-from config import config, ConfigSubsection, ConfigSelection, ConfigFloat, ConfigSatlist, ConfigYesNo, ConfigInteger, ConfigSubList, ConfigNothing, ConfigSubDict, ConfigOnOff, ConfigDateTime
+from Tools.HardwareInfo import HardwareInfo
+
+from config import config, ConfigSubsection, ConfigSelection, ConfigFloat, \
+ ConfigSatlist, ConfigYesNo, ConfigInteger, ConfigSubList, ConfigNothing, \
+ ConfigSubDict, ConfigOnOff, ConfigDateTime
from enigma import eDVBSatelliteEquipmentControl as secClass, \
eDVBSatelliteLNBParameters as lnbParam, \
eDVBSatelliteRotorParameters as rotorParam, \
eDVBResourceManager, eDVBDB
-#from xml.sax import make_parser
-#from xml.sax.handler import ContentHandler
-
from time import localtime, mktime
from datetime import datetime
return procFile
class SecConfigure:
- def addLNBSimple(self, sec, slotid, diseqcmode, toneburstmode = diseqcParam.NO, diseqcpos = diseqcParam.SENDNO, orbpos = 0, longitude = 0, latitude = 0, loDirection = 0, laDirection = 0, turningSpeed = rotorParam.FAST, useInputPower=True, inputPowerDelta=50):
+ def getConfiguredSats(self):
+ return self.configuredSatellites
+
+ def addSatellite(self, sec, orbpos):
+ sec.addSatellite(orbpos)
+ self.configuredSatellites.add(orbpos)
+
+ def addLNBSimple(self, sec, slotid, diseqcmode, toneburstmode = diseqcParam.NO, diseqcpos = diseqcParam.SENDNO, orbpos = 0, longitude = 0, latitude = 0, loDirection = 0, laDirection = 0, turningSpeed = rotorParam.FAST, useInputPower=True, inputPowerDelta=50, fastDiSEqC = False, setVoltageTone = True, diseqc13V = False):
+ if orbpos is None or orbpos == 3601:
+ return
#simple defaults
sec.addLNB()
tunermask = 1 << slotid
if self.equal.has_key(slotid):
- tunermask |= (1 << self.equal[slotid])
+ for slot in self.equal[slotid]:
+ tunermask |= (1 << slot)
elif self.linked.has_key(slotid):
- tunermask |= (1 << self.linked[slotid])
+ for slot in self.linked[slotid]:
+ tunermask |= (1 << slot)
+ sec.setLNBSatCR(-1)
+ sec.setLNBNum(1)
sec.setLNBLOFL(9750000)
sec.setLNBLOFH(10600000)
sec.setLNBThreshold(11700000)
sec.setLNBIncreasedVoltage(lnbParam.OFF)
sec.setRepeats(0)
- sec.setFastDiSEqC(0)
+ sec.setFastDiSEqC(fastDiSEqC)
sec.setSeqRepeat(0)
- sec.setVoltageMode(switchParam.HV)
- sec.setToneMode(switchParam.HILO)
sec.setCommandOrder(0)
#user values
#print "set orbpos to:" + str(orbpos)
if 0 <= diseqcmode < 3:
- sec.addSatellite(orbpos)
- self.satList.append(orbpos)
+ self.addSatellite(sec, orbpos)
+ if setVoltageTone:
+ if diseqc13V:
+ sec.setVoltageMode(switchParam.HV_13)
+ else:
+ sec.setVoltageMode(switchParam.HV)
+ sec.setToneMode(switchParam.HILO)
+ else:
+ sec.setVoltageMode(switchParam._14V)
+ sec.setToneMode(switchParam.OFF)
elif (diseqcmode == 3): # diseqc 1.2
if self.satposdepends.has_key(slotid):
- tunermask |= (1 << self.satposdepends[slotid])
+ for slot in self.satposdepends[slotid]:
+ tunermask |= (1 << slot)
sec.setLatitude(latitude)
sec.setLaDirection(laDirection)
sec.setLongitude(longitude)
for x in self.NimManager.satList:
print "Add sat " + str(x[0])
- sec.addSatellite(int(x[0]))
- sec.setVoltageMode(0)
- sec.setToneMode(0)
+ self.addSatellite(sec, int(x[0]))
+ if diseqc13V:
+ sec.setVoltageMode(switchParam.HV_13)
+ else:
+ sec.setVoltageMode(switchParam.HV)
+ sec.setToneMode(switchParam.HILO)
sec.setRotorPosNum(0) # USALS
- self.satList.append(int(x[0]))
-
+
sec.setLNBSlotMask(tunermask)
def setSatposDepends(self, sec, nim1, nim2):
def linkNIMs(self, sec, nim1, nim2):
print "link tuner", nim1, "to tuner", nim2
sec.setTunerLinked(nim1, nim2)
-
- def getSatList(self):
- return self.satList
+
+ def getRoot(self, slotid, connto):
+ visited = []
+ while (self.NimManager.getNimConfig(connto).configMode.value in ["satposdepends", "equal", "loopthrough"]):
+ connto = int(self.NimManager.getNimConfig(connto).connectedTo.value)
+ if connto in visited: # prevent endless loop
+ return slotid
+ visited.append(connto)
+ return connto
def update(self):
sec = secClass.getInstance()
+ self.configuredSatellites = set()
sec.clear() ## this do unlinking NIMs too !!
print "sec config cleared"
- self.satList = []
self.linked = { }
self.satposdepends = { }
for slot in nim_slots:
if slot.type is not None:
- used_nim_slots.append((slot.slot, slot.description, slot.config.configMode.value != "nothing" and True or False))
+ used_nim_slots.append((slot.slot, slot.description, slot.config.configMode.value != "nothing" and True or False, slot.isCompatible("DVB-S2")))
eDVBResourceManager.getInstance().setFrontendSlotInformations(used_nim_slots)
for slot in nim_slots:
