Merge branch 'master' of git.opendreambox.org:/git/enigma2

[enigma2.git] / lib / python / Screens / ScanSetup.py

from Screen import Screen
from Screens.DefaultWizard import DefaultWizard
from ServiceScan import ServiceScan
from Components.config import config, ConfigSubsection, ConfigSelection, \
        ConfigYesNo, ConfigInteger, getConfigListEntry, ConfigSlider, ConfigEnableDisable
from Components.ActionMap import NumberActionMap, ActionMap
from Components.ConfigList import ConfigListScreen
from Components.NimManager import nimmanager, getConfigSatlist
from Components.Label import Label
from Tools.Directories import resolveFilename, SCOPE_DEFAULTPARTITIONMOUNTDIR, SCOPE_DEFAULTDIR, SCOPE_DEFAULTPARTITION
from Screens.MessageBox import MessageBox
from enigma import eTimer, eDVBFrontendParametersSatellite, eComponentScan, \
        eDVBSatelliteEquipmentControl, eDVBFrontendParametersTerrestrial, \
        eDVBFrontendParametersCable, eConsoleAppContainer, eDVBResourceManager

def buildTerTransponder(frequency, 
                inversion=2, bandwidth = 3, fechigh = 6, feclow = 6,
                modulation = 2, transmission = 2, guard = 4,
                hierarchy = 4):
#       print "freq", frequency, "inv", inversion, "bw", bandwidth, "fech", fechigh, "fecl", feclow, "mod", modulation, "tm", transmission, "guard", guard, "hierarchy", hierarchy
        parm = eDVBFrontendParametersTerrestrial()
        parm.frequency = frequency
        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
        return parm

def getInitialTransponderList(tlist, pos):
        list = nimmanager.getTransponders(pos)
        for x in list:
                if x[0] == 0:           #SAT
                        parm = eDVBFrontendParametersSatellite()
                        parm.frequency = x[1]
                        parm.symbol_rate = x[2]
                        parm.polarisation = x[3]
                        parm.fec = x[4]
                        parm.inversion = x[7]
                        parm.orbital_position = pos
                        parm.system = x[5]
                        parm.modulation = x[6]
                        parm.rolloff = x[8]
                        parm.pilot = x[9]
                        tlist.append(parm)

def getInitialCableTransponderList(tlist, nim):
        list = nimmanager.getTranspondersCable(nim)
        for x in list:
                if x[0] == 1: #CABLE
                        parm = eDVBFrontendParametersCable()
                        parm.frequency = x[1]
                        parm.symbol_rate = x[2]
                        parm.modulation = x[3]
                        parm.fec_inner = x[4]
                        parm.inversion = parm.Inversion_Unknown
                        #print "frequency:", x[1]
                        #print "symbol_rate:", x[2]
                        #print "modulation:", x[3]
                        #print "fec_inner:", x[4]
                        #print "inversion:", 2
                        tlist.append(parm)

def getInitialTerrestrialTransponderList(tlist, region):
        list = nimmanager.getTranspondersTerrestrial(region)

        #self.transponders[self.parsedTer].append((2,freq,bw,const,crh,crl,guard,transm,hierarchy,inv))

        #def buildTerTransponder(frequency, inversion = 2, bandwidth = 3, fechigh = 6, feclow = 6,
                                #modulation = 2, transmission = 2, guard = 4, hierarchy = 4):

        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])
                        tlist.append(parm)

cable_bands = {
        "DVBC_BAND_EU_VHF_I" : 1 << 0,
        "DVBC_BAND_EU_MID" : 1 << 1,
        "DVBC_BAND_EU_VHF_III" : 1 << 2,
        "DVBC_BAND_EU_SUPER" : 1 << 3,
        "DVBC_BAND_EU_HYPER" : 1 << 4,
        "DVBC_BAND_EU_UHF_IV" : 1 << 5,
        "DVBC_BAND_EU_UHF_V" : 1 << 6,
        "DVBC_BAND_US_LO" : 1 << 7,
        "DVBC_BAND_US_MID" : 1 << 8,
        "DVBC_BAND_US_HI" : 1 << 9,
        "DVBC_BAND_US_SUPER" : 1 << 10,
        "DVBC_BAND_US_HYPER" : 1 << 11,
}

class CableTransponderSearchSupport:
#       def setCableTransponderSearchResult(self, tlist):
#               pass

