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source: src/mlx/pyuipc_sim.py@ 1077:e230d26ca700

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Last change on this file since 1077:e230d26ca700 was 1077:e230d26ca700, checked in by István Váradi <ivaradi@…>, 14 months ago
Constants and basic support for MSFS 2020 (re #364).
File size: 72.5 KB

Line
1
2	from . import const
3
4	import cmd
5	import threading
6	import socket
7	import time
8	import calendar
9	import sys
10	import struct
11	import pickle
12	import math
13
14	#------------------------------------------------------------------------------
15
16	## @package mlx.pyuipc_sim
17	#
18	# Simulator of the PyUIPC module.
19	#
20	# This is a simulation of the PyUIPC module emulating offsets that are needed
21	# by the logger.
22	#
23	# This module can also be run as a program, in which case it connects to an
24	# already running logger (that uses this module in place of the real pyuipc),
25	# and various commands can be given to query or modify the values of the
26	# offsets. There is a 'help' command and completion also works.
27	#
28	# This module is used instead of the real PyUIPC module, if the program is not
29	# running on Windows or the FORCE_PYUIPC_SIM environment variable is present.
30
31	#------------------------------------------------------------------------------
32	#------------------------------------------------------------------------------
33
34	## Version constants
35	SIM_ANY=0
36	SIM_FS98=1
37	SIM_FS2K=2
38	SIM_CFS2=3
39	SIM_CFS1=4
40	SIM_FLY=5
41	SIM_FS2K2=6
42	SIM_FS2K4=7
43	SIM_FSX=8
44	SIM_P3D=10
45	SIM_FSX64=11
46	SIM_P3D64=12
47	SIM_FS2020=13
48
49	#------------------------------------------------------------------------------
50
51	## Error constants
52	ERR_OK=0
53	ERR_OPEN=1
54	ERR_NOFS=2
55	ERR_REGMSG=3
56	ERR_ATOM=4
57	ERR_MAP=5
58	ERR_VIEW=6
59	ERR_VERSION=7
60	ERR_WRONGFS=8
61	ERR_NOTOPEN=9
62	ERR_NODATA=10
63	ERR_TIMEOUT=11
64	ERR_SENDMSG=12
65	ERR_DATA=13
66	ERR_RUNNING=14
67	ERR_SIZE=15
68
69	#------------------------------------------------------------------------------
70
71	## The version of FSUIPC
72	fsuipc_version=0x0401
73	lib_version=0x0302
74	fs_version=SIM_FS2K4
75
76	#------------------------------------------------------------------------------
77
78	class FSUIPCException(Exception):
79	"""FSUIPC exception class.
80
81	It contains a member variable named errorCode. The string is a text
82	describing the error."""
83
84	errors=["OK",
85	"Attempt to Open when already Open",
86	"Cannot link to FSUIPC or WideClient",
87	"Failed to Register common message with Windows",
88	"Failed to create Atom for mapping filename",
89	"Failed to create a file mapping object",
90	"Failed to open a view to the file map",
91	"Incorrect version of FSUIPC, or not FSUIPC",
92	"Sim is not version requested",
93	"Call cannot execute, link not Open",
94	"Call cannot execute: no requests accumulated",
95	"IPC timed out all retries",
96	"IPC sendmessage failed all retries",
97	"IPC request contains bad data",
98	"Maybe running on WideClient, but FS not running on Server, or wrong FSUIPC",
99	"Read or Write request cannot be added, memory for Process is full"]
100
101	def __init__(self, errorCode):
102	"""
103	Construct the exception
104	"""
105	if errorCode<len(self.errors):
106	self.errorString = self.errors[errorCode]
107	else:
108	self.errorString = "Unknown error"
109	Exception.__init__(self, self.errorString)
110	self.errorCode = errorCode
111
112	def __str__(self):
113	"""
114	Convert the excption to string
115	"""
116	return "FSUIPC error: %d (%s)" % (self.errorCode, self.errorString)
117
118	#------------------------------------------------------------------------------
119
120	class Values(object):
121	"""The values that can be read from 'FSUIPC'."""
122	## Fuel data index: centre tank
123	FUEL_CENTRE = 0
124
125	## Fuel data index: left main tank
126	FUEL_LEFT = 1
127
128	## Fuel data index: right main tank
129	FUEL_RIGHT = 2
130
131	## Fuel data index: left aux tank
132	FUEL_LEFT_AUX = 3
133
134	## Fuel data index: right aux tank
135	FUEL_RIGHT_AUX = 4
136
137	## Fuel data index: left tip tank
138	FUEL_LEFT_TIP = 5
139
140	## Fuel data index: right tip tank
141	FUEL_RIGHT_TIP = 6
142
143	## Fuel data index: external 1 tank
144	FUEL_EXTERNAL_1 = 7
145
146	## Fuel data index: external 2 tank
147	FUEL_EXTERNAL_2 = 8
148
149	## Fuel data index: centre 2 tank
150	FUEL_CENTRE_2 = 9
151
152	## The number of fuel tank entries
153	NUM_FUEL = FUEL_CENTRE_2 + 1
154
155	## Engine index: engine #1
156	ENGINE_1 = 0
157
158	## Engine index: engine #2
159	ENGINE_2 = 1
160
161	## Engine index: engine #3
162	ENGINE_3 = 2
163
164	## Engine index: engine #4
165	ENGINE_4 = 3
166
167	## The number of hotkey entries
168	HOTKEY_SIZE = 56
169
170	@staticmethod
171	def _readFrequency(frequency):
172	"""Convert the given frequency into BCD."""
173	return Values._readBCD(int(frequency*100.0))
174
175	@staticmethod
176	def _readADFFrequency(frequency):
177	"""Convert the given frequency into a tuple of ADF BCD frequency
178	components."""
179	mainFrequency = Values._readBCD(int(math.floor(frequency))%1000)
180	extFrequency = (int(frequency/1000.0)256) + (int(frequency10.0)%10)
181
182	return [mainFrequency, extFrequency]
183
184	@staticmethod
185	def _readBCD(value):
186	"""Convert the given value into BCD format."""
187	bcd = (value//1000) % 10
188	bcd <<= 4
189	bcd \|= (value//100) % 10
190	bcd <<= 4
191	bcd \|= (value//10) % 10
192	bcd <<= 4
193	bcd \|= value % 10
194	return bcd
195
196	@staticmethod
197	def _writeFrequency(value):
198	"""Convert the given value into a frequency."""
199	return (Values._writeBCD(value) + 10000) / 100.0
200
201	@staticmethod
202	def _toADFFrequency(main, ext):
203	"""Convert the given values into an ADF frequency."""
204	frequency = Values._writeBCD(main)
205	frequency += 1000.0*int(ext/256)
206	frequency += (int(ext)%16)/10.0
207	return frequency
208
209	@staticmethod
210	def _writeADFFrequency(current, value, isMain):
211	"""Convert the given part of an ADF frequency into the
212	whole frequency."""
213	[mainFrequency, extFrequency] = Values._readADFFrequency(current)
214	if isMain: mainFrequency = value
215	else: extFrequency = value
216
217	return Values._toADFFrequency(mainFrequency, extFrequency)
218
219	@staticmethod
220	def _writeBCD(value):
221	"""Convert the given BCD value into a real value."""
222	bcd = (value>>12) & 0x0f
223	bcd *= 10
224	bcd += (value>>8) & 0x0f
225	bcd *= 10
226	bcd += (value>>4) & 0x0f
227	bcd *= 10
228	bcd += (value>>0) & 0x0f
229
230	return bcd
231
232	def __init__(self):
233	"""Construct the values with defaults."""
