from Components.NimManager import nimmanager, getConfigSatlist
from Components.Label import Label
from Tools.Directories import resolveFilename, SCOPE_DEFAULTPARTITIONMOUNTDIR, SCOPE_DEFAULTDIR, SCOPE_DEFAULTPARTITION
+from Tools.HardwareInfo import HardwareInfo
from Screens.MessageBox import MessageBox
from enigma import eTimer, eDVBFrontendParametersSatellite, eComponentScan, \
eDVBSatelliteEquipmentControl, eDVBFrontendParametersTerrestrial, \
def buildTerTransponder(frequency,
inversion=2, bandwidth = 3, fechigh = 6, feclow = 6,
modulation = 2, transmission = 2, guard = 4,
- hierarchy = 4):
-
+ hierarchy = 4, system = 0, plpid = 0):
# print "freq", frequency, "inv", inversion, "bw", bandwidth, "fech", fechigh, "fecl", feclow, "mod", modulation, "tm", transmission, "guard", guard, "hierarchy", hierarchy
-
- # WARNING: normally, enums are working directly.
- # Don't copy this (very bad)!! Instead either fix swig (good) or
- # move this into a central place.
- Bw8MHz = 0
- Bw7MHz = 1
- Bw6MHz = 2
- #Bw5MHz = 3 #not implemented for e1 compatibilty
- BwAuto = 3
-
- f1_2 = 0
- f2_3 = 1
- f3_4 = 2
- f5_6 = 3
- f7_8 = 4
- fAuto = 5
-
- TM2k = 0
- TM8k = 1
- #TM4k = 2 #not implemented for e1 compatibilty
- TMAuto = 2
-
- GI_1_32 = 0
- GI_1_16 = 1
- GI_1_8 = 2
- GI_1_4 = 3
- GI_Auto = 4
-
- HNone = 0
- H1 = 1
- H2 = 2
- H4 = 3
- HAuto = 4
-
- QPSK = 0
- QAM16 = 1
- QAM64 = 2
- Auto = 3
-
- Off = 0
- On = 1
- Unknown = 2
-
parm = eDVBFrontendParametersTerrestrial()
-
parm.frequency = frequency
-
- parm.inversion = [Off, On, Unknown][inversion]
- parm.bandwidth = [Bw8MHz, Bw7MHz, Bw6MHz, BwAuto][bandwidth] # Bw5MHz unsupported
- parm.code_rate_HP = [f1_2, f2_3, f3_4, f5_6, f7_8, fAuto][fechigh]
- parm.code_rate_LP = [f1_2, f2_3, f3_4, f5_6, f7_8, fAuto][feclow]
- parm.modulation = [QPSK, QAM16, QAM64, Auto][modulation]
- parm.transmission_mode = [TM2k, TM8k, TMAuto][transmission] # TM4k unsupported
- parm.guard_interval = [GI_1_32, GI_1_16, GI_1_8, GI_1_4, GI_Auto][guard]
- parm.hierarchy = [HNone, H1, H2, H4, HAuto][hierarchy]
-
+ parm.inversion = inversion
+ parm.bandwidth = bandwidth
+ parm.code_rate_HP = fechigh
+ parm.code_rate_LP = feclow
+ parm.modulation = modulation
+ parm.transmission_mode = transmission
+ parm.guard_interval = guard
+ parm.hierarchy = hierarchy
+ parm.system = system
+ parm.plpid = plpid
return parm
def getInitialTransponderList(tlist, pos):
parm.symbol_rate = x[2]
parm.modulation = x[3]
parm.fec_inner = x[4]
- parm.inversion = 2 # AUTO
+ parm.inversion = parm.Inversion_Unknown
#print "frequency:", x[1]
#print "symbol_rate:", x[2]
#print "modulation:", x[3]
#print "inversion:", 2
tlist.append(parm)
-def getInitialTerrestrialTransponderList(tlist, region):
+def getInitialTerrestrialTransponderList(tlist, region, skip_t2 = False):
list = nimmanager.getTranspondersTerrestrial(region)
- #self.transponders[self.parsedTer].append((2,freq,bw,const,crh,crl,guard,transm,hierarchy,inv))
+ #self.transponders[self.parsedTer].append((2,freq,bw,const,crh,crl,guard,transm,hierarchy,inv,system,plpid))
#def buildTerTransponder(frequency, inversion = 2, bandwidth = 3, fechigh = 6, feclow = 6,
- #modulation = 2, transmission = 2, guard = 4, hierarchy = 4):
+ #modulation = 2, transmission = 2, guard = 4, hierarchy = 4, system = 0, plpid = 0):):
for x in list:
if x[0] == 2: #TERRESTRIAL
- parm = buildTerTransponder(x[1], x[9], x[2], x[4], x[5], x[3], x[7], x[6], x[8])
+ if skip_t2 and x[10] == eDVBFrontendParametersTerrestrial.System_DVB_T2:
+ # Should be searching on TerrestrialTransponderSearchSupport.
+ continue
+ parm = buildTerTransponder(x[1], x[9], x[2], x[4], x[5], x[3], x[7], x[6], x[8], x[10], x[11])
tlist.append(parm)
cable_bands = {
"DVBC_BAND_US_HYPER" : 1 << 11,
}
+cable_autoscan_nimtype = {
+'SSH108' : 'ssh108',
+'TT3L10' : 'tt3l10',
+'TURBO' : 'vuplus_turbo_c'
+}
+
+terrestrial_autoscan_nimtype = {
+'SSH108' : 'ssh108_t2_scan',
+'TT3L10' : 'tt3l10_t2_scan',
+'TURBO' : 'vuplus_turbo_t'
+}
+
+def GetDeviceId(filter, nim_idx):
+ tuners={}
+ device_id = 0
+ socket_id = 0
+ for nim in nimmanager.nim_slots:
+ name_token = nim.description.split(' ')
+ name = name_token[-1][4:-1]
+ if name == filter:
+ if socket_id == nim_idx:
+ break
+
+ if device_id: device_id = 0
+ else: device_id = 1
+ socket_id += 1
+ return device_id
+
class CableTransponderSearchSupport:
# def setCableTransponderSearchResult(self, tlist):
# pass
if raw_channel:
frontend = raw_channel.getFrontend()
if frontend:
+ frontend.closeFrontend() # immediate close...
del frontend
del raw_channel
return True
print "cableTransponderSearchSessionClosed, val", val
self.cable_search_container.appClosed.remove(self.cableTransponderSearchClosed)
self.cable_search_container.dataAvail.remove(self.getCableTransponderData)
+ if val and len(val):
+ if val[0]:
+ self.setCableTransponderSearchResult(self.__tlist)
+ else:
+ self.cable_search_container.sendCtrlC()
+ self.setCableTransponderSearchResult(None)
self.cable_search_container = None
self.cable_search_session = None
- if val and len(val) and val[0]:
- self.setCableTransponderSearchResult(self.__tlist)
self.__tlist = None
self.cableTransponderSearchFinished()
if len(data):
if data[0] == 'OK':
print str
- qam = { "QAM16" : 1, "QAM32" : 2, "QAM64" : 3, "QAM128" : 4, "QAM256" : 5 }
- inv = { "INVERSION_OFF" : 0, "INVERSION_ON" : 1 }
- fec = { "FEC_AUTO" : 0, "FEC_1_2" : 1, "FEC_2_3" : 2, "FEC_3_4" : 3, "FEC_5_6": 4, "FEC_7_8" : 5, "FEC_8_9" : 6, "FEC_NONE" : 15 }
parm = eDVBFrontendParametersCable()
+ qam = { "QAM16" : parm.Modulation_QAM16,
+ "QAM32" : parm.Modulation_QAM32,
+ "QAM64" : parm.Modulation_QAM64,
+ "QAM128" : parm.Modulation_QAM128,
+ "QAM256" : parm.Modulation_QAM256 }
+ inv = { "INVERSION_OFF" : parm.Inversion_Off,
+ "INVERSION_ON" : parm.Inversion_On,
+ "INVERSION_AUTO" : parm.Inversion_Unknown }
+ fec = { "FEC_AUTO" : parm.FEC_Auto,
+ "FEC_1_2" : parm.FEC_1_2,
+ "FEC_2_3" : parm.FEC_2_3,
+ "FEC_3_4" : parm.FEC_3_4,
+ "FEC_5_6": parm.FEC_5_6,
+ "FEC_7_8" : parm.FEC_7_8,
+ "FEC_8_9" : parm.FEC_8_9,
+ "FEC_NONE" : parm.FEC_None }
parm.frequency = int(data[1])
parm.symbol_rate = int(data[2])
parm.fec_inner = fec[data[3]]
parm.modulation = qam[data[4]]
parm.inversion = inv[data[5]]
self.__tlist.append(parm)
- tmpstr = _("Try to find used Transponders in cable network.. please wait...")
