720 lines
33 KiB
Python
720 lines
33 KiB
Python
# Copyright (c) 2010-2012 OpenStack Foundation
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
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# implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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""" Object Server for Swift """
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import cPickle as pickle
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import os
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import multiprocessing
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import time
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import traceback
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import socket
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import math
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from datetime import datetime
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from swift import gettext_ as _
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from hashlib import md5
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from eventlet import sleep, Timeout
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from swift.common.utils import public, get_logger, \
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config_true_value, timing_stats, replication, normalize_delete_at_timestamp
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from swift.common.bufferedhttp import http_connect
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from swift.common.constraints import check_object_creation, \
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check_float, check_utf8
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from swift.common.exceptions import ConnectionTimeout, DiskFileQuarantined, \
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DiskFileNotExist, DiskFileCollision, DiskFileNoSpace, DiskFileDeleted, \
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DiskFileDeviceUnavailable, DiskFileExpired
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from swift.obj import ssync_receiver
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from swift.common.http import is_success
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from swift.common.request_helpers import split_and_validate_path, is_user_meta
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from swift.common.swob import HTTPAccepted, HTTPBadRequest, HTTPCreated, \
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HTTPInternalServerError, HTTPNoContent, HTTPNotFound, HTTPNotModified, \
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HTTPPreconditionFailed, HTTPRequestTimeout, HTTPUnprocessableEntity, \
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HTTPClientDisconnect, HTTPMethodNotAllowed, Request, Response, UTC, \
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HTTPInsufficientStorage, HTTPForbidden, HTTPException, HeaderKeyDict, \
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HTTPConflict
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from swift.obj.diskfile import DATAFILE_SYSTEM_META, DiskFileManager
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class ObjectController(object):
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"""Implements the WSGI application for the Swift Object Server."""
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def __init__(self, conf, logger=None):
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"""
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Creates a new WSGI application for the Swift Object Server. An
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example configuration is given at
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<source-dir>/etc/object-server.conf-sample or
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/etc/swift/object-server.conf-sample.
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"""
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self.logger = logger or get_logger(conf, log_route='object-server')
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self.node_timeout = int(conf.get('node_timeout', 3))
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self.conn_timeout = float(conf.get('conn_timeout', 0.5))
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self.client_timeout = int(conf.get('client_timeout', 60))
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self.disk_chunk_size = int(conf.get('disk_chunk_size', 65536))
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self.network_chunk_size = int(conf.get('network_chunk_size', 65536))
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self.log_requests = config_true_value(conf.get('log_requests', 'true'))
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self.max_upload_time = int(conf.get('max_upload_time', 86400))
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self.slow = int(conf.get('slow', 0))
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self.keep_cache_private = \
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config_true_value(conf.get('keep_cache_private', 'false'))
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replication_server = conf.get('replication_server', None)
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if replication_server is not None:
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replication_server = config_true_value(replication_server)
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self.replication_server = replication_server
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default_allowed_headers = '''
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content-disposition,
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content-encoding,
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x-delete-at,
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x-object-manifest,
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x-static-large-object,
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'''
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extra_allowed_headers = [
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header.strip().lower() for header in conf.get(
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'allowed_headers', default_allowed_headers).split(',')
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if header.strip()
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]
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self.allowed_headers = set()
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for header in extra_allowed_headers:
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if header not in DATAFILE_SYSTEM_META:
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self.allowed_headers.add(header)
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self.expiring_objects_account = \
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(conf.get('auto_create_account_prefix') or '.') + \
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(conf.get('expiring_objects_account_name') or 'expiring_objects')
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self.expiring_objects_container_divisor = \
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int(conf.get('expiring_objects_container_divisor') or 86400)
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# Initialization was successful, so now apply the network chunk size
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# parameter as the default read / write buffer size for the network
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# sockets.
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#
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# NOTE WELL: This is a class setting, so until we get set this on a
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# per-connection basis, this affects reading and writing on ALL
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# sockets, those between the proxy servers and external clients, and
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# those between the proxy servers and the other internal servers.
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#
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# ** Because the primary motivation for this is to optimize how data
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# is written back to the proxy server, we could use the value from the
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# disk_chunk_size parameter. However, it affects all created sockets
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# using this class so we have chosen to tie it to the
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# network_chunk_size parameter value instead.
