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619 lines
20 KiB
619 lines
20 KiB
import collections
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import dataclasses
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import io
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import os
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import pickle
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import queue
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import threading
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from abc import ABC, abstractmethod
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from contextlib import contextmanager
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from dataclasses import dataclass
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from pathlib import Path
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from typing import (
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Callable,
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cast,
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Dict,
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Generator,
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IO,
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Iterable,
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Iterator,
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List,
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Optional,
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Tuple,
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Union,
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)
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import torch
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from torch import Tensor
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from torch._utils import _get_available_device_type, _get_device_module
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from torch.distributed._shard._utils import narrow_tensor_by_index
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from torch.futures import Future
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from .metadata import Metadata, MetadataIndex
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from .planner import (
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LoadItemType,
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LoadPlan,
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LoadPlanner,
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ReadItem,
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SavePlan,
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SavePlanner,
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WriteItem,
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WriteItemType,
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)
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from .storage import StorageReader, StorageWriter, WriteResult
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from .utils import _create_file_view
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__all__ = ["FileSystemWriter", "FileSystemReader"]
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@dataclass
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class _StorageInfo:
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"""This is the per entry storage info."""
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relative_path: str
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offset: int
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length: int
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@dataclass
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class _StoragePrefix:
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prefix: str
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DEFAULT_SUFFIX = ".distcp"
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class _TensorLoader(ABC):
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@abstractmethod
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def add(self, size: int, obj: object) -> None:
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pass
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@abstractmethod
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def start_loading(self) -> None:
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pass
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@abstractmethod
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def values(self) -> Iterator[Tuple[torch.Tensor, object]]:
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pass
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class _SerialCpuLoader(_TensorLoader):
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def __init__(self, resolve_fun: Callable) -> None:
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self.resolve_fun = resolve_fun
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self.items: List[Tuple[int, object]] = []
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def add(self, size: int, obj: object) -> None:
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self.items.append((size, obj))
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def start_loading(self) -> None:
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pass
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def values(self) -> Iterator[Tuple[torch.Tensor, object]]:
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for _, obj in self.items:
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tensor = self.resolve_fun(obj).detach()
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tensor = tensor.cpu()
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if tensor.storage().size() != tensor.numel():
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tensor = tensor.clone()
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yield (
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tensor,
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obj,
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)
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class _OverlappingCpuLoader(_TensorLoader):
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def __init__(
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self,
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resolve_fun: Callable,
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stream: Optional[torch.Stream] = None,
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inflight_threshhold: int = 1_000_000,
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) -> None:
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self.resolve_fun = resolve_fun
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self.items: List[Tuple[int, object]] = []
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self.inflight_threshhold = inflight_threshhold
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self.in_flight_data = 0
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self.current_items: collections.deque = collections.deque()
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self.idx = 0
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self.started = False
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self.device_type = (
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stream.device_type if stream else _get_available_device_type()
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)
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self.device_module = _get_device_module(self.device_type)
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self.stream = cast(
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torch.cuda.Stream, stream or self.device_module.current_stream()
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)
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if self.stream != self.device_module.current_stream():
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self.stream.wait_stream(self.device_module.current_stream())
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@property
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def _done(self) -> bool:
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return self.idx >= len(self.items)
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def _drain(self) -> List[Tuple[torch.Tensor, object]]:
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drained = []
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if self.in_flight_data >= self.inflight_threshhold:
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self.stream.synchronize()
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while self.in_flight_data >= self.inflight_threshhold:
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val = self.current_items.popleft()
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self.in_flight_data -= val[0].numel() * val[0].element_size()
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drained.append(val)
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return drained
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def _refill(self) -> None:
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with self.device_module.stream(self.stream):
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while not self._done and self.in_flight_data < self.inflight_threshhold:
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_, obj = self.items[self.idx]
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self.idx += 1
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tensor = self.resolve_fun(obj).detach()
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if tensor.device.type == self.device_type:
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tensor = tensor.to(device="cpu", non_blocking=True)
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elif tensor.device == torch.device("cpu"):
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if (
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tensor.untyped_storage().size()
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!= tensor.numel() * tensor.itemsize
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):
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# this forces the tensor to be both contiguous and with minimal storage
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tensor = tensor.clone()
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self.current_items.append(
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(
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tensor,
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obj,
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)
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)
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self.in_flight_data += tensor.numel() * tensor.element_size()