# save what nim we link to/are equal to/satposdepends to.
# this is stored in the *value* (not index!) of the config list
if nim.configMode.value == "equal":
- self.equal[int(nim.equalTo.value)]=x
+ connto = self.getRoot(x, int(nim.connectedTo.value))
+ if not self.equal.has_key(connto):
+ self.equal[connto] = []
+ self.equal[connto].append(x)
elif nim.configMode.value == "loopthrough":
- self.linkNIMs(sec, x, int(nim.linkedTo.value))
- self.linked[int(nim.linkedTo.value)]=x
+ self.linkNIMs(sec, x, int(nim.connectedTo.value))
+ connto = self.getRoot(x, int(nim.connectedTo.value))
+ if not self.linked.has_key(connto):
+ self.linked[connto] = []
+ self.linked[connto].append(x)
elif nim.configMode.value == "satposdepends":
- self.setSatposDepends(sec, x, int(nim.satposDependsTo.value))
- self.satposdepends[int(nim.satposDependsTo.value)]=x
+ self.setSatposDepends(sec, x, int(nim.connectedTo.value))
+ connto = self.getRoot(x, int(nim.connectedTo.value))
+ if not self.satposdepends.has_key(connto):
+ self.satposdepends[connto] = []
+ self.satposdepends[connto].append(x)
for slot in nim_slots:
x = slot.slot
nim = slot.config
+ hw = HardwareInfo()
if slot.isCompatible("DVB-S"):
print "slot: " + str(x) + " configmode: " + str(nim.configMode.value)
- print "diseqcmode: ", nim.configMode.value
if nim.configMode.value in [ "loopthrough", "satposdepends", "nothing" ]:
pass
else:
if nim.configMode.value == "equal":
pass
elif nim.configMode.value == "simple": #simple config
+ print "diseqcmode: ", nim.diseqcMode.value
if nim.diseqcMode.value == "single": #single
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.NONE, diseqcpos = diseqcParam.SENDNO)
+ if nim.simpleSingleSendDiSEqC.value:
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AA, diseqc13V = nim.diseqc13V.value)
+ else:
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.NONE, diseqcpos = diseqcParam.SENDNO, diseqc13V = nim.diseqc13V.value)
elif nim.diseqcMode.value == "toneburst_a_b": #Toneburst A/B
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.A, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.SENDNO)
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.B, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.SENDNO)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.A, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.SENDNO, diseqc13V = nim.diseqc13V.value)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.B, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.SENDNO, diseqc13V = nim.diseqc13V.value)
elif nim.diseqcMode.value == "diseqc_a_b": #DiSEqC A/B
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AA)
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AB)
+ fastDiSEqC = nim.simpleDiSEqCOnlyOnSatChange.value
+ setVoltageTone = nim.simpleDiSEqCSetVoltageTone.value
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AA, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AB, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
elif nim.diseqcMode.value == "diseqc_a_b_c_d": #DiSEqC A/B/C/D
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AA)
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AB)
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcC.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.BA)
- self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcD.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.BB)
+ fastDiSEqC = nim.simpleDiSEqCOnlyOnSatChange.value
+ setVoltageTone = nim.simpleDiSEqCSetVoltageTone.value
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcA.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AA, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcB.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.AB, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcC.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.BA, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
+ self.addLNBSimple(sec, slotid = x, orbpos = nim.diseqcD.orbital_position, toneburstmode = diseqcParam.NO, diseqcmode = diseqcParam.V1_0, diseqcpos = diseqcParam.BB, fastDiSEqC = fastDiSEqC, setVoltageTone = setVoltageTone, diseqc13V = nim.diseqc13V.value)
elif nim.diseqcMode.value == "positioner": #Positioner
if nim.latitudeOrientation.value == "north":
laValue = rotorParam.NORTH
loValue = rotorParam.EAST
else:
loValue = rotorParam.WEST
- inputPowerDelta=50
+ inputPowerDelta=nim.powerThreshold.value
useInputPower=False
turning_speed=0
if nim.powerMeasurement.value:
useInputPower=True
- inputPowerDelta=nim.powerThreshold.value
turn_speed_dict = { "fast": rotorParam.FAST, "slow": rotorParam.SLOW }
if turn_speed_dict.has_key(nim.turningSpeed.value):
turning_speed = turn_speed_dict[nim.turningSpeed.value]
laDirection = laValue,
turningSpeed = turning_speed,
useInputPower = useInputPower,
- inputPowerDelta = inputPowerDelta)
+ inputPowerDelta = inputPowerDelta,
+ diseqc13V = nim.diseqc13V.value)
elif nim.configMode.value == "advanced": #advanced config
self.updateAdvanced(sec, x)
print "sec config completed"
def updateAdvanced(self, sec, slotid):
lnbSat = {}
- for x in range(1,33):
+ for x in range(1,37):
lnbSat[x] = []
+
+ #wildcard for all satellites ( for rotor )
+ for x in range(3601, 3605):
+ lnb = int(config.Nims[slotid].advanced.sat[x].lnb.value)
+ if lnb != 0:
+ for x in self.NimManager.satList:
+ print "add", x[0], "to", lnb
+ lnbSat[lnb].append(x[0])
+
for x in self.NimManager.satList:
lnb = int(config.Nims[slotid].advanced.sat[x[0]].lnb.value)
if lnb != 0:
print "add", x[0], "to", lnb
lnbSat[lnb].append(x[0])
- for x in range(1,33):
+
+ for x in range(1,37):
if len(lnbSat[x]) > 0:
currLnb = config.Nims[slotid].advanced.lnb[x]
sec.addLNB()
+ if x < 33:
+ sec.setLNBNum(x)
+
tunermask = 1 << slotid
if self.equal.has_key(slotid):
- tunermask |= (1 << self.equal[slotid])
+ for slot in self.equal[slotid]:
+ tunermask |= (1 << slot)
elif self.linked.has_key(slotid):
- tunermask |= (1 << self.linked[slotid])
+ for slot in self.linked[slotid]:
+ tunermask |= (1 << slot)
+
+ if currLnb.lof.value != "unicable":
+ sec.setLNBSatCR(-1)
if currLnb.lof.value == "universal_lnb":
sec.setLNBLOFL(9750000)
sec.setLNBLOFH(10600000)
sec.setLNBThreshold(11700000)
+ elif currLnb.lof.value == "unicable":
+ sec.setLNBLOFL(9750000)
+ sec.setLNBLOFH(10600000)
+ sec.setLNBThreshold(11700000)
+ if currLnb.unicable.value == "unicable_user":
+ sec.setLNBSatCR(currLnb.satcruser.index)