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socket._fileobject.default_bufsize = self.network_chunk_size
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# Provide further setup sepecific to an object server implemenation.
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self.setup(conf)
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def setup(self, conf):
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"""
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Implementation specific setup. This method is called at the very end
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by the constructor to allow a specific implementation to modify
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existing attributes or add its own attributes.
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:param conf: WSGI configuration parameter
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"""
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# Common on-disk hierarchy shared across account, container and object
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# servers.
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self._diskfile_mgr = DiskFileManager(conf, self.logger)
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# This is populated by global_conf_callback way below as the semaphore
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# is shared by all workers.
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if 'replication_semaphore' in conf:
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# The value was put in a list so it could get past paste
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self.replication_semaphore = conf['replication_semaphore'][0]
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else:
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self.replication_semaphore = None
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self.replication_failure_threshold = int(
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conf.get('replication_failure_threshold') or 100)
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self.replication_failure_ratio = float(
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conf.get('replication_failure_ratio') or 1.0)
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def get_diskfile(self, device, partition, account, container, obj,
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**kwargs):
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"""
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Utility method for instantiating a DiskFile object supporting a given
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REST API.
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An implementation of the object server that wants to use a different
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DiskFile class would simply over-ride this method to provide that
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behavior.
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"""
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return self._diskfile_mgr.get_diskfile(
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device, partition, account, container, obj, **kwargs)
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def async_update(self, op, account, container, obj, host, partition,
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contdevice, headers_out, objdevice):
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"""
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Sends or saves an async update.
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:param op: operation performed (ex: 'PUT', or 'DELETE')
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:param account: account name for the object
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:param container: container name for the object
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:param obj: object name
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:param host: host that the container is on
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:param partition: partition that the container is on
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:param contdevice: device name that the container is on
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:param headers_out: dictionary of headers to send in the container
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request
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:param objdevice: device name that the object is in
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"""
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headers_out['user-agent'] = 'obj-server %s' % os.getpid()
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full_path = '/%s/%s/%s' % (account, container, obj)
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if all([host, partition, contdevice]):
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try:
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with ConnectionTimeout(self.conn_timeout):
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ip, port = host.rsplit(':', 1)
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conn = http_connect(ip, port, contdevice, partition, op,
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full_path, headers_out)
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with Timeout(self.node_timeout):
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response = conn.getresponse()
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response.read()
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if is_success(response.status):
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return
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else:
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self.logger.error(_(
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'ERROR Container update failed '
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'(saving for async update later): %(status)d '
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'response from %(ip)s:%(port)s/%(dev)s'),
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{'status': response.status, 'ip': ip, 'port': port,
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'dev': contdevice})
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except (Exception, Timeout):
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self.logger.exception(_(
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'ERROR container update failed with '
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'%(ip)s:%(port)s/%(dev)s (saving for async update later)'),
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{'ip': ip, 'port': port, 'dev': contdevice})
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data = {'op': op, 'account': account, 'container': container,
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'obj': obj, 'headers': headers_out}
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timestamp = headers_out['x-timestamp']
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self._diskfile_mgr.pickle_async_update(objdevice, account, container,
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obj, data, timestamp)
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def container_update(self, op, account, container, obj, request,
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headers_out, objdevice):
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"""
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Update the container when objects are updated.
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:param op: operation performed (ex: 'PUT', or 'DELETE')
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:param account: account name for the object
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:param container: container name for the object
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:param obj: object name
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:param request: the original request object driving the update
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:param headers_out: dictionary of headers to send in the container
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request(s)
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:param objdevice: device name that the object is in
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"""
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headers_in = request.headers
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conthosts = [h.strip() for h in
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headers_in.get('X-Container-Host', '').split(',')]
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contdevices = [d.strip() for d in
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headers_in.get('X-Container-Device', '').split(',')]
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contpartition = headers_in.get('X-Container-Partition', '')
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if len(conthosts) != len(contdevices):
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# This shouldn't happen unless there's a bug in the proxy,
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# but if there is, we want to know about it.
