############################################## # From dancer0705 # # Receive temperature sensor # Supported models: # - "TCM97..." # - "ABS700" # - "TCM21...." # - "Prologue" # - "Rubicson" # - "NC_WS" # - "GT_WT_02" # - "AURIOL" # - "KW9010" # # Unsupported models are saved in a device named CUL_TCM97001_Unknown # # Copyright (C) 2016 Bjoern Hempel # # This program 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. # # This program 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 # this program; if not, write to the # Free Software Foundation, Inc., # 51 Franklin St, Fifth Floor, Boston, MA 02110, USA # # $Id$ # ############################################## package main; use strict; use warnings; use SetExtensions; use constant { TRUE => 1, FALSE => 0 }; # # All suported models # my %models = ( "TCM97..." => 'TCM97...', "ABS700" => 'ABS700', "TCM21...." => 'TCM21....', "Prologue" => 'Prologue', "Rubicson" => 'Rubicson', "NC_WS" => 'NC_WS', "GT_WT_02" => 'GT_WT_02', "AURIOL" => 'AURIOL', "Type1" => 'Type1', "Mebus" => 'Mebus', "Eurochron" => 'Eurochron', "KW9010" => 'KW9010', "Unknown" => 'Unknown', ); sub CUL_TCM97001_Initialize($) { my ($hash) = @_; $hash->{Match} = "^s....."; $hash->{DefFn} = "CUL_TCM97001_Define"; $hash->{UndefFn} = "CUL_TCM97001_Undef"; $hash->{ParseFn} = "CUL_TCM97001_Parse"; $hash->{AttrList} = "IODev do_not_notify:1,0 ignore:0,1 showtime:1,0 " . "$readingFnAttributes " . "model:".join(",", sort keys %models); $hash->{AutoCreate}= { "CUL_TCM97001_Unknown.*" => { GPLOT => "", FILTER => "%NAME", autocreateThreshold => "2:10" }, "CUL_TCM97001.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "Prologue_.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "Mebus_.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "NC_WS.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "ABS700.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "Eurochron.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "TCM21....*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "TCM97..._.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "GT_WT_02.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "Type1.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "Rubicson.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "AURIOL.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "KW9010.*" => { ATTR => "event-min-interval:.*:300 event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:180"}, "TCM97001.*" => { ATTR => "event-on-change-reading:.*", GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME", autocreateThreshold => "2:340"}, "Unknown_.*" => { autocreateThreshold => "2:10"} }; } ############################# sub CUL_TCM97001_Define($$) { my ($hash, $def) = @_; my @a = split("[ \t][ \t]*", $def); return "wrong syntax: define CUL_TCM97001 " if(int(@a) < 3 || int(@a) > 5); $hash->{CODE} = $a[2]; $hash->{lastT} = 0; $hash->{lastH} = 0; $modules{CUL_TCM97001}{defptr}{$a[2]} = $hash; $hash->{STATE} = "Defined"; return undef; } ##################################### sub CUL_TCM97001_Undef($$) { my ($hash, $name) = @_; delete($modules{CUL_TCM97001}{defptr}{$hash->{CODE}}) if(defined($hash->{CODE}) && defined($modules{CUL_TCM97001}{defptr}{$hash->{CODE}})); return undef; } # # CRC Check for TCM 21.... # sub checkCRC { my $msg = shift; my @a = split("", $msg); my $bitReverse = undef; my $x = undef; foreach $x (@a) { my $bin3=sprintf("%04b",hex($x)); $bitReverse = $bitReverse . reverse($bin3); } my $hexReverse = unpack("H*", pack ("B*", $bitReverse)); #Split reversed a again my @aReverse = split("", $hexReverse); my $CRC = (hex($aReverse[0])+hex($aReverse[1])+hex($aReverse[2])+hex($aReverse[3]) +hex($aReverse[4])+hex($aReverse[5])+hex($aReverse[6])+hex($aReverse[7])) & 15; if ($CRC + hex($aReverse[8]) == 15) { return TRUE; } return FALSE; } # # CRC Check for KW9010.... # sub checkCRCKW9010 { my $msg = shift; Log3 "CUL_TCM97001", 5 , "crc calc for: $msg"; my @a = split("", $msg); my $bitReverse = undef; my $x = undef; foreach $x (@a) { my $bin3=sprintf("%04b",hex($x)); $bitReverse = $bitReverse . reverse($bin3); } my $hexReverse = unpack("H*", pack ("B*", $bitReverse)); #Split reversed a again my @aReverse = split("", $hexReverse); my $CRC = (hex($aReverse[0])+hex($aReverse[1])+hex($aReverse[2])+hex($aReverse[3]) +hex($aReverse[4])+hex($aReverse[5])+hex($aReverse[6])+hex($aReverse[7])) & 15; Log3 "CUL_TCM97001", 5 , "calc crc is: $CRC"; Log3 "CUL_TCM97001", 5 , "ref crc is :".hex($aReverse[8]); if ($CRC == hex($aReverse[8])) { return TRUE; } return FALSE; } # # CRC Check for Mebus # sub checkCRC_Mebus { my $msg = shift; my @a = split("", $msg); my $CRC = ((hex($a[1])+hex($a[2])+hex($a[3]) +hex($a[4])+hex($a[5])+hex($a[6])) -1) & 15; my $CRCCHECKVAL= (hex($a[0])); if ($CRC == $CRCCHECKVAL) { return TRUE; } return FALSE; } # # CRC Check for GT_WT_02 # sub checkCRC_GTWT02 { my $msg = shift; my @a = split("", $msg); my $CRC = (hex($a[0])+hex($a[1])+hex($a[2])+hex($a[3]) +hex($a[4])+hex($a[5])+hex($a[6])+(hex($a[7]) & 0xE)); # my $CRC = (hex($a[0])+hex($a[1])+hex($a[2])+hex($a[3]) # +hex($a[4])+hex($a[5])+hex($a[6])+hex($a[7])) -1; my $CRCCHECKVAL= (hex($a[7].$a[8].$a[9]) & 0x1F8) >> 3; if ($CRC == $CRCCHECKVAL) { return TRUE; } return FALSE; } # # CRC Check for Sensor-Type1 # sub checkCRC_Type1 { my $msg = shift; my @a = split("", $msg); my $CRC = (hex($a[0])+hex($a[1])+hex($a[2])+hex($a[3]) +hex($a[4])+hex($a[5])+hex($a[6])+hex($a[7])); my $CRCCHECKVAL= (hex($a[7].$a[8].$a[9]) & 0x1F8) >> 3; if ($CRC == $CRCCHECKVAL) { return TRUE; } return FALSE; } sub checkValues { my $temp = shift; my $humidy = shift; if (!defined($humidy)) { $humidy = 50; } if ($temp <= 60 && $temp >= -30 && $humidy >= 0 && $humidy <= 100) { return TRUE; } return FALSE; } ################################### sub CUL_TCM97001_Parse($$) { my $enableLongIDs = TRUE; # Disable short ID support, enable longIDs my ($hash, $msg) = @_; $msg = substr($msg, 1); my @a = split("", $msg); my $id3 = hex($a[0] . $a[1]); #my $id4 = hex($a[0] . $a[1] . $a[2] . (hex($a[3]) & 0x3)); my $def = $modules{CUL_TCM97001}{defptr}{$id3}; # test for already defined devices use old naming convention #my $def2 = $modules{CUL_TCM97001}{defptr}{$idType2}; if(!$def) { $def = $modules{CUL_TCM97001}{defptr}{'CUL_TCM97001_'.$id3}; # use new naming convention } my $now = time(); my $name = "Unknown"; if($def) { $name = $def->{NAME}; } my $readedModel = AttrVal($name, "model", "Unknown"); my $syncTimeIndex = rindex($msg,";"); my @syncBit; if ($syncTimeIndex != -1) { my $syncTimeMsg = substr($msg, $syncTimeIndex + 1); @syncBit = split(":", $syncTimeMsg); $msg = substr($msg, 0, $syncTimeIndex); } else { $syncBit[0] = 0; $syncBit[1] = 4000; } my $rssi; my $l = length($msg); $rssi = substr($msg, $l-2, 2); undef($rssi) if ($rssi eq "00"); if (defined($rssi)) { $rssi = hex($rssi); $rssi = ($rssi>=128 ? (($rssi-256)/2-74) : ($rssi/2-74)) if defined($rssi); Log3 $name, 4, "CUL_TCM97001 $name $id3 ($msg) length: $l RSSI: $rssi"; } else { Log3 $name, 