Ejemplos de generate_private_key en Python

Ejemplo n.º 1

def testKeyserver():

    print("Running keyserver")
    keyServer = KeyServer

    keyserverThread = threading.Thread(target=keyServer.main, args=())
    keyserverThread.start()

    print("---KEYSERVER REGISTER TEST---")

    print("[TEST]Initializing a client1")
    host = '127.0.0.1'
    clientsocket_1 = socket.socket()
    clientsocket_1.connect((host, 2004))

    client1PrivateKey = Knapsack.generate_private_key(8)
    client1PublicKey = Knapsack.create_public_key(client1PrivateKey)
    print("[TEST]Generated Client1 Public and Private Key:", client1PublicKey,
          client1PrivateKey)
    print("[TEST]Sendig keys to keyserver..")
    message = 'REGISTER#' + str(1) + "#" + str(client1PublicKey)
    clientsocket_1.send(str.encode(message))

    keyServerResponseProcesser(clientsocket_1)

    print("[TEST]Initializing a client2")
    clientsocket_2 = socket.socket()
    clientsocket_2.connect((host, 2004))

    client2PrivateKey = Knapsack.generate_private_key(8)
    client2PublicKey = Knapsack.create_public_key(client2PrivateKey)
    print("[TEST]Generated Client2 Public and Private Key:", client2PublicKey,
          client2PrivateKey)
    print("[TEST]Sendig keys to keyserver..")
    message = 'REGISTER#' + str(2) + "#" + str(client1PublicKey)
    clientsocket_2.send(str.encode(message))
    keyServerResponseProcesser(clientsocket_2)

    print("------------GETTING OTHER CLIENT PUBLIC KEY---------------")
    print(
        "Scenario:Client1 tries to get Client2 public key and port in order to communicate\n"
    )
    message = 'GETPUBKEY#' + str(2)
    clientsocket_1.send(str.encode(message))
    keyServerResponseProcesser(clientsocket_1)

    print(
        "------------GETTING NOT REGISTERED CLIENT PUBLIC KEY---------------")
    print("Scenario:Client1 tries to get a key which not exists\n")
    message = 'GETPUBKEY#' + str(555)
    clientsocket_1.send(str.encode(message))
    keyServerResponseProcesser(clientsocket_1)

    clientsocket_1.close()
    clientsocket_2.close()

Ejemplo n.º 2

def run_merkle_hellman():
    action = get_action()

    print("* Seed *")
    seed = input("Set Seed [enter for random]: ")
    import random
    if not seed:
        random.seed()
    else:
        random.seed(seed)

    print("* Building private key...")

    private_key = generate_private_key()
    public_key = create_public_key(private_key)

    if action == 'E':  # Encrypt
        data = get_input(binary=True)
        print("* Transform *")
        chunks = encrypt_mh(data, public_key)
        output = ' '.join(map(str, chunks))
    else:  # Decrypt
        data = get_input(binary=False)
        chunks = [int(line.strip()) for line in data.split() if line.strip()]
        print("* Transform *")
        output = decrypt_mh(chunks, private_key)

    set_output(output)

Ejemplo n.º 3

def testKnapsackMessage():
    print("1---KNAPSACK TEST FOR MESSAGE ENCRYPTION---")
    pk1 = Knapsack.generate_private_key()
    pubkey1 = Knapsack.create_public_key(pk1)

    pk2 = Knapsack.generate_private_key()
    pubkey2 = Knapsack.create_public_key(pk2)

    str1 = "Volt egyszer egy Elek ugy hivtak hogy Teszt Elek aki szerette a teszt eseteket"
    print("Message that will be encrypted=" + str1)

    encripteduzenet = Knapsack.encrypt_mh(str1, pubkey2)
    print("Encrypted message=" + str(encripteduzenet))
    decriptaltuzenet = Knapsack.decrypt_mh(encripteduzenet, pk2)
    print("Decrypted message= " + str(decriptaltuzenet))
    print("-----------------------------------------------\n")

