""" Utilities for working with the local dataset cache. This file is adapted from the AllenNLP library at https://github.com/allenai/allennlp Copyright by the AllenNLP authors. """ import fnmatch import json import logging import os import sys import tempfile from contextlib import contextmanager from functools import partial, wraps from hashlib import sha256 from urllib.parse import urlparse import boto3 import requests from botocore.config import Config from botocore.exceptions import ClientError from filelock import FileLock from tqdm.auto import tqdm from . import __version__ logger = logging.getLogger(__name__) # pylint: disable=invalid-name try: os.environ.setdefault("USE_TORCH", "YES") if os.environ["USE_TORCH"].upper() in ("1", "ON", "YES"): import torch _torch_available = True # pylint: disable=invalid-name logger.info("PyTorch version {} available.".format(torch.__version__)) else: logger.info("USE_TORCH override through env variable, disabling PyTorch") _torch_available = False except ImportError: _torch_available = False # pylint: disable=invalid-name try: os.environ.setdefault("USE_TF", "YES") if os.environ["USE_TF"].upper() in ("1", "ON", "YES"): import tensorflow as tf assert hasattr(tf, "__version__") and int(tf.__version__[0]) >= 2 _tf_available = True # pylint: disable=invalid-name logger.info("TensorFlow version {} available.".format(tf.__version__)) else: logger.info("USE_TF override through env variable, disabling Tensorflow") _tf_available = False except (ImportError, AssertionError): _tf_available = False # pylint: disable=invalid-name try: from torch.hub import _get_torch_home torch_cache_home = _get_torch_home() except ImportError: torch_cache_home = os.path.expanduser( os.getenv("TORCH_HOME", os.path.join(os.getenv("XDG_CACHE_HOME", "~/.cache"), "torch")) ) default_cache_path = os.path.join(torch_cache_home, "transformers") try: from pathlib import Path PYTORCH_PRETRAINED_BERT_CACHE = Path( os.getenv("PYTORCH_TRANSFORMERS_CACHE", os.getenv("PYTORCH_PRETRAINED_BERT_CACHE", default_cache_path)) ) except (AttributeError, ImportError): PYTORCH_PRETRAINED_BERT_CACHE = os.getenv( "PYTORCH_TRANSFORMERS_CACHE", os.getenv("PYTORCH_PRETRAINED_BERT_CACHE", default_cache_path) ) PYTORCH_TRANSFORMERS_CACHE = PYTORCH_PRETRAINED_BERT_CACHE # Kept for backward compatibility TRANSFORMERS_CACHE = PYTORCH_PRETRAINED_BERT_CACHE # Kept for backward compatibility WEIGHTS_NAME = "pytorch_model.bin" TF2_WEIGHTS_NAME = "tf_model.h5" TF_WEIGHTS_NAME = "model.ckpt" CONFIG_NAME = "config.json" MODEL_CARD_NAME = "modelcard.json" DUMMY_INPUTS = [[7, 6, 0, 0, 1], [1, 2, 3, 0, 0], [0, 0, 0, 4, 5]] DUMMY_MASK = [[1, 1, 1, 1, 1], [1, 1, 1, 0, 0], [0, 0, 0, 1, 1]] S3_BUCKET_PREFIX = "https://s3.amazonaws.com/models.huggingface.co/bert" CLOUDFRONT_DISTRIB_PREFIX = "https://d2ws9o8vfrpkyk.cloudfront.net" def is_torch_available(): return _torch_available def is_tf_available(): return _tf_available def add_start_docstrings(*docstr): def docstring_decorator(fn): fn.__doc__ = "".join(docstr) + fn.__doc__ return fn return docstring_decorator def add_end_docstrings(*docstr): def docstring_decorator(fn): fn.__doc__ = fn.__doc__ + "".join(docstr) return fn return docstring_decorator def is_remote_url(url_or_filename): parsed = urlparse(url_or_filename) return parsed.scheme in ("http", "https", "s3") def hf_bucket_url(identifier, postfix=None, cdn=False): endpoint = CLOUDFRONT_DISTRIB_PREFIX if cdn else S3_BUCKET_PREFIX if postfix is None: return "/".join((endpoint, identifier)) else: return "/".join((endpoint, identifier, postfix)) def url_to_filename(url, etag=None): """ Convert `url` into a hashed filename in a repeatable way. If `etag` is specified, append its hash to the url's, delimited by a period. If the url ends with .h5 (Keras HDF5 weights) adds '.h5' to the name so that TF 2.0 can identify it as a HDF5 file (see https://github.com/tensorflow/tensorflow/blob/00fad90125b18b80fe054de1055770cfb8fe4ba3/tensorflow/python/keras/engine/network.py#L1380) """ url_bytes = url.encode("utf-8") url_hash = sha256(url_bytes) filename = url_hash.hexdigest() if etag: etag_bytes = etag.encode("utf-8") etag_hash = sha256(etag_bytes) filename += "." + etag_hash.hexdigest() if url.endswith(".h5"): filename += ".h5" return filename def filename_to_url(filename, cache_dir=None): """ Return the url and etag (which may be ``None``) stored for `filename`. Raise ``EnvironmentError`` if `filename` or its stored metadata do not exist. """ if cache_dir is None: cache_dir = TRANSFORMERS_CACHE if isinstance(cache_dir, Path): cache_dir = str(cache_dir) cache_path = os.path.join(cache_dir, filename) if not os.path.exists(cache_path): raise EnvironmentError("file {} not found".format(cache_path)) meta_path = cache_path + ".json" if not os.path.exists(meta_path): raise EnvironmentError("file {} not found".format(meta_path)) with open(meta_path, encoding="utf-8") as meta_file: metadata = json.load(meta_file) url = metadata["url"] etag = metadata["etag"] return url, etag def cached_path( url_or_filename, cache_dir=None, force_download=False, proxies=None, resume_download=False, user_agent=None ): """ Given something that might be a URL (or might be a local path), determine which. If it's a URL, download the file and cache it, and return the path to the cached file. If it's already a local path, make sure the file exists and then return the path. Args: cache_dir: specify a cache directory to save the file to (overwrite the default cache dir). force_download: if True, re-dowload the file even if it's already cached in the cache dir. resume_download: if True, resume the download if incompletly recieved file is found. user_agent: Optional string or dict that will be appended to the user-agent on remote requests. """ if cache_dir is None: cache_dir = TRANSFORMERS_CACHE if isinstance(url_or_filename, Path): url_or_filename = str(url_or_filename) if isinstance(cache_dir, Path): cache_dir = str(cache_dir) if is_remote_url(url_or_filename): # URL, so get it from the cache (downloading if necessary) return get_from_cache( url_or_filename, cache_dir=cache_dir, force_download=force_download, proxies=proxies, resume_download=resume_download, user_agent=user_agent, ) elif os.path.exists(url_or_filename): # File, and it exists. return url_or_filename elif urlparse(url_or_filename).scheme == "": # File, but it doesn't exist. raise EnvironmentError("file {} not found".format(url_or_filename)) else: # Something unknown raise ValueError("unable to parse {} as a URL or as a local path".format(url_or_filename)) def split_s3_path(url): """Split a full s3 path into the bucket name and path.""" parsed = urlparse(url) if not parsed.netloc or not parsed.path: raise ValueError("bad s3 path {}".format(url)) bucket_name = parsed.netloc s3_path = parsed.path # Remove '/' at beginning of path. if s3_path.startswith("/"): s3_path = s3_path[1:] return bucket_name, s3_path def s3_request(func): """ Wrapper function for s3 requests in order to create more helpful error messages. """ @wraps(func) def wrapper(url, *args, **kwargs): try: return func(url, *args, **kwargs) except ClientError as exc: if int(exc.response["Error"]["Code"]) == 404: raise EnvironmentError("file {} not found".format(url)) else: raise return wrapper @s3_request def s3_etag(url, proxies=None): """Check ETag on S3 object.""" s3_resource = boto3.resource("s3", config=Config(proxies=proxies)) bucket_name, s3_path = split_s3_path(url) s3_object = s3_resource.Object(bucket_name, s3_path) return s3_object.e_tag @s3_request def s3_get(url, temp_file, proxies=None): """Pull a file directly from S3.""" s3_resource = boto3.resource("s3", config=Config(proxies=proxies)) bucket_name, s3_path = split_s3_path(url) s3_resource.Bucket(bucket_name).download_fileobj(s3_path, temp_file) def http_get(url, temp_file, proxies=None, resume_size=0, user_agent=None): ua = "transformers/{}; python/{}".format(__version__, sys.version.split()[0]) if is_torch_available(): ua += "; torch/{}".format(torch.