4, "CUL_TCM97001 $name $id3 ($msg) length: $l"; } my ($msgtype, $msgtypeH); my $packageOK = FALSE; my $batbit=undef; my $mode=undef; my $trend=undef; my $hashumidity = FALSE; my $hasbatcheck = FALSE; my $hastrend = FALSE; my $haschannel = FALSE; my $hasmode = FALSE; my $model="Unknown"; my $temp = undef; my $humidity=undef; my $channel = undef; my $longids = AttrVal($hash->{NAME},'longids',1); if (length($msg) == 8) { # Only tmp TCM device #eg. 1000 1111 0100 0011 0110 1000 = 21.8C #eg. --> shift2 0100 0011 0110 10 my $tcm97id = hex($a[0] . $a[1]); $def = $modules{CUL_TCM97001}{defptr}{$tcm97id}; if($def) { $name = $def->{NAME}; } $readedModel = AttrVal($name, "model", "Unknown"); if ($readedModel eq "Unknown" || $readedModel eq "TCM97...") { $temp = (hex($a[3].$a[4].$a[5]) >> 2) & 0xFFFF; my $negative = (hex($a[2]) >> 0) & 0x3; if ($negative == 0x3) { $temp = (~$temp & 0x03FF) + 1; $temp = -$temp; } $temp = $temp / 10; if (checkValues($temp, 50)) { $model="TCM97..."; # I think bit 3 on byte 3 is battery warning $batbit = (hex($a[2]) >> 0) & 0x4; $batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[5]) >> 0) & 0x1; my $unknown = (hex($a[4]) >> 0) & 0x2; if ($mode) { Log3 $name, 5, "CUL_TCM97001 Mode: manual triggert"; } else { Log3 $name, 5, "CUL_TCM97001 Mode: auto triggert"; } if ($unknown) { Log3 $name, 5, "CUL_TCM97001 Unknown Bit: $unknown"; } my $deviceCode; if (!defined($modules{CUL_TCM97001}{defptr}{$tcm97id})) { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { $deviceCode="CUL_TCM97001_".$tcm97id; Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model; } } else { $deviceCode=$tcm97id; } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $packageOK = TRUE; $hasbatcheck = TRUE; $hasmode = TRUE; $readedModel=$model; } } if ($readedModel eq "Unknown" || $readedModel eq "ABS700") { $temp = (hex($a[2].$a[3]) & 0x7F)+(hex($a[5])/10); if ((hex($a[2]) & 0x8) == 0x8) { $temp = -$temp; } if (checkValues($temp, 50)) { $model="ABS700"; $batbit = ((hex($a[4]) & 0x8) != 0x8); $mode = (hex($a[4]) & 0x4) >> 2; my $deviceCode; if (!defined($modules{CUL_TCM97001}{defptr}{$tcm97id})) { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { $deviceCode="CUL_TCM97001_".$tcm97id; Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model; } } else { $deviceCode=$tcm97id; } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hasbatcheck = TRUE; $packageOK = TRUE; $hasmode = TRUE; $readedModel=$model; } } } elsif (length($msg) == 10) { #Log3 $name, 2, "CUL_TCM97001 10er msg: " . $msg; my $idType2 = hex($a[1] . $a[2]); my $deviceCode = $idType2; $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; # test for already defined devices use old naming convention if(!$def) { $deviceCode = "CUL_TCM97001_" . $idType2; # use new naming convention $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; } if($def) { $name = $def->{NAME}; } $readedModel = AttrVal($name, "model", "Unknown"); if (checkCRC_Mebus($msg) == TRUE && ($readedModel eq "Unknown" || $readedModel eq "Mebus")) { # Protocol mebus start everytime with 1001 # Sync bit 9700ms, bit 0 = 350ms, bit 1 = 2000ms # e.g. 8250ED70 1000 0010 0101 0000 1110 1101 0111 # A B C D E F G # A = CRC ((B+C+D+E+F+G)-1) # B+C = Random Address # D+E+F temp (/10) # G Bit 4,3 = Channel, Bit 2 = Battery, Bit 1 = Force sending $temp = (hex($a[3].$a[4].