def test_csv_raw_data_visitor(self): self.data_source = common_pb.DataSource() self.data_source.data_source_meta.name = 'fclh_test' self.data_source.data_source_meta.partition_num = 1 self.raw_data_dir = path.join( path.dirname(path.abspath(__file__)), "../csv_raw_data" ) self.kvstore = DBClient("etcd", True) self.kvstore.delete_prefix(common.data_source_kvstore_base_dir(self.data_source.data_source_meta.name)) self.assertEqual(self.data_source.data_source_meta.partition_num, 1) partition_dir = path.join(self.raw_data_dir, common.partition_repr(0)) self.assertTrue(gfile.Exists(partition_dir)) manifest_manager = raw_data_manifest_manager.RawDataManifestManager( self.kvstore, self.data_source) manifest_manager.add_raw_data( 0, [dj_pb.RawDataMeta(file_path=path.join(partition_dir, "test_raw_data.csv"), timestamp=timestamp_pb2.Timestamp(seconds=3))], True) raw_data_options = dj_pb.RawDataOptions( raw_data_iter='CSV_DICT', read_ahead_size=1<<20 ) rdm = raw_data_visitor.RawDataManager(self.kvstore, self.data_source,0) self.assertTrue(rdm.check_index_meta_by_process_index(0)) rdv = raw_data_visitor.RawDataVisitor(self.kvstore, self.data_source, 0, raw_data_options) expected_index = 0 for (index, item) in rdv: if index > 0 and index % 1024 == 0: print("{} {}".format(index, item.raw_id)) self.assertEqual(index, expected_index) expected_index += 1 self.assertEqual(expected_index, 4999)
def setUp(self) -> None: logging.getLogger().setLevel(logging.DEBUG) self._data_portal_name = 'test_data_portal_job_manager' self._kvstore = DBClient('etcd', True) self._portal_input_base_dir = './portal_input_dir' self._portal_output_base_dir = './portal_output_dir' self._raw_data_publish_dir = 'raw_data_publish_dir' if gfile.Exists(self._portal_input_base_dir): gfile.DeleteRecursively(self._portal_input_base_dir) gfile.MakeDirs(self._portal_input_base_dir) self._data_fnames = ['1001/{}.data'.format(i) for i in range(100)] self._data_fnames_without_success = \ ['1002/{}.data'.format(i) for i in range(100)] self._csv_fnames = ['1003/{}.csv'.format(i) for i in range(100)] self._unused_fnames = ['{}.xx'.format(100)] self._all_fnames = self._data_fnames + \ self._data_fnames_without_success + \ self._csv_fnames + self._unused_fnames all_fnames_with_success = ['1001/_SUCCESS'] + ['1003/_SUCCESS'] +\ self._all_fnames for fname in all_fnames_with_success: fpath = os.path.join(self._portal_input_base_dir, fname) gfile.MakeDirs(os.path.dirname(fpath)) with gfile.Open(fpath, "w") as f: f.write('xxx')
def _setUpMySQL(self): self.kvstore_type = 'etcd' self.leader_base_dir = 'bytefl_l' self.follower_base_dir = 'bytefl_f' os.environ['ETCD_BASE_DIR'] = self.leader_base_dir self._kvstore_l = DBClient(self.kvstore_type, True) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir self._kvstore_f = DBClient(self.kvstore_type, True)
def __init__(self, options, kvstore_type, use_mock_etcd=False): self._lock = threading.Condition() self._options = options kvstore = DBClient(kvstore_type, use_mock_etcd) pub_dir = self._options.raw_data_publish_dir self._publisher = RawDataPublisher(kvstore, pub_dir) self._process_pool_executor = \ concur_futures.ProcessPoolExecutor( options.offload_processor_number ) self._callback_submitter = None # pre fock sub processor before launch grpc client self._process_pool_executor.submit(min, 1, 2).result() self._id_batch_fetcher = IdBatchFetcher(kvstore, self._options) if self._options.role == common_pb.FLRole.Leader: private_key = rsa.PrivateKey.load_pkcs1(options.rsa_key_pem) self._psi_rsa_signer = LeaderPsiRsaSigner( self._id_batch_fetcher, options.batch_processor_options.max_flying_item, self._options.max_flying_sign_batch, self._options.slow_sign_threshold, self._process_pool_executor, private_key, ) self._repr = 'leader-' + 'rsa_psi_preprocessor' else: public_key = rsa.PublicKey.load_pkcs1(options.rsa_key_pem) self._callback_submitter = concur_futures.ThreadPoolExecutor(1) self._psi_rsa_signer = FollowerPsiRsaSigner( self._id_batch_fetcher, options.batch_processor_options.max_flying_item, self._options.max_flying_sign_batch, self._options.max_flying_sign_rpc, self._options.sign_rpc_timeout_ms, self._options.slow_sign_threshold, self._options.stub_fanout, self._process_pool_executor, self._callback_submitter, public_key, self._options.leader_rsa_psi_signer_addr) self._repr = 'follower-' + 'rsa_psi_preprocessor' self._sort_run_dumper = SortRunDumper(options) self._sort_run_merger = SortRunMerger( dj_pb.SortRunMergerOptions( merger_name='sort_run_merger_'+\ partition_repr(options.partition_id), reader_options=dj_pb.RawDataOptions( raw_data_iter=options.writer_options.output_writer, compressed_type=options.writer_options.compressed_type, read_ahead_size=\ options.sort_run_merger_read_ahead_buffer, read_batch_size=\ options.sort_run_merger_read_batch_size ), writer_options=options.writer_options, output_file_dir=options.output_file_dir, partition_id=options.partition_id ), self._merger_comparator ) self._produce_item_cnt = 0 self._comsume_item_cnt = 0 self._started = False
def __init__(self, listen_port, peer_addr, master_addr, rank_id, kvstore_type, options): master_channel = make_insecure_channel( master_addr, ChannelType.INTERNAL, options=[('grpc.max_send_message_length', 2**31 - 1), ('grpc.max_receive_message_length', 2**31 - 1)]) self._master_client = dj_grpc.DataJoinMasterServiceStub(master_channel) self._rank_id = rank_id kvstore = DBClient(kvstore_type, options.use_mock_etcd) data_source = self._sync_data_source() self._data_source_name = data_source.data_source_meta.name self._listen_port = listen_port self._server = grpc.server(futures.ThreadPoolExecutor(max_workers=10)) peer_channel = make_insecure_channel( peer_addr, ChannelType.REMOTE, options=[('grpc.max_send_message_length', 2**31 - 1), ('grpc.max_receive_message_length', 2**31 - 1)]) peer_client = dj_grpc.DataJoinWorkerServiceStub(peer_channel) self._data_join_worker = DataJoinWorker(peer_client, self._master_client, rank_id, kvstore, data_source, options) dj_grpc.add_DataJoinWorkerServiceServicer_to_server( self._data_join_worker, self._server) self._role_repr = "leader" if data_source.role == \ common_pb.FLRole.Leader else "follower" self._server.add_insecure_port('[::]:%d' % listen_port) self._server_started = False
def __init__(self, peer_client, data_source_name, kvstore_type, options): super(DataJoinMaster, self).__init__() self._data_source_name = data_source_name kvstore = DBClient(kvstore_type, options.use_mock_etcd) self._options = options self._fsm = MasterFSM(peer_client, data_source_name, kvstore, self._options.batch_mode) self._data_source_meta = \ self._fsm.get_data_source().data_source_meta
def __init__(self, listen_port, portal_name, kvstore_type, portal_options): self._portal_name = portal_name self._listen_port = listen_port self._server = grpc.server(futures.ThreadPoolExecutor(max_workers=10)) kvstore = DBClient(kvstore_type, portal_options.use_mock_etcd) self._data_portal_master = DataPortalMaster(portal_name, kvstore, portal_options) dp_grpc.add_DataPortalMasterServiceServicer_to_server( self._data_portal_master, self._server) self._server.add_insecure_port('[::]:%d' % listen_port) self._server_started = False
