+from Tools.BoundFunction import boundFunction
+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 addLNBSimple(self, sec, slotid, diseqcmode, toneburstmode = diseqcParam.NO, diseqcpos = diseqcParam.SENDNO, orbpos = 0, longitude = 0, latitude = 0, loDirection = 0, laDirection = 0, turningSpeed = rotorParam.FAST):
+ #simple defaults
+ sec.addLNB()
+ tunermask = 1 << slotid
+ if self.equal.has_key(slotid):
+ tunermask |= (1 << self.equal[slotid])
+ elif self.linked.has_key(slotid):
+ tunermask |= (1 << self.linked[slotid])
+ sec.setLNBLOFL(9750000)
+ sec.setLNBLOFH(10600000)
+ sec.setLNBThreshold(11700000)
+ sec.setLNBIncreasedVoltage(lnbParam.OFF)
+ sec.setRepeats(0)
+ sec.setFastDiSEqC(0)
+ sec.setSeqRepeat(0)
+ sec.setVoltageMode(switchParam.HV)
+ sec.setToneMode(switchParam.HILO)
+ 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:
+ sec.addSatellite(orbpos)
+ self.satList.append(orbpos)
+ elif (diseqcmode == 3): # diseqc 1.2
+ if self.satposdepends.has_key(slotid):
+ tunermask |= (1 << self.satposdepends[slotid])
+ sec.setLatitude(latitude)
+ sec.setLaDirection(laDirection)
+ sec.setLongitude(longitude)
+ sec.setLoDirection(loDirection)
+ sec.setUseInputpower(True)
+ sec.setInputpowerDelta(50)
+ sec.setRotorTurningSpeed(turningSpeed)
+
+ for x in self.NimManager.satList:
+ print "Add sat " + str(x[0])
+ sec.addSatellite(int(x[0]))
+ sec.setVoltageMode(0)
+ sec.setToneMode(0)
+ sec.setRotorPosNum(0) # USALS
+ self.satList.append(int(x[0]))
+
+ 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 getSatList(self):
+ return self.satList
+
+ def update(self):
+ sec = secClass.getInstance()
+ sec.clear() ## this do unlinking NIMs too !!
+ print "sec config cleared"
+ self.satList = []
+
+ self.linked = { }
+ self.satposdepends = { }
+ self.equal = { }
+
+ nim_slots = self.NimManager.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":
+ self.equal[int(nim.equalTo.value)]=x
+ if nim.configMode.value == "loopthrough":
+ self.linkNIMs(sec, x, int(nim.linkedTo.value))
+ self.linked[int(nim.linkedTo.value)]=x
+ elif nim.configMode.value == "satposdepends":
+ self.setSatposDepends(sec, x, int(nim.satposDependsTo.value))
+ self.satposdepends[int(nim.satposDependsTo.value)]=x
+
+ for slot in nim_slots:
+ x = slot.slot
+ nim = slot.config
+ 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:
+ sec.setSlotNotLinked(x)
+ if nim.configMode.value == "equal":
+ pass
+ elif nim.configMode.value == "simple": #simple config
+ 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)
+ 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)
+ 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)
+ 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)
+ 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
+ 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)
+ 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):
+ lnbSat[x] = []
+ 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):
+ if len(lnbSat[x]) > 0:
+ currLnb = config.Nims[slotid].advanced.lnb[x]
+ sec.addLNB()
+
+ tunermask = 1 << slotid
+ if self.equal.has_key(slotid):
+ tunermask |= (1 << self.equal[slotid])
+ elif self.linked.has_key(slotid):
+ tunermask |= (1 << self.linked[slotid])
+
+ if currLnb.lof.value == "universal_lnb":
+ sec.setLNBLOFL(9750000)
+ sec.setLNBLOFH(10600000)
+ sec.setLNBThreshold(11700000)
+ 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): # only useable with rotors
+ tunermask |= (1 << self.satposdepends[slotid])
+
+ 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)
+
+ # finally add the orbital positions
+ for y in lnbSat[x]:
+ sec.addSatellite(y)
+ currSat = config.Nims[slotid].advanced.sat[y]
+
+ if currSat.voltage.value == "polarization":
+ 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":
+ sec.setToneMode(switchParam.HILO)
+ elif currSat.tonemode == "on":
+ sec.setToneMode(switchParam.ON)
+ elif currSat.tonemode == "off":
+ sec.setToneMode(switchParam.OFF)
+
+ if not currSat.usals.value:
+ sec.setRotorPosNum(currSat.rotorposition.value)
+ else:
+ sec.setRotorPosNum(0) #USALS
+
+ def __init__(self, nimmgr):
+ self.NimManager = nimmgr
+ self.update()
+
+class NIM(object):
+ def __init__(self, slot, type, description):
+ 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
+
+ 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 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)
+
+ 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)