($d)
&& $d->{IODev} == $hash->{IODev}
&& $d->{NAME} ne $name );
::Log3( $name, 3, "NUKIDevice ($name) - defined with NukiId: $nukiId" );
::CommandAttr( undef, $name . ' room NUKI' )
if ( ::AttrVal( $name, 'room', 'none' ) eq 'none' );
::CommandAttr( undef, $name . ' model ' . $deviceTypes{$deviceType} )
if ( ::AttrVal( $name, 'model', 'none' ) eq 'none' );
$::modules{NUKIDevice}{defptr}{$nukiId} = $hash;
GetUpdate($hash)
if ( ::ReadingsVal( $name, 'success', 'none' ) eq 'none'
&& $::init_done );
return;
}
sub Undef {
my $hash = shift;
my $nukiId = $hash->{NUKIID};
my $name = $hash->{NAME};
::Log3( $name, 3, "NUKIDevice ($name) - undefined with NukiId: $nukiId" );
delete( $::modules{NUKIDevice}{defptr}{$nukiId} );
return;
}
sub Attr {
my $cmd = shift;
my $name = shift;
my $attrName = shift;
my $attrVal = shift;
my $hash = $::defs{$name};
my $token = $hash->{IODev}->{TOKEN};
if ( $attrName eq 'disable' ) {
if ( $cmd eq 'set' && $attrVal == 1 ) {
::readingsSingleUpdate( $hash, 'state', 'disabled', 1 );
::Log3( $name, 3, "NUKIDevice ($name) - disabled" );
}
elsif ( $cmd eq 'del' ) {
::readingsSingleUpdate( $hash, 'state', 'active', 1 );
::Log3( $name, 3, "NUKIDevice ($name) - enabled" );
}
}
elsif ( $attrName eq 'disabledForIntervals' ) {
if ( $cmd eq 'set' ) {
::Log3( $name, 3,
"NUKIDevice ($name) - enable disabledForIntervals" );
::readingsSingleUpdate( $hash, 'state', 'Unknown', 1 );
}
elsif ( $cmd eq 'del' ) {
::readingsSingleUpdate( $hash, 'state', 'active', 1 );
::Log3( $name, 3,
"NUKIDevice ($name) - delete disabledForIntervals" );
}
}
elsif ( $attrName eq 'model' ) {
if ( $cmd eq 'set' ) {
::Log3( $name, 3, "NUKIDevice ($name) - change model" );
$hash->{DEVICETYPEID} = $deviceTypeIds{$attrVal};
}
}
return;
}
sub Notify {
my $hash = shift;
my $dev = shift // return;
my $name = $hash->{NAME};
return if ( ::IsDisabled($name) );
my $devname = $dev->{NAME};
my $devtype = $dev->{TYPE};
my $events = ::deviceEvents( $dev, 1 );
return if ( !$events );
GetUpdate($hash)
if (
(
grep /^INITIALIZED$/,
@{$events}
or grep /^REREADCFG$/,
@{$events}
or grep /^MODIFIED.$name$/,
@{$events}
or grep /^DEFINED.$name$/,
@{$events}
)
&& $devname eq 'global'
&& $::init_done
);
return;
}
sub Set {
my $hash = shift;
my $name = shift;
my $cmd = shift // return "set $name needs at least one argument !";
my $lockAction;
if ( lc($cmd) eq 'statusrequest' ) {
GetUpdate($hash);
return;
}
elsif ($cmd eq 'lock'
|| lc($cmd) eq 'deactivaterto'
|| $cmd eq 'unlock'
|| lc($cmd) eq 'activaterto'
|| $cmd eq 'unlatch'
|| lc($cmd) eq 'electricstrikeactuation'
|| lc($cmd) eq 'lockngo'
|| lc($cmd) eq 'activatecontinuousmode'
|| lc($cmd) eq 'lockngowithunlatch'
|| lc($cmd) eq 'deactivatecontinuousmode'
|| $cmd eq 'unpair' )
{
$lockAction = $cmd;
}
else {
my $list = '';
$list =
'statusRequest:noArg unlock:noArg lock:noArg unlatch:noArg locknGo:noArg locknGoWithUnlatch:noArg unpair:noArg'
if ( $hash->{DEVICETYPEID} == 0
|| $hash->{DEVICETYPEID} == 4 );
$list =
'statusRequest:noArg activateRto:noArg deactivateRto:noArg electricStrikeActuation:noArg activateContinuousMode:noArg deactivateContinuousMode:noArg unpair:noArg'
if ( $hash->{DEVICETYPEID} == 2 );
return ( 'Unknown argument ' . $cmd . ', choose one of ' . $list );
}
$hash->{helper}{lockAction} = $lockAction;
::IOWrite( $hash, 'lockAction',
'{"param":"'
. $lockAction
. '","nukiId":'
. $hash->{NUKIID}
. ',"deviceType":'
. $hash->{DEVICETYPEID}
. '}' );
return;
}
sub GetUpdate {
my $hash = shift;
my $name = $hash->{NAME};
if ( !::IsDisabled($name) ) {
::IOWrite( $hash, 'lockState',
'{"nukiId":'
. $hash->{NUKIID}
. ',"deviceType":'
. $hash->{DEVICETYPEID}
. '}' );
::Log3( $name, 2, "NUKIDevice ($name) - GetUpdate Call IOWrite" );
}
return;
}
sub Parse {
my $hash = shift;
my $json = shift // return;
my $name = $hash->{NAME};
