python-kasa/kasa/deviceconfig.py

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"""Configuration for connecting directly to a device without discovery.
If you are connecting to a newer KASA or TAPO device you can get the device
via discovery or connect directly with :class:`DeviceConfig`.
Discovery returns a list of discovered devices:
>>> from kasa import Discover, Device
>>> device = await Discover.discover_single(
>>> "127.0.0.3",
>>> username="user@example.com",
>>> password="great_password",
>>> )
>>> print(device.alias) # Alias is None because update() has not been called
None
>>> config_dict = device.config.to_dict()
>>> # DeviceConfig.to_dict() can be used to store for later
>>> print(config_dict)
{'host': '127.0.0.3', 'timeout': 5, 'credentials': Credentials(), 'connection_type'\
: {'device_family': 'SMART.TAPOBULB', 'encryption_type': 'KLAP', 'login_version': 2},\
'uses_http': True}
>>> later_device = await Device.connect(config=Device.Config.from_dict(config_dict))
>>> print(later_device.alias) # Alias is available as connect() calls update()
Living Room Bulb
"""
# Note that this module does not work with from __future__ import annotations
# due to it's use of type returned by fields() which becomes a string with the import.
# https://bugs.python.org/issue39442
# ruff: noqa: FA100
import logging
from dataclasses import asdict, dataclass, field, fields, is_dataclass
from enum import Enum
from typing import TYPE_CHECKING, Dict, Optional, Union
from .credentials import Credentials
from .exceptions import KasaException
if TYPE_CHECKING:
from aiohttp import ClientSession
_LOGGER = logging.getLogger(__name__)
class DeviceEncryptionType(Enum):
"""Encrypt type enum."""
Klap = "KLAP"
Aes = "AES"
Xor = "XOR"
class DeviceFamily(Enum):
"""Encrypt type enum."""
IotSmartPlugSwitch = "IOT.SMARTPLUGSWITCH"
IotSmartBulb = "IOT.SMARTBULB"
SmartKasaPlug = "SMART.KASAPLUG"
SmartKasaSwitch = "SMART.KASASWITCH"
SmartTapoPlug = "SMART.TAPOPLUG"
SmartTapoBulb = "SMART.TAPOBULB"
SmartTapoSwitch = "SMART.TAPOSWITCH"
SmartTapoHub = "SMART.TAPOHUB"
SmartKasaHub = "SMART.KASAHUB"
def _dataclass_from_dict(klass, in_val):
if is_dataclass(klass):
fieldtypes = {f.name: f.type for f in fields(klass)}
val = {}
for dict_key in in_val:
if dict_key in fieldtypes:
if hasattr(fieldtypes[dict_key], "from_dict"):
val[dict_key] = fieldtypes[dict_key].from_dict(in_val[dict_key])
else:
val[dict_key] = _dataclass_from_dict(
fieldtypes[dict_key], in_val[dict_key]
)
else:
raise KasaException(
f"Cannot create dataclass from dict, unknown key: {dict_key}"
)
return klass(**val)
else:
return in_val
def _dataclass_to_dict(in_val):
fieldtypes = {f.name: f.type for f in fields(in_val) if f.compare}
out_val = {}
for field_name in fieldtypes:
val = getattr(in_val, field_name)
if val is None:
continue
elif hasattr(val, "to_dict"):
out_val[field_name] = val.to_dict()
elif is_dataclass(fieldtypes[field_name]):
out_val[field_name] = asdict(val)
else:
out_val[field_name] = val
return out_val
@dataclass
class DeviceConnectionParameters:
"""Class to hold the the parameters determining connection type."""
device_family: DeviceFamily
encryption_type: DeviceEncryptionType
login_version: Optional[int] = None
@staticmethod
def from_values(
device_family: str,
encryption_type: str,
login_version: Optional[int] = None,
) -> "DeviceConnectionParameters":
"""Return connection parameters from string values."""
try:
return DeviceConnectionParameters(
DeviceFamily(device_family),
DeviceEncryptionType(encryption_type),
login_version,
)
except (ValueError, TypeError) as ex:
raise KasaException(
f"Invalid connection parameters for {device_family}."
+ f"{encryption_type}.{login_version}"
) from ex
@staticmethod
def from_dict(connection_type_dict: Dict[str, str]) -> "DeviceConnectionParameters":
"""Return connection parameters from dict."""
if (
isinstance(connection_type_dict, dict)
and (device_family := connection_type_dict.get("device_family"))
and (encryption_type := connection_type_dict.get("encryption_type"))
):
if login_version := connection_type_dict.get("login_version"):
login_version = int(login_version) # type: ignore[assignment]
return DeviceConnectionParameters.from_values(
device_family,
encryption_type,
login_version, # type: ignore[arg-type]
)
raise KasaException(f"Invalid connection type data for {connection_type_dict}")
def to_dict(self) -> Dict[str, Union[str, int]]:
"""Convert connection params to dict."""
result: Dict[str, Union[str, int]] = {
"device_family": self.device_family.value,
"encryption_type": self.encryption_type.value,
}
if self.login_version:
result["login_version"] = self.login_version
return result
@dataclass
class DeviceConfig:
"""Class to represent paramaters that determine how to connect to devices."""
DEFAULT_TIMEOUT = 5
#: IP address or hostname
host: str
#: Timeout for querying the device
timeout: Optional[int] = DEFAULT_TIMEOUT
#: Override the default 9999 port to support port forwarding
port_override: Optional[int] = None
#: Credentials for devices requiring authentication
credentials: Optional[Credentials] = None
#: Credentials hash for devices requiring authentication.
#: If credentials are also supplied they take precendence over credentials_hash.
#: Credentials hash can be retrieved from :attr:`Device.credentials_hash`
credentials_hash: Optional[str] = None
#: The protocol specific type of connection. Defaults to the legacy type.
batch_size: Optional[int] = None
#: The batch size for protoools supporting multiple request batches.
connection_type: DeviceConnectionParameters = field(
default_factory=lambda: DeviceConnectionParameters(
DeviceFamily.IotSmartPlugSwitch, DeviceEncryptionType.Xor, 1
)
)
#: True if the device uses http. Consumers should retrieve rather than set this
#: in order to determine whether they should pass a custom http client if desired.
uses_http: bool = False
# compare=False will be excluded from the serialization and object comparison.
#: Set a custom http_client for the device to use.
http_client: Optional["ClientSession"] = field(default=None, compare=False)
def __post_init__(self):
if self.connection_type is None:
self.connection_type = DeviceConnectionParameters(
DeviceFamily.IotSmartPlugSwitch, DeviceEncryptionType.Xor
)
def to_dict(
self,
*,
credentials_hash: Optional[str] = None,
exclude_credentials: bool = False,
) -> Dict[str, Dict[str, str]]:
"""Convert device config to dict."""
if credentials_hash is not None or exclude_credentials:
self.credentials = None
if credentials_hash:
self.credentials_hash = credentials_hash
return _dataclass_to_dict(self)
@staticmethod
def from_dict(config_dict: Dict[str, Dict[str, str]]) -> "DeviceConfig":
"""Return device config from dict."""
if isinstance(config_dict, dict):
return _dataclass_from_dict(DeviceConfig, config_dict)
raise KasaException(f"Invalid device config data: {config_dict}")