plugin.audio.librespot/resources/lib/librespot/core.py
2024-02-21 00:35:31 -05:00

2307 lines
76 KiB
Python

from __future__ import annotations
import base64
import binascii
import concurrent.futures
import enum
import gzip
import io
import json
import logging
import os
import random
import sched
import socket
import struct
import threading
import time
import typing
import urllib.parse
import defusedxml.ElementTree
import requests
import websocket
from Cryptodome import Random
from Cryptodome.Cipher import AES
from Cryptodome.Hash import HMAC
from Cryptodome.Hash import SHA1
from Cryptodome.Protocol.KDF import PBKDF2
from Cryptodome.PublicKey import RSA
from Cryptodome.Signature import PKCS1_v1_5
from librespot import util
from librespot import Version
from librespot.audio import AudioKeyManager
from librespot.audio import CdnManager
from librespot.audio import PlayableContentFeeder
from librespot.audio.storage import ChannelManager
from librespot.cache import CacheManager
from librespot.crypto import CipherPair
from librespot.crypto import DiffieHellman
from librespot.crypto import Packet
from librespot.mercury import MercuryClient
from librespot.mercury import MercuryRequests
from librespot.mercury import RawMercuryRequest
from librespot.metadata import AlbumId
from librespot.metadata import ArtistId
from librespot.metadata import EpisodeId
from librespot.metadata import PlaylistId
from librespot.metadata import ShowId
from librespot.metadata import TrackId
from librespot.proto import Authentication_pb2 as Authentication
from librespot.proto import ClientToken_pb2 as ClientToken
from librespot.proto import Connect_pb2 as Connect
from librespot.proto import Connectivity_pb2 as Connectivity
from librespot.proto import Keyexchange_pb2 as Keyexchange
from librespot.proto import Metadata_pb2 as Metadata
from librespot.proto import Playlist4External_pb2 as Playlist4External
from librespot.proto.ExplicitContentPubsub_pb2 import UserAttributesUpdate
from librespot.structure import Closeable
from librespot.structure import MessageListener
from librespot.structure import RequestListener
from librespot.structure import SubListener
class ApiClient(Closeable):
""" """
logger = logging.getLogger("Librespot:ApiClient")
__base_url: str
__client_token_str: str = None
__session: Session
def __init__(self, session: Session):
self.__session = session
self.__base_url = "https://{}".format(ApResolver.get_random_spclient())
def build_request(
self,
method: str,
suffix: str,
headers: typing.Union[None, typing.Dict[str, str]],
body: typing.Union[None, bytes],
) -> requests.PreparedRequest:
"""
:param method: str:
:param suffix: str:
:param headers: typing.Union[None:
:param typing.Dict[str:
:param str]]:
:param body: typing.Union[None:
:param bytes]:
"""
if self.__client_token_str is None:
resp = self.__client_token()
self.__client_token_str = resp.granted_token.token
self.logger.debug("Updated client token: {}".format(
self.__client_token_str))
request = requests.PreparedRequest()
request.method = method
request.data = body
request.headers = {}
if headers is not None:
request.headers = headers
request.headers["Authorization"] = "Bearer {}".format(
self.__session.tokens().get("playlist-read"))
request.headers["client-token"] = self.__client_token_str
request.url = self.__base_url + suffix
return request
def send(
self,
method: str,
suffix: str,
headers: typing.Union[None, typing.Dict[str, str]],
body: typing.Union[None, bytes],
) -> requests.Response:
"""
:param method: str:
:param suffix: str:
:param headers: typing.Union[None:
:param typing.Dict[str:
:param str]]:
:param body: typing.Union[None:
:param bytes]:
"""
response = self.__session.client().send(
self.build_request(method, suffix, headers, body))
return response
def put_connect_state(self, connection_id: str,
proto: Connect.PutStateRequest) -> None:
"""
:param connection_id: str:
:param proto: Connect.PutStateRequest:
"""
response = self.send(
"PUT",
"/connect-state/v1/devices/{}".format(self.__session.device_id()),
{
"Content-Type": "application/protobuf",
"X-Spotify-Connection-Id": connection_id,
},
proto.SerializeToString(),
)
if response.status_code == 413:
self.logger.warning(
"PUT state payload is too large: {} bytes uncompressed.".
format(len(proto.SerializeToString())))
elif response.status_code != 200:
self.logger.warning("PUT state returned {}. headers: {}".format(
response.status_code, response.headers))
def get_metadata_4_track(self, track: TrackId) -> Metadata.Track:
"""
:param track: TrackId:
"""
response = self.send("GET",
"/metadata/4/track/{}".format(track.hex_id()),
None, None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise RuntimeError()
proto = Metadata.Track()
proto.ParseFromString(body)
return proto
def get_metadata_4_episode(self, episode: EpisodeId) -> Metadata.Episode:
"""
:param episode: EpisodeId:
"""
response = self.send("GET",
"/metadata/4/episode/{}".format(episode.hex_id()),
None, None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise IOError()
proto = Metadata.Episode()
proto.ParseFromString(body)
return proto
def get_metadata_4_album(self, album: AlbumId) -> Metadata.Album:
"""
:param album: AlbumId:
"""
response = self.send("GET",
"/metadata/4/album/{}".format(album.hex_id()),
None, None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise IOError()
proto = Metadata.Album()
proto.ParseFromString(body)
return proto
def get_metadata_4_artist(self, artist: ArtistId) -> Metadata.Artist:
"""
:param artist: ArtistId:
"""
response = self.send("GET",
"/metadata/4/artist/{}".format(artist.hex_id()),
None, None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise IOError()
proto = Metadata.Artist()
proto.ParseFromString(body)
return proto
def get_metadata_4_show(self, show: ShowId) -> Metadata.Show:
"""
:param show: ShowId:
"""
response = self.send("GET",
"/metadata/4/show/{}".format(show.hex_id()), None,
None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise IOError()
proto = Metadata.Show()
proto.ParseFromString(body)
return proto
def get_playlist(self,
_id: PlaylistId) -> Playlist4External.SelectedListContent:
"""
:param _id: PlaylistId:
"""
response = self.send("GET",
"/playlist/v2/playlist/{}".format(_id.id()), None,
None)
ApiClient.StatusCodeException.check_status(response)
body = response.content
if body is None:
raise IOError()
proto = Playlist4External.SelectedListContent()
proto.ParseFromString(body)
return proto
def set_client_token(self, client_token):
"""
:param client_token:
"""
self.__client_token_str = client_token
def __client_token(self):
proto_req = ClientToken.ClientTokenRequest(
request_type=ClientToken.ClientTokenRequestType.
REQUEST_CLIENT_DATA_REQUEST,
client_data=ClientToken.ClientDataRequest(
client_id=MercuryRequests.keymaster_client_id,
client_version=Version.version_name,
connectivity_sdk_data=Connectivity.ConnectivitySdkData(
device_id=self.__session.device_id(),
platform_specific_data=Connectivity.PlatformSpecificData(
windows=Connectivity.NativeWindowsData(
something1=10,
something3=21370,
something4=2,
something6=9,
something7=332,
something8=33404,
something10=True,
), ),
),
),
)
resp = requests.post(
"https://clienttoken.spotify.com/v1/clienttoken",
proto_req.SerializeToString(),
headers={
"Accept": "application/x-protobuf",
"Content-Encoding": "",
},
)
ApiClient.StatusCodeException.check_status(resp)
proto_resp = ClientToken.ClientTokenResponse()
proto_resp.ParseFromString(resp.content)
return proto_resp
class StatusCodeException(IOError):
""" """
code: int
def __init__(self, response: requests.Response):
super().__init__(response.status_code)
self.code = response.status_code
@staticmethod
def check_status(response: requests.Response) -> None:
"""
:param response: requests.Response:
"""
if response.status_code != 200:
raise ApiClient.StatusCodeException(response)
class ApResolver:
""" """
base_url = "https://apresolve.spotify.com/"
@staticmethod
def request(service_type: str) -> typing.Any:
"""Gets the specified ApResolve
:param service_type: str:
:returns: The resulting object will be returned
"""
response = requests.get("{}?type={}".format(ApResolver.base_url,
service_type))
if response.status_code != 200:
if response.status_code == 502:
raise RuntimeError(
f"ApResolve request failed with the following return value: {response.content}. Servers might be down!"
