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, \ eDVBSatelliteDiseqcParameters as diseqcParam, \ eDVBSatelliteSwitchParameters as switchParam, \ eDVBSatelliteRotorParameters as rotorParam, \ eDVBResourceManager, eDVBDB from time import localtime, mktime from datetime import datetime def getConfigSatlist(orbpos, satlist): default_orbpos = None for x in satlist: if x[0] == orbpos: default_orbpos = orbpos break return ConfigSatlist(satlist, default_orbpos) def tryOpen(filename): try: procFile = open(filename) except IOError: return None return procFile class SecConfigure: 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): for slot in self.equal[slotid]: tunermask |= (1 << slot) elif self.linked.has_key(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(fastDiSEqC) sec.setSeqRepeat(0) sec.setCommandOrder(0) #user values sec.setDiSEqCMode(diseqcmode) sec.setToneburst(toneburstmode) sec.setCommittedCommand(diseqcpos) sec.setUncommittedCommand(0) # SENDNO #print "set orbpos to:" + str(orbpos) if 0 <= diseqcmode < 3: 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): for slot in self.satposdepends[slotid]: tunermask |= (1 << slot) sec.setLatitude(latitude) sec.setLaDirection(laDirection) sec.setLongitude(longitude) sec.setLoDirection(loDirection) sec.setUseInputpower(useInputPower) sec.setInputpowerDelta(inputPowerDelta) sec.setRotorTurningSpeed(turningSpeed) for x in self.NimManager.satList: print "Add sat " + str(x[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 sec.setLNBSlotMask(tunermask) def setSatposDepends(self, sec, nim1, nim2): print "tuner", nim1, "depends on satpos of", nim2 sec.setTunerDepends(nim1, nim2) def linkNIMs(self, sec, nim1, nim2): print "link tuner", nim1, "to tuner", nim2 sec.setTunerLinked(nim1, nim2) 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.linked = { } self.satposdepends = { } self.equal = { } nim_slots = self.NimManager.nim_slots used_nim_slots = [ ] 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, slot.isCompatible("DVB-S2"))) eDVBResourceManager.getInstance().setFrontendSlotInformations(used_nim_slots) for slot in nim_slots: x = slot.slot nim = slot.config if slot.isCompatible("DVB-S"): # 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": 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.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.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) if nim.configMode.value in ( "loopthrough", "satposdepends", "nothing" ): pass else: sec.setSlotNotLinked(x) if nim.configMode.value == "equal": pass elif nim.configMode.value == "simple": #simple config print "diseqcmode: ", nim.diseqcMode.value if nim.diseqcMode.value == "single": #single 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, 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 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 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 else: laValue = rotorParam.SOUTH if nim.longitudeOrientation.value == "east": loValue = rotorParam.EAST else: loValue = rotorParam.WEST inputPowerDelta=nim.powerThreshold.value useInputPower=False turning_speed=0 if nim.powerMeasurement.value: useInputPower=True 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] else: beg_time = localtime(nim.fastTurningBegin.value) end_time = localtime(nim.fastTurningEnd.value) turning_speed = ((beg_time.tm_hour+1) * 60 + beg_time.tm_min + 1) << 16 turning_speed |= (end_time.tm_hour+1) * 60 + end_time.tm_min + 1 self.addLNBSimple(sec, slotid = x, diseqcmode = 3, longitude = nim.longitude.float, loDirection = loValue, latitude = nim.latitude.float, laDirection = laValue, turningSpeed = turning_speed, useInputPower = useInputPower, 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(1,37): 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(1,37): 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): for slot in self.equal[slotid]: tunermask |= (1 << slot) elif self.linked.has_key(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.unicableLnbManufacturer.value manufacturer = currLnb.unicableLnb[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) sec.setLNBThreshold(5150000) elif currLnb.lof.value == "user_defined": sec.setLNBLOFL(currLnb.lofl.value * 1000) sec.setLNBLOFH(currLnb.lofh.value * 1000) sec.setLNBThreshold(currLnb.threshold.value * 1000) # if currLnb.output_12v.value == "0V": # pass # nyi in drivers # elif currLnb.output_12v.value == "12V": # pass # nyi in drivers if currLnb.increased_voltage.value: sec.setLNBIncreasedVoltage(lnbParam.ON) else: sec.setLNBIncreasedVoltage(lnbParam.OFF) dm = currLnb.diseqcMode.value if dm == "none": sec.setDiSEqCMode(diseqcParam.NONE) elif dm == "1_0": sec.setDiSEqCMode(diseqcParam.V1_0) elif dm == "1_1": sec.setDiSEqCMode(diseqcParam.V1_1) elif dm == "1_2": sec.setDiSEqCMode(diseqcParam.V1_2) if self.satposdepends.has_key(slotid): for slot in self.satposdepends[slotid]: tunermask |= (1 << slot) if dm != "none": if currLnb.toneburst.value == "none": sec.setToneburst(diseqcParam.NO) elif currLnb.toneburst.value == "A": sec.setToneburst(diseqcParam.A) elif currLnb.toneburst.value == "B": sec.setToneburst(diseqcParam.B) # Committed Diseqc Command cdc = currLnb.commitedDiseqcCommand.value c = { "none": diseqcParam.SENDNO, "AA": diseqcParam.AA, "AB": diseqcParam.AB, "BA": diseqcParam.BA, "BB": diseqcParam.BB } if c.has_key(cdc): sec.setCommittedCommand(c[cdc]) else: sec.setCommittedCommand(long(cdc)) sec.setFastDiSEqC(currLnb.fastDiseqc.value) sec.setSeqRepeat(currLnb.sequenceRepeat.value) if currLnb.diseqcMode.value == "1_0": currCO = currLnb.commandOrder1_0.value else: currCO = currLnb.commandOrder.value udc = int(currLnb.uncommittedDiseqcCommand.value) if udc > 0: sec.setUncommittedCommand(0xF0|(udc-1)) else: sec.setUncommittedCommand(0) # SENDNO sec.setRepeats({"none": 0, "one": 1, "two": 2, "three": 3}[currLnb.diseqcRepeats.value]) setCommandOrder = False # 0 "committed, toneburst", # 1 "toneburst, committed", # 2 "committed, uncommitted, toneburst", # 3 "toneburst, committed, uncommitted", # 4 "uncommitted, committed, toneburst" # 5 "toneburst, uncommitted, commmitted" order_map = {"ct": 0, "tc": 1, "cut": 2, "tcu": 3, "uct": 4, "tuc": 5} sec.setCommandOrder(order_map[currCO]) if dm == "1_2": latitude = currLnb.latitude.float sec.setLatitude(latitude) longitude = currLnb.longitude.float sec.setLongitude(longitude) if currLnb.latitudeOrientation.value == "north": sec.setLaDirection(rotorParam.NORTH) else: sec.setLaDirection(rotorParam.SOUTH) if currLnb.longitudeOrientation.value == "east": sec.setLoDirection(rotorParam.EAST) else: sec.setLoDirection(rotorParam.WEST) if currLnb.powerMeasurement.value: sec.setUseInputpower(True) sec.setInputpowerDelta(currLnb.powerThreshold.value) turn_speed_dict = { "fast": rotorParam.FAST, "slow": rotorParam.SLOW } if turn_speed_dict.has_key(currLnb.turningSpeed.value): turning_speed = turn_speed_dict[currLnb.turningSpeed.value] else: beg_time = localtime(currLnb.fastTurningBegin.value) end_time = localtime(currLnb.fastTurningEnd.value) turning_speed = ((beg_time.tm_hour + 1) * 60 + beg_time.tm_min + 1) << 16 turning_speed |= (end_time.tm_hour + 1) * 60 + end_time.tm_min + 1 sec.setRotorTurningSpeed(turning_speed) else: sec.setUseInputpower(False) sec.setLNBSlotMask(tunermask) sec.setLNBPrio(int(currLnb.prio.value)) # finally