diff --git a/fhem/CHANGED b/fhem/CHANGED index 7c6e9fba1..d23561f72 100644 --- a/fhem/CHANGED +++ b/fhem/CHANGED @@ -1,5 +1,8 @@ # Add changes at the top of the list. Keep it in ASCII, and 80-char wide. # Do not insert empty lines here, update check depends on it. +- change: 90_SIGNALduino_un.pm + fix some PerlCritic hints (#914) + revised commandref - feature: 00_SIGNALduino.pm version 3.5.2 xFSK processing Added support for directio and none. diff --git a/fhem/FHEM/90_SIGNALduino_un.pm b/fhem/FHEM/90_SIGNALduino_un.pm index a310cb9b4..ce7b03190 100644 --- a/fhem/FHEM/90_SIGNALduino_un.pm +++ b/fhem/FHEM/90_SIGNALduino_un.pm @@ -4,306 +4,279 @@ # The file is part of the SIGNALduino project # see http://www.fhemwiki.de/wiki/SIGNALduino to support debugging of unknown signal data # The purpos is to use it as addition to the SIGNALduino -# S. Butzek, 2015 | HomeAuto_User & elektron-bbs - 2018 # +# 2015-2018 S.Butzek +# 2018-2020 S.Butzek, HomeAutoUser, elektron-bbs package main; use strict; use warnings; use POSIX; -use List::Util qw(any); # for any function +use List::Util qw(any); # for any function +use lib::SD_Protocols; # for any function -my @bitcountlength = (0,0,0); # array min|default|max +my @bitcountlength = (0,0,0); # array min|default|max ##################################### -sub -SIGNALduino_un_Initialize($) -{ +sub SIGNALduino_un_Initialize { my ($hash) = @_; - $hash->{Match} = '^[u]\d+(?:.\d)?#.*'; - $hash->{DefFn} = "SIGNALduino_un_Define"; - $hash->{UndefFn} = "SIGNALduino_un_Undef"; - $hash->{AttrFn} = "SIGNALduino_un_Attr"; - $hash->{SetFn} = "SIGNALduino_un_Set"; - $hash->{ParseFn} = "SIGNALduino_un_Parse"; - $hash->{AttrList} = "IODev do_not_notify:0,1 stateFormat showtime:0,1 ignore:0,1 ".$readingFnAttributes; + $hash->{DefFn} = \&SIGNALduino_un_Define; + $hash->{UndefFn} = \&SIGNALduino_un_Undef; + $hash->{AttrFn} = \&SIGNALduino_un_Attr; + $hash->{SetFn} = \&SIGNALduino_un_Set; + $hash->{ParseFn} = \&SIGNALduino_un_Parse; + $hash->{AttrList} = 'IODev do_not_notify:0,1 stateFormat showtime:0,1 ignore:0,1 '.$readingFnAttributes; + + return; } ##################################### -sub -SIGNALduino_un_Define($$) -{ +sub SIGNALduino_un_Define { my ($hash, $def) = @_; my @a = split("[ \t][ \t]*", $def); - return " wrong syntax: define SIGNALduino_un (".int(@a).")" if(int(@a) < 3 || int(@a) > 4); + return ' wrong syntax: define SIGNALduino_un ('.int(@a).')' if(int(@a) < 3 || int(@a) > 4); - $hash->{lastMSG} = ""; - $hash->{bitMSG} = ""; - $hash->{STATE} = "Defined"; + $hash->{lastMSG} = ''; + $hash->{bitMSG} = ''; + $hash->{STATE} = 'Defined'; my $name = $hash->{NAME}; - + my $iodevice = $a[3] if($a[3]); $modules{SIGNALduino_un}{defptr}{$a[2]} = $hash; - + my $ioname = $modules{SIGNALduino_un}{defptr}{ioname} if (exists $modules{SIGNALduino_un}{defptr}{ioname} && not $iodevice); $iodevice = $ioname if not $iodevice; - + ### Attributes ### if ( $init_done == 1 ) { - $attr{$name}{stateFormat} = "{ReadingsVal('$name', 'state', '').' | '.ReadingsTimestamp('$name', 'state', '-');}" if( not defined( $attr{$name}{stateformat} ) ); + $attr{$name}{stateFormat} = "{ReadingsVal('$name', 'state', '').' | '.ReadingsTimestamp('$name', 'state', '-');}" if( not defined( $attr{$name}{stateformat} ) ); } - + AssignIoPort($hash, $iodevice); + return; } ##################################### -sub -SIGNALduino_un_Undef($$) -{ +sub SIGNALduino_un_Undef { my ($hash, $name) = @_; delete($modules{SIGNALduino_un}{defptr}{$hash->{DEF}}) if($hash && $hash->{DEF}); delete($modules{SIGNALduino_un}{defptr}{ioname}) if (exists $modules{SIGNALduino_un}{defptr}{ioname}); - return