# -*- coding: utf-8 -*- """ oss2.resumable ~~~~~~~~~~~~~~ 该模块包含了断点续传相关的函数和类。 """ import os from . import utils from .utils import b64encode_as_string, b64decode_from_string from . import iterators from . import exceptions from . import defaults from . import http from . import models from .crypto_bucket import CryptoBucket from . import Bucket from .iterators import PartIterator from .models import PartInfo from .compat import json, stringify, to_unicode, to_string from .task_queue import TaskQueue from .headers import * import functools import threading import random import string import logging logger = logging.getLogger(__name__) def resumable_upload(bucket, key, filename, store=None, headers=None, multipart_threshold=None, part_size=None, progress_callback=None, num_threads=None, params=None): """断点上传本地文件。 实现中采用分片上传方式上传本地文件,缺省的并发数是 `oss2.defaults.multipart_num_threads` ,并且在 本地磁盘保存已经上传的分片信息。如果因为某种原因上传被中断,下次上传同样的文件,即源文件和目标文件路径都 一样,就只会上传缺失的分片。 缺省条件下,该函数会在用户 `HOME` 目录下保存断点续传的信息。当待上传的本地文件没有发生变化, 且目标文件名没有变化时,会根据本地保存的信息,从断点开始上传。 使用该函数应注意如下细节: #. 如果使用CryptoBucket,函数会退化为普通上传 :param bucket: :class:`Bucket ` 或者 ::class:`CryptoBucket ` 对象 :param key: 上传到用户空间的文件名 :param filename: 待上传本地文件名 :param store: 用来保存断点信息的持久存储,参见 :class:`ResumableStore` 的接口。如不指定,则使用 `ResumableStore` 。 :param headers: HTTP头部 # 调用外部函数put_object 或 init_multipart_upload传递完整headers # 调用外部函数uplpad_part目前只传递OSS_REQUEST_PAYER, OSS_TRAFFIC_LIMIT # 调用外部函数complete_multipart_upload目前只传递OSS_REQUEST_PAYER, OSS_OBJECT_ACL :type headers: 可以是dict,建议是oss2.CaseInsensitiveDict :param multipart_threshold: 文件长度大于该值时,则用分片上传。 :param part_size: 指定分片上传的每个分片的大小。如不指定,则自动计算。 :param progress_callback: 上传进度回调函数。参见 :ref:`progress_callback` 。 :param num_threads: 并发上传的线程数,如不指定则使用 `oss2.defaults.multipart_num_threads` 。 :param params: HTTP请求参数 # 只有'sequential'这个参数才会被传递到外部函数init_multipart_upload中。 # 其他参数视为无效参数不会往外部函数传递。 :type params: dict """ logger.debug("Start to resumable upload, bucket: {0}, key: {1}, filename: {2}, headers: {3}, " "multipart_threshold: {4}, part_size: {5}, num_threads: {6}".format(bucket.bucket_name, to_string(key), filename, headers, multipart_threshold, part_size, num_threads)) size = os.path.getsize(filename) multipart_threshold = defaults.get(multipart_threshold, defaults.multipart_threshold) logger.debug("The size of file to upload is: {0}, multipart_threshold: {1}".format(size, multipart_threshold)) if size >= multipart_threshold: uploader = _ResumableUploader(bucket, key, filename, size, store, part_size=part_size, headers=headers, progress_callback=progress_callback, num_threads=num_threads, params=params) result = uploader.upload() else: with open(to_unicode(filename), 'rb') as f: result = bucket.put_object(key, f, headers=headers, progress_callback=progress_callback) return result def resumable_download(bucket, key, filename, multiget_threshold=None, part_size=None, progress_callback=None, num_threads=None, store=None, params=None, headers=None): """断点下载。 实现的方法是: #. 在本地创建一个临时文件,文件名由原始文件名加上一个随机的后缀组成; #. 通过指定请求的 `Range` 头按照范围并发读取OSS文件,并写入到临时文件里对应的位置; #. 全部完成之后,把临时文件重命名为目标文件 (即 `filename` ) 在上述过程中,断点信息,即已经完成的范围,会保存在磁盘上。因为某种原因下载中断,后续如果下载 同样的文件,也就是源文件和目标文件一样,就会先读取断点信息,然后只下载缺失的部分。 缺省设置下,断点信息保存在 `HOME` 目录的一个子目录下。可以通过 `store` 参数更改保存位置。 使用该函数应注意如下细节: #. 对同样的源文件、目标文件,避免多个程序(线程)同时调用该函数。因为断点信息会在磁盘上互相覆盖,或临时文件名会冲突。 #. 避免使用太小的范围(分片),即 `part_size` 不宜过小,建议大于或等于 `oss2.defaults.multiget_part_size` 。 #. 如果目标文件已经存在,那么该函数会覆盖此文件。 #. 如果使用CryptoBucket,函数会退化为普通下载 :param bucket: :class:`Bucket ` 或者 ::class:`CryptoBucket ` 对象 :param str key: 待下载的远程文件名。 :param str filename: 本地的目标文件名。 :param int multiget_threshold: 文件长度大于该值时,则使用断点下载。 :param int part_size: 指定期望的分片大小,即每个请求获得的字节数,实际的分片大小可能有所不同。 :param progress_callback: 下载进度回调函数。参见 :ref:`progress_callback` 。 :param num_threads: 并发下载的线程数,如不指定则使用 `oss2.defaults.multiget_num_threads` 。 :param store: 用来保存断点信息的持久存储,可以指定断点信息所在的目录。 :type store: `ResumableDownloadStore` :param dict params: 指定下载参数,可以传入versionId下载指定版本文件 :param headers: HTTP头部, # 调用外部函数head_object目前只传递OSS_REQUEST_PAYER # 调用外部函数get_object_to_file, get_object目前需要向下传递的值有OSS_REQUEST_PAYER, OSS_TRAFFIC_LIMIT :type headers: 可以是dict,建议是oss2.CaseInsensitiveDict :raises: 如果OSS文件不存在,则抛出 :class:`NotFound ` ;也有可能抛出其他因下载文件而产生的异常。 """ logger.debug("Start to resumable download, bucket: {0}, key: {1}, filename: {2}, multiget_threshold: {3}, " "part_size: {4}, num_threads: {5}".format(bucket.bucket_name, to_string(key), filename, multiget_threshold, part_size, num_threads)) multiget_threshold = defaults.get(multiget_threshold, defaults.multiget_threshold) valid_headers = _populate_valid_headers(headers, [OSS_REQUEST_PAYER, OSS_TRAFFIC_LIMIT]) result = bucket.head_object(key, params=params, headers=valid_headers) logger.debug("The size of object to download is: {0}, multiget_threshold: {1}".format(result.content_length, multiget_threshold)) if result.content_length >= multiget_threshold: downloader = _ResumableDownloader(bucket, key, filename, _ObjectInfo.make(result), part_size=part_size, progress_callback=progress_callback, num_threads=num_threads, store=store, params=params, headers=valid_headers) downloader.download(result.server_crc) else: bucket.get_object_to_file(key, filename, progress_callback=progress_callback, params=params, headers=valid_headers) _MAX_MULTIGET_PART_COUNT = 100000 def determine_part_size(total_size, preferred_size=None): """确定分片上传是分片的大小。 :param int total_size: 总共需要上传的长度 :param int preferred_size: 用户期望的分片大小。如果不指定则采用defaults.part_size :return: 分片大小 """ if not preferred_size: preferred_size = defaults.part_size return _determine_part_size_internal(total_size, preferred_size, defaults.max_part_count) def _determine_part_size_internal(total_size, preferred_size, max_count): if total_size < preferred_size: return total_size while preferred_size * max_count < total_size or preferred_size < defaults.min_part_size: preferred_size = preferred_size * 2 return preferred_size def _split_to_parts(total_size, part_size): parts = [] num_parts = utils.how_many(total_size, part_size) for i in range(num_parts): if i == num_parts - 1: start = i * part_size end = total_size else: start = i * part_size end = part_size + start parts.append(_PartToProcess(i + 1, start, end)) return parts def _populate_valid_headers(headers=None, valid_keys=None): """构建只包含有效keys的http header :param headers: 需要过滤的header :type headers: 可以是dict,建议是oss2.CaseInsensitiveDict :param valid_keys: 有效的关键key列表 :type valid_keys: list :return: 只包含有效keys的http header, type: oss2.CaseInsensitiveDict """ if headers is None or valid_keys is None: return None headers = http.CaseInsensitiveDict(headers) valid_headers = http.CaseInsensitiveDict() for key in valid_keys: if headers.get(key) is not None: valid_headers[key] = headers[key] if len(valid_headers) == 0: valid_headers = None return valid_headers def _filter_invalid_headers(headers=None, invalid_keys=None): """过滤无效keys的http header :param headers: 需要过滤的header :type headers: 可以是dict,建议是oss2.CaseInsensitiveDict :param invalid_keys: 无效的关键key列表 :type invalid_keys: list :return: 过滤无效header之后的http headers, type: oss2.CaseInsensitiveDict """ if headers is None or invalid_keys is None: return None headers = http.CaseInsensitiveDict(headers) valid_headers = headers.copy() for key in invalid_keys: if valid_headers.get(key) is not None: valid_headers.pop(key) if len(valid_headers) == 0: valid_headers = None return valid_headers def _populate_valid_params(params=None, valid_keys=None): """构建只包含有效keys的params :param params: 需要过滤的params :type params: dict :param valid_keys: 有效的关键key列表 :type valid_keys: list :return: 只包含有效keys的params """ if params is None or valid_keys is None: return None valid_params = dict() for key in valid_keys: if params.get(key) is not None: valid_params[key] = params[key] if len(valid_params) == 0: valid_params = None return valid_params class _ResumableOperation(object): def __init__(self, bucket, key, filename, size, store, progress_callback=None, versionid=None): self.bucket = bucket self.key = to_string(key) self.filename = filename self.size = size self._abspath = os.path.abspath(filename) self.