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MyTouchClient.py
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MyTouchClient.py
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import socket
import time
import argparse
import json
#import enum
# Define some fixed types strings
# Rather than loading enum libraru
class Mode:
HEATING = 1
EVAP = 2
COOLING = 3
RC = 4
NONE = 5
currentMode = Mode.NONE
# Top level mode
# Operating mode
modeCoolCmd = 'N000001{"SYST": {"OSS": {"MD": "C" } } }'
modeEvapCmd = 'N000001{"SYST": {"OSS": {"MD": "E" } } }'
modeHeatCmd = 'N000001{"SYST": {"OSS": {"MD": "H" } } }'
# Heating Commands
#heatCmd = 'N000001{"HGOM": {"OOP": {"ST": "{}" } } }' # N = On, F = Off
heatOnCmd = 'N000001{"HGOM": {"OOP": {"ST": "N" } } }'
heatOffCmd = 'N000001{"HGOM": {"OOP": {"ST": "F" } } }'
heatSetTemp = 'N000001{{"HGOM": {{"GSO": {{"SP": "{temp}" }} }} }}'
heatCircFanOn = 'N000001{"HGOM": {"OOP": {"ST": "Z" } } }'
#heatZone = 'N000001{"HGOM": {"Z{zone}O": {"UE": "{}" } } }' # Y = On, N = Off
heatZoneOn = 'N000001{{"HGOM": {{"Z{zone}O": {{"UE": "Y" }} }} }}'
heatZoneOff = 'N000001{{"HGOM": {{"Z{zone}O": {{"UE": "N" }} }} }}'
heatZoneA = 'N000001{"HGOM": {"ZAO": {"UE": "{}" } } }' # Y = On, N = Off
heatZoneB = 'N000001{"HGOM": {"ZBO": {"UE": "{}" } } }'
heatZoneC = 'N000001{"HGOM": {"ZCO": {"UE": "{}" } } }'
heatZoneD = 'N000001{"HGOM": {"ZDO": {"UE": "{}" } } }'
# Cooling Commands
#coolCmd = 'N000001{"CGOM": {"OOP": {"ST": "{}" } } }' # N = On, F = Off
coolOnCmd = 'N000001{"CGOM": {"OOP": {"ST": "N" } } }'
coolOffCmd = 'N000001{"CGOM": {"OOP": {"ST": "F" } } }'
coolSetTemp = 'N000001{{"CGOM": {{"GSO": {{"SP": "{temp}" }} }} }}'
coolCircFanOn = 'N000001{"CGOM": {"GSO": {"FS": "M" } } }'
#coolZone = 'N000001{"HGOM": {"Z{zone}O": {"UE": "{}" } } }' # Y = On, N = Off
coolZoneOn = 'N000001{{"CGOM": {{"Z{zone}O": {{"UE": "Y" }} }} }}'
coolZoneOff = 'N000001{{"CGOM": {{"Z{zone}O": {{"UE": "N" }} }} }}'
coolZoneA = 'N000001{"CGOM": {"ZAO": {"UE": "{}" } } }' # Y = On, N = Off
coolZoneB = 'N000001{"CGOM": {"ZBO": {"UE": "{}" } } }'
coolZoneC = 'N000001{"CGOM": {"ZCO": {"UE": "{}" } } }'
coolZoneD = 'N000001{"CGOM": {"ZDO": {"UE": "{}" } } }'
# Evap Cooling commands
#evapCmd = 'N000001{"ECOM": {"GSO": {"SW": "{}" } } }' # N = On, F = Off
evapOnCmd = 'N000001{"ECOM": {"GSO": {"SW": "N" } } }'
evapOffCmd = 'N000001{"ECOM": {"GSO": {"SW": "F" } } }'
#evapPumpCmd = 'N000001{"ECOM": {"GSO": {"PS": "{}" } } }' # N = On, F = Off
evapPumpOn = 'N000001{"ECOM": {"GSO": {"PS": "N" } } }'
evapPumpOff = 'N000001{"ECOM": {"GSO": {"PS": "F" } } }'
#evapFanCmd = 'N000014{"ECOM": {"GSO": {"FS": "{}" } } }' # N = On, F = Off
evapFanOn = 'N000014{"ECOM": {"GSO": {"FS": "N" } } }'
evapFanOff = 'N000014{"ECOM": {"GSO": {"FS": "F" } } }'
evapFanSpeed = 'N000001{{"ECOM": {{"GSO": {{"FL": "{speed}" }} }} }}' # 1 - 16
# Command line parsing
parser = argparse.ArgumentParser()
parser.add_argument("hostIP", help='Rinnai Touch Host IP address')
# Must be one of these
parser.add_argument("--mode",choices=['heat','evap','cool','rc','status'], help='What function are we acting on')
parser.add_argument("--action",choices=['on','off'], help='What are we doing to the mode')
parser.add_argument("--heatTemp",type=int,choices=range(20,30))
parser.add_argument("--heatZone",choices=['A','B','C','D'], help='Which Zone?')
parser.add_argument("--zoneAction",choices=['on','off'], help='What are we doing to the zone')
parser.add_argument("--heatFan",choices=['on','off'], help='Turn the Heater circulation fan on/off')
parser.add_argument("--coolTemp",type=int,choices=range(8,30))
parser.add_argument("--coolZone",choices=['A','B','C','D'], help='Which Zone?')