add the orbital positions for y in lnbSat[x]: 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": 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.value == "band": sec.setToneMode(switchParam.HILO) elif currSat.tonemode.value == "on": sec.setToneMode(switchParam.ON) elif currSat.tonemode.value == "off": sec.setToneMode(switchParam.OFF) 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, has_outputs = True, internally_connectable = None): self.slot = slot if type not in ("DVB-S", "DVB-C", "DVB-T", "DVB-S2", None): print "warning: unknown NIM type %s, not using." % type type = None self.type = type self.description = description self.has_outputs = has_outputs self.internally_connectable = internally_connectable def isCompatible(self, what): compatible = { None: (None,), "DVB-S": ("DVB-S", None), "DVB-C": ("DVB-C", None), "DVB-T": ("DVB-T", None), "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. # we name them "Tuner A/B/C/...", because that's what's usually written on the back # of the device. return _("Tuner ") + chr(ord('A') + self.slot) slot_name = property(getSlotName) 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) def getFriendlyType(self): return { "DVB-S": "DVB-S", "DVB-T": "DVB-T", "DVB-S2": "DVB-S2", "DVB-C": "DVB-C", None: _("empty") }[self.type] friendly_type = property(getFriendlyType) def getFriendlyFullDescription(self): nim_text = self.slot_name + ": " if self.empty: nim_text += _("(empty)") else: nim_text += self.description + " (" + self.friendly_type + ")" return nim_text friendly_full_description = property(getFriendlyFullDescription) config_mode = property(lambda self: config.Nims[self.slot].configMode.value) config = property(lambda self: config.Nims[self.slot]) empty = property(lambda self: self.type is None) class NimManager: def getConfiguredSats(self): return self.sec.getConfiguredSats() def getTransponders(self, pos): if self.transponders.has_key(pos): return self.transponders[pos] else: return [] def getTranspondersCable(self, nim): nimConfig = config.Nims[nim] if nimConfig.configMode.value != "nothing" and nimConfig.cable.scan_type.value == "provider": return self.transponderscable[self.cablesList[nimConfig.cable.scan_provider.index][0]] return [ ] def getTranspondersTerrestrial(self, region): return self.transpondersterrestrial[region] def getCableDescription(self, nim): return self.cablesList[config.Nims[nim].scan_provider.index][0] def getCableFlags(self, nim): return self.cablesList[config.Nims[nim].scan_provider.index][1] def getTerrestrialDescription(self, nim): return self.terrestrialsList[config.Nims[nim].terrestrial.index][0] def getTerrestrialFlags(self, nim): return self.terrestrialsList[config.Nims[nim].terrestrial.index][1] def getSatDescription(self, pos): return self.satellites[pos] def readTransponders(self): # read initial networks from file. we only read files which we are interested in, # which means only these where a compatible tuner exists. self.satellites = { } self.transponders = { } self.transponderscable = { } self.transpondersterrestrial = { } db = eDVBDB.getInstance() if self.hasNimType("DVB-S"): print "Reading satellites.xml" db.readSatellites(self.satList, self.satellites, self.transponders) # print "SATLIST", self.satList # print "SATS", self.satellites # print "TRANSPONDERS", self.transponders if self.hasNimType("DVB-C"): print "Reading 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" db.readTerrestrials(self.terrestrialsList, self.transpondersterrestrial) # print "TERLIST", self.terrestrialsList # print "TRANSPONDERS", self.transpondersterrestrial def enumerateNIMs(self): # enum available