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config_flow.py
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"""Config flow for Huawei Solar integration."""
from __future__ import annotations
import logging
from typing import Any
from huawei_solar import (
ConnectionException,
HuaweiSolarException,
InvalidCredentials,
ReadException,
create_rtu_bridge,
create_sub_bridge,
create_tcp_bridge,
)
import serial.tools.list_ports
import voluptuous as vol
from homeassistant import config_entries
from homeassistant.components import usb
from homeassistant.const import (
CONF_HOST,
CONF_PASSWORD,
CONF_PORT,
CONF_TYPE,
CONF_USERNAME,
)
from homeassistant.data_entry_flow import FlowResult
import homeassistant.helpers.config_validation as cv
from .const import (
CONF_ENABLE_PARAMETER_CONFIGURATION,
CONF_SLAVE_IDS,
DEFAULT_PORT,
DEFAULT_SERIAL_SLAVE_ID,
DEFAULT_SLAVE_ID,
DEFAULT_USERNAME,
DOMAIN,
)
_LOGGER = logging.getLogger(__name__)
CONF_MANUAL_PATH = "Enter Manually"
async def validate_serial_setup(port: str, slave_ids: list[int]) -> dict[str, Any]:
"""Validate the serial device that was passed by the user."""
bridge = None
try:
bridge = await create_rtu_bridge(
port=port,
slave_id=slave_ids[0],
)
_LOGGER.info(
"Successfully connected to inverter %s with SN %s",
bridge.model_name,
bridge.serial_number,
)
result = {
"model_name": bridge.model_name,
"serial_number": bridge.serial_number,
}
# Also validate the other slave-ids
for slave_id in slave_ids[1:]:
try:
slave_bridge = await create_sub_bridge(bridge, slave_id)
_LOGGER.info(
"Successfully connected to slave inverter %s: %s with SN %s",
slave_id,
slave_bridge.model_name,
slave_bridge.serial_number,
)
except HuaweiSolarException as err:
_LOGGER.error("Could not connect to slave %s", slave_id)
raise SlaveException(f"Could not connect to slave {slave_id}") from err
# Return info that you want to store in the config entry.
return result
finally:
if bridge is not None:
# Cleanup this inverter object explicitly to prevent it from trying to maintain a modbus connection
await bridge.stop()
async def validate_network_setup_auto_slave_discovery(
*,
host: str,
port: int,
elevated_permissions: bool,
) -> dict[str, Any]:
"""Validate that we can connect to the device via the provided host and port. Try to autodiscover the slave ids."""
bridge = None
try:
bridge = await create_tcp_bridge(
host=host,
port=port,
slave_id=0,
)
_LOGGER.info(
"Successfully connected to inverter %s with SN %s",
bridge.model_name,
bridge.serial_number,
)
result: dict[str, Any] = {
"model_name": bridge.model_name,
"serial_number": bridge.serial_number,
}
if elevated_permissions:
# Check if we have write access. If this is not the case, we will
# need to login (and request the username/password from the user to be
# able to do this).
result["has_write_permission"] = await bridge.has_write_permission()
device_infos = await bridge.client.get_device_infos()
_LOGGER.info("Received %d device infos", len(device_infos))
slave_ids = [0]
for device_info in device_infos:
if device_info.device_id is None:
_LOGGER.warning(
"Slave with no device_id found. Skipping. Product type: %s, model: %s, software version: %s",
device_info.product_type,
device_info.model,
device_info.software_version,
)
continue
if device_info.device_id == 0:
_LOGGER.warning(
"Skipping slave 0. Product type: %s, model: %s, software version: %s",
device_info.product_type,
device_info.model,
device_info.software_version,
)
continue
if device_info.model and device_info.model.startswith("SUN2000"):
_LOGGER.info(
"Slave %s was auto-discovered of type %s with model %s and software version %s",
device_info.device_id,
device_info.product_type,
device_info.model,
device_info.software_version,
)
slave_id = device_info.device_id
try:
slave_bridge = await create_sub_bridge(bridge, slave_id)
_LOGGER.info(
"Successfully connected to slave inverter %s: %s with SN %s",
slave_id,
slave_bridge.model_name,
slave_bridge.serial_number,
)
slave_ids.append(slave_id)
except HuaweiSolarException:
_LOGGER.exception(
"Could not connect to slave %s. Skipping", slave_id
)
else:
_LOGGER.warning(
"Skipping slave %s with model %s. Only SUN2000 inverters are supported as secondary slaves",
device_info.device_id,
device_info.model,
)
# Return info that you want to store in the config entry.
result["slave_ids"] = slave_ids
return result
finally:
if bridge:
# Cleanup this inverter object explicitly to prevent it from trying to maintain a modbus connection
await bridge.stop()
async def validate_network_setup(
*,
host: str,
port: int,
slave_ids: list[int],
elevated_permissions: bool,
) -> dict[str, Any]:
"""Validate the user input allows us to connect.