- tmpstr += "\n\n"
- tmpstr += data[1]
- tmpstr += " kHz "
- tmpstr += data[0]
- self.cable_search_session["text"].setText(tmpstr)
+ tmpstr = _("Try to find used Transponders in cable network.. please wait...")
+ tmpstr += "\n\n"
+ tmpstr += data[1]
+ tmpstr += " kHz "
+ tmpstr += data[0]
+ self.cable_search_session["text"].setText(tmpstr)
def startCableTransponderSearch(self, nim_idx):
+ def GetCommand(nim_idx):
+ global cable_autoscan_nimtype
+ try:
+ nim_name = nimmanager.getNimName(nim_idx)
+ if nim_name is not None and nim_name != "":
+ device_id = ""
+ nim_name = nim_name.split(' ')[-1][4:-1]
+ if nim_name == 'TT3L10':
+ try:
+ device_id = GetDeviceId('TT3L10', nim_idx)
+ device_id = "--device=%s" % (device_id)
+ except Exception, err:
+ print "GetCommand ->", err
+ device_id = "--device=0"
+# print nim_idx, nim_name, cable_autoscan_nimtype[nim_name], device_id
+ command = "%s %s" % (cable_autoscan_nimtype[nim_name], device_id)
+ return command
+ except Exception, err:
+ print "GetCommand ->", err
+ return "tda1002x"
+
if not self.tryGetRawFrontend(nim_idx):
self.session.nav.stopService()
if not self.tryGetRawFrontend(nim_idx):
self.cable_search_container.appClosed.append(self.cableTransponderSearchClosed)
self.cable_search_container.dataAvail.append(self.getCableTransponderData)
cableConfig = config.Nims[nim_idx].cable
- cmd = "tda1002x --init --scan --verbose --wakeup --inv 2 --bus "
- #FIXMEEEEEE hardcoded i2c devices for dm7025 and dm8000
- if nim_idx < 2:
- cmd += str(nim_idx)
+ tunername = nimmanager.getNimName(nim_idx)
+ bus = nimmanager.getI2CDevice(nim_idx)
+ if bus is None:
+ print "ERROR: could not get I2C device for nim", nim_idx, "for cable transponder search"
+ bus = 2
+
+ if tunername == "CXD1981":
+ cmd = "cxd1978 --init --scan --verbose --wakeup --inv 2 --bus %d" % bus
else:
- if nim_idx == 2:
- cmd += "2" # first nim socket on DM8000 use /dev/i2c/2
- else:
- cmd += "4" # second nim socket on DM8000 use /dev/i2c/4
+ bin_name = GetCommand(nim_idx)
+ cmd = "%(BIN_NAME)s --init --scan --verbose --wakeup --inv 2 --bus %(BUS)d" % {'BIN_NAME':bin_name , 'BUS':bus}
+
if cableConfig.scan_type.value == "bands":
cmd += " --scan-bands "
bands = 0
cmd += " --sr "
cmd += str(cableConfig.scan_sr_ext2.value)
cmd += "000"
- print "TDA1002x CMD is", cmd
+ print bin_name, " CMD is", cmd
self.cable_search_container.execute(cmd)
tmpstr = _("Try to find used transponders in cable network.. please wait...")
tmpstr += "\n\n..."
self.cable_search_session = self.session.openWithCallback(self.cableTransponderSearchSessionClosed, MessageBox, tmpstr, MessageBox.TYPE_INFO)
+class TerrestrialTransponderSearchSupport:
+# def setTerrestrialTransponderSearchResult(self, tlist):
+# pass
+
+# def terrestrialTransponderSearchFinished(self):
+# pass
+
+ def terrestrialTransponderSearchSessionClosed(self, *val):
+ print "TerrestrialTransponderSearchSessionClosed, val", val
+ self.terrestrial_search_container.appClosed.remove(self.terrestrialTransponderSearchClosed)
+ self.terrestrial_search_container.dataAvail.remove(self.getTerrestrialTransponderData)
+ if val and len(val):
+ if val[0]:
+ self.setTerrestrialTransponderSearchResult(self.__tlist)
+ else:
+ self.terrestrial_search_container.sendCtrlC()
+ self.setTerrestrialTransponderSearchResult(None)
+ self.terrestrial_search_container = None
+ self.terrestrial_search_session = None
+ self.__tlist = None
+ self.terrestrialTransponderSearchFinished()
+
+ def terrestrialTransponderSearchClosed(self, retval):
+ self.setTerrestrialTransponderData()
+ opt = self.terrestrialTransponderGetOpt()
+ if opt is None:
+ print "terrestrialTransponderSearch finished", retval
+ self.terrestrial_search_session.close(True)
+ else:
+ (freq, bandWidth) = opt
+ self.terrestrialTransponderSearch(freq, bandWidth)
+
+ def getTerrestrialTransponderData(self, str):
+ self.terrestrial_search_data += str
+
+ def setTerrestrialTransponderData(self):
+ print self.terrestrial_search_data
+ data = self.terrestrial_search_data.split()
+ if len(data):
+# print "[setTerrestrialTransponderData] data : ", data
+ if data[0] == 'OK':
+ # DVB-T : OK frequency bandwidth delivery system -1
+ # DVB-T2 : OK frequency bandwidth delivery system number_of_plp plp_id0:plp_type0
+ if data[3] == 1: # DVB-T
+ parm = eDVBFrontendParametersTerrestrial()
+ parm.frequency = int(data[1])
+ parm.bandwidth = int(data[2])
+ parm.inversion = parm.Inversion_Unknown
+ parm.code_rate_HP = parm.FEC_Auto
+ parm.code_rate_LP = parm.FEC_Auto
+ parm.modulation = parm.Modulation_Auto
+ parm.transmission_mode = parm.TransmissionMode_Auto
+ parm.guard_interval = parm.GuardInterval_Auto
+ parm.hierarchy = parm.Hierarchy_Auto
+ parm.system = parm.System_DVB_T
+ parm.plpid = 0
+ self.__tlist.append(parm)
+ else:
+ plp_list = data[5:]
+ plp_num = int(data[4])
+ if len(plp_list) > plp_num:
+ plp_list = plp_list[:plp_num]
+ for plp in plp_list:
+ (plp_id, plp_type) = plp.split(':')
+ if plp_type == '0': # common PLP:
+ continue
+ parm = eDVBFrontendParametersTerrestrial()
+ parm.frequency = int(data[1])
+ parm.bandwidth = self.terrestrialTransponderconvBandwidth_P(int(data[2]))
+ parm.inversion = parm.Inversion_Unknown
+ parm.code_rate_HP = parm.FEC_Auto
+ parm.code_rate_LP = parm.FEC_Auto
+ parm.modulation = parm.Modulation_Auto
+ parm.transmission_mode = parm.TransmissionMode_Auto
+ parm.guard_interval = parm.GuardInterval_Auto
+ parm.hierarchy = parm.Hierarchy_Auto
+ parm.system = parm.System_DVB_T2
+ parm.plpid = int(plp_id)
+ self.__tlist.append(parm)
+
+ tmpstr = _("Try to find used Transponders in terrestrial network.. please wait...")