undef; + return; } ##################################### sub SIGNALduino_un_hex2bin { - my $h = shift; - my $hlen = length($h); - my $blen = $hlen * 4; - return unpack("B$blen", pack("H$hlen", $h)); + my $h = shift; + my $hlen = length($h); + my $blen = $hlen * 4; + return unpack("B$blen", pack("H$hlen", $h)); } ##################################### -sub -SIGNALduino_un_Parse($$) -{ - my ($hash,$msg) = @_; - my @a = split("", $msg); - my $name = "SIGNALduino_unknown";# $hash->{NAME}; - my $ioname = $hash->{NAME}; - Log3 $hash, 4, "$name incomming msg: $msg"; - #my $rawData=substr($msg,2); +sub SIGNALduino_un_Parse { + my ($hash,$msg) = @_; + my @a = split("", $msg); + my $name = 'SIGNALduino_unknown'; # $hash->{NAME}; + my $ioname = $hash->{NAME}; + Log3 $hash, 4, "$name incomming msg: $msg"; + #my $rawData=substr($msg,2); - my ($protocol,$rawData) = split("#",$msg); - - my $dummyreturnvalue= "Unknown, please report"; - $protocol=~ s/^[uP](\d+)/$1/; # extract protocol + my ($protocol,$rawData) = split("#",$msg); - Log3 $hash, 4, "$name rawData: $rawData"; - Log3 $hash, 4, "$name Protocol: $protocol"; + my $dummyreturnvalue= 'Unknown, please report'; + $protocol=~ s/^[uP](\d+)/$1/; # extract protocol - my $hlen = length($rawData); - my $blen = $hlen * 4; - my $bitData= unpack("B$blen", pack("H$hlen", $rawData)); - Log3 $hash, 4, "$name converted to bits: $bitData"; - - if ($protocol == 21 && length($bitData)>=32) ##Einhell doorshutter - { - Log3 $hash, 4, "$name / Einhell doorshutter received"; - - - my $id = oct("0b".substr($bitData,0,28)); - - my $dir = oct("0b".substr($bitData,28,2)); - - my $channel = oct("0b".substr($bitData,30,3)); - - - Log3 $hash, 4, "$name found doorshutter from Einhell. id=$id, channel=$channel, direction=$dir"; - } elsif ($protocol == 23 && length($bitData)>=32) ##Perl Sensor - { - my $SensorTyp = "perl NC-7367?"; - my $id = oct ("0b".substr($bitData,4,4)); - my $channel = SIGNALduino_un_bin2dec(substr($bitData,9,3))+1; - my $temp = oct ("0b".substr($bitData,20,8))/10; - my $bat = int(substr($bitData,8,1)) eq "1" ? "ok" : "critical"; # Eventuell falsch! - my $sendMode = int(substr($bitData,4,1)) eq "1" ? "auto" : "manual"; # Eventuell falsch! - my $type = SIGNALduino_un_bin2dec(substr($bitData,0,4)); - - Log3 $hash, 4, "$name decoded protocolid: 7 ($SensorTyp / type=$type) mode=$sendMode, sensor id=$id, channel=$channel, temp=$temp, bat=$bat\n" ; + Log3 $hash, 4, "$name rawData: $rawData"; + Log3 $hash, 4, "$name Protocol: $protocol"; + my $hlen = length($rawData); + my $blen = $hlen * 4; + my $bitData= unpack("B$blen", pack("H$hlen", $rawData)); + Log3 $hash, 4, "$name converted to bits: $bitData"; - } - - ############################################################################################## - # version 1) message with u..# without development y attribut -> Unknown code u..# , help me! - # version 2) message with u..# and development y attribut -> no message for Unknown code - ############################################################################################## - - my $value = AttrVal($ioname, "development", ""); - my @delevopmentargs = split (",",$value); + if ($protocol == 21 && length($bitData)>=32) ##Einhell doorshutter + { + Log3 $hash, 4, "$name / Einhell doorshutter received"; - if ($value =~ m/([umyp]$protocol|1)/g) { # check for u|m|y|p|1 development (u|m|y|p downwards compatibility) - ### Help Device + Logfile ### - Log3 $hash, 5, "$name: $ioname Protocol $1$protocol found in AttrVal development!"; - - my $def; - my $devicedef = $name."_".$protocol; - $def = $modules{SIGNALduino_un}{defptr}{$devicedef} if(!