parser.add_argument("--coolFan",choices=['on','off'], help='Turn the Cooling circulation fan on/off')
parser.add_argument("--evapFanSpeed",type=int,choices=range(1,16))
parser.add_argument("--evapPump",choices=['on','off'], help='Turn the Evap pump on/off')
parser.add_argument("--evapFan",choices=['on','off'], help='Turn the Evap fan on/off')
args = parser.parse_args()
debugOn = True
def debugPrint(text):
if (debugOn):
print(text)
debugPrint(args)
# Touch Box IP address
port = 27847
touchIP = args.hostIP
# create an ipv4 (AF_INET) socket object using the tcp protocol (SOCK_STREAM)
client = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
# connect the client
debugPrint("Connecting ...")
client.connect((touchIP, port))
def SendToTouch(client,cmd):
"""Send the command and return the response."""
debugPrint("DEBUG: {}".format(cmd))
response = "NA"
client.send(cmd.encode())
# Let that sink in
time.sleep(0.5)
response = client.recv(4096)
return response
def HandleHeat(args,client,currentMode):
# Make sure we are in heater mode
if currentMode != Mode.HEATING:
resp = SendToTouch(client,modeHeatCmd)
debugPrint(resp)
# Give it a chance if there are further commands
time.sleep(0.5)
if args.action is not None:
if args.action == "on":
resp = SendToTouch(client,heatOnCmd)
debugPrint(resp)
else:
# Assume it is off cmd then
# Assume we are in heater mode, otherwise no need to turn it Off
resp = SendToTouch(client,heatOffCmd)
debugPrint(resp)
return
if args.heatTemp is not None:
# Assume on already
resp = SendToTouch(client,heatSetTemp.format(temp=args.heatTemp))
debugPrint(resp)
if args.heatZone is not None:
if args.zoneAction == "on":
# Assume on already
resp = SendToTouch(client,heatZoneOn.format(zone=args.heatZone))
debugPrint(resp)
elif args.zoneAction == "off":
resp = SendToTouch(client,heatZoneOff.format(zone=args.heatZone))
debugPrint(resp)
return
def HandleCool(args,client,currentMode):
# Make sure we are in cooling mode
if currentMode != Mode.COOLING:
resp = SendToTouch(client,modeCoolCmd)
debugPrint(resp)
# Give it a chance if there are further commands
time.sleep(0.5)
if args.action is not None:
if args.action == "on":
resp = SendToTouch(client,coolOnCmd)
debugPrint(resp)
else:
# Assume it is off cmd then
# Assume we are in cooling mode, otherwise no need to turn it Off
resp = SendToTouch(client,coolOffCmd)
debugPrint(resp)
return
if args.coolTemp is not None:
time.sleep(2)
# Assume on already
resp = SendToTouch(client,coolSetTemp.format(temp=args.coolTemp))
debugPrint(resp)
if args.coolZone is not None:
time.sleep(2)
if args.zoneAction == "on":
# Assume on already
resp = SendToTouch(client,coolZoneOn.format(zone=args.coolZone))
debugPrint(resp)
elif args.zoneAction == "off":
resp = SendToTouch(client,coolZoneOff.format(zone=args.coolZone))
debugPrint(resp)
return
def HandleEvap(args,client,currentMode):
# Make sure we are in evap mode
if currentMode != Mode.EVAP:
resp = SendToTouch(client,modeEvapCmd)
debugPrint(resp)
# Give it a chance
time.sleep(0.5)
if args.action is not None:
if args.action == "on":
resp = SendToTouch(client,evapOnCmd)
debugPrint(resp)
else:
# Assume it is off cmd then
# Assume we are in heater mode, otherwise no need to turn it Off
resp = SendToTouch(client,evapOffCmd)
debugPrint(resp)
return
if args.evapFanSpeed is not None:
resp = SendToTouch(client,evapFanSpeed.format(speed=args.evapFanSpeed))
debugPrint(resp)
if args.evapFan is not None:
if args.evapFan == "on":
resp = SendToTouch(client,evapFanOn)
debugPrint(resp)
else:
# Assume off cmd then
resp = SendToTouch(client,evapFanOff)
debugPrint(resp)
def HandleMode(args,client):
"""Process setting mode and its state."""
# Get the current status first
currentMode = HandleStatus(args,client)
if args.mode == "heat":
HandleHeat(args,client, currentMode)
elif args.mode =="evap":
HandleEvap(args,client,currentMode)
elif args.mode =="cool":
HandleEvap(args,client,currentMode)
elif args.mode =="status":
# Get the current status
HandleStatus(args,client)
else:
debugPrint("Not implemented yet")
def HandleStatus(args,client):
# Make sure enough time passed to get a status message
time.sleep(1)
status = client.recv(4096)
debugPrint(status)
jStr = status[14:]
debugPrint(jStr)
j = json.loads(jStr)
debugPrint(json.dumps(j, indent = 4))
if 'HGOM' in j[1]:
currentMode = Mode.HEATING
debugPrint("We are in HEATING mode")
# debugPrint(j[1]['HGOM'])
elif 'ECOM' in j[1]:
currentMode = Mode.EVAP
debugPrint("We are in EVAP mode")
elif 'CGOM' in j[1]:
currentMode = Mode.COOLING
debugPrint("We are in COOLING mode")
else:
debugPrint("Unknown mode")
return currentMode
if args.mode is not None:
if args.mode == "status":
currentMode = HandleStatus(args,client)
else:
HandleMode(args,client)
else:
exit()
client.close()