コード例 #1
0
 def refresh(self, transaction_data, last_update_timestamp):
     updated, my_ledger_path = blockchain.ledger_updated(
         self.blockchain.cnx, self.blockchain.client, self.blockchain.gpg)
     if not updated:
         self.blockchain = blockchain.download_ledger(
             self.blockchain.cnx, self.blockchain.client,
             self.blockchain.gpg)
     ipfs_hash = blockchain.insert_transaction(
         self.blockchain.cnx,
         self.blockchain.client,
         self.blockchain.gpg,
         self.contract_id,
         transaction_data,
         recipients=[
             self.contract_header['engineer_email'],
             self.contract_header['technician_email']
         ])
     blockdata = self.contract_header
     blockdata['ipfs_hash'] = ipfs_hash
     block = Blockchain.hash(blockdata)
     blockchain.update_world_state(self.blockchain.cnx, self.contract_id,
                                   last_update_timestamp,
                                   self.contract_header['current_state'])
     block_added, self.blockchain.ledger_path = new_block(
         self.blockchain, block, ipfs_hash)
     self.blockchain.chain = self.blockchain.load_blockchain(
         self.blockchain.ledger_path)
     print('Transaction block added to blockchain at ',
           self.blockchain.ledger_path, '\n', block_added)
     return block_added
コード例 #2
0
def mine():
    # We run the proof of work algorithm to get the next proof...
    last_block = blockchain.last_block
    last_proof = last_block['proof']
    proof = blockchain.proof_of_work(last_proof)

    # 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
コード例 #3
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def thread_mine(current_index):
    # sleep for a random number of seconds from 10 to 60 seconds to simulate mining
    time.sleep(random.randint(1, 6))

    last_block = blockchain.last_block
    last_proof = last_block['proof']
    proof = blockchain.proof_of_work(last_proof)

    # if faulty, edit the hash to be incorrect
    if blockchain.faulty:
        proof = 0

    previous_hash = blockchain.hash(last_block)
    # if the blockchain is still the same length as when we started, add the new block
    if len(blockchain.chain) == current_index:

        # reward miner
        blockchain.new_transaction(
            1,
            "0",
            node_identifier,
            1,
            False,
        )

        blockchain.new_block(proof, previous_hash)

        # print the new block mined
        b_index = blockchain.last_block["index"]
        b_hash = blockchain.last_block["previous_hash"]
        b_proof = blockchain.last_block["proof"]
        b_timestamp = blockchain.last_block["timestamp"]
        mine_log.write(f"{b_index}, {b_hash}, {b_proof}, {b_timestamp}\n")

        for transaction in blockchain.last_block["transactions"]:
            mine_log.write(f"\t{transaction['trans_id']}\n")

        # if we are proactively telling other nodes of the new chain
        if blockchain.proactive:
            proactive_consensus()

    blockchain.mining = False
コード例 #4
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def create_blockchain():
    # Our block chain is a list
    blockchain = [create_genesis_block()]
    previous_block = blockchain[0]

    # Total blocks in chain
    number_of_blocks = 20

    for each_block in range(0, number_of_blocks):
        next_block = new_block(previous_block)
        blockchain.append(next_block)
        previous_block = next_block

        # Print details
        print("New block: Block {} added!! ".format(previous_block.index))
        print("Block data: {}".format(previous_block.data))
        print("Block hash: {}".format(previous_block.hash))
コード例 #5
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def mine():
    req = request.form.get('mine')

    lt_block = blockchain.last_block
    lt_proof = lt_block['proof']
    proof = blockchain.proof_of_work(lt_proof, lt_block)

    blockchain.new_transaction(sender='0', receiver=node_id, amount=1)

    previous_hash = blockchain.hash(lt_block)
    block = blockchain.new_block(proof, previous_hash)

    response = {
        'message': "Block created",
        'index': block['index'],
        'proof': block['proof'],
        'previous_hash': block['previous_hash']
    }
    return render_template('/mine.html', response=response)
コード例 #6
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def mine():

    last_block = blockchain.last_block
    last_proof = last_block['proof']
    proof = blockchain.proof_of_work(last_proof)

    blockchain.new_transaction(sender="0", recipient=node_identifier, amount=1)

    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
コード例 #7
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ファイル: main.py プロジェクト: vangyong/python-learn
def mine():
    # We run the proof of work algorithm to get the next proof...
    last_block = blockchain.last_block
    last_proof = last_block['proof']
    proof = blockchain.proof_of_work(last_proof)
    # 给工作量证明的节点提供奖励.
    # 发送者为 "0" 表明是新挖出的币
    blockchain.new_transaction(
        sender="0",
        recipient=node_identifier,
        amount=1,
    )
    # Forge the new Block by adding it to the chain
    block = blockchain.new_block(proof)
    response = {
        'message': "New Block Forged",
        'index': block['index'],
        'transactions': block['transactions'],
        'proof': block['proof'],
        'previous_hash': block['previous_hash'],
    }
    return jsonify(response), 200
コード例 #8
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ファイル: main.py プロジェクト: Determinant179/HSE
import blockchain as bc

blockchain = [bc.create_genesis_block()]
previous_block = blockchain[0]

num_of_blocks = 30

for i in range(0, num_of_blocks):
    current_block = bc.new_block(previous_block)
    blockchain.append(current_block)
    previous_block = current_block

    print("Block " + str(current_block.counter) + " has been added\n")
    print("Transactoin info:")
    print("Sender - " + current_block.data.sender)
    print("Recipient - " + current_block.data.recipient)
    print("Amount of transaction - " + str(current_block.data.amount))
    print("\nHash - " + current_block.hash + "\n\n\n")
コード例 #9
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ファイル: Test.py プロジェクト: jrobinson14/VaccineBlockchain
blockchain = blockchain.Blockchain()  # the blockchain used in this test

# create a test record for a patient
patient_test_vc = [
    "Administration Date: MAY-01-2021 10:00 AM", "Patient ID: 10132",
    "Patient Name: John Doe", "Patient Address: 10 Example St. NE",
    "Administered by: Dr. Jill Fakeington"
]
# additional info is non-personally identifying info stored with transaction
additional_data = ["Vaccine Type: Pfizer", "Vaccine ID: 1234"]

# create the provider
provider = Provider.Provider(provider_key)
# create the patient
patient = Patient.Patient(patient_key)
# create the third party verifier
verifier = Verifier.Verifier(verifier_key, blockchain)
# generate patient vaccine card
provider.generate_card(patient_test_vc)
# provider posts the transaction to the blockchain
provider.post_transaction(blockchain, patient_key.public_key(),
                          additional_data)
# a new block is created
blockchain.new_block()
# provider sends encrypted vaccine care to the patient
provider.send_patient_info(patient)
# Patient sends encrypted record to the verifier to prove his vaccination
patient.send_records(verifier, verifier.get_pub_key())
# verifier verifies the record is in the blockchain
verifier.verify_record(blockchain)