swift/test/unit/proxy/test_server.py
Tim Burke e8a80e874a Let users know entity size in 416 responses
If a user sends a Range header with no satisfiable ranges, we send back
a 416 Requested Range Not Satisfiable response. Previously however,
there would be no indication of the size of the object they were
requesting, so they wouldn't know how to craft a satisfiable range. We
*do* send a Content-Length, but it is (correctly) the length of the
error message.

The RFC [1] has an answer for this:

>  A server generating a 416 (Range Not Satisfiable) response to a
>  byte-range request SHOULD send a Content-Range header field with an
>  unsatisfied-range value, as in the following example:
>
>    Content-Range: bytes */1234
>
>  The complete-length in a 416 response indicates the current length of
>  the selected representation.

Now, we'll send a Content-Range header for all 416 responses, including
those coming from the object server as well as those generated on a
proxy because of the Range mangling required to support EC policies.

[1] RFC 7233, section 4.2, although similar language was used in RFC
2616, sections 10.4.17 and 14.16

Change-Id: I80c7390fc6f84a10a212b0641bb07a64dfccbd45
2016-11-30 10:52:08 -08:00

9043 lines
387 KiB
Python

# -*- coding: utf-8 -*-
# Copyright (c) 2010-2016 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from __future__ import print_function
import email.parser
import logging
import json
import math
import os
import sys
import traceback
import unittest
from contextlib import contextmanager
from shutil import rmtree, copyfile, move
import gc
import time
from textwrap import dedent
from hashlib import md5
import collections
from pyeclib.ec_iface import ECDriverError
from tempfile import mkdtemp, NamedTemporaryFile
import weakref
import operator
import functools
from swift.obj import diskfile
import re
import random
from collections import defaultdict
import uuid
import mock
from eventlet import sleep, spawn, wsgi, listen, Timeout, debug
from eventlet.green import httplib
from six import BytesIO
from six import StringIO
from six.moves import range
from six.moves.urllib.parse import quote
from swift.common.utils import hash_path, storage_directory, \
parse_content_type, parse_mime_headers, \
iter_multipart_mime_documents, public
from test.unit import (
connect_tcp, readuntil2crlfs, FakeLogger, fake_http_connect, FakeRing,
FakeMemcache, debug_logger, patch_policies, write_fake_ring,
mocked_http_conn, DEFAULT_TEST_EC_TYPE, make_timestamp_iter)
from swift.proxy import server as proxy_server
from swift.proxy.controllers.obj import ReplicatedObjectController
from swift.obj import server as object_server
from swift.common.middleware import proxy_logging, versioned_writes, \
copy
from swift.common.middleware.acl import parse_acl, format_acl
from swift.common.exceptions import ChunkReadTimeout, DiskFileNotExist, \
APIVersionError, ChunkWriteTimeout
from swift.common import utils, constraints
from swift.common.utils import mkdirs, NullLogger
from swift.common.wsgi import monkey_patch_mimetools, loadapp
from swift.proxy.controllers import base as proxy_base
from swift.proxy.controllers.base import get_cache_key, cors_validation, \
get_account_info, get_container_info
import swift.proxy.controllers
import swift.proxy.controllers.obj
from swift.common.header_key_dict import HeaderKeyDict
from swift.common.swob import Request, Response, HTTPUnauthorized, \
HTTPException, HTTPBadRequest
from swift.common.storage_policy import StoragePolicy, POLICIES
import swift.common.request_helpers
from swift.common.request_helpers import get_sys_meta_prefix
from test.unit.helpers import setup_servers, teardown_servers
# mocks
logging.getLogger().addHandler(logging.StreamHandler(sys.stdout))
STATIC_TIME = time.time()
_test_context = _test_servers = _test_sockets = _testdir = \
_test_POLICIES = None
def do_setup(object_server):
# setup test context and break out some globals for convenience
global _test_context, _testdir, _test_servers, _test_sockets, \
_test_POLICIES
monkey_patch_mimetools()
_test_context = setup_servers(object_server)
_testdir = _test_context["testdir"]
_test_servers = _test_context["test_servers"]
_test_sockets = _test_context["test_sockets"]
_test_POLICIES = _test_context["test_POLICIES"]
def unpatch_policies(f):
"""
This will unset a TestCase level patch_policies to use the module level
policies setup for the _test_servers instead.
N.B. You should NEVER modify the _test_server policies or rings during a
test because they persist for the life of the entire module!
"""
@functools.wraps(f)
def wrapper(*args, **kwargs):
with patch_policies(_test_POLICIES):
return f(*args, **kwargs)
return wrapper
def setup():
do_setup(object_server)
def teardown():
teardown_servers(_test_context)
def sortHeaderNames(headerNames):
"""
Return the given string of header names sorted.
headerName: a comma-delimited list of header names
"""
headers = [a.strip() for a in headerNames.split(',') if a.strip()]
headers.sort()
return ', '.join(headers)
def parse_headers_string(headers_str):
headers_dict = HeaderKeyDict()
for line in headers_str.split('\r\n'):
if ': ' in line:
header, value = line.split(': ', 1)
headers_dict[header] = value
return headers_dict
def node_error_count(proxy_app, ring_node):
# Reach into the proxy's internals to get the error count for a
# particular node
node_key = proxy_app._error_limit_node_key(ring_node)
return proxy_app._error_limiting.get(node_key, {}).get('errors', 0)
def node_last_error(proxy_app, ring_node):
# Reach into the proxy's internals to get the last error for a
# particular node
node_key = proxy_app._error_limit_node_key(ring_node)
return proxy_app._error_limiting.get(node_key, {}).get('last_error')
def set_node_errors(proxy_app, ring_node, value, last_error):
# Set the node's error count to value
node_key = proxy_app._error_limit_node_key(ring_node)
stats = proxy_app._error_limiting.setdefault(node_key, {})
stats['errors'] = value
stats['last_error'] = last_error
class FakeMemcacheReturnsNone(FakeMemcache):
def get(self, key):
# Returns None as the timestamp of the container; assumes we're only
# using the FakeMemcache for container existence checks.
return None
@contextmanager
def save_globals():
orig_http_connect = getattr(swift.proxy.controllers.base, 'http_connect',
None)
orig_account_info = getattr(swift.proxy.controllers.Controller,
'account_info', None)
orig_container_info = getattr(swift.proxy.controllers.Controller,
'container_info', None)
try:
yield True
finally:
swift.proxy.controllers.Controller.account_info = orig_account_info
swift.proxy.controllers.base.http_connect = orig_http_connect
swift.proxy.controllers.obj.http_connect = orig_http_connect
swift.proxy.controllers.account.http_connect = orig_http_connect
swift.proxy.controllers.container.http_connect = orig_http_connect
swift.proxy.controllers.Controller.container_info = orig_container_info
def set_http_connect(*args, **kwargs):
new_connect = fake_http_connect(*args, **kwargs)
swift.proxy.controllers.base.http_connect = new_connect
swift.proxy.controllers.obj.http_connect = new_connect
swift.proxy.controllers.account.http_connect = new_connect
swift.proxy.controllers.container.http_connect = new_connect
return new_connect
def _make_callback_func(calls):
def callback(ipaddr, port, device, partition, method, path,
headers=None, query_string=None, ssl=False):
context = {}
context['method'] = method
context['path'] = path
context['headers'] = headers or {}
calls.append(context)
return callback
def _limit_max_file_size(f):
"""
This will limit constraints.MAX_FILE_SIZE for the duration of the
wrapped function, based on whether MAX_FILE_SIZE exceeds the
sys.maxsize limit on the system running the tests.
This allows successful testing on 32 bit systems.
"""
@functools.wraps(f)
def wrapper(*args, **kwargs):
test_max_file_size = constraints.MAX_FILE_SIZE
if constraints.MAX_FILE_SIZE >= sys.maxsize:
test_max_file_size = (2 ** 30 + 2)
with mock.patch.object(constraints, 'MAX_FILE_SIZE',
test_max_file_size):
return f(*args, **kwargs)
return wrapper
# tests
class TestController(unittest.TestCase):
def setUp(self):
self.account_ring = FakeRing()
self.container_ring = FakeRing()
self.memcache = FakeMemcache()
app = proxy_server.Application(None, self.memcache,
account_ring=self.account_ring,
container_ring=self.container_ring)
self.controller = swift.proxy.controllers.Controller(app)
class FakeReq(object):
def __init__(self):
self.url = "/foo/bar"
self.method = "METHOD"
def as_referer(self):
return self.method + ' ' + self.url
self.account = 'some_account'
self.container = 'some_container'
self.request = FakeReq()
self.read_acl = 'read_acl'
self.write_acl = 'write_acl'
def test_transfer_headers(self):
src_headers = {'x-remove-base-meta-owner': 'x',
'x-base-meta-size': '151M',
'new-owner': 'Kun'}
dst_headers = {'x-base-meta-owner': 'Gareth',
'x-base-meta-size': '150M'}
self.controller.transfer_headers(src_headers, dst_headers)
expected_headers = {'x-base-meta-owner': '',
'x-base-meta-size': '151M'}
self.assertEqual(dst_headers, expected_headers)
def check_account_info_return(self, partition, nodes, is_none=False):
if is_none:
p, n = None, None
else:
p, n = self.account_ring.get_nodes(self.account)
self.assertEqual(p, partition)
self.assertEqual(n, nodes)
def test_account_info_container_count(self):
with save_globals():
set_http_connect(200, count=123)
partition, nodes, count = \
self.controller.account_info(self.account)
self.assertEqual(count, 123)
with save_globals():
set_http_connect(200, count='123')
partition, nodes, count = \
self.controller.account_info(self.account)
self.assertEqual(count, 123)
with save_globals():
cache_key = get_cache_key(self.account)
account_info = {'status': 200, 'container_count': 1234}
self.memcache.set(cache_key, account_info)
partition, nodes, count = \
self.controller.account_info(self.account)
self.assertEqual(count, 1234)
with save_globals():
cache_key = get_cache_key(self.account)
account_info = {'status': 200, 'container_count': '1234'}
self.memcache.set(cache_key, account_info)
partition, nodes, count = \
self.controller.account_info(self.account)
self.assertEqual(count, 1234)
def test_make_requests(self):
with save_globals():
set_http_connect(200)
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
set_http_connect(201, raise_timeout_exc=True)
self.controller._make_request(
nodes, partition, 'POST', '/', '', '',
self.controller.app.logger.thread_locals)
# tests if 200 is cached and used
def test_account_info_200(self):
with save_globals():
set_http_connect(200)
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.check_account_info_return(partition, nodes)
self.assertEqual(count, 12345)
# Test the internal representation in memcache
# 'container_count' changed from int to str
cache_key = get_cache_key(self.account)
container_info = {'status': 200,
'account_really_exists': True,
'container_count': '12345',
'total_object_count': None,
'bytes': None,
'meta': {},
'sysmeta': {}}
self.assertEqual(container_info,
self.memcache.get(cache_key))
set_http_connect()
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.check_account_info_return(partition, nodes)
self.assertEqual(count, 12345)
# tests if 404 is cached and used
def test_account_info_404(self):
with save_globals():
set_http_connect(404, 404, 404)
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.check_account_info_return(partition, nodes, True)
self.assertIsNone(count)
# Test the internal representation in memcache
# 'container_count' changed from 0 to None
cache_key = get_cache_key(self.account)
account_info = {'status': 404,
'container_count': None, # internally keep None
'total_object_count': None,
'bytes': None,
'meta': {},
'sysmeta': {}}
self.assertEqual(account_info,
self.memcache.get(cache_key))
set_http_connect()
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.check_account_info_return(partition, nodes, True)
self.assertIsNone(count)
# tests if some http status codes are not cached
def test_account_info_no_cache(self):
def test(*status_list):
set_http_connect(*status_list)
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.assertEqual(len(self.memcache.keys()), 0)
self.check_account_info_return(partition, nodes, True)
self.assertIsNone(count)
with save_globals():
# We cache if we have two 404 responses - fail if only one
test(503, 503, 404)
test(504, 404, 503)
test(404, 507, 503)
test(503, 503, 503)
def test_account_info_no_account(self):
with save_globals():
self.memcache.store = {}
set_http_connect(404, 404, 404)
partition, nodes, count = \
self.controller.account_info(self.account, self.request)
self.check_account_info_return(partition, nodes, is_none=True)
self.assertIsNone(count)
def check_container_info_return(self, ret, is_none=False):
if is_none:
partition, nodes, read_acl, write_acl = None, None, None, None
else:
partition, nodes = self.container_ring.get_nodes(self.account,
self.container)
read_acl, write_acl = self.read_acl, self.write_acl
self.assertEqual(partition, ret['partition'])
self.assertEqual(nodes, ret['nodes'])
self.assertEqual(read_acl, ret['read_acl'])
self.assertEqual(write_acl, ret['write_acl'])
def test_container_info_invalid_account(self):
def account_info(self, account, request, autocreate=False):
return None, None
with save_globals():
swift.proxy.controllers.Controller.account_info = account_info
ret = self.controller.container_info(self.account,
self.container,
self.request)
self.check_container_info_return(ret, True)
# tests if 200 is cached and used
def test_container_info_200(self):
with save_globals():
headers = {'x-container-read': self.read_acl,
'x-container-write': self.write_acl}
set_http_connect(200, # account_info is found
200, headers=headers) # container_info is found
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret)
cache_key = get_cache_key(self.account, self.container)
cache_value = self.memcache.get(cache_key)
self.assertIsInstance(cache_value, dict)
self.assertEqual(200, cache_value.get('status'))
set_http_connect()
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret)
# tests if 404 is cached and used
def test_container_info_404(self):
def account_info(self, account, request):
return True, True, 0
with save_globals():
set_http_connect(503, 204, # account_info found
504, 404, 404) # container_info 'NotFound'
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret, True)
cache_key = get_cache_key(self.account, self.container)
cache_value = self.memcache.get(cache_key)
self.assertIsInstance(cache_value, dict)
self.assertEqual(404, cache_value.get('status'))
set_http_connect()
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret, True)
set_http_connect(503, 404, 404) # account_info 'NotFound'
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret, True)
cache_key = get_cache_key(self.account, self.container)
cache_value = self.memcache.get(cache_key)
self.assertIsInstance(cache_value, dict)
self.assertEqual(404, cache_value.get('status'))
set_http_connect()
ret = self.controller.container_info(
self.account, self.container, self.request)
self.check_container_info_return(ret, True)
# tests if some http status codes are not cached
def test_container_info_no_cache(self):
def test(*status_list):
set_http_connect(*status_list)
ret = self.controller.container_info(
self.account, self.container, self.request)
self.assertEqual(len(self.memcache.keys()), 0)
self.check_container_info_return(ret, True)
with save_globals():
# We cache if we have two 404 responses - fail if only one
test(503, 503, 404)
test(504, 404, 503)
test(404, 507, 503)
test(503, 503, 503)
def test_get_account_info_returns_values_as_strings(self):
app = mock.MagicMock()
app.memcache = mock.MagicMock()
app.memcache.get = mock.MagicMock()
app.memcache.get.return_value = {
u'foo': u'\u2603',
u'meta': {u'bar': u'\u2603'},
u'sysmeta': {u'baz': u'\u2603'}}
env = {'PATH_INFO': '/v1/a'}
ai = get_account_info(env, app)
# Test info is returned as strings
self.assertEqual(ai.get('foo'), '\xe2\x98\x83')
self.assertIsInstance(ai.get('foo'), str)
# Test info['meta'] is returned as strings
m = ai.get('meta', {})
self.assertEqual(m.get('bar'), '\xe2\x98\x83')
self.assertIsInstance(m.get('bar'), str)
# Test info['sysmeta'] is returned as strings
m = ai.get('sysmeta', {})
self.assertEqual(m.get('baz'), '\xe2\x98\x83')
self.assertIsInstance(m.get('baz'), str)
def test_get_container_info_returns_values_as_strings(self):
app = mock.MagicMock()
app.memcache = mock.MagicMock()
app.memcache.get = mock.MagicMock()
app.memcache.get.return_value = {
u'foo': u'\u2603',
u'meta': {u'bar': u'\u2603'},
u'sysmeta': {u'baz': u'\u2603'},
u'cors': {u'expose_headers': u'\u2603'}}
env = {'PATH_INFO': '/v1/a/c'}
ci = get_container_info(env, app)
# Test info is returned as strings
self.assertEqual(ci.get('foo'), '\xe2\x98\x83')
self.assertIsInstance(ci.get('foo'), str)
# Test info['meta'] is returned as strings
m = ci.get('meta', {})
self.assertEqual(m.get('bar'), '\xe2\x98\x83')
self.assertIsInstance(m.get('bar'), str)
# Test info['sysmeta'] is returned as strings
m = ci.get('sysmeta', {})
self.assertEqual(m.get('baz'), '\xe2\x98\x83')
self.assertIsInstance(m.get('baz'), str)
# Test info['cors'] is returned as strings
m = ci.get('cors', {})
self.assertEqual(m.get('expose_headers'), '\xe2\x98\x83')
self.assertIsInstance(m.get('expose_headers'), str)
@patch_policies([StoragePolicy(0, 'zero', True, object_ring=FakeRing())])
class TestProxyServer(unittest.TestCase):
def test_creation(self):
# later config should be extended to assert more config options
app = proxy_server.Application({'node_timeout': '3.5',
'recoverable_node_timeout': '1.5'},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
self.assertEqual(app.node_timeout, 3.5)
self.assertEqual(app.recoverable_node_timeout, 1.5)
def test_get_object_ring(self):
baseapp = proxy_server.Application({},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
with patch_policies([
StoragePolicy(0, 'a', False, object_ring=123),
StoragePolicy(1, 'b', True, object_ring=456),
StoragePolicy(2, 'd', False, object_ring=789)
]):
# None means legacy so always use policy 0
ring = baseapp.get_object_ring(None)
self.assertEqual(ring, 123)
ring = baseapp.get_object_ring('')
self.assertEqual(ring, 123)
ring = baseapp.get_object_ring('0')
self.assertEqual(ring, 123)
ring = baseapp.get_object_ring('1')
self.assertEqual(ring, 456)
ring = baseapp.get_object_ring('2')
self.assertEqual(ring, 789)
# illegal values
self.assertRaises(ValueError, baseapp.get_object_ring, '99')
self.assertRaises(ValueError, baseapp.get_object_ring, 'asdf')
def test_unhandled_exception(self):
class MyApp(proxy_server.Application):
def get_controller(self, path):
raise Exception('this shouldn\'t be caught')
app = MyApp(None, FakeMemcache(), account_ring=FakeRing(),
container_ring=FakeRing())
req = Request.blank('/v1/account', environ={'REQUEST_METHOD': 'HEAD'})
app.update_request(req)
resp = app.handle_request(req)
self.assertEqual(resp.status_int, 500)
def test_internal_method_request(self):
baseapp = proxy_server.Application({},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
resp = baseapp.handle_request(
Request.blank('/v1/a', environ={'REQUEST_METHOD': '__init__'}))
self.assertEqual(resp.status, '405 Method Not Allowed')
def test_inexistent_method_request(self):
baseapp = proxy_server.Application({},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
resp = baseapp.handle_request(
Request.blank('/v1/a', environ={'REQUEST_METHOD': '!invalid'}))
self.assertEqual(resp.status, '405 Method Not Allowed')
def test_calls_authorize_allow(self):
called = [False]
def authorize(req):
called[0] = True
with save_globals():
set_http_connect(200)
app = proxy_server.Application(None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
req = Request.blank('/v1/a')
req.environ['swift.authorize'] = authorize
app.update_request(req)
app.handle_request(req)
self.assertTrue(called[0])
def test_calls_authorize_deny(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
app = proxy_server.Application(None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
req = Request.blank('/v1/a')
req.environ['swift.authorize'] = authorize
app.update_request(req)
app.handle_request(req)
self.assertTrue(called[0])
def test_negative_content_length(self):
swift_dir = mkdtemp()
try:
baseapp = proxy_server.Application({'swift_dir': swift_dir},
FakeMemcache(), FakeLogger(),
FakeRing(), FakeRing())
resp = baseapp.handle_request(
Request.blank('/', environ={'CONTENT_LENGTH': '-1'}))
self.assertEqual(resp.status, '400 Bad Request')
self.assertEqual(resp.body, 'Invalid Content-Length')
resp = baseapp.handle_request(
Request.blank('/', environ={'CONTENT_LENGTH': '-123'}))
self.assertEqual(resp.status, '400 Bad Request')
self.assertEqual(resp.body, 'Invalid Content-Length')
finally:
rmtree(swift_dir, ignore_errors=True)
def test_adds_transaction_id(self):
swift_dir = mkdtemp()
try:
logger = FakeLogger()
baseapp = proxy_server.Application({'swift_dir': swift_dir},
FakeMemcache(), logger,
container_ring=FakeLogger(),
account_ring=FakeRing())
baseapp.handle_request(
Request.blank('/info',
environ={'HTTP_X_TRANS_ID_EXTRA': 'sardine',
'REQUEST_METHOD': 'GET'}))
