""" Swift storage driver. Uses: http://docs.openstack.org/developer/swift/overview_large_objects.html """ import os.path import copy import hmac import string import logging import json from _pyio import BufferedReader from uuid import uuid4 from swiftclient.client import Connection, ClientException, ReadableToIterable from urlparse import urlparse from random import SystemRandom from hashlib import sha1 from time import time from collections import namedtuple from util.registry import filelike from storage.basestorage import BaseStorage from util.registry.generatorfile import GeneratorFile logger = logging.getLogger(__name__) _PartUploadMetadata = namedtuple('_PartUploadMetadata', ['path', 'offset', 'length']) _SEGMENTS_KEY = 'segments' _EMPTY_SEGMENTS_KEY = 'emptysegments' _SEGMENT_DIRECTORY = 'segments' _MAXIMUM_SEGMENT_SIZE = 200000000 # ~200 MB _DEFAULT_SWIFT_CONNECT_TIMEOUT = 5 # seconds _CHUNK_CLEANUP_DELAY = 30 # seconds class SwiftStorage(BaseStorage): def __init__(self, context, swift_container, storage_path, auth_url, swift_user, swift_password, auth_version=None, os_options=None, ca_cert_path=None, temp_url_key=None, simple_path_concat=False, connect_timeout=None, retry_count=None, retry_on_ratelimit=True): super(SwiftStorage, self).__init__() self._swift_container = swift_container self._context = context self._storage_path = storage_path.lstrip('/') self._simple_path_concat = simple_path_concat self._auth_url = auth_url self._ca_cert_path = ca_cert_path self._swift_user = swift_user self._swift_password = swift_password self._temp_url_key = temp_url_key self._connect_timeout = connect_timeout self._retry_count = retry_count self._retry_on_ratelimit = retry_on_ratelimit try: self._auth_version = int(auth_version or '2') except ValueError: self._auth_version = 2 self._os_options = os_options or {} self._initialized = False def _get_connection(self): return Connection( authurl=self._auth_url, cacert=self._ca_cert_path, user=self._swift_user, key=self._swift_password, auth_version=self._auth_version, os_options=self._os_options, retry_on_ratelimit=self._retry_on_ratelimit, timeout=self._connect_timeout or _DEFAULT_SWIFT_CONNECT_TIMEOUT, retries=self._retry_count or 5, ) def _normalize_path(self, object_path): """ No matter what inputs we get, we are going to return a path without a leading or trailing '/' """ if self._simple_path_concat: return (self._storage_path + object_path).rstrip('/') else: return os.path.join(self._storage_path, object_path).rstrip('/') def _get_object(self, path, chunk_size=None): path = self._normalize_path(path) try: _, obj = self._get_connection().get_object(self._swift_container, path, resp_chunk_size=chunk_size) return obj except Exception as ex: logger.exception('Could not get object at path %s: %s', path, ex) raise IOError('Path %s not found' % path) def _put_object(self, path, content, chunk=None, content_type=None, content_encoding=None, headers=None): path = self._normalize_path(path) headers = headers or {} if content_encoding is not None: headers['Content-Encoding'] = content_encoding is_filelike = hasattr(content, 'read') if is_filelike: content = ReadableToIterable(content, md5=True) try: etag = self._get_connection().put_object(self._swift_container, path, content, chunk_size=chunk, content_type=content_type, headers=headers) except ClientException: # We re-raise client exception here so that validation of config during setup can see # the client exception messages. raise except Exception as ex: logger.exception('Could not put object at path %s: %s', path, ex) raise IOError("Could not put content: %s" % path) # If we wrapped the content in a ReadableToIterable, compare its MD5 to the etag returned. If # they don't match, raise an IOError indicating a write failure. if is_filelike: if etag != content.get_md5sum(): logger.error('Got mismatch in md5 etag for path %s: Expected %s, but server has %s', path, content.get_md5sum(), etag) raise