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def _finish(self) -> Iterable[Tuple[torch.Tensor, object]]:
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assert self._done
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if len(self.current_items) > 0:
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self.stream.synchronize()
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return self.current_items
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def add(self, size: int, obj: object) -> None:
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if self.started:
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raise RuntimeError("cannot add items after loading started")
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self.items.append((size, obj))
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def start_loading(self) -> None:
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if self.started:
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return
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self.started = True
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self.items.sort(key=lambda x: x[0])
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self._refill()
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def values(self) -> Iterator[Tuple[torch.Tensor, object]]:
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self.start_loading()
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while not self._done:
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drained = self._drain()
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self._refill()
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yield from drained
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yield from self._finish()
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def _item_size(item: WriteItem) -> int:
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size = 1
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assert item.tensor_data is not None
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# can't use math.prod as PT needs to support older python
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for s in item.tensor_data.size:
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size *= s
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dtype = item.tensor_data.properties.dtype
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return size * torch._utils._element_size(dtype)
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def _split_by_size_and_type(bins: int, items: List[WriteItem]) -> List[List[WriteItem]]:
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if bins == 1:
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return [items]
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bytes_w = [wi for wi in items if wi.type == WriteItemType.BYTE_IO]
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tensor_w = [wi for wi in items if wi.type != WriteItemType.BYTE_IO]
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buckets: List[List[WriteItem]] = [[] for _ in range(bins)]
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bucket_sizes = [0 for _ in range(bins)]
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tensor_w.sort(key=_item_size, reverse=True)
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for i, wi in enumerate(bytes_w):
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buckets[i % bins].append(wi)
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for wi in tensor_w:
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# TODO replace with headq
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idx = min(enumerate(bucket_sizes), key=lambda x: x[1])[0]
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buckets[idx].append(wi)
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bucket_sizes[idx] += _item_size(wi)
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return buckets
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def _write_item(
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stream: io.IOBase,
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data: Union[io.BytesIO, torch.Tensor],
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write_item: WriteItem,
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storage_key: str,
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) -> WriteResult:
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offset = stream.tell()
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if write_item.type == WriteItemType.BYTE_IO:
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assert isinstance(data, io.BytesIO)
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stream.write(data.getbuffer())
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else:
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assert isinstance(data, torch.Tensor)
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assert data.device == torch.device("cpu")
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torch.save(data, cast(IO[bytes], stream))
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length = stream.tell() - offset
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return WriteResult(
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index=write_item.index,
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size_in_bytes=length,
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storage_data=_StorageInfo(storage_key, offset, length),
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)
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def _write_files_from_queue(
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create_stream: Callable,
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file_queue: queue.Queue,
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result_queue: queue.Queue,
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planner: SavePlanner,
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inflight_threshhold: int,
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use_fsync: bool,
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thread_count: int,
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) -> None:
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try:
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while True:
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file_name, storage_key, write_items = file_queue.get_nowait()
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loader: _TensorLoader
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custom_backend_name = torch._C._get_privateuse1_backend_name()
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custom_device_mod = getattr(torch, custom_backend_name, None)
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# TODO: Using the OverlappingCpuLoader with multiple threads creates significant
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# performance degredation, observed as being related to cuda stream syncs. We
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# should try to fix this and use _OverlappingCpuLoader for all threaded cases
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if (
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thread_count == 1
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and (
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torch.cuda.is_available()
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or (custom_device_mod and custom_device_mod.is_available())
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)
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and inflight_threshhold > 0
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):
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loader = _OverlappingCpuLoader(
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planner.resolve_data,
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inflight_threshhold=inflight_threshhold,
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)
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else:
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loader = _SerialCpuLoader(
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planner.resolve_data,
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)
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tensor_w = [wi for wi in write_items if wi.type != WriteItemType.BYTE_IO]
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for write_item in tensor_w:
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loader.add(_item_size(write_item), write_item)
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loader.start_loading()
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bytes_w = [wi for wi in write_items if wi.type == WriteItemType.BYTE_IO]
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write_results = []
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with create_stream(file_name, "wb") as stream:
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for write_item in bytes_w:
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data = planner.resolve_data(write_item)
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write_results.append(
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_write_item(stream, data, write_item, storage_key)
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)
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for tensor, write_item in loader.values():
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assert tensor.is_cpu
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write_results.append(
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_write_item(stream, tensor, write_item, storage_key)
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)
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if use_fsync:
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try:
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os.fsync(stream.fileno())
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except AttributeError:
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os.sync()
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result_queue.put(write_results)
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except queue.Empty:
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pass
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class FileSystemBase(ABC):
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@contextmanager
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@abstractmethod
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def create_stream(
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self, path: Union[str, os.PathLike], mode: str
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) -> Generator[io.IOBase, None, None]:
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...
