Ejemplo n.º 1
0
    def recv_interest_voucher(self, data):
        msg, key = marshal.loads(data)
        (nonce, leader_ip, leader_gui_port, leader_com_port) = marshal.loads(msg)
        self.DEBUG(
            "Start round voucher from %s:%s, communicating at port %s" % (leader_ip, leader_gui_port, leader_com_port)
        )

        # get the path to the file you want to share
        self.emit(SIGNAL("getSharedFilename()"))

        verified = self.verify(leader_ip, leader_gui_port, data)

        """ generate temporary keys for this round so leader can aggregate """
        self.gen_temp_keys()
        temp1_str = AnonCrypto.pub_key_to_str(self.pubgenkey1)
        temp2_str = AnonCrypto.pub_key_to_str(self.pubgenkey2)

        """ default to random file of 128 bytes if you don't have anything to share """
        if verified:
            if os.path.exists(self.shared_filename):
                self.DEBUG("You are sharing file %s" % (self.shared_filename))
            else:
                self.DEBUG("Not a valid file path, continuing without sharing...")

            # respond with your interest
            self.DEBUG("Verified leader, participating as %s:%s at port %s" % (self.ip, self.gui_port, self.com_port))
            response = marshal.dumps((nonce, self.ip, self.gui_port, self.com_port, temp1_str, temp2_str))
            cipher = AnonCrypto.sign_with_key(self.privKey, response)
            AnonNet.send_to_addr(leader_ip, int(leader_gui_port), marshal.dumps(("interested", cipher)))
        else:
            self.DEBUG("Unkown leader, opting out...")
Ejemplo n.º 2
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    def unpickle_pub_keys(self, msgs):
        """ Leader uses this method to unpack keys from other nodes """
        addrs = []
        key_dict = {}
        key_dict[self.id] = (self.key_from_file(1),
                             AnonCrypto.sign(self.id, self.key1,
                                             self.key2.get_pubkey()))

        for data in msgs:
            (rem_id, rem_round, rem_ip, rem_port, rem_key1,
             rem_key2) = marshal.loads(data)
            self.debug("Unpickled msg from node %d" % (rem_id))

            if rem_round != self.round_id:
                raise RuntimeError, "Mismatched round numbers! (mine: %d, other: %d)" % (
                    self.round_id, rem_round)

            self.debug("Before reading verification key")
            k1 = AnonCrypto.vk_key_from_str(rem_key1)
            self.pub_keys[rem_id] = (k1, k1)
            self.debug("Before reading public key")
            k2 = AnonCrypto.pub_key_from_str(
                AnonCrypto.verify(self.pub_keys, rem_key2))
            self.pub_keys[rem_id] = (k1, k2)
            addrs.append((rem_ip, rem_port))
            key_dict[rem_id] = (rem_key1, rem_key2)
            self.debug("After handling the keys")
        return (marshal.dumps((self.round_id, key_dict)), addrs)
Ejemplo n.º 3
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	def unpickle_pub_keys(self, msgs):
		""" Leader uses this method to unpack keys from other nodes """
		addrs = []
		key_dict = {}
		key_dict[self.id] = (
				self.key_from_file(1),
				AnonCrypto.sign(self.id, self.key1, self.key_from_file(2)))

		for data in msgs:
			(rem_id, rem_round, rem_ip, rem_port,
			 rem_key1, rem_key2) = marshal.loads(data)
			self.debug("Unpickled msg from node %d" % (rem_id))
			
			if rem_round != self.round_id:
				raise RuntimeError, "Mismatched round numbers! (mine: %d, other: %d)" % (
						self.round_id, rem_round)

			k1 = AnonCrypto.pub_key_from_str(rem_key1)
			self.pub_keys[rem_id] = (k1, k1)
			k2 = AnonCrypto.pub_key_from_str(AnonCrypto.verify(self.pub_keys, rem_key2))
			self.pub_keys[rem_id] = (k1, k2)
			addrs.append((rem_ip, rem_port))
			key_dict[rem_id] = (rem_key1, rem_key2)
		
		return (marshal.dumps((self.round_id, key_dict)), addrs)
Ejemplo n.º 4
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    def recv_interest_voucher(self, data):
        msg, key = marshal.loads(data)
        (nonce, leader_ip, leader_gui_port, leader_com_port) = marshal.loads(msg)
        self.DEBUG("Start round voucher from %s:%s, communicating at port %s" % (leader_ip, leader_gui_port, leader_com_port))

        # get the path to the file you want to share
        self.emit(SIGNAL("getSharedFilename()"))

        verified = self.verify(leader_ip, leader_gui_port, data)

        """ generate temporary keys for this round so leader can aggregate """
        self.gen_temp_keys()
        temp1_str = AnonCrypto.pub_key_to_str(self.pubgenkey1)
        temp2_str = AnonCrypto.pub_key_to_str(self.pubgenkey2)

        """ default to random file of 128 bytes if you don't have anything to share """
        if verified:
            if os.path.exists(self.shared_filename):
                self.DEBUG("You are sharing file %s" % (self.shared_filename))
            else:
                self.DEBUG("Not a valid file path, continuing without sharing...")

            # respond with your interest
            self.DEBUG("Verified leader, participating as %s:%s at port %s" % (self.ip, self.gui_port, self.com_port))
            response = marshal.dumps((nonce,self.ip,self.gui_port,self.com_port,temp1_str,temp2_str))
            cipher = AnonCrypto.sign_with_key(self.privKey, response)
            AnonNet.send_to_addr(leader_ip, int(leader_gui_port), marshal.dumps(("interested", cipher)))
        else:
            self.DEBUG("Unkown leader, opting out...")
Ejemplo n.º 5
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    def phase0b_msg(self):
        """ Message the leader sends to all other nodes. """
        newdict = {}
        for i in xrange(0, self.n_nodes):
            k1, k2 = self.pub_keys[i]
            newdict[i] = (AnonCrypto.pub_key_to_str(k1), AnonCrypto.pub_key_to_str(k2))