#       def cableTransponderSearchFinished(self):
#               pass

        def tryGetRawFrontend(self, feid):
                res_mgr = eDVBResourceManager.getInstance()
                if res_mgr:
                        raw_channel = res_mgr.allocateRawChannel(self.feid)
                        if raw_channel:
                                frontend = raw_channel.getFrontend()
                                if frontend:
                                        del frontend
                                        del raw_channel
                                        return True
                return False

        def cableTransponderSearchSessionClosed(self, *val):
                print "cableTransponderSearchSessionClosed, val", val
                self.cable_search_container.appClosed.remove(self.cableTransponderSearchClosed)
                self.cable_search_container.dataAvail.remove(self.getCableTransponderData)
                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()

        def cableTransponderSearchClosed(self, retval):
                print "cableTransponderSearch finished", retval
                self.cable_search_session.close(True)

        def getCableTransponderData(self, str):
                data = str.split()
                if len(data):
                        if data[0] == 'OK':
                                print str
                                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 }
                                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)

        def startCableTransponderSearch(self, nim_idx):
                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.cableTransponderSearchFinished()
                                        return
                self.__tlist = [ ]
                self.cable_search_container = eConsoleAppContainer()
                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)
                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
                if cableConfig.scan_type.value == "bands":
                        cmd += " --scan-bands "
                        bands = 0
                        if cableConfig.scan_band_EU_VHF_I.value:
                                bands |= cable_bands["DVBC_BAND_EU_VHF_I"]
                        if cableConfig.scan_band_EU_MID.value:
                                bands |= cable_bands["DVBC_BAND_EU_MID"]
                        if cableConfig.scan_band_EU_VHF_III.value:
                                bands |= cable_bands["DVBC_BAND_EU_VHF_III"]
                        if cableConfig.scan_band_EU_UHF_IV.value:
                                bands |= cable_bands["DVBC_BAND_EU_UHF_IV"]
                        if cableConfig.scan_band_EU_UHF_V.value:
                                bands |= cable_bands["DVBC_BAND_EU_UHF_V"]
                        if cableConfig.scan_band_EU_SUPER.value:
                                bands |= cable_bands["DVBC_BAND_EU_SUPER"]
                        if cableConfig.scan_band_EU_HYPER.value:
                                bands |= cable_bands["DVBC_BAND_EU_HYPER"]
                        if cableConfig.scan_band_US_LOW.value:
                                bands |= cable_bands["DVBC_BAND_US_LO"]
                        if cableConfig.scan_band_US_MID.value:
                                bands |= cable_bands["DVBC_BAND_US_MID"]
                        if cableConfig.scan_band_US_HIGH.value:
                                bands |= cable_bands["DVBC_BAND_US_HI"]
                        if cableConfig.scan_band_US_SUPER.value:
                                bands |= cable_bands["DVBC_BAND_US_SUPER"]
                        if cableConfig.scan_band_US_HYPER.value:
                                bands |= cable_bands["DVBC_BAND_US_HYPER"]
                        cmd += str(bands)
                else:
                        cmd += " --scan-stepsize "
                        cmd += str(cableConfig.scan_frequency_steps.value)
                if cableConfig.scan_mod_qam16.value:
                        cmd += " --mod 16"
                if cableConfig.scan_mod_qam32.value:
                        cmd += " --mod 32"
                if cableConfig.scan_mod_qam64.value:
                        cmd += " --mod 64"
                if cableConfig.scan_mod_qam128.value:
                        cmd += " --mod 128"
                if cableConfig.scan_mod_qam256.value:
                        cmd += " --mod 256"
                if cableConfig.scan_sr_6900.value:
                        cmd += " --sr 6900000"
                if cableConfig.scan_sr_6875.value:
                        cmd += " --sr 6875000"
                if cableConfig.scan_sr_ext1.value > 450:
                        cmd += " --sr "
                        cmd += str(cableConfig.scan_sr_ext1.value)
                        cmd += "000"
                if cableConfig.scan_sr_ext2.value > 450:
                        cmd += " --sr "
                        cmd += str(cableConfig.scan_sr_ext2.value)
                        cmd += "000"
                print "TDA1002x 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 DefaultSatLists(DefaultWizard):
        def __init__(self, session, silent = True, showSteps = False):
                self.xmlfile = "defaultsatlists.xml"
                DefaultWizard.__init__(self, session, silent, showSteps, neededTag = "services")
                print "configuredSats:", nimmanager.getConfiguredSats()

