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00_SIGNALduino.pm
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00_SIGNALduino.pm
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# $Id: 00_SIGNALduino.pm 10488 2018-12-19 12:00:00Z v3.3.3-dev $
#
# v3.3.3 (Development release 3.3)
# The module is inspired by the FHEMduino project and modified in serval ways for processing the incoming messages
# see http://www.fhemwiki.de/wiki/SIGNALDuino
# It was modified also to provide support for raw message handling which can be send from the SIGNALduino
# The purpos is to use it as addition to the SIGNALduino which runs on an arduno nano or arduino uno.
# It routes Messages serval Modules which are already integrated in FHEM. But there are also modules which comes with it.
# N. Butzek, S. Butzek, 2014-2015
# S.Butzek,Ralf9 2016-2018
package main;
my $missingModulSIGNALduino="";
use strict;
use warnings;
no warnings 'portable';
eval "use Data::Dumper qw(Dumper);1";
eval "use JSON;1" or $missingModulSIGNALduino .= "JSON ";
eval "use Scalar::Util qw(looks_like_number);1";
eval "use Time::HiRes qw(gettimeofday);1" ;
#$| = 1; #Puffern abschalten, Hilfreich fuer PEARL WARNINGS Search
#use POSIX qw( floor); # can be removed
#use Math::Round qw();
use constant {
SDUINO_VERSION => "v3.3.3-dev_30.12.",
SDUINO_INIT_WAIT_XQ => 1.5, # wait disable device
SDUINO_INIT_WAIT => 2,
SDUINO_INIT_MAXRETRY => 3,
SDUINO_CMD_TIMEOUT => 10,
SDUINO_KEEPALIVE_TIMEOUT => 60,
SDUINO_KEEPALIVE_MAXRETRY => 3,
SDUINO_WRITEQUEUE_NEXT => 0.3,
SDUINO_WRITEQUEUE_TIMEOUT => 2,
SDUINO_DISPATCH_VERBOSE => 5, # default 5
SDUINO_MC_DISPATCH_VERBOSE => 5, # wenn kleiner 5, z.B. 3 dann wird vor dem dispatch mit loglevel 3 die ID und rmsg ausgegeben
SDUINO_MC_DISPATCH_LOG_ID => '12.1', # die o.g. Ausgabe erfolgt nur wenn der Wert mit der ID uebereinstimmt
SDUINO_PARSE_DEFAULT_LENGHT_MIN => 8
};
sub SIGNALduino_Attr(@);
#sub SIGNALduino_Clear($); # wird nicht mehr benoetigt
sub SIGNALduino_HandleWriteQueue($);
sub SIGNALduino_Parse($$$$@);
sub SIGNALduino_Read($);
#sub SIGNALduino_ReadAnswer($$$$); # wird nicht mehr benoetigt
sub SIGNALduino_Ready($);
sub SIGNALduino_Write($$$);
sub SIGNALduino_SimpleWrite(@);
sub SIGNALduino_LoadProtocolHash($);
sub SIGNALduino_Log3($$$);
#my $debug=0;
my %gets = ( # Name, Data to send to the SIGNALduino, Regexp for the answer
"version" => ["V", 'V\s.*SIGNAL(duino|ESP).*'],
"freeram" => ["R", '^[0-9]+'],
"raw" => ["", '.*'],
"uptime" => ["t", '^[0-9]+' ],
"cmds" => ["?", '.*Use one of[ 0-9A-Za-z]+[\r\n]*$' ],
# "ITParms" => ["ip",'.*'],
"ping" => ["P",'^OK$'],
"config" => ["CG",'^MS.*MU.*MC.*'],
# "protocolIDs" => ["none",'none'],
"ccconf" => ["C0DnF", 'C0Dn11.*'],
"ccreg" => ["C", '^C.* = .*'],
"ccpatable" => ["C3E", '^C3E = .*'],
# "ITClock" => ["ic", '\d+'],
# "FAParms" => ["fp", '.*' ],
# "TCParms" => ["dp", '.*' ],
# "HXParms" => ["hp", '.*' ]
"availableFirmware" => ["none",'none'],
);
my %sets = (
"raw" => '',
"flash" => '',
"reset" => 'noArg',
"close" => 'noArg',
#"disablereceiver" => "",
#"ITClock" => 'slider,100,20,700',
"enableMessagetype" => 'syncedMS,unsyncedMU,manchesterMC',
"disableMessagetype" => 'syncedMS,unsyncedMU,manchesterMC',
"sendMsg" => "",
"cc1101_freq" => '',
"cc1101_bWidth" => '',
"cc1101_rAmpl" => '',
"cc1101_sens" => '',
"cc1101_patable_433" => '-10_dBm,-5_dBm,0_dBm,5_dBm,7_dBm,10_dBm',
"cc1101_patable_868" => '-10_dBm,-5_dBm,0_dBm,5_dBm,7_dBm,10_dBm',
);
my %patable = (
"433" =>
{
"-10_dBm" => '34',
"-5_dBm" => '68',
"0_dBm" => '60',
"5_dBm" => '84',
"7_dBm" => 'C8',
"10_dBm" => 'C0',
},
"868" =>
{
"-10_dBm" => '27',
"-5_dBm" => '67',
"0_dBm" => '50',
"5_dBm" => '81',
"7_dBm" => 'CB',
"10_dBm" => 'C2',
},
);
my @ampllist = (24, 27, 30, 33, 36, 38, 40, 42); # rAmpl(dB)