234	self._timeOffset = 0
235	self.airPath = "C:\\Program Files\\Microsoft Games\\" \
236	"FS9\\Aircraft\\Cessna\\cessna172.air"
237	self.aircraftName = "Cessna 172SP"
238	self.flapsNotches = [0, 1, 2, 5, 10, 15, 25, 30, 40]
239	self.fuelCapacities = [10000.0, 5000.0, 5000.0, 5000.0, 5000.0,
240	5000.0, 5000.0, 5000.0, 5000.0, 5000.0]
241
242	self.latitude = 47.5
243	self.longitude = 19.05
244
245	self.paused = False
246	self.frozen = False
247	self.replay = False
248	self.slew = False
249	self.overspeed = False
250	self.stalled = False
251	self.onTheGround = True
252
253	self.zfw = 50000.0
254
255	self.fuelWeights = [0.0, 3000.0, 3000.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0]
256	# Wikipedia: "Jet fuel", Jet A-1 density at 15*C .804kg/l -> 6.7 pounds/gallon
257	self.fuelWeight = 6.70970518
258
259	self.heading = 220.0
260	self.pitch = 0.0
261	self.bank = 0.0
262
263	self.ias = 0.0
264	self.vs = 0.0
265	self.tdRate = 0.0
266
267	self.radioAltitude = None
268	self.altitude = 513.0
269
270	self.gLoad = 1.0
271
272	self.flapsControl = 0.0
273	self.flaps = 0.0
274
275	self.navLightsOn = True
276	self.antiCollisionLightsOn = False
277	self.landingLightsOn = False
278	self.strobeLightsOn = False
279
280	self.pitot = False
281	self.parking = True
282
283	self.gearControl = 1.0
284	self.noseGear = 1.0
285
286	self.spoilersArmed = False
287	self.spoilers = 0.0
288
289	self.altimeter = 1013.0
290	self.qnh = 1011.2
291
292	self.nav1 = 117.3
293	self.nav1_obs = 128
294	self.nav2 = 109.5
295	self.nav2_obs = 308
296	self.adf1 = 382.7
297	self.adf2 = 1540.6
298	self.squawk = 2200
299
300	self.windSpeed = 8.0
301	self.windDirection = 300.0
302	self.visibility = 10000
303
304	self.n1 = [0.0, 0.0, 0.0, 0.0]
305	self.throttles = [0.0, 0.0, 0.0, 0.0]
306
307	self.payloadCount = 1
308	self.payload = []
309	for i in range(0, 61): self.payload.append(0.0)
310
311	self.textScrolling = False
312	self.message = ""
313	self.messageDuration = 0
314
315	self.hotkeyTable = []
316	for i in range(0, Values.HOTKEY_SIZE):
317	self.hotkeyTable.append([0, 0, 0, 0])
318
319	self.cog = 0.27
320
321	self.pmdg_737ng_switches = 0
322	self.pmdg_737ngx_lts_positionsw = 0
323
324	self.xpdrC = False
325
326	self.apMaster = False
327	self.apHeadingHold = False
328	self.apHeading = 124
329	self.apAltitudeHold = False
330	self.apAltitude = 7000
331
332	self.elevatorTrim = 0.0
333
334	self.eng1DeIce = False
335	self.eng2DeIce = False
336	self.eng3DeIce = False
337	self.eng4DeIce = False
338	self.propDeIce = False
339	self.structDeIce = False
340
341	def read(self, offset, type):
342	"""Read the value at the given offset."""
343	try:
344	return self._read(offset, type)
345	except Exception as e:
346	print("failed to read offset %04x: %s" % (offset, str(e)))
347	raise FSUIPCException(ERR_DATA)
348
349	def _getFlapsControl(self):
350	"""Get the flaps control value"""
351	numNotchesM1 = len(self.flapsNotches) - 1
352	flapsIncrement = 16383.0 / numNotchesM1
353	index = 0
354	while index<numNotchesM1 and \
355	self.flapsControl>self.flapsNotches[index]:
356	index += 1
357
358	if index==numNotchesM1:
359	return 16383
360	else:
361	return int(index * flapsIncrement +
362	(self.flapsControl-self.flapsNotches[index]) *
363	flapsIncrement //
364	(self.flapsNotches[index+1] - self.flapsNotches[index]))
365
366	def _read(self, offset, type):
367	"""Read the value at the given offset."""
368	if offset==0x023a: # Second of time
369	return self._readUTC().tm_sec
370	elif offset==0x023b: # Hour of Zulu time
371	return self._readUTC().tm_hour
372	elif offset==0x023c: # Minute of Zulu time
373	return self._readUTC().tm_min
374	elif offset==0x023e: # Day number on year
375	return self._readUTC().tm_yday
376	elif offset==0x0240: # Year in FS
377	return self._readUTC().tm_year
378	elif offset==0x0264: # Paused
379	return 1 if self.paused else 0
380	elif offset==0x029c: # Pitot
381	return 1 if self.pitot else 0
382	elif offset==0x02b4: # Ground speed
383	# FIXME: calculate TAS first, then from the heading and
384	# wind the GS
385	return int(self.ias * 65536.0 * 1852.0 / 3600.0)
386	elif offset==0x02b8: # TAS
387	return int(self._getTAS() * 128.0)
388	elif offset==0x02bc: # IAS
389	return int(self.ias * 128.0)
390	elif offset==0x02c8: # VS
391	return int(self.vs * const.FEETTOMETRES * 256.0 / 60.0)
392	elif offset==0x02d4: # ADF2 main
393	return Values._readADFFrequency(self.adf2)[0]
394	elif offset==0x02d6: # ADF2 extended
395	return Values._readADFFrequency(self.adf2)[1]
396	elif offset==0x030c: # TD rate
397	return int(self.tdRate * const.FEETTOMETRES * 256.0 / 60.0)
398	elif offset==0x0330: # Altimeter
399	return int(self.altimeter * 16.0)
400	elif offset==0x034c: # ADF1 main
401	return Values._readADFFrequency(self.adf1)[0]
402	elif offset==0x0350: # NAV1
403	return Values._readFrequency(self.nav1)
404	elif offset==0x0352: # NAV2
405	return Values._readFrequency(self.nav2)
406	elif offset==0x0354: # Squawk
407	return Values._readBCD(self.squawk)
408	elif offset==0x0356: # ADF1 extended
409	return Values._readADFFrequency(self.adf1)[1]
410	elif offset==0x0366: # On the ground
411	return 1 if self.onTheGround else 0
412	elif offset==0x036c: # Stalled
413	return 1 if self.stalled else 0
414	elif offset==0x036d: # Overspeed
415	return 1 if self.overspeed else 0
416	elif offset==0x0560: # Latitude
417	return int(self.latitude * 10001750.0 * 65536.0 * 65536.0 / 90.0)
418	elif offset==0x0568: # Longitude
419	return int(self.longitude * 65536.0 * 65536.0 * 65536.0 * 65536.0 / 360.0)
420	elif offset==0x0570: # Altitude
421	return int(self.altitude * const.FEETTOMETRES * 65536.0 * 65536.0)
422	elif offset==0x0578: # Pitch
423	return int(self.pitch * 65536.0 * 65536.0 / 360.0)
424	elif offset==0x057c: # Bank
425	return int(self.bank * 65536.0 * 65536.0 / 360.0)
426	elif offset==0x0580: # Heading
427	return int(self.heading * 65536.0 * 65536.0 / 360.0)
428	elif offset==0x05dc: # Slew
429	return 1 if self.slew else 0
430	elif offset==0x0628: # Replay
431	return 1 if self.replay else 0
432	elif offset==0x07bc: # AP Master switch
433	return 1 if self.apMaster else 0
434	elif offset==0x07c8: # AP heading hold
435	return 1 if self.apHeadingHold else 0
436	elif offset==0x07cc: # AP heading
437	return int(self.apHeading * 65536.0 / 360.0)
438	elif offset==0x07d0: # AP altitude hold
439	return 1 if self.apAltitudeHold else 0
440	elif offset==0x07d4: # AP altitude
441	return int(self.apAltitude * const.FEETTOMETRES * 65536.0)
442	elif offset==0x088c: # Engine #1 throttle
443	return self._getThrottle(self.ENGINE_1)
444	elif offset==0x08b2: # Engine #1 de-ice
445	return 1 if self.eng1DeIce else 0
446	elif offset==0x0924: # Engine #2 throttle
447	return self._getThrottle(self.ENGINE_2)
448	elif offset==0x094a: # Engine #2 de-ice
449	return 1 if self.eng2DeIce else 0
450	elif offset==0x09bc: # Engine #3 throttle
451	return self._getThrottle(self.ENGINE_3)
452	elif offset==0x09e2: # Engine #3 de-ice
453	return 1 if self.eng3DeIce else 0
454	elif offset==0x0a54: # Engine #4 throttle
455	return self._getThrottle(self.ENGINE_4)
456	elif offset==0x0a7a: # Engine #4 de-ice
457	return 1 if self.eng4DeIce else 0
458	elif offset==0x0af4: # Fuel weight
459	return int(self.fuelWeight * 256.0)
460	elif offset==0x0b74: # Centre tank level
461	return self._getFuelLevel(self.FUEL_CENTRE)
462	elif offset==0x0b78: # Centre tank capacity
463	return self._getFuelCapacity(self.FUEL_CENTRE)
464	elif offset==0x0b7c: # Left tank level
465	return self._getFuelLevel(self.FUEL_LEFT)
466	elif offset==0x0b80: # Left tank capacity
467	return self._getFuelCapacity(self.FUEL_LEFT)
468	elif offset==0x0b84: # Left aux tank level
469	return self._getFuelLevel(self.FUEL_LEFT_AUX)
470	elif offset==0x0b88: # Left aux tank capacity
471	return self._getFuelCapacity(self.FUEL_LEFT_AUX)
472	elif offset==0x0b8c: # Left tip tank level
473	return self._getFuelLevel(self.FUEL_LEFT_TIP)
474	elif offset==0x0b90: # Left tip tank capacity
475	return self._getFuelCapacity(self.FUEL_LEFT_TIP)
476	elif offset==0x0b94: # Right aux tank level
477	return self._getFuelLevel(self.FUEL_RIGHT)
478	elif offset==0x0b98: # Right aux tank capacity
479	return self._getFuelCapacity(self.FUEL_RIGHT)
480	elif offset==0x0b9c: # Right tank level
481	return self._getFuelLevel(self.FUEL_RIGHT_AUX)
482	elif offset==0x0ba0: # Right tank capacity
483	return self._getFuelCapacity(self.FUEL_RIGHT_AUX)
484	elif offset==0x0ba4: # Right tip tank level
485	return self._getFuelLevel(self.FUEL_RIGHT_TIP)
486	elif offset==0x0ba8: # Right tip tank capacity
487	return self._getFuelCapacity(self.FUEL_RIGHT_TIP)
488	elif offset==0x0bc8: # Parking
489	return 1 if self.parking else 0
490	elif offset==0x0bcc: # Spoilers armed
491	return 1 if self.spoilersArmed else 0
492	elif offset==0x0bd0: # Spoilers
493	return 0 if self.spoilers == 0 \
494	else int(self.spoilers * (16383 - 4800) + 4800)
495	elif offset==0x0bdc: # Flaps control
496	return self._getFlapsControl()
497	elif offset==0x0be0 or offset==0x0be4: # Flaps left and right
498	return self.flaps * 16383.0 / self.flapsNotches[-1]
499	elif offset==0x0be8: # Gear control
500	return int(self.gearControl * 16383.0)
501	elif offset==0x0bec: # Nose gear
502	return int(self.noseGear * 16383.0)
503	elif offset==0x0c4e: # NAV1 OBS
504	return self.nav1_obs
505	elif offset==0x0c5e: # NAV2 OBS
506	return self.nav2_obs
507	elif offset==0x0d0c: # Lights
508	lights = 0
509	if self.navLightsOn: lights \|= 0x01
510	if self.antiCollisionLightsOn: lights \|= 0x02
511	if self.landingLightsOn: lights \|= 0x04
512	if self.strobeLightsOn: lights \|= 0x10
513	return lights
514	elif offset==0x0e8a: # Visibility
515	return int(self.visibility * 100.0 / 1609.344)
516	elif offset==0x0e90: # Wind speed
517	return int(self.windSpeed)
518	elif offset==0x0e92: # Wind direction
519	return int(self.windDirection * 65536.0 / 360.0)
520	elif offset==0x0ec6: # QNH
521	return int(self.qnh * 16.0)
522	elif offset==0x11ba: # G-Load
523	return int(self.gLoad * 625.0)
524	elif offset==0x11c6: # Mach
525	# FIXME: calculate from IAS, altitude and QNH
526	return int(self.ias * 0.05 * 20480.)