        def setDirectory(self):
                self.directory = []
                self.directory.append(resolveFilename(SCOPE_DEFAULTDIR))
                import os
                os.system("mount %s %s" % (resolveFilename(SCOPE_DEFAULTPARTITION), resolveFilename(SCOPE_DEFAULTPARTITIONMOUNTDIR)))
                self.directory.append(resolveFilename(SCOPE_DEFAULTPARTITIONMOUNTDIR))
                                
        def statusCallback(self, status, progress):
                print "statusCallback:", status, progress
                from Components.DreamInfoHandler import DreamInfoHandler
                if status == DreamInfoHandler.STATUS_DONE:
                        self["text"].setText(_("The installation of the default services lists is finished.") + "\n\n" + _("Please press OK to continue."))
                        self.markDone()
                        self.disableKeys = False        

class ScanSetup(ConfigListScreen, Screen, CableTransponderSearchSupport):
        def __init__(self, session):
                Screen.__init__(self, session)

                self.finished_cb = None
                self.updateSatList()
                self.service = session.nav.getCurrentService()
                self.feinfo = None
                frontendData = None
                if self.service is not None:
                        self.feinfo = self.service.frontendInfo()
                        frontendData = self.feinfo and self.feinfo.getAll(True)
                
                self.createConfig(frontendData)

                del self.feinfo
                del self.service

                self["actions"] = NumberActionMap(["SetupActions"],
                {
                        "ok": self.keyGo,
                        "cancel": self.keyCancel,
                }, -2)

                self.statusTimer = eTimer()
                self.statusTimer.callback.append(self.updateStatus)
                #self.statusTimer.start(5000, True)

                self.list = []
                ConfigListScreen.__init__(self, self.list)
                self.createSetup()

                self["introduction"] = Label(_("Press OK to start the scan"))

        def runAsync(self, finished_cb):
                self.finished_cb = finished_cb
                self.keyGo()

        def updateSatList(self):
                self.satList = []
                for slot in nimmanager.nim_slots:
                        if slot.isCompatible("DVB-S"):
                                self.satList.append(nimmanager.getSatListForNim(slot.slot))
                        else:
                                self.satList.append(None)

        def createSetup(self):
                self.list = []
                self.multiscanlist = []
                index_to_scan = int(self.scan_nims.value)
                print "ID: ", index_to_scan

                self.tunerEntry = getConfigListEntry(_("Tuner"), self.scan_nims)
                self.list.append(self.tunerEntry)
                
                if self.scan_nims == [ ]:
                        return
                
                self.typeOfScanEntry = None
                self.systemEntry = None
                self.modulationEntry = None
                nim = nimmanager.nim_slots[index_to_scan]
                if nim.isCompatible("DVB-S"):
                        self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_type)
                        self.list.append(self.typeOfScanEntry)
                elif nim.isCompatible("DVB-C"):
                        self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_typecable)
                        self.list.append(self.typeOfScanEntry)
                elif nim.isCompatible("DVB-T"):
                        self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_typeterrestrial)
                        self.list.append(self.typeOfScanEntry)

                self.scan_networkScan.value = False
                if nim.isCompatible("DVB-S"):
                        if self.scan_type.value == "single_transponder":
                                self.updateSatList()
                                if nim.isCompatible("DVB-S2"):
                                        self.systemEntry = getConfigListEntry(_('System'), self.scan_sat.system)
                                        self.list.append(self.systemEntry)
                                else:
                                        # downgrade to dvb-s, in case a -s2 config was active
                                        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 == eDVBFrontendParametersSatellite.System_DVB_S:
                                        self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec))
                                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(_('Pilot'), self.scan_sat.pilot))
                        elif self.scan_type.value == "single_satellite":
                                self.updateSatList()
                                print self.scan_satselection[index_to_scan]
                                self.list.append(getConfigListEntry(_("Satellite"), self.scan_satselection[index_to_scan]))
                                self.scan_networkScan.value = True
                        elif self.scan_type.value.find("multisat") != -1:
                                tlist = []
                                SatList = nimmanager.getSatListForNim(index_to_scan)
                                for x in SatList:
                                        if self.Satexists(tlist, x[0]) == 0:
                                                tlist.append(x[0])
                                                sat = ConfigEnableDisable(default = self.scan_type.value.find("_yes") != -1 and True or False)
                                                configEntry = getConfigListEntry(nimmanager.getSatDescription(x[0]), sat)
                                                self.list.append(configEntry)
                                                self.multiscanlist.append((x[0], sat))
                                self.scan_networkScan.value = True
                elif nim.isCompatible("DVB-C"):
                        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(_("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))
                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))
                self["config"].list = self.list
                self["config"].l.setList(self.list)

