"""Service calls related dependencies for LCN component."""
import pypck
import voluptuous as vol
from homeassistant.const import (
CONF_ADDRESS,
CONF_BRIGHTNESS,
CONF_HOST,
CONF_STATE,
CONF_UNIT_OF_MEASUREMENT,
)
from homeassistant.core import HomeAssistant, ServiceCall
import homeassistant.helpers.config_validation as cv
from .const import (
CONF_KEYS,
CONF_LED,
CONF_OUTPUT,
CONF_PCK,
CONF_RELVARREF,
CONF_ROW,
CONF_SETPOINT,
CONF_TABLE,
CONF_TEXT,
CONF_TIME,
CONF_TIME_UNIT,
CONF_TRANSITION,
CONF_VALUE,
CONF_VARIABLE,
DOMAIN,
LED_PORTS,
LED_STATUS,
OUTPUT_PORTS,
RELVARREF,
SENDKEYCOMMANDS,
SETPOINTS,
THRESHOLDS,
TIME_UNITS,
VAR_UNITS,
VARIABLES,
)
from .helpers import (
DeviceConnectionType,
get_device_connection,
is_address,
is_states_string,
)
class LcnServiceCall:
"""Parent class for all LCN service calls."""
schema = vol.Schema({vol.Required(CONF_ADDRESS): is_address})
def __init__(self, hass: HomeAssistant) -> None:
"""Initialize service call."""
self.hass = hass
def get_device_connection(self, service: ServiceCall) -> DeviceConnectionType:
"""Get address connection object."""
address, host_name = service.data[CONF_ADDRESS]
for config_entry in self.hass.config_entries.async_entries(DOMAIN):
if config_entry.data[CONF_HOST] == host_name:
device_connection = get_device_connection(
self.hass, address, config_entry
)
if device_connection is None:
raise ValueError("Wrong address.")
return device_connection
raise ValueError("Invalid host name.")
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
raise NotImplementedError
class OutputAbs(LcnServiceCall):
"""Set absolute brightness of output port in percent."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_OUTPUT): vol.All(vol.Upper, vol.In(OUTPUT_PORTS)),
vol.Required(CONF_BRIGHTNESS): vol.All(
vol.Coerce(int), vol.Range(min=0, max=100)
),
vol.Optional(CONF_TRANSITION, default=0): vol.All(
vol.Coerce(float), vol.Range(min=0.0, max=486.0)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
output = pypck.lcn_defs.OutputPort[service.data[CONF_OUTPUT]]
brightness = service.data[CONF_BRIGHTNESS]
transition = pypck.lcn_defs.time_to_ramp_value(
service.data[CONF_TRANSITION] * 1000
)
device_connection = self.get_device_connection(service)
await device_connection.dim_output(output.value, brightness, transition)
class OutputRel(LcnServiceCall):
"""Set relative brightness of output port in percent."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_OUTPUT): vol.All(vol.Upper, vol.In(OUTPUT_PORTS)),
vol.Required(CONF_BRIGHTNESS): vol.All(
vol.Coerce(int), vol.Range(min=-100, max=100)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
output = pypck.lcn_defs.OutputPort[service.data[CONF_OUTPUT]]
brightness = service.data[CONF_BRIGHTNESS]
device_connection = self.get_device_connection(service)
await device_connection.rel_output(output.value, brightness)
class OutputToggle(LcnServiceCall):
"""Toggle output port."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_OUTPUT): vol.All(vol.Upper, vol.In(OUTPUT_PORTS)),
vol.Optional(CONF_TRANSITION, default=0): vol.All(
vol.Coerce(float), vol.Range(min=0.0, max=486.0)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
output = pypck.lcn_defs.OutputPort[service.data[CONF_OUTPUT]]
transition = pypck.lcn_defs.time_to_ramp_value(
service.data[CONF_TRANSITION] * 1000
)
device_connection = self.get_device_connection(service)
await device_connection.toggle_output(output.value, transition)
class Relays(LcnServiceCall):
"""Set the relays status."""