$def); - $modules{SIGNALduino_un}{defptr}{ioname} = $ioname; - - if(!$def) { - Log3 $ioname, 1, "$ioname: $name UNDEFINED sensor " . $devicedef . " detected"; - return "UNDEFINED $devicedef SIGNALduino_un $devicedef"; - } - - my $hash = $def; - my $name = $hash->{NAME}; - - $hash->{lastMSG} = $rawData; - $hash->{bitMSG} = $bitData; - - my $bitcount = length($bitData); - - $bitcountlength[1] = $bitcount if ($bitcountlength[1] == 0); # to first receive - - if ($bitcount != $bitcountlength[1]) { # comparison - if ($bitcount gt $bitcountlength[1]) { - $bitcountlength[2] = $bitcount; - $bitcountlength[0] = $bitcountlength[1]; - } - - if ($bitcount lt $bitcountlength[1]) { - $bitcountlength[0] = $bitcount; - $bitcountlength[2] = $bitcountlength[1]; - } + my $id = oct("0b".substr($bitData,0,28)); + my $dir = oct("0b".substr($bitData,28,2)); + my $channel = oct("0b".substr($bitData,30,3)); - $bitcountlength[1] = $bitcount; - readingsSingleUpdate($hash, "bitCountLength", "$bitcountlength[0] to $bitcountlength[2]" ,0); - } - - my $hexcount = length($rawData); - my $bitDataInvert = $bitData; - $bitDataInvert =~ tr/01/10/; # invert message and check if it is possible to deocde now - my $rawDataInvert = SIGNALduino_b2h($bitDataInvert); - - my $seconds = ReadingsAge($name, "state", 0); + Log3 $hash, 4, "$name found doorshutter from Einhell. id=$id, channel=$channel, direction=$dir"; + } elsif ($protocol == 23 && length($bitData)>=32) ##Perl Sensor + { + my $SensorTyp = 'perl NC-7367?'; + my $id = oct ("0b".substr($bitData,4,4)); + my $channel = SIGNALduino_un_bin2dec(substr($bitData,9,3))+1; + my $temp = oct ("0b".substr($bitData,20,8))/10; + my $bat = int(substr($bitData,8,1)) eq "1" ? 'ok' : 'critical'; # Eventuell falsch! + my $sendMode = int(substr($bitData,4,1)) eq "1" ? 'auto' : 'manual'; # Eventuell falsch! + my $type = SIGNALduino_un_bin2dec(substr($bitData,0,4)); - readingsBeginUpdate($hash); - readingsBulkUpdate($hash, "state", $rawData,0); - readingsBulkUpdate($hash, "bitMsg", $bitData); - readingsBulkUpdate($hash, "bitMsg_invert", $bitDataInvert); - readingsBulkUpdate($hash, "bitCount", $bitcount); - readingsBulkUpdate($hash, "hexMsg", $rawData); - readingsBulkUpdate($hash, "hexMsg_invert", $rawDataInvert); - readingsBulkUpdate($hash, "hexCount_or_nibble", $hexcount); - readingsBulkUpdate($hash, "lastInputDev", $ioname); - readingsBulkUpdate($hash, "past_seconds", $seconds); - readingsEndUpdate($hash, 1); # Notify is done by Dispatch - - ### Example Logfile ### - # 2018-09-24_17:32:53 SIGNALduino_unknown_85 UserInfo: Temp 22.4 Hum 52 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitMsg: 11110011101110100011100111111110110110111110111110100110001100101000 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitMsg_invert: 00001100010001011100011000000001001001000001000001011001110011010111 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitCount: 68 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexMsg: F3BA39FEDBEFA6328 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexMsg_invert: 0C45C601241059CD7 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexCount or nibble: 17 - # 2018-09-24_17:34:25 SIGNALduino_unknown_85 lastInputDev: sduino_dummy - - return $name; - } else { - ### nothing - Info ### - my $value = AttrVal($ioname, "development", ""); # read attr development from IODev - - if ($value ne "") { - $value .= ","; # some definitions already exist, so prepend a new one - } - $value .