__store = store if versionid is None: self.__record_key = self.__store.make_store_key(bucket.bucket_name, self.key, self._abspath) else: self.__record_key = self.__store.make_store_key(bucket.bucket_name, self.key, self._abspath, versionid) logger.debug("Init _ResumableOperation, record_key: {0}".format(self.__record_key)) # protect self.__progress_callback self.__plock = threading.Lock() self.__progress_callback = progress_callback def _del_record(self): self.__store.delete(self.__record_key) def _put_record(self, record): self.__store.put(self.__record_key, record) def _get_record(self): return self.__store.get(self.__record_key) def _report_progress(self, consumed_size): if self.__progress_callback: with self.__plock: self.__progress_callback(consumed_size, self.size) class _ObjectInfo(object): def __init__(self): self.size = None self.etag = None self.mtime = None @staticmethod def make(head_object_result): objectInfo = _ObjectInfo() objectInfo.size = head_object_result.content_length objectInfo.etag = head_object_result.etag objectInfo.mtime = head_object_result.last_modified return objectInfo class _ResumableDownloader(_ResumableOperation): def __init__(self, bucket, key, filename, objectInfo, part_size=None, store=None, progress_callback=None, num_threads=None, params=None, headers=None): versionid = None if params is not None and params.get('versionId') is not None: versionid = params.get('versionId') super(_ResumableDownloader, self).__init__(bucket, key, filename, objectInfo.size, store or ResumableDownloadStore(), progress_callback=progress_callback, versionid=versionid) self.objectInfo = objectInfo self.__op = 'ResumableDownload' self.__part_size = defaults.get(part_size, defaults.multiget_part_size) self.__part_size = _determine_part_size_internal(self.size, self.__part_size, _MAX_MULTIGET_PART_COUNT) self.__tmp_file = None self.__num_threads = defaults.get(num_threads, defaults.multiget_num_threads) self.__finished_parts = None self.__finished_size = None self.__params = params self.__headers = headers # protect record self.__lock = threading.Lock() self.__record = None logger.debug("Init _ResumableDownloader, bucket: {0}, key: {1}, part_size: {2}, num_thread: {3}".format( bucket.bucket_name, to_string(key), self.__part_size, self.__num_threads)) def download(self, server_crc = None): self.__load_record() parts_to_download = self.__get_parts_to_download() logger.debug("Parts need to download: {0}".format(parts_to_download)) # create tmp file if it is does not exist open(self.__tmp_file, 'a').close() q = TaskQueue(functools.partial(self.__producer, parts_to_download=parts_to_download), [self.__consumer] * self.__num_threads) q.run() if self.bucket.enable_crc: parts = sorted(self.__finished_parts, key=lambda p: p.part_number) object_crc = utils.calc_obj_crc_from_parts(parts) utils.check_crc('resume download', object_crc, server_crc, None) utils.force_rename(self.__tmp_file, self.filename) self._report_progress(self.size) self._del_record() def __producer(self, q, parts_to_download=None): for part in parts_to_download: q.put(part) def __consumer(self, q): while q.ok(): part = q.get() if part is None: break self.__download_part(part) def __download_part(self, part): self._report_progress(self.__finished_size) with open(self.__tmp_file, 'rb+') as f: f.seek(part.start, os.SEEK_SET) headers = _populate_valid_headers(self.