async def handle_vote(self, vote: EndpointVote) -> None: self.logger.debug( "Received vote for %s from %s", vote.endpoint, encode_hex(vote.node_id), ) current_enr = self.node_db.get_enr(self.local_node_id) # TODO: majority voting, discard old votes are_endpoint_keys_present = (IP_V4_ADDRESS_ENR_KEY in current_enr and UDP_PORT_ENR_KEY in current_enr) enr_needs_update = not are_endpoint_keys_present or ( vote.endpoint.ip_address != current_enr[IP_V4_ADDRESS_ENR_KEY] or vote.endpoint.port != current_enr[UDP_PORT_ENR_KEY]) if enr_needs_update: kv_pairs = merge( current_enr, { IP_V4_ADDRESS_ENR_KEY: vote.endpoint.ip_address, UDP_PORT_ENR_KEY: vote.endpoint.port, }) new_unsigned_enr = UnsignedENR( kv_pairs=kv_pairs, sequence_number=current_enr.sequence_number + 1, identity_scheme_registry=self.identity_scheme_registry, ) signed_enr = new_unsigned_enr.to_signed_enr(self.local_private_key) self.logger.info( f"Updating local endpoint to %s (new ENR sequence number: %d)", vote.endpoint, signed_enr.sequence_number, ) self.node_db.set_enr(signed_enr)
async def get_local_enr(boot_info: BootInfo, node_db: NodeDBAPI, local_private_key: PrivateKey) -> ENR: minimal_enr = UnsignedENR( sequence_number=1, kv_pairs={ b"id": b"v4", b"secp256k1": local_private_key.public_key.to_compressed_bytes(), b"udp": boot_info.args.discovery_port, }, identity_scheme_registry=default_identity_scheme_registry, ).to_signed_enr(local_private_key.to_bytes()) node_id = minimal_enr.node_id try: base_enr = node_db.get_enr(node_id) except KeyError: logger.info( f"No Node for {encode_hex(node_id)} found, creating new one") return minimal_enr else: if any(base_enr[key] != value for key, value in minimal_enr.items()): logger.debug(f"Updating local ENR") return UnsignedENR( sequence_number=base_enr.sequence_number + 1, kv_pairs=merge(dict(base_enr), dict(minimal_enr)), identity_scheme_registry=default_identity_scheme_registry, ).to_signed_enr(local_private_key.to_bytes()) else: return base_enr
def test_signing(mock_identity_scheme, identity_scheme_registry): unsigned_enr = UnsignedENR( sequence_number=0, kv_pairs={b"id": b"mock"}, identity_scheme_registry=identity_scheme_registry) private_key = b"\x00" * 32 enr = unsigned_enr.to_signed_enr(private_key) assert enr.signature == mock_identity_scheme.create_enr_signature( enr, private_key)
def test_repr(mock_identity_scheme, identity_scheme_registry): unsigned_enr = UnsignedENR(0, {b"id": b"mock"}, identity_scheme_registry) enr = unsigned_enr.to_signed_enr(b"\x00" * 32) base64_encoded_enr = base64.urlsafe_b64encode(rlp.encode(enr)) represented_enr = repr(enr) assert represented_enr.startswith("enr:") assert base64_encoded_enr.rstrip(b"=").decode() == represented_enr[4:] assert ENR.from_repr(represented_enr, identity_scheme_registry) == enr
def test_enr_public_key(): private_key = PrivateKey(b"\x11" * 32) public_key = private_key.public_key.to_compressed_bytes() unsigned_enr = UnsignedENR(0, { b"id": b"v4", b"secp256k1": public_key, b"key1": b"value1", }) enr = unsigned_enr.to_signed_enr(private_key.to_bytes()) assert V4IdentityScheme.extract_public_key(unsigned_enr) == public_key assert V4IdentityScheme.extract_public_key(enr) == public_key
def test_enr_node_id(): private_key = PrivateKey(b"\x11" * 32) unsigned_enr = UnsignedENR( 0, { b"id": b"v4", b"secp256k1": private_key.public_key.to_compressed_bytes(), b"key1": b"value1", }) enr = unsigned_enr.to_signed_enr(private_key.to_bytes()) node_id = V4IdentityScheme.extract_node_id(enr) assert node_id == keccak(private_key.public_key.to_bytes())
