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python-broadlink/broadlink/climate.py

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"""Support for climate control."""
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from typing import List
from . import exceptions as e
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from .device import device
from .helpers import crc16
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class hysen(device):
"""Controls a Hysen HVAC."""
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TYPE = "Hysen heating controller"
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# Send a request
# input_payload should be a bytearray, usually 6 bytes, e.g. bytearray([0x01,0x06,0x00,0x02,0x10,0x00])
# Returns decrypted payload
# New behaviour: raises a ValueError if the device response indicates an error or CRC check fails
# The function prepends length (2 bytes) and appends CRC
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def send_request(self, input_payload: bytes) -> bytes:
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"""Send a request to the device."""
crc = crc16(input_payload)
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# first byte is length, +2 for CRC16
request_payload = bytearray([len(input_payload) + 2, 0x00])
request_payload.extend(input_payload)
# append CRC
request_payload.append(crc & 0xFF)
request_payload.append((crc >> 8) & 0xFF)
# send to device
response = self.send_packet(0x6A, request_payload)
e.check_error(response[0x22:0x24])
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response_payload = self.decrypt(response[0x38:])
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# experimental check on CRC in response (first 2 bytes are len, and trailing bytes are crc)
response_payload_len = response_payload[0]
if response_payload_len + 2 > len(response_payload):
raise ValueError(
"hysen_response_error", "first byte of response is not length"
)
crc = crc16(response_payload[2:response_payload_len])
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if (response_payload[response_payload_len] == crc & 0xFF) and (
response_payload[response_payload_len + 1] == (crc >> 8) & 0xFF
):
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return response_payload[2:response_payload_len]
raise ValueError("hysen_response_error", "CRC check on response failed")
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def get_temp(self) -> int:
"""Return the room temperature in degrees celsius."""
payload = self.send_request(bytearray([0x01, 0x03, 0x00, 0x00, 0x00, 0x08]))
return payload[0x05] / 2.0
def get_external_temp(self) -> int:
"""Return the external temperature in degrees celsius."""
payload = self.send_request(bytearray([0x01, 0x03, 0x00, 0x00, 0x00, 0x08]))
return payload[18] / 2.0
def get_full_status(self) -> dict:
"""Return the state of the device.
Timer schedule included.
"""
payload = self.send_request(bytearray([0x01, 0x03, 0x00, 0x00, 0x00, 0x16]))
data = {}
data["remote_lock"] = payload[3] & 1
data["power"] = payload[4] & 1
data["active"] = (payload[4] >> 4) & 1
data["temp_manual"] = (payload[4] >> 6) & 1
data["room_temp"] = (payload[5] & 255) / 2.0
data["thermostat_temp"] = (payload[6] & 255) / 2.0
data["auto_mode"] = payload[7] & 15
data["loop_mode"] = (payload[7] >> 4) & 15
data["sensor"] = payload[8]
data["osv"] = payload[9]
data["dif"] = payload[10]
data["svh"] = payload[11]
data["svl"] = payload[12]
data["room_temp_adj"] = ((payload[13] << 8) + payload[14]) / 2.0
if data["room_temp_adj"] > 32767:
data["room_temp_adj"] = 32767 - data["room_temp_adj"]
data["fre"] = payload[15]
data["poweron"] = payload[16]
data["unknown"] = payload[17]
data["external_temp"] = (payload[18] & 255) / 2.0
data["hour"] = payload[19]
data["min"] = payload[20]
data["sec"] = payload[21]
data["dayofweek"] = payload[22]
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weekday = []
for i in range(0, 6):
weekday.append(
{
"start_hour": payload[2 * i + 23],
"start_minute": payload[2 * i + 24],
"temp": payload[i + 39] / 2.0,
}
)
data["weekday"] = weekday
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weekend = []
for i in range(6, 8):
weekend.append(
{
"start_hour": payload[2 * i + 23],
"start_minute": payload[2 * i + 24],
"temp": payload[i + 39] / 2.0,
}
)
data["weekend"] = weekend
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return data
# Change controller mode
# auto_mode = 1 for auto (scheduled/timed) mode, 0 for manual mode.
# Manual mode will activate last used temperature.
# In typical usage call set_temp to activate manual control and set temp.
# loop_mode refers to index in [ "12345,67", "123456,7", "1234567" ]
# E.g. loop_mode = 0 ("12345,67") means Saturday and Sunday follow the "weekend" schedule
# loop_mode = 2 ("1234567") means every day (including Saturday and Sunday) follows the "weekday" schedule
# The sensor command is currently experimental
def set_mode(self, auto_mode: int, loop_mode: int, sensor: int = 0) -> None:
"""Set the mode of the device."""
