Mini Shell
import asyncio
import base64
import binascii
import hashlib
import json
import sys
from typing import Any, Final, Iterable, Optional, Tuple, cast
import attr
from multidict import CIMultiDict
from . import hdrs
from .abc import AbstractStreamWriter
from .helpers import call_later, set_result
from .http import (
WS_CLOSED_MESSAGE,
WS_CLOSING_MESSAGE,
WS_KEY,
WebSocketError,
WebSocketReader,
WebSocketWriter,
WSCloseCode,
WSMessage,
WSMsgType as WSMsgType,
ws_ext_gen,
ws_ext_parse,
)
from .log import ws_logger
from .streams import EofStream, FlowControlDataQueue
from .typedefs import JSONDecoder, JSONEncoder
from .web_exceptions import HTTPBadRequest, HTTPException
from .web_request import BaseRequest
from .web_response import StreamResponse
if sys.version_info >= (3, 11):
import asyncio as async_timeout
else:
import async_timeout
__all__ = (
"WebSocketResponse",
"WebSocketReady",
"WSMsgType",
)
THRESHOLD_CONNLOST_ACCESS: Final[int] = 5
@attr.s(auto_attribs=True, frozen=True, slots=True)
class WebSocketReady:
ok: bool
protocol: Optional[str]
def __bool__(self) -> bool:
return self.ok
class WebSocketResponse(StreamResponse):
_length_check = False
def __init__(
self,
*,
timeout: float = 10.0,
receive_timeout: Optional[float] = None,
autoclose: bool = True,
autoping: bool = True,
heartbeat: Optional[float] = None,
protocols: Iterable[str] = (),
compress: bool = True,
max_msg_size: int = 4 * 1024 * 1024,
) -> None:
super().__init__(status=101)
self._protocols = protocols
self._ws_protocol: Optional[str] = None
self._writer: Optional[WebSocketWriter] = None
self._reader: Optional[FlowControlDataQueue[WSMessage]] = None
self._closed = False
self._closing = False
self._conn_lost = 0
self._close_code: Optional[int] = None
self._loop: Optional[asyncio.AbstractEventLoop] = None
self._waiting: Optional[asyncio.Future[bool]] = None
self._exception: Optional[BaseException] = None
self._timeout = timeout
self._receive_timeout = receive_timeout
self._autoclose = autoclose
self._autoping = autoping
self._heartbeat = heartbeat
self._heartbeat_cb: Optional[asyncio.TimerHandle] = None
if heartbeat is not None:
self._pong_heartbeat = heartbeat / 2.0
self._pong_response_cb: Optional[asyncio.TimerHandle] = None
self._compress = compress
self._max_msg_size = max_msg_size
def _cancel_heartbeat(self) -> None:
if self._pong_response_cb is not None:
self._pong_response_cb.cancel()
self._pong_response_cb = None
if self._heartbeat_cb is not None:
self._heartbeat_cb.cancel()
self._heartbeat_cb = None
def _reset_heartbeat(self) -> None:
self._cancel_heartbeat()
if self._heartbeat is not None:
assert self._loop is not None
self._heartbeat_cb = call_later(
self._send_heartbeat,
self._heartbeat,
self._loop,
timeout_ceil_threshold=self._req._protocol._timeout_ceil_threshold
if self._req is not None
else 5,
)
def _send_heartbeat(self) -> None:
if self._heartbeat is not None and not self._closed:
assert self._loop is not None
# fire-and-forget a task is not perfect but maybe ok for
# sending ping. Otherwise we need a long-living heartbeat
# task in the class.
self._loop.create_task(self._writer.ping()) # type: ignore[union-attr]
if self._pong_response_cb is not None:
self._pong_response_cb.cancel()
self._pong_response_cb = call_later(
self._pong_not_received,
self._pong_heartbeat,
self._loop,
timeout_ceil_threshold=self._req._protocol._timeout_ceil_threshold
if self._req is not None
else 5,
)
def _pong_not_received(self) -> None:
if self._req is not None and self._req.transport is not None:
self._closed = True
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
self._exception = asyncio.TimeoutError()
async def prepare(self, request: BaseRequest) -> AbstractStreamWriter:
# make pre-check to don't hide it by do_handshake() exceptions
if self._payload_writer is not None:
return self._payload_writer
protocol, writer = self._pre_start(request)
payload_writer = await super().prepare(request)
assert payload_writer is not None
self._post_start(request, protocol, writer)
await payload_writer.drain()
return payload_writer
def _handshake(
self, request: BaseRequest
) -> Tuple["CIMultiDict[str]", str, bool, bool]:
headers = request.headers
if "websocket" != headers.get(hdrs.UPGRADE, "").lower().strip():
raise HTTPBadRequest(
text=(
"No WebSocket UPGRADE hdr: {}\n Can "
'"Upgrade" only to "WebSocket".'