Data has the keys from STEP_SETUP_NETWORK_DATA_SCHEMA with values provided by the user.
"""
bridge = None
try:
bridge = await create_tcp_bridge(
host=host,
port=port,
slave_id=slave_ids[0],
)
_LOGGER.info(
"Successfully connected to inverter %s with SN %s",
bridge.model_name,
bridge.serial_number,
)
result: dict[str, Any] = {
"model_name": bridge.model_name,
"serial_number": bridge.serial_number,
}
if elevated_permissions:
# Check if we have write access. If this is not the case, we will
# need to login (and request the username/password from the user to be
# able to do this).
result["has_write_permission"] = await bridge.has_write_permission()
# Also validate the other slave-ids
for slave_id in slave_ids[1:]:
try:
slave_bridge = await create_sub_bridge(bridge, slave_id)
_LOGGER.info(
"Successfully connected to slave inverter %s: %s with SN %s",
slave_id,
slave_bridge.model_name,
slave_bridge.serial_number,
)
except HuaweiSolarException as err:
_LOGGER.error("Could not connect to slave %s", slave_id)
raise SlaveException(f"Could not connect to slave {slave_id}") from err
# Return info that you want to store in the config entry.
return result
finally:
if bridge:
# Cleanup this inverter object explicitly to prevent it from trying to maintain a modbus connection
await bridge.stop()
async def validate_network_setup_login(
*,
host: str,
port: int,
slave_id: int,
username: str,
password: str,
) -> bool:
"""Verify the installer username/password and test if it can perform a write-operation."""
bridge = None
try:
# these parameters have already been tested in validate_input, so they should work fine!
bridge = await create_tcp_bridge(
host=host,
port=port,
slave_id=slave_id,
)
await bridge.login(username, password)
# verify that we have write-permission now
return await bridge.has_write_permission()
except InvalidCredentials:
return False
finally:
if bridge is not None:
# Cleanup this inverter object explicitly to prevent it from trying to maintain a modbus connection
await bridge.stop()
def parse_slave_ids(slave_ids: str):
"""Parse slave ids string into list of ints."""
try:
return list(map(int, slave_ids.split(",")))
except ValueError as err:
raise SlaveIdsParseException from err
class ConfigFlow(config_entries.ConfigFlow, domain=DOMAIN):
"""Handle a config flow for Huawei Solar."""
# Values entered by user in config flow
_host: str | None = None
_port: int | str | None = None
_slave_ids: list[int] | None = None
_username: str | None = None
_password: str | None = None
_elevated_permissions = False
# Only used in reauth flows:
_reauth_entry: config_entries.ConfigEntry | None = None
# Only used in reconfigure flows:
_reconfigure_entry: config_entries.ConfigEntry | None = None
# Only used for async_step_network_login
_inverter_info: dict[str, Any] | None = None
VERSION = 1
async def async_step_user(
self, user_input: dict[str, Any] | None = None
) -> FlowResult:
"""Step when user initializes a integration."""
return await self.async_step_setup_connection_type()
def _update_config_data_from_entry_data(self, entry_data: dict[str, Any]):
self._host = entry_data.get(CONF_HOST)
self._port = entry_data.get(CONF_PORT)
slave_ids = entry_data.get(CONF_SLAVE_IDS)
assert isinstance(slave_ids, list | int)
if not isinstance(slave_ids, list):
slave_ids = [slave_ids]
self._slave_ids = slave_ids
self._username = entry_data.get(CONF_USERNAME)
self._password = entry_data.get(CONF_PASSWORD)
self._elevated_permissions = entry_data.get(
CONF_ENABLE_PARAMETER_CONFIGURATION, False
)
async def async_step_reconfigure(self, user_input: dict[str, Any] | None = None):
"""Step when user reconfigures the integration."""
self._reconfigure_entry = self.hass.config_entries.async_get_entry(
self.context["entry_id"]
)
self._update_config_data_from_entry_data(self._reconfigure_entry.data)
await self.hass.config_entries.async_unload(self.context["entry_id"])
return await self.async_step_setup_connection_type()
async def async_step_reauth(
self, config: dict[str, Any] | None = None
) -> FlowResult:
"""Perform reauth upon an login error."""
assert config is not None
self._reauth_entry = self.hass.config_entries.async_get_entry(
self.context["entry_id"]
)
self._update_config_data_from_entry_data(config)
return await self.async_step_network_login()
async def async_step_setup_connection_type(
self, user_input: dict[str, Any] | None = None
):
"""Step to let the user choose the connection type."""