# This is kind of a hokey way to get the transaction ID; it'd be
# better to examine response headers, but the catch_errors
# middleware is what sets the X-Trans-Id header, and we don't have
# that available here.
self.assertTrue(logger.txn_id.endswith('-sardine'))
finally:
rmtree(swift_dir, ignore_errors=True)
def test_adds_transaction_id_length_limit(self):
swift_dir = mkdtemp()
try:
logger = FakeLogger()
baseapp = proxy_server.Application({'swift_dir': swift_dir},
FakeMemcache(), logger,
container_ring=FakeLogger(),
account_ring=FakeRing())
baseapp.handle_request(
Request.blank('/info',
environ={'HTTP_X_TRANS_ID_EXTRA': 'a' * 1000,
'REQUEST_METHOD': 'GET'}))
self.assertTrue(logger.txn_id.endswith(
'-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa'))
finally:
rmtree(swift_dir, ignore_errors=True)
def test_denied_host_header(self):
swift_dir = mkdtemp()
try:
baseapp = proxy_server.Application({'swift_dir': swift_dir,
'deny_host_headers':
'invalid_host.com'},
FakeMemcache(),
container_ring=FakeLogger(),
account_ring=FakeRing())
resp = baseapp.handle_request(
Request.blank('/v1/a/c/o',
environ={'HTTP_HOST': 'invalid_host.com'}))
self.assertEqual(resp.status, '403 Forbidden')
finally:
rmtree(swift_dir, ignore_errors=True)
def test_node_timing(self):
baseapp = proxy_server.Application({'sorting_method': 'timing'},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
self.assertEqual(baseapp.node_timings, {})
req = Request.blank('/v1/account', environ={'REQUEST_METHOD': 'HEAD'})
baseapp.update_request(req)
resp = baseapp.handle_request(req)
self.assertEqual(resp.status_int, 503) # couldn't connect to anything
exp_timings = {}
self.assertEqual(baseapp.node_timings, exp_timings)
times = [time.time()]
exp_timings = {'127.0.0.1': (0.1, times[0] + baseapp.timing_expiry)}
with mock.patch('swift.proxy.server.time', lambda: times.pop(0)):
baseapp.set_node_timing({'ip': '127.0.0.1'}, 0.1)
self.assertEqual(baseapp.node_timings, exp_timings)
nodes = [{'ip': '127.0.0.1'}, {'ip': '127.0.0.2'}, {'ip': '127.0.0.3'}]
with mock.patch('swift.proxy.server.shuffle', lambda l: l):
res = baseapp.sort_nodes(nodes)
exp_sorting = [{'ip': '127.0.0.2'}, {'ip': '127.0.0.3'},
{'ip': '127.0.0.1'}]
self.assertEqual(res, exp_sorting)
def test_node_affinity(self):
baseapp = proxy_server.Application({'sorting_method': 'affinity',
'read_affinity': 'r1=1'},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
nodes = [{'region': 2, 'zone': 1, 'ip': '127.0.0.1'},
{'region': 1, 'zone': 2, 'ip': '127.0.0.2'}]
with mock.patch('swift.proxy.server.shuffle', lambda x: x):
app_sorted = baseapp.sort_nodes(nodes)
exp_sorted = [{'region': 1, 'zone': 2, 'ip': '127.0.0.2'},
{'region': 2, 'zone': 1, 'ip': '127.0.0.1'}]
self.assertEqual(exp_sorted, app_sorted)
def test_node_concurrency(self):
nodes = [{'region': 1, 'zone': 1, 'ip': '127.0.0.1', 'port': 6010,
'device': 'sda'},
{'region': 2, 'zone': 2, 'ip': '127.0.0.2', 'port': 6010,
'device': 'sda'},
{'region': 3, 'zone': 3, 'ip': '127.0.0.3', 'port': 6010,
'device': 'sda'}]
timings = {'127.0.0.1': 2, '127.0.0.2': 1, '127.0.0.3': 0}
statuses = {'127.0.0.1': 200, '127.0.0.2': 200, '127.0.0.3': 200}
req = Request.blank('/v1/account', environ={'REQUEST_METHOD': 'GET'})
def fake_iter_nodes(*arg, **karg):
return iter(nodes)
class FakeConn(object):
def __init__(self, ip, *args, **kargs):
self.ip = ip
self.args = args
self.kargs = kargs
def getresponse(self):
def mygetheader(header, *args, **kargs):
if header == "Content-Type":
return ""
else:
return 1
resp = mock.Mock()
resp.read.side_effect = ['Response from %s' % self.ip, '']
resp.getheader = mygetheader
resp.getheaders.return_value = {}
resp.reason = ''
resp.status = statuses[self.ip]
sleep(timings[self.ip])
return resp
def myfake_http_connect_raw(ip, *args, **kargs):
conn = FakeConn(ip, *args, **kargs)
return conn
with mock.patch('swift.proxy.server.Application.iter_nodes',
fake_iter_nodes):
with mock.patch('swift.common.bufferedhttp.http_connect_raw',
myfake_http_connect_raw):
app_conf = {'concurrent_gets': 'on',
'concurrency_timeout': 0}
baseapp = proxy_server.Application(app_conf,
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
self.assertTrue(baseapp.concurrent_gets)
self.assertEqual(baseapp.concurrency_timeout, 0)
baseapp.update_request(req)
resp = baseapp.handle_request(req)
# Should get 127.0.0.3 as this has a wait of 0 seconds.
self.assertEqual(resp.body, 'Response from 127.0.0.3')
# lets try again, with 127.0.0.1 with 0 timing but returns an
# error.
timings['127.0.0.1'] = 0
statuses['127.0.0.1'] = 500
# Should still get 127.0.0.3 as this has a wait of 0 seconds
# and a success
baseapp.update_request(req)
resp = baseapp.handle_request(req)
self.assertEqual(resp.body, 'Response from 127.0.0.3')
# Now lets set the concurrency_timeout
app_conf['concurrency_timeout'] = 2
baseapp = proxy_server.Application(app_conf,
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
self.assertEqual(baseapp.concurrency_timeout, 2)
baseapp.update_request(req)
resp = baseapp.handle_request(req)
# Should get 127.0.0.2 as this has a wait of 1 seconds.
self.assertEqual(resp.body, 'Response from 127.0.0.2')
def test_info_defaults(self):
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
self.assertTrue(app.expose_info)
self.assertIsInstance(app.disallowed_sections, list)
self.assertEqual(1, len(app.disallowed_sections))
self.assertEqual(['swift.valid_api_versions'],
app.disallowed_sections)
self.assertIsNone(app.admin_key)
def test_get_info_controller(self):
req = Request.blank('/info')
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
controller, path_parts = app.get_controller(req)
self.assertIn('version', path_parts)
self.assertIsNone(path_parts['version'])
self.assertIn('disallowed_sections', path_parts)
self.assertIn('expose_info', path_parts)
self.assertIn('admin_key', path_parts)
self.assertEqual(controller.__name__, 'InfoController')
def test_exception_occurred(self):
def do_test(additional_info):
logger = debug_logger('test')
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing(),
logger=logger)
node = app.container_ring.get_part_nodes(0)[0]
node_key = app._error_limit_node_key(node)
self.assertNotIn(node_key, app._error_limiting) # sanity
try:
raise Exception('kaboom1!')
except Exception as err:
app.exception_occurred(node, 'server-type', additional_info)
self.assertEqual(1, app._error_limiting[node_key]['errors'])
line = logger.get_lines_for_level('error')[-1]
self.assertIn('server-type server', line)
self.assertIn(additional_info.decode('utf8'), line)
self.assertIn(node['ip'], line)
self.assertIn(str(node['port']), line)
self.assertIn(node['device'], line)
log_args, log_kwargs = logger.log_dict['error'][-1]
self.assertTrue(log_kwargs['exc_info'])
self.assertEqual(err, log_kwargs['exc_info'][1])
do_test('success')
do_test('succès')
do_test(u'success')
def test_error_occurred(self):
def do_test(msg):
logger = debug_logger('test')
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing(),
logger=logger)
node = app.container_ring.get_part_nodes(0)[0]
node_key = app._error_limit_node_key(node)
self.assertNotIn(node_key, app._error_limiting) # sanity
app.error_occurred(node, msg)
self.assertEqual(1, app._error_limiting[node_key]['errors'])
line = logger.get_lines_for_level('error')[-1]
self.assertIn(msg.decode('utf8'), line)
self.assertIn(node['ip'], line)
self.assertIn(str(node['port']), line)
self.assertIn(node['device'], line)
do_test('success')
do_test('succès')
do_test(u'success')
def test_error_limit_methods(self):
logger = debug_logger('test')
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing(),
logger=logger)
node = app.container_ring.get_part_nodes(0)[0]
# error occurred
app.error_occurred(node, 'test msg')
self.assertTrue('test msg' in
logger.get_lines_for_level('error')[-1])
self.assertEqual(1, node_error_count(app, node))
# exception occurred
try:
raise Exception('kaboom1!')
except Exception as e1:
app.exception_occurred(node, 'test1', 'test1 msg')
line = logger.get_lines_for_level('error')[-1]
self.assertIn('test1 server', line)
self.assertIn('test1 msg', line)
log_args, log_kwargs = logger.log_dict['error'][-1]
self.assertTrue(log_kwargs['exc_info'])
self.assertEqual(log_kwargs['exc_info'][1], e1)
self.assertEqual(2, node_error_count(app, node))
# warning exception occurred
try:
raise Exception('kaboom2!')
except Exception as e2:
app.exception_occurred(node, 'test2', 'test2 msg',
level=logging.WARNING)
line = logger.get_lines_for_level('warning')[-1]
self.assertIn('test2 server', line)
self.assertIn('test2 msg', line)
log_args, log_kwargs = logger.log_dict['warning'][-1]
self.assertTrue(log_kwargs['exc_info'])
self.assertEqual(log_kwargs['exc_info'][1], e2)
self.assertEqual(3, node_error_count(app, node))
# custom exception occurred
try:
raise Exception('kaboom3!')
except Exception as e3:
e3_info = sys.exc_info()
try:
raise Exception('kaboom4!')
except Exception:
pass
app.exception_occurred(node, 'test3', 'test3 msg',
level=logging.WARNING, exc_info=e3_info)
line = logger.get_lines_for_level('warning')[-1]
self.assertIn('test3 server', line)
self.assertIn('test3 msg', line)
log_args, log_kwargs = logger.log_dict['warning'][-1]
self.assertTrue(log_kwargs['exc_info'])
self.assertEqual(log_kwargs['exc_info'][1], e3)
self.assertEqual(4, node_error_count(app, node))
def test_valid_api_version(self):
app = proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
# The version string is only checked for account, container and object
# requests; the raised APIVersionError returns a 404 to the client
for path in [
'/v2/a',
'/v2/a/c',
'/v2/a/c/o']:
req = Request.blank(path)
self.assertRaises(APIVersionError, app.get_controller, req)
# Default valid API versions are ok
for path in [
'/v1/a',
'/v1/a/c',
'/v1/a/c/o',
'/v1.0/a',
'/v1.0/a/c',
'/v1.0/a/c/o']:
req = Request.blank(path)
controller, path_parts = app.get_controller(req)
self.assertIsNotNone(controller)
# Ensure settings valid API version constraint works
for version in ["42", 42]:
try:
with NamedTemporaryFile() as f:
f.write('[swift-constraints]\n')
f.write('valid_api_versions = %s\n' % version)
f.flush()
with mock.patch.object(utils, 'SWIFT_CONF_FILE', f.name):
constraints.reload_constraints()
req = Request.blank('/%s/a' % version)
controller, _ = app.get_controller(req)
self.assertIsNotNone(controller)
# In this case v1 is invalid
req = Request.blank('/v1/a')
self.assertRaises(APIVersionError, app.get_controller, req)
finally:
constraints.reload_constraints()
# Check that the valid_api_versions is not exposed by default
req = Request.blank('/info')
controller, path_parts = app.get_controller(req)
self.assertTrue('swift.valid_api_versions' in
path_parts.get('disallowed_sections'))
@patch_policies([
StoragePolicy(0, 'zero', is_default=True),
StoragePolicy(1, 'one'),
])
class TestProxyServerLoading(unittest.TestCase):
def setUp(self):
self._orig_hash_suffix = utils.HASH_PATH_SUFFIX
utils.HASH_PATH_SUFFIX = 'endcap'
self.tempdir = mkdtemp()
def tearDown(self):
rmtree(self.tempdir)
utils.HASH_PATH_SUFFIX = self._orig_hash_suffix
for policy in POLICIES:
policy.object_ring = None
def test_load_policy_rings(self):
for policy in POLICIES:
self.assertFalse(policy.object_ring)
conf_path = os.path.join(self.tempdir, 'proxy-server.conf')
conf_body = """
[DEFAULT]
swift_dir = %s
[pipeline:main]
pipeline = catch_errors cache proxy-server
[app:proxy-server]
use = egg:swift#proxy
[filter:cache]
use = egg:swift#memcache
[filter:catch_errors]
use = egg:swift#catch_errors
""" % self.tempdir
with open(conf_path, 'w') as f:
f.write(dedent(conf_body))
account_ring_path = os.path.join(self.tempdir, 'account.ring.gz')
write_fake_ring(account_ring_path)
container_ring_path = os.path.join(self.tempdir, 'container.ring.gz')
write_fake_ring(container_ring_path)
for policy in POLICIES:
object_ring_path = os.path.join(self.tempdir,
policy.ring_name + '.ring.gz')
write_fake_ring(object_ring_path)
app = loadapp(conf_path)
# find the end of the pipeline
while hasattr(app, 'app'):
app = app.app
# validate loaded rings
self.assertEqual(app.account_ring.serialized_path,
account_ring_path)
self.assertEqual(app.container_ring.serialized_path,
container_ring_path)
for policy in POLICIES:
self.assertEqual(policy.object_ring,
app.get_object_ring(int(policy)))
def test_missing_rings(self):
conf_path = os.path.join(self.tempdir, 'proxy-server.conf')
conf_body = """
[DEFAULT]
swift_dir = %s
[pipeline:main]
pipeline = catch_errors cache proxy-server
[app:proxy-server]
use = egg:swift#proxy
[filter:cache]
use = egg:swift#memcache
[filter:catch_errors]
use = egg:swift#catch_errors
""" % self.tempdir
with open(conf_path, 'w') as f:
f.write(dedent(conf_body))
ring_paths = [
os.path.join(self.tempdir, 'account.ring.gz'),
os.path.join(self.tempdir, 'container.ring.gz'),
]
for policy in POLICIES:
self.assertFalse(policy.object_ring)
object_ring_path = os.path.join(self.tempdir,
policy.ring_name + '.ring.gz')
ring_paths.append(object_ring_path)
for policy in POLICIES:
self.assertFalse(policy.object_ring)
for ring_path in ring_paths:
self.assertFalse(os.path.exists(ring_path))
self.assertRaises(IOError, loadapp, conf_path)
write_fake_ring(ring_path)
# all rings exist, app should load
loadapp(conf_path)
for policy in POLICIES:
self.assertTrue(policy.object_ring)
@patch_policies([StoragePolicy(0, 'zero', True,
object_ring=FakeRing(base_port=3000))])
class TestObjectController(unittest.TestCase):
def setUp(self):
self.app = proxy_server.Application(
None, FakeMemcache(),
logger=debug_logger('proxy-ut'),
account_ring=FakeRing(),
container_ring=FakeRing())
# clear proxy logger result for each test
_test_servers[0].logger._clear()
def tearDown(self):
self.app.account_ring.set_replicas(3)
self.app.container_ring.set_replicas(3)
for policy in POLICIES:
policy.object_ring = FakeRing(base_port=3000)
def put_container(self, policy_name, container_name):
# Note: only works if called with unpatched policies
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: 0\r\n'
'X-Storage-Token: t\r\n'
'X-Storage-Policy: %s\r\n'
'\r\n' % (container_name, policy_name))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2'
self.assertEqual(headers[:len(exp)], exp)
def assert_status_map(self, method, statuses, expected, raise_exc=False):
with save_globals():
kwargs = {}
if raise_exc:
kwargs['raise_exc'] = raise_exc
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o',
headers={'Content-Length': '0',
'Content-Type': 'text/plain'})
self.app.update_request(req)
try:
res = method(req)
except HTTPException as res:
pass
self.assertEqual(res.status_int, expected)
# repeat test
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o',
headers={'Content-Length': '0',
'Content-Type': 'text/plain'})
self.app.update_request(req)
try:
res = method(req)
except HTTPException as res:
pass
self.assertEqual(res.status_int, expected)
def _sleep_enough(self, condition):
for sleeptime in (0.1, 1.0):
sleep(sleeptime)
if condition():
break
@unpatch_policies
def test_policy_IO(self):
def check_file(policy, cont, devs, check_val):
partition, nodes = policy.object_ring.get_nodes('a', cont, 'o')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileManager(conf, FakeLogger())
for dev in devs:
file = df_mgr.get_diskfile(dev, partition, 'a',
cont, 'o',
policy=policy)
if check_val is True:
file.open()
prolis = _test_sockets[0]
prosrv = _test_servers[0]
# check policy 0: put file on c, read it back, check loc on disk
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = 'test_object0'
path = '/v1/a/c/o'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: text/plain\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
req = Request.blank(path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type':
'text/plain'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, obj)
check_file(POLICIES[0], 'c', ['sda1', 'sdb1'], True)
check_file(POLICIES[0], 'c', ['sdc1', 'sdd1', 'sde1', 'sdf1'], False)
# check policy 1: put file on c1, read it back, check loc on disk
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
path = '/v1/a/c1/o'
obj = 'test_object1'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: text/plain\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
self.assertEqual(headers[:len(exp)], exp)
req = Request.blank(path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type':
'text/plain'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, obj)
check_file(POLICIES[1], 'c1', ['sdc1', 'sdd1'], True)
check_file(POLICIES[1], 'c1', ['sda1', 'sdb1', 'sde1', 'sdf1'], False)
# check policy 2: put file on c2, read it back, check loc on disk
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
path = '/v1/a/c2/o'
obj = 'test_object2'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: text/plain\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
self.assertEqual(headers[:len(exp)], exp)
req = Request.blank(path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type':
'text/plain'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, obj)
check_file(POLICIES[2], 'c2', ['sde1', 'sdf1'], True)
check_file(POLICIES[2], 'c2', ['sda1', 'sdb1', 'sdc1', 'sdd1'], False)
@unpatch_policies
def test_policy_IO_override(self):
if hasattr(_test_servers[-1], '_filesystem'):
# ironically, the _filesystem attribute on the object server means
# the in-memory diskfile is in use, so this test does not apply
return
prosrv = _test_servers[0]
# validate container policy is 1
req = Request.blank('/v1/a/c1', method='HEAD')
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 204) # sanity check
self.assertEqual(POLICIES[1].name, res.headers['x-storage-policy'])
# check overrides: put it in policy 2 (not where the container says)
req = Request.blank(
'/v1/a/c1/wrong-o',
environ={'REQUEST_METHOD': 'PUT',
'wsgi.input': BytesIO(b"hello")},
headers={'Content-Type': 'text/plain',
'Content-Length': '5',
'X-Backend-Storage-Policy-Index': '2'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 201) # sanity check
# go to disk to make sure it's there
partition, nodes = prosrv.get_object_ring(2).get_nodes(
'a', 'c1', 'wrong-o')
node = nodes[0]
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileManager(conf, FakeLogger())
df = df_mgr.get_diskfile(node['device'], partition, 'a',
'c1', 'wrong-o', policy=POLICIES[2])
with df.open():
contents = ''.join(df.reader())
self.assertEqual(contents, "hello")
# can't get it from the normal place
req = Request.blank('/v1/a/c1/wrong-o',
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'text/plain'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 404) # sanity check
# but we can get it from policy 2
req = Request.blank('/v1/a/c1/wrong-o',
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'text/plain',
'X-Backend-Storage-Policy-Index': '2'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, 'hello')
# and we can delete it the same way
req = Request.blank('/v1/a/c1/wrong-o',
environ={'REQUEST_METHOD': 'DELETE'},
headers={'Content-Type': 'text/plain',
'X-Backend-Storage-Policy-Index': '2'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 204)
df = df_mgr.get_diskfile(node['device'], partition, 'a',
'c1', 'wrong-o', policy=POLICIES[2])
try:
df.open()
except DiskFileNotExist as e:
self.assertGreater(float(e.timestamp), 0)
else:
self.fail('did not raise DiskFileNotExist')
@unpatch_policies
def test_GET_newest_large_file(self):
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = 'a' * (1024 * 1024)
path = '/v1/a/c/o.large'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
req = Request.blank(path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type':
'application/octet-stream',
'X-Newest': 'true'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, obj)
@unpatch_policies
def test_GET_ranges(self):
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = (''.join(
('beans lots of beans lots of beans lots of beans yeah %04d ' % i)
for i in range(100)))
path = '/v1/a/c/o.beans'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# one byte range
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'application/octet-stream',
'Range': 'bytes=10-200'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 206)
self.assertEqual(res.body, obj[10:201])
# multiple byte ranges
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'application/octet-stream',
'Range': 'bytes=10-200,1000-1099,4123-4523'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 206)
ct, params = parse_content_type(res.headers['Content-Type'])
self.assertEqual(ct, 'multipart/byteranges')
boundary = dict(params).get('boundary')
self.assertIsNotNone(boundary)
got_mime_docs = []
for mime_doc_fh in iter_multipart_mime_documents(StringIO(res.body),
boundary):
headers = parse_mime_headers(mime_doc_fh)
body = mime_doc_fh.read()
got_mime_docs.append((headers, body))
self.assertEqual(len(got_mime_docs), 3)
first_range_headers = got_mime_docs[0][0]
first_range_body = got_mime_docs[0][1]
self.assertEqual(first_range_headers['Content-Range'],
'bytes 10-200/5800')
self.assertEqual(first_range_body, obj[10:201])
second_range_headers = got_mime_docs[1][0]
second_range_body = got_mime_docs[1][1]
self.assertEqual(second_range_headers['Content-Range'],
'bytes 1000-1099/5800')
self.assertEqual(second_range_body, obj[1000:1100])
second_range_headers = got_mime_docs[2][0]
second_range_body = got_mime_docs[2][1]
self.assertEqual(second_range_headers['Content-Range'],
'bytes 4123-4523/5800')
self.assertEqual(second_range_body, obj[4123:4524])
@unpatch_policies
def test_GET_bad_range_zero_byte(self):
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
path = '/v1/a/c/o.zerobyte'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: 0\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n' % (path,))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# bad byte-range
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'application/octet-stream',
'Range': 'bytes=spaghetti-carbonara'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, '')
# not a byte-range
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'application/octet-stream',
'Range': 'Kotta'})
res = req.get_response(prosrv)
self.assertEqual(res.status_int, 200)
self.assertEqual(res.body, '')
@unpatch_policies
def test_GET_ranges_resuming(self):
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = (''.join(
('Smurf! The smurfing smurf is completely smurfed. %03d ' % i)
for i in range(1000)))
path = '/v1/a/c/o.smurfs'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/smurftet-stream\r\n'
'\r\n%s' % (path, str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
kaboomed = [0]
bytes_before_timeout = [None]
class FileLikeKaboom(object):
def __init__(self, inner_file_like):
self.inner_file_like = inner_file_like
# close(), etc.
def __getattr__(self, attr):
return getattr(self.inner_file_like, attr)
def readline(self, *a, **kw):
if bytes_before_timeout[0] <= 0:
kaboomed[0] += 1
raise ChunkReadTimeout(None)
result = self.inner_file_like.readline(*a, **kw)
if len(result) > bytes_before_timeout[0]:
result = result[:bytes_before_timeout[0]]
bytes_before_timeout[0] -= len(result)
return result
def read(self, length=None):
result = self.inner_file_like.read(length)
if bytes_before_timeout[0] <= 0:
kaboomed[0] += 1
raise ChunkReadTimeout(None)
if len(result) > bytes_before_timeout[0]:
result = result[:bytes_before_timeout[0]]
bytes_before_timeout[0] -= len(result)
return result
orig_hrtdi = swift.common.request_helpers. \
http_response_to_document_iters
# Use this to mock out http_response_to_document_iters. On the first
# call, the result will be sabotaged to blow up with
# ChunkReadTimeout after some number of bytes are read. On
# subsequent calls, no sabotage will be added.
def sabotaged_hrtdi(*a, **kw):
resp_parts = orig_hrtdi(*a, **kw)
for sb, eb, l, h, range_file in resp_parts:
if bytes_before_timeout[0] <= 0:
# simulate being unable to read MIME part of
# multipart/byteranges response
kaboomed[0] += 1
raise ChunkReadTimeout(None)
boomer = FileLikeKaboom(range_file)
yield sb, eb, l, h, boomer
sabotaged = [False]
def single_sabotage_hrtdi(*a, **kw):
if not sabotaged[0]:
sabotaged[0] = True
return sabotaged_hrtdi(*a, **kw)
else:
return orig_hrtdi(*a, **kw)
# We want sort of an end-to-end test of object resuming, so what we
# do is mock out stuff so the proxy thinks it only read a certain
# number of bytes before it got a timeout.
bytes_before_timeout[0] = 300
with mock.patch.object(proxy_base,
'http_response_to_document_iters',
single_sabotage_hrtdi):
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Content-Type': 'application/octet-stream',
'Range': 'bytes=0-500'})
res = req.get_response(prosrv)
body = res.body # read the whole thing
self.assertEqual(kaboomed[0], 1) # sanity check
self.assertEqual(res.status_int, 206)
self.assertEqual(len(body), 501)
self.assertEqual(body, obj[:501])