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self.logger.error(_('ERROR Container update failed: different '
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'numbers of hosts and devices in request: '
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'"%s" vs "%s"') %
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(headers_in.get('X-Container-Host', ''),
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headers_in.get('X-Container-Device', '')))
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return
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if contpartition:
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updates = zip(conthosts, contdevices)
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else:
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updates = []
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headers_out['x-trans-id'] = headers_in.get('x-trans-id', '-')
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headers_out['referer'] = request.as_referer()
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for conthost, contdevice in updates:
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self.async_update(op, account, container, obj, conthost,
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contpartition, contdevice, headers_out,
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objdevice)
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def delete_at_update(self, op, delete_at, account, container, obj,
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request, objdevice):
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"""
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Update the expiring objects container when objects are updated.
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:param op: operation performed (ex: 'PUT', or 'DELETE')
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:param delete_at: scheduled delete in UNIX seconds, int
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:param account: account name for the object
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:param container: container name for the object
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:param obj: object name
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:param request: the original request driving the update
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:param objdevice: device name that the object is in
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"""
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if config_true_value(
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request.headers.get('x-backend-replication', 'f')):
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return
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delete_at = normalize_delete_at_timestamp(delete_at)
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updates = [(None, None)]
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partition = None
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hosts = contdevices = [None]
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headers_in = request.headers
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headers_out = HeaderKeyDict({
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'x-timestamp': headers_in['x-timestamp'],
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'x-trans-id': headers_in.get('x-trans-id', '-'),
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'referer': request.as_referer()})
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if op != 'DELETE':
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delete_at_container = headers_in.get('X-Delete-At-Container', None)
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if not delete_at_container:
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self.logger.warning(
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'X-Delete-At-Container header must be specified for '
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'expiring objects background %s to work properly. Making '
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'best guess as to the container name for now.' % op)
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# TODO(gholt): In a future release, change the above warning to
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# a raised exception and remove the guess code below.
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delete_at_container = (
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int(delete_at) / self.expiring_objects_container_divisor *
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self.expiring_objects_container_divisor)
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partition = headers_in.get('X-Delete-At-Partition', None)
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hosts = headers_in.get('X-Delete-At-Host', '')
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contdevices = headers_in.get('X-Delete-At-Device', '')
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updates = [upd for upd in
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zip((h.strip() for h in hosts.split(',')),
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(c.strip() for c in contdevices.split(',')))
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if all(upd) and partition]
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if not updates:
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updates = [(None, None)]
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headers_out['x-size'] = '0'
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headers_out['x-content-type'] = 'text/plain'
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headers_out['x-etag'] = 'd41d8cd98f00b204e9800998ecf8427e'
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else:
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# DELETEs of old expiration data have no way of knowing what the
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# old X-Delete-At-Container was at the time of the initial setting
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# of the data, so a best guess is made here.
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# Worst case is a DELETE is issued now for something that doesn't
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# exist there and the original data is left where it is, where
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# it will be ignored when the expirer eventually tries to issue the
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# object DELETE later since the X-Delete-At value won't match up.
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delete_at_container = str(
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int(delete_at) / self.expiring_objects_container_divisor *
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self.expiring_objects_container_divisor)
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delete_at_container = normalize_delete_at_timestamp(
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delete_at_container)
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for host, contdevice in updates:
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self.async_update(
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op, self.expiring_objects_account, delete_at_container,
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'%s-%s/%s/%s' % (delete_at, account, container, obj),
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host, partition, contdevice, headers_out, objdevice)
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@public
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@timing_stats()
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def POST(self, request):
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"""Handle HTTP POST requests for the Swift Object Server."""