+ sec.setLNBSatCRvco(currLnb.satcrvcouser[currLnb.satcruser.index].value*1000)
+ elif currLnb.unicable.value == "unicable_matrix":
+ manufacturer_name = currLnb.unicableMatrixManufacturer.value
+ manufacturer = currLnb.unicableMatrix[manufacturer_name]
+ product_name = manufacturer.product.value
+ sec.setLNBSatCR(manufacturer.scr[product_name].index)
+ sec.setLNBSatCRvco(manufacturer.vco[product_name][manufacturer.scr[product_name].index].value*1000)
+ elif currLnb.unicable.value == "unicable_lnb":
+ manufacturer_name = currLnb.unicableMatrixManufacturer.value
+ manufacturer = currLnb.unicableMatrix[manufacturer_name]
+ product_name = manufacturer.product.value
+ sec.setLNBSatCR(manufacturer.scr[product_name].index)
+ sec.setLNBSatCRvco(manufacturer.vco[product_name][manufacturer.scr[product_name].index].value*1000)
elif currLnb.lof.value == "c_band":
sec.setLNBLOFL(5150000)
sec.setLNBLOFH(5150000)
elif dm == "1_2":
sec.setDiSEqCMode(diseqcParam.V1_2)
- if self.satposdepends.has_key(slotid): # only useable with rotors
- tunermask |= (1 << self.satposdepends[slotid])
+ if self.satposdepends.has_key(slotid):
+ for slot in self.satposdepends[slotid]:
+ tunermask |= (1 << slot)
if dm != "none":
if currLnb.toneburst.value == "none":
sec.setLNBSlotMask(tunermask)
+ sec.setLNBPrio(int(currLnb.prio.value))
+
# finally add the orbital positions
for y in lnbSat[x]:
- sec.addSatellite(y)
- currSat = config.Nims[slotid].advanced.sat[y]
-
+ self.addSatellite(sec, y)
+ if x > 32:
+ satpos = x > 32 and (3604-(36 - x)) or y
+ else:
+ satpos = y
+ currSat = config.Nims[slotid].advanced.sat[satpos]
if currSat.voltage.value == "polarization":
- sec.setVoltageMode(switchParam.HV)
+ if config.Nims[slotid].diseqc13V.value:
+ sec.setVoltageMode(switchParam.HV_13)
+ else:
+ sec.setVoltageMode(switchParam.HV)
elif currSat.voltage.value == "13V":
sec.setVoltageMode(switchParam._14V)
elif currSat.voltage.value == "18V":
sec.setVoltageMode(switchParam._18V)
-
- if currSat.tonemode == "band":
+
+ if currSat.tonemode.value == "band":
sec.setToneMode(switchParam.HILO)
- elif currSat.tonemode == "on":
+ elif currSat.tonemode.value == "on":
sec.setToneMode(switchParam.ON)
- elif currSat.tonemode == "off":
+ elif currSat.tonemode.value == "off":
sec.setToneMode(switchParam.OFF)
- if not currSat.usals.value:
+ if not currSat.usals.value and x < 34:
sec.setRotorPosNum(currSat.rotorposition.value)
else:
sec.setRotorPosNum(0) #USALS
def __init__(self, nimmgr):
self.NimManager = nimmgr
+ self.configuredSatellites = set()
self.update()
class NIM(object):
- def __init__(self, slot, type, description):
+ def __init__(self, slot, type, description, has_outputs = True, internally_connectable = None):
self.slot = slot
if type not in ["DVB-S", "DVB-C", "DVB-T", "DVB-S2", None]:
self.type = type
self.description = description
+ self.has_outputs = has_outputs
+ self.internally_connectable = internally_connectable
def isCompatible(self, what):
compatible = {
"DVB-S2": ["DVB-S", "DVB-S2", None]
}
return what in compatible[self.type]
+
+ def connectableTo(self):
+ connectable = {
+ "DVB-S": ["DVB-S", "DVB-S2"],
+ "DVB-C": ["DVB-C"],
+ "DVB-T": ["DVB-T"],
+ "DVB-S2": ["DVB-S", "DVB-S2"]
+ }
+ return connectable[self.type]
def getSlotName(self):
# get a friendly description for a slot name.
def getSlotID(self):
return chr(ord('A') + self.slot)
+
+ def hasOutputs(self):
+ return self.has_outputs
+
+ def internallyConnectableTo(self):
+ return self.internally_connectable
slot_id = property(getSlotID)
empty = property(lambda self: self.type is None)
class NimManager:
-# class parseSats(ContentHandler):
-# def __init__(self, satList, satellites, transponders):
-# self.isPointsElement, self.isReboundsElement = 0, 0
-# self.satList = satList
-# self.satellites = satellites
-# self.transponders = transponders
-#
-# def startElement(self, name, attrs):
-# if (name == "sat"):
-# #print "found sat " + attrs.get('name',"") + " " + str(attrs.get('position',""))
-# tpos = int(attrs.get('position',""))
-# if tpos < 0:
-# tpos = 3600 + tpos
-# tname = attrs.get('name',"").encode("UTF-8")
-# tflags = int(attrs.get('flags', '0'))
-# self.satellites[tpos] = tname
-# self.satList.append( (tpos, tname, tflags) )
-# self.parsedSat = int(tpos)
-# elif (name == "transponder"):
-# modulation = int(attrs.get('modulation',"1")) # QPSK default
-# system = int(attrs.get('system',"0")) # DVB-S default
-# freq = int(attrs.get('frequency',""))
-# sr = int(attrs.get('symbol_rate',""))
-# pol = int(attrs.get('polarization',""))
-# fec = int(attrs.get('fec_inner',"0")) # AUTO default
-# if self.parsedSat in self.transponders:
-# pass
-# else:
-# self.transponders[self.parsedSat] = [ ]
-#
-# self.transponders[self.parsedSat].append((0, freq, sr, pol, fec, system, modulation))
-
-# class parseCables(ContentHandler):
-# def __init__(self, cablesList, transponders):
-# self.isPointsElement, self.isReboundsElement = 0, 0
-# self.cablesList = cablesList
-# for x in self.cablesList:
-# self.cablesList.remove(x)
-# self.transponders = transponders
-#
-# def startElement(self, name, attrs):
-# if (name == "cable"):
-# #print "found sat " + attrs.get('name',"") + " " + str(attrs.get('position',""))
-# tname = attrs.get('name',"").encode("UTF-8")
-# tflags = int(attrs.get('flags', '0'))
-# self.cablesList.append((tname, tflags))
-# self.parsedCab = tname
-# elif (name == "transponder"):
-# freq = int(attrs.get('frequency',""))
-# while freq > 999999:
-# freq /= 10
-# sr = int(attrs.get('symbol_rate',"0"))
-# mod = int(attrs.get('modulation',"3")) # QAM64 default
-# fec = int(attrs.get('fec_inner',"0")) # AUTO default
-# if self.parsedCab in self.transponders:
-# pass
-# else:
-# self.transponders[self.parsedCab] = [ ]
-# self.transponders[self.parsedCab].append((1, freq, sr, mod, fec))
-#
-# class parseTerrestrials(ContentHandler):
-# def __init__(self, terrestrialsList, transponders):
-# self.isPointsElement, self.isReboundsElement = 0, 0
-# self.terrestrialsList = terrestrialsList
-# self.transponders = transponders
-#
-# def startElement(self, name, attrs):
-# if (name == "terrestrial"):
-# #print "found sat " + attrs.get('name',"") + " " + str(attrs.get('position',""))
-# tname = attrs.get('name',"").encode("UTF-8")
-# tflags = int(attrs.get('flags', '0'))
-# self.terrestrialsList.append((tname, tflags))
-# self.parsedTer = str(tname)
-# elif (name == "transponder"):
-# # TODO finish this!
