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674 lines
23 KiB
674 lines
23 KiB
"""
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wsproto/frame_protocol
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~~~~~~~~~~~~~~~~~~~~~~
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WebSocket frame protocol implementation.
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"""
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import os
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import struct
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from codecs import getincrementaldecoder, IncrementalDecoder
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from enum import IntEnum
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from typing import Generator, List, NamedTuple, Optional, Tuple, TYPE_CHECKING, Union
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if TYPE_CHECKING:
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from .extensions import Extension # pragma: no cover
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_XOR_TABLE = [bytes(a ^ b for a in range(256)) for b in range(256)]
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class XorMaskerSimple:
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def __init__(self, masking_key: bytes) -> None:
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self._masking_key = masking_key
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def process(self, data: bytes) -> bytes:
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if data:
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data_array = bytearray(data)
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a, b, c, d = (_XOR_TABLE[n] for n in self._masking_key)
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data_array[::4] = data_array[::4].translate(a)
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data_array[1::4] = data_array[1::4].translate(b)
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data_array[2::4] = data_array[2::4].translate(c)
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data_array[3::4] = data_array[3::4].translate(d)
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# Rotate the masking key so that the next usage continues
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# with the next key element, rather than restarting.
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key_rotation = len(data) % 4
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self._masking_key = (
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self._masking_key[key_rotation:] + self._masking_key[:key_rotation]
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)
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return bytes(data_array)
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return data
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class XorMaskerNull:
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def process(self, data: bytes) -> bytes:
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return data
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# RFC6455, Section 5.2 - Base Framing Protocol
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# Payload length constants
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PAYLOAD_LENGTH_TWO_BYTE = 126
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PAYLOAD_LENGTH_EIGHT_BYTE = 127
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MAX_PAYLOAD_NORMAL = 125
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MAX_PAYLOAD_TWO_BYTE = 2**16 - 1
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MAX_PAYLOAD_EIGHT_BYTE = 2**64 - 1
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MAX_FRAME_PAYLOAD = MAX_PAYLOAD_EIGHT_BYTE
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# MASK and PAYLOAD LEN are packed into a byte
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MASK_MASK = 0x80
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PAYLOAD_LEN_MASK = 0x7F
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# FIN, RSV[123] and OPCODE are packed into a single byte
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FIN_MASK = 0x80
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RSV1_MASK = 0x40
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RSV2_MASK = 0x20
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RSV3_MASK = 0x10
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OPCODE_MASK = 0x0F
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class Opcode(IntEnum):
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"""
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RFC 6455, Section 5.2 - Base Framing Protocol
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"""
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#: Continuation frame
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CONTINUATION = 0x0
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#: Text message
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TEXT = 0x1
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#: Binary message
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BINARY = 0x2
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#: Close frame
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CLOSE = 0x8
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#: Ping frame
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PING = 0x9
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#: Pong frame
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PONG = 0xA
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def iscontrol(self) -> bool:
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return bool(self & 0x08)
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class CloseReason(IntEnum):
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"""
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RFC 6455, Section 7.4.1 - Defined Status Codes
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"""
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#: indicates a normal closure, meaning that the purpose for
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#: which the connection was established has been fulfilled.
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NORMAL_CLOSURE = 1000
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#: indicates that an endpoint is "going away", such as a server
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#: going down or a browser having navigated away from a page.
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GOING_AWAY = 1001
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#: indicates that an endpoint is terminating the connection due
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#: to a protocol error.
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PROTOCOL_ERROR = 1002
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#: indicates that an endpoint is terminating the connection
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#: because it has received a type of data it cannot accept (e.g., an
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#: endpoint that understands only text data MAY send this if it
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#: receives a binary message).
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UNSUPPORTED_DATA = 1003
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#: Reserved. The specific meaning might be defined in the future.
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# DON'T DEFINE THIS: RESERVED_1004 = 1004
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#: is a reserved value and MUST NOT be set as a status code in a
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#: Close control frame by an endpoint. It is designated for use in
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#: applications expecting a status code to indicate that no status
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#: code was actually present.