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device, partition, account, container, obj = \
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split_and_validate_path(request, 5, 5, True)
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if 'x-timestamp' not in request.headers or \
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not check_float(request.headers['x-timestamp']):
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return HTTPBadRequest(body='Missing timestamp', request=request,
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content_type='text/plain')
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new_delete_at = int(request.headers.get('X-Delete-At') or 0)
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if new_delete_at and new_delete_at < time.time():
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return HTTPBadRequest(body='X-Delete-At in past', request=request,
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content_type='text/plain')
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try:
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disk_file = self.get_diskfile(
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device, partition, account, container, obj)
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except DiskFileDeviceUnavailable:
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return HTTPInsufficientStorage(drive=device, request=request)
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try:
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orig_metadata = disk_file.read_metadata()
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except (DiskFileNotExist, DiskFileQuarantined):
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return HTTPNotFound(request=request)
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orig_timestamp = orig_metadata.get('X-Timestamp', '0')
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if orig_timestamp >= request.headers['x-timestamp']:
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return HTTPConflict(request=request)
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metadata = {'X-Timestamp': request.headers['x-timestamp']}
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metadata.update(val for val in request.headers.iteritems()
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if is_user_meta('object', val[0]))
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for header_key in self.allowed_headers:
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if header_key in request.headers:
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header_caps = header_key.title()
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metadata[header_caps] = request.headers[header_key]
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orig_delete_at = int(orig_metadata.get('X-Delete-At') or 0)
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if orig_delete_at != new_delete_at:
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if new_delete_at:
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self.delete_at_update('PUT', new_delete_at, account, container,
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obj, request, device)
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if orig_delete_at:
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self.delete_at_update('DELETE', orig_delete_at, account,
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container, obj, request, device)
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disk_file.write_metadata(metadata)
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return HTTPAccepted(request=request)
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@public
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@timing_stats()
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def PUT(self, request):
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"""Handle HTTP PUT requests for the Swift Object Server."""
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device, partition, account, container, obj = \
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split_and_validate_path(request, 5, 5, True)
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if 'x-timestamp' not in request.headers or \
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not check_float(request.headers['x-timestamp']):
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return HTTPBadRequest(body='Missing timestamp', request=request,
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content_type='text/plain')
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error_response = check_object_creation(request, obj)
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if error_response:
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return error_response
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new_delete_at = int(request.headers.get('X-Delete-At') or 0)
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if new_delete_at and new_delete_at < time.time():
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return HTTPBadRequest(body='X-Delete-At in past', request=request,
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content_type='text/plain')
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try:
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fsize = request.message_length()
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except ValueError as e:
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return HTTPBadRequest(body=str(e), request=request,
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content_type='text/plain')
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try:
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disk_file = self.get_diskfile(
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device, partition, account, container, obj)
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except DiskFileDeviceUnavailable:
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return HTTPInsufficientStorage(drive=device, request=request)
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try:
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orig_metadata = disk_file.read_metadata()
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except (DiskFileNotExist, DiskFileQuarantined):
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orig_metadata = {}
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orig_timestamp = orig_metadata.get('X-Timestamp')
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if orig_timestamp and orig_timestamp >= request.headers['x-timestamp']:
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return HTTPConflict(request=request)
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orig_delete_at = int(orig_metadata.get('X-Delete-At') or 0)
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upload_expiration = time.time() + self.max_upload_time
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etag = md5()
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elapsed_time = 0
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try:
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with disk_file.create(size=fsize) as writer:
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upload_size = 0
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reader = request.environ['wsgi.input'].read
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for chunk in iter(lambda: reader(self.network_chunk_size), ''):
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start_time = time.time()
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if start_time > upload_expiration:
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self.logger.increment('PUT.timeouts')
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return HTTPRequestTimeout(request=request)
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etag.update(chunk)
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upload_size = writer.write(chunk)
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elapsed_time += time.time() - start_time
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if upload_size:
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self.logger.transfer_rate(
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'PUT.' + device + '.timing', elapsed_time,
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upload_size)
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if fsize is not None and fsize != upload_size:
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return HTTPClientDisconnect(request=request)
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etag = etag.hexdigest()
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if 'etag' in request.headers and \
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request.headers['etag'].lower() != etag:
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return HTTPUnprocessableEntity(request=request)
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metadata = {
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'X-Timestamp': request.headers['x-timestamp'],
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'Content-Type': request.headers['content-type'],
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'ETag': etag,
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'Content-Length': str(upload_size),
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}
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metadata.update(val for val in request.headers.iteritems()
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if is_user_meta('object', val[0]))
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for header_key in (
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request.headers.get('X-Backend-Replication-Headers') or
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self.allowed_headers):
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if header_key in request.headers:
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header_caps = header_key.title()
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metadata[header_caps] = request.headers[header_key]
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writer.put(metadata)
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except DiskFileNoSpace:
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return HTTPInsufficientStorage(drive=device, request=request)
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if orig_delete_at != new_delete_at:
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if new_delete_at:
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self.delete_at_update(
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'PUT', new_delete_at, account, container, obj,
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request, device)
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if orig_delete_at:
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self.delete_at_update(
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'DELETE', orig_delete_at, account, container, obj,
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request, device)
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self.container_update(
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'PUT', account, container, obj, request,
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HeaderKeyDict({
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'x-size': metadata['Content-Length'],
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'x-content-type': metadata['Content-Type'],
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'x-timestamp': metadata['X-Timestamp'],
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|
'x-etag': metadata['ETag']}),
|
|
device)
|
|
return HTTPCreated(request=request, etag=etag)
|
|
|
|
@public
|
|
@timing_stats()
|
|
def GET(self, request):
|
|
"""Handle HTTP GET requests for the Swift Object Server."""