).format(headers.get(hdrs.UPGRADE))
)
if "upgrade" not in headers.get(hdrs.CONNECTION, "").lower():
raise HTTPBadRequest(
text="No CONNECTION upgrade hdr: {}".format(
headers.get(hdrs.CONNECTION)
)
)
# find common sub-protocol between client and server
protocol = None
if hdrs.SEC_WEBSOCKET_PROTOCOL in headers:
req_protocols = [
str(proto.strip())
for proto in headers[hdrs.SEC_WEBSOCKET_PROTOCOL].split(",")
]
for proto in req_protocols:
if proto in self._protocols:
protocol = proto
break
else:
# No overlap found: Return no protocol as per spec
ws_logger.warning(
"Client protocols %r don’t overlap server-known ones %r",
req_protocols,
self._protocols,
)
# check supported version
version = headers.get(hdrs.SEC_WEBSOCKET_VERSION, "")
if version not in ("13", "8", "7"):
raise HTTPBadRequest(text=f"Unsupported version: {version}")
# check client handshake for validity
key = headers.get(hdrs.SEC_WEBSOCKET_KEY)
try:
if not key or len(base64.b64decode(key)) != 16:
raise HTTPBadRequest(text=f"Handshake error: {key!r}")
except binascii.Error:
raise HTTPBadRequest(text=f"Handshake error: {key!r}") from None
accept_val = base64.b64encode(
hashlib.sha1(key.encode() + WS_KEY).digest()
).decode()
response_headers = CIMultiDict(
{
hdrs.UPGRADE: "websocket",
hdrs.CONNECTION: "upgrade",
hdrs.SEC_WEBSOCKET_ACCEPT: accept_val,
}
)
notakeover = False
compress = 0
if self._compress:
extensions = headers.get(hdrs.SEC_WEBSOCKET_EXTENSIONS)
# Server side always get return with no exception.
# If something happened, just drop compress extension
compress, notakeover = ws_ext_parse(extensions, isserver=True)
if compress:
enabledext = ws_ext_gen(
compress=compress, isserver=True, server_notakeover=notakeover
)
response_headers[hdrs.SEC_WEBSOCKET_EXTENSIONS] = enabledext
if protocol:
response_headers[hdrs.SEC_WEBSOCKET_PROTOCOL] = protocol
return (
response_headers,
protocol,
compress,
notakeover,
) # type: ignore[return-value]
def _pre_start(self, request: BaseRequest) -> Tuple[str, WebSocketWriter]:
self._loop = request._loop
headers, protocol, compress, notakeover = self._handshake(request)
self.set_status(101)
self.headers.update(headers)
self.force_close()
self._compress = compress
transport = request._protocol.transport
assert transport is not None
writer = WebSocketWriter(
request._protocol, transport, compress=compress, notakeover=notakeover
)
return protocol, writer
def _post_start(
self, request: BaseRequest, protocol: str, writer: WebSocketWriter
) -> None:
self._ws_protocol = protocol
self._writer = writer
self._reset_heartbeat()
loop = self._loop
assert loop is not None
self._reader = FlowControlDataQueue(request._protocol, 2**16, loop=loop)
request.protocol.set_parser(
WebSocketReader(self._reader, self._max_msg_size, compress=self._compress)
)
# disable HTTP keepalive for WebSocket
request.protocol.keep_alive(False)
def can_prepare(self, request: BaseRequest) -> WebSocketReady:
if self._writer is not None:
raise RuntimeError("Already started")
try:
_, protocol, _, _ = self._handshake(request)
except HTTPException:
return WebSocketReady(False, None)
else:
return WebSocketReady(True, protocol)
@property
def closed(self) -> bool:
return self._closed
@property
def close_code(self) -> Optional[int]:
return self._close_code
@property
def ws_protocol(self) -> Optional[str]:
return self._ws_protocol
@property
def compress(self) -> bool:
return self._compress
def get_extra_info(self, name: str, default: Any = None) -> Any:
"""Get optional transport information.
If no value associated with ``name`` is found, ``default`` is returned.
"""
writer = self._writer
if writer is None:
return default
transport = writer.transport
if transport is None:
return default
return transport.get_extra_info(name, default)
def exception(self) -> Optional[BaseException]:
return self._exception
async def ping(self, message: bytes = b"") -> None:
if self._writer is None:
raise RuntimeError("Call .prepare() first")
await self._writer.ping(message)
async def pong(self, message: bytes = b"") -> None:
# unsolicited pong
if self._writer is None:
raise RuntimeError("Call .prepare() first")
await self._writer.pong(message)
async def send_str(self, data: str, compress: Optional[bool] = None) -> None:
if self._writer is None:
raise RuntimeError("Call .prepare() first")
if not isinstance(data, str):
raise TypeError("data argument must be str (%r)" % type(data))
await self._writer.send(data, binary=False, compress=compress)
async def send_bytes(self, data: bytes, compress: Optional[bool] = None) -> None:
if self._writer is None:
raise RuntimeError("Call .prepare() first")
if not isinstance(data, (bytes, bytearray, memoryview)):
raise TypeError("data argument must be byte-ish (%r)" % type(data))
await self._writer.send(data, binary=True, compress=compress)
async def send_json(
self,
data: Any,
compress: Optional[bool] = None,
*,
dumps: JSONEncoder = json.dumps,
) -> None:
await self.send_str(dumps(data), compress=compress)
async def write_eof(self) -> None: # type: ignore[override]
if self._eof_sent:
return
if self._payload_writer is None:
raise RuntimeError("Response has not been started")
await self.close()
self._eof_sent = True
async def close(
self, *, code: int = WSCloseCode.OK, message: bytes = b"", drain: bool = True
) -> bool:
"""Close websocket connection."""