def __init__(self, options, part_field, kvstore_type, use_mock_etcd=False): self._options = options self._part_field = part_field kvstore = DBClient(kvstore_type, use_mock_etcd) self._raw_data_batch_fetcher = RawDataBatchFetcher(kvstore, options) self._next_part_index = None self._dumped_process_index = None self._flying_writers = [] self._dumped_file_metas = {} self._worker_map = {} self._started = False self._part_finished = False self._cond = threading.Condition()
def __init__(self, options): self._fiter = None self._index_meta = None self._item = None self._index = None self._iter_failed = False self._options = options #_options will be None for example id visitor if self._options and self._options.raw_data_cache_type == "disk": #use leveldb to manager the disk storage by default self._cache_type = DBClient("leveldb", False) else: self._cache_type = None
def __init__(self, options): self._fiter = None self._index_meta = None self._item = None self._index = None self._iter_failed = False self._options = options try: self._validator = Validator(options.validation_ratio) except AttributeError: self._validator = Validator() #_options will be None for example id visitor if self._options and self._options.raw_data_cache_type == "disk": #use leveldb to manager the disk storage by default self._cache_type = DBClient("leveldb", False) else: self._cache_type = None
class DataBlockVisitor(object): def __init__(self, data_source_name, kvstore_type, use_mock_etcd=False): self._kvstore = DBClient(kvstore_type, use_mock_etcd) self._data_source = retrieve_data_source(self._kvstore, data_source_name) def LoadDataBlockRepByTimeFrame(self, start_time=None, end_time=None): partition_num = self._data_source.data_source_meta.partition_num data_block_fnames = {} for partition_id in range(0, partition_num): data_block_fnames[partition_id] = \ self._list_data_block(partition_id) data_block_reps = {} for partition_id, fnames in data_block_fnames.items(): manifest = self._sync_raw_data_manifest(partition_id) for idx, fname in enumerate(fnames): check_existed = (idx == len(fnames) - 1) rep = self._make_data_block_rep(partition_id, fname, check_existed) filtered = True reason = '' if rep is None: reason = 'failed to create data block rep' elif end_time is not None and rep.end_time > end_time: reason = 'excess time frame' elif start_time is not None and rep.end_time <= start_time: reason = 'less time frame' elif self._filter_by_visible(rep.data_block_index, manifest): reason = 'data block visible' else: data_block_reps[rep.block_id] = rep filtered = False if filtered: logging.debug('skip %s since %s', fname, reason) return data_block_reps def LoadDataBlockReqByIndex(self, partition_id, data_block_index): partition_num = self._data_source.data_source_meta.partition_num if partition_id < 0 or partition_id >= partition_num: raise IndexError("partition {} out range".format(partition_id)) dirpath = self._partition_data_block_dir(partition_id) meta_fname = encode_data_block_meta_fname(self._data_source_name(), partition_id, data_block_index) meta_fpath = os.path.join(dirpath, meta_fname) meta = load_data_block_meta(meta_fpath) manifest = self._sync_raw_data_manifest(partition_id) if meta is not None and \ not self._filter_by_visible(meta.data_block_index, manifest): fname = encode_data_block_fname(self._data_source_name(), meta) return DataBlockRep(self._data_source_name(), fname, partition_id, dirpath) return None def LoadDataBlockRepByBlockId(self, block_id): block_info = decode_block_id(block_id) dbr = self.LoadDataBlockReqByIndex(block_info['partition_id'], block_info['data_block_index']) if dbr: assert dbr.block_id == block_id, \ "Invalid datablock, expected %s, but got %s), please "\ "check datasource!"%(block_id, dbr.block_id) return dbr def _list_data_block(self, partition_id): dirpath = self._partition_data_block_dir(partition_id) if gfile.Exists(dirpath) and gfile.IsDirectory(dirpath): return [ f for f in gfile.ListDirectory(dirpath) if f.endswith(DataBlockSuffix) ] return [] def _partition_data_block_dir(self, partition_id): return os.path.join(data_source_data_block_dir(self._data_source), partition_repr(partition_id)) def _make_data_block_rep(self, partition_id, data_block_fname, check_existed): try: rep = DataBlockRep(self._data_source.data_source_meta.name, data_block_fname, partition_id, self._partition_data_block_dir(partition_id), check_existed) except Exception as e: # pylint: disable=broad-except logging.warning("Failed to create data block rep for %s in"\ "partition %d reason %s", data_block_fname, partition_id, e) return None return rep def _data_source_name(self): return self._data_source.data_source_meta.name def _sync_raw_data_manifest(self, partition_id): kvstore_key = partition_manifest_kvstore_key(self._data_source_name(), partition_id) data = self._kvstore.get_data(kvstore_key) assert data is not None, "raw data manifest of partition "\ "{} must be existed".format(partition_id) return text_format.Parse(data, dj_pb.RawDataManifest()) def _filter_by_visible(self, index, manifest): join_state = manifest.join_example_rep.state if self._data_source.role == common_pb.FLRole.Follower and \ join_state != dj_pb.JoinExampleState.Joined: return index > manifest.peer_dumped_index return False
type=int, default=None, help='Max number of files in a job') parser.add_argument('--start_date', type=str, default=None, help='Start date of input data, format %Y%m%d') parser.add_argument('--end_date', type=str, default=None, help='End date of input data, format %Y%m%d') args = parser.parse_args() set_logger() use_mock_etcd = (args.kvstore_type == 'mock') kvstore = DBClient(args.kvstore_type, use_mock_etcd) kvstore_key = common.portal_kvstore_base_dir(args.data_portal_name) portal_manifest = kvstore.get_data(kvstore_key) data_portal_type = dp_pb.DataPortalType.PSI if \ args.data_portal_type == 'PSI' else dp_pb.DataPortalType.Streaming if portal_manifest is None: portal_manifest = dp_pb.DataPortalManifest( name=args.data_portal_name, data_portal_type=data_portal_type, output_partition_num=args.output_partition_num, input_file_wildcard=args.input_file_wildcard, input_base_dir=args.input_base_dir, output_base_dir=args.output_base_dir, raw_data_publish_dir=args.raw_data_publish_dir, processing_job_id=-1) kvstore.set_data(kvstore_key, text_format.\