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NO_STATUS_RCVD = 1005
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#: is a reserved value and MUST NOT be set as a status code in a
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#: Close control frame by an endpoint. It is designated for use in
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#: applications expecting a status code to indicate that the
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#: connection was closed abnormally, e.g., without sending or
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#: receiving a Close control frame.
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ABNORMAL_CLOSURE = 1006
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#: indicates that an endpoint is terminating the connection
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#: because it has received data within a message that was not
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#: consistent with the type of the message (e.g., non-UTF-8 [RFC3629]
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#: data within a text message).
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INVALID_FRAME_PAYLOAD_DATA = 1007
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#: indicates that an endpoint is terminating the connection
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#: because it has received a message that violates its policy. This
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#: is a generic status code that can be returned when there is no
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#: other more suitable status code (e.g., 1003 or 1009) or if there
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#: is a need to hide specific details about the policy.
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POLICY_VIOLATION = 1008
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#: indicates that an endpoint is terminating the connection
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#: because it has received a message that is too big for it to
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#: process.
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MESSAGE_TOO_BIG = 1009
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#: indicates that an endpoint (client) is terminating the
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#: connection because it has expected the server to negotiate one or
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#: more extension, but the server didn't return them in the response
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#: message of the WebSocket handshake. The list of extensions that
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#: are needed SHOULD appear in the /reason/ part of the Close frame.
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#: Note that this status code is not used by the server, because it
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#: can fail the WebSocket handshake instead.
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MANDATORY_EXT = 1010
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#: indicates that a server is terminating the connection because
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#: it encountered an unexpected condition that prevented it from
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#: fulfilling the request.
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INTERNAL_ERROR = 1011
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#: Server/service is restarting
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#: (not part of RFC6455)
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SERVICE_RESTART = 1012
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#: Temporary server condition forced blocking client's request
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#: (not part of RFC6455)
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TRY_AGAIN_LATER = 1013
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#: is a reserved value and MUST NOT be set as a status code in a
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#: Close control frame by an endpoint. It is designated for use in
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#: applications expecting a status code to indicate that the
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#: connection was closed due to a failure to perform a TLS handshake
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#: (e.g., the server certificate can't be verified).
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TLS_HANDSHAKE_FAILED = 1015
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# RFC 6455, Section 7.4.1 - Defined Status Codes
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LOCAL_ONLY_CLOSE_REASONS = (
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CloseReason.NO_STATUS_RCVD,
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CloseReason.ABNORMAL_CLOSURE,
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CloseReason.TLS_HANDSHAKE_FAILED,
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)
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# RFC 6455, Section 7.4.2 - Status Code Ranges
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MIN_CLOSE_REASON = 1000
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MIN_PROTOCOL_CLOSE_REASON = 1000
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MAX_PROTOCOL_CLOSE_REASON = 2999
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MIN_LIBRARY_CLOSE_REASON = 3000
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MAX_LIBRARY_CLOSE_REASON = 3999
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MIN_PRIVATE_CLOSE_REASON = 4000
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MAX_PRIVATE_CLOSE_REASON = 4999
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MAX_CLOSE_REASON = 4999
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NULL_MASK = struct.pack("!I", 0)
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class ParseFailed(Exception):
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def __init__(
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self, msg: str, code: CloseReason = CloseReason.PROTOCOL_ERROR
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) -> None:
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super().__init__(msg)
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self.code = code
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class RsvBits(NamedTuple):
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rsv1: bool
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rsv2: bool
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rsv3: bool
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class Header(NamedTuple):
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fin: bool
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rsv: RsvBits
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opcode: Opcode
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payload_len: int
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masking_key: Optional[bytes]
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class Frame(NamedTuple):
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opcode: Opcode
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payload: Union[bytes, str, Tuple[int, str]]
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frame_finished: bool
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message_finished: bool
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def _truncate_utf8(data: bytes, nbytes: int) -> bytes:
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if len(data) <= nbytes:
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return data
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# Truncate
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data = data[:nbytes]
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# But we might have cut a codepoint in half, in which case we want to
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# discard the partial character so the data is at least
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# well-formed. This is a little inefficient since it processes the
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# whole message twice when in theory we could just peek at the last
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# few characters, but since this is only used for close messages (max
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# length = 125 bytes) it really doesn't matter.
