WebSVN - Projects - Blame - Rev 746 - /MissionCockpit/tags/V0.4.2/mkcomm.pl

Rev	Author	Line No.	Line
746	rain-er	1	#!/usr/bin/perl
		2	#!/usr/bin/perl -d:ptkdb
		3
		4	###############################################################################
		5	#
		6	# mkcomm.pl - MK Communication Routines
		7	#
		8	# Copyright (C) 2009 Rainer Walther (rainerwalther-mail@web.de)
		9	#
		10	# Creative Commons Lizenz mit den Zusaetzen (by, nc, sa)
		11	#
		12	# Es ist Ihnen gestattet:
		13	# * das Werk vervielf�ltigen, verbreiten und �ffentlich zug�nglich machen
		14	# * Abwandlungen bzw. Bearbeitungen des Inhaltes anfertigen
		15	#
		16	# Zu den folgenden Bedingungen:
		17	# * Namensnennung.
		18	# Sie m�ssen den Namen des Autors/Rechteinhabers in der von ihm festgelegten Weise nennen.
		19	# * Keine kommerzielle Nutzung.
		20	# Dieses Werk darf nicht f�r kommerzielle Zwecke verwendet werden.
		21	# * Weitergabe unter gleichen Bedingungen.
		22	# Wenn Sie den lizenzierten Inhalt bearbeiten oder in anderer Weise umgestalten,
		23	# ver�ndern oder als Grundlage f�r einen anderen Inhalt verwenden,
		24	# d�rfen Sie den neu entstandenen Inhalt nur unter Verwendung von Lizenzbedingungen
		25	# weitergeben, die mit denen dieses Lizenzvertrages identisch oder vergleichbar sind.
		26	#
		27	# Im Falle einer Verbreitung m�ssen Sie anderen die Lizenzbedingungen, unter welche dieses
		28	# Werk f�llt, mitteilen. Am Einfachsten ist es, einen Link auf diese Seite einzubinden.
		29	#
		30	# Jede der vorgenannten Bedingungen kann aufgehoben werden, sofern Sie die Einwilligung
		31	# des Rechteinhabers dazu erhalten.
		32	#
		33	# Diese Lizenz l�sst die Urheberpers�nlichkeitsrechte unber�hrt.
		34	#
		35	# Weitere Details zur Lizenzbestimmung gibt es hier:
		36	# Kurzform: http://creativecommons.org/licenses/by-nc-sa/3.0/de/
		37	# Komplett: http://creativecommons.org/licenses/by-nc-sa/3.0/de/legalcode
		38	#
		39	###############################################################################
		40	# 2009-02-21 0.0.1 rw created
		41	# 2009-03-18 0.0.2 rw NC 0.14e
		42	# 2009-04-01 0.1.0 rw RC1
		43	# 2009-04-06 0.1.1 rw NC 0.15c
		44	# 2009-05-16 0.1.2 rw External control
		45	# 2009-08-15 0.1.3 rw SIG-Handler removed
		46	# 2009-10-05 0.1.4 rw COM-Ports > 9 + PortSetSkip configuration
		47	# Export Target-Hash to Simulator
		48	# 2009-10-24 0.3.0 rw NC 0.17b
		49	# 2010-02-10 0.4.0 rw Port read timout reduced from 100ms to 10ms
		50	# Serial Channel
		51	# Extern Control
		52	# Controls via joystick or 3D-Mouse
		53	# Navidata Current, Capacity
		54	# 2010-02-18 0.4.1 rw LCD Stick/Poti^
		55	# 2010-03-07 0.4.2 rw MKFLAG: LOWBAT
		56	#
		57	###############################################################################
		58
		59	$Version{'mkcomm.pl'} = "0.4.2 - 2010-03-07";
		60
		61	# MK Protokoll
		62	# http://www.mikrokopter.de/ucwiki/en/SerialCommands?highlight=(command)
		63	# http://www.mikrokopter.de/ucwiki/en/SerialProtocol?highlight=(protocol)
		64
		65	#
		66	# Parameter
		67	#
		68
		69	# Com Port of MK Comm-Device (BT, WI.232)
		70	if ( ! defined $Cfg->{'mkcomm'}->{'Port'} )
		71	{
		72	# set default
		73	$Cfg->{'mkcomm'}->{'Port'} = "COM5";
		74	}
		75
		76	$AddrFC = "b";
		77	$AddrNC = "c";
		78	$AddrMK3MAG = "d";