mode_byte = ((loop_mode + 1) << 4) + auto_mode
self.send_request(bytearray([0x01, 0x06, 0x00, 0x02, mode_byte, sensor]))
# Advanced settings
# Sensor mode (SEN) sensor = 0 for internal sensor, 1 for external sensor,
# 2 for internal control temperature, external limit temperature. Factory default: 0.
# Set temperature range for external sensor (OSV) osv = 5..99. Factory default: 42C
# Deadzone for floor temprature (dIF) dif = 1..9. Factory default: 2C
# Upper temperature limit for internal sensor (SVH) svh = 5..99. Factory default: 35C
# Lower temperature limit for internal sensor (SVL) svl = 5..99. Factory default: 5C
# Actual temperature calibration (AdJ) adj = -0.5. Prescision 0.1C
# Anti-freezing function (FrE) fre = 0 for anti-freezing function shut down,
# 1 for anti-freezing function open. Factory default: 0
# Power on memory (POn) poweron = 0 for power on memory off, 1 for power on memory on. Factory default: 0
def set_advanced(
self,
loop_mode: int,
sensor: int,
osv: int,
dif: int,
svh: int,
svl: int,
adj: float,
fre: int,
poweron: int,
) -> None:
"""Set advanced options."""
input_payload = bytearray(
[
0x01,
0x10,
0x00,
0x02,
0x00,
0x05,
0x0A,
loop_mode,
sensor,
osv,
dif,
svh,
svl,
(int(adj * 2) >> 8 & 0xFF),
(int(adj * 2) & 0xFF),
fre,
poweron,
]
)
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self.send_request(input_payload)
# For backwards compatibility only. Prefer calling set_mode directly.
# Note this function invokes loop_mode=0 and sensor=0.
def switch_to_auto(self) -> None:
"""Switch mode to auto."""
self.set_mode(auto_mode=1, loop_mode=0)
def switch_to_manual(self) -> None:
"""Switch mode to manual."""
self.set_mode(auto_mode=0, loop_mode=0)
# Set temperature for manual mode (also activates manual mode if currently in automatic)
def set_temp(self, temp: float) -> None:
"""Set the target temperature."""
self.send_request(bytearray([0x01, 0x06, 0x00, 0x01, 0x00, int(temp * 2)]))
# Set device on(1) or off(0), does not deactivate Wifi connectivity.
# Remote lock disables control by buttons on thermostat.
def set_power(self, power: int = 1, remote_lock: int = 0) -> None:
"""Set the power state of the device."""
self.send_request(bytearray([0x01, 0x06, 0x00, 0x00, remote_lock, power]))
# set time on device
# n.b. day=1 is Monday, ..., day=7 is Sunday
def set_time(self, hour: int, minute: int, second: int, day: int) -> None:
"""Set the time."""
self.send_request(
bytearray(
[0x01, 0x10, 0x00, 0x08, 0x00, 0x02, 0x04, hour, minute, second, day]
)
)
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# Set timer schedule
# Format is the same as you get from get_full_status.
# weekday is a list (ordered) of 6 dicts like:
# {'start_hour':17, 'start_minute':30, 'temp': 22 }
# Each one specifies the thermostat temp that will become effective at start_hour:start_minute
# weekend is similar but only has 2 (e.g. switch on in morning and off in afternoon)
def set_schedule(self, weekday: List[dict], weekend: List[dict]) -> None:
"""Set timer schedule."""
# Begin with some magic values ...
input_payload = bytearray([0x01, 0x10, 0x00, 0x0A, 0x00, 0x0C, 0x18])
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# Now simply append times/temps
# weekday times
for i in range(0, 6):
input_payload.append(weekday[i]["start_hour"])
input_payload.append(weekday[i]["start_minute"])
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# weekend times
for i in range(0, 2):
input_payload.append(weekend[i]["start_hour"])
input_payload.append(weekend[i]["start_minute"])
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# weekday temperatures
for i in range(0, 6):
input_payload.append(int(weekday[i]["temp"] * 2))
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# weekend temperatures
for i in range(0, 2):
input_payload.append(int(weekend[i]["temp"] * 2))
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self.send_request(input_payload)