= "u$protocol"; - Log3 $hash, 4, "$name $ioname Protocol:$protocol | To help decode or debug, please add u$protocol! (attr $ioname development $value)" if ($protocol); # To help decode or debug, please add u84! (attr sduino_dummy development u84) - } - ############################ - - - Log3 $hash, 4, $dummyreturnvalue; - return undef; -} - -##################################### -sub -SIGNALduino_un_Set($$$@) -{ - my ( $hash, $name, @a ) = @_; - my $ret = "UserInfo"; - - if ($a[0] ne "?") { - my $input = join " ", @a[1 .. (scalar(@a)-1)]; # Teile der Eingabe zusammenfassen - return "wrong argument! please use $ret argument and one comment." if($a[0] ne "UserInfo" || not $a[1]); - - readingsBeginUpdate($hash); - readingsBulkUpdate($hash, "state" , "UserMSG",0); - readingsBulkUpdate($hash, "UserMSG", $input) if (defined($input)); - readingsEndUpdate($hash, 1); # Notify is done by Dispatch - - return undef; # undef because user is in same windows without message, better to use - #return "Thanks"; + Log3 $hash, 4, "$name decoded protocolid: 7 ($SensorTyp / type=$type) mode=$sendMode, sensor id=$id, channel=$channel, temp=$temp, bat=$bat\n" ; } - + + ############################################################################################## + # version 1) message with u..# without development y attribut -> Unknown code u..# , help me! + # version 2) message with u..# and development y attribut -> no message for Unknown code + ############################################################################################## + + my $value = AttrVal($ioname, 'development', ''); + my @delevopmentargs = split (',',$value); + + if ($value =~ m/([umyp]$protocol|1)/g) { # check for u|m|y|p|1 development (u|m|y|p downwards compatibility) + ### Help Device + Logfile ### + Log3 $hash, 5, "$name: $ioname Protocol $1$protocol found in AttrVal development!"; + + my $def; + my $devicedef = $name.'_'.$protocol; + $def = $modules{SIGNALduino_un}{defptr}{$devicedef} if(!$def); + $modules{SIGNALduino_un}{defptr}{ioname} = $ioname; + + if(!$def) { + Log3 $ioname, 1, "$ioname: $name UNDEFINED sensor " . $devicedef . ' detected'; + return "UNDEFINED $devicedef SIGNALduino_un $devicedef"; + } + + my $hash = $def; + my $name = $hash->{NAME}; + + $hash->{lastMSG} = $rawData; + $hash->{bitMSG} = $bitData; + + my $bitcount = length($bitData); + + $bitcountlength[1] = $bitcount if ($bitcountlength[1] == 0); # to first receive + + if ($bitcount != $bitcountlength[1]) { # comparison + if ($bitcount gt $bitcountlength[1]) { + $bitcountlength[2] = $bitcount; + $bitcountlength[0] = $bitcountlength[1]; + } + + if ($bitcount lt $bitcountlength[1]) { + $bitcountlength[0] = $bitcount; + $bitcountlength[2] = $bitcountlength[1]; + } + + $bitcountlength[1] = $bitcount; + readingsSingleUpdate($hash, 'bitCountLength', "$bitcountlength[0] to $bitcountlength[2]" ,0); + } + + my $hexcount = length($rawData); + my $bitDataInvert = $bitData; + $bitDataInvert =~ tr/01/10/; # invert message and check if it is possible to deocde now + my $rawDataInvert = lib::SD_Protocols::binStr2hexStr($bitDataInvert); + my $seconds = ReadingsAge($name, 'state', 0); + + readingsBeginUpdate($hash); + readingsBulkUpdate($hash, 'state', $rawData,0); + readingsBulkUpdate($hash, 'bitMsg', $bitData); + readingsBulkUpdate($hash, 'bitMsg_invert', $bitDataInvert); + readingsBulkUpdate($hash, 'bitCount', $bitcount); + readingsBulkUpdate($hash, 'hexMsg', $rawData); + readingsBulkUpdate($hash, 'hexMsg_invert', $rawDataInvert); + readingsBulkUpdate($hash, 'hexCount_or_nibble', $hexcount); + readingsBulkUpdate($hash, 'lastInputDev', $ioname); + readingsBulkUpdate($hash, 'past_seconds', $seconds); + readingsEndUpdate($hash, 1); # Notify is done by Dispatch + + ### Example Logfile ### + # 2018-09-24_17:32:53 