def __diagNetwork(self):
try:
with open("/proc/net/route") as f:
for line in f:
fields = line.strip().split()
if fields[
1] != "00000000": # default gateway destination 0.0.0.0
continue
#log.debug(fields)
if int(
fields[3], 16
) & 2: # check route to be UG from the third field which is in base16
self.__networkStatus = True
try:
self.__networkGateway = socket.inet_ntoa(
struct.pack("=L", int(fields[2], 16)))
#self.__networkGateway = ".".join([str(int(fields[2][i:i+2], 16)) for i in range(0, len(fields[2]), 2)]) # depends on endianess
except:
self.__networkGateway = None
log.debug("Cannot get gateway address.")
log.debug("Network gateway (%s) up on interface %s" %
(self.__networkGateway, fields[0]))
return
except:
log.error("Cannot find /proc entry for network diag")
self.__networkStatus = False
def addRecord(self, zone, commit=True):
if (self.database.isOpen()):
valuesToInsert = (
zone.zid,
zone.SoilIntakeRate,
zone.AvailableWater,
zone.MaxAllowedDepletion,
zone.RootDepth,
zone.isTallPlant,
zone.PrecipRate,
zone.AppEfficiency,
zone.AllowedSurfaceAcc,
zone.FieldCapacity,
zone.PermWilting,
zone.MaxRuntime,
",".join(str(i) for i in zone.DetailedMonthsKc),
zone.StartWaterLevel,
)
if commit:
try:
self.database.execute("INSERT OR REPLACE INTO zones_advanced( zid, SoilIntakeRate, AvailableWater, MaxAllowedDepletion, RootDepth, isTallPlant, PrecipRate, \
AppEfficiency, AllowedSurfaceAcc, FieldCapacity, PermWilting, MaxRuntime, DetailedMonthsKc, StartWaterLevel) "\
"VALUES(?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)", valuesToInsert)
self.database.commit()
except Exception, e:
log.error(e)
return False
else:
self.database.execute("INSERT OR REPLACE INTO zones_advanced( zid, SoilIntakeRate, AvailableWater, MaxAllowedDepletion, RootDepth, isTallPlant, PrecipRate, \
AppEfficiency, AllowedSurfaceAcc, FieldCapacity, PermWilting, MaxRuntime, DetailedMonthsKc, StartWaterLevel) "\
"VALUES(?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)", valuesToInsert)
def perform(self):
s = self.settings
appKey = self.params.get("appKey", None)
if appKey is None:
self.lastKnownError = "Error: No Api Key"
return
URL = "https://api.darksky.net/forecast/" + str(appKey) + "/" + str(
s.location.latitude) + "," + str(s.location.longitude)
# URLParams = \
# [
# ("units", "si"),
# ("exclude", "currently,minutely,alerts,flags"),
# ("extend", "hourly")
# ]
URLParams = \
[
("units", "si"),
("exclude", "currently,minutely,alerts,flags, hourly")
]
try:
d = self.openURL(URL, URLParams)
if d is None:
return
forecast = json.loads(d.read())
self.__getDailyData(forecast)
except Exception, e:
log.error("*** Error running darksky.net parser")
log.exception(e)
def perform(self):
self.apiKey = self.params.get("apiKey", None)
self.stationID = self.params.get("stationID", None)
if self.apiKey is None or not self.apiKey or not isinstance(
self.apiKey, str):
self.lastKnownError = "Error: No API Key. Please register an account at https://www.willyweather.com.au/info/api.html"
return
self.params["_nearbyStationsIDList"] = []
self.noDays = 7
if self.params.get("stationLookUp"):
s = self.settings
llat = s.location.latitude
llon = s.location.longitude
searchURL = "https://api.willyweather.com.au/v2/" + self.apiKey + "/search.json"
searchURLParams = [("lat", llat), ("lng", llon),
("units", "distance:km")]
try:
d = self.openURL(searchURL, searchURLParams)
if d is None:
return
search = json.loads(d.read())
if self.parserDebug:
log.info(search)
self.getNearbyStations(search)
except Exception, e:
log.error("*** Error finding nearby stations")
log.exception(e)
def _log_error(self, message, packet=None):
if packet is not None:
self.lastKnownError = message + ' ' + ''.join('\\x%02X' % ord(b)
for b in packet)
else:
self.lastKnownError = message
log.error(self.lastKnownError)
def addRecord(self, zone):
if self.database.isOpen():
valuesToInsert = (
zone.uid,
zone.name,
zone.valveid,
zone.ETcoef,
zone.active,
zone.type,
zone.internet,
zone.savings,
zone.slope,
zone.sun,
zone.soil,
zone.group_id,
zone.history,
)
try:
self.database.execute(
"INSERT OR REPLACE INTO zones( uid, name, valveid, ETcoef, active, type, internet, savings, slope, sun, soil, group_id, history) "
"VALUES(?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)",
valuesToInsert,
)
self.zonesAdvancedTable.addRecord(zone, False)
self.database.commit()
except Exception, e:
log.error(e)
return False
def perform(self):
days = self.params["historicDays"]
intervals = days / self.maxAllowedDays + (days % self.maxAllowedDays !=
0)
lastIntervalStartDay = datetime.date.today()
if intervals > 1:
days = self.maxAllowedDays
log.debug("Days: %d Intervals: %d" % (days, intervals))
for i in range(0, intervals):
startDay = lastIntervalStartDay - datetime.timedelta(
days=1) # CIMIS real data starts from yesterday
endDay = startDay - datetime.timedelta(days=(days + 1))
lastIntervalStartDay = endDay
try:
self.__retrieveData(
endDay, startDay
) # we call with startDay/endDay swapped because CIMIS expects historic intervals
except Exception, e:
log.error("*** Error running CIMIS parser")
self.lastKnownError = "Error: Data retrieval failed"
log.exception(e)
def uploadDiag(self):
localPath = globalSettings.databasePath
remotePath = self.__getUploadFolderName()
filesUploaded = 0
try:
self.__connect()
self.__ftp.mkd(remotePath)
self.__ftp.cwd(remotePath)
# Application files
for file in self.fileList:
try:
self.status = RMDiagUpload.STATUS_UPLOADING
if os.path.isabs(file):
self.__upload(None, file)
else:
self.__upload(localPath, file)
filesUploaded += 1
except Exception, e:
log.error("uploadDiag: File: %s : %s" % (file, e))
if filesUploaded > 0: # rainmachine.log.1.gz might not had been created
self.status = RMDiagUpload.STATUS_IDLE
else:
self.status = RMDiagUpload.STATUS_UPLOAD_ERROR
self.__ftp.quit()
def addRecord(self, zone):
if (self.database.isOpen()):
valuesToInsert = (
zone.uid,
zone.name,
zone.valveid,
zone.ETcoef,
zone.active,
zone.type,
zone.internet,
zone.savings,
zone.slope,
zone.sun,
zone.soil,
zone.group_id,
zone.history,
)
try:
self.database.execute("INSERT OR REPLACE INTO zones( uid, name, valveid, ETcoef, active, type, internet, savings, slope, sun, soil, group_id, history) "\
"VALUES(?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)", valuesToInsert)
self.zonesAdvancedTable.addRecord(zone, False)
self.database.commit()
except Exception, e:
log.error(e)
return False
def __getSimpleForecast(self):
try:
timetuple = datetime.datetime.fromtimestamp(int(
