Hi,
ich hab heute das Plugin für meine Helios EC300 PRO fertiggestellt. Die Anbindung erfolgt über das USB-RS485 Interface EXSYS EX-1303. Ein ursprünglich gekauftes USB-RS485 Interface von Digitus hat leider nicht funktioniert.
Folgende Funktionen werden unterstützt:
Die Werte werden zyklisch von der Lüftungsanlage abgefragt.
Das Plugin ist so geschrieben, dass es auch als "normales" Kommandozeilentool verwendet werden kann, benötigt dazu aber das Python-Modul argparse (sollte bei Bedarf über "apt-get install python-argparse" nachinstallierbar sein).
/plugins/helios/__init__.py
items.conf
plugin.conf
Ich freue mich auf Feedback und viel Spass damit,
Marcel
ich hab heute das Plugin für meine Helios EC300 PRO fertiggestellt. Die Anbindung erfolgt über das USB-RS485 Interface EXSYS EX-1303. Ein ursprünglich gekauftes USB-RS485 Interface von Digitus hat leider nicht funktioniert.
Folgende Funktionen werden unterstützt:
- Lesen der Außentemperatur
- Lesen der Fortlufttemperatur
- Lesen der Zulufttemperatur
- Lesen der Ablufttemperatur
- Ein/Ausschalten der Lüftungsanlage
- Umschalten zwischen Sommer/Winterbetrieb (Bypass Ein/Aus)
- Lesen/Schreiben der Lüfterstufe (Werte 1 - 8)
- Lesen/Schreiben der Bypasstemperatur
- Lesen/Schreiben der maximalen Lüfterstufe
- Lesen/Schreiben der minimalen Lüfterstufe.
Die Werte werden zyklisch von der Lüftungsanlage abgefragt.
Das Plugin ist so geschrieben, dass es auch als "normales" Kommandozeilentool verwendet werden kann, benötigt dazu aber das Python-Modul argparse (sollte bei Bedarf über "apt-get install python-argparse" nachinstallierbar sein).
/plugins/helios/__init__.py
Code:
#!/usr/bin/env python
# vim: set encoding=utf-8 tabstop=4 softtabstop=4 shiftwidth=4 expandtab
#########################################################################
# Copyright 2012-2013 KNX-User-Forum e.V. https://knx-user-forum.de/
#########################################################################
# This file is part of SmartHome.py. http://smarthome.sourceforge.net/
#
# SmartHome.py is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# SmartHome.py is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with SmartHome.py. If not, see <http://www.gnu.org/licenses/>.
#########################################################################
import sys
import serial
import logging
import socket
import threading
import struct
import time
import datetime
import array
logger = logging.getLogger("")
# Some "Constants"
CONST_BUSMEMBER_MAINBOARD = 0x11
CONST_BUSMEMBER_SLAVEBOARDS = 0x10
CONST_BUSMEMBER_CONTROLBOARDS = 0x20
CONST_BUSMEMBER_ME = 0x2F #used as sender when communicating with the helios system
CONST_MAP_VARIABLES_TO_ID = {
"outside_temp" : {"varid" : 0x32, 'type': 'temperature', 'bitposition': -1, 'read': True, 'write': False },
"exhaust_temp" : {"varid" : 0x33, 'type': 'temperature', 'bitposition': -1, 'read': True, 'write': False },
"inside_temp" : {"varid" : 0x34, 'type': 'temperature', 'bitposition': -1, 'read': True, 'write': False },
"incoming_temp" : {"varid" : 0x35, 'type': 'temperature', 'bitposition': -1, 'read': True, 'write': False },
"bypass_temp" : {"varid" : 0xAF, 'type': 'temperature', 'bitposition': -1, 'read': True, 'write': True },
"fanspeed" : {"varid" : 0x29, 'type': 'fanspeed', 'bitposition': -1, 'read': True, 'write': True },
"max_fanspeed" : {"varid" : 0xA5, 'type': 'fanspeed', 'bitposition': -1, 'read': True, 'write': True },
"min_fanspeed" : {"varid" : 0xA9, 'type': 'fanspeed', 'bitposition': -1, 'read': True, 'write': True },
