def download_archive_interval(self):
logdbg('downloading archive interval')
data = self.get_data("http://weatherlink.com/webdl.php"
"?timestamp=0&user=%s&pass=%s&action=headers" %
(self.username, self.password))
if data is None:
raise weewx.WeeWxIOError("download of archive interval failed")
for line in data.splitlines():
if line.find('ArchiveInt=') >= 0:
logdbg('found archive interval: %s' % line)
return int(line[11:])
raise weewx.WeeWxIOError("cannot determine archive interval from %s" %
data)
def get_data(url):
try:
request = Request(url)
request.add_header('User-Agent', 'WeeWX/%s' % weewx.__version__)
response = urlopen(request, timeout=4)
except URLError as e:
logerr("get_data(): Unable to open weather station %s or %s" % (url, e))
raise weewx.WeeWxIOError("get_data(): Socket error or timeout for weather station %s or %s" % (url, e))
except (socket.error, socket.timeout) as e:
logerr("get_data(): Socket error or timeout for weather station %s or %s" % (url, e))
raise weewx.WeeWxIOError("get_data(): Socket error or timeout for weather station %s or %s" % (url, e))
if response.getcode() != 200:
raise weewx.WeeWxIOError("get_data(): Bad response code returned: %d." % response.code)
content_length = int(response.info().get('Content-Length'))
return response.read(content_length).decode('utf-8')
def get_data(url):
try:
response = six.moves.urllib.request.urlopen(url)
return response.read()
except (socket.error, socket.timeout, six.moves.urllib.error.HTTPError,
six.moves.urllib.error.URLError) as e:
raise weewx.WeeWxIOError("get data failed: %s" % e)
def genLoopPackets(self):
ntries = 0
while ntries < self.max_tries:
ntries += 1
try:
# Poll on poll_interval boundaries.
if self.poll_interval != 0:
time.sleep(self.time_to_next_poll())
data = IP100Station.get_data(self.station_url)
log.debug("data: %s" % data)
pkt = IP100Station.parse_data(data)
log.debug("raw packet: %s" % pkt)
ntries = 0
packet = {'dateTime': int(time.time() + 0.5)}
if pkt['base_units'] == 'English':
packet['usUnits'] = weewx.US
else:
packet['usUnits'] = weewx.METRICWX
for k in self.sensor_map:
if self.sensor_map[k] in pkt:
packet[k] = pkt[self.sensor_map[k]]
if 'day_rain_total' in packet:
packet['rain'] = self._rain_total_to_delta(
packet['day_rain_total'], self.previous_rain_total)
self.previous_rain_total = packet['day_rain_total']
else:
log.debug("no rain in packet: %s" % packet)
log.debug("packet: %s" % packet)
yield packet
except weewx.WeeWxIOError as e:
log.info("failed attempt %s of %s: %s" %
(ntries, self.max_tries, e))
time.sleep(self.retry_wait)
else:
raise weewx.WeeWxIOError("max tries %s exceeded" % self.max_tries)
def _get_with_retries(self):
for n in range(self.max_tries):
try:
return self.sensor.get_data()
except (IOError, ValueError, TypeError) as e:
loginf("failed attempt %s of %s: %s" %
(n + 1, self.max_tries, e))
time.sleep(self.retry_wait)
else:
raise weewx.WeeWxIOError("%s: max tries %s exceeded" %
(method, self.max_tries))
def __init__(self, **stn_dict):
loginf('driver version is %s' % DRIVER_VERSION)
self.model = stn_dict.get('model', 'MS-120')
loginf("model is %s" % self.model)
port = stn_dict.get('port', Tracer.DEFAULT_PORT)
loginf("port is %s" % port)
baud_rate = int(stn_dict.get('baud_rate', Tracer.DEFAULT_BAUD_RATE))
timeout = int(stn_dict.get('timeout', Tracer.DEFAULT_TIMEOUT))
self.poll_interval = int(stn_dict.get('poll_interval', 10))
loginf("poll interval is %s" % self.poll_interval)
self.sensor_map = dict(TracerDriver.DEFAULT_MAP)
if 'sensor_map' in stn_dict:
self.sensor_map.update(stn_dict['sensor_map'])
loginf("sensor map: %s" % self.sensor_map)
self.max_tries = int(stn_dict.get('max_tries', 3))
self.retry_wait = int(stn_dict.get('retry_wait', 5))
self.station = Tracer(port, baud_rate, timeout)
if not self.station.connect():
raise weewx.WeeWxIOError("cannot connect to device")
loginf('device info: %s' % self.station.get_info())
def parse_data(data):
"""Parse the XML data which is a flat non-hierarchical record and return
a two-level dictionary hierarchy where each key is the field group and
associated with that, a dictionary with the fields and values associated
with that group."""