if self._writer is None:
raise RuntimeError("Call .prepare() first")
self._cancel_heartbeat()
reader = self._reader
assert reader is not None
# we need to break `receive()` cycle first,
# `close()` may be called from different task
if self._waiting is not None and not self._closed:
reader.feed_data(WS_CLOSING_MESSAGE, 0)
await self._waiting
if self._closed:
return False
self._closed = True
try:
await self._writer.close(code, message)
writer = self._payload_writer
assert writer is not None
if drain:
await writer.drain()
except (asyncio.CancelledError, asyncio.TimeoutError):
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
raise
except Exception as exc:
self._exception = exc
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
return True
if self._closing:
return True
reader = self._reader
assert reader is not None
try:
async with async_timeout.timeout(self._timeout):
msg = await reader.read()
except asyncio.CancelledError:
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
raise
except Exception as exc:
self._exception = exc
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
return True
if msg.type == WSMsgType.CLOSE:
self._set_code_close_transport(msg.data)
return True
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
self._exception = asyncio.TimeoutError()
return True
def _set_code_close_transport(self, code: WSCloseCode) -> None:
"""Set the close code and close the transport."""
self._close_code = code
if self._req is not None and self._req.transport is not None:
self._req.transport.close()
async def receive(self, timeout: Optional[float] = None) -> WSMessage:
if self._reader is None:
raise RuntimeError("Call .prepare() first")
loop = self._loop
assert loop is not None
while True:
if self._waiting is not None:
raise RuntimeError("Concurrent call to receive() is not allowed")
if self._closed:
self._conn_lost += 1
if self._conn_lost >= THRESHOLD_CONNLOST_ACCESS:
raise RuntimeError("WebSocket connection is closed.")
return WS_CLOSED_MESSAGE
elif self._closing:
return WS_CLOSING_MESSAGE
try:
self._waiting = loop.create_future()
try:
async with async_timeout.timeout(timeout or self._receive_timeout):
msg = await self._reader.read()
self._reset_heartbeat()
finally:
waiter = self._waiting
set_result(waiter, True)
self._waiting = None
except (asyncio.CancelledError, asyncio.TimeoutError):
self._set_code_close_transport(WSCloseCode.ABNORMAL_CLOSURE)
raise
except EofStream:
self._close_code = WSCloseCode.OK
await self.close()
return WSMessage(WSMsgType.CLOSED, None, None)
except WebSocketError as exc:
self._close_code = exc.code
await self.close(code=exc.code)
return WSMessage(WSMsgType.ERROR, exc, None)
except Exception as exc:
self._exception = exc
self._closing = True
self._close_code = WSCloseCode.ABNORMAL_CLOSURE
await self.close()
return WSMessage(WSMsgType.ERROR, exc, None)
if msg.type == WSMsgType.CLOSE:
self._closing = True
self._close_code = msg.data
# Could be closed while awaiting reader.
if not self._closed and self._autoclose:
# The client is likely going to close the
# connection out from under us so we do not
# want to drain any pending writes as it will
# likely result writing to a broken pipe.
await self.close(drain=False)
elif msg.type == WSMsgType.CLOSING:
self._closing = True
elif msg.type == WSMsgType.PING and self._autoping:
await self.pong(msg.data)
continue
elif msg.type == WSMsgType.PONG and self._autoping:
continue
return msg
async def receive_str(self, *, timeout: Optional[float] = None) -> str:
msg = await self.receive(timeout)
if msg.type != WSMsgType.TEXT:
raise TypeError(
"Received message {}:{!r} is not WSMsgType.TEXT".format(
msg.type, msg.data
)
)
return cast(str, msg.data)
async def receive_bytes(self, *, timeout: Optional[float] = None) -> bytes:
msg = await self.receive(timeout)
if msg.type != WSMsgType.BINARY:
raise TypeError(f"Received message {msg.type}:{msg.data!r} is not bytes")
return cast(bytes, msg.data)
async def receive_json(
self, *, loads: JSONDecoder = json.loads, timeout: Optional[float] = None
) -> Any:
data = await self.receive_str(timeout=timeout)
return loads(data)
async def write(self, data: bytes) -> None:
raise RuntimeError("Cannot call .write() for websocket")
def __aiter__(self) -> "WebSocketResponse":
return self
async def __anext__(self) -> WSMessage:
msg = await self.receive()
if msg.type in (WSMsgType.CLOSE, WSMsgType.CLOSING, WSMsgType.CLOSED):
raise StopAsyncIteration
return msg
def _cancel(self, exc: BaseException) -> None:
if self._reader is not None:
self._reader.set_exception(exc)
Zerion Mini Shell 1.0