python-kasa/kasa/discover.py
J. Nick Koston 85c8410c3d
Add a connect_single method to Discover to avoid the need for UDP (#528)
This should equate to a significant reliability improvement for networks with poor wifi (edge of range)/udp.
2023-10-08 02:29:22 +02:00

371 lines
13 KiB
Python
Executable File

"""Discovery module for TP-Link Smart Home devices."""
import asyncio
import binascii
import logging
import socket
from typing import Awaitable, Callable, Dict, Optional, Type, cast
# When support for cpython older than 3.11 is dropped
# async_timeout can be replaced with asyncio.timeout
from async_timeout import timeout as asyncio_timeout
from kasa.credentials import Credentials
from kasa.exceptions import UnsupportedDeviceException
from kasa.json import dumps as json_dumps
from kasa.json import loads as json_loads
from kasa.protocol import TPLinkSmartHomeProtocol
from kasa.smartbulb import SmartBulb
from kasa.smartdevice import SmartDevice, SmartDeviceException
from kasa.smartdimmer import SmartDimmer
from kasa.smartlightstrip import SmartLightStrip
from kasa.smartplug import SmartPlug
from kasa.smartstrip import SmartStrip
_LOGGER = logging.getLogger(__name__)
OnDiscoveredCallable = Callable[[SmartDevice], Awaitable[None]]
DeviceDict = Dict[str, SmartDevice]
class _DiscoverProtocol(asyncio.DatagramProtocol):
"""Implementation of the discovery protocol handler.
This is internal class, use :func:`Discover.discover`: instead.
"""
discovered_devices: DeviceDict
def __init__(
self,
*,
on_discovered: Optional[OnDiscoveredCallable] = None,
target: str = "255.255.255.255",
discovery_packets: int = 3,
interface: Optional[str] = None,
on_unsupported: Optional[Callable[[Dict], Awaitable[None]]] = None,
port: Optional[int] = None,
discovered_event: Optional[asyncio.Event] = None,
credentials: Optional[Credentials] = None,
timeout: Optional[int] = None,
) -> None:
self.transport = None
self.discovery_packets = discovery_packets
self.interface = interface
self.on_discovered = on_discovered
self.discovery_port = port or Discover.DISCOVERY_PORT
self.target = (target, self.discovery_port)
self.target_2 = (target, Discover.DISCOVERY_PORT_2)
self.discovered_devices = {}
self.unsupported_devices: Dict = {}
self.invalid_device_exceptions: Dict = {}
self.on_unsupported = on_unsupported
self.discovered_event = discovered_event
self.credentials = credentials
self.timeout = timeout
def connection_made(self, transport) -> None:
"""Set socket options for broadcasting."""
self.transport = transport
sock = transport.get_extra_info("socket")
sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
try:
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
except OSError as ex: # WSL does not support SO_REUSEADDR, see #246
_LOGGER.debug("Unable to set SO_REUSEADDR: %s", ex)
if self.interface is not None:
sock.setsockopt(
socket.SOL_SOCKET, socket.SO_BINDTODEVICE, self.interface.encode()
)
self.do_discover()
def do_discover(self) -> None:
"""Send number of discovery datagrams."""
req = json_dumps(Discover.DISCOVERY_QUERY)
_LOGGER.debug("[DISCOVERY] %s >> %s", self.target, Discover.DISCOVERY_QUERY)
encrypted_req = TPLinkSmartHomeProtocol.encrypt(req)
for i in range(self.discovery_packets):
self.transport.sendto(encrypted_req[4:], self.target) # type: ignore
self.transport.sendto(Discover.DISCOVERY_QUERY_2, self.target_2) # type: ignore
def datagram_received(self, data, addr) -> None:
"""Handle discovery responses."""