+ tmpstr += "\n\n"
+ tmpstr += data[1][:-3]
+ tmpstr += " kHz "
+ tmpstr += data[0]
+ self.terrestrial_search_session["text"].setText(tmpstr)
+
+ def terrestrialTransponderInitSearchList(self, searchList, region):
+ tpList = nimmanager.getTranspondersTerrestrial(region)
+ for x in tpList:
+ if x[0] == 2: #TERRESTRIAL
+ freq = x[1] # frequency
+ bandWidth = self.terrestrialTransponderConvBandwidth_I(x[2]) # bandWidth
+ parm = (freq, bandWidth)
+ searchList.append(parm)
+
+ def terrestrialTransponderConvBandwidth_I(self, _bandWidth):
+ bandWidth = {
+ eDVBFrontendParametersTerrestrial.Bandwidth_8MHz : 8000000,
+ eDVBFrontendParametersTerrestrial.Bandwidth_7MHz : 7000000,
+ eDVBFrontendParametersTerrestrial.Bandwidth_6MHz : 6000000,
+ eDVBFrontendParametersTerrestrial.Bandwidth_5MHz : 5000000,
+ eDVBFrontendParametersTerrestrial.Bandwidth_1_712MHz : 1712000,
+ eDVBFrontendParametersTerrestrial.Bandwidth_10MHz : 10000000,
+ }.get(_bandWidth, 8000000)
+ return bandWidth
+
+ def terrestrialTransponderconvBandwidth_P(self, _bandWidth):
+ bandWidth = {
+ 8000000 : eDVBFrontendParametersTerrestrial.Bandwidth_8MHz,
+ 7000000 : eDVBFrontendParametersTerrestrial.Bandwidth_7MHz,
+ 6000000 : eDVBFrontendParametersTerrestrial.Bandwidth_6MHz,
+ 5000000 : eDVBFrontendParametersTerrestrial.Bandwidth_5MHz,
+ 1712000 : eDVBFrontendParametersTerrestrial.Bandwidth_1_712MHz,
+ 10000000 : eDVBFrontendParametersTerrestrial.Bandwidth_10MHz,
+ }.get(_bandWidth, eDVBFrontendParametersTerrestrial.Bandwidth_8MHz)
+ return bandWidth
+
+ def terrestrialTransponderGetOpt(self):
+ if len(self.terrestrial_search_list) > 0:
+ return self.terrestrial_search_list.pop(0)
+ else:
+ return None
+
+ def terrestrialTransponderGetCmd(self, nim_idx):
+ global terrestrial_autoscan_nimtype
+ try:
+ nim_name = nimmanager.getNimName(nim_idx)
+ if nim_name is not None and nim_name != "":
+ device_id = ""
+ nim_name = nim_name.split(' ')[-1][4:-1]
+ if nim_name == 'TT3L10':
+ try:
+ device_id = GetDeviceId('TT3L10', nim_idx)
+ device_id = "--device %s" % (device_id)
+ except Exception, err:
+ print "terrestrialTransponderGetCmd ->", err
+ device_id = "--device 0"
+# print nim_idx, nim_name, terrestrial_autoscan_nimtype[nim_name], device_id
+ command = "%s %s" % (terrestrial_autoscan_nimtype[nim_name], device_id)
+ return command
+ except Exception, err:
+ print "terrestrialTransponderGetCmd ->", err
+ return ""
+
+ def startTerrestrialTransponderSearch(self, nim_idx, region):
+ if not self.tryGetRawFrontend(nim_idx):
+ self.session.nav.stopService()
+ if not self.tryGetRawFrontend(nim_idx):
+ if self.session.pipshown: # try to disable pip
+ self.session.pipshown = False
+ del self.session.pip
+ if not self.tryGetRawFrontend(nim_idx):
+ self.terrestrialTransponderSearchFinished()
+ return
+ self.__tlist = [ ]
+ self.terrestrial_search_container = eConsoleAppContainer()
+ self.terrestrial_search_container.appClosed.append(self.terrestrialTransponderSearchClosed)
+ self.terrestrial_search_container.dataAvail.append(self.getTerrestrialTransponderData)
+
+ self.terrestrial_search_binName = self.terrestrialTransponderGetCmd(nim_idx)
+
+ self.terrestrial_search_bus = nimmanager.getI2CDevice(nim_idx)
+ if self.terrestrial_search_bus is None:
+# print "ERROR: could not get I2C device for nim", nim_idx, "for terrestrial transponder search"
+ self.terrestrial_search_bus = 2
+
+ self.terrestrial_search_list = []
+ self.terrestrialTransponderInitSearchList(self.terrestrial_search_list ,region)
+ (freq, bandWidth) = self.terrestrialTransponderGetOpt()
+ self.terrestrialTransponderSearch(freq, bandWidth)
+
+ tmpstr = _("Try to find used transponders in terrestrial network.. please wait...")
+ tmpstr += "\n\n..."
+ self.terrestrial_search_session = self.session.openWithCallback(self.terrestrialTransponderSearchSessionClosed, MessageBox, tmpstr, MessageBox.TYPE_INFO)
+
+ def terrestrialTransponderSearch(self, freq, bandWidth):
+ self.terrestrial_search_data = ""
+ cmd = "%s --freq %d --bw %d --bus %d --ds 2" % (self.terrestrial_search_binName, freq, bandWidth, self.terrestrial_search_bus)
+ print "SCAN CMD : ",cmd
+ self.terrestrial_search_container.execute(cmd)
+
class DefaultSatLists(DefaultWizard):
def __init__(self, session, silent = True, showSteps = False):
self.xmlfile = "defaultsatlists.xml"
self.markDone()
self.disableKeys = False
-class ScanSetup(ConfigListScreen, Screen, CableTransponderSearchSupport):
+class ScanSetup(ConfigListScreen, Screen, CableTransponderSearchSupport, TerrestrialTransponderSearchSupport):
def __init__(self, session):
Screen.__init__(self, session)
self.list = []
ConfigListScreen.__init__(self, self.list)
- self.createSetup()
-
- self["introduction"] = Label(_("Press OK to start the scan"))
+ if not self.scan_nims.value == "":
+ self.createSetup()
+ self["introduction"] = Label(_("Press OK to start the scan"))
+ else:
+ self["introduction"] = Label(_("Nothing to scan!\nPlease setup your tuner settings before you start a service scan."))
def runAsync(self, finished_cb):
self.finished_cb = finished_cb
self.list.append(self.systemEntry)
else:
# downgrade to dvb-s, in case a -s2 config was active
- self.scan_sat.system.value = "dvb-s"
+ self.scan_sat.system.value = eDVBFrontendParametersSatellite.System_DVB_S
self.list.append(getConfigListEntry(_('Satellite'), self.scan_satselection[index_to_scan]))
self.list.append(getConfigListEntry(_('Frequency'), self.scan_sat.frequency))
self.list.append(getConfigListEntry(_('Inversion'), self.scan_sat.inversion))
- self.list.append(getConfigListEntry(_('Symbol Rate'), self.scan_sat.symbolrate))
- self.list.append(getConfigListEntry(_("Polarity"), self.scan_sat.polarization))
- if self.scan_sat.system.value == "dvb-s":
+ self.list.append(getConfigListEntry(_('Symbol rate'), self.scan_sat.symbolrate))
+ self.list.append(getConfigListEntry(_('Polarization'), self.scan_sat.polarization))
+ if self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S:
self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec))
- elif self.scan_sat.system.value == "dvb-s2":
+ elif self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S2:
self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec_s2))
self.modulationEntry = getConfigListEntry(_('Modulation'), self.scan_sat.modulation)
self.list.append(self.modulationEntry)
- self.list.append(getConfigListEntry(_('Rolloff'), self.scan_sat.rolloff))
+ self.list.append(getConfigListEntry(_('Roll-off'), self.scan_sat.rolloff))
self.list.append(getConfigListEntry(_('Pilot'), self.scan_sat.pilot))
elif self.scan_type.value == "single_satellite":
self.updateSatList()
if self.scan_typecable.value == "single_transponder":
self.list.append(getConfigListEntry(_("Frequency"), self.scan_cab.frequency))
self.list.append(getConfigListEntry(_("Inversion"), self.scan_cab.inversion))
- self.list.append(getConfigListEntry(_("Symbol Rate"), self.scan_cab.symbolrate))
