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blockchain.py
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blockchain.py
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from functools import reduce
import hashlib as hl
import json
import pickle
import requests
# Import two functions from our hash_util.py file. Omit the ".py" in the import
from utility.hash_util import hash_block
from utility.verification import Verification
from block import Block
from transaction import Transaction
from wallet import Wallet
# The reward we give to miners (for creating a new block)
MINING_REWARD = 10
print(__name__)
class Blockchain:
"""The Blockchain class manages the chain of blocks as well as open transactions and the node on which it's running.
Attributes:
:chain: The list of blocks
:open_transactions (private): The list of open transactions
:hosting_node: The connected node (which runs the blockchain).
"""
def __init__(self, public_key, node_id):
"""The constructor of the Blockchain class."""
# Our starting block for the blockchain
genesis_block = Block(0, '', [], 100, 0)
# Initializing our (empty) blockchain list
self.chain = [genesis_block]
# Unhandled transactions
self.__open_transactions = []
self.public_key = public_key
self.__peer_nodes = set()
self.node_id = node_id
self.resolve_conflicts = False
self.load_data()
# This turns the chain attribute into a property with a getter (the method below) and a setter (@chain.setter)
@property
def chain(self):
return self.__chain[:]
# The setter for the chain property
@chain.setter
def chain(self, val):
self.__chain = val
def get_open_transactions(self):
"""Returns a copy of the open transactions list."""
return self.__open_transactions[:]
def load_data(self):
"""Initialize blockchain + open transactions data from a file."""
try:
with open('blockchain-{}.txt'.format(self.node_id), mode='r') as f:
# file_content = pickle.loads(f.read())
file_content = f.readlines()
# blockchain = file_content['chain']
# open_transactions = file_content['ot']
blockchain = json.loads(file_content[0][:-1])
# We need to convert the loaded data because Transactions should use OrderedDict
updated_blockchain = []
for block in blockchain:
converted_tx = [Transaction(
tx['sender'], tx['recipient'], tx['signature'], tx['amount']) for tx in block['transactions']]
updated_block = Block(
block['index'], block['previous_hash'], converted_tx, block['proof'], block['timestamp'])
updated_blockchain.append(updated_block)
self.chain = updated_blockchain
open_transactions = json.loads(file_content[1][:-1])
# We need to convert the loaded data because Transactions should use OrderedDict
updated_transactions = []
for tx in open_transactions:
updated_transaction = Transaction(
tx['sender'], tx['recipient'], tx['signature'], tx['amount'])
updated_transactions.append(updated_transaction)
self.__open_transactions = updated_transactions
peer_nodes = json.loads(file_content[2])
self.__peer_nodes = set(peer_nodes)
except (IOError, IndexError):
pass
finally:
print('Cleanup!')
def save_data(self):
"""Save blockchain + open transactions snapshot to a file."""
try:
with open('blockchain-{}.txt'.format(self.node_id), mode='w') as f:
saveable_chain = [block.__dict__ for block in [Block(block_el.index, block_el.previous_hash, [
tx.__dict__ for tx in block_el.transactions], block_el.proof, block_el.timestamp) for block_el in self.__chain]]
f.write(json.dumps(saveable_chain))
f.write('\n')
saveable_tx = [tx.__dict__ for tx in self.__open_transactions]
f.write(json.dumps(saveable_tx))
f.write('\n')
f.write(json.dumps(list(self.__peer_nodes)))
# save_data = {
# 'chain': blockchain,
# 'ot': open_transactions
# }
# f.write(pickle.dumps(save_data))
except IOError:
print('Saving failed!')
def proof_of_work(self):
"""Generate a proof of work for the open transactions, the hash of the previous block and a random number (which is guessed until it fits)."""
last_block = self.__chain[-1]
last_hash = hash_block(last_block)
proof = 0
# Try different PoW numbers and return the first valid one
while not Verification.valid_proof(self.__open_transactions, last_hash, proof):
proof += 1
return proof
def get_balance(self, sender=None):
"""Calculate and return the balance for a participant.
"""
if sender == None:
if self.public_key == None:
return None
participant = self.public_key
else:
participant = sender
# Fetch a list of all sent coin amounts for the given person (empty lists are returned if the person was NOT the sender)
# This fetches sent amounts of transactions that were already included in blocks of the blockchain
tx_sender = [[tx.amount for tx in block.transactions
if tx.sender == participant] for block in self.__chain]
# Fetch a list of all sent coin amounts for the given person (empty lists are returned if the person was NOT the sender)
# This fetches sent amounts of open transactions (to avoid double spending)
open_tx_sender = [tx.amount
for tx in self.__open_transactions if tx.sender == participant]
tx_sender.append(open_tx_sender)
print(tx_sender)
amount_sent = reduce(lambda tx_sum, tx_amt: tx_sum + sum(tx_amt)
if len(tx_amt) > 0 else tx_sum + 0, tx_sender, 0)
# This fetches received coin amounts of transactions that were already included in blocks of the blockchain
# We ignore open transactions here because you shouldn't be able to spend coins before the transaction was confirmed + included in a block
tx_recipient = [[tx.amount for tx in block.transactions
if tx.recipient == participant] for block in self.__chain]
amount_received = reduce(lambda tx_sum, tx_amt: tx_sum + sum(tx_amt)
if len(tx_amt) > 0 else tx_sum + 0, tx_recipient, 0)
# Return the total balance
return amount_received - amount_sent
def get_last_blockchain_value(self):
""" Returns the last value of the current blockchain. """
if len(self.__chain) < 1:
return None
return self.__chain[-1]
# This function accepts two arguments.
# One required one (transaction_amount) and one optional one (last_transaction)
# The optional one is optional because it has a default value => [1]
def add_transaction(self, recipient, sender, signature, amount=1.0, is_receiving=False):
""" Append a new value as well as the last blockchain value to the blockchain.
