blockchain/blockchain.py

import hashlib
import json
from time import time
from urllib.parse import urlparse
from uuid import uuid4

import requests
from flask import Flask, jsonify, request


class Blockchain:
    def __init__(self):
        self.current_transactions = []
        self.chain = []
        self.nodes = set()

        # Create the genesis block
        self.new_block(previous_hash='1', proof=100)

    def register_node(self, address):
        """
        Add a new node to the list of nodes

        :param address: Address of node. Eg. 'http://192.168.0.5:5000'
        """

        parsed_url = urlparse(address)
        if parsed_url.netloc:
            self.nodes.add(parsed_url.netloc)
        elif parsed_url.path:
            # Accepts an URL without scheme like '192.168.0.5:5000'.
            self.nodes.add(parsed_url.path)
        else:
            raise ValueError('Invalid URL')


    def valid_chain(self, chain):
        """
        Determine if a given blockchain is valid

        :param chain: A blockchain
        :return: True if valid, False if not
        """

        last_block = chain[0]
        current_index = 1

        while current_index < len(chain):
            block = chain[current_index]
            print(f'{last_block}')
            print(f'{block}')
            print("\n-----------\n")
            # Check that the hash of the block is correct
            last_block_hash = self.hash(last_block)
            if block['previous_hash'] != last_block_hash:
                return False

            # Check that the Proof of Work is correct
            if not self.valid_proof(last_block['proof'], block['proof'], last_block_hash):
                return False

            last_block = block
            current_index += 1

        return True

    def resolve_conflicts(self):
        """
        This is our consensus algorithm, it resolves conflicts
        by replacing our chain with the longest one in the network.

        :return: True if our chain was replaced, False if not
        """

        neighbours = self.nodes
        new_chain = None

        # We're only looking for chains longer than ours
        max_length = len(self.chain)

        # Grab and verify the chains from all the nodes in our network
        for node in neighbours:
            response = requests.get(f'http://{node}/chain')

            if response.status_code == 200:
                length = response.json()['length']
                chain = response.json()['chain']

                # Check if the length is longer and the chain is valid
                if length > max_length and self.valid_chain(chain):
                    max_length = length
                    new_chain = chain

        # Replace our chain if we discovered a new, valid chain longer than ours
        if new_chain:
            self.chain = new_chain
            return True

        return False

    def new_block(self, proof, previous_hash):
        """
        Create a new Block in the Blockchain

        :param proof: The proof given by the Proof of Work algorithm
        :param previous_hash: Hash of previous Block
        :return: New Block
        """

        block = {
            'index': len(self.chain) + 1,
            'timestamp': time(),
            'transactions': self.current_transactions,
            'proof': proof,
            'previous_hash': previous_hash or self.hash(self.chain[-1]),
        }

        # Reset the current list of transactions
        self.current_transactions = []

        self.chain.append(block)
        return block

    def new_transaction(self, sender, recipient, amount):
        """
        Creates a new transaction to go into the next mined Block

        :param sender: Address of the Sender
        :param recipient: Address of the Recipient
        :param amount: Amount
        :return: The index of the Block that will hold this transaction
        """
        self.current_transactions.append({
            'sender': sender,
            'recipient': recipient,
            'amount': amount,
        })

        return self.last_block['index'] + 1

    @property
    def last_block(self):
        return self.chain[-1]

    @staticmethod
    def hash(block):
        """
        Creates a SHA-256 hash of a Block

        :param block: Block
        """

        # We must make sure that the Dictionary is Ordered, or we'll have inconsistent hashes
        block_string = json.dumps(block, sort_keys=True).encode()
        return hashlib.sha256(block_string).hexdigest()

    def proof_of_work(self, last_block):
        """
        Simple Proof of Work Algorithm:

         - Find a number p' such that hash(pp') contains leading 4 zeroes
         - Where p is the previous proof, and p' is the new proof
         
        :param last_block: <dict> last Block
        :return: <int>
        """

        last_proof = last_block['proof']
        last_hash = self.hash(last_block)

        proof = 0
        while self.valid_proof(last_proof, proof, last_hash) is False:
            proof += 1

        return proof

    @staticmethod
    def valid_proof(last_proof, proof, last_hash):
        """
        Validates the Proof

        :param last_proof: <int> Previous Proof
        :param proof: <int> Current Proof
        :param last_hash: <str> The hash of the Previous Block
        :return: <bool> True if correct, False if not.