"power_state" : {"varid" : 0xA3, 'type': 'bit', 'bitposition': 0, 'read': True, 'write': True },
"bypass_disabled" : {"varid" : 0xA3, 'type': 'bit', 'bitposition': 3, 'read': True, 'write': True }
}
CONST_TEMPERATURE = array.array('i', [
-74,-70,-66,-62,-59,-56,-54,-52,-50,-48,-47,-46,-44,-43,-42,-41,-40,-39,-38,-37,-36,
-35,-34,-33,-33,-32,-31,-30,-30,-29,-28,-28,-27,-27,-26,-25,-25,-24,-24,-23,-23,-22,
-22,-21,-21,-20,-20,-19,-19,-19,-18,-18,-17,-17,-16,-16,-16,-15,-15,-14,-14,-14,-13,
-13,-12,-12,-12,-11,-11,-11,-10,-10,-9,-9,-9,-8,-8,-8,-7,-7,-7,-6,-6,-6,-5,-5,-5,-4,
-4,-4,-3,-3,-3,-2,-2,-2,-1,-1,-1,-1,0,0,0,1,1,1,2,2,2,3,3,3,4,4,4,5,5,5,5,6,6,6,7,7,
7,8,8,8,9,9,9,10,10,10,11,11,11,12,12,12,13,13,13,14,14,14,15,15,15,16,16,16,17,17,
18,18,18,19,19,19,20,20,21,21,21,22,22,22,23,23,24,24,24,25,25,26,26,27,27,27,28,28,
29,29,30,30,31,31,32,32,33,33,34,34,35,35,36,36,37,37,38,38,39,40,40,41,41,42,43,43,
44,45,45,46,47,48,48,49,50,51,52,53,53,54,55,56,57,59,60,61,62,63,65,66,68,69,71,73,
75,77,79,81,82,86,90,93,97,100,100,100,100,100,100,100,100,100])
class HeliosException(Exception):
pass
class HeliosBase():
def __init__(self, tty='/dev/ttyUSB0'):
self._tty = tty
self._is_connected = False
self._port = False
self._lock = threading.Lock()
def connect(self):
if self._is_connected and self._port:
return True
try:
logger.debug("Helios: Connecting...")
self._port = serial.Serial(
self._tty,
baudrate=9600,
bytesize=serial.EIGHTBITS,
parity=serial.PARITY_NONE,
stopbits=serial.STOPBITS_ONE,
timeout=1)
self._is_connected = True
return True
except:
logger.error("Helios: Could not open %s." % self._tty)
return False
def disconnect(self):
if self._is_connected and self._port:
logger.debug("HeliosBase: Disconnecting...")
self._port.close()
self._is_connected = False
def _createTelegram(self, sender, receiver, function, value):
telegram = [1,sender,receiver,function,value,0]
telegram[5] = self._calculateCRC(telegram)
return telegram
def _waitForSilence(self):
# Modbus RTU only allows one master (client which controls communication).
# So lets try to wait a bit and jump in when nobody's speaking.
# Modbus defines a waittime of 3,5 Characters between telegrams:
# (1/9600baud * (1 Start bit + 8 Data bits + 1 Parity bit + 1 Stop bit)
# => about 4ms
# Lets go with 7ms! ;O)
gotSlot = False
backupTimeout = self._port.timeout
end = time.time() + 3
self._port.timeout = 0.07
while end > time.time():
chars = self._port.read(1)
# nothing received so we got a slot of silence...hopefully
if len(chars) == 0:
gotSlot = True
break
self._port.timeout = backupTimeout
return gotSlot
def _sendTelegram(self, telegram):
if not self._is_connected:
return False
self._lock.acquire()
try:
logger.debug("Helios: Sending telegram '{0}'".format(self._telegramToString(telegram)))
self._port.write(bytearray(telegram))
except Exception, e:
logger.warning("Helios: Problem sending data to ventilation system: {0}".format(e))
return False
finally:
self._lock.release()
return True
def _readTelegram(self, sender, receiver, datapoint):
# sometimes a lot of garbage is received...so lets get a bit robust
# and read a bit of this junk and see whether we are getting something
# useful out of it!
# How long does it take until something useful is received???
timeout = time.time() + 1
telegram = [0,0,0,0,0,0]
while self._is_connected and timeout > time.time():
char = self._port.read(1)
if(len(char) > 0):
byte = bytearray(char)[0]
telegram.pop(0)
telegram.append(byte)