		79
		80
		81	if ( $0 =~ /mkcomm.pl$/i )
		82	{
		83	# Program wurde direkt aufgerufen
		84
		85	# change working directory to program path
		86	my $Cwd = substr ($0, 0, rindex ($0, "mkcomm.pl"));
		87	chdir $Cwd;
		88
		89	# set path for local Perl libs
		90	push @INC, $Cwd . "perl/lib";
		91	}
		92
		93
		94	# Packages
		95	use threads; # http://search.cpan.org/~jdhedden/threads-1.72/threads.pm
		96	# http://perldoc.perl.org/threads.html
		97	use threads::shared; # http://search.cpan.org/~jdhedden/threads-shared-1.28/shared.pm
		98	use Thread::Queue; # http://search.cpan.org/dist/Thread-Queue-2.11/lib/Thread/Queue.pm
		99	use Time::HiRes qw(usleep); # http://search.cpan.org/~jhi/Time-HiRes-1.9719/HiRes.pm
		100	if ( $^O =~ /Win32/i )
		101	{
		102	require Win32::SerialPort; # http://search.cpan.org/dist/Win32-SerialPort
		103	}
		104	else
		105	{
		106	require Device::SerialPort; # http://search.cpan.org/~cook/Device-SerialPort-1.04/SerialPort.pm
		107	}
		108
		109	require "libmap.pl";
		110
		111	# Hashes exported to other threads and main-program
		112	share (%MkOsd);
		113	share (%MkTarget);
		114	share (%MkNcDebug);
		115	share (%Mk);
		116	share (%MkSSim); # Target info for simulator
		117	share (%MkSerialChannel);
		118
		119
		120	$Mk{'_RxCrcError'} = 0; # statistics
		121
		122	# Queue for Sending to MK
		123	$MkSendQueue = Thread::Queue->new();
		124
		125	sub MkCommExit()
		126	{
		127	# close COM port
		128	&MkClose();
		129
		130	if ( defined threads->self() )
		131	{
		132	threads->exit();
		133	}
		134	exit;
		135	}
		136
		137
		138	sub MkInit()
		139	{
		140	if ( defined $MkPort )
		141	{
		142	return; # already open
		143	}
		144
		145	# open COM-Port
		146	my $MkComPort = $Cfg->{'mkcomm'}->{'Port'};
		147	if ( $MkComPort =~ /^COM/i )
		148	{
		149	$MkComPort = "\\\\.\\" . $MkComPort; # \\.\COMnn for nn > 9
		150	}
		151	undef $MkPort;
		152	if ( $^O =~ m/Win32/ )
		153	{
		154	$MkPort = Win32::SerialPort->new ($MkComPort) \|\| die "Error open $MkComPort\n";
		155	}
		156	else
		157	{
		158	$MkPort = Device::SerialPort->new ($MkComPort) \|\| die "Error open $MkComPort\n";
		159	}
		160
		161	if ( ! ($Cfg->{'mkcomm'}->{'PortSetSkip'} =~ /y/i) )
		162	{
		163	# Set COM parameters, don't set for Bluetooth device
		164	$MkPort->baudrate(57600);
		165	$MkPort->parity("none");
		166	$MkPort->databits(8);
		167	$MkPort->stopbits(1);
		168	$MkPort->handshake('none');
		169	$MkPort->write_settings;
		170	}
		171
		172	$MkPort->read_const_time(10); # total = (avg * bytes) + const (ms)
		173	}
		174
		175	# Read one line from MK
		176	# Check send-queue
		177	sub MkIOLine()
		178	{
		179	# Init serial port
		180	&MkInit();
		181
		182	my $RxLine = "";
		183	while ( 1 )
		184	{
		185	# Check Send-Queue
		186	my $Items = $MkSendQueue->pending();
		187	if ( $Items >= 3 ) # Cmd, Addr, Data
		188	{
		189	my ($Id, $Addr, $Data) = $MkSendQueue->dequeue(3);
		190	&MkSend ($Id, $Addr, $Data);
		191	}
		192
		193	# Zeichenweise lesen, blockierend mit Timeout
		194	my ($RxLen, $RxChar) = $MkPort->read(1);
		195	if ( $RxLen == 1 )
		196	{
		197	$Mk{'_BytesRx'} ++; # Statistics
		198
		199	if ( "$RxChar" eq "#" ) # 1st char of line
		200	{
		201	$RxLine = "#";
		202	}
		203	elsif ( "$RxChar" eq "\r" ) # last char of line
