peer.py

from hashlib import sha256
import json
import time

from flask import Flask, request
import requests


class Block:
    def __init__(self, index, transactions, timestamp, previous_hash, nonce=0):
        self.index = index
        self.transactions = transactions
        self.timestamp = timestamp
        self.previous_hash = previous_hash
        self.nonce = nonce

    def compute_hash(self):
        """
        A function that return the hash of the block contents.
        """
        block_string = json.dumps(self.__dict__, sort_keys=True)
        return sha256(block_string.encode()).hexdigest()

class Blockchain:


    # difficulty of our PoW algorithm
    difficulty = 2

    def __init__(self):
        self.unconfirmed_transactions = []
        self.chain = []

    def create_genesis_block(self):
        """
        A function to generate genesis block and appends it to
        the chain. The block has index 0, previous_hash as 0, and
        a valid hash.
        """
        genesis_block = Block(0, [], time.time(), "0")
        genesis_block.hash = genesis_block.compute_hash()
        self.chain.append(genesis_block)

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

    def add_block(self, block, proof):
        """
        A function that adds the block to the chain after verification.
        Verification includes:
        * Checking if the proof is valid.
        * The previous_hash referred in the block and the hash of latest block
          in the chain match.
        """
        #print("all attr  : "+str(dir(self.last_block)))
        previous_hash = self.last_block.hash
        #print("pre hash : "+previous_hash)
        #print("pre hash ghabli : "+self.last_block.hash)
        #print("now hash : "+block.previous_hash)
        if previous_hash != block.previous_hash:
            return False

        if not Blockchain.is_valid_proof(block, proof):
            return False

        block.hash = proof
        self.chain.append(block)
        return True

    # @classmethod
    def proof_of_work(self, block):
        """
        Function that tries different values of nonce to get a hash
        that satisfies our difficulty criteria.
        """
        block.nonce = 0

        computed_hash = block.compute_hash()
        while not computed_hash.startswith('0' * Blockchain.difficulty):
            block.nonce += 1
            computed_hash = block.compute_hash()

        return computed_hash

    def add_new_transaction(self, transaction):
        #print("new transaction   " + str(transaction) )
        self.unconfirmed_transactions.append(transaction)

    @classmethod
    def is_valid_proof(cls, block, block_hash):
        """
        Check if block_hash is valid hash of block and satisfies
        the difficulty criteria.
        """
        return (block_hash.startswith('0' * Blockchain.difficulty) and
                block_hash == block.compute_hash())

    @classmethod
    def check_chain_validity(cls, chain):
        result = True
        previous_hash = "0"
        print("in check chain validity ")

        for block in chain:
            block_hash = block.hash
            # remove the hash field to recompute the hash again
            # using `compute_hash` method.
            delattr(block, "hash")

            if not cls.is_valid_proof(block, block.hash) or \
                    previous_hash != block.previous_hash:
                result = False
                break

            block.hash = block_hash
            previous_hash = block_hash
            print("block.hash " + block.hash)

        return result

    def mine(self):
        """
        This function serves as an interface to add the pending
        transactions to the blockchain by adding them to the block
        and figuring out Proof Of Work.
        """
        if not self.unconfirmed_transactions:
            return False

        last_block = self.last_block

        new_block = Block(index=last_block.index + 1,
                          transactions=self.unconfirmed_transactions,
                          timestamp=time.time(),
                          previous_hash=last_block.hash)

        proof = self.proof_of_work(new_block)
        #print("before add new block in mine func:" + str(new_block.transactions))
        res = self.add_block(new_block, proof)
        #print(res)
        #print("after add "+str(self.chain[-1].transactions))
        self.unconfirmed_transactions = []
        # announce it to the network
        announce_new_block(new_block, proof)
        return new_block.index

app = Flask(__name__)

# the node's copy of blockchain
blockchain = Blockchain()
#blockchain.create_genesis_block()

# the address to other participating members of the network
#creat a list
peers = set()


# endpoint to submit a new transaction. This will be used by
# our application to add new data (posts) to the blockchain


@app.route('/new_transaction', methods=['POST'])
def new_transaction():
    tx_data = request.get_json()
    required_fields = ["sender", "receiver","content"]

    for field in required_fields:
        if not tx_data.get(field):
            return "Invlaid transaction data", 404

    tx_data["timestamp"] = time.time()

    blockchain.add_new_transaction(tx_data)

    return "Success", 201


# endpoint to return the node's copy of the chain.
# Our application will be using this endpoint to query
# all the posts to display.
@app.route('/chain', methods=['GET'])
def get_chain():
    # make sure we've the longest chain
    consensus()
    chain_data = []
    for block in blockchain.chain:
        chain_data.append(block.__dict__)
    #print("get chain   "+str(chain_data))
    return json.dumps({"length": len(chain_data),
                       "chain": chain_data,
                       "peers": list(peers)})