-# freq = int(attrs.get('centre_frequency',""))
-# bw = int(attrs.get('bandwidth',"3")) # AUTO
-# const = int(attrs.get('constellation',"1")) # AUTO
-# crh = int(attrs.get('code_rate_hp',"5")) # AUTO
-# if crh > 5: # our terrestrial.xml is buggy... 6 for AUTO
-# crh = 5
-# crl = int(attrs.get('code_rate_lp',"5")) # AUTO
-# if crl > 5: # our terrestrial.xml is buggy... 6 for AUTO
-# crl = 5
-# guard = int(attrs.get('guard_interval',"4")) # AUTO
-# transm = int(attrs.get('transmission_mode',"2")) # AUTO
-# hierarchy = int(attrs.get('hierarchy_information',"4")) # AUTO
-# inv = int(attrs.get('inversion',"2")) # AUTO
-# if self.parsedTer in self.transponders:
-# pass
-# else:
-# self.transponders[self.parsedTer] = [ ]
-#
-# self.transponders[self.parsedTer].append((2, freq, bw, const, crh, crl, guard, transm, hierarchy, inv))
+ def getConfiguredSats(self):
+ return self.sec.getConfiguredSats()
def getTransponders(self, pos):
if self.transponders.has_key(pos):
def getTerrestrialFlags(self, nim):
return self.terrestrialsList[config.Nims[nim].terrestrial.index][1]
- def getConfiguredSats(self):
- return self.sec.getSatList()
-
def getSatDescription(self, pos):
return self.satellites[pos]
self.transponderscable = { }
self.transpondersterrestrial = { }
db = eDVBDB.getInstance()
-
-# parser = make_parser()
if self.hasNimType("DVB-S"):
print "Reading satellites.xml"
-# satHandler = self.parseSats(self.satList, self.satellites, self.transponders)
-# parser.setContentHandler(satHandler)
-# parser.parse('/etc/tuxbox/satellites.xml')
db.readSatellites(self.satList, self.satellites, self.transponders)
# print "SATLIST", self.satList
# print "SATS", self.satellites
if self.hasNimType("DVB-C"):
print "Reading cables.xml"
-# cabHandler = self.parseCables(self.cablesList, self.transponderscable)
-# parser.setContentHandler(cabHandler)
-# parser.parse('/etc/tuxbox/cables.xml')
db.readCables(self.cablesList, self.transponderscable)
# print "CABLIST", self.cablesList
# print "TRANSPONDERS", self.transponders
if self.hasNimType("DVB-T"):
print "Reading terrestrial.xml"
-# terHandler = self.parseTerrestrials(self.terrestrialsList, self.transpondersterrestrial)
-# parser.setContentHandler(terHandler)
-# parser.parse('/etc/tuxbox/terrestrial.xml')
db.readTerrestrials(self.terrestrialsList, self.transpondersterrestrial)
# print "TERLIST", self.terrestrialsList
# print "TRANSPONDERS", self.transpondersterrestrial
entries[current_slot]["type"] = str(line.strip()[6:])
elif line.strip().startswith("Name:"):
entries[current_slot]["name"] = str(line.strip()[6:])
+ elif line.strip().startswith("Has_Outputs:"):
+ input = str(line.strip()[len("Has_Outputs:") + 1:])
+ entries[current_slot]["has_outputs"] = (input == "yes")
+ elif line.strip().startswith("Internally_Connectable:"):
+ input = int(line.strip()[len("Internally_Connectable:") + 1:])
+ entries[current_slot]["internally_connectable"] = input
elif line.strip().startswith("empty"):
entries[current_slot]["type"] = None
entries[current_slot]["name"] = _("N/A")
if not (entry.has_key("name") and entry.has_key("type")):
entry["name"] = _("N/A")
entry["type"] = None
- self.nim_slots.append(NIM(slot = id, description = entry["name"], type = entry["type"]))
+ if not (entry.has_key("has_outputs")):
+ entry["has_outputs"] = True
+ if not (entry.has_key("internally_connectable")):
+ entry["internally_connectable"] = None
+ self.nim_slots.append(NIM(slot = id, description = entry["name"], type = entry["type"], has_outputs = entry["has_outputs"], internally_connectable = entry["internally_connectable"]))
def hasNimType(self, chktype):
for slot in self.nim_slots:
if slot.isCompatible(chktype):
return True
return False
+
+ def getNimType(self, slotid):
+ return self.nim_slots[slotid].type
+
+ def getNimDescription(self, slotid):
+ return self.nim_slots[slotid].friendly_full_description
def getNimListOfType(self, type, exception = -1):
# returns a list of indexes for NIMs compatible to the given type, except for 'exception'
for slot in self.nim_slots:
list.append(slot.friendly_full_description)
return list
+
+ def getSlotCount(self):
+ return len(self.nim_slots)
+
+ def hasOutputs(self, slotid):
+ return self.nim_slots[slotid].hasOutputs()
+
+ def canConnectTo(self, slotid):
+ slots = []
+ if self.nim_slots[slotid].internallyConnectableTo() is not None:
+ slots.append(self.nim_slots[slotid].internallyConnectableTo())
+ for type in self.nim_slots[slotid].connectableTo():
+ for slot in self.getNimListOfType(type, exception = slotid):
+ if self.hasOutputs(slot):
+ slots.append(slot)
+ # remove nims, that have a conntectedTo reference on
+ for testnim in slots[:]:
+ for nim in self.getNimListOfType("DVB-S", slotid):
+ nimConfig = self.getNimConfig(nim)
+ if nimConfig.content.items.has_key("configMode") and nimConfig.configMode.value == "loopthrough" and int(nimConfig.connectedTo.value) == testnim:
+ slots.remove(testnim)
+ break
+ slots.sort()
+
+ return slots
+
+ def canEqualTo(self, slotid):
+ type = self.getNimType(slotid)
+ if type == "DVB-S2":
+ type = "DVB-S"
+ nimList = self.getNimListOfType(type, slotid)
+ for nim in nimList[:]:
+ mode = self.getNimConfig(nim)
+ if mode.configMode.value == "loopthrough" or mode.configMode.value == "satposdepends":
+ nimList.remove(nim)
+ return nimList
+
+ def canDependOn(self, slotid):
+ type = self.getNimType(slotid)
+ if type == "DVB-S2":
+ type = "DVB-S"
+ nimList = self.getNimListOfType(type, slotid)
+ positionerList = []
+ for nim in nimList[:]:
+ mode = self.getNimConfig(nim)
+ nimHaveRotor = mode.configMode.value == "simple" and mode.diseqcMode.value == "positioner"
+ if not nimHaveRotor and mode.configMode.value == "advanced":
+ for x in range(3601, 3605):
+ lnb = int(mode.advanced.sat[x].lnb.value)
+ if lnb != 0:
+ nimHaveRotor = True
+ break
+ if not nimHaveRotor:
+ for sat in mode.advanced.sat.values():
+ lnb_num = int(sat.lnb.value)
+ diseqcmode = lnb_num and mode.advanced.lnb[lnb_num].diseqcMode.value or ""
+ if diseqcmode == "1_2":
+ nimHaveRotor = True
+ break
+ if nimHaveRotor:
+ alreadyConnected = False
+ for testnim in nimList:
+ testmode = self.getNimConfig(testnim)
+ if testmode.configMode.value == "satposdepends" and int(testmode.connectedTo.value) == int(nim):
+ alreadyConnected = True
+ break
+ if not alreadyConnected:
+ positionerList.append(nim)
+ return positionerList
+
+ def getNimConfig(self, slotid):
+ return config.Nims[slotid]
+
+ def getSatName(self, pos):
+ for sat in self.satList:
+ if sat[0] == pos:
+ return sat[1]
+ return _("N/A")
def getSatList(self):
return self.satList
def getSatListForNim(self, slotid):
list = []
if self.nim_slots[slotid].isCompatible("DVB-S"):
+ nim = config.Nims[slotid]
#print "slotid:", slotid
#print "self.satellites:", self.satList[config.Nims[slotid].diseqcA.index]
#print "diseqcA:", config.Nims[slotid].diseqcA.value
- configMode = config.Nims[slotid].configMode.value
+ configMode = nim.configMode.value
if configMode == "equal":
- slotid=0 #FIXME add handling for more than two tuners !!!