        return marshal.dumps((self.round_id, newdict))
Ejemplo n.º 6
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	def initialize_keys(self):
		self.advance_phase()
		for index, participant in enumerate(self.participants_vector):
			msg, key = marshal.loads(participant[0])
			(nonce, interest_ip, interest_gui_port, interest_com_port, pubkey1_str, pubkey2_str) = marshal.loads(msg)
			k1 = AnonCrypto.pub_key_from_str(pubkey1_str)
			k2 = AnonCrypto.pub_key_from_str(pubkey2_str)
			self.pub_keys[index] = (k1, k2)
		self.info('Unpickled public keys')
Ejemplo n.º 7
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	def initialize_keys(self):
		self.advance_phase()
		for index, participant in enumerate(self.participants_vector):
			msg, key = marshal.loads(participant[0])
			(nonce, interest_ip, interest_gui_port, interest_com_port, pubkey1_str, pubkey2_str) = marshal.loads(msg)
			k1 = AnonCrypto.pub_key_from_str(pubkey1_str)
			k2 = AnonCrypto.pub_key_from_str(pubkey2_str)
			self.pub_keys[index] = (k1, k2)
		self.info('Unpickled public keys')
Ejemplo n.º 8
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	def generate_keys(self):	
		info("Generating keypair, please wait...")
		self.key1 = AnonCrypto.random_key(self.key_len)
		self.key2 = AnonCrypto.random_key(self.key_len)
		self.save_pub_key(self.key1, 1)
		self.save_pub_key(self.key2, 2)

		self.pub_keys[self.id] = (
				M2Crypto.RSA.load_pub_key(self.key_filename(1)),
				M2Crypto.RSA.load_pub_key(self.key_filename(2))) 
Ejemplo n.º 9
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	def generate_keys(self):	
		info("Generating keypair, please wait...")
		self.key1 = AnonCrypto.random_key(self.key_len)
		self.key2 = AnonCrypto.random_key(self.key_len)
		self.save_pub_key(self.key1, 1)
		self.save_pub_key(self.key2, 2)

		self.pub_keys[self.id] = (
				M2Crypto.RSA.load_pub_key(self.key_filename(1)),
				M2Crypto.RSA.load_pub_key(self.key_filename(2))) 
Ejemplo n.º 10
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    def phase1_msg(self):
        """ Message that non-leader nodes send to the leader. """
        #ToDo: Generate the hash of the encryption keys and send it instead of the keys themselves
        #      for the equivocation check.
        return marshal.dumps(
            (self.id, self.round_id, self.ip, self.port, self.key_from_file(1),
             AnonCrypto.sign(self.id, self.key1,
                             AnonCrypto.pub_key_to_str(self.key2))))

        return marshal.dumps((self.round_id, newdict))
Ejemplo n.º 11
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	def phase0b_msg(self):
		""" Message the leader sends to all other nodes. """
		newdict = {}
		for i in xrange(0, self.n_nodes):
			k1,k2 = self.pub_keys[i]
			newdict[i] = (
				AnonCrypto.pub_key_to_str(k1),
				 AnonCrypto.pub_key_to_str(k2))

		return marshal.dumps((self.round_id, newdict))
Ejemplo n.º 12
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    def generate_keys(self):
        info("Generating sining key pair, please wait...")
        self.key1 = AnonCrypto.random_signing_key()
        info("Generating encryption key pair, please wait...")
        self.key2 = AnonCrypto.random_key(self.key_len)
        info("Keys generated")
        self.save_pub_key(self.key1, 1)
        #self.save_pub_key(self.key2, 2)

        self.pub_keys[self.id] = (M2Crypto.EC.load_pub_key(
            self.key_filename(1)), self.key2)
Ejemplo n.º 13
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	def run_phase4(self):
		self.advance_phase()
		if self.am_leader():
			self.debug("Leader broadcasting ciphers to all nodes")
			self.broadcast_to_all_nodes(marshal.dumps(self.final_ciphers))
			self.debug("Cipher set len %d" % (len(self.final_ciphers)))
		else:
			""" Get C' ciphertexts from leader. """
			self.final_ciphers = marshal.loads(self.recv_from_leader())

		"""
		self.final_ciphers holds an array of
		pickled (round_id, cipher_prime) tuples
		"""

		my_cipher_str = marshal.dumps((self.round_id, self.cipher_prime))

		go = False
		if my_cipher_str in self.final_ciphers:
			self.info("Found my ciphertext in set")
			go = True
		else:
			self.critical("ABORT! My ciphertext is not in set!")
			self.debug(self.final_ciphers)
			go = False
			raise RuntimeError, "Protocol violation: My ciphertext is missing!"

		hashval = AnonCrypto.hash_list(self.final_ciphers)
		go_msg = marshal.dumps((
					self.id,
					self.round_id,
					go,
					hashval))
		
		go_data = ''
		if self.am_leader():
			""" Collect go msgs """
			data = self.recv_from_all(False)
			
			""" Add leader's signed GO message to set """
			data.append(AnonCrypto.sign(self.id, self.key1, go_msg))
			go_data = marshal.dumps((data))
			self.broadcast_to_all_nodes(go_data)

		else:
			""" Send go msg to leader """
			self.send_to_leader(go_msg)
			go_data = self.recv_from_leader()
		
		self.check_go_data(hashval, go_data)
		self.info("All nodes report GO")
		return
Ejemplo n.º 14
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    def gen_temp_keys(self):
        key1 = AnonCrypto.random_key(KEY_LENGTH)
        key2 = AnonCrypto.random_key(KEY_LENGTH)

        key1.save_key('config/temp1.priv', None)
        key1.save_pub_key('config/temp1.pub')

        key2.save_key('config/temp2.priv', None)
        key2.save_pub_key('config/temp2.pub')

        self.privgenkey1 = M2Crypto.RSA.load_key('config/temp1.priv')
        self.pubgenkey1 = M2Crypto.RSA.load_pub_key('config/temp1.pub')

        self.privgenkey2 = M2Crypto.RSA.load_key('config/temp2.priv')
        self.pubgenkey2 = M2Crypto.RSA.load_pub_key('config/temp2.pub')
Ejemplo n.º 15
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    def gen_temp_keys(self):
        key1 = AnonCrypto.random_key(KEY_LENGTH)
        key2 = AnonCrypto.random_key(KEY_LENGTH)

        key1.save_key("config/temp1.priv", None)
        key1.save_pub_key("config/temp1.pub")

        key2.save_key("config/temp2.priv", None)
        key2.save_pub_key("config/temp2.pub")

        self.privgenkey1 = M2Crypto.RSA.load_key("config/temp1.priv")
        self.pubgenkey1 = M2Crypto.RSA.load_pub_key("config/temp1.pub")

        self.privgenkey2 = M2Crypto.RSA.load_key("config/temp2.priv")
        self.pubgenkey2 = M2Crypto.RSA.load_pub_key("config/temp2.pub")
Ejemplo n.º 16
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    def phase1_msg(self):
        """ Message that non-leader nodes send to the leader. """
        return marshal.dumps(
            (self.id, self.round_id, self.ip, self.port, self.key_from_file(1),
             AnonCrypto.sign(self.id, self.key1, self.key_from_file(2))))