# Sanity-check for multi-range resume: make sure we actually break
# in the middle of the second byterange. This test is partially
# about what happens when all the object servers break at once, and
# partially about validating all these mocks we do. After all, the
# point of resuming is that the client can't tell anything went
# wrong, so we need a test where we can't resume and something
# *does* go wrong so we can observe it.
bytes_before_timeout[0] = 700
kaboomed[0] = 0
sabotaged[0] = False
prosrv._error_limiting = {} # clear out errors
with mock.patch.object(proxy_base,
'http_response_to_document_iters',
sabotaged_hrtdi): # perma-broken
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Range': 'bytes=0-500,1000-1500,2000-2500'})
res = req.get_response(prosrv)
body = ''
try:
for chunk in res.app_iter:
body += chunk
except ChunkReadTimeout:
pass
self.assertEqual(res.status_int, 206)
self.assertGreater(kaboomed[0], 0) # sanity check
ct, params = parse_content_type(res.headers['Content-Type'])
self.assertEqual(ct, 'multipart/byteranges') # sanity check
boundary = dict(params).get('boundary')
self.assertIsNotNone(boundary) # sanity check
got_byteranges = []
for mime_doc_fh in iter_multipart_mime_documents(StringIO(body),
boundary):
parse_mime_headers(mime_doc_fh)
body = mime_doc_fh.read()
got_byteranges.append(body)
self.assertEqual(len(got_byteranges), 2)
self.assertEqual(len(got_byteranges[0]), 501)
self.assertEqual(len(got_byteranges[1]), 199) # partial
# Multi-range resume, resuming in the middle of the first byterange
bytes_before_timeout[0] = 300
kaboomed[0] = 0
sabotaged[0] = False
prosrv._error_limiting = {} # clear out errors
with mock.patch.object(proxy_base,
'http_response_to_document_iters',
single_sabotage_hrtdi):
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Range': 'bytes=0-500,1000-1500,2000-2500'})
res = req.get_response(prosrv)
body = ''.join(res.app_iter)
self.assertEqual(res.status_int, 206)
self.assertEqual(kaboomed[0], 1) # sanity check
ct, params = parse_content_type(res.headers['Content-Type'])
self.assertEqual(ct, 'multipart/byteranges') # sanity check
boundary = dict(params).get('boundary')
self.assertTrue(boundary is not None) # sanity check
got_byteranges = []
for mime_doc_fh in iter_multipart_mime_documents(StringIO(body),
boundary):
parse_mime_headers(mime_doc_fh)
body = mime_doc_fh.read()
got_byteranges.append(body)
self.assertEqual(len(got_byteranges), 3)
self.assertEqual(len(got_byteranges[0]), 501)
self.assertEqual(got_byteranges[0], obj[:501])
self.assertEqual(len(got_byteranges[1]), 501)
self.assertEqual(got_byteranges[1], obj[1000:1501])
self.assertEqual(len(got_byteranges[2]), 501)
self.assertEqual(got_byteranges[2], obj[2000:2501])
# Multi-range resume, first GET dies in the middle of the second set
# of MIME headers
bytes_before_timeout[0] = 501
kaboomed[0] = 0
sabotaged[0] = False
prosrv._error_limiting = {} # clear out errors
with mock.patch.object(proxy_base,
'http_response_to_document_iters',
single_sabotage_hrtdi):
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Range': 'bytes=0-500,1000-1500,2000-2500'})
res = req.get_response(prosrv)
body = ''.join(res.app_iter)
self.assertEqual(res.status_int, 206)
self.assertGreaterEqual(kaboomed[0], 1) # sanity check
ct, params = parse_content_type(res.headers['Content-Type'])
self.assertEqual(ct, 'multipart/byteranges') # sanity check
boundary = dict(params).get('boundary')
self.assertIsNotNone(boundary) # sanity check
got_byteranges = []
for mime_doc_fh in iter_multipart_mime_documents(StringIO(body),
boundary):
parse_mime_headers(mime_doc_fh)
body = mime_doc_fh.read()
got_byteranges.append(body)
self.assertEqual(len(got_byteranges), 3)
self.assertEqual(len(got_byteranges[0]), 501)
self.assertEqual(got_byteranges[0], obj[:501])
self.assertEqual(len(got_byteranges[1]), 501)
self.assertEqual(got_byteranges[1], obj[1000:1501])
self.assertEqual(len(got_byteranges[2]), 501)
self.assertEqual(got_byteranges[2], obj[2000:2501])
# Multi-range resume, first GET dies in the middle of the second
# byterange
bytes_before_timeout[0] = 750
kaboomed[0] = 0
sabotaged[0] = False
prosrv._error_limiting = {} # clear out errors
with mock.patch.object(proxy_base,
'http_response_to_document_iters',
single_sabotage_hrtdi):
req = Request.blank(
path,
environ={'REQUEST_METHOD': 'GET'},
headers={'Range': 'bytes=0-500,1000-1500,2000-2500'})
res = req.get_response(prosrv)
body = ''.join(res.app_iter)
self.assertEqual(res.status_int, 206)
self.assertGreaterEqual(kaboomed[0], 1) # sanity check
ct, params = parse_content_type(res.headers['Content-Type'])
self.assertEqual(ct, 'multipart/byteranges') # sanity check
boundary = dict(params).get('boundary')
self.assertIsNotNone(boundary) # sanity check
got_byteranges = []
for mime_doc_fh in iter_multipart_mime_documents(StringIO(body),
boundary):
parse_mime_headers(mime_doc_fh)
body = mime_doc_fh.read()
got_byteranges.append(body)
self.assertEqual(len(got_byteranges), 3)
self.assertEqual(len(got_byteranges[0]), 501)
self.assertEqual(got_byteranges[0], obj[:501])
self.assertEqual(len(got_byteranges[1]), 501)
self.assertEqual(got_byteranges[1], obj[1000:1501])
self.assertEqual(len(got_byteranges[2]), 501)
self.assertEqual(got_byteranges[2], obj[2000:2501])
@unpatch_policies
def test_PUT_ec(self):
policy = POLICIES[3]
self.put_container("ec", "ec-con")
obj = 'abCD' * 10 # small, so we don't get multiple EC stripes
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/o1 HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: "%s"\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
ecd = policy.pyeclib_driver
expected_pieces = set(ecd.encode(obj))
# go to disk to make sure it's there and all erasure-coded
partition, nodes = policy.object_ring.get_nodes('a', 'ec-con', 'o1')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[policy]
got_pieces = set()
got_indices = set()
got_durable = []
for node_index, node in enumerate(nodes):
df = df_mgr.get_diskfile(node['device'], partition,
'a', 'ec-con', 'o1',
policy=policy)
with df.open():
meta = df.get_metadata()
contents = ''.join(df.reader())
got_pieces.add(contents)
lmeta = dict((k.lower(), v) for k, v in meta.items())
got_indices.add(
lmeta['x-object-sysmeta-ec-frag-index'])
self.assertEqual(
lmeta['x-object-sysmeta-ec-etag'],
md5(obj).hexdigest())
self.assertEqual(
lmeta['x-object-sysmeta-ec-content-length'],
str(len(obj)))
self.assertEqual(
lmeta['x-object-sysmeta-ec-segment-size'],
'4096')
self.assertEqual(
lmeta['x-object-sysmeta-ec-scheme'],
'%s 2+1' % DEFAULT_TEST_EC_TYPE)
self.assertEqual(
lmeta['etag'],
md5(contents).hexdigest())
# check presence for a durable data file for the timestamp
durable_file = (
utils.Timestamp(df.timestamp).internal +
'#%s' % lmeta['x-object-sysmeta-ec-frag-index'] +
'#d.data')
durable_file = os.path.join(
_testdir, node['device'], storage_directory(
diskfile.get_data_dir(policy),
partition, hash_path('a', 'ec-con', 'o1')),
durable_file)
if os.path.isfile(durable_file):
got_durable.append(True)
self.assertEqual(expected_pieces, got_pieces)
self.assertEqual(set(('0', '1', '2')), got_indices)
# verify at least 2 puts made it all the way to the end of 2nd
# phase, ie at least 2 durable statuses were written
num_durable_puts = sum(d is True for d in got_durable)
self.assertGreaterEqual(num_durable_puts, 2)
@unpatch_policies
def test_PUT_ec_multiple_segments(self):
ec_policy = POLICIES[3]
self.put_container("ec", "ec-con")
pyeclib_header_size = len(ec_policy.pyeclib_driver.encode("")[0])
segment_size = ec_policy.ec_segment_size
# Big enough to have multiple segments. Also a multiple of the
# segment size to get coverage of that path too.
obj = 'ABC' * segment_size
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/o2 HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# it's a 2+1 erasure code, so each fragment archive should be half
# the length of the object, plus three inline pyeclib metadata
# things (one per segment)
expected_length = (len(obj) / 2 + pyeclib_header_size * 3)
partition, nodes = ec_policy.object_ring.get_nodes(
'a', 'ec-con', 'o2')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[ec_policy]
got_durable = []
fragment_archives = []
for node in nodes:
df = df_mgr.get_diskfile(
node['device'], partition, 'a',
'ec-con', 'o2', policy=ec_policy)
with df.open():
meta = df.get_metadata()
contents = ''.join(df.reader())
fragment_archives.append(contents)
self.assertEqual(len(contents), expected_length)
# check presence for a durable data file for the timestamp
durable_file = (
utils.Timestamp(df.timestamp).internal +
'#%s' % meta['X-Object-Sysmeta-Ec-Frag-Index'] +
'#d.data')
durable_file = os.path.join(
_testdir, node['device'], storage_directory(
diskfile.get_data_dir(ec_policy),
partition, hash_path('a', 'ec-con', 'o2')),
durable_file)
if os.path.isfile(durable_file):
got_durable.append(True)
# Verify that we can decode each individual fragment and that they
# are all the correct size
fragment_size = ec_policy.fragment_size
nfragments = int(
math.ceil(float(len(fragment_archives[0])) / fragment_size))
for fragment_index in range(nfragments):
fragment_start = fragment_index * fragment_size
fragment_end = (fragment_index + 1) * fragment_size
try:
frags = [fa[fragment_start:fragment_end]
for fa in fragment_archives]
seg = ec_policy.pyeclib_driver.decode(frags)
except ECDriverError:
self.fail("Failed to decode fragments %d; this probably "
"means the fragments are not the sizes they "
"should be" % fragment_index)
segment_start = fragment_index * segment_size
segment_end = (fragment_index + 1) * segment_size
self.assertEqual(seg, obj[segment_start:segment_end])
# verify at least 2 puts made it all the way to the end of 2nd
# phase, ie at least 2 durable statuses were written
num_durable_puts = sum(d is True for d in got_durable)
self.assertGreaterEqual(num_durable_puts, 2)
@unpatch_policies
def test_PUT_ec_object_etag_mismatch(self):
ec_policy = POLICIES[3]
self.put_container("ec", "ec-con")
obj = '90:6A:02:60:B1:08-96da3e706025537fc42464916427727e'
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/o3 HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: %s\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5('something else').hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 422'
self.assertEqual(headers[:len(exp)], exp)
# nothing should have made it to disk on the object servers
partition, nodes = prosrv.get_object_ring(3).get_nodes(
'a', 'ec-con', 'o3')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[ec_policy]
for node in nodes:
df = df_mgr.get_diskfile(node['device'], partition,
'a', 'ec-con', 'o3', policy=POLICIES[3])
self.assertRaises(DiskFileNotExist, df.open)
@unpatch_policies
def test_PUT_ec_fragment_archive_etag_mismatch(self):
ec_policy = POLICIES[3]
self.put_container("ec", "ec-con")
# Cause a hash mismatch by feeding one particular MD5 hasher some
# extra data. The goal here is to get exactly one of the hashers in
# an object server.
countdown = [1]
def busted_md5_constructor(initial_str=""):
hasher = md5(initial_str)
if countdown[0] == 0:
hasher.update('wrong')
countdown[0] -= 1
return hasher
obj = 'uvarovite-esurience-cerated-symphysic'
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
with mock.patch('swift.obj.server.md5', busted_md5_constructor):
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/pimento HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: %s\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 503' # no quorum
self.assertEqual(headers[:len(exp)], exp)
# 2/3 of the fragment archives should have landed on disk
partition, nodes = prosrv.get_object_ring(3).get_nodes(
'a', 'ec-con', 'pimento')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[ec_policy]
found = 0
for node in nodes:
df = df_mgr.get_diskfile(node['device'], partition,
'a', 'ec-con', 'pimento',
policy=POLICIES[3])
try:
# diskfile open won't succeed because no durable was written,
# so look under the hood for data files.
files = os.listdir(df._datadir)
if len(files) > 0:
# Although the third fragment archive hasn't landed on
# disk, the directory df._datadir is pre-maturely created
# and is empty when we use O_TMPFILE + linkat()
num_data_files = \
len([f for f in files if f.endswith('.data')])
self.assertEqual(1, num_data_files)
found += 1
except OSError:
pass
self.assertEqual(found, 2)
@unpatch_policies
def test_PUT_ec_fragment_quorum_archive_etag_mismatch(self):
ec_policy = POLICIES[3]
self.put_container("ec", "ec-con")
def busted_md5_constructor(initial_str=""):
hasher = md5(initial_str)
hasher.update('wrong')
return hasher
obj = 'uvarovite-esurience-cerated-symphysic'
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
call_count = [0]
def mock_committer(self):
call_count[0] += 1
commit_confirmation = \
'swift.proxy.controllers.obj.MIMEPutter.send_commit_confirmation'
with mock.patch('swift.obj.server.md5', busted_md5_constructor), \
mock.patch(commit_confirmation, mock_committer):
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/quorum HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: %s\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 503' # no quorum
self.assertEqual(headers[:len(exp)], exp)
# Don't send commit to object-server if quorum responses consist of 4xx
self.assertEqual(0, call_count[0])
# no fragment archives should have landed on disk
partition, nodes = prosrv.get_object_ring(3).get_nodes(
'a', 'ec-con', 'quorum')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[ec_policy]
for node in nodes:
df = df_mgr.get_diskfile(node['device'], partition,
'a', 'ec-con', 'quorum',
policy=POLICIES[3])
if os.path.exists(df._datadir):
self.assertFalse(os.listdir(df._datadir)) # should be empty
@unpatch_policies
def test_PUT_ec_fragment_quorum_bad_request(self):
ec_policy = POLICIES[3]
self.put_container("ec", "ec-con")
obj = 'uvarovite-esurience-cerated-symphysic'
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
call_count = [0]
def mock_committer(self):
call_count[0] += 1
read_footer = \
'swift.obj.server.ObjectController._read_metadata_footer'
commit_confirmation = \
'swift.proxy.controllers.obj.MIMEPutter.send_commit_confirmation'
with mock.patch(read_footer) as read_footer_call, \
mock.patch(commit_confirmation, mock_committer):
# Emulate missing footer MIME doc in all object-servers
read_footer_call.side_effect = HTTPBadRequest(
body="couldn't find footer MIME doc")
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/quorum HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: %s\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
# Don't show a result of the bad conversation between proxy-server
# and object-server
exp = 'HTTP/1.1 503'
self.assertEqual(headers[:len(exp)], exp)
# Don't send commit to object-server if quorum responses consist of 4xx
self.assertEqual(0, call_count[0])
# no fragment archives should have landed on disk
partition, nodes = prosrv.get_object_ring(3).get_nodes(
'a', 'ec-con', 'quorum')
conf = {'devices': _testdir, 'mount_check': 'false'}
df_mgr = diskfile.DiskFileRouter(conf, FakeLogger())[ec_policy]
for node in nodes:
df = df_mgr.get_diskfile(node['device'], partition,
'a', 'ec-con', 'quorum',
policy=POLICIES[3])
if os.path.exists(df._datadir):
self.assertFalse(os.listdir(df._datadir)) # should be empty
@unpatch_policies
def test_PUT_ec_if_none_match(self):
self.put_container("ec", "ec-con")
obj = 'ananepionic-lepidophyllous-ropewalker-neglectful'
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/inm HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Etag: "%s"\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/inm HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'If-None-Match: *\r\n'
'Etag: "%s"\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (md5(obj).hexdigest(), len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 412'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_GET_ec(self):
self.put_container("ec", "ec-con")
obj = '0123456' * 11 * 17
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/go-get-it HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'X-Object-Meta-Color: chartreuse\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/ec-con/go-get-it HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
headers = parse_headers_string(headers)
self.assertEqual(str(len(obj)), headers['Content-Length'])
self.assertEqual(md5(obj).hexdigest(), headers['Etag'])
self.assertEqual('chartreuse', headers['X-Object-Meta-Color'])
gotten_obj = ''
while True:
buf = fd.read(64)
if not buf:
break
gotten_obj += buf
self.assertEqual(gotten_obj, obj)
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
def _test_conditional_GET(self, policy):
container_name = uuid.uuid4().hex
object_path = '/v1/a/%s/conditionals' % container_name
self.put_container(policy.name, container_name)
obj = 'this object has an etag and is otherwise unimportant'
etag = md5(obj).hexdigest()
not_etag = md5(obj + "blahblah").hexdigest()
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (object_path, len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
for verb, body in (('GET', obj), ('HEAD', '')):
# If-Match
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-Match': etag})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, body)
self.assertEqual(etag, resp.headers.get('etag'))
self.assertEqual('bytes', resp.headers.get('accept-ranges'))
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-Match': not_etag})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 412)
self.assertEqual(etag, resp.headers.get('etag'))
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-Match': "*"})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, body)
self.assertEqual(etag, resp.headers.get('etag'))
self.assertEqual('bytes', resp.headers.get('accept-ranges'))
# If-None-Match
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-None-Match': etag})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 304)
self.assertEqual(etag, resp.headers.get('etag'))
self.assertEqual('bytes', resp.headers.get('accept-ranges'))
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-None-Match': not_etag})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, body)
self.assertEqual(etag, resp.headers.get('etag'))
self.assertEqual('bytes', resp.headers.get('accept-ranges'))
req = Request.blank(
object_path,
environ={'REQUEST_METHOD': verb},
headers={'If-None-Match': "*"})
resp = req.get_response(prosrv)
self.assertEqual(resp.status_int, 304)
self.assertEqual(etag, resp.headers.get('etag'))
self.assertEqual('bytes', resp.headers.get('accept-ranges'))
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
@unpatch_policies
def test_conditional_GET_ec(self):
policy = POLICIES[3]
self.assertEqual('erasure_coding', policy.policy_type) # sanity
self._test_conditional_GET(policy)
@unpatch_policies
def test_conditional_GET_replication(self):
policy = POLICIES[0]
self.assertEqual('replication', policy.policy_type) # sanity
self._test_conditional_GET(policy)
@unpatch_policies
def test_GET_ec_big(self):
self.put_container("ec", "ec-con")
# our EC segment size is 4 KiB, so this is multiple (3) segments;
# we'll verify that with a sanity check
obj = 'a moose once bit my sister' * 400
self.assertGreater(
len(obj), POLICIES.get_by_name("ec").ec_segment_size * 2,
"object is too small for proper testing")
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/big-obj-get HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/ec-con/big-obj-get HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
headers = parse_headers_string(headers)
self.assertEqual(str(len(obj)), headers['Content-Length'])
self.assertEqual(md5(obj).hexdigest(), headers['Etag'])
gotten_obj = ''
while True:
buf = fd.read(64)
if not buf:
break
gotten_obj += buf
# This may look like a redundant test, but when things fail, this
# has a useful failure message while the subsequent one spews piles
# of garbage and demolishes your terminal's scrollback buffer.
self.assertEqual(len(gotten_obj), len(obj))
self.assertEqual(gotten_obj, obj)
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
@unpatch_policies
def test_GET_ec_failure_handling(self):
self.put_container("ec", "ec-con")
obj = 'look at this object; it is simply amazing ' * 500
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/crash-test-dummy HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
def explodey_iter(inner_iter):
yield next(inner_iter)
raise Exception("doom ba doom")
def explodey_doc_parts_iter(inner_iter_iter):
try:
for item in inner_iter_iter:
item = item.copy() # paranoia about mutable data
item['part_iter'] = explodey_iter(item['part_iter'])
yield item
except GeneratorExit:
inner_iter_iter.close()
raise
real_ec_app_iter = swift.proxy.controllers.obj.ECAppIter
def explodey_ec_app_iter(path, policy, iterators, *a, **kw):
# Each thing in `iterators` here is a document-parts iterator,
# and we want to fail after getting a little into each part.
#
# That way, we ensure we've started streaming the response to
# the client when things go wrong.
return real_ec_app_iter(
path, policy,
[explodey_doc_parts_iter(i) for i in iterators],
*a, **kw)
with mock.patch("swift.proxy.controllers.obj.ECAppIter",
explodey_ec_app_iter):
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/ec-con/crash-test-dummy HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
headers = parse_headers_string(headers)
self.assertEqual(str(len(obj)), headers['Content-Length'])
self.assertEqual(md5(obj).hexdigest(), headers['Etag'])
gotten_obj = ''
try:
with Timeout(300): # don't hang the testrun when this fails
while True:
buf = fd.read(64)
if not buf:
break
gotten_obj += buf
except Timeout:
self.fail("GET hung when connection failed")
# Ensure we failed partway through, otherwise the mocks could
# get out of date without anyone noticing
self.assertTrue(0 < len(gotten_obj) < len(obj))
@unpatch_policies
def test_HEAD_ec(self):
self.put_container("ec", "ec-con")
obj = '0123456' * 11 * 17
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/go-head-it HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'X-Object-Meta-Color: chartreuse\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('HEAD /v1/a/ec-con/go-head-it HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
headers = parse_headers_string(headers)
self.assertEqual(str(len(obj)), headers['Content-Length'])
self.assertEqual(md5(obj).hexdigest(), headers['Etag'])
self.assertEqual('chartreuse', headers['X-Object-Meta-Color'])
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
@unpatch_policies
def test_GET_ec_404(self):
self.put_container("ec", "ec-con")
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/ec-con/yes-we-have-no-bananas HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 404'
self.assertEqual(headers[:len(exp)], exp)
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
@unpatch_policies
def test_HEAD_ec_404(self):
self.put_container("ec", "ec-con")
prolis = _test_sockets[0]
prosrv = _test_servers[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('HEAD /v1/a/ec-con/yes-we-have-no-bananas HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 404'
self.assertEqual(headers[:len(exp)], exp)
error_lines = prosrv.logger.get_lines_for_level('error')
warn_lines = prosrv.logger.get_lines_for_level('warning')
self.assertEqual(len(error_lines), 0) # sanity
self.assertEqual(len(warn_lines), 0) # sanity
def test_PUT_expect_header_zero_content_length(self):
test_errors = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a/c/o.jpg':
if 'expect' in headers or 'Expect' in headers:
test_errors.append('Expect was in headers for object '
'server!')