        """

        guess = f'{last_proof}{proof}{last_hash}'.encode()
        guess_hash = hashlib.sha256(guess).hexdigest()
        return guess_hash[:4] == "0000"


# Instantiate the Node
app = Flask(__name__)

# Generate a globally unique address for this node
node_identifier = str(uuid4()).replace('-', '')

# Instantiate the Blockchain
blockchain = Blockchain()


@app.route('/mine', methods=['GET'])
def mine():
    # We run the proof of work algorithm to get the next proof...
    last_block = blockchain.last_block
    proof = blockchain.proof_of_work(last_block)

    # We must receive a reward for finding the proof.
    # The sender is "0" to signify that this node has mined a new coin.
    blockchain.new_transaction(
        sender="0",
        recipient=node_identifier,
        amount=1,
    )

    # Forge the new Block by adding it to the chain
    previous_hash = blockchain.hash(last_block)
    block = blockchain.new_block(proof, previous_hash)

    response = {
        'message': "New Block Forged",
        'index': block['index'],
        'transactions': block['transactions'],
        'proof': block['proof'],
        'previous_hash': block['previous_hash'],
    }
    return jsonify(response), 200


@app.route('/transactions/new', methods=['POST'])
def new_transaction():
    values = request.get_json()

    # Check that the required fields are in the POST'ed data
    required = ['sender', 'recipient', 'amount']
    if not all(k in values for k in required):
        return 'Missing values', 400

    # Create a new Transaction
    index = blockchain.new_transaction(values['sender'], values['recipient'], values['amount'])

    response = {'message': f'Transaction will be added to Block {index}'}
    return jsonify(response), 201


@app.route('/chain', methods=['GET'])
def full_chain():
    response = {
        'chain': blockchain.chain,
        'length': len(blockchain.chain),
    }
    return jsonify(response), 200


@app.route('/nodes/register', methods=['POST'])
def register_nodes():
    values = request.get_json()

    nodes = values.get('nodes')
    if nodes is None:
        return "Error: Please supply a valid list of nodes", 400

    for node in nodes:
        blockchain.register_node(node)

    response = {
        'message': 'New nodes have been added',
        'total_nodes': list(blockchain.nodes),
    }
    return jsonify(response), 201


@app.route('/nodes/resolve', methods=['GET'])
def consensus():
    replaced = blockchain.resolve_conflicts()

    if replaced:
        response = {
            'message': 'Our chain was replaced',
            'new_chain': blockchain.chain
        }
    else:
        response = {
            'message': 'Our chain is authoritative',
            'chain': blockchain.chain
        }

    return jsonify(response), 200


if __name__ == '__main__':
    from argparse import ArgumentParser

    parser = ArgumentParser()
    parser.add_argument('-p', '--port', default=5000, type=int, help='port to listen on')
    args = parser.parse_args()
    port = args.port

    app.run(host='0.0.0.0', port=port)
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`import hashlib`
			`import json`
			`from time import time`
			`from urllib.parse import urlparse`
			`from uuid import uuid4`

			`import requests`
			`from flask import Flask, jsonify, request`


Add type hints 2017-10-05 11:20:56 +02:00			`class Blockchain:`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`def __init__(self):`
			`self.current_transactions = []`
			`self.chain = []`
			`self.nodes = set()`

			`# Create the genesis block`
Add type hints 2017-10-05 11:20:56 +02:00			`self.new_block(previous_hash='1', proof=100)`
Add Full Blockchain 2017-09-24 21:40:01 +02:00
			`def register_node(self, address):`
			`"""`
			`Add a new node to the list of nodes`

Add type hints 2017-10-05 11:20:56 +02:00			`:param address: Address of node. Eg. 'http://192.168.0.5:5000'`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

			`parsed_url = urlparse(address)`
Accept URLs without scheme (also includes #18 and #28) 2017-10-28 13:29:35 +02:00			`if parsed_url.netloc:`
			`self.nodes.add(parsed_url.netloc)`
			`elif parsed_url.path:`
			`# Accepts an URL without scheme like '192.168.0.5:5000'.`
			`self.nodes.add(parsed_url.path)`
			`else:`
			`raise ValueError('Invalid URL')`

Add Full Blockchain 2017-09-24 21:40:01 +02:00
			`def valid_chain(self, chain):`
			`"""`
			`Determine if a given blockchain is valid`

Add type hints 2017-10-05 11:20:56 +02:00			`:param chain: A blockchain`
			`:return: True if valid, False if not`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

