blockchain.py

import hashlib as hl
import json
import pickle
from functools import reduce
import requests

from block import Block
from utility.verification import Verification
from transaction import Transaction
from utility.hash_util import hash_block
from wallet import Wallet

MINING_REWARD = 10

print(__name__)


class Blockchain:
    def __init__(self, public_key, node_id):
        genesis_block = Block(0, '', [], 100, 0)
        self.chain = [genesis_block]
        self.__open_transactions = []
        self.public_key = public_key
        self.__peer_nodes = set()
        self.node_id = node_id
        self.resolve_conflicts = False
        self.load_data()


    
    @property
    def chain(self):
        return self.__chain[:]


    @chain.setter
    def chain(self, val):
        self.__chain = val


    def get_open_transactions(self):
        return self.__open_transactions[:]


    def load_data(self):
        try:
            with open('blockchain-{}.txt'.format(self.node_id), mode = 'r') as f:
                # file_content = pickle.loads(f.read())
                file_content = f.readlines()
                # global blockchain
                # global open_transactions
                # blockchain = file_content['chain']
                # open_transactions = file_content['ot']
                blockchain = json.loads(file_content[0][:-1])
                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])
                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):
        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):
        last_block = self.__chain[-1]
        last_hash = hash_block(last_block)
        proof = 0
        while not Verification.valid_proof(self.__open_transactions, last_hash, proof):
                proof += 1
        return proof

        
    def get_balance(self, sender = None):
        if sender == None:
            if self.public_key == None:
                return None
            participant = self.public_key
        else:
            participant = sender

        tx_sender = [[tx.amount for tx in block.transactions if tx.sender == participant] for block in self.__chain]
        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)
        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 amount_received - amount_sent


    def get_last_blockchain_value(self):
        if len(self.__chain) < 1:
            return None

        return self.__chain[-1]


    def add_transaction(self, recipient, sender, signature, amount = 1.0, is_receiving = 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={'recipient': recipient, 'sender': sender, 'signature': signature, 'amount': amount})
                        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):
        if self.public_key == None:
            return None
        last_block = self.__chain[-1]
        hashed_block = hash_block(last_block)
        proof = self.proof_of_work()
            
        reward_transaction = Transaction('MINING', self.public_key, '', MINING_REWARD)

        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):
        transactions = [Transaction(tx['sender'], tx['recipient'], tx['signature'], tx['amount']) for tx in block['transactions']]
        proof_is_valid = Verification.valid_proof(transactions[:-1], block['previous_hash'], block['proof'])
        hashes_match = hash_block(self.chain[-1]) == block['previous_hash']
        if not proof_is_valid or not hashes_match:
            return False
        converted_block = Block(block['index'], block['previous_hash'], transactions, block['proof'], block['timestamp'])
        self.__chain.append(converted_block)
        stored_transactions = self.__open_transactions[:]
        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):
        winner_chain = self.chain
        replace = False
        for node in self.__peer_nodes:
            url = 'http://{}/chain'.format(node)
            try:
                response = requests.get(url)
                node_chain = response.json()
                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)
                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
        self.chain = winner_chain
        if replace:
            self.__open_transactions = []
        self.save_data()
        return replace



    def add_peer_node(self, node):
        self.__peer_nodes.add(node)
        self.save_data()


    def remove_peer_node(self, nodes):
        self.__peer_nodes.discard(nodes)
        self.save_data()


    def get_peer_nodes(self):
        return list(self.__peer_nodes)