|
|
device, partition, account, container, obj = \
|
|
split_and_validate_path(request, 5, 5, True)
|
|
keep_cache = self.keep_cache_private or (
|
|
'X-Auth-Token' not in request.headers and
|
|
'X-Storage-Token' not in request.headers)
|
|
try:
|
|
disk_file = self.get_diskfile(
|
|
device, partition, account, container, obj)
|
|
except DiskFileDeviceUnavailable:
|
|
return HTTPInsufficientStorage(drive=device, request=request)
|
|
try:
|
|
with disk_file.open():
|
|
metadata = disk_file.get_metadata()
|
|
obj_size = int(metadata['Content-Length'])
|
|
file_x_ts = metadata['X-Timestamp']
|
|
file_x_ts_flt = float(file_x_ts)
|
|
try:
|
|
if_unmodified_since = request.if_unmodified_since
|
|
except (OverflowError, ValueError):
|
|
# catches timestamps before the epoch
|
|
return HTTPPreconditionFailed(request=request)
|
|
file_x_ts_utc = datetime.fromtimestamp(file_x_ts_flt, UTC)
|
|
if if_unmodified_since and file_x_ts_utc > if_unmodified_since:
|
|
return HTTPPreconditionFailed(request=request)
|
|
try:
|
|
if_modified_since = request.if_modified_since
|
|
except (OverflowError, ValueError):
|
|
# catches timestamps before the epoch
|
|
return HTTPPreconditionFailed(request=request)
|
|
if if_modified_since and file_x_ts_utc <= if_modified_since:
|
|
return HTTPNotModified(request=request)
|
|
keep_cache = (self.keep_cache_private or
|
|
('X-Auth-Token' not in request.headers and
|
|
'X-Storage-Token' not in request.headers))
|
|
response = Response(
|
|
app_iter=disk_file.reader(keep_cache=keep_cache),
|
|
request=request, conditional_response=True)
|
|
response.headers['Content-Type'] = metadata.get(
|
|
'Content-Type', 'application/octet-stream')
|
|
for key, value in metadata.iteritems():
|
|
if is_user_meta('object', key) or \
|
|
key.lower() in self.allowed_headers:
|
|
response.headers[key] = value
|
|
response.etag = metadata['ETag']
|
|
response.last_modified = math.ceil(file_x_ts_flt)
|
|
response.content_length = obj_size
|
|
try:
|
|
response.content_encoding = metadata[
|
|
'Content-Encoding']
|
|
except KeyError:
|
|
pass
|
|
response.headers['X-Timestamp'] = file_x_ts
|
|
resp = request.get_response(response)
|
|
except (DiskFileNotExist, DiskFileQuarantined):
|
|
resp = HTTPNotFound(request=request, conditional_response=True)
|
|
return resp
|
|
|
|
@public
|
|
@timing_stats(sample_rate=0.8)
|
|
def HEAD(self, request):
|
|
"""Handle HTTP HEAD requests for the Swift Object Server."""
