def test_message_callback_extended():
"""Test message callback extended."""
callbacks = MessageCallback()
callbacktest = "test callback"
address = '1a2b3c'
target = '4d5e6f'
template_ext_on = ExtendedReceive.template(
commandtuple=COMMAND_LIGHT_ON_0X11_NONE,
userdata=Userdata({'d1': 0x02}))
callbacks.add(template_ext_on, callbacktest)
msg1 = ExtendedReceive(address,
target,
COMMAND_LIGHT_ON_0X11_NONE,
Userdata({'d1': 0x02}),
cmd2=0xff)
msg2 = ExtendedReceive(address,
target,
COMMAND_LIGHT_ON_0X11_NONE,
Userdata({
'd1': 0x03,
'd2': 0x02
}),
cmd2=0xff)
callback1 = callbacks.get_callbacks_from_message(msg1)
callback2 = callbacks.get_callbacks_from_message(msg2)
assert callback1[0] == callbacktest
assert not callback2
def _register_messages(self):
mode_status_msg = StandardReceive.template(
commandtuple=COMMAND_THERMOSTAT_MODE_STATUS_0X70_NONE,
address=self._address,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE, None),
)
mode_change_fan_on_ack = StandardReceive.template(
commandtuple=COMMAND_THERMOSTAT_CONTROL_ON_FAN_0X6B_0X07,
address=self._address,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE_ACK),
)
mode_change_fan_auto_ack = StandardReceive.template(
commandtuple=COMMAND_THERMOSTAT_CONTROL_OFF_FAN_0X6B_0X08,
address=self._address,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE_ACK),
)
mode_change_off_ack = StandardReceive.template(
commandtuple=COMMAND_THERMOSTAT_CONTROL_OFF_ALL_0X6B_0X09,
address=self._address,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE_ACK),
)
ext_status_recd = ExtendedReceive.template(
commandtuple=COMMAND_EXTENDED_GET_SET_0X2E_0X00,
cmd2=0x02,
userdata=Userdata.template({"d1": 0x01}),
)
self._message_callbacks.add(mode_status_msg, self._status_received)
self._message_callbacks.add(mode_change_fan_on_ack,
self._mode_change_ack)
self._message_callbacks.add(mode_change_fan_auto_ack,
self._mode_change_ack)
self._message_callbacks.add(mode_change_off_ack, self._mode_change_ack)
self._message_callbacks.add(ext_status_recd, self._ext_status_received)
def test_extendedReceive():
"""Test ExtendedReceive."""
address = bytearray([0x11, 0x22, 0x33])
target = bytearray([0x44, 0x55, 0x66])
flags = 0x77
cmd1 = 0x88
cmd2 = 0x99
userdata = {}
userdatatest = bytearray()
for i in range(1, 15):
key = 'd' + str(i)
userdata.update({key: 0xe0})
userdatatest.append(0xe0)
msg = ExtendedReceive(address,
target, {
'cmd1': cmd1,
'cmd2': cmd2
},
userdata,
flags=flags)
assert msg.hex == hexmsg(0x02, 0x51, Address(address), Address(target),
flags, cmd1, cmd2, userdatatest)
assert len(msg.hex) / 2 == msg.sendSize
assert len(msg.hex) / 2 == msg.receivedSize
def _register_messages(self):
ext_msg_aldb_record = ExtendedReceive.template(
address=self._address,
commandtuple=COMMAND_EXTENDED_READ_WRITE_ALDB_0X2F_0X00,
userdata=Userdata.template({'d2': 1}),
flags=MessageFlags.template(
messageType=MESSAGE_TYPE_DIRECT_MESSAGE, extended=1))
std_msg_pre_nak = StandardReceive.template(flags=MessageFlags.template(
messageType=MESSAGE_FLAG_DIRECT_MESSAGE_NAK_0XA0),
cmd2=0xfc)
ext_msg_pre_nak = ExtendedReceive.template(flags=MessageFlags.template(
messageType=MESSAGE_FLAG_DIRECT_MESSAGE_NAK_0XA0),
cmd2=0xfc)
self._message_callbacks.add(ext_msg_aldb_record,
self._handle_aldb_record_received)
self._message_callbacks.add(std_msg_pre_nak, self._handle_pre_nak)
self._message_callbacks.add(ext_msg_pre_nak, self._handle_pre_nak)
def _register_messages(self):
temp_msg = StandardReceive.template(
commandtuple=COMMAND_THERMOSTAT_TEMPERATURE_STATUS_0X6E_NONE,
address=self._address,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE, None))
self._message_callbacks.add(temp_msg, self._temp_received)
ext_status_recd = ExtendedReceive.template(
commandtuple=COMMAND_EXTENDED_GET_SET_0X2E_0X00,