::Log3( $name, 5, "NUKIDevice ($name) - Parse with result: $json" );
#########################################
####### Errorhandling #############
if ( $json !~ m/^[\[{].*[}\]]$/ ) {
::Log3( $name, 3, "NUKIDevice ($name) - invalid json detected: $json" );
return "NUKIDevice ($name) - invalid json detected: $json";
}
#########################################
#### verarbeiten des JSON Strings #######
my $decode_json = eval { decode_json($json) };
if ($@) {
::Log3( $name, 3, "NUKIDevice ($name) - JSON error while request: $@" );
return;
}
if ( ref($decode_json) ne 'HASH' ) {
::Log3( $name, 2,
"NUKIDevice ($name) - got wrong status message for $name: $decode_json"
);
return;
}
my $nukiId = $decode_json->{nukiId};
if ( my $hash = $::modules{NUKIDevice}{defptr}{$nukiId} ) {
my $name = $hash->{NAME};
WriteReadings( $hash, $decode_json );
::Log3( $name, 4,
"NUKIDevice ($name) - find logical device: $hash->{NAME}" );
return $hash->{NAME};
}
else {
::Log3( $name, 4,
"NUKIDevice ($name) - autocreate new device "
. ::makeDeviceName( $decode_json->{name} )
. " with nukiId $decode_json->{nukiId}, model $decode_json->{deviceType}"
);
return
'UNDEFINED '
. ::makeDeviceName( $decode_json->{name} )
. " NUKIDevice $decode_json->{nukiId} $decode_json->{deviceType}";
}
::Log3( $name, 5, "NUKIDevice ($name) - parse status message for $name" );
WriteReadings( $hash, $decode_json );
}
sub WriteReadings {
my $hash = shift;
my $decode_json = shift;
my $name = $hash->{NAME};
############################
#### Status des Smartlock
if ( defined( $hash->{helper}{lockAction} ) ) {
my $state;
if (
defined( $decode_json->{success} )
&& ( $decode_json->{success} eq 'true'
|| $decode_json->{success} == 1 )
)
{
$state = $hash->{helper}{lockAction};
::IOWrite( $hash, 'lockState',
'{"nukiId":'
. $hash->{NUKIID}
. ',"deviceType":'
. $hash->{DEVICETYPEID}
. '}' )
if (
::ReadingsVal( $hash->{IODev}->{NAME},
'bridgeType', 'Software' ) eq 'Software'
);
}
elsif (
defined( $decode_json->{success} )
&& ( $decode_json->{success} eq 'false'
|| $decode_json->{success} == 0 )
)
{
$state = $deviceTypes{ $hash->{DEVICETYPEID} } . ' response error';
::IOWrite( $hash, 'lockState',
'{"nukiId":'
. $hash->{NUKIID}
. ',"deviceType":'
. $hash->{DEVICETYPEID}
. '}' );
}
$decode_json->{'state'} = $state;
delete $hash->{helper}{lockAction};
}
::readingsBeginUpdate($hash);
my $t;
my $v;
if ( defined( $decode_json->{lastKnownState} )
&& ref( $decode_json->{lastKnownState} ) eq 'HASH' )
{
while ( ( $t, $v ) = each %{ $decode_json->{lastKnownState} } ) {
$decode_json->{$t} = $v;
}
delete $decode_json->{lastKnownState};
}
while ( ( $t, $v ) = each %{$decode_json} ) {
::readingsBulkUpdate( $hash, $t, $v )
if ( $t ne 'state'
&& $t ne 'mode'
&& $t ne 'deviceType'
&& $t ne 'paired'
&& $t ne 'batteryCritical'
&& $t ne 'batteryChargeState'
&& $t ne 'batteryCharging'
&& $t ne 'timestamp'
&& $t ne 'doorsensorState'
&& $t ne 'doorsensorStateName' );
::readingsBulkUpdate(
$hash, $t,
(
$v =~ m/^[0-9]$/
? $lockStates{$v}{ $hash->{DEVICETYPEID} }
: $v
)
) if ( $t eq 'state' );
::readingsBulkUpdate( $hash, $t, $modes{$v}{ $hash->{DEVICETYPEID} } )
if ( $t eq 'mode' );
::readingsBulkUpdate( $hash, $t, $deviceTypes{$v} )
if ( $t eq 'deviceType' );
::readingsBulkUpdate( $hash, $t, $doorsensorStates{$v} )
if ( $t eq 'doorsensorState' );
::readingsBulkUpdate( $hash, $t, ( $v == 1 ? 'true' : 'false' ) )
if ( $t eq 'paired' );
::readingsBulkUpdate( $hash, $t, ( $v == 1 ? 'true' : 'false' ) )
if ( $t eq 'batteryCharging' );
::readingsBulkUpdate( $hash, 'batteryState',
( $v == 1 ? 'low' : 'ok' ) )
if ( $t eq 'batteryCritical' );
::readingsBulkUpdate( $hash, 'batteryPercent', $v )
if ( $t eq 'batteryChargeState' );
}
::readingsEndUpdate( $hash, 1 );
::Log3( $name, 5,
"NUKIDevice ($name) - lockAction readings set for $name" );
return;
}
1;