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data = data.decode("utf-8", errors="ignore").encode("utf-8")
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return data
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class Buffer:
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def __init__(self, initial_bytes: Optional[bytes] = None) -> None:
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self.buffer = bytearray()
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self.bytes_used = 0
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if initial_bytes:
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self.feed(initial_bytes)
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def feed(self, new_bytes: bytes) -> None:
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self.buffer += new_bytes
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def consume_at_most(self, nbytes: int) -> bytes:
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if not nbytes:
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return bytearray()
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data = self.buffer[self.bytes_used : self.bytes_used + nbytes]
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self.bytes_used += len(data)
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return data
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def consume_exactly(self, nbytes: int) -> Optional[bytes]:
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if len(self.buffer) - self.bytes_used < nbytes:
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return None
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return self.consume_at_most(nbytes)
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def commit(self) -> None:
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# In CPython 3.4+, del[:n] is amortized O(n), *not* quadratic
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del self.buffer[: self.bytes_used]
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self.bytes_used = 0
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def rollback(self) -> None:
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self.bytes_used = 0
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def __len__(self) -> int:
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return len(self.buffer)
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class MessageDecoder:
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def __init__(self) -> None:
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self.opcode: Optional[Opcode] = None
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self.decoder: Optional[IncrementalDecoder] = None
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def process_frame(self, frame: Frame) -> Frame:
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assert not frame.opcode.iscontrol()
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if self.opcode is None:
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if frame.opcode is Opcode.CONTINUATION:
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raise ParseFailed("unexpected CONTINUATION")
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self.opcode = frame.opcode
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elif frame.opcode is not Opcode.CONTINUATION:
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raise ParseFailed("expected CONTINUATION, got %r" % frame.opcode)
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if frame.opcode is Opcode.TEXT:
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self.decoder = getincrementaldecoder("utf-8")()
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finished = frame.frame_finished and frame.message_finished
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if self.decoder is None:
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data = frame.payload
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else:
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assert isinstance(frame.payload, (bytes, bytearray))
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try:
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data = self.decoder.decode(frame.payload, finished)
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except UnicodeDecodeError as exc:
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raise ParseFailed(str(exc), CloseReason.INVALID_FRAME_PAYLOAD_DATA)
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frame = Frame(self.opcode, data, frame.frame_finished, finished)
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if finished:
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self.opcode = None
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self.decoder = None
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return frame
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class FrameDecoder:
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def __init__(
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self, client: bool, extensions: Optional[List["Extension"]] = None
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) -> None:
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self.client = client
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self.extensions = extensions or []
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self.buffer = Buffer()
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self.header: Optional[Header] = None
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self.effective_opcode: Optional[Opcode] = None
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self.masker: Union[None, XorMaskerNull, XorMaskerSimple] = None
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self.payload_required = 0
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self.payload_consumed = 0
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def receive_bytes(self, data: bytes) -> None:
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self.buffer.feed(data)
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def process_buffer(self) -> Optional[Frame]:
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if not self.header:
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if not self.parse_header():
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return None
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# parse_header() sets these.