IOError('upload verification failed for path {0}:' 'md5 mismatch, local {1} != remote {2}' .format(path, content.get_md5sum(), etag)) def _head_object(self, path): path = self._normalize_path(path) try: return self._get_connection().head_object(self._swift_container, path) except ClientException as ce: if ce.http_status != 404: logger.exception('Could not head object at path %s: %s', path, ex) return None except Exception as ex: logger.exception('Could not head object at path %s: %s', path, ex) return None def get_direct_download_url(self, object_path, request_ip=None, expires_in=60, requires_cors=False, head=False): if requires_cors: return None # Reference: http://docs.openstack.org/juno/config-reference/content/object-storage-tempurl.html if not self._temp_url_key: return None # Retrieve the auth details for the connection. try: object_url_value, _ = self._get_connection().get_auth() except ClientException: logger.exception('Got client exception when trying to load Swift auth') return None object_url = urlparse(object_url_value) scheme = object_url.scheme path = object_url.path.rstrip('/') hostname = object_url.netloc object_path = self._normalize_path(object_path) # Generate the signed HMAC body. method = 'HEAD' if head else 'GET' expires = int(time() + expires_in) full_path = '%s/%s/%s' % (path, self._swift_container, object_path) hmac_body = '%s\n%s\n%s' % (method, expires, full_path) sig = hmac.new(self._temp_url_key.encode('utf-8'), hmac_body.encode('utf-8'), sha1).hexdigest() surl = '{scheme}://{host}{full_path}?temp_url_sig={sig}&temp_url_expires={expires}' return surl.format(scheme=scheme, host=hostname, full_path=full_path, sig=sig, expires=expires) def validate(self, client): super(SwiftStorage, self).validate(client) if self._temp_url_key: # Generate a direct download URL. dd_url = self.get_direct_download_url('_verify') if not dd_url: raise Exception('Could not validate direct download URL; the token may be invalid.') # Try to retrieve the direct download URL. response = client.get(dd_url, timeout=2) if response.status_code != 200: logger.debug('Direct download failure: %s => %s with body %s', dd_url, response.status_code, response.text) msg = 'Direct download URL failed with status code %s. Please check your temp-url-key.' raise Exception(msg % response.status_code) def get_content(self, path): return self._get_object(path) def put_content(self, path, content): self._put_object(path, content) def stream_read(self, path): for data in self._get_object(path, self.buffer_size): yield data def stream_read_file(self, path): return GeneratorFile(self.stream_read(path)) def stream_write(self, path, fp, content_type=None, content_encoding=None): self._put_object(path, fp, self.buffer_size, content_type=content_type, content_encoding=content_encoding) def exists(self, path): return bool(self._head_object(path)) def remove(self, path): path = self._normalize_path(path) try: self._get_connection().delete_object(self._swift_container, path) except Exception as ex: logger.warning('Could not delete path %s: %s', path, str(ex)) raise IOError('Cannot delete path: %s' % path) def _random_checksum(self, count): chars = string.ascii_uppercase + string.digits return ''.join(SystemRandom().choice(chars) for _ in range(count)) def get_checksum(self, path): headers = self._head_object(path) if not headers: raise IOError('Cannot lookup path: %s' % path) return headers.get('etag', '')[1:-1][:7] or self._random_checksum(7) @staticmethod def _segment_list_from_metadata(storage_metadata, key=_SEGMENTS_KEY): return [_PartUploadMetadata(*segment_args) for segment_args in storage_metadata[key]] def initiate_chunked_upload(self): random_uuid = str(uuid4()) metadata = { _SEGMENTS_KEY: [], _EMPTY_SEGMENTS_KEY: [], } return random_uuid, metadata def stream_upload_chunk(self, uuid, offset, length, in_fp, storage_metadata, content_type=None): if length == 0: return 