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14_CUL_TCM97001: Add support for ABS700, NC_WS, GT-WT-02 and AURIOL sensors

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git-svn-id: https://svn.fhem.de/fhem/trunk@8370 2b470e98-0d58-463d-a4d8-8e2adae1ed80
This commit is contained in:
dancer0705 2015-04-04 15:36:55 +00:00
parent 4b3175e701
commit 9135361f36
2 changed files with 444 additions and 216 deletions
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1
fhem/CHANGED
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@ -1,5 +1,6 @@
# Add changes at the top of the list. Keep it in ASCII, and 80-char wide. # 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. # Do not insert empty lines here, update check depends on it.
- change: 14_CUL_TCM97001: Add support for ABS700, NC_WS, GT-WT-02 and AURIOL sensors
- added: New modue 38_JawboneUp: Fitness and sleep statistics in FHEM - added: New modue 38_JawboneUp: Fitness and sleep statistics in FHEM
- change: FB_CALLMONITOR: use cache first for reverse search - change: FB_CALLMONITOR: use cache first for reverse search
- feature: 14_CUL_TCM97001: Add receiving for GT-WT-.. and Rubicson sensors - feature: 14_CUL_TCM97001: Add receiving for GT-WT-.. and Rubicson sensors

537
fhem/FHEM/14_CUL_TCM97001.pm
View File

@ -1,6 +1,18 @@
############################################## ##############################################
# From dancer0705 # From dancer0705
# Receive TCM 97xxx, TCM 21xxxx, GT-WT-xx and Rubicson like temperature sensor #
# Receive temperature sensor
# Supported models:
# - "TCM97..."
# - "ABS700"
# - "TCM21...."
# - "Prologue"
# - "Rubicson"
# - "NC_WS"
# - "GT-WT-02"
# - "AURIOL"
#
# Unsupported models are saved in an device named CUL_TCM97001_Unknown
# #
# Copyright (C) 2015 Bjoern Hempel # Copyright (C) 2015 Bjoern Hempel
# #
@ -20,23 +32,28 @@
# 51 Franklin St, Fifth Floor, Boston, MA 02110, USA # 51 Franklin St, Fifth Floor, Boston, MA 02110, USA
# #
############################################## ##############################################
# $Id: 14_CUL_TCM97001.pm 8286 2015-03-25 20:47:59Z dancer0705 $
package main; package main;
use strict; use strict;
use warnings; use warnings;
use SetExtensions; use SetExtensions;
use constant { TRUE => 1, FALSE => 0 }; use constant { TRUE => 1, FALSE => 0 };
#
# All suported models
#
my %models = ( my %models = (
"TCM97..." => 'TCM97...', "TCM97..." => 'TCM97...',
"ABS700" => 'ABS700',
"TCM21...." => 'TCM21....', "TCM21...." => 'TCM21....',
"Prologue" => 'Prologue', "Prologue" => 'Prologue',
"Rubicson" => 'Rubicson', "Rubicson" => 'Rubicson',
"NC_WS" => 'NC_WS',
"GT-WT-02" => 'GT-WT-02',
"AURIOL" => 'AURIOL',
"Unknown" => 'Unknown', "Unknown" => 'Unknown',
); );
@ -88,6 +105,9 @@ CUL_TCM97001_Undef($$)
return undef; return undef;