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@abstractmethod
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def concat_path(
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self, path: Union[str, os.PathLike], suffix: str
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) -> Union[str, os.PathLike]:
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...
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@abstractmethod
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def rename(
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self, path: Union[str, os.PathLike], new_path: Union[str, os.PathLike]
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) -> None:
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...
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@abstractmethod
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def init_path(self, path: Union[str, os.PathLike]) -> Union[str, os.PathLike]:
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...
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@abstractmethod
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def mkdir(self, path: Union[str, os.PathLike]) -> None:
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...
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|
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@classmethod
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@abstractmethod
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def validate_checkpoint_id(cls, checkpoint_id: Union[str, os.PathLike]) -> bool:
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...
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|
|
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class FileSystem(FileSystemBase):
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@contextmanager
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def create_stream(
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self, path: Union[str, os.PathLike], mode: str
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) -> Generator[io.IOBase, None, None]:
|
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with cast(Path, path).open(mode) as stream:
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yield cast(io.IOBase, stream)
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def concat_path(
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self, path: Union[str, os.PathLike], suffix: str
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) -> Union[str, os.PathLike]:
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return cast(Path, path) / suffix
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def init_path(self, path: Union[str, os.PathLike]) -> Union[str, os.PathLike]:
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if not isinstance(path, Path):
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path = Path(path)
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return path
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|
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def rename(
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self, path: Union[str, os.PathLike], new_path: Union[str, os.PathLike]
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) -> None:
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cast(Path, path).rename(cast(Path, new_path))
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def mkdir(self, path: Union[str, os.PathLike]) -> None:
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cast(Path, path).mkdir(parents=True, exist_ok=True)
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@classmethod
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def validate_checkpoint_id(cls, checkpoint_id: Union[str, os.PathLike]) -> bool:
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if isinstance(checkpoint_id, Path):
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return True
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|
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if "://" in str(checkpoint_id):
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return False
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for p in Path(checkpoint_id).parents:
|
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if p.exists() and os.access(str(p), os.W_OK):
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return True
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return False
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|
|
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class FileSystemWriter(StorageWriter):
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"""
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Basic implementation of StorageWriter using file IO.
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This implementation makes the following assumptions and simplifications:
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* The checkpoint path is an empty or non-existing directory.
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* File creation is atomic
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The checkpoint consist of one file per write request plus
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a `.metadata` file with the serialized metadata.
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"""
|
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|
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def __init__(
|
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self,
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path: Union[str, os.PathLike],
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single_file_per_rank: bool = True,
|
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sync_files: bool = True,
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thread_count: int = 1,
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per_thread_copy_ahead: int = 10_000_000,
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) -> None:
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"""
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Initialize the writer pointing to `path`.
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|
Args:
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path: directory where the checkpoint will be written to.
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single_file_per_rank: Produce one file per rank instead of one file per tensor/blob. Default to True.
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sync_files : force files to be synced to permanent storage. Default to True.
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thread_count: Number of IO threads to use to write. Default to 1.
