def on_message(self, message):
gui.console(message)
args = message.split(":")
# Create a new output (pin, name)
if args[0] == "newoutput":
if args[1] in outputs:
self.write_message("error:GPIO already setup on pin " + args[1])
else:
outputs[args[1]] = gpio(args[1], args[2], None, 'out')
cur.execute("""INSERT INTO outputs VALUES (NULL,%s,%s)""",(args[2],args[1]))
con.commit()
for i in clients:
i.write_message("addlight:"+args[1]+":"+args[2])
# Get all outputs that are currently on
elif args[0] == "getoutputson":
total = 0
on = 0
for i in outputs:
if outputs[i].get_state() == 1:
on = on + 1
else:
total = total + 1
self.write_message("lightoverview:"+str(on)+":"+str(total))
# Set the state of an output (pin, state)
elif args[0] == "setoutputstate":
if args[1] in outputs:
res = outputs[args[1]].output(args[2])
if res is True:
self.write_message("ok:")
else:
self.write_message("error:" + str(res))
else:
self.write_message("error:Output does not exist on pin " + args[1])
# Toggle a pin to the opposite state (pin)
elif args[0] == "togglepin":
if args[1] in outputs:
res = outputs[args[1]].toggle()
else:
self.write_message("error:Output does not exist on pin " + args[1])
# Report back the state of pins as if they changed state
elif args[0] == "declarepins":
for i in outputs:
gui.console(str(i)+" "+str(outputs[i].input()))
if outputs[i].input() == 0:
if outputs[i].mcp:
self.write_message("pinchange:mcp"+str(outputs[i].pin)+":on")
else:
self.write_message("pinchange:"+str(outputs[i].pin)+":on")
elif outputs[i].input() == 1:
if outputs[i].mcp:
self.write_message("pinchange:mcp"+str(outputs[i].pin)+":off")
else:
self.write_message("pinchange:"+str(outputs[i].pin)+":off")
# Report back the state of all events as if they changed state
elif args[0] == "declareevents":
for i in events:
if events[i].event_process != None:
self.write_message("eventchange:"+str(events[i].id)+":on")
else:
self.write_message("eventchange:"+str(events[i].id)+":off")
# Toggle the state of an event
elif args[0] == "toggleevent":
args[1] = int(args[1])
if events[args[1]].event_process != None:
events[args[1]].stop_event()
for i in clients:
i.write_message("eventchange:"+str(args[1])+":off")
else:
events[args[1]].start_event()
for i in clients:
i.write_message("eventchange:"+str(args[1])+":on")
# Remove a light from the system
elif args[0] == "deletelight":
cur.execute("""DELETE FROM outputs WHERE pin = %s""",(args[1]))
con.commit()
del outputs[args[1]]
for i in clients:
i.write_message("deletelight:"+args[1])
gui.remove_output(args[1])
# Create a new event (name,
elif args[0] == "newevent":
args[5] = args[5].replace("-", ":")
cur.execute("""INSERT INTO events VALUES (NULL,%s,%s,%s,%s,%s,%s)""",(args[1],args[2], args[3], args[4], args[5], args[6]))
con.commit()
cur.execute("SELECT `id`, `trigger` FROM events WHERE name = '"+args[1]+"'")
eventdat = cur.fetchone()
events[eventdat['id']] = event(eventdat['id'], cur)
# Remove an event from the system
elif args[0] == "deleteevent":
events[int(args[1])].stop_event()
del events[int(args[1])]
cur.execute("""DELETE FROM events WHERE id = '%s'""",(int(args[1])))
con.commit()
for i in clients:
i.write_message("deleteevent:"+args[1])
gui.remove_event(args[1])
# Create a new input (name, pin, type, )
elif args[0] == "newinput":
if args[1] in inputs:
self.write_message("error:Input already exists on pin "+args[2])
else:
cur.execute("""INSERT INTO inputs VALUES (NULL,%s,%s,%s,%s)""",(args[1],args[2],args[3],args[4]))
con.commit()
inputs[args[2]] = gpio(args[2], args[1], args[3], "in")
#events[int(args[2])] = event(0, True, args[2])
# Remove an input from the system
elif args[0] == "deleteinput":
cur.execute("SELECT name FROM events WHERE `trigger` = "+args[1])
if cur.fetchone():
self.write_message("error:Please delete the associated event for this input first!")
