Exemplo n.º 1
0
    def proof_of_work(self, mysql):
        #Start by verifying all the transactions in the pool
        verified_transactions = []

        cur = mysql.connection.cursor()
        result = cur.execute("SELECT * FROM blockchain_transactions")
        transactions = cur.fetchall()

        #We are going to verify all the transactions in the pool before we add them to the block .....
        #then clear the transaction pool by deleting all the transactions in the database ....
        if result > 0:
            for transaction in transactions:
                id = transaction['id']
                data = json.loads(transaction['transaction'])
                signature_string = transaction['signature']

                string_transaction = json.dumps(data, sort_keys = True).encode()

                signature = eval(signature_string)
                public, key2 = keys.get_public_keys_from_sig(signature, string_transaction, curve=curve.secp256k1, hashfunc=ecdsa.sha256)

                is_valid = ecdsa.verify(signature, string_transaction, public, curve.secp256k1, ecdsa.sha256)
                if is_valid is True:
                    verified_transactions.append(data)
                cur.execute("DELETE from blockchain_transactions WHERE id=%s", [id])
                mysql.connection.commit()


        #Now we add the transactions to the new block
        the_time = datetime.now()
        prev_hash = ''
Exemplo n.º 2
0
 def is_valid(self):
     if self.signature is None:
         return True
     if len(self.signature) == 0 and self.to_address is None:
         return False
     hash_tx = self.calculate_hash()
     pubkey = keys.get_public_keys_from_sig(self.signature, hash_tx, curve=curve.P256, hashfunc=sha256)
     valid = ecdsa.verify(self.signature, hash_tx, pubkey[0], hashfunc=sha256)
     return valid
Exemplo n.º 3
0
def test():

    data = {
        "fullNames":
        'Bertha Matshidiso Kgokong',
        "practiceNumber":
        '1234567890',
        "notes":
        'I believe, we will make it to the moon and we will do it in this century'
    }

    private, public = import_key('/home/zatosh/keys/secp256k1.key')

    transaction = account.create_transaction(data)
    string_transaction = json.dumps(transaction, sort_keys=True).encode()
    signature = ecdsa.sign(string_transaction,
                           private,
                           curve=curve.secp256k1,
                           hashfunc=ecdsa.sha256)

    ##-----------------------------------------

    #Assume we are now - publishing the transaction
    transaction['signature'] = json.dumps(signature)
    to_send = json.dumps(transaction, sort_keys=True)

    #Now Let us See of This code will work . . . .
    trans_result = to_send
    transaction1 = json.loads(trans_result)
    #Add the Transaction to the pool
    string_signature1 = transaction1['signature']
    signature1 = eval(string_signature1)

    transaction1.pop('signature')
    string_transaction1 = json.dumps(transaction1, sort_keys=True).encode()

    key1, key2 = keys.get_public_keys_from_sig(signature1,
                                               string_transaction1,
                                               curve=curve.secp256k1,
                                               hashfunc=ecdsa.sha256)

    is_valid = ecdsa.verify(signature1, string_transaction1, key1,
                            curve.secp256k1, ecdsa.sha256)

    print(
        'Just received transaction broadcast {}: and added it to transaction pool'
        .format(transaction1))

    return "<h3>If this is true, the signatures did match - or else. ---> {}</h3>".format(
        is_valid)
Exemplo n.º 4
0
def extract_secp256r1_public_keys(r, s, message):
    """Extract the public keys from r, s, message which generated by secp256r1

    :param str r: The r part of signature
    :param str s: The s part of signature
    :param str message: The message for signature
    :rtype: list
    :return: The public keys    
    """    
    public_key_point = keys.get_public_keys_from_sig((int(r, 16), int(s, 16)), message, curve.P256, hashfunc=keccak_256)
    public_key_list = []
    for i in public_key_point:
        x = str(hex(i.x)[2:])
        y = str(hex(i.y)[2:])
        if len(x) < 64:
            x = '0' * (64 - len(x)) + x
        if len(y) < 64:
            y = '0' * (64 - len(y)) + y
        public_key = '0x' + x + y
        public_key_list.append(public_key)
    return public_key_list
Exemplo n.º 5
0
def awaiting_transaction_broadcast():
    while True:
        trans_result = transaction_subscriber.recv_json()
        transaction = json.loads(trans_result)
        if 'signature' in transaction:
            #Add the Transaction to the pool
            string_signature = transaction['signature']
            signature = eval(string_signature)