Ejemplo n.º 4

    def __init__(self, address=None):
        if address is None:  # Creating a new wallet, we need to generate the priv and publ keys
            self.priv_key = generate_private_key()
            self.address = b32encode(
                generate_public_key(self.priv_key).to_string()).decode()
        else:
            self.address = address

        self.amount = 0

Ejemplo n.º 5

def testKnapsackDeck():
    print("2---KNAPSACK TEST FOR DECK ENCRYPTION---")
    pk1 = Knapsack.generate_private_key()
    pubkey1 = Knapsack.create_public_key(pk1)

    pk2 = Knapsack.generate_private_key()
    pubkey2 = Knapsack.create_public_key(pk2)

    str1 = ' '.join(
        str(e) for e in [
            4, 19, 24, 18, 21, 25, 26, 5, 6, 20, 2, 23, 12, 17, 13, 27, 16, 8,
            10, 14, 1, 22, 7, 11, 9, 15, 3
        ])

    print("Message that will be encrypted=" + str([
        4, 19, 24, 18, 21, 25, 26, 5, 6, 20, 2, 23, 12, 17, 13, 27, 16, 8, 10,
        14, 1, 22, 7, 11, 9, 15, 3
    ]))
    encripteduzenet = Knapsack.encrypt_mh(str1, pubkey2)
    print("Encrypted message=" + str(encripteduzenet))
    decriptaltuzenet = Knapsack.decrypt_mh(encripteduzenet, pk2)
    print("Decrypted message= " + str(decriptaltuzenet))
    print("-----------------------------------------------\n")

Ejemplo n.º 6

Archivo: Client.py Proyecto: lacmih/KriptoLab

def registrate_public_key(Id):
    global PRIVATE_TCP_PORT
    PRIVATE_TCP_PORT = int(Id)
    global PRIVATE_KEY
    PRIVATE_KEY = crypto.generate_private_key()
    global PUBLIC_KEY
    PUBLIC_KEY = crypto.create_public_key(PRIVATE_KEY)
    print("PRIVATE_TCP_PORT ", PRIVATE_TCP_PORT)
    print("PRIVATE_KEY ", PRIVATE_KEY)
    print("PUBLIC_KEY ", PUBLIC_KEY)

    serverSocket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    serverSocket.connect((TCP_IP, TCP_PORT))

    recieve(serverSocket)

    mess = 'registerPubKey ' + str(Id) + ' ' + str(PUBLIC_KEY)
    mess = str.encode(mess)
    serverSocket.send(mess)

    recieve(serverSocket)

Ejemplo n.º 7

Archivo: crypto-console.py Proyecto: zsoltlongauer/python-assignments

def run_merkle_hellman(encrypting, data):
    """Run the Merkle-Hellman knapsack cryptosystem."""
    action = get_action()

    print("* Seed *")
    seed = input("Set Seed [enter for random]: ")
    if not seed:
        random.seed()
    else:
        random.seed(seed)

    print("* Building private key...")

    private_key = generate_private_key()
    public_key = create_public_key(private_key)

    if encrypting:  # Encrypt
        print("* Transform *")
        chunks = encrypt_mh(data, public_key)
        return ' '.join(map(str, chunks))
    else:  # Decrypt
        chunks = [int(line.strip()) for line in data.split() if line.strip()]
        print("* Transform *")
        return decrypt_mh(chunks, private_key)

Ejemplo n.º 8

 def setUp(self):
     self.PRIVATE_KEY = crypto.generate_private_key()
     self.PUBLIC_KEY = crypto.create_public_key(self.PRIVATE_KEY)

Ejemplo n.º 9

Archivo: client.py Proyecto: BauerKristof/Kriptografia-labor-Bauer-Kristof

 def GenerateKnapsackKeyPair(self):
     clientPrivateKey = Knapsack.generate_private_key(8)
     clientPublicKey = Knapsack.create_public_key(clientPrivateKey)
     return clientPrivateKey, clientPublicKey