__headers, [OSS_REQUEST_PAYER, OSS_TRAFFIC_LIMIT]) if headers is None: headers = http.CaseInsensitiveDict() headers[IF_MATCH] = self.objectInfo.etag headers[IF_UNMODIFIED_SINCE] = utils.http_date(self.objectInfo.mtime) result = self.bucket.get_object(self.key, byte_range=(part.start, part.end - 1), headers=headers, params=self.__params) utils.copyfileobj_and_verify(result, f, part.end - part.start, request_id=result.request_id) part.part_crc = result.client_crc logger.debug("down part success, add part info to record, part_number: {0}, start: {1}, end: {2}".format( part.part_number, part.start, part.end)) self.__finish_part(part) def __load_record(self): record = self._get_record() logger.debug("Load record return {0}".format(record)) if record and not self.__is_record_sane(record): logger.warn("The content of record is invalid, delete the record") self._del_record() record = None if record and not os.path.exists(self.filename + record['tmp_suffix']): logger.warn("Temp file: {0} does not exist, delete the record".format( self.filename + record['tmp_suffix'])) self._del_record() record = None if record and self.__is_remote_changed(record): logger.warn("Object: {0} has been overwritten,delete the record and tmp file".format(self.key)) utils.silently_remove(self.filename + record['tmp_suffix']) self._del_record() record = None if not record: record = {'op_type': self.__op, 'bucket': self.bucket.bucket_name, 'key': self.key, 'size': self.objectInfo.size, 'mtime': self.objectInfo.mtime, 'etag': self.objectInfo.etag, 'part_size': self.__part_size, 'file_path': self._abspath, 'tmp_suffix': self.__gen_tmp_suffix(), 'parts': []} logger.debug('Add new record, bucket: {0}, key: {1}, part_size: {2}'.format( self.bucket.bucket_name, self.key, self.__part_size)) self._put_record(record) self.__tmp_file = self.filename + record['tmp_suffix'] self.__part_size = record['part_size'] self.__finished_parts = list( _PartToProcess(p['part_number'], p['start'], p['end'], p['part_crc']) for p in record['parts']) self.__finished_size = sum(p.size for p in self.__finished_parts) self.__record = record def __get_parts_to_download(self): assert self.__record all_set = set(_split_to_parts(self.size, self.__part_size)) finished_set = set(self.__finished_parts) return sorted(list(all_set - finished_set), key=lambda p: p.part_number) def __is_record_sane(self, record): try: if record['op_type'] != self.__op: logger.error('op_type invalid, op_type in record:{0} is invalid'.format(record['op_type'])) return False for key in ('etag', 'tmp_suffix', 'file_path', 'bucket', 'key'): if not isinstance(record[key], str): logger.error('{0} is not a string: {1}'.format(key, record[key])) return False for key in ('part_size', 'size', 'mtime'): if not isinstance(record[key], int): logger.error('{0} is not an integer: {1}'.format(key, record[key])) return False if not isinstance(record['parts'], list): logger.error('{0} is not a list: {1}'.format(key, record[key])) return False except KeyError as e: logger.error('Key not found: {0}'.format(e.args)) return False return True def __is_remote_changed(self, record): return (record['mtime'] != self.objectInfo.mtime or record['size'] != self.objectInfo.size or record['etag'] != self.objectInfo.etag) def __finish_part(self, part): with self.__lock: self.__finished_parts.append(part) self.__finished_size += part.size self.__record['parts'].append({'part_number': part.part_number, 'start': part.start, 'end': part.end, 'part_crc': part.part_crc}) self._put_record(self.__record) def __gen_tmp_suffix(self): return '.tmp-' + ''.join(random.choice(string.ascii_lowercase) for i in range(12)) class _ResumableUploader(_ResumableOperation): """以断点续传方式上传文件。 :param bucket: :class:`Bucket ` 对象 :param key: 文件名 :param filename: 待上传的文件名 :param size: 文件总长度 :param store: 用来保存进度的持久化存储 :param headers: 传给 `init_multipart_upload` 的HTTP头部 :param part_size: 分片大小。