# Telegrams always start with a 0x01, is the CRC valid?, ...
if (telegram[0] == 0x01 and
telegram[1] == sender and
telegram[2] == receiver and
telegram[3] == datapoint and
telegram[5] == self._calculateCRC(telegram)):
logger.debug("Telegram received '{0}'".format(self._telegramToString(telegram)))
return telegram[4]
return None
def _calculateCRC(self, telegram):
sum = 0
for c in telegram[:-1]:
sum = sum + c
return sum % 256
def _telegramToString(self, telegram):
str = ""
for c in telegram:
str = str + hex(c) + " "
return str
def _convertFromRawValue(self, varname, rawvalue):
value = None
vardef = CONST_MAP_VARIABLES_TO_ID[varname]
if vardef["type"] == "temperature":
value = CONST_TEMPERATURE[rawvalue]
elif vardef["type"] == "fanspeed":
if rawvalue == 0x01:
value = 1
elif rawvalue == 0x03:
value = 2
elif rawvalue == 0x07:
value = 3
elif rawvalue == 0x0F:
value = 4
elif rawvalue == 0x1F:
value = 5
elif rawvalue == 0x3F:
value = 6
elif rawvalue == 0x7F:
rawvalue = 7
elif rawvalue == 0xFF:
value = 8
else:
value = None
elif vardef["type"] == "bit":
value = rawvalue >> vardef["bitposition"] & 0x01
return value
def _convertFromValue(self, varname, value, prevvalue):
rawvalue = None
vardef = CONST_MAP_VARIABLES_TO_ID[varname]
if vardef['type'] == "temperature":
rawvalue = CONST_TEMPERATURE.index(int(value))
elif vardef["type"] == "fanspeed":
value = int(value)
if value == 1:
rawvalue = 0x01
elif value == 2:
rawvalue = 0x03
elif value == 3:
rawvalue = 0x07
elif value == 4:
rawvalue = 0x0F
elif value == 5:
rawvalue = 0x1F
elif value == 6:
rawvalue = 0x3F
elif value == 7:
rawvalue = 0x7F
elif value == 8:
rawvalue = 0xFF
else:
rawvalue = None
elif vardef["type"] == "bit":
# for bits we have to keep the other bits of the byte (previous value)
if value in (True,1,"true","True","1","On","on"):
rawvalue = prevvalue | (1 << vardef["bitposition"])
else:
rawvalue = prevvalue & ~(1 << vardef["bitposition"])
return rawvalue
def writeValue(self,varname, value):
if CONST_MAP_VARIABLES_TO_ID[varname]["write"] != True:
logger.error("Helios: Variable {0} may not be written!".format(varname))
return False
success = False
# if we have got to write a single bit, we need the current (byte) value to
# reproduce the other bits...
if CONST_MAP_VARIABLES_TO_ID[varname]["type"] == "bit":
currentval = None
if self._waitForSilence():
# Send poll request
telegram = self._createTelegram(
CONST_BUSMEMBER_ME,
CONST_BUSMEMBER_MAINBOARD,
0,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"]
)
self._sendTelegram(telegram)
# Read response
currentval = self._readTelegram(
CONST_BUSMEMBER_MAINBOARD,
CONST_BUSMEMBER_ME,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"]
)
if currentval == None:
logger.error("Helios: Sending value to ventilation system failed. Can not read current variable value '{0}'."
.format(varname))
return False
rawvalue = self._convertFromValue(varname, value, currentval)
else:
rawvalue = self._convertFromValue(varname, value, None)
# send the new value
if self._waitForSilence():
if rawvalue != None:
# Writing value to Control boards
telegram = self._createTelegram(
CONST_BUSMEMBER_ME,
CONST_BUSMEMBER_CONTROLBOARDS,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"],
rawvalue
)
self._sendTelegram(telegram)
# Writing value to Slave boards
telegram = self._createTelegram(
CONST_BUSMEMBER_ME,
CONST_BUSMEMBER_SLAVEBOARDS,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"],
rawvalue
)
self._sendTelegram(telegram)
# Writing value to Mainboard
telegram = self._createTelegram(
CONST_BUSMEMBER_ME,
CONST_BUSMEMBER_MAINBOARD,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"],
rawvalue
)
self._sendTelegram(telegram)
# send special char
self._sendTelegram([telegram[5]])
success = True
else:
logger.error("Helios: Sending value to ventilation system failed. Can not convert value '{0}' for variable '{1}'."
.format(value,varname))
success = False
else:
logger.error("Helios: Sending value to ventilation system failed. No free slot for sending telegrams available.")
success = False
return success
def readValue(self,varname):
if CONST_MAP_VARIABLES_TO_ID[varname]["read"] != True:
logger.error("Variable {0} may not be read!".format(varname))
return False
value = None
logger.debug("Helios: Reading value: {0}".format(varname))
if self._waitForSilence():
# Send poll request
telegram = self._createTelegram(
CONST_BUSMEMBER_ME,
CONST_BUSMEMBER_MAINBOARD,
0,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"]
)
self._sendTelegram(telegram)
# Read response
value = self._readTelegram(
CONST_BUSMEMBER_MAINBOARD,
CONST_BUSMEMBER_ME,
CONST_MAP_VARIABLES_TO_ID[varname]["varid"]
)
if value is not None:
logger.debug("Helios: Value received (raw data): {0} = {1}"
.format(varname,hex(value))
)
value = self._convertFromRawValue(varname,value)
logger.debug("Helios: Value received (converted): {0} = {1}"
.format(varname,value)
)
else:
logger.error("Helios: No valid value for '{0}' from ventilation system received."