		204	{
		205	return ($RxLine);
		206	}
		207	else
		208	{
		209	$RxLine = "$RxLine" . "$RxChar"; # collect char
		210	}
		211	}
		212	}
		213	}
		214
		215
		216	# Read and decode a command from MK
		217	# process send queue in &MkIOLine()
		218	sub MkIO()
		219	{
		220	my $RxData = &MkIOLine(); # Blocking Read for complete line
		221
		222	# Zeile decodieren
		223	if ( substr ($RxData, 0, 1) eq '#' )
		224	{
		225	# Zeile decodieren
		226	$Header = substr($RxData, 0, 3);
		227	$Chksum = substr($RxData, -2);
		228	$Data = substr($RxData, 3, length ($RxData) -5);
		229
		230	# print "$Header\n";
		231
		232	# CRC pr�fen
		233	if ( &CrcCheck ("$Header" . "$Data", $Chksum ) )
		234	{
		235	# Base64 decodieren
		236	$Data = &Decode64($Data);
		237
		238	# Daten auswerten und in shared Hash schreiben
		239	if ( &ProcessRx($Header, $Data) )
		240	{
		241	return 1; # alles OK
		242	}
		243	}
		244	else
		245	{
		246	$Mk{'_RxCrcError'} ++; # Statistics
		247	}
		248	}
		249
		250	return 0; # keine Daten empfangen
		251	}
		252
		253
		254	# Send a command to MK
		255	sub MkSend()
		256	{
		257	my ($Id, $Addr, $Data) = @_;
		258
		259	# Init serial port
		260	&MkInit();
		261
		262	my $Base64Data = &Encode64($Data);
		263
		264	my $TxData = "#" . "$Addr" . "$Id" . "$Base64Data";
		265	my $Crc = &Crc($TxData);
		266	my $TxSend = "$TxData" . "$Crc" . "\r";
		267
		268	$Mk{'_BytesTx'} += length $TxSend; # Statistics
		269
		270	$MkPort->write($TxSend);
		271	}
		272
		273
		274	# close COM-Port
		275	sub MkClose()
		276	{
		277	undef $MkPort;
		278	}
		279
		280
		281	# CRC Pr�fung
		282	sub CrcCheck ()
		283	{
		284	my ($Data, $Crc) = @_;
		285
		286	my $Check = &Crc($Data);
		287	if ( $Check ne $Crc )
		288	{
		289	return 0; # CRC passt nicht
		290	}
		291	return (1); # CRC OK
		292	}
		293
		294
		295	# CRC berechnen
		296	sub Crc ()
		297	{
		298	my ($Data) = @_;
		299	my $TmpCrc = 0;
		300	my $Len = length $Data;
		301
		302	for ($i=0; $i<$Len; $i++)
		303	{
		304	$TmpCrc += ord(substr($Data, $i, 1));
		305	}
		306
		307	$TmpCrc %= 4096;
		308	my $Crc1 = ord ("=") + $TmpCrc / 64;
		309	my $Crc2 = ord ("=") + $TmpCrc % 64;
		310	$Crc = pack("CC", $Crc1, $Crc2);
		311
		312	return ($Crc);
		313	}
		314
		315
		316	# Empfangene Daten decodieren, modifiziertes Base64
		317	sub Decode64()
		318	{
		319	my ($DataIn) = @_;
		320
		321	my $ptrIn = 0;
		322	my $DataOut = "";
		323	my $len = length ($DataIn);
		324
		325	while ( $len > 0 )
		326	{
		327	$a = ord (substr ($DataIn, $ptrIn ++, 1)) - ord ("=");
		328	$b = ord (substr ($DataIn, $ptrIn ++, 1)) - ord ("=");
		329	$c = ord (substr ($DataIn, $ptrIn ++, 1)) - ord ("=");
		330	$d = ord (substr ($DataIn, $ptrIn ++, 1)) - ord ("=");
		331
		332	$x = ($a << 2) \| ($b >> 4);
		333	$y = (($b & 0x0f) << 4) \| ($c >> 2);
		334	$z = (($c & 0x03) << 6) \| $d;
		335
		336	foreach $i ( $x, $y, $z )
		337	{
		338	if ( $len--)
		339	{
		340	my $Tmp = pack ('C1', $i);
		341	$DataOut = "$DataOut" . "$Tmp";
		342	}
		343	else
		344	{
		345	last;
		346	}
		347	}
		348	}
		349
		350	return ($DataOut);
		351	}
		352
		353
		354	# zu sendende Daten codieren, modifiziertes Base64
		355	sub Encode64()
		356	{
		357	my ($Data) = @_;
		358