time.time())).timetuple()
timestamp = datetime.datetime(timetuple.tm_year, timetuple.tm_mon,
timetuple.tm_mday)
dayTimestamp = int(time.mktime(timestamp.timetuple()))
maxDayTimestamp = dayTimestamp + globalSettings.parserDataSizeInDays * 86400
simpleForecast = self.jsonResponse["response"][0]
for key in simpleForecast["periods"]:
log.debug(key)
timestamp = self.__toInt(key["timestamp"])
if timestamp is None:
continue
timestamp = int(timestamp)
if timestamp < maxDayTimestamp:
#tt = self.__toInt(key["timestamp"])
#tt = rmGetStartOfDay(tt)
#if tt > maxDayTimestamp:
# break
#timestamp = self.__toInt(tt)
temperatureMax = self.__toFloat(key["maxTempC"])
temperatureMin = self.__toFloat(key["minTempC"])
wind = self.__toFloat(key["windSpeedKPH"])
if wind is not None:
wind = wind / 3.6 # convertred from kmetersph to meterps
humidity = self.__toFloat(key["humidity"])
qpf = self.__toFloat(key["precipMM"])
pop = self.convertToPercent(key["pop"])
dewpoint = self.__toFloat(key["avgDewpointC"])
condition = self.conditionConvert(
key["weatherPrimaryCoded"], key["cloudsCoded"])
self.addValue(RMParser.dataType.QPF, timestamp, qpf)
self.addValue(RMParser.dataType.RH, timestamp, humidity)
self.addValue(RMParser.dataType.WIND, timestamp, wind)
self.addValue(RMParser.dataType.POP, timestamp, pop)
self.addValue(RMParser.dataType.DEWPOINT, timestamp,
dewpoint)
self.addValue(RMParser.dataType.MINTEMP, timestamp,
temperatureMin)
self.addValue(RMParser.dataType.MAXTEMP, timestamp,
temperatureMax)
self.addValue(RMParser.dataType.CONDITION, timestamp,
condition)
log.debug(timestamp)
log.debug(temperatureMax)
log.debug(temperatureMin)
log.debug(wind)
log.debug(humidity)
log.debug(qpf)
log.debug(condition)
except:
log.error("Failed to get simple forecast")
def uploadDiag(self):
localPath = globalSettings.databasePath
remotePath = self.__getUploadFolderName()
filesUploaded = 0
try:
self.__connect()
self.__ftp.mkd(remotePath)
self.__ftp.cwd(remotePath)
# Application files
for file in self.fileList:
try:
self.status = RMDiagUpload.STATUS_UPLOADING
if os.path.isabs(file):
self.__upload(None, file)
else:
self.__upload(localPath, file)
filesUploaded += 1
except Exception, e:
log.error("uploadDiag: File: %s : %s" % (file, e))
if filesUploaded > 0: # rainmachine.log.1.gz might not had been created
self.status = RMDiagUpload.STATUS_IDLE
else:
self.status = RMDiagUpload.STATUS_UPLOAD_ERROR
self.__ftp.quit()
def __unmanglePassword(self, mangle):
if not mangle or len(mangle) != 112:
return None
tokenSize = len(mangle) / 16
tokens = [
"", "", "", "", "", "", "", "", "", "", "", "", "", "", "", ""
]
index = 0
while index <= 15:
token = mangle[(index * tokenSize):((index + 1) * tokenSize)]
if token[0] == '3':
tokens[0] = token[1:tokenSize]
elif token[0] == 'b':
tokens[15] = token[1:tokenSize]
index += 1
password = "".join(tokens)
log.error("Mangle: %s" % mangle)
log.error("Password: %s" % password)
return password
def getNearbyStationsNoKey(self):
MIN_STATIONS = 1
MAX_STATIONS = 20
s = self.settings
llat = s.location.latitude
llon = s.location.longitude
stationsURL = "https://stationdata.wunderground.com/cgi-bin/stationdata?v=2.0&type=ICAO%2CPWS&units=metric&format=json&maxage=1800&maxstations=" \
+ str(MAX_STATIONS) + "&minstations=" + str(MIN_STATIONS) + "¢erLat=" + str(llat) + "¢erLon=" \
+ str(llon) + "&height=400&width=400&iconsize=2&callback=__ng_jsonp__.__req1.finished"
try:
# WARNING: WE PROBABLY SHOULD FAIL IF WE CAN'T GET STATIONS IF USER KNOWS STATION_ID
log.debug("Downloading station data from: %s" % stationsURL)
d = self.openURL(stationsURL, headers=self.headers)
if d is None:
self.lastKnownError = "Cannot download nearby stations"
log.error(self.lastKnownError)
# extract object from callback parameter
stationsData = d.read()
stationsObj = stationsData[stationsData.
find("{"):stationsData.rfind("}") + 1]
# log.info(stationsObj)
stations = json.loads(stationsObj)
self.parseNearbyStationsNoKey(stations)
except Exception, e:
self.lastKnownError = "ERROR: Cannot get nearby stations"
log.error(self.lastKnownError)
return
def __parseStationData(self, jsonContent):
observations = {}
try:
temperature = self.__toFloat(jsonContent.get("temp_c", None))
rh = self.__toFloat(jsonContent.get("relative_humidity", None))
wind = self.__toFloat(jsonContent.get("wind_kph", None))
wind_gust = self.__toFloat(jsonContent.get("wind_gust_kph", None))
pressure = self.__toFloat(jsonContent.get("pressure_mb", None))
dew = self.__toFloat(jsonContent.get("dewpoint_c", None))
heat = self.__toFloat(jsonContent.get("heat_index_c", None))
rain = self.__toFloat(jsonContent.get("precip_1hr_metric", None))
# Conversions
if wind is not None: #kph to mps
wind = wind / 3.6
if pressure is not None: # mb to kpa
pressure = pressure / 10
observations["temperature"] = temperature
observations["rh"] = rh
observations["wind"] = wind
observations["wind_gust"] = wind_gust
observations["pressure"] = pressure
observations["dew"] = dew
observations["heat"] = heat
observations["rain"] = rain
except Exception, e:
log.error("Can't parse data %s" % e)
self.lastKnownError = "Error: Can't parse data"
def __rest(self, type, apiCall, data = None, isBinary = False, extraHeaders = None, majorVersion="", asJSON = True):
protocol = RMAPIClientProtocol.getAsString(self._protocol)
apiUrl = protocol + self._host + ":" + self._port + "/api/" + majorVersion + "/"
if self.token is None:
url = apiUrl + apiCall
else:
url = apiUrl + apiCall + "?access_token=" + self.token
try:
req = urllib2.Request(url)
req.get_method = lambda: type # Force GET/POST depending on type
except:
return RMAPIClientErrors.REQ
if isBinary:
req.add_data(data=data)
else:
req.add_data(data=json.dumps(data))
req.add_header("Content-type","text/plain")
if extraHeaders is not None:
for header in extraHeaders:
req.add_header(header)
try:
log.info("REST: %s : %s" % (req.get_method(), req.get_full_url()))
r = urllib2.urlopen(req)
data = r.read()
except Exception, e:
log.error("Cannot OPEN URL: %s" % e)
return RMAPIClientErrors.OPEN
def perform(self):
URL = self.params.get("urlPath", None)
d = self.openURL(URL)
if d is None:
return
pwsContent = d.read()
if pwsContent is None:
return
pwsContent = pwsContent.strip()
pwsArray = pwsContent.split(" ")
lat = float(pwsArray[160])
lon = -float(pwsArray[161])
distToPWS = self.distanceToStation(lat, lon)
maxDist = self.params.get("maxAllowedDistance")
if (distToPWS > maxDist):
log.error("*** PWS Station too far from home!")