+ self.list.append(getConfigListEntry(_("Symbol rate"), self.scan_cab.symbolrate))
self.list.append(getConfigListEntry(_("Modulation"), self.scan_cab.modulation))
self.list.append(getConfigListEntry(_("FEC"), self.scan_cab.fec))
elif nim.isCompatible("DVB-T"):
if self.scan_typeterrestrial.value == "single_transponder":
- self.list.append(getConfigListEntry(_("Frequency"), self.scan_ter.frequency))
- self.list.append(getConfigListEntry(_("Inversion"), self.scan_ter.inversion))
- self.list.append(getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth))
- self.list.append(getConfigListEntry(_("Code rate high"), self.scan_ter.fechigh))
- self.list.append(getConfigListEntry(_("Code rate low"), self.scan_ter.feclow))
- self.list.append(getConfigListEntry(_("Modulation"), self.scan_ter.modulation))
- self.list.append(getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission))
- self.list.append(getConfigListEntry(_("Guard interval mode"), self.scan_ter.guard))
- self.list.append(getConfigListEntry(_("Hierarchy mode"), self.scan_ter.hierarchy))
+ if nim.isCompatible("DVB-T2"):
+ self.systemEntry = getConfigListEntry(_('System'), self.scan_ter.system)
+ self.list.append(self.systemEntry)
+ else:
+ self.scan_ter.system.value = eDVBFrontendParametersTerrestrial.System_DVB_T
+ if self.scan_ter.system.value == eDVBFrontendParametersTerrestrial.System_DVB_T:
+ self.list.append(getConfigListEntry(_("Frequency"), self.scan_ter.frequency))
+ self.list.append(getConfigListEntry(_("Inversion"), self.scan_ter.inversion))
+ self.list.append(getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth))
+ self.list.append(getConfigListEntry(_("Code rate HP"), self.scan_ter.fechigh))
+ self.list.append(getConfigListEntry(_("Code rate LP"), self.scan_ter.feclow))
+ self.list.append(getConfigListEntry(_("Modulation"), self.scan_ter.modulation))
+ self.list.append(getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission))
+ self.list.append(getConfigListEntry(_("Guard interval"), self.scan_ter.guard))
+ self.list.append(getConfigListEntry(_("Hierarchy info"), self.scan_ter.hierarchy))
+ else: # DVB-T2
+ self.list.append(getConfigListEntry(_("Frequency"), self.scan_ter.frequency))
+ self.list.append(getConfigListEntry(_("Inversion"), self.scan_ter.inversion))
+ self.list.append(getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth_t2))
+ self.list.append(getConfigListEntry(_("Code rate HP"), self.scan_ter.fechigh_t2))
+ self.list.append(getConfigListEntry(_("Code rate LP"), self.scan_ter.feclow_t2))
+ self.list.append(getConfigListEntry(_("Modulation"), self.scan_ter.modulation_t2))
+ self.list.append(getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission_t2))
+ self.list.append(getConfigListEntry(_("Guard interval"), self.scan_ter.guard_t2))
+ self.list.append(getConfigListEntry(_("Hierarchy info"), self.scan_ter.hierarchy))
+ self.list.append(getConfigListEntry(_('PLP ID'), self.scan_ter.plp_id))
self.list.append(getConfigListEntry(_("Network scan"), self.scan_networkScan))
self.list.append(getConfigListEntry(_("Clear before scan"), self.scan_clearallservices))
self.list.append(getConfigListEntry(_("Only Free scan"), self.scan_onlyfree))
if cur == self.typeOfScanEntry or \
cur == self.tunerEntry or \
cur == self.systemEntry or \
- (self.modulationEntry and self.systemEntry[1].value == "dvb-s2" and cur == self.modulationEntry):
+ (self.modulationEntry and self.systemEntry[1].value == eDVBFrontendParametersSatellite.System_DVB_S2 and cur == self.modulationEntry):
self.createSetup()
def createConfig(self, frontendData):
#("Transmission Mode", frontendData["transmission_mode"], TYPE_TEXT),
#("Guard Interval", frontendData["guard_interval"], TYPE_TEXT),
#("Hierarchy Inform.", frontendData["hierarchy_information"], TYPE_TEXT),
- defaultSat = { "orbpos": 192, "system": "dvb-s", "frequency": 11836, "inversion": "auto", "symbolrate": 27500, "polarization": "horizontal", "fec": "auto", "fec_s2": "9_10", "modulation": "qpsk" }
- defaultCab = {"frequency": 466, "inversion": "auto", "modulation": "64qam", "fec": "auto", "symbolrate": 6900}
+ defaultSat = {
+ "orbpos": 192,
+ "system": eDVBFrontendParametersSatellite.System_DVB_S,
+ "frequency": 11836,
+ "inversion": eDVBFrontendParametersSatellite.Inversion_Unknown,
+ "symbolrate": 27500,
+ "polarization": eDVBFrontendParametersSatellite.Polarisation_Horizontal,
+ "fec": eDVBFrontendParametersSatellite.FEC_Auto,
+ "fec_s2": eDVBFrontendParametersSatellite.FEC_9_10,
+ "modulation": eDVBFrontendParametersSatellite.Modulation_QPSK }
+ defaultCab = {
+ "frequency": 466,
+ "inversion": eDVBFrontendParametersCable.Inversion_Unknown,
+ "modulation": eDVBFrontendParametersCable.Modulation_QAM64,
+ "fec": eDVBFrontendParametersCable.FEC_Auto,
+ "symbolrate": 6900 }
+ defaultTer = {
+ "frequency" : 466000,
+ "inversion" : eDVBFrontendParametersTerrestrial.Inversion_Unknown,
+ "bandwidth" : eDVBFrontendParametersTerrestrial.Bandwidth_7MHz,
+ "fechigh" : eDVBFrontendParametersTerrestrial.FEC_Auto,
+ "feclow" : eDVBFrontendParametersTerrestrial.FEC_Auto,
+ "modulation" : eDVBFrontendParametersTerrestrial.Modulation_Auto,
+ "transmission_mode" : eDVBFrontendParametersTerrestrial.TransmissionMode_Auto,
+ "guard_interval" : eDVBFrontendParametersTerrestrial.GuardInterval_Auto,
+ "hierarchy": eDVBFrontendParametersTerrestrial.Hierarchy_Auto,
+ "system": eDVBFrontendParametersTerrestrial.System_DVB_T,
+ "plp_id": 0 }
+
if frontendData is not None:
ttype = frontendData.get("tuner_type", "UNKNOWN")
if ttype == "DVB-S":
- defaultSat["system"] = {"DVB-S": "dvb-s", "DVB-S2": "dvb-s2"}[frontendData.get("system", "DVB-S")]
+ defaultSat["system"] = frontendData.get("system", eDVBFrontendParametersSatellite.System_DVB_S)
defaultSat["frequency"] = frontendData.get("frequency", 0) / 1000
- defaultSat["inversion"] = {"INVERSION_OFF": "off", "INVERSION_ON": "on", "INVERSION_AUTO": "auto"}[frontendData.get("inversion", "INVERSION_AUTO")]
+ defaultSat["inversion"] = frontendData.get("inversion", eDVBFrontendParametersSatellite.Inversion_Unknown)
defaultSat["symbolrate"] = frontendData.get("symbol_rate", 0) / 1000
- defaultSat["polarization"] = {"HORIZONTAL": "horizontal", "VERTICAL": "vertical", "CIRCULAR_LEFT": "circular_left", "CIRCULAR_RIGHT": "circular_right", "UNKNOWN": None}[frontendData.get("polarization", "HORIZONTAL")]
-
- if frontendData.get("system", "DVB-S") == "DVB-S2":
- defaultSat["fec_s2"] = {"FEC_1_2": "1_2", "FEC_2_3": "2_3", "FEC_3_4": "3_4", "FEC_4_5": "4_5", "FEC_5_6": "5_6", "FEC_7_8": "7_8", "FEC_8_9": "8_9", "FEC_9_10": "9_10"} \
- [frontendData.get("fec_inner", "FEC_AUTO")]
- defaultSat["rolloff"] = {"ROLLOFF_0_35" : "0_35", "ROLLOFF_0_25" : "0_25", "ROLLOFF_0_20" : "0_20"}[frontendData.get("rolloff", "ROLLOFF_0_35")]
- defaultSat["pilot"] = {"PILOT_ON" : "on", "PILOT_OFF" : "off", "PILOT_AUTO" : "auto"}[frontendData.get("pilot", "PILOT_AUTO")]
