Esempio n. 1
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 def load_data(self):
     try:
         with open(
                 'blockchain_{}.txt'.format(self.node_id), mode='r'
         ) as f:  #The mode is write and not append (a) because we plan overwriting the data all the time.
             file_content = f.readlines()
             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['hash_previous_block'],
                                       block['index'], converted_tx,
                                       block['proof'], block['timestamp'])
                 updated_blockchain.append(updated_block)
             self.chain = updated_blockchain
             open_transactions = json.loads(file_content[1][:-1])
             updated_open_transactions = []
             for transaction in open_transactions:
                 updated_transaction = Transaction(transaction['sender'],
                                                   transaction['recipient'],
                                                   transaction['signature'],
                                                   transaction['amount'])
                 updated_open_transactions.append(updated_transaction)
             self.open_transactions = updated_open_transactions
             peer_nodes = json.loads(file_content[2])
             self.peer_nodes = set(peer_nodes)
     except (IOError, IndexError):
         pass
Esempio n. 2
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def new_transaction():
    recipient = request.args.get("address")
    amount = request.args.get("amount")

    transaction = Transaction(myWallet.identity, recipient, amount)
    transaction.add_signature(myWallet.sign_transaction(transaction))
    transaction_result = blockchain.add_new_transaction(transaction)
    if transaction_result:
        response = {'message': 'Transaction will be added to Block '}
        return jsonify(response), 201
    else:
        response = {'message': 'Invalid Transaction!'}
        return jsonify(response), 406
Esempio n. 3
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def dataTransakci():
    r = requests.get(
        'https://api.csas.cz/sandbox/webapi/api/v2/transparentAccounts/',
        headers=headers)

    data = json.loads(r.text)
    #print(json.dumps(data, indent=4, sort_keys=True))
    T = []
    for i in range(len(data['accounts'])):
        cisloUctu = data['accounts'][i]['accountNumber']

        r = requests.get(
            'https://api.csas.cz/sandbox/webapi/api/v2/transparentAccounts/' +
            cisloUctu + '/transactions/',
            headers=headers)
        dataUcet = json.loads(r.text)

        for i in range(len(dataUcet.get('transactions', []))):
            tran = Transaction(str(dataUcet['transactions'][i]['sender']['accountNumber']), \
            str(dataUcet['transactions'][i]['receiver']['accountNumber']), \
            str(dataUcet['transactions'][i]['dueDate'])[:10], \
            float(dataUcet['transactions'][i]['amount']['value']),
            dataUcet['transactions'][i]['amount']['currency']
            )
            T.append(tran)
    return T
Esempio n. 4
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    def add_transaction(self,
                        recipient,
                        sender,
                        signature,
                        amount=1.0,
                        is_receiving=False):
        '''if self.public_key == None:
			return None'''

        transaction = Transaction(sender, recipient, amount, signature)
        """if not Wallet.verify_signature(transaction):
			return False"""
        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
Esempio n. 5
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def scrape(page, county):
    #r = requests.get(url)
    soup = BeautifulSoup(page, 'html.parser')
    table = soup.table  # find the table references
    reclist = []
    grantorlist = []
    granteelist = []
    mygrantorlist = []
    mygranteelist = []

    #with open(f, 'a', newline='') as outfile:
    if table is None:
        pass
    else:
        for br in table.find_all('br'):  # finds the <br> and replaces with newlines (for the names)
            br.replace_with('\n')

        table_rows = table.find_all('tr')  # returns a list of table rows
        for tr in table_rows:
            td = tr.find_all('td')  # finds the table data
            row = [i.text for i in td]  # returns a list of data in each row from NDO. row is type list.
            if len(row) == 5:
                row.append(county)
                if row[0][-9:].strip() == 'Replatted':
                    note = '(Replatted)'
                    row[0] = row[0][-20:-10].strip()
                else:
                    row[0] = row[0][-10:].strip()
                    note = ''
                row[1] = row[1].strip()
                row[2] = row[2].strip()
                row[3] = row[3].strip()
                # Transaction(instrument, xactdate, deedtype, county, notes=None)
                proprec = Transaction(None, row[0], row[4], row[5])
                legallist = row[1].split('\n')

                grantorlist = row[2].split('\n')
                granteelist = row[3].split('\n')

                if note != '':
                    proprec.addnotes(note)
                reclist.append(proprec)
Esempio n. 6
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def merkle_path():
    values = request.form
    required = ['sender', 'recipient', 'value']
    # Check that the required fields are in the POST data
    if not all(k in values for k in required):
        return 'Missing values', 400
    transaction = Transaction(values.get('sender'), values.get('recipient'),
                              values.get('value'))
    path = blockchain.merkle_path(transaction)