)
return response.json()
@staticmethod
def get_random_of(service_type: str) -> str:
"""Gets the specified random ApResolve url
:param service_type: str:
:returns: A random ApResolve url will be returned
"""
pool = ApResolver.request(service_type)
urls = pool.get(service_type)
if urls is None or len(urls) == 0:
raise RuntimeError("No ApResolve url available")
return random.choice(urls)
@staticmethod
def get_random_dealer() -> str:
"""Get dealer endpoint url
:returns: dealer endpoint url
"""
return ApResolver.get_random_of("dealer")
@staticmethod
def get_random_spclient() -> str:
"""Get spclient endpoint url
:returns: spclient endpoint url
"""
return ApResolver.get_random_of("spclient")
@staticmethod
def get_random_accesspoint() -> str:
"""Get accesspoint endpoint url
:returns: accesspoint endpoint url
"""
return ApResolver.get_random_of("accesspoint")
class DealerClient(Closeable):
""" """
logger = logging.getLogger("Librespot:DealerClient")
__connection: typing.Union[ConnectionHolder, None]
__last_scheduled_reconnection: typing.Union[sched.Event, None]
__message_listeners: typing.Dict[MessageListener, typing.List[str]] = {}
__message_listeners_lock = threading.Condition()
__request_listeners: typing.Dict[str, RequestListener] = {}
__request_listeners_lock = threading.Condition()
__scheduler = sched.scheduler()
__session: Session
__worker = concurrent.futures.ThreadPoolExecutor()
def __init__(self, session: Session):
self.__session = session
def add_message_listener(self, listener: MessageListener,
uris: list[str]) -> None:
"""
:param listener: MessageListener:
:param uris: list[str]:
"""
with self.__message_listeners_lock:
if listener in self.__message_listeners:
raise TypeError(
"A listener for {} has already been added.".format(uris))
self.__message_listeners[listener] = uris
self.__message_listeners_lock.notify_all()
def add_request_listener(self, listener: RequestListener, uri: str):
"""
:param listener: RequestListener:
:param uri: str:
"""
with self.__request_listeners_lock:
if uri in self.__request_listeners:
raise TypeError(
"A listener for '{}' has already been added.".format(uri))
self.__request_listeners[uri] = listener
self.__request_listeners_lock.notify_all()
def close(self) -> None:
""" """
self.__worker.shutdown()
def connect(self) -> None:
""" """
self.__connection = DealerClient.ConnectionHolder(
self.__session,
self,
"wss://{}/?access_token={}".format(
ApResolver.get_random_dealer(),
self.__session.tokens().get("playlist-read"),
),
)
def connection_invalided(self) -> None:
""" """
self.__connection = None
self.logger.debug("Scheduled reconnection attempt in 10 seconds...")
def anonymous():
""" """
self.__last_scheduled_reconnection = None
self.connect()
self.__last_scheduled_reconnection = self.__scheduler.enter(
10, 1, anonymous)
def handle_message(self, obj: typing.Any) -> None:
"""
:param obj: typing.Any:
"""
uri = obj.get("uri")
headers = self.__get_headers(obj)
payloads = obj.get("payloads")
decoded_payloads: typing.Any
if payloads is not None:
if headers.get("Content-Type") == "application/json":
decoded_payloads = payloads
elif headers.get("Content-Type") == "plain/text":
decoded_payloads = payloads
else:
decoded_payloads = base64.b64decode(payloads)
if headers.get("Transfer-Encoding") == "gzip":
decoded_payloads = gzip.decompress(decoded_payloads)
else:
decoded_payloads = b""
interesting = False
with self.__message_listeners_lock:
for listener in self.__message_listeners:
dispatched = False
keys = self.__message_listeners.get(listener)
for key in keys:
if uri.startswith(key) and not dispatched:
interesting = True
def anonymous():
""" """
listener.on_message(uri, headers, decoded_payloads)
self.__worker.submit(anonymous)
dispatched = True
if not interesting:
self.logger.debug("Couldn't dispatch message: {}".format(uri))
def handle_request(self, obj: typing.Any) -> None:
"""
:param obj: typing.Any:
"""
mid = obj.get("message_ident")
key = obj.get("key")
headers = self.__get_headers(obj)
payload = obj.get("payload")
if headers.get("Transfer-Encoding") == "gzip":
gz = base64.b64decode(payload.get("compressed"))
payload = json.loads(gzip.decompress(gz))
pid = payload.get("message_id")
sender = payload.get("sent_by_device_id")
command = payload.get("command")
self.logger.debug(
"Received request. [mid: {}, key: {}, pid: {}, sender: {}, command: {}]"
.format(mid, key, pid, sender, command))
interesting = False
with self.__request_listeners_lock:
for mid_prefix in self.__request_listeners:
if mid.startswith(mid_prefix):
listener = self.__request_listeners.get(mid_prefix)
interesting = True
def anonymous():
""" """
result = listener.on_request(mid, pid, sender, command)
if self.__connection is not None:
self.__connection.send_reply(key, result)
self.logger.warning(
"Handled request. [key: {}, result: {}]".format(
key, result))
self.__worker.submit(anonymous)
if not interesting:
self.logger.debug("Couldn't dispatch request: {}".format(mid))
def remove_message_listener(self, listener: MessageListener) -> None:
"""
:param listener: MessageListener:
"""
with self.__message_listeners_lock:
self.__message_listeners.pop(listener)
def remove_request_listener(self, listener: RequestListener) -> None:
"""
:param listener: RequestListener:
"""
with self.__request_listeners_lock:
request_listeners = {}
for key, value in self.__request_listeners.items():
if value != listener:
request_listeners[key] = value
self.__request_listeners = request_listeners
def wait_for_listener(self) -> None:
""" """
with self.__message_listeners_lock:
if self.__message_listeners == {}:
return
self.__message_listeners_lock.wait()
def __get_headers(self, obj: typing.Any) -> dict[str, str]:
headers = obj.get("headers")
if headers is None:
return {}
return headers
class ConnectionHolder(Closeable):
""" """
__closed = False
__dealer_client: DealerClient
__last_scheduled_ping: sched.Event
__received_pong = False
__scheduler = sched.scheduler()
__session: Session
__url: str
__ws: websocket.WebSocketApp
def __init__(self, session: Session, dealer_client: DealerClient,
url: str):
self.__session = session
self.__dealer_client = dealer_client
self.__url = url
self.__ws = websocket.WebSocketApp(url)
def close(self):
""" """
if not self.__closed:
self.__ws.close()
self.__closed = True
if self.__last_scheduled_ping is not None:
self.__scheduler.cancel(self.__last_scheduled_ping)
def on_failure(self, ws: websocket.WebSocketApp, error):
"""
:param ws: websocket.WebSocketApp:
:param error:
"""
if self.__closed:
return
self.__dealer_client.logger.warning(
"An exception occurred. Reconnecting...")