        def Satexists(self, tlist, pos):
                for x in tlist:
                        if x == pos:
                                return 1
                return 0

        def newConfig(self):
                cur = self["config"].getCurrent()
                print "cur is", cur
                if cur == self.typeOfScanEntry or \
                        cur == self.tunerEntry or \
                        cur == self.systemEntry or \
                        (self.modulationEntry and self.systemEntry[1].value == eDVBFrontendParametersSatellite.System_DVB_S2 and cur == self.modulationEntry):
                        self.createSetup()

        def createConfig(self, frontendData):
                                                           #("Type", frontendData["system"], TYPE_TEXT),
                                           #("Modulation", frontendData["modulation"], TYPE_TEXT),
                                           #("Orbital position", frontendData["orbital_position"], TYPE_VALUE_DEC),
                                           #("Frequency", frontendData["frequency"], TYPE_VALUE_DEC),
                                           #("Symbolrate", frontendData["symbol_rate"], TYPE_VALUE_DEC),
                                           #("Polarization", frontendData["polarization"], TYPE_TEXT),
                                           #("Inversion", frontendData["inversion"], TYPE_TEXT),
                                           #("FEC inner", frontendData["fec_inner"], TYPE_TEXT),
                                                #)
                #elif frontendData["tuner_type"] == "DVB-C":
                        #return ( ("NIM", ['A', 'B', 'C', 'D'][frontendData["tuner_number"]], TYPE_TEXT),
                                           #("Type", frontendData["tuner_type"], TYPE_TEXT),
                                           #("Frequency", frontendData["frequency"], TYPE_VALUE_DEC),
                                           #("Symbolrate", frontendData["symbol_rate"], TYPE_VALUE_DEC),
                                           #("Modulation", frontendData["modulation"], TYPE_TEXT),
                                           #("Inversion", frontendData["inversion"], TYPE_TEXT),
                        #                  ("FEC inner", frontendData["fec_inner"], TYPE_TEXT),
                                                #)
                #elif frontendData["tuner_type"] == "DVB-T":
                        #return ( ("NIM", ['A', 'B', 'C', 'D'][frontendData["tuner_number"]], TYPE_TEXT),
                                           #("Type", frontendData["tuner_type"], TYPE_TEXT),
                                           #("Frequency", frontendData["frequency"], TYPE_VALUE_DEC),
                                           #("Inversion", frontendData["inversion"], TYPE_TEXT),
                                           #("Bandwidth", frontendData["bandwidth"], TYPE_VALUE_DEC),
                                           #("CodeRateLP", frontendData["code_rate_lp"], TYPE_TEXT),
                                           #("CodeRateHP", frontendData["code_rate_hp"], TYPE_TEXT),
                                           #("Constellation", frontendData["constellation"], TYPE_TEXT),
                                           #("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": 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 }

                        if frontendData is not None:
                                ttype = frontendData.get("tuner_type", "UNKNOWN")
                                if ttype == "DVB-S":
                                        defaultSat["system"] = frontendData.get("system", eDVBFrontendParametersSatellite.System_DVB_S)
                                        defaultSat["frequency"] = frontendData.get("frequency", 0) / 1000
                                        defaultSat["inversion"] = frontendData.get("inversion", eDVBFrontendParametersSatellite.Inversion_Unknown)
                                        defaultSat["symbolrate"] = frontendData.get("symbol_rate", 0) / 1000
                                        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"] = 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"] = 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)
                                        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)

                        self.scan_sat = ConfigSubsection()
                        self.scan_cab = ConfigSubsection()
                        self.scan_ter = ConfigSubsection()