else:
cur.execute("""DELETE FROM inputs WHERE pin = %s""",(int(args[1])))
con.commit()
if inputs[int(args[1])].in_type == "temp":
del temp_sensors[inputs[int(args[1])].name]
sensors_index['temp'].remove(inputs[int(args[1])].name)
del sensors.temp[inputs[int(args[1])].name]
elif inputs[int(args[1])].in_type == "light":
del light_sensors[inputs[int(args[1])].name]
sensors_index['light'].remove(inputs[int(args[1])].name)
elif inputs[int(args[1])].in_type == "switch" or inputs[int(args[1])].in_type == "motion":
inputs[int(args[1])].stop_input_idle()
del inputs[int(args[1])]
for i in clients:
i.write_message("deleteinput:"+args[1])
gui.remove_input(args[1])
# Report back the current state of the security system
elif args[0] == "securitystatus":
if security.armed_status:
self.write_message("securitystatus:armed:"+security.mode)
else:
self.write_message("securitystatus:disarmed")
# Arm the security system in mode (mode)
elif args[0] == "armalarm":
thread.start_new_thread(security.arm_system, (args[1],))
for i in clients:
i.write_message("securitystatus:armed:"+args[1])
elif args[0] == "disarmalarm":
security.disarm_system()
for i in clients:
i.write_message("securitystatus:disarmed")
elif args[0] == "addcamera":
security.addcamera(args[1],args[2], args[3], args[4], args[5])
elif args[0] == "removecamera":
security.removecamera(args[1])
elif args[0] == "gettemp":
self.write_message("temperature:"+sensors.get_temperature())
elif args[0] == "gethumid":
self.write_message("humidity:"+sensors.get_humidity())
elif args[0] == "getlightlevel":
self.write_message("lightlevel:"+sensors.get_light_level())
def handle_client(self):
message = self.message
args = message.split(":")
if args[0] == "newoutput":
if globals.blockspi:
if args[1] == "9" or args[1] == "10" or args[1] == "11":
self.send("error:Cannot use these GPIO's while wireless sensors are in use!")
return
if globals.blocki2c:
if args[1] == "2" or args[1] == "3":
self.send("error:Cannot use these GPIO's while I2C GPIO expander is in use!")
return
if args[1] in globals.outputs:
self.send("error:GPIO already setup on pin " + args[1])
else:
globals.outputs[args[1]] = gpio(args[1], args[2], None, 'out')
globals.cur.execute("INSERT INTO outputs VALUES (NULL,'%s','%s')" % (args[2],args[1]))
globals.con.commit()
for i in globals.clients:
self.send("addlight:"+args[1]+":"+args[2])
# Get all outputs that are globals.currently on
elif args[0] == "getoutputson":
total = 0
on = 0
for i in globals.outputs:
if globals.outputs[i].get_state() == 1:
on = on + 1
else:
total = total + 1
self.send("lightoverview:"+str(on)+":"+str(total))
# Set the state of an output (pin, state)
elif args[0] == "setoutputstate":
if args[1] in globals.outputs:
res = globals.outputs[args[1]].output(args[2])
if res is True:
self.send("ok:")
else:
self.send("error:" + str(res))
else:
self.send("error:Output does not exist on pin " + args[1])
# Toggle a pin to the opposite state (pin)
elif args[0] == "togglepin":
if args[1] in globals.outputs:
res = globals.outputs[args[1]].toggle()
else:
self.send("error:Output does not exist on pin " + args[1])
# Report back the state of pins as if they changed state
elif args[0] == "declarepins":
for i in globals.outputs:
gui.console(str(i)+" "+str(globals.outputs[i].input()))
if globals.outputs[i].input() == 0:
if globals.outputs[i].mcp:
self.send("pinchange:mcp"+str(globals.outputs[i].pin)+":off")
else:
self.send("pinchange:"+str(globals.outputs[i].pin)+":off")
elif globals.outputs[i].input() == 1:
if globals.outputs[i].mcp:
self.send("pinchange:mcp"+str(globals.outputs[i].pin)+":on")
else:
self.send("pinchange:"+str(globals.outputs[i].pin)+":on")
# Report back the state of all events as if they changed state
elif args[0] == "declareevents":
for i in globals.events:
if globals.events[i].event_process != None:
self.send("eventchange:"+str(globals.events[i].id)+":on")
else:
self.send("eventchange:"+str(globals.events[i].id)+":off")
# Toggle the state of an event
elif args[0] == "toggleevent":
args[1] = int(args[1])