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per_thread_copy_ahead: How many bytes to copy from the GPU ahead of saving then. Default 10Mb.
|
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|
|
N. B. If sync_files is disabled, there's no guarantee that the checkpoint will be consistent in the case of a failure.
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"""
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super().__init__()
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self.fs = FileSystem()
|
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self.path = self.fs.init_path(path)
|
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self.single_file_per_rank = single_file_per_rank
|
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self.sync_files = sync_files
|
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self.thread_count = thread_count
|
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self.per_thread_copy_ahead = per_thread_copy_ahead
|
|
|
|
def reset(self, checkpoint_id: Union[str, os.PathLike, None] = None) -> None:
|
|
if checkpoint_id:
|
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self.path = self.fs.init_path(checkpoint_id)
|
|
|
|
def set_up_storage_writer(self, is_coordinator: bool) -> None:
|
|
pass
|
|
|
|
def prepare_local_plan(self, plan: SavePlan) -> SavePlan:
|
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self.fs.mkdir(self.path)
|
|
return plan
|
|
|
|
def prepare_global_plan(self, global_plan: List[SavePlan]) -> List[SavePlan]:
|
|
new_plans = [
|
|
dataclasses.replace(plan, storage_data=_StoragePrefix(f"__{i}_"))
|
|
for i, plan in enumerate(global_plan)
|
|
]
|
|
return new_plans
|
|
|
|
def write_data(
|
|
self,
|
|
plan: SavePlan,
|
|
planner: SavePlanner,
|
|
) -> Future[List[WriteResult]]:
|
|
storage_plan: _StoragePrefix = plan.storage_data
|
|
file_count = 0
|
|
|
|
def gen_file():
|
|
nonlocal file_count
|
|
file_name = f"{storage_plan.prefix}{file_count}{DEFAULT_SUFFIX}"
|
|
file_count += 1
|
|
return file_name
|
|
|
|
file_queue: queue.Queue = queue.Queue()
|
|
if self.single_file_per_rank:
|
|
for bucket in _split_by_size_and_type(self.thread_count, plan.items):
|
|
file_name = gen_file()
|
|
path = self.fs.concat_path(self.path, file_name)
|
|
file_queue.put((path, file_name, bucket))
|
|
else:
|
|
for item in plan.items:
|
|
file_name = gen_file()
|
|
path = self.fs.concat_path(self.path, file_name)
|
|
file_queue.put((path, file_name, [item]))
|
|
|
|
result_queue: queue.Queue = queue.Queue()
|
|
|
|
threads = []
|
|
for _ in range(1, self.thread_count):
|
|
t = threading.Thread(
|
|
target=_write_files_from_queue,
|
|
args=(
|
|
self.fs.create_stream,
|
|
file_queue,
|
|
result_queue,
|
|
planner,
|
|
self.per_thread_copy_ahead,
|
|
self.sync_files,
|
|
self.thread_count,
|
|
),
|
|
)
|
|
t.start()
|
|
threads.append(t)
|
|
|
|
_write_files_from_queue(
|
|
create_stream=self.fs.create_stream,
|
|
file_queue=file_queue,
|
|
result_queue=result_queue,
|
|
planner=planner,
|
|
inflight_threshhold=self.per_thread_copy_ahead,
|
|
use_fsync=self.sync_files,
|
|
thread_count=self.thread_count,
|
|
)
|
|
|
|
for t in threads:
|
|
t.join()
|
|
|
|
res = []
|
|
try:
|
|
while True:
|
|
res += result_queue.get_nowait()
|
|
except queue.Empty:
|
|
pass
|
|
|
|
fut: Future[List[WriteResult]] = Future()
|
|
fut.set_result(res)
|
|
return fut
|
|
|
|
def finish(self, metadata: Metadata, results: List[List[WriteResult]]) -> None:
|
|
storage_md = dict()
