Exemple #1
0
def mining():
    print("Into the mining process")
    # Initializing Election Class
    elec = Election()
    # Do not make a block if mempool is empty
    # if elec.redis_client.llen("mempool") == 0:
    #     print("No block made! Mempool is empty!")
    #     return
    # Transaction verification
    # Initializing Block Class
    blk = Block()
    # Create Coinbase Transaction
    blk.create_coinbase_transaction()
    # Connect to Previous Block
    blk.add_previous_block()
    # Scan Mempool
    vd = True
    for i in range(0, elec.redis_client.llen("mempool")):
        # Get Transaction
        tx = elec.redis_client.lindex('mempool', i).decode('utf-8')
        if tx == None:
            # Exit if tx is None
            break
        # Get tx verification verdict
        # verify_verdict = elec.verification.verify_tx(tx)
        # if verify_verdict == "verified":
        #     # Sending data to block
        #     blk.add_transaction(tx)
        # else:
        #     vd = False
        #     print("Some Transaction Verification Failed! Aborting Mining ...")
        #     break
    # If Tx Verification Fails
    if vd == False:
        print("Mining Aborted!")
        return
    # create block
    blk.compute_hash()
    blk.calculate_merkle_root()
    block = blk
    # add block
    blkChain = BlockChain()
    blkChain.add_block(block)
    print("Block added to this Node's blockchain!")
    # check
    # full Blockchain verify
    # full_verify_message = elec.verification.full_chain_verify()
    # if msg != "verified":
    #    return sync.chainsync()
    # if full_verify_message == "verified":
    # braodcast the block you made
    print("Broadcasting block made by this node ...")
    udphandler = UDPHandler()
    udphandler.sendblock(block.to_json())
Exemple #2
0
    def create_block(self):
        block = Block()
        block.create_coinbase_transaction()
        mempool = Mempool()
        blkc = BlockChain()

        mempool_size = mempool.get_len()
        if mempool_size == 0:
            return
        while mempool_size > 0:
            tx = mempool.get_transaction()
            block.add_transaction(tx)
            mempool_size -= 1
        
        block.calcalute_block_size()
        block.calculate_merkle_root()
        block.compute_hash()
        blkc.add_block(block)

        return block
Exemple #3
0
    #         "outputs": [
    #             {
    #                 "value": 50,
    #                 "n": 0,
    #                 "address": addr
    #             }
    #         ],
    #         "hash": "eef9fda50a6bf6c11c5078d8772d94df4f60ce54573c009f145eb047426ad0fb",
    #         "block": "16e8dab3a9185d5329fac9cfdc0a81c7817826f701e747cb3751878061e4dc8c"
    #     }],
    #     "previous_block_hash": "",
    #     "merkle_root": "78bc90dcc3fe2ae1eca8b9d4e09b63653cd18f0b583e002b2b4d43cc09fca9cd",
    #     "height": 0,
    #     "version": "0.0.1",
    #     "size": 1949
    # }))

    for i in range(1):
        block = Block()
        block.add_previous_block()
        block.add_transaction(create_fake_transaction(
            global_addresses[random.randint(0, 9)]))
        block.create_coinbase_transaction()
        block.calculate_merkle_root()
        block.compute_hash()
        block.calcalute_block_size()
        redis_client.rpush("chain", json.dumps(block.to_json()))
        # print(block.to_json())
        udphandler = UDPHandler()
        udphandler.sendblock(block.to_json())