import re
pkt_grp = dict()
# If closing tag is truncated or has excess junk like null bytes,
# fix before parsing.
if data.startswith('<oriondata') and not data.endswith('</oriondata>'):
data = re.sub('</ori(ondata)?.*$','</oriondata>', data)
logerr("parse_data(): attempted to correct truncated data: %s" % data[-19:-1])
try:
elements = ElementTree.fromstring(data)
if elements.tag == 'oriondata' and elements[0].tag == 'meas':
for child in elements:
name = child.attrib['name']
# Ensure the correct tag and attribute is one to be recorded
if child.tag == 'meas' and name in ColumbiaMicroServerStation.XML_INPUT_ELEMENTS:
# Get the associated packet group for this field
pkt_type = ColumbiaMicroServerStation.XML_INPUT_ELEMENTS[name]
# Initialize a new dictionary for a packet group
if not pkt_type in pkt_grp:
pkt_grp[pkt_type] = dict()
# If the field is in the list to use for the unit type,
# save the unit type as the field 'base_units'.
if name in ColumbiaMicroServerStation.XML_INPUT_UNIT_ELEMENTS:
# If the packet type is 'generic' then it's a unit type that's
# neither US or metric such as degrees for wind direction.
if pkt_type == 'generic':
pkt_grp[pkt_type]['base_units'] = 'generic'
else:
pkt_grp[pkt_type]['base_units'] = child.attrib['unit']
# Store the field and value in the dictionary for the associated packet type.
pkt_grp[pkt_type][name] = float(child.text)
else:
raise ElementTree.ParseError("invalid XML file. Missing <oriondata> and/or <meas/> tags detected.")
except ElementTree.ParseError as e:
logerr("ElementTree ParseError: %s for data: %s" % (e, data))
raise weewx.WeeWxIOError(e)
return pkt_grp
def genLoopPackets(self):
while True:
try:
buf = self.station.read()
if buf:
pkt = Station.decode(buf)
if buf[0] in [0xd3, 0xd4, 0xd5, 0xd6, 0xdb, 0xdc]:
# send ack for most data packets
# FIXME: what is last number in the ACK?
# observed: 0x00 0x20 0xc1 0xc7 0xa0 0x99
cmd = [
0x41, 0x43, 0x4b, buf[0], buf[7],
_lo(self.last_record)
]
self.station.write(cmd)
packet = self.convert_loop(pkt)
self.cached.update(packet)
yield self.cached
if time.time() - self.last_a6 > self.heartbeat:
logdbg("request station status: %s (%02x)" %
(self.last_record, _lo(self.last_record)))
cmd = [0xa6, 0x91, 0xca, 0x45, 0x52, _lo(self.last_record)]
self.station.write(cmd)
self.last_a6 = time.time()
if self.last_7x == 0:
# FIXME: what are the 72/73 messages?
# observed:
# 73 e5 0a 26 0e c1
# 73 e5 0a 26 88 8b
# 72 a9 c1 60 52 00
# cmd = [0x72, 0xa9, 0xc1, 0x60, 0x52, 0x00]
cmd = [0x73, 0xe5, 0x0a, 0x26, 0x88, 0x8b]
# cmd = [0x73, 0xe5, 0x0a, 0x26, 0x0e, 0xc1]
self.station.write(cmd)
self.last_7x = time.time()
except usb.USBError, e:
if not e.args[0].find('No data available'):
raise weewx.WeeWxIOError(e)
except (WrongLength, BadChecksum), e:
loginf(e)
pkt['pm2_5'] = pm2_5
pkt['pm10_0'] = pm10_0
yield pkt
if self.poll_interval:
time.sleep(self.poll_interval)
def _get_with_retries(self):
for n in range(self.max_tries):
try:
return self.sensor.get_data()
except (IOError, ValueError, TypeError), e:
loginf("failed attempt %s of %s: %s" %
(n + 1, self.max_tries, e))
time.sleep(self.retry_wait)
else:
raise weewx.WeeWxIOError("%s: max tries %s exceeded" %
(method, self.max_tries))
def _fmt(x):
return ' '.join(["%0.2X" % ord(c) for c in x])
class SDS011(object):
DEFAULT_PORT = '/dev/ttyUSB0'
DEFAULT_BAUDRATE = 9600
DEFAULT_TIMEOUT = 3.0 # seconds
CMD_MODE = 2
CMD_QUERY_DATA = 4
CMD_DEVICE_ID = 5
CMD_SLEEP = 6
CMD_FIRMWARE = 7
def get_data(url):
try:
response = urllib2.urlopen(url)
return response.read()
except (socket.error, socket.timeout, urllib2.HTTPError), e:
raise weewx.WeeWxIOError("get data failed: %s" % e)
if pkt['base_units'] == 'English':
packet['usUnits'] = weewx.US
else:
packet['usUnits'] = weewx.METRICWX
for k in self.sensor_map:
if self.sensor_map[k] in pkt:
packet[k] = pkt[self.sensor_map[k]]
yield packet
if self.poll_interval:
time.sleep(self.poll_interval)
except weewx.WeeWxIOError, e:
loginf("failed attempt %s of %s: %s" %
(ntries, self.max_tries, e))
time.sleep(self.retry_wait)
else:
raise weewx.WeeWxIOError("max tries %s exceeded" % self.max_tries)
class IP100Station(object):
@staticmethod
def get_data(url):
try:
response = urllib2.urlopen(url)
return response.read()
except (socket.error, socket.timeout, urllib2.HTTPError), e:
raise weewx.WeeWxIOError("get data failed: %s" % e)
@staticmethod
def parse_data(data):
pkt = dict()
try:
def genStartupRecords(self, since_ts):
loginf("reading records since %s" % timestamp_to_string(since_ts))
hbuf = None
last_ts = None
cnt = 0
while True:
try:
buf = self.station.read()
if buf:
if buf[0] == 0xd2:
hbuf = buf
buf = None
elif buf[0] == 0x7f and hbuf is not None:
# FIXME: need better indicator of second half history
buf = hbuf + buf
hbuf = None
if buf and buf[0] == 0xd2:
self.last_record = Station.get_record_index(buf)
ts = Station._extract_ts(buf[4:9])
if ts is not None and ts > since_ts:
keep = True if last_ts is not None else False
pkt = Station.decode(buf)
packet = self.convert_historical(pkt, ts, last_ts)
last_ts = ts
if keep:
logdbg("historical record: %s" % packet)
cnt += 1
yield packet
if buf and buf[0] == 0x57:
idx = Station.get_latest_index(buf)
msg = "count=%s last_index=%s latest_index=%s" % (
cnt, self.last_record, idx)
if self.last_record + 1 >= idx:
loginf("catchup complete: %s" % msg)
break
loginf("catchup in progress: %s" % msg)
if buf and buf[0] == 0x41 and buf[3] == 0x65:
nxtrec = Station.get_next_index(self.last_record)
logdbg("request records starting with %s" % nxtrec)
cmd = [0xcd, 0x18, 0x30, 0x62, _hi(nxtrec), _lo(nxtrec)]
self.station.write(cmd)
if time.time() - self.last_a6 > self.heartbeat:
logdbg("request station status: %s (%02x)" %
(self.last_record, _lo(self.last_record)))
cmd = [0xa6, 0x91, 0xca, 0x45, 0x52, _lo(self.last_record)]
self.station.write(cmd)
self.last_a6 = time.time()
if self.last_7x == 0:
# FIXME: what does 72/73 do?
cmd = [0x73, 0xe5, 0x0a, 0x26, 0x88, 0x8b]
self.station.write(cmd)
self.last_7x = time.time()
if time.time() - self.last_65 > self.history_retry:
logdbg("initiate record request: %s (%02x)" %
(self.last_record, _lo(self.last_record)))
cmd = [0x65, 0x19, 0xe5, 0x04, 0x52, _lo(self.last_record)]
self.station.write(cmd)
self.last_65 = time.time()
except usb.USBError, e:
if not e.args[0].find('No data available'):
raise weewx.WeeWxIOError(e)
except (WrongLength, BadChecksum), e:
loginf(e)