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assert self.header is not None
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assert self.masker is not None
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assert self.effective_opcode is not None
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if len(self.buffer) < self.payload_required:
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return None
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payload_remaining = self.header.payload_len - self.payload_consumed
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payload = self.buffer.consume_at_most(payload_remaining)
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if not payload and self.header.payload_len > 0:
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return None
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self.buffer.commit()
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self.payload_consumed += len(payload)
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finished = self.payload_consumed == self.header.payload_len
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payload = self.masker.process(payload)
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for extension in self.extensions:
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payload_ = extension.frame_inbound_payload_data(self, payload)
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if isinstance(payload_, CloseReason):
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raise ParseFailed("error in extension", payload_)
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payload = payload_
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if finished:
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final = bytearray()
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for extension in self.extensions:
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result = extension.frame_inbound_complete(self, self.header.fin)
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if isinstance(result, CloseReason):
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raise ParseFailed("error in extension", result)
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if result is not None:
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final += result
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payload += final
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frame = Frame(self.effective_opcode, payload, finished, self.header.fin)
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if finished:
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self.header = None
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self.effective_opcode = None
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self.masker = None
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else:
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self.effective_opcode = Opcode.CONTINUATION
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return frame
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def parse_header(self) -> bool:
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data = self.buffer.consume_exactly(2)
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if data is None:
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self.buffer.rollback()
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return False
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fin = bool(data[0] & FIN_MASK)
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rsv = RsvBits(
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bool(data[0] & RSV1_MASK),
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bool(data[0] & RSV2_MASK),
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bool(data[0] & RSV3_MASK),
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)
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opcode = data[0] & OPCODE_MASK
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try:
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opcode = Opcode(opcode)
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except ValueError:
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raise ParseFailed(f"Invalid opcode {opcode:#x}")
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if opcode.iscontrol() and not fin:
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raise ParseFailed("Invalid attempt to fragment control frame")
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has_mask = bool(data[1] & MASK_MASK)
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payload_len_short = data[1] & PAYLOAD_LEN_MASK
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payload_len = self.parse_extended_payload_length(opcode, payload_len_short)
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if payload_len is None:
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self.buffer.rollback()
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return False
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self.extension_processing(opcode, rsv, payload_len)
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if has_mask and self.client:
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raise ParseFailed("client received unexpected masked frame")
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if not has_mask and not self.client:
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raise ParseFailed("server received unexpected unmasked frame")
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if has_mask:
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masking_key = self.buffer.consume_exactly(4)
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if masking_key is None:
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self.buffer.rollback()
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return False
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self.masker = XorMaskerSimple(masking_key)
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else:
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self.masker = XorMaskerNull()
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self.buffer.commit()
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self.header = Header(fin, rsv, opcode, payload_len, None)
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self.effective_opcode = self.header.opcode
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if self.header.opcode.iscontrol():
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self.payload_required = payload_len
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else:
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self.payload_required = 0
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self.payload_consumed = 0
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return True
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def parse_extended_payload_length(
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self, opcode: Opcode, payload_len: int
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) -> Optional[int]:
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if opcode.iscontrol() and payload_len > MAX_PAYLOAD_NORMAL:
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raise ParseFailed("Control frame with payload len > 125")
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if payload_len == PAYLOAD_LENGTH_TWO_BYTE:
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data = self.buffer.consume_exactly(2)
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if data is None:
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return None
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(payload_len,) = struct.unpack("!H", data)
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if payload_len <= MAX_PAYLOAD_NORMAL:
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raise ParseFailed(
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"Payload length used 2 bytes when 1 would have sufficed"
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)
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elif payload_len == PAYLOAD_LENGTH_EIGHT_BYTE:
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data = self.buffer.consume_exactly(8)
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if data is None:
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return None
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(payload_len,) = struct.unpack("!Q", data)
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if payload_len <= MAX_PAYLOAD_TWO_BYTE:
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raise ParseFailed(
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"Payload length used 8 bytes when 2 would have sufficed"
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)
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if payload_len >> 63:
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# I'm not sure why this is illegal, but that's what the RFC
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# says, so...
