mirror of https://github.com/nucypher/nucypher.git
308 lines
11 KiB
Python
308 lines
11 KiB
Python
import asyncio
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import msgpack
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from kademlia.network import Server
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from kademlia.utils import digest
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from nkms.crypto import api as API
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from nkms.crypto.api import secure_random
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from nkms.crypto.constants import NOT_SIGNED, NO_DECRYPTION_PERFORMED
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from nkms.crypto.powers import CryptoPower, SigningPower, EncryptingPower
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from nkms.crypto.utils import verify
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from nkms.keystore.keypairs import Keypair
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from nkms.network import blockchain_client
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from nkms.network.blockchain_client import list_all_ursulas
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from nkms.network.server import NuCypherDHTServer, NuCypherSeedOnlyDHTServer
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from nkms.policy.constants import NOT_FROM_ALICE
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class Character(object):
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"""
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A base-class for any character in our cryptography protocol narrative.
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"""
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_server = None
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_server_class = Server
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_default_crypto_powerups = None
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_seal = None
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class NotFound(KeyError):
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"""raised when we try to interact with an actor of whom we haven't learned yet."""
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def __init__(self, attach_server=True, crypto_power: CryptoPower = None,
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crypto_power_ups=[], is_me=True):
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"""
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:param attach_server: Whether to attach a Server when this Character is born.
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:param crypto_power: A CryptoPower object; if provided, this will be the character's CryptoPower.
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:param crypto_power_ups: If crypto_power is not provided, a new CryptoPower will be made and
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will consume all of the CryptoPowerUps in this list.
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If neither crypto_power nor crypto_power_ups are provided, we give this Character all CryptoPowerUps
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listed in their _default_crypto_powerups attribute.
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"""
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if crypto_power and crypto_power_ups:
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raise ValueError("Pass crypto_power or crypto_power_ups (or neither), but not both.")
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if crypto_power:
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self._crypto_power = crypto_power
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elif crypto_power_ups:
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self._crypto_power = CryptoPower(power_ups=crypto_power_ups)
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else:
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self._crypto_power = CryptoPower(self._default_crypto_powerups)
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if is_me:
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self._actor_mapping = {}
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self._seal = Seal(self)
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if attach_server:
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self.attach_server()
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else:
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self._seal = StrangerSeal(self)
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def attach_server(self, ksize=20, alpha=3, id=None, storage=None,
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*args, **kwargs) -> None:
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self._server = self._server_class(ksize, alpha, id, storage, *args, **kwargs)
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@property
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def seal(self):
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if not self._seal:
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raise AttributeError("Seal has not been set up yet.")
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else:
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return self._seal
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@property
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def server(self) -> Server:
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if self._server:
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return self._server
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else:
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raise RuntimeError("Server hasn't been attached.")
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@property
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def name(self):
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return self.__class__.__name__
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def learn_about_actor(self, actor):
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self._actor_mapping[actor.id()] = actor
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def encrypt_for(self, recipient: str, cleartext: bytes, sign: bool = True,
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sign_cleartext=True) -> tuple:
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"""
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Looks up recipient actor, finds that actor's pubkey_enc on our keyring, and encrypts for them.
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Optionally signs the message as well.
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:param recipient: The character whose public key will be used to encrypt cleartext.
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:param cleartext: The secret to be encrypted.
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:param sign: Whether or not to sign the message.
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:param sign_cleartext: When signing, the cleartext is signed if this is True, Otherwise, the resulting ciphertext is signed.
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:return: A tuple, (ciphertext, signature). If sign==False, then signature will be NOT_SIGNED.
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"""
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actor = self._lookup_actor(recipient)
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ciphertext = self._crypto_power.encrypt_for(actor.public_key(EncryptingPower),
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cleartext)
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if sign:
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if sign_cleartext:
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signature = self.seal(cleartext)
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else:
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signature = self.seal(ciphertext)
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else:
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signature = NOT_SIGNED
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return ciphertext, signature
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def verify_from(self, actor_whom_sender_claims_to_be: "Character", signature: bytes,
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message: bytes, decrypt=False,
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signature_is_on_cleartext=False) -> tuple:
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"""
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Inverse of encrypt_for.
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:param actor_that_sender_claims_to_be: A Character instance representing the actor whom the sender claims to be. We check the public key owned by this Character instance to verify.
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:param messages: The messages to be verified.
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:param decrypt: Whether or not to decrypt the messages.
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:param signature_is_on_cleartext: True if we expect the signature to be on the cleartext. Otherwise, we presume that the ciphertext is what is signed.
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:return: (Whether or not the signature is valid, the decrypted plaintext or NO_DECRYPTION_PERFORMED)
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"""
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cleartext = NO_DECRYPTION_PERFORMED
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if signature_is_on_cleartext:
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if decrypt:
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cleartext = self._crypto_power.decrypt(message)
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message = cleartext
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else:
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raise ValueError(
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"Can't look for a signature on the cleartext if we're not decrypting.")
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actor = self._lookup_actor(actor_whom_sender_claims_to_be)
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return verify(signature, message, actor.seal), cleartext
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def _lookup_actor(self, actor: "Character"):
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try:
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return self._actor_mapping[actor.id()]
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except KeyError:
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raise self.NotFound("We haven't learned of an actor with ID {}".format(actor.id()))
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def id(self):
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return "whatever actor id ends up being - {}".format(id(self))
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def public_key(self, key_class):
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try:
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return self._crypto_power.public_keys[key_class]
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except KeyError:
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raise # TODO: Does it make sense to have a specialized exception here? Probably.