class TestDataPortalJobManager(unittest.TestCase): def setUp(self) -> None: logging.getLogger().setLevel(logging.DEBUG) self._data_portal_name = 'test_data_portal_job_manager' self._kvstore = DBClient('etcd', True) self._portal_input_base_dir = './portal_input_dir' self._portal_output_base_dir = './portal_output_dir' self._raw_data_publish_dir = 'raw_data_publish_dir' if gfile.Exists(self._portal_input_base_dir): gfile.DeleteRecursively(self._portal_input_base_dir) gfile.MakeDirs(self._portal_input_base_dir) self._data_fnames = ['1001/{}.data'.format(i) for i in range(100)] self._data_fnames_without_success = \ ['1002/{}.data'.format(i) for i in range(100)] self._csv_fnames = ['1003/{}.csv'.format(i) for i in range(100)] self._unused_fnames = ['{}.xx'.format(100)] self._all_fnames = self._data_fnames + \ self._data_fnames_without_success + \ self._csv_fnames + self._unused_fnames all_fnames_with_success = ['1001/_SUCCESS'] + ['1003/_SUCCESS'] +\ self._all_fnames for fname in all_fnames_with_success: fpath = os.path.join(self._portal_input_base_dir, fname) gfile.MakeDirs(os.path.dirname(fpath)) with gfile.Open(fpath, "w") as f: f.write('xxx') def tearDown(self) -> None: gfile.DeleteRecursively(self._portal_input_base_dir) def _list_input_dir(self, portal_options, file_wildcard, target_fnames, max_files_per_job=8000): portal_manifest = dp_pb.DataPortalManifest( name=self._data_portal_name, data_portal_type=dp_pb.DataPortalType.Streaming, output_partition_num=4, input_file_wildcard=file_wildcard, input_base_dir=self._portal_input_base_dir, output_base_dir=self._portal_output_base_dir, raw_data_publish_dir=self._raw_data_publish_dir, processing_job_id=-1, next_job_id=0 ) self._kvstore.set_data( common.portal_kvstore_base_dir(self._data_portal_name), text_format.MessageToString(portal_manifest)) with Timer("DataPortalJobManager initialization"): data_portal_job_manager = DataPortalJobManager( self._kvstore, self._data_portal_name, portal_options.long_running, portal_options.check_success_tag, portal_options.single_subfolder, portal_options.files_per_job_limit, max_files_per_job ) portal_job = data_portal_job_manager._sync_processing_job() target_fnames.sort() fpaths = [os.path.join(self._portal_input_base_dir, f) for f in target_fnames] self.assertEqual(len(fpaths), len(portal_job.fpaths)) for index, fpath in enumerate(fpaths): self.assertEqual(fpath, portal_job.fpaths[index]) def test_list_input_dir(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=True, single_subfolder=False, files_per_job_limit=None ) self._list_input_dir(portal_options, "*.data", self._data_fnames) def test_list_input_dir_single_folder(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=True, files_per_job_limit=None, ) self._list_input_dir( portal_options, "*.data", self._data_fnames) def test_list_input_dir_files_limit(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, files_per_job_limit=1, ) self._list_input_dir( portal_options, "*.data", self._data_fnames) portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, files_per_job_limit=150, ) self._list_input_dir( portal_options, "*.data", self._data_fnames) portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, files_per_job_limit=200, ) self._list_input_dir( portal_options, "*.data", self._data_fnames + self._data_fnames_without_success) def test_list_input_dir_over_limit(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, ) self._list_input_dir( portal_options, "*.data", self._data_fnames, max_files_per_job=100) self._list_input_dir( portal_options, "*.data", self._data_fnames + self._data_fnames_without_success, max_files_per_job=200) def test_list_input_dir_without_success_check(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, files_per_job_limit=None ) self._list_input_dir( portal_options, "*.data", self._data_fnames + self._data_fnames_without_success) def test_list_input_dir_without_wildcard(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=True, single_subfolder=False, files_per_job_limit=None ) self._list_input_dir( portal_options, None, self._data_fnames + self._csv_fnames) def test_list_input_dir_without_wildcard_and_success_check(self): portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=False, single_subfolder=False, files_per_job_limit=None ) self._list_input_dir(portal_options, None, self._all_fnames)
parser.add_argument('--raw_data_sub_dir', type=str, required=True, help='the mysql base dir to subscribe new raw data') args = parser.parse_args() data_source = common_pb.DataSource() data_source.data_source_meta.name = args.data_source_name data_source.data_source_meta.partition_num = args.partition_num data_source.data_source_meta.start_time = args.start_time data_source.data_source_meta.end_time = args.end_time data_source.data_source_meta.negative_sampling_rate = \ args.negative_sampling_rate if args.role.upper() == 'LEADER': data_source.role = common_pb.FLRole.Leader else: assert args.role.upper() == 'FOLLOWER' data_source.role = common_pb.FLRole.Follower data_source.output_base_dir = args.output_base_dir data_source.raw_data_sub_dir = args.raw_data_sub_dir data_source.state = common_pb.DataSourceState.Init kvstore = DBClient(args.kvstore_type) master_kvstore_key = common.data_source_kvstore_base_dir( data_source.data_source_meta.name) raw_data = kvstore.get_data(master_kvstore_key) if raw_data is None: logging.info("data source %s is not existed", args.data_source_name) common.commit_data_source(kvstore, data_source) logging.info("apply new data source %s", args.data_source_name) else: logging.info("data source %s has been existed", args.data_source_name)
def test_api(self): logging.getLogger().setLevel(logging.DEBUG) os.environ['ETCD_BASE_DIR'] = 'bytefl_l' data_source_name = 'test_data_source' kvstore_l = DBClient('etcd', True) os.environ['ETCD_BASE_DIR'] = 'bytefl_f' kvstore_f = DBClient('etcd', True) kvstore_l.delete_prefix( common.data_source_kvstore_base_dir(data_source_name)) kvstore_f.delete_prefix( common.data_source_kvstore_base_dir(data_source_name)) data_source_l = common_pb.DataSource() data_source_l.role = common_pb.FLRole.Leader data_source_l.state = common_pb.DataSourceState.Init data_source_l.output_base_dir = "./ds_output_l" data_source_f = common_pb.DataSource() data_source_f.role = common_pb.FLRole.Follower data_source_f.state = common_pb.DataSourceState.Init data_source_f.output_base_dir = "./ds_output_f" data_source_meta = common_pb.DataSourceMeta() data_source_meta.name = data_source_name data_source_meta.partition_num = 1 data_source_meta.start_time = 0 data_source_meta.end_time = 100000000 data_source_l.data_source_meta.MergeFrom(data_source_meta) common.commit_data_source(kvstore_l, data_source_l) data_source_f.data_source_meta.MergeFrom(data_source_meta) common.commit_data_source(kvstore_f, data_source_f) master_addr_l = 'localhost:4061' master_addr_f = 'localhost:4062' options = dj_pb.DataJoinMasterOptions(use_mock_etcd=True) os.environ['ETCD_BASE_DIR'] = 'bytefl_l' master_l = data_join_master.DataJoinMasterService( int(master_addr_l.split(':')[1]), master_addr_f, data_source_name, 'etcd', options) master_l.start() os.environ['ETCD_BASE_DIR'] = 'bytefl_f' master_f = data_join_master.DataJoinMasterService( int(master_addr_f.split(':')[1]), master_addr_l, data_source_name, 'etcd', options) master_f.start() channel_l = make_insecure_channel(master_addr_l, ChannelType.INTERNAL) client_l = dj_grpc.DataJoinMasterServiceStub(channel_l) channel_f = make_insecure_channel(master_addr_f, ChannelType.INTERNAL) client_f = dj_grpc.DataJoinMasterServiceStub(channel_f) while True: req_l = dj_pb.DataSourceRequest( data_source_meta=data_source_l.data_source_meta) req_f = dj_pb.DataSourceRequest( data_source_meta=data_source_f.data_source_meta) dss_l = client_l.GetDataSourceStatus(req_l) dss_f = client_f.GetDataSourceStatus(req_f) self.assertEqual(dss_l.role, common_pb.FLRole.Leader) self.assertEqual(dss_f.role, common_pb.FLRole.Follower) if dss_l.state == common_pb.DataSourceState.Processing and \ dss_f.state == common_pb.DataSourceState.Processing: break else: time.sleep(2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=-1, join_example=empty_pb2.Empty()) rdrsp = client_f.RequestJoinPartition(rdreq) self.assertTrue(rdrsp.status.code == 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.join_example_rep.rank_id, 0) self.assertEqual(rdrsp.manifest.join_example_rep.state, dj_pb.JoinExampleState.Joining) self.assertEqual(rdrsp.manifest.partition_id, 0) #check idempotent rdrsp = client_f.RequestJoinPartition(rdreq) self.assertTrue(rdrsp.status.code == 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.join_example_rep.rank_id, 0) self.assertEqual(rdrsp.manifest.join_example_rep.state, dj_pb.JoinExampleState.Joining) self.assertEqual(rdrsp.manifest.partition_id, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, join_example=empty_pb2.Empty()) rdrsp = client_l.RequestJoinPartition(rdreq) self.assertTrue(rdrsp.status.code == 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.join_example_rep.rank_id, 0) self.assertEqual(rdrsp.manifest.join_example_rep.state, dj_pb.JoinExampleState.Joining) self.assertEqual(rdrsp.manifest.partition_id, 0) #check idempotent rdrsp = client_l.RequestJoinPartition(rdreq) self.assertTrue(rdrsp.status.code == 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.join_example_rep.rank_id, 0) self.assertEqual(rdrsp.manifest.join_example_rep.state, dj_pb.JoinExampleState.Joining) self.assertEqual(rdrsp.manifest.partition_id, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=1, partition_id=-1, sync_example_id=empty_pb2.Empty()) rdrsp = client_l.RequestJoinPartition(rdreq) self.assertEqual(rdrsp.status.code, 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.sync_example_id_rep.rank_id, 1) self.assertEqual(rdrsp.manifest.sync_example_id_rep.state, dj_pb.SyncExampleIdState.Syncing) self.assertEqual(rdrsp.manifest.partition_id, 0) #check idempotent rdrsp = client_l.RequestJoinPartition(rdreq) self.assertEqual(rdrsp.status.code, 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.sync_example_id_rep.rank_id, 1) self.assertEqual(rdrsp.manifest.sync_example_id_rep.state, dj_pb.SyncExampleIdState.Syncing) self.assertEqual(rdrsp.manifest.partition_id, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=1, partition_id=0, sync_example_id=empty_pb2.Empty()) rdrsp = client_f.RequestJoinPartition(rdreq) self.assertEqual(rdrsp.status.code, 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.sync_example_id_rep.rank_id, 1) self.assertEqual(rdrsp.manifest.sync_example_id_rep.state, dj_pb.SyncExampleIdState.Syncing) self.assertEqual(rdrsp.manifest.partition_id, 0) #check idempotent rdrsp = client_f.RequestJoinPartition(rdreq) self.assertEqual(rdrsp.status.code, 0) self.assertTrue(rdrsp.HasField('manifest')) self.assertEqual(rdrsp.manifest.sync_example_id_rep.rank_id, 1) self.assertEqual(rdrsp.manifest.sync_example_id_rep.state, dj_pb.SyncExampleIdState.Syncing) self.assertEqual(rdrsp.manifest.partition_id, 0) rdreq1 = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=1, partition_id=0, sync_example_id=empty_pb2.Empty()) try: rsp = client_l.FinishJoinPartition(rdreq1) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) rdreq2 = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, join_example=empty_pb2.Empty()) try: rsp = client_l.FinishJoinPartition(rdreq2) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) manifest_l = client_l.QueryRawDataManifest(rdreq) self.assertTrue(manifest_l is not None) self.assertFalse(manifest_l.finished) self.assertEqual(manifest_l.next_process_index, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_l.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 0) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=False, raw_data_metas=[ dj_pb.RawDataMeta( file_path='a', timestamp=timestamp_pb2.Timestamp(seconds=3)) ])) rsp = client_l.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_l = client_l.QueryRawDataManifest(rdreq) self.assertTrue(manifest_l is not None) self.assertFalse(manifest_l.finished) self.assertEqual(manifest_l.next_process_index, 1) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_l.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 3) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=False, raw_data_metas=[ dj_pb.RawDataMeta( file_path='b', timestamp=timestamp_pb2.Timestamp(seconds=5)) ])) rsp = client_l.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_l = client_l.QueryRawDataManifest(rdreq) self.assertTrue(manifest_l is not None) self.assertFalse(manifest_l.finished) self.assertEqual(manifest_l.next_process_index, 2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_l.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 5) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=True, raw_data_metas=[ dj_pb.RawDataMeta( file_path='b', timestamp=timestamp_pb2.Timestamp(seconds=5)), dj_pb.RawDataMeta( file_path='a', timestamp=timestamp_pb2.Timestamp(seconds=3)) ])) rsp = client_l.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_l = client_l.QueryRawDataManifest(rdreq) self.assertTrue(manifest_l is not None) self.assertFalse(manifest_l.finished) self.assertEqual(manifest_l.next_process_index, 2) rsp = client_l.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 5) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, ) manifest_f = client_f.QueryRawDataManifest(rdreq) self.assertTrue(manifest_f is not None) self.assertFalse(manifest_f.finished) self.assertEqual(manifest_f.next_process_index, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_f.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 0) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=False, raw_data_metas=[ dj_pb.RawDataMeta( file_path='a', timestamp=timestamp_pb2.Timestamp(seconds=1)) ])) rsp = client_f.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_f = client_f.QueryRawDataManifest(rdreq) self.assertTrue(manifest_f is not None) self.assertFalse(manifest_f.finished) self.assertEqual(manifest_f.next_process_index, 1) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_f.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 1) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=False, raw_data_metas=[ dj_pb.RawDataMeta( file_path='b', timestamp=timestamp_pb2.Timestamp(seconds=2)) ])) rsp = client_f.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_f = client_f.QueryRawDataManifest(rdreq) self.assertTrue(manifest_f is not None) self.assertFalse(manifest_f.finished) self.assertEqual(manifest_f.next_process_index, 2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_f.