# Owner(s): ["oncall: distributed"] import json import logging import re import sys from functools import partial, wraps import torch import torch.distributed as dist from torch.distributed.c10d_logger import _c10d_logger, _exception_logger if not dist.is_available(): print("Distributed not available, skipping tests", file=sys.stderr) sys.exit(0) from torch.testing._internal.common_distributed import DistributedTestBase, TEST_SKIPS from torch.testing._internal.common_fsdp import get_devtype from torch.testing._internal.common_utils import run_tests, TEST_WITH_DEV_DBG_ASAN device_type = str(get_devtype()) if TEST_WITH_DEV_DBG_ASAN: print( "Skip dev-asan as torch + multiprocessing spawn have known issues", file=sys.stderr, ) sys.exit(0) WORLD_SIZE = min(4, max(2, torch.get_device_module(device_type).device_count())) def with_comms(func=None): if func is None: return partial( with_comms, ) @wraps(func) def wrapper(self, *args, **kwargs): if torch.get_device_module(device_type).device_count() < self.world_size: sys.exit(TEST_SKIPS[f"multi-gpu-{self.world_size}"].exit_code) self.create_pg(device_type) func(self) self.destroy_comms() return wrapper class C10dErrorLoggerTest(DistributedTestBase): @property def world_size(self): return WORLD_SIZE @property def process_group(self): return dist.group.WORLD def destroy_comms(self): # Wait for all ranks to reach here before starting shutdown. dist.barrier() dist.destroy_process_group() def test_get_or_create_logger(self): self.assertIsNotNone(_c10d_logger) self.assertEqual(1, len(_c10d_logger.handlers)) self.assertIsInstance(_c10d_logger.handlers[0], logging.NullHandler) @_exception_logger def _failed_broadcast_raise_exception(self): tensor = torch.arange(2, dtype=torch.int64) dist.broadcast(tensor, self.world_size + 1) @_exception_logger def _failed_broadcast_not_raise_exception(self): try: tensor = torch.arange(2, dtype=torch.int64) dist.broadcast(tensor, self.world_size + 1) except Exception: pass @with_comms def test_exception_logger(self) -> None: with self.assertRaises(Exception): self._failed_broadcast_raise_exception() with self.assertLogs(_c10d_logger, level="DEBUG") as captured: self._failed_broadcast_not_raise_exception() error_msg_dict = json.loads( re.search("({.+})", captured.output[0]).group(0).replace("'", '"') ) # NCCL adds additional nccl_version data to the error_msg_dict if self.backend(device_type) == dist.Backend.NCCL: self.assertEqual(len(error_msg_dict), 9) else: self.assertEqual(len(error_msg_dict), 8) self.assertIn("pg_name", error_msg_dict.keys()) self.assertEqual("None", error_msg_dict["pg_name"]) self.assertIn("func_name", error_msg_dict.keys()) self.assertEqual("broadcast", error_msg_dict["func_name"]) self.assertIn("backend", error_msg_dict.keys()) self.assertEqual(self.backend(device_type), error_msg_dict["backend"]) if self.backend(device_type) == dist.Backend.NCCL: self.assertIn("nccl_version", error_msg_dict.keys()) nccl_ver = torch.cuda.nccl.version() self.assertEqual( ".".join(str(v) for v in nccl_ver), error_msg_dict["nccl_version"] ) # In this test case, group_size = world_size, since we don't have multiple processes on one node. self.assertIn("group_size", error_msg_dict.keys()) self.assertEqual(str(self.world_size), error_msg_dict["group_size"]) self.assertIn("world_size", error_msg_dict.keys()) self.assertEqual(str(self.world_size), error_msg_dict["world_size"]) self.assertIn("global_rank", error_msg_dict.keys()) self.assertIn(str(dist.get_rank()), error_msg_dict["global_rank"]) # In this test case, local_rank = global_rank, since we don't have multiple processes on one node. self.assertIn("local_rank", error_msg_dict.keys()) self.assertIn(str(dist.get_rank()), error_msg_dict["local_rank"]) if __name__ == "__main__": run_tests()