                        self.scan_type = ConfigSelection(default = "single_transponder", choices = [("single_transponder", _("Single transponder")), ("single_satellite", _("Single satellite")), ("multisat", _("Multisat")), ("multisat_yes", _("Multisat"))])
                        self.scan_typecable = ConfigSelection(default = "single_transponder", choices = [("single_transponder", _("Single transponder")), ("complete", _("Complete"))])
                        self.scan_typeterrestrial = ConfigSelection(default = "single_transponder", choices = [("single_transponder", _("Single transponder")), ("complete", _("Complete"))])
                        self.scan_clearallservices = ConfigSelection(default = "no", choices = [("no", _("no")), ("yes", _("yes")), ("yes_hold_feeds", _("yes (keep feeds)"))])
                        self.scan_onlyfree = ConfigYesNo(default = False)
                        self.scan_networkScan = ConfigYesNo(default = False)

                        nim_list = []
                        # collect all nims which are *not* set to "nothing"
                        for n in nimmanager.nim_slots:
                                if n.config_mode == "nothing":
                                        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)

                        # status
                        self.scan_snr = ConfigSlider()
                        self.scan_snr.enabled = False
                        self.scan_agc = ConfigSlider()
                        self.scan_agc.enabled = False
                        self.scan_ber = ConfigSlider()
                        self.scan_ber.enabled = False

                        # sat
                        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 = [
                                (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 = [
                                (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 = [
                                (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 = 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 = defaultTer["bandwidth"], choices = [
                                (eDVBFrontendParametersTerrestrial.Bandwidth_8MHz, "8MHz"),
                                (eDVBFrontendParametersTerrestrial.Bandwidth_7MHz, "7MHz"),
                                (eDVBFrontendParametersTerrestrial.Bandwidth_6MHz, "6MHz")])
                        #, (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.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.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.transmission = ConfigSelection(default = defaultTer["transmission_mode"], choices = [
                                (eDVBFrontendParametersTerrestrial.TransmissionMode_2k, "2K"),
                                (eDVBFrontendParametersTerrestrial.TransmissionMode_8k, "8K"),
                                (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.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_scansat = {}
                        for sat in nimmanager.satList:
                                #print sat[1]
                                self.scan_scansat[sat[0]] = ConfigYesNo(default = False)

                        self.scan_satselection = []
                        for slot in nimmanager.nim_slots:
                                if slot.isCompatible("DVB-S"):
                                        self.scan_satselection.append(getConfigSatlist(defaultSat["orbpos"], self.satList[slot.slot]))
                                else:
                                        self.scan_satselection.append(None)

                        return True

        def keyLeft(self):
                ConfigListScreen.keyLeft(self)
                self.newConfig()

        def keyRight(self):
                ConfigListScreen.keyRight(self)
                self.newConfig()

        def updateStatus(self):
                print "updatestatus"

        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(fec) + " inversion: " + str(inversion) + " modulation: " + str(modulation) + " system: " + str(system) + " rolloff" + str(rolloff) + " pilot" + str(pilot)
                print "orbpos: " + str(orbital_position)
                parm = eDVBFrontendParametersSatellite()
                parm.modulation = modulation
                parm.system = system
                parm.frequency = frequency * 1000
                parm.symbol_rate = symbol_rate * 1000
                parm.polarisation = polarisation
                parm.fec = fec
                parm.inversion = inversion
                parm.orbital_position = orbital_position
                parm.rolloff = rolloff
                parm.pilot = pilot
                tlist.append(parm)

        def addCabTransponder(self, tlist, frequency, symbol_rate, modulation, fec, inversion):
                print "Add Cab: frequ: " + str(frequency) + " symbol: " + str(symbol_rate) + " pol: " + str(modulation) + " fec: " + str(fec) + " inversion: " + str(inversion)
                parm = eDVBFrontendParametersCable()
                parm.frequency = frequency * 1000
                parm.symbol_rate = symbol_rate * 1000
                parm.modulation = modulation
                parm.fec = fec
                parm.inversion = inversion
                tlist.append(parm)

        def addTerTransponder(self, tlist, *args, **kwargs):
                tlist.append(buildTerTransponder(*args, **kwargs))

        def keyGo(self):
                tlist = []
                flags = None
                startScan = True
                removeAll = True
                index_to_scan = int(self.scan_nims.value)
                
                if self.scan_nims == [ ]:
                        self.session.open(MessageBox, _("No tuner is enabled!\nPlease setup your tuner settings before you start a service scan."), MessageBox.TYPE_ERROR)
                        return

                nim = nimmanager.nim_slots[index_to_scan]
                print "nim", nim.slot
                if nim.isCompatible("DVB-S"):
                        print "is compatible with DVB-S"
                        if self.scan_type.value == "single_transponder":
                                # these lists are generated for each tuner, so this has work.
                                assert len(self.satList) > index_to_scan
                                assert len(self.scan_satselection) > index_to_scan
                                