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 2) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=True, raw_data_metas=[ dj_pb.RawDataMeta( file_path='a', timestamp=timestamp_pb2.Timestamp(seconds=1)), dj_pb.RawDataMeta( file_path='b', timestamp=timestamp_pb2.Timestamp(seconds=2)) ])) rsp = client_f.AddRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_f = client_f.QueryRawDataManifest(rdreq) self.assertTrue(manifest_f is not None) self.assertFalse(manifest_f.finished) self.assertEqual(manifest_f.next_process_index, 2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, ) rsp = client_f.GetRawDataLatestTimeStamp(rdreq) self.assertEqual(rsp.status.code, 0) self.assertTrue(rsp.HasField('timestamp')) self.assertEqual(rsp.timestamp.seconds, 2) self.assertEqual(rsp.timestamp.nanos, 0) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, finish_raw_data=empty_pb2.Empty()) rsp = client_l.FinishRawData(rdreq) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_l.FinishRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_l = client_l.QueryRawDataManifest(rdreq) self.assertTrue(manifest_l is not None) self.assertTrue(manifest_l.finished) self.assertEqual(manifest_l.next_process_index, 2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_l.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=False, raw_data_metas=[ dj_pb.RawDataMeta( file_path='x', timestamp=timestamp_pb2.Timestamp(seconds=4)) ])) try: rsp = client_l.AddRawData(rdreq) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) try: rsp = client_f.FinishJoinPartition(rdreq2) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) rsp = client_l.FinishJoinPartition(rdreq1) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_l.FinishJoinPartition(rdreq1) self.assertEqual(rsp.code, 0) rsp = client_f.FinishJoinPartition(rdreq1) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_f.FinishJoinPartition(rdreq1) self.assertEqual(rsp.code, 0) try: rsp = client_f.FinishJoinPartition(rdreq2) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, finish_raw_data=empty_pb2.Empty()) rsp = client_f.FinishRawData(rdreq) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_f.FinishRawData(rdreq) self.assertEqual(rsp.code, 0) manifest_f = client_f.QueryRawDataManifest(rdreq) self.assertTrue(manifest_f is not None) self.assertTrue(manifest_f.finished) self.assertEqual(manifest_f.next_process_index, 2) rdreq = dj_pb.RawDataRequest( data_source_meta=data_source_f.data_source_meta, rank_id=0, partition_id=0, added_raw_data_metas=dj_pb.AddedRawDataMetas( dedup=True, raw_data_metas=[ dj_pb.RawDataMeta( file_path='x', timestamp=timestamp_pb2.Timestamp(seconds=3)) ])) try: rsp = client_f.AddRawData(rdreq) except Exception as e: self.assertTrue(True) else: self.assertTrue(False) rsp = client_f.FinishJoinPartition(rdreq2) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_f.FinishJoinPartition(rdreq2) self.assertEqual(rsp.code, 0) rsp = client_l.FinishJoinPartition(rdreq2) self.assertEqual(rsp.code, 0) #check idempotent rsp = client_l.FinishJoinPartition(rdreq2) self.assertEqual(rsp.code, 0) while True: req_l = dj_pb.DataSourceRequest( data_source_meta=data_source_l.data_source_meta) req_f = dj_pb.DataSourceRequest( data_source_meta=data_source_f.data_source_meta) dss_l = client_l.GetDataSourceStatus(req_l) dss_f = client_f.GetDataSourceStatus(req_f) self.assertEqual(dss_l.role, common_pb.FLRole.Leader) self.assertEqual(dss_f.role, common_pb.FLRole.Follower) if dss_l.state == common_pb.DataSourceState.Finished and \ dss_f.state == common_pb.DataSourceState.Finished: break else: time.sleep(2) master_l.stop() master_f.stop()
def __init__(self, data_source_name, kvstore_type, use_mock_etcd=False): self._kvstore = DBClient(kvstore_type, use_mock_etcd) self._data_source = retrieve_data_source(self._kvstore, data_source_name)
class RsaPsi(unittest.TestCase): def _setUpMySQL(self): self.kvstore_type = 'etcd' self.leader_base_dir = 'bytefl_l' self.follower_base_dir = 'bytefl_f' os.environ['ETCD_BASE_DIR'] = self.leader_base_dir self._kvstore_l = DBClient(self.kvstore_type, True) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir self._kvstore_f = DBClient(self.kvstore_type, True) def _setUpDataSource(self): self._data_source_name = 'test_data_source' self._kvstore_l.delete_prefix( common.data_source_kvstore_base_dir(self._data_source_name)) self._kvstore_f.delete_prefix( common.data_source_kvstore_base_dir(self._data_source_name)) self._data_source_l = common_pb.DataSource() self._data_source_l.role = common_pb.FLRole.Leader self._data_source_l.state = common_pb.DataSourceState.Init self._data_source_l.output_base_dir = "./ds_output_l" self._raw_data_dir_l = "./raw_data_l" self._data_source_l.raw_data_sub_dir = "./raw_data_sub_dir_l" self._data_source_f = common_pb.DataSource() self._data_source_f.role = common_pb.FLRole.Follower self._data_source_f.state = common_pb.DataSourceState.Init self._data_source_f.output_base_dir = "./ds_output_f" self._raw_data_dir_f = "./raw_data_f" self._data_source_f.raw_data_sub_dir = "./raw_data_sub_dir_f" data_source_meta = common_pb.DataSourceMeta() data_source_meta.name = self._data_source_name data_source_meta.partition_num = 4 data_source_meta.start_time = 0 data_source_meta.end_time = 100000000 self._data_source_l.data_source_meta.MergeFrom(data_source_meta) self._data_source_f.data_source_meta.MergeFrom(data_source_meta) common.commit_data_source(self._kvstore_l, self._data_source_l) common.commit_data_source(self._kvstore_f, self._data_source_f) def _generate_input_csv(self, cands, base_dir): if not gfile.Exists(base_dir): gfile.MakeDirs(base_dir) fpaths = [] random.shuffle(cands) csv_writers = [] partition_num = self._data_source_l.data_source_meta.partition_num for partition_id in range(partition_num): fpath = os.path.join(base_dir, str(partition_id) + common.RawDataFileSuffix) fpaths.append(fpath) csv_writers.append(csv_dict_writer.CsvDictWriter(fpath)) for item in cands: partition_id = CityHash32(item) % partition_num raw = OrderedDict() raw['raw_id'] = item raw['feat_0'] = 'leader-' + str((partition_id << 30) + 0) + item raw['feat_1'] = 'leader-' + str((partition_id << 30) + 1) + item raw['feat_2'] = 'leader-' + str((partition_id << 30) + 2) + item csv_writers[partition_id].write(raw) for csv_writer in csv_writers: csv_writer.close() return fpaths def _generate_input_tf_record(self, cands, base_dir): if not gfile.Exists(base_dir): gfile.MakeDirs(base_dir) fpaths = [] random.shuffle(cands) tfr_writers = [] partition_num = self._data_source_l.data_source_meta.partition_num for partition_id in range(partition_num): fpath = os.path.join(base_dir, str(partition_id) + common.RawDataFileSuffix) fpaths.append(fpath) tfr_writers.append(tf.io.TFRecordWriter(fpath)) for item in cands: partition_id = CityHash32(item) % partition_num feat = {} feat['raw_id'] = tf.train.Feature(bytes_list=tf.train.BytesList( value=[item.encode()])) f0 = 'follower' + str((partition_id << 30) + 0) + item f1 = 'follower' + str((partition_id << 30) + 1) + item f2 = 'follower' + str((partition_id << 30) + 2) + item feat['feat_0'] = tf.train.Feature(bytes_list=tf.train.BytesList( value=[f0.encode()])) feat['feat_1'] = tf.train.Feature(bytes_list=tf.train.BytesList( value=[f1.encode()])) feat['feat_2'] = tf.train.Feature(bytes_list=tf.train.BytesList( value=[f2.encode()])) example = tf.train.Example(features=tf.train.Features( feature=feat)) tfr_writers[partition_id].write(example.SerializeToString()) for tfr_writer in tfr_writers: tfr_writer.close() return fpaths def _setUpRsaPsiConf(self): self._input_dir_l = './rsa_psi_raw_input_l' self._input_dir_f = './rsa_psi_raw_input_f' self._pre_processor_ouput_dir_l = './pre_processor_output_dir_l' self._pre_processor_ouput_dir_f = './pre_processor_output_dir_f' key_dir = path.join(path.dirname(path.abspath(__file__)), '../rsa_key') self._rsa_public_key_path = path.join(key_dir, 'rsa_psi.pub') self._rsa_private_key_path = path.join(key_dir, 'rsa_psi') self._raw_data_pub_dir_l = self._data_source_l.raw_data_sub_dir self._raw_data_pub_dir_f = self._data_source_f.raw_data_sub_dir def _gen_psi_input_raw_data(self): self._intersection_ids = set( ['{:09}'.format(i) for i in range(0, 1 << 16) if i % 3 == 0]) self._rsa_raw_id_l = set([ '{:09}'.format(i) for i in range(0, 1 << 16) if i % 2 == 0 ]) | self._intersection_ids self._rsa_raw_id_f = set([ '{:09}'.format(i) for i in range(0, 1 << 16) if i % 2 == 1 ]) | self._intersection_ids self._input_dir_l = './rsa_psi_raw_input_l' self._input_dir_f = './rsa_psi_raw_input_f' self._psi_raw_data_fpaths_l = self._generate_input_csv( list(self._rsa_raw_id_l), self._input_dir_l) self._psi_raw_data_fpaths_f = self._generate_input_tf_record( list(self._rsa_raw_id_f), self._input_dir_f) def _remove_existed_dir(self): if gfile.Exists(self._input_dir_l): gfile.DeleteRecursively(self._input_dir_l) if gfile.Exists(self._input_dir_f): gfile.DeleteRecursively(self._input_dir_f) if gfile.Exists(self._pre_processor_ouput_dir_l): gfile.DeleteRecursively(self._pre_processor_ouput_dir_l) if gfile.Exists(self._pre_processor_ouput_dir_f): gfile.DeleteRecursively(self._pre_processor_ouput_dir_f) if gfile.Exists(self._data_source_l.output_base_dir): gfile.DeleteRecursively(self._data_source_l.output_base_dir) if gfile.Exists(self._raw_data_dir_l): gfile.DeleteRecursively(self._raw_data_dir_l) if gfile.Exists(self._data_source_f.output_base_dir): gfile.DeleteRecursively(self._data_source_f.output_base_dir) if gfile.Exists(self._raw_data_dir_f): gfile.DeleteRecursively(self._raw_data_dir_f) def _launch_masters(self): self._master_addr_l = 'localhost:4061' self._master_addr_f = 'localhost:4062' master_options = dj_pb.DataJoinMasterOptions(use_mock_etcd=True) os.environ['ETCD_BASE_DIR'] = self.leader_base_dir self._master_l = data_join_master.DataJoinMasterService( int(self._master_addr_l.split(':')[1]), self._master_addr_f, self._data_source_name, self.kvstore_type, master_options) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir self._master_f = data_join_master.DataJoinMasterService( int(self._master_addr_f.split(':')[1]), self._master_addr_l, self._data_source_name, self.kvstore_type, master_options) self._master_f.start() self._master_l.start() channel_l = make_insecure_channel(self._master_addr_l, ChannelType.INTERNAL) self._master_client_l = dj_grpc.DataJoinMasterServiceStub(channel_l) channel_f = make_insecure_channel(self._master_addr_f, ChannelType.INTERNAL) self._master_client_f = dj_grpc.DataJoinMasterServiceStub(channel_f) while True: req_l = dj_pb.DataSourceRequest( data_source_meta=self._data_source_l.data_source_meta) req_f = dj_pb.DataSourceRequest( data_source_meta=self._data_source_f.data_source_meta) dss_l = self._master_client_l.GetDataSourceStatus(req_l) dss_f = self._master_client_f.GetDataSourceStatus(req_f) self.assertEqual(dss_l.role, common_pb.FLRole.Leader) self.assertEqual(dss_f.role, common_pb.FLRole.Follower) if dss_l.state == common_pb.DataSourceState.Processing and \ dss_f.state == common_pb.DataSourceState.Processing: break else: time.sleep(2) logging.info("masters turn into Processing state") def _launch_workers(self): worker_options_l = dj_pb.DataJoinWorkerOptions( use_mock_etcd=True, raw_data_options=dj_pb.RawDataOptions(raw_data_iter='TF_RECORD', read_ahead_size=1 << 20, read_batch_size=128), example_id_dump_options=dj_pb.ExampleIdDumpOptions( example_id_dump_interval=1, example_id_dump_threshold=1024), example_joiner_options=dj_pb.ExampleJoinerOptions( example_joiner='SORT_RUN_JOINER', min_matching_window=64, max_matching_window=256, data_block_dump_interval=30, data_block_dump_threshold=1000), batch_processor_options=dj_pb.BatchProcessorOptions( batch_size=1024, max_flying_item=4096), data_block_builder_options=dj_pb.WriterOptions( output_writer='CSV_DICT')) worker_options_f = dj_pb.DataJoinWorkerOptions( use_mock_etcd=True, raw_data_options=dj_pb.RawDataOptions(raw_data_iter='CSV_DICT', read_ahead_size=1 << 20, read_batch_size=128), example_id_dump_options=dj_pb.ExampleIdDumpOptions( example_id_dump_interval=1, example_id_dump_threshold=1024), example_joiner_options=dj_pb.ExampleJoinerOptions( example_joiner='SORT_RUN_JOINER', min_matching_window=64, max_matching_window=256, data_block_dump_interval=30, data_block_dump_threshold=1000), batch_processor_options=dj_pb.BatchProcessorOptions( batch_size=1024, max_flying_item=4096), data_block_builder_options=dj_pb.WriterOptions( output_writer='TF_RECORD')) self._worker_addrs_l = [ 'localhost:4161', 'localhost:4162', 'localhost:4163', 'localhost:4164' ] self._worker_addrs_f = [ 'localhost:5161', 'localhost:5162', 'localhost:5163', 'localhost:5164' ] self._workers_l = [] self._workers_f = [] for rank_id in range(4): worker_addr_l = self._worker_addrs_l[rank_id] worker_addr_f = self._worker_addrs_f[rank_id] os.environ['ETCD_BASE_DIR'] = self.leader_base_dir self._workers_l.append( data_join_worker.DataJoinWorkerService( int(worker_addr_l.split(':')[1]), worker_addr_f, self._master_addr_l, rank_id, self.kvstore_type, worker_options_l)) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir self._workers_f.append( data_join_worker.DataJoinWorkerService( int(worker_addr_f.split(':')[1]), worker_addr_l, self._master_addr_f, rank_id, self.kvstore_type, worker_options_f)) for w in self._workers_l: w.start() for w in self._workers_f: w.start() def _launch_rsa_psi_signer(self): self._rsa_psi_signer_addr = 'localhost:6171' rsa_private_key_pem = None with gfile.GFile(self._rsa_private_key_path, 'rb') as f: rsa_private_key_pem = f.read() rsa_private_key = rsa.PrivateKey.load_pkcs1(rsa_private_key_pem) self._rsa_psi_signer = rsa_psi_signer.RsaPsiSigner( rsa_private_key, 1, 500) self._rsa_psi_signer.start( int(self._rsa_psi_signer_addr.split(':')[1]), 512) def _stop_workers(self): for w in self._workers_f: w.stop() for w in self._workers_l: w.stop() def _stop_masters(self): self._master_f.stop() self._master_l.stop() def _stop_rsa_psi_signer(self): self._rsa_psi_signer.stop() def setUp(self): self._setUpMySQL() self._setUpDataSource() self._setUpRsaPsiConf() self._remove_existed_dir() self._gen_psi_input_raw_data() self._launch_masters() self._launch_workers() self._launch_rsa_psi_signer() def _preprocess_rsa_psi_leader(self): processors = [] rsa_key_pem = None with gfile.GFile(self._rsa_private_key_path, 