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
# The (201, Exception('test')) tuples in there have the effect of
# changing the status of the initial expect response. The default
# expect response from FakeConn for 201 is 100.
# But the object server won't send a 100 continue line if the
# client doesn't send a expect 100 header (as is the case with
# zero byte PUTs as validated by this test), nevertheless the
# object controller calls getexpect without prejudice. In this
# case the status from the response shows up early in getexpect
# instead of having to wait until getresponse. The Exception is
# in there to ensure that the object controller also *uses* the
# result of getexpect instead of calling getresponse in which case
# our FakeConn will blow up.
success_codes = [(201, Exception('test'))] * 3
set_http_connect(200, 200, *success_codes,
give_connect=test_connect)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 0
self.app.update_request(req)
self.app.memcache.store = {}
res = controller.PUT(req)
self.assertEqual(test_errors, [])
self.assertTrue(res.status.startswith('201 '), res.status)
def test_PUT_expect_header_nonzero_content_length(self):
test_errors = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a/c/o.jpg':
if 'Expect' not in headers:
test_errors.append('Expect was not in headers for '
'non-zero byte PUT!')
with save_globals():
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o.jpg')
# the (100, 201) tuples in there are just being extra explicit
# about the FakeConn returning the 100 Continue status when the
# object controller calls getexpect. Which is FakeConn's default
# for 201 if no expect_status is specified.
success_codes = [(100, 201)] * 3
set_http_connect(200, 200, *success_codes,
give_connect=test_connect)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 1
req.body = 'a'
self.app.update_request(req)
self.app.memcache.store = {}
res = controller.PUT(req)
self.assertEqual(test_errors, [])
self.assertTrue(res.status.startswith('201 '))
def test_PUT_respects_write_affinity(self):
written_to = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a/c/o.jpg':
written_to.append((ipaddr, port, device))
with save_globals():
def is_r0(node):
return node['region'] == 0
object_ring = self.app.get_object_ring(None)
object_ring.max_more_nodes = 100
self.app.write_affinity_is_local_fn = is_r0
self.app.write_affinity_node_count = lambda r: 3
controller = \
ReplicatedObjectController(
self.app, 'a', 'c', 'o.jpg')
set_http_connect(200, 200, 201, 201, 201,
give_connect=test_connect)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 1
req.body = 'a'
self.app.memcache.store = {}
res = controller.PUT(req)
self.assertTrue(res.status.startswith('201 '))
self.assertEqual(3, len(written_to))
for ip, port, device in written_to:
# this is kind of a hokey test, but in FakeRing, the port is even
# when the region is 0, and odd when the region is 1, so this test
# asserts that we only wrote to nodes in region 0.
self.assertEqual(0, port % 2)
def test_PUT_respects_write_affinity_with_507s(self):
written_to = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a/c/o.jpg':
written_to.append((ipaddr, port, device))
with save_globals():
def is_r0(node):
return node['region'] == 0
object_ring = self.app.get_object_ring(None)
object_ring.max_more_nodes = 100
self.app.write_affinity_is_local_fn = is_r0
self.app.write_affinity_node_count = lambda r: 3
controller = \
ReplicatedObjectController(
self.app, 'a', 'c', 'o.jpg')
self.app.error_limit(
object_ring.get_part_nodes(1)[0], 'test')
set_http_connect(200, 200, # account, container
201, 201, 201, # 3 working backends
give_connect=test_connect)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 1
req.body = 'a'
self.app.memcache.store = {}
res = controller.PUT(req)
self.assertTrue(res.status.startswith('201 '))
self.assertEqual(3, len(written_to))
# this is kind of a hokey test, but in FakeRing, the port is even when
# the region is 0, and odd when the region is 1, so this test asserts
# that we wrote to 2 nodes in region 0, then went to 1 non-r0 node.
self.assertEqual(0, written_to[0][1] % 2) # it's (ip, port, device)
self.assertEqual(0, written_to[1][1] % 2)
self.assertNotEqual(0, written_to[2][1] % 2)
@unpatch_policies
def test_PUT_no_etag_fallocate(self):
with mock.patch('swift.obj.diskfile.fallocate') as mock_fallocate:
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = 'hemoleucocytic-surfactant'
fd.write('PUT /v1/a/c/o HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# one for each obj server; this test has 2
self.assertEqual(len(mock_fallocate.mock_calls), 2)
@unpatch_policies
def test_PUT_message_length_using_content_length(self):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
obj = 'j' * 20
fd.write('PUT /v1/a/c/o.content-length HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (str(len(obj)), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_message_length_using_transfer_encoding(self):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.chunked HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'Transfer-Encoding: chunked\r\n\r\n'
'2\r\n'
'oh\r\n'
'4\r\n'
' say\r\n'
'4\r\n'
' can\r\n'
'4\r\n'
' you\r\n'
'4\r\n'
' see\r\n'
'3\r\n'
' by\r\n'
'4\r\n'
' the\r\n'
'8\r\n'
' dawns\'\n\r\n'
'0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_message_length_using_both(self):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.chunked HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'Content-Length: 33\r\n'
'Transfer-Encoding: chunked\r\n\r\n'
'2\r\n'
'oh\r\n'
'4\r\n'
' say\r\n'
'4\r\n'
' can\r\n'
'4\r\n'
' you\r\n'
'4\r\n'
' see\r\n'
'3\r\n'
' by\r\n'
'4\r\n'
' the\r\n'
'8\r\n'
' dawns\'\n\r\n'
'0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_bad_message_length(self):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.chunked HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'Content-Length: 33\r\n'
'Transfer-Encoding: gzip\r\n\r\n'
'2\r\n'
'oh\r\n'
'4\r\n'
' say\r\n'
'4\r\n'
' can\r\n'
'4\r\n'
' you\r\n'
'4\r\n'
' see\r\n'
'3\r\n'
' by\r\n'
'4\r\n'
' the\r\n'
'8\r\n'
' dawns\'\n\r\n'
'0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 400'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_message_length_unsup_xfr_encoding(self):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.chunked HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'Content-Length: 33\r\n'
'Transfer-Encoding: gzip,chunked\r\n\r\n'
'2\r\n'
'oh\r\n'
'4\r\n'
' say\r\n'
'4\r\n'
' can\r\n'
'4\r\n'
' you\r\n'
'4\r\n'
' see\r\n'
'3\r\n'
' by\r\n'
'4\r\n'
' the\r\n'
'8\r\n'
' dawns\'\n\r\n'
'0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 501'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_message_length_too_large(self):
with mock.patch('swift.common.constraints.MAX_FILE_SIZE', 10):
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.chunked HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: application/octet-stream\r\n'
'Content-Length: 33\r\n\r\n'
'oh say can you see by the dawns\'\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 413'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_PUT_POST_last_modified(self):
prolis = _test_sockets[0]
def _do_HEAD():
# do a HEAD to get reported last modified time
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('HEAD /v1/a/c/o.last_modified HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
last_modified_head = [line for line in headers.split('\r\n')
if lm_hdr in line][0][len(lm_hdr):]
return last_modified_head
def _do_conditional_GET_checks(last_modified_time):
# check If-(Un)Modified-Since GETs
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/c/o.last_modified HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'If-Modified-Since: %s\r\n'
'X-Storage-Token: t\r\n\r\n' % last_modified_time)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 304'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/c/o.last_modified HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'If-Unmodified-Since: %s\r\n'
'X-Storage-Token: t\r\n\r\n' % last_modified_time)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
# PUT the object
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/o.last_modified HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
lm_hdr = 'Last-Modified: '
self.assertEqual(headers[:len(exp)], exp)
last_modified_put = [line for line in headers.split('\r\n')
if lm_hdr in line][0][len(lm_hdr):]
last_modified_head = _do_HEAD()
self.assertEqual(last_modified_put, last_modified_head)
_do_conditional_GET_checks(last_modified_put)
# now POST to the object
# last-modified rounded in sec so sleep a sec to increment
sleep(1)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('POST /v1/a/c/o.last_modified HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 202'
self.assertEqual(headers[:len(exp)], exp)
for line in headers.split('\r\n'):
self.assertFalse(line.startswith(lm_hdr))
# last modified time will have changed due to POST
last_modified_head = _do_HEAD()
self.assertNotEqual(last_modified_put, last_modified_head)
_do_conditional_GET_checks(last_modified_head)
def test_PUT_auto_content_type(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
def test_content_type(filename, expected):
# The three responses here are for account_info() (HEAD to
# account server), container_info() (HEAD to container server)
# and three calls to _connect_put_node() (PUT to three object
# servers)
set_http_connect(201, 201, 201, 201, 201,
give_content_type=lambda content_type:
self.assertEqual(content_type,
next(expected)))
# We need into include a transfer-encoding to get past
# constraints.check_object_creation()
req = Request.blank('/v1/a/c/%s' % filename, {},
headers={'transfer-encoding': 'chunked'})
self.app.update_request(req)
self.app.memcache.store = {}
res = controller.PUT(req)
# If we don't check the response here we could miss problems
# in PUT()
self.assertEqual(res.status_int, 201)
test_content_type('test.jpg', iter(['', '', 'image/jpeg',
'image/jpeg', 'image/jpeg']))
test_content_type('test.html', iter(['', '', 'text/html',
'text/html', 'text/html']))
test_content_type('test.css', iter(['', '', 'text/css',
'text/css', 'text/css']))
@unpatch_policies
def test_reload_ring_ec(self):
policy = POLICIES[3]
self.put_container("ec", "ec-con")
orig_rtime = policy.object_ring._rtime
# save original file as back up
copyfile(policy.object_ring.serialized_path,
policy.object_ring.serialized_path + '.bak')
try:
# overwrite with 2 replica, 2 devices ring
obj_devs = []
obj_devs.append(
{'port': _test_sockets[-3].getsockname()[1],
'device': 'sdg1'})
obj_devs.append(
{'port': _test_sockets[-2].getsockname()[1],
'device': 'sdh1'})
write_fake_ring(policy.object_ring.serialized_path,
*obj_devs)
def get_ring_reloaded_response(method):
# force to reload at the request
policy.object_ring._rtime = 0
trans_data = ['%s /v1/a/ec-con/o2 HTTP/1.1\r\n' % method,
'Host: localhost\r\n',
'Connection: close\r\n',
'X-Storage-Token: t\r\n']
if method == 'PUT':
# small, so we don't get multiple EC stripes
obj = 'abCD' * 10
extra_trans_data = [
'Etag: "%s"\r\n' % md5(obj).hexdigest(),
'Content-Length: %d\r\n' % len(obj),
'Content-Type: application/octet-stream\r\n',
'\r\n%s' % obj
]
trans_data.extend(extra_trans_data)
else:
trans_data.append('\r\n')
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write(''.join(trans_data))
fd.flush()
headers = readuntil2crlfs(fd)
# use older ring with rollbacking
return headers
for method in ('PUT', 'HEAD', 'GET', 'POST', 'DELETE'):
headers = get_ring_reloaded_response(method)
exp = 'HTTP/1.1 20'
self.assertEqual(headers[:len(exp)], exp)
# proxy didn't load newest ring, use older one
self.assertEqual(3, policy.object_ring.replica_count)
if method == 'POST':
# Take care fast post here!
orig_post_as_copy = getattr(
_test_servers[0], 'object_post_as_copy', None)
try:
_test_servers[0].object_post_as_copy = False
with mock.patch.object(
_test_servers[0],
'object_post_as_copy', False):
headers = get_ring_reloaded_response(method)
finally:
if orig_post_as_copy is None:
del _test_servers[0].object_post_as_copy
else:
_test_servers[0].object_post_as_copy = \
orig_post_as_copy
exp = 'HTTP/1.1 20'
self.assertEqual(headers[:len(exp)], exp)
# sanity
self.assertEqual(3, policy.object_ring.replica_count)
finally:
policy.object_ring._rtime = orig_rtime
os.rename(policy.object_ring.serialized_path + '.bak',
policy.object_ring.serialized_path)
def test_custom_mime_types_files(self):
swift_dir = mkdtemp()
try:
with open(os.path.join(swift_dir, 'mime.types'), 'w') as fp:
fp.write('foo/bar foo\n')
proxy_server.Application({'swift_dir': swift_dir},
FakeMemcache(), FakeLogger(),
FakeRing(), FakeRing())
self.assertEqual(proxy_server.mimetypes.guess_type('blah.foo')[0],
'foo/bar')
self.assertEqual(proxy_server.mimetypes.guess_type('blah.jpg')[0],
'image/jpeg')
finally:
rmtree(swift_dir, ignore_errors=True)
def test_PUT(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
def test_status_map(statuses, expected):
set_http_connect(*statuses)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 0
self.app.update_request(req)
self.app.memcache.store = {}
res = controller.PUT(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 200, 201, 201, 201), 201)
test_status_map((200, 200, 201, 201, 500), 201)
test_status_map((200, 200, 204, 404, 404), 404)
test_status_map((200, 200, 204, 500, 404), 503)
test_status_map((200, 200, 202, 202, 204), 204)
def test_PUT_connect_exceptions(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
def test_status_map(statuses, expected):
set_http_connect(*statuses)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 0
self.app.update_request(req)
try:
res = controller.PUT(req)
except HTTPException as res:
pass
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 200, 201, 201, -1), 201) # connect exc
# connect errors
test_status_map((200, 200, Timeout(), 201, 201, ), 201)
test_status_map((200, 200, 201, 201, Exception()), 201)
# expect errors
test_status_map((200, 200, (Timeout(), None), 201, 201), 201)
test_status_map((200, 200, (Exception(), None), 201, 201), 201)
# response errors
test_status_map((200, 200, (100, Timeout()), 201, 201), 201)
test_status_map((200, 200, (100, Exception()), 201, 201), 201)
test_status_map((200, 200, 507, 201, 201), 201) # error limited
test_status_map((200, 200, -1, 201, -1), 503)
test_status_map((200, 200, 503, -1, 503), 503)
def test_PUT_send_exceptions(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
def test_status_map(statuses, expected):
self.app.memcache.store = {}
set_http_connect(*statuses)
req = Request.blank('/v1/a/c/o.jpg',
environ={'REQUEST_METHOD': 'PUT'},
body='some data')
self.app.update_request(req)
try:
res = controller.PUT(req)
except HTTPException as res:
pass
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 200, 201, -1, 201), 201)
test_status_map((200, 200, 201, -1, -1), 503)
test_status_map((200, 200, 503, 503, -1), 503)
def test_PUT_max_size(self):
with save_globals():
set_http_connect(201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', {}, headers={
'Content-Length': str(constraints.MAX_FILE_SIZE + 1),
'Content-Type': 'foo/bar'})
self.app.update_request(req)
res = controller.PUT(req)
self.assertEqual(res.status_int, 413)
def test_PUT_bad_content_type(self):
with save_globals():
set_http_connect(201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', {}, headers={
'Content-Length': 0, 'Content-Type': 'foo/bar;swift_hey=45'})
self.app.update_request(req)
res = controller.PUT(req)
self.assertEqual(res.status_int, 400)
def test_PUT_getresponse_exceptions(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
def test_status_map(statuses, expected):
self.app.memcache.store = {}
set_http_connect(*statuses)
req = Request.blank('/v1/a/c/o.jpg', {})
req.content_length = 0
self.app.update_request(req)
try:
res = controller.PUT(req)
except HTTPException as res:
pass
expected = str(expected)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
test_status_map((200, 200, 201, 201, -1), 201)
test_status_map((200, 200, 201, -1, -1), 503)
test_status_map((200, 200, 503, 503, -1), 503)
def test_POST(self):
with save_globals():
self.app.object_post_as_copy = False
def test_status_map(statuses, expected):
set_http_connect(*statuses)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {}, method='POST',
headers={'Content-Type': 'foo/bar'})
self.app.update_request(req)
res = req.get_response(self.app)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 200, 202, 202, 202), 202)
test_status_map((200, 200, 202, 202, 500), 202)
test_status_map((200, 200, 202, 500, 500), 503)
test_status_map((200, 200, 202, 404, 500), 503)
test_status_map((200, 200, 202, 404, 404), 404)
test_status_map((200, 200, 404, 500, 500), 503)
test_status_map((200, 200, 404, 404, 404), 404)
@patch_policies([
StoragePolicy(0, 'zero', is_default=True, object_ring=FakeRing()),
StoragePolicy(1, 'one', object_ring=FakeRing()),
])
def test_POST_backend_headers(self):
# reset the router post patch_policies
self.app.obj_controller_router = proxy_server.ObjectControllerRouter()
self.app.object_post_as_copy = False
self.app.sort_nodes = lambda nodes: nodes
backend_requests = []
def capture_requests(ip, port, method, path, headers, *args,
**kwargs):
backend_requests.append((method, path, headers))
req = Request.blank('/v1/a/c/o', {}, method='POST',
headers={'X-Object-Meta-Color': 'Blue',
'Content-Type': 'text/plain'})
# we want the container_info response to says a policy index of 1
resp_headers = {'X-Backend-Storage-Policy-Index': 1}
with mocked_http_conn(
200, 200, 202, 202, 202,
headers=resp_headers, give_connect=capture_requests
) as fake_conn:
resp = req.get_response(self.app)
self.assertRaises(StopIteration, fake_conn.code_iter.next)
self.assertEqual(resp.status_int, 202)
self.assertEqual(len(backend_requests), 5)
def check_request(req, method, path, headers=None):
req_method, req_path, req_headers = req
self.assertEqual(method, req_method)
# caller can ignore leading path parts
self.assertTrue(req_path.endswith(path),
'expected path to end with %s, it was %s' % (
path, req_path))
headers = headers or {}
# caller can ignore some headers
for k, v in headers.items():
self.assertEqual(req_headers[k], v)
account_request = backend_requests.pop(0)
check_request(account_request, method='HEAD', path='/sda/0/a')
container_request = backend_requests.pop(0)
check_request(container_request, method='HEAD', path='/sda/0/a/c')
# make sure backend requests included expected container headers
container_headers = {}
for request in backend_requests:
req_headers = request[2]
device = req_headers['x-container-device']
host = req_headers['x-container-host']
container_headers[device] = host
expectations = {
'method': 'POST',
'path': '/0/a/c/o',
'headers': {
'X-Container-Partition': '0',
'Connection': 'close',
'User-Agent': 'proxy-server %s' % os.getpid(),
'Host': 'localhost:80',
'Referer': 'POST http://localhost/v1/a/c/o',
'X-Object-Meta-Color': 'Blue',
'X-Backend-Storage-Policy-Index': '1'
},
}
check_request(request, **expectations)
expected = {}
for i, device in enumerate(['sda', 'sdb', 'sdc']):
expected[device] = '10.0.0.%d:100%d' % (i, i)
self.assertEqual(container_headers, expected)
# and again with policy override
self.app.memcache.store = {}
backend_requests = []
req = Request.blank('/v1/a/c/o', {}, method='POST',
headers={'X-Object-Meta-Color': 'Blue',
'Content-Type': 'text/plain',
'X-Backend-Storage-Policy-Index': 0})
with mocked_http_conn(
200, 200, 202, 202, 202,
headers=resp_headers, give_connect=capture_requests
) as fake_conn:
resp = req.get_response(self.app)
self.assertRaises(StopIteration, fake_conn.code_iter.next)
self.assertEqual(resp.status_int, 202)
self.assertEqual(len(backend_requests), 5)
for request in backend_requests[2:]:
expectations = {
'method': 'POST',
'path': '/0/a/c/o', # ignore device bit
'headers': {
'X-Object-Meta-Color': 'Blue',
'X-Backend-Storage-Policy-Index': '0',
}
}
check_request(request, **expectations)
def test_DELETE(self):
with save_globals():
def test_status_map(statuses, expected):
set_http_connect(*statuses)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'DELETE'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
test_status_map((200, 200, 204, 204, 204), 204)
test_status_map((200, 200, 204, 204, 500), 204)
test_status_map((200, 200, 204, 404, 404), 404)
test_status_map((200, 204, 500, 500, 404), 503)
test_status_map((200, 200, 404, 404, 404), 404)
test_status_map((200, 200, 400, 400, 400), 400)
def test_HEAD(self):
with save_globals():
def test_status_map(statuses, expected):
set_http_connect(*statuses)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
if expected < 400:
self.assertIn('x-works', res.headers)
self.assertEqual(res.headers['x-works'], 'yes')
self.assertIn('accept-ranges', res.headers)
self.assertEqual(res.headers['accept-ranges'], 'bytes')
test_status_map((200, 200, 200, 404, 404), 200)
test_status_map((200, 200, 200, 500, 404), 200)
test_status_map((200, 200, 304, 500, 404), 304)
test_status_map((200, 200, 404, 404, 404), 404)
test_status_map((200, 200, 404, 404, 500), 404)
test_status_map((200, 200, 500, 500, 500), 503)
def test_HEAD_newest(self):
with save_globals():
def test_status_map(statuses, expected, timestamps,
expected_timestamp):
set_http_connect(*statuses, timestamps=timestamps)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'HEAD'},
headers={'x-newest': 'true'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
self.assertEqual(res.headers.get('last-modified'),
expected_timestamp)
# acct cont obj obj obj
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'2', '3'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '2'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '1'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '3',
'3', '1'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', None,
None, None), None)
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', None,
None, '1'), '1')
test_status_map((200, 200, 404, 404, 200), 200, ('0', '0', None,
None, '1'), '1')
def test_GET_newest(self):
with save_globals():
def test_status_map(statuses, expected, timestamps,
expected_timestamp):
set_http_connect(*statuses, timestamps=timestamps)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'GET'},
headers={'x-newest': 'true'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
self.assertEqual(res.headers.get('last-modified'),
expected_timestamp)
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'2', '3'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '2'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '1'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '3',
'3', '1'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', None,
None, None), None)
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', None,
None, '1'), '1')
with save_globals():
def test_status_map(statuses, expected, timestamps,
expected_timestamp):
set_http_connect(*statuses, timestamps=timestamps)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
self.assertEqual(res.headers.get('last-modified'),
expected_timestamp)
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'2', '3'), '1')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '2'), '1')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '1',
'3', '1'), '1')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', '3',
'3', '1'), '3')
test_status_map((200, 200, 200, 200, 200), 200, ('0', '0', None,
'1', '2'), None)
def test_POST_meta_val_len(self):
with save_globals():
limit = constraints.MAX_META_VALUE_LENGTH
self.app.object_post_as_copy = False
ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 202, 202, 202)
# acct cont obj obj obj
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'foo/bar',
'X-Object-Meta-Foo': 'x' * limit})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 202)
set_http_connect(202, 202, 202)
req = Request.blank(
'/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'foo/bar',
'X-Object-Meta-Foo': 'x' * (limit + 1)})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 400)
def test_POST_meta_authorize(self):
def authorize(req):
req.headers['X-Object-Meta-Foo'] = 'x' * (limit + 1)
return
with save_globals():
limit = constraints.MAX_META_VALUE_LENGTH
self.app.object_post_as_copy = False
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 202, 202, 202)
# acct cont obj obj obj
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'foo/bar',
'X-Object-Meta-Foo': 'x'})
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
res = controller.POST(req)
self.assertEqual(res.status_int, 400)
def test_POST_meta_key_len(self):
with save_globals():
limit = constraints.MAX_META_NAME_LENGTH
self.app.object_post_as_copy = False
set_http_connect(200, 200, 202, 202, 202)
# acct cont obj obj obj
req = Request.blank(
'/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'foo/bar',
