def test_sysadmin_addresses(self): """Tests the SysAdmin address creation functions as well as the address_is function. Notes: 1. Create a SysAdmin address. - SysAdmin Attributes - SysAdmin Members - SysAdmin Owners - SysAdmin Admins 2. Assert that the address_is function returns the correct address type. """ sysadmin_address = addresser.make_sysadmin_attr_address() self.assertEqual(len(sysadmin_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(sysadmin_address), AddressSpace.SYSADMIN_ATTRIBUTES, "The SysAdmin Attributes address created must be found " "to be a SysAdmin Attributes address.") sysadmin_members_address = addresser.make_sysadmin_members_address( user_id=uuid4().hex) self.assertEqual(len(sysadmin_members_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(sysadmin_members_address), AddressSpace.SYSADMIN_MEMBERS, "The SysAdmin Members address created must be found to " "be a SysAdmin Members address.") sysadmin_owners_address = addresser.make_sysadmin_owners_address( user_id=uuid4().hex) self.assertEqual(len(sysadmin_owners_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(sysadmin_owners_address), AddressSpace.SYSADMIN_OWNERS, "The SysAdmin Owners address created must be found to " "be a SysAdmin Owners address.") sysadmin_admins_address = addresser.make_sysadmin_admins_address( user_id=uuid4().hex) self.assertEqual(len(sysadmin_admins_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(sysadmin_admins_address), AddressSpace.SYSADMIN_ADMINS, "The SysAdmin Admins address created must be found to " "be a SysAdmin Admins address.")
def test_task_addresses(self): """Tests the Task address creation functions as well as the address_is function. Notes: 1. Create an address of a particular type: - Task Attributes - Task Owners - Task Admins 2. Assert that address_is returns the correct address type. """ task_address = addresser.make_task_attributes_address(uuid4().hex) self.assertEqual(len(task_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(task_address), AddressSpace.TASKS_ATTRIBUTES, "The Task Attributes address created must be " "found to be a Task Attributes address.") task_owners_address = addresser.make_task_owners_address( task_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(task_owners_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(task_owners_address), AddressSpace.TASKS_OWNERS, "The Task Owners address created must be " "found to be a Task Owners address.") task_admins_address = addresser.make_task_admins_address( task_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(task_admins_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(task_admins_address), AddressSpace.TASKS_ADMINS, "The Task Admins address created must be " "found to be a Task Admins address.")
def test_deterministic_role_address(self): """Tests that a specific role_id generates the expected role address, and thus is probably deterministic. """ ident = '99968acb8f1a48b3a4bc21e2cd252e67' expected_address = '9f444809326a1713a905b26359fc8d\ a2817c1a5f67de6f464701f0c10042da345d2800' address = addresser.make_role_attributes_address(ident) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.ROLES_ATTRIBUTES, "The address created must be a Role Attributes address.")
def test_gen_proposal_addr(self): """Tests the proposal address creation function as well as the address_is function. """ object_id = uuid4().hex related_id = uuid4().hex address = addresser.make_proposal_address(object_id, related_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.PROPOSALS, "The address created must be a Proposal address.")
def test_nonhex_address(self): """Tests that an address that is not hex does not validate. """ address = '9f444847e7570f3f6f7d2c1635f6de\ eabc1f4d78d9d42b64b70e1819f244138c1e38X6' self.assertFalse(addresser.is_address(address), "The address is not 70 character hexidecimal") self.assertFalse( addresser.is_family_address(address), "The address is not 70 character hexidecimal with family prefix") with self.assertRaises(ValueError): addresser.address_is(address)
def test_determine_role_owner_addr(self): """Tests that a specific role_id and owner_id generates the expected role owner address, and thus is probably deterministic. """ role_id = '99968acb8f1a48b3a4bc21e2cd252e67' owner_id = '966ab67317234df489adb4bc1f517b88' expected_address = '9f444809326a1713a905b26359fc8d\ a2817c1a5f67de6f464701f0c10042da345d2893' address = addresser.make_role_owners_address(role_id, owner_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.ROLES_OWNERS, "The address created must be a Role Attributes address.")