cmd2=0x02,
userdata=Userdata.template({"d1": 0x01}))
self._message_callbacks.add(ext_status_recd, self._ext_status_received)
def _register_messages(self):
cool_set_point_status = StandardReceive.template(
address=self._address,
commandtuple=COMMAND_THERMOSTAT_COOL_SET_POINT_STATUS_0X71_NONE,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE, False))
self._message_callbacks.add(cool_set_point_status,
self._status_message_received)
ext_status_recd = ExtendedReceive.template(
commandtuple=COMMAND_EXTENDED_GET_SET_0X2E_0X00,
cmd2=0x02,
userdata=Userdata.template({"d1": 0x01}))
self._message_callbacks.add(ext_status_recd, self._ext_status_received)
def _register_messages(self):
super()._register_messages()
template_status_recd = ExtendedReceive.template(
address=self._address,
commandtuple=COMMAND_EXTENDED_GET_SET_0X2E_0X00,
# flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE,
# True),
userdata={
'd1': self._group,
'd2': 0x01
})
self._message_callbacks.add(template_status_recd,
self._status_extended_message_received)
def _register_messages(self):
_LOGGER.debug('Starting HeatSetPoint register_messages')
heat_set_point_status = StandardReceive.template(
address=self._address,
commandtuple=COMMAND_THERMOSTAT_HEAT_SET_POINT_STATUS_0X72_NONE,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE, False))
self._message_callbacks.add(heat_set_point_status,
self._status_message_received)
ext_status_recd = ExtendedReceive.template(
commandtuple=COMMAND_EXTENDED_GET_SET_0X2E_0X00,
cmd2=0x02,
flags=MessageFlags.template(MESSAGE_TYPE_DIRECT_MESSAGE, True),
userdata=Userdata.template({"d1": 0x01}))
_LOGGER.debug('Reg Ext Status: %s', ext_status_recd)
self._message_callbacks.add(ext_status_recd, self._ext_status_received)
async def run_test(loop):
mockPLM = MockPLM(loop)
linkcode = 0x01
group = 0x00
address = '112233'
cat = 0x02
subcat = 0x39
firmware = 0x44
# Create OutletLinc
device = insteonplm.devices.create(mockPLM, address, cat, subcat,
firmware)
# Start the process with an All-Link complete message with
# the IM as a controller of Group 0x00
msg = AllLinkComplete(linkcode, group, address, cat, subcat, firmware)
device.receive_message(msg)
await asyncio.sleep(.1, loop=loop)
# The device should start linking based on the groups in
# self.states
assert mockPLM.sentmessage == StandardSend(
device.address, COMMAND_ENTER_LINKING_MODE_0X09_NONE,
cmd2=0x01).hex
msg = StandardSend(device.address,
COMMAND_ENTER_LINKING_MODE_0X09_NONE,
cmd2=0x01,
acknak=MESSAGE_ACK)
device.receive_message(msg)
await asyncio.sleep(.1, loop=loop)
# Confirm that the link attempt to group 0x01 completed
msg = AllLinkComplete(0x00, 0x01, address, cat, subcat, firmware)
device.receive_message(msg)
await asyncio.sleep(.1, loop=loop)
# The device should then start linking to group 0x02
assert mockPLM.sentmessage == StandardSend(
device.address, COMMAND_ENTER_LINKING_MODE_0X09_NONE,
cmd2=0x02).hex
await asyncio.sleep(1, loop=loop)
# Confirm that the link attempt to group 0x02 completed
msg = AllLinkComplete(0x00, 0x01, address, cat, subcat, firmware)
device.receive_message(msg)
await asyncio.sleep(.1, loop=loop)
# The device will now attempt to read the ALDB
msg = ExtendedSend(address,
COMMAND_EXTENDED_READ_WRITE_ALDB_0X2F_0X00,
userdata=Userdata())
msg.set_checksum()
assert mockPLM.sentmessage == msg.hex
# Send a dummy ALDB record as a high water mark to end the process
msg = ExtendedReceive(
address,
'111111',
commandtuple=COMMAND_EXTENDED_READ_WRITE_ALDB_0X2F_0X00,
userdata=Userdata({
'd1': 0,
'd2': 0x01,
'd3': 0xff,
'd4': 0x77,
'd5': 0,
'd6': 0,
'd7': 0,
'd8': 0,
'd9': 0,
'd10': 0,
'd11': 0,
'd12': 0,
'd13': 0,
'd14': 0x3b
}))
device.receive_message(msg)
await asyncio.sleep(1, loop=loop)