self.close()
def on_message(self, ws: websocket.WebSocketApp, text: str):
"""
:param ws: websocket.WebSocketApp:
:param text: str:
"""
obj = json.loads(text)
self.__dealer_client.wait_for_listener()
typ = MessageType.parse(obj.get("type"))
if typ == MessageType.MESSAGE:
self.__dealer_client.handle_message(obj)
elif typ == MessageType.REQUEST:
self.__dealer_client.handle_request(obj)
elif typ == MessageType.PONG:
self.__received_pong = True
elif typ == MessageType.PING:
pass
else:
raise RuntimeError("Unknown message type for {}".format(
typ.value))
def on_open(self, ws: websocket.WebSocketApp):
"""
:param ws: websocket.WebSocketApp:
"""
if self.__closed:
self.__dealer_client.logger.fatal(
"I wonder what happened here... Terminating. [closed: {}]".
format(self.__closed))
self.__dealer_client.logger.debug(
"Dealer connected! [url: {}]".format(self.__url))
def anonymous():
""" """
self.send_ping()
self.__received_pong = False
def anonymous2():
""" """
if self.__last_scheduled_ping is None:
return
if not self.__received_pong:
self.__dealer_client.logger.warning(
"Did not receive ping in 3 seconds. Reconnecting..."
)
self.close()
return
self.__received_pong = False
self.__scheduler.enter(3, 1, anonymous2)
self.__last_scheduled_ping = self.__scheduler.enter(
30, 1, anonymous)
self.__last_scheduled_ping = self.__scheduler.enter(
30, 1, anonymous)
def send_ping(self):
""" """
self.__ws.send('{"type":"ping"}')
def send_reply(self, key: str, result: DealerClient.RequestResult):
"""
:param key: str:
:param result: DealerClient.RequestResult:
"""
success = ("true" if result == DealerClient.RequestResult.SUCCESS
else "false")
self.__ws.send(
'{"type":"reply","key":"%s","payload":{"success":%s}' %
(key, success))
class RequestResult(enum.Enum):
""" """
UNKNOWN_SEND_COMMAND_RESULT = 0
SUCCESS = 1
DEVICE_NOT_FOUND = 2
CONTEXT_PLAYER_ERROR = 3
DEVICE_DISAPPEARED = 4
UPSTREAM_ERROR = 5
DEVICE_DOES_NOT_SUPPORT_COMMAND = 6
RATE_LIMITED = 7
class EventService(Closeable):
""" """
logger = logging.getLogger("Librespot:EventService")
__session: Session
__worker = concurrent.futures.ThreadPoolExecutor()
def __init__(self, session: Session):
self.__session = session
def __worker_callback(self, event_builder: EventBuilder):
try:
body = event_builder.to_array()
resp = self.__session.mercury().send_sync(
RawMercuryRequest.Builder().set_uri(
"hm://event-service/v1/events").set_method("POST").
add_user_field("Accept-Language", "en").add_user_field(
"X-ClientTimeStamp",
int(time.time() * 1000)).add_payload_part(body).build())
self.logger.debug("Event sent. body: {}, result: {}".format(
body, resp.status_code))
except IOError as ex:
self.logger.error("Failed sending event: {} {}".format(
event_builder, ex))
def send_event(self, event_or_builder: typing.Union[GenericEvent,
EventBuilder]):
"""
:param event_or_builder: typing.Union[GenericEvent:
:param EventBuilder]:
"""
if type(event_or_builder) is EventService.GenericEvent:
builder = event_or_builder.build()
elif type(event_or_builder) is EventService.EventBuilder:
builder = event_or_builder
else:
raise TypeError()
self.__worker.submit(lambda: self.__worker_callback(builder))
def language(self, lang: str):
"""
:param lang: str:
"""
event = EventService.EventBuilder(EventService.Type.LANGUAGE)
event.append(s=lang)
def close(self):
""" """
self.__worker.shutdown()
class Type(enum.Enum):
""" """
LANGUAGE = ("812", 1)
FETCHED_FILE_ID = ("274", 3)
NEW_SESSION_ID = ("557", 3)
NEW_PLAYBACK_ID = ("558", 1)
TRACK_PLAYED = ("372", 1)
TRACK_TRANSITION = ("12", 37)
CDN_REQUEST = ("10", 20)
eventId: str
unknown: str
def __init__(self, event_id: str, unknown: str):
self.eventId = event_id
self.unknown = unknown
class GenericEvent:
""" """
def build(self) -> EventService.EventBuilder:
""" """
raise NotImplementedError
class EventBuilder:
""" """
body: io.BytesIO
def __init__(self, event_type: EventService.Type):
self.body = io.BytesIO()
self.append_no_delimiter(event_type.value[0])
self.append(event_type.value[1])
def append_no_delimiter(self, s: str = None) -> None:
"""
:param s: str: (Default value = None)
"""
if s is None:
s = ""
self.body.write(s.encode())
def append(self,
c: int = None,
s: str = None) -> EventService.EventBuilder:
"""
:param c: int: (Default value = None)
:param s: str: (Default value = None)
"""
if c is None and s is None or c is not None and s is not None:
raise TypeError()
if c is not None:
self.body.write(b"\x09")
self.body.write(bytes([c]))
return self
if s is not None:
self.body.write(b"\x09")
self.append_no_delimiter(s)
return self
def to_array(self) -> bytes:
""" """
pos = self.body.tell()
self.body.seek(0)
data = self.body.read()
self.body.seek(pos)
return data
class MessageType(enum.Enum):
""" """
MESSAGE = "message"
PING = "ping"
PONG = "pong"
REQUEST = "request"
@staticmethod
def parse(_typ: str):
"""
:param _typ: str:
"""
if _typ == MessageType.MESSAGE.value:
return MessageType.MESSAGE
if _typ == MessageType.PING.value:
return MessageType.PING
if _typ == MessageType.PONG.value:
return MessageType.PONG
if _typ == MessageType.REQUEST.value:
return MessageType.REQUEST
raise TypeError("Unknown MessageType: {}".format(_typ))
class Session(Closeable, MessageListener, SubListener):
""" """
cipher_pair: typing.Union[CipherPair, None]
country_code: str = "EN"
connection: typing.Union[ConnectionHolder, None]
logger = logging.getLogger("Librespot:Session")
scheduled_reconnect: typing.Union[sched.Event, None] = None
scheduler = sched.scheduler(time.time)
__api: ApiClient
__ap_welcome: Authentication.APWelcome
__audio_key_manager: typing.Union[AudioKeyManager, None] = None
__auth_lock = threading.Condition()
__auth_lock_bool = False
__cache_manager: typing.Union[CacheManager, None]
__cdn_manager: typing.Union[CdnManager, None]
__channel_manager: typing.Union[ChannelManager, None] = None
__client: typing.Union[requests.Session, None]
__closed = False
__closing = False
__content_feeder: typing.Union[PlayableContentFeeder, None]
__dealer_client: typing.Union[DealerClient, None] = None
__event_service: typing.Union[EventService, None] = None
__keys: DiffieHellman
__mercury_client: MercuryClient
__receiver: typing.Union[Receiver, None] = None
__search: typing.Union[SearchManager, None]
__server_key = (b"\xac\xe0F\x0b\xff\xc20\xaf\xf4k\xfe\xc3\xbf\xbf\x86="
b"\xa1\x91\xc6\xcc3l\x93\xa1O\xb3\xb0\x16\x12\xac\xacj"
b"\xf1\x80\xe7\xf6\x14\xd9B\x9d\xbe.4fC\xe3b\xd22z\x1a"
b"\r\x92;\xae\xdd\x14\x02\xb1\x81U\x05a\x04\xd5,\x96\xa4"
b"L\x1e\xcc\x02J\xd4\xb2\x0c\x00\x1f\x17\xed\xc2/\xc45"
b"!\xc8\xf0\xcb\xae\xd2\xad\xd7+\x0f\x9d\xb3\xc52\x1a*"
b"\xfeY\xf3Z\r\xach\xf1\xfab\x1e\xfb,\x8d\x0c\xb79-\x92"
b"G\xe3\xd75\x1am\xbd$\xc2\xae%[\x88\xff\xabs)\x8a\x0b"
b"\xcc\xcd\x0cXg1\x89\xe8\xbd4\x80xJ_\xc9k\x89\x9d\x95k"
b"\xfc\x86\xd7O3\xa6x\x17\x96\xc9\xc3-\r2\xa5\xab\xcd\x05'"
b"\xe2\xf7\x10\xa3\x96\x13\xc4/\x99\xc0'\xbf\xed\x04\x9c"
b"<'X\x04\xb6\xb2\x19\xf9\xc1/\x02\xe9Hc\xec\xa1\xb6B\xa0"
b"\x9dH%\xf8\xb3\x9d\xd0\xe8j\xf9HM\xa1\xc2\xba\x860B\xea"
b"\x9d\xb3\x08l\x19\x0eH\xb3\x9df\xeb\x00\x06\xa2Z\xee\xa1"
b"\x1b\x13\x87<\xd7\x19\xe6U\xbd")
__stored_str: str = ""
__token_provider: typing.Union[TokenProvider, None]
__user_attributes = {}
def __init__(self, inner: Inner, address: str) -> None:
self.__client = Session.create_client(inner.conf)
self.connection = Session.ConnectionHolder.create(address, None)
self.__inner = inner
self.__keys = DiffieHellman()
self.logger.info("Created new session! device_id: {}, ap: {}".format(
inner.device_id, address))
def api(self) -> ApiClient:
""" """
self.__wait_auth_lock()
if self.__api is None:
raise RuntimeError("Session isn't authenticated!")
