lbry-sdk/lbrynet/dht/encoding.py

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from __future__ import print_function
from .error import DecodeError
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import sys
if sys.version_info > (3,):
long = int
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class Encoding(object):
""" Interface for RPC message encoders/decoders
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All encoding implementations used with this library should inherit and
implement this.
"""
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def encode(self, data):
""" Encode the specified data
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@param data: The data to encode
This method has to support encoding of the following
types: C{str}, C{int} and C{long}
Any additional data types may be supported as long as the
implementing class's C{decode()} method can successfully
decode them.
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@return: The encoded data
@rtype: str
"""
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def decode(self, data):
""" Decode the specified data string
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@param data: The data (byte string) to decode.
@type data: str
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@return: The decoded data (in its correct type)
"""
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class Bencode(Encoding):
""" Implementation of a Bencode-based algorithm (Bencode is the encoding
algorithm used by Bittorrent).
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@note: This algorithm differs from the "official" Bencode algorithm in
that it can encode/decode floating point values in addition to
integers.
"""
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def encode(self, data):
""" Encoder implementation of the Bencode algorithm
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@param data: The data to encode
@type data: int, long, tuple, list, dict or str
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@return: The encoded data
@rtype: str
"""
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if isinstance(data, (int, long)):
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return 'i%de' % data
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elif isinstance(data, str):
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return '%d:%s' % (len(data), data)
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elif isinstance(data, (list, tuple)):
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encodedListItems = ''
for item in data:
encodedListItems += self.encode(item)
return 'l%se' % encodedListItems
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elif isinstance(data, dict):
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encodedDictItems = ''
keys = data.keys()
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for key in sorted(keys):
encodedDictItems += self.encode(key) # TODO: keys should always be bytestrings
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encodedDictItems += self.encode(data[key])
return 'd%se' % encodedDictItems
else:
print(data)
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raise TypeError("Cannot bencode '%s' object" % type(data))
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def decode(self, data):
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""" Decoder implementation of the Bencode algorithm
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@param data: The encoded data
@type data: str
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@note: This is a convenience wrapper for the recursive decoding
algorithm, C{_decodeRecursive}
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@return: The decoded data, as a native Python type
@rtype: int, list, dict or str
"""
if len(data) == 0:
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raise DecodeError('Cannot decode empty string')
try:
return self._decodeRecursive(data)[0]
except ValueError as e:
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raise DecodeError(e.message)
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@staticmethod
def _decodeRecursive(data, startIndex=0):
""" Actual implementation of the recursive Bencode algorithm
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Do not call this; use C{decode()} instead
"""
if data[startIndex] == 'i':
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endPos = data[startIndex:].find('e') + startIndex
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return int(data[startIndex + 1:endPos]), endPos + 1
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elif data[startIndex] == 'l':
startIndex += 1
decodedList = []
while data[startIndex] != 'e':
listData, startIndex = Bencode._decodeRecursive(data, startIndex)
decodedList.append(listData)
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return decodedList, startIndex + 1
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elif data[startIndex] == 'd':
startIndex += 1
decodedDict = {}
while data[startIndex] != 'e':
key, startIndex = Bencode._decodeRecursive(data, startIndex)
value, startIndex = Bencode._decodeRecursive(data, startIndex)
decodedDict[key] = value
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return decodedDict, startIndex
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elif data[startIndex] == 'f':
# This (float data type) is a non-standard extension to the original Bencode algorithm
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endPos = data[startIndex:].find('e') + startIndex
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return float(data[startIndex + 1:endPos]), endPos + 1
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elif data[startIndex] == 'n':
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# This (None/NULL data type) is a non-standard extension
# to the original Bencode algorithm
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return None, startIndex + 1
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else:
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splitPos = data[startIndex:].find(':') + startIndex
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try:
length = int(data[startIndex:splitPos])
except ValueError:
raise DecodeError()
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startIndex = splitPos + 1
endPos = startIndex + length
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bytes = data[startIndex:endPos]
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return bytes, endPos