527	elif offset==0x1244: # Centre 2 tank level
528	return self._getFuelLevel(self.FUEL_CENTRE_2)
529	elif offset==0x1248: # Centre 2 tank capacity
530	return self._getFuelCapacity(self.FUEL_CENTRE_2)
531	elif offset==0x1254: # External 1 tank level
532	return self._getFuelLevel(self.FUEL_EXTERNAL_1)
533	elif offset==0x1258: # External 1 tank capacity
534	return self._getFuelCapacity(self.FUEL_EXTERNAL_1)
535	elif offset==0x125c: # External 2 tank level
536	return self._getFuelLevel(self.FUEL_EXTERNAL_2)
537	elif offset==0x1260: # External 2 tank capacity
538	return self._getFuelCapacity(self.FUEL_EXTERNAL_2)
539	elif offset==0x1274: # Text display mode
540	return 1 if self.textScrolling else 0
541	elif offset==0x13fc: # The number of the payload stations
542	return self.payloadCount
543	elif offset>=0x1400 and offset<=0x1f40 and \
544	((offset-0x1400)%48)==0: # Payload
545	return self.payload[ (offset - 0x1400) // 48 ]
546	elif offset==0x2000: # Engine #1 N1
547	return self.n1[self.ENGINE_1]
548	elif offset==0x2100: # Engine #2 N1
549	return self.n1[self.ENGINE_2]
550	elif offset==0x2200: # Engine #3 N1
551	return self.n1[self.ENGINE_3]
552	elif offset==0x2300: # Engine #4 N1
553	return self.n1[self.ENGINE_3]
554	elif offset==0x2ea0: # Elevator trim
555	return self.elevatorTrim * math.pi / 180.0
556	elif offset==0x2ef8: # Centre of Gravity
557	return self.cog
558	elif offset==0x30c0: # Gross weight
559	return (self.zfw + sum(self.fuelWeights)) * const.KGSTOLB
560	elif offset==0x31e4: # Radio altitude
561	# FIXME: if self.radioAltitude is None, calculate from the
562	# altitude with some, perhaps random, ground altitude
563	# value
564	radioAltitude = (self.altitude - 517) \
565	if self.radioAltitude is None else self.radioAltitude
566	return (radioAltitude * const.FEETTOMETRES * 65536.0)
567	elif offset==0x320c:
568	return Values.HOTKEY_SIZE
569	elif offset>=0x3210 and offset<0x3210+Values.HOTKEY_SIZE*4:
570	tableOffset = offset - 0x3210
571	hotkeyIndex = tableOffset // 4
572	index = tableOffset % 4
573	if type=="b" or type=="c":
574	return self.hotkeyTable[hotkeyIndex][index]
575	elif type=="d" or type=="u":
576	if index==0:
577	hotkey = self.hotkeyTable[hotkeyIndex]
578	value = hotkey[3]
579	value <<= 8
580	value \|= hotkey[2]
581	value <<= 8
582	value \|= hotkey[1]
583	value <<= 8
584	value \|= hotkey[0]
585	return value
586	else:
587	print("Unhandled offset: %04x" % (offset,))
588	raise FSUIPCException(ERR_DATA)
589	else:
590	print("Unhandled offset: %04x" % (offset,))
591	raise FSUIPCException(ERR_DATA)
592	elif offset==0x32fa: # Message duration
593	return self.messageDuration
594	elif offset==0x337c: # Prop de-ice
595	return 1 if self.propDeIce else 0
596	elif offset==0x337d: # Structural de-ice
597	return 1 if self.structDeIce else 0
598	elif offset==0x3380: # Message
599	return self.message
600	elif offset==0x3364: # Frozen
601	return 1 if self.frozen else 0
602	elif offset==0x3414: # Flaps axis
603	return self._getFlapsControl()
604	elif offset==0x3bfa: # Flaps increment
605	return 16383 // (len(self.flapsNotches)-1)
606	elif offset==0x3bfc: # ZFW
607	return int(self.zfw * 256.0 * const.KGSTOLB)
608	elif offset==0x3c00: # Path of the current AIR file
609	return bytes(self.airPath, "iso-8859-1")
610	elif offset==0x3d00: # Name of the current aircraft
611	return bytes(self.aircraftName, "iso-8859-1")
612	elif offset==0x6202: # PMDG 737NG switches
613	return self.pmdg_737ng_switches
614	elif offset==0x6500: # PMDG 737NGX lights position SW
615	return self.pmdg_737ngx_lts_positionsw
616	elif offset==0x7b91: # Transponder standby
617	return 0 if self.xpdrC else 1
618	else:
619	print("Unhandled offset: %04x" % (offset,))
620	raise FSUIPCException(ERR_DATA)
621
622	def write(self, offset, value, type):
623	"""Write the value at the given offset."""
624	try:
625	return self._write(offset, value, type)
626	except TypeError as e:
627	raise e
628	except Exception as e:
629	print("failed to write offset %04x: %s" % (offset, str(e)))
630	raise FSUIPCException(ERR_DATA)
631
632	def _write(self, offset, value, type):
633	"""Write the given value at the given offset."""