return self.__api
def ap_welcome(self):
""" """
self.__wait_auth_lock()
if self.__ap_welcome is None:
raise RuntimeError("Session isn't authenticated!")
return self.__ap_welcome
def audio_key(self) -> AudioKeyManager:
""" """
self.__wait_auth_lock()
if self.__audio_key_manager is None:
raise RuntimeError("Session isn't authenticated!")
return self.__audio_key_manager
def authenticate(self,
credential: Authentication.LoginCredentials) -> None:
"""Log in to Spotify
:param credential: Spotify account login information
:param credential: Authentication.LoginCredentials:
"""
self.__authenticate_partial(credential, False)
with self.__auth_lock:
self.__mercury_client = MercuryClient(self)
self.__token_provider = TokenProvider(self)
self.__audio_key_manager = AudioKeyManager(self)
self.__channel_manager = ChannelManager(self)
self.__api = ApiClient(self)
self.__cdn_manager = CdnManager(self)
self.__content_feeder = PlayableContentFeeder(self)
self.__cache_manager = CacheManager(self)
self.__dealer_client = DealerClient(self)
self.__search = SearchManager(self)
self.__event_service = EventService(self)
self.__auth_lock_bool = False
self.__auth_lock.notify_all()
self.dealer().connect()
self.logger.info("Authenticated as {}!".format(
self.__ap_welcome.canonical_username))
self.mercury().interested_in("spotify:user:attributes:update", self)
self.dealer().add_message_listener(
self, ["hm://connect-state/v1/connect/logout"])
def cache(self) -> CacheManager:
""" """
self.__wait_auth_lock()
if self.__cache_manager is None:
raise RuntimeError("Session isn't authenticated!")
return self.__cache_manager
def cdn(self) -> CdnManager:
""" """
self.__wait_auth_lock()
if self.__cdn_manager is None:
raise RuntimeError("Session isn't authenticated!")
return self.__cdn_manager
def channel(self) -> ChannelManager:
""" """
self.__wait_auth_lock()
if self.__channel_manager is None:
raise RuntimeError("Session isn't authenticated!")
return self.__channel_manager
def client(self) -> requests.Session:
""" """
return self.__client
def close(self) -> None:
"""Close instance"""
self.logger.info("Closing session. device_id: {}".format(
self.__inner.device_id))
self.__closing = True
if self.__dealer_client is not None:
self.__dealer_client.close()
self.__dealer_client = None
if self.__audio_key_manager is not None:
self.__audio_key_manager = None
if self.__channel_manager is not None:
self.__channel_manager.close()
self.__channel_manager = None
if self.__event_service is not None:
self.__event_service.close()
self.__event_service = None
if self.__receiver is not None:
self.__receiver.stop()
self.__receiver = None
if self.__client is not None:
self.__client.close()
self.__client = None
if self.connection is not None:
self.connection.close()
self.connection = None
with self.__auth_lock:
self.__ap_welcome = None
self.cipher_pair = None
self.__closed = True
self.logger.info("Closed session. device_id: {}".format(
self.__inner.device_id))
def connect(self) -> None:
"""Connect to the Spotify Server"""
acc = Session.Accumulator()
# Send ClientHello
nonce = Random.get_random_bytes(0x10)
client_hello_proto = Keyexchange.ClientHello(
build_info=Version.standard_build_info(),
client_nonce=nonce,
cryptosuites_supported=[
Keyexchange.Cryptosuite.CRYPTO_SUITE_SHANNON
],
login_crypto_hello=Keyexchange.LoginCryptoHelloUnion(
diffie_hellman=Keyexchange.LoginCryptoDiffieHellmanHello(
gc=self.__keys.public_key_bytes(), server_keys_known=1), ),
padding=b"\x1e",
)
client_hello_bytes = client_hello_proto.SerializeToString()
self.connection.write(b"\x00\x04")
self.connection.write_int(2 + 4 + len(client_hello_bytes))
self.connection.write(client_hello_bytes)
self.connection.flush()
acc.write(b"\x00\x04")
acc.write_int(2 + 4 + len(client_hello_bytes))
acc.write(client_hello_bytes)
# Read APResponseMessage
ap_response_message_length = self.connection.read_int()
acc.write_int(ap_response_message_length)
ap_response_message_bytes = self.connection.read(
ap_response_message_length - 4)
acc.write(ap_response_message_bytes)
ap_response_message_proto = Keyexchange.APResponseMessage()
ap_response_message_proto.ParseFromString(ap_response_message_bytes)
shared_key = util.int_to_bytes(
self.__keys.compute_shared_key(
ap_response_message_proto.challenge.login_crypto_challenge.
diffie_hellman.gs))
# Check gs_signature
rsa = RSA.construct((int.from_bytes(self.__server_key, "big"), 65537))
pkcs1_v1_5 = PKCS1_v1_5.new(rsa)
sha1 = SHA1.new()
sha1.update(ap_response_message_proto.challenge.login_crypto_challenge.
diffie_hellman.gs)
if not pkcs1_v1_5.verify(
sha1,
ap_response_message_proto.challenge.login_crypto_challenge.
diffie_hellman.gs_signature,
):
raise RuntimeError("Failed signature check!")