SIGNALduino_unknown_85 UserInfo: Temp 22.4 Hum 52 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitMsg: 11110011101110100011100111111110110110111110111110100110001100101000 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitMsg_invert: 00001100010001011100011000000001001001000001000001011001110011010111 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 bitCount: 68 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexMsg: F3BA39FEDBEFA6328 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexMsg_invert: 0C45C601241059CD7 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 hexCount or nibble: 17 + # 2018-09-24_17:34:25 SIGNALduino_unknown_85 lastInputDev: sduino_dummy + + return $name; + } else { + ### nothing - Info ### + my $value = AttrVal($ioname, 'development', ''); # read attr development from IODev + + if ($value ne '') { + $value .= ','; # some definitions already exist, so prepend a new one + } + $value .= "u$protocol"; + Log3 $hash, 4, "$name $ioname Protocol:$protocol | To help decode or debug, please add u$protocol! (attr $ioname development $value)" if ($protocol); # To help decode or debug, please add u84! (attr sduino_dummy development u84) + } + ############################ + + Log3 $hash, 4, $dummyreturnvalue; + return; +} + +##################################### +sub SIGNALduino_un_Set { + my ( $hash, $name, @a ) = @_; + my $ret = 'UserInfo'; + + if ($a[0] ne '?') { + my $input = join " ", @a[1 .. (scalar(@a)-1)]; # Teile der Eingabe zusammenfassen + return "wrong argument! please use $ret argument and one comment." if($a[0] ne 'UserInfo' || not $a[1]); + + readingsBeginUpdate($hash); + readingsBulkUpdate($hash, 'state' , 'UserMSG',0); + readingsBulkUpdate($hash, 'UserMSG', $input) if (defined($input)); + readingsEndUpdate($hash, 1); # Notify is done by Dispatch + + return; # because user is in same windows without message, better to use + } + return $ret; } ##################################### -sub -SIGNALduino_un_Attr(@) -{ +sub SIGNALduino_un_Attr { my @a = @_; # Make possible to use the same code for different logical devices when they # are received through different physical devices. - return if($a[0] ne "set" || $a[2] ne "IODev"); + return if($a[0] ne 'set' || $a[2] ne 'IODev'); my $hash = $defs{$a[1]}; my $iohash = $defs{$a[3]}; my $cde = $hash->{DEF}; - + #delete($modules{SIGNALduino_un}{defptr}{$cde}); #$modules{SIGNALduino_un}{defptr}{$iohash->{NAME} . "." . $cde} = $hash; - return undef; + return; } ##################################### -sub -SIGNALduino_un_binaryToNumber -{ - my $binstr=shift; - my $fbit=shift; - my $lbit=$fbit; - $lbit=shift if @_; - - - return oct("0b".substr($binstr,$fbit,($lbit-$fbit)+1)); - +sub SIGNALduino_un_binaryToNumber { + my $binstr=shift; + my $fbit=shift; + my $lbit=$fbit; + $lbit=shift if @_; + + return oct("0b".substr($binstr,$fbit,($lbit-$fbit)+1)); } ##################################### -sub -SIGNALduino_un_binaryToBoolean -{ - return int(SIGNALduino_un_binaryToNumber(@_)); +sub SIGNALduino_un_binaryToBoolean { + return int(SIGNALduino_un_binaryToNumber(@_)); } ##################################### -sub -SIGNALduino_un_bin2dec($) -{ +sub SIGNALduino_un_bin2dec { my $h = shift; my $int = unpack("N", pack("B32",substr("0" x 32 . $h, -32))); return sprintf("%d", $int); } ##################################### -sub -SIGNALduino_un_binflip($) -{ +sub SIGNALduino_un_binflip { my $h = shift; my $hlen = length($h); my $i = 0; - my $flip = ""; - + my $flip = ''; + for ($i=$hlen-1; $i >= 0; $i--) { $flip = $flip.substr($h,$i,1); } @@ -322,9 +295,10 @@ SIGNALduino_un_binflip($)