634	if offset==0x023a: # Second of time
635	self._updateTimeOffset(5, value)
636	elif offset==0x023b: # Hour of Zulu time
637	self._updateTimeOffset(3, value)
638	elif offset==0x023c: # Minute of Zulu time
639	self._updateTimeOffset(4, value)
640	elif offset==0x023e: # Day number in the year
641	self._updateTimeOffset(7, value)
642	elif offset==0x0240: # Year in FS
643	self._updateTimeOffset(0, value)
644	elif offset==0x0264: # Paused
645	self.paused = value!=0
646	elif offset==0x029c: # Pitot
647	self.pitot = value!=0
648	elif offset==0x02b4: # Ground speed
649	# FIXME: calculate TAS using the heading and the wind, and
650	# then IAS based on the altitude
651	self.ias = value * 3600.0 / 65536.0 / 1852.0
652	elif offset==0x02bc: # IAS
653	self.ias = value / 128.0
654	elif offset==0x02c8: # VS
655	self.vs = value * 60.0 / const.FEETTOMETRES / 256.0
656	if not self.onTheGround:
657	self.tdRate = self.vs
658	elif offset==0x02d4: # ADF2 main
659	self.adf2 = self._writeADFFrequency(self.adf2, value, True)
660	elif offset==0x02d6: # ADF2 main
661	self.adf2 = self._writeADFFrequency(self.adf2, value, False)
662	elif offset==0x0330: # Altimeter
663	self.altimeter = value / 16.0
664	elif offset==0x034c: # ADF1 main
665	self.adf1 = self._writeADFFrequency(self.adf1, value, True)
666	elif offset==0x0350: # NAV1
667	self.nav1 = Values._writeFrequency(value)
668	elif offset==0x0352: # NAV2
669	self.nav2 = Values._writeFrequency(value)
670	elif offset==0x0354: # Squawk
671	self.squawk = Values._writeBCD(value)
672	elif offset==0x0356: # ADF1 ext
673	self.adf1 = self._writeADFFrequency(self.adf1, value, False)
674	elif offset==0x0366: # On the groud
675	self.onTheGround = value!=0
676	if not self.onTheGround:
677	self.tdRate = self.vs
678	elif offset==0x036c: # Stalled
679	self.stalled = value!=0
680	elif offset==0x036d: # Overspeed
681	self.overspeed = value!=0
682	elif offset==0x0560: # Latitude
683	self.latitude = value * 90.0 / 10001750.0 / 65536.0 / 65536.0
684	elif offset==0x0568: # Longitude
685	self.longitude = value * 360.0 / 65536.0 / 65536.0 / 65536.0 / 65536.0
686	elif offset==0x0570: # Altitude
687	self.altitude = value / const.FEETTOMETRES / 65536.0 / 65536.0
688	self.radioAltitude = self.altitude - 517
689	elif offset==0x0578: # Pitch
690	self.pitch = value * 360.0 / 65536.0 / 65536.0
691	elif offset==0x057c: # Bank
692	self.bank = value * 360.0 / 65536.0 / 65536.0
693	elif offset==0x0580: # Heading
694	self.heading = value * 360.0 / 65536.0 / 65536.0
695	elif offset==0x05dc: # Slew
696	self.slew = value!=0
697	elif offset==0x0628: # Replay
698	self.replay = value!=0
699	elif offset==0x07bc: # AP Master switch
700	self.apMaster = value!=0
701	elif offset==0x07c8: # AP heading hold
702	self.apHeadingHold = value!=0
703	elif offset==0x07cc: # AP heading
704	self.apHeading = value * 360.0 / 65536.0
705	elif offset==0x07d0: # AP altitude hold
706	self.apAltitudeHold = value!=0
707	elif offset==0x07d4: # AP altitude
708	self.apAltitude = value / const.FEETTOMETRES / 65536.0
709	elif offset==0x088c: # Engine #1 throttle
710	self._setThrottle(self.ENGINE_1, value)
711	elif offset==0x08b2: # Engine #1 de-ice
712	self.eng1DeIce = value!=0
713	elif offset==0x0924: # Engine #2 throttle
714	self._setThrottle(self.ENGINE_2, value)
715	elif offset==0x094a: # Engine #2 de-ice
716	self.eng2DeIce = value!=0
717	elif offset==0x09bc: # Engine #3 throttle
718	self._setThrottle(self.ENGINE_3, value)
719	elif offset==0x09e2: # Engine #3 de-ice
720	self.eng3DeIce = value!=0
721	elif offset==0x0a54: # Engine #4 throttle
722	self._setThrottle(self.ENGINE_4, value)
723	elif offset==0x0a7a: # Engine #4 de-ice
724	self.eng4DeIce = value!=0
725	elif offset==0x0af4: # Fuel weight
726	self.fuelWeight = value / 256.0
727	elif offset==0x0b74: # Centre tank level
728	self._setFuelLevel(self.FUEL_CENTRE, value)
729	elif offset==0x0b78: # Centre tank capacity
730	self._setFuelCapacity(self.FUEL_CENTRE, value)
731	elif offset==0x0b7c: # Left tank level
732	self._setFuelLevel(self.FUEL_LEFT, value)
733	elif offset==0x0b80: # Left tank capacity
734	self._setFuelCapacity(self.FUEL_LEFT, value)
735	elif offset==0x0b84: # Left aux tank level
736	self._setFuelLevel(self.FUEL_LEFT_AUX, value)
737	elif offset==0x0b88: # Left aux tank capacity
738	self._setFuelCapacity(self.FUEL_LEFT_AUX, value)
739	elif offset==0x0b8c: # Left tip tank level
740	self._setFuelLevel(self.FUEL_LEFT_TIP, value)
741	elif offset==0x0b90: # Left tip tank capacity
742	self._setFuelCapacity(self.FUEL_LEFT_TIP, value)
743	elif offset==0x0b94: # Right aux tank level
744	self._setFuelLevel(self.FUEL_RIGHT, value)
745	elif offset==0x0b98: # Right aux tank capacity
746	self._setFuelCapacity(self.FUEL_RIGHT, value)
747	elif offset==0x0b9c: # Right tank level
748	self._setFuelLevel(self.FUEL_RIGHT_AUX, value)
749	elif offset==0x0ba0: # Right tank capacity
750	self._setFuelCapacity(self.FUEL_RIGHT_AUX, value)
751	elif offset==0x0ba4: # Right tip tank level
752	self._setFuelLevel(self.FUEL_RIGHT_TIP, value)
753	elif offset==0x0ba8: # Right tip tank capacity
754	self._setFuelCapacity(self.FUEL_RIGHT_TIP, value)
755	elif offset==0x0bc8: # Parking
756	self.parking = value!=0
757	elif offset==0x0bcc: # Spoilers armed
758	self.spoilersArmed = value!=0
759	elif offset==0x0bd0: # Spoilers
760	self.spoilters = 0 if value==0 \
761	else (value - 4800) // (16383 - 4800)
762	elif offset==0x0bdc: # Flaps control
763	numNotchesM1 = len(self.flapsNotches) - 1
764	flapsIncrement = 16383.0 / numNotchesM1
765	index = int(value / flapsIncrement)
766	if index>=numNotchesM1:
767	self.flapsControl = self.flapsNotches[-1]
768	else:
769	self.flapsControl = self.flapsNotches[index]
770	self.flapsControl += (value - index * flapsIncrement) * \
771	(self.flapsNotches[index+1] - self.flapsNotches[index]) // \
772	flapsIncrement
773	elif offset==0x0be0 or offset==0x0be4: # Flaps left and right
774	self.flaps = value * self.flapsNotches[-1] / 16383.0
775	elif offset==0x0be8: # Gear control
776	self.gearControl = value / 16383.0
777	elif offset==0x0bec: # Nose gear
778	self.noseGear = value / 16383.0
779	elif offset==0x0c4e: # NAV1 OBS
780	self.nav1_obs = value
781	elif offset==0x0c5e: # NAV2 OBS
782	self.nav2_obs = value
783	elif offset==0x0d0c: # Lights
784	self.navLightsOn = (value&0x01)!=0
785	self.antiCollisionLightsOn = (value&0x02)!=0
786	self.landingLightsOn = (value&0x04)!=0
787	self.strobeLightsOn = (value&0x10)!=0
788	elif offset==0x0e8a: # Visibility
789	self.visibility = value * 1609.344 / 100.0
790	elif offset==0x0e90: # Wind speed
791	self.windSpeed = value
792	elif offset==0x0e92: # Wind direction
793	self.windDirection = value * 360.0 / 65536.0
794	elif offset==0x0ec6: # QNH
795	self.qnh = value / 16.0
796	elif offset==0x11ba: # G-Load
797	self.gLoad = value / 625.0
798	elif offset==0x11c6: # Mach
799	# FIXME: calculate IAS using the altitude and QNH
800	self.ias = value / 0.05 / 20480
801	elif offset==0x1244: # Centre 2 tank level
802	self._setFuelLevel(self.FUEL_CENTRE_2, value)
803	elif offset==0x1248: # Centre 2 tank capacity
804	self._setFuelCapacity(self.FUEL_CENTRE_2, value)
805	elif offset==0x1254: # External 1 tank level
806	self._setFuelLevel(self.FUEL_EXTERNAL_1, value)
807	elif offset==0x1258: # External 1 tank capacity
808	self._setFuelCapacity(self.FUEL_EXTERNAL_1, value)
809	elif offset==0x125c: # External 2 tank level
810	self._setFuelLevel(self.FUEL_EXTERNAL_2, value)
811	elif offset==0x1260: # External 2 tank capacity
812	self._setFuelCapacity(self.FUEL_EXTERNAL_2, value)
813	elif offset==0x1274: # Text display mode
814	textScrolling = value!=0
815	elif offset==0x13fc: # The number of the payload stations
816	self.payloadCount = int(value)
817	elif offset>=0x1400 and offset<=0x1f40 and \
818	((offset-0x1400)%48)==0: # Payload
819	self.payload[ (offset - 0x1400) // 48 ] = value
820	elif offset==0x2000: # Engine #1 N1
821	self.n1[self.ENGINE_1] = value
822	elif offset==0x2100: # Engine #2 N1
823	self.n1[self.ENGINE_2] = value
824	elif offset==0x2200: # Engine #3 N1
825	self.n1[self.ENGINE_3] = value
826	elif offset==0x2300: # Engine #4 N1
827	self.n1[self.ENGINE_4] = value
828	elif offset==0x2ea0: # Elevator trim
829	self.elevatorTrim = value * 180.0 / math.pi
830	elif offset==0x2ef8: # Centre of Gravity
831	self.cog = value
832	elif offset==0x30c0: # Gross weight
833	raise FSUIPCException(ERR_DATA)
834	elif offset==0x31e4: # Radio altitude
835	self.radioAltitude = value / const.FEETTOMETRES / 65536.0
836	self.altitude = self.radioAltitude + 517
837	elif offset==0x31e4: # Radio altitude
838	raise FSUIPCException(ERR_DATA)
839	elif offset==0x320c:
840	return Values.HOTKEY_SIZE
841	elif offset>=0x3210 and offset<0x3210+Values.HOTKEY_SIZE*4:
842	tableOffset = offset - 0x3210
843	hotkeyIndex = tableOffset // 4
844	index = tableOffset % 4
845	if type=="b" or type=="c":
846	self.hotkeyTable[hotkeyIndex][index] = value
847	elif type=="d" or type=="u":
848	if index==0:
849	hotkey = self.hotkeyTable[hotkeyIndex]
850	hotkey[0] = value & 0xff
851	hotkey[1] = (value>>8) & 0xff
852	hotkey[2] = (value>>16) & 0xff
853	hotkey[3] = (value>>24) & 0xff
854	else:
855	print("Unhandled offset: %04x for type '%s'" % (offset, type))
856	raise FSUIPCException(ERR_DATA)
857	else:
858	print("Unhandled offset: %04x for type '%s'" % (offset, type))
859	raise FSUIPCException(ERR_DATA)
860	elif offset==0x32fa: # Message duration
861	self.messageDuration = value
862	elif offset==0x3364: # Frozen
863	self.frozen = value!=0
864	elif offset==0x337c: # Propeller de-ice
865	self.propDeIce = value!=0
866	elif offset==0x337d: # Structural de-ice
867	self.structDeIce = value!=0
868	elif offset==0x3380: # Message
869	if not isinstance(value, str):
870	raise TypeError("String expected!")