优先使用用户提供的值。如果用户没有指定,那么对于新上传,计算出一个合理值;对于老的上传,采用第一个 分片的大小。 :param progress_callback: 上传进度回调函数。参见 :ref:`progress_callback` 。 """ def __init__(self, bucket, key, filename, size, store=None, headers=None, part_size=None, progress_callback=None, num_threads=None, params=None): super(_ResumableUploader, self).__init__(bucket, key, filename, size, store or ResumableStore(), progress_callback=progress_callback) self.__op = 'ResumableUpload' self.__headers = headers self.__part_size = defaults.get(part_size, defaults.part_size) self.__mtime = os.path.getmtime(filename) self.__num_threads = defaults.get(num_threads, defaults.multipart_num_threads) self.__upload_id = None self.__params = params # protect below fields self.__lock = threading.Lock() self.__record = None self.__finished_size = 0 self.__finished_parts = None self.__encryption = False self.__record_upload_context = False self.__upload_context = None if isinstance(self.bucket, CryptoBucket): self.__encryption = True self.__record_upload_context = True logger.debug("Init _ResumableUploader, bucket: {0}, key: {1}, part_size: {2}, num_thread: {3}".format( bucket.bucket_name, to_string(key), self.__part_size, self.__num_threads)) def upload(self): self.__load_record() parts_to_upload = self.__get_parts_to_upload(self.__finished_parts) parts_to_upload = sorted(parts_to_upload, key=lambda p: p.part_number) logger.debug("Parts need to upload: {0}".format(parts_to_upload)) q = TaskQueue(functools.partial(self.__producer, parts_to_upload=parts_to_upload), [self.__consumer] * self.__num_threads) q.run() self._report_progress(self.size) headers = _populate_valid_headers(self.__headers, [OSS_REQUEST_PAYER, OSS_OBJECT_ACL]) result = self.bucket.complete_multipart_upload(self.key, self.__upload_id, self.__finished_parts, headers=headers) self._del_record() return result def __producer(self, q, parts_to_upload=None): for part in parts_to_upload: q.put(part) def __consumer(self, q): while True: part = q.get() if part is None: break self.__upload_part(part) def __upload_part(self, part): with open(to_unicode(self.filename), 'rb') as f: self._report_progress(self.__finished_size) f.seek(part.start, os.SEEK_SET) headers = _populate_valid_headers(self.__headers, [OSS_REQUEST_PAYER, OSS_TRAFFIC_LIMIT]) if self.__encryption: result = self.bucket.upload_part(self.key, self.__upload_id, part.part_number, utils.SizedFileAdapter(f, part.size), headers=headers, upload_context=self.__upload_context) else: result = self.bucket.upload_part(self.key, self.__upload_id, part.part_number, utils.SizedFileAdapter(f, part.size), headers=headers) logger.debug("Upload part success, add part info to record, part_number: {0}, etag: {1}, size: {2}".format( part.part_number, result.etag, part.size)) self.__finish_part(PartInfo(part.part_number, result.etag, size=part.size, part_crc=result.crc)) def __finish_part(self, part_info): with self.__lock: self.__finished_parts.append(part_info) self.__finished_size += part_info.size def __load_record(self): record = self._get_record() logger.debug("Load record return {0}".format(record)) if record and not self.__is_record_sane(record): logger.warn("The content of record is invalid, delete the record") self._del_record() record = None if record and self.__file_changed(record): logger.warn("File: {0} has been changed, delete the record".format(self.filename)) self._del_record() record = None if record and not self.__upload_exists(record['upload_id']): logger.warn('Multipart upload: {0} does not exist, delete the record'.format(record['upload_id'])) self._del_record() record = None if not record: params = _populate_valid_params(self.__params, [Bucket.SEQUENTIAL]) part_size = determine_part_size(self.size, self.