$a[5])) & 0x3FF; my $negative = (hex($a[3])) & 0xC; if ($negative == 0xC) { $temp = (~$temp & 0x03FF) + 1; $temp = -$temp; } $temp = $temp / 10; if (checkValues($temp, 50)) { $batbit = (hex($a[6]) & 0x2) >> 1; #$batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[6]) & 0x1); $channel = (hex($a[6]) & 0xC) >> 2; $model="Mebus"; my $deviceCode; if (!defined($modules{CUL_TCM97001}{defptr}{$idType2})) { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { $deviceCode="CUL_TCM97001_".$idType2; Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } else { # Fallback for already defined devices use old naming convention $deviceCode=$idType2; } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $packageOK = TRUE; $readedModel=$model; $hasmode = TRUE; $hasbatcheck = TRUE; $haschannel = TRUE; $id3 = $idType2 } else { $name = "Unknown"; } } if ($packageOK == FALSE) { my $idType1 = hex($a[0] . $a[1]); $deviceCode = $idType1; $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; # test for already defined devices use old naming convention #my $def2 = $modules{CUL_TCM97001}{defptr}{$idType2}; #my $def3 = $modules{CUL_TCM97001}{defptr}{$idType3}; if(!$def) { $deviceCode = "CUL_TCM97001_" . $idType1; # use new naming convention $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; } if($def) { $name = $def->{NAME}; #} elsif($def2) { # $def = $def2; # $name = $def->{NAME}; #} elsif($def3) { # $def = $def3; # $name = $def->{NAME}; } $readedModel = AttrVal($name, "model", "Unknown"); if (($readedModel eq "AURIOL" || $readedModel eq "Unknown")) { # Implementation from Femduino # AURIOL (Lidl Version: 09/2013) # /--------------------------------- Channel, changes after every battery change # / / ------------------------ Battery state 1 == Ok # / / /------------------------ Battery changed, Sync startet # / / / ----------------------- Unknown # / / / / /--------------------- neg Temp: if 1 then temp = temp - 4096 # / / / / /---------------------- 12 Bit Temperature # / / / / / /---------- ??? CRC # / / / / / / /---- Trend 10 == rising, 01 == falling # 0101 0101 1 0 00 0001 0000 1011 1100 01 00 # Bit 0 8 9 10 12 24 30 $def = $modules{CUL_TCM97001}{defptr}{$idType1}; if($def) { $name = $def->{NAME}; } $temp = (hex($a[3].$a[4].$a[5])) & 0x7FF; my $negative = (hex($a[3])) & 0x8; if ($negative == 0x8) { $temp = (~$temp & 0x07FF) + 1; $temp = -$temp; } $temp = $temp / 10; if (checkValues($temp, 50)) { $batbit = (hex($a[2]) & 0x8) >> 3; $batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[2]) & 0x4) >> 2; $trend = (hex($a[7]) & 0x3); $model="AURIOL"; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { $deviceCode="CUL_TCM97001_".$idType1; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hasbatcheck = TRUE; $hastrend = TRUE; $packageOK = TRUE; $hasmode = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } } } elsif (length($msg) == 12) { my $bin = undef; my $deviceCode; my $idType1 = hex($a[0] . $a[1]); #my $idType2 = hex($a[1] . $a[2]); #my $idType3 = hex($a[0] . $a[1] . $a[2] . (hex($a[3]) & 0x3)); $deviceCode = $idType1; $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; # test for already defined devices use old naming convention #my $def2 = $modules{CUL_TCM97001}{defptr}{$idType2}; #my $def3 = $modules{CUL_TCM97001}{defptr}{$idType3}; if(!