871	self.message = value
872	elif offset==0x3bfc: # ZFW
873	self.zfw = value * const.LBSTOKG / 256.0
874	elif offset==0x3c00: # Path of the current AIR file
875	self.airPath = value
876	elif offset==0x3d00: # Name of the current aircraft
877	self.aircraftName = value
878	elif offset==0x6202: # PMDG 737NG switches
879	self.pmdg_737ng_switches = value
880	elif offset==0x6500: # PMDG 737NGX lights position SW
881	self.pmdg_737ngx_lts_positionsw = value
882	elif offset==0x7b91: # Transponder standby
883	self.xpdrC = value==0
884	else:
885	print("Unhandled offset: %04x" % (offset,))
886	raise FSUIPCException(ERR_DATA)
887
888	def _readUTC(self):
889	"""Read the UTC time.
890
891	The current offset is added to it."""
892	return time.gmtime(time.time() + self._timeOffset)
893
894	def _getFuelLevel(self, index):
895	"""Get the fuel level for the fuel tank with the given
896	index."""
897	return 0 if self.fuelCapacities[index]==0.0 else \
898	int(self.fuelWeights[index] * 65536.0 * 128.0 / self.fuelCapacities[index])
899
900	def _getFuelCapacity(self, index):
901	"""Get the capacity of the fuel tank with the given index."""
902	return int(self.fuelCapacities[index] * const.KGSTOLB / self.fuelWeight)
903
904	def _getThrottle(self, index):
905	"""Get the throttle value for the given index."""
906	return int(self.throttles[index] * 16383.0)
907
908	def _updateTimeOffset(self, index, value):
909	"""Update the time offset if the value in the tm structure is replaced
910	by the given value."""
911	tm = self._readUTC()
912	tm1 = tm[:index] + (value,) + tm[(index+1):]
913	self._timeOffset += calendar.timegm(tm1) - calendar.timegm(tm)
914
915	def _setThrottle(self, index, value):
916	"""Set the throttle value for the given index."""
917	self.throttles[index] = value / 16383.0
918
919	def _setFuelLevel(self, index, value):
920	"""Set the fuel level for the fuel tank with the given index."""
921	self.fuelWeights[index] = self.fuelCapacities[index] * float(value) / \
922	65536.0 / 128.0
923
924	def _setFuelCapacity(self, index, value):
925	"""Set the capacity of the fuel tank with the given index."""
926	self.fuelCapacities[index] = value * self.fuelWeight * const.LBSTOKG
927
928	def _getTAS(self):
929	"""Calculate the true airspeed."""
930	pressure = 101325 * math.pow(1 - 2.25577e-5 * self.altitude *
931	const.FEETTOMETRES,
932	5.25588)
933	temperature = 15 - self.altitude * 6.5 * const.FEETTOMETRES / 1000.0
934	temperature += 273.15 # Celsius -> Kelvin
935	airDensity = pressure / (temperature * 287.05)
936	#print "pressure:", pressure, "temperature:", temperature, "airDensity:", airDensity
937	return self.ias * math.sqrt(1.225 / airDensity)
938
939	#------------------------------------------------------------------------------
940
941	values = Values()
942
943	#------------------------------------------------------------------------------
944
945	failOpen = False
946
947	opened = False
948
949	#------------------------------------------------------------------------------
950
951	def open(request):
952	"""Open the connection."""
953	global opened
954	if failOpen:
955	raise FSUIPCException(ERR_NOFS)
956	elif opened:
957	raise FSUIPCException(ERR_OPEN)
958	else:
959	time.sleep(0.5)
960	opened = True
961	return True
962
963	#------------------------------------------------------------------------------
964
965	def prepare_data(pattern, forRead = True, checkOpened = True):
966	"""Prepare the given pattern for reading and/or writing."""
967	if not checkOpened or opened:
968	return pattern
969	else:
970	raise FSUIPCException(ERR_NOTOPEN)
971
972	#------------------------------------------------------------------------------
973
974	def read(data, checkOpened = True):
975	"""Read the given data."""
976	if not checkOpened or opened:
977	return [values.read(offset, type) for (offset, type) in data]
978	else:
979	raise FSUIPCException(ERR_NOTOPEN)
980
981	#------------------------------------------------------------------------------
982
983	def write(data, checkOpened = True):
984	"""Write the given data."""
985	if not checkOpened or opened:
986	for (offset, type, value) in data:
987	values.write(offset, value, type)
988	else:
989	raise FSUIPCException(ERR_NOTOPEN)
990
991	#------------------------------------------------------------------------------
992
993	def close():
994	"""Close the connection."""
995	global opened
996	opened = False
997
998	#------------------------------------------------------------------------------
999
1000	PORT=15015
1001
1002	CALL_READ=1
1003	CALL_WRITE=2
1004	CALL_SETVERSION=3
1005	CALL_CLOSE=4
1006	CALL_FAILOPEN=5
1007	CALL_QUIT = 99
1008
1009	RESULT_RETURNED=1
1010	RESULT_EXCEPTION=2
1011
1012	#------------------------------------------------------------------------------
1013
1014	class Server(threading.Thread):
1015	"""The server thread."""
1016	def __init__(self):
1017	"""Construct the thread."""
1018	super(Server, self).__init__()
1019	self.daemon = True
1020
1021	def run(self):
1022	"""Perform the server's operation."""
1023	serverSocket = socket.socket()
1024
1025	serverSocket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
1026	serverSocket.bind(("", PORT))
1027
1028	serverSocket.listen(5)
1029
1030	while True:
1031	(clientSocket, clientAddress) = serverSocket.accept()
1032	thread = threading.Thread(target = self._process, args=(clientSocket,))
1033	thread.start()
1034
1035	def _process(self, clientSocket):
1036	"""Process the commands arriving on the given socket."""
1037	socketFile = clientSocket.makefile()
1038	try:
1039	while True:
1040	(length,) = struct.unpack("I", clientSocket.recv(4))
1041	data = clientSocket.recv(length)
1042	(call, args) = pickle.loads(data)
1043	exception = None
1044
1045	try:
1046	if call==CALL_READ:
1047	result = read(args[0], checkOpened = False)
1048	elif call==CALL_WRITE:
1049	result = write(args[0], checkOpened = False)
1050	elif call==CALL_SETVERSION:
1051	global fs_version
1052	fs_version = args[0]
1053	result = None
1054	elif call==CALL_CLOSE:
1055	global opened
1056	opened = False
1057	result = None
1058	elif call==CALL_FAILOPEN:
1059	global failOpen
1060	failOpen = args[0]
1061	result = None
1062	else:
1063	break
1064	except Exception as e:
1065	exception = e
1066
1067	if exception is None:
1068	data = pickle.dumps((RESULT_RETURNED, result))
1069	else:
1070	data = pickle.dumps((RESULT_EXCEPTION, str(exception)))
1071	clientSocket.send(struct.pack("I", len(data)) + data)
1072	except Exception as e:
1073	print("pyuipc_sim.Server._process: failed with exception:", str(e), file=sys.stderr)
1074	finally:
1075	try:
1076	socketFile.close()
1077	except:
1078	pass
1079	clientSocket.close()
1080
1081	#------------------------------------------------------------------------------
1082
1083	class Client(object):
1084	"""Client to the server."""
1085	def __init__(self, serverHost):
1086	"""Construct the client and connect to the given server
1087	host."""
1088	self._socket = socket.socket()
1089	self._socket.connect((serverHost, PORT))
1090
1091	self._socketFile = self._socket.makefile()
1092
1093	def read(self, data):
1094	"""Read the given data."""
1095	return self._call(CALL_READ, data)
1096
1097	def write(self, data):
1098	"""Write the given data."""
1099	return self._call(CALL_WRITE, data)
1100
1101	def setVersion(self, version):
1102	"""Set the FS version to emulate."""
1103	return self._call(CALL_SETVERSION, int(version))
1104
1105	def close(self):
1106	"""Close the connection currently opened in the simulator."""