__part_size) logger.debug("Upload File size: {0}, User-specify part_size: {1}, Calculated part_size: {2}".format( self.size, self.__part_size, part_size)) if self.__encryption: upload_context = models.MultipartUploadCryptoContext(self.size, part_size) upload_id = self.bucket.init_multipart_upload(self.key, self.__headers, params, upload_context).upload_id if self.__record_upload_context: material = upload_context.content_crypto_material material_record = {'wrap_alg': material.wrap_alg, 'cek_alg': material.cek_alg, 'encrypted_key': b64encode_as_string(material.encrypted_key), 'encrypted_iv': b64encode_as_string(material.encrypted_iv), 'mat_desc': material.mat_desc} else: upload_id = self.bucket.init_multipart_upload(self.key, self.__headers, params).upload_id record = {'op_type': self.__op, 'upload_id': upload_id, 'file_path': self._abspath, 'size': self.size, 'mtime': self.__mtime, 'bucket': self.bucket.bucket_name, 'key': self.key, 'part_size': part_size} if self.__record_upload_context: record['content_crypto_material'] = material_record logger.debug('Add new record, bucket: {0}, key: {1}, upload_id: {2}, part_size: {3}'.format( self.bucket.bucket_name, self.key, upload_id, part_size)) self._put_record(record) self.__record = record self.__part_size = self.__record['part_size'] self.__upload_id = self.__record['upload_id'] if self.__record_upload_context: if 'content_crypto_material' in self.__record: material_record = self.__record['content_crypto_material'] wrap_alg = material_record['wrap_alg'] cek_alg = material_record['cek_alg'] if cek_alg != self.bucket.crypto_provider.cipher.alg or wrap_alg != self.bucket.crypto_provider.wrap_alg: err_msg = 'Envelope or data encryption/decryption algorithm is inconsistent' raise exceptions.InconsistentError(err_msg, self) content_crypto_material = models.ContentCryptoMaterial(self.bucket.crypto_provider.cipher, material_record['wrap_alg'], b64decode_from_string( material_record['encrypted_key']), b64decode_from_string( material_record['encrypted_iv']), material_record['mat_desc']) self.__upload_context = models.MultipartUploadCryptoContext(self.size, self.__part_size, content_crypto_material) else: err_msg = 'If record_upload_context flag is true, content_crypto_material must in the the record' raise exceptions.InconsistentError(err_msg, self) else: if 'content_crypto_material' in self.__record: err_msg = 'content_crypto_material must in the the record, but record_upload_context flat is false' raise exceptions.InvalidEncryptionRequest(err_msg, self) self.__finished_parts = self.__get_finished_parts() self.__finished_size = sum(p.size for p in self.__finished_parts) def __get_finished_parts(self): parts = [] valid_headers = _filter_invalid_headers(self.__headers, [OSS_SERVER_SIDE_ENCRYPTION, OSS_SERVER_SIDE_DATA_ENCRYPTION]) for part in PartIterator(self.bucket, self.key, self.__upload_id, headers=valid_headers): parts.append(part) return parts def __upload_exists(self, upload_id): try: valid_headers = _filter_invalid_headers(self.__headers, [OSS_SERVER_SIDE_ENCRYPTION, OSS_SERVER_SIDE_DATA_ENCRYPTION]) list(iterators.PartIterator(self.bucket, self.key, upload_id, '0', max_parts=1, headers=valid_headers)) except exceptions.NoSuchUpload: return False else: return True def __file_changed(self, record): return record['mtime'] != self.__mtime or record['size'] != self.size def __get_parts_to_upload(self, parts_uploaded): all_parts = _split_to_parts(self.size, self.__part_size) if not parts_uploaded: return all_parts all_parts_map = dict((p.part_number, p) for p in all_parts) for uploaded in parts_uploaded: if uploaded.part_number in all_parts_map: del all_parts_map[uploaded.part_number] return all_parts_map.values() def __is_record_sane(self, record): try: if record['op_type'] != self.