- configMode = config.Nims[slotid].configMode.value
+ slotid = int(nim.connectedTo.value)
+ nim = config.Nims[slotid]
+ configMode = nim.configMode.value
+ elif configMode == "loopthrough":
+ slotid = self.sec.getRoot(slotid, int(nim.connectedTo.value))
+ nim = config.Nims[slotid]
+ configMode = nim.configMode.value
if configMode == "simple":
- dm = config.Nims[slotid].diseqcMode.value
+ dm = nim.diseqcMode.value
if dm in ["single", "toneburst_a_b", "diseqc_a_b", "diseqc_a_b_c_d"]:
- list.append(self.satList[config.Nims[slotid].diseqcA.index])
+ if nim.diseqcA.orbital_position != 3601:
+ list.append(self.satList[nim.diseqcA.index-1])
if dm in ["toneburst_a_b", "diseqc_a_b", "diseqc_a_b_c_d"]:
- list.append(self.satList[config.Nims[slotid].diseqcB.index])
+ if nim.diseqcB.orbital_position != 3601:
+ list.append(self.satList[nim.diseqcB.index-1])
if dm == "diseqc_a_b_c_d":
- list.append(self.satList[config.Nims[slotid].diseqcC.index])
- list.append(self.satList[config.Nims[slotid].diseqcD.index])
+ if nim.diseqcC.orbital_position != 3601:
+ list.append(self.satList[nim.diseqcC.index-1])
+ if nim.diseqcD.orbital_position != 3601:
+ list.append(self.satList[nim.diseqcD.index-1])
if dm == "positioner":
for x in self.satList:
list.append(x)
elif configMode == "advanced":
- for x in self.satList:
- if int(config.Nims[slotid].advanced.sat[x[0]].lnb.value) != 0:
- list.append(x)
-
+ for x in range(3601, 3605):
+ if int(nim.advanced.sat[x].lnb.value) != 0:
+ for x in self.satList:
+ list.append(x)
+ if not list:
+ for x in self.satList:
+ if int(nim.advanced.sat[x[0]].lnb.value) != 0:
+ list.append(x)
return list
def getRotorSatListForNim(self, slotid):
list = []
if self.nim_slots[slotid].isCompatible("DVB-S"):
#print "slotid:", slotid
-
#print "self.satellites:", self.satList[config.Nims[slotid].diseqcA.value]
#print "diseqcA:", config.Nims[slotid].diseqcA.value
configMode = config.Nims[slotid].configMode.value
for x in self.satList:
list.append(x)
elif configMode == "advanced":
- for x in self.satList:
- nim = config.Nims[slotid]
- lnbnum = int(nim.advanced.sat[x[0]].lnb.value)
- if lnbnum != 0:
- lnb = nim.advanced.lnb[lnbnum]
- if lnb.diseqcMode.value == "1_2":
+ nim = config.Nims[slotid]
+ for x in range(3601, 3605):
+ if int(nim.advanced.sat[x].lnb.value) != 0:
+ for x in self.satList:
list.append(x)
+ if not list:
+ for x in self.satList:
+ lnbnum = int(nim.advanced.sat[x[0]].lnb.value)
+ if lnbnum != 0:
+ lnb = nim.advanced.lnb[lnbnum]
+ if lnb.diseqcMode.value == "1_2":
+ list.append(x)
return list
def InitSecParams():
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_TONEBURST, configElement.value))
config.sec.delay_after_toneburst = x
+ x = ConfigInteger(default=20, limits = (0, 9999))
+ x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_VOLTAGE_CHANGE_BEFORE_SWITCH_CMDS, configElement.value))
+ config.sec.delay_after_change_voltage_before_switch_command = x
+
x = ConfigInteger(default=200, limits = (0, 9999))
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_ENABLE_VOLTAGE_BEFORE_SWITCH_CMDS, configElement.value))
config.sec.delay_after_enable_voltage_before_switch_command = x
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_BETWEEN_SWITCH_AND_MOTOR_CMD, configElement.value))
config.sec.delay_between_switch_and_motor_command = x
- x = ConfigInteger(default=150, limits = (0, 9999))
+ x = ConfigInteger(default=500, limits = (0, 9999))
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_VOLTAGE_CHANGE_BEFORE_MEASURE_IDLE_INPUTPOWER, configElement.value))
config.sec.delay_after_voltage_change_before_measure_idle_inputpower = x
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_ENABLE_VOLTAGE_BEFORE_MOTOR_CMD, configElement.value))
config.sec.delay_after_enable_voltage_before_motor_command = x
- x = ConfigInteger(default=150, limits = (0, 9999))
+ x = ConfigInteger(default=500, limits = (0, 9999))
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_MOTOR_STOP_CMD, configElement.value))
config.sec.delay_after_motor_stop_command = x
- x = ConfigInteger(default=150, limits = (0, 9999))
+ x = ConfigInteger(default=500, limits = (0, 9999))
x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_VOLTAGE_CHANGE_BEFORE_MOTOR_CMD, configElement.value))
config.sec.delay_after_voltage_change_before_motor_command = x
- x = ConfigInteger(default=120, limits = (0, 9999))
+ x = ConfigInteger(default=70, limits = (0, 9999))
+ x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_BEFORE_SEQUENCE_REPEAT, configElement.value))
+ config.sec.delay_before_sequence_repeat = x
+
+ x = ConfigInteger(default=360, limits = (0, 9999))
x.addNotifier(lambda configElement: secClass.setParam(secClass.MOTOR_RUNNING_TIMEOUT, configElement.value))
config.sec.motor_running_timeout = x
x.addNotifier(lambda configElement: secClass.setParam(secClass.MOTOR_COMMAND_RETRIES, configElement.value))
config.sec.motor_command_retries = x
- x = ConfigInteger(default=20, limits = (0, 9999))
- x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_VOLTAGE_CHANGE_BEFORE_SWITCH_CMDS, configElement.value))
- config.sec.delay_after_change_voltage_before_switch_command = x
+ x = ConfigInteger(default=50, limits = (0, 9999))
+ x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_DISEQC_RESET_CMD, configElement.value))
+ config.sec.delay_after_diseqc_reset_cmd = x
+
+ x = ConfigInteger(default=150, limits = (0, 9999))
+ x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_DISEQC_PERIPHERIAL_POWERON_CMD, configElement.value))
+ config.sec.delay_after_diseqc_peripherial_poweron_cmd = x
# TODO add support for satpos depending nims to advanced nim configuration
# so a second/third/fourth cable from a motorized lnb can used behind a
def InitNimManager(nimmgr):
InitSecParams()
+ hw = HardwareInfo()
config.Nims = ConfigSubList()
for x in range(len(nimmgr.nim_slots)):
config.Nims.append(ConfigSubsection())
+ lnb_choices = {