('X-Object-Meta-' + 'x' * limit): 'x'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 202)
set_http_connect(202, 202, 202)
req = Request.blank(
'/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'foo/bar',
('X-Object-Meta-' + 'x' * (limit + 1)): 'x'})
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 400)
def test_POST_meta_count(self):
with save_globals():
limit = constraints.MAX_META_COUNT
headers = dict(
(('X-Object-Meta-' + str(i), 'a') for i in range(limit + 1)))
headers.update({'Content-Type': 'foo/bar'})
set_http_connect(202, 202, 202)
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers=headers)
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 400)
def test_POST_meta_size(self):
with save_globals():
limit = constraints.MAX_META_OVERALL_SIZE
count = limit / 256 # enough to cause the limit to be reached
headers = dict(
(('X-Object-Meta-' + str(i), 'a' * 256)
for i in range(count + 1)))
headers.update({'Content-Type': 'foo/bar'})
set_http_connect(202, 202, 202)
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'POST'},
headers=headers)
self.app.update_request(req)
res = req.get_response(self.app)
self.assertEqual(res.status_int, 400)
def test_PUT_not_autodetect_content_type(self):
with save_globals():
headers = {'Content-Type': 'something/right', 'Content-Length': 0}
it_worked = []
def verify_content_type(ipaddr, port, device, partition,
method, path, headers=None,
query_string=None):
if path == '/a/c/o.html':
it_worked.append(
headers['Content-Type'].startswith('something/right'))
set_http_connect(204, 204, 201, 201, 201,
give_connect=verify_content_type)
req = Request.blank('/v1/a/c/o.html', {'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
req.get_response(self.app)
self.assertNotEqual(it_worked, [])
self.assertTrue(all(it_worked))
def test_PUT_autodetect_content_type(self):
with save_globals():
headers = {'Content-Type': 'something/wrong', 'Content-Length': 0,
'X-Detect-Content-Type': 'True'}
it_worked = []
def verify_content_type(ipaddr, port, device, partition,
method, path, headers=None,
query_string=None):
if path == '/a/c/o.html':
it_worked.append(
headers['Content-Type'].startswith('text/html'))
set_http_connect(204, 204, 201, 201, 201,
give_connect=verify_content_type)
req = Request.blank('/v1/a/c/o.html', {'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
req.get_response(self.app)
self.assertNotEqual(it_worked, [])
self.assertTrue(all(it_worked))
def test_client_timeout(self):
with save_globals():
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
self.app.container_ring.get_nodes('account')
for dev in self.app.container_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
object_ring = self.app.get_object_ring(None)
object_ring.get_nodes('account')
for dev in object_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
class SlowBody(object):
def __init__(self):
self.sent = 0
def read(self, size=-1):
if self.sent < 4:
sleep(0.1)
self.sent += 1
return ' '
return ''
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT',
'wsgi.input': SlowBody()},
headers={'Content-Length': '4',
'Content-Type': 'text/plain'})
self.app.update_request(req)
set_http_connect(200, 200, 201, 201, 201)
# acct cont obj obj obj
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
self.app.client_timeout = 0.05
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT',
'wsgi.input': SlowBody()},
headers={'Content-Length': '4',
'Content-Type': 'text/plain'})
self.app.update_request(req)
set_http_connect(201, 201, 201)
# obj obj obj
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 408)
def test_client_disconnect(self):
with save_globals():
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
self.app.container_ring.get_nodes('account')
for dev in self.app.container_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
object_ring = self.app.get_object_ring(None)
object_ring.get_nodes('account')
for dev in object_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
class DisconnectedBody(object):
def __init__(self):
self.sent = 0
def read(self, size=-1):
return ''
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT',
'wsgi.input': DisconnectedBody()},
headers={'Content-Length': '4',
'Content-Type': 'text/plain'})
self.app.update_request(req)
set_http_connect(200, 200, 201, 201, 201)
# acct cont obj obj obj
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 499)
def test_node_read_timeout(self):
with save_globals():
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
self.app.container_ring.get_nodes('account')
for dev in self.app.container_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
object_ring = self.app.get_object_ring(None)
object_ring.get_nodes('account')
for dev in object_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
self.app.update_request(req)
set_http_connect(200, 200, 200, slow=0.1)
req.sent_size = 0
resp = req.get_response(self.app)
got_exc = False
try:
resp.body
except ChunkReadTimeout:
got_exc = True
self.assertFalse(got_exc)
self.app.recoverable_node_timeout = 0.1
set_http_connect(200, 200, 200, slow=1.0)
resp = req.get_response(self.app)
got_exc = False
try:
resp.body
except ChunkReadTimeout:
got_exc = True
self.assertTrue(got_exc)
def test_node_read_timeout_retry(self):
with save_globals():
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
self.app.container_ring.get_nodes('account')
for dev in self.app.container_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
object_ring = self.app.get_object_ring(None)
object_ring.get_nodes('account')
for dev in object_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
self.app.update_request(req)
self.app.recoverable_node_timeout = 0.1
set_http_connect(200, 200, 200, slow=[1.0, 1.0, 1.0])
resp = req.get_response(self.app)
got_exc = False
try:
self.assertEqual('', resp.body)
except ChunkReadTimeout:
got_exc = True
self.assertTrue(got_exc)
set_http_connect(200, 200, 200, body='lalala',
slow=[1.0, 1.0])
resp = req.get_response(self.app)
got_exc = False
try:
self.assertEqual(resp.body, 'lalala')
except ChunkReadTimeout:
got_exc = True
self.assertFalse(got_exc)
set_http_connect(200, 200, 200, body='lalala',
slow=[1.0, 1.0], etags=['a', 'a', 'a'])
resp = req.get_response(self.app)
got_exc = False
try:
self.assertEqual(resp.body, 'lalala')
except ChunkReadTimeout:
got_exc = True
self.assertFalse(got_exc)
set_http_connect(200, 200, 200, body='lalala',
slow=[1.0, 1.0], etags=['a', 'b', 'a'])
resp = req.get_response(self.app)
got_exc = False
try:
self.assertEqual(resp.body, 'lalala')
except ChunkReadTimeout:
got_exc = True
self.assertFalse(got_exc)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
set_http_connect(200, 200, 200, body='lalala',
slow=[1.0, 1.0], etags=['a', 'b', 'b'])
resp = req.get_response(self.app)
got_exc = False
try:
resp.body
except ChunkReadTimeout:
got_exc = True
self.assertTrue(got_exc)
def test_node_write_timeout(self):
with save_globals():
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
self.app.container_ring.get_nodes('account')
for dev in self.app.container_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
object_ring = self.app.get_object_ring(None)
object_ring.get_nodes('account')
for dev in object_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '4',
'Content-Type': 'text/plain'},
body=' ')
self.app.update_request(req)
set_http_connect(200, 200, 201, 201, 201, slow=0.1)
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
self.app.node_timeout = 0.1
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '4',
'Content-Type': 'text/plain'},
body=' ')
self.app.update_request(req)
set_http_connect(201, 201, 201, slow=1.0)
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_node_request_setting(self):
baseapp = proxy_server.Application({'request_node_count': '3'},
FakeMemcache(),
container_ring=FakeRing(),
account_ring=FakeRing())
self.assertEqual(baseapp.request_node_count(3), 3)
def test_iter_nodes(self):
with save_globals():
try:
object_ring = self.app.get_object_ring(None)
object_ring.max_more_nodes = 2
partition, nodes = object_ring.get_nodes('account',
'container',
'object')
collected_nodes = []
for node in self.app.iter_nodes(object_ring,
partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 5)
object_ring.max_more_nodes = 6
self.app.request_node_count = lambda r: 20
partition, nodes = object_ring.get_nodes('account',
'container',
'object')
collected_nodes = []
for node in self.app.iter_nodes(object_ring,
partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 9)
# zero error-limited primary nodes -> no handoff warnings
self.app.log_handoffs = True
self.app.logger = FakeLogger()
self.app.request_node_count = lambda r: 7
object_ring.max_more_nodes = 20
partition, nodes = object_ring.get_nodes('account',
'container',
'object')
collected_nodes = []
for node in self.app.iter_nodes(object_ring, partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 7)
self.assertEqual(self.app.logger.log_dict['warning'], [])
self.assertEqual(self.app.logger.get_increments(), [])
# one error-limited primary node -> one handoff warning
self.app.log_handoffs = True
self.app.logger = FakeLogger()
self.app.request_node_count = lambda r: 7
self.app._error_limiting = {} # clear out errors
set_node_errors(self.app, object_ring._devs[0], 999,
last_error=(2 ** 63 - 1))
collected_nodes = []
for node in self.app.iter_nodes(object_ring, partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 7)
self.assertEqual(self.app.logger.log_dict['warning'], [
(('Handoff requested (5)',), {})])
self.assertEqual(self.app.logger.get_increments(),
['handoff_count'])
# two error-limited primary nodes -> two handoff warnings
self.app.log_handoffs = True
self.app.logger = FakeLogger()
self.app.request_node_count = lambda r: 7
self.app._error_limiting = {} # clear out errors
for i in range(2):
set_node_errors(self.app, object_ring._devs[i], 999,
last_error=(2 ** 63 - 1))
collected_nodes = []
for node in self.app.iter_nodes(object_ring, partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 7)
self.assertEqual(self.app.logger.log_dict['warning'], [
(('Handoff requested (5)',), {}),
(('Handoff requested (6)',), {})])
self.assertEqual(self.app.logger.get_increments(),
['handoff_count',
'handoff_count'])
# all error-limited primary nodes -> four handoff warnings,
# plus a handoff-all metric
self.app.log_handoffs = True
self.app.logger = FakeLogger()
self.app.request_node_count = lambda r: 10
object_ring.set_replicas(4) # otherwise we run out of handoffs
self.app._error_limiting = {} # clear out errors
for i in range(4):
set_node_errors(self.app, object_ring._devs[i], 999,
last_error=(2 ** 63 - 1))
collected_nodes = []
for node in self.app.iter_nodes(object_ring, partition):
collected_nodes.append(node)
self.assertEqual(len(collected_nodes), 10)
self.assertEqual(self.app.logger.log_dict['warning'], [
(('Handoff requested (7)',), {}),
(('Handoff requested (8)',), {}),
(('Handoff requested (9)',), {}),
(('Handoff requested (10)',), {})])
self.assertEqual(self.app.logger.get_increments(),
['handoff_count',
'handoff_count',
'handoff_count',
'handoff_count',
'handoff_all_count'])
finally:
object_ring.max_more_nodes = 0
def test_iter_nodes_calls_sort_nodes(self):
with mock.patch.object(self.app, 'sort_nodes') as sort_nodes:
object_ring = self.app.get_object_ring(None)
for node in self.app.iter_nodes(object_ring, 0):
pass
sort_nodes.assert_called_once_with(
object_ring.get_part_nodes(0))
def test_iter_nodes_skips_error_limited(self):
with mock.patch.object(self.app, 'sort_nodes', lambda n: n):
object_ring = self.app.get_object_ring(None)
first_nodes = list(self.app.iter_nodes(object_ring, 0))
second_nodes = list(self.app.iter_nodes(object_ring, 0))
self.assertIn(first_nodes[0], second_nodes)
self.app.error_limit(first_nodes[0], 'test')
second_nodes = list(self.app.iter_nodes(object_ring, 0))
self.assertNotIn(first_nodes[0], second_nodes)
def test_iter_nodes_gives_extra_if_error_limited_inline(self):
object_ring = self.app.get_object_ring(None)
with mock.patch.object(self.app, 'sort_nodes', lambda n: n), \
mock.patch.object(self.app, 'request_node_count',
lambda r: 6), \
mock.patch.object(object_ring, 'max_more_nodes', 99):
first_nodes = list(self.app.iter_nodes(object_ring, 0))
second_nodes = []
for node in self.app.iter_nodes(object_ring, 0):
if not second_nodes:
self.app.error_limit(node, 'test')
second_nodes.append(node)
self.assertEqual(len(first_nodes), 6)
self.assertEqual(len(second_nodes), 7)
def test_iter_nodes_with_custom_node_iter(self):
object_ring = self.app.get_object_ring(None)
node_list = [dict(id=n, ip='1.2.3.4', port=n, device='D')
for n in range(10)]
with mock.patch.object(self.app, 'sort_nodes', lambda n: n), \
mock.patch.object(self.app, 'request_node_count',
lambda r: 3):
got_nodes = list(self.app.iter_nodes(object_ring, 0,
node_iter=iter(node_list)))
self.assertEqual(node_list[:3], got_nodes)
with mock.patch.object(self.app, 'sort_nodes', lambda n: n), \
mock.patch.object(self.app, 'request_node_count',
lambda r: 1000000):
got_nodes = list(self.app.iter_nodes(object_ring, 0,
node_iter=iter(node_list)))
self.assertEqual(node_list, got_nodes)
def test_best_response_sets_headers(self):
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
resp = controller.best_response(req, [200] * 3, ['OK'] * 3, [''] * 3,
'Object', headers=[{'X-Test': '1'},
{'X-Test': '2'},
{'X-Test': '3'}])
self.assertEqual(resp.headers['X-Test'], '1')
def test_best_response_sets_etag(self):
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
resp = controller.best_response(req, [200] * 3, ['OK'] * 3, [''] * 3,
'Object')
self.assertIsNone(resp.etag)
resp = controller.best_response(req, [200] * 3, ['OK'] * 3, [''] * 3,
'Object',
etag='68b329da9893e34099c7d8ad5cb9c940'
)
self.assertEqual(resp.etag, '68b329da9893e34099c7d8ad5cb9c940')
def test_proxy_passes_content_type(self):
with save_globals():
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
self.app.update_request(req)
set_http_connect(200, 200, 200)
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.content_type, 'x-application/test')
set_http_connect(200, 200, 200)
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.content_length, 0)
set_http_connect(200, 200, 200, slow=True)
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.content_length, 4)
def test_proxy_passes_content_length_on_head(self):
with save_globals():
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 200)
resp = controller.HEAD(req)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.content_length, 0)
set_http_connect(200, 200, 200, slow=True)
resp = controller.HEAD(req)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.content_length, 4)
def test_error_limiting(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
controller.app.sort_nodes = lambda l: l
object_ring = controller.app.get_object_ring(None)
self.assert_status_map(controller.HEAD, (200, 200, 503, 200, 200),
200)
self.assertEqual(
node_error_count(controller.app, object_ring.devs[0]), 2)
self.assertTrue(
node_last_error(controller.app, object_ring.devs[0])
is not None)
for _junk in range(self.app.error_suppression_limit):
self.assert_status_map(controller.HEAD, (200, 200, 503, 503,
503), 503)
self.assertEqual(
node_error_count(controller.app, object_ring.devs[0]),
self.app.error_suppression_limit + 1)
self.assert_status_map(controller.HEAD, (200, 200, 200, 200, 200),
503)
self.assertTrue(
node_last_error(controller.app, object_ring.devs[0])
is not None)
self.assert_status_map(controller.PUT, (200, 200, 200, 201, 201,
201), 503)
self.assert_status_map(controller.POST,
(200, 200, 200, 200, 200, 200, 202, 202,
202), 503)
self.assert_status_map(controller.DELETE,
(200, 200, 200, 204, 204, 204), 503)
self.app.error_suppression_interval = -300
self.assert_status_map(controller.HEAD, (200, 200, 200, 200, 200),
200)
self.assertRaises(BaseException,
self.assert_status_map, controller.DELETE,
(200, 200, 200, 204, 204, 204), 503,
raise_exc=True)
def test_error_limiting_survives_ring_reload(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
controller.app.sort_nodes = lambda l: l
object_ring = controller.app.get_object_ring(None)
self.assert_status_map(controller.HEAD, (200, 200, 503, 200, 200),
200)
self.assertEqual(
node_error_count(controller.app, object_ring.devs[0]), 2)
self.assertTrue(
node_last_error(controller.app, object_ring.devs[0])
is not None)
for _junk in range(self.app.error_suppression_limit):
self.assert_status_map(controller.HEAD, (200, 200, 503, 503,
503), 503)
self.assertEqual(
node_error_count(controller.app, object_ring.devs[0]),
self.app.error_suppression_limit + 1)
# wipe out any state in the ring
for policy in POLICIES:
policy.object_ring = FakeRing(base_port=3000)
# and we still get an error, which proves that the
# error-limiting info survived a ring reload
self.assert_status_map(controller.HEAD, (200, 200, 200, 200, 200),
503)
def test_PUT_error_limiting(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
controller.app.sort_nodes = lambda l: l
object_ring = controller.app.get_object_ring(None)
# acc con obj obj obj
self.assert_status_map(controller.PUT, (200, 200, 503, 200, 200),
200)
# 2, not 1, because assert_status_map() calls the method twice
odevs = object_ring.devs
self.assertEqual(node_error_count(controller.app, odevs[0]), 2)
self.assertEqual(node_error_count(controller.app, odevs[1]), 0)
self.assertEqual(node_error_count(controller.app, odevs[2]), 0)
self.assertTrue(
node_last_error(controller.app, odevs[0]) is not None)
self.assertTrue(node_last_error(controller.app, odevs[1]) is None)
self.assertTrue(node_last_error(controller.app, odevs[2]) is None)
def test_PUT_error_limiting_last_node(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
controller.app.sort_nodes = lambda l: l
object_ring = controller.app.get_object_ring(None)
# acc con obj obj obj
self.assert_status_map(controller.PUT, (200, 200, 200, 200, 503),
200)
# 2, not 1, because assert_status_map() calls the method twice
odevs = object_ring.devs
self.assertEqual(node_error_count(controller.app, odevs[0]), 0)
self.assertEqual(node_error_count(controller.app, odevs[1]), 0)
self.assertEqual(node_error_count(controller.app, odevs[2]), 2)
self.assertTrue(node_last_error(controller.app, odevs[0]) is None)
self.assertTrue(node_last_error(controller.app, odevs[1]) is None)
self.assertTrue(
node_last_error(controller.app, odevs[2]) is not None)
def test_acc_or_con_missing_returns_404(self):
with save_globals():
self.app.memcache = FakeMemcacheReturnsNone()
self.app._error_limiting = {}
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 200, 200, 200, 200)
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
self.app.update_request(req)
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 200)
set_http_connect(404, 404, 404)
# acct acct acct
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(503, 404, 404)
# acct acct acct
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(503, 503, 404)
# acct acct acct
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(503, 503, 503)
# acct acct acct
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(200, 200, 204, 204, 204)
# acct cont obj obj obj
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 204)
set_http_connect(200, 404, 404, 404)
# acct cont cont cont
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(200, 503, 503, 503)
# acct cont cont cont
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
for dev in self.app.account_ring.devs:
set_node_errors(
self.app, dev, self.app.error_suppression_limit + 1,
time.time())
set_http_connect(200)
# acct [isn't actually called since everything
# is error limited]
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
for dev in self.app.account_ring.devs:
set_node_errors(self.app, dev, 0, last_error=None)
for dev in self.app.container_ring.devs:
set_node_errors(self.app, dev,
self.app.error_suppression_limit + 1,
time.time())
set_http_connect(200, 200)
# acct cont [isn't actually called since
# everything is error limited]
# make sure to use a fresh request without cached env
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'})
resp = getattr(controller, 'DELETE')(req)
self.assertEqual(resp.status_int, 404)
def test_PUT_POST_requires_container_exist(self):
with save_globals():
self.app.object_post_as_copy = False
self.app.memcache = FakeMemcacheReturnsNone()
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 404, 404, 404, 200, 200, 200)
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'PUT'})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(200, 404, 404, 404, 200, 200)
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'text/plain'})
self.app.update_request(req)
resp = controller.POST(req)
self.assertEqual(resp.status_int, 404)
def test_bad_metadata(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 201, 201, 201)
# acct cont obj obj obj
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '0'})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank(
'/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '0',
'X-Object-Meta-' + (
'a' * constraints.MAX_META_NAME_LENGTH): 'v'})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank(
'/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={
'Content-Length': '0',
'X-Object-Meta-' + (
'a' * (constraints.MAX_META_NAME_LENGTH + 1)): 'v'})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '0',
'X-Object-Meta-Too-Long': 'a' *
constraints.MAX_META_VALUE_LENGTH})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank(
'/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '0',
'X-Object-Meta-Too-Long': 'a' *
(constraints.MAX_META_VALUE_LENGTH + 1)})
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {'Content-Length': '0'}
for x in range(constraints.MAX_META_COUNT):
headers['X-Object-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers = {'Content-Length': '0'}
for x in range(constraints.MAX_META_COUNT + 1):
headers['X-Object-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {'Content-Length': '0'}
header_value = 'a' * constraints.MAX_META_VALUE_LENGTH
size = 0
x = 0
while size < constraints.MAX_META_OVERALL_SIZE - 4 - \
constraints.MAX_META_VALUE_LENGTH:
size += 4 + constraints.MAX_META_VALUE_LENGTH
headers['X-Object-Meta-%04d' % x] = header_value
x += 1
if constraints.MAX_META_OVERALL_SIZE - size > 1:
headers['X-Object-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size - 1)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers['X-Object-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
resp = controller.PUT(req)
self.assertEqual(resp.status_int, 400)
@contextmanager
def controller_context(self, req, *args, **kwargs):
_v, account, container, obj = utils.split_path(req.path, 4, 4, True)
controller = ReplicatedObjectController(
self.app, account, container, obj)
self.app.update_request(req)
self.app.memcache.store = {}
with save_globals():
new_connect = set_http_connect(*args, **kwargs)
yield controller
unused_status_list = []
while True:
try:
unused_status_list.append(next(new_connect.code_iter))
except StopIteration:
break
if unused_status_list:
raise self.fail('UN-USED STATUS CODES: %r' %
unused_status_list)
@unpatch_policies
def test_chunked_put_bad_version(self):
# Check bad version
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v0 HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 412'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_chunked_put_bad_path(self):
# Check bad path
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET invalid HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 404'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_chunked_put_bad_utf8(self):
# Check invalid utf-8
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a%80 HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 412'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_chunked_put_bad_path_no_controller(self):
# Check bad path, no controller
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1 HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 412'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_chunked_put_bad_method(self):
# Check bad method
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('LICK /v1/a HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 405'
self.assertEqual(headers[:len(exp)], exp)
@unpatch_policies
def test_chunked_put_unhandled_exception(self):
# Check unhandled exception
(prosrv, acc1srv, acc2srv, con1srv, con2srv, obj1srv,
obj2srv, obj3srv) = _test_servers
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
orig_update_request = prosrv.update_request
def broken_update_request(*args, **kwargs):
raise Exception('fake: this should be printed')
prosrv.update_request = broken_update_request
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('HEAD /v1/a HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 500'
self.assertEqual(headers[:len(exp)], exp)
prosrv.update_request = orig_update_request
@unpatch_policies
def test_chunked_put_head_account(self):