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raise ParseFailed("8-byte payload length with non-zero MSB")
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return payload_len
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def extension_processing(
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self, opcode: Opcode, rsv: RsvBits, payload_len: int
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) -> None:
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rsv_used = [False, False, False]
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for extension in self.extensions:
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result = extension.frame_inbound_header(self, opcode, rsv, payload_len)
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if isinstance(result, CloseReason):
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raise ParseFailed("error in extension", result)
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for bit, used in enumerate(result):
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if used:
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rsv_used[bit] = True
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for expected, found in zip(rsv_used, rsv):
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if found and not expected:
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raise ParseFailed("Reserved bit set unexpectedly")
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class FrameProtocol:
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|
def __init__(self, client: bool, extensions: List["Extension"]) -> None:
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self.client = client
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self.extensions = [ext for ext in extensions if ext.enabled()]
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# Global state
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self._frame_decoder = FrameDecoder(self.client, self.extensions)
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self._message_decoder = MessageDecoder()
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self._parse_more = self._parse_more_gen()
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self._outbound_opcode: Optional[Opcode] = None
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def _process_close(self, frame: Frame) -> Frame:
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data = frame.payload
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assert isinstance(data, (bytes, bytearray))
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|
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if not data:
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|
# "If this Close control frame contains no status code, _The
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|
# WebSocket Connection Close Code_ is considered to be 1005"
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data = (CloseReason.NO_STATUS_RCVD, "")
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elif len(data) == 1:
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raise ParseFailed("CLOSE with 1 byte payload")
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else:
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(code,) = struct.unpack("!H", data[:2])
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if code < MIN_CLOSE_REASON or code > MAX_CLOSE_REASON:
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raise ParseFailed("CLOSE with invalid code")
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try:
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code = CloseReason(code)
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except ValueError:
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pass
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if code in LOCAL_ONLY_CLOSE_REASONS:
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|
raise ParseFailed("remote CLOSE with local-only reason")
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|
if not isinstance(code, CloseReason) and code <= MAX_PROTOCOL_CLOSE_REASON:
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raise ParseFailed("CLOSE with unknown reserved code")
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try:
|
|
reason = data[2:].decode("utf-8")
|
|
except UnicodeDecodeError as exc:
|
|
raise ParseFailed(
|
|
"Error decoding CLOSE reason: " + str(exc),
|
|
CloseReason.INVALID_FRAME_PAYLOAD_DATA,
|
|
)
|
|
data = (code, reason)
|
|
|
|
return Frame(frame.opcode, data, frame.frame_finished, frame.message_finished)
|
|
|
|
def _parse_more_gen(self) -> Generator[Optional[Frame], None, None]:
|
|