NIMs. This is currently very dreambox-centric and uses the /proc/bus/nim_sockets interface. # the result will be stored into nim_slots. # the content of /proc/bus/nim_sockets looks like: # NIM Socket 0: # Type: DVB-S # Name: BCM4501 DVB-S2 NIM (internal) # NIM Socket 1: # Type: DVB-S # Name: BCM4501 DVB-S2 NIM (internal) # NIM Socket 2: # Type: DVB-T # Name: Philips TU1216 # NIM Socket 3: # Type: DVB-S # Name: Alps BSBE1 702A # # Type will be either "DVB-S", "DVB-S2", "DVB-T", "DVB-C" or None. # nim_slots is an array which has exactly one entry for each slot, even for empty ones. self.nim_slots = [ ] nimfile = tryOpen("/proc/bus/nim_sockets") if nimfile is None: return current_slot = None entries = {} for line in nimfile.readlines(): if line == "": break if line.strip().startswith("NIM Socket"): parts = line.strip().split(" ") current_slot = int(parts[2][:-1]) entries[current_slot] = {} elif line.strip().startswith("Type:"): 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") nimfile.close() for id, entry in entries.items(): if not (entry.has_key("name") and entry.has_key("type")): entry["name"] = _("N/A") entry["type"] = None 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' list = [] for x in self.nim_slots: if x.isCompatible(type) and x.slot != exception: list.append(x.slot) return list def __init__(self): self.satList = [ ] self.cablesList = [] self.terrestrialsList = [] self.enumerateNIMs() self.readTransponders() InitNimManager(self) #init config stuff # get a list with the friendly full description def nimList(self): list = [ ] 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 = nim.configMode.value if configMode == "equal": 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 = nim.diseqcMode.value if dm in ("single", "toneburst_a_b", "diseqc_a_b", "diseqc_a_b_c_d"): 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"): if nim.diseqcB.orbital_position != 3601: list.append(self.satList[nim.diseqcB.index-1]) if dm == "diseqc_a_b_c_d": 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 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 if configMode == "simple": if config.Nims[slotid].diseqcMode.value == "positioner": for x in self.satList: list.append(x) elif configMode == "advanced": 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(): config.sec = ConfigSubsection() x = ConfigInteger(default=25, limits = (0, 9999)) x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_CONT_TONE_DISABLE_BEFORE_DISEQC, configElement.value)) config.sec.delay_after_continuous_tone_disable_before_diseqc = x x = ConfigInteger(default=10, limits = (0, 9999)) x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_FINAL_CONT_TONE_CHANGE, configElement.value)) config.sec.delay_after_final_continuous_tone_change = x x = ConfigInteger(default=10, limits = (0, 9999)) x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_FINAL_VOLTAGE_CHANGE, configElement.value)) config.sec.delay_after_final_voltage_change = x x = ConfigInteger(default=120, limits = (0, 9999)) x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_BETWEEN_DISEQC_REPEATS, configElement.value)) config.sec.delay_between_diseqc_repeats = x x = ConfigInteger(default=50, limits = (0, 9999)) x.addNotifier(lambda configElement: secClass.setParam(secClass.DELAY_AFTER_LAST_DISEQC_CMD, configElement.value)) config.sec.delay_after_last_diseqc_command = x x = ConfigInteger(default=50, limits = (0, 9999)) 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 = ConfigInteger(default=700, limits = (0, 9999)) 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=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 = ConfigInteger(default=750, limits = (0, 9999)) 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=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=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=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 = ConfigInteger(default=1, limits = (0, 5)) x.addNotifier(lambda configElement: secClass.setParam(secClass.MOTOR_COMMAND_RETRIES, configElement.value)) config.sec.motor_command_retries = 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 # diseqc 1.0 / diseqc 1.1 / toneburst switch # the C(++) part should can handle this # the configElement should be only visible when diseqc 1.2 is disabled 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]) advanced_lnb_satcruser_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")] 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")) ] prio_list += [(str(prio), str(prio)) for prio in range(65)+range(14000,14065)+range(19000,19065)] advanced_lnb_csw_choices = [("none", _("None")), ("AA", _("AA")), ("AB", _("AB")), ("BA", _("BA")), ("BB", _("BB"))] advanced_lnb_csw_choices += [(str(0xF0|y), "Input " + str(y+1)) for y in range(0, 16)] advanced_lnb_ucsw_choices = [("0", _("None"))] + [(str(y), "Input " + str(y)) for y in range(1, 17)] diseqc_mode_choices = [ ("single", _("Single")), ("toneburst_a_b", _("Toneburst A/B")), ("diseqc_a_b", _("DiSEqC A/B")), ("diseqc_a_b_c_d", _("DiSEqC A/B/C/D")), ("positioner", _("Positioner"))] positioner_mode_choices = [("usals", _("USALS")), ("manual", _("manual"))] diseqc_satlist_choices = [(3601, _('nothing connected'), 1)] + nimmgr.satList longitude_orientation_choices = [("east", _("East")), ("west", _("West"))] latitude_orientation_choices = [("north", _("North")), ("south", _("South"))] turning_speed_choices = [("fast", _("Fast")), ("slow", _("Slow")), ("fast epoch", _("Fast epoch"))] advanced_satlist_choices = nimmgr.satList + [ (3601, _('All Satellites')+' 1', 1), (3602, _('All Satellites')+' 2', 1), (3603, _('All Satellites')+' 3', 1), (3604, _('All Satellites')+' 4', 1)] advanced_lnb_choices = [("0", "not available")] + [(str(y), "LNB " + str(y)) for y in range(1, 33)] advanced_voltage_choices = [("polarization", _("Polarization")), ("13V", _("13 V")), ("18V", _("18 V"))] advanced_tonemode_choices = [("band", _("Band")), ("on", _("On")), ("off", _("Off"))] advanced_lnb_toneburst_choices = [("none", _("None")), ("A", _("A")), ("B", _("B"))] advanced_lnb_allsat_diseqcmode_choices = [("1_2", _("1.2"))] advanced_lnb_diseqcmode_choices = [("none", _("None")), ("1_0", _("1.0")), ("1_1", _("1.1")), ("1_2", _("1.2"))] advanced_lnb_commandOrder1_0_choices = [("ct", "committed, toneburst"), ("tc", "toneburst, committed")] advanced_lnb_commandOrder_choices = [ ("ct", "committed, toneburst"), ("tc", "toneburst, committed"), ("cut", "committed, uncommitted, toneburst"), ("tcu", "toneburst, committed, uncommitted"), ("uct", "uncommitted, committed, toneburst"), ("tuc", "toneburst, uncommitted, commmitted")] advanced_lnb_diseqc_repeat_choices = [("none", _("None")), ("one", _("One")), ("two", _("Two")), ("three", _("Three"))] advanced_lnb_fast_turning_btime = mktime(datetime(1970, 1, 1, 7, 0).timetuple()); advanced_lnb_fast_turning_etime = mktime(datetime(1970, 1, 1, 19, 0).timetuple()); for slot in nimmgr.nim_slots: x = slot.slot nim = config.Nims[x] if slot.isCompatible("DVB-S"): config_mode_choices = [ ("nothing", _("nothing connected")), ("simple", _("simple")), ("advanced", _("advanced"))] if len(nimmgr.getNimListOfType(slot.type, exception = x)) > 0: config_mode_choices.append(("equal", _("equal to"))) config_mode_choices.append(("satposdepends", _("second cable of motorized LNB"))) if