ip, port = addr
if (
ip in self.discovered_devices
or ip in self.unsupported_devices
or ip in self.invalid_device_exceptions
):
return
if port == self.discovery_port:
info = json_loads(TPLinkSmartHomeProtocol.decrypt(data))
_LOGGER.debug("[DISCOVERY] %s << %s", ip, info)
elif port == Discover.DISCOVERY_PORT_2:
info = json_loads(data[16:])
self.unsupported_devices[ip] = info
if self.on_unsupported is not None:
asyncio.ensure_future(self.on_unsupported(info))
_LOGGER.debug("[DISCOVERY] Unsupported device found at %s << %s", ip, info)
if self.discovered_event is not None:
self.discovered_event.set()
return
try:
device_class = Discover._get_device_class(info)
except SmartDeviceException as ex:
_LOGGER.debug(
"[DISCOVERY] Unable to find device type from %s: %s", info, ex
)
self.invalid_device_exceptions[ip] = ex
if self.discovered_event is not None:
self.discovered_event.set()
return
device = device_class(
ip, port=port, credentials=self.credentials, timeout=self.timeout
)
device.update_from_discover_info(info)
self.discovered_devices[ip] = device
if self.on_discovered is not None:
asyncio.ensure_future(self.on_discovered(device))
if self.discovered_event is not None:
self.discovered_event.set()
def error_received(self, ex):
"""Handle asyncio.Protocol errors."""
_LOGGER.error("Got error: %s", ex)
def connection_lost(self, ex):
"""NOP implementation of connection lost."""
class Discover:
"""Discover TPLink Smart Home devices.
The main entry point for this library is :func:`Discover.discover()`,
which returns a dictionary of the found devices. The key is the IP address
of the device and the value contains ready-to-use, SmartDevice-derived
device object.
:func:`discover_single()` can be used to initialize a single device given its
IP address. If the type of the device and its IP address is already known,
you can initialize the corresponding device class directly without this.
The protocol uses UDP broadcast datagrams on port 9999 for discovery.
Examples:
Discovery returns a list of discovered devices:
>>> import asyncio
>>> found_devices = asyncio.run(Discover.discover())
>>> [dev.alias for dev in found_devices]
['TP-LINK_Power Strip_CF69']
Discovery can also be targeted to a specific broadcast address instead of the 255.255.255.255:
>>> asyncio.run(Discover.discover(target="192.168.8.255"))
It is also possible to pass a coroutine to be executed for each found device:
>>> async def print_alias(dev):
>>> print(f"Discovered {dev.alias}")
>>> devices = asyncio.run(Discover.discover(on_discovered=print_alias))
"""
DISCOVERY_PORT = 9999
DISCOVERY_QUERY = {
"system": {"get_sysinfo": None},
}
DISCOVERY_PORT_2 = 20002
DISCOVERY_QUERY_2 = binascii.unhexlify("020000010000000000000000463cb5d3")
@staticmethod
async def discover(
*,
target="255.255.255.255",
on_discovered=None,
timeout=5,
discovery_packets=3,
interface=None,
on_unsupported=None,
credentials=None,
) -> DeviceDict:
"""Discover supported devices.
Sends discovery message to 255.255.255.255:9999 in order
to detect available supported devices in the local network,
and waits for given timeout for answers from devices.
If you have multiple interfaces, you can use target parameter to specify the network for discovery.
If given, `on_discovered` coroutine will get awaited with a :class:`SmartDevice`-derived object as parameter.
The results of the discovery are returned as a dict of :class:`SmartDevice`-derived objects keyed with IP addresses.
The devices are already initialized and all but emeter-related properties can be accessed directly.
:param target: The target address where to send the broadcast discovery queries if multi-homing (e.g. 192.168.xxx.255).