# Head account, just a double check and really is here to test
# the part Application.log_request that 'enforces' a
# content_length on the response.
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('HEAD /v1/a HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 204'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('\r\nContent-Length: 0\r\n', headers)
@unpatch_policies
def test_chunked_put_utf8_all_the_way_down(self):
# Test UTF-8 Unicode all the way through the system
ustr = '\xe1\xbc\xb8\xce\xbf\xe1\xbd\xba \xe1\xbc\xb0\xce' \
'\xbf\xe1\xbd\xbb\xce\x87 \xcf\x84\xe1\xbd\xb0 \xcf' \
'\x80\xe1\xbd\xb1\xce\xbd\xcf\x84\xca\xbc \xe1\xbc' \
'\x82\xce\xbd \xe1\xbc\x90\xce\xbe\xe1\xbd\xb5\xce' \
'\xba\xce\xbf\xce\xb9 \xcf\x83\xce\xb1\xcf\x86\xe1' \
'\xbf\x86.Test'
ustr_short = '\xe1\xbc\xb8\xce\xbf\xe1\xbd\xbatest'
# Create ustr container
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n' % quote(ustr))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# List account with ustr container (test plain)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
containers = fd.read().split('\n')
self.assertIn(ustr, containers)
# List account with ustr container (test json)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a?format=json HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
listing = json.loads(fd.read())
self.assertIn(ustr.decode('utf8'), [l['name'] for l in listing])
# List account with ustr container (test xml)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a?format=xml HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('<name>%s</name>' % ustr, fd.read())
# Create ustr object with ustr metadata in ustr container
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'X-Object-Meta-%s: %s\r\nContent-Length: 0\r\n\r\n' %
(quote(ustr), quote(ustr), quote(ustr_short),
quote(ustr)))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# List ustr container with ustr object (test plain)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n' % quote(ustr))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
objects = fd.read().split('\n')
self.assertIn(ustr, objects)
# List ustr container with ustr object (test json)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?format=json HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n' %
quote(ustr))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
listing = json.loads(fd.read())
self.assertEqual(listing[0]['name'], ustr.decode('utf8'))
# List ustr container with ustr object (test xml)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?format=xml HTTP/1.1\r\n'
'Host: localhost\r\nConnection: close\r\n'
'X-Storage-Token: t\r\nContent-Length: 0\r\n\r\n' %
quote(ustr))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('<name>%s</name>' % ustr, fd.read())
# Retrieve ustr object with ustr metadata
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n' %
(quote(ustr), quote(ustr)))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('\r\nX-Object-Meta-%s: %s\r\n' %
(quote(ustr_short).lower(), quote(ustr)), headers)
@unpatch_policies
def test_chunked_put_chunked_put(self):
# Do chunked object put
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
# Also happens to assert that x-storage-token is taken as a
# replacement for x-auth-token.
fd.write('PUT /v1/a/c/o/chunky HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Transfer-Encoding: chunked\r\n\r\n'
'2\r\noh\r\n4\r\n hai\r\nf\r\n123456789abcdef\r\n'
'0\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Ensure we get what we put
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/c/o/chunky HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Auth-Token: t\r\n\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
body = fd.read()
self.assertEqual(body, 'oh hai123456789abcdef')
@unpatch_policies
def test_conditional_range_get(self):
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis, obj2lis,
obj3lis) = _test_sockets
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
# make a container
fd = sock.makefile()
fd.write('PUT /v1/a/con HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n')
fd.flush()
exp = 'HTTP/1.1 201'
headers = readuntil2crlfs(fd)
self.assertEqual(headers[:len(exp)], exp)
# put an object in it
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/con/o HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: 10\r\n'
'Content-Type: text/plain\r\n'
'\r\n'
'abcdefghij\r\n')
fd.flush()
exp = 'HTTP/1.1 201'
headers = readuntil2crlfs(fd)
self.assertEqual(headers[:len(exp)], exp)
# request with both If-None-Match and Range
etag = md5("abcdefghij").hexdigest()
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/con/o HTTP/1.1\r\n' +
'Host: localhost\r\n' +
'Connection: close\r\n' +
'X-Storage-Token: t\r\n' +
'If-None-Match: "' + etag + '"\r\n' +
'Range: bytes=3-8\r\n' +
'\r\n')
fd.flush()
exp = 'HTTP/1.1 304'
headers = readuntil2crlfs(fd)
self.assertEqual(headers[:len(exp)], exp)
def test_mismatched_etags(self):
with save_globals():
# no etag supplied, object servers return success w/ diff values
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '0'})
self.app.update_request(req)
set_http_connect(200, 201, 201, 201,
etags=[None,
'68b329da9893e34099c7d8ad5cb9c940',
'68b329da9893e34099c7d8ad5cb9c940',
'68b329da9893e34099c7d8ad5cb9c941'])
resp = controller.PUT(req)
self.assertEqual(resp.status_int // 100, 5) # server error
# req supplies etag, object servers return 422 - mismatch
headers = {'Content-Length': '0',
'ETag': '68b329da9893e34099c7d8ad5cb9c940'}
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers=headers)
self.app.update_request(req)
set_http_connect(200, 422, 422, 503,
etags=['68b329da9893e34099c7d8ad5cb9c940',
'68b329da9893e34099c7d8ad5cb9c941',
None,
None])
resp = controller.PUT(req)
self.assertEqual(resp.status_int // 100, 4) # client error
def test_response_get_accept_ranges_header(self):
with save_globals():
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'GET'})
self.app.update_request(req)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 200)
resp = controller.GET(req)
self.assertIn('accept-ranges', resp.headers)
self.assertEqual(resp.headers['accept-ranges'], 'bytes')
def test_response_head_accept_ranges_header(self):
with save_globals():
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 200)
resp = controller.HEAD(req)
self.assertIn('accept-ranges', resp.headers)
self.assertEqual(resp.headers['accept-ranges'], 'bytes')
def test_GET_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
set_http_connect(200, 200, 201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o')
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
controller.GET(req)
self.assertTrue(called[0])
def test_HEAD_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
set_http_connect(200, 200, 201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', {'REQUEST_METHOD': 'HEAD'})
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
controller.HEAD(req)
self.assertTrue(called[0])
def test_POST_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
self.app.object_post_as_copy = False
set_http_connect(200, 200, 201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'POST'},
headers={'Content-Length': '5'}, body='12345')
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
controller.POST(req)
self.assertTrue(called[0])
def test_PUT_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
set_http_connect(200, 200, 201, 201, 201)
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '5'}, body='12345')
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
controller.PUT(req)
self.assertTrue(called[0])
def test_POST_converts_delete_after_to_delete_at(self):
with save_globals():
self.app.object_post_as_copy = False
controller = ReplicatedObjectController(
self.app, 'account', 'container', 'object')
set_http_connect(200, 200, 202, 202, 202)
self.app.memcache.store = {}
orig_time = time.time
try:
t = time.time()
time.time = lambda: t
req = Request.blank('/v1/a/c/o', {},
headers={'Content-Type': 'foo/bar',
'X-Delete-After': '60'})
self.app.update_request(req)
res = controller.POST(req)
self.assertEqual(res.status, '202 Fake')
self.assertEqual(req.headers.get('x-delete-at'),
str(int(t + 60)))
finally:
time.time = orig_time
@unpatch_policies
def test_ec_client_disconnect(self):
prolis = _test_sockets[0]
# create connection
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
# create container
fd.write('PUT /v1/a/ec-discon HTTP/1.1\r\n'
'Host: localhost\r\n'
'Content-Length: 0\r\n'
'X-Storage-Token: t\r\n'
'X-Storage-Policy: ec\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2'
self.assertEqual(headers[:len(exp)], exp)
# create object
obj = 'a' * 4 * 64 * 2 ** 10
fd.write('PUT /v1/a/ec-discon/test HTTP/1.1\r\n'
'Host: localhost\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: donuts\r\n'
'\r\n%s' % (len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
class WrappedTimeout(ChunkWriteTimeout):
def __enter__(self):
timeouts[self] = traceback.extract_stack()
return super(WrappedTimeout, self).__enter__()
def __exit__(self, typ, value, tb):
timeouts[self] = None
return super(WrappedTimeout, self).__exit__(typ, value, tb)
timeouts = {}
with mock.patch('swift.proxy.controllers.base.ChunkWriteTimeout',
WrappedTimeout):
with mock.patch.object(_test_servers[0], 'client_timeout', new=5):
# get object
fd.write('GET /v1/a/ec-discon/test HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
# read most of the object, and disconnect
fd.read(10)
sock.fd._sock.close()
self._sleep_enough(
lambda:
_test_servers[0].logger.get_lines_for_level('warning'))
# check for disconnect message!
expected = ['Client disconnected on read'] * 2
self.assertEqual(
_test_servers[0].logger.get_lines_for_level('warning'),
expected)
# check that no coro was left waiting to write
self.assertTrue(timeouts) # sanity - WrappedTimeout did get called
missing_exits = [tb for tb in timeouts.values() if tb is not None]
self.assertFalse(
missing_exits, 'Failed to exit all ChunkWriteTimeouts.\n' +
''.join(['No exit from ChunkWriteTimeout entered at:\n' +
''.join(traceback.format_list(tb)[:-1])
for tb in missing_exits]))
# and check that the ChunkWriteTimeouts did not raise Exceptions
self.assertFalse(_test_servers[0].logger.get_lines_for_level('error'))
@unpatch_policies
def test_ec_client_put_disconnect(self):
prolis = _test_sockets[0]
# create connection
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
# create container
fd.write('PUT /v1/a/ec-discon HTTP/1.1\r\n'
'Host: localhost\r\n'
'Content-Length: 0\r\n'
'X-Storage-Token: t\r\n'
'X-Storage-Policy: ec\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2'
self.assertEqual(headers[:len(exp)], exp)
# create object
obj = 'a' * 4 * 64 * 2 ** 10
fd.write('PUT /v1/a/ec-discon/test HTTP/1.1\r\n'
'Host: localhost\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: donuts\r\n'
'\r\n%s' % (len(obj), obj[:-10]))
fd.flush()
fd.close()
sock.close()
# sleep to trampoline enough
condition = \
lambda: _test_servers[0].logger.get_lines_for_level('warning')
self._sleep_enough(condition)
expected = ['Client disconnected without sending enough data']
warns = _test_servers[0].logger.get_lines_for_level('warning')
self.assertEqual(expected, warns)
errors = _test_servers[0].logger.get_lines_for_level('error')
self.assertEqual([], errors)
@unpatch_policies
def test_leak_1(self):
_request_instances = weakref.WeakKeyDictionary()
_orig_init = Request.__init__
def request_init(self, *args, **kwargs):
_orig_init(self, *args, **kwargs)
_request_instances[self] = None
with mock.patch.object(Request, "__init__", request_init):
prolis = _test_sockets[0]
prosrv = _test_servers[0]
obj_len = prosrv.client_chunk_size * 2
# PUT test file
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/c/test_leak_1 HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Auth-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n%s' % (obj_len, 'a' * obj_len))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Remember Request instance count, make sure the GC is run for
# pythons without reference counting.
for i in range(4):
sleep(0) # let eventlet do its thing
gc.collect()
else:
sleep(0)
before_request_instances = len(_request_instances)
# GET test file, but disconnect early
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/c/test_leak_1 HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Auth-Token: t\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
fd.read(1)
sock.fd._sock.close()
# Make sure the GC is run again for pythons without reference
# counting
for i in range(4):
sleep(0) # let eventlet do its thing
gc.collect()
else:
sleep(0)
self.assertEqual(
before_request_instances, len(_request_instances))
def test_OPTIONS(self):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o.jpg')
def my_empty_container_info(*args):
return {}
controller.container_info = my_empty_container_info
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
def my_empty_origin_container_info(*args):
return {'cors': {'allow_origin': None}}
controller.container_info = my_empty_origin_container_info
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
def my_container_info(*args):
return {
'cors': {
'allow_origin': 'http://foo.bar:8080 https://foo.bar',
'max_age': '999',
}
}
controller.container_info = my_container_info
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://foo.bar',
'Access-Control-Request-Method': 'GET'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
self.assertEqual(
'https://foo.bar',
resp.headers['access-control-allow-origin'])
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb,
resp.headers['access-control-allow-methods'])
self.assertEqual(
len(resp.headers['access-control-allow-methods'].split(', ')),
6)
self.assertEqual('999', resp.headers['access-control-max-age'])
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://foo.bar'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
req = Request.blank('/v1/a/c/o.jpg', {'REQUEST_METHOD': 'OPTIONS'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb, resp.headers['Allow'])
self.assertEqual(len(resp.headers['Allow'].split(', ')), 6)
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.bar',
'Access-Control-Request-Method': 'GET'})
controller.app.cors_allow_origin = ['http://foo.bar', ]
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
def my_container_info_wildcard(*args):
return {
'cors': {
'allow_origin': '*',
'max_age': '999',
}
}
controller.container_info = my_container_info_wildcard
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://bar.baz',
'Access-Control-Request-Method': 'GET'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
self.assertEqual('*', resp.headers['access-control-allow-origin'])
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb,
resp.headers['access-control-allow-methods'])
self.assertEqual(
len(resp.headers['access-control-allow-methods'].split(', ')),
6)
self.assertEqual('999', resp.headers['access-control-max-age'])
def _get_CORS_response(self, container_cors, strict_mode, object_get=None):
with save_globals():
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
def stubContainerInfo(*args):
return {
'cors': container_cors
}
controller.container_info = stubContainerInfo
controller.app.strict_cors_mode = strict_mode
def objectGET(controller, req):
return Response(headers={
'X-Object-Meta-Color': 'red',
'X-Super-Secret': 'hush',
})
mock_object_get = object_get or objectGET
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'GET'},
headers={'Origin': 'http://foo.bar'})
resp = cors_validation(mock_object_get)(controller, req)
return resp
def test_CORS_valid_non_strict(self):
# test expose_headers to non-allowed origins
container_cors = {'allow_origin': 'http://not.foo.bar',
'expose_headers': 'X-Object-Meta-Color '
'X-Object-Meta-Color-Ex'}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=False)
self.assertEqual(200, resp.status_int)
self.assertEqual('http://foo.bar',
resp.headers['access-control-allow-origin'])
self.assertEqual('red', resp.headers['x-object-meta-color'])
# X-Super-Secret is in the response, but not "exposed"
self.assertEqual('hush', resp.headers['x-super-secret'])
self.assertIn('access-control-expose-headers', resp.headers)
exposed = set(
h.strip() for h in
resp.headers['access-control-expose-headers'].split(','))
expected_exposed = set([
'cache-control', 'content-language', 'content-type', 'expires',
'last-modified', 'pragma', 'etag', 'x-timestamp', 'x-trans-id',
'x-openstack-request-id', 'x-object-meta-color',
'x-object-meta-color-ex'])
self.assertEqual(expected_exposed, exposed)
# test allow_origin *
container_cors = {'allow_origin': '*'}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=False)
self.assertEqual(200, resp.status_int)
self.assertEqual('*',
resp.headers['access-control-allow-origin'])
# test allow_origin empty
container_cors = {'allow_origin': ''}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=False)
self.assertEqual(200, resp.status_int)
self.assertEqual('http://foo.bar',
resp.headers['access-control-allow-origin'])
def test_CORS_valid_strict(self):
# test expose_headers to non-allowed origins
container_cors = {'allow_origin': 'http://not.foo.bar',
'expose_headers': 'X-Object-Meta-Color '
'X-Object-Meta-Color-Ex'}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=True)
self.assertEqual(200, resp.status_int)
self.assertNotIn('access-control-expose-headers', resp.headers)
self.assertNotIn('access-control-allow-origin', resp.headers)
# test allow_origin *
container_cors = {'allow_origin': '*'}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=True)
self.assertEqual(200, resp.status_int)
self.assertEqual('*',
resp.headers['access-control-allow-origin'])
self.assertEqual('red', resp.headers['x-object-meta-color'])
# X-Super-Secret is in the response, but not "exposed"
self.assertEqual('hush', resp.headers['x-super-secret'])
self.assertIn('access-control-expose-headers', resp.headers)
exposed = set(
h.strip() for h in
resp.headers['access-control-expose-headers'].split(','))
expected_exposed = set([
'cache-control', 'content-language', 'content-type', 'expires',
'last-modified', 'pragma', 'etag', 'x-timestamp', 'x-trans-id',
'x-openstack-request-id', 'x-object-meta-color'])
self.assertEqual(expected_exposed, exposed)
# test allow_origin empty
container_cors = {'allow_origin': ''}
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=True)
self.assertNotIn('access-control-expose-headers', resp.headers)
self.assertNotIn('access-control-allow-origin', resp.headers)
def test_CORS_valid_with_obj_headers(self):
container_cors = {'allow_origin': 'http://foo.bar'}
def objectGET(controller, req):
return Response(headers={
'X-Object-Meta-Color': 'red',
'X-Super-Secret': 'hush',
'Access-Control-Allow-Origin': 'http://obj.origin',
'Access-Control-Expose-Headers': 'x-trans-id'
})
resp = self._get_CORS_response(
container_cors=container_cors, strict_mode=True,
object_get=objectGET)
self.assertEqual(200, resp.status_int)
self.assertEqual('http://obj.origin',
resp.headers['access-control-allow-origin'])
self.assertEqual('x-trans-id',
resp.headers['access-control-expose-headers'])
def _gather_x_container_headers(self, controller_call, req, *connect_args,
**kwargs):
header_list = kwargs.pop('header_list', ['X-Container-Device',
'X-Container-Host',
'X-Container-Partition'])
seen_headers = []
def capture_headers(ipaddr, port, device, partition, method,
path, headers=None, query_string=None):
captured = {}
for header in header_list:
captured[header] = headers.get(header)
seen_headers.append(captured)
with save_globals():
self.app.allow_account_management = True
set_http_connect(*connect_args, give_connect=capture_headers,
**kwargs)
resp = controller_call(req)
self.assertEqual(2, resp.status_int // 100) # sanity check
# don't care about the account/container HEADs, so chuck
# the first two requests
return sorted(seen_headers[2:],
key=lambda d: d.get(header_list[0]) or 'z')
def test_PUT_x_container_headers_with_equal_replicas(self):
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '5'}, body='12345')
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.PUT, req,
200, 200, 201, 201, 201) # HEAD HEAD PUT PUT PUT
self.assertEqual(
seen_headers, [
{'X-Container-Host': '10.0.0.0:1000',
'X-Container-Partition': '0',
'X-Container-Device': 'sda'},
{'X-Container-Host': '10.0.0.1:1001',
'X-Container-Partition': '0',
'X-Container-Device': 'sdb'},
{'X-Container-Host': '10.0.0.2:1002',
'X-Container-Partition': '0',
'X-Container-Device': 'sdc'}])
def test_PUT_x_container_headers_with_fewer_container_replicas(self):
self.app.container_ring.set_replicas(2)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '5'}, body='12345')
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.PUT, req,
200, 200, 201, 201, 201) # HEAD HEAD PUT PUT PUT
self.assertEqual(
seen_headers, [
{'X-Container-Host': '10.0.0.0:1000',
'X-Container-Partition': '0',
'X-Container-Device': 'sda'},
{'X-Container-Host': '10.0.0.0:1000',
'X-Container-Partition': '0',
'X-Container-Device': 'sda'},
{'X-Container-Host': '10.0.0.1:1001',
'X-Container-Partition': '0',
'X-Container-Device': 'sdb'}])
def test_PUT_x_container_headers_with_more_container_replicas(self):
self.app.container_ring.set_replicas(4)
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Length': '5'}, body='12345')
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.PUT, req,
200, 200, 201, 201, 201) # HEAD HEAD PUT PUT PUT
self.assertEqual(
seen_headers, [
{'X-Container-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Container-Partition': '0',
'X-Container-Device': 'sda,sdd'},
{'X-Container-Host': '10.0.0.1:1001',
'X-Container-Partition': '0',
'X-Container-Device': 'sdb'},
{'X-Container-Host': '10.0.0.2:1002',
'X-Container-Partition': '0',
'X-Container-Device': 'sdc'}])
def test_POST_x_container_headers_with_more_container_replicas(self):
self.app.container_ring.set_replicas(4)
self.app.object_post_as_copy = False
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'POST'},
headers={'Content-Type': 'application/stuff'})
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.POST, req,
200, 200, 200, 200, 200) # HEAD HEAD POST POST POST
self.assertEqual(
seen_headers, [
{'X-Container-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Container-Partition': '0',
'X-Container-Device': 'sda,sdd'},
{'X-Container-Host': '10.0.0.1:1001',
'X-Container-Partition': '0',
'X-Container-Device': 'sdb'},
{'X-Container-Host': '10.0.0.2:1002',
'X-Container-Partition': '0',
'X-Container-Device': 'sdc'}])
def test_DELETE_x_container_headers_with_more_container_replicas(self):
self.app.container_ring.set_replicas(4)
req = Request.blank('/v1/a/c/o',
environ={'REQUEST_METHOD': 'DELETE'},
headers={'Content-Type': 'application/stuff'})
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.DELETE, req,
200, 200, 200, 200, 200) # HEAD HEAD DELETE DELETE DELETE
self.assertEqual(seen_headers, [
{'X-Container-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Container-Partition': '0',
'X-Container-Device': 'sda,sdd'},
{'X-Container-Host': '10.0.0.1:1001',
'X-Container-Partition': '0',
'X-Container-Device': 'sdb'},
{'X-Container-Host': '10.0.0.2:1002',
'X-Container-Partition': '0',
'X-Container-Device': 'sdc'}
])
@mock.patch('time.time', new=lambda: STATIC_TIME)
def test_PUT_x_delete_at_with_fewer_container_replicas(self):
self.app.container_ring.set_replicas(2)
delete_at_timestamp = int(time.time()) + 100000
delete_at_container = utils.get_expirer_container(
delete_at_timestamp, self.app.expiring_objects_container_divisor,
'a', 'c', 'o')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Type': 'application/stuff',
'Content-Length': '0',
'X-Delete-At': str(delete_at_timestamp)})
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.PUT, req,
200, 200, 201, 201, 201, # HEAD HEAD PUT PUT PUT
header_list=('X-Delete-At-Host', 'X-Delete-At-Device',
'X-Delete-At-Partition', 'X-Delete-At-Container'))
self.assertEqual(seen_headers, [
{'X-Delete-At-Host': '10.0.0.0:1000',
'X-Delete-At-Container': delete_at_container,
'X-Delete-At-Partition': '0',
'X-Delete-At-Device': 'sda'},
{'X-Delete-At-Host': '10.0.0.1:1001',
'X-Delete-At-Container': delete_at_container,
'X-Delete-At-Partition': '0',
'X-Delete-At-Device': 'sdb'},
{'X-Delete-At-Host': None,
'X-Delete-At-Container': None,
'X-Delete-At-Partition': None,
'X-Delete-At-Device': None}
])
@mock.patch('time.time', new=lambda: STATIC_TIME)
def test_PUT_x_delete_at_with_more_container_replicas(self):
self.app.container_ring.set_replicas(4)
self.app.expiring_objects_account = 'expires'
self.app.expiring_objects_container_divisor = 60
delete_at_timestamp = int(time.time()) + 100000
delete_at_container = utils.get_expirer_container(
delete_at_timestamp, self.app.expiring_objects_container_divisor,
'a', 'c', 'o')
req = Request.blank('/v1/a/c/o', environ={'REQUEST_METHOD': 'PUT'},
headers={'Content-Type': 'application/stuff',
'Content-Length': 0,
'X-Delete-At': str(delete_at_timestamp)})
controller = ReplicatedObjectController(
self.app, 'a', 'c', 'o')
seen_headers = self._gather_x_container_headers(
controller.PUT, req,
200, 200, 201, 201, 201, # HEAD HEAD PUT PUT PUT
header_list=('X-Delete-At-Host', 'X-Delete-At-Device',
'X-Delete-At-Partition', 'X-Delete-At-Container'))
self.assertEqual(seen_headers, [
{'X-Delete-At-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Delete-At-Container': delete_at_container,
'X-Delete-At-Partition': '0',
'X-Delete-At-Device': 'sda,sdd'},
{'X-Delete-At-Host': '10.0.0.1:1001',
'X-Delete-At-Container': delete_at_container,
'X-Delete-At-Partition': '0',
'X-Delete-At-Device': 'sdb'},
{'X-Delete-At-Host': '10.0.0.2:1002',
'X-Delete-At-Container': delete_at_container,
'X-Delete-At-Partition': '0',
'X-Delete-At-Device': 'sdc'}
])
class TestECMismatchedFA(unittest.TestCase):
def tearDown(self):
prosrv = _test_servers[0]
# don't leak error limits and poison other tests
prosrv._error_limiting = {}
def test_mixing_different_objects_fragment_archives(self):
(prosrv, acc1srv, acc2srv, con1srv, con2srv, obj1srv,
obj2srv, obj3srv) = _test_servers
ec_policy = POLICIES[3]
@public
def bad_disk(req):
return Response(status=507, body="borken")
ensure_container = Request.blank(
"/v1/a/ec-crazytown",
environ={"REQUEST_METHOD": "PUT"},
headers={"X-Storage-Policy": "ec", "X-Auth-Token": "t"})
resp = ensure_container.get_response(prosrv)
self.assertIn(resp.status_int, (201, 202))
obj1 = "first version..."
put_req1 = Request.blank(
"/v1/a/ec-crazytown/obj",
environ={"REQUEST_METHOD": "PUT"},
headers={"X-Auth-Token": "t"})
put_req1.body = obj1
obj2 = u"versión segundo".encode("utf-8")
put_req2 = Request.blank(
"/v1/a/ec-crazytown/obj",
environ={"REQUEST_METHOD": "PUT"},
headers={"X-Auth-Token": "t"})
put_req2.body = obj2
# pyeclib has checks for unequal-length; we don't want to trip those
self.assertEqual(len(obj1), len(obj2))
# Server obj1 will have the first version of the object (obj2 also
# gets it, but that gets stepped on later)
prosrv._error_limiting = {}
with mock.patch.object(obj3srv, 'PUT', bad_disk), \
mock.patch(
'swift.common.storage_policy.ECStoragePolicy.quorum'):
type(ec_policy).quorum = mock.PropertyMock(return_value=2)
resp = put_req1.get_response(prosrv)
self.assertEqual(resp.status_int, 201)
# Servers obj2 and obj3 will have the second version of the object.
prosrv._error_limiting = {}
with mock.patch.object(obj1srv, 'PUT', bad_disk), \
mock.patch(
'swift.common.storage_policy.ECStoragePolicy.quorum'):
type(ec_policy).quorum = mock.PropertyMock(return_value=2)
resp = put_req2.get_response(prosrv)
self.assertEqual(resp.status_int, 201)
# A GET that only sees 1 fragment archive should fail
get_req = Request.blank("/v1/a/ec-crazytown/obj",
environ={"REQUEST_METHOD": "GET"},
headers={"X-Auth-Token": "t"})
prosrv._error_limiting = {}
with mock.patch.object(obj1srv, 'GET', bad_disk), \
mock.patch.object(obj2srv, 'GET', bad_disk):
resp = get_req.get_response(prosrv)
self.assertEqual(resp.status_int, 503)
# A GET that sees 2 matching FAs will work
get_req = Request.blank("/v1/a/ec-crazytown/obj",
environ={"REQUEST_METHOD": "GET"},
headers={"X-Auth-Token": "t"})
prosrv._error_limiting = {}
with mock.patch.object(obj1srv, 'GET', bad_disk):
resp = get_req.get_response(prosrv)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, obj2)
# A GET that sees 2 mismatching FAs will fail
get_req = Request.blank("/v1/a/ec-crazytown/obj",
environ={"REQUEST_METHOD": "GET"},
headers={"X-Auth-Token": "t"})
prosrv._error_limiting = {}
with mock.patch.object(obj2srv, 'GET', bad_disk):
resp = get_req.get_response(prosrv)
self.assertEqual(resp.status_int, 503)
class TestECGets(unittest.TestCase):
def tearDown(self):
prosrv = _test_servers[0]
# don't leak error limits and poison other tests
prosrv._error_limiting = {}
def _setup_nodes_and_do_GET(self, objs, node_state):
"""
A helper method that creates object fragments, stashes them in temp
dirs, and then moves selected fragments back into the hash_dirs on each
node according to a specified desired node state description.