|
|
device, partition, account, container, obj = \
|
|
split_and_validate_path(request, 5, 5, True)
|
|
try:
|
|
disk_file = self.get_diskfile(
|
|
device, partition, account, container, obj)
|
|
except DiskFileDeviceUnavailable:
|
|
return HTTPInsufficientStorage(drive=device, request=request)
|
|
try:
|
|
metadata = disk_file.read_metadata()
|
|
except (DiskFileNotExist, DiskFileQuarantined):
|
|
return HTTPNotFound(request=request, conditional_response=True)
|
|
response = Response(request=request, conditional_response=True)
|
|
response.headers['Content-Type'] = metadata.get(
|
|
'Content-Type', 'application/octet-stream')
|
|
for key, value in metadata.iteritems():
|
|
if is_user_meta('object', key) or \
|
|
key.lower() in self.allowed_headers:
|
|
response.headers[key] = value
|
|
response.etag = metadata['ETag']
|
|
ts = metadata['X-Timestamp']
|
|
response.last_modified = math.ceil(float(ts))
|
|
# Needed for container sync feature
|
|
response.headers['X-Timestamp'] = ts
|
|
response.content_length = int(metadata['Content-Length'])
|
|
try:
|
|
response.content_encoding = metadata['Content-Encoding']
|
|
except KeyError:
|
|
pass
|
|
return response
|
|
|
|
@public
|
|
@timing_stats()
|
|
def DELETE(self, request):
|
|
"""Handle HTTP DELETE requests for the Swift Object Server."""
|
|
device, partition, account, container, obj = \
|
|
split_and_validate_path(request, 5, 5, True)
|
|
if 'x-timestamp' not in request.headers or \
|
|
not check_float(request.headers['x-timestamp']):
|
|
return HTTPBadRequest(body='Missing timestamp', request=request,
|
|
content_type='text/plain')
|
|
try:
|
|
disk_file = self.get_diskfile(
|
|
device, partition, account, container, obj)
|
|
except DiskFileDeviceUnavailable:
|
|
return HTTPInsufficientStorage(drive=device, request=request)
|
|
try:
|
|
orig_metadata = disk_file.read_metadata()
|
|
except DiskFileExpired as e:
|
|
orig_timestamp = e.timestamp
|
|
orig_metadata = e.metadata
|
|
response_class = HTTPNotFound
|
|
except DiskFileDeleted as e:
|
|
orig_timestamp = e.timestamp
|
|
orig_metadata = {}
|
|
response_class = HTTPNotFound
|
|
except (DiskFileNotExist, DiskFileQuarantined):
|
|
orig_timestamp = 0
|
|
orig_metadata = {}
|
|
response_class = HTTPNotFound
|
|
else:
|
|
orig_timestamp = orig_metadata.get('X-Timestamp', 0)
|
|
if orig_timestamp < request.headers['x-timestamp']:
|
|
response_class = HTTPNoContent
|
|
else:
|
|
response_class = HTTPConflict
|
|
orig_delete_at = int(orig_metadata.get('X-Delete-At') or 0)
|
|
try:
|
|
req_if_delete_at_val = request.headers['x-if-delete-at']
|
|
req_if_delete_at = int(req_if_delete_at_val)
|
|
except KeyError:
|
|
pass
|
|
except ValueError:
|
|
return HTTPBadRequest(
|
|
request=request,
|
|
body='Bad X-If-Delete-At header value')
|
|
else:
|
|
if orig_delete_at != req_if_delete_at:
|
|
return HTTPPreconditionFailed(
|
|
request=request,
|
|
body='X-If-Delete-At and X-Delete-At do not match')
|
|
if orig_delete_at:
|
|
self.delete_at_update('DELETE', orig_delete_at, account,
|
|
container, obj, request, device)
|
|
req_timestamp = request.headers['X-Timestamp']
|
|
if orig_timestamp < req_timestamp:
|
|
disk_file.delete(req_timestamp)
|
|
self.container_update(
|
|
'DELETE', account, container, obj, request,
|
|
HeaderKeyDict({'x-timestamp': req_timestamp}),
|
|
device)
|
|
return response_class(request=request)
|
|
|
|
@public
|
|
@replication
|
|
@timing_stats(sample_rate=0.1)
|
|
def REPLICATE(self, request):
|
|
"""
|
|
Handle REPLICATE requests for the Swift Object Server. This is used
|
|
by the object replicator to get hashes for directories.
