py-libp2p/libp2p/stream_muxer/mplex/mplex_stream.py

232 lines
7.7 KiB
Python

from typing import TYPE_CHECKING
import trio
from libp2p.stream_muxer.abc import IMuxedStream
from .constants import HeaderTags
from .datastructures import StreamID
from .exceptions import MplexStreamClosed, MplexStreamEOF, MplexStreamReset
if TYPE_CHECKING:
from libp2p.stream_muxer.mplex.mplex import Mplex
class MplexStream(IMuxedStream):
"""
reference: https://github.com/libp2p/go-mplex/blob/master/stream.go
"""
name: str
stream_id: StreamID
muxed_conn: "Mplex"
read_deadline: int
write_deadline: int
# TODO: Add lock for read/write to avoid interleaving receiving messages?
close_lock: trio.Lock
# NOTE: `dataIn` is size of 8 in Go implementation.
incoming_data_channel: "trio.MemoryReceiveChannel[bytes]"
event_local_closed: trio.Event
event_remote_closed: trio.Event
event_reset: trio.Event
_buf: bytearray
def __init__(
self,
name: str,
stream_id: StreamID,
muxed_conn: "Mplex",
incoming_data_channel: "trio.MemoryReceiveChannel[bytes]",
) -> None:
"""
create new MuxedStream in muxer.
:param stream_id: stream id of this stream
:param muxed_conn: muxed connection of this muxed_stream
"""
self.name = name
self.stream_id = stream_id
self.muxed_conn = muxed_conn
self.read_deadline = None
self.write_deadline = None
self.event_local_closed = trio.Event()
self.event_remote_closed = trio.Event()
self.event_reset = trio.Event()
self.close_lock = trio.Lock()
self.incoming_data_channel = incoming_data_channel
self._buf = bytearray()
@property
def is_initiator(self) -> bool:
return self.stream_id.is_initiator
async def _read_until_eof(self) -> bytes:
async for data in self.incoming_data_channel:
self._buf.extend(data)
payload = self._buf
self._buf = self._buf[len(payload) :]
return bytes(payload)
def _read_return_when_blocked(self) -> bytes:
buf = bytearray()
while True:
try:
data = self.incoming_data_channel.receive_nowait()
buf.extend(data)
except (trio.WouldBlock, trio.EndOfChannel):
break
return buf
async def read(self, n: int = -1) -> bytes:
"""
Read up to n bytes. Read possibly returns fewer than `n` bytes, if
there are not enough bytes in the Mplex buffer. If `n == -1`, read
until EOF.
:param n: number of bytes to read
:return: bytes actually read
"""
if n < 0 and n != -1:
raise ValueError(
f"the number of bytes to read `n` must be positive or -1 to indicate read until EOF"
)
if self.event_reset.is_set():
raise MplexStreamReset
if n == -1:
return await self._read_until_eof()
if len(self._buf) == 0:
data: bytes
# Peek whether there is data available. If yes, we just read until there is no data,
# and then return.
try:
data = self.incoming_data_channel.receive_nowait()
self._buf.extend(data)
except trio.EndOfChannel:
raise MplexStreamEOF
except trio.WouldBlock:
# We know `receive` will be blocked here. Wait for data here with `receive` and
# catch all kinds of errors here.
try:
data = await self.incoming_data_channel.receive()
self._buf.extend(data)
except trio.EndOfChannel:
if self.event_reset.is_set():
raise MplexStreamReset
if self.event_remote_closed.is_set():
raise MplexStreamEOF
except trio.ClosedResourceError as error:
# Probably `incoming_data_channel` is closed in `reset` when we are waiting
# for `receive`.
if self.event_reset.is_set():
raise MplexStreamReset
raise Exception(
"`incoming_data_channel` is closed but stream is not reset. "
"This should never happen."
) from error
self._buf.extend(self._read_return_when_blocked())
payload = self._buf[:n]
self._buf = self._buf[len(payload) :]
return bytes(payload)
async def write(self, data: bytes) -> int:
"""
write to stream.
:return: number of bytes written
"""
if self.event_local_closed.is_set():
raise MplexStreamClosed(f"cannot write to closed stream: data={data!r}")
flag = (
HeaderTags.MessageInitiator
if self.is_initiator
else HeaderTags.MessageReceiver
)
return await self.muxed_conn.send_message(flag, data, self.stream_id)
async def close(self) -> None:
"""Closing a stream closes it for writing and closes the remote end for
reading but allows writing in the other direction."""
# TODO error handling with timeout
async with self.close_lock:
if self.event_local_closed.is_set():
return
flag = (
HeaderTags.CloseInitiator if self.is_initiator else HeaderTags.CloseReceiver
)
# TODO: Raise when `muxed_conn.send_message` fails and `Mplex` isn't shutdown.
await self.muxed_conn.send_message(flag, None, self.stream_id)
_is_remote_closed: bool
async with self.close_lock:
self.event_local_closed.set()
_is_remote_closed = self.event_remote_closed.is_set()
if _is_remote_closed:
# Both sides are closed, we can safely remove the buffer from the dict.
async with self.muxed_conn.streams_lock:
self.muxed_conn.streams.pop(self.stream_id, None)
async def reset(self) -> None:
"""closes both ends of the stream tells this remote side to hang up."""
async with self.close_lock:
# Both sides have been closed. No need to event_reset.
if self.event_remote_closed.is_set() and self.event_local_closed.is_set():
return
if self.event_reset.is_set():
return
self.event_reset.set()
if not self.event_remote_closed.is_set():
flag = (
HeaderTags.ResetInitiator
if self.is_initiator
else HeaderTags.ResetReceiver
)
self.muxed_conn.manager.run_task(
self.muxed_conn.send_message, flag, None, self.stream_id
)
self.event_local_closed.set()
self.event_remote_closed.set()
await self.incoming_data_channel.aclose()
async with self.muxed_conn.streams_lock:
if self.muxed_conn.streams is not None:
self.muxed_conn.streams.pop(self.stream_id, None)
# TODO deadline not in use
def set_deadline(self, ttl: int) -> bool:
"""
set deadline for muxed stream.
:return: True if successful
"""
self.read_deadline = ttl
self.write_deadline = ttl
return True
def set_read_deadline(self, ttl: int) -> bool:
"""
set read deadline for muxed stream.
:return: True if successful
"""
self.read_deadline = ttl
return True
def set_write_deadline(self, ttl: int) -> bool:
"""
set write deadline for muxed stream.
:return: True if successful
"""
self.write_deadline = ttl
return True