'rb') as f: rsa_key_pem = f.read() for partition_id in range( self._data_source_l.data_source_meta.partition_num): options = dj_pb.RsaPsiPreProcessorOptions( preprocessor_name='leader-rsa-psi-processor', role=common_pb.FLRole.Leader, rsa_key_pem=rsa_key_pem, input_file_paths=[self._psi_raw_data_fpaths_l[partition_id]], output_file_dir=self._pre_processor_ouput_dir_l, raw_data_publish_dir=self._raw_data_pub_dir_l, partition_id=partition_id, offload_processor_number=1, max_flying_sign_batch=128, stub_fanout=2, slow_sign_threshold=8, sort_run_merger_read_ahead_buffer=1 << 20, sort_run_merger_read_batch_size=128, batch_processor_options=dj_pb.BatchProcessorOptions( batch_size=1024, max_flying_item=1 << 14), input_raw_data=dj_pb.RawDataOptions(raw_data_iter='CSV_DICT', read_ahead_size=1 << 20), writer_options=dj_pb.WriterOptions(output_writer='TF_RECORD')) os.environ['ETCD_BASE_DIR'] = self.leader_base_dir processor = rsa_psi_preprocessor.RsaPsiPreProcessor( options, self.kvstore_type, True) processor.start_process() processors.append(processor) for processor in processors: processor.wait_for_finished() def _preprocess_rsa_psi_follower(self): processors = [] rsa_key_pem = None with gfile.GFile(self._rsa_public_key_path, 'rb') as f: rsa_key_pem = f.read() self._follower_rsa_psi_sub_dir = 'follower_rsa_psi_sub_dir' rd_publisher = raw_data_publisher.RawDataPublisher( self._kvstore_f, self._follower_rsa_psi_sub_dir) for partition_id in range( self._data_source_f.data_source_meta.partition_num): rd_publisher.publish_raw_data( partition_id, [self._psi_raw_data_fpaths_f[partition_id]]) rd_publisher.finish_raw_data(partition_id) options = dj_pb.RsaPsiPreProcessorOptions( preprocessor_name='follower-rsa-psi-processor', role=common_pb.FLRole.Follower, rsa_key_pem=rsa_key_pem, input_file_subscribe_dir=self._follower_rsa_psi_sub_dir, output_file_dir=self._pre_processor_ouput_dir_f, raw_data_publish_dir=self._raw_data_pub_dir_f, partition_id=partition_id, leader_rsa_psi_signer_addr=self._rsa_psi_signer_addr, offload_processor_number=1, max_flying_sign_batch=128, max_flying_sign_rpc=64, sign_rpc_timeout_ms=100000, stub_fanout=2, slow_sign_threshold=8, sort_run_merger_read_ahead_buffer=1 << 20, sort_run_merger_read_batch_size=128, batch_processor_options=dj_pb.BatchProcessorOptions( batch_size=1024, max_flying_item=1 << 14), input_raw_data=dj_pb.RawDataOptions(raw_data_iter='TF_RECORD', read_ahead_size=1 << 20), writer_options=dj_pb.WriterOptions(output_writer='CSV_DICT')) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir processor = rsa_psi_preprocessor.RsaPsiPreProcessor( options, self.kvstore_type, True) processor.start_process() processors.append(processor) for processor in processors: processor.wait_for_finished() def test_all_pipeline(self): start_tm = time.time() self._preprocess_rsa_psi_follower() logging.warning("Follower Preprocess cost %d seconds", time.time() - start_tm) start_tm = time.time() self._preprocess_rsa_psi_leader() logging.warning("Leader Preprocess cost %f seconds", time.time() - start_tm) while True: req_l = dj_pb.DataSourceRequest( data_source_meta=self._data_source_l.data_source_meta) req_f = dj_pb.DataSourceRequest( data_source_meta=self._data_source_f.data_source_meta) dss_l = self._master_client_l.GetDataSourceStatus(req_l) dss_f = self._master_client_f.GetDataSourceStatus(req_f) self.assertEqual(dss_l.role, common_pb.FLRole.Leader) self.assertEqual(dss_f.role, common_pb.FLRole.Follower) if dss_l.state == common_pb.DataSourceState.Finished and \ dss_f.state == common_pb.DataSourceState.Finished: break else: time.sleep(2) logging.info("masters turn into Finished state") def tearDown(self): self._stop_workers() self._stop_masters() self._stop_rsa_psi_signer() self._remove_existed_dir()
import etcd3 from fedlearner.common.db_client import DBClient from fedlearner.common.db_client import get_kvstore_config MySQL_client = DBClient('mysql') database, addr, username, password, base_dir = \ get_kvstore_config('etcd') (host, port) = addr.split(':') options = [('grpc.max_send_message_length', 2**31 - 1), ('grpc.max_receive_message_length', 2**31 - 1)] clnt = etcd3.client(host=host, port=port, grpc_options=options) for (data, key) in clnt.get_prefix('/', sort_order='ascend'): if not isinstance(key.key, str): key = key.key.decoder() if not isinstance(data, str): data = data.decoder() MySQL_client.set_data(key, data)
def test_api(self): logging.getLogger().setLevel(logging.DEBUG) kvstore_type = 'etcd' db_base_dir = 'dp_test' os.environ['ETCD_BASE_DIR'] = db_base_dir data_portal_name = 'test_data_source' kvstore = DBClient(kvstore_type, True) kvstore.delete_prefix(db_base_dir) portal_input_base_dir = './portal_upload_dir' portal_output_base_dir = './portal_output_dir' raw_data_publish_dir = 'raw_data_publish_dir' portal_manifest = dp_pb.DataPortalManifest( name=data_portal_name, data_portal_type=dp_pb.DataPortalType.Streaming, output_partition_num=4, input_file_wildcard="*.done", input_base_dir=portal_input_base_dir, output_base_dir=portal_output_base_dir, raw_data_publish_dir=raw_data_publish_dir, processing_job_id=-1, next_job_id=0) kvstore.set_data(common.portal_kvstore_base_dir(data_portal_name), text_format.MessageToString(portal_manifest)) if gfile.Exists(portal_input_base_dir): gfile.DeleteRecursively(portal_input_base_dir) gfile.MakeDirs(portal_input_base_dir) all_fnames = ['1001/{}.done'.format(i) for i in range(100)] all_fnames.append('{}.xx'.format(100)) all_fnames.append('1001/_SUCCESS') for fname in all_fnames: fpath = os.path.join(portal_input_base_dir, fname) gfile.MakeDirs(os.path.dirname(fpath)) with gfile.Open(fpath, "w") as f: f.write('xxx') portal_master_addr = 'localhost:4061' portal_options = dp_pb.DataPotraMasterlOptions( use_mock_etcd=True, long_running=False, check_success_tag=True, ) data_portal_master = DataPortalMasterService( int(portal_master_addr.split(':')[1]), data_portal_name, kvstore_type, portal_options) data_portal_master.start() channel = make_insecure_channel(portal_master_addr, ChannelType.INTERNAL) portal_master_cli = dp_grpc.DataPortalMasterServiceStub(channel) recv_manifest = portal_master_cli.GetDataPortalManifest( empty_pb2.Empty()) self.assertEqual(recv_manifest.name, portal_manifest.name) self.assertEqual(recv_manifest.data_portal_type, portal_manifest.data_portal_type) self.assertEqual(recv_manifest.output_partition_num, portal_manifest.output_partition_num) self.assertEqual(recv_manifest.input_file_wildcard, portal_manifest.input_file_wildcard) self.assertEqual(recv_manifest.input_base_dir, portal_manifest.input_base_dir) self.assertEqual(recv_manifest.output_base_dir, portal_manifest.output_base_dir) self.assertEqual(recv_manifest.raw_data_publish_dir, portal_manifest.raw_data_publish_dir) self.assertEqual(recv_manifest.next_job_id, 1) self.assertEqual(recv_manifest.processing_job_id, 0) self._check_portal_job(kvstore, all_fnames, portal_manifest, 0) mapped_partition = set() task_0 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=0)) task_0_1 