                                nimsats = self.satList[index_to_scan]
                                selsatidx = self.scan_satselection[index_to_scan].index

                                # 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 == 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.value,
                                                                fec,
                                                                self.scan_sat.inversion.value,
                                                                orbpos,
                                                                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]
                                getInitialTransponderList(tlist, sat[0])
                        elif self.scan_type.value.find("multisat") != -1:
                                SatList = nimmanager.getSatListForNim(index_to_scan)
                                for x in self.multiscanlist:
                                        if x[1].value:
                                                print "   " + str(x[0])
                                                getInitialTransponderList(tlist, x[0])

                elif nim.isCompatible("DVB-C"):
                        if self.scan_typecable.value == "single_transponder":
                                self.addCabTransponder(tlist, self.scan_cab.frequency.value,
                                                                                          self.scan_cab.symbolrate.value,
                                                                                          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

                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.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)
                                removeAll = False
                        elif self.scan_typeterrestrial.value == "complete":
                                getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(index_to_scan))

                flags = self.scan_networkScan.value and eComponentScan.scanNetworkSearch or 0

                tmp = self.scan_clearallservices.value
                if tmp == "yes":
                        flags |= eComponentScan.scanRemoveServices
                elif tmp == "yes_hold_feeds":
                        flags |= eComponentScan.scanRemoveServices
                        flags |= eComponentScan.scanDontRemoveFeeds

                if tmp != "no" and not removeAll:
                        flags |= eComponentScan.scanDontRemoveUnscanned

                if self.scan_onlyfree.value:
                        flags |= eComponentScan.scanOnlyFree

                for x in self["config"].list:
                        x[1].save()

                if startScan:
                        self.startScan(tlist, flags, index_to_scan)
                else:
                        self.flags = flags
                        self.feid = index_to_scan
                        self.tlist = []
                        self.startCableTransponderSearch(self.feid)

        def setCableTransponderSearchResult(self, tlist):
                self.tlist = tlist

        def cableTransponderSearchFinished(self):
                self.startScan(self.tlist, self.flags, self.feid)

        def startScan(self, tlist, flags, feid):
                if len(tlist):
                        # flags |= eComponentScan.scanSearchBAT
                        if self.finished_cb:
                                self.session.openWithCallback(self.finished_cb, ServiceScan, [{"transponders": tlist, "feid": feid, "flags": flags}])
                        else:
                                self.session.open(ServiceScan, [{"transponders": tlist, "feid": feid, "flags": flags}])
                else:
                        if self.finished_cb:
                                self.session.openWithCallback(self.finished_cb, MessageBox, _("Nothing to scan!\nPlease setup your tuner settings before you start a service scan."), MessageBox.TYPE_ERROR)
                        else:
                                self.session.open(MessageBox, _("Nothing to scan!\nPlease setup your tuner settings before you start a service scan."), MessageBox.TYPE_ERROR)

        def keyCancel(self):
                for x in self["config"].list:
                        x[1].cancel()
                self.close()

class ScanSimple(ConfigListScreen, Screen, CableTransponderSearchSupport):
        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.
                else:
                        # empty tuners provide no networks.
                        networks = [ ]
                return networks

        def __init__(self, session):
                Screen.__init__(self, session)

                self["actions"] = ActionMap(["SetupActions"],
                {
                        "ok": self.keyGo,
                        "cancel": self.keyCancel,
                }, -2)

                self.list = []
                tlist = []

                known_networks = [ ]
                nims_to_scan = [ ]
                self.finished_cb = None

                for nim in nimmanager.nim_slots:
                        # collect networks provided by this tuner

                        need_scan = False
                        networks = self.getNetworksForNim(nim)
                        
                        print "nim %d provides" % nim.slot, networks
                        print "known:", known_networks

                        # we only need to scan on the first tuner which provides a network.
                        # this gives the first tuner for each network priority for scanning.
                        for x in networks:
                                if x not in known_networks:
                                        need_scan = True
                                        print x, "not in ", known_networks
                                        known_networks.append(x)