schema = LcnServiceCall.schema.extend({vol.Required(CONF_STATE): is_states_string})
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
states = [
pypck.lcn_defs.RelayStateModifier[state]
for state in service.data[CONF_STATE]
]
device_connection = self.get_device_connection(service)
await device_connection.control_relays(states)
class Led(LcnServiceCall):
"""Set the led state."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_LED): vol.All(vol.Upper, vol.In(LED_PORTS)),
vol.Required(CONF_STATE): vol.All(vol.Upper, vol.In(LED_STATUS)),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
led = pypck.lcn_defs.LedPort[service.data[CONF_LED]]
led_state = pypck.lcn_defs.LedStatus[service.data[CONF_STATE]]
device_connection = self.get_device_connection(service)
await device_connection.control_led(led, led_state)
class VarAbs(LcnServiceCall):
"""Set absolute value of a variable or setpoint.
Variable has to be set as counter!
Regulator setpoints can also be set using R1VARSETPOINT, R2VARSETPOINT.
"""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_VARIABLE): vol.All(
vol.Upper, vol.In(VARIABLES + SETPOINTS)
),
vol.Optional(CONF_VALUE, default=0): vol.Coerce(float),
vol.Optional(CONF_UNIT_OF_MEASUREMENT, default="native"): vol.All(
vol.Upper, vol.In(VAR_UNITS)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
var = pypck.lcn_defs.Var[service.data[CONF_VARIABLE]]
value = service.data[CONF_VALUE]
unit = pypck.lcn_defs.VarUnit.parse(service.data[CONF_UNIT_OF_MEASUREMENT])
device_connection = self.get_device_connection(service)
await device_connection.var_abs(var, value, unit)
class VarReset(LcnServiceCall):
"""Reset value of variable or setpoint."""
schema = LcnServiceCall.schema.extend(
{vol.Required(CONF_VARIABLE): vol.All(vol.Upper, vol.In(VARIABLES + SETPOINTS))}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
var = pypck.lcn_defs.Var[service.data[CONF_VARIABLE]]
device_connection = self.get_device_connection(service)
await device_connection.var_reset(var)
class VarRel(LcnServiceCall):
"""Shift value of a variable, setpoint or threshold."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_VARIABLE): vol.All(
vol.Upper, vol.In(VARIABLES + SETPOINTS + THRESHOLDS)
),
vol.Optional(CONF_VALUE, default=0): vol.Coerce(float),
vol.Optional(CONF_UNIT_OF_MEASUREMENT, default="native"): vol.All(
vol.Upper, vol.In(VAR_UNITS)
),
vol.Optional(CONF_RELVARREF, default="current"): vol.All(
vol.Upper, vol.In(RELVARREF)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
var = pypck.lcn_defs.Var[service.data[CONF_VARIABLE]]
value = service.data[CONF_VALUE]
unit = pypck.lcn_defs.VarUnit.parse(service.data[CONF_UNIT_OF_MEASUREMENT])
value_ref = pypck.lcn_defs.RelVarRef[service.data[CONF_RELVARREF]]
device_connection = self.get_device_connection(service)
await device_connection.var_rel(var, value, unit, value_ref)
class LockRegulator(LcnServiceCall):
"""Locks a regulator setpoint."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_SETPOINT): vol.All(vol.Upper, vol.In(SETPOINTS)),
vol.Optional(CONF_STATE, default=False): bool,
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
setpoint = pypck.lcn_defs.Var[service.data[CONF_SETPOINT]]
state = service.data[CONF_STATE]
reg_id = pypck.lcn_defs.Var.to_set_point_id(setpoint)
device_connection = self.get_device_connection(service)
await device_connection.lock_regulator(reg_id, state)
class SendKeys(LcnServiceCall):
"""Sends keys (which executes bound commands)."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_KEYS): vol.All(
vol.Upper, cv.matches_regex(r"^([A-D][1-8])+$")
),
vol.Optional(CONF_STATE, default="hit"): vol.All(
vol.Upper, vol.In(SENDKEYCOMMANDS)
),
vol.Optional(CONF_TIME, default=0): cv.positive_int,
vol.Optional(CONF_TIME_UNIT, default="S"): vol.All(
vol.Upper, vol.In(TIME_UNITS)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
device_connection = self.get_device_connection(service)
keys = [[False] * 8 for i in range(4)]
key_strings = zip(service.data[CONF_KEYS][::2], service.data[CONF_KEYS][1::2])
for table, key in key_strings:
table_id = ord(table) - 65
key_id = int(key) - 1
keys[table_id][key_id] = True
if (delay_time := service.data[CONF_TIME]) != 0:
hit = pypck.lcn_defs.SendKeyCommand.HIT
if pypck.lcn_defs.SendKeyCommand[service.data[CONF_STATE]] != hit:
raise ValueError(
"Only hit command is allowed when sending deferred keys."