+ "universal_lnb": _("Universal LNB"),
+ "unicable": _("Unicable"),
+ "c_band": _("C-Band"),
+ "user_defined": _("User defined")}
+ lnb_choices_default = "universal_lnb"
+
+ unicablelnbproducts = {
+ "Humax": {"150 SCR":["1210","1420","1680","2040"]},
+ "Inverto": {"IDLP-40UNIQD+S":["1680","1420","2040","1210"]},
+ "Kathrein": {"UAS481":["1400","1516","1632","1748"]},
+ "Kreiling": {"KR1440":["1680","1420","2040","1210"]},
+ "Radix": {"Unicable LNB":["1680","1420","2040","1210"]},
+ "Wisi": {"OC 05":["1210","1420","1680","2040"]}}
+ UnicableLnbManufacturers = unicablelnbproducts.keys()
+ UnicableLnbManufacturers.sort()
+
+ unicablematrixproducts = {
+ "Ankaro": {
+ "UCS 51440":["1400","1632","1284","1516"],
+ "UCS 51820":["1400","1632","1284","1516","1864","2096","1748","1980"],
+ "UCS 51840":["1400","1632","1284","1516","1864","2096","1748","1980"],
+ "UCS 52240":["1400","1632"],
+ "UCS 52420":["1400","1632","1284","1516"],
+ "UCS 52440":["1400","1632","1284","1516"],
+ "UCS 91440":["1400","1632","1284","1516"],
+ "UCS 91820":["1400","1632","1284","1516","1864","2096","1748","1980"],
+ "UCS 91840":["1400","1632","1284","1516","1864","2096","1748","1980"],
+ "UCS 92240":["1400","1632"],
+ "UCS 92420":["1400","1632","1284","1516"],
+ "UCS 92440":["1400","1632","1284","1516"]},
+ "DCT Delta": {
+ "SUM518":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "SUM918":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "SUM928":["1284","1400","1516","1632","1748","1864","1980","2096"]},
+ "Inverto": {
+ "IDLP-UST11O-CUO1O-8PP":["1076","1178","1280","1382","1484","1586","1688","1790"]},
+ "Kathrein": {
+ "EXR501":["1400","1516","1632","1748"],
+ "EXR551":["1400","1516","1632","1748"],
+ "EXR552":["1400","1516"]},
+ "ROTEK": {
+ "EKL2/1":["1400","1516"],
+ "EKL2/1E":["0","0","1632","1748"]},
+ "Smart": {
+ "DPA 51":["1284","1400","1516","1632","1748","1864","1980","2096"]},
+ "Technisat": {
+ "TechniRouter 5/1x8 G":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "TechniRouter 5/1x8 K":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "TechniRouter 5/2x4 G":["1284","1400","1516","1632"],
+ "TechniRouter 5/2x4 K":["1284","1400","1516","1632"]},
+ "Telstar": {
+ "SCR 5/1x8 G":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "SCR 5/1x8 K":["1284","1400","1516","1632","1748","1864","1980","2096"],
+ "SCR 5/2x4 G":["1284","1400","1516","1632"],
+ "SCR 5/2x4 K":["1284","1400","1516","1632"]}}
+ UnicableMatrixManufacturers = unicablematrixproducts.keys()
+ UnicableMatrixManufacturers.sort()
+
+ unicable_choices = {
+ "unicable_lnb": _("Unicable LNB"),
+ "unicable_matrix": _("Unicable Martix"),
+ "unicable_user": "Unicable "+_("User defined")}
+ unicable_choices_default = "unicable_lnb"
+
+ unicableLnb = ConfigSubDict()
+ for y in unicablelnbproducts:
+ products = unicablelnbproducts[y].keys()
+ products.sort()
+ unicableLnb[y] = ConfigSubsection()
+ unicableLnb[y].product = ConfigSelection(choices = products, default = products[0])
+ unicableLnb[y].scr = ConfigSubDict()
+ unicableLnb[y].vco = ConfigSubDict()
+ for z in products:
+ scrlist = []
+ vcolist = unicablelnbproducts[y][z]
+ unicableLnb[y].vco[z] = ConfigSubList()
+ for cnt in range(1,1+len(vcolist)):
+ scrlist.append(("%d" %cnt,"SCR %d" %cnt))
+ vcofreq = int(vcolist[cnt-1])
+ unicableLnb[y].vco[z].append(ConfigInteger(default=vcofreq, limits = (vcofreq, vcofreq)))
+ unicableLnb[y].scr[z] = ConfigSelection(choices = scrlist, default = scrlist[0][0])
+
+ unicableMatrix = ConfigSubDict()
+
+ for y in unicablematrixproducts:
+ products = unicablematrixproducts[y].keys()
+ products.sort()
+ unicableMatrix[y] = ConfigSubsection()
+ unicableMatrix[y].product = ConfigSelection(choices = products, default = products[0])
+ unicableMatrix[y].scr = ConfigSubDict()
+ unicableMatrix[y].vco = ConfigSubDict()
+ for z in products:
+ scrlist = []
+ vcolist = unicablematrixproducts[y][z]
+ unicableMatrix[y].vco[z] = ConfigSubList()
+ for cnt in range(1,1+len(vcolist)):
+ vcofreq = int(vcolist[cnt-1])
+ if vcofreq == 0:
+ scrlist.append(("%d" %cnt,"SCR %d " %cnt +_("not used")))
+ else:
+ scrlist.append(("%d" %cnt,"SCR %d" %cnt))
+ unicableMatrix[y].vco[z].append(ConfigInteger(default=vcofreq, limits = (vcofreq, vcofreq)))
+ unicableMatrix[y].scr[z] = ConfigSelection(choices = scrlist, default = scrlist[0][0])
+
+ satcrvcouser = ConfigSubList()
+ satcrvcouser.append(ConfigInteger(default=1284, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1400, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1516, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1632, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1748, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1864, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=1980, limits = (0, 9999)))
+ satcrvcouser.append(ConfigInteger(default=2096, limits = (0, 9999)))
+
+ prio_list = [ ("-1", _("Auto")) ]
+ for prio in range(65):
+ prio_list.append((str(prio), str(prio)))
+ for prio in range(14000,14065):
+ prio_list.append((str(prio), str(prio)))
+ for prio in range(19000,19065):
+ prio_list.append((str(prio), str(prio)))
+
for slot in nimmgr.nim_slots:
x = slot.slot
nim = config.Nims[x]
- # HACK: currently, we can only looptrough to socket A
-
if slot.isCompatible("DVB-S"):
- if slot.slot == 0:
- nim.configMode = ConfigSelection(
- choices = {
- "simple": _("simple"),
- "advanced": _("advanced"),
- "nothing": _("nothing connected"),
- },
- default = "simple")
- else:
- nim.configMode = ConfigSelection(
- choices = {
- "equal": _("equal to Socket A"),
- "loopthrough": _("loopthrough to socket A"),
- "nothing": _("nothing connected"),
- "satposdepends": _("second cable of motorized LNB"),
- "simple": _("simple"),
- "advanced": _("advanced")},
- default = "loopthrough")
-
- #important - check if just the 2nd one is LT only and the first one is DVB-S
- # CHECKME: is this logic correct for >2 slots?