+ defaultSat["polarization"] = frontendData.get("polarization", eDVBFrontendParametersSatellite.Polarisation_Horizontal)
+ if defaultSat["system"] == eDVBFrontendParametersSatellite.System_DVB_S2:
+ defaultSat["fec_s2"] = frontendData.get("fec_inner", eDVBFrontendParametersSatellite.FEC_Auto)
+ defaultSat["rolloff"] = frontendData.get("rolloff", eDVBFrontendParametersSatellite.RollOff_alpha_0_35)
+ defaultSat["pilot"] = frontendData.get("pilot", eDVBFrontendParametersSatellite.Pilot_Unknown)
else:
- defaultSat["fec"] = {"FEC_AUTO": "auto", "FEC_1_2": "1_2", "FEC_2_3": "2_3", "FEC_3_4": "3_4", "FEC_5_6": "5_6", "FEC_7_8": "7_8", "FEC_NONE": "none"} \
- [frontendData.get("fec_inner", "FEC_AUTO")]
-
- defaultSat["modulation"] = {"QPSK": "qpsk", "8PSK": "8psk"}[frontendData.get("modulation", "QPSK")]
+ defaultSat["fec"] = frontendData.get("fec_inner", eDVBFrontendParametersSatellite.FEC_Auto)
+ defaultSat["modulation"] = frontendData.get("modulation", eDVBFrontendParametersSatellite.Modulation_QPSK)
defaultSat["orbpos"] = frontendData.get("orbital_position", 0)
elif ttype == "DVB-C":
defaultCab["frequency"] = frontendData.get("frequency", 0) / 1000
defaultCab["symbolrate"] = frontendData.get("symbol_rate", 0) / 1000
- defaultCab["inversion"] = {"INVERSION_OFF": "off", "INVERSION_ON": "on", "INVERSION_AUTO": "auto"}[frontendData.get("inversion", "INVERSION_AUTO")]
- defaultCab["fec"] = {"FEC_AUTO": "auto", "FEC_1_2": "1_2", "FEC_2_3": "2_3", "FEC_3_4": "3_4", "FEC_5_6": "5_6", "FEC_7_8": "7_8", "FEC_8_9": "8_9", "FEC_NONE": "none"}[frontendData.get("fec_inner", "FEC_AUTO")]
- defaultCab["modulation"] = {"QAM_AUTO": "auto", "QAM_16": "16qam", "QAM_32": "32qam", "QAM_64": "64qam", "QAM_128": "128qam", "QAM_256": "256qam"}[frontendData.get("modulation", "QAM_16")]
+ defaultCab["inversion"] = frontendData.get("inversion", eDVBFrontendParametersCable.Inversion_Unknown)
+ defaultCab["fec"] = frontendData.get("fec_inner", eDVBFrontendParametersCable.FEC_Auto)
+ defaultCab["modulation"] = frontendData.get("modulation", eDVBFrontendParametersCable.Modulation_QAM16)
+ elif ttype == "DVB-T":
+ defaultTer["frequency"] = frontendData.get("frequency", 0) / 1000
+ defaultTer["inversion"] = frontendData.get("inversion", eDVBFrontendParametersTerrestrial.Inversion_Unknown)
+ defaultTer["bandwidth"] = frontendData.get("bandwidth", eDVBFrontendParametersTerrestrial.Bandwidth_7MHz)
+ defaultTer["fechigh"] = frontendData.get("code_rate_hp", eDVBFrontendParametersTerrestrial.FEC_Auto)
+ defaultTer["feclow"] = frontendData.get("code_rate_lp", eDVBFrontendParametersTerrestrial.FEC_Auto)
+ defaultTer["modulation"] = frontendData.get("constellation", eDVBFrontendParametersTerrestrial.Modulation_Auto)
+ defaultTer["transmission_mode"] = frontendData.get("transmission_mode", eDVBFrontendParametersTerrestrial.TransmissionMode_Auto)
+ defaultTer["guard_interval"] = frontendData.get("guard_interval", eDVBFrontendParametersTerrestrial.GuardInterval_Auto)
+ defaultTer["hierarchy"] = frontendData.get("hierarchy_information", eDVBFrontendParametersTerrestrial.Hierarchy_Auto)
+ defaultTer["system"] = frontendData.get("system", eDVBFrontendParametersTerrestrial.System_DVB_T)
+ defaultTer["plp_id"] = frontendData.get("plp_id", 0)
self.scan_sat = ConfigSubsection()
self.scan_cab = ConfigSubsection()
nim_list = []
# collect all nims which are *not* set to "nothing"
for n in nimmanager.nim_slots:
- if not n.config_mode in ("loopthrough", "satposdepends", "nothing"):
- nim_list.append((str(n.slot), n.friendly_full_description))
+ if n.config_mode == "nothing":
+ continue
+ if n.config_mode == "advanced" and len(nimmanager.getSatListForNim(n.slot)) < 1:
+ continue
+ if n.config_mode in ("loopthrough", "satposdepends"):
+ root_id = nimmanager.sec.getRoot(n.slot_id, int(n.config.connectedTo.value))
+ if n.type == nimmanager.nim_slots[root_id].type: # check if connected from a DVB-S to DVB-S2 Nim or vice versa
+ continue
+ nim_list.append((str(n.slot), n.friendly_full_description))
self.scan_nims = ConfigSelection(choices = nim_list)
self.scan_ber.enabled = False
# sat
- self.scan_sat.system = ConfigSelection(default = defaultSat["system"], choices = [("dvb-s", _("DVB-S")), ("dvb-s2", _("DVB-S2"))])
+ self.scan_sat.system = ConfigSelection(default = defaultSat["system"], choices = [
+ (eDVBFrontendParametersSatellite.System_DVB_S, _("DVB-S")),
+ (eDVBFrontendParametersSatellite.System_DVB_S2, _("DVB-S2"))])
self.scan_sat.frequency = ConfigInteger(default = defaultSat["frequency"], limits = (1, 99999))
- self.scan_sat.inversion = ConfigSelection(default = defaultSat["inversion"], choices = [("off", _("off")), ("on", _("on")), ("auto", _("Auto"))])
+ self.scan_sat.inversion = ConfigSelection(default = defaultSat["inversion"], choices = [
+ (eDVBFrontendParametersSatellite.Inversion_Off, _("Off")),
+ (eDVBFrontendParametersSatellite.Inversion_On, _("On")),
+ (eDVBFrontendParametersSatellite.Inversion_Unknown, _("Auto"))])
self.scan_sat.symbolrate = ConfigInteger(default = defaultSat["symbolrate"], limits = (1, 99999))
- self.scan_sat.polarization = ConfigSelection(default = defaultSat["polarization"], choices = [("horizontal", _("horizontal")), ("vertical", _("vertical")), ("circular_left", _("circular left")), ("circular_right", _("circular right"))])
- self.scan_sat.fec = ConfigSelection(default = defaultSat["fec"], choices = [("auto", _("Auto")), ("1_2", "1/2"), ("2_3", "2/3"), ("3_4", "3/4"), ("5_6", "5/6"), ("7_8", "7/8"), ("none", _("None"))])
- self.scan_sat.fec_s2 = ConfigSelection(default = defaultSat["fec_s2"], choices = [("1_2", "1/2"), ("2_3", "2/3"), ("3_4", "3/4"), ("3_5", "3/5"), ("4_5", "4/5"), ("5_6", "5/6"), ("7_8", "7/8"), ("8_9", "8/9"), ("9_10", "9/10")])
- self.scan_sat.modulation = ConfigSelection(default = defaultSat["modulation"], choices = [("qpsk", "QPSK"), ("8psk", "8PSK")])
- self.scan_sat.rolloff = ConfigSelection(default = defaultSat.get("rolloff", "0_35"), choices = [("0_35", "0.35"), ("0_25", "0.25"), ("0_20", "0.20")])
- self.scan_sat.pilot = ConfigSelection(default = defaultSat.get("pilot", "auto"), choices = [("off", _("off")), ("on", _("on")), ("auto", _("Auto"))])
+ self.scan_sat.polarization = ConfigSelection(default = defaultSat["polarization"], choices = [
+ (eDVBFrontendParametersSatellite.Polarisation_Horizontal, _("horizontal")),
+ (eDVBFrontendParametersSatellite.Polarisation_Vertical, _("vertical")),
+ (eDVBFrontendParametersSatellite.Polarisation_CircularLeft, _("circular left")),
+ (eDVBFrontendParametersSatellite.Polarisation_CircularRight, _("circular right"))])
+ self.scan_sat.fec = ConfigSelection(default = defaultSat["fec"], choices = [
+ (eDVBFrontendParametersSatellite.FEC_Auto, _("Auto")),