$def) { $deviceCode = "CUL_TCM97001_" . $idType1; # use new naming convention $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; } if($def) { $name = $def->{NAME}; #} elsif($def2) { # $def = $def2; # $name = $def->{NAME}; #} elsif($def3) { # $def = $def3; # $name = $def->{NAME}; } $readedModel = AttrVal($name, "model", "Unknown"); Log3 $name, 4, "CUL_TCM97001 Parse Name: $name , devicecode: $deviceCode , Model defined: $readedModel"; if (($readedModel eq "Eurochron" || (hex($a[6]) == 0xF && $readedModel eq "Unknown") && $syncBit[1] < 5000)) { # EAS 800 # G is every time 1111 # # 0100 1110 1001 0000 1010 0001 1111 0100 1001 # A B C D E F G H I # # A+B = ID = 4E # C Bit 0 = Bat (1) OK # C Bit 1-3 = Channel 001 = 1 # D-F = Temp (0000 1010 0001) = 161 ~ 16,1° # G = Unknown # H+I = hum (0100 1001) = 73 $def = $modules{CUL_TCM97001}{defptr}{$idType1}; if($def) { $name = $def->{NAME}; } else { # Redirect to my $SD_WS07_ClientMatch=index($hash->{Clients},"SD_WS07"); if ($SD_WS07_ClientMatch == -1) { # Append Clients and MatchList for CUL $hash->{Clients} = $hash->{Clients}.":SD_WS07:"; $hash->{MatchList}{"C:SD_WS07"} = "^P7#[A-Fa-f0-9]{6}F[A-Fa-f0-9]{2}"; } my $dmsg = "P7#" . substr($msg, 0, $l-2, 2); $hash->{RAWMSG} = $msg; my %addvals = (RAWMSG => $msg, DMSG => $dmsg); Log3 $name, 5, "CUL_TCM97001 Dispatch $dmsg to other modul"; Dispatch($hash, $dmsg, \%addvals); ## Dispatch to other Modules return ""; } $temp = (hex($a[3].$a[4].$a[5])) & 0x7FF; my $negative = (hex($a[3])) & 0x8; if ($negative == 0x8) { $temp = (~$temp & 0x07FF) + 1; $temp = -$temp; } $temp = $temp / 10; $humidity = hex($a[7].$a[8]) & 0x7F; if (checkValues($temp, $humidity)) { $batbit = (hex($a[2]) & 0x8) >> 3; #$batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[2]) & 0x4) >> 2; $channel = ((hex($a[2])) & 0x3) + 1; $model="Eurochron"; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } if (defined($humidity)) { if ($humidity >= 20) { $hashumidity = TRUE; } } $hasbatcheck = TRUE; $haschannel = TRUE; $packageOK = TRUE; $hasmode = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } if (checkCRC($msg) == TRUE && ($readedModel eq "Unknown" || $readedModel eq "TCM21....")) { # Long with tmp # All nibbles must be reversed # e.g. 154E800480 0001 0101 0100 1110 1000 0000 0000 0100 1000 0000 # A B C D E F G H I # A+B = Addess # C Bit 1 Battery # D+E+F Temp # G+H Hum # I CRC my @a = split("", $msg); my $bitReverse = undef; my $x = undef; foreach $x (@a) { my $bin3=sprintf("%024b",hex($x)); $bitReverse = $bitReverse . substr(reverse($bin3),0,4); } my $hexReverse = unpack("H*", pack ("B*", $bitReverse)); #Split reversed a again my @aReverse = split("", $hexReverse); if (hex($aReverse[5]) > 3) { # negative temp $temp = ((hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)); $temp = (~$temp & 0x03FF) + 1; $temp = -$temp/10; } else { # positive temp $temp = (hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)/10; } $humidity = hex($aReverse[7]).hex($aReverse[6]); if (checkValues($temp, $humidity)) { $batbit = (hex($a[2]) & 0x8) >> 3; #$mode = (hex($a[2]) & 0x4) >> 2; $model="TCM21...."; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hashumidity = TRUE; $packageOK = TRUE; $hasbatcheck = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } if (checkCRC_GTWT02($msg) == TRUE && ($readedModel eq "GT_WT_02" || $readedModel eq "Type1" || $readedModel eq "Unknown") || checkCRC_Type1($msg) == TRUE && ($readedModel eq "Type1" || $readedModel eq "GT_WT_02" || $readedModel eq "Unknown")) { # F F 0 0 F 9 5 5 F # 1111 1111 0000 0000 1111 1001 0101 0101 1111 # A B C D E F G H I # A+B = Zufällige Code wechelt beim Batteriewechsel # C Bit 4 Battery, 3 Manual, 2+1 Channel # D+E+F Temperatur, wenn es negativ wird muss man negieren und dann 1 addieren, wie im ersten Post beschrieben. # G+H Hum - bit 0-7 # I CRC? #$def = $modules{CUL_TCM97001}{defptr}{$idType3}; $temp = (hex($a[3].