		359	my $Length = length $Data;
		360	my $TxBuf = "";
		361	my $ptr = 0;
		362
		363	while( $Length > 0 )
		364	{
		365	my $a = 0;
		366	my $b = 0;
		367	my $c = 0;
		368	if ($Length) {$a = ord(substr ($Data, $ptr++, $Length--));}
		369	if ($Length) {$b = ord(substr ($Data, $ptr++, $Length--));}
		370	if ($Length) {$c = ord(substr ($Data, $ptr++, $Length--));}
		371
		372	my $ac = ord("=") + ($a >> 2);
		373	my $bc = ord("=") + ( (($a & 0x03) << 4) \| (($b & 0xf0) >> 4) );
		374	my $cc = ord("=") + ( (($b & 0x0f) << 2) \| (($c & 0xc0) >> 6) );
		375	my $dc = ord("=") + ($c & 0x3f);
		376	$TxBuf = "$TxBuf" . pack ("C4", $ac, $bc, $cc, $dc);
		377	}
		378	return ($TxBuf);
		379	}
		380
		381
		382	# Empfangenen Datensatz verarbeiten
		383	sub ProcessRx()
		384	{
		385	my ($Header, $Data) = @_;
		386
		387	my $Adr = substr ($Header, 1, 1); # b=FC, c=NC, d=MK3MAG
		388	my $Id = substr ($Header, 2, 1);
		389
		390	if ( $Id eq "O" )
		391	{
		392	#
		393	# OSD-Daten nach %MkOsd einlesen
		394	#
		395
		396	# Struktur Datensatz:
		397	# u8 Version // version of the data structure
		398	# GPS_Pos_t CurrentPosition;
		399	# GPS_Pos_t TargetPosition;
		400	# GPS_PosDev_t TargetPositionDeviation;
		401	# GPS_Pos_t HomePosition;
		402	# GPS_PosDev_t HomePositionDeviation;
		403	# u8 WaypointIndex; // index of current waypoints running from 0 to WaypointNumber-1
		404	# u8 WaypointNumber; // number of stored waypoints
		405	# u8 SatsInUse; // no of satellites used for position solution
		406	# s16 Altimeter; // hight according to air pressure
		407	# s16 Variometer; // climb(+) and sink(-) rate
		408	# u16 FlyingTime; // in seconds
		409	# u8 UBat; // Battery Voltage in 0.1 Volts
		410	# u16 GroundSpeed; // speed over ground in cm/s (2D)
		411	# s16 Heading; // current flight direction in deg as angle to north
		412	# s16 CompassHeading; // current compass value
		413	# s8 AngleNick; // current Nick angle in 1�
		414	# s8 AngleRoll; // current Rick angle in 1�
		415	# u8 RC_Quality; // RC_Quality
		416	# u8 MKFlags; // Flags from FC
		417	# u8 NCFlags; // Flags from NC
		418	# u8 Errorcode; // 0 --> okay
		419	# u8 OperatingRadius // current operation radius around the Home Position in m
		420	# s16 TopSpeed; // velocity in vertical direction in cm/s
		421	# u8 TargetHoldTime; // time in s to stay at the given target, counts down to 0 if target has been reached
		422	# u8 RC_RSSI; // Receiver signal strength (since version 2 added)
		423	# s16 SetpointAltitude; // setpoint for altitude
		424	# u8 Gas; // for future use
		425	# u16 Current; // actual current in 0.1A steps
		426	# u16 UsedCapacity; // used capacity in mAh
		427
		428
		429	# GPS_Pos_t:
		430	# s32 Longitude; // in 1E-7 deg
		431	# s32 Latitude; // in 1E-7 deg
		432	# s32 Altitude; // in mm
		433	# u8 Status; // validity of data
		434
		435	# GPS_PosDev_t:
		436	# s16 Distance; // distance to target in dm
		437	# s16 Bearing; // course to target in deg
		438
		439	# Status:
		440	# INVALID = 0
		441	# NEWDATA = 1
		442	# PROCESSED = 2
		443
		444	# MKFlags 0x01: MOTOR_RUN, 0x02 FLY, 0x04: CALIBRATE, 0x08: START, 0x10: EMERGENCY_LANDING
		445	# 0x20: LOWBAT, 0x40: SPI_RX_ERR
		446	# NCFlags 0x01: FLAG_FREE, 0x02: FLAG_PH, 0x04: FLAG_CH, 0x08: FLAG_RANGE_LIMIT