# Solve challenge
buffer = io.BytesIO()
for i in range(1, 6):
mac = HMAC.new(shared_key, digestmod=SHA1)
mac.update(acc.read())
mac.update(bytes([i]))
buffer.write(mac.digest())
buffer.seek(0)
mac = HMAC.new(buffer.read(20), digestmod=SHA1)
mac.update(acc.read())
challenge = mac.digest()
client_response_plaintext_proto = Keyexchange.ClientResponsePlaintext(
crypto_response=Keyexchange.CryptoResponseUnion(),
login_crypto_response=Keyexchange.LoginCryptoResponseUnion(
diffie_hellman=Keyexchange.LoginCryptoDiffieHellmanResponse(
hmac=challenge)),
pow_response=Keyexchange.PoWResponseUnion(),
)
client_response_plaintext_bytes = (
client_response_plaintext_proto.SerializeToString())
self.connection.write_int(4 + len(client_response_plaintext_bytes))
self.connection.write(client_response_plaintext_bytes)
self.connection.flush()
try:
self.connection.set_timeout(1)
scrap = self.connection.read(4)
if len(scrap) == 4:
payload = self.connection.read(
struct.unpack(">i", scrap)[0] - 4)
failed = Keyexchange.APResponseMessage()
failed.ParseFromString(payload)
raise RuntimeError(failed)
except socket.timeout:
pass
finally:
self.connection.set_timeout(0)
buffer.seek(20)
with self.__auth_lock:
self.cipher_pair = CipherPair(buffer.read(32), buffer.read(32))
self.__auth_lock_bool = True
self.logger.info("Connection successfully!")
def content_feeder(self) -> PlayableContentFeeder:
""" """
self.__wait_auth_lock()
if self.__content_feeder is None:
raise RuntimeError("Session isn't authenticated!")
return self.__content_feeder
@staticmethod
def create_client(conf: Configuration) -> requests.Session:
"""
:param conf: Configuration:
"""
client = requests.Session()
return client
def dealer(self) -> DealerClient:
""" """
self.__wait_auth_lock()
if self.__dealer_client is None:
raise RuntimeError("Session isn't authenticated!")
return self.__dealer_client
def device_id(self) -> str:
""" """
return self.__inner.device_id
def device_name(self) -> str:
""" """
return self.__inner.device_name
def device_type(self) -> Connect.DeviceType:
""" """
return self.__inner.device_type
def event(self, resp: MercuryClient.Response) -> None:
"""
:param resp: MercuryClient.Response:
"""
if resp.uri == "spotify:user:attributes:update":
attributes_update = UserAttributesUpdate()
attributes_update.ParseFromString(resp.payload)
for pair in attributes_update.pairs_list:
self.__user_attributes[pair.key] = pair.value
self.logger.info("Updated user attribute: {} -> {}".format(
pair.key, pair.value))
def get_user_attribute(self, key: str, fallback: str = None) -> str:
"""
:param key: str:
:param fallback: str: (Default value = None)
"""
return (self.__user_attributes.get(key)
if self.__user_attributes.get(key) is not None else fallback)
def is_valid(self) -> bool:
""" """
if self.__closed:
return False
self.__wait_auth_lock()
return self.__ap_welcome is not None and self.connection is not None
def mercury(self) -> MercuryClient:
""" """
self.__wait_auth_lock()
if self.__mercury_client is None:
raise RuntimeError("Session isn't authenticated!")
return self.__mercury_client
def on_message(self, uri: str, headers: typing.Dict[str, str],
payload: bytes):
"""
:param uri: str:
:param headers: typing.Dict[str:
:param str]:
:param payload: bytes:
"""
if uri == "hm://connect-state/v1/connect/logout":
self.close()
def parse_product_info(self, data) -> None:
"""Parse product information
:param data: Raw product information
"""
products = defusedxml.ElementTree.fromstring(data)
if products is None:
return
product = products[0]
if product is None:
return
for i in range(len(product)):
self.__user_attributes[product[i].tag] = product[i].text
self.logger.debug("Parsed product info: {}".format(
self.__user_attributes))
def preferred_locale(self) -> str:
""" """
return self.__inner.preferred_locale
def reconnect(self) -> None:
"""Reconnect to the Spotify Server"""
if self.connection is not None:
self.connection.close()
self.__receiver.stop()
self.connection = Session.ConnectionHolder.create(
ApResolver.get_random_accesspoint(), self.__inner.conf)
self.connect()
self.__authenticate_partial(
Authentication.LoginCredentials(
typ=self.__ap_welcome.reusable_auth_credentials_type,
username=self.__ap_welcome.canonical_username,
auth_data=self.__ap_welcome.reusable_auth_credentials,
),
True,
)
self.logger.info("Re-authenticated as {}!".format(
self.__ap_welcome.canonical_username))
def reconnecting(self) -> bool:
""" """
return not self.__closing and not self.__closed and self.connection is None
def search(self) -> SearchManager:
""" """
self.__wait_auth_lock()
if self.__search is None:
raise RuntimeError("Session isn't authenticated!")
return self.__search
def send(self, cmd: bytes, payload: bytes):
"""Send data to socket using send_unchecked
:param cmd: Command
:param payload: Payload
:param cmd: bytes:
:param payload: bytes:
"""
if self.__closing and self.connection is None:
self.logger.debug("Connection was broken while closing.")
return
if self.__closed:
raise RuntimeError("Session is closed!")
with self.__auth_lock:
if self.cipher_pair is None or self.__auth_lock_bool:
self.__auth_lock.wait()
self.__send_unchecked(cmd, payload)
def tokens(self) -> TokenProvider:
""" """
self.__wait_auth_lock()
if self.__token_provider is None:
raise RuntimeError("Session isn't authenticated!")
return self.__token_provider
def username(self):
""" """
return self.__ap_welcome.canonical_username
def stored(self):
""" """
return self.__stored_str
def __authenticate_partial(self,
credential: Authentication.LoginCredentials,
remove_lock: bool) -> None:
"""
Login to Spotify
Args:
credential: Spotify account login information
"""
if self.cipher_pair is None:
raise RuntimeError("Connection not established!")
client_response_encrypted_proto = Authentication.ClientResponseEncrypted(
login_credentials=credential,
system_info=Authentication.SystemInfo(
os=Authentication.Os.OS_UNKNOWN,
cpu_family=Authentication.CpuFamily.CPU_UNKNOWN,
system_information_string=Version.system_info_string(),
device_id=self.__inner.device_id,
),
version_string=Version.version_string(),
)
self.__send_unchecked(
Packet.Type.login,
client_response_encrypted_proto.SerializeToString())
packet = self.cipher_pair.receive_encoded(self.connection)
if packet.is_cmd(Packet.Type.ap_welcome):
self.__ap_welcome = Authentication.APWelcome()
self.__ap_welcome.ParseFromString(packet.payload)
self.__receiver = Session.Receiver(self)
bytes0x0f = Random.get_random_bytes(0x14)
self.__send_unchecked(Packet.Type.unknown_0x0f, bytes0x0f)
preferred_locale = io.BytesIO()
preferred_locale.write(b"\x00\x00\x10\x00\x02preferred-locale" +
self.__inner.preferred_locale.encode())
preferred_locale.seek(0)
self.__send_unchecked(Packet.Type.preferred_locale,
preferred_locale.read())
if remove_lock:
with self.__auth_lock:
self.__auth_lock_bool = False
self.__auth_lock.notify_all()
if self.__inner.conf.store_credentials:
reusable = self.__ap_welcome.reusable_auth_credentials
reusable_type = Authentication.AuthenticationType.Name(
self.__ap_welcome.reusable_auth_credentials_type)
if self.__inner.conf.stored_credentials_file is None:
raise TypeError(
"The file path to be saved is not specified")
self.__stored_str = base64.b64encode(
json.dumps({
"username":
self.__ap_welcome.canonical_username,
"credentials":
base64.b64encode(reusable).decode(),
"type":
reusable_type,
}).encode()).decode()
with open(self.__inner.conf.stored_credentials_file, "w") as f:
json.dump(
{
"username": self.__ap_welcome.canonical_username,
"credentials": base64.b64encode(reusable).decode(),
"type": reusable_type,
},
f,
)
elif packet.is_cmd(Packet.Type.auth_failure):
ap_login_failed = Keyexchange.APLoginFailed()
ap_login_failed.ParseFromString(packet.payload)
self.close()
raise Session.SpotifyAuthenticationException(ap_login_failed)
else:
raise RuntimeError("Unknown CMD 0x" + packet.cmd.hex())
def __send_unchecked(self, cmd: bytes, payload: bytes) -> None:
self.cipher_pair.send_encoded(self.connection, cmd, payload)
def __wait_auth_lock(self) -> None:
if self.__closing and self.connection is None:
self.logger.debug("Connection was broken while closing.")