0, storage_metadata, None # Note: Swift limits segments to a maximum of 5GB, so we keep writing segments until we # are finished hitting the data limit. total_bytes_written = 0 upload_error = None read_until_end = length == filelike.READ_UNTIL_END while True: try: bytes_written, storage_metadata = self._stream_upload_segment(uuid, offset, length, in_fp, storage_metadata, content_type) except IOError as ex: message = ('Error writing to stream in stream_upload_chunk for uuid %s (offset %s' + ', length %s, metadata: %s): %s') logger.exception(message, uuid, offset, length, storage_metadata, ex) upload_error = ex break if not read_until_end: length = length - bytes_written offset = offset + bytes_written total_bytes_written = total_bytes_written + bytes_written if bytes_written == 0 or (not read_until_end and length <= 0): return total_bytes_written, storage_metadata, upload_error return total_bytes_written, storage_metadata, upload_error def _stream_upload_segment(self, uuid, offset, length, in_fp, storage_metadata, content_type): updated_metadata = copy.deepcopy(storage_metadata) segment_count = len(updated_metadata[_SEGMENTS_KEY]) segment_path = '%s/%s/%s' % (_SEGMENT_DIRECTORY, uuid, segment_count) # Track the number of bytes read and if an explicit length is specified, limit the # file stream to that length. if length == filelike.READ_UNTIL_END: length = _MAXIMUM_SEGMENT_SIZE else: length = min(_MAXIMUM_SEGMENT_SIZE, length) limiting_fp = filelike.LimitingStream(in_fp, length) # If retries are requested, then we need to use a buffered reader to allow for calls to # seek() on retries from within the Swift client. if self._retry_count > 0: limiting_fp = BufferedReader(limiting_fp, buffer_size=length) # Write the segment to Swift. self.stream_write(segment_path, limiting_fp, content_type) # We are only going to track keys to which data was confirmed written. bytes_written = limiting_fp.tell() if bytes_written > 0: updated_metadata[_SEGMENTS_KEY].append(_PartUploadMetadata(segment_path, offset, bytes_written)) else: updated_metadata[_EMPTY_SEGMENTS_KEY].append(_PartUploadMetadata(segment_path, offset, bytes_written)) return bytes_written, updated_metadata def complete_chunked_upload(self, uuid, final_path, storage_metadata): """ Complete the chunked upload and store the final results in the path indicated. Returns nothing. """ # Check all potentially empty segments against the segments that were uploaded; if the path # is still empty, then we queue the segment to be deleted. if self._context.chunk_cleanup_queue is not None: nonempty_segments = SwiftStorage._segment_list_from_metadata(storage_metadata, key=_SEGMENTS_KEY) potentially_empty_segments = SwiftStorage._segment_list_from_metadata(storage_metadata, key=_EMPTY_SEGMENTS_KEY) nonempty_paths = set([segment.path for segment in nonempty_segments]) for segment in potentially_empty_segments: if segment.path in nonempty_paths: continue # Queue the chunk to be deleted, as it is empty and therefore unused. self._context.chunk_cleanup_queue.put(['segment/%s/%s' % (self._context.location, uuid)], json.dumps({ 'location': self._context.location, 'uuid': uuid, 'path': segment.path, }), available_after=_CHUNK_CLEANUP_DELAY) # Finally, we write an empty file at the proper location with a X-Object-Manifest # header pointing to the prefix for the segments. segments_prefix_path = self._normalize_path('%s/%s' % (_SEGMENT_DIRECTORY, uuid)) contained_segments_prefix_path = '%s/%s' % (self._swift_container, segments_prefix_path) self._put_object(final_path, '', headers={'X-Object-Manifest': contained_segments_prefix_path}) def cancel_chunked_upload(self, uuid, storage_metadata): """ Cancel the chunked upload and clean up any outstanding partially uploaded data. Returns nothing. """ # Delete all the uploaded segments. for segment in SwiftStorage._segment_list_from_metadata(storage_metadata, key=_SEGMENTS_KEY): self.remove(segment.path)