len(nimmgr.canConnectTo(x)) > 0: config_mode_choices.append(("loopthrough", _("loopthrough to"))) nim.configMode = ConfigSelection(config_mode_choices, "nothing") nim.diseqc13V = ConfigYesNo(False) nim.diseqcMode = ConfigSelection(diseqc_mode_choices, "diseqc_a_b") nim.connectedTo = ConfigSelection([(str(id), nimmgr.getNimDescription(id)) for id in nimmgr.getNimListOfType("DVB-S") if id != x]) nim.simpleSingleSendDiSEqC = ConfigYesNo(False) nim.simpleDiSEqCSetVoltageTone = ConfigYesNo(True) nim.simpleDiSEqCOnlyOnSatChange = ConfigYesNo(False) nim.diseqcA = getConfigSatlist(192, diseqc_satlist_choices) nim.diseqcB = getConfigSatlist(130, diseqc_satlist_choices) nim.diseqcC = ConfigSatlist(list = diseqc_satlist_choices) nim.diseqcD = ConfigSatlist(list = diseqc_satlist_choices) nim.positionerMode = ConfigSelection(positioner_mode_choices, "usals") nim.longitude = ConfigFloat(default=[5,100], limits=[(0,359),(0,999)]) nim.longitudeOrientation = ConfigSelection(longitude_orientation_choices, "east") nim.latitude = ConfigFloat(default=[50,767], limits=[(0,359),(0,999)]) nim.latitudeOrientation = ConfigSelection(latitude_orientation_choices, "north") nim.powerMeasurement = ConfigYesNo(True) nim.powerThreshold = ConfigInteger(default=hw.get_device_name() == "dm8000" and 15 or 50, limits=(0, 100)) nim.turningSpeed = ConfigSelection(turning_speed_choices, "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) # advanced config: nim.advanced = ConfigSubsection() nim.advanced.sats = getConfigSatlist(192, advanced_satlist_choices) nim.advanced.sat = ConfigSubDict() for x in nimmgr.satList: nim.advanced.sat[x[0]] = ConfigSubsection() nim.advanced.sat[x[0]].voltage = ConfigSelection(advanced_voltage_choices, "polarization") nim.advanced.sat[x[0]].tonemode = ConfigSelection(advanced_tonemode_choices, "band") nim.advanced.sat[x[0]].usals = ConfigYesNo(True) nim.advanced.sat[x[0]].rotorposition = ConfigInteger(default=1, limits=(1, 255)) nim.advanced.sat[x[0]].lnb = ConfigSelection(advanced_lnb_choices, "0") for x in range(3601, 3605): nim.advanced.sat[x] = ConfigSubsection() nim.advanced.sat[x].voltage = ConfigSelection(advanced_voltage_choices, "polarization") nim.advanced.sat[x].tonemode = ConfigSelection(advanced_tonemode_choices, "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([("0", "not available"), (str(lnbnum), "LNB %d"%(lnbnum))], "0") nim.advanced.lnb = ConfigSubList() nim.advanced.lnb.append(ConfigNothing()) for x in range(1, 37): nim.advanced.lnb.append(ConfigSubsection()) nim.advanced.lnb[x].lof = ConfigSelection(lnb_choices, 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(unicable_choices, unicable_choices_default) nim.advanced.lnb[x].unicableLnb = unicableLnb # is this okay? all lnb use the same ConfigSubDict ? ! ? nim.advanced.lnb[x].unicableLnbManufacturer = ConfigSelection(UnicableLnbManufacturers, UnicableLnbManufacturers[0]) nim.advanced.lnb[x].unicableMatrix = unicableMatrix # is this okay? all lnb use the same ConfigSubDict ? ! ? nim.advanced.lnb[x].unicableMatrixManufacturer = ConfigSelection(UnicableMatrixManufacturers, UnicableMatrixManufacturers[0]) nim.advanced.lnb[x].satcruser = ConfigSelection(advanced_lnb_satcruser_choices, "1") nim.advanced.lnb[x].satcrvcouser = satcrvcouser # is this okay? all lnb use the same ConfigSubDict ? ! ? # nim.advanced.lnb[x].output_12v = ConfigSelection(choices = [("0V", _("0 V")), ("12V", _("12 V"))], default="0V") nim.advanced.lnb[x].increased_voltage = ConfigYesNo(False) nim.advanced.lnb[x].toneburst = ConfigSelection(advanced_lnb_toneburst_choices, "none") if x > 32: nim.advanced.lnb[x].diseqcMode = ConfigSelection(advanced_lnb_allsat_diseqcmode_choices, "1_2") else: nim.advanced.lnb[x].diseqcMode = ConfigSelection(advanced_lnb_diseqcmode_choices, "none") nim.advanced.lnb[x].commitedDiseqcCommand = ConfigSelection(advanced_lnb_csw_choices) nim.advanced.lnb[x].fastDiseqc = ConfigYesNo(False) nim.advanced.lnb[x].sequenceRepeat = ConfigYesNo(False) nim.advanced.lnb[x].commandOrder1_0 = ConfigSelection(advanced_lnb_commandOrder1_0_choices, "ct") nim.advanced.lnb[x].commandOrder = ConfigSelection(advanced_lnb_commandOrder_choices, "ct") nim.advanced.lnb[x].uncommittedDiseqcCommand = ConfigSelection(advanced_lnb_ucsw_choices) nim.advanced.lnb[x].diseqcRepeats = ConfigSelection(advanced_lnb_diseqc_repeat_choices, "none") nim.advanced.lnb[x].longitude = ConfigFloat(default = [5,100], limits = [(0,359),(0,999)]) nim.advanced.lnb[x].longitudeOrientation = ConfigSelection(longitude_orientation_choices, "east") nim.advanced.lnb[x].latitude = ConfigFloat(default = [50,767], limits = [(0,359),(0,999)]) nim.advanced.lnb[x].latitudeOrientation = ConfigSelection(latitude_orientation_choices, "north") nim.advanced.lnb[x].powerMeasurement = ConfigYesNo(default=True) 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(turning_speed_choices, "fast") nim.advanced.lnb[x].fastTurningBegin = ConfigDateTime(default=advanced_lnb_fast_turning_btime, formatstring = _("%H:%M"), increment = 600) nim.advanced.lnb[x].fastTurningEnd = ConfigDateTime(default=advanced_lnb_fast_turning_etime, formatstring = _("%H:%M"), increment = 600) nim.advanced.lnb[x].prio = ConfigSelection(prio_list, "-1") elif slot.isCompatible("DVB-C"): nim.configMode = ConfigSelection( choices = { "enabled": _("enabled"), "nothing": _("nothing connected"), }, default = "enabled") list = [ ] n = 0 for x in nimmgr.cablesList: list.append((str(n), x[0])) n += 1 nim.cable = ConfigSubsection() 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_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.cable.scan_band_EU_UHF_IV = ConfigYesNo(default = True) nim.cable.scan_band_EU_UHF_V = ConfigYesNo(default = True) nim.cable.scan_band_EU_SUPER = ConfigYesNo(default = True) nim.cable.scan_band_EU_HYPER = ConfigYesNo(default = True) nim.cable.scan_band_US_LOW = ConfigYesNo(default = False) nim.cable.scan_band_US_MID = ConfigYesNo(default = False) nim.cable.scan_band_US_HIGH = ConfigYesNo(default = False) nim.cable.scan_band_US_SUPER = ConfigYesNo(default = False) nim.cable.scan_band_US_HYPER = ConfigYesNo(default = False) nim.cable.scan_frequency_steps = ConfigInteger(default = 1000, limits = (1000, 10000)) nim.cable.scan_mod_qam16 = ConfigYesNo(default = False) nim.cable.scan_mod_qam32 = ConfigYesNo(default = False) nim.cable.scan_mod_qam64 = ConfigYesNo(default = True) nim.cable.scan_mod_qam128 = ConfigYesNo(default = False) nim.cable.scan_mod_qam256 = ConfigYesNo(default = True) nim.cable.scan_sr_6900 = ConfigYesNo(default = True) nim.cable.scan_sr_6875 = ConfigYesNo(default = True) nim.cable.scan_sr_ext1 = ConfigInteger(default = 0, limits = (0, 7230)) nim.cable.scan_sr_ext2 = ConfigInteger(default = 0, limits = (0, 7230)) elif slot.isCompatible("DVB-T"): nim.configMode = ConfigSelection( choices = { "enabled": _("enabled"), "nothing": _("nothing connected"), }, default = "enabled") list = [] n = 0 for x in nimmgr.terrestrialsList: list.append((str(n), x[0])) n += 1 nim.terrestrial = ConfigSelection(choices = list) nim.terrestrial_5V = ConfigOnOff() else: nim.configMode = ConfigSelection(choices = { "nothing": _("disabled") }, default="nothing"); if slot.type is not None: print "pls add support for this frontend type!", slot.type # assert False nimmgr.sec = SecConfigure(nimmgr) nimmanager = NimManager()