2019-12-08 22:43:49 +01:00
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import struct
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from typing import List, Optional
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class StreamError(Exception):
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"""
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An exception thrown when something goes wrong with the stream.
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"""
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class InputStream:
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"""
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A class that treats a binary blob as a stream of bytes to be emitted.
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Makes stream-like algorithms much easier to implement. All accessor
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functions that read data will advance the current position. It is not
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rewindable.
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"""
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def __init__(self, data: bytes) -> None:
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"""
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Initialize the object. Given a data blob, will set this as the stream
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and set the location to the beginning of the data blob.
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Parameters:
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data - A binary blob to read from.
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"""
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self.data = data
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self.pos = 0
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self.left = len(self.data)
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def read_blob(self, blob_size: int) -> Optional[bytes]:
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"""
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Given a blob size, read the next blob_size bytes as a binary blob.
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Parameters:
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blob_size - An integer representing the number of bytes to read.
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Returns:
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a binary string representing blob_size bytes from the current location, or None
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if there wasn't enough bytes to satisfy this request.
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"""
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if blob_size <= 0:
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return None
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if blob_size <= self.left:
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bytedata = self.data[self.pos:(self.pos + blob_size)]
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self.pos += blob_size
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self.left -= blob_size
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return bytedata
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return None
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2021-05-31 20:08:31 +02:00
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def read_byte(self) -> Optional[bytes]:
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2019-12-08 22:43:49 +01:00
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"""
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Grab the next byte at the current position. If no byte is available,
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return None.
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Returns:
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a raw byte
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"""
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return self.read_blob(1)
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2021-05-31 20:08:31 +02:00
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def read_int(self, size: int=1, is_unsigned: bool=True) -> Optional[int]:
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2019-12-08 22:43:49 +01:00
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"""
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Grab the next integer of size 'size' at the current position. If not enough
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bytes are available to decode this integer, return None.
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Parameters:
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size - Integer representing the integer size to decode. Valid values are
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1, 2 and 4 for char, short and int respectively.
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is_unsigned - An optional boolean specifying whether the integer read should be
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unsigned. Defaults to True.
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Returns:
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a python integer representing the big-endian decoding of the current
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position
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"""
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if size == 1:
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data = self.read_blob(1)
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if data is None:
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return None
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if is_unsigned:
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# Fastpath, just use python's own decoder
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return data[0]
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else:
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return struct.unpack('>b', data)[0]
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elif size == 2:
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data = self.read_blob(2)
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if data is None:
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return None
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if is_unsigned:
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return struct.unpack('>H', data)[0]
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else:
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return struct.unpack('>h', data)[0]
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elif size == 4:
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data = self.read_blob(4)
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if data is None:
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return None
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if is_unsigned:
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return struct.unpack('>I', data)[0]
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else:
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return struct.unpack('>i', data)[0]
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else:
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2020-01-07 22:29:07 +01:00
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raise StreamError(f'Unsupported size {size}')
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2019-12-08 22:43:49 +01:00
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class OutputStream:
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"""
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A class that treats a binary blob as a stream of bytes to be constructed.
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Makes stream-like algorithms much easier to implement. All accessor
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functions that write data will advance the current position. It is not
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rewindable. When finished writing, access the finished blob by copying from
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data.
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"""
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def __init__(self) -> None:
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"""
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Initialize the object.
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"""
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self.__data: List[bytes] = []
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self.__data_len = 0
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self.__formatted_data: Optional[bytes] = None
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@property
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def data(self) -> bytes:
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if self.__formatted_data is None:
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self.__formatted_data = b''.join(self.__data)
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return self.__formatted_data
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def write_byte(self, byte: bytes) -> None:
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"""
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Write a raw byte to the end of the output stream.
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Parameters:
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A byte that should be appended to the current stream.
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"""
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self.__data.append(byte)
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self.__data_len = self.__data_len + 1
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self.__formatted_data = None
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def write_int(self, integer: int, size: int=1, is_unsigned: bool=True) -> None:
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"""
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Write an integer to the end of the output stream.
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Parameters:
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integer - The integer that should be written to the stream.
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size - The byte size of the integer. Supports 1, 2 and 4 byte
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integer types.
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is_unsigned - Whether the integer should be written unsigned or
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signed. Defaults to True.
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"""
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if size == 1:
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if is_unsigned:
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self.__data.append(struct.pack('>B', integer))
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else:
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self.__data.append(struct.pack('>b', integer))
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self.__data_len = self.__data_len + 1
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elif size == 2:
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if is_unsigned:
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self.__data.append(struct.pack('>H', integer))
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else:
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self.__data.append(struct.pack('>h', integer))
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self.__data_len = self.__data_len + 2
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elif size == 4:
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if is_unsigned:
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self.__data.append(struct.pack('>I', integer))
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else:
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self.__data.append(struct.pack('>i', integer))
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self.__data_len = self.__data_len + 4
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else:
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2020-01-07 22:29:07 +01:00
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raise StreamError(f'Unsupported size {size}')
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2019-12-08 22:43:49 +01:00
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self.__formatted_data = None
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def write_pad(self, pad_to: int) -> None:
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"""
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Pad the current stream to a byte boundary specified by pad_to.
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Parameters:
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pad_to - An integer specifying the byte alignment that should be present
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after padding is complete. Supports 1, 2, 4, 8, 16 or any other power of
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two padding. After calling this, the next write_byte or write_int will
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be placed on a boundary compatible with the pad_to parameter.
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"""
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while (self.__data_len & (pad_to - 1)) != 0:
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self.__data.append(b'\0')
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self.__data_len = self.__data_len + 1
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self.__formatted_data = None
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