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=0)) self.assertEqual(task_0, task_0_1) self.assertTrue(task_0.HasField('map_task')) mapped_partition.add(task_0.map_task.partition_id) self._check_map_task(task_0.map_task, all_fnames, task_0.map_task.partition_id, portal_manifest) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest(rank_id=0, partition_id=task_0.map_task.partition_id, part_state=dp_pb.PartState.kIdMap)) task_1 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=0)) self.assertTrue(task_1.HasField('map_task')) mapped_partition.add(task_1.map_task.partition_id) self._check_map_task(task_1.map_task, all_fnames, task_1.map_task.partition_id, portal_manifest) task_2 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=1)) self.assertTrue(task_2.HasField('map_task')) mapped_partition.add(task_2.map_task.partition_id) self._check_map_task(task_2.map_task, all_fnames, task_2.map_task.partition_id, portal_manifest) task_3 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=2)) self.assertTrue(task_3.HasField('map_task')) mapped_partition.add(task_3.map_task.partition_id) self._check_map_task(task_3.map_task, all_fnames, task_3.map_task.partition_id, portal_manifest) self.assertEqual(len(mapped_partition), portal_manifest.output_partition_num) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest(rank_id=0, partition_id=task_1.map_task.partition_id, part_state=dp_pb.PartState.kIdMap)) pending_1 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=4)) self.assertTrue(pending_1.HasField('pending')) pending_2 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=3)) self.assertTrue(pending_2.HasField('pending')) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest(rank_id=1, partition_id=task_2.map_task.partition_id, part_state=dp_pb.PartState.kIdMap)) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest(rank_id=2, partition_id=task_3.map_task.partition_id, part_state=dp_pb.PartState.kIdMap)) reduce_partition = set() task_4 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=0)) task_4_1 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=0)) self.assertEqual(task_4, task_4_1) self.assertTrue(task_4.HasField('reduce_task')) reduce_partition.add(task_4.reduce_task.partition_id) self._check_reduce_task(task_4.reduce_task, task_4.reduce_task.partition_id, portal_manifest) task_5 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=1)) self.assertTrue(task_5.HasField('reduce_task')) reduce_partition.add(task_5.reduce_task.partition_id) self._check_reduce_task(task_5.reduce_task, task_5.reduce_task.partition_id, portal_manifest) task_6 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=2)) self.assertTrue(task_6.HasField('reduce_task')) reduce_partition.add(task_6.reduce_task.partition_id) self._check_reduce_task(task_6.reduce_task, task_6.reduce_task.partition_id, portal_manifest) task_7 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=3)) self.assertTrue(task_7.HasField('reduce_task')) reduce_partition.add(task_7.reduce_task.partition_id) self.assertEqual(len(reduce_partition), 4) self._check_reduce_task(task_7.reduce_task, task_7.reduce_task.partition_id, portal_manifest) task_8 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=5)) self.assertTrue(task_8.HasField('pending')) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest( rank_id=0, partition_id=task_4.reduce_task.partition_id, part_state=dp_pb.PartState.kEventTimeReduce)) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest( rank_id=1, partition_id=task_5.reduce_task.partition_id, part_state=dp_pb.PartState.kEventTimeReduce)) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest( rank_id=2, partition_id=task_6.reduce_task.partition_id, part_state=dp_pb.PartState.kEventTimeReduce)) portal_master_cli.FinishTask( dp_pb.FinishTaskRequest( rank_id=3, partition_id=task_7.reduce_task.partition_id, part_state=dp_pb.PartState.kEventTimeReduce)) task_9 = portal_master_cli.RequestNewTask( dp_pb.NewTaskRequest(rank_id=5)) self.assertTrue(task_9.HasField('finished')) data_portal_master.stop() gfile.DeleteRecursively(portal_input_base_dir)
def setUp(self): self.kvstore_type = 'etcd' self.leader_base_dir = 'bytefl_l' self.follower_base_dir = 'bytefl_f' data_source_name = 'test_data_source' os.environ['ETCD_BASE_DIR'] = self.leader_base_dir kvstore_l = DBClient(self.kvstore_type, True) os.environ['ETCD_BASE_DIR'] = self.follower_base_dir kvstore_f = DBClient(self.kvstore_type, True) kvstore_l.delete_prefix( common.data_source_kvstore_base_dir(data_source_name)) kvstore_f.delete_prefix( common.data_source_kvstore_base_dir(data_source_name)) data_source_l = common_pb.DataSource() self.raw_data_pub_dir_l = './raw_data_pub_dir_l' data_source_l.raw_data_sub_dir = self.raw_data_pub_dir_l data_source_l.role = common_pb.FLRole.Leader data_source_l.state = common_pb.DataSourceState.Init data_source_l.output_base_dir = "./ds_output_l" self.raw_data_dir_l = "./raw_data_l" data_source_f = common_pb.DataSource() self.raw_data_pub_dir_f = './raw_data_pub_dir_f' data_source_f.role = common_pb.FLRole.Follower data_source_f.raw_data_sub_dir = self.raw_data_pub_dir_f data_source_f.state = common_pb.DataSourceState.Init data_source_f.output_base_dir = "./ds_output_f" self.raw_data_dir_f = "./raw_data_f" data_source_meta = common_pb.DataSourceMeta() data_source_meta.name = data_source_name data_source_meta.partition_num = 2 data_source_meta.start_time = 0 data_source_meta.end_time = 100000000 data_source_l.data_source_meta.MergeFrom(data_source_meta) common.commit_data_source(kvstore_l, data_source_l) data_source_f.data_source_meta.MergeFrom(data_source_meta) common.commit_data_source(kvstore_f, data_source_f) self.kvstore_l = kvstore_l self.kvstore_f = kvstore_f self.data_source_l = data_source_l self.data_source_f = data_source_f self.data_source_name = data_source_name self.raw_data_publisher_l = raw_data_publisher.RawDataPublisher( self.kvstore_l, self.raw_data_pub_dir_l) self.raw_data_publisher_f = raw_data_publisher.RawDataPublisher( self.kvstore_f, self.raw_data_pub_dir_f) if gfile.Exists(data_source_l.output_base_dir): gfile.DeleteRecursively(data_source_l.output_base_dir) if gfile.Exists(self.raw_data_dir_l): gfile.DeleteRecursively(self.raw_data_dir_l) if gfile.Exists(data_source_f.output_base_dir): gfile.DeleteRecursively(data_source_f.output_base_dir) if gfile.Exists(self.raw_data_dir_f): gfile.DeleteRecursively(self.raw_data_dir_f) self.worker_options = dj_pb.DataJoinWorkerOptions( use_mock_etcd=True, raw_data_options=dj_pb.RawDataOptions(raw_data_iter='TF_RECORD', read_ahead_size=1 << 20, read_batch_size=128, optional_fields=['label']), example_id_dump_options=dj_pb.ExampleIdDumpOptions( example_id_dump_interval=1, example_id_dump_threshold=1024), example_joiner_options=dj_pb.ExampleJoinerOptions( example_joiner='STREAM_JOINER', min_matching_window=64, max_matching_window=256, data_block_dump_interval=30, data_block_dump_threshold=1000), batch_processor_options=dj_pb.BatchProcessorOptions( batch_size=512, max_flying_item=2048), data_block_builder_options=dj_pb.WriterOptions( output_writer='TF_RECORD')) self.total_index = 1 << 12