        return marshal.dumps((self.round_id, newdict))
Ejemplo n.º 17
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def __main__(argv):
	min_key_len = 1024

	if(len(argv) != 16):
		raise ValueError, "Usage: %s id key_len round_id n_nodes my_ip my_port leader_ip leader_port dnstr_ip dnstr_port upstr_ip upstr_port msg_len max_len mode" % (argv[0])

	logger = logging.getLogger()
	logger.setLevel(logging.DEBUG)

	id = int(argv[1])
	key_len = int(argv[2])
	round_id = int(argv[3])
	n_nodes = int(argv[4])
	my_addr = (argv[5], int(argv[6]))
	leader_addr = (argv[7], int(argv[8]))
	up_addr = (argv[9], int(argv[10]))
	dn_addr = (argv[11], int(argv[12]))
	msg_len = int(argv[13])
	max_len = int(argv[14])
	mode = int (argv[15])
	
	msg_file = AnonCrypto.random_file(msg_len)
	node = shuffle_node.shuffle_node(id, key_len, round_id, n_nodes,
			my_addr, leader_addr, up_addr, dn_addr, msg_file, max_len)
	
#cProfile.runctx('node.run_protocol()', {}, {'node': node})
	node.run_bad_protocol(mode)
	fnames = node.output_filenames()
	print "--------------------------------------------------------------------"
#	for i in xrange(0, len(fnames)):
#		copyfile(fnames[i], "data/node%04d-%04d.out" % (id, i))

	return
Ejemplo n.º 18
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def __main__(argv):
    min_key_len = 1024

    if (len(argv) != 14):
        raise ValueError, "Usage: %s id key_len round_id n_nodes my_ip my_port leader_ip leader_port dnstr_ip dnstr_port upstr_ip upstr_port msg_len" % (
            argv[0])

    logger = logging.getLogger()
    logger.setLevel(logging.DEBUG)
    debug("Starting node")

    id = int(argv[1])
    key_len = int(argv[2])
    round_id = int(argv[3])
    n_nodes = int(argv[4])
    my_addr = (argv[5], int(argv[6]))
    leader_addr = (argv[7], int(argv[8]))
    up_addr = (argv[9], int(argv[10]))
    dn_addr = (argv[11], int(argv[12]))
    msg_len = int(argv[13])

    msg_file = AnonCrypto.random_file(msg_len)

    node = bulk_node.bulk_node(id, key_len, round_id, n_nodes, my_addr,
                               leader_addr, up_addr, dn_addr, msg_file)
    cProfile.runctx('mynode.run_protocol()', {'mynode': node}, {})
    #node.run_protocol()
    fnames = node.output_filenames()

    for i in xrange(0, len(fnames)):
        copyfile(fnames[i], "data/node%04d-%04d.out" % (id, i))

    return
Ejemplo n.º 19
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    def accept_phase(self, ip, port, nonce):
        # package and encrypt data
        response = marshal.dumps((nonce, self.ip, self.gui_port))
        cipher = AnonCrypto.sign_with_key(self.privKey, response)

        # respond with ((ip, port), encrypted_data)
        AnonNet.send_to_addr(ip, int(port), marshal.dumps(("accept", cipher)))
Ejemplo n.º 20
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    def accept_phase(self, ip, port, nonce):
        # package and encrypt data
        response = marshal.dumps((nonce,self.ip,self.gui_port))
        cipher = AnonCrypto.sign_with_key(self.privKey, response)

        # respond with ((ip, port), encrypted_data)
        AnonNet.send_to_addr(ip, int(port), marshal.dumps(("accept", cipher)))
Ejemplo n.º 21
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def __main__(argv):
	min_key_len = 1024

	if(len(argv) != 14):
		raise ValueError, "Usage: %s id key_len round_id n_nodes my_ip my_port leader_ip leader_port dnstr_ip dnstr_port upstr_ip upstr_port msg_len" % (argv[0])

	logger = logging.getLogger()
	logger.setLevel(logging.DEBUG)
	debug("Starting node")

	id = int(argv[1])
	key_len = int(argv[2])
	round_id = int(argv[3])
	n_nodes = int(argv[4])
	my_addr = (argv[5], int(argv[6]))
	leader_addr = (argv[7], int(argv[8]))
	up_addr = (argv[9], int(argv[10]))
	dn_addr = (argv[11], int(argv[12]))
	msg_len = int(argv[13])

	msg_file = AnonCrypto.random_file(msg_len)

	node = bulk_node.bulk_node(id, key_len, round_id, n_nodes,
			my_addr, leader_addr, up_addr, dn_addr, msg_file)
	cProfile.runctx('mynode.run_protocol()', {'mynode': node}, {})
#node.run_protocol()
	fnames = node.output_filenames()

	for i in xrange(0, len(fnames)):
		copyfile(fnames[i], "data/node%04d-%04d.out" % (id, i))

	return
Ejemplo n.º 22
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    def start_node(self, down_index, up_index, participants_vector, my_id):
        n_nodes = len(participants_vector)
        leader_addr = (participants_vector[0][1], int(participants_vector[0][3]))
        my_addr = (participants_vector[my_id][1], int(participants_vector[my_id][3]))
        dn_addr = (participants_vector[down_index][1], int(participants_vector[down_index][3]))
        up_addr = (participants_vector[up_index][1], int(participants_vector[up_index][3]))
        round_id = 1
        key_len = KEY_LENGTH

        """ if distrusted peer is participating, then don't share file (if one is chosen) """
        self.DEBUG("Distrusted peers: %s" % self.distrusted_peers)
        msg_file = None
        trusted = True
        if os.path.exists(self.shared_filename):
            for peer in participants_vector:
                for distrusted_peer in self.distrusted_peers:
                    (d_ip, d_port) = distrusted_peer
                    (p_ip, p_port) = peer[1], peer[2]
                    if d_ip == p_ip and str(d_port) == str(p_port):
                        self.DEBUG("Not sharing my file because peer %s:%s is participating" % (p_ip, p_port))
                        trusted = False
                        break
                if not trusted: break

        # create random file if none has been shared
        if trusted and os.path.exists(self.shared_filename):
            msg_file = self.shared_filename
        else:
            msg_file = AnonCrypto.random_file(DEFAULT_LENGTH)