.format(varname)
)
else:
logger.warn("Helios: Reading value from ventilation system failed. No free slot to send poll request available.")
return value
class Helios(HeliosBase):
_items = {}
def __init__(self, smarthome, tty, cycle=300):
HeliosBase.__init__(self, tty)
self._sh = smarthome
self._cycle = int(cycle)
self._alive = False
def run(self):
self.connect()
self._alive = True
self._sh.scheduler.add('Helios', self._update, cycle=self._cycle)
def stop(self):
self.disconnect()
self._alive = False
def parse_item(self, item):
if 'helios_var' in item.conf:
varname = item.conf['helios_var']
if varname in CONST_MAP_VARIABLES_TO_ID.keys():
self._items[varname] = item
return self.update_item
else:
logger.warn("Helios: Ignoring unknown variable '{0}'".format(varname))
def update_item(self, item, caller=None, source=None, dest=None):
if caller != 'Helios':
self.writeValue(item.conf['helios_var'], item())
def _update(self):
for var in self._items.keys():
val = self.readValue(var)
if val != None:
self._items[var](val,"Helios")
def main():
import argparse
parser = argparse.ArgumentParser(
description="Helios ventilation system commandline interface.",
epilog="Without arguments all readable values using default tty will be retrieved.",
argument_default=argparse.SUPPRESS)
parser.add_argument("-t", "--tty", dest="port", default="/dev/ttyUSB0", help="Serial device to use")
parser.add_argument("-r", "--read", dest="read_var", help="Read variables from ventilation system")
parser.add_argument("-w", "--write", dest="write_var", help="Write variable to ventilation system")
parser.add_argument("-v", "--value", dest="value", help="Value to write (required with option -v)")
parser.add_argument("-d", "--debug", dest="enable_debug", action="store_true", help="Prints debug statements.")
args = vars(parser.parse_args())
if "write_var" in args.keys() and "value" not in args.keys():
parser.print_usage()
return
logger.setLevel(logging.DEBUG)
ch = logging.StreamHandler()
if "enable_debug" in args.keys():
ch.setLevel(logging.DEBUG)
else:
ch.setLevel(logging.INFO)
formatter = logging.Formatter("%(asctime)s - %(name)s - %(levelname)s - %(message)s")
ch.setFormatter(formatter)
logger.addHandler(ch)
try:
helios = HeliosBase(args["port"])
helios.connect()
if not helios._is_connected:
raise Exception("Not connected")
if "read_var" in args.keys():
print "{0} = {1}".format(args["read_var"],helios.readValue(args["read_var"]))
elif "write_var" in args.keys():
helios.writeValue(args["write_var"],args["value"])
else:
for var in CONST_MAP_VARIABLES_TO_ID.keys():
print "{0} = {1}".format(var,helios.readValue(var))
except Exception, e:
print "Exception: {0}".format(e)
return 1
finally:
if helios:
helios.disconnect()
if __name__ == "__main__":
sys.exit(main())
Code:
[ventilation]
[[power_state]]
type = num
helios_var = power_state
visu=yes
[[bypass_disabled]]
type = num
helios_var = bypass_disabled
visu=yes
[[outside_temp]]
type = num
helios_var = outside_temp
visu=yes
[[incoming_temp]]
type = num
helios_var = incoming_temp
visu=yes
[[inside_temp]]
type = num
helios_var = inside_temp
visu=yes
[[exhaust_temp]]
type = num
helios_var = exhaust_temp
visu=yes
[[fanspeed]]
type = num
helios_var = fanspeed
visu=yes
[[bypass_temp]]
type = num
helios_var = bypass_temp
visu=yes
[[max_fanspeed]]
type = num
helios_var = max_fanspeed
visu=yes
[[min_fanspeed]]
type = num
helios_var = min_fanspeed
visu=yes
Code:
[helios]
class_name = Helios
class_path = plugins.helios
tty = /dev/ttyUSB0
cycle = 60 # default 300 seconds
Marcel
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