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OLD_node.py
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OLD_node.py
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from uuid import uuid4
from blockchain import Blockchain
from Utils.verify import Verify
from wallet import Wallet
class Node:
def __init__(self):
self.wallet = Wallet()
self.blockchain = Blockchain(None)
def get_transaction_value(self):
""" Returns the input of the user (a new transaction amount) as a float. """
# Get the user input, transform it from a string to a float and store it in user_input
tx_recipient = input('Enter the recipient of the transaction: ')
tx_amount = float(input('Your transaction amount please: '))
return tx_recipient, tx_amount
def get_user_choice(self):
"""Prompts the user for its choice and return it."""
user_input = input('Your choice: ')
return user_input
def print_blockchain_elements(self):
""" Output all blocks of the blockchain. """
# Output the blockchain list to the console
for block in self.blockchain.chain:
print('Outputting Block')
print(block)
else:
print('-' * 20)
def show_menu(self):
print('Please choose')
print('1: Add a new transaction value')
print('2: Mine a new block')
print('3: Output the blockchain blocks')
print('4: Check transaction validity')
print('5: Create Wallet')
print('6: Load Wallet')
print('7: Save keys')
print('q: Quit')
def listen_for_input(self):
waiting_for_input = True
# A while loop for the user input interface
# It's a loop that exits once waiting_for_input becomes False or when break is called
while waiting_for_input:
self.show_menu()
user_choice = self.get_user_choice()
if user_choice == '1':
tx_data = self.get_transaction_value()
recipient, amount = tx_data
# Add the transaction amount to the blockchain
signature = self.wallet.sign_transaction(self.wallet.public_key, recipient, amount)
if self.blockchain.add_transaction(recipient, self.wallet.public_key, signature, amount=amount):
print('Added transaction!')
else:
print('Transaction failed!')
print(self.blockchain.get_open_transactions())
elif user_choice == '2':
if not self.blockchain.mine_block():
print('Mining Failed ! Create a wallet ^-^')
elif user_choice == '3':
self.print_blockchain_elements()
elif user_choice == '4':
if Verify.verify_transactions(self.blockchain.get_open_transactions(), self.blockchain.get_balance):
print('All transactions are valid')
else:
print('There are invalid transactions')
elif user_choice == '5':
self.wallet.create_keys()
self.blockchain = Blockchain(self.wallet.public_key)
elif user_choice == '6':
self.wallet.load_keys()
self.blockchain = Blockchain(self.wallet.public_key)
elif user_choice == '7':
self.wallet.save_keys()
elif user_choice == 'q':
# This will lead to the loop to exist because it's running condition becomes False
waiting_for_input = False
else:
print('Input was invalid, please pick a value from the list!')
if not Verify.verify_chain(self.blockchain.chain):
self.print_blockchain_elements()
print('Invalid blockchain!')
# Break out of the loop
break
print('Balance of {}: {:6.2f}'.format(self.wallet.public_key, self.blockchain.get_balance()))
else:
print('User left!')
if __name__ == '__main__':
node = Node()
node.listen_for_input()