    if len(path) > 0:
        root = path[-1]
        path = path[:-1]
    return jsonify(path), 200
Esempio n. 7
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    def add_transaction(self, recipient, sender, signature, amount=1.0):

        if self.public_key == None:
            return None

        transaction = Transaction(sender, recipient, amount, signature)
        """if not Wallet.verify_signature(transaction):
			return False"""
        if Verification.verify_transaction(transaction, self.get_balance):
            self.open_transactions.append(transaction)
            self.save_data()
            return True
        else:
            print("Solde insuffisant")
            return False
Esempio n. 8
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def transfer_money():
    peer_destino = request.forms.get('peer')
    valor = float(request.forms.get('value'))
    try:
        if valor < 0:
            raise ValueError('O valor da transação deve ser positivo!')
        if valor > calcula_saldo():
            raise ValueError('Não há saldo disponível na carteira!')

        increment_vector_clock()
        transaction = Transaction(user, peer_destino, valor,
                                  vector_clock.copy())
        add_transaction(transaction)

    except ValueError as ve:
        print('Erro! -> {}'.format(ve))
    redirect('/')
Esempio n. 9
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 def mine_block(self):
     if self.public_key == None:
         return None
         #return False
     if not Verification.verify_chain(self.chain):
         return None
     last_block = self.chain[-1]
     hashed_blocks = 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_signature(tx):
             return None
             #return False
     copied_transactions.append(reward_transaction)
     block = Block(hashed_blocks, len(self.chain), copied_transactions,
                   proof)
     self.chain.append(block)
     self.open_transactions = []
     self.save_data()
     return block
Esempio n. 10
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 def mine_block(self):
     if self.public_key == None:
         return None
         #return False
     if not Verification.verify_chain(self.chain):
         return None
     last_block = self.chain[-1]
     hashed_blocks = 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_signature(tx):
             return None
             #return False
     copied_transactions.append(reward_transaction)
     block = Block(hashed_blocks, len(self.chain), 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)
         block_converted = block.__dict__.copy()
         block_converted['transactions'] = [
             tx.__dict__ for tx in block_converted['transactions']
         ]
         try:
             response = requests.post(url, json={'block': block_converted})
             if response.status_code == 400:
                 print('Block declined, needs resolving')
             if response.status_code == 500:
                 print('Block declined')
         except requests.exceptions.ConnectionError:
             continue
     return block
Esempio n. 11
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def update_transactions(ngbr_transactions, ngbr):
    global transactions, vector_clock
    for transaction_dict in ngbr_transactions:
        transaction = Transaction(**transaction_dict)
        exists = False
        for t in transactions:
            if transaction == t:
                exists = True
        if not exists:
            if transaction.peer_origem not in vector_clock:
                vector_clock[
                    transaction.peer_origem] = transaction.vector_clock[
                        transaction.peer_origem] - 1
            if transaction.vector_clock[
                    transaction.
                    peer_origem] <= vector_clock[transaction.peer_origem] + 1:
                #era a transação que esperava receber desse peer
                update_clock(transaction.vector_clock)
                add_transaction(transaction)
            else:
                print("Foram perdidas mensagens do peer {}!".format(
                    transaction.peer_origem))
                #agora eu posso colocar numa fila de espera, com uma thread tentando reinseri-las de tempo em tempo :D
                delay_queue.append(transaction)
Esempio n. 12
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 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['hash_previous_block'],
                                               block['proof'])
     hashes_match = hash_block(
         self.chain[-1]) == block['hash_previous_block']
     print("hash block ", hash_block(self.chain[-1]))
     print("block previous hash ", block['hash_previous_block'])
     print(proof_is_valid)
     print(hashes_match)
     if not proof_is_valid or not hashes_match:
         return False
     converted_block = Block(block['hash_previous_block'], block['index'],
                             transactions, block['proof'],
                             block['timestamp'])
     self.chain.append(converted_block)
     stored_transactions = self.open_transactions[:]
     for incomingtx in block['transactions']:
         for opentx in stored_transactions:
             print("incoming tx ", incomingtx)
             print("opentx ", opentx)
             if incomingtx['sender'] == opentx.sender and incomingtx[
                     'recipient'] == opentx.recipient and incomingtx[
                         'amount'] == opentx.amount and incomingtx[
                             'signature'] == opentx.signature:
                 #Only transactions that are the same everywhere should be mined
                 try:
                     self.open_transactions.remove(opentx)
                 except ValueError:
                     print('Item is already removed')
     self.save_data()
     return True