if user_input is not None:
user_selection = user_input[CONF_TYPE]
if user_selection == "Serial":
return await self.async_step_setup_serial()
return await self.async_step_setup_network()
list_of_types = ["Serial", "Network"]
# In case of a reconfigure flow, we already know the current choice.
current_conn_type = None
if self._host:
current_conn_type = "Network"
elif self._port:
current_conn_type = "Serial"
schema = vol.Schema(
{vol.Required(CONF_TYPE, default=current_conn_type): vol.In(list_of_types)}
)
return self.async_show_form(step_id="setup_connection_type", data_schema=schema)
async def async_step_setup_serial(
self, user_input: dict[str, Any] | None = None
) -> FlowResult:
"""Handle connection parameters when using ModbusRTU."""
# You always have elevated permissions when connecting over serial
self._elevated_permissions = True
errors = {}
if user_input is not None:
self._host = None
try:
self._slave_ids = parse_slave_ids(user_input[CONF_SLAVE_IDS])
except SlaveIdsParseException:
errors["base"] = "invalid_slave_ids"
else:
if user_input[CONF_PORT] == CONF_MANUAL_PATH:
return await self.async_step_setup_serial_manual_path()
self._port = await self.hass.async_add_executor_job(
usb.get_serial_by_id, user_input[CONF_PORT]
)
try:
assert isinstance(self._port, str)
info = await validate_serial_setup(self._port, self._slave_ids)
except ConnectionException:
errors["base"] = "cannot_connect"
except SlaveException:
errors["base"] = "slave_cannot_connect"
except ReadException:
errors["base"] = "read_error"
except Exception: # pylint: disable=broad-except
_LOGGER.exception(
"Unexpected exception while connecting over serial"
)
errors["base"] = "unknown"
else:
return await self._create_or_update_entry(info)
ports = await self.hass.async_add_executor_job(serial.tools.list_ports.comports)
list_of_ports = {
port.device: usb.human_readable_device_name(
port.device,
port.serial_number,
port.manufacturer,
port.description,
port.vid,
port.pid,
)
for port in ports
}
list_of_ports[CONF_MANUAL_PATH] = CONF_MANUAL_PATH
schema = vol.Schema(
{
vol.Required(CONF_PORT, default=self._port): vol.In(list_of_ports),
vol.Required(
CONF_SLAVE_IDS,
default=",".join(map(str, self._slave_ids))
if self._slave_ids
else str(DEFAULT_SERIAL_SLAVE_ID),
): str,
}
)
return self.async_show_form(
step_id="setup_serial",
data_schema=schema,
errors=errors,
)
async def async_step_setup_serial_manual_path(
self, user_input: dict[str, Any] | None = None
) -> FlowResult:
"""Select path manually."""
errors = {}
if user_input is not None:
self._host = None
self._port = user_input[CONF_PORT]
try:
self._slave_ids = list(map(int, user_input[CONF_SLAVE_IDS].split(",")))
info = await validate_serial_setup(self._port, self._slave_ids)
except SlaveIdsParseException:
errors["base"] = "invalid_slave_ids"
except ConnectionException:
errors["base"] = "cannot_connect"
except SlaveException:
errors["base"] = "slave_cannot_connect"
except ReadException:
errors["base"] = "read_error"
except Exception: # pylint: disable=broad-except
_LOGGER.exception("Unexpected exception while connecting over serial")
errors["base"] = "unknown"
else:
return await self._create_or_update_entry(info)
schema = vol.Schema(
{
vol.Required(CONF_PORT, default=self._port): str,
vol.Required(
CONF_SLAVE_IDS,
default=",".join(map(str, self._slave_ids))
if self._slave_ids
else str(DEFAULT_SERIAL_SLAVE_ID),
): str,
}
)
return self.async_show_form(
step_id="setup_serial_manual_path", data_schema=schema, errors=errors
)
async def async_step_setup_network(
self, user_input: dict[str, Any] | None = None
) -> FlowResult:
"""Handle connection parameters when using ModbusTCP."""