|
|
for wr_list in results:
|
|
storage_md.update({wr.index: wr.storage_data for wr in wr_list})
|
|
metadata.storage_data = storage_md
|
|
tmp_path = cast(Path, self.fs.concat_path(self.path, ".metadata.tmp"))
|
|
meta_path = cast(Path, self.fs.concat_path(self.path, ".metadata"))
|
|
with self.fs.create_stream(tmp_path, "wb") as metadata_file:
|
|
pickle.dump(metadata, metadata_file)
|
|
if self.sync_files:
|
|
try:
|
|
os.fsync(metadata_file.fileno())
|
|
except AttributeError:
|
|
os.sync()
|
|
|
|
self.fs.rename(tmp_path, meta_path)
|
|
|
|
@classmethod
|
|
def validate_checkpoint_id(cls, checkpoint_id: Union[str, os.PathLike]) -> bool:
|
|
return FileSystem.validate_checkpoint_id(checkpoint_id)
|
|
|
|
|
|
class FileSystemReader(StorageReader):
|
|
def __init__(self, path: Union[str, os.PathLike]) -> None:
|
|
super().__init__()
|
|
self.fs = FileSystem()
|
|
self.path = self.fs.init_path(path)
|
|
self.storage_data: Dict[MetadataIndex, _StorageInfo] = dict()
|
|
|
|
def _slice_file(self, file, sinfo: _StorageInfo) -> io.IOBase:
|
|
return _create_file_view(file, sinfo.offset, sinfo.length)
|
|
|
|
def reset(self, checkpoint_id: Union[str, os.PathLike, None] = None) -> None:
|
|
self.storage_data = dict()
|
|
if checkpoint_id:
|
|
self.path = self.fs.init_path(checkpoint_id)
|
|
|
|
def read_data(self, plan: LoadPlan, planner: LoadPlanner) -> Future[None]:
|
|
# group requests by file
|
|
per_file: Dict[str, List[ReadItem]] = dict()
|
|
for read_item in plan.items:
|
|
item_md = self.storage_data[read_item.storage_index]
|
|
path = item_md.relative_path
|
|
per_file.setdefault(path, []).append(read_item)
|
|
|
|
for relative_path, reqs in per_file.items():
|
|
new_path = self.fs.concat_path(self.path, relative_path)
|
|
with self.fs.create_stream(new_path, "rb") as stream:
|
|
# TODO sort by offset and cache the reading
|
|
for req in reqs:
|
|
item_md = self.storage_data[req.storage_index]
|
|
file_slice = self._slice_file(stream, item_md)
|
|
if req.type == LoadItemType.BYTE_IO:
|
|
read_bytes = io.BytesIO(file_slice.read(item_md.length))
|
|
read_bytes.seek(0)
|
|
planner.load_bytes(req, read_bytes)
|
|
else:
|
|
tensor = cast(
|
|
Tensor,
|
|
torch.load(cast(IO[bytes], file_slice), map_location="cpu"),
|
|
)
|
|
tensor = narrow_tensor_by_index(
|
|
tensor, req.storage_offsets, req.lengths
|
|
)
|
|
target_tensor = planner.resolve_tensor(req).detach()
|
|
|
|
assert (
|
|
target_tensor.size() == tensor.size()
|
|
), f"req {req.storage_index} mismatch sizes {target_tensor.size()} vs {tensor.size()}"
|
|
target_tensor.copy_(tensor)
|
|
planner.commit_tensor(req, target_tensor)
|
|
|
|
fut: Future = Future()
|
|
fut.set_result(None)
|
|
return fut
|
|
|
|
# Implementing the abstract function in StorageReader
|
|
def read_metadata(self) -> Metadata:
|
|
path = self.fs.concat_path(self.path, ".metadata")
|
|
with self.fs.create_stream(path, "rb") as metadata_file:
|
|
return pickle.load(metadata_file)
|
|
|
|
def set_up_storage_reader(self, metadata: Metadata, is_coordinator: bool) -> None:
|
|
self.storage_data = metadata.storage_data
|
|
assert self.storage_data is not None
|
|
|
|
def prepare_local_plan(self, plan: LoadPlan) -> LoadPlan:
|
|
return plan
|
|
|
|
def prepare_global_plan(self, global_plan: List[LoadPlan]) -> List[LoadPlan]:
|
|
return global_plan
|
|
|
|
@classmethod
|
|
def validate_checkpoint_id(cls, checkpoint_id: Union[str, os.PathLike]) -> bool:
|
|
return FileSystem.validate_checkpoint_id(checkpoint_id)
|