1107	return self._call(CALL_CLOSE, None)
1108
1109	def failOpen(self, really):
1110	"""Enable/disable open failure in the simulator."""
1111	return self._call(CALL_FAILOPEN, really)
1112
1113	def quit(self):
1114	"""Quit from the simulator."""
1115	data = pickle.dumps((CALL_QUIT, None))
1116	self._socket.send(struct.pack("I", len(data)) + data)
1117
1118	def _call(self, command, data):
1119	"""Perform a call with the given command and data."""
1120	data = pickle.dumps((command, [data]))
1121	self._socket.send(struct.pack("I", len(data)) + data)
1122	(length,) = struct.unpack("I", self._socket.recv(4))
1123	data = self._socket.recv(length)
1124	(resultCode, result) = pickle.loads(data)
1125	if resultCode==RESULT_RETURNED:
1126	return result
1127	else:
1128	raise Exception(result)
1129
1130	#------------------------------------------------------------------------------
1131	#------------------------------------------------------------------------------
1132
1133	# FIXME: implement proper completion and history
1134	class CLI(cmd.Cmd):
1135	"""The command-line interpreter."""
1136	@staticmethod
1137	def str2bool(s):
1138	"""Convert the given string to a PyUIPC boolean value (i.e. 0 or 1)."""
1139	return 1 if s in ["yes", "true", "on"] else 0
1140
1141	@staticmethod
1142	def bool2str(value):
1143	"""Convert the PyUIPC boolean value (i.e. 0 or 1) into a string."""
1144	return "no" if value==0 else "yes"
1145
1146	@staticmethod
1147	def degree2pyuipc(degree):
1148	"""Convert the given degree (as a string) into a PyUIPC value."""
1149	return int(float(degree) * 65536.0 * 65536.0 / 360.0)
1150
1151	@staticmethod
1152	def pyuipc2degree(value):
1153	"""Convert the given PyUIPC value into a degree."""
1154	return value * 360.0 / 65536.0 / 65536.0
1155
1156	@staticmethod
1157	def fuelLevel2pyuipc(level):
1158	"""Convert the given percentage value (as a string) into a PyUIPC value."""
1159	return int(float(level) * 128.0 * 65536.0 / 100.0)
1160
1161	@staticmethod
1162	def pyuipc2fuelLevel(value):
1163	"""Convert the PyUIPC value into a percentage value."""
1164	return value * 100.0 / 128.0 / 65536.0
1165
1166	@staticmethod
1167	def fuelCapacity2pyuipc(capacity):
1168	"""Convert the given capacity value (as a string) into a PyUIPC value."""
1169	return int(capacity)
1170
1171	@staticmethod
1172	def pyuipc2fuelCapacity(value):
1173	"""Convert the given capacity value into a PyUIPC value."""
1174	return value
1175
1176	@staticmethod
1177	def throttle2pyuipc(throttle):
1178	"""Convert the given throttle value (as a string) into a PyUIPC value."""
1179	return int(float(throttle) * 16384.0 / 100.0)
1180
1181	@staticmethod
1182	def pyuipc2throttle(value):
1183	"""Convert the given PyUIPC value into a throttle value."""
1184	return value * 100.0 / 16384.0
1185
1186	@staticmethod
1187	def heading2pyuipc(heading):
1188	"""Convert the given heading (as a string) into a PyUIPC value."""
1189	return int(float(heading) * 65536.0 / 360.0)
1190
1191	@staticmethod
1192	def pyuipc2heading(value):
1193	"""Convert the given PyUIPC value into a heading."""
1194	return value * 360.0 / 65536.0
1195
1196	@staticmethod
1197	def altitude2pyuipc(altitude):
1198	"""Convert the given altitude (as a string) into a PyUIPC value."""
1199	return int(float(altitude) * const.FEETTOMETRES * 65536.0)
1200
1201	@staticmethod
1202	def pyuipc2altitude(value):
1203	"""Convert the given PyUIPC value into an altitude."""
1204	return value / const.FEETTOMETRES / 65536.0
1205
1206	def __init__(self):
1207	"""Construct the CLI."""
1208	cmd.Cmd.__init__(self)
1209
1210	self.use_rawinput = True
1211	self.intro = "\nPyUIPC simulator command prompt\n"
1212	self.prompt = "PyUIPC> "
1213
1214	self.daemon = True
1215
1216	host = sys.argv[1] if len(sys.argv)>1 else "localhost"
1217	self._client = Client(host)
1218
1219	self._valueHandlers = {}
1220	self._valueHandlers["year"] = ([(0x0240, "H")], lambda value: value,
1221	lambda word: int(word))
1222	self._valueHandlers["yday"] = ([(0x023e, "H")], lambda value: value,
1223	lambda word: int(word))
1224	self._valueHandlers["hour"] = ([(0x023b, "b")], lambda value: value,
1225	lambda word: int(word))
1226	self._valueHandlers["min"] = ([(0x023c, "b")], lambda value: value,
1227	lambda word: int(word))
1228	self._valueHandlers["sec"] = ([(0x023a, "b")], lambda value: value,
1229	lambda word: int(word))
1230	self._valueHandlers["acftName"] = ([(0x3d00, -256)], lambda value: value,
1231	lambda word: word)
1232	self._valueHandlers["airPath"] = ([(0x3c00, -256)], lambda value: value,
1233	lambda word: word)
1234	self._valueHandlers["latitude"] = ([(0x0560, "l")],
1235	lambda value: value * 90.0 /
1236	10001750.0 / 65536.0 / 65536.0,
1237	lambda word: int(float(word) *
1238	10001750.0 *
1239	65536.0 * 65536.0 / 90.0))
1240	self._valueHandlers["longitude"] = ([(0x0568, "l")],
1241	lambda value: value * 360.0 /
1242	65536.0 / 65536.0 / 65536.0 / 65536.0,
1243	lambda word: int(float(word) *
1244	65536.0 * 65536.0 *
1245	65536.0 * 65536.0 /
1246	360.0))
1247	self._valueHandlers["paused"] = ([(0x0264, "H")], CLI.bool2str, CLI.str2bool)
1248	self._valueHandlers["frozen"] = ([(0x3364, "H")], CLI.bool2str, CLI.str2bool)
1249	self._valueHandlers["replay"] = ([(0x0628, "d")], CLI.bool2str, CLI.str2bool)
1250	self._valueHandlers["slew"] = ([(0x05dc, "H")], CLI.bool2str, CLI.str2bool)
1251	self._valueHandlers["overspeed"] = ([(0x036d, "b")], CLI.bool2str, CLI.str2bool)
1252	self._valueHandlers["stalled"] = ([(0x036c, "b")], CLI.bool2str, CLI.str2bool)
1253	self._valueHandlers["onTheGround"] = ([(0x0366, "H")], CLI.bool2str, CLI.str2bool)
1254	self._valueHandlers["zfw"] = ([(0x3bfc, "d")],
1255	lambda value: value * const.LBSTOKG / 256.0,
1256	lambda word: int(float(word) * 256.0 *
1257	const.KGSTOLB))
1258	self._valueHandlers["grossWeight"] = ([(0x30c0, "f")],
1259	lambda value: value * const.LBSTOKG,
1260	lambda word: None)
1261	self._valueHandlers["heading"] = ([(0x0580, "d")],
1262	CLI.pyuipc2degree, CLI.degree2pyuipc)
1263	self._valueHandlers["pitch"] = ([(0x0578, "d")],
1264	CLI.pyuipc2degree, CLI.degree2pyuipc)
1265	self._valueHandlers["bank"] = ([(0x057c, "d")],
1266	CLI.pyuipc2degree, CLI.degree2pyuipc)
1267	self._valueHandlers["ias"] = ([(0x02bc, "d")],
1268	lambda value: value / 128.0,
1269	lambda word: int(float(word) * 128.0))
1270	self._valueHandlers["mach"] = ([(0x11c6, "H")],
1271	lambda value: value / 20480.0,
1272	lambda word: int(float(word) * 20480.0))
1273	self._valueHandlers["gs"] = ([(0x02b4, "d")],
1274	lambda value: value * 3600.0 / 65536.0 / 1852.0,
1275	lambda word: int(float(word) * 65536.0 *
1276	1852.0 / 3600))
1277	self._valueHandlers["tas"] = ([(0x02b8, "d")],
1278	lambda value: value / 128.0,
1279	lambda word: None)
1280	self._valueHandlers["vs"] = ([(0x02c8, "d")],
1281	lambda value: value * 60 /
1282	const.FEETTOMETRES / 256.0,
1283	lambda word: int(float(word) *
1284	const.FEETTOMETRES *
1285	256.0 / 60.0))
1286	self._valueHandlers["tdRate"] = ([(0x030c, "d")],
1287	lambda value: value * 60 /
1288	const.FEETTOMETRES / 256.0,
1289	lambda word: int(float(word) *
1290	const.FEETTOMETRES *
1291	256.0 / 60.0))
1292	self._valueHandlers["radioAltitude"] = ([(0x31e4, "d")],