        # initialize node
        self.node = bulk_node.bulk_node(my_id, key_len, round_id, n_nodes, \
                my_addr, leader_addr, dn_addr, up_addr, msg_file, participants_vector, self.privgenkey1, self.privgenkey2)
        self.DEBUG("round_id: %s id: %s n_nodes: %s my_addr: %s leader_addr: %s dn_addr: %s up_addr: %s msg_file: %s" % \
                (round_id, my_id, n_nodes, my_addr, leader_addr, dn_addr, up_addr, msg_file))
def __main__(argv):
    min_key_len = 1024

    if (len(argv) != 16):
        raise ValueError, "Usage: %s id key_len round_id n_nodes my_ip my_port leader_ip leader_port dnstr_ip dnstr_port upstr_ip upstr_port msg_len max_len mode" % (
            argv[0])

    logger = logging.getLogger()
    logger.setLevel(logging.DEBUG)

    id = int(argv[1])
    key_len = int(argv[2])
    round_id = int(argv[3])
    n_nodes = int(argv[4])
    my_addr = (argv[5], int(argv[6]))
    leader_addr = (argv[7], int(argv[8]))
    up_addr = (argv[9], int(argv[10]))
    dn_addr = (argv[11], int(argv[12]))
    msg_len = int(argv[13])
    max_len = int(argv[14])
    mode = int(argv[15])

    msg_file = AnonCrypto.random_file(msg_len)
    node = shuffle_node.shuffle_node(id, key_len, round_id, n_nodes, my_addr,
                                     leader_addr, up_addr, dn_addr, msg_file,
                                     max_len)

    #cProfile.runctx('node.run_protocol()', {}, {'node': node})
    node.run_bad_protocol(mode)
    fnames = node.output_filenames()
    print "--------------------------------------------------------------------"
    #	for i in xrange(0, len(fnames)):
    #		copyfile(fnames[i], "data/node%04d-%04d.out" % (id, i))

    return
Ejemplo n.º 24
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    def prepare_round(self):
        # can't start round without 3 or more peers
        if len(self.participants) < 3:
            self.DEBUG("Not enough peers to start round!")
            return

        prepare_voucher = marshal.dumps(
            (int(PREPARE_WAIT), int(1), copy.copy(self.participants), self.ip, self.gui_port, self.com_port)
        )
        cipher = AnonCrypto.sign_with_key(self.privKey, prepare_voucher)

        for index, participant in enumerate(self.participants):
            down_index = (index - 1) % len(self.participants)
            up_index = (index + 1) % len(self.participants)
            if (self.ip, self.gui_port, self.com_port) != (participant[1], participant[2], participant[3]):
                AnonNet.send_to_addr(
                    participant[1],
                    participant[2],
                    marshal.dumps(("prepare:%s:%s:%s" % (index, down_index, up_index), cipher)),
                )
                self.DEBUG(
                    "Sending prepare to peer %s:%s at port %s" % (participant[1], participant[2], participant[3])
                )

        # after informing the participants, create your node
        dn_idx = -1 % len(self.participants)
        up_idx = 1
        self.start_node(dn_idx, up_idx, self.participants, 0)

        # start round after PREPARE_WAIT minutes
        DelayTimer(PREPARE_WAIT, self.run_protocol).start()
Ejemplo n.º 25
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    def create_cipher_string(self):
        self.cipher_prime = self.datum_string()
        """ Encrypt with all secondary keys from N ... 1 """
        self.debug("Orig len: %d" % len(self.cipher_prime))

        for i in xrange(self.n_nodes - 1, -1, -1):
            k1, k2 = self.pub_keys[i]
            self.cipher_prime = AnonCrypto.encrypt_with_rsa(
                k2, self.cipher_prime)
            self.debug("Cipher-prim len: %d" % len(self.cipher_prime))

        self.cipher = self.cipher_prime
        """ Encrypt with all primary keys from N ... 1 """
        for i in xrange(self.n_nodes - 1, -1, -1):
            k1, k2 = self.pub_keys[i]
            self.cipher = AnonCrypto.encrypt_with_rsa(k1, self.cipher)
            self.debug("Cipher len: %d" % len(self.cipher))
Ejemplo n.º 26
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	def create_cipher_string(self):
		self.cipher_prime = self.datum_string()
		""" Encrypt with all secondary keys from N ... 1 """
		self.debug("Orig len: %d" % len(self.cipher_prime))
		
		for i in xrange(self.n_nodes - 1, -1, -1):
			k1, k2 = self.pub_keys[i]
			self.cipher_prime = AnonCrypto.encrypt_with_rsa(k2, self.cipher_prime)
			self.debug("Cipher-prim len: %d" % len(self.cipher_prime))

		self.cipher = self.cipher_prime

		""" Encrypt with all primary keys from N ... 1 """
		for i in xrange(self.n_nodes-1, -1, -1):
			k1, k2 = self.pub_keys[i]
			self.cipher = AnonCrypto.encrypt_with_rsa(k1, self.cipher)
			self.debug("Cipher len: %d" % len(self.cipher))
Ejemplo n.º 27
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	def broadcast_to_all_nodes(self, msg, signed = True):
		if not self.am_leader():
			raise RuntimeError, 'Only leader can broadcast'

		if signed: outmsg = AnonCrypto.sign(self.id, self.key1, msg)
		else: outmsg = msg

		AnonNet.broadcast_using(self.sockets, AnonNet.send_to_socket, outmsg)
Ejemplo n.º 28
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    def broadcast_to_all_nodes(self, msg, signed=True):
        if not self.am_leader():
            raise RuntimeError, 'Only leader can broadcast'

        if signed: outmsg = AnonCrypto.sign(self.id, self.key1, msg)
        else: outmsg = msg

        AnonNet.broadcast_using(self.sockets, AnonNet.send_to_socket, outmsg)
Ejemplo n.º 29
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    def run_phase4(self):
        self.advance_phase()
        if self.am_leader():
            self.debug("Leader broadcasting ciphers to all nodes")
            self.broadcast_to_all_nodes(marshal.dumps(self.final_ciphers))
            self.debug("Cipher set len %d" % (len(self.final_ciphers)))
        else:
            """ Get C' ciphertexts from leader. """
            self.final_ciphers = marshal.loads(self.recv_from_leader())
        """
		self.final_ciphers holds an array of
		pickled (round_id, cipher_prime) tuples
		"""

        my_cipher_str = marshal.dumps((self.round_id, self.cipher_prime))

        go = False
        if my_cipher_str in self.final_ciphers:
            self.info("Found my ciphertext in set")
            go = True
        else:
            self.critical("ABORT! My ciphertext is not in set!")
            self.debug(self.final_ciphers)
            go = False
            raise RuntimeError, "Protocol violation: My ciphertext is missing!"