- if nim.configMode.value in ["loopthrough", "satposdepends", "equal"]:
- if x == 0: # first one can never be linked to anything
- # reset to simple
- nim.configMode.value = "simple"
- nim.configMode.save()
- else:
- #FIXME: make it better
- for y in nimmgr.nim_slots:
- if y.slot == 0:
- if not y.isCompatible("DVB-S"):
- # reset to simple
- nim.configMode.value = "simple"
- nim.configMode.save()
+ choices = { "nothing": _("nothing connected"),
+ "simple": _("simple"),
+ "advanced": _("advanced")}
+ if len(nimmgr.getNimListOfType(slot.type, exception = x)) > 0:
+ choices["equal"] = _("equal to")
+ choices["satposdepends"] = _("second cable of motorized LNB")
+ if len(nimmgr.canConnectTo(x)) > 0:
+ choices["loopthrough"] = _("loopthrough to")
+ nim.configMode = ConfigSelection(choices = choices, default = "nothing")
+
+# for y in nimmgr.nim_slots:
+# if y.slot == 0:
+# if not y.isCompatible("DVB-S"):
+# # reset to simple
+# nim.configMode.value = "simple"
+# nim.configMode.save()
+
+ nim.diseqc13V = ConfigYesNo(default = False)
nim.diseqcMode = ConfigSelection(
choices = [
("positioner", _("Positioner"))],
default = "diseqc_a_b")
- nim.diseqcA = getConfigSatlist(192, nimmgr.satList)
- nim.diseqcB = getConfigSatlist(130, nimmgr.satList)
- nim.diseqcC = ConfigSatlist(list = nimmgr.satList)
- nim.diseqcD = ConfigSatlist(list = nimmgr.satList)
+ choices = []
+ for id in nimmgr.getNimListOfType("DVB-S"):
+ if id != x:
+ choices.append((str(id), nimmgr.getNimDescription(id)))
+ nim.connectedTo = ConfigSelection(choices = choices)
+ nim.simpleSingleSendDiSEqC = ConfigYesNo(default=False)
+ nim.simpleDiSEqCSetVoltageTone = ConfigYesNo(default=True)
+ nim.simpleDiSEqCOnlyOnSatChange = ConfigYesNo(default=False)
+ nim.diseqcA = getConfigSatlist(192, [(3601, _('nothing connected'), 1)] + nimmgr.satList)
+ nim.diseqcB = getConfigSatlist(130, [(3601, _('nothing connected'), 1)] + nimmgr.satList)
+ nim.diseqcC = ConfigSatlist(list = [(3601, _('nothing connected'), 1)] + nimmgr.satList)
+ nim.diseqcD = ConfigSatlist(list = [(3601, _('nothing connected'), 1)] + nimmgr.satList)
nim.positionerMode = ConfigSelection(
choices = [
("usals", _("USALS")),
nim.latitude = ConfigFloat(default=[50,767], limits=[(0,359),(0,999)])
nim.latitudeOrientation = ConfigSelection(choices={"north": _("North"), "south": _("South")}, default="north")
nim.powerMeasurement = ConfigYesNo(default=True)
- nim.powerThreshold = ConfigInteger(default=50, limits=(0, 100))
+ nim.powerThreshold = ConfigInteger(default=hw.get_device_name() == "dm8000" and 15 or 50, limits=(0, 100))
nim.turningSpeed = ConfigSelection(choices = [("fast", _("Fast")), ("slow", _("Slow")), ("fast epoch", _("Fast epoch")) ], default = "fast")
btime = datetime(1970, 1, 1, 7, 0);
nim.fastTurningBegin = ConfigDateTime(default = mktime(btime.timetuple()), formatstring = _("%H:%M"), increment = 900)
etime = datetime(1970, 1, 1, 19, 0);
nim.fastTurningEnd = ConfigDateTime(default = mktime(etime.timetuple()), formatstring = _("%H:%M"), increment = 900)
- # get other frontends of the same type
-
- satNimList = nimmgr.getNimListOfType("DVB-S", slot.slot)
- satNimListNames = {}
-
- for x in satNimList:
- n = nimmgr.nim_slots[x]
- satNimListNames["%d" % n.slot] = n.friendly_full_description
-
- if len(satNimListNames):
- nim.equalTo = ConfigSelection(choices = satNimListNames)
- nim.linkedTo = ConfigSelection(choices = satNimListNames)
- nim.satposDependsTo = ConfigSelection(choices = satNimListNames)
# advanced config:
nim.advanced = ConfigSubsection()
- nim.advanced.sats = getConfigSatlist(192,nimmgr.satList)
+ tmp = [(3601, _('All Satellites')+' 1', 1), (3602, _('All Satellites')+' 2', 1), (3603, _('All Satellites')+' 3', 1), (3604, _('All Satellites')+' 4', 1)]
+ nim.advanced.sats = getConfigSatlist(192,nimmgr.satList+tmp)
nim.advanced.sat = ConfigSubDict()
lnbs = [("0", "not available")]
for y in range(1, 33):
nim.advanced.sat[x[0]].rotorposition = ConfigInteger(default=1, limits=(1, 255))
nim.advanced.sat[x[0]].lnb = ConfigSelection(choices = lnbs)
+ for x in range(3601, 3605):
+ nim.advanced.sat[x] = ConfigSubsection()
+ nim.advanced.sat[x].voltage = ConfigSelection(choices={"polarization": _("Polarization"), "13V": _("13 V"), "18V": _("18 V")}, default = "polarization")
+ nim.advanced.sat[x].tonemode = ConfigSelection(choices={"band": _("Band"), "on": _("On"), "off": _("Off")}, default = "band")
+ nim.advanced.sat[x].usals = ConfigYesNo(default=True)
+ nim.advanced.sat[x].rotorposition = ConfigInteger(default=1, limits=(1, 255))
+ lnbnum = 33+x-3601
+ nim.advanced.sat[x].lnb = ConfigSelection(choices = [("0", "not available"), (str(lnbnum), "LNB %d"%(lnbnum))], default="0")