		447	# 0x10: FLAG_NOSERIALLINK, 0x20: FLAG_TARGET_REACHED, FLAG_MANUAL_CONTROL: 0x40
		448	# 0x80: FLAG_8
		449
		450	lock (%MkOsd); # until end of Block
		451
		452	(
		453	$MkOsd{'Version'},
		454	$MkOsd{'CurPos_Lon'},
		455	$MkOsd{'CurPos_Lat'},
		456	$MkOsd{'CurPos_Alt'},
		457	$MkOsd{'CurPos_Stat'},
		458	$MkOsd{'TargetPos_Lon'},
		459	$MkOsd{'TargetPos_Lat'},
		460	$MkOsd{'TargetPos_Alt'},
		461	$MkOsd{'TargetPos_Stat'},
		462	$MkOsd{'TargetPosDev_Dist'},
		463	$MkOsd{'TargetPosDev_Bearing'},
		464	$MkOsd{'HomePos_Lon'},
		465	$MkOsd{'HomePos_Lat'},
		466	$MkOsd{'HomePos_Alt'},
		467	$MkOsd{'HomePos_Stat'},
		468	$MkOsd{'HomePosDev_Dist'},
		469	$MkOsd{'HomePosDev_Bearing'},
		470	$MkOsd{'WaypointIndex'},
		471	$MkOsd{'WaypointNumber'},
		472	$MkOsd{'SatsInUse'},
		473	$MkOsd{'Altimeter'},
		474	$MkOsd{'Variometer'},
		475	$MkOsd{'FlyingTime'},
		476	$MkOsd{'UBat'},
		477	$MkOsd{'GroundSpeed'},
		478	$MkOsd{'Heading'},
		479	$MkOsd{'CompassHeading'},
		480	$MkOsd{'AngleNick'},
		481	$MkOsd{'AngleRoll'},
		482	$MkOsd{'RC_Quality'},
		483	$MkOsd{'MKFlags'},
		484	$MkOsd{'NCFlags'},
		485	$MkOsd{'Errorcode'},
		486	$MkOsd{'OperatingRadius'},
		487	$MkOsd{'TopSpeed'},
		488	$MkOsd{'TargetHoldTime'},
		489	$MkOsd{'RC_RSSI'},
		490	$MkOsd{'SetPointAltitude'},
		491	$MkOsd{'Gas'},
		492	$MkOsd{'Current'},
		493	$MkOsd{'UsedCapacity'},
		494	) = unpack ('ClllClllCsslllCssCCCssSCSssccCCCCCsCCsCSS', $Data);
		495
		496	$MkOsd{'CurPos_Lon'} = sprintf("%.7f", $MkOsd{'CurPos_Lon'} / 10000000);
		497	$MkOsd{'CurPos_Lat'} = sprintf("%.7f", $MkOsd{'CurPos_Lat'} / 10000000);
		498	$MkOsd{'CurPos_Alt'} = sprintf("%.3f", $MkOsd{'CurPos_Alt'} / 1000);
		499	$MkOsd{'TargetPos_Lon'} = sprintf("%.7f", $MkOsd{'TargetPos_Lon'} / 10000000);
		500	$MkOsd{'TargetPos_Lat'} = sprintf("%.7f", $MkOsd{'TargetPos_Lat'} / 10000000);
		501	$MkOsd{'TargetPos_Alt'} = sprintf("%.3f", $MkOsd{'TargetPos_Alt'} / 1000);
		502	$MkOsd{'HomePos_Lon'} = sprintf("%.7f", $MkOsd{'HomePos_Lon'} / 10000000);
		503	$MkOsd{'HomePos_Lat'} = sprintf("%.7f", $MkOsd{'HomePos_Lat'} / 10000000);
		504	$MkOsd{'HomePos_Alt'} = sprintf("%.3f", $MkOsd{'HomePos_Alt'} / 1000);
		505	$MkOsd{'UBat'} = sprintf("%.1f", $MkOsd{'UBat'} / 10);
		506	$MkOsd{'Current'} = sprintf("%.1f", $MkOsd{'Current'} / 10);
		507
		508	# Timestamp, wann der Datensatz geschtieben wurde
		509	$MkOsd{'_Timestamp'} = time;
		510	$MkOsd{'_FrameCount'} ++;
		511	}
		512
		513	elsif ( $Id eq "s" )
		514	{
		515	#
		516	# NC Target position in %MkTarget
		517	#
		518	# Datenstruktur:
		519	# GPS_Pos_t Position; // the gps position of the waypoint, see ubx.h for details
		520	# s16 Heading; // orientation, future implementation
		521	# u8 ToleranceRadius; // in meters, if the MK is within that range around the target, then the next target is
		522	# u8 HoldTime; // in seconds, if the MK was once in the tolerance area around a WP,
		523	# // this time defines the delay before the next WP is triggered
		524	# u8 Event_Flag; // future emplementation
		525	# u8 reserve[12]; // reserved
		526
		527	lock (%MkTarget); # until end of block
		528
		529	(
		530	$MkTarget{'Pos_Lon'},
		531	$MkTarget{'Pos_Lat'},
		532	$MkTarget{'Pos_Alt'},
		533	$MkTarget{'Pos_Stat'},
		534	$MkTarget{'Heading'},