SIGNALduino_un

    The SIGNALduino_un module is a testing and debugging module to decode some devices, it will catch only all messages from the signalduino which can't be send to another module.
    - It can create one help devices after define development attribute on SIGNALduino device. You get a hint from Verbose 4 in the FHEM Log.
    - example: SIGNALduino_unknown sduino_dummy Protocol:40 | To help decode or debug, please add u40! (attr sduino_dummy development u40) + It can create one help devices after define development attribute on SIGNALduino device. You get a hint from Verbose 4 in the FHEM Log.

    + example: SIGNALduino_unknown sduino_dummy Protocol:40 | To help decode or debug, please add u40! (attr sduino_dummy development u40) +


    Define @@ -335,39 +309,43 @@ SIGNALduino_un_binflip($) You can define a Device, but currently you can do nothing with it. The function of this module is only to output some logging at verbose 4 or higher at FHEM-logfile or logging to help device. May some data is decoded correctly but it's also possible that this does not work. The Module will try to process all messages, which where not handled by other modules.

    - Created devices / logfiles must be deleted manually after removing the protocol from the attribute development. (example: u40, y84) - + Created devices / logfiles must be deleted manually after removing the protocol from the attribute development. (example: u40, y84)
-
+

Set -
    write "comment" - the user can put comments in the logfile which are arranged to his bits of the device
    - (example: to write off the digital display of the thermometer at the time of reception or states of switches ...)
-
+
    UserInfo "comment" - the user can put comments in the logfile which are arranged to his bits of the device
    + (example: to write off the digital display of the thermometer at the time of reception or states of switches ...) +
+

- Get
    N/A

+ Get +
    N/A
+

Attributes

+ Generated readings
    -
  • bitCount (Length of the signal, binary)
    • -
  • bitCountLength (Length range of all received signals of the protocol)
    • -
  • bitMsg
    • -
  • bitMsg_invert (Message binary, inverted)
    • -
  • hexCount_or_nibble (Length of the signal, hexadecimal)
    • -
  • hexMsg
    • -
  • hexMsg_invert (Message hexadecimal, inverted)
    • -
  • lastInputDev (Device at the last reception)
    • +
  • bitCount (Length of the signal, binary)
    • +
  • bitCountLength (Length range of all received signals of the protocol)
    • +
  • bitMsg
    • +
  • bitMsg_invert (Message binary, inverted)
    • +
  • hexCount_or_nibble (Length of the signal, hexadecimal)
    • +
  • hexMsg
    • +
  • hexMsg_invert (Message hexadecimal, inverted)
    • +
  • lastInputDev (Device at the last reception)
    • +
  • past_seconds (Duration in seconds since the readings were last updated)
@@ -380,9 +358,10 @@ SIGNALduino_un_binflip($)
    Das SIGNALduino_un Modul ist ein Hilfsmodul um unbekannte Nachrichten zu debuggen und analysieren zu können.