return
temperature = self.__toFloat(pwsArray[4])
mintemp = self.__toFloat(pwsArray[47])
maxtemp = self.__toFloat(pwsArray[46])
rh = self.__toFloat(pwsArray[5])
minrh = self.__toFloat(pwsArray[164])
maxrh = self.__toFloat(pwsArray[163])
wind = self.__toFloat(convertKnotsToMS(
pwsArray[1])) # converted from knos to m/s
solarradiation = self.__toFloat(
pwsArray[127]
) # needs to be converted from watt/sqm*h to Joule/sqm
if solarradiation is not None:
solarradiation *= 0.0864
rain = self.__toFloat(pwsArray[7])
dewpoint = self.__toFloat(pwsArray[72])
pressure = self.__toFloat(pwsArray[50])
conditionIcon = self.conditionConvert(self.__toFloat(pwsArray[48]))
#skycover ?
timestamp = rmCurrentTimestamp()
self.addValue(RMParser.dataType.TEMPERATURE, timestamp, temperature)
self.addValue(RMParser.dataType.MINTEMP, timestamp, mintemp)
self.addValue(RMParser.dataType.MAXTEMP, timestamp, maxtemp)
self.addValue(RMParser.dataType.RH, timestamp, rh)
self.addValue(RMParser.dataType.MINRH, timestamp, minrh)
self.addValue(RMParser.dataType.MAXRH, timestamp, maxrh)
self.addValue(RMParser.dataType.WIND, timestamp, wind)
self.addValue(RMParser.dataType.RAIN, timestamp, rain)
self.addValue(RMParser.dataType.DEWPOINT, timestamp, dewpoint)
self.addValue(RMParser.dataType.PRESSURE, timestamp, pressure)
self.addValue(RMParser.dataType.CONDITION, timestamp, conditionIcon)
self.addValue(RMParser.dataType.SOLARRADIATION, timestamp,
solarradiation)
print self.result
return
def __checkFactoryReset(self):
factoryReset = os.path.exists("/tmp/factory-reset")
if factoryReset and self.__mainManager:
try:
os.remove("/tmp/factory-reset")
except Exception, e:
log.error(e)
self.__mainManager.factoryReset()
def __checkFactoryReset(self):
factoryReset = os.path.exists("/tmp/factory-reset")
if factoryReset and self.__mainManager:
try:
os.remove("/tmp/factory-reset")
except Exception, e:
log.error(e)
self.__mainManager.factoryReset()
def unregisterThread(self):
### Call this method from the thread you want to unregister.
with self.__lock:
key = thread.get_ident()
entry = self.__data.pop(key, None)
if entry is None:
log.error("Thread key %s not found. unregister failed" % key)
return False
return True
def unregisterThread(self):
### Call this method from the thread you want to unregister.
with self.__lock:
key = thread.get_ident()
entry = self.__data.pop(key, None)
if entry is None:
log.error("Thread key %s not found. unregister failed" % key)
return False
return True
def __setWatchdogMaxTimeout(self):
WDIOC_SETTIMEOUT = 0xC0045706 # direction(3 RW) << 30 | size (4 int) << 16 | type ( 'W') << 8 | number (6)
timeout = ctypes.c_int(120) # seconds
if self.__watchDogDescriptor is not None:
fd = self.__watchDogDescriptor.fileno()
ioctl(fd, WDIOC_SETTIMEOUT, timeout)
self.__watchDogDescriptor.close()
else:
log.error("Can't set watchdog max timeout. Device not opened")
def perform(self):
s = self.settings
headers = [{ "User-Agent": "RainMachine.com v2" },
{ "User-Agent": "Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/85.0.4183.121 Safari/537.36"}]
URL = "https://api.met.no/weatherapi/locationforecast/2.0/classic"
URLParams = [("lat", s.location.latitude),
("lon", s.location.longitude),
("altitude", int(round(s.location.elevation)))]
#-----------------------------------------------------------------------------------------------
#
# Get hourly data.
#
d = self.openURL(URL, URLParams, headers=headers[random.randint(0, 1)])
if d is None:
return
tree = e.parse(d)
#tree = e.parse("/tmp/MET.NO/forecast.xml")
if tree.getroot().tag == 'error':
log.error("*** No hourly information found in response!")
self.lastKnownError = "Error: No hourly information found"
tree.getroot().clear()
del tree
tree = None
else:
data = self.__parseXMLData(tree)
# Free memory
tree.getroot().clear()
del tree
tree = None
temp = self.__extractTagData(data, 'temperature')
mintemp = self.__extractTagData(data, 'minTemperature')
maxtemp = self.__extractTagData(data, 'maxTemperature')
dewpoint = self.__extractTagData(data, 'dewpointTemperature')
wind = self.__extractTagData(data, 'windSpeed')
humidity = self.__extractTagData(data, 'humidity')
pressure = self.__extractTagData(data, 'pressure')
qpf = self.__extractTagData(data, 'precipitation')
condition = self.__extractTagData(data, 'symbol')
self.addValues(RMParser.dataType.TEMPERATURE, temp)
self.addValues(RMParser.dataType.MINTEMP, mintemp)
self.addValues(RMParser.dataType.MAXTEMP, maxtemp)
self.addValues(RMParser.dataType.DEWPOINT, dewpoint)
self.addValues(RMParser.dataType.WIND, wind)
self.addValues(RMParser.dataType.RH, humidity)
self.addValues(RMParser.dataType.QPF, qpf)
self.addValues(RMParser.dataType.PRESSURE, pressure)
self.addValues(RMParser.dataType.CONDITION, condition)
def __setWatchdogMaxTimeout(self):
WDIOC_SETTIMEOUT = 0xC0045706 # direction(3 RW) << 30 | size (4 int) << 16 | type ( 'W') << 8 | number (6)
timeout = ctypes.c_int(120) # seconds
if self.__watchDogDescriptor is not None:
fd = self.__watchDogDescriptor.fileno()
ioctl(fd, WDIOC_SETTIMEOUT, timeout)
self.__watchDogDescriptor.close()
else:
log.error("Can't set watchdog max timeout. Device not opened")
def __refreshWIFI(self):
timestamp = rmCurrentTimestamp()
lastWIFICheckTimestamp = globalWIFI.wifiInterface.lastWIFICheckTimestamp
oldIP = globalWIFI.wifiInterface.ipAddress
if lastWIFICheckTimestamp is None or oldIP is None or (
timestamp -
lastWIFICheckTimestamp) >= self.__wifiRefreshTimeout:
try:
globalWIFI.detect()
if oldIP != globalWIFI.wifiInterface.ipAddress:
log.info(
"Refreshed WIFI Information. (old: %s new ip: %s)" %
( ` oldIP `, ` globalWIFI.wifiInterface.ipAddress `))
if RMOSPlatform().AUTODETECTED == RMOSPlatform.ANDROID:
return
# Handle None IP
if globalWIFI.wifiInterface.ipAddress is None:
if self.__lastNoneIpTimestamp is None or (
timestamp - self.__lastNoneIpTimestamp
) < self.__wifiNoneIpTimeout:
# First occurrence of None IP OR we can wait some more time.
if self.__lastNoneIpTimestamp is None:
self.__lastNoneIpTimestamp = timestamp
log.debug(
"Refreshed WIFI Information - no IP detected. Give it some more time: %d seconds!"
% (self.__wifiNoneIpTimeout -
(timestamp - self.__lastNoneIpTimestamp), ))
return
else:
globalWIFI.restart()
log.warn(
"Refreshed WIFI Information - WIFI quick reloaded because no IP detected. New IP is %s"
% ` globalWIFI.wifiInterface.ipAddress `)
self.__lastNoneIpTimestamp = None # Reset None IP timestamp.