		535	$MkTarget{'ToleranceRadius'},
		536	$MkTarget{'HoldTime'},
		537	$MkTarget{'EventFlag'},
		538	) = unpack ('lllCsCCC', $Data);
		539
		540	$MkTarget{'Pos_Lon'} = sprintf("%.7f", $MkTarget{'Pos_Lon'} / 10000000);
		541	$MkTarget{'Pos_Lat'} = sprintf("%.7f", $MkTarget{'Pos_Lat'} / 10000000);
		542	$MkTarget{'Pos_Alt'} = sprintf("%.3f", $MkTarget{'Pos_Alt'} / 1000);
		543
		544	# Timestamp, wann der Datensatz geschrieben wurde
		545	$MkTarget{'_Timestamp'} = time;
		546	$MkTarget{'_FrameCount'} ++;
		547	}
		548
		549	elsif ( $Id eq "W" )
		550	{
		551	#
		552	# Request new waypoint
		553	#
		554	# Datenstruktur:
		555	# u8 Number of waypoint
		556
		557	($WpNumber) = unpack ('C', $Data);
		558
		559	# keine Ahnung wofuer das gut sein soll
		560
		561	# print "Request new Waypoint Number: $WpNumber\n";
		562
		563	}
		564
		565	elsif ( $Id eq "V" )
		566	{
		567	#
		568	# Version
		569	#
		570	# Datenstruktur:
		571	# u8 SWMajor
		572	# u8 SWMinor
		573	# u8 ProtoMajor
		574	# u8 ProtoMinor
		575	# u8 SWPatch
		576	# u8 Reserved[5]
		577
		578	(
		579	$Mk{'SWMajor'},
		580	$Mk{'SWMinor'},
		581	$Mk{'ProtoMajor'},
		582	$Mk{'ProtoMinor'},
		583	$Mk{'SWPatch'},
		584	) = unpack ('C5', $Data);
		585
		586	$Mk{'_Timestamp'} = time;
		587	$Mk{'_FrameCount'} ++;
		588	}
		589
		590	elsif ( $Id eq "E" )
		591	{
		592	#
		593	# Error Text
		594	#
		595	# Datenstruktur:
		596	# s8 ErrorMsg[25]
		597
		598	$Mk{'ErrorMsg'} = unpack ('Z25', $Data);
		599	}
		600
		601	elsif ( $Id eq "D" )
		602	{
		603	#
		604	# NC Debug %MkNcDebug
		605	#
		606	# Datenstruktur:
		607	# u8 Digital[2];
		608	# u16 Analog[32];
		609
		610	lock (%MkNcDebug); # until end of block
		611
		612	(
		613	$MkNcDebug{'Digital_00'},
		614	$MkNcDebug{'Digital_01'},
		615	$MkNcDebug{'Analog_00'},
		616	$MkNcDebug{'Analog_01'},
		617	$MkNcDebug{'Analog_02'},
		618	$MkNcDebug{'Analog_03'},
		619	$MkNcDebug{'Analog_04'},
		620	$MkNcDebug{'Analog_05'},
		621	$MkNcDebug{'Analog_06'},
		622	$MkNcDebug{'Analog_07'},
		623	$MkNcDebug{'Analog_08'},
		624	$MkNcDebug{'Analog_09'},
		625	$MkNcDebug{'Analog_10'},
		626	$MkNcDebug{'Analog_11'},
		627	$MkNcDebug{'Analog_12'},
		628	$MkNcDebug{'Analog_13'},
		629	$MkNcDebug{'Analog_14'},
		630	$MkNcDebug{'Analog_15'},
		631	$MkNcDebug{'Analog_16'},
		632	$MkNcDebug{'Analog_17'},
		633	$MkNcDebug{'Analog_18'},
		634	$MkNcDebug{'Analog_19'},
		635	$MkNcDebug{'Analog_20'},
		636	$MkNcDebug{'Analog_21'},
		637	$MkNcDebug{'Analog_22'},
		638	$MkNcDebug{'Analog_23'},
		639	$MkNcDebug{'Analog_24'},
		640	$MkNcDebug{'Analog_25'},
		641	$MkNcDebug{'Analog_26'},
		642	$MkNcDebug{'Analog_27'},
		643	$MkNcDebug{'Analog_28'},
		644	$MkNcDebug{'Analog_29'},
		645	$MkNcDebug{'Analog_30'},
		646	$MkNcDebug{'Analog_31'},
		647	) = unpack ('C2s32', $Data);
		648
		649	# Timestamp, wann der Datensatz geschrieben wurde
		650	$MkNcDebug{'_Timestamp'} = time;
		651	$MkNcDebug{'_FrameCount'} ++;
		652	}
		653
		654	elsif ( $Id eq "B" )
		655	{
		656	#
		657	# External Control
		658	#
		659	# Datenstruktur:
		660	# u8 ConfirmFrame;
		661
		662	my ($ConfirmFrame) = unpack ('C5', $Data);
		663
		664	}
		665	elsif ( $Id eq "L" )
		666	{
		667	#
		668	# LCD Screen
		669	#
		670	# Datenstruktur:
		671	# u8 Menuitem
		672	# u8 MaxMenuItem