} }
#
# CRC Check for TCM 21....
#
sub checkCRC { sub checkCRC {
my $msg = shift; my $msg = shift;
my @a = split("", $msg); my @a = split("", $msg);
@ -110,6 +130,33 @@ sub checkCRC {
return FALSE; return FALSE;
} }
#
# CRC Check for GT-WT-02
#
sub checkCRC_GTWT02 {
my $msg = shift;
my @a = split("", $msg);
my $CRC = (hex($a[0])+hex($a[1])+hex($a[2])+hex($a[3])
+hex($a[4])+hex($a[5])+hex($a[6])+hex($a[7])) -1;
my $CRCCHECKVAL= (hex($a[7].$a[8].$a[9]) & 0x1F8) >> 3;
if ($CRC == $CRCCHECKVAL) {
return TRUE;
}
return FALSE;
}
sub checkValues {
my $temp = shift;
my $humidy = shift;
if ($temp < 60 && $temp > -30
&& $humidy > 0 && $humidy < 100) {
return TRUE;
}
return FALSE;
}
################################### ###################################
sub sub
CUL_TCM97001_Parse($$) CUL_TCM97001_Parse($$)
@ -136,6 +183,8 @@ CUL_TCM97001_Parse($$)
$name = $defUnknown->{NAME}; $name = $defUnknown->{NAME};
} }
my $readedModel = AttrVal($name, "model", "Unknown");
my $rssi; my $rssi;
my $l = length($msg); my $l = length($msg);
$rssi = hex(substr($msg, $l-2, 2)); $rssi = hex(substr($msg, $l-2, 2));
@ -143,23 +192,38 @@ CUL_TCM97001_Parse($$)
Log3 $name, 4, "CUL_TCM97001 $name $id3 or $id4 ($msg) length:" . length($msg) . " RSSI: $rssi"; Log3 $name, 4, "CUL_TCM97001 $name $id3 or $id4 ($msg) length:" . length($msg) . " RSSI: $rssi";
my ($msgtype, $msgtypeH, $val, $valH); my ($msgtype, $msgtypeH);
my $packageOK = FALSE; my $packageOK = FALSE;
my $state="";
my $batbit=undef; my $batbit=undef;
my $mode=undef; my $mode=undef;
my $trend=undef;
my $hashumidity = FALSE; my $hashumidity = FALSE;
my $hasbatcheck = FALSE; my $hasbatcheck = FALSE;
my $hastrend = FALSE;
my $model="Unknown"; my $model="Unknown";
my $temp = undef;
my $humidity=undef;
if (length($msg) == 8) { if (length($msg) == 8) {
# Only tmp TCM device # Only tmp TCM device
#eg. 1000 1111 0100 0011 0110 1000 = 21.8C #eg. 1000 1111 0100 0011 0110 1000 = 21.8C
#eg. --> shift2 0100 0011 0110 10 #eg. --> shift2 0100 0011 0110 10
my $temp = (hex($a[3].$a[4].$a[5]) >> 2) & 0xFFFF; my $tcm97id = hex($a[0] . $a[1]);
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$readedModel = AttrVal($name, "model", "Unknown");
if ($readedModel eq "Unknown" || $readedModel eq "TCM97...") {
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[3].$a[4].$a[5]) >> 2) & 0xFFFF;
my $negative = (hex($a[2]) >> 0) & 0x3; my $negative = (hex($a[2]) >> 0) & 0x3;
if ($negative == 0x3) { if ($negative == 0x3) {
@ -169,25 +233,12 @@ CUL_TCM97001_Parse($$)
$temp = $temp / 10; $temp = $temp / 10;
if($def) {
$def->{lastT} = $now;
}
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val";
# I think bit 3 on byte 3 is battery warning # I think bit 3 on byte 3 is battery warning
$batbit = (hex($a[2]) >> 0) & 0x4; $batbit = (hex($a[2]) >> 0) & 0x4;
$mode = (hex($a[5]) >> 0) & 0x1; $mode = (hex($a[5]) >> 0) & 0x1;
my $unknown = (hex($a[4]) >> 0) & 0x2; my $unknown = (hex($a[4]) >> 0) & 0x2;
my $t = ReadingsVal($name, "temperature", undef);
if(defined($t)) {
$state="T: $t";
}
if ($mode) { if ($mode) {
Log3 $name, 5, "CUL_TCM97001 Mode: manual triggert"; Log3 $name, 5, "CUL_TCM97001 Mode: manual triggert";