+ (eDVBFrontendParametersSatellite.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersSatellite.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersSatellite.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersSatellite.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersSatellite.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersSatellite.FEC_None, _("None"))])
+ self.scan_sat.fec_s2 = ConfigSelection(default = defaultSat["fec_s2"], choices = [
+ (eDVBFrontendParametersSatellite.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersSatellite.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersSatellite.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersSatellite.FEC_3_5, "3/5"),
+ (eDVBFrontendParametersSatellite.FEC_4_5, "4/5"),
+ (eDVBFrontendParametersSatellite.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersSatellite.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersSatellite.FEC_8_9, "8/9"),
+ (eDVBFrontendParametersSatellite.FEC_9_10, "9/10")])
+ self.scan_sat.modulation = ConfigSelection(default = defaultSat["modulation"], choices = [
+ (eDVBFrontendParametersSatellite.Modulation_QPSK, "QPSK"),
+ (eDVBFrontendParametersSatellite.Modulation_8PSK, "8PSK")])
+ self.scan_sat.rolloff = ConfigSelection(default = defaultSat.get("rolloff", eDVBFrontendParametersSatellite.RollOff_alpha_0_35), choices = [
+ (eDVBFrontendParametersSatellite.RollOff_alpha_0_35, "0.35"),
+ (eDVBFrontendParametersSatellite.RollOff_alpha_0_25, "0.25"),
+ (eDVBFrontendParametersSatellite.RollOff_alpha_0_20, "0.20")])
+ self.scan_sat.pilot = ConfigSelection(default = defaultSat.get("pilot", eDVBFrontendParametersSatellite.Pilot_Unknown), choices = [
+ (eDVBFrontendParametersSatellite.Pilot_Off, _("Off")),
+ (eDVBFrontendParametersSatellite.Pilot_On, _("On")),
+ (eDVBFrontendParametersSatellite.Pilot_Unknown, _("Auto"))])
# cable
self.scan_cab.frequency = ConfigInteger(default = defaultCab["frequency"], limits = (50, 999))
- self.scan_cab.inversion = ConfigSelection(default = defaultCab["inversion"], choices = [("off", _("off")), ("on", _("on")), ("auto", _("Auto"))])
- self.scan_cab.modulation = ConfigSelection(default = defaultCab["modulation"], choices = [("16qam", "16-QAM"), ("32qam", "32-QAM"), ("64qam", "64-QAM"), ("128qam", "128-QAM"), ("256qam", "256-QAM")])
- self.scan_cab.fec = ConfigSelection(default = defaultCab["fec"], choices = [("auto", _("Auto")), ("1_2", "1/2"), ("2_3", "2/3"), ("3_4", "3/4"), ("5_6", "5/6"), ("7_8", "7/8"), ("8_9", "8/9"), ("none", _("None"))])
+ self.scan_cab.inversion = ConfigSelection(default = defaultCab["inversion"], choices = [
+ (eDVBFrontendParametersCable.Inversion_Off, _("Off")),
+ (eDVBFrontendParametersCable.Inversion_On, _("On")),
+ (eDVBFrontendParametersCable.Inversion_Unknown, _("Auto"))])
+ self.scan_cab.modulation = ConfigSelection(default = defaultCab["modulation"], choices = [
+ (eDVBFrontendParametersCable.Modulation_QAM16, "16-QAM"),
+ (eDVBFrontendParametersCable.Modulation_QAM32, "32-QAM"),
+ (eDVBFrontendParametersCable.Modulation_QAM64, "64-QAM"),
+ (eDVBFrontendParametersCable.Modulation_QAM128, "128-QAM"),
+ (eDVBFrontendParametersCable.Modulation_QAM256, "256-QAM")])
+ self.scan_cab.fec = ConfigSelection(default = defaultCab["fec"], choices = [
+ (eDVBFrontendParametersCable.FEC_Auto, _("Auto")),
+ (eDVBFrontendParametersCable.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersCable.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersCable.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersCable.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersCable.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersCable.FEC_8_9, "8/9"),
+ (eDVBFrontendParametersCable.FEC_None, _("None"))])
self.scan_cab.symbolrate = ConfigInteger(default = defaultCab["symbolrate"], limits = (1, 99999))
# terrestial
- self.scan_ter.frequency = ConfigInteger(default = 466000, limits = (50000, 999000))
- self.scan_ter.inversion = ConfigSelection(default = "auto", choices = [("off", _("off")), ("on", _("on")), ("auto", _("Auto"))])
+ self.scan_ter.frequency = ConfigInteger(default = defaultTer["frequency"], limits = (50000, 999000))
+ self.scan_ter.inversion = ConfigSelection(default = defaultTer["inversion"], choices = [
+ (eDVBFrontendParametersTerrestrial.Inversion_Off, _("Off")),
+ (eDVBFrontendParametersTerrestrial.Inversion_On, _("On")),
+ (eDVBFrontendParametersTerrestrial.Inversion_Unknown, _("Auto"))])
# WORKAROUND: we can't use BW-auto
- self.scan_ter.bandwidth = ConfigSelection(default = "8MHz", choices = [("8MHz", "8MHz"), ("7MHz", "7MHz"), ("6MHz", "6MHz")])
- #, ("auto", _("Auto"))))
- self.scan_ter.fechigh = ConfigSelection(default = "auto", choices = [("1_2", "1/2"), ("2_3", "2/3"), ("3_4", "3/4"), ("5_6", "5/6"), ("7_8", "7/8"), ("auto", _("Auto"))])
- self.scan_ter.feclow = ConfigSelection(default = "auto", choices = [("1_2", "1/2"), ("2_3", "2/3"), ("3_4", "3/4"), ("5_6", "5/6"), ("7_8", "7/8"), ("auto", _("Auto"))])
- self.scan_ter.modulation = ConfigSelection(default = "auto", choices = [("qpsk", "QPSK"), ("qam16", "QAM16"), ("qam64", "QAM64"), ("auto", _("Auto"))])
- self.scan_ter.transmission = ConfigSelection(default = "auto", choices = [("2k", "2K"), ("8k", "8K"), ("auto", _("Auto"))])
- self.scan_ter.guard = ConfigSelection(default = "auto", choices = [("1_32", "1/32"), ("1_16", "1/16"), ("1_8", "1/8"), ("1_4", "1/4"), ("auto", _("Auto"))])
- self.scan_ter.hierarchy = ConfigSelection(default = "auto", choices = [("none", _("None")), ("1", "1"), ("2", "2"), ("4", "4"), ("auto", _("Auto"))])
+ self.scan_ter.bandwidth = ConfigSelection(default = defaultTer["bandwidth"], choices = [
+ (eDVBFrontendParametersTerrestrial.Bandwidth_8MHz, "8MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_7MHz, "7MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_6MHz, "6MHz")])
+ self.scan_ter.bandwidth_t2 = ConfigSelection(default = defaultTer["bandwidth"], choices = [
+ (eDVBFrontendParametersTerrestrial.Bandwidth_10MHz, "10MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_8MHz, "8MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_7MHz, "7MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_6MHz, "6MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_5MHz, "5MHz"),
+ (eDVBFrontendParametersTerrestrial.Bandwidth_1_712MHz, "1.712MHz")])
+ #, (eDVBFrontendParametersTerrestrial.Bandwidth_Auto, _("Auto"))))
+ self.scan_ter.fechigh = ConfigSelection(default = defaultTer["fechigh"], choices = [
+ (eDVBFrontendParametersTerrestrial.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersTerrestrial.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersTerrestrial.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersTerrestrial.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersTerrestrial.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersTerrestrial.FEC_Auto, _("Auto"))])
+ self.scan_ter.fechigh_t2 = ConfigSelection(default = defaultTer["fechigh"], choices = [