@app.route('/chain2', methods=['GET'])
def get_chain2():
    chain_data = []
    for block in blockchain.chain:
        chain_data.append(block.__dict__)
    return json.dumps({"length": len(chain_data),
                       "chain": chain_data})



# endpoint to request the node to mine the unconfirmed
# transactions (if any). We'll be using it to initiate
# a command to mine from our application itself.
@app.route('/mine', methods=['GET'])
def mine_unconfirmed_transactions():
    result = blockchain.mine()
    if not result:
        return "No transactions to mine"
    return "Block #{} is mined.".format(result)


# endpoint to add new peers to the network.
@app.route('/register_node', methods=['POST'])
def register_new_peers():
    node_address = request.get_json()["node_address"]
    if not node_address:
        return "Invalid data", 400

    # Add the node to the peer list
    peers.add(node_address)
    #peers.add(request.host_url)
    #print("in register new peers "+str(peers))
    # Return the consensus blockchain to the newly registered node
    # so that he can sync
    return get_chain()

@app.route('/register_with', methods=['POST'])
def register_with_existing_node():
    """
    Internally calls the `register_node` endpoint to
    register current node with the node specified in the
    request, and sync the blockchain as well as peer data.
    """
    node_address = request.get_json()["node_address"]#8000
    if not node_address:
        return "Invalid data", 400

    data = {"node_address": request.host_url}#8001
    headers = {'Content-Type': "application/json"}


    # Make a request to register with remote node and obtain information
    response = requests.post(node_address + "/register_node",
                             data=json.dumps(data), headers=headers)

    if response.status_code == 200:
        global blockchain
        global peers
        # update chain and the peers
        chain_dump = response.json()['chain']
        blockchain = create_chain_from_dump(chain_dump)#8001 update herself
        peers.update(response.json()['peers'])#8001
        return "Registration successful", 200
    else:
        #print("it was not 200 ok it can not register node ")
        # if something goes wrong, pass it on to the API response
        return "is was not 200 ok",response.content, response.status_code

def create_chain_from_dump(chain_dump):
    blockchain = Blockchain()
    for idx, block_data in enumerate(chain_dump):
        block = Block(block_data["index"],
                      block_data["transactions"],
                      block_data["timestamp"],
                      block_data["previous_hash"])
        proof = block_data['hash']
        if idx > 0:
            added = blockchain.add_block(block, proof)
            if not added:
                raise Exception("The chain dump is tampered!!")
        else:  # the block is a genesis block, no verification needed
            blockchain.chain.append(block)
    return blockchain

# endpoint to add a block mined by someone else to
# the node's chain. The block is first verified by the node
# and then added to the chain.
@app.route('/add_block', methods=['POST'])
def verify_and_add_block():
    block_data = request.get_json()
    block = Block(block_data["index"],
                  block_data["transactions"],
                  block_data["timestamp"],
                  block_data["previous_hash"])

    proof = block_data['hash']
    added = blockchain.add_block(block, proof)

    if not added:
        return "The block was discarded by the node", 400
    response = get_chain2()
    print("Content", response.content)
    return "Block added to the chain", 201


# endpoint to query unconfirmed transactions
@app.route('/pending_tx')
def get_pending_tx():
    return json.dumps(blockchain.unconfirmed_transactions)

# endpoint to query peers
@app.route('/peers')
def get_peers():
    return str(peers)


def consensus():
    """
    Our simple consnsus algorithm. If a longer valid chain is
    found, our chain is replaced with it.
    """
    global blockchain

    longest_chain = None
    current_len = len(blockchain.chain)

    for node in peers:
        print("in consensus function "+'{}chain'.format(node))
        response = requests.get('{}chain2'.format(node))
        #print("Content", response.content)
        res = response.json()
        length =res['length']
        chain = res['chain']
        if length > current_len and blockchain.check_chain_validity(chain):
            current_len = length
            longest_chain = chain

    if longest_chain:
        # va :|?????????????.chain nadasht
        blockchain.chain = longest_chain
        return True

    return False


def announce_new_block(block, proof):
    """
    A function to announce to the network once a block has been mined.
    Other blocks can simply verify the proof of work and add it to their
    respective chains.
    """
    print("annonce new block")
    for peer in peers:
        print(str("{}add_block".format(peer)))
        url = "{}add_block".format(peer)
        headers = {'Content-Type': "application/json"}
        block.hash = proof
        requests.post(url, data=json.dumps(block.__dict__), headers=headers)