@ -197,25 +248,64 @@ CUL_TCM97001_Parse($$)
if ($unknown) { if ($unknown) {
Log3 $name, 5, "CUL_TCM97001 Unknown Bit: $unknown"; Log3 $name, 5, "CUL_TCM97001 Unknown Bit: $unknown";
} }
my $debug = "TEMP:$val°C BATT:";
if ($batbit) { if (checkValues($temp, 50)) {
$debug = $debug . "empty"; if(!$def) {
} else { Log3 $name, 2, "CUL_TCM97001 Unknown device $tcm97id, please define it";
$debug = $debug . "OK"; return "UNDEFINED CUL_TCM97001_$tcm97id CUL_TCM97001 $tcm97id" if(!$def);
} }
$debug = $debug . " HEX:0x";
$debug = $debug . $a[0].$a[1].$a[2].$a[3].$a[4].$a[5];
$debug = $debug . " BIN:";
my @list = unpack("(A4)*", unpack ('B*', pack ('H*',$a[0].$a[1].$a[2].$a[3].$a[4].$a[5])));
my $string = join(" ", @list);
$debug = $debug . $string;
Log3 $name, 5, "CUL_TCM97001 DEBUG: $debug";
$packageOK = TRUE; $packageOK = TRUE;
$hasbatcheck = TRUE; $hasbatcheck = TRUE;
$model="TCM97..."; $model="TCM97...";
$readedModel=$model;
}
}
if ($readedModel eq "Unknown" || $readedModel eq "ABS700") {
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[2].$a[3]) & 0x7F)+(hex($a[5])/10);
if ((hex($a[2]) & 0x8) == 0x8) {
$temp = -$temp;
}
$batbit = ((hex($a[4]) & 0x8) != 0x8);
if (checkValues($temp, 50)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $tcm97id, please define it";
return "UNDEFINED CUL_TCM97001_$tcm97id CUL_TCM97001 $tcm97id" if(!$def);
}
$hasbatcheck = TRUE;
$packageOK = TRUE;
$model="ABS700";
$readedModel=$model;
}
}
} elsif (length($msg) == 12) { } elsif (length($msg) == 12) {
my $bin = undef;
my $idType1 = hex($a[0] . $a[1]);
my $idType2 = hex($a[0] . $a[1] . $a[2]);
my $idType3 = hex($a[0] . $a[1] . $a[2] . (hex($a[3]) & 0x3));
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
my $def2 = $modules{CUL_TCM97001}{defptr}{$idType2};
my $def3 = $modules{CUL_TCM97001}{defptr}{$idType3};
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 Define Name: $name Model defined: $readedModel";
if (checkCRC($msg) == TRUE && ($readedModel eq "Unknown" || $readedModel eq "TCM21....")) {
# Long with tmp # Long with tmp
# All nibbles must be reversed # All nibbles must be reversed
# e.g. 154E800480 0001 0101 0100 1110 1000 0000 0000 0100 1000 0000 # e.g. 154E800480 0001 0101 0100 1110 1000 0000 0000 0100 1000 0000
@ -224,24 +314,40 @@ CUL_TCM97001_Parse($$)
# C Bit 1 Battery # C Bit 1 Battery
# D+E+F Temp # D+E+F Temp
# G+H Hum # G+H Hum
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
my $bin = undef; my $bin = undef;
$hashumidity = TRUE; my $bin1= undef;
my $readedModel = AttrVal($name, "model", undef); $bin1=sprintf("%024b",hex(substr($msg,0,length($msg)-8)));
while (length($bin1) < (length($msg)-8)*4) {
# suffix 0
$bin1 = '0'.$bin1;
}
$bin1=substr($bin1,((length($msg)-8)*8));
my $bin2=sprintf("%024b",hex(substr($msg,length($msg)-8,length($msg)-1)));
while (length($bin2) < 32) {
# suffix 0
$bin2 = '0'.$bin2;
}
$bin = $bin1 . $bin2;
if (checkCRC($msg) == TRUE && (!$readedModel || $readedModel eq "TCM21....")) {
Log3 $name, 5, "CUL_TCM97001: CRC OK";
my @a = split("", $msg); my @a = split("", $msg);