## Supported Clients per default
my $clientsSIGNALduino = ":IT:"
."CUL_TCM97001:"
."SD_RSL:"
."OREGON:"
."CUL_TX:"
."SD_AS:"
."Hideki:"
."SD_WS07:"
."SD_WS09:"
." :" # Zeilenumbruch
."SD_WS:"
."RFXX10REC:"
."Dooya:"
."SOMFY:"
."SD_BELL:" ## bells
."SD_UT:" ## universal - more devices with different protocols
."SD_WS_Maverick:"
."FLAMINGO:"
."CUL_WS:"
."Revolt:"
." :" # Zeilenumbruch
."FS10:"
."CUL_FHTTK:"
."Siro:"
."FHT:"
."FS20:"
."CUL_EM:"
."Fernotron:"
."SIGNALduino_un:"
;
## default regex match List for dispatching message to logical modules, can be updated during runtime because it is referenced
my %matchListSIGNALduino = (
"1:IT" => "^i......", # Intertechno Format
"2:CUL_TCM97001" => "^s[A-Fa-f0-9]+", # Any hex string beginning with s
"3:SD_RSL" => "^P1#[A-Fa-f0-9]{8}",
"5:CUL_TX" => "^TX..........", # Need TX to avoid FHTTK
"6:SD_AS" => "^P2#[A-Fa-f0-9]{7,8}", # Arduino based Sensors, should not be default
"4:OREGON" => "^(3[8-9A-F]|[4-6][0-9A-F]|7[0-8]).*",
"7:Hideki" => "^P12#75[A-F0-9]+",
"9:CUL_FHTTK" => "^T[A-F0-9]{8}",
"10:SD_WS07" => "^P7#[A-Fa-f0-9]{6}F[A-Fa-f0-9]{2}(#R[A-F0-9][A-F0-9]){0,1}\$",
"11:SD_WS09" => "^P9#F[A-Fa-f0-9]+",
"12:SD_WS" => '^W\d+x{0,1}#.*',
"13:RFXX10REC" => '^(20|29)[A-Fa-f0-9]+',
"14:Dooya" => '^P16#[A-Fa-f0-9]+',
"15:SOMFY" => '^Ys[0-9A-F]+',
"16:SD_WS_Maverick" => '^P47#[A-Fa-f0-9]+',
"17:SD_UT" => '^P(?:14|29|30|34|46|69|76|81|83|86|91|91.1|92)#.*', # universal - more devices with different protocols
"18:FLAMINGO" => '^P13\.?1?#[A-Fa-f0-9]+', # Flamingo Smoke
"19:CUL_WS" => '^K[A-Fa-f0-9]{5,}',
"20:Revolt" => '^r[A-Fa-f0-9]{22}',
"21:FS10" => '^P61#[A-F0-9]+',
"22:Siro" => '^P72#[A-Fa-f0-9]+',
"23:FHT" => "^81..(04|09|0d)..(0909a001|83098301|c409c401)..",
"24:FS20" => "^81..(04|0c)..0101a001",
"25:CUL_EM" => "^E0.................",
"26:Fernotron" => '^P82#.*',
"27:SD_BELL" => '^P(?:15|32|41|42|57|79)#.*',
"X:SIGNALduino_un" => '^[u]\d+#.*',
);
my %ProtocolListSIGNALduino;
sub
SIGNALduino_Initialize($)
{
my ($hash) = @_;
require "$attr{global}{modpath}/FHEM/DevIo.pm";
my $dev = "";
if (index(SDUINO_VERSION, "dev") >= 0) {
$dev = ",1";
}
# Provider
$hash->{ReadFn} = "SIGNALduino_Read";
$hash->{WriteFn} = "SIGNALduino_Write";
$hash->{ReadyFn} = "SIGNALduino_Ready";
# Normal devices
$hash->{DefFn} = "SIGNALduino_Define";
$hash->{FingerprintFn} = "SIGNALduino_FingerprintFn";
$hash->{UndefFn} = "SIGNALduino_Undef";
$hash->{GetFn} = "SIGNALduino_Get";
$hash->{SetFn} = "SIGNALduino_Set";
$hash->{AttrFn} = "SIGNALduino_Attr";
$hash->{AttrList} =
"Clients MatchList do_not_notify:1,0 dummy:1,0"
." hexFile"
." initCommands"
." flashCommand"
." hardware:ESP_1M,ESP32,nano,nanoCC1101,miniculCC1101,promini,radinoCC1101"
." updateChannelFW:stable,testing"
." debug:0$dev"
." longids"
." minsecs"
." whitelist_IDs"
." blacklist_IDs"
." WS09_CRCAUS:0,1,2"
." addvaltrigger"
." rawmsgEvent:1,0"
." cc1101_frequency"
." doubleMsgCheck_IDs"
." suppressDeviceRawmsg:1,0"
." development:0$dev"
." noMsgVerbose:0,1,2,3,4,5"
." eventlogging:0,1"
." maxMuMsgRepeat"
." $readingFnAttributes";
$hash->{ShutdownFn} = "SIGNALduino_Shutdown";
$hash->{FW_detailFn} = "SIGNALduino_FW_Detail";
$hash->{msIdList} = ();
$hash->{muIdList} = ();
$hash->{mcIdList} = ();
#ours %attr{};
%ProtocolListSIGNALduino = SIGNALduino_LoadProtocolHash("$attr{global}{modpath}/FHEM/lib/signalduino_protocols.hash");
if (exists($ProtocolListSIGNALduino{error}) ) {
Log3 "SIGNALduino", 1, "Error loading Protocol Hash. Module is in inoperable mode error message:($ProtocolListSIGNALduino{error})";
delete($ProtocolListSIGNALduino{error});
return undef;
}
}
#
# Predeclare Variables from other modules may be loaded later from fhem
#
our $FW_wname;
our $FW_ME;
#
# Predeclare Variables from other modules may be loaded later from fhem
#
our $FW_CSRF;
our $FW_detail;