errors = {}
if user_input is not None:
self._host = user_input[CONF_HOST]
self._port = user_input[CONF_PORT]
self._elevated_permissions = user_input[CONF_ENABLE_PARAMETER_CONFIGURATION]
info = None
if user_input[CONF_SLAVE_IDS].lower() == "auto":
try:
info = await validate_network_setup_auto_slave_discovery(
host=self._host,
port=self._port,
elevated_permissions=self._elevated_permissions,
)
self._slave_ids = info.pop("slave_ids")
except ConnectionException:
errors["base"] = "cannot_connect"
except SlaveException:
errors["base"] = "slave_cannot_connect"
except ReadException:
_LOGGER.exception("Read exception while connecting via ModbusTCP")
errors["base"] = "read_error"
except Exception: # pylint: disable=broad-except
_LOGGER.exception(
"Unexpected exception while connecting via ModbusTCP"
)
errors["base"] = "unknown"
else:
try:
self._slave_ids = list(
map(int, user_input[CONF_SLAVE_IDS].split(","))
)
except ValueError:
errors["base"] = "invalid_slave_ids"
else:
try:
info = await validate_network_setup(
host=self._host,
port=self._port,
slave_ids=self._slave_ids,
elevated_permissions=self._elevated_permissions,
)
except ConnectionException:
errors["base"] = "cannot_connect"
except SlaveException:
errors["base"] = "slave_cannot_connect"
except ReadException:
_LOGGER.exception(
"Read exception while connecting via ModbusTCP"
)
errors["base"] = "read_error"
except Exception: # pylint: disable=broad-except
_LOGGER.exception(
"Unexpected exception while connecting via ModbusTCP"
)
errors["base"] = "unknown"
# info will be set when we successfully connected to the inverter
if info:
# Check if we need to ask for the login details
if self._elevated_permissions and info["has_write_permission"] is False:
self.context["title_placeholders"] = {"name": info["model_name"]}
self._inverter_info = info
return await self.async_step_network_login()
# In case of a reconfigure, the user can have unchecked the elevated permissions checkbox
self._username = None
self._password = None
# Otherwise, we can directly create the device entry!
return await self._create_or_update_entry(info)
return self.async_show_form(
step_id="setup_network",
data_schema=vol.Schema(
{
vol.Required(CONF_HOST, default=self._host): str,
vol.Required(
CONF_PORT, default=self._port or DEFAULT_PORT
): cv.port,
vol.Required(
CONF_SLAVE_IDS,
default=",".join(map(str, self._slave_ids))
if self._slave_ids
else "AUTO",
): str,
vol.Required(
CONF_ENABLE_PARAMETER_CONFIGURATION,
default=self._elevated_permissions,
): bool,
}
),
errors=errors,
)
async def async_step_network_login(
self, user_input: dict[str, Any] | None = None
) -> FlowResult:
"""Handle username/password input."""
assert self._host is not None
assert self._port is not None
assert self._slave_ids is not None
assert self._inverter_info is not None
errors = {}
if user_input is not None:
self._username = user_input[CONF_USERNAME]
self._password = user_input[CONF_PASSWORD]
try:
login_success = await validate_network_setup_login(
host=self._host,
port=self._port,
slave_id=self._slave_ids[0],
username=self._username,
password=self._password,
)
if login_success:
return await self._create_or_update_entry(self._inverter_info)
errors["base"] = "invalid_auth"
except ConnectionException:
errors["base"] = "cannot_connect"
except SlaveException:
errors["base"] = "slave_cannot_connect"
except ReadException:
_LOGGER.exception(
"Could not read from ModbusTCP while validating login parameter"
)
errors["base"] = "read_error"
except Exception: # pylint: disable=broad-except
_LOGGER.exception(
"Unexpected exception while validating login parameters via ModbusTCP"
)
errors["base"] = "unknown"
return self.async_show_form(
step_id="network_login",
data_schema=vol.Schema(
{
vol.Required(
CONF_USERNAME, default=self._username or DEFAULT_USERNAME
): str,
vol.Required(CONF_PASSWORD, default=self._password): str,
}
),
errors=errors,
)
async def _create_or_update_entry(self, inverter_info: dict[str, Any] | None):
"""Create the entry, or update the existing one if present."""
data = {
CONF_HOST: self._host,
CONF_PORT: self._port,
CONF_SLAVE_IDS: self._slave_ids,
CONF_ENABLE_PARAMETER_CONFIGURATION: self._elevated_permissions,
CONF_USERNAME: self._username,
CONF_PASSWORD: self._password,
}
if self._reauth_entry:
self.hass.config_entries.async_update_entry(self._reauth_entry, data=data)
await self.hass.config_entries.async_reload(self._reauth_entry.entry_id)
return self.async_abort(reason="reauth_successful")
assert inverter_info
self.context["title_placeholders"] = {"name": inverter_info["model_name"]}
if self._reconfigure_entry:
self.hass.config_entries.async_update_entry(
self._reconfigure_entry, data=data
)
await self.hass.config_entries.async_reload(
self._reconfigure_entry.entry_id
)
return self.async_abort(reason="reconfigure_successful")
await self.async_set_unique_id(inverter_info["serial_number"])
self._abort_if_unique_id_configured(updates=data)
return self.async_create_entry(title=inverter_info["model_name"], data=data)
class SlaveIdsParseException(Exception):
"""Error while parsing the slave id's."""
class SlaveException(Exception):
"""Error while testing communication with a slave."""