$a[4].$a[5])) & 0x3FF; my $negative = (hex($a[3])) & 0xC; if ($negative == 0xC) { $temp = (~$temp & 0x03FF) + 1; $temp = -$temp; } $temp = $temp / 10; $humidity = (hex($a[6].$a[7]) & 0x0FE) >> 1; # only the first 7 bits are the humidity if ($humidity > 100) { # HH - Workaround $humidity = 100; } elsif ($humidity < 20) { # LL - Workaround $humidity = 20; } if (checkValues($temp, $humidity)) { $channel = ((hex($a[2])) & 0x3) + 1; $batbit = ((hex($a[2]) & 0x8) != 0x8); $mode = (hex($a[2]) & 0x4) >> 2; if (checkCRC_GTWT02($msg) == TRUE) { $model="GT_WT_02"; } else { $model="Type1"; } if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hashumidity = TRUE; $hasbatcheck = TRUE; $haschannel = TRUE; $hasmode = TRUE; $packageOK = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } #Log3 $name, 4, "CUL_TCM97001: CRC for TCM21.... Failed, checking other protocolls"; # Check for Prologue if ($readedModel eq "Prologue" || (hex($a[0]) == 0x9 && $readedModel eq "Unknown")) { # Protocol prologue start everytime with 1001 # e.g. 91080F614C 1001 0001 0000 1000 0000 1111 0110 0001 0100 1100 # A B C D E F G H I # A = Startbit 1001 # B+C = Random Address # D Bit 4 Battery, 3 Manual, 2+1 Channel # E+F+G Bit 15+16 negativ temp, 14-0 temp # H+I Hum #$def = $modules{CUL_TCM97001}{defptr}{$idType3}; #$def = $modules{CUL_TCM97001}{defptr}{$idType1}; $temp = (hex($a[4].$a[5].$a[6])) & 0x3FFF; my $negative = (hex($a[4])) & 0xC; if ($negative == 0xC) { $temp = (~$temp & 0x03FF) + 1; $temp = -$temp; } $temp = $temp / 10; if (!(hex($a[7]) == 0xC && hex($a[8]) == 0xC)) { $humidity = hex($a[7].$a[8]); } if (checkValues($temp, $humidity)) { $channel = (hex($a[3])) & 0x3; $batbit = (hex($a[3]) & 0x8) >> 3; $batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[3]) & 0x4) >> 2; $model="Prologue"; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } if (defined($humidity)) { if ($humidity >= 20) { $hashumidity = TRUE; } } $hasbatcheck = TRUE; $hasmode = TRUE; $packageOK = TRUE; $haschannel = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } if ($readedModel eq "NC_WS" || (hex($a[0]) == 0x5 && $readedModel eq "Unknown")) { # Implementation from Femduino # PEARL NC7159, LogiLink WS0002 # /--------------------------------- Sensdortype # / / ---------------------------- ID, changes after every battery change # / / /--------------------- Battery state 0 == Ok # / / / / ------------------ forced send # / / / / / ---------------- Channel (0..2) # / / / / / / -------------- neg Temp: if 1 then temp = temp - 2048 # / / / / / / / ----------- Temp # / / / / / / / /-- unknown # / / / / / / / / / Humidity # 0101 0010 1001 0 0 00 0 010 0011 0000 1 101 1101 # Bit 0 4 12 13 14 16 17 28 29 36 #$def = $modules{CUL_TCM97001}{defptr}{$idType3}; $temp = (hex($a[4].$a[5].$a[6])) & 0x7FFF; my $negative = (hex($a[4])) & 0x8; if ($negative == 0x8) { $temp = (~$temp & 0x07FF) + 1; $temp = -$temp; } $temp = $temp / 10; $humidity = hex($a[7].$a[8]) & 0x7F; if (checkValues($temp, $humidity)) { $model="NC_WS"; $channel = (hex($a[3])) & 0x3; $batbit = (hex($a[3]) & 0x8) >> 3; $batbit = ~$batbit & 0x1; # Bat bit umdrehen $mode = (hex($a[3]) & 0x4) >> 2; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hashumidity = TRUE; $hasbatcheck = TRUE; $hasmode = TRUE; $packageOK = TRUE; $haschannel = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } if ($readedModel eq "Rubicson" || (hex($a[2]) == 0x8 && $readedModel eq "Unknown")) { # Protocol Rubicson has as nibble C every time 1000 # e.g. F4806B8E14 1111 0100 1000 0000 0110 1011 1000 1110 0001 0100 # A B C D E F G H I # A+B = Random Address # C = Rubicson = 1000 # D+E+F 12 bit temp # G+H+I Unknown $def = $modules{CUL_TCM97001}{defptr}{$idType1}; if($def) { $name = $def->{NAME}; } $temp = (hex($a[3].