python-kasa/kasa/tests/fakeprotocol_smart.py

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import copy
from json import loads as json_loads
import pytest
from kasa import Credentials, DeviceConfig, SmartProtocol
from kasa.exceptions import SmartErrorCode
from kasa.protocol import BaseTransport
class FakeSmartProtocol(SmartProtocol):
def __init__(self, info, fixture_name):
super().__init__(
transport=FakeSmartTransport(info, fixture_name),
)
async def query(self, request, retry_count: int = 3):
"""Implement query here so can still patch SmartProtocol.query."""
resp_dict = await self._query(request, retry_count)
return resp_dict
class FakeSmartTransport(BaseTransport):
def __init__(
self,
info,
fixture_name,
*,
list_return_size=10,
component_nego_not_included=False,
warn_fixture_missing_methods=True,
fix_incomplete_fixture_lists=True,
):
super().__init__(
config=DeviceConfig(
"127.0.0.123",
credentials=Credentials(
username="dummy_user",
password="dummy_password", # noqa: S106
),
),
)
self.fixture_name = fixture_name
self.info = copy.deepcopy(info)
if not component_nego_not_included:
self.components = {
comp["id"]: comp["ver_code"]
for comp in self.info["component_nego"]["component_list"]
}
self.list_return_size = list_return_size
self.warn_fixture_missing_methods = warn_fixture_missing_methods
self.fix_incomplete_fixture_lists = fix_incomplete_fixture_lists
@property
def default_port(self):
"""Default port for the transport."""
return 80
@property
def credentials_hash(self):
"""The hashed credentials used by the transport."""
return self._credentials.username + self._credentials.password + "hash"
FIXTURE_MISSING_MAP = {
"get_wireless_scan_info": ("wireless", {"ap_list": [], "wep_supported": False}),
"get_auto_off_config": ("auto_off", {"delay_min": 10, "enable": False}),
"get_led_info": (
"led",
{
"led_rule": "never",
"led_status": False,
"night_mode": {
"end_time": 420,
"night_mode_type": "sunrise_sunset",
"start_time": 1140,
"sunrise_offset": 0,
"sunset_offset": 0,
},
},
),
"get_on_off_gradually_info": ("on_off_gradually", {"enable": True}),
"get_latest_fw": (
"firmware",
{
"fw_size": 0,
"fw_ver": "1.0.5 Build 230801 Rel.095702",
"hw_id": "",
"need_to_upgrade": False,
"oem_id": "",
"release_date": "",
"release_note": "",
"type": 0,
},
),
"get_auto_update_info": (
"firmware",
{"enable": True, "random_range": 120, "time": 180},
),
"get_alarm_configure": (
"alarm",
{
"get_alarm_configure": {
"duration": 10,
"type": "Doorbell Ring 2",
"volume": "low",
}
},
),
"get_support_alarm_type_list": (
"alarm",
{
"alarm_type_list": [
"Doorbell Ring 1",
]
},
),
"get_device_usage": ("device", {}),
}
async def send(self, request: str):
request_dict = json_loads(request)
method = request_dict["method"]
params = request_dict["params"]
if method == "multipleRequest":
responses = []
for request in params["requests"]:
response = self._send_request(request) # type: ignore[arg-type]
# Devices do not continue after error
if response["error_code"] != 0:
break
response["method"] = request["method"] # type: ignore[index]
responses.append(response)
return {"result": {"responses": responses}, "error_code": 0}
else:
return self._send_request(request_dict)
def _handle_control_child(self, params: dict):
"""Handle control_child command."""
device_id = params.get("device_id")
request_data = params.get("requestData", {})
child_method = request_data.get("method")
child_params = request_data.get("params")
info = self.info
children = info["get_child_device_list"]["child_device_list"]
for child in children:
if child["device_id"] == device_id:
info = child
break
# Create the child_devices fixture section for fixtures generated before it was added
if "child_devices" not in self.info:
self.info["child_devices"] = {}
# Get the method calls made directly on the child devices
child_device_calls = self.info["child_devices"].setdefault(device_id, {})
# We only support get & set device info for now.
if child_method == "get_device_info":
result = copy.deepcopy(info)
return {"result": result, "error_code": 0}
elif child_method == "set_device_info":
info.update(child_params)
return {"error_code": 0}
elif child_method == "set_preset_rules":
return self._set_child_preset_rules(info, child_params)
elif child_method in child_device_calls:
result = copy.deepcopy(child_device_calls[child_method])
return {"result": result, "error_code": 0}
elif (
# FIXTURE_MISSING is for service calls not in place when
# SMART fixtures started to be generated
missing_result := self.FIXTURE_MISSING_MAP.get(child_method)
) and missing_result[0] in self.components:
# Copy to info so it will work with update methods
child_device_calls[child_method] = copy.deepcopy(missing_result[1])
result = copy.deepcopy(info[child_method])
retval = {"result": result, "error_code": 0}
return retval
elif child_method[:4] == "set_":
target_method = f"get_{child_method[4:]}"
if target_method not in child_device_calls:
raise RuntimeError(
f"No {target_method} in child info, calling set before get not supported."