		673	# char[80] Display Text
		674
		675	my ($MenuItem, $MaxMenuItem, $LcdLine) = unpack ('CCA80', $Data);
		676	if ( $LcdLine =~ /Po1:\s(\d+)\sPo2:\s(\d+)\sPo3:\s(\d+)\sPo4:\s*(\d+)/i )
		677	{
		678	$Stick{'RcPoti1'} = $1;
		679	$Stick{'RcPoti2'} = $2;
		680	$Stick{'RcPoti3'} = $3;
		681	$Stick{'RcPoti4'} = $4;
		682	}
		683	elsif ( $LcdLine =~ /Po5:\s(\d+)\sPo6:\s(\d+)\sPo7:\s(\d+)\sPo8:\s*(\d+)/i )
		684	{
		685	$Stick{'RcPoti5'} = $1;
		686	$Stick{'RcPoti6'} = $2;
		687	$Stick{'RcPoti7'} = $3;
		688	$Stick{'RcPoti8'} = $4;
		689	}
		690	elsif ( $LcdLine =~ /Ni:\s(-\d+)\sRo:\s(-\d+)\sGs:\s(-\d+)\sYa:\s(-*\d+)/i )
		691	{
		692	$Stick{'RcStickNick'} = $1;
		693	$Stick{'RcStickRoll'} = $2;
		694	$Stick{'RcStickGas'} = $3;
		695	$Stick{'RcStickGier'} = $4;
		696	}
		697	$Stick{'_RcTimestamp'} = time;
		698	$Stick{'_RcFrameCount'} ++;
		699	}
		700	else
		701	{
		702	print "Unknown Command: $Header $Data\n";
		703	}
		704	}
		705
		706
		707	# send Target or Waypoint to MK
		708	sub MkFlyTo()
		709	{
		710	my %Param = @_;
		711
		712	my $x = $Param{'-x'};
		713	my $y = $Param{'-y'};
		714	my $Lat = $Param{'-lat'};
		715	my $Lon = $Param{'-lon'};
		716	my $Alt = $Param{'-alt'};
		717	my $Heading = $Param{'-heading'};
		718	my $ToleranceRadius = $Param{'-toleranceradius'};
		719	my $Holdtime = $Param{'-holdtime'};
		720	my $EventFlag = $Param{'-eventflag'};
		721	my $Mode = $Param{'-mode'};
		722	my $Index = $Param{'-index'}; # 1..n
		723
		724	if ( $x ne "" and $y ne "" and $Lat eq "" and $Lon eq "" )
		725	{
		726	($Lat, $Lon) = &MapXY2Gps($x, $y);
		727	}
		728
		729	if ( $Alt eq "" ) { $Alt = $MkOsd{'CurPos_Alt'}; }
		730	if ( $Heading eq "" ) { $Heading = $Cfg->{'waypoint'}->{'DefaultHeading'}; }
		731	if ( $ToleranceRadius eq "" ) { $ToleranceRadius = $Cfg->{'waypoint'}->{'DefaultToleranceRadius'}; }
		732	if ( $Holdtime eq "" ) { $Holdtime = $Cfg->{'waypoint'}->{'DefaultHoldtime'}; }
		733	if ( $EventFlag eq "" ) { $EventFlag = $Cfg->{'waypoint'}->{'DefaultEventFlag'}; }
		734
		735	my $Status = 1; # valid
		736	if ( $Mode =~ /delete/i )
		737	{
		738	$Status = 0; # invalid -> delete NC WP-List
		739	}
		740
		741	my $Lat_i = sprintf "%d", $Lat * 10000000;
		742	my $Lon_i = sprintf "%d", $Lon * 10000000;
		743	my $Alt_i = sprintf "%d", $Alt * 1000;
		744
		745	# Datenstruktur:
		746	# GPS_Pos_t Position; // the gps position of the waypoint, see ubx.h for details
		747	# s16 Heading; // orientation, future implementation
		748	# u8 ToleranceRadius; // in meters, if the MK is within that range around the target, then the next target is
		749	# u8 HoldTime; // in seconds, if the MK was once in the tolerance area around a WP,
		750	# // this time defines the delay before the next WP is triggered
		751	# u8 Event_Flag; // future emplementation
		752	# u8 Index; // to indentify different waypoints, workaround for bad communications PC <-> NC
		753	# u8 reserve[11]; // reserved
		754
		755	my $Wp = pack ('lllCsC15',
		756	$Lon_i,
		757	$Lat_i,
		758	$Alt_i,
		759	$Status,
		760	$Heading,
		761	$ToleranceRadius,
		762	$Holdtime,
		763	$EventFlag,
		764	$Index + 1,
		765	0,0,0,0,0,0,0,0,0,0,0,
		766	);
		767
		768	if ( $Mode =~ /waypoint/i )
		769	{
		770	$MkSendQueue->enqueue( "w", "$AddrNC", $Wp );