$a[4].$a[5])) & 0x3FF; my $negative = (hex($a[3])) & 0xC; if ($negative == 0xC) { $temp = (~$temp & 0x03FF) + 1; $temp = -$temp; } $temp = $temp / 10; if (checkValues($temp, 50)) { $model="Rubicson"; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $packageOK = TRUE; $readedModel=$model; } else { $name = "Unknown"; } } #if (($readedModel eq "Unknown" || $readedModel eq "KW9010")) { if (checkCRCKW9010($msg) == TRUE && ($readedModel eq "Unknown" || $readedModel eq "KW9010")) { # Re: Tchibo Wetterstation 433 MHz - KW9010 # See also http://forum.arduino.cc/index.php?PHPSESSID=ffoeoe9qeuv7rf4fh0d637hd74&topic=136836.msg1536416#msg1536416 # /------------------------------------- Random ID part one # / / -------------------------------- Channel switch # / / /------------------------------- Random ID part two # / / / / ---------------------------- Battery state 0 == Ok # / / / / / --------------------------- Trend (continous, rising, falling # / / / / / / ------------------------- forced send # / / / / / / / ----------------------- Temperature # / / / / / / / /-------------- Temperature sign bit. if 1 then temp = temp - 4096 # / / / / / / / / /------------ Humidity # / / / / / / / / / /----- Checksum # 0110 00 10 1 00 1 000000100011 00001101 1101 # 0110 01 00 0 10 1 100110001001 00001011 0101 # Bit 0 4 6 8 9 11 12 24 32 # #5922B07BC0 42 21.2 66 # 0101 10 01 0 01 0 001010110000 01111011 1100 0000 # 000011010100 11011110 # 212 222-156=66 my @a = split("", $msg); my $bitReverse = undef; my $x = undef; foreach $x (@a) { $bitReverse = $bitReverse . reverse(sprintf("%04b",hex($x))); } Log3 $hash, 5 , "KW9010 CRC Matched: ($bitReverse)"; my $hexReverse = unpack("H*", pack ("B*", $bitReverse)); #Split reversed a again my @aReverse = split("", $hexReverse); if (hex($aReverse[5]) > 3) { # negative temp $temp = ((hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)); $temp = (~$temp & 0x03FF) + 1; $temp = -$temp/10; } else { # positive temp $temp = (hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)/10; } $humidity = hex($aReverse[7].$aReverse[6]) - 156; if (checkValues($temp, $humidity)) { Log3 $hash, 5 , "KW9010 values are matching"; $batbit = (hex($a[2]) & 0x8) >> 3; #$mode = (hex($a[2]) & 0x4) >> 2; $channel = ((hex($a[1])) & 0xC) >> 2; $mode = (hex($a[2]) & 0x1); $trend = (hex($a[2]) & 0x6) >> 1; $model="KW9010"; if ($deviceCode ne $idType1) # new naming convention { if ( $enableLongIDs == TRUE || (($longids != "0") && ($longids eq "1" || $longids eq "ALL" || (",$longids," =~ m/,$model,/)))) { Log3 $hash,4, "CUL_TCM97001 using longid: $longids model: $model"; } else { $deviceCode="CUL_TCM97001_" . $model . "_" . $channel; } } $def = $modules{CUL_TCM97001}{defptr}{$deviceCode}; if($def) { $name = $def->{NAME}; } if(!