X-Git-Url: https://git.cweiske.de/enigma2.git/blobdiff_plain/eb97f3d6d7b924d53994729a296f94c5b0c168c6..0ffddc5916909206895777778b1ac99073ae1ca2:/lib/python/Components/NimManager.py diff --git a/lib/python/Components/NimManager.py b/lib/python/Components/NimManager.py index 9520f972..2a1cbad3 100644 --- a/lib/python/Components/NimManager.py +++ b/lib/python/Components/NimManager.py @@ -293,17 +293,9 @@ class SecConfigure: sec.setLNBLOFH(10600000) sec.setLNBThreshold(11700000) elif currLnb.lof.value == "unicable": - if currLnb.unicable.value == "unicable_user": -#TODO satpositions for satcruser - sec.setLNBLOFL(currLnb.lofl.value * 1000) - sec.setLNBLOFH(currLnb.lofh.value * 1000) - sec.setLNBThreshold(currLnb.threshold.value * 1000) - sec.setLNBSatCR(currLnb.satcruser.index) - sec.setLNBSatCRvco(currLnb.satcrvcouser[currLnb.satcruser.index].value*1000) - sec.setLNBSatCRpositions(1) #HACK - elif currLnb.unicable.value == "unicable_matrix": - manufacturer_name = currLnb.unicableMatrixManufacturer.value - manufacturer = currLnb.unicableMatrix[manufacturer_name] + def setupUnicable(configManufacturer, ProductDict): + manufacturer_name = configManufacturer.value + manufacturer = ProductDict[manufacturer_name] product_name = manufacturer.product.value sec.setLNBSatCR(manufacturer.scr[product_name].index) sec.setLNBSatCRvco(manufacturer.vco[product_name][manufacturer.scr[product_name].index].value*1000) @@ -311,22 +303,22 @@ class SecConfigure: sec.setLNBLOFL(manufacturer.lofl[product_name][0].value * 1000) sec.setLNBLOFH(manufacturer.lofh[product_name][0].value * 1000) sec.setLNBThreshold(manufacturer.loft[product_name][0].value * 1000) - currLnb.unicableMatrixManufacturer.save_forced = True + configManufacturer.save_forced = True manufacturer.product.save_forced = True manufacturer.vco[product_name][manufacturer.scr[product_name].index].save_forced = True + + if currLnb.unicable.value == "unicable_user": +#TODO satpositions for satcruser + sec.setLNBLOFL(currLnb.lofl.value * 1000) + sec.setLNBLOFH(currLnb.lofh.value * 1000) + sec.setLNBThreshold(currLnb.threshold.value * 1000) + sec.setLNBSatCR(currLnb.satcruser.index) + sec.setLNBSatCRvco(currLnb.satcrvcouser[currLnb.satcruser.index].value*1000) + sec.setLNBSatCRpositions(1) #HACK + elif currLnb.unicable.value == "unicable_matrix": + setupUnicable(currLnb.unicableMatrixManufacturer, currLnb.unicableMatrix) elif currLnb.unicable.value == "unicable_lnb": - manufacturer_name = currLnb.unicableLnbManufacturer.value - manufacturer = currLnb.unicableLnb[manufacturer_name] - product_name = manufacturer.product.value - sec.setLNBSatCR(manufacturer.scr[product_name].index) - sec.setLNBSatCRvco(manufacturer.vco[product_name][manufacturer.scr[product_name].index].value*1000) - sec.setLNBSatCRpositions(manufacturer.positions[product_name][0].value) - sec.setLNBLOFL(manufacturer.lofl[product_name][0].value * 1000) - sec.setLNBLOFH(manufacturer.lofh[product_name][0].value * 1000) - sec.setLNBThreshold(manufacturer.loft[product_name][0].value * 1000) - currLnb.unicableLnbManufacturer.save_forced = True - manufacturer.product.save_forced = True - manufacturer.vco[product_name][manufacturer.scr[product_name].index].save_forced = True + setupUnicable(currLnb.unicableLnbManufacturer, currLnb.unicableLnb) elif currLnb.lof.value == "c_band": sec.setLNBLOFL(5150000) sec.setLNBLOFH(5150000) @@ -479,7 +471,7 @@ class SecConfigure: self.update() class NIM(object): - def __init__(self, slot, type, description, has_outputs = True, internally_connectable = None, multi_type = {}): + def __init__(self, slot, type, description, has_outputs = True, internally_connectable = None, multi_type = {}, i2c = None): self.slot = slot if type not in ("DVB-S", "DVB-C", "DVB-T", "DVB-S2", None): @@ -491,6 +483,7 @@ class NIM(object): self.has_outputs = has_outputs self.internally_connectable = internally_connectable self.multi_type = multi_type + self.i2c = i2c def isCompatible(self, what): compatible = { @@ -525,6 +518,9 @@ class NIM(object): def getSlotID(self): return chr(ord('A') + self.slot) + def getI2C(self): + return self.i2c + def hasOutputs(self): return self.has_outputs @@ -691,6 +687,9 @@ class NimManager: modes = entries[current_slot].get("multi_type", {}) modes[split2[1]] = split[1].strip() entries[current_slot]["multi_type"] = modes + elif line.strip().startswith("I2C_Device:"): + input = int(line.strip()[len("I2C_Device:") + 1:]) + entries[current_slot]["i2c"] = input elif line.strip().startswith("empty"): entries[current_slot]["type"] = None entries[current_slot]["name"] = _("N/A") @@ -700,13 +699,15 @@ class NimManager: if not (entry.has_key("name") and entry.has_key("type")): entry["name"] = _("N/A") entry["type"] = None + if not (entry.has_key("i2c")): + entry["i2c"] = None if not (entry.has_key("has_outputs")): entry["has_outputs"] = True if not (entry.has_key("internally_connectable")): entry["internally_connectable"] = None if not (entry.has_key("multi_type")): entry["multi_type"] = {} - self.nim_slots.append(NIM(slot = id, description = entry["name"], type = entry["type"], has_outputs = entry["has_outputs"], internally_connectable = entry["internally_connectable"], multi_type = entry["multi_type"])) + self.nim_slots.append(NIM(slot = id, description = entry["name"], type = entry["type"], has_outputs = entry["has_outputs"], internally_connectable = entry["internally_connectable"], multi_type = entry["multi_type"], i2c = entry["i2c"])) def hasNimType(self, chktype): for slot in self.nim_slots: @@ -1138,72 +1139,60 @@ def InitNimManager(nimmgr): else: section.unicable = ConfigSelection(choices = {"unicable_user": _("User defined")}, default = "unicable_user") - if lnb < 3: - section.unicableMatrix = ConfigSubDict() - section.unicableMatrixManufacturer = ConfigSelection(choices = UnicableMatrixManufacturers, default = UnicableMatrixManufacturers[0]) - for y in unicablematrixproducts: - products = unicablematrixproducts[y].keys() + def fillUnicableConf(sectionDict, unicableproducts, vco_null_check): + for y in unicableproducts: + products = unicableproducts[y].keys() products.sort() tmp = ConfigSubsection() tmp.product = ConfigSelection(choices = products, default = products[0]) tmp.scr = ConfigSubDict() tmp.vco = ConfigSubDict() + tmp.lofl = ConfigSubDict() + tmp.lofh = ConfigSubDict() + tmp.loft = ConfigSubDict() + tmp.positions = ConfigSubDict() for z in products: scrlist = [] - vcolist = unicablematrixproducts[y][z] + vcolist = unicableproducts[y][z] tmp.vco[z] = ConfigSubList() for cnt in range(1,1+len(vcolist)-1): vcofreq = int(vcolist[cnt-1]) - if vcofreq == 0: + if vcofreq == 0 and vco_null_check: scrlist.append(("%d" %cnt,"SCR %d " %cnt +_("not used"))) else: scrlist.append(("%d" %cnt,"SCR %d" %cnt)) tmp.vco[z].append(ConfigInteger(default=vcofreq, limits = (vcofreq, vcofreq))) - tmp.scr[z] = ConfigSelection(choices = scrlist, default = scrlist[0][0]) - section.unicableMatrix[y] = tmp + tmp.scr[z] = ConfigSelection(choices = scrlist, default = scrlist[0][0]) + + positions = int(vcolist[len(vcolist)-1][0]) + tmp.positions[z] = ConfigSubList() + tmp.positions[z].append(ConfigInteger(default=positions, limits = (positions, positions))) + + lofl = vcolist[len(vcolist)-1][1] + tmp.lofl[z] = ConfigSubList() + tmp.lofl[z].append(ConfigInteger(default=lofl, limits = (lofl, lofl))) + + lofh = int(vcolist[len(vcolist)-1][2]) + tmp.lofh[z] = ConfigSubList() + tmp.lofh[z].append(ConfigInteger(default=lofh, limits = (lofh, lofh))) + + loft = int(vcolist[len(vcolist)-1][3]) + tmp.loft[z] = ConfigSubList() + tmp.loft[z].append(ConfigInteger(default=loft, limits = (loft, loft))) + sectionDict[y] = tmp + + if lnb < 3: + print "MATRIX" + section.unicableMatrix = ConfigSubDict() + section.unicableMatrixManufacturer = ConfigSelection(UnicableMatrixManufacturers, UnicableMatrixManufacturers[0]) + fillUnicableConf(section.unicableMatrix, unicablematrixproducts, True) if lnb < 2: + print "LNB" section.unicableLnb = ConfigSubDict() section.unicableLnbManufacturer = ConfigSelection(UnicableLnbManufacturers, UnicableLnbManufacturers[0]) - for y in unicablelnbproducts: - products = unicablelnbproducts[y].keys() - products.sort() - tmp = ConfigSubsection() - tmp.product = ConfigSelection(choices = products, default = products[0]) - tmp.scr = ConfigSubDict() - tmp.vco = ConfigSubDict() - tmp.lofl = ConfigSubDict() - tmp.lofh = ConfigSubDict() - tmp.loft = ConfigSubDict() - tmp.positions = ConfigSubDict() - for z in products: - scrlist = [] - vcolist = unicablelnbproducts[y][z] - tmp.vco[z] = ConfigSubList() - for cnt in range(1,1+len(vcolist)-1): - scrlist.append(("%d" %cnt,"SCR %d" %cnt)) - vcofreq = int(vcolist[cnt-1]) - tmp.vco[z].append(ConfigInteger(default=vcofreq, limits = (vcofreq, vcofreq))) - tmp.scr[z] = ConfigSelection(choices = scrlist, default = scrlist[0][0]) - - positions = int(vcolist[len(vcolist)-1][0]) - tmp.positions[z] = ConfigSubList() - tmp.positions[z].append(ConfigInteger(default=positions, limits = (positions, positions))) - - lofl = vcolist[len(vcolist)-1][1] - tmp.lofl[z] = ConfigSubList() - tmp.lofl[z].append(ConfigInteger(default=lofl, limits = (lofl, lofl))) - - lofh = int(vcolist[len(vcolist)-1][2]) - tmp.lofh[z] = ConfigSubList() - tmp.lofh[z].append(ConfigInteger(default=lofh, limits = (lofh, lofh))) - - loft = int(vcolist[len(vcolist)-1][3]) - tmp.loft[z] = ConfigSubList() - tmp.loft[z].append(ConfigInteger(default=loft, limits = (loft, loft))) - - section.unicableLnb[y] = tmp - + fillUnicableConf(section.unicableLnb, unicablelnbproducts, False) + #TODO satpositions for satcruser section.satcruser = ConfigSelection(advanced_lnb_satcruser_choices, default="1") tmp = ConfigSubList() @@ -1228,7 +1217,7 @@ def InitNimManager(nimmgr): section.latitude = ConfigFloat(default = [50,767], limits = [(0,359),(0,999)]) section.latitudeOrientation = ConfigSelection(latitude_orientation_choices, "north") section.powerMeasurement = ConfigYesNo(default=True) - section.powerThreshold = ConfigInteger(default=hw.get_device_name() == "dm8000" and 15 or 50, limits=(0, 100)) + section.powerThreshold = ConfigInteger(default=hw.get_device_name() == "dm7025" and 50 or 15, limits=(0, 100)) section.turningSpeed = ConfigSelection(turning_speed_choices, "fast") section.fastTurningBegin = ConfigDateTime(default=advanced_lnb_fast_turning_btime, formatstring = _("%H:%M"), increment = 600) section.fastTurningEnd = ConfigDateTime(default=advanced_lnb_fast_turning_etime, formatstring = _("%H:%M"), increment = 600)