            transaction.pop('signature')
            string_transaction = json.dumps(transaction,
                                            sort_keys=True).encode()

            key1, key2 = keys.get_public_keys_from_sig(signature,
                                                       string_transaction,
                                                       curve=curve.secp256k1,
                                                       hashfunc=ecdsa.sha256)

            blockchain.add_transaction(key1, transaction, signature,
                                       transaction['transaction_id'], mysql)
            print(
                'Just received transaction broadcast {}: and added it to transaction pool'
                .format(transaction))
Exemplo n.º 6
0
def awaiting_chain_broadcast():
    while True:
        chain_result = chain_subscriber.recv_json()
        new_chain = json.loads(chain_result)
        print('We just received a new chain \n {}'.format(new_chain))

        if not 'signature' in new_chain:
            #Get our chain from the database
            cur = mysql.connection.cursor()
            result = cur.execute("SELECT * FROM blockchain_chain")
            chain = cur.fetchall()

            if chain == []:
                #The chain table is empty ..... save this chain to our database
                for new_block in new_chain:
                    block = new_block['block']
                    nonce = new_block['nonce']
                    hash = new_block['hash']
                    prev_hash = new_block['prev_hash']
                    timestamp = new_block['timestamp']
                    data = new_block['data']

                    cur.execute(
                        "INSERT INTO blockchain_chain(block, nonce, hash, prev_hash, timestamp, data) VALUES(%s, %s, %s, %s, %s, %s)",
                        (block, nonce, hash, prev_hash, timestamp, data))
                mysql.connection.commit()
                cur.close()
                pass
            else:
                cur.close()

                if len(new_chain) > len(chain):
                    #We already have a chain table in our database saved - we just need to confirm chain is valid
                    if blockchain.is_chain_valid(new_chain, mysql):

                        #The received chain is valid - genesis blocks match and all block hashes and nonces also match
                        new_transactions = new_chain[len(new_chain) -
                                                     1]['data']
                        verified_transactions = []

                        for transaction in new_transactions:
                            id = transaction['id']
                            data = json.loads(transaction['transaction'])
                            signature_string = transaction['signature']

                            string_transaction = json.dumps(
                                data, sort_keys=True).encode()

                            signature = eval(signature_string)

                            public, key2 = keys.get_public_keys_from_sig(
                                signature,
                                string_transaction,
                                curve=curve.secp256k1,
                                hashfunc=ecdsa.sha256)

                            is_transaction_valid = ecdsa.verify(
                                signature, string_transaction, public,
                                curve.secp256k1, ecdsa.sha256)
                            if is_transaction_valid:
                                verified_transactions.append(data)
                                print('Valid Transaction -> {}'.format(data))
                            else:
                                print(
                                    'The following transaction is not valid, cannot accept this new chain: {}'
                                    .format(transaction))
                                pass

                        #Replace our chain with new chain - if chain is valid and all transactions in the last block are also valid
                        cur = mysql.connection.cursor()

                        #Start by deleting the current chain from database
                        cur.execute("DELETE from blockchain_chain")
                        mysql.connection.commit()
                        #We also need to delete everything from the transaction table - because the transactions have been mined in this block.
                        cur.execute("DELETE from blockchain_transactions")
                        mysql.connection.commit()

                        #then save new blockchain in to our database
                        for new_block in new_chain:
                            block = new_block['block']
                            nonce = new_block['nonce']
                            hash = new_block['hash']
                            prev_hash = new_block['prev_hash']
                            timestamp = new_block['timestamp']
                            data = new_block['data']

                            cur.execute(
                                "INSERT INTO blockchain_chain(block, nonce, hash, prev_hash, timestamp, data) VALUES(%s, %s, %s, %s, %s, %s)",
                                (block, nonce, hash, prev_hash, timestamp,
                                 data))
                        mysql.connection.commit()
                        cur.close()

                    else:
                        #Received chain is not valid
                        print('Received chain is not valid --> DISCARD')
                        pass

                else:
                    print(
                        'Received chain is shorter than or equal to the chain we already have -- > DISCARD'
                    )
                    pass

        else:
            #This is a transaction - transaction function will handle . . . .
            pass