1293	lambda value: value /
1294	const.FEETTOMETRES /
1295	65536.0,
1296	lambda word: int(float(word) *
1297	const.FEETTOMETRES *
1298	65536.0))
1299	self._valueHandlers["altitude"] = ([(0x0570, "l")],
1300	lambda value: value /
1301	const.FEETTOMETRES / 65536.0 /
1302	65536.0,
1303	lambda word: int(float(word) *
1304	const.FEETTOMETRES *
1305	65536.0 * 65536.0))
1306	self._valueHandlers["gLoad"] = ([(0x11ba, "H")],
1307	lambda value: value / 625.0,
1308	lambda word: int(float(word) * 625.0))
1309
1310	self._valueHandlers["flapsControl"] = ([(0x0bdc, "d")],
1311	lambda value: value * 100.0 / 16383.0,
1312	lambda word: int(float(word) *
1313	16383.0 / 100.0))
1314	self._valueHandlers["flaps"] = ([(0x0be0, "d")],
1315	lambda value: value * 100.0 / 16383.0,
1316	lambda word: int(float(word) *
1317	16383.0 / 100.0))
1318	self._valueHandlers["lights"] = ([(0x0d0c, "H")],
1319	lambda value: value,
1320	lambda word: int(word))
1321	self._valueHandlers["pitot"] = ([(0x029c, "b")], CLI.bool2str, CLI.str2bool)
1322	self._valueHandlers["parking"] = ([(0x0bc8, "H")], CLI.bool2str, CLI.str2bool)
1323	self._valueHandlers["gearControl"] = ([(0x0be8, "d")],
1324	lambda value: value * 100.0 / 16383.0,
1325	lambda word: int(float(word) *
1326	16383.0 / 100.0))
1327	self._valueHandlers["noseGear"] = ([(0x0bec, "d")],
1328	lambda value: value * 100.0 / 16383.0,
1329	lambda word: int(float(word) *
1330	16383.0 / 100.0))
1331	self._valueHandlers["spoilersArmed"] = ([(0x0bcc, "d")],
1332	CLI.bool2str, CLI.str2bool)
1333	self._valueHandlers["spoilers"] = ([(0x0bd0, "d")],
1334	lambda value: value,
1335	lambda word: int(word))
1336	self._valueHandlers["altimeter"] = ([(0x0330, "H")],
1337	lambda value: value / 16.0,
1338	lambda word: int(float(word)*16.0))
1339	self._valueHandlers["qnh"] = ([(0x0ec6, "H")],
1340	lambda value: value / 16.0,
1341	lambda word: int(float(word)*16.0))
1342	self._valueHandlers["nav1"] = ([(0x0350, "H")],
1343	Values._writeFrequency,
1344	lambda word: Values._readFrequency(float(word)))
1345	self._valueHandlers["nav1_obs"] = ([(0x0c4e, "H")],
1346	lambda value: value,
1347	lambda word: int(word))
1348	self._valueHandlers["nav2"] = ([(0x0352, "H")],
1349	Values._writeFrequency,
1350	lambda word: Values._readFrequency(float(word)))
1351	self._valueHandlers["nav2_obs"] = ([(0x0c5e, "H")],
1352	lambda value: value,
1353	lambda word: int(word))
1354	self._valueHandlers["adf1"] = ([(0x034c, "H"), (0x0356, "H")],
1355	lambda values:
1356	Values._toADFFrequency(values[0],
1357	values[1]),
1358	lambda word:
1359	Values._readADFFrequency(float(word)))
1360	self._valueHandlers["adf2"] = ([(0x02d4, "H"), (0x02d6, "H")],
1361	lambda values:
1362	Values._toADFFrequency(values[0],
1363	values[1]),
1364	lambda word:
1365	Values._readADFFrequency(float(word)))
1366	self._valueHandlers["squawk"] = ([(0x0354, "H")],
1367	Values._writeBCD,
1368	lambda word: Values._readBCD(int(word)))
1369	self._valueHandlers["windSpeed"] = ([(0x0e90, "H")],
1370	lambda value: value,
1371	lambda word: int(word))
1372	self._valueHandlers["windDirection"] = ([(0x0e92, "H")],
1373	lambda value: value * 360.0 / 65536.0,
1374	lambda word: int(int(word) *
1375	65536.0 / 360.0))
1376	self._valueHandlers["fuelWeight"] = ([(0x0af4, "H")],
1377	lambda value: value / 256.0,
1378	lambda word: int(float(word)*256.0))
1379
1380
1381	self._valueHandlers["centreLevel"] = ([(0x0b74, "d")],
1382	CLI.pyuipc2fuelLevel,
1383	CLI.fuelLevel2pyuipc)
1384	self._valueHandlers["centreCapacity"] = ([(0x0b78, "d")],
1385	CLI.pyuipc2fuelCapacity,
1386	CLI.fuelCapacity2pyuipc)
1387	self._valueHandlers["leftMainLevel"] = ([(0x0b7c, "d")],
1388	CLI.pyuipc2fuelLevel,
1389	CLI.fuelLevel2pyuipc)
1390	self._valueHandlers["leftMainCapacity"] = ([(0x0b80, "d")],
1391	CLI.pyuipc2fuelCapacity,
1392	CLI.fuelCapacity2pyuipc)
1393	self._valueHandlers["leftAuxLevel"] = ([(0x0b84, "d")],
1394	CLI.pyuipc2fuelLevel,
1395	CLI.fuelLevel2pyuipc)
1396	self._valueHandlers["leftAuxCapacity"] = ([(0x0b88, "d")],
1397	CLI.pyuipc2fuelCapacity,
1398	CLI.fuelCapacity2pyuipc)
1399	self._valueHandlers["leftTipLevel"] = ([(0x0b8c, "d")],
1400	CLI.pyuipc2fuelLevel,
1401	CLI.fuelLevel2pyuipc)
1402	self._valueHandlers["leftTipCapacity"] = ([(0x0b90, "d")],
1403	CLI.pyuipc2fuelCapacity,
1404	CLI.fuelCapacity2pyuipc)
1405	self._valueHandlers["rightMainLevel"] = ([(0x0b94, "d")],
1406	CLI.pyuipc2fuelLevel,
1407	CLI.fuelLevel2pyuipc)
1408	self._valueHandlers["rightMainCapacity"] = ([(0x0b98, "d")],
1409	CLI.pyuipc2fuelCapacity,
1410	CLI.fuelCapacity2pyuipc)
1411	self._valueHandlers["rightAuxLevel"] = ([(0x0b9c, "d")], CLI.pyuipc2fuelLevel,
1412	CLI.fuelLevel2pyuipc)
1413	self._valueHandlers["rightAuxCapacity"] = ([(0x0ba0, "d")],
1414	CLI.pyuipc2fuelCapacity,
1415	CLI.fuelCapacity2pyuipc)
1416	self._valueHandlers["rightTipLevel"] = ([(0x0ba4, "d")],
1417	CLI.pyuipc2fuelLevel,
1418	CLI.fuelLevel2pyuipc)
1419	self._valueHandlers["rightTipCapacity"] = ([(0x0ba8, "d")],
1420	CLI.pyuipc2fuelCapacity,
1421	CLI.fuelCapacity2pyuipc)
1422	self._valueHandlers["centre2Level"] = ([(0x1244, "d")],
1423	CLI.pyuipc2fuelLevel,
1424	CLI.fuelLevel2pyuipc)
1425	self._valueHandlers["centre2Capacity"] = ([(0x1248, "d")],
1426	CLI.pyuipc2fuelCapacity,
1427	CLI.fuelCapacity2pyuipc)
1428	self._valueHandlers["external1Level"] = ([(0x1254, "d")],
1429	CLI.pyuipc2fuelLevel,
1430	CLI.fuelLevel2pyuipc)
1431	self._valueHandlers["external1Capacity"] = ([(0x1258, "d")],
1432	CLI.pyuipc2fuelCapacity,
1433	CLI.fuelCapacity2pyuipc)
1434	self._valueHandlers["external2Level"] = ([(0x125c, "d")],
1435	CLI.pyuipc2fuelLevel,
1436	CLI.fuelLevel2pyuipc)
1437	self._valueHandlers["external2Capacity"] = ([(0x1260, "d")],
1438	CLI.pyuipc2fuelCapacity,
1439	CLI.fuelCapacity2pyuipc)
1440
1441	self._valueHandlers["n1_1"] = ([(0x2000, "f")], lambda value: value,
1442	lambda word: float(word))
1443	self._valueHandlers["n1_2"] = ([(0x2100, "f")], lambda value: value,
1444	lambda word: float(word))
1445	self._valueHandlers["n1_3"] = ([(0x2200, "f")], lambda value: value,
1446	lambda word: float(word))
1447	self._valueHandlers["n1_4"] = ([(0x2300, "f")], lambda value: value,
1448	lambda word: float(word))
1449
1450	self._valueHandlers["throttle_1"] = ([(0x088c, "H")],
1451	CLI.pyuipc2throttle,
1452	CLI.throttle2pyuipc)
1453	self._valueHandlers["throttle_2"] = ([(0x0924, "H")],
1454	CLI.pyuipc2throttle,
1455	CLI.throttle2pyuipc)
1456	self._valueHandlers["throttle_3"] = ([(0x09bc, "H")],
1457	CLI.pyuipc2throttle,
1458	CLI.throttle2pyuipc)
1459	self._valueHandlers["throttle_4"] = ([(0x0a54, "H")],
1460	CLI.pyuipc2throttle,
1461	CLI.throttle2pyuipc)
1462
1463	self._valueHandlers["visibility"] = ([(0x0e8a, "H")],
1464	lambda value: value*1609.344/100.0,
1465	lambda word: int(float(word)*
1466	100.0/1609.344))
1467
1468	self._valueHandlers["payloadCount"] = ([(0x13fc, "d")],
1469	lambda value: value,
1470	lambda word: int(word))
1471	for i in range(0, 61):
1472	self._valueHandlers["payload%d" % (i,)] = ([(0x1400 + i * 48, "f")],
1473	lambda value:
1474	value * const.LBSTOKG,
1475	lambda word:
1476	float(word)*const.KGSTOLB)
1477	self._valueHandlers["textScrolling"] = ([(0x1274, "h")],