        hashval = AnonCrypto.hash_list(self.final_ciphers)
        go_msg = marshal.dumps((self.id, self.round_id, go, hashval))

        go_data = ''
        if self.am_leader():
            """ Collect go msgs """
            data = self.recv_from_all(False)
            """ Add leader's signed GO message to set """
            data.append(AnonCrypto.sign(self.id, self.key1, go_msg))
            go_data = marshal.dumps((data))
            self.broadcast_to_all_nodes(go_data)

        else:
            """ Send go msg to leader """
            self.send_to_leader(go_msg)
            go_data = self.recv_from_leader()

        self.check_go_data(hashval, go_data)
        self.info("All nodes report GO")
        return
Ejemplo n.º 30
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	def run_phase4(self):
		self.advance_phase()
		self.info('Starting phase 4')

		self.data_filenames = self.unpack_msg_tar(self.message_tar)
		for i in xrange(0, len(self.data_filenames)):
			if AnonCrypto.hash_file(self.data_filenames[i]) != self.msg_data[i][3]:
#raise RuntimeError, "Mismatched hash in slot %d" % i
				self.critical("Mismatched hashes")
Ejemplo n.º 31
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    def run_phase4(self):
        self.advance_phase()
        self.info("Starting phase 4")

        self.data_filenames = self.unpack_msg_tar(self.message_tar)
        for i in xrange(0, len(self.data_filenames)):
            if AnonCrypto.hash_file(self.data_filenames[i]) != self.msg_data[i][3]:
                # raise RuntimeError, "Mismatched hash in slot %d" % i
                self.critical("Mismatched hashes")
Ejemplo n.º 32
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    def unpickle_keyset(self, keys):
        """ Non-leader nodes use this to decode leader's key msg """
        (rem_round_id, keydict) = marshal.loads(keys)

        if rem_round_id != self.round_id:
            raise RuntimeError, "Mismatched round ids"

        for i in keydict:
            s1, s2 = keydict[i]

            k1 = AnonCrypto.vk_key_from_str(s1)
            #k1.check_key()
            self.pub_keys[i] = (k1, k1)

            k2 = AnonCrypto.pub_key_from_str(
                AnonCrypto.verify(self.pub_keys, s2))
            #k2.check_key()
            self.pub_keys[i] = (k1, k2)
        self.info('Unpickled public keys')
Ejemplo n.º 33
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	def unpickle_keyset(self, keys):
		""" Non-leader nodes use this to decode leader's key msg """
		(rem_round_id, keydict) = marshal.loads(keys)

		if rem_round_id != self.round_id:
			raise RuntimeError, "Mismatched round ids"

		for i in keydict:
			s1,s2 = keydict[i]

			k1 = AnonCrypto.pub_key_from_str(s1)
			k1.check_key()
			self.pub_keys[i] = (k1, k1)
			
			k2 = AnonCrypto.pub_key_from_str(AnonCrypto.verify(self.pub_keys, s2))
			k2.check_key()
			self.pub_keys[i] = (k1, k2)

		self.info('Unpickled public keys')
Ejemplo n.º 34
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    def unpickle_keyset(self, keys):
        """
		Method that non-leader nodes use to unpack all 
		public keys from the leader's message.
		"""
        (rem_round_id, keydict) = marshal.loads(keys)

        if rem_round_id != self.round_id:
            raise RuntimeError, "Mismatched round ids"

        for i in keydict:
            s1, s2 = keydict[i]

            k1 = AnonCrypto.pub_key_from_str(s1)
            k2 = AnonCrypto.pub_key_from_str(s2)
            k1.check_key()
            k2.check_key()
            self.pub_keys[i] = (k1, k2)

        self.info("Unpickled public keys")
Ejemplo n.º 35
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	def decrypt_ciphers(self, keyset):
		priv_keys = {}
		for item in keyset:
			""" Verify signature on each key """
			item_str = AnonCrypto.verify(self.pub_keys, item)
			(r_id, r_roundid, r_keystr) = marshal.loads(item_str)
			if r_roundid != self.round_id:
				raise RuntimeError, 'Mismatched round numbers'
			priv_keys[r_id] = AnonCrypto.priv_key_from_str(r_keystr)

		plaintexts = []
		for cipher in self.final_ciphers:
			(r_round, cipher_prime) = marshal.loads(cipher)
			if r_round != self.round_id:
				raise RuntimeError, 'Mismatched round ids'
			for i in xrange(0, self.n_nodes):
				cipher_prime = AnonCrypto.decrypt_with_rsa(priv_keys[i], cipher_prime)
			plaintexts.append(self.unpackage_msg(cipher_prime))
		
		self.anon_data = plaintexts
Ejemplo n.º 36
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	def phase1_msg(self):
		""" Message that non-leader nodes send to the leader. """
		return marshal.dumps(
				(self.id,
					self.round_id, 
					self.ip,
					self.port,
					self.key_from_file(1),
					AnonCrypto.sign(self.id, self.key1, self.key_from_file(2))))
	
		return marshal.dumps((self.round_id, newdict))
Ejemplo n.º 37
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    def unpickle_pub_keys(self, msgs):
        """
		Method that the leader uses to unpack
		public keys from other nodes.
		"""
        addrs = []
        for data in msgs:
            (rem_id, rem_round, rem_ip, rem_port, rem_key1, rem_key2) = marshal.loads(data)
            self.debug("Unpickled msg from node %d" % (rem_id))

            if rem_round != self.round_id:
                raise RuntimeError, "Mismatched round numbers!\
					(mine: %d, other: %d)" % (
                    self.round_id,
                    rem_round,
                )

            self.pub_keys[rem_id] = (AnonCrypto.pub_key_from_str(rem_key1), AnonCrypto.pub_key_from_str(rem_key2))
            addrs.append((rem_ip, rem_port))
        return addrs
Ejemplo n.º 38
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	def unpickle_keyset(self, keys):
		"""
		Method that non-leader nodes use to unpack all 
		public keys from the leader's message.
		"""
		(rem_round_id, keydict) = marshal.loads(keys)

		if rem_round_id != self.round_id:
			raise RuntimeError, "Mismatched round ids"

		for i in keydict:
			s1,s2 = keydict[i]

			k1 = AnonCrypto.pub_key_from_str(s1)
			k2 = AnonCrypto.pub_key_from_str(s2)
			k1.check_key()
			k2.check_key()
			self.pub_keys[i] = (k1, k2)

		self.info('Unpickled public keys')
Ejemplo n.º 39
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	def unpickle_pub_keys(self, msgs):
		"""
		Method that the leader uses to unpack
		public keys from other nodes.
		"""
		addrs = []
		for data in msgs:
			(rem_id, rem_round, rem_ip, rem_port,
			 rem_key1, rem_key2) = marshal.loads(data)
			self.debug("Unpickled msg from node %d" % (rem_id))
			