:param on_discovered: coroutine to execute on discovery
:param timeout: How long to wait for responses, defaults to 5
:param discovery_packets: Number of discovery packets to broadcast
:param interface: Bind to specific interface
:return: dictionary with discovered devices
"""
loop = asyncio.get_event_loop()
transport, protocol = await loop.create_datagram_endpoint(
lambda: _DiscoverProtocol(
target=target,
on_discovered=on_discovered,
discovery_packets=discovery_packets,
interface=interface,
on_unsupported=on_unsupported,
credentials=credentials,
timeout=timeout,
),
local_addr=("0.0.0.0", 0),
)
protocol = cast(_DiscoverProtocol, protocol)
try:
_LOGGER.debug("Waiting %s seconds for responses...", timeout)
await asyncio.sleep(timeout)
finally:
transport.close()
_LOGGER.debug("Discovered %s devices", len(protocol.discovered_devices))
return protocol.discovered_devices
@staticmethod
async def discover_single(
host: str,
*,
port: Optional[int] = None,
timeout=5,
credentials: Optional[Credentials] = None,
) -> SmartDevice:
"""Discover a single device by the given IP address.
It is generally preferred to avoid :func:`discover_single()` and
use :func:`connect_single()` instead as it should perform better when
the WiFi network is congested or the device is not responding
to discovery requests.
:param host: Hostname of device to query
:rtype: SmartDevice
:return: Object for querying/controlling found device.
"""
loop = asyncio.get_event_loop()
event = asyncio.Event()
transport, protocol = await loop.create_datagram_endpoint(
lambda: _DiscoverProtocol(
target=host,
port=port,
discovered_event=event,
credentials=credentials,
timeout=timeout,
),
local_addr=("0.0.0.0", 0),
)
protocol = cast(_DiscoverProtocol, protocol)
try:
_LOGGER.debug("Waiting a total of %s seconds for responses...", timeout)
async with asyncio_timeout(timeout):
await event.wait()
except asyncio.TimeoutError:
raise SmartDeviceException(
f"Timed out getting discovery response for {host}"
)
finally:
transport.close()
if host in protocol.discovered_devices:
dev = protocol.discovered_devices[host]
await dev.update()
return dev
elif host in protocol.unsupported_devices:
raise UnsupportedDeviceException(
f"Unsupported device {host}: {protocol.unsupported_devices[host]}"
)
elif host in protocol.invalid_device_exceptions:
raise protocol.invalid_device_exceptions[host]
else:
raise SmartDeviceException(f"Unable to get discovery response for {host}")
@staticmethod
async def connect_single(
host: str,
*,
port: Optional[int] = None,
timeout=5,
credentials: Optional[Credentials] = None,
) -> SmartDevice:
"""Connect to a single device by the given IP address.
This method avoids the UDP based discovery process and
will connect directly to the device to query its type.
It is generally preferred to avoid :func:`discover_single()` and
use this function instead as it should perform better when
the WiFi network is congested or the device is not responding
to discovery requests.
The device type is discovered by querying the device.
:param host: Hostname of device to query
:rtype: SmartDevice
:return: Object for querying/controlling found device.
"""
unknown_dev = SmartDevice(
host=host, port=port, credentials=credentials, timeout=timeout
)
await unknown_dev.update()
device_class = Discover._get_device_class(unknown_dev.internal_state)
dev = device_class(
host=host, port=port, credentials=credentials, timeout=timeout
)
# Reuse the connection from the unknown device
# so we don't have to reconnect
dev.protocol = unknown_dev.protocol
return dev
@staticmethod
def _get_device_class(info: dict) -> Type[SmartDevice]:
"""Find SmartDevice subclass for device described by passed data."""
if "system" not in info or "get_sysinfo" not in info["system"]:
raise SmartDeviceException("No 'system' or 'get_sysinfo' in response")
sysinfo = info["system"]["get_sysinfo"]
type_ = sysinfo.get("type", sysinfo.get("mic_type"))
if type_ is None:
raise SmartDeviceException("Unable to find the device type field!")
if "dev_name" in sysinfo and "Dimmer" in sysinfo["dev_name"]:
return SmartDimmer
if "smartplug" in type_.lower():
if "children" in sysinfo:
return SmartStrip
return SmartPlug
if "smartbulb" in type_.lower():
if "length" in sysinfo: # strips have length
return SmartLightStrip
return SmartBulb
raise SmartDeviceException("Unknown device type: %s" % type_)