# Check if we never connected to this AP, set back AP mode and restart app
if globalWIFI.wifiInterface.mode == "managed" and not globalWIFI.hasConnectedOnce(
):
if globalWIFI.wifiInterface.hasClientLink:
globalWIFI.saveHasConnectedOnce(True)
else:
log.warning(
"WIFI Watcher Client IP (%s) configuration failed, restarting in AP mode."
% oldIP)
globalWIFI.setDefaultAP()
globalWIFI.saveHasConnectedOnce(False)
globalWIFI.restart()
self.__mainManager.touchWakeMessage()
except Exception, e:
log.error(e)
def perform(self):
URL = self.params.get("urlPath", None)
d = self.openURL(URL)
if d is None:
return
pwsContent = d.read()
if pwsContent is None:
return
pwsContent = pwsContent.strip()
pwsArray = pwsContent.split(" ")
lat = float(pwsArray[160])
lon = -float(pwsArray[161])
distToPWS = self.distanceToStation(lat, lon)
maxDist = self.params.get("maxAllowedDistance")
if(distToPWS > maxDist):
log.error("*** PWS Station too far from home!")
return
temperature = self.__toFloat(pwsArray[4])
mintemp = self.__toFloat(pwsArray[47])
maxtemp = self.__toFloat(pwsArray[46])
rh = self.__toFloat(pwsArray[5])
minrh = self.__toFloat(pwsArray[164])
maxrh = self.__toFloat(pwsArray[163])
wind = self.__toFloat(convertKnotsToMS(pwsArray[1])) # converted from knos to m/s
solarradiation = self.__toFloat(pwsArray[127]) # needs to be converted from watt/sqm*h to Joule/sqm
if solarradiation is not None:
solarradiation *= 0.0864
rain = self.__toFloat(pwsArray[7])
dewpoint = self.__toFloat(pwsArray[72])
pressure = self.__toFloat(pwsArray[50])
conditionIcon = self.conditionConvert(self.__toFloat(pwsArray[48]))
#skycover ?
timestamp = rmCurrentTimestamp()
self.addValue(RMParser.dataType.TEMPERATURE, timestamp, temperature)
self.addValue(RMParser.dataType.MINTEMP, timestamp, mintemp)
self.addValue(RMParser.dataType.MAXTEMP, timestamp, maxtemp)
self.addValue(RMParser.dataType.RH, timestamp, rh)
self.addValue(RMParser.dataType.MINRH, timestamp, minrh)
self.addValue(RMParser.dataType.MAXRH, timestamp, maxrh)
self.addValue(RMParser.dataType.WIND, timestamp, wind)
self.addValue(RMParser.dataType.RAIN, timestamp, rain)
self.addValue(RMParser.dataType.DEWPOINT, timestamp, dewpoint)
self.addValue(RMParser.dataType.PRESSURE, timestamp, pressure)
self.addValue(RMParser.dataType.CONDITION, timestamp, conditionIcon)
self.addValue(RMParser.dataType.SOLARRADIATION, timestamp, solarradiation)
print self.result
return
def parseStationYesterdayDataNoKey(self, data):
#daily summary for yesterday
try:
l = RMWeatherDataLimits()
temperature = self.__toFloat(data["TemperatureAvgC"])
mintemp = self.__toFloat(data["TemperatureLowC"])
maxtemp = self.__toFloat(data["TemperatureHighC"])
rh = self.__toFloat(data["HumidityAvg"])
minrh = self.__toFloat(data["HumidityLow"])
maxrh = self.__toFloat(data["HumidityHigh"])
dewpoint = self.__toFloat(data["DewpointAvgC"])
wind = self.__toFloat(data["WindSpeedAvgKMH"])
maxpressure = self.__toFloat(data["PressureMaxhPa"])
minpressure = self.__toFloat(data["PressureMinhPa"])
rain = self.__toFloat(
data["PrecipitationSumCM"]) * 10.0 # from cm to mm
if wind is not None:
wind = wind / 3.6 # converted from kmetersph to mps
if maxpressure is not None:
maxpressure = l.sanitize(RMWeatherDataType.PRESSURE,
maxpressure /
10.0) # converted to from hpa to kpa
if minpressure is not None:
minpressure = l.sanitize(RMWeatherDataType.PRESSURE,
minpressure / 10.0)
pressure = None
if maxpressure is not None and minpressure is not None:
pressure = (maxpressure + minpressure) / 2.0
#log.info("rh:%s minrh: %s maxrh: %s pressure: %s temp: %s mintemp: %s maxtemp: %s" % (rh, minrh, maxrh, pressure, temperature, mintemp, maxtemp))
timestamp = rmCurrentDayTimestamp()
timestamp = rmGetStartOfDay(timestamp - 12 * 3600)
self.addValue(RMParser.dataType.TEMPERATURE, timestamp,
temperature, False)
self.addValue(RMParser.dataType.MINTEMP, timestamp, mintemp, False)
self.addValue(RMParser.dataType.MAXTEMP, timestamp, maxtemp, False)
self.addValue(RMParser.dataType.RH, timestamp, rh, False)
self.addValue(RMParser.dataType.MINRH, timestamp, minrh, False)
self.addValue(RMParser.dataType.MAXRH, timestamp, maxrh, False)
self.addValue(RMParser.dataType.WIND, timestamp, wind, False)
self.addValue(RMParser.dataType.RAIN, timestamp, rain, False)
self.addValue(RMParser.dataType.DEWPOINT, timestamp, dewpoint,
False)
self.addValue(RMParser.dataType.PRESSURE, timestamp, pressure,
False)
except Exception, e:
self.lastKnownError = "ERROR: Failed to get historical data"
log.error("%s: %s" % (self.lastKnownError, e))
def __getStationData(self, URL):
try:
d = self.openURL(URL)
jsonResponse = d.read()
jsonContent = json.loads(jsonResponse)
jsonContent = jsonContent["current_observation"]
except Exception, e:
log.error("Invalid data received %s" % e)
self.lastKnownError = "Error: Invalid data received"
return None
def doRun(self):
#-------------------------------------------------------------------------
# Handle the events / commands.
command = None
while True:
try:
if not self.doHandleMessages():
break
except Exception, e:
log.error(e)
def __getDailyData(self, forecast):
dayTimestamp = rmCurrentDayTimestamp()
maxDayTimestamp = dayTimestamp + globalSettings.parserDataSizeInDays * 86400
daily = []
try:
daily = forecast["daily"]["data"]
except Exception, e:
log.error("*** No daily information found in response!")
self.lastKnownError = "Warning: No daily information"
log.exception(e)
def perform(self):
station = self.params.get("station", None)
if station is None:
self.lastKnownError = "No station number configured."