return
if self.__closed:
raise RuntimeError("Session is closed!")
with self.__auth_lock:
if self.cipher_pair is None or self.__auth_lock_bool:
self.__auth_lock.wait()
class AbsBuilder:
""" """
conf = None
device_id = None
device_name = "librespot-python"
device_type = Connect.DeviceType.COMPUTER
preferred_locale = "en"
def __init__(self, conf: Session.Configuration = None):
if conf is None:
self.conf = Session.Configuration.Builder().build()
else:
self.conf = conf
def set_preferred_locale(self, locale: str) -> Session.AbsBuilder:
"""
:param locale: str:
"""
if len(locale) != 2:
raise TypeError("Invalid locale: {}".format(locale))
self.preferred_locale = locale
return self
def set_device_name(self, device_name: str) -> Session.AbsBuilder:
"""
:param device_name: str:
"""
self.device_name = device_name
return self
def set_device_id(self, device_id: str) -> Session.AbsBuilder:
"""
:param device_id: str:
"""
if self.device_id is not None and len(device_id) != 40:
raise TypeError("Device ID must be 40 chars long.")
self.device_id = device_id
return self
def set_device_type(
self, device_type: Connect.DeviceType) -> Session.AbsBuilder:
"""
:param device_type: Connect.DeviceType:
"""
self.device_type = device_type
return self
class Accumulator:
""" """
__buffer: io.BytesIO
def __init__(self):
self.__buffer = io.BytesIO()
def read(self) -> bytes:
"""Read all buffer
:returns: All buffer
"""
pos = self.__buffer.tell()
self.__buffer.seek(0)
data = self.__buffer.read()
self.__buffer.seek(pos)
return data
def write(self, data: bytes) -> None:
"""Write data to buffer
:param data: Bytes to be written
:param data: bytes:
"""
self.__buffer.write(data)
def write_int(self, data: int) -> None:
"""Write data to buffer
:param data: Integer to be written
:param data: int:
"""
self.write(struct.pack(">i", data))
def write_short(self, data: int) -> None:
"""Write data to buffer
:param data: Short integer to be written
:param data: int:
"""
self.write(struct.pack(">h", data))
class Builder(AbsBuilder):
""" """
login_credentials: Authentication.LoginCredentials = None
def blob(self, username: str, blob: bytes) -> Session.Builder:
"""
:param username: str:
:param blob: bytes:
"""
if self.device_id is None:
raise TypeError("You must specify the device ID first.")
self.login_credentials = self.decrypt_blob(self.device_id,
username, blob)
return self
def decrypt_blob(
self, device_id: str, username: str,
encrypted_blob: bytes) -> Authentication.LoginCredentials:
"""
:param device_id: str:
:param username: str:
:param encrypted_blob: bytes:
"""
encrypted_blob = base64.b64decode(encrypted_blob)
sha1 = SHA1.new()
sha1.update(device_id.encode())
secret = sha1.digest()
base_key = PBKDF2(secret,
username.encode(),
20,
0x100,
hmac_hash_module=SHA1)
sha1 = SHA1.new()
sha1.update(base_key)
key = sha1.digest() + b"\x00\x00\x00\x14"
aes = AES.new(key, AES.MODE_ECB)
decrypted_blob = bytearray(aes.decrypt(encrypted_blob))
l = len(decrypted_blob)
for i in range(0, l - 0x10):
decrypted_blob[l - i - 1] ^= decrypted_blob[l - i - 0x11]
blob = io.BytesIO(decrypted_blob)
blob.read(1)
le = self.read_blob_int(blob)
blob.read(le)
blob.read(1)
type_int = self.read_blob_int(blob)
type_ = Authentication.AuthenticationType.Name(type_int)
if type_ is None:
raise IOError(
TypeError(
"Unknown AuthenticationType: {}".format(type_int)))
blob.read(1)
l = self.read_blob_int(blob)
auth_data = blob.read(l)
return Authentication.LoginCredentials(
auth_data=auth_data,
typ=type_,
username=username,
)
def read_blob_int(self, buffer: io.BytesIO) -> int:
"""
:param buffer: io.BytesIO:
"""
lo = buffer.read(1)
if (int(lo[0]) & 0x80) == 0:
return int(lo[0])
hi = buffer.read(1)
return int(lo[0]) & 0x7F | int(hi[0]) << 7
def stored(self, stored_credentials_str: str):
"""Create credential from stored string
:param stored_credentials_str: str:
:returns: Builder
"""
try:
obj = json.loads(base64.b64decode(stored_credentials_str))
except binascii.Error:
pass
except json.JSONDecodeError:
pass
else:
try:
self.login_credentials = Authentication.LoginCredentials(
typ=Authentication.AuthenticationType.Value(
obj["type"]),
username=obj["username"],
auth_data=base64.b64decode(obj["credentials"]),
)
except KeyError:
pass
return self
def stored_file(self,
stored_credentials: str = None) -> Session.Builder:
"""Create credential from stored file
:param stored_credentials: str: (Default value = None)
:returns: Builder
"""
if stored_credentials is None:
stored_credentials = self.conf.stored_credentials_file
if os.path.isfile(stored_credentials):
try:
with open(stored_credentials) as f:
obj = json.load(f)
except json.JSONDecodeError:
pass
else:
try:
self.login_credentials = Authentication.LoginCredentials(
typ=Authentication.AuthenticationType.Value(
obj["type"]),
username=obj["username"],
auth_data=base64.b64decode(obj["credentials"]),
)
except KeyError:
pass
return self
def user_pass(self, username: str, password: str) -> Session.Builder:
"""Create credential from username and password
:param username: Spotify's account username
:param username: str:
:param password: str:
:returns: Builder
"""
self.login_credentials = Authentication.LoginCredentials(
username=username,
typ=Authentication.AuthenticationType.AUTHENTICATION_USER_PASS,
auth_data=password.encode(),
)
return self
def create(self) -> Session:
"""Create the Session instance
:returns: Session instance
"""
if self.login_credentials is None:
raise RuntimeError("You must select an authentication method.")