# Consume as much as we can from self._buffer, yielding events, and
|
|
# then yield None when we need more data. Or raise ParseFailed.
|
|
|
|
# XX FIXME this should probably be refactored so that we never see
|
|
# disabled extensions in the first place...
|
|
self.extensions = [ext for ext in self.extensions if ext.enabled()]
|
|
closed = False
|
|
|
|
while not closed:
|
|
frame = self._frame_decoder.process_buffer()
|
|
|
|
if frame is not None:
|
|
if not frame.opcode.iscontrol():
|
|
frame = self._message_decoder.process_frame(frame)
|
|
elif frame.opcode == Opcode.CLOSE:
|
|
frame = self._process_close(frame)
|
|
closed = True
|
|
|
|
yield frame
|
|
|
|
def receive_bytes(self, data: bytes) -> None:
|
|
self._frame_decoder.receive_bytes(data)
|
|
|
|
def received_frames(self) -> Generator[Frame, None, None]:
|
|
for event in self._parse_more:
|
|
if event is None:
|
|
break
|
|
else:
|
|
yield event
|
|
|
|
def close(self, code: Optional[int] = None, reason: Optional[str] = None) -> bytes:
|
|
payload = bytearray()
|
|
if code is CloseReason.NO_STATUS_RCVD:
|
|
code = None
|
|
if code is None and reason:
|
|
raise TypeError("cannot specify a reason without a code")
|
|
if code in LOCAL_ONLY_CLOSE_REASONS:
|
|
code = CloseReason.NORMAL_CLOSURE
|
|
if code is not None:
|
|
payload += bytearray(struct.pack("!H", code))
|
|
if reason is not None:
|
|
payload += _truncate_utf8(
|
|
reason.encode("utf-8"), MAX_PAYLOAD_NORMAL - 2
|
|
)
|
|
|
|
return self._serialize_frame(Opcode.CLOSE, payload)
|
|
|
|
def ping(self, payload: bytes = b"") -> bytes:
|
|
return self._serialize_frame(Opcode.PING, payload)
|
|
|
|
def pong(self, payload: bytes = b"") -> bytes:
|
|
return self._serialize_frame(Opcode.PONG, payload)
|
|
|
|
def send_data(
|
|
self, payload: Union[bytes, bytearray, str] = b"", fin: bool = True
|
|
) -> bytes:
|
|
if isinstance(payload, (bytes, bytearray, memoryview)):
|
|
opcode = Opcode.BINARY
|
|
elif isinstance(payload, str):
|
|
opcode = Opcode.TEXT
|
|
payload = payload.encode("utf-8")
|
|
else:
|
|
raise ValueError("Must provide bytes or text")
|
|
|
|
if self._outbound_opcode is None:
|
|
self._outbound_opcode = opcode
|
|
elif self._outbound_opcode is not opcode:
|
|
raise TypeError("Data type mismatch inside message")
|
|
else:
|
|
opcode = Opcode.CONTINUATION
|
|
|
|
if fin:
|
|
self._outbound_opcode = None
|
|
|
|
return self._serialize_frame(opcode, payload, fin)
|
|
|
|
def _make_fin_rsv_opcode(self, fin: bool, rsv: RsvBits, opcode: Opcode) -> int:
|
|
fin_bits = int(fin) << 7
|
|
rsv_bits = (int(rsv.rsv1) << 6) + (int(rsv.rsv2) << 5) + (int(rsv.rsv3) << 4)
|
|
opcode_bits = int(opcode)
|
|
|
|
return fin_bits | rsv_bits | opcode_bits
|
|
|
|
def _serialize_frame(
|
|
self, opcode: Opcode, payload: bytes = b"", fin: bool = True
|
|
) -> bytes:
|
|
rsv = RsvBits(False, False, False)
|
|
for extension in reversed(self.extensions):
|
|
rsv, payload = extension.frame_outbound(self, opcode, rsv, payload, fin)
|
|
|
|
fin_rsv_opcode = self._make_fin_rsv_opcode(fin, rsv, opcode)
|
|
|
|
payload_length = len(payload)
|
|
quad_payload = False
|
|
if payload_length <= MAX_PAYLOAD_NORMAL:
|
|
first_payload = payload_length
|
|
second_payload = None
|
|
elif payload_length <= MAX_PAYLOAD_TWO_BYTE:
|
|
first_payload = PAYLOAD_LENGTH_TWO_BYTE
|
|
second_payload = payload_length
|
|
else:
|
|
first_payload = PAYLOAD_LENGTH_EIGHT_BYTE
|
|
second_payload = payload_length
|
|
quad_payload = True
|
|
|
|
if self.client:
|
|
first_payload |= 1 << 7
|
|
|
|
header = bytearray([fin_rsv_opcode, first_payload])
|
|
if second_payload is not None:
|
|
if opcode.iscontrol():
|
|
raise ValueError("payload too long for control frame")
|
|
if quad_payload:
|
|
header += bytearray(struct.pack("!Q", second_payload))
|
|
else:
|
|
header += bytearray(struct.pack("!H", second_payload))
|
|
|
|
if self.client:
|
|
# "The masking key is a 32-bit value chosen at random by the
|
|
# client. When preparing a masked frame, the client MUST pick a
|
|
# fresh masking key from the set of allowed 32-bit values. The
|
|
# masking key needs to be unpredictable; thus, the masking key
|
|
# MUST be derived from a strong source of entropy, and the masking
|
|
# key for a given frame MUST NOT make it simple for a server/proxy
|
|
# to predict the masking key for a subsequent frame. The
|
|
# unpredictability of the masking key is essential to prevent
|
|
# authors of malicious applications from selecting the bytes that
|
|
# appear on the wire."
|
|
# -- https://tools.ietf.org/html/rfc6455#section-5.3
|
|
masking_key = os.urandom(4)
|
|
masker = XorMaskerSimple(masking_key)
|
|
return header + masking_key + masker.process(payload)
|
|
|
|
return header + payload
|