Arguments:
:sender: The sender of the coins.
:recipient: The recipient of the coins.
:amount: The amount of coins sent with the transaction (default = 1.0)
"""
# transaction = {
# 'sender': sender,
# 'recipient': recipient,
# 'amount': amount
# }
# if self.public_key == None:
# return False
transaction = Transaction(sender, recipient, signature, amount)
if Verification.verify_transaction(transaction, self.get_balance):
self.__open_transactions.append(transaction)
self.save_data()
if not is_receiving:
for node in self.__peer_nodes:
url = 'http://{}/broadcast-transaction'.format(node)
try:
response = requests.post(url, json={
'sender': sender, 'recipient': recipient, 'amount': amount, 'signature': signature})
if response.status_code == 400 or response.status_code == 500:
print('Transaction declined, needs resolving')
return False
except requests.exceptions.ConnectionError:
continue
return True
return False
def mine_block(self):
"""Create a new block and add open transactions to it."""
# Fetch the currently last block of the blockchain
if self.public_key == None:
return None
last_block = self.__chain[-1]
# Hash the last block (=> to be able to compare it to the stored hash value)
hashed_block = hash_block(last_block)
proof = self.proof_of_work()
# Miners should be rewarded, so let's create a reward transaction
# reward_transaction = {
# 'sender': 'MINING',
# 'recipient': owner,
# 'amount': MINING_REWARD
# }
reward_transaction = Transaction(
'MINING', self.public_key, '', MINING_REWARD)
# Copy transaction instead of manipulating the original open_transactions list
# This ensures that if for some reason the mining should fail, we don't have the reward transaction stored in the open transactions
copied_transactions = self.__open_transactions[:]
for tx in copied_transactions:
if not Wallet.verify_transaction(tx):
return None
copied_transactions.append(reward_transaction)
block = Block(len(self.__chain), hashed_block,
copied_transactions, proof)
self.__chain.append(block)
self.__open_transactions = []
self.save_data()
for node in self.__peer_nodes:
url = 'http://{}/broadcast-block'.format(node)
converted_block = block.__dict__.copy()
converted_block['transactions'] = [
tx.__dict__ for tx in converted_block['transactions']]
try:
response = requests.post(url, json={'block': converted_block})
if response.status_code == 400 or response.status_code == 500:
print('Block declined, needs resolving')
if response.status_code == 409:
self.resolve_conflicts = True
except requests.exceptions.ConnectionError:
continue
return block
def add_block(self, block):
"""Add a block which was received via broadcasting to the local blockchain."""
# Create a list of transaction objects
transactions = [Transaction(
tx['sender'], tx['recipient'], tx['signature'], tx['amount']) for tx in block['transactions']]
# Validate the proof of work of the block and store the result (True or False) in a variable
proof_is_valid = Verification.valid_proof(
transactions[:-1], block['previous_hash'], block['proof'])
# Check if previous_hash stored in the block is equal to the local blockchain's last block's hash and store the result in a block
hashes_match = hash_block(self.chain[-1]) == block['previous_hash']
if not proof_is_valid or not hashes_match:
return False
# Create a Block object
converted_block = Block(
block['index'], block['previous_hash'], transactions, block['proof'], block['timestamp'])
self.__chain.append(converted_block)
stored_transactions = self.__open_transactions[:]
# Check which open transactions were included in the received block and remove them
# This could be improved by giving each transaction an ID that would uniquely identify it
for itx in block['transactions']:
for opentx in stored_transactions:
if opentx.sender == itx['sender'] and opentx.recipient == itx['recipient'] and opentx.amount == itx['amount'] and opentx.signature == itx['signature']:
try:
self.__open_transactions.remove(opentx)
except ValueError:
print('Item was already removed')
self.save_data()
return True
def resolve(self):
"""Checks all peer nodes' blockchains and replaces the local one with longer valid ones."""
# Initialize the winner chain with the local chain
winner_chain = self.chain
replace = False
for node in self.__peer_nodes:
url = 'http://{}/chain'.format(node)
try:
# Send a request and store the response
response = requests.get(url)
# Retrieve the JSON data as a dictionary
node_chain = response.json()
# Convert the dictionary list to a list of block AND transaction objects
node_chain = [Block(block['index'], block['previous_hash'], [Transaction(
tx['sender'], tx['recipient'], tx['signature'], tx['amount']) for tx in block['transactions']],
block['proof'], block['timestamp']) for block in node_chain]
node_chain_length = len(node_chain)
local_chain_length = len(winner_chain)
# Store the received chain as the current winner chain if it's longer AND valid
if node_chain_length > local_chain_length and Verification.verify_chain(node_chain):
winner_chain = node_chain
replace = True
except requests.exceptions.ConnectionError:
continue
self.resolve_conflicts = False
# Replace the local chain with the winner chain
self.chain = winner_chain
if replace:
self.__open_transactions = []
self.save_data()
return replace
def add_peer_node(self, node):
"""Adds a new node to the peer node set.
Arguments:
:node: The node URL which should be added.
"""
self.__peer_nodes.add(node)
self.save_data()
def remove_peer_node(self, node):
"""Removes a node from the peer node set.
Arguments:
:node: The node URL which should be removed.
"""
self.__peer_nodes.discard(node)
self.save_data()
def get_peer_nodes(self):
"""Return a list of all connected peer nodes."""
return list(self.__peer_nodes)