# Load Protocol hash from File into a hash.
# First Parameter is for filename (full or relativ path) to be loaded
#
# returns a hash with protocols if loaded without error. Returns a hash with {eror} => errormessage if there was an error
sub SIGNALduino_LoadProtocolHash($)
{
if (! -e $_[0]) {
return %{ {"error" => "File does not exsits"}};
}
my $protocol_data = do {
open my $fh, '<', $_[0] ;
local $/; # Undefine $/ for this scope...
<$fh>; # so <> slurps up the entire file
};
my %evalret= eval $protocol_data ;
if (!%evalret) {
return %{ {"error" => $@}};
}
return %evalret;
}
sub
SIGNALduino_FingerprintFn($$)
{
my ($name, $msg) = @_;
# Store only the "relevant" part, as the Signalduino won't compute the checksum
#$msg = substr($msg, 8) if($msg =~ m/^81/ && length($msg) > 8);
return ("", $msg);
}
#####################################
sub
SIGNALduino_Define($$)
{
my ($hash, $def) = @_;
my @a = split("[ \t][ \t]*", $def);
if(@a != 3) {
my $msg = "wrong syntax: define <name> SIGNALduino {none | devicename[\@baudrate] | devicename\@directio | hostname:port}";
Log3 undef, 2, $msg;
return $msg;
}
DevIo_CloseDev($hash);
my $name = $a[0];
if (!exists &round)
{
Log3 $name, 1, "$name: Signalduino can't be activated (sub round not found). Please update Fhem via update command";
return undef;
}
my $dev = $a[2];
#Debug "dev: $dev" if ($debug);
#my $hardware=AttrVal($name,"hardware","nano");
#Debug "hardware: $hardware" if ($debug);
if($dev eq "none") {
Log3 $name, 1, "$name: device is none, commands will be echoed only";
$attr{$name}{dummy} = 1;
#return undef;
}
if ($dev ne "none" && $dev =~ m/[a-zA-Z]/ && $dev !~ m/\@/) { # bei einer IP wird kein \@57600 angehaengt
$dev .= "\@57600";
}
#$hash->{CMDS} = "";
$hash->{Clients} = $clientsSIGNALduino;
$hash->{MatchList} = \%matchListSIGNALduino;
$hash->{DeviceName} = $dev;
my $ret=undef;
InternalTimer(gettimeofday(), 'SIGNALduino_IdList',"sduino_IdList:$name",0); # verzoegern bis alle Attribute eingelesen sind
if($dev ne "none") {
$ret = DevIo_OpenDev($hash, 0, "SIGNALduino_DoInit", 'SIGNALduino_Connect');
} else {
$hash->{DevState} = 'initialized';
readingsSingleUpdate($hash, "state", "opened", 1);
}
$hash->{DMSG}="nothing";
$hash->{LASTDMSG} = "nothing";
$hash->{TIME}=time();
$hash->{versionmodul} = SDUINO_VERSION;
#notifyRegexpChanged($hash,"^$name$:^opened\$"); # Auf das Event opened der eigenen Definition reagieren
#notifyRegexpChanged($hash,"sduino:opened"); # Auf das Event opened der eigenen Definition reagieren
#$hash->{NOTIFYDEV}="$name";
Log3 $name, 3, "$name: Firmwareversion: ".$hash->{READINGS}{version}{VAL} if ($hash->{READINGS}{version}{VAL});
return $ret;
}
###############################
sub SIGNALduino_Connect($$)
{
my ($hash, $err) = @_;
# damit wird die err-msg nur einmal ausgegeben
if (!defined($hash->{disConnFlag}) && $err) {
SIGNALduino_Log3($hash, 3, "$hash->{NAME}: ${err}");
$hash->{disConnFlag} = 1;
}
}
#####################################
sub
SIGNALduino_Undef($$)
{
my ($hash, $arg) = @_;
my $name = $hash->{NAME};
foreach my $d (sort keys %defs) {
if(defined($defs{$d}) &&
defined($defs{$d}{IODev}) &&
$defs{$d}{IODev} == $hash)
{
my $lev = ($reread_active ? 4 : 2);
SIGNALduino_Log3 $name, $lev, "$name: deleting port for $d";
delete $defs{$d}{IODev};
}
}
SIGNALduino_Shutdown($hash);
DevIo_CloseDev($hash);
RemoveInternalTimer($hash);
return undef;
}
#####################################
sub
SIGNALduino_Shutdown($)
{
my ($hash) = @_;
#DevIo_SimpleWrite($hash, "XQ\n",2);
SIGNALduino_SimpleWrite($hash, "XQ"); # Switch reception off, it may hang up the SIGNALduino
return undef;
}
#####################################