__version__) if is_tf_available(): ua += "; tensorflow/{}".format(tf.__version__) if isinstance(user_agent, dict): ua += "; " + "; ".join("{}/{}".format(k, v) for k, v in user_agent.items()) elif isinstance(user_agent, str): ua += "; " + user_agent headers = {"user-agent": ua} if resume_size > 0: headers["Range"] = "bytes=%d-" % (resume_size,) response = requests.get(url, stream=True, proxies=proxies, headers=headers) if response.status_code == 416: # Range not satisfiable return content_length = response.headers.get("Content-Length") total = resume_size + int(content_length) if content_length is not None else None progress = tqdm( unit="B", unit_scale=True, total=total, initial=resume_size, desc="Downloading", disable=bool(logger.getEffectiveLevel() == logging.NOTSET), ) for chunk in response.iter_content(chunk_size=1024): if chunk: # filter out keep-alive new chunks progress.update(len(chunk)) temp_file.write(chunk) progress.close() def get_from_cache( url, cache_dir=None, force_download=False, proxies=None, etag_timeout=10, resume_download=False, user_agent=None ): """ Given a URL, look for the corresponding dataset in the local cache. If it's not there, download it. Then return the path to the cached file. """ if cache_dir is None: cache_dir = TRANSFORMERS_CACHE if isinstance(cache_dir, Path): cache_dir = str(cache_dir) if not os.path.exists(cache_dir): os.makedirs(cache_dir) # Get eTag to add to filename, if it exists. if url.startswith("s3://"): etag = s3_etag(url, proxies=proxies) else: try: response = requests.head(url, allow_redirects=True, proxies=proxies, timeout=etag_timeout) if response.status_code != 200: etag = None else: etag = response.headers.get("ETag") except (EnvironmentError, requests.exceptions.Timeout): etag = None filename = url_to_filename(url, etag) # get cache path to put the file cache_path = os.path.join(cache_dir, filename) # If we don't have a connection (etag is None) and can't identify the file # try to get the last downloaded one if not os.path.exists(cache_path) and etag is None: matching_files = [ file for file in fnmatch.filter(os.listdir(cache_dir), filename + ".*") if not file.endswith(".json") and not file.endswith(".lock") ] if matching_files: cache_path = os.path.join(cache_dir, matching_files[-1]) # Prevent parallel downloads of the same file with a lock. lock_path = cache_path + ".lock" with FileLock(lock_path): if resume_download: incomplete_path = cache_path + ".incomplete" @contextmanager def _resumable_file_manager(): with open(incomplete_path, "a+b") as f: yield f temp_file_manager = _resumable_file_manager if os.path.exists(incomplete_path): resume_size = os.stat(incomplete_path).st_size else: resume_size = 0 else: temp_file_manager = partial(tempfile.NamedTemporaryFile, dir=cache_dir, delete=False) resume_size = 0 if etag is not None and (not os.path.exists(cache_path) or force_download): # Download to temporary file, then copy to cache dir once finished. # Otherwise you get corrupt cache entries if the download gets interrupted. with temp_file_manager() as temp_file: logger.info( "%s not found in cache or force_download set to True, downloading to %s", url, temp_file.name ) # GET file object if url.startswith("s3://"): if resume_download: logger.warn('Warning: resumable downloads are not implemented for "s3://" urls') s3_get(url, temp_file, proxies=proxies) else: http_get(url, temp_file, proxies=proxies, resume_size=resume_size, user_agent=user_agent) # we are copying the file before closing it, so flush to avoid truncation temp_file.flush() logger.info("storing %s in cache at %s", url, cache_path) os.rename(temp_file.name, cache_path) logger.info("creating metadata file for %s", cache_path) meta = {"url": url, "etag": etag} meta_path = cache_path + ".json" with open(meta_path, "w") as meta_file: json.dump(meta, meta_file) return cache_path