)
child_device_calls[target_method].update(child_params)
return {"error_code": 0}
else:
# PARAMS error returned for KS240 when get_device_usage called
# on parent device. Could be any error code though.
# TODO: Try to figure out if there's a way to prevent the KS240 smartdevice
# calling the unsupported device in the first place.
retval = {
"error_code": SmartErrorCode.PARAMS_ERROR.value,
"method": child_method,
}
return retval
raise NotImplementedError(
"Method %s not implemented for children" % child_method
)
def _set_dynamic_light_effect(self, info, params):
"""Set or remove values as per the device behaviour."""
info["get_device_info"]["dynamic_light_effect_enable"] = params["enable"]
info["get_dynamic_light_effect_rules"]["enable"] = params["enable"]
if params["enable"]:
info["get_device_info"]["dynamic_light_effect_id"] = params["id"]
info["get_dynamic_light_effect_rules"]["current_rule_id"] = params["enable"]
else:
if "dynamic_light_effect_id" in info["get_device_info"]:
del info["get_device_info"]["dynamic_light_effect_id"]
if "current_rule_id" in info["get_dynamic_light_effect_rules"]:
del info["get_dynamic_light_effect_rules"]["current_rule_id"]
def _set_light_strip_effect(self, info, params):
"""Set or remove values as per the device behaviour."""
info["get_device_info"]["lighting_effect"]["enable"] = params["enable"]
info["get_device_info"]["lighting_effect"]["name"] = params["name"]
info["get_device_info"]["lighting_effect"]["id"] = params["id"]
info["get_lighting_effect"] = copy.deepcopy(params)
def _set_led_info(self, info, params):
"""Set or remove values as per the device behaviour."""
info["get_led_info"]["led_status"] = params["led_rule"] != "never"
info["get_led_info"]["led_rule"] = params["led_rule"]
def _set_preset_rules(self, info, params):
"""Set or remove values as per the device behaviour."""
if "brightness" not in info["get_preset_rules"]:
return {"error_code": SmartErrorCode.PARAMS_ERROR}
info["get_preset_rules"]["brightness"] = params["brightness"]
return {"error_code": 0}
def _set_child_preset_rules(self, info, params):
"""Set or remove values as per the device behaviour."""
# So far the only child device with light preset (KS240) has the
# data available to read in the device_info. If a child device
# appears that doesn't have this this will need to be extended.
if "preset_state" not in info:
return {"error_code": SmartErrorCode.PARAMS_ERROR}
info["preset_state"] = [{"brightness": b} for b in params["brightness"]]
return {"error_code": 0}
def _edit_preset_rules(self, info, params):
"""Set or remove values as per the device behaviour."""
if "states" not in info["get_preset_rules"] is None:
return {"error_code": SmartErrorCode.PARAMS_ERROR}
info["get_preset_rules"]["states"][params["index"]] = params["state"]
return {"error_code": 0}
def _send_request(self, request_dict: dict):
method = request_dict["method"]
params = request_dict["params"]
info = self.info
if method == "control_child":
return self._handle_control_child(params)
elif method == "component_nego" or method[:4] == "get_":
if method in info:
result = copy.deepcopy(info[method])
if "start_index" in result and "sum" in result:
list_key = next(
iter([key for key in result if isinstance(result[key], list)])
)
start_index = (
start_index
if (params and (start_index := params.get("start_index")))
else 0
)
# Fixtures generated before _handle_response_lists was implemented
# could have incomplete lists.
if (
len(result[list_key]) < result["sum"]
and self.fix_incomplete_fixture_lists
):
result["sum"] = len(result[list_key])
if self.warn_fixture_missing_methods:
pytest.fixtures_missing_methods.setdefault(
self.fixture_name, set()
).add(f"{method} (incomplete '{list_key}' list)")
result[list_key] = result[list_key][
start_index : start_index + self.list_return_size
]
return {"result": result, "error_code": 0}
if (
# FIXTURE_MISSING is for service calls not in place when
# SMART fixtures started to be generated
missing_result := self.FIXTURE_MISSING_MAP.get(method)
) and missing_result[0] in self.components:
# Copy to info so it will work with update methods
info[method] = copy.deepcopy(missing_result[1])
result = copy.deepcopy(info[method])
retval = {"result": result, "error_code": 0}
else:
# PARAMS error returned for KS240 when get_device_usage called
# on parent device. Could be any error code though.
# TODO: Try to figure out if there's a way to prevent the KS240 smartdevice
# calling the unsupported device in the first place.
retval = {
"error_code": SmartErrorCode.PARAMS_ERROR.value,
"method": method,
}
# Reduce warning spam by consolidating and reporting at the end of the run
if self.warn_fixture_missing_methods:
pytest.fixtures_missing_methods.setdefault(
self.fixture_name, set()
).add(method)
return retval
elif method in ["set_qs_info", "fw_download"]:
return {"error_code": 0}
elif method == "set_dynamic_light_effect_rule_enable":
self._set_dynamic_light_effect(info, params)
return {"error_code": 0}
elif method == "set_lighting_effect":
self._set_light_strip_effect(info, params)
return {"error_code": 0}
elif method == "set_led_info":
self._set_led_info(info, params)
return {"error_code": 0}
elif method == "set_preset_rules":
return self._set_preset_rules(info, params)
elif method == "edit_preset_rules":
return self._edit_preset_rules(info, params)
elif method[:4] == "set_":
target_method = f"get_{method[4:]}"
info[target_method].update(params)
return {"error_code": 0}
async def close(self) -> None:
pass
async def reset(self) -> None:
pass