+ (eDVBFrontendParametersTerrestrial.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersTerrestrial.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersTerrestrial.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersTerrestrial.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersTerrestrial.FEC_6_7, "6/7"),
+ (eDVBFrontendParametersTerrestrial.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersTerrestrial.FEC_8_9, "8/9"),
+ (eDVBFrontendParametersTerrestrial.FEC_Auto, _("Auto"))])
+ self.scan_ter.feclow = ConfigSelection(default = defaultTer["feclow"], choices = [
+ (eDVBFrontendParametersTerrestrial.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersTerrestrial.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersTerrestrial.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersTerrestrial.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersTerrestrial.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersTerrestrial.FEC_Auto, _("Auto"))])
+ self.scan_ter.feclow_t2 = ConfigSelection(default = defaultTer["feclow"], choices = [
+ (eDVBFrontendParametersTerrestrial.FEC_1_2, "1/2"),
+ (eDVBFrontendParametersTerrestrial.FEC_2_3, "2/3"),
+ (eDVBFrontendParametersTerrestrial.FEC_3_4, "3/4"),
+ (eDVBFrontendParametersTerrestrial.FEC_5_6, "5/6"),
+ (eDVBFrontendParametersTerrestrial.FEC_6_7, "6/7"),
+ (eDVBFrontendParametersTerrestrial.FEC_7_8, "7/8"),
+ (eDVBFrontendParametersTerrestrial.FEC_8_9, "8/9"),
+ (eDVBFrontendParametersTerrestrial.FEC_Auto, _("Auto"))])
+ self.scan_ter.modulation = ConfigSelection(default = defaultTer["modulation"], choices = [
+ (eDVBFrontendParametersTerrestrial.Modulation_QPSK, "QPSK"),
+ (eDVBFrontendParametersTerrestrial.Modulation_QAM16, "QAM16"),
+ (eDVBFrontendParametersTerrestrial.Modulation_QAM64, "QAM64"),
+ (eDVBFrontendParametersTerrestrial.Modulation_Auto, _("Auto"))])
+ self.scan_ter.modulation_t2 = ConfigSelection(default = defaultTer["modulation"], choices = [
+ (eDVBFrontendParametersTerrestrial.Modulation_QPSK, "QPSK"),
+ (eDVBFrontendParametersTerrestrial.Modulation_QAM16, "QAM16"),
+ (eDVBFrontendParametersTerrestrial.Modulation_QAM64, "QAM64"),
+ (eDVBFrontendParametersTerrestrial.Modulation_QAM256, "QAM256"),
+ (eDVBFrontendParametersTerrestrial.Modulation_Auto, _("Auto"))])
+ self.scan_ter.transmission = ConfigSelection(default = defaultTer["transmission_mode"], choices = [
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_2k, "2K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_8k, "8K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_Auto, _("Auto"))])
+ self.scan_ter.transmission_t2 = ConfigSelection(default = defaultTer["transmission_mode"], choices = [
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_1k, "1K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_2k, "2K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_4k, "4K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_8k, "8K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_16k, "16K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_32k, "32K"),
+ (eDVBFrontendParametersTerrestrial.TransmissionMode_Auto, _("Auto"))])
+ self.scan_ter.guard = ConfigSelection(default = defaultTer["guard_interval"], choices = [
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_32, "1/32"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_16, "1/16"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_8, "1/8"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_4, "1/4"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_Auto, _("Auto"))])
+ self.scan_ter.guard_t2 = ConfigSelection(default = defaultTer["guard_interval"], choices = [
+ (eDVBFrontendParametersTerrestrial.GuardInterval_19_256, "19/256"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_19_128, "19/128"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_128, "1/128"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_32, "1/32"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_16, "1/16"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_8, "1/8"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_1_4, "1/4"),
+ (eDVBFrontendParametersTerrestrial.GuardInterval_Auto, _("Auto"))])
+ self.scan_ter.hierarchy = ConfigSelection(default = defaultTer["hierarchy"], choices = [
+ (eDVBFrontendParametersTerrestrial.Hierarchy_None, _("None")),
+ (eDVBFrontendParametersTerrestrial.Hierarchy_1, "1"),
+ (eDVBFrontendParametersTerrestrial.Hierarchy_2, "2"),
+ (eDVBFrontendParametersTerrestrial.Hierarchy_4, "4"),
+ (eDVBFrontendParametersTerrestrial.Hierarchy_Auto, _("Auto"))])
+ self.scan_ter.system = ConfigSelection(default = defaultTer["system"], choices = [
+ (eDVBFrontendParametersTerrestrial.System_DVB_T, _("DVB-T")),
+ (eDVBFrontendParametersTerrestrial.System_DVB_T2, _("DVB-T2"))])
+ self.scan_ter.plp_id = ConfigInteger(default = defaultTer["plp_id"], limits = (0, 255))
self.scan_scansat = {}
for sat in nimmanager.satList:
def updateStatus(self):
print "updatestatus"
- fecmap = { "auto": 0,
- "1_2": 1,
- "2_3": 2,
- "3_4": 3,
- "5_6": 4,
- "7_8": 5,
- "8_9": 6,
- "3_5": 7,
- "4_5": 8,
- "9_10": 9,
- "none": 15
- }
-
def addSatTransponder(self, tlist, frequency, symbol_rate, polarisation, fec, inversion, orbital_position, system, modulation, rolloff, pilot):
- print "Add Sat: frequ: " + str(frequency) + " symbol: " + str(symbol_rate) + " pol: " + str(polarisation) + " fec: " + str(self.fecmap[fec]) + " inversion: " + str(inversion) + " modulation: " + str(modulation) + " system: " + str(system) + " rolloff" + str(rolloff) + " pilot" + str(pilot)
+ print "Add Sat: frequ: " + str(frequency) + " symbol: " + str(symbol_rate) + " pol: " + str(polarisation) + " fec: " + str(fec) + " inversion: " + str(inversion) + " modulation: " + str(modulation) + " system: " + str(system) + " rolloff" + str(rolloff) + " pilot" + str(pilot)
print "orbpos: " + str(orbital_position)
parm = eDVBFrontendParametersSatellite()
- if modulation == 1:
- parm.modulation = 2 # eDVBFrontendParametersSatellite.Modulation.8PSK
- else:
- parm.modulation = 1 # eDVBFrontendParametersSatellite.Modulation.QPSK
+ parm.modulation = modulation
parm.system = system
parm.frequency = frequency * 1000
parm.symbol_rate = symbol_rate * 1000
parm.polarisation = polarisation
- parm.fec = self.fecmap[fec]
+ parm.fec = fec
parm.inversion = inversion
parm.orbital_position = orbital_position
parm.rolloff = rolloff
parm.frequency = frequency * 1000
parm.symbol_rate = symbol_rate * 1000
parm.modulation = modulation
- parm.fec = self.fecmap[fec]
+ parm.fec = fec
parm.inversion = inversion
tlist.append(parm)
tlist.append(buildTerTransponder(*args, **kwargs))
def keyGo(self):
+ START_SCAN =0
+ SEARCH_CABLE_TRANSPONDERS = 1
+ SEARCH_TERRESTRIAL2_TRANSPONDERS = 2
+
+ if self.scan_nims.value == "":
+ return
tlist = []
flags = None
- startScan = True
+ action = START_SCAN
removeAll = True
index_to_scan = int(self.scan_nims.value)