:param objs: a dict that maps object references to dicts that describe
the object timestamp and content. Object frags will be
created for each item in this dict.
:param node_state: a dict that maps a node index to the desired state
for that node. Each desired state is a list of
dicts, with each dict describing object reference,
frag_index and whether the file moved to the node's
hash_dir should be marked as durable or not.
"""
(prosrv, acc1srv, acc2srv, con1srv, con2srv, obj1srv,
obj2srv, obj3srv) = _test_servers
ec_policy = POLICIES[3]
container_name = uuid.uuid4().hex
obj_name = uuid.uuid4().hex
obj_path = os.path.join(os.sep, 'v1', 'a', container_name, obj_name)
# PUT container, make sure it worked
container_path = os.path.join(os.sep, 'v1', 'a', container_name)
ec_container = Request.blank(
container_path, environ={"REQUEST_METHOD": "PUT"},
headers={"X-Storage-Policy": "ec", "X-Auth-Token": "t"})
resp = ec_container.get_response(prosrv)
self.assertIn(resp.status_int, (201, 202))
partition, nodes = \
ec_policy.object_ring.get_nodes('a', container_name, obj_name)
# map nodes to hash dirs
node_hash_dirs = {}
node_tmp_dirs = collections.defaultdict(dict)
for node in nodes:
node_hash_dirs[node['index']] = os.path.join(
_testdir, node['device'], storage_directory(
diskfile.get_data_dir(ec_policy),
partition, hash_path('a', container_name, obj_name)))
def _put_object(ref, timestamp, body):
# PUT an object and then move its disk files to a temp dir
headers = {"X-Timestamp": timestamp.internal}
put_req1 = Request.blank(obj_path, method='PUT', headers=headers)
put_req1.body = body
resp = put_req1.get_response(prosrv)
self.assertEqual(resp.status_int, 201)
# GET the obj, should work fine
get_req = Request.blank(obj_path, method="GET")
resp = get_req.get_response(prosrv)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, body)
# move all hash dir files to per-node, per-obj tempdir
for node_index, hash_dir in node_hash_dirs.items():
node_tmp_dirs[node_index][ref] = mkdtemp()
for f in os.listdir(hash_dir):
move(os.path.join(hash_dir, f),
os.path.join(node_tmp_dirs[node_index][ref], f))
for obj_ref, obj_info in objs.items():
_put_object(obj_ref, **obj_info)
# sanity check - all hash_dirs are empty and GET returns a 404
for hash_dir in node_hash_dirs.values():
self.assertFalse(os.listdir(hash_dir))
get_req = Request.blank(obj_path, method="GET")
resp = get_req.get_response(prosrv)
self.assertEqual(resp.status_int, 404)
# node state is in form:
# {node_index: [{ref: object reference,
# frag_index: index,
# durable: True or False}, ...],
# node_index: ...}
for node_index, state in node_state.items():
dest = node_hash_dirs[node_index]
for frag_info in state:
src = node_tmp_dirs[frag_info['frag_index']][frag_info['ref']]
src_files = os.listdir(src)
# sanity check, expect just a single .data file
self.assertFalse(src_files[1:])
dest_file = src_files[0].replace(
'#d', '#d' if frag_info['durable'] else '')
move(os.path.join(src, src_files[0]),
os.path.join(dest, dest_file))
# do an object GET
get_req = Request.blank(obj_path, method='GET')
return get_req.get_response(prosrv)
def test_GET_with_missing_durables(self):
# verify object GET behavior when durable files are missing
ts_iter = make_timestamp_iter()
objs = {'obj1': dict(timestamp=next(ts_iter), body='body')}
# durable missing from 2/3 nodes
node_state = {
0: [dict(ref='obj1', frag_index=0, durable=True)],
1: [dict(ref='obj1', frag_index=1, durable=False)],
2: [dict(ref='obj1', frag_index=2, durable=False)]
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1']['body'])
# all files missing on 1 node, durable missing from 1/2 other nodes
# durable missing from 2/3 nodes
node_state = {
0: [dict(ref='obj1', frag_index=0, durable=True)],
1: [],
2: [dict(ref='obj1', frag_index=2, durable=False)]
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1']['body'])
# durable missing from all 3 nodes
node_state = {
0: [dict(ref='obj1', frag_index=0, durable=False)],
1: [dict(ref='obj1', frag_index=1, durable=False)],
2: [dict(ref='obj1', frag_index=2, durable=False)]
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 503)
def test_GET_with_multiple_frags_per_node(self):
# verify object GET behavior when multiple fragments are on same node
ts_iter = make_timestamp_iter()
objs = {'obj1': dict(timestamp=next(ts_iter), body='body')}
# scenario: only two frags, both on same node
node_state = {
0: [],
1: [dict(ref='obj1', frag_index=0, durable=True),
dict(ref='obj1', frag_index=1, durable=False)],
2: []
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1']['body'])
# scenario: all 3 frags on same node
node_state = {
0: [],
1: [dict(ref='obj1', frag_index=0, durable=True),
dict(ref='obj1', frag_index=1, durable=False),
dict(ref='obj1', frag_index=2, durable=False)],
2: []
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1']['body'])
def test_GET_with_multiple_timestamps_on_nodes(self):
ts_iter = make_timestamp_iter()
ts_1, ts_2, ts_3 = [next(ts_iter) for _ in range(3)]
objs = {'obj1': dict(timestamp=ts_1, body='body1'),
'obj2': dict(timestamp=ts_2, body='body2'),
'obj3': dict(timestamp=ts_3, body='body3')}
# newer non-durable frags do not prevent proxy getting the durable obj1
node_state = {
0: [dict(ref='obj3', frag_index=0, durable=False),
dict(ref='obj2', frag_index=0, durable=False),
dict(ref='obj1', frag_index=0, durable=True)],
1: [dict(ref='obj3', frag_index=1, durable=False),
dict(ref='obj2', frag_index=1, durable=False),
dict(ref='obj1', frag_index=1, durable=True)],
2: [dict(ref='obj3', frag_index=2, durable=False),
dict(ref='obj2', frag_index=2, durable=False),
dict(ref='obj1', frag_index=2, durable=True)],
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1']['body'])
# durable frags at two timestamps: in this scenario proxy is guaranteed
# to see the durable at ts_2 with one of the first 2 responses, so will
# then prefer that when requesting from third obj server
node_state = {
0: [dict(ref='obj3', frag_index=0, durable=False),
dict(ref='obj2', frag_index=0, durable=False),
dict(ref='obj1', frag_index=0, durable=True)],
1: [dict(ref='obj3', frag_index=1, durable=False),
dict(ref='obj2', frag_index=1, durable=True)],
2: [dict(ref='obj3', frag_index=2, durable=False),
dict(ref='obj2', frag_index=2, durable=True)],
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj2']['body'])
def test_GET_with_same_frag_index_on_multiple_nodes(self):
ts_iter = make_timestamp_iter()
# this is a trick to be able to get identical frags placed onto
# multiple nodes: since we cannot *copy* frags, we generate three sets
# of identical frags at same timestamp so we have enough to *move*
ts_1 = next(ts_iter)
objs = {'obj1a': dict(timestamp=ts_1, body='body'),
'obj1b': dict(timestamp=ts_1, body='body'),
'obj1c': dict(timestamp=ts_1, body='body')}
# arrange for duplicate frag indexes across nodes: because the object
# server prefers the highest available frag index, proxy will first get
# back two responses with frag index 1, and will then return to node 0
# for frag_index 0.
node_state = {
0: [dict(ref='obj1a', frag_index=0, durable=False),
dict(ref='obj1a', frag_index=1, durable=False)],
1: [dict(ref='obj1b', frag_index=1, durable=True)],
2: [dict(ref='obj1c', frag_index=1, durable=True)]
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, objs['obj1a']['body'])
# if all we have across nodes are frags with same index then expect a
# 404 (the third, 'extra', obj server GET will return 404 because it
# will be sent frag prefs that exclude frag_index 1)
node_state = {
0: [dict(ref='obj1a', frag_index=1, durable=False)],
1: [dict(ref='obj1b', frag_index=1, durable=True)],
2: [dict(ref='obj1c', frag_index=1, durable=False)]
}
resp = self._setup_nodes_and_do_GET(objs, node_state)
self.assertEqual(resp.status_int, 404)
class TestObjectDisconnectCleanup(unittest.TestCase):
# update this if you need to make more different devices in do_setup
device_pattern = re.compile('sd[a-z][0-9]')
def _cleanup_devices(self):
# make sure all the object data is cleaned up
for dev in os.listdir(_testdir):
if not self.device_pattern.match(dev):
continue
device_path = os.path.join(_testdir, dev)
for datadir in os.listdir(device_path):
if 'object' not in datadir:
continue
data_path = os.path.join(device_path, datadir)
rmtree(data_path, ignore_errors=True)
mkdirs(data_path)
def setUp(self):
debug.hub_exceptions(False)
self._cleanup_devices()
def tearDown(self):
debug.hub_exceptions(True)
self._cleanup_devices()
def _check_disconnect_cleans_up(self, policy_name, is_chunked=False):
proxy_port = _test_sockets[0].getsockname()[1]
def put(path, headers=None, body=None):
conn = httplib.HTTPConnection('localhost', proxy_port)
try:
conn.connect()
conn.putrequest('PUT', path)
for k, v in (headers or {}).items():
conn.putheader(k, v)
conn.endheaders()
body = body or ['']
for chunk in body:
if is_chunked:
chunk = '%x\r\n%s\r\n' % (len(chunk), chunk)
conn.send(chunk)
resp = conn.getresponse()
body = resp.read()
finally:
# seriously - shut this mother down
if conn.sock:
conn.sock.fd._sock.close()
return resp, body
# ensure container
container_path = '/v1/a/%s-disconnect-test' % policy_name
resp, _body = put(container_path, headers={
'Connection': 'close',
'X-Storage-Policy': policy_name,
'Content-Length': '0',
})
self.assertIn(resp.status, (201, 202))
def exploding_body():
for i in range(3):
yield '\x00' * (64 * 2 ** 10)
raise Exception('kaboom!')
headers = {}
if is_chunked:
headers['Transfer-Encoding'] = 'chunked'
else:
headers['Content-Length'] = 64 * 2 ** 20
obj_path = container_path + '/disconnect-data'
try:
resp, _body = put(obj_path, headers=headers,
body=exploding_body())
except Exception as e:
if str(e) != 'kaboom!':
raise
else:
self.fail('obj put connection did not ka-splod')
sleep(0.1)
def find_files(self):
found_files = defaultdict(list)
for root, dirs, files in os.walk(_testdir):
for fname in files:
filename, ext = os.path.splitext(fname)
found_files[ext].append(os.path.join(root, fname))
return found_files
def test_repl_disconnect_cleans_up(self):
self._check_disconnect_cleans_up('zero')
found_files = self.find_files()
self.assertEqual(found_files['.data'], [])
def test_ec_disconnect_cleans_up(self):
self._check_disconnect_cleans_up('ec')
found_files = self.find_files()
self.assertEqual(found_files['.data'], [])
def test_repl_chunked_transfer_disconnect_cleans_up(self):
self._check_disconnect_cleans_up('zero', is_chunked=True)
found_files = self.find_files()
self.assertEqual(found_files['.data'], [])
def test_ec_chunked_transfer_disconnect_cleans_up(self):
self._check_disconnect_cleans_up('ec', is_chunked=True)
found_files = self.find_files()
self.assertEqual(found_files['.data'], [])
class TestObjectECRangedGET(unittest.TestCase):
def setUp(self):
_test_servers[0].logger._clear()
self.app = proxy_server.Application(
None, FakeMemcache(),
logger=debug_logger('proxy-ut'),
account_ring=FakeRing(),
container_ring=FakeRing())
def tearDown(self):
prosrv = _test_servers[0]
self.assertFalse(prosrv.logger.get_lines_for_level('error'))
self.assertFalse(prosrv.logger.get_lines_for_level('warning'))
@classmethod
def setUpClass(cls):
cls.obj_name = 'range-get-test'
cls.tiny_obj_name = 'range-get-test-tiny'
cls.aligned_obj_name = 'range-get-test-aligned'
# Note: only works if called with unpatched policies
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: 0\r\n'
'X-Storage-Token: t\r\n'
'X-Storage-Policy: ec\r\n'
'\r\n')
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2'
assert headers[:len(exp)] == exp, "container PUT failed"
seg_size = POLICIES.get_by_name("ec").ec_segment_size
cls.seg_size = seg_size
# EC segment size is 4 KiB, hence this gives 4 segments, which we
# then verify with a quick sanity check
cls.obj = ' my hovercraft is full of eels '.join(
str(s) for s in range(431))
assert seg_size * 4 > len(cls.obj) > seg_size * 3, \
"object is wrong number of segments"
cls.obj_etag = md5(cls.obj).hexdigest()
cls.tiny_obj = 'tiny, tiny object'
assert len(cls.tiny_obj) < seg_size, "tiny_obj too large"
cls.aligned_obj = "".join(
"abcdEFGHijkl%04d" % x for x in range(512))
assert len(cls.aligned_obj) % seg_size == 0, "aligned obj not aligned"
for obj_name, obj in ((cls.obj_name, cls.obj),
(cls.tiny_obj_name, cls.tiny_obj),
(cls.aligned_obj_name, cls.aligned_obj)):
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/ec-con/%s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'Content-Length: %d\r\n'
'X-Storage-Token: t\r\n'
'Content-Type: donuts\r\n'
'\r\n%s' % (obj_name, len(obj), obj))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
assert headers[:len(exp)] == exp, \
"object PUT failed %s" % obj_name
def _get_obj(self, range_value, obj_name=None):
if obj_name is None:
obj_name = self.obj_name
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/ec-con/%s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Range: %s\r\n'
'\r\n' % (obj_name, range_value))
fd.flush()
headers = readuntil2crlfs(fd)
# e.g. "HTTP/1.1 206 Partial Content\r\n..."
status_code = int(headers[9:12])
headers = parse_headers_string(headers)
gotten_obj = ''
while True:
buf = fd.read(64)
if not buf:
break
gotten_obj += buf
# if we get this wrong, clients will either get truncated data or
# they'll hang waiting for bytes that aren't coming, so it warrants
# being asserted for every test case
if 'Content-Length' in headers:
self.assertEqual(int(headers['Content-Length']), len(gotten_obj))
# likewise, if we say MIME and don't send MIME or vice versa,
# clients will be horribly confused
if headers.get('Content-Type', '').startswith('multipart/byteranges'):
self.assertEqual(gotten_obj[:2], "--")
else:
# In general, this isn't true, as you can start an object with
# "--". However, in this test, we don't start any objects with
# "--", or even include "--" in their contents anywhere.
self.assertNotEqual(gotten_obj[:2], "--")
return (status_code, headers, gotten_obj)
def _parse_multipart(self, content_type, body):
parser = email.parser.FeedParser()
parser.feed("Content-Type: %s\r\n\r\n" % content_type)
parser.feed(body)
root_message = parser.close()
self.assertTrue(root_message.is_multipart())
byteranges = root_message.get_payload()
self.assertFalse(root_message.defects)
for i, message in enumerate(byteranges):
self.assertFalse(message.defects, "Part %d had defects" % i)
self.assertFalse(message.is_multipart(),
"Nested multipart at %d" % i)
return byteranges
def test_bogus(self):
status, headers, gotten_obj = self._get_obj("tacos=3-5")
self.assertEqual(status, 200)
self.assertEqual(len(gotten_obj), len(self.obj))
self.assertEqual(gotten_obj, self.obj)
def test_unaligned(self):
# One segment's worth of data, but straddling two segment boundaries
# (so it has data from three segments)
status, headers, gotten_obj = self._get_obj("bytes=3783-7878")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "4096")
self.assertEqual(headers['Content-Range'], "bytes 3783-7878/14513")
self.assertEqual(len(gotten_obj), 4096)
self.assertEqual(gotten_obj, self.obj[3783:7879])
def test_aligned_left(self):
# First byte is aligned to a segment boundary, last byte is not
status, headers, gotten_obj = self._get_obj("bytes=0-5500")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "5501")
self.assertEqual(headers['Content-Range'], "bytes 0-5500/14513")
self.assertEqual(len(gotten_obj), 5501)
self.assertEqual(gotten_obj, self.obj[:5501])
def test_aligned_range(self):
# Ranged GET that wants exactly one segment
status, headers, gotten_obj = self._get_obj("bytes=4096-8191")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "4096")
self.assertEqual(headers['Content-Range'], "bytes 4096-8191/14513")
self.assertEqual(len(gotten_obj), 4096)
self.assertEqual(gotten_obj, self.obj[4096:8192])
def test_aligned_range_end(self):
# Ranged GET that wants exactly the last segment
status, headers, gotten_obj = self._get_obj("bytes=12288-14512")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "2225")
self.assertEqual(headers['Content-Range'], "bytes 12288-14512/14513")
self.assertEqual(len(gotten_obj), 2225)
self.assertEqual(gotten_obj, self.obj[12288:])
def test_aligned_range_aligned_obj(self):
# Ranged GET that wants exactly the last segment, which is full-size
status, headers, gotten_obj = self._get_obj("bytes=4096-8191",
self.aligned_obj_name)
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "4096")
self.assertEqual(headers['Content-Range'], "bytes 4096-8191/8192")
self.assertEqual(len(gotten_obj), 4096)
self.assertEqual(gotten_obj, self.aligned_obj[4096:8192])
def test_byte_0(self):
# Just the first byte, but it's index 0, so that's easy to get wrong
status, headers, gotten_obj = self._get_obj("bytes=0-0")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], "1")
self.assertEqual(headers['Content-Range'], "bytes 0-0/14513")
self.assertEqual(gotten_obj, self.obj[0])
def test_unsatisfiable(self):
# Goes just one byte too far off the end of the object, so it's
# unsatisfiable. This should be close enough that the object servers
# actually responded 206
obj_len = len(self.obj)
status, headers, _junk = self._get_obj(
"bytes=%d-%d" % (obj_len, obj_len + 100))
self.assertEqual(status, 416)
self.assertEqual(self.obj_etag, headers.get('Etag'))
self.assertEqual('bytes', headers.get('Accept-Ranges'))
self.assertIn('Content-Range', headers)
self.assertEqual('bytes */%d' % obj_len, headers['Content-Range'])
# Goes *way* too far off the end of the object, so we're looking at
# the (massaged) 416 from an object server
status, headers, _junk = self._get_obj(
"bytes=%d-" % (obj_len + 2 ** 30))
self.assertEqual(status, 416)
self.assertEqual(self.obj_etag, headers.get('Etag'))
self.assertEqual('bytes', headers.get('Accept-Ranges'))
self.assertIn('Content-Range', headers)
self.assertEqual('bytes */%d' % obj_len, headers['Content-Range'])
def test_off_end(self):
# Ranged GET that's mostly off the end of the object, but overlaps
# it in just the last byte
status, headers, gotten_obj = self._get_obj(
"bytes=%d-%d" % (len(self.obj) - 1, len(self.obj) + 100))
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '1')
self.assertEqual(headers['Content-Range'], 'bytes 14512-14512/14513')
self.assertEqual(gotten_obj, self.obj[-1])
def test_aligned_off_end(self):
# Ranged GET that starts on a segment boundary but asks for a whole lot
status, headers, gotten_obj = self._get_obj(
"bytes=%d-%d" % (8192, len(self.obj) + 100))
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '6321')
self.assertEqual(headers['Content-Range'], 'bytes 8192-14512/14513')
self.assertEqual(gotten_obj, self.obj[8192:])
def test_way_off_end(self):
# Ranged GET that's mostly off the end of the object, but overlaps
# it in just the last byte, and wants multiple segments' worth off
# the end
status, headers, gotten_obj = self._get_obj(
"bytes=%d-%d" % (len(self.obj) - 1, len(self.obj) * 1000))
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '1')
self.assertEqual(headers['Content-Range'], 'bytes 14512-14512/14513')
self.assertEqual(gotten_obj, self.obj[-1])
def test_boundaries(self):
# Wants the last byte of segment 1 + the first byte of segment 2
status, headers, gotten_obj = self._get_obj("bytes=4095-4096")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '2')
self.assertEqual(headers['Content-Range'], 'bytes 4095-4096/14513')
self.assertEqual(gotten_obj, self.obj[4095:4097])
def test_until_end(self):
# Wants the last byte of segment 1 + the rest
status, headers, gotten_obj = self._get_obj("bytes=4095-")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '10418')
self.assertEqual(headers['Content-Range'], 'bytes 4095-14512/14513')
self.assertEqual(gotten_obj, self.obj[4095:])
def test_small_suffix(self):
# Small range-suffix GET: the last 100 bytes (less than one segment)
status, headers, gotten_obj = self._get_obj("bytes=-100")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '100')
self.assertEqual(headers['Content-Range'], 'bytes 14413-14512/14513')
self.assertEqual(len(gotten_obj), 100)
self.assertEqual(gotten_obj, self.obj[-100:])
def test_small_suffix_aligned(self):
# Small range-suffix GET: the last 100 bytes, last segment is
# full-size
status, headers, gotten_obj = self._get_obj("bytes=-100",
self.aligned_obj_name)
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '100')
self.assertEqual(headers['Content-Range'], 'bytes 8092-8191/8192')
self.assertEqual(len(gotten_obj), 100)
def test_suffix_two_segs(self):
