mirror of
https://github.com/LonamiWebs/Telethon.git
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159 lines
6.2 KiB
Python
159 lines
6.2 KiB
Python
import io
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import logging
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import struct
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from .mtprotostate import MTProtoState
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from ..tl import TLRequest
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from ..tl.core.tlmessage import TLMessage
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from ..tl.core.messagecontainer import MessageContainer
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__log__ = logging.getLogger(__name__)
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class MTProtoLayer:
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"""
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This class is the message encryption layer between the methods defined
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in the schema and the response objects. It also holds the necessary state
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necessary for this encryption to happen.
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The `connection` parameter is through which these messages will be sent
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and received.
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The `auth_key` must be a valid authorization key which will be used to
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encrypt these messages. This class is not responsible for generating them.
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"""
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def __init__(self, connection, auth_key):
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self._connection = connection
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self._state = MTProtoState(auth_key)
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def connect(self, timeout=None):
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"""
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Wrapper for ``self._connection.connect()``.
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"""
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return self._connection.connect(timeout=timeout)
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def disconnect(self):
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"""
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Wrapper for ``self._connection.disconnect()``.
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"""
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self._connection.disconnect()
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def reset_state(self):
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self._state = MTProtoState(self._state.auth_key)
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async def send(self, state_list):
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"""
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The list of `RequestState` that will be sent. They will
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be updated with their new message and container IDs.
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Nested lists imply an order is required for the messages in them.
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Message containers will be used if there is more than one item.
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"""
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for data in filter(None, self._pack_state_list(state_list)):
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await self._connection.send(self._state.encrypt_message_data(data))
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async def recv(self):
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"""
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Reads a single message from the network, decrypts it and returns it.
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"""
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body = await self._connection.recv()
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return self._state.decrypt_message_data(body)
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def _pack_state_list(self, state_list):
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"""
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The list of `RequestState` that will be sent. They will
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be updated with their new message and container IDs.
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Packs all their serialized data into a message (possibly
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nested inside another message and message container) and
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returns the serialized message data.
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"""
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# Note that the simplest case is writing a single query data into
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# a message, and returning the message data and ID. For efficiency
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# purposes this method supports more than one message and automatically
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# uses containers if deemed necessary.
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#
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# Technically the message and message container classes could be used
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# to store and serialize the data. However, to keep the context local
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# and relevant to the only place where such feature is actually used,
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# this is not done.
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#
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# When iterating over the state_list there are two branches, one
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# being just a state and the other being a list so the inner states
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# depend on each other. In either case, if the packed size exceeds
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# the maximum container size, it must be sent. This code is non-
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# trivial so it has been factored into an inner function.
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#
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# A new buffer instance will be used once the size should be "flushed"
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buffer = io.BytesIO()
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# The batch of requests sent in a single buffer-flush. We need to
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# remember which states were written to set their container ID.
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batch = []
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# The currently written size. Reset when it exceeds the maximum.
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size = 0
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def write_state(state, after_id=None):
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nonlocal buffer, batch, size
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if state:
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batch.append(state)
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size += len(state.data) + TLMessage.SIZE_OVERHEAD
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# Flush whenever the current size exceeds the maximum,
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# or if there's no state, which indicates force flush.
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if not state or size > MessageContainer.MAXIMUM_SIZE:
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size -= MessageContainer.MAXIMUM_SIZE
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if len(batch) > 1:
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# Inlined code to pack several messages into a container
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data = struct.pack(
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'<Ii', MessageContainer.CONSTRUCTOR_ID, len(batch)
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) + buffer.getvalue()
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buffer = io.BytesIO()
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container_id = self._state.write_data_as_message(
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buffer, data, content_related=False
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)
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for s in batch:
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s.container_id = container_id
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# At this point it's either a single msg or a msg + container
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data = buffer.getvalue()
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__log__.debug('Packed %d message(s) in %d bytes for sending',
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len(batch), len(data))
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batch.clear()
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buffer = io.BytesIO()
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return data
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if not state:
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return # Just forcibly flushing
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# If even after flushing it still exceeds the maximum size,
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# this message payload cannot be sent. Telegram would forcibly
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# close the connection, and the message would never be confirmed.
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if size > MessageContainer.MAXIMUM_SIZE:
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state.future.set_exception(
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ValueError('Request payload is too big'))
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return
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# This is the only requirement to make this work.
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state.msg_id = self._state.write_data_as_message(
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buffer, state.data, isinstance(state.request, TLRequest),
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after_id=after_id
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)
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__log__.debug('Assigned msg_id = %d to %s (%x)',
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state.msg_id, state.request.__class__.__name__,
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id(state.request))
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# TODO Yield in the inner loop -> Telegram "Invalid container". Why?
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for state in state_list:
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if not isinstance(state, list):
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yield write_state(state)
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else:
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after_id = None
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for s in state:
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yield write_state(s, after_id)
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after_id = s.msg_id
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yield write_state(None)
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def __str__(self):
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return str(self._connection)
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