			if rem_round != self.round_id:
				raise RuntimeError, "Mismatched round numbers!\
					(mine: %d, other: %d)" % (
						self.round_id, rem_round)

			self.pub_keys[rem_id] = (
					AnonCrypto.pub_key_from_str(rem_key1),
					AnonCrypto.pub_key_from_str(rem_key2))
			addrs.append((rem_ip, rem_port))
		return addrs
Ejemplo n.º 40
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    def recv_from_all(self, verify=True):
        if not self.am_leader():
            raise RuntimeError, "Only leader can broadcast"

        indata = AnonNet.recv_from_n(self.sockets)
        if verify:
            outdata = []
            for d in indata:
                outdata.append(AnonCrypto.verify(self.pub_keys, d))
            return outdata
        else:
            return indata
Ejemplo n.º 41
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	def shuffle_and_decrypt(self):
		random.shuffle(self.data_in)
		self.debug("Shuffling len = %d" % len(self.data_in))
		self.data_out = []
		for ctuple in self.data_in:
			(rem_round, ctext) = marshal.loads(ctuple)
			if rem_round != self.round_id:
				raise RuntimeError, "Mismatched round numbers (mine:%d, other:%d)" % (self.round_id, rem_round)

			new_ctext = AnonCrypto.decrypt_with_rsa(self.key1, ctext)	
			pickled = marshal.dumps((self.round_id, new_ctext))
			self.data_out.append(pickled)
Ejemplo n.º 42
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    def decrypt_ciphers(self, keyset):
        priv_keys = {}
        for item in keyset:
            """ Verify signature on each key """
            item_str = AnonCrypto.verify(self.pub_keys, item)
            (r_id, r_roundid, r_keystr) = marshal.loads(item_str)
            if r_roundid != self.round_id:
                raise RuntimeError, 'Mismatched round numbers'
            priv_keys[r_id] = AnonCrypto.priv_key_from_str(r_keystr)

        plaintexts = []
        for cipher in self.final_ciphers:
            (r_round, cipher_prime) = marshal.loads(cipher)
            if r_round != self.round_id:
                raise RuntimeError, 'Mismatched round ids'
            for i in xrange(0, self.n_nodes):
                cipher_prime = AnonCrypto.decrypt_with_rsa(
                    priv_keys[i], cipher_prime)
            plaintexts.append(self.unpackage_msg(cipher_prime))

        self.anon_data = plaintexts
Ejemplo n.º 43
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    def recv_from_all(self, verify=True):
        if not self.am_leader():
            raise RuntimeError, 'Only leader can broadcast'

        indata = AnonNet.recv_from_n(self.sockets)
        if verify:
            outdata = []
            for d in indata:
                outdata.append(AnonCrypto.verify(self.pub_keys, d))
            return outdata
        else:
            return indata
Ejemplo n.º 44
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 def establish_keys(self):
     if not os.path.exists('config'):
         os.mkdir('config')
     try:
         # load them into instance vars if they already exist
         self.load_keys()
     except:
         # generate new keys, save them to config/priv
         # and config/pub -- then load them into instance vars
         self.DEBUG("keys don't exist/valid")
         newKey = AnonCrypto.random_key(KEY_LENGTH)
         self.save_keys(newKey)
         self.load_keys()
Ejemplo n.º 45
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 def establish_keys(self):
     if not os.path.exists("config"):
         os.mkdir("config")
     try:
         # load them into instance vars if they already exist
         self.load_keys()
     except:
         # generate new keys, save them to config/priv
         # and config/pub -- then load them into instance vars
         self.DEBUG("keys don't exist/valid")
         newKey = AnonCrypto.random_key(KEY_LENGTH)
         self.save_keys(newKey)
         self.load_keys()
Ejemplo n.º 46
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 def check_go_data(self, hashval, pickled_list):
     go_lst = marshal.loads(pickled_list)
     for item in go_lst:
         """ Verify signature on "GO" message """
         item_str = AnonCrypto.verify(self.pub_keys, item)
         (r_id, r_round, r_go, r_hash) = marshal.loads(item_str)
         if r_round != self.round_id:
             raise RuntimeError, "Mismatched round numbers"
         if not r_go:
             raise RuntimeError, "Node %d reports failure!" % (r_id)
         if r_hash != hashval:
             raise RuntimeError, "Node %d produced bad hash!" % (r_id)
     return True
Ejemplo n.º 47
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	def check_go_data(self, hashval, pickled_list):
		go_lst = marshal.loads(pickled_list)
		for item in go_lst:
			""" Verify signature on "GO" message """
			item_str = AnonCrypto.verify(self.pub_keys, item)
			(r_id, r_round, r_go, r_hash) = marshal.loads(item_str)
			if r_round != self.round_id:
			 	raise RuntimeError, "Mismatched round numbers"
			if not r_go:
			 	raise RuntimeError, "Node %d reports failure!" % (r_id)
			if r_hash != hashval:
			 	raise RuntimeError, "Node %d produced bad hash!" % (r_id)
		return True
Ejemplo n.º 48
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    def shuffle_and_decrypt(self):
        random.shuffle(self.data_in)
        self.debug("Shuffling len = %d" % len(self.data_in))
        self.data_out = []
        for ctuple in self.data_in:
            (rem_round, ctext) = marshal.loads(ctuple)
            if rem_round != self.round_id:
                raise RuntimeError, "Mismatched round numbers (mine:%d, other:%d)" % (
                    self.round_id, rem_round)

            new_ctext = AnonCrypto.decrypt_with_rsa(self.key2, ctext)
            pickled = marshal.dumps((self.round_id, new_ctext))
            self.data_out.append(pickled)
Ejemplo n.º 49
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    def run_phase5(self):
        self.advance_phase()

        mykeystr = AnonCrypto.sign(
            self.id, self.key1,
            marshal.dumps((self.id, self.round_id,
                           AnonCrypto.priv_key_to_str(self.key2))))

        if self.am_leader():
            data = self.recv_from_all()
            """ Add leader's signed key to set """
            data.append(mykeystr)
            self.debug("Key data... len = %d" % len(data))
            self.broadcast_to_all_nodes(marshal.dumps(data))

        else:
            self.info('Sending key to leader')
            self.send_to_leader(mykeystr)
            data = marshal.loads(self.recv_from_leader())
            self.info("Got key set from leader, len = %d" % len(data))

        self.decrypt_ciphers(data)
        self.info('Decrypted ciphertexts')
Ejemplo n.º 50
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    def start_node(self, down_index, up_index, participants_vector, my_id):
        n_nodes = len(participants_vector)
        leader_addr = (participants_vector[0][1], int(participants_vector[0][3]))
        my_addr = (participants_vector[my_id][1], int(participants_vector[my_id][3]))
        dn_addr = (participants_vector[down_index][1], int(participants_vector[down_index][3]))
        up_addr = (participants_vector[up_index][1], int(participants_vector[up_index][3]))
        round_id = 1
        key_len = KEY_LENGTH