                        if need_scan:
                                nims_to_scan.append(nim)

                # we save the config elements to use them on keyGo
                self.nim_enable = [ ]

                if len(nims_to_scan):
                        self.scan_clearallservices = ConfigSelection(default = "yes", choices = [("no", _("no")), ("yes", _("yes")), ("yes_hold_feeds", _("yes (keep feeds)"))])
                        self.list.append(getConfigListEntry(_("Clear before scan"), self.scan_clearallservices))

                        for nim in nims_to_scan:
                                nimconfig = ConfigYesNo(default = True)
                                nimconfig.nim_index = nim.slot
                                self.nim_enable.append(nimconfig)
                                self.list.append(getConfigListEntry(_("Scan ") + nim.slot_name + " (" + nim.friendly_type + ")", nimconfig))

                ConfigListScreen.__init__(self, self.list)
                self["header"] = Label(_("Automatic Scan"))
                self["footer"] = Label(_("Press OK to scan"))

        def runAsync(self, finished_cb):
                self.finished_cb = finished_cb
                self.keyGo()

        def keyGo(self):
                self.scanList = []
                self.known_networks = set()
                self.nim_iter=0
                self.buildTransponderList()

        def buildTransponderList(self): # this method is called multiple times because of asynchronous stuff
                APPEND_NOW = 0
                SEARCH_CABLE_TRANSPONDERS = 1
                action = APPEND_NOW

                n = self.nim_iter < len(self.nim_enable) and self.nim_enable[self.nim_iter] or None
                self.nim_iter += 1
                if n:
                        if n.value: # check if nim is enabled
                                flags = 0
                                nim = nimmanager.nim_slots[n.nim_index]
                                networks = set(self.getNetworksForNim(nim))

                                # don't scan anything twice
                                networks.discard(self.known_networks)

                                tlist = [ ]
                                if nim.isCompatible("DVB-S"):
                                        # get initial transponders for each satellite to be scanned
                                        for sat in networks:
                                                getInitialTransponderList(tlist, sat[0])
                                elif nim.isCompatible("DVB-C"):
                                        if config.Nims[nim.slot].cable.scan_type.value == "provider":
                                                getInitialCableTransponderList(tlist, nim.slot)
                                        else:
                                                action = SEARCH_CABLE_TRANSPONDERS
                                elif nim.isCompatible("DVB-T"):
                                        getInitialTerrestrialTransponderList(tlist, nimmanager.getTerrestrialDescription(nim.slot))
                                else:
                                        assert False

                                flags |= eComponentScan.scanNetworkSearch #FIXMEEE.. use flags from cables / satellites / terrestrial.xml
                                tmp = self.scan_clearallservices.value
                                if tmp == "yes":
                                        flags |= eComponentScan.scanRemoveServices
                                elif tmp == "yes_hold_feeds":
                                        flags |= eComponentScan.scanRemoveServices
                                        flags |= eComponentScan.scanDontRemoveFeeds

                                if action == APPEND_NOW:
                                        self.scanList.append({"transponders": tlist, "feid": nim.slot, "flags": flags})
                                elif action == SEARCH_CABLE_TRANSPONDERS:
                                        self.flags = flags
                                        self.feid = nim.slot
                                        self.startCableTransponderSearch(nim.slot)
                                        return
                                else:
                                        assert False

                        self.buildTransponderList() # recursive call of this function !!!
                        return
                # when we are here, then the recursion is finished and all enabled nims are checked
                # so we now start the real transponder scan
                self.startScan(self.scanList)

        def startScan(self, scanList):
                if len(scanList):
                        if self.finished_cb:
                                self.session.openWithCallback(self.finished_cb, ServiceScan, scanList = scanList)
                        else:
                                self.session.open(ServiceScan, scanList = scanList)
                else:
                        if self.finished_cb:
                                self.session.openWithCallback(self.finished_cb, MessageBox, _("Nothing to scan!\nPlease setup your tuner settings before you start a service scan."), MessageBox.TYPE_ERROR)
                        else:
                                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})

        def cableTransponderSearchFinished(self):
                self.buildTransponderList()

        def keyCancel(self):
                self.close()

        def Satexists(self, tlist, pos):
                for x in tlist:
                        if x == pos:
                                return 1
                return 0