if globals.events[args[1]].event_process != None:
globals.events[args[1]].stop_event()
for i in globals.clients:
self.send("eventchange:"+str(args[1])+":off")
else:
globals.events[args[1]].start_event()
for i in globals.clients:
self.send("eventchange:"+str(args[1])+":on")
# Remove a light from the system
elif args[0] == "deletelight":
globals.cur.execute("DELETE FROM outputs WHERE pin = '%s'" % (args[1]))
globals.con.commit()
del globals.outputs[args[1]]
for i in globals.clients:
self.send("deletelight:"+args[1])
gui.remove_output(args[1])
# Create a new event (name,
elif args[0] == "newevent":
args[5] = args[5].replace("-", ":")
globals.cur.execute("INSERT INTO events VALUES (NULL,'%s','%s','%s','%s','%s','%s')" % (args[1],args[2], args[3], args[4], args[5], args[6]))
globals.con.commit()
globals.cur.execute("SELECT `id`, `trigger` FROM events WHERE name = '"+args[1]+"'")
eventdat = globals.cur.fetchone()
globals.events[eventdat['id']] = event(eventdat['id'])
# Remove an event from the system
elif args[0] == "deleteevent":
globals.events[int(args[1])].stop_event()
del globals.events[int(args[1])]
globals.cur.execute("DELETE FROM events WHERE id = '%s'" % (int(args[1])))
globals.con.commit()
for i in globals.clients:
self.send("deleteevent:"+args[1])
gui.remove_event(args[1])
# Create a new input (name, pin, type, )
elif args[0] == "newinput":
if globals.blockspi:
if args[1] == "9" or args[1] == "10" or args[1] == "11":
self.send("error:Cannot use these GPIO's while wireless sensors are in use!")
return
if globals.blocki2c:
if args[1] == "2" or args[1] == "3":
self.send("error:Cannot use these GPIO's while I2C GPIO expander is in use!")
return
if args[1] in globals.inputs:
self.send("error:Input already exists on pin "+args[2])
else:
globals.cur.execute('INSERT INTO inputs VALUES (NULL,%s,%s,%s,%s)' % (args[1],args[2],args[3],args[4]))
globals.con.commit()
globals.inputs[args[2]] = gpio(args[2], args[1], args[3], "in")
#events[int(args[2])] = event(0, True, args[2])
# Remove an input from the system
elif args[0] == "deleteinput":
globals.cur.execute("SELECT name FROM events WHERE `trigger` = "+args[1])
if globals.cur.fetchone():
self.send("error:Please delete the associated event for this input first!")
else:
globals.cur.execute("""DELETE FROM inputs WHERE pin = %s""",(int(args[1])))
globals.con.commit()
if globals.inputs[int(args[1])].in_type == "temp":
del globals.temp_sensors[globals.inputs[int(args[1])].name]
globals.sensors_index['temp'].remove(globals.inputs[int(args[1])].name)
del sensors.temp[globals.inputs[int(args[1])].name]
elif globals.inputs[int(args[1])].in_type == "light":
del globals.light_sensors[globals.inputs[int(args[1])].name]
globals.sensors_index['light'].remove(globals.inputs[int(args[1])].name)
elif globals.inputs[int(args[1])].in_type == "switch" or globals.inputs[int(args[1])].in_type == "motion":
globals.inputs[int(args[1])].stop_input_idle()
del globals.inputs[int(args[1])]
for i in globals.clients:
self.send("deleteinput:"+args[1])
gui.remove_input(args[1])
# Report back the current state of the security system
elif args[0] == "securitystatus":
if globals.security.armed_status:
self.send("securitystatus:armed:"+globals.security.mode)
else:
self.send("securitystatus:disarmed")
# Arm the security system in mode (mode)
elif args[0] == "armalarm":
thread.start_new_thread(globals.security.arm_system, (args[1],))
for i in globals.clients:
self.send("securitystatus:armed:"+args[1])
elif args[0] == "disarmalarm":
globals.security.disarm_system()
for i in globals.clients:
self.send("securitystatus:disarmed")
elif args[0] == "addcamera":
globals.security.addcamera(args[1],args[2], args[3], args[4], args[5])
elif args[0] == "removecamera":
globals.security.removecamera(args[1])
elif args[0] == "gettemp":
self.send("temperature:"+globals.sensors.get_temperature())
elif args[0] == "gethumid":
self.send("humidity:"+globals.sensors.get_humidity())
elif args[0] == "getlightlevel":
self.send("lightlevel:"+globals.sensors.get_light_level())