#$hash,$name,"sendmsg","P17;R6#".substr($arg,2)
sub
SIGNALduino_Set($@)
{
my ($hash, @a) = @_;
return "\"set SIGNALduino\" needs at least one parameter" if(@a < 2);
#SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set called with params @a";
my $hasCC1101 = 0;
my $CC1101Frequency;
if ($hash->{version} && $hash->{version} =~ m/cc1101/) {
$hasCC1101 = 1;
if (!defined($hash->{cc1101_frequency})) {
$CC1101Frequency = "433";
} else {
$CC1101Frequency = $hash->{cc1101_frequency};
}
}
my %my_sets = %sets;
#SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set addionals set commands: ".Dumper(%{$hash->{additionalSets}});
#SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set normal set commands: ".Dumper(%my_sets);
#SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set global set commands: ".Dumper(%sets);
%my_sets = ( %my_sets, %{$hash->{additionalSets}} ) if ( defined($hash->{additionalSets}) );
if (!defined($my_sets{$a[1]})) {
my $arguments = ' ';
foreach my $arg (sort keys %my_sets) {
next if ($arg =~ m/cc1101/ && $hasCC1101 == 0);
if ($arg =~ m/patable/) {
next if (substr($arg, -3) ne $CC1101Frequency);
}
$arguments.= $arg . ($my_sets{$arg} ? (':' . $my_sets{$arg}) : '') . ' ';
}
#SIGNALduino_Log3 $hash, 3, "set arg = $arguments";
return "Unknown argument $a[1], choose one of " . $arguments;
}
my $name = shift @a;
my $cmd = shift @a;
my $arg = join(" ", @a);
if ($cmd =~ m/cc1101/ && $hasCC1101 == 0) {
return "This command is only available with a cc1101 receiver";
}
return "$name is not active, may firmware is not suppoted, please flash or reset" if ($cmd ne 'reset' && $cmd ne 'flash' && exists($hash->{DevState}) && $hash->{DevState} ne 'initialized');
if ($cmd =~ m/^cc1101_/) {
$cmd = substr($cmd,7);
}
if($cmd eq "raw") {
SIGNALduino_Log3 $name, 4, "set $name $cmd $arg";
#SIGNALduino_SimpleWrite($hash, $arg);
SIGNALduino_AddSendQueue($hash,$arg);
} elsif( $cmd eq "flash" ) {
my @args = split(' ', $arg);
my $log = "";
my $hexFile = "";
my @deviceName = split('@', $hash->{DeviceName});
my $port = $deviceName[0];
my $hardware=AttrVal($name,"hardware","");
my $baudrate=$hardware eq "uno" ? 115200 : 57600;
my $defaultHexFile = "./FHEM/firmware/$hash->{TYPE}_$hardware.hex";
my $logFile = AttrVal("global", "logdir", "./log/") . "$hash->{TYPE}-Flash.log";
return "Please define your hardware! (attr $name hardware <model of your receiver>) " if ($hardware eq "");
return "ERROR: argument failed! flash [hexFile|url]" if (!$args[0]);
#SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set choosen flash option: $args[0] of available: ".Dumper($my_sets{flash});
if( grep $args[0] eq $_ , split(",",$my_sets{flash}) )
{
SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set flash $args[0] try to fetch github assets for tag $args[0]";
my $ghurl = "https://api.github.com/repos/RFD-FHEM/<REPONAME>/releases/tags/$args[0]";
if ($hardware =~ /ESP/) {
$ghurl =~ s/<REPONAME>/SIGNALESP/ ;
} else {
$ghurl =~ s/<REPONAME>/SIGNALDuino/ ;
}
SIGNALduino_Log3 $hash, 3, "SIGNALduino_Set flash $args[0] try to fetch release $ghurl";
my $http_param = {
url => $ghurl,
timeout => 5,
hash => $hash, # Muss gesetzt werden, damit die Callback funktion wieder $hash hat
method => "GET", # Lesen von Inhalten
header => "User-Agent: perl_fhem\r\nAccept: application/json", # Den Header gemaess abzufragender Daten aendern
callback => \&SIGNALduino_githubParseHttpResponse, # Diese Funktion soll das Ergebnis dieser HTTP Anfrage bearbeiten
command => "getReleaseByTag"
};
HttpUtils_NonblockingGet($http_param); # Starten der HTTP Abfrage. Es gibt keinen Return-Code.