log.error(self.lastKnownError)
return
res = self.performWithDataFeeds(station)
if not res:
self.performWithReport(station)
def perform(self):
s = self.settings
URLHourly = "http://fawn.ifas.ufl.edu/controller.php/lastHour/summary/json"
URLDaily = "http://fawn.ifas.ufl.edu/controller.php/lastDay/summary/json"
URLParams = []
useHourly = self.params.get("useHourly", False)
# -----------------------------------------------------------------------------------------------
#
# Get hourly data.
#
if useHourly:
try:
d = self.openURL(URLHourly, URLParams)
if d is None:
return
json_data = d.read()
json_data = json_data.replace("'", '"')
hourly = json.loads(json_data)
for entry in hourly:
# only selected station
if int(entry.get("StationID")) == self.params.get("station"):
dateString = entry.get("startTime")
# timestamp = rmTimestampFromDateAsStringWithOffset(dateString)
timestamp = rmTimestampFromDateAsString(dateString[:-6], "%Y-%m-%dT%H:%M:%S")
if timestamp is None:
log.debug("Cannot convert hourly data startTime: %s to unix timestamp" % dateString)
continue
# Add 12h in the future for FAWN timestamp to fix badly reported offset and make it middle of the day UTC (Dragos)
timestamp += 12 * 60 * 60
self.addValue(RMParser.dataType.TEMPERATURE, timestamp, self.__toFloat(entry.get("t2m_avg")))
self.addValue(RMParser.dataType.MINTEMP, timestamp, self.__toFloat(entry.get("t2m_min")))
self.addValue(RMParser.dataType.MAXTEMP, timestamp, self.__toFloat(entry.get("t2m_max")))
# km/h -> m/s
self.addValue(
RMParser.dataType.WIND, timestamp, 0.27777777777778 * self.__toFloat(entry.get("ws_avg"))
)
# cm -> mm
self.addValue(RMParser.dataType.RAIN, timestamp, 10 * self.__toFloat(entry.get("rain_sum")))
self.addValue(RMParser.dataType.DEWPOINT, timestamp, self.__toFloat(entry.get("dp_avg")))
self.addValue(RMParser.dataType.RH, timestamp, self.__toFloat(entry.get("rh_avg")))
if self.parserDebug:
log.debug(self.result)
except Exception, e:
log.error("*** Error retrieving hourly data from FAWN")
log.exception(e)
def perform(self):
url = 'https://api.ambientweather.net/v1/devices/' + str(
self.params["macAddress"])
parameterList = [("apiKey", str(self.params["apiKey"])),
("applicationKey",
str(self.params["applicationKey"])), ("limit", "1")]
log.info('Getting data from {0}'.format(str(url)))
data = self.openURL(url, parameterList)
if data is None:
self.lastKnownError = "Error: No data received from server"
log.error(self.lastKnownError)
return
station = json.loads(data.read())
for entry in station:
dateutc = entry["dateutc"] / 1000 # from milliseconds
if 'tempf' in entry:
temp = convertFahrenheitToCelsius(entry["tempf"])
self.addValue(RMParser.dataType.TEMPERATURE, dateutc, temp,
False)
if 'humidity' in entry:
self.addValue(RMParser.dataType.RH, dateutc, entry["humidity"],
False)
if 'windspeedmph' in entry:
windspeed = entry["windspeedmph"] * 0.44704 # to meters/sec
self.addValue(RMParser.dataType.WIND, dateutc, windspeed,
False)
if 'solarradiation' in entry:
solarrad = convertRadiationFromWattsToMegaJoules(
entry["solarradiation"])
self.addValue(RMParser.dataType.SOLARRADIATION, dateutc,
solarrad, False)
if 'dailyrainin' in entry:
rain = convertInchesToMM(entry["dailyrainin"])
self.addValue(RMParser.dataType.RAIN, dateutc, rain, False)
if 'baromrelin' in entry:
pressure = entry["baromrelin"] * 3.38639 # to kPa
self.addValue(RMParser.dataType.PRESSURE, dateutc, pressure,
False)
if 'dewPoint' in entry:
dewpoint = convertFahrenheitToCelsius(entry["dewPoint"])
self.addValue(RMParser.dataType.DEWPOINT, dateutc, dewpoint,
False)
return True
def addRecord(self, zid, timestamp, day, startWaterLevel):
if (self.database.isOpen()):
try:
self.database.execute("INSERT OR REPLACE INTO %s(zid, timestamp, day, startWaterLevel) "\
"VALUES(?, ?, ?, ?)" % self._tableName,
(zid, timestamp, day, startWaterLevel))
self.database.commit()
return True
except Exception, e:
log.error(e)
def performWithDataFeeds(self, station):
s = self.settings
URLHourly = "http://fawn.ifas.ufl.edu/controller.php/lastHour/summary/json"
URLDaily = "http://fawn.ifas.ufl.edu/controller.php/lastDay/summary/json"
URLParams = []
useHourly = self.params.get("useHourly", False)
#-----------------------------------------------------------------------------------------------
#
# Get hourly data.
#
if useHourly:
try:
log.info("Retrieving data from: %s" % URLHourly)
d = self.openURL(URLHourly, URLParams)
if d is None:
return
json_data = d.read()
json_data = json_data.replace("'","\"")
hourly = json.loads(json_data)
for entry in hourly:
# only selected station
if int(entry.get("StationID")) == station:
dateString = entry.get("startTime")
#timestamp = rmTimestampFromDateAsStringWithOffset(dateString)
timestamp = rmTimestampFromDateAsString(dateString[:-6], '%Y-%m-%dT%H:%M:%S')
if timestamp is None:
log.debug("Cannot convert hourly data startTime: %s to unix timestamp" % dateString)
continue
# Add 12h in the future for FAWN timestamp to fix badly reported offset and make it middle of the day UTC (Dragos)
timestamp += 12 * 60 *60
self.addValue(RMParser.dataType.TEMPERATURE, timestamp, self.__toFloat(entry.get("t2m_avg")))
self.addValue(RMParser.dataType.MINTEMP, timestamp, self.__toFloat(entry.get("t2m_min")))
self.addValue(RMParser.dataType.MAXTEMP, timestamp, self.__toFloat(entry.get("t2m_max")))
# km/h -> m/s
self.addValue(RMParser.dataType.WIND, timestamp, 0.27777777777778 * self.__toFloat(entry.get("ws_avg")))
# cm -> mm
self.addValue(RMParser.dataType.RAIN, timestamp, 10 * self.__toFloat(entry.get("rain_sum")))
self.addValue(RMParser.dataType.DEWPOINT, timestamp, self.__toFloat(entry.get("dp_avg")))
self.addValue(RMParser.dataType.RH, timestamp, self.__toFloat(entry.get("rh_avg")))
if self.parserDebug:
log.debug(self.result)
except Exception, e:
self.lastKnownError = "Error retrieving hourly data."
log.error(self.lastKnownError)
log.exception(e)
def perform(self):
s = self.settings
URL = "https://api.met.no/weatherapi/locationforecastlts/1.3/"
URLParams = [("lat", s.location.latitude),
("lon", s.location.longitude),
("msl", int(round(s.location.elevation)))]
#-----------------------------------------------------------------------------------------------
#
# Get hourly data.
#
d = self.openURL(URL, URLParams)
if d is None:
return
tree = e.parse(d)
#tree = e.parse("/tmp/MET.NO/forecast.xml")
if tree.getroot().tag == 'error':
log.error("*** No hourly information found in response!")