def test_determine_sysadmin_addr(self): """Tests that a specific sysadmin_id generates the expected sysadmin address, and thus is probably deterministic. """ expected_address = '9f4448000000000000000000000000\ 0000000000000000000000000000000000000000' address = addresser.make_sysadmin_attr_address() self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.SYSADMIN_ATTRIBUTES, "The address created must be a SysAdmin Attributes address.")
def test_generated_role_owner_addr(self): """Tests the role owner address creation function as well as the address_is function. """ role_id = uuid4().hex owner_id = uuid4().hex address = addresser.make_role_owners_address(role_id, owner_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.ROLES_OWNERS, "The address created must be a Role Attributes address.")
def test_determine_task_admin_addr(self): """Tests that a specific task_id and admin_id generates the expected task admin address, and thus is probably deterministic. """ task_id = '99968acb8f1a48b3a4bc21e2cd252e67' admin_id = '966ab67317234df489adb4bc1f517b88' expected_address = '9f44481e326a1713a905b26359fc8d\ a2817c1a5f67de6f464701f0c10042da345d2848' address = addresser.make_task_admins_address(task_id, admin_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.TASKS_ADMINS, "The address created must be a Task Attributes address.")
def test_gen_sysadmin_owner_addr(self): """Tests the sysadmin owner address creation function as well as the address_is function. """ owner_id = uuid4().hex address = addresser.make_sysadmin_owners_address(owner_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.SYSADMIN_OWNERS, "The address created must be a SysAdmin Attributes address.")
def test_deterministic_user_address(self): """Tests that a specific user_id generates the expected user address, and thus is probably deterministic. """ ident = '966ab67317234df489adb4bc1f517b88' expected_address = '9f444847e7570f3f6f7d2c1635f6de\ eabc1f4d78d9d42b64b70e1819f244138c1e38d6' address = addresser.make_user_address(ident) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.USER, "The User address created must be found to be a User address.")
def test_generated_task_admin_addr(self): """Tests the task admin address creation function as well as the address_is function. """ task_id = uuid4().hex admin_id = uuid4().hex address = addresser.make_task_admins_address(task_id, admin_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.TASKS_ADMINS, "The address created must be a Task Attributes address.")
def test_determine_proposal_addr(self): """Tests that a specific proposal_id generates the expected proposal address, and thus is probably deterministic. """ object_id = 'cb048d507eec42a5845e20eed982d5d2' related_id = 'f1e916b663164211a9ac34516324681a' expected_address = '9f4448e3b874e90b2bcf58e65e0727\ 91ea499543ee52fc9d0449fc1e41f77d4d4f926e' address = addresser.make_proposal_address(object_id, related_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.PROPOSALS, "The address created must be a Proposal address.")
def test_det_sysadmin_member_addr(self): """Tests that a specific member_id generates the expected sysadmin member address, and thus is probably deterministic. """ member_id = '966ab67317234df489adb4bc1f517b88' expected_address = '9f4448000000000000000000000000\ 0000000000000000000000000000000000000083' address = addresser.make_sysadmin_members_address(member_id) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual(address, expected_address, "The address is the one we expected it to be") self.assertEqual( addresser.address_is(address), AddressSpace.SYSADMIN_MEMBERS, "The address created must be a SysAdmin Attributes address.")
def return_state(self): items = [] for item in self._client.list_state(subtree=addresser.NS)['data']: if addresser.address_is( item['address']) == addresser.AddressSpace.USER: user_container = user_state_pb2.UserContainer() user_container.ParseFromString(b64decode(item['data'])) items.append((user_container, addresser.AddressSpace.USER)) return items
def test_long_address(self): """Tests that an address that is too long does not validate. """ address = '9f444847e7570f3f6f7d2c1635f6de\ eabc1f4d78d9d42b64b70e1819f244138c1e38d6fe' self.assertFalse( len(address) == addresser.ADDRESS_LENGTH, "The address is not 70 characters") self.assertFalse(addresser.is_address(address), "The address is not 70 character hexidecimal") self.assertFalse( addresser.is_family_address(address), "The address is not 70 character hexidecimal with family prefix") with self.assertRaises(ValueError): addresser.address_is(address)
def data_to_dicts(address, data): """Deserializes a protobuf binary based on its address. Returns a list of the decoded objects which were stored at that address. """ data_type = address_is(address) try: deserializer = DESERIALIZERS[data_type] except KeyError: raise TypeError('Unknown data type: {}'.format(data_type)) return [_proto_to_dict(pb) for pb in deserializer(data)]
def test_wrong_family_address(self): """Tests that an address with the wrong family prefix does not validate. """ address = '8f444847e7570f3f6f7d2c1635f6de\ eabc1f4d78d9d42b64b70e1819f244138c1e38d6' self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertFalse(addresser.namespace_ok(address), "The address does not have correct namespace prefix") self.assertFalse( addresser.is_family_address(address), "The address is not 70 character hexidecimal with family prefix") with self.assertRaises(ValueError): addresser.address_is(address)
def test_users_address(self): """Tests the Users address creation function as well as the address_is function. Notes: 1. Create a Users address. 2. Assert that address_is returns the correct address type. """ users_address = addresser.make_user_address(user_id=uuid4().hex) self.assertEqual(len(users_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(users_address), AddressSpace.USER, "The User address created must be found " "to be a User address.")