def test_enr_signing(): private_key = PrivateKey(b"\x11" * 32) unsigned_enr = UnsignedENR( 0, { b"id": b"v4", b"secp256k1": private_key.public_key.to_compressed_bytes(), b"key1": b"value1", }) signature = V4IdentityScheme.create_enr_signature(unsigned_enr, private_key.to_bytes()) message_hash = keccak(unsigned_enr.get_signing_message()) assert private_key.public_key.verify_msg_hash( message_hash, NonRecoverableSignature(signature))
def test_official_test_vector(): enr = ENR.from_repr( OFFICIAL_TEST_DATA["repr"]) # use default identity scheme registry assert enr.sequence_number == OFFICIAL_TEST_DATA["sequence_number"] assert dict(enr) == OFFICIAL_TEST_DATA["kv_pairs"] assert enr.public_key == OFFICIAL_TEST_DATA["public_key"] assert enr.node_id == OFFICIAL_TEST_DATA["node_id"] assert enr.identity_scheme is OFFICIAL_TEST_DATA["identity_scheme"] assert repr(enr) == OFFICIAL_TEST_DATA["repr"] unsigned_enr = UnsignedENR(enr.sequence_number, dict(enr)) reconstructed_enr = unsigned_enr.to_signed_enr( OFFICIAL_TEST_DATA["private_key"]) assert reconstructed_enr == enr
def test_enr_signature_validation(): private_key = PrivateKey(b"\x11" * 32) unsigned_enr = UnsignedENR( 0, { b"id": b"v4", b"secp256k1": private_key.public_key.to_compressed_bytes(), b"key1": b"value1", }) enr = unsigned_enr.to_signed_enr(private_key.to_bytes()) V4IdentityScheme.validate_enr_signature(enr) forged_enr = ENR(enr.sequence_number, dict(enr), b"\x00" * 64) with pytest.raises(ValidationError): V4IdentityScheme.validate_enr_signature(forged_enr)
def test_v4_structure_validation(invalid_kv_pairs, identity_scheme_registry): with pytest.raises(ValidationError): UnsignedENR( sequence_number=0, kv_pairs=invalid_kv_pairs, identity_scheme_registry=identity_scheme_registry, )
class ENRFactory(factory.Factory): class Meta: model = ENR sequence_number = factory.Faker("pyint", min_value=0, max_value=100) kv_pairs = factory.LazyAttribute(lambda o: merge( { b"id": b"v4", b"secp256k1": keys.PrivateKey(o.private_key).public_key.to_compressed_bytes(), b"ip": o.address.ip_packed, b"udp": o.address.udp_port, b"tcp": o.address.tcp_port, }, o.custom_kv_pairs)) signature = factory.LazyAttribute(lambda o: UnsignedENR( o.sequence_number, o.kv_pairs, ).to_signed_enr(o.private_key).signature) class Params: private_key = factory.Faker("binary", length=V4IdentityScheme.private_key_size) address = factory.SubFactory(AddressFactory) custom_kv_pairs: Dict[bytes, Any] = {}
def test_inititialization(identity_scheme_registry): valid_sequence_number = 0 valid_kv_pairs = {b"id": b"mock"} valid_signature = b"" # signature is not validated during initialization assert UnsignedENR( sequence_number=valid_sequence_number, kv_pairs=valid_kv_pairs, identity_scheme_registry=identity_scheme_registry, ) assert ENR( sequence_number=valid_sequence_number, kv_pairs=valid_kv_pairs, signature=valid_signature, identity_scheme_registry=identity_scheme_registry, ) with pytest.raises(ValidationError): UnsignedENR( sequence_number=valid_sequence_number, kv_pairs={b"no-id": b""}, identity_scheme_registry=identity_scheme_registry, ) with pytest.raises(ValidationError): ENR( sequence_number=valid_sequence_number, kv_pairs={b"no-id": b""}, signature=valid_signature, identity_scheme_registry=identity_scheme_registry, ) with pytest.raises(ValidationError): UnsignedENR( sequence_number=-1, kv_pairs=valid_kv_pairs, identity_scheme_registry=identity_scheme_registry, ) with pytest.raises(ValidationError): ENR( sequence_number=-1, kv_pairs=valid_kv_pairs, signature=valid_signature, identity_scheme_registry=identity_scheme_registry, )
def test_enr_v4_compat_signing(): private_key = PrivateKey(b"\x11" * 32) unsigned_enr = UnsignedENR( 0, { b"id": b"v4-compat", b"secp256k1": private_key.public_key.to_compressed_bytes(), b"key1": b"value1", }) with pytest.raises(NotImplementedError): V4CompatIdentityScheme.create_enr_signature(unsigned_enr, b'')