self.lastKnownError = "Error: No hourly information found"
tree.getroot().clear()
del tree
tree = None
else:
data = self.__parseXMLData(tree)
# Free memory
tree.getroot().clear()
del tree
tree = None
temp = self.__extractTagData(data, 'temperature')
mintemp = self.__extractTagData(data, 'minTemperature')
maxtemp = self.__extractTagData(data, 'maxTemperature')
dewpoint = self.__extractTagData(data, 'dewpointTemperature')
wind = self.__extractTagData(data, 'windSpeed')
humidity = self.__extractTagData(data, 'humidity')
pressure = self.__extractTagData(data, 'pressure')
qpf = self.__extractTagData(data, 'precipitation')
condition = self.__extractTagData(data, 'symbol')
self.addValues(RMParser.dataType.TEMPERATURE, temp)
self.addValues(RMParser.dataType.MINTEMP, mintemp)
self.addValues(RMParser.dataType.MAXTEMP, maxtemp)
self.addValues(RMParser.dataType.DEWPOINT, dewpoint)
self.addValues(RMParser.dataType.WIND, wind)
self.addValues(RMParser.dataType.RH, humidity)
self.addValues(RMParser.dataType.QPF, qpf)
self.addValues(RMParser.dataType.PRESSURE, pressure)
self.addValues(RMParser.dataType.CONDITION, condition)
def installParser(self, tempFilePath, fileName):
filePath = os.path.abspath(
os.path.join(os.path.dirname(os.path.abspath(__file__)), "parsers",
fileName))
shutil.move(tempFilePath, filePath)
try:
module = imp.load_source(fileName, filePath)
log.info(" * Parser %s successful loaded from file '%s'" %
(fileName, filePath))
parser = RMParser.parsers[-1] # Last added parser
enabled = parser.isEnabledForLocation(globalSettings.location.timezone, \
globalSettings.location.latitude, \
globalSettings.location.longitude
)
parserConfig, isNew = self.parserTable.addParser(
fileName, parser.parserName, enabled, parser.params)
if not isNew:
params = self.parserTable.getParserParams(parserConfig.dbID)
if params:
parser.params = params
RMParser.parsers.pop()
#delete old entry
pkeys = self.parsers.keys()
for pkey in pkeys:
if parserConfig.dbID is pkey.dbID:
del self.parsers[pkey]
self.parsers[parserConfig] = parser
parserConfig.userDataTypes = self.userDataTypeTable.addRecords(
parser.userDataTypes)
self.parserUserDataTypeTable.addRecords(parserConfig.dbID,
parserConfig.userDataTypes)
log.debug(parserConfig)
return True
except Exception as e:
try:
if os.path.exists(filePath):
os.remove(filePath)
except Exception, e:
log.exception(e)
log.error(" * Error installing/loading parser %s from file '%s'" %
(fileName, filePath))
log.exception(e)
def __getSimpleForecast(self):
try:
tuple = datetime.datetime.fromtimestamp(int(
time.time())).timetuple()
dayTimestamp = int(
datetime.datetime(tuple.tm_year, tuple.tm_mon,
tuple.tm_mday).strftime("%s"))
maxDayTimestamp = dayTimestamp + globalSettings.parserDataSizeInDays * 86400
simpleForecast = self.jsonResponse["forecast"]["simpleforecast"][
"forecastday"]
timestamp = []
temperatureMax = []
temperatureMin = []
wind = []
humidity = []
qpf = []
condition = []
for dayF in simpleForecast:
tt = self.__toInt(dayF["date"]["epoch"])
tt = rmGetStartOfDay(tt)
if tt > maxDayTimestamp:
break
timestamp.append(self.__toInt(tt))
temperatureMax.append(self.__toFloat(dayF["high"]["celsius"]))
temperatureMin.append(self.__toFloat(dayF["low"]["celsius"]))
windValue = self.__toFloat(dayF["avewind"]["kph"])
if windValue is not None:
wind.append(windValue /
3.6) # convertred from kmetersph to meterps
humidity.append(self.__toFloat(dayF["avehumidity"]))
qpf.append(self.__toFloat(dayF["qpf_allday"]["mm"]))
condition.append(self.conditionConvert(dayF["conditions"]))
temperatureMax = zip(timestamp, temperatureMax)
temperatureMin = zip(timestamp, temperatureMin)
wind = zip(timestamp, wind)
humidity = zip(timestamp, humidity)
qpf = zip(timestamp, qpf)
condition = zip(timestamp, condition)
self.addValues(RMParser.dataType.RH, humidity)
self.addValues(RMParser.dataType.MAXTEMP, temperatureMax)
self.addValues(RMParser.dataType.MINTEMP, temperatureMin)
self.addValues(RMParser.dataType.QPF, qpf)
self.addValues(RMParser.dataType.WIND, wind)
self.addValues(RMParser.dataType.CONDITION, condition)
except:
log.error("Failed to get simple forecast")
def __getForecastHourly(self, jsonData):
try:
#forecast hourly
tuple = datetime.datetime.fromtimestamp(int(
time.time())).timetuple()
dayTimestamp = int(
datetime.datetime(tuple.tm_year, tuple.tm_mon,
tuple.tm_mday).strftime("%s"))
maxDayTimestamp = dayTimestamp + globalSettings.parserDataSizeInDays * 86400
forecastArrray = jsonData["hourly_forecast"]
timestampF = []
temperatureF = []
depointF = []
windF = []
humidityF = []
qpf = []
conditionF = []
for hourF in forecastArrray:
tt = self.__toInt(hourF["FCTTIME"]["epoch"])
if tt > maxDayTimestamp:
break
timestampF.append(self.__toInt(tt))
temperatureF.append(self.__toFloat(hourF["temp"]["metric"]))
depointF.append(self.__toFloat(hourF["dewpoint"]["metric"]))
wind = self.__toFloat(hourF["wspd"]["metric"])
if wind is not None:
windF.append(wind /
3.6) # convertred from kmetersph to meterps
humidityF.append(self.__toFloat(hourF["humidity"]))
qpf.append(self.__toFloat(hourF["qpf"]["metric"]))
conditionF.append(self.conditionConvert(hourF["condition"]))
temperatureF = zip(timestampF, temperatureF)
depointF = zip(timestampF, depointF)
windF = zip(timestampF, windF)
humidityF = zip(timestampF, humidityF)
qpf = zip(timestampF, qpf)
conditionF = zip(timestampF, conditionF)
self.addValues(RMParser.dataType.RH, humidityF)
self.addValues(RMParser.dataType.TEMPERATURE, temperatureF)
self.addValues(RMParser.dataType.QPF, qpf)
self.addValues(RMParser.dataType.DEWPOINT, depointF)
self.addValues(RMParser.dataType.WIND, windF)
self.addValues(RMParser.dataType.CONDITION, conditionF)
except:
log.error("Failed to get hourly forecast!")
