Exemplo n.º 1
0
    def mine(cls,
             block: Block,
             mine_interrupt: threading.Event = None) -> Union[Block, None]:
        start = time.time()
        nonce = 0
        target = (1 << (256 - block.bits))
        mine_interrupt.clear()

        logger.info(f'[consensus] mining after block {block.prev_block_hash}')
        while int(Utils.sha256d(block.header(nonce)), 16) >= target:
            nonce += 1

            if mine_interrupt.is_set():
                logger.info(f'[consensus] mining interrupted +++ {nonce}')
                mine_interrupt.clear()
                return None

        block = block._replace(nonce=nonce)
        duration = max(time.time() - start, 0.0001)
        khs = (block.nonce // duration) // 1000
        logger.info(
            f'[consensus] mining block found at nonce={nonce} using {round(duration, 4)} s at rate {khs} KH/s: {block.id}'
        )

        return block
Exemplo n.º 2
0
    def assemble_and_solve_block(self, txns=None) -> Block:
        """
        Construct a Block by pulling transactions from the mempool, then mine it.
        """
        with self.chain_lock:
            #chain_use_id = [str(number).split('.')[0] + '.' + str(number).split('.')[1][:5] for number in [random.random()]][0]
            #logger.info(f'####### into chain_lock: {chain_use_id} of assemble_and_solve_block')

            prev_block_hash = self.active_chain.chain[
                -1].id if self.active_chain.chain else None

            block = Block(
                version=0,
                prev_block_hash=prev_block_hash,
                merkle_hash='',
                timestamp=int(time.time()),
                bits=Block.get_next_work_required(prev_block_hash,
                                                  self.active_chain,
                                                  self.side_branches),
                nonce=0,
                txns=[None, *txns] if txns else [None],
            )

            if block.bits is None:
                #logger.info(f'####### out of chain_lock: {chain_use_id} of assemble_and_solve_block')
                return None

            if not block.txns[1:]:
                block = self.mempool.select_from_mempool(block, self.utxo_set)
                # print("EdgenceChain 113: build block with txn:", end="")
                # print(block)
                if len(block.txns[1:]) > 0:
                    logger.info(
                        f'{len(block.txns[1:])} transactions selected from mempool to construct this block'
                    )
                    # print("EdgenceChain 117: build txn:")
                    # print(block)

            fees = block.calculate_fees(self.utxo_set)
            # print("fee is: ", end="")
            # print(fees)
            my_address = self.wallet()[2]
            coinbase_txn = Transaction.create_coinbase(
                my_address,
                Block.get_block_subsidy(self.active_chain) + fees,
                self.active_chain.height)
            #logger.info(f'####### out of chain_lock: {chain_use_id} of assemble_and_solve_block')

        block.txns[0] = coinbase_txn
        block = block._replace(
            merkle_hash=MerkleNode.get_merkle_root_of_txns(block.txns).val)

        if len(Utils.serialize(block)) > Params.MAX_BLOCK_SERIALIZED_SIZE:
            raise ValueError('txns specified create a block too large')

        block = PoW.mine(block, self.mine_interrupt)
        # print("EdgenceChain 138: after mine: ")
        # print(block)
        return block
Exemplo n.º 3
0
def mine(block: Block) -> Block:
    """
    A minimal function for calculating genisis_block nonce.
    """

    start = time.time()
    nonce = 0
    target = 1 << (256 - block.bits)

    while int(Utils.sha256d(block.header(nonce)), 16) >= target:
        nonce += 1

    block = block._replace(nonce=nonce)
    duration = max(time.time() - start, 0.0001)
    khs = (block.nonce // duration) // 1_000
    print(
        f"genesis_block found at nonce={nonce} using {round(duration, 4)}s at rate {khs}KH/s"
    )
    print(f"blockid={block.id}")
    return block