def test_signature_validation(mock_identity_scheme, identity_scheme_registry): unsigned_enr = UnsignedENR(0, {b"id": b"mock"}, identity_scheme_registry) private_key = b"\x00" * 32 enr = unsigned_enr.to_signed_enr(private_key) enr.validate_signature() invalid_signature = b"\xff" * 64 invalid_enr = ENR(enr.sequence_number, dict(enr), invalid_signature, identity_scheme_registry=identity_scheme_registry) with pytest.raises(ValidationError): invalid_enr.validate_signature() with pytest.raises(ValidationError): ENR( 0, {b"id": b"unknown"}, b"", identity_scheme_registry=identity_scheme_registry, )
async def test_request_enr(nursery, manually_driven_discovery_pair): alice, bob = manually_driven_discovery_pair # Pretend that bob and alice have already bonded, otherwise bob will ignore alice's ENR # request. bob.node_db.set_last_pong_time(alice.this_node.id, int(time.monotonic())) # Add a copy of Bob's node with a stub ENR to alice's RT as later we're going to check that it # gets updated with the received ENR. bobs_node_with_stub_enr = Node.from_pubkey_and_addr( bob.this_node.pubkey, bob.this_node.address) alice.node_db.set_last_pong_time(bob.this_node.id, int(time.monotonic())) alice.node_db.delete_enr(bobs_node_with_stub_enr.id) alice.node_db.set_enr(bobs_node_with_stub_enr.enr) assert alice.node_db.get_enr( bobs_node_with_stub_enr.id).sequence_number == 0 received_enr = None got_enr = trio.Event() async def fetch_enr(event): nonlocal received_enr received_enr = await alice.request_enr(bobs_node_with_stub_enr) event.set() # Start a task in the background that requests an ENR to bob and then waits for it. nursery.start_soon(fetch_enr, got_enr) # Bob will now consume one datagram containing the ENR_REQUEST from alice, and as part of that # will send an ENR_RESPONSE, which will then be consumed by alice, and as part of that it will # be fed into the request_enr() task we're running the background. with trio.fail_after(0.5): await bob.consume_datagram() await alice.consume_datagram() with trio.fail_after(1): await got_enr.wait() validate_node_enr(bob.this_node, received_enr, sequence_number=1) assert alice.node_db.get_enr(bob.this_node.id) == received_enr # Now, if Bob later sends us a new ENR with no endpoint information, we'll evict him from both # our DB and RT. sequence_number = bob.this_node.enr.sequence_number + 1 new_unsigned_enr = UnsignedENR(sequence_number, kv_pairs={ IDENTITY_SCHEME_ENR_KEY: V4IdentityScheme.id, V4IdentityScheme.public_key_enr_key: bob.pubkey.to_compressed_bytes(), }) bob.this_node = Node(new_unsigned_enr.to_signed_enr( bob.privkey.to_bytes())) received_enr = None got_new_enr = trio.Event() nursery.start_soon(fetch_enr, got_new_enr) with trio.fail_after(0.5): await bob.consume_datagram() await alice.consume_datagram() with trio.fail_after(1): await got_new_enr.wait() assert Node(received_enr).address is None assert not alice.routing._contains(bob.this_node.id, include_replacement_cache=True) with pytest.raises(KeyError): alice.node_db.get_enr(bob.this_node.id)
def test_node_id(mock_identity_scheme, identity_scheme_registry): unsigned_enr = UnsignedENR(0, {b"id": b"mock"}, identity_scheme_registry) private_key = b"\x00" * 32 enr = unsigned_enr.to_signed_enr(private_key) assert enr.node_id == private_key
def test_public_key(mock_identity_scheme, identity_scheme_registry): unsigned_enr = UnsignedENR(0, {b"id": b"mock"}, identity_scheme_registry) private_key = b"\x00" * 32 enr = unsigned_enr.to_signed_enr(private_key) assert enr.public_key == mock_identity_scheme.extract_public_key(enr)