Ejemplo n.º 1
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 def __init__(self, left, right, value=None):
     if value is None:
         self.value = byte_tools.sha256(left.value + right.value)
     else:
         self.value = value
     self.left = left
     self.right = right
Ejemplo n.º 2
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    def finalize_protoblock(self, response):
        # Finalise tx reconciliation
        missing_tx_ids = []
        missing_txs = []

        for segment in response:
            segment_txs = segment[1]
            if segment[0] == b'\x00':
                # Don't decode the flag
                next_id = segment[0]
            else:
                next_id = self.id_encoding_scheme.decode(segment[0])

            for tx in segment_txs:
                missing_txs.append(tx)
                tx_id = bt.sha256(tx.encode())
                missing_tx_ids.append(tx_id)
                if next_id in self.proto_block:
                    self.proto_block.insert(self.proto_block.index(next_id),
                                            tx_id)
                elif next_id == b'\x00':
                    self.proto_block.append(tx_id)

        # Add missing txs to mempool
        self.add_to_txpool(dict(zip(missing_tx_ids, missing_txs)))

        # Reconstruct block
        self.partial_tree = PartialMerkleTree.from_leaf_values(
            self.proto_block)  # TODO: Wasteful, fix this
Ejemplo n.º 3
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    def __init__(self, mempool, block_tx_ids, ip, port):
        # Initialise network parameters
        self.ip = ip
        self.port = port
        self.server = None

        #Initialise transaction pool
        self.txpool = dict(
            zip([bt.sha256(tx.encode()) for tx in mempool], mempool))
        self.txpool[bt.empty_hash] = ""
        self.proto_block = None

        #Initialise leafs
        self.partial_tree = PartialMerkleTree.from_leaf_values(block_tx_ids)

        # Initialise encoding parameters
        # TODO: Implement better encodings see self.setup_id_encoding, self.setup_pair_encoding and byte_tools.py
        self.id_encoding_scheme = None
        self.pair_encoding_scheme = None
        self.id_encoding_size = 8
        self.pair_encoding_size = 3  # TODO: This should dynamically change as we progress in height
Ejemplo n.º 4
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import blocks_util
import byte_tools as bt
from node import Node
import time

# Initialise Alice's txpool, currently modeled by a orphaned block
# Ordered by arrival at node
alice_mempool = blocks_util.getTxsFromBlock(blocks_util.actual)

# Initialise Alice's block, currently modeled by a slice of her txpool
block_size = 2048
offset = 1
alice_block_tx_ids = [bt.sha256(tx.encode()) for tx in alice_mempool][offset:block_size+offset]

alice = Node(alice_mempool, alice_block_tx_ids, 'localhost', 99)

alice.init_server()
alice.open_connection('localhost', 100)
time.sleep(1)
# Estimated percentage in the block which of transactions missing from receivers txpool
est_missing_tx_perc = 0.1
# Estimated percentage of missing pairs at height 1
est_missing_pair_perc = 0.001
alice.send_block(est_missing_tx_perc, est_missing_pair_perc)
Ejemplo n.º 5
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import blocks_util
import byte_tools as bt
from node import Node

# Initialise Bobs txpool, currently modeled by a block
# Ordered by arrival at node
bob_mempool = blocks_util.getTxsFromBlock(blocks_util.actual)

# Initialise Bob's block (Not really needed/will be discarded)
block_size = 2048
bob_block_tx_ids = [bt.sha256(tx.encode()) for tx in bob_mempool][:block_size]

bob = Node(bob_mempool, bob_block_tx_ids, 'localhost', 100)

bob.init_server()
bob.open_connection('localhost', 99)
bob.listen_for_blocks()