session = Session(
Session.Inner(
self.device_type,
self.device_name,
self.preferred_locale,
self.conf,
self.device_id,
),
ApResolver.get_random_accesspoint(),
)
session.connect()
session.authenticate(self.login_credentials)
return session
class Configuration:
""" """
# Proxy
# proxyEnabled: bool
# proxyType: Proxy.Type
# proxyAddress: str
# proxyPort: int
# proxyAuth: bool
# proxyUsername: str
# proxyPassword: str
# Cache
cache_enabled: bool
cache_dir: str
do_cache_clean_up: bool
# Stored credentials
store_credentials: bool
stored_credentials_file: str
# Fetching
retry_on_chunk_error: bool
def __init__(
self,
# proxy_enabled: bool,
# proxy_type: Proxy.Type,
# proxy_address: str,
# proxy_port: int,
# proxy_auth: bool,
# proxy_username: str,
# proxy_password: str,
cache_enabled: bool,
cache_dir: str,
do_cache_clean_up: bool,
store_credentials: bool,
stored_credentials_file: str,
retry_on_chunk_error: bool,
):
# self.proxyEnabled = proxy_enabled
# self.proxyType = proxy_type
# self.proxyAddress = proxy_address
# self.proxyPort = proxy_port
# self.proxyAuth = proxy_auth
# self.proxyUsername = proxy_username
# self.proxyPassword = proxy_password
self.cache_enabled = cache_enabled
self.cache_dir = cache_dir
self.do_cache_clean_up = do_cache_clean_up
self.store_credentials = store_credentials
self.stored_credentials_file = stored_credentials_file
self.retry_on_chunk_error = retry_on_chunk_error
class Builder:
""" """
# Proxy
# proxyEnabled: bool = False
# proxyType: Proxy.Type = Proxy.Type.DIRECT
# proxyAddress: str = None
# proxyPort: int = None
# proxyAuth: bool = None
# proxyUsername: str = None
# proxyPassword: str = None
# Cache
cache_enabled: bool = True
cache_dir: str = os.path.join(os.getcwd(), "cache")
do_cache_clean_up: bool = True
# Stored credentials
store_credentials: bool = True
stored_credentials_file: str = os.path.join(
os.getcwd(), "credentials.json")
# Fetching
retry_on_chunk_error: bool = True
# def set_proxy_enabled(
# self,
# proxy_enabled: bool) -> Session.Configuration.Builder:
# self.proxyEnabled = proxy_enabled
# return self
# def set_proxy_type(
# self,
# proxy_type: Proxy.Type) -> Session.Configuration.Builder:
# self.proxyType = proxy_type
# return self
# def set_proxy_address(
# self, proxy_address: str) -> Session.Configuration.Builder:
# self.proxyAddress = proxy_address
# return self
# def set_proxy_auth(
# self, proxy_auth: bool) -> Session.Configuration.Builder:
# self.proxyAuth = proxy_auth
# return self
# def set_proxy_username(
# self,
# proxy_username: str) -> Session.Configuration.Builder:
# self.proxyUsername = proxy_username
# return self
# def set_proxy_password(
# self,
# proxy_password: str) -> Session.Configuration.Builder:
# self.proxyPassword = proxy_password
# return self
def set_cache_enabled(
self,
cache_enabled: bool) -> Session.Configuration.Builder:
"""Set cache_enabled
:param cache_enabled: bool:
:returns: Builder
"""
self.cache_enabled = cache_enabled
return self
def set_cache_dir(self,
cache_dir: str) -> Session.Configuration.Builder:
"""Set cache_dir
:param cache_dir: str:
:returns: Builder
"""
self.cache_dir = cache_dir
return self
def set_do_cache_clean_up(
self,
do_cache_clean_up: bool) -> Session.Configuration.Builder:
"""Set do_cache_clean_up
:param do_cache_clean_up: bool:
:returns: Builder
"""
self.do_cache_clean_up = do_cache_clean_up
return self
def set_store_credentials(
self,
store_credentials: bool) -> Session.Configuration.Builder:
"""Set store_credentials
:param store_credentials: bool:
:returns: Builder
"""
self.store_credentials = store_credentials
return self
def set_stored_credential_file(
self, stored_credential_file: str
) -> Session.Configuration.Builder:
"""Set stored_credential_file
:param stored_credential_file: str:
:returns: Builder
"""
self.stored_credentials_file = stored_credential_file
return self
def set_retry_on_chunk_error(
self, retry_on_chunk_error: bool
) -> Session.Configuration.Builder:
"""Set retry_on_chunk_error
:param retry_on_chunk_error: bool:
:returns: Builder
"""
self.retry_on_chunk_error = retry_on_chunk_error
return self
def build(self) -> Session.Configuration:
"""Build Configuration instance
:returns: Session.Configuration
"""
return Session.Configuration(
# self.proxyEnabled,
# self.proxyType,
# self.proxyAddress,
# self.proxyPort,
# self.proxyAuth,
# self.proxyUsername,
# self.proxyPassword,
self.cache_enabled,
self.cache_dir,
self.do_cache_clean_up,
self.store_credentials,
self.stored_credentials_file,
self.retry_on_chunk_error,
)
class ConnectionHolder:
""" """
__buffer: io.BytesIO
__socket: socket.socket
def __init__(self, sock: socket.socket):
self.__buffer = io.BytesIO()
self.__socket = sock
@staticmethod
def create(address: str, conf) -> Session.ConnectionHolder:
"""Create the ConnectionHolder instance
:param address: Address to connect
:param address: str:
:param conf:
:returns: ConnectionHolder instance
"""
ap_address = address.split(":")[0]
ap_port = int(address.split(":")[1])
sock = socket.socket()
sock.connect((ap_address, ap_port))
return Session.ConnectionHolder(sock)
def close(self) -> None:
"""Close the connection"""
self.__socket.close()
def flush(self) -> None:
"""Flush data to socket"""
try:
self.__buffer.seek(0)
self.__socket.send(self.__buffer.read())
self.__buffer = io.BytesIO()
except BrokenPipeError:
pass
def read(self, length: int) -> bytes:
"""Read data from socket
:param length: int:
:returns: Bytes data from socket
"""
return self.__socket.recv(length)
def read_int(self) -> int:
"""Read integer from socket
:returns: integer from socket
"""
return struct.unpack(">i", self.read(4))[0]
def read_short(self) -> int:
"""Read short integer from socket
:returns: short integer from socket
"""
return struct.unpack(">h", self.read(2))[0]
def set_timeout(self, seconds: float) -> None:
"""Set socket's timeout
:param seconds: Number of seconds until timeout
:param seconds: float:
"""
self.__socket.settimeout(None if seconds == 0 else seconds)
def write(self, data: bytes) -> None:
"""Write data to buffer
:param data: Bytes to be written
:param data: bytes:
"""
self.__buffer.write(data)
def write_int(self, data: int) -> None:
"""Write data to buffer
:param data: Integer to be written
:param data: int:
"""
self.write(struct.pack(">i", data))
def write_short(self, data: int) -> None:
"""Write data to buffer
:param data: Short integer to be written
:param data: int:
"""
self.write(struct.pack(">h", data))
class Inner:
""" """
device_type: Connect.DeviceType = None
device_name: str
device_id: str
conf = None
preferred_locale: str
def __init__(
self,
device_type: Connect.DeviceType,
device_name: str,
preferred_locale: str,
conf: Session.Configuration,
device_id: str = None,
):
self.preferred_locale = preferred_locale
self.conf = conf
self.device_type = device_type
self.device_name = device_name
self.device_id = (device_id if device_id is not None else
util.random_hex_string(40))
class Receiver:
""" """
__session: Session
__thread: threading.Thread
__running: bool = True
def __init__(self, session):
self.__session = session
self.__thread = threading.Thread(target=self.run)
self.__thread.daemon = True
self.__thread.name = "session-packet-receiver"
self.__thread.start()
def stop(self) -> None:
""" """
self.__running = False
def run(self) -> None:
"""Receive Packet thread function"""
self.__session.logger.info("Session.Receiver started")
while self.__running:
packet: Packet
cmd: bytes
try:
packet = self.__session.cipher_pair.receive_encoded(
self.__session.connection)
cmd = Packet.Type.parse(packet.cmd)
if cmd is None:
self.__session.logger.info(
"Skipping unknown command cmd: 0x{}, payload: {}".