return;
}
elsif(!$arg || $args[0] !~ m/^(\w|\/|.)+$/) {
$hexFile = AttrVal($name, "hexFile", "");
if ($hexFile eq "") {
$hexFile = $defaultHexFile;
}
}
elsif ($args[0] =~ m/^https?:\/\// ) {
my $http_param = {
url => $args[0],
timeout => 5,
hash => $hash, # Muss gesetzt werden, damit die Callback funktion wieder $hash hat
method => "GET", # Lesen von Inhalten
callback => \&SIGNALduino_ParseHttpResponse, # Diese Funktion soll das Ergebnis dieser HTTP Anfrage bearbeiten
command => 'flash',
};
HttpUtils_NonblockingGet($http_param);
return;
} else {
$hexFile = $args[0];
}
SIGNALduino_Log3 $name, 3, "$name: filename $hexFile provided, trying to flash";
return "Usage: set $name flash [filename]\n\nor use the hexFile attribute" if($hexFile !~ m/^(\w|\/|.)+$/);
# Only for Arduino , not for ESP
if ($hardware =~ m/(?:nano|mini|radino)/)
{
my $avrdudefound=0;
my $tool_name = "avrdude";
for my $path ( split /:/, $ENV{PATH} ) {
if ( -f "$path/$tool_name" && -x _ ) {
$avrdudefound=1;
last;
}
}
SIGNALduino_Log3 $name, 5, "$name: avrdude found = $avrdudefound";
return "avrdude is not installed. Please provide avrdude tool example: sudo apt-get install avrdude" if($avrdudefound == 0);
$log .= "flashing Arduino $name\n";
$log .= "hex file: $hexFile\n";
$log .= "port: $port\n";
$log .= "log file: $logFile\n";
my $flashCommand;
if( !defined( $attr{$name}{flashCommand} ) ) { # check defined flashCommand from user | not, use standard flashCommand | yes, use user flashCommand
SIGNALduino_Log3 $name, 5, "$hash->{TYPE} $name: flashCommand is not defined. standard used to flash.";
if ($hardware eq "radinoCC1101") { # radinoCC1101 Port not /dev/ttyUSB0 --> /dev/ttyACM0
$flashCommand = "avrdude -c avr109 -b [BAUDRATE] -P [PORT] -p atmega32u4 -vv -D -U flash:w:[HEXFILE] 2>[LOGFILE]";
} elsif ($hardware ne "ESP_1M" && $hardware ne "ESP32" && $hardware ne "radinoCC1101") { # nano, nanoCC1101, miniculCC1101, promini
$flashCommand = "avrdude -c arduino -b [BAUDRATE] -P [PORT] -p atmega328p -vv -U flash:w:[HEXFILE] 2>[LOGFILE]";
}
} else {
$flashCommand = $attr{$name}{flashCommand};
SIGNALduino_Log3 $name, 3, "$hash->{TYPE} $name: flashCommand is manual defined! $flashCommand";
}
if($flashCommand ne "") {
if (-e $logFile) {
unlink $logFile;
}
DevIo_CloseDev($hash);
$hash->{STATE} = "FIRMWARE UPDATE running";
$log .= "$name closed\n";
my $avrdude = $flashCommand;
$avrdude =~ s/\Q[PORT]\E/$port/g;
$avrdude =~ s/\Q[BAUDRATE]\E/$baudrate/g;
$avrdude =~ s/\Q[HEXFILE]\E/$hexFile/g;
$avrdude =~ s/\Q[LOGFILE]\E/$logFile/g;
$log .= "command: $avrdude\n\n";
`$avrdude`;
local $/=undef;
if (-e $logFile) {
open FILE, $logFile;
my $logText = <FILE>;
close FILE;
$log .= "--- AVRDUDE ---------------------------------------------------------------------------------\n";
$log .= $logText;
$log .= "--- AVRDUDE ---------------------------------------------------------------------------------\n\n";
}
else {
$log .= "WARNING: avrdude created no log file\n\n";
}
}
else {
$log .= "\n\nNo flashCommand found. Please define this attribute.\n\n";
}
DevIo_OpenDev($hash, 0, "SIGNALduino_DoInit", 'SIGNALduino_Connect');
$log .= "$name opened\n";
return undef;
} else
{
return "Sorry, Flashing your ESP via Module is currently not supported.";
}
} elsif ($cmd =~ m/reset/i) {
delete($hash->{initResetFlag}) if defined($hash->{initResetFlag});
return SIGNALduino_ResetDevice($hash);
} elsif( $cmd eq "close" ) {
$hash->{DevState} = 'closed';
return SIGNALduino_CloseDevice($hash);
} elsif( $cmd eq "disableMessagetype" ) {
my $argm = 'CD' . substr($arg,-1,1);
#SIGNALduino_SimpleWrite($hash, $argm);
SIGNALduino_AddSendQueue($hash,$argm);
SIGNALduino_Log3 $name, 4, "set $name $cmd $arg $argm";;
} elsif( $cmd eq "enableMessagetype" ) {