my $bitReverse = undef; my $bitReverse = undef;
my $x = undef; my $x = undef;
foreach $x (@a) { foreach $x (@a) {
my $bin3=sprintf("%04b",hex($x)); my $bin3=sprintf("%024b",hex($x));
$bitReverse = $bitReverse . reverse($bin3); $bitReverse = $bitReverse . substr(reverse($bin3),0,4);
} }
my $hexReverse = unpack("H*", pack ("B*", $bitReverse)); my $hexReverse = unpack("H*", pack ("B*", $bitReverse));
#Split reversed a again #Split reversed a again
my @aReverse = split("", $hexReverse); my @aReverse = split("", $hexReverse);
my $temp = undef;
my $CRC = (hex($aReverse[0])+hex($aReverse[1])+hex($aReverse[2])+hex($aReverse[3])
+hex($aReverse[4])+hex($aReverse[5])+hex($aReverse[6])+hex($aReverse[7])) & 15;
if (hex($aReverse[5]) > 3) { if (hex($aReverse[5]) > 3) {
# negative temp # negative temp
$temp = ((-hex($aReverse[3]) + -hex($aReverse[4]) * 16 + -hex($aReverse[5]) * 256)+1+4096)/10; $temp = ((-hex($aReverse[3]) + -hex($aReverse[4]) * 16 + -hex($aReverse[5]) * 256)+1+4096)/10;
@ -250,57 +356,67 @@ CUL_TCM97001_Parse($$)
$temp = (hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)/10; $temp = (hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)/10;
} }
if($def) { $humidity = hex($aReverse[7]).hex($aReverse[6]);
$def->{lastT} = $now;
$batbit = (hex($a[2]) & 0x8) >> 3;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
} }
my $humidity = hex($aReverse[7]).hex($aReverse[6]); $hashumidity = TRUE;
$msgtypeH = "humidity";
$valH = $humidity;
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val H: $humidity";
my $t = ReadingsVal($name, "temperature", undef);
my $h = ReadingsVal($name, "humidity", undef);
if(defined($t) && defined($h)) {
$state="T: $t H: $h";
} elsif(defined($t)) {
$state="T: $t";
} elsif(defined($h)) {
$state="H: $h";
}
$batbit = hex($aReverse[2]) & 1;
$mode = (hex($aReverse[2]) & 8) >> 3;
if ($mode) {
Log3 $name, 5, "CUL_TCM97001 Mode: manual triggert";
} else {
Log3 $name, 5, "CUL_TCM97001 Mode: auto triggert";
}
my $debug = "TEMP:$val°C HUM:$humidity :BATT:";
if ($batbit) {
$debug = $debug . "empty";
} else {
$debug = $debug . "OK";
}
$debug = $debug . " HEX:0x";
$debug = $debug . $hexReverse;
$debug = $debug . " BIN:$bitReverse";
Log3 $name, 5, "CUL_TCM97001 DEBUG: $debug";
$packageOK = TRUE; $packageOK = TRUE;
$hasbatcheck = TRUE; $hasbatcheck = TRUE;
$model="TCM21...."; $model="TCM21....";
$readedModel=$model;
} else { } else {
Log3 $name, 4, "CUL_TCM97001: CRC for TCM21.... Failed, checking other protocolls"; $def = undef;
$name = "Unknown";
}
}
if (checkCRC_GTWT02($msg) == TRUE && ($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};
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;
$humidity = (hex($a[6].$a[7]) & 0x0FE) >> 1; # only the first 7 bits are the humidity
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType3, please define it";
return "UNDEFINED CUL_TCM97001_$idType3 CUL_TCM97001 $idType3" if(!$def);
}
$hashumidity = TRUE;
$hasbatcheck = TRUE;
$packageOK = TRUE;
$model="GT-WT-02";
$readedModel=$model;
} else {
$def = undef;
$name = "Unknown";
}
}
#Log3 $name, 4, "CUL_TCM97001: CRC for TCM21.... Failed, checking other protocolls";