        """ if distrusted peer is participating, then don't share file (if one is chosen) """
        self.DEBUG("Distrusted peers: %s" % self.distrusted_peers)
        msg_file = None
        trusted = True
        if os.path.exists(self.shared_filename):
            for peer in participants_vector:
                for distrusted_peer in self.distrusted_peers:
                    (d_ip, d_port) = distrusted_peer
                    (p_ip, p_port) = peer[1], peer[2]
                    if d_ip == p_ip and str(d_port) == str(p_port):
                        self.DEBUG("Not sharing my file because peer %s:%s is participating" % (p_ip, p_port))
                        trusted = False
                        break
                if not trusted:
                    break

        # create random file if none has been shared
        if trusted and os.path.exists(self.shared_filename):
            msg_file = self.shared_filename
        else:
            msg_file = AnonCrypto.random_file(DEFAULT_LENGTH)

        # initialize node
        self.node = bulk_node.bulk_node(
            my_id,
            key_len,
            round_id,
            n_nodes,
            my_addr,
            leader_addr,
            dn_addr,
            up_addr,
            msg_file,
            participants_vector,
            self.privgenkey1,
            self.privgenkey2,
        )
        self.DEBUG(
            "round_id: %s id: %s n_nodes: %s my_addr: %s leader_addr: %s dn_addr: %s up_addr: %s msg_file: %s"
            % (round_id, my_id, n_nodes, my_addr, leader_addr, dn_addr, up_addr, msg_file)
        )
Ejemplo n.º 51
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	def run_phase5(self):
		self.advance_phase()

		mykeystr = AnonCrypto.sign(self.id, self.key1, marshal.dumps((
							self.id,
							self.round_id,
							AnonCrypto.priv_key_to_str(self.key2))))

		if self.am_leader():
			data = self.recv_from_all()
			
			""" Add leader's signed key to set """
			data.append(mykeystr)
			self.debug("Key data... len = %d" % len(data))
			self.broadcast_to_all_nodes(marshal.dumps(data))

		else:
			self.info('Sending key to leader')
			self.send_to_leader(mykeystr)
			data = marshal.loads(self.recv_from_leader())
			self.info("Got key set from leader, len = %d" % len(data))

		self.decrypt_ciphers(data)
		self.info('Decrypted ciphertexts')
Ejemplo n.º 52
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    def drop_out(self):
        self.DEBUG("Dropping out of the clique")

        # create dropout voucher (IP, PORT, PUBKEY)
        dropout_voucher = marshal.dumps((self.ip, self.gui_port, self.public_key_string()))

        # sign it
        cipher = AnonCrypto.sign_with_key(self.privKey, dropout_voucher)

        # give all peers signed voucher of your voluntary quitting
        self.broadcast_to_all_peers(marshal.dumps(("quit", cipher)))

        # empty peerlist and exit
        self.nodes = []
        self.update_peerlist()
Ejemplo n.º 53
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    def initiate_round(self):
        self.DEBUG("I initiated a dissent round! Finding collaborators...")

        # get the path to the file you want to share
        self.emit(SIGNAL("getSharedFilename()"))
        nonce = int(1)
        self.participants = []
        self.distrusted_peers = []

        """ generate temporary keys for this round, add to participants """
        self.gen_temp_keys()
        temp1_str = AnonCrypto.pub_key_to_str(self.pubgenkey1)
        temp2_str = AnonCrypto.pub_key_to_str(self.pubgenkey2)

        """ initiate round with a signed voucher containing relevant information """
        my_voucher = marshal.dumps((nonce,self.ip,self.gui_port,self.com_port,temp1_str,temp2_str))
        cipher = AnonCrypto.sign_with_key(self.privKey, my_voucher)

        """ make sure you have something to share first """
        if os.path.exists(self.shared_filename):
            self.DEBUG("You are sharing file %s" % (self.shared_filename))
        else:
            self.DEBUG("Not a valid file path, share something to start a round!")
            return

        # add yourself as leader in the participants list (entry 0)
        self.participants.append((cipher, self.ip, self.gui_port, self.com_port))
        self.emit(SIGNAL("getDistrustedPeers()"))

        # ask if peers are interested
        interest_voucher = marshal.dumps((nonce, self.ip, self.gui_port, self.com_port))
        cipher = AnonCrypto.sign_with_key(self.privKey, interest_voucher)
        self.broadcast_to_all_peers(marshal.dumps(("interested?",cipher)))

        # allow one minute to receive all replies, then initiate round with those peers
        DelayTimer(INTEREST_WAIT, self.prepare_round).start()
Ejemplo n.º 54
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    def drop_out(self):
        self.DEBUG("Dropping out of the clique")

        # create dropout voucher (IP, PORT, PUBKEY)
        dropout_voucher = marshal.dumps((self.ip, self.gui_port, self.public_key_string()))

        # sign it
        cipher = AnonCrypto.sign_with_key(self.privKey, dropout_voucher)

        # give all peers signed voucher of your voluntary quitting
        self.broadcast_to_all_peers(marshal.dumps(("quit", cipher)))

        # empty peerlist and exit
        self.nodes = []
        self.update_peerlist()
Ejemplo n.º 55
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    def initiate_round(self):
        self.DEBUG("I initiated a dissent round! Finding collaborators...")

        # get the path to the file you want to share
        self.emit(SIGNAL("getSharedFilename()"))
        nonce = int(1)
        self.participants = []
        self.distrusted_peers = []

        """ generate temporary keys for this round, add to participants """
        self.gen_temp_keys()
        temp1_str = AnonCrypto.pub_key_to_str(self.pubgenkey1)
        temp2_str = AnonCrypto.pub_key_to_str(self.pubgenkey2)

        """ initiate round with a signed voucher containing relevant information """
        my_voucher = marshal.dumps((nonce, self.ip, self.gui_port, self.com_port, temp1_str, temp2_str))
        cipher = AnonCrypto.sign_with_key(self.privKey, my_voucher)

        """ make sure you have something to share first """
        if os.path.exists(self.shared_filename):
            self.DEBUG("You are sharing file %s" % (self.shared_filename))
        else:
            self.DEBUG("Not a valid file path, share something to start a round!")
            return

        # add yourself as leader in the participants list (entry 0)
        self.participants.append((cipher, self.ip, self.gui_port, self.com_port))
        self.emit(SIGNAL("getDistrustedPeers()"))