my $argm = 'CE' . substr($arg,-1,1);
#SIGNALduino_SimpleWrite($hash, $argm);
SIGNALduino_AddSendQueue($hash,$argm);
SIGNALduino_Log3 $name, 4, "set $name $cmd $arg $argm";
} elsif( $cmd eq "freq" ) {
if ($arg eq "") {
$arg = AttrVal($name,"cc1101_frequency", 433.92);
}
my $f = $arg/26*65536;
my $f2 = sprintf("%02x", $f / 65536);
my $f1 = sprintf("%02x", int($f % 65536) / 256);
my $f0 = sprintf("%02x", $f % 256);
$arg = sprintf("%.3f", (hex($f2)*65536+hex($f1)*256+hex($f0))/65536*26);
SIGNALduino_Log3 $name, 3, "$name: Setting FREQ2..0 (0D,0E,0F) to $f2 $f1 $f0 = $arg MHz";
SIGNALduino_AddSendQueue($hash,"W0F$f2");
SIGNALduino_AddSendQueue($hash,"W10$f1");
SIGNALduino_AddSendQueue($hash,"W11$f0");
SIGNALduino_WriteInit($hash);
} elsif( $cmd eq "bWidth" ) {
SIGNALduino_AddSendQueue($hash,"C10");
$hash->{getcmd}->{cmd} = "bWidth";
$hash->{getcmd}->{arg} = $arg;
} elsif( $cmd eq "rAmpl" ) {
return "a numerical value between 24 and 42 is expected" if($arg !~ m/^\d+$/ || $arg < 24 || $arg > 42);
my ($v, $w);
for($v = 0; $v < @ampllist; $v++) {
last if($ampllist[$v] > $arg);
}
$v = sprintf("%02d", $v-1);
$w = $ampllist[$v];
SIGNALduino_Log3 $name, 3, "$name: Setting AGCCTRL2 (1B) to $v / $w dB";
SIGNALduino_AddSendQueue($hash,"W1D$v");
SIGNALduino_WriteInit($hash);
} elsif( $cmd eq "sens" ) {
return "a numerical value between 4 and 16 is expected" if($arg !~ m/^\d+$/ || $arg < 4 || $arg > 16);
my $w = int($arg/4)*4;
my $v = sprintf("9%d",$arg/4-1);
SIGNALduino_Log3 $name, 3, "$name: Setting AGCCTRL0 (1D) to $v / $w dB";
SIGNALduino_AddSendQueue($hash,"W1F$v");
SIGNALduino_WriteInit($hash);
} elsif( substr($cmd,0,7) eq "patable" ) {
my $paFreq = substr($cmd,8);
my $pa = "x" . $patable{$paFreq}{$arg};
SIGNALduino_Log3 $name, 3, "$name: Setting patable $paFreq $arg $pa";
SIGNALduino_AddSendQueue($hash,$pa);
SIGNALduino_WriteInit($hash);
} elsif( $cmd eq "sendMsg" ) {
SIGNALduino_Log3 $name, 5, "$name: sendmsg msg=$arg";
# Split args in serval variables
my ($protocol,$data,$repeats,$clock,$frequency,$datalength,$dataishex);
my $n=0;
foreach my $s (split "#", $arg) {
my $c = substr($s,0,1);
if ($n == 0 ) { # protocol
$protocol = substr($s,1);
} elsif ($n == 1) { # Data
$data = $s;
if ( substr($s,0,2) eq "0x" ) { $dataishex=1; $data=substr($data,2); }
else { $dataishex=0; }
} else {
if ($c eq 'R') { $repeats = substr($s,1); }
elsif ($c eq 'C') { $clock = substr($s,1); }
elsif ($c eq 'F') { $frequency = substr($s,1); }
elsif ($c eq 'L') { $datalength = substr($s,1); }
}
$n++;
}
return "$name: sendmsg, unknown protocol: $protocol" if (!exists($ProtocolListSIGNALduino{$protocol}));
$repeats=1 if (!defined($repeats));
if (exists($ProtocolListSIGNALduino{$protocol}{frequency}) && $hasCC1101 && !defined($frequency)) {
$frequency = $ProtocolListSIGNALduino{$protocol}{frequency};
}
if (defined($frequency) && $hasCC1101) {
$frequency="F=$frequency;";
} else {
$frequency="";
}
#print ("data = $data \n");
#print ("protocol = $protocol \n");
#print ("repeats = $repeats \n");
my %signalHash;
my %patternHash;
my $pattern="";
my $cnt=0;
my $sendData;
if (exists($ProtocolListSIGNALduino{$protocol}{format}) && $ProtocolListSIGNALduino{$protocol}{format} eq 'manchester')
{
#$clock = (map { $clock += $_ } @{$ProtocolListSIGNALduino{$protocol}{clockrange}}) / 2 if (!defined($clock));
$clock += $_ for(@{$ProtocolListSIGNALduino{$protocol}{clockrange}});
$clock = round($clock/2,0);
if ($protocol == 43) {
#$data =~ tr/0123456789ABCDEF/FEDCBA9876543210/;
}
my $intro = "";
my $outro = "";
$intro = $ProtocolListSIGNALduino{$protocol}{msgIntro} if ($ProtocolListSIGNALduino{$protocol}{msgIntro});
$outro = $ProtocolListSIGNALduino{$protocol}{msgOutro}.";" if ($ProtocolListSIGNALduino{$protocol}{msgOutro});