# Check for Prologue # Check for Prologue
if (hex($a[0]) == 0x9) { if ($readedModel eq "Prologue" || (hex($a[0]) == 0x9 && $readedModel eq "Unknown")) {
$model="Prologue"; # Log3 $name, 2, "ccccccccccccccccccccccccccccc";
# Protocol prologue start everytime with 1001 # Protocol prologue start everytime with 1001
# e.g. 91080F614C 1001 0001 0000 1000 0000 1111 0110 0001 0100 1100 # e.g. 91080F614C 1001 0001 0000 1000 0000 1111 0110 0001 0100 1100
# A B C D E F G H I # A B C D E F G H I
@ -309,8 +425,11 @@ CUL_TCM97001_Parse($$)
# D Bit 4 Battery, 3 Manual, 2+1 Channel # D Bit 4 Battery, 3 Manual, 2+1 Channel
# E+F+G Bit 15+16 negativ temp, 14-0 temp # E+F+G Bit 15+16 negativ temp, 14-0 temp
# H+I Hum # H+I Hum
$def = $modules{CUL_TCM97001}{defptr}{$idType3};
my $temp = (hex($a[4].$a[5].$a[6])) & 0x3FFF; if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[4].$a[5].$a[6])) & 0x3FFF;
my $negative = (hex($a[4])) & 0xC; my $negative = (hex($a[4])) & 0xC;
if ($negative == 0xC) { if ($negative == 0xC) {
@ -319,23 +438,176 @@ CUL_TCM97001_Parse($$)
} }
$temp = $temp / 10; $temp = $temp / 10;
if($def2) {
$def2->{lastT} = $now;
}
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
my $humidity=undef;
if (hex($a[7]) != 0xC && hex($a[8]) != 0xC) { if (hex($a[7]) != 0xC && hex($a[8]) != 0xC) {
$hashumidity = TRUE; $hashumidity = TRUE;
$humidity = hex($a[7].$a[8]); $humidity = hex($a[7].$a[8]);
$msgtypeH = "humidity";
$valH = $humidity;
} }
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id4 T: $val H: $humidity";
$batbit = (hex($a[3]) & 0x8) >> 3;
$mode = (hex($a[3]) & 0x4) >> 2;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType3, please define it";
return "UNDEFINED CUL_TCM97001_$idType3 CUL_TCM97001 $idType3" if(!$def);
}
$hashumidity = TRUE;
$hasbatcheck = TRUE;
$packageOK = TRUE;
$model="Prologue";
$readedModel=$model;
} else {
$def = undef;
$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};
if($def) {
$name = $def->{NAME};
}
$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;
$hashumidity = TRUE;
$humidity = hex($a[7].$a[8]) & 0x7F;
$batbit = (hex($a[3]) & 0x8) >> 3;
$batbit = ~$batbit & 0x1; # Bat bit umdrehen
$mode = (hex($a[3]) & 0x4) >> 2;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType3, please define it";
return "UNDEFINED CUL_TCM97001_$idType3 CUL_TCM97001 $idType3" if(!$def);
}
$hashumidity = TRUE;
$hasbatcheck = TRUE;
$packageOK = TRUE;
$model="NC_WS";
$readedModel=$model;
} else {
$def = undef;
$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, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
}
$packageOK = TRUE;
$model="Rubicson";
$readedModel=$model;
} else {
$def = undef;
$name = "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;
$batbit = (hex($a[3]) & 0x8) >> 3;
$batbit = ~$batbit & 0x1; # Bat bit umdrehen
$trend = (hex($a[7]) & 0x3);
if (checkValues($temp, 50)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
}
$hasbatcheck = TRUE;
$hastrend = TRUE;
$packageOK = TRUE;
$model="AURIOL";
$readedModel=$model;
} else {
$def = undef;
$name = "Unknown";
}
}
}
if ($packageOK == TRUE) {
if($def) {
$def->{lastT} = $now;