)
delay_unit = pypck.lcn_defs.TimeUnit.parse(service.data[CONF_TIME_UNIT])
await device_connection.send_keys_hit_deferred(keys, delay_time, delay_unit)
else:
state = pypck.lcn_defs.SendKeyCommand[service.data[CONF_STATE]]
await device_connection.send_keys(keys, state)
class LockKeys(LcnServiceCall):
"""Lock keys."""
schema = LcnServiceCall.schema.extend(
{
vol.Optional(CONF_TABLE, default="a"): vol.All(
vol.Upper, cv.matches_regex(r"^[A-D]$")
),
vol.Required(CONF_STATE): is_states_string,
vol.Optional(CONF_TIME, default=0): cv.positive_int,
vol.Optional(CONF_TIME_UNIT, default="S"): vol.All(
vol.Upper, vol.In(TIME_UNITS)
),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
device_connection = self.get_device_connection(service)
states = [
pypck.lcn_defs.KeyLockStateModifier[state]
for state in service.data[CONF_STATE]
]
table_id = ord(service.data[CONF_TABLE]) - 65
if (delay_time := service.data[CONF_TIME]) != 0:
if table_id != 0:
raise ValueError(
"Only table A is allowed when locking keys for a specific time."
)
delay_unit = pypck.lcn_defs.TimeUnit.parse(service.data[CONF_TIME_UNIT])
await device_connection.lock_keys_tab_a_temporary(
delay_time, delay_unit, states
)
else:
await device_connection.lock_keys(table_id, states)
handler = device_connection.status_requests_handler
await handler.request_status_locked_keys_timeout()
class DynText(LcnServiceCall):
"""Send dynamic text to LCN-GTxD displays."""
schema = LcnServiceCall.schema.extend(
{
vol.Required(CONF_ROW): vol.All(int, vol.Range(min=1, max=4)),
vol.Required(CONF_TEXT): vol.All(str, vol.Length(max=60)),
}
)
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
row_id = service.data[CONF_ROW] - 1
text = service.data[CONF_TEXT]
device_connection = self.get_device_connection(service)
await device_connection.dyn_text(row_id, text)
class Pck(LcnServiceCall):
"""Send arbitrary PCK command."""
schema = LcnServiceCall.schema.extend({vol.Required(CONF_PCK): str})
async def async_call_service(self, service: ServiceCall) -> None:
"""Execute service call."""
pck = service.data[CONF_PCK]
device_connection = self.get_device_connection(service)
await device_connection.pck(pck)
SERVICES = (
("output_abs", OutputAbs),
("output_rel", OutputRel),
("output_toggle", OutputToggle),
("relays", Relays),
("var_abs", VarAbs),
("var_reset", VarReset),
("var_rel", VarRel),
("lock_regulator", LockRegulator),
("led", Led),
("send_keys", SendKeys),
("lock_keys", LockKeys),
("dyn_text", DynText),
("pck", Pck),
)