__op: logger.error('op_type invalid, op_type in record:{0} is invalid'.format(record['op_type'])) return False for key in ('upload_id', 'file_path', 'bucket', 'key'): if not isinstance(record[key], str): logger.error('Type Error, {0} in record is not a string type: {1}'.format(key, record[key])) return False for key in ('size', 'part_size'): if not isinstance(record[key], int): logger.error('Type Error, {0} in record is not an integer type: {1}'.format(key, record[key])) return False if not isinstance(record['mtime'], int) and not isinstance(record['mtime'], float): logger.error( 'Type Error, mtime in record is not a float or an integer type: {0}'.format(record['mtime'])) return False except KeyError as e: logger.error('Key not found: {0}'.format(e.args)) return False return True _UPLOAD_TEMP_DIR = '.py-oss-upload' _DOWNLOAD_TEMP_DIR = '.py-oss-download' class _ResumableStoreBase(object): def __init__(self, root, dir): logger.debug("Init ResumableStoreBase, root path: {0}, temp dir: {1}".format(root, dir)) self.dir = os.path.join(root, dir) if os.path.isdir(self.dir): return utils.makedir_p(self.dir) def get(self, key): pathname = self.__path(key) logger.debug('ResumableStoreBase: get key: {0} from file path: {1}'.format(key, pathname)) if not os.path.exists(pathname): logger.debug("file {0} is not exist".format(pathname)) return None # json.load()返回的总是unicode,对于Python2,我们将其转换 # 为str。 try: with open(to_unicode(pathname), 'r') as f: content = json.load(f) except ValueError: os.remove(pathname) return None else: return stringify(content) def put(self, key, value): pathname = self.__path(key) with open(to_unicode(pathname), 'w') as f: json.dump(value, f) logger.debug('ResumableStoreBase: put key: {0} to file path: {1}, value: {2}'.format(key, pathname, value)) def delete(self, key): pathname = self.__path(key) os.remove(pathname) logger.debug('ResumableStoreBase: delete key: {0}, file path: {1}'.format(key, pathname)) def __path(self, key): return os.path.join(self.dir, key) def _normalize_path(path): return os.path.normpath(os.path.normcase(path)) class ResumableStore(_ResumableStoreBase): """保存断点上传断点信息的类。 每次上传的信息会保存在 `root/dir/` 下面的某个文件里。 :param str root: 父目录,缺省为HOME :param str dir: 子目录,缺省为 `_UPLOAD_TEMP_DIR` """ def __init__(self, root=None, dir=None): super(ResumableStore, self).__init__(root or os.path.expanduser('~'), dir or _UPLOAD_TEMP_DIR) @staticmethod def make_store_key(bucket_name, key, filename): filepath = _normalize_path(filename) oss_pathname = 'oss://{0}/{1}'.format(bucket_name, key) return utils.md5_string(oss_pathname) + '--' + utils.md5_string(filepath) class ResumableDownloadStore(_ResumableStoreBase): """保存断点下载断点信息的类。 每次下载的断点信息会保存在 `root/dir/` 下面的某个文件里。 :param str root: 父目录,缺省为HOME :param str dir: 子目录,缺省为 `_DOWNLOAD_TEMP_DIR` """ def __init__(self, root=None, dir=None): super(ResumableDownloadStore, self).__init__(root or os.path.expanduser('~'), dir or _DOWNLOAD_TEMP_DIR) @staticmethod def make_store_key(bucket_name, key, filename, version_id=None): filepath = _normalize_path(filename) if version_id is None: oss_pathname = 'oss://{0}/{1}'.format(bucket_name, key) else: oss_pathname = 'oss://{0}/{1}?versionid={2}'.format(bucket_name, key, version_id) return utils.md5_string(oss_pathname) + '--' + utils.md5_string(filepath) def make_upload_store(root=None, dir=None): return ResumableStore(root=root, dir=dir) def make_download_store(root=None, dir=None): return ResumableDownloadStore(root=root, dir=dir) class _PartToProcess(object): def __init__(self, part_number, start, end, part_crc=None): self.part_number = part_number self.start = start self.end = end self.part_crc = part_crc @property def size(self): return self.end - self.start def __hash__(self): return hash(self.__key) def __eq__(self, other): return self.__key == other.__key @property def __key(self): return self.part_number, self.start, self.end