			`last_block = chain[0]`
			`current_index = 1`

			`while current_index < len(chain):`
			`block = chain[current_index]`
			`print(f'{last_block}')`
			`print(f'{block}')`
			`print("\n-----------\n")`
			`# Check that the hash of the block is correct`
Fixed issue #65. 2018-02-08 13:08:09 +01:00			`last_block_hash = self.hash(last_block)`
			`if block['previous_hash'] != last_block_hash:`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`return False`

			`# Check that the Proof of Work is correct`
Fixed issue #65. 2018-02-08 13:08:09 +01:00			`if not self.valid_proof(last_block['proof'], block['proof'], last_block_hash):`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`return False`

			`last_block = block`
			`current_index += 1`

			`return True`

			`def resolve_conflicts(self):`
			`"""`
			`This is our consensus algorithm, it resolves conflicts`
			`by replacing our chain with the longest one in the network.`

Add type hints 2017-10-05 11:20:56 +02:00			`:return: True if our chain was replaced, False if not`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

			`neighbours = self.nodes`
			`new_chain = None`

			`# We're only looking for chains longer than ours`
			`max_length = len(self.chain)`

			`# Grab and verify the chains from all the nodes in our network`
			`for node in neighbours:`
			`response = requests.get(f'http://{node}/chain')`

			`if response.status_code == 200:`
			`length = response.json()['length']`
			`chain = response.json()['chain']`

			`# Check if the length is longer and the chain is valid`
			`if length > max_length and self.valid_chain(chain):`
			`max_length = length`
			`new_chain = chain`

			`# Replace our chain if we discovered a new, valid chain longer than ours`
			`if new_chain:`
			`self.chain = new_chain`
			`return True`

			`return False`

Remove Type Annotations I have some reasons for this, but could be swayed to keep them: - For folks who are learning, it tends to get in the way—there are way too many questions about this. - It doesn’t bring much value if there are reasonable tests. - Not many folks are using `mypy` before run time. 2017-11-12 21:32:10 +01:00			`def new_block(self, proof, previous_hash):`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`
			`Create a new Block in the Blockchain`

Add type hints 2017-10-05 11:20:56 +02:00			`:param proof: The proof given by the Proof of Work algorithm`
			`:param previous_hash: Hash of previous Block`
			`:return: New Block`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

			`block = {`
			`'index': len(self.chain) + 1,`
			`'timestamp': time(),`
			`'transactions': self.current_transactions,`
			`'proof': proof,`
			`'previous_hash': previous_hash or self.hash(self.chain[-1]),`
			`}`

			`# Reset the current list of transactions`
			`self.current_transactions = []`

			`self.chain.append(block)`
			`return block`

			`def new_transaction(self, sender, recipient, amount):`
			`"""`
			`Creates a new transaction to go into the next mined Block`

Add type hints 2017-10-05 11:20:56 +02:00			`:param sender: Address of the Sender`
			`:param recipient: Address of the Recipient`
			`:param amount: Amount`
			`:return: The index of the Block that will hold this transaction`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`
			`self.current_transactions.append({`
			`'sender': sender,`
			`'recipient': recipient,`
			`'amount': amount,`
			`})`

			`return self.last_block['index'] + 1`

			`@property`
			`def last_block(self):`
			`return self.chain[-1]`

			`@staticmethod`
			`def hash(block):`
			`"""`
			`Creates a SHA-256 hash of a Block`

Add type hints 2017-10-05 11:20:56 +02:00			`:param block: Block`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

			`# We must make sure that the Dictionary is Ordered, or we'll have inconsistent hashes`
			`block_string = json.dumps(block, sort_keys=True).encode()`
			`return hashlib.sha256(block_string).hexdigest()`

Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`def proof_of_work(self, last_block):`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`
			`Simple Proof of Work Algorithm:`

update Docstring for method proof_of_work, remove duplication 2018-01-11 12:56:53 +01:00			`- Find a number p' such that hash(pp') contains leading 4 zeroes`
			`- Where p is the previous proof, and p' is the new proof`
Merge branch 'master' into master 2018-01-24 06:02:07 +01:00
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`:param last_block: <dict> last Block`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`:return: <int>`
			`"""`

Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`last_proof = last_block['proof']`
Corrected bug in proof_of_work: last_hash does not depend on the previous hash of last_block, but instead just on the hash of last_block. Thank you ashleyniemerg 2017-10-08 23:15:52 +02:00			`last_hash = self.hash(last_block)`
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`proof = 0`
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`while self.valid_proof(last_proof, proof, last_hash) is False:`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`proof += 1`

			`return proof`

			`@staticmethod`
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`def valid_proof(last_proof, proof, last_hash):`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`
			`Validates the Proof`

			`:param last_proof: <int> Previous Proof`
			`:param proof: <int> Current Proof`
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`:param last_hash: <str> The hash of the Previous Block`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`:return: <bool> True if correct, False if not.`
Merge branch 'master' into master 2018-01-02 19:57:03 +01:00
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`"""`

Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`guess = f'{last_proof}{proof}{last_hash}'.encode()`
Add Full Blockchain 2017-09-24 21:40:01 +02:00			`guess_hash = hashlib.sha256(guess).hexdigest()`
			`return guess_hash[:4] == "0000"`


			`# Instantiate the Node`
			`app = Flask(__name__)`

			`# Generate a globally unique address for this node`
			`node_identifier = str(uuid4()).replace('-', '')`

			`# Instantiate the Blockchain`
			`blockchain = Blockchain()`


			`@app.route('/mine', methods=['GET'])`
			`def mine():`
			`# We run the proof of work algorithm to get the next proof...`
			`last_block = blockchain.last_block`
Modified valid_proof and proof_of_work to include the hash of the previous block. 2017-10-08 17:59:36 +02:00			`proof = blockchain.proof_of_work(last_block)`
Add Full Blockchain 2017-09-24 21:40:01 +02:00
			`# We must receive a reward for finding the proof.`
			`# The sender is "0" to signify that this node has mined a new coin.`
			`blockchain.new_transaction(`
			`sender="0",`
			`recipient=node_identifier,`
			`amount=1,`
			`)`

			`# Forge the new Block by adding it to the chain`
Fix major bug 2017-11-18 18:49:29 +01:00			`previous_hash = blockchain.hash(last_block)`
			`block = blockchain.new_block(proof, previous_hash)`
Add Full Blockchain 2017-09-24 21:40:01 +02:00
			`response = {`
			`'message': "New Block Forged",`
			`'index': block['index'],`
			`'transactions': block['transactions'],`
			`'proof': block['proof'],`
			`'previous_hash': block['previous_hash'],`
			`}`
			`return jsonify(response), 200`


			`@app.route('/transactions/new', methods=['POST'])`
			`def new_transaction():`
			`values = request.get_json()`

			`# Check that the required fields are in the POST'ed data`
			`required = ['sender', 'recipient', 'amount']`
			`if not all(k in values for k in required):`
			`return 'Missing values', 400`

			`# Create a new Transaction`
			`index = blockchain.new_transaction(values['sender'], values['recipient'], values['amount'])`

			`response = {'message': f'Transaction will be added to Block {index}'}`
			`return jsonify(response), 201`


			`@app.route('/chain', methods=['GET'])`
			`def full_chain():`
			`response = {`
			`'chain': blockchain.chain,`
			`'length': len(blockchain.chain),`
			`}`
			`return jsonify(response), 200`


			`@app.route('/nodes/register', methods=['POST'])`
			`def register_nodes():`
			`values = request.get_json()`

			`nodes = values.get('nodes')`
			`if nodes is None:`
			`return "Error: Please supply a valid list of nodes", 400`

			`for node in nodes:`
			`blockchain.register_node(node)`

			`response = {`
			`'message': 'New nodes have been added',`
			`'total_nodes': list(blockchain.nodes),`
			`}`
			`return jsonify(response), 201`


			`@app.route('/nodes/resolve', methods=['GET'])`
			`def consensus():`
			`replaced = blockchain.resolve_conflicts()`

			`if replaced:`
			`response = {`
			`'message': 'Our chain was replaced',`
			`'new_chain': blockchain.chain`
			`}`
			`else:`
			`response = {`
			`'message': 'Our chain is authoritative',`
			`'chain': blockchain.chain`
			`}`

			`return jsonify(response), 200`


			`if __name__ == '__main__':`
Add option to choose port from command line 2017-10-01 00:07:06 +02:00			`from argparse import ArgumentParser`

			`parser = ArgumentParser()`
			`parser.add_argument('-p', '--port', default=5000, type=int, help='port to listen on')`
			`args = parser.parse_args()`
			`port = args.port`

			`app.run(host='0.0.0.0', port=port)`