self.lastKnownError = "Error: Failed to get forecast"
def _randRange(self, min, max, step):
factor = 100.0
min = int(min * factor)
max = int(max * factor)
step = int(step * factor)
try:
if min == max:
return min / factor
if step == 0:
return random.randrange(min, max) / factor
return random.randrange(min, max, step) / factor
except Exception, e:
log.error(e)
def doExecuteCommand(self, command):
log.debug(command.name)
try:
if command.args is None and command.kwargs is None:
command.result = command.command()
elif command.kwargs is None:
command.result = command.command(*command.args)
elif command.args is None:
command.result = command.command(**command.kwargs)
else:
command.result = command.command(*command.args, **command.kwargs)
except Exception, e:
log.error(command.name)
log.error(e)
def addRecord(self, zid, timestamp, day, startWaterLevel):
if self.database.isOpen():
try:
self.database.execute(
"INSERT OR REPLACE INTO %s(zid, timestamp, day, startWaterLevel) "
"VALUES(?, ?, ?, ?)" % self._tableName,
(zid, timestamp, day, startWaterLevel),
)
self.database.commit()
return True
except Exception, e:
log.error(e)
def _randRange(self, min, max, step):
factor = 100.0
min = int(min * factor)
max = int(max * factor)
step = int(step * factor)
try:
if min == max:
return min / factor
if step == 0:
return random.randrange(min, max) / factor
return random.randrange(min, max, step) / factor
except Exception, e:
log.error(e)
def rmNTPFetch(server = "pool.ntp.org", withRequestDrift = False):
import struct
from socket import socket, AF_INET, SOCK_DGRAM
requestPacket = '\x1b' + 47 * '\0'
startTime = time.time()
try:
sock = socket(AF_INET, SOCK_DGRAM)
sock.settimeout(5)
except Exception, e:
log.error("NTPFetch: Can't create socket")
return None
def perform(self):
s = self.settings
# Direct Forecast.io
#URL = "https://api.forecast.io/forecast/d1deb05ce0bf3858054236e0171077e5/" + \
# `s.location.latitude` + "," + `s.location.longitude`
appKey = self.params.get("appKey", None)
if appKey is None:
return
if self.params["useProxy"]:
# RainMachine Forecast.io proxy
URL = s.doyDownloadUrl + "/api/forecast_io/forecast/" + appKey + "/" + \
str(s.location.latitude) + "," + str(s.location.longitude)
else:
URL = "https://api.forecast.io/forecast/" + appKey + "/" + \
str(s.location.latitude) + "," + str(s.location.longitude)
URLParams = \
[
("units", "si"),
("exclude", "currently,minutely,alerts,flags"),
("extend", "hourly")
]
try:
d = self.openURL(URL, URLParams)
if d is None:
return
forecast = json.loads(d.read())
dayTimestamp = rmCurrentDayTimestamp()
maxDayTimestamp = dayTimestamp + globalSettings.parserDataSizeInDays * 86400
hourly = []
daily = []
try:
hourly = forecast["hourly"]["data"]
except Exception, e:
log.error("*** No hourly information found in response!")
log.exception(e)
try:
daily = forecast["daily"]["data"]
except Exception, e:
log.error("*** No daily information found in response!")
log.exception(e)
def __refreshWatchDog(self):
timestamp = rmCurrentTimestamp()
if self.__lastWatchdogTimestamp is None or (timestamp - self.__lastWatchdogTimestamp) >= self.__watchDogTimeout:
if self.__watchDogDescriptor is None:
try:
self.__watchDogDescriptor = open(self.__watchDogFile, 'w')
log.info("Opened system watchdog file %s with timeout %d" % (self.__watchDogFile, self.__watchDogTimeout))
except Exception, e:
log.error(e)
try:
self.__watchDogDescriptor.write(`timestamp`)
self.__watchDogDescriptor.flush()
log.debug("PING Hardware Watchdog")
except Exception, e:
log.error(e)
def __buildUrl(self):
apiKey = self.params.get("apiKey", None)
station = self.params.get("stationName", None)
if apiKey is None or not apiKey or not isinstance(apiKey, str):
log.error("No API Key provided")
self.lastKnownError = "Error: No API Key provided"
return None
if station is None:
log.error("No station name provided")
self.lastKnownError = "Error: No station name provided"
return None
URL = "http://api.wunderground.com/api/" + str(apiKey) + "/conditions/q/pws:" + str(station) + ".json"
return URL
def sanitize(self, key, value):
interval = self.limits.get(key, None)
if interval is None:
log.info("%s key not found in our limits definitions" % key)
return value
min = interval["min"]
max = interval["max"]
if min is not None and value < min:
log.error("%s value %s less than limits minimum of %s" % (key, value, interval["min"]))
return None
if max is not None and value > max:
log.error("%s value %s more than limits maximum of %s" % (key, value, interval["max"]))
return None
return value
def __diagWifi(self):
try:
with open("/proc/net/wireless") as f:
for line in f:
fields = line.strip().split()
#log.debug(fields)
if not fields[0].endswith(":"):
continue
log.debug("Wireless interface %s up" % fields[0])
self.__hasWifi = True
return
except:
log.error("Cannot find /proc entry for wireless diag")
self.__hasWifi= False
def installParser(self, tempFilePath, fileName):
filePath = os.path.abspath(os.path.join(os.path.dirname(os.path.abspath(__file__)), "parsers", fileName))
shutil.move(tempFilePath, filePath)
try:
module = imp.load_source(fileName, filePath)
log.info(" * Parser %s successful loaded from file '%s'" % (fileName, filePath))
parser = RMParser.parsers[-1] # Last added parser
enabled = parser.isEnabledForLocation(globalSettings.location.timezone, \
globalSettings.location.latitude, \
globalSettings.location.longitude
)
parserConfig, isNew = self.parserTable.addParser(fileName, parser.parserName, enabled, parser.params)
if not isNew:
params = self.parserTable.getParserParams(parserConfig.dbID)
if params:
parser.params = params
RMParser.parsers.pop()
#delete old entry
pkeys = self.parsers.keys()
for pkey in pkeys:
if parserConfig.dbID is pkey.dbID:
del self.parsers[pkey]
self.parsers[parserConfig] = parser
parserConfig.userDataTypes = self.userDataTypeTable.addRecords(parser.userDataTypes)
self.parserUserDataTypeTable.addRecords(parserConfig.dbID, parserConfig.userDataTypes)
log.debug(parserConfig)
return True
except Exception as e:
try:
if os.path.exists(filePath):
os.remove(filePath)
except Exception, e:
log.exception(e)
log.error(" * Error installing/loading parser %s from file '%s'" % (fileName, filePath))
log.exception(e)
def perform(self):
s = self.settings
URL = "http://api.met.no/weatherapi/locationforecastlts/1.2/"
URLParams = [("lat", s.location.latitude),
("lon", s.location.longitude),
("msl", int(round(s.location.elevation)))]
#-----------------------------------------------------------------------------------------------
#
# Get hourly data.
#
d = self.openURL(URL, URLParams)
if d is None:
return
tree = e.parse(d)
if tree.getroot().tag == 'error':
log.error("*** No hourly information found in response!")
self.lastKnownError = "Error: No hourly information found"
tree.getroot().clear()
del tree
tree = None
else:
temp = self.__parseWeatherTag(tree, 'temperature')
dewpoint = self.__parseWeatherTag(tree, 'dewpointTemperature')
wind = self.__parseWeatherTag(tree, 'windSpeed')
humidity = self.__parseWeatherTag(tree, 'humidity')
pressure = self.__parseWeatherTag(tree, 'pressure', 'float')
qpf = self.__parseWeatherTag(tree, 'precipitation')
condition = self.__parseWeatherTag(tree, 'symbol')
tree.getroot().clear()
del tree
tree = None
self.addValues(RMParser.dataType.TEMPERATURE, temp)
self.addValues(RMParser.dataType.DEWPOINT, dewpoint)
self.addValues(RMParser.dataType.WIND, wind)
self.addValues(RMParser.dataType.RH, humidity)
self.addValues(RMParser.dataType.QPF, qpf)
self.addValues(RMParser.dataType.PRESSURE, pressure)
self.addValues(RMParser.dataType.CONDITION, condition)
def __refreshWIFI(self):
timestamp = rmCurrentTimestamp()
lastWIFICheckTimestamp = globalWIFI.wifiInterface.lastWIFICheckTimestamp
oldIP = globalWIFI.wifiInterface.ipAddress
if lastWIFICheckTimestamp is None or oldIP is None or (timestamp - lastWIFICheckTimestamp) >= self.__wifiRefreshTimeout:
try:
globalWIFI.detect()
if oldIP != globalWIFI.wifiInterface.ipAddress:
log.info("Refreshed WIFI Information. (old: %s new ip: %s)" % (`oldIP`, `globalWIFI.wifiInterface.ipAddress`))
if RMOSPlatform().AUTODETECTED == RMOSPlatform.ANDROID:
return
# Handle None IP
if globalWIFI.wifiInterface.ipAddress is None:
if self.__lastNoneIpTimestamp is None or (timestamp - self.__lastNoneIpTimestamp) < self.__wifiNoneIpTimeout:
# First occurrence of None IP OR we can wait some more time.
if self.__lastNoneIpTimestamp is None:
self.__lastNoneIpTimestamp = timestamp
log.debug("Refreshed WIFI Information - no IP detected. Give it some more time: %d seconds!" % (self.__wifiNoneIpTimeout - (timestamp - self.__lastNoneIpTimestamp), ))
return
else:
globalWIFI.restart()
log.warn("Refreshed WIFI Information - WIFI quick reloaded because no IP detected. New IP is %s" % `globalWIFI.wifiInterface.ipAddress`)
self.__lastNoneIpTimestamp = None # Reset None IP timestamp.