}
my ($val, $valH, $state);
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
if ($hashumidity == TRUE) {
$msgtypeH = "humidity";
$valH = $humidity;
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id4 T: $val H: $valH";
} else {
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val";
}
#Log3 $name, 2, "xxxxxxxx $model ......... $name .......... $val .... $valH ... $def";
my $t = ReadingsVal($name, "temperature", undef); my $t = ReadingsVal($name, "temperature", undef);
my $h = ReadingsVal($name, "humidity", undef); my $h = ReadingsVal($name, "humidity", undef);
if(defined($t) && defined($h)) { if(defined($t) && defined($h)) {
@ -346,61 +618,16 @@ CUL_TCM97001_Parse($$)
$state="H: $h"; $state="H: $h";
} }
$batbit = (hex($a[3]) & 0x8) >> 3;
$mode = (hex($a[2]) & 0x4) >> 2;
$hasbatcheck = TRUE;
$packageOK = TRUE;
} elsif (hex($a[2]) == 0x8) {
$model="Rubicson";
# 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
my $temp = (hex($a[3].$a[4].$a[5])) & 0x3FFF;
my $negative = (hex($a[3])) & 0xC;
if ($negative == 0xC) {
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
if($def) {
$def->{lastT} = $now;
}
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val";
my $t = ReadingsVal($name, "temperature", undef);
if(defined($t)) {
$state="T: $t";
}
$packageOK = TRUE;
}
}
}
if ($packageOK == TRUE) {
if(!$def && !$def2) {
if ($model eq "Prologue") {
Log3 $name, 2, "CUL_TCM97001 Unknown device $id4, please define it";
return "UNDEFINED CUL_TCM97001_$id4 CUL_TCM97001 $id4" if(!$def2);
} else {
Log3 $name, 2, "CUL_TCM97001 Unknown device $id3, please define it";
return "UNDEFINED CUL_TCM97001_$id3 CUL_TCM97001 $id3" if(!$def);
}
}
if ($model eq "Prologue") {
$def = $def2;
}
readingsBeginUpdate($def); readingsBeginUpdate($def);
readingsBulkUpdate($def, "state", $state); readingsBulkUpdate($def, "state", $state);
$attr{$name}{model} = $model;
if($hastrend) {
if ($trend == 1) {
readingsBulkUpdate($def, "trend", "falling");
} else {
readingsBulkUpdate($def, "trend", "rising");
}
}
if ($hasbatcheck) { if ($hasbatcheck) {
if ($batbit) { if ($batbit) {
readingsBulkUpdate($def, "battery", "low"); readingsBulkUpdate($def, "battery", "low");
@ -415,17 +642,17 @@ CUL_TCM97001_Parse($$)
readingsEndUpdate($def, 1); readingsEndUpdate($def, 1);
if(defined($rssi)) { if(defined($rssi)) {
$def->{RSSI} = $rssi; $def->{RSSI} = $rssi;
#$addvals{RSSI} = $rssi;
} }
$attr{$name}{model} = $model;
return $name; return $name;
} else { } else {
Log3 $name, 4, "CUL_TCM97001 Device not interplmeted yet name $name msg $msg"; Log3 $name, 4, "CUL_TCM97001 Device not interplmeted yet name $name msg $msg";
if (!$defUnknown) { if (!$defUnknown) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $name, please define it"; Log3 "Unknown", 2, "CUL_TCM97001 Unknown device Unknown, please define it";
return "UNDEFINED CUL_TCM97001_$name CUL_TCM97001 $name" if(!$defUnknown); return "UNDEFINED CUL_TCM97001_Unknown CUL_TCM97001 Unknown" if(!$defUnknown);
} }
$state="Code: $msg"; my $state="Code: $msg";
if ($defUnknown) { if ($defUnknown) {
$defUnknown->{lastT} = $now; $defUnknown->{lastT} = $now;