Пример #1
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 def parse(cls, s):
     '''Takes a byte stream and parses the tx_input at the start
     return a TxIn object
     '''
     # prev_tx is 32 bytes, little endian
     prev_tx = s.read(32)[::-1]
     # prev_index is an integer in 4 bytes, little endian
     prev_index = little_endian_to_int(s.read(4))
     # use Script.parse to get the ScriptSig
     script_sig = Script.parse(s)
     # sequence is an integer in 4 bytes, little-endian
     sequence = little_endian_to_int(s.read(4))
     # return an instance of the class (see __init__ for args)
     return cls(prev_tx, prev_index, script_sig, sequence)
Пример #2
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 def parse(cls, s):
     '''Takes a stream and creates a NetworkEnvelope'''
     # check the network magic
     magic = s.read(4)
     if magic == b'':
         raise RuntimeError('Connection reset!')
     if magic != NETWORK_MAGIC:
         raise RuntimeError('magic is not right {} vs {}'.format(
             magic.hex(), NETWORK_MAGIC.hex()))
     # command 12 bytes
     command = s.read(12)
     # strip the trailing 0's
     command = command.strip(b'\x00')
     # payload length 4 bytes, little endian
     payload_length = little_endian_to_int(s.read(4))
     # checksum 4 bytes, first four of hash256 of payload
     checksum = s.read(4)
     # payload is of length payload_length
     payload = s.read(payload_length)
     # verify checksum
     calculated_checksum = double_sha256(payload)[:4]
     if calculated_checksum != checksum:
         raise RuntimeError('checksum does not match')
     # return an instance of the class
     return cls(command, payload)
Пример #3
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 def parse(cls, s):
     '''Takes a byte stream and parses a block. Returns a Block object'''
     # s.read(n) will read n bytes from the stream
     # version - 4 bytes, little endian, interpret as int
     version = little_endian_to_int(s.read(4))
     # prev_block - 32 bytes, little endian (use [::-1] to reverse)
     prev_block = s.read(32)[::-1]
     # merkle_root - 32 bytes, little endian (use [::-1] to reverse)
     merkle_root = s.read(32)[::-1]
     # timestamp - 4 bytes, little endian, interpret as int
     timestamp = little_endian_to_int(s.read(4))
     # bits - 4 bytes
     bits = s.read(4)
     # nonce - 4 bytes
     nonce = s.read(4)
     # initialize class
     return cls(version, prev_block, merkle_root, timestamp, bits, nonce)
Пример #4
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 def check_pow(self):
     '''Returns whether this block satisfies proof of work'''
     # get the double_sha256 of the serialization of this block
     h256 = double_sha256(self.serialize())
     # interpret this hash as a little-endian number
     proof = little_endian_to_int(h256)
     # return whether this integer is less than the target
     return proof < self.target()
Пример #5
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 def parse(cls, s):
     '''Takes a byte stream and parses the tx_output at the start
     return a TxOut object
     '''
     # amount is an integer in 8 bytes, little endian
     amount = little_endian_to_int(s.read(8))
     # use Script.parse to get the ScriptPubKey
     script_pubkey = Script.parse(s)
     # return an instance of the class (see __init__ for args)
     return cls(amount, script_pubkey)
Пример #6
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def mine(block):
    target = bits_to_target(block.bits)
    nonce = 0
    serialized_block = block.serialize()
    nonce_index = 76
    while True:
        ser = serialized_block[:76] + int_to_little_endian(
            nonce, 4) + serialized_block[80:]
        proof = little_endian_to_int(double_sha256(ser))
        if proof < target:
            block.nonce = int_to_little_endian(nonce, 4)
            return block
        else:
            nonce += 1
Пример #7
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 def parse(cls, s, testnet=False):
     '''Takes a byte stream and parses the transaction at the start
     return a Tx object
     '''
     # s.read(n) will return n bytes
     # version is an integer in 4 bytes, little-endian
     version = little_endian_to_int(s.read(4))
     # num_inputs is a varint, use read_varint(s)
     num_inputs = read_varint(s)
     # parse num_inputs number of TxIns
     inputs = []
     for _ in range(num_inputs):
         inputs.append(TxIn.parse(s))
     # num_outputs is a varint, use read_varint(s)
     num_outputs = read_varint(s)
     # parse num_outputs number of TxOuts
     outputs = []
     for _ in range(num_outputs):
         outputs.append(TxOut.parse(s))
     # locktime is an integer in 4 bytes, little-endian
     locktime = little_endian_to_int(s.read(4))
     # return an instance of the class (see __init__ for args)
     return cls(version, inputs, outputs, locktime, testnet=testnet)
Пример #8
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def mine(block):
    while not block.check_pow():
        block.nonce = int_to_little_endian(
            little_endian_to_int(block.nonce) + 1, 4)
    return block