1478	CLI.bool2str, CLI.str2bool)
1479
1480	self._valueHandlers["messageDuration"] = ([(0x32fa, "h")],
1481	lambda value: value,
1482	lambda word: int(word))
1483	self._valueHandlers["message"] = ([(0x3380, -128)],
1484	lambda value: value,
1485	lambda word: word)
1486
1487	for i in range(0, Values.HOTKEY_SIZE):
1488	self._valueHandlers["hotkey%d" % (i,)] = ([(0x3210 + i*4, "u")],
1489	lambda value: "0x%08x" % (value,),
1490	lambda word: int(word, 16))
1491
1492	self._valueHandlers["cog"] = ([(0x2ef8, "f")], lambda value: value,
1493	lambda word: float(word))
1494
1495	self._valueHandlers["pmdg_737ng_switches"] = ([(0x6202, "b")],
1496	lambda value: value,
1497	lambda word: int(word))
1498
1499	self._valueHandlers["pmdg_737ngx_lts_positionsw"] = ([(0x6500, "b")],
1500	lambda value: value,
1501	lambda word: int(word))
1502	self._valueHandlers["xpdrC"] = ([(0x7b91, "b")],
1503	lambda value: value,
1504	lambda word: int(word))
1505
1506	self._valueHandlers["apMaster"] = ([(0x07bc, "u")],
1507	CLI.bool2str, CLI.str2bool)
1508	self._valueHandlers["apHeadingHold"] = ([(0x07c8, "u")],
1509	CLI.bool2str, CLI.str2bool)
1510	self._valueHandlers["apHeading"] = ([(0x07cc, "H")],
1511	CLI.pyuipc2heading,
1512	CLI.heading2pyuipc)
1513	self._valueHandlers["apAltitudeHold"] = ([(0x07d0, "u")],
1514	CLI.bool2str, CLI.str2bool)
1515	self._valueHandlers["apAltitude"] = ([(0x07d4, "H")],
1516	CLI.pyuipc2altitude,
1517	CLI.altitude2pyuipc)
1518
1519	self._valueHandlers["trim"] = ([(0x2ea0, "f")],
1520	lambda value: value * 180.0 / math.pi,
1521	lambda word:
1522	float(word) * math.pi / 180.0)
1523
1524	self._valueHandlers["eng1Deice"] = ([(0x08b2, "H")],
1525	CLI.bool2str, CLI.str2bool)
1526	self._valueHandlers["eng2Deice"] = ([(0x094a, "H")],
1527	CLI.bool2str, CLI.str2bool)
1528	self._valueHandlers["eng3Deice"] = ([(0x09e2, "H")],
1529	CLI.bool2str, CLI.str2bool)
1530	self._valueHandlers["eng4Deice"] = ([(0x0a7a, "H")],
1531	CLI.bool2str, CLI.str2bool)
1532	self._valueHandlers["propDeice"] = ([(0x337c, "b")],
1533	CLI.bool2str, CLI.str2bool)
1534	self._valueHandlers["structDeice"] = ([(0x337d, "b")],
1535	CLI.bool2str, CLI.str2bool)
1536
1537	def default(self, line):
1538	"""Handle unhandle commands."""
1539	if line=="EOF":
1540	print()
1541	return self.do_quit("")
1542	else:
1543	return super(CLI, self).default(line)
1544
1545	def do_get(self, args):
1546	"""Handle the get command."""
1547	names = args.split()
1548	data = []
1549	for name in names:
1550	if name not in self._valueHandlers:
1551	print("Unknown variable: " + name, file=sys.stderr)
1552	return False
1553	valueHandler = self._valueHandlers[name]
1554	data += valueHandler[0]
1555
1556	try:
1557	results = self._client.read(data)
1558	index = 0
1559	i = 0
1560	while index<len(results):
1561	name = names[i]
1562	valueHandler = self._valueHandlers[name]
1563	numResults = len(valueHandler[0])
1564	thisResults = results[index:index+numResults]
1565	value = valueHandler[1](thisResults[0] if numResults==1
1566	else thisResults)
1567
1568	print(name + "=" + str(value))
1569
1570	index += numResults
1571	i+=1
1572	except Exception as e:
1573	print("Failed to read data: " + str(e), file=sys.stderr)
1574
1575	return False
1576
1577	def help_get(self):
1578	"""Print help for the get command."""
1579	print("get <variable> [<variable>...]")
1580
1581	def complete_get(self, text, line, begidx, endidx):
1582	"""Try to complete the get command."""
1583	return [key for key in self._valueHandlers if key.startswith(text)]
1584
1585	def do_set(self, args):
1586	"""Handle the set command."""
1587	arguments = []
1588	inWord = False
1589	inQuote = False
1590	word = ""
1591	for c in args:
1592	if c.isspace() and not inQuote:
1593	if inWord:
1594	arguments.append(word)
1595	word = ""
1596	inWord = False
1597	elif c=='"':
1598	inQuote = not inQuote
1599	else:
1600	inWord = True
1601	word += c
1602
1603	if inWord:
1604	arguments.append(word)
1605
1606	names = []
1607	data = []
1608	for argument in arguments:
1609	words = argument.split("=")
1610	if len(words)!=2:
1611	print("Invalid argument: " + argument, file=sys.stderr)
1612	return False
1613
1614	(name, value) = words
1615	if name not in self._valueHandlers:
1616	print("Unknown variable: " + name, file=sys.stderr)
1617	return False
1618
1619	valueHandler = self._valueHandlers[name]
1620	try:
1621	values = valueHandler[2](value)
1622	if len(valueHandler[0])==1:
1623	values = [values]
1624	index = 0
1625	for (offset, type) in valueHandler[0]:
1626	data.append((offset, type, values[index]))
1627	index += 1
1628	except Exception as e:
1629	print("Invalid value '%s' for variable %s: %s" % \
1630	(value, name, str(e)), file=sys.stderr)
1631	return False
1632
1633	try:
1634	self._client.write(data)
1635	print("Data written")
1636	except Exception as e:
1637	print("Failed to write data: " + str(e), file=sys.stderr)
1638
1639	return False
1640
1641	def help_set(self):
1642	"""Print help for the set command."""
1643	print("set <variable>=<value> [<variable>=<value>...]")
1644
1645	def complete_set(self, text, line, begidx, endidx):
1646	"""Try to complete the set command."""
1647	if not text and begidx>0 and line[begidx-1]=="=":
1648	return []
1649	else:
1650	return [key + "=" for key in self._valueHandlers if key.startswith(text)]
1651
1652	def do_setversion(self, args):
1653	"""Set the version number to simulate"""
1654	try:
1655	value = int(args)
1656	self._client.setVersion(value)
1657	print("Emulating version %d" % (value,))
1658	except Exception as e:
1659	print("Failed to set the version: " + str(e), file=sys.stderr)
1660
1661	def help_setversion(self, usage = False):
1662	"""Help for the setversion command"""
1663	if usage: print("Usage:", end=' ')
1664	print("setversion <number>")
1665
1666	def do_close(self, args):
1667	"""Close an existing connection so that FS will fail."""
1668	try:
1669	self._client.close()
1670	print("Connection closed")
1671	except Exception as e:
1672	print("Failed to close the connection: " + str(e), file=sys.stderr)
1673
1674	def do_failopen(self, args):
1675	"""Enable/disable the failing of opens."""
1676	try:
1677	value = self.str2bool(args)
1678	self._client.failOpen(value)
1679	print("Opening will%s fail" % ("" if value else " not",))
1680	except Exception as e:
1681	print("Failed to set open failure: " + str(e), file=sys.stderr)
1682
1683	def help_failopen(self, usage = False):
1684	"""Help for the failopen command"""
1685	if usage: print("Usage:", end=' ')
1686	print("failopen yes\|no")
1687
1688	def complete_failopen(self, text, line, begidx, endidx):
1689	if text:
1690	if "yes".startswith(text): return ["yes"]
1691	elif "no".startswith(text): return ["no"]
1692	else: return []
1693	else:
1694	return ["yes", "no"]
1695
1696	def do_quit(self, args):
1697	"""Handle the quit command."""
1698	self._client.quit()
1699	return True
1700
1701	#------------------------------------------------------------------------------
1702
1703	if __name__ == "__main__":
1704	CLI().cmdloop()
1705	else:
1706	server = Server()
1707	server.start()
1708
1709	#------------------------------------------------------------------------------

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