        # ask if peers are interested
        interest_voucher = marshal.dumps((nonce, self.ip, self.gui_port, self.com_port))
        cipher = AnonCrypto.sign_with_key(self.privKey, interest_voucher)
        self.broadcast_to_all_peers(marshal.dumps(("interested?", cipher)))

        # allow one minute to receive all replies, then initiate round with those peers
        DelayTimer(INTEREST_WAIT, self.prepare_round).start()
Ejemplo n.º 56
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	def run_phase5(self):
		self.advance_phase()
		self.info("Starting phase 5")

		#Create list of outputs and individual signature
		addresses=self.get_list_outputs()
		self.my_sign = AnonCrypto.sign(self.id, self.key1, marshal.dumps((self.id, addresses)))
		
		#Everybody sends her own signature to the leader.
		if self.am_leader():
			all_sign = self.recv_from_all()
			self.debug("Received all signatures from participants")
		else:
			self.send_to_leader(marshal.dumps((self.round_id,
							self.my_sign)))
			self.debug("Sent signature to leader")

		#The leader broadcast the list of signatures and every participant checks if her signature
		# is included
		if self.am_leader():
			self.broadcast_to_all_nodes(marshal.dumps(marshal.dumps((self.id, all_sign))))
			self.debug("All signatures sent to participants")
			self.debug("Sign = TRUE")
		else:
			all_sign = marshal.loads(self.recv_from_socket(self.leader_socket))
			self.debug("Received signature list")
			
			check_sig = marshal.dumps((self.round_id,
							self.my_sign))
			if check_sig in all_sign:
				self.info("Found my signature in set")
				self.debug("Sign = TRUE")
				self.critical("Sign = TRUE")
				self.send_to_leader(marshal.dumps((self.id, "input address")))
				
			else:
				self.critical("ABORT! My signature is not in set!")
				self.debug(self.final_ciphers)
				self.critical("Sign = FALSE")
				raise RuntimeError, "Protocol violation: My signature is missing!"


		#The leader waits for ack of every participant before creating the Bitcoin transaction
		if self.am_leader():
			""" Leader waits for ciphers from member N. """
			self.final_acks = self.recv_from_all()
			self.debug("Got acks from other nodes")
			self.critical("Leader: Bitcoin transaction finished")
Ejemplo n.º 57
0
    def expel_peer(self, ip, port):
        self.DEBUG("IP/PORT to expel: %s:%s" % (ip, port))

        # create voucher for peers to save
        expel_voucher = marshal.dumps((self.ip, self.gui_port, ip, port, self.peer_public_key_string(ip, port)))
        cipher = AnonCrypto.sign_with_key(self.privKey, expel_voucher)
        self.broadcast_to_all_peers(marshal.dumps(("expel", cipher)))

        # remove from peerlist
        index = self.nodes.index((ip, int(port), self.peer_public_key_string(ip, port)))
        self.nodes.pop(index)
        self.update_peerlist()
        self.DEBUG("Expelled!")

        # save the voucher you sent out
        self.save_voucher(self.ip, self.gui_port, cipher, "expelvoucher")
Ejemplo n.º 58
0
    def expel_peer(self, ip, port):
        self.DEBUG("IP/PORT to expel: %s:%s" % (ip, port))

        # create voucher for peers to save
        expel_voucher = marshal.dumps((self.ip, self.gui_port, ip, port, self.peer_public_key_string(ip,port)))
        cipher = AnonCrypto.sign_with_key(self.privKey, expel_voucher)
        self.broadcast_to_all_peers(marshal.dumps(("expel",cipher)))

        # remove from peerlist
        index = self.nodes.index((ip, int(port), self.peer_public_key_string(ip,port)))
        self.nodes.pop(index)
        self.update_peerlist()
        self.DEBUG("Expelled!")

        # save the voucher you sent out
        self.save_voucher(self.ip,self.gui_port,cipher,"expelvoucher")
Ejemplo n.º 59
0
    def run_phase5(self):
        self.advance_phase()
        self.info("Starting phase 5")

        #Create list of outputs and individual signature
        addresses = self.get_list_outputs()
        self.my_sign = AnonCrypto.sign(self.id, self.key1,
                                       marshal.dumps((self.id, addresses)))

        #Everybody sends her own signature to the leader.
        if self.am_leader():
            all_sign = self.recv_from_all()
            self.debug("Received all signatures from participants")
        else:
            self.send_to_leader(marshal.dumps((self.round_id, self.my_sign)))
            self.debug("Sent signature to leader")

        #The leader broadcast the list of signatures and every participant checks if her signature
        # is included
        if self.am_leader():
            self.broadcast_to_all_nodes(
                marshal.dumps(marshal.dumps((self.id, all_sign))))
            self.debug("All signatures sent to participants")
            self.debug("Sign = TRUE")
        else:
            all_sign = marshal.loads(self.recv_from_socket(self.leader_socket))
            self.debug("Received signature list")

            check_sig = marshal.dumps((self.round_id, self.my_sign))
            if check_sig in all_sign:
                self.info("Found my signature in set")
                self.debug("Sign = TRUE")
                self.critical("Sign = TRUE")
                self.send_to_leader(marshal.dumps((self.id, "input address")))

            else:
                self.critical("ABORT! My signature is not in set!")
                self.debug(self.final_ciphers)
                self.critical("Sign = FALSE")
                raise RuntimeError, "Protocol violation: My signature is missing!"

        #The leader waits for ack of every participant before creating the Bitcoin transaction
        if self.am_leader():
            """ Leader waits for ciphers from member N. """
            self.final_acks = self.recv_from_all()
            self.debug("Got acks from other nodes")
            self.critical("Leader: Bitcoin transaction finished")
Ejemplo n.º 60
0
    def invite_phase(self, ip, port, pubkey):
        # create nonce, # peers, vector containing (ip, port, pubkey) of all peers
        nonce = 1
        num_peers = len(self.nodes) + 1
        peer_vector = [(self.ip, self.gui_port, self.public_key_string())]
        for node in self.nodes:
            hashkey = self.hash_peer(node[0], node[1])
            if hashkey != self.hashkey:
                peer_vector.append(node)

        # package the text up into (nonce, N, [array of peer data])
        invite = marshal.dumps((nonce, num_peers, peer_vector))

        # sign it
        cipher = AnonCrypto.sign_with_key(self.privKey, invite)

        # send to invitee packaged with who it's coming from ((ip:port), signed(text))
        AnonNet.send_to_addr(ip, int(port), marshal.dumps(("invite", cipher)))