$def) { Log3 $name, 2, "CUL_TCM97001 Unknown device $deviceCode, please define it"; return "UNDEFINED $model" . substr($deviceCode, rindex($deviceCode,"_")) . " CUL_TCM97001 $deviceCode"; } $hashumidity = TRUE; $packageOK = TRUE; $hasbatcheck = TRUE; $hastrend = TRUE; $haschannel = TRUE; $readedModel=$model; } else { Log3 $hash, 5 , "KW9010 t:$temp / h:$humidity mismatch"; $name = "Unknown"; } } } if ($packageOK == TRUE) { if($def) { $def->{lastT} = $now; } readingsBeginUpdate($def); my ($val, $valH, $state); $msgtype = "temperature"; $val = sprintf("%2.1f", ($temp) ); $state="T: $val"; # if ($hashumidity == TRUE) { # if ($model eq "Prologue") { # # plausibility check # my $oldhumidity = ReadingsVal($name, "humidity", "unknown"); # if ($oldhumidity eq "unknown" || ($humidity+15 > $oldhumidity && $humidity-15 < $oldhumidity)) { # $hashumidity = TRUE; # } else { # $hashumidity = FALSE; # } # } # } if ($hashumidity == TRUE) { $msgtypeH = "humidity"; $valH = $humidity; $state="$state H: $valH"; Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val H: $valH"; } else { Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val"; } if($hastrend) { my $readTrend = ReadingsVal($name, "trend", "unknown"); if ($trend == 1) { if ($readTrend ne "falling") { readingsBulkUpdate($def, "trend", "falling"); } } else { if ($readTrend ne "rising") { readingsBulkUpdate($def, "trend", "rising"); } } } if ($hasbatcheck) { my $battery = ReadingsVal($name, "battery", "unknown"); if ($batbit) { if ($battery ne "ok") { readingsBulkUpdate($def, "battery", "ok"); } } else { if ($battery ne "low") { readingsBulkUpdate($def, "battery", "low"); } } } if ($hasmode) { my $modeVal = ReadingsVal($name, "mode", "unknown"); if ($mode) { if ($modeVal ne "forced") { readingsBulkUpdate($def, "mode", "forced"); } } else { if ($modeVal ne "normal") { readingsBulkUpdate($def, "mode", "normal"); } } } if ($haschannel) { my $readChannel = ReadingsVal($name, "channel", ""); if (defined($readChannel) && $readChannel ne $channel) { readingsBulkUpdate($def, "channel", $channel); } } # if ($model eq "Prologue" || $model eq "Eurochron") { # # plausibility check # my $oldtemp = ReadingsVal($name, "temperature", "unknown"); # if ($oldtemp eq "unknown" || ($val+5 > $oldtemp && $val-5 < $oldtemp)) { # readingsBulkUpdate($def, $msgtype, $val); # } # } else { readingsBulkUpdate($def, $msgtype, $val); # } if ($hashumidity == TRUE) { readingsBulkUpdate($def, $msgtypeH, $valH); } readingsBulkUpdate($def, "state", $state); # for testing only #my $rawlen = length($msg); #my $rawVal = substr($msg, 0, $rawlen-2); #readingsBulkUpdate($def, "RAW", $rawVal); readingsEndUpdate($def, 1); if(defined($rssi)) { $def->{RSSI} = $rssi; } $attr{$name}{model} = $model; return $name; } else { if (length($msg) == 8 || length($msg) == 10 || length($msg) == 12 || length($msg) == 14) { my $defUnknown = $modules{CUL_TCM97001}{defptr}{"CUL_TCM97001_Unknown"}; if (!$defUnknown) { Log3 "Unknown", 2, "CUL_TCM97001 Unknown device Unknown, please define it"; return "UNDEFINED Unknown CUL_TCM97001 CUL_TCM97001_Unknown"; } $name = $defUnknown->{NAME}; Log3 $name, 4, "CUL_TCM97001 Device not implemented yet name Unknown msg $msg"; my $rawlen = length($msg); my $rawVal = substr($msg, 0, $rawlen-2); my $state="Code: $rawVal"; if ($defUnknown) { $defUnknown->{lastT} = $now; } $attr{$name}{model} = $model; readingsBeginUpdate($defUnknown); readingsBulkUpdate($defUnknown, "state", $state); # for testing only #readingsBulkUpdate($defUnknown, "RAW", $rawVal); readingsEndUpdate($defUnknown, 1); if(defined($rssi)) { $defUnknown->{RSSI} = $rssi; } #my $defSvg = $defs{"SVG_CUL_TCM97001_Unknown"}; #if ($defSvg) { # CommandDelete(undef, $defSvg->{NAME}); #} return $name; } } return undef; } 1; =pod =item summary This module interprets temperature sensor messages. =item summary_DE Module verarbeitet empfangene Nachrichten von Temp-Sensoren. =begin html

CUL_TCM97001

=end html =begin html_DE

CUL_TCM97001

=end html_DE =cut