vban-cmd-python/vbancmd/vbancmd.py

196 lines
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import abc
import select
import socket
from time import sleep
from threading import Thread
from typing import NamedTuple, NoReturn
from .errors import VMCMDErrors
from . import kinds
from .dataclass import (
HEADER_SIZE,
VBAN_VMRT_Packet_Data,
VBAN_VMRT_Packet_Header,
RegisterRTHeader,
TextRequestHeader
)
from .strip import InputStrip
from .bus import OutputBus
class VbanCmd(abc.ABC):
def __init__(self, **kwargs):
self._ip = kwargs['ip']
self._port = kwargs['port']
self._streamname = kwargs['streamname']
self._bps = kwargs['bps']
self._channel = kwargs['channel']
self._delay = kwargs['delay']
self._bps_opts = \
[0, 110, 150, 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 31250,
38400, 57600, 115200, 128000, 230400, 250000, 256000, 460800,921600,
1000000, 1500000, 2000000, 3000000]
if self._channel not in range(256):
raise VMCMDErrors('Channel must be in range 0 to 255')
self._text_header = TextRequestHeader(
name=self._streamname,
bps_index=self._bps_opts.index(self._bps),
channel=self._channel
)
self._register_rt_header = RegisterRTHeader()
self.expected_packet = VBAN_VMRT_Packet_Header()
self._rt_register_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self._rt_packet_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self._sendrequest_string_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
is_readable = []
is_writable = [self._rt_register_socket, self._rt_packet_socket, self._sendrequest_string_socket]
is_error = []
self.ready_to_read, self.ready_to_write, in_error = select.select(is_readable, is_writable, is_error, 60)
self._public_packet = None
def __enter__(self):
self._rt_packet_socket.bind((socket.gethostbyname(socket.gethostname()), self._port))
worker = Thread(target=self._send_register_rt, daemon=True)
worker.start()
self._public_packet = self._get_rt()
return self
def _send_register_rt(self):
if self._rt_register_socket in self.ready_to_write:
while True:
self._rt_register_socket.sendto(
self._register_rt_header.header + bytes(1), (socket.gethostbyname(self._ip), self._port)
)
count = int.from_bytes(self._register_rt_header.framecounter, 'little') + 1
self._register_rt_header.framecounter = count.to_bytes(4, 'little')
sleep(10)
def _fetch_rt_packet(self):
if self._rt_packet_socket in self.ready_to_write:
data, _ = self._rt_packet_socket.recvfrom(1024*1024*2)
# check for packet data
if len(data) > HEADER_SIZE:
# check if packet is of type rt service
if self.expected_packet.header == data[:HEADER_SIZE-4]:
return VBAN_VMRT_Packet_Data(
_voicemeeterType=data[28:29],
_reserved=data[29:30],
_buffersize=data[30:32],
_voicemeeterVersion=data[32:36],
_optionBits=data[36:40],
_samplerate=data[40:44],
_inputLeveldB100=data[44:112],
_outputLeveldB100=data[112:240],
_TransportBit=data[240:244],
_stripState=data[244:276],
_busState=data[276:308],
_stripGaindB100Layer1=data[308:324],
_stripGaindB100Layer2=data[324:340],
_stripGaindB100Layer3=data[340:356],
_stripGaindB100Layer4=data[356:372],
_stripGaindB100Layer5=data[372:388],
_stripGaindB100Layer6=data[388:404],
_stripGaindB100Layer7=data[404:420],
_stripGaindB100Layer8=data[420:436],
_busGaindB100=data[436:452],
_stripLabelUTF8c60=data[452:932],
_busLabelUTF8c60=data[932:1412],
)
@property
def public_packet(self):
return self._public_packet or self._get_rt()
@public_packet.setter
def public_packet(self, val):
self._public_packet = val
def _get_rt(self):
def fget():
data = False
while not data:
data = self._fetch_rt_packet()
return data
return fget()
def set_rt(self, id_, param=None, val=None):
cmd = id_ if not param and val else f'{id_}.{param}={val}'
if self._sendrequest_string_socket in self.ready_to_write:
self._sendrequest_string_socket.sendto(
self._text_header.header + cmd.encode(), (socket.gethostbyname(self._ip), self._port)
)
count = int.from_bytes(self._text_header.framecounter, 'little') + 1
self._text_header.framecounter = count.to_bytes(4, 'little')
def sendtext(self, cmd):
self.set_rt(cmd)
sleep(self._delay)
@property
def type(self):
return self.public_packet.voicemeetertype
@property
def version(self):
return self.public_packet.voicemeeterversion
def show(self) -> NoReturn:
""" Shows Voicemeeter if it's hidden. """
self.set_rt('Command', 'Show', 1)
def hide(self) -> NoReturn:
""" Hides Voicemeeter if it's shown. """
self.set_rt('Command', 'Show', 0)
def shutdown(self) -> NoReturn:
""" Closes Voicemeeter. """
self.set_rt('Command', 'Shutdown', 1)
def restart(self) -> NoReturn:
""" Restarts Voicemeeter's audio engine. """
self.set_rt('Command', 'Restart', 1)
def close(self):
self._rt_register_socket.close()
self._sendrequest_string_socket.close()
self._rt_packet_socket.close()
def __exit__(self, exc_type, exc_value, exc_traceback):
self.close()
def _make_remote(kind: NamedTuple) -> VbanCmd:
"""
Creates a new remote class and sets its number of inputs
and outputs for a VM kind.
The returned class will subclass VbanCmd.
"""
def init(self, **kwargs):
defaultkwargs = {
'ip': None, 'port': 6990, 'streamname': 'Command1', 'bps': 0,
'channel': 0, 'delay': 0.001
}
kwargs = defaultkwargs | kwargs
VbanCmd.__init__(self, **kwargs)
self.kind = kind
self.phys_in, self.virt_in = kind.ins
self.phys_out, self.virt_out = kind.outs
self.strip = \
tuple(InputStrip.make((i < self.phys_in), self, i)
for i in range(self.phys_in + self.virt_in))
self.bus = \
tuple(OutputBus.make((i < self.phys_out), self, i)
for i in range(self.phys_out + self.virt_out))
return type(f'VbanCmd{kind.name}', (VbanCmd,), {
'__init__': init,
})
_remotes = {kind.id: _make_remote(kind) for kind in kinds.all}
def connect(kind_id: str, **kwargs):
try:
VBANCMD_cls = _remotes[kind_id]
return VBANCMD_cls(**kwargs)
except KeyError as err:
raise VMCMDErrors(f'Invalid Voicemeeter kind: {kind_id}')