def test_proposal_addresses(self): """Tests the Proposal address creation function as well as the address_is function. Notes: 1. Create a Proposal address. 2. Assert that address_is returns the correct address type. """ proposal_address = addresser.make_proposal_address( object_id=uuid4().hex, related_id=uuid4().hex) self.assertEqual(len(proposal_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(proposal_address), AddressSpace.PROPOSALS, "The Proposals address created must be found " "to be a Proposals address.")
def _update(database, block_num, address, resource): data_type = address_is(address) resource['start_block_num'] = block_num resource['end_block_num'] = sys.maxsize if ADD_SUFFIX.get(data_type, False): resource['suffix'] = int(address[-2:], 16) try: table_query = database.get_table(TABLE_NAMES[data_type]) update_filter = {k: resource[k] for k in FILTER_KEYS[data_type]} except KeyError: raise TypeError('Unknown data type: {}'.format(data_type)) update_filter['end_block_num'] = sys.maxsize query = table_query.filter(update_filter)\ .update({'end_block_num': block_num})\ .merge(table_query.insert(resource).without('replaced')) return database.run_query(query)
def test_generated_user_address(self): """Tests the Users address creation function as well as the address_is function. """ ident = uuid4().hex address = addresser.make_user_address(ident) self.assertEqual(len(address), addresser.ADDRESS_LENGTH, "The address is 70 characters") self.assertTrue(addresser.is_address(address), "The address is 70 character hexidecimal") self.assertTrue(addresser.namespace_ok(address), "The address has correct namespace prefix") self.assertTrue( addresser.is_family_address(address), "The address is 70 character hexidecimal with family prefix") self.assertEqual( addresser.address_is(address), AddressSpace.USER, "The address created must be found to be a User address.")
def test_role_addresses(self): """Tests the Role address creation functions as well as the address_is function. Notes: 1. Create an address of a particular type: - Role Attributes - Role Members - Role Owners - Role Admins - Role Tasks 2. Assert that address_is returns the correct address type. """ role_address = addresser.make_role_attributes_address( role_id=uuid4().hex) self.assertEqual(len(role_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_address), AddressSpace.ROLES_ATTRIBUTES, "The Role Attributes address created must " "be found to be a Role Attributes address.") role_members_address = addresser.make_role_members_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_members_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_members_address), AddressSpace.ROLES_MEMBERS, "The Role Members address created must be " "found to be a Role Members address.") role_owners_address = addresser.make_role_owners_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_owners_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_owners_address), AddressSpace.ROLES_OWNERS, "The Role Owners address created must be found to be " "a Role Members address.") role_admins_address = addresser.make_role_admins_address( role_id=uuid4().hex, user_id=uuid4().hex) self.assertEqual(len(role_admins_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_admins_address), AddressSpace.ROLES_ADMINS, "The Role Admins address created must be " "found to be a Role Admins address.") role_tasks_address = addresser.make_role_tasks_address( role_id=uuid4().hex, task_id=uuid4().hex) self.assertEqual(len(role_tasks_address), 70, "The address is a well-formed address.") self.assertEqual( addresser.address_is(role_tasks_address), AddressSpace.ROLES_TASKS, "The Role Tasks address created must be " "found to be a Role Tasks address.")