format(util.bytes_to_hex(packet.cmd),
packet.payload))
continue
except (RuntimeError, ConnectionResetError) as ex:
if self.__running:
self.__session.logger.fatal(
"Failed reading packet! {}".format(ex))
self.__session.reconnect()
break
if not self.__running:
break
if cmd == Packet.Type.ping:
if self.__session.scheduled_reconnect is not None:
self.__session.scheduler.cancel(
self.__session.scheduled_reconnect)
def anonymous():
""" """
self.__session.logger.warning(
"Socket timed out. Reconnecting...")
self.__session.reconnect()
self.__session.scheduled_reconnect = self.__session.scheduler.enter(
2 * 60 + 5, 1, anonymous)
self.__session.send(Packet.Type.pong, packet.payload)
elif cmd == Packet.Type.pong_ack:
continue
elif cmd == Packet.Type.country_code:
self.__session.__country_code = packet.payload.decode()
self.__session.logger.info(
"Received country_code: {}".format(
self.__session.__country_code))
elif cmd == Packet.Type.license_version:
license_version = io.BytesIO(packet.payload)
license_id = struct.unpack(">h",
license_version.read(2))[0]
if license_id != 0:
buffer = license_version.read()
self.__session.logger.info(
"Received license_version: {}, {}".format(
license_id, buffer.decode()))
else:
self.__session.logger.info(
"Received license_version: {}".format(license_id))
elif cmd == Packet.Type.unknown_0x10:
self.__session.logger.debug("Received 0x10: {}".format(
util.bytes_to_hex(packet.payload)))
elif cmd in [
Packet.Type.mercury_sub,
Packet.Type.mercury_unsub,
Packet.Type.mercury_event,
Packet.Type.mercury_req,
]:
self.__session.mercury().dispatch(packet)
elif cmd in [Packet.Type.aes_key, Packet.Type.aes_key_error]:
self.__session.audio_key().dispatch(packet)
elif cmd in [
Packet.Type.channel_error, Packet.Type.stream_chunk_res
]:
self.__session.channel().dispatch(packet)
elif cmd == Packet.Type.product_info:
self.__session.parse_product_info(packet.payload)
else:
self.__session.logger.info("Skipping {}".format(
util.bytes_to_hex(cmd)))
class SpotifyAuthenticationException(Exception):
""" """
def __init__(self, login_failed: Keyexchange.APLoginFailed):
super().__init__(
Keyexchange.ErrorCode.Name(login_failed.error_code))
class SearchManager:
""" """
base_url = "hm://searchview/km/v4/search/"
__session: Session
def __init__(self, session: Session):
self.__session = session
def request(self, request: SearchRequest) -> typing.Any:
"""
:param request: SearchRequest:
"""
if request.get_username() == "":
request.set_username(self.__session.username())
if request.get_country() == "":
request.set_country(self.__session.country_code)
if request.get_locale() == "":
request.set_locale(self.__session.preferred_locale())
response = self.__session.mercury().send_sync(
RawMercuryRequest.new_builder().set_method("GET").set_uri(
request.build_url()).build())
if response.status_code != 200:
raise SearchManager.SearchException(response.status_code)
return json.loads(response.payload)
class SearchException(Exception):
""" """
def __init__(self, status_code: int):
super().__init__("Search failed with code {}.".format(status_code))
class SearchRequest:
""" """
query: typing.Final[str]
__catalogue = ""
__country = ""
__image_size = ""
__limit = 10
__locale = ""
__username = ""
def __init__(self, query: str):
self.query = query
if query == "":
raise TypeError
def build_url(self) -> str:
""" """
url = SearchManager.base_url + urllib.parse.quote(self.query)
url += "?entityVersion=2"
url += "&catalogue=" + urllib.parse.quote(self.__catalogue)
url += "&country=" + urllib.parse.quote(self.__country)
url += "&imageSize=" + urllib.parse.quote(self.__image_size)
url += "&limit=" + str(self.__limit)
url += "&locale=" + urllib.parse.quote(self.__locale)
url += "&username=" + urllib.parse.quote(self.__username)
return url
def get_catalogue(self) -> str:
""" """
return self.__catalogue
def get_country(self) -> str:
""" """
return self.__country
def get_image_size(self) -> str:
""" """
return self.__image_size
def get_limit(self) -> int:
""" """
return self.__limit
def get_locale(self) -> str:
""" """
return self.__locale
def get_username(self) -> str:
""" """
return self.__username
def set_catalogue(self, catalogue: str) -> SearchManager.SearchRequest:
"""
:param catalogue: str:
"""
self.__catalogue = catalogue
return self
def set_country(self, country: str) -> SearchManager.SearchRequest:
"""
:param country: str:
"""
self.__country = country
return self
def set_image_size(self,
image_size: str) -> SearchManager.SearchRequest:
"""
:param image_size: str:
"""
self.__image_size = image_size
return self
def set_limit(self, limit: int) -> SearchManager.SearchRequest:
"""
:param limit: int:
"""
self.__limit = limit
return self
def set_locale(self, locale: str) -> SearchManager.SearchRequest:
"""
:param locale: str:
"""
self.__locale = locale
return self
def set_username(self, username: str) -> SearchManager.SearchRequest:
"""
:param username: str:
"""
self.__username = username
return self
class TokenProvider:
""" """
logger = logging.getLogger("Librespot:TokenProvider")
token_expire_threshold = 10
__session: Session
__tokens: typing.List[StoredToken] = []
def __init__(self, session: Session):
self._session = session
def find_token_with_all_scopes(
self, scopes: typing.List[str]) -> typing.Union[StoredToken, None]:
"""
:param scopes: typing.List[str]:
"""
for token in self.__tokens:
if token.has_scopes(scopes):
return token
return None
def get(self, scope: str) -> str:
"""
:param scope: str:
"""
return self.get_token(scope).access_token
def get_token(self, *scopes) -> StoredToken:
"""
:param *scopes:
"""
scopes = list(scopes)
if len(scopes) == 0:
raise RuntimeError("The token doesn't have any scope")
token = self.find_token_with_all_scopes(scopes)
if token is not None:
if token.expired():
self.__tokens.remove(token)
else:
return token
self.logger.debug(
"Token expired or not suitable, requesting again. scopes: {}, old_token: {}"
.format(scopes, token))
response = self._session.mercury().send_sync_json(
MercuryRequests.request_token(self._session.device_id(),
",".join(scopes)))
token = TokenProvider.StoredToken(response)
self.logger.debug(
"Updated token successfully! scopes: {}, new_token: {}".format(
scopes, token))
self.__tokens.append(token)
return token
class StoredToken:
""" """
expires_in: int
access_token: str
scopes: typing.List[str]
timestamp: int
def __init__(self, obj):
self.timestamp = int(time.time_ns() / 1000)
self.expires_in = obj["expiresIn"]
self.access_token = obj["accessToken"]
self.scopes = obj["scope"]
def expired(self) -> bool:
""" """
return self.timestamp + (self.expires_in - TokenProvider.
token_expire_threshold) * 1000 < int(
time.time_ns() / 1000)
def has_scope(self, scope: str) -> bool:
"""
:param scope: str:
"""
for s in self.scopes:
if s == scope:
return True
return False
def has_scopes(self, sc: typing.List[str]) -> bool:
"""
:param sc: typing.List[str]:
"""
for s in sc:
if not self.has_scope(s):
return False
return True