# however, the satList itself could be empty. in that case, "index" is 0 (for "None").
if len(nimsats):
orbpos = nimsats[selsatidx][0]
- if self.scan_sat.system.value == "dvb-s":
+ if self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S:
fec = self.scan_sat.fec.value
else:
fec = self.scan_sat.fec_s2.value
print "add sat transponder"
self.addSatTransponder(tlist, self.scan_sat.frequency.value,
self.scan_sat.symbolrate.value,
- self.scan_sat.polarization.index,
+ self.scan_sat.polarization.value,
fec,
- self.scan_sat.inversion.index,
+ self.scan_sat.inversion.value,
orbpos,
- self.scan_sat.system.index,
- self.scan_sat.modulation.index,
- self.scan_sat.rolloff.index,
- self.scan_sat.pilot.index)
+ self.scan_sat.system.value,
+ self.scan_sat.modulation.value,
+ self.scan_sat.rolloff.value,
+ self.scan_sat.pilot.value)
removeAll = False
elif self.scan_type.value == "single_satellite":
sat = self.satList[index_to_scan][self.scan_satselection[index_to_scan].index]
elif nim.isCompatible("DVB-C"):
if self.scan_typecable.value == "single_transponder":
- fec = self.scan_cab.fec.value
self.addCabTransponder(tlist, self.scan_cab.frequency.value,
self.scan_cab.symbolrate.value,
- self.scan_cab.modulation.index + 1,
- fec,
- self.scan_cab.inversion.index)
+ self.scan_cab.modulation.value,
+ self.scan_cab.fec.value,
+ self.scan_cab.inversion.value)
removeAll = False
elif self.scan_typecable.value == "complete":
if config.Nims[index_to_scan].cable.scan_type.value == "provider":
getInitialCableTransponderList(tlist, index_to_scan)
else:
- startScan = False
+ action = SEARCH_CABLE_TRANSPONDERS
elif nim.isCompatible("DVB-T"):
if self.scan_typeterrestrial.value == "single_transponder":
- self.addTerTransponder(tlist,
- self.scan_ter.frequency.value * 1000,
- inversion = self.scan_ter.inversion.index,
- bandwidth = self.scan_ter.bandwidth.index,
- fechigh = self.scan_ter.fechigh.index,
- feclow = self.scan_ter.feclow.index,
- modulation = self.scan_ter.modulation.index,
- transmission = self.scan_ter.transmission.index,
- guard = self.scan_ter.guard.index,
- hierarchy = self.scan_ter.hierarchy.index)
+ if self.scan_ter.system.value == eDVBFrontendParametersTerrestrial.System_DVB_T:
+ self.addTerTransponder(tlist,
+ self.scan_ter.frequency.value * 1000,
+ inversion = self.scan_ter.inversion.value,
+ bandwidth = self.scan_ter.bandwidth.value,
+ fechigh = self.scan_ter.fechigh.value,
+ feclow = self.scan_ter.feclow.value,
+ modulation = self.scan_ter.modulation.value,
+ transmission = self.scan_ter.transmission.value,
+ guard = self.scan_ter.guard.value,
+ hierarchy = self.scan_ter.hierarchy.value,
+ system = self.scan_ter.system.value,
+ plpid = self.scan_ter.plp_id.value)
+ else:
+ self.addTerTransponder(tlist,
+ self.scan_ter.frequency.value * 1000,
+ inversion = self.scan_ter.inversion.value,
+ bandwidth = self.scan_ter.bandwidth_t2.value,
+ fechigh = self.scan_ter.fechigh_t2.value,
+ feclow = self.scan_ter.feclow_t2.value,
+ modulation = self.scan_ter.modulation_t2.value,
+ transmission = self.scan_ter.transmission_t2.value,
+ guard = self.scan_ter.guard_t2.value,
+ hierarchy = self.scan_ter.hierarchy.value,
+ system = self.scan_ter.system.value,
+ plpid = self.scan_ter.plp_id.value)
removeAll = False
elif self.scan_typeterrestrial.value == "complete":
- getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(index_to_scan))
+ skip_t2 = True
+ if nim.isCompatible("DVB-T2"):
+ scan_util = len(self.terrestrialTransponderGetCmd(nim.slot)) and True or False
+ if scan_util:
+ action = SEARCH_TERRESTRIAL2_TRANSPONDERS
+ else:
+ skip_t2 = False
+
+ getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(index_to_scan), skip_t2)
flags = self.scan_networkScan.value and eComponentScan.scanNetworkSearch or 0
for x in self["config"].list:
x[1].save()
- if startScan:
+ if action == START_SCAN:
self.startScan(tlist, flags, index_to_scan)
- else:
+ elif action == SEARCH_CABLE_TRANSPONDERS:
self.flags = flags
self.feid = index_to_scan
self.tlist = []
self.startCableTransponderSearch(self.feid)
+ elif action == SEARCH_TERRESTRIAL2_TRANSPONDERS:
+ self.flags = flags
+ self.feid = index_to_scan
+ self.tlist = tlist
+ self.startTerrestrialTransponderSearch(self.feid, nimmanager.getTerrestrialDescription(self.feid))
def setCableTransponderSearchResult(self, tlist):
self.tlist = tlist
def cableTransponderSearchFinished(self):
- self.startScan(self.tlist, self.flags, self.feid)
+ if self.tlist is None:
+ self.tlist = []
+ else:
+ self.startScan(self.tlist, self.flags, self.feid)
+
+ def setTerrestrialTransponderSearchResult(self, tlist):
+ if tlist is not None:
+ self.tlist.extend(tlist)
+
+ def terrestrialTransponderSearchFinished(self):
+ if self.tlist is None:
+ self.tlist = []
+ else:
+ self.startScan(self.tlist, self.flags, self.feid)
def startScan(self, tlist, flags, feid):
if len(tlist):
x[1].cancel()
self.close()
-class ScanSimple(ConfigListScreen, Screen, CableTransponderSearchSupport):
+class ScanSimple(ConfigListScreen, Screen, CableTransponderSearchSupport, TerrestrialTransponderSearchSupport):
def getNetworksForNim(self, nim):
if nim.isCompatible("DVB-S"):
networks = nimmanager.getSatListForNim(nim.slot)
elif not nim.empty:
- networks = [ nim.type ] # "DVB-C" or "DVB-T". TODO: seperate networks for different C/T tuners, if we want to support that.
+ networks = [ nim.getType() ] # "DVB-C" or "DVB-T". TODO: seperate networks for different C/T tuners, if we want to support that.
else:
# empty tuners provide no networks.
networks = [ ]
need_scan = True
print x, "not in ", known_networks
known_networks.append(x)
+
+ # don't offer to scan nims if nothing is connected
+ if not nimmanager.somethingConnected(nim.slot):
+ need_scan = False
if need_scan:
nims_to_scan.append(nim)
+
+ if "DVB-T2" in known_networks: # we need to remove "DVB-T" when networks have "DVB-T2"
+ nims_dvb_t = []
+ for nim in nims_to_scan:
+ if nim.getType() == "DVB-T":
+ nims_dvb_t.append(nim)
+
+ for nim in nims_dvb_t:
+ nims_to_scan.remove(nim)
+
# we save the config elements to use them on keyGo
self.nim_enable = [ ]
def buildTransponderList(self): # this method is called multiple times because of asynchronous stuff
APPEND_NOW = 0
SEARCH_CABLE_TRANSPONDERS = 1
+ SEARCH_TERRESTRIAL2_TRANSPONDERS = 2
action = APPEND_NOW
n = self.nim_iter < len(self.nim_enable) and self.nim_enable[self.nim_iter] or None
else:
action = SEARCH_CABLE_TRANSPONDERS
elif nim.isCompatible("DVB-T"):
- getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(nim.slot))
+ skip_t2 = True
+ if nim.isCompatible("DVB-T2"):
+ scan_util = len(self.terrestrialTransponderGetCmd(nim.slot)) and True or False
+ if scan_util:
+ action = SEARCH_TERRESTRIAL2_TRANSPONDERS
+ else:
+ skip_t2 = False
+ getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(nim.slot), skip_t2)
else:
assert False
self.feid = nim.slot
self.startCableTransponderSearch(nim.slot)
return
+ elif action == SEARCH_TERRESTRIAL2_TRANSPONDERS:
+ self.tlist = tlist
+ self.flags = flags
+ self.feid = nim.slot
+ self.startTerrestrialTransponderSearch(nim.slot, nimmanager.getTerrestrialDescription(nim.slot))
+ return
else:
assert False
self.session.open(MessageBox, _("Nothing to scan!\nPlease setup your tuner settings before you start a service scan."), MessageBox.TYPE_ERROR)
def setCableTransponderSearchResult(self, tlist):
- self.scanList.append({"transponders": tlist, "feid": self.feid, "flags": self.flags})
+ if tlist is not None:
+ self.scanList.append({"transponders": tlist, "feid": self.feid, "flags": self.flags})
def cableTransponderSearchFinished(self):
self.buildTransponderList()
+ def setTerrestrialTransponderSearchResult(self, tlist):
+ if tlist is not None:
+ self.tlist.extend(tlist)
+ if self.tlist is not None:
+ self.scanList.append({"transponders": self.tlist, "feid": self.feid, "flags": self.flags})
+
+ def terrestrialTransponderSearchFinished(self):
+ self.buildTransponderList()
+
def keyCancel(self):
self.close()