		771	# &MkSend( "w", "$AddrNC", $Wp );
		772	}
		773	elsif ( $Mode =~ /target/i )
		774	{
		775	$MkSendQueue->enqueue( "s", "$AddrNC", $Wp );
		776	# &MkSend( "s", "$AddrNC", $Wp );
		777
		778	# set Target information for Simulator
		779	$MkSim{'Target_Lat'} = $Lat;
		780	$MkSim{'Target_Lon'} = $Lon;
		781	$MkSim{'Target_Alt'} = $Alt;
		782	$MkSim{'Target_Status'} = $Status;
		783	$MkSim{'Target_Heading'} = $Heading;
		784	$MkSim{'Target_ToleranceRadius'} = $ToleranceRadius;
		785	$MkSim{'Target_Holdtime'} = $Holdtime;
		786	$MkSim{'Target_EventFlag'} = $EventFlag;
		787
		788	# Timestamp, wann der Datensatz geschtieben wurde
		789	$MkSim{'_Timestamp'} = time;
		790	}
		791	else
		792	{
		793	# ignore
		794	}
		795
		796	return 0;
		797	}
		798
		799
		800	# send External control to MK
		801	sub SendExternalControl()
		802	{
		803	my %Param = @_;
		804
		805	my $RemoteButtons = $Param{'-remotebuttons'};
		806	my $Nick = $Param{'-nick'};
		807	my $Roll = $Param{'-roll'};
		808	my $Gier = $Param{'-gier'};
		809	my $Gas = $Param{'-gas'};
		810	my $Hight = $Param{'-hight'};
		811	my $Free = $Param{'-free'};
		812	my $Frame = $Param{'-frame'};
		813	my $Config = $Param{'-config'};
		814
		815	# Datenstruktur:
		816	# u8 Digital[2];
		817	# u8 RemoteButtons;
		818	# s8 Nick;
		819	# s8 Roll;
		820	# s8 Yaw;
		821	# u8 Gas;
		822	# s8 Height;
		823	# u8 free;
		824	# u8 Frame;
		825	# u8 Config;
		826
		827	# Config/Bit 0 and FC-Parameter ExternControl > 128:
		828	# Nich/Roll/Yaw added to RC-Channel
		829	# Gas wird auf max. RC-Gas begrenzt
		830
		831	my $Ec = pack ('CCCcccCcCCC',
		832	0, 0,
		833	$RemoteButtons,
		834	$Nick,
		835	$Roll,
		836	$Gier,
		837	$Gas,
		838	$Hight,
		839	$Free,
		840	$Frame, # Frame/Command counter, ungleich 0
		841	$Config,
		842	);
		843
		844	$MkSendQueue->enqueue( "b", "$AddrFC", $Ec );
		845	# &MkSend( "b", "$AddrFC", $Ec );
		846
		847	return 0;
		848	}
		849
		850
		851	# send serial Channel values from %MkSerialChannel to MK/FC
		852	sub SendSerialChannel()
		853	{
		854
		855	# Datenstruktur:
		856	# s8 Channel[12];
		857
		858	lock (%MkSerialChannel); # until end of block
		859
		860	my $SP = pack ('c12',
		861	$MkSerialChannel{'SerialChannel01'},
		862	$MkSerialChannel{'SerialChannel02'},
		863	$MkSerialChannel{'SerialChannel03'},
		864	$MkSerialChannel{'SerialChannel04'},
		865	$MkSerialChannel{'SerialChannel05'},
		866	$MkSerialChannel{'SerialChannel06'},
		867	$MkSerialChannel{'SerialChannel07'},
		868	$MkSerialChannel{'SerialChannel08'},
		869	$MkSerialChannel{'SerialChannel09'},
		870	$MkSerialChannel{'SerialChannel10'},
		871	$MkSerialChannel{'SerialChannel11'},
		872	$MkSerialChannel{'SerialChannel12'},
		873	);
		874
		875	$MkSendQueue->enqueue( "y", "$AddrFC", $SP );
		876	# &MkSend( "y", "$AddrFC", $SP );
		877
		878	return 0;
		879	}
		880
		881
		882	# when called as thread
		883	sub MkCommLoop()
		884	{
		885	while (1)
		886	{
		887	&MkIO();
		888	}
		889	}
		890
		891
		892	#
		893	# Hauptprgramm
		894	#
		895
		896	if ( $0 =~ /mkcomm.pl$/i )
		897	{
		898	# Program wurde direkt aufgerufen
		899	&MkCommLoop();
		900
		901	# should never exit
		902	}
		903
		904	1;
		905
		906	__END__
		907

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