if ($intro ne "" || $outro ne "")
{
$intro = "SC;R=$repeats;" . $intro;
$repeats = 0;
}
$sendData = $intro . "SM;" . ($repeats > 0 ? "R=$repeats;" : "") . "C=$clock;D=$data;" . $outro . $frequency; # SM;R=2;C=400;D=AFAFAF;
SIGNALduino_Log3 $name, 5, "$name: sendmsg Preparing manchester protocol=$protocol, repeats=$repeats, clock=$clock data=$data";
} else {
if ($protocol == 3 || substr($data,0,2) eq "is") {
if (substr($data,0,2) eq "is") {
$data = substr($data,2); # is am Anfang entfernen
}
$data = SIGNALduino_ITV1_tristateToBit($data);
SIGNALduino_Log3 $name, 5, "$name: sendmsg IT V1 convertet tristate to bits=$data";
}
if (!defined($clock)) {
$hash->{ITClock} = 250 if (!defined($hash->{ITClock})); # Todo: Klaeren wo ITClock verwendet wird und ob wir diesen Teil nicht auf Protokoll 3,4 und 17 minimieren
$clock=$ProtocolListSIGNALduino{$protocol}{clockabs} > 1 ?$ProtocolListSIGNALduino{$protocol}{clockabs}:$hash->{ITClock};
}
if ($dataishex == 1)
{
# convert hex to bits
my $hlen = length($data);
my $blen = $hlen * 4;
$data = unpack("B$blen", pack("H$hlen", $data));
}
SIGNALduino_Log3 $name, 5, "$name: sendmsg Preparing rawsend command for protocol=$protocol, repeats=$repeats, clock=$clock bits=$data";
foreach my $item (qw(preSync sync start one zero float pause end universal))
{
#print ("item= $item \n");
next if (!exists($ProtocolListSIGNALduino{$protocol}{$item}));
foreach my $p (@{$ProtocolListSIGNALduino{$protocol}{$item}})
{
#print (" p = $p \n");
if (!exists($patternHash{$p}))
{
$patternHash{$p}=$cnt;
$pattern.="P".$patternHash{$p}."=".$p*$clock.";";
$cnt++;
}
$signalHash{$item}.=$patternHash{$p};
#print (" signalHash{$item} = $signalHash{$item} \n");
}
}
my @bits = split("", $data);
my %bitconv = (1=>"one", 0=>"zero", 'D'=> "float", 'F'=> "float", 'P'=> "pause", 'U'=> "universal");
my $SignalData="D=";
$SignalData.=$signalHash{preSync} if (exists($signalHash{preSync}));
$SignalData.=$signalHash{sync} if (exists($signalHash{sync}));
$SignalData.=$signalHash{start} if (exists($signalHash{start}));
foreach my $bit (@bits)
{
next if (!exists($bitconv{$bit}));
#SIGNALduino_Log3 $name, 5, "encoding $bit";
$SignalData.=$signalHash{$bitconv{$bit}}; ## Add the signal to our data string
}
$SignalData.=$signalHash{end} if (exists($signalHash{end}));
$sendData = "SR;R=$repeats;$pattern$SignalData;$frequency";
}
#SIGNALduino_SimpleWrite($hash, $sendData);
SIGNALduino_AddSendQueue($hash,$sendData);
SIGNALduino_Log3 $name, 4, "$name/set: sending via SendMsg: $sendData";
} else {
SIGNALduino_Log3 $name, 5, "$name/set: set $name $cmd $arg";
#SIGNALduino_SimpleWrite($hash, $arg);
return "Unknown argument $cmd, choose one of ". ReadingsVal($name,'cmd',' help me');
}
return undef;
}
#####################################
sub
SIGNALduino_Get($@)
{
my ($hash, @a) = @_;
my $type = $hash->{TYPE};
my $name = $hash->{NAME};
return "$name is not active, may firmware is not suppoted, please flash or reset" if (exists($hash->{DevState}) && $hash->{DevState} ne 'initialized');
#my $name = $a[0];
SIGNALduino_Log3 $name, 5, "\"get $type\" needs at least one parameter" if(@a < 2);
return "\"get $type\" needs at least one parameter" if(@a < 2);
if(!defined($gets{$a[1]})) {
my @cList = map { $_ =~ m/^(file|raw|ccreg)$/ ? $_ : "$_:noArg" } sort keys %gets;
return "Unknown argument $a[1], choose one of " . join(" ", @cList);
}
my $arg = ($a[2] ? $a[2] : "");
return "no command to send, get aborted." if (length($gets{$a[1]}[0]) == 0 && length($arg) == 0);
if (($a[1] eq "ccconf" || $a[1] eq "ccreg" || $a[1] eq "ccpatable") && $hash->{version} && $hash->{version} !~ m/cc1101/) {
return "This command is only available with a cc1101 receiver";
}
my ($msg, $err);
if ($a[1] eq "availableFirmware") {