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class Alice(Character):
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_server_class = NuCypherSeedOnlyDHTServer
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_default_crypto_powerups = [SigningPower, EncryptingPower]
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def find_best_ursula(self):
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# TODO: This just finds *some* Ursula - let's have it find a particularly good one.
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return list_all_ursulas()[1]
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def generate_rekey_frags(self, alice_privkey, bob, m, n):
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"""
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Generates re-encryption key frags and returns the frags and encrypted
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ephemeral key data.
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:param alice_privkey: Alice's private key
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:param bob_pubkey: Bob's public key
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:param m: Minimum number of rekey shares needed to rebuild ciphertext
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:param n: Total number of rekey shares to generate
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:return: Tuple(kfrags, eph_key_data)
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"""
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kfrags, eph_key_data = API.ecies_ephemeral_split_rekey(
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alice_privkey, bytes(bob.seal), m, n)
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return (kfrags, eph_key_data)
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class Bob(Character):
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_server_class = NuCypherSeedOnlyDHTServer
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_default_crypto_powerups = [SigningPower, EncryptingPower]
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def __init__(self, alice=None):
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super().__init__()
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self._ursulas = {}
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if alice:
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self.alice = alice
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@property
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def alice(self):
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if not self._alice:
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raise Alice.NotFound
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else:
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return self._alice
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@alice.setter
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def alice(self, alice_object):
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self.learn_about_actor(alice_object)
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self._alice = alice_object
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def follow_treasure_map(self, treasure_map):
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# TODO: perform this part concurrently.
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for ursula_interface_id in treasure_map:
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getter = self.server.get(ursula_interface_id)
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loop = asyncio.get_event_loop()
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value = loop.run_until_complete(getter)
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signature, ursula_pubkey_sig, interface_info = msgpack.loads(value.lstrip(b"uaddr-"))
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port, interface = msgpack.loads(interface_info)
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self._ursulas[ursula_interface_id] = Ursula.as_discovered_on_network(port=port, interface=interface, pubkey_sig_bytes=ursula_pubkey_sig)
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def get_treasure_map(self, policy_group, signature):
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ursula_coro = self.server.get(policy_group.id)
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event_loop = asyncio.get_event_loop()
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packed_encrypted_treasure_map = event_loop.run_until_complete(ursula_coro)
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encrypted_treasure_map = msgpack.loads(packed_encrypted_treasure_map)
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verified, packed_node_list = self.verify_from(self.alice, signature, encrypted_treasure_map,
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signature_is_on_cleartext=True, decrypt=True)
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if not verified:
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return NOT_FROM_ALICE
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else:
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from nkms.policy.models import TreasureMap
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return TreasureMap(msgpack.loads(packed_node_list))
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class Ursula(Character):
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_server_class = NuCypherDHTServer
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_default_crypto_powerups = [SigningPower, EncryptingPower]
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port = None
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interface = None
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@staticmethod
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def as_discovered_on_network(port, interface, pubkey_sig_bytes):
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ursula = Ursula(is_me=False, crypto_power_ups=[SigningPower(keypair=Keypair.deserialize_key(pubkey_sig_bytes))])
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ursula.port = port
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ursula.interface = interface
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return ursula
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def ip_dht_key(self):
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return bytes(self.seal)
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def attach_server(self, ksize=20, alpha=3, id=None, storage=None,
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*args, **kwargs):
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if not id:
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id = digest(secure_random(32)) # TODO: Network-wide deterministic ID generation (ie, auction or whatever)
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super().attach_server(ksize, alpha, id, storage)
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def listen(self, port, interface):
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self.port = port
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self.interface = interface
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return self.server.listen(port, interface)
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def publish_interface_information(self):
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if not self.port and self.interface:
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raise RuntimeError("Must listen before publishing interface information.")
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ip_dht_key = self.ip_dht_key()
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interface_info = msgpack.dumps((self.port, self.interface))
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signature = self.seal(interface_info)
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value = b"uaddr-" + msgpack.dumps([signature, bytes(self.seal), interface_info])
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setter = self.server.set(key=ip_dht_key, value=value)
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blockchain_client._ursulas_on_blockchain.append(ip_dht_key)
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loop = asyncio.get_event_loop()
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loop.run_until_complete(setter)
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class Seal(object):
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"""
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Can be called to sign something or used to express the signing public key as bytes.
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"""
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def __init__(self, character):
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self.character = character
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def __call__(self, *args, **kwargs):
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return self.character._crypto_power.sign(*args, **kwargs)
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def _as_tuple(self):
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return self.character._crypto_power.pubkey_sig_tuple()
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def __iter__(seal):
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yield from seal._as_tuple()
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def __bytes__(self):
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return self.character._crypto_power.pubkey_sig_bytes()
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def __eq__(self, other):
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return other == self._as_tuple() or other == bytes(self)
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class StrangerSeal(Seal):
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"""
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Seal of a stranger (ie, can only be used to glean public key, not to sign)
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"""
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def __call__(self, *args, **kwargs):
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raise TypeError(
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"This isn't your Seal; it belongs to {} (a Stranger). You can't sign with it.".format(self.character))
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def congregate(*characters):
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for character in characters:
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for newcomer in characters:
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character.learn_about_actor(newcomer)
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