+
csw = [("none", _("None")), ("AA", _("AA")), ("AB", _("AB")), ("BA", _("BA")), ("BB", _("BB"))]
for y in range(0, 16):
csw.append((str(0xF0|y), "Input " + str(y+1)))
nim.advanced.lnb = ConfigSubList()
nim.advanced.lnb.append(ConfigNothing())
- for x in range(1, 33):
+
+
+ for x in range(1, 37):
nim.advanced.lnb.append(ConfigSubsection())
- nim.advanced.lnb[x].lof = ConfigSelection(choices={"universal_lnb": _("Universal LNB"), "c_band": _("C-Band"), "user_defined": _("User defined")}, default="universal_lnb")
+ nim.advanced.lnb[x].lof = ConfigSelection(choices = lnb_choices, default = lnb_choices_default)
+
nim.advanced.lnb[x].lofl = ConfigInteger(default=9750, limits = (0, 99999))
nim.advanced.lnb[x].lofh = ConfigInteger(default=10600, limits = (0, 99999))
nim.advanced.lnb[x].threshold = ConfigInteger(default=11700, limits = (0, 99999))
+
+ nim.advanced.lnb[x].unicable = ConfigSelection(choices = unicable_choices, default = unicable_choices_default)
+
+ nim.advanced.lnb[x].unicableLnb = unicableLnb
+ nim.advanced.lnb[x].unicableLnbManufacturer = ConfigSelection(choices = UnicableLnbManufacturers, default = UnicableLnbManufacturers[0])
+
+ nim.advanced.lnb[x].unicableMatrix = unicableMatrix
+ nim.advanced.lnb[x].unicableMatrixManufacturer = ConfigSelection(choices = UnicableMatrixManufacturers, default = UnicableMatrixManufacturers[0])
+
+ nim.advanced.lnb[x].satcruser = ConfigSelection(choices=[
+ ("1", "SatCR 1"),
+ ("2", "SatCR 2"),
+ ("3", "SatCR 3"),
+ ("4", "SatCR 4"),
+ ("5", "SatCR 5"),
+ ("6", "SatCR 6"),
+ ("7", "SatCR 7"),
+ ("8", "SatCR 8")],
+ default="1")
+ nim.advanced.lnb[x].satcrvcouser = satcrvcouser
+
# nim.advanced.lnb[x].output_12v = ConfigSelection(choices = [("0V", _("0 V")), ("12V", _("12 V"))], default="0V")
nim.advanced.lnb[x].increased_voltage = ConfigYesNo(default=False)
nim.advanced.lnb[x].toneburst = ConfigSelection(choices = [("none", _("None")), ("A", _("A")), ("B", _("B"))], default = "none")
- nim.advanced.lnb[x].diseqcMode = ConfigSelection(choices = [("none", _("None")), ("1_0", _("1.0")), ("1_1", _("1.1")), ("1_2", _("1.2"))], default = "none")
+ if x > 32:
+ nim.advanced.lnb[x].diseqcMode = ConfigSelection(choices = [("1_2", _("1.2"))], default = "1_2")
+ else:
+ nim.advanced.lnb[x].diseqcMode = ConfigSelection(choices = [("none", _("None")), ("1_0", _("1.0")), ("1_1", _("1.1")), ("1_2", _("1.2"))], default = "none")
nim.advanced.lnb[x].commitedDiseqcCommand = ConfigSelection(choices = csw)
nim.advanced.lnb[x].fastDiseqc = ConfigYesNo(default=False)
nim.advanced.lnb[x].sequenceRepeat = ConfigYesNo(default=False)
nim.advanced.lnb[x].latitude = ConfigFloat(default = [50,767], limits = [(0,359),(0,999)])
nim.advanced.lnb[x].latitudeOrientation = ConfigSelection(choices = [("north", _("North")), ("south", _("South"))], default = "north")
nim.advanced.lnb[x].powerMeasurement = ConfigYesNo(default=True)
- nim.advanced.lnb[x].powerThreshold = ConfigInteger(default=50, limits=(0, 100))
+ nim.advanced.lnb[x].powerThreshold = ConfigInteger(default=hw.get_device_name() == "dm8000" and 15 or 50, limits=(0, 100))
nim.advanced.lnb[x].turningSpeed = ConfigSelection(choices = [("fast", _("Fast")), ("slow", _("Slow")), ("fast epoch", _("Fast epoch"))], default = "fast")
btime = datetime(1970, 1, 1, 7, 0);
nim.advanced.lnb[x].fastTurningBegin = ConfigDateTime(default=mktime(btime.timetuple()), formatstring = _("%H:%M"), increment = 600)
etime = datetime(1970, 1, 1, 19, 0);
nim.advanced.lnb[x].fastTurningEnd = ConfigDateTime(default=mktime(etime.timetuple()), formatstring = _("%H:%M"), increment = 600)
+ nim.advanced.lnb[x].prio = ConfigSelection(default="-1", choices=prio_list)
elif slot.isCompatible("DVB-C"):
nim.configMode = ConfigSelection(
choices = {
possible_scan_types = [("bands", _("Frequency bands")), ("steps", _("Frequency steps"))]
if n:
possible_scan_types.append(("provider", _("Provider")))
+ nim.cable.scan_provider = ConfigSelection(default = "0", choices = list)
nim.cable.scan_type = ConfigSelection(default = "bands", choices = possible_scan_types)
- nim.cable.scan_provider = ConfigSelection(default = "0", choices = list)
nim.cable.scan_band_EU_VHF_I = ConfigYesNo(default = True)
nim.cable.scan_band_EU_MID = ConfigYesNo(default = True)
nim.cable.scan_band_EU_VHF_III = ConfigYesNo(default = True)
nim.terrestrial_5V = ConfigOnOff()
else:
nim.configMode = ConfigSelection(choices = { "nothing": _("disabled") }, default="nothing");
- print "pls add support for this frontend type!"
+ if slot.type is not None:
+ print "pls add support for this frontend type!", slot.type
# assert False
nimmgr.sec = SecConfigure(nimmgr)