    Das Modul legt nur eine Hilfsgerät an mit Logfile der Bits sobald man das Attribut development im Empfänger Device auf das entsprechende unbekannte Protokoll setzt.
    - Einen entsprechenden Hinweis erhalten Sie ab Verbose 4 im FHEM Log.
    - Beispiel: SIGNALduino_unknown sduino_dummy Protocol:40 | To help decode or debug, please add u40! (attr sduino_dummy development u40) + Einen entsprechenden Hinweis erhalten Sie ab Verbose 4 im FHEM Log.

    + Beispiel: SIGNALduino_unknown sduino_dummy Protocol:40 | To help decode or debug, please add u40! (attr sduino_dummy development u40) +


    Define @@ -393,39 +372,45 @@ SIGNALduino_un_binflip($) Es ist möglich ein Gerät manuell zu definieren, aber damit passiert überhaupt nichts.
    Die einzigste Funktion dieses Modules ist, ab Verbose 4 Logmeldungen über die Empfangene Nachricht ins FHEM-Log zu schreiben oder in das Logfile des Hilfsgerätes.
    - Dabei kann man sich leider nicht darauf verlassen, dass die Nachricht korrekt dekodiert wurde. Dieses Modul wird alle Nachrichten verarbeiten, welche von anderen Modulen nicht verarbeitet werden.
    -
    - Angelegte Geräte / Logfiles müssen manuell gelöscht werden nachdem aus dem Attribut development des SIGNALduinos das zu untersuchende Protokoll entfernt wurde. (Beispiel: u40,y84) -
-
+ Dabei kann man sich leider nicht darauf verlassen, dass die Nachricht korrekt dekodiert wurde. Dieses Modul wird alle Nachrichten verarbeiten, welche von anderen Modulen nicht verarbeitet werden.
+
+ Angelegte Geräte / Logfiles müssen manuell gelöscht werden nachdem aus dem Attribut development des SIGNALduinos das zu untersuchende Protokoll entfernt wurde. (Beispiel: u40,y84) + +

+ Set -
    write "Kommentar" - somit kann der User in das Logfile des Hilfsgerät Kommentare setzen welche zeitlich zu seinen Bits des Gerätes eingeordnet werden
    - (Beispiel: um die Digitalanzeige des Thermometers abzuschreiben zum Zeitpunkt des Empfangs oder Zustände von Schaltern ...)
-
+
    UserInfo "Kommentar" - somit kann der User in das Logfile des Hilfsgerät Kommentare setzen welche zeitlich zu seinen Bits des Gerätes eingeordnet werden
    + (Beispiel: um die Digitalanzeige des Thermometers abzuschreiben zum Zeitpunkt des Empfangs oder Zustände von Schaltern ...) +
+

- Get
    N/A

+ Get +
    N/A
+

Attributes

+ Generierte Readings
    -
  • bitCount (Länge des Signals, binär)
    • -
  • bitCountLength (Längenbereich aller empfangen Signale des Protokolles)
    • -
  • bitMsg
    • -
  • bitMsg_invert (Nachricht binär, invertiert)
    • -
  • hexCount_or_nibble (Länge des Signals, hexadezimal)
    • -
  • hexMsg
    • -
  • hexMsg_invert (Nachricht hexadezimal, invertiert)
    • -
  • lastInputDev (Device beim letzten Empfang)
    • +
  • bitCount (Länge des Signals, binär)
    • +
  • bitCountLength (Längenbereich aller empfangen Signale des Protokolles)
    • +
  • bitMsg
    • +
  • bitMsg_invert (Nachricht binär, invertiert)
    • +
  • hexCount_or_nibble (Länge des Signals, hexadezimal)
    • +
  • hexMsg
    • +
  • hexMsg_invert (Nachricht hexadezimal, invertiert)
    • +
  • lastInputDev (Device beim letzten Empfang)
    • +
  • past_seconds (Dauer in Sekunden seit der letzten Aktualisierung der Readings)