|
|
"""
|
|
device, partition, suffix = split_and_validate_path(
|
|
request, 2, 3, True)
|
|
try:
|
|
hashes = self._diskfile_mgr.get_hashes(device, partition, suffix)
|
|
except DiskFileDeviceUnavailable:
|
|
resp = HTTPInsufficientStorage(drive=device, request=request)
|
|
else:
|
|
resp = Response(body=pickle.dumps(hashes))
|
|
return resp
|
|
|
|
@public
|
|
@replication
|
|
@timing_stats(sample_rate=0.1)
|
|
def REPLICATION(self, request):
|
|
return Response(app_iter=ssync_receiver.Receiver(self, request)())
|
|
|
|
def __call__(self, env, start_response):
|
|
"""WSGI Application entry point for the Swift Object Server."""
|
|
start_time = time.time()
|
|
req = Request(env)
|
|
self.logger.txn_id = req.headers.get('x-trans-id', None)
|
|
|
|
if not check_utf8(req.path_info):
|
|
res = HTTPPreconditionFailed(body='Invalid UTF8 or contains NULL')
|
|
else:
|
|
try:
|
|
# disallow methods which have not been marked 'public'
|
|
try:
|
|
method = getattr(self, req.method)
|
|
getattr(method, 'publicly_accessible')
|
|
replication_method = getattr(method, 'replication', False)
|
|
if (self.replication_server is not None and
|
|
self.replication_server != replication_method):
|
|
raise AttributeError('Not allowed method.')
|
|
except AttributeError:
|
|
res = HTTPMethodNotAllowed()
|
|
else:
|
|
res = method(req)
|
|
except DiskFileCollision:
|
|
res = HTTPForbidden(request=req)
|
|
except HTTPException as error_response:
|
|
res = error_response
|
|
except (Exception, Timeout):
|
|
self.logger.exception(_(
|
|
'ERROR __call__ error with %(method)s'
|
|
' %(path)s '), {'method': req.method, 'path': req.path})
|
|
res = HTTPInternalServerError(body=traceback.format_exc())
|
|
trans_time = time.time() - start_time
|
|
if self.log_requests:
|
|
log_line = '%s - - [%s] "%s %s" %s %s "%s" "%s" "%s" %.4f' % (
|
|
req.remote_addr,
|
|
time.strftime('%d/%b/%Y:%H:%M:%S +0000',
|
|
time.gmtime()),
|
|
req.method, req.path, res.status.split()[0],
|
|
res.content_length or '-', req.referer or '-',
|
|
req.headers.get('x-trans-id', '-'),
|
|
req.user_agent or '-',
|
|
trans_time)
|
|
if req.method in ('REPLICATE', 'REPLICATION') or \
|
|
'X-Backend-Replication' in req.headers:
|
|
self.logger.debug(log_line)
|
|
else:
|
|
self.logger.info(log_line)
|
|
if req.method in ('PUT', 'DELETE'):
|
|
slow = self.slow - trans_time
|
|
if slow > 0:
|
|
sleep(slow)
|
|
return res(env, start_response)
|
|
|
|
|
|
def global_conf_callback(preloaded_app_conf, global_conf):
|
|
"""
|
|
Callback for swift.common.wsgi.run_wsgi during the global_conf
|
|
creation so that we can add our replication_semaphore, used to
|
|
limit the number of concurrent REPLICATION_REQUESTS across all
|
|
workers.
|
|
|
|
:param preloaded_app_conf: The preloaded conf for the WSGI app.
|
|
This conf instance will go away, so
|
|
just read from it, don't write.
|
|
:param global_conf: The global conf that will eventually be
|
|
passed to the app_factory function later.
|
|
This conf is created before the worker
|
|
subprocesses are forked, so can be useful to
|
|
set up semaphores, shared memory, etc.
|
|
"""
|
|
replication_concurrency = int(
|
|
preloaded_app_conf.get('replication_concurrency') or 4)
|
|
if replication_concurrency:
|
|
# Have to put the value in a list so it can get past paste
|
|
global_conf['replication_semaphore'] = [
|
|
multiprocessing.BoundedSemaphore(replication_concurrency)]
|
|
|
|
|
|
def app_factory(global_conf, **local_conf):
|
|
"""paste.deploy app factory for creating WSGI object server apps"""
|
|
conf = global_conf.copy()
|
|
conf.update(local_conf)
|
|
return ObjectController(conf)
|