# Check if we never connected to this AP, set back AP mode and restart app
if globalWIFI.wifiInterface.mode == "managed" and not globalWIFI.hasConnectedOnce():
if globalWIFI.wifiInterface.hasClientLink:
globalWIFI.saveHasConnectedOnce(True)
else:
log.warning("WIFI Watcher Client IP (%s) configuration failed, restarting in AP mode." % oldIP)
globalWIFI.setDefaultAP()
globalWIFI.saveHasConnectedOnce(False)
globalWIFI.restart()
self.__mainManager.touchWakeMessage()
except Exception, e:
log.error(e)
def newHourlyRestriction(self, dayMinuteStart, minuteDuration, dayList=None): # dayList all 1 - Daily
if dayList is None:
dayList = [1] * 7
if len(dayList) < 7:
log.error("Invalid day list received")
return False
r = RMUserSettingsHourlyRestriction()
r.dayStartMinute = dayMinuteStart
r.minuteDuration = minuteDuration
r.onWeekDays = [d for d in dayList]
# Save the restriction
result = self.__hourlyRestrictionsTable.saveRestriction(r)
self.hourlyRestrictions[r.uid] = r
return r
def run(self):
restartApp = False
while self.__running:
#if RMOSPlatform().AUTODETECTED != RMOSPlatform.SIMULATED:
# self.__refreshWatchDog()
if not self.__pause and self.__lock.acquire(False):
try:
if self.__checkFactoryReset():
break
if not self.__checkThreads():
restartApp = True
break
except Exception, e:
log.error(e)
finally:
self.__lock.release()
def perform(self):
days = self.params["historicDays"]
intervals = days / self.maxAllowedDays + (days % self.maxAllowedDays != 0)
lastIntervalStartDay = datetime.date.today()
if intervals > 1:
days = self.maxAllowedDays
log.debug("Days: %d Intervals: %d" % (days, intervals))
for i in range(0, intervals):
startDay = lastIntervalStartDay - datetime.timedelta(days=1) #CIMIS real data starts from yesterday
endDay = startDay - datetime.timedelta(days=(days + 1))
lastIntervalStartDay = endDay
try:
log.debug("Running CIMIS for startDay: %s endDay: %s" % (startDay, endDay))
self.__retrieveData(endDay, startDay) # we call with startDay/endDay swapped because CIMIS expects historic intervals
except Exception, e:
log.error("*** Error running cimis parser")
log.exception(e)
def doHandleMessages(self, limit = None):
if not limit is None:
messageCount = 0
while True:
try:
command = self.messageQueue.get(True, self.waitTimeout)
if command.name == "shutdown":
return False
else:
self.doExecuteCommand(command)
if not limit is None:
messageCount += 1
if limit <= messageCount:
break
except Empty, e:
break
except Exception, e:
log.error(e)
def getPercentage(self):
usage = 0
try:
startUsage = self.get()
time.sleep(1)
finalUsage = self.get()
try:
prevActive = startUsage['active']
prevIdle = startUsage['idle']
active = finalUsage['active']
idle = finalUsage['idle']
deltaActive = active - prevActive
deltaIdle = idle - prevIdle
usage = (float(deltaActive) / (deltaActive + deltaIdle)) * 100
except ZeroDivisionError:
pass
except Exception, e:
log.error("Cannot read cpu stats from %s because %s" % (self.statpath, str(e)))
def getAll(self, programDict, programClass, programZonesClass):
if self.database.isOpen():
cursor = self.database.execute("SELECT * FROM %s ORDER BY uid ASC" % self._tableNamePrograms)
for row in cursor:
program = programClass(row["uid"])
program.name = row["name"]
program.type = row["type"]
program.param = row["param"]
program.active = row["active"]
program.start_time = row["start_time"]
program.start_date = row["start_date"]
program.updated = row["updated"]
program.cs_cycles = row["cs_cycles"]
program.cs_min = row["cs_min"]
program.delay = row["delay"]
program.ignoreInternetWeather = row["ignoreInternetWeather"]
program.futureField1 = row["futureField1"]
program.freq_modified = row["freq_modified"]
program.cs_on = row["cs_on"]
program.delay_on = row["delay_on"]
program.useWaterSense = row["useWaterSense"]
programDict[row["uid"]] = program
cursor = self.database.execute("SELECT * FROM %s ORDER BY pid ASC" % self._tableNameProgZones)
for row in cursor:
program = programDict.get(row["pid"])
if program is None:
log.error("Missing Program entry for pid %s" % row["pid"])
continue
zid = row["zid"]
if zid is None:
log.error("No zid defined")
continue
program.zoneLines[zid] = programZonesClass(zid)
program.zoneLines[zid].duration = row["duration"]
program.zoneLines[zid].active = row["active"]
return True
return False
def perform(self):
timeNow = rmNowDateTime()
timeNow = rmNowDateTime().fromordinal(timeNow.toordinal()-1)
yyyy = timeNow.year
mm = timeNow.month
dd = timeNow.day
log.debug("Wunderground parser - perform")
self.params["_nearbyStationsIDList"] = []
self.params["_airportStationsIDList"] = []
apiKey = self.params.get("apiKey", None)
if(apiKey is None or not apiKey or not isinstance(apiKey, str)):
#TODO: implement xml WUnderground parser
log.error("No API Key provided")
self.lastKnownError = "Error: No API Key provided"
return
self.apiURL = "http://api.wunderground.com/api/" + str(apiKey) + "/geolookup/conditions/hourly10day/history_" + str(yyyy) + str(mm).zfill(2) + str(dd).zfill(2) +"/q/"
if (self.params.get("useCustomStation")):
stationName = self.params.get("customStationName")
if(stationName is None or not stationName or not isinstance(stationName, str)):
log.error("Station ID cannot be empty")
self.lastKnownError = "Error: Station ID cannot be empty"
return
log.debug("getting data from specified station")
if len(stationName) > 4:
self.apiURL += "pws:" + stationName + ".json" #url for pws
else:
self.apiURL += stationName + ".json" #url for pws
else:
s = self.settings
llat = s.location.latitude
llon = s.location.longitude
self.apiURL += str(llat) + "," + str(llon) + ".json"
# self.params["useCustomStation"] = False
log.debug(self.apiURL)
d = self.openURL(self.apiURL)
jsonContent = d.read()
if jsonContent is None:
log.error("Failed to get WUnderground JSON contents")
self.lastKnownError = "Error: Bad response"
return
self.jsonResponse = json.loads(jsonContent)
#populate nearby stations
log.debug("Wunderground parser - get nearby stations")
self.getNearbyStations(self.jsonResponse)
log.debug("Wunderground parser - get data")
self.getStationData(self.jsonResponse)
return