if ($missingModulSIGNALduino =~ m/JSON/ )
{
SIGNALduino_Log3 $name, 1, "$name: get $a[1] failed. Pleas install Perl module JSON. Example: sudo apt-get install libjson-perl";
return "$a[1]: \n\nFetching from github is not possible. Please install JSON. Example:<br><code>sudo apt-get install libjson-perl</code>";
}
my $channel=AttrVal($name,"updateChannelFW","stable");
my $hardware=AttrVal($name,"hardware","nano");
SIGNALduino_querygithubreleases($hash);
return "$a[1]: \n\nFetching $channel firmware versions for $hardware from github\n";
}
if (IsDummy($name) && $a[1] ne "protocolIDs")
{
if ($arg =~ /^M[CcSU];.*/)
{
$arg="\002$arg\003"; ## Add start end end marker if not already there
SIGNALduino_Log3 $name, 5, "$name/msg adding start and endmarker to message";
}
if ($arg =~ /\002M.;.*;\003$/)
{
SIGNALduino_Log3 $name, 4, "$name/msg get raw: $arg";
return SIGNALduino_Parse($hash, $hash, $hash->{NAME}, $arg);
}
else {
my $arg2 = "";
if ($arg =~ m/^version=/) { # set version
$arg2 = substr($arg,8);
$hash->{version} = "V " . $arg2;
}
elsif ($arg =~ m/^regexp=/) { # set fileRegexp for get raw messages from file
$arg2 = substr($arg,7);
$hash->{fileRegexp} = $arg2;
delete($hash->{fileRegexp}) if (!$arg2);
}
elsif ($arg =~ m/^file=/) {
$arg2 = substr($arg,5);
my $n = 0;
if (open(my $fh, '<', $arg2)) {
my $fileRegexp = $hash->{fileRegexp};
while (my $row = <$fh>) {
if ($row =~ /.*\002M.;.*;\003$/) {
chomp $row;
$row =~ s/.*\002(M.;.*;)\003/$1/;
if (!defined($fileRegexp) || $row =~ m/$fileRegexp/) {
$n += 1;
$row="\002$row\003";
SIGNALduino_Log3 $name, 4, "$name/msg fileGetRaw: $row";
SIGNALduino_Parse($hash, $hash, $hash->{NAME}, $row);
}
}
}
return $n . " raw Nachrichten eingelesen";
} else {
return "Could not open file $arg2";
}
}
elsif ($arg eq '?') {
my $ret;
$ret = "dummy get raw\n\n";
$ret .= "raw message e.g. MS;P0=-392;P1=...\n";
$ret .= "dispatch message e.g. P7#6290DCF37\n";
$ret .= "version=x.x.x sets version. e.g. (version=3.2.0) to get old MC messages\n";
$ret .= "regexp= set fileRegexp for get raw messages from file. e.g. regexp=^MC\n";
$ret .= "file= gets raw messages from file in the fhem directory\n";
return $ret;
}
else {
SIGNALduino_Log3 $name, 4, "$name/msg get dispatch: $arg";
Dispatch($hash, $arg, undef);
}
return "";
}
}
#return "No $a[1] for dummies" if(IsDummy($name));
SIGNALduino_Log3 $name, 5, "$name: command for gets: " . $gets{$a[1]}[0] . " " . $arg;
if ($a[1] eq "raw")
{
# Dirty hack to check and modify direct communication from logical modules with hardware
if ($arg =~ /^is.*/ && length($arg) == 34)
{
# Arctec protocol
SIGNALduino_Log3 $name, 5, "$name: calling set :sendmsg P17;R6#".substr($arg,2);
SIGNALduino_Set($hash,$name,"sendMsg","P17#",substr($arg,2),"#R6");
return "$a[0] $a[1] => $arg";
}
}
elsif ($a[1] eq "protocolIDs")
{
return SIGNALduino_FW_getProtocolList($name);
#return "$a[1]: \n\n$ret\nIds with modules: $moduleId";
}
#SIGNALduino_SimpleWrite($hash, $gets{$a[1]}[0] . $arg);
SIGNALduino_AddSendQueue($hash, $gets{$a[1]}[0] . $arg);
$hash->{getcmd}->{cmd}=$a[1];
$hash->{getcmd}->{asyncOut}=$hash->{CL};
$hash->{getcmd}->{timenow}=time();
return undef; # We will exit here, and give an output only, if asny output is supported. If this is not supported, only the readings are updated
}
sub SIGNALduino_parseResponse($$$)
{
my $hash = shift;
my $cmd = shift;
my $msg = shift;
my $name=$hash->{NAME};
$msg =~ s/[\r\n]//g;
if($cmd eq "cmds")
{ # nice it up
$msg =~ s/$name cmds =>//g;
$msg =~ s/.*Use one of//g;
}
elsif($cmd eq "uptime")
{ # decode it
#$msg = hex($msg); # /125; only for col or coc
$msg = sprintf("%d %02d:%02d:%02d", $msg/86400, ($msg%86400)/3600, ($msg%3600)/60, $msg%60);
}
elsif($cmd eq "ccregAll")
{
$msg =~ s/ /\n/g;