# Ask for enough data that we need the last two segments. The last
# segment is short, though, so this ensures we compensate for that.
#
# Note that the total range size is less than one full-size segment.
suffix_len = len(self.obj) % self.seg_size + 1
status, headers, gotten_obj = self._get_obj("bytes=-%d" % suffix_len)
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], str(suffix_len))
self.assertEqual(headers['Content-Range'],
'bytes %d-%d/%d' % (len(self.obj) - suffix_len,
len(self.obj) - 1,
len(self.obj)))
self.assertEqual(len(gotten_obj), suffix_len)
def test_large_suffix(self):
# Large range-suffix GET: the last 5000 bytes (more than one segment)
status, headers, gotten_obj = self._get_obj("bytes=-5000")
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '5000')
self.assertEqual(headers['Content-Range'], 'bytes 9513-14512/14513')
self.assertEqual(len(gotten_obj), 5000)
self.assertEqual(gotten_obj, self.obj[-5000:])
def test_overlarge_suffix(self):
# The last N+1 bytes of an N-byte object
status, headers, gotten_obj = self._get_obj(
"bytes=-%d" % (len(self.obj) + 1))
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '14513')
self.assertEqual(headers['Content-Range'], 'bytes 0-14512/14513')
self.assertEqual(len(gotten_obj), len(self.obj))
self.assertEqual(gotten_obj, self.obj)
def test_small_suffix_tiny_object(self):
status, headers, gotten_obj = self._get_obj(
"bytes=-5", self.tiny_obj_name)
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '5')
self.assertEqual(headers['Content-Range'], 'bytes 12-16/17')
self.assertEqual(gotten_obj, self.tiny_obj[12:])
def test_overlarge_suffix_tiny_object(self):
status, headers, gotten_obj = self._get_obj(
"bytes=-1234567890", self.tiny_obj_name)
self.assertEqual(status, 206)
self.assertEqual(headers['Content-Length'], '17')
self.assertEqual(headers['Content-Range'], 'bytes 0-16/17')
self.assertEqual(len(gotten_obj), len(self.tiny_obj))
self.assertEqual(gotten_obj, self.tiny_obj)
def test_multiple_ranges(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-100,4490-5010", self.obj_name)
self.assertEqual(status, 206)
self.assertEqual(headers["Content-Length"], str(len(gotten_obj)))
content_type, content_type_params = parse_content_type(
headers['Content-Type'])
content_type_params = dict(content_type_params)
self.assertEqual(content_type, 'multipart/byteranges')
boundary = content_type_params.get('boundary')
self.assertIsNotNone(boundary)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
first_byterange, second_byterange = got_byteranges
self.assertEqual(first_byterange['Content-Range'],
'bytes 0-100/14513')
self.assertEqual(first_byterange.get_payload(), self.obj[:101])
self.assertEqual(second_byterange['Content-Range'],
'bytes 4490-5010/14513')
self.assertEqual(second_byterange.get_payload(), self.obj[4490:5011])
def test_multiple_ranges_overlapping_in_segment(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-9,20-29,40-49,60-69,80-89")
self.assertEqual(status, 206)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 5)
def test_multiple_ranges_off_end(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-10,14500-14513") # there is no byte 14513, only 0-14512
self.assertEqual(status, 206)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
self.assertEqual(got_byteranges[0]['Content-Range'],
"bytes 0-10/14513")
self.assertEqual(got_byteranges[1]['Content-Range'],
"bytes 14500-14512/14513")
def test_multiple_ranges_suffix_off_end(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-10,-13")
self.assertEqual(status, 206)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
self.assertEqual(got_byteranges[0]['Content-Range'],
"bytes 0-10/14513")
self.assertEqual(got_byteranges[1]['Content-Range'],
"bytes 14500-14512/14513")
def test_multiple_ranges_one_barely_unsatisfiable(self):
# The thing about 14515-14520 is that it comes from the last segment
# in the object. When we turn this range into a fragment range,
# it'll be for the last fragment, so the object servers see
# something satisfiable.
#
# Basically, we'll get 3 byteranges from the object server, but we
# have to filter out the unsatisfiable one on our own.
status, headers, gotten_obj = self._get_obj(
"bytes=0-10,14515-14520,40-50")
self.assertEqual(status, 206)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
self.assertEqual(got_byteranges[0]['Content-Range'],
"bytes 0-10/14513")
self.assertEqual(got_byteranges[0].get_payload(), self.obj[0:11])
self.assertEqual(got_byteranges[1]['Content-Range'],
"bytes 40-50/14513")
self.assertEqual(got_byteranges[1].get_payload(), self.obj[40:51])
def test_multiple_ranges_some_unsatisfiable(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-100,4090-5010,999999-9999999", self.obj_name)
self.assertEqual(status, 206)
content_type, content_type_params = parse_content_type(
headers['Content-Type'])
content_type_params = dict(content_type_params)
self.assertEqual(content_type, 'multipart/byteranges')
boundary = content_type_params.get('boundary')
self.assertIsNotNone(boundary)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
first_byterange, second_byterange = got_byteranges
self.assertEqual(first_byterange['Content-Range'],
'bytes 0-100/14513')
self.assertEqual(first_byterange.get_payload(), self.obj[:101])
self.assertEqual(second_byterange['Content-Range'],
'bytes 4090-5010/14513')
self.assertEqual(second_byterange.get_payload(), self.obj[4090:5011])
def test_two_ranges_one_unsatisfiable(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-100,999999-9999999", self.obj_name)
self.assertEqual(status, 206)
content_type, content_type_params = parse_content_type(
headers['Content-Type'])
# According to RFC 7233, this could be either a multipart/byteranges
# response with one part or it could be a single-part response (just
# the bytes, no MIME). We're locking it down here: single-part
# response. That's what replicated objects do, and we don't want any
# client-visible differences between EC objects and replicated ones.
self.assertEqual(content_type, 'donuts')
self.assertEqual(gotten_obj, self.obj[:101])
def test_two_ranges_one_unsatisfiable_same_segment(self):
# Like test_two_ranges_one_unsatisfiable(), but where both ranges
# fall within the same EC segment.
status, headers, gotten_obj = self._get_obj(
"bytes=14500-14510,14520-14530")
self.assertEqual(status, 206)
content_type, content_type_params = parse_content_type(
headers['Content-Type'])
self.assertEqual(content_type, 'donuts')
self.assertEqual(gotten_obj, self.obj[14500:14511])
def test_multiple_ranges_some_unsatisfiable_out_of_order(self):
status, headers, gotten_obj = self._get_obj(
"bytes=0-100,99999998-99999999,4090-5010", self.obj_name)
self.assertEqual(status, 206)
content_type, content_type_params = parse_content_type(
headers['Content-Type'])
content_type_params = dict(content_type_params)
self.assertEqual(content_type, 'multipart/byteranges')
boundary = content_type_params.get('boundary')
self.assertIsNotNone(boundary)
got_byteranges = self._parse_multipart(headers['Content-Type'],
gotten_obj)
self.assertEqual(len(got_byteranges), 2)
first_byterange, second_byterange = got_byteranges
self.assertEqual(first_byterange['Content-Range'],
'bytes 0-100/14513')
self.assertEqual(first_byterange.get_payload(), self.obj[:101])
self.assertEqual(second_byterange['Content-Range'],
'bytes 4090-5010/14513')
self.assertEqual(second_byterange.get_payload(), self.obj[4090:5011])
@patch_policies([
StoragePolicy(0, 'zero', True, object_ring=FakeRing(base_port=3000)),
StoragePolicy(1, 'one', False, object_ring=FakeRing(base_port=3000)),
StoragePolicy(2, 'two', False, True, object_ring=FakeRing(base_port=3000))
])
class TestContainerController(unittest.TestCase):
"Test swift.proxy_server.ContainerController"
def setUp(self):
self.app = proxy_server.Application(
None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing(base_port=2000),
logger=debug_logger())
def test_convert_policy_to_index(self):
controller = swift.proxy.controllers.ContainerController(self.app,
'a', 'c')
expected = {
'zero': 0,
'ZeRo': 0,
'one': 1,
'OnE': 1,
}
for name, index in expected.items():
req = Request.blank('/a/c', headers={'Content-Length': '0',
'Content-Type': 'text/plain',
'X-Storage-Policy': name})
self.assertEqual(controller._convert_policy_to_index(req), index)
# default test
req = Request.blank('/a/c', headers={'Content-Length': '0',
'Content-Type': 'text/plain'})
self.assertIsNone(controller._convert_policy_to_index(req))
# negative test
req = Request.blank('/a/c',
headers={'Content-Length': '0',
'Content-Type': 'text/plain',
'X-Storage-Policy': 'nada'})
self.assertRaises(HTTPException, controller._convert_policy_to_index,
req)
# storage policy two is deprecated
req = Request.blank('/a/c', headers={'Content-Length': '0',
'Content-Type': 'text/plain',
'X-Storage-Policy': 'two'})
self.assertRaises(HTTPException, controller._convert_policy_to_index,
req)
def test_convert_index_to_name(self):
policy = random.choice(list(POLICIES))
req = Request.blank('/v1/a/c')
with mocked_http_conn(
200, 200,
headers={'X-Backend-Storage-Policy-Index': int(policy)},
) as fake_conn:
resp = req.get_response(self.app)
self.assertRaises(StopIteration, fake_conn.code_iter.next)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['X-Storage-Policy'], policy.name)
def test_no_convert_index_to_name_when_container_not_found(self):
policy = random.choice(list(POLICIES))
req = Request.blank('/v1/a/c')
with mocked_http_conn(
200, 404, 404, 404,
headers={'X-Backend-Storage-Policy-Index':
int(policy)}) as fake_conn:
resp = req.get_response(self.app)
self.assertRaises(StopIteration, fake_conn.code_iter.next)
self.assertEqual(resp.status_int, 404)
self.assertIsNone(resp.headers['X-Storage-Policy'])
def test_error_convert_index_to_name(self):
req = Request.blank('/v1/a/c')
with mocked_http_conn(
200, 200,
headers={'X-Backend-Storage-Policy-Index': '-1'}) as fake_conn:
resp = req.get_response(self.app)
self.assertRaises(StopIteration, fake_conn.code_iter.next)
self.assertEqual(resp.status_int, 200)
self.assertIsNone(resp.headers['X-Storage-Policy'])
error_lines = self.app.logger.get_lines_for_level('error')
self.assertEqual(2, len(error_lines))
for msg in error_lines:
expected = "Could not translate " \
"X-Backend-Storage-Policy-Index ('-1')"
self.assertIn(expected, msg)
def test_transfer_headers(self):
src_headers = {'x-remove-versions-location': 'x',
'x-container-read': '*:user',
'x-remove-container-sync-key': 'x'}
dst_headers = {'x-versions-location': 'backup'}
controller = swift.proxy.controllers.ContainerController(self.app,
'a', 'c')
controller.transfer_headers(src_headers, dst_headers)
expected_headers = {'x-versions-location': '',
'x-container-read': '*:user',
'x-container-sync-key': ''}
self.assertEqual(dst_headers, expected_headers)
def assert_status_map(self, method, statuses, expected,
raise_exc=False, missing_container=False):
with save_globals():
kwargs = {}
if raise_exc:
kwargs['raise_exc'] = raise_exc
kwargs['missing_container'] = missing_container
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', headers={'Content-Length': '0',
'Content-Type': 'text/plain'})
self.app.update_request(req)
res = method(req)
self.assertEqual(res.status_int, expected)
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c/', headers={'Content-Length': '0',
'Content-Type': 'text/plain'})
self.app.update_request(req)
res = method(req)
self.assertEqual(res.status_int, expected)
def test_HEAD_GET(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'a', 'c')
def test_status_map(statuses, expected,
c_expected=None, a_expected=None, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', {})
self.app.update_request(req)
res = controller.HEAD(req)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
infocache = res.environ.get('swift.infocache', {})
if expected < 400:
self.assertIn('x-works', res.headers)
self.assertEqual(res.headers['x-works'], 'yes')
if expected < 300:
self.assertIn('last-modified', res.headers)
self.assertEqual(res.headers['last-modified'], '1')
if c_expected:
self.assertIn('container/a/c', infocache)
self.assertEqual(
infocache['container/a/c']['status'],
c_expected)
else:
self.assertNotIn('container/a/c', infocache)
if a_expected:
self.assertIn('account/a', infocache)
self.assertEqual(infocache['account/a']['status'],
a_expected)
else:
self.assertNotIn('account/a', res.environ)
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', {})
self.app.update_request(req)
res = controller.GET(req)
self.assertEqual(res.status[:len(str(expected))],
str(expected))
infocache = res.environ.get('swift.infocache', {})
if expected < 400:
self.assertIn('x-works', res.headers)
self.assertEqual(res.headers['x-works'], 'yes')
if expected < 300:
self.assertIn('last-modified', res.headers)
self.assertEqual(res.headers['last-modified'], '1')
if c_expected:
self.assertIn('container/a/c', infocache)
self.assertEqual(
infocache['container/a/c']['status'],
c_expected)
else:
self.assertNotIn('container/a/c', infocache)
if a_expected:
self.assertIn('account/a', infocache)
self.assertEqual(infocache['account/a']['status'],
a_expected)
else:
self.assertNotIn('account/a', infocache)
# In all the following tests cache 200 for account
# return and cache vary for container
# return 200 and cache 200 for account and container
test_status_map((200, 200, 404, 404), 200, 200, 200)
test_status_map((200, 200, 500, 404), 200, 200, 200)
# return 304 don't cache container
test_status_map((200, 304, 500, 404), 304, None, 200)
# return 404 and cache 404 for container
test_status_map((200, 404, 404, 404), 404, 404, 200)
test_status_map((200, 404, 404, 500), 404, 404, 200)
# return 503, don't cache container
test_status_map((200, 500, 500, 500), 503, None, 200)
self.assertFalse(self.app.account_autocreate)
# return 404 (as account is not found) and don't cache container
test_status_map((404, 404, 404), 404, None, 404)
# cache a 204 for the account because it's sort of like it
# exists
self.app.account_autocreate = True
test_status_map((404, 404, 404), 404, None, 204)
def test_PUT_policy_headers(self):
backend_requests = []
def capture_requests(ipaddr, port, device, partition, method,
path, headers=None, query_string=None):
if method == 'PUT':
backend_requests.append(headers)
def test_policy(requested_policy):
with save_globals():
mock_conn = set_http_connect(200, 201, 201, 201,
give_connect=capture_requests)
self.app.memcache.store = {}
req = Request.blank('/v1/a/test', method='PUT',
headers={'Content-Length': 0})
if requested_policy:
expected_policy = requested_policy
req.headers['X-Storage-Policy'] = policy.name
else:
expected_policy = POLICIES.default
res = req.get_response(self.app)
if expected_policy.is_deprecated:
self.assertEqual(res.status_int, 400)
self.assertEqual(0, len(backend_requests))
expected = 'is deprecated'
self.assertIn(expected, res.body,
'%r did not include %r' % (
res.body, expected))
return
self.assertEqual(res.status_int, 201)
self.assertEqual(
expected_policy.object_ring.replicas,
len(backend_requests))
for headers in backend_requests:
if not requested_policy:
self.assertNotIn('X-Backend-Storage-Policy-Index',
headers)
self.assertIn('X-Backend-Storage-Policy-Default',
headers)
self.assertEqual(
int(expected_policy),
int(headers['X-Backend-Storage-Policy-Default']))
else:
self.assertIn('X-Backend-Storage-Policy-Index',
headers)
self.assertEqual(int(headers
['X-Backend-Storage-Policy-Index']),
int(policy))
# make sure all mocked responses are consumed
self.assertRaises(StopIteration, mock_conn.code_iter.next)
test_policy(None) # no policy header
for policy in POLICIES:
backend_requests = [] # reset backend requests
test_policy(policy)
def test_PUT(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
def test_status_map(statuses, expected, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', {})
req.content_length = 0
self.app.update_request(req)
res = controller.PUT(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 201, 201, 201), 201, missing_container=True)
test_status_map((200, 201, 201, 500), 201, missing_container=True)
test_status_map((200, 204, 404, 404), 404, missing_container=True)
test_status_map((200, 204, 500, 404), 503, missing_container=True)
self.assertFalse(self.app.account_autocreate)
test_status_map((404, 404, 404), 404, missing_container=True)
self.app.account_autocreate = True
# fail to retrieve account info
test_status_map(
(503, 503, 503), # account_info fails on 503
404, missing_container=True)
# account fail after creation
test_status_map(
(404, 404, 404, # account_info fails on 404
201, 201, 201, # PUT account
404, 404, 404), # account_info fail
404, missing_container=True)
test_status_map(
(503, 503, 404, # account_info fails on 404
503, 503, 503, # PUT account
503, 503, 404), # account_info fail
404, missing_container=True)
# put fails
test_status_map(
(404, 404, 404, # account_info fails on 404
201, 201, 201, # PUT account
200, # account_info success
503, 503, 201), # put container fail
503, missing_container=True)
# all goes according to plan
test_status_map(
(404, 404, 404, # account_info fails on 404
201, 201, 201, # PUT account
200, # account_info success
201, 201, 201), # put container success
201, missing_container=True)
test_status_map(
(503, 404, 404, # account_info fails on 404
503, 201, 201, # PUT account
503, 200, # account_info success
503, 201, 201), # put container success
201, missing_container=True)
def test_PUT_autocreate_account_with_sysmeta(self):
# x-account-sysmeta headers in a container PUT request should be
# transferred to the account autocreate PUT request
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
def test_status_map(statuses, expected, headers=None, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', {}, headers=headers)
req.content_length = 0
self.app.update_request(req)
res = controller.PUT(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
self.app.account_autocreate = True
calls = []
callback = _make_callback_func(calls)
key, value = 'X-Account-Sysmeta-Blah', 'something'
headers = {key: value}
# all goes according to plan
test_status_map(
(404, 404, 404, # account_info fails on 404
201, 201, 201, # PUT account
200, # account_info success
201, 201, 201), # put container success
201, missing_container=True,
headers=headers,
give_connect=callback)
self.assertEqual(10, len(calls))
for call in calls[3:6]:
self.assertEqual('/account', call['path'])
self.assertIn(key, call['headers'],
'%s call, key %s missing in headers %s' % (
call['method'], key, call['headers']))
self.assertEqual(value, call['headers'][key])
def test_POST(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
def test_status_map(statuses, expected, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c', {})
req.content_length = 0
self.app.update_request(req)
res = controller.POST(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((200, 201, 201, 201), 201, missing_container=True)
test_status_map((200, 201, 201, 500), 201, missing_container=True)
test_status_map((200, 204, 404, 404), 404, missing_container=True)
test_status_map((200, 204, 500, 404), 503, missing_container=True)
self.assertFalse(self.app.account_autocreate)
test_status_map((404, 404, 404), 404, missing_container=True)
self.app.account_autocreate = True
test_status_map((404, 404, 404), 404, missing_container=True)
def test_PUT_max_containers_per_account(self):
with save_globals():
self.app.max_containers_per_account = 12346
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.assert_status_map(controller.PUT,
(200, 201, 201, 201), 201,
missing_container=True)
self.app.max_containers_per_account = 12345
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.assert_status_map(controller.PUT,
(200, 200, 201, 201, 201), 201,
missing_container=True)
controller = proxy_server.ContainerController(self.app, 'account',
'container_new')
self.assert_status_map(controller.PUT, (200, 404, 404, 404), 403,
missing_container=True)
self.app.max_containers_per_account = 12345
self.app.max_containers_whitelist = ['account']
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.assert_status_map(controller.PUT,
(200, 201, 201, 201), 201,
missing_container=True)
def test_PUT_max_container_name_length(self):
with save_globals():
limit = constraints.MAX_CONTAINER_NAME_LENGTH
controller = proxy_server.ContainerController(self.app, 'account',
'1' * limit)
self.assert_status_map(controller.PUT,
(200, 201, 201, 201), 201,
missing_container=True)
controller = proxy_server.ContainerController(self.app, 'account',
'2' * (limit + 1))
self.assert_status_map(controller.PUT, (201, 201, 201), 400,
missing_container=True)
def test_PUT_connect_exceptions(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.assert_status_map(controller.PUT, (200, 201, 201, -1), 201,
missing_container=True)
self.assert_status_map(controller.PUT, (200, 201, -1, -1), 503,
missing_container=True)
self.assert_status_map(controller.PUT, (200, 503, 503, -1), 503,
missing_container=True)
def test_acc_missing_returns_404(self):
for meth in ('DELETE', 'PUT'):
with save_globals():
self.app.memcache = FakeMemcacheReturnsNone()
self.app._error_limiting = {}
controller = proxy_server.ContainerController(self.app,
'account',
'container')
if meth == 'PUT':
set_http_connect(200, 200, 200, 200, 200, 200,
missing_container=True)
else:
set_http_connect(200, 200, 200, 200)
self.app.memcache.store = {}
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': meth})
self.app.update_request(req)
resp = getattr(controller, meth)(req)
self.assertEqual(resp.status_int, 200)
set_http_connect(404, 404, 404, 200, 200, 200)
# Make sure it is a blank request wthout env caching
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': meth})
resp = getattr(controller, meth)(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(503, 404, 404)
# Make sure it is a blank request wthout env caching
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': meth})
resp = getattr(controller, meth)(req)
self.assertEqual(resp.status_int, 404)
set_http_connect(503, 404, raise_exc=True)
# Make sure it is a blank request wthout env caching
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': meth})
resp = getattr(controller, meth)(req)
self.assertEqual(resp.status_int, 404)
for dev in self.app.account_ring.devs:
set_node_errors(self.app, dev,
self.app.error_suppression_limit + 1,
time.time())
set_http_connect(200, 200, 200, 200, 200, 200)
# Make sure it is a blank request wthout env caching
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': meth})
resp = getattr(controller, meth)(req)
self.assertEqual(resp.status_int, 404)
def test_put_locking(self):
class MockMemcache(FakeMemcache):
def __init__(self, allow_lock=None):
self.allow_lock = allow_lock
super(MockMemcache, self).__init__()
@contextmanager
def soft_lock(self, key, timeout=0, retries=5):
if self.allow_lock:
yield True
else:
raise NotImplementedError
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.app.memcache = MockMemcache(allow_lock=True)
set_http_connect(200, 201, 201, 201,
missing_container=True)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'PUT'})
self.app.update_request(req)
res = controller.PUT(req)
self.assertEqual(res.status_int, 201)
def test_error_limiting(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
container_ring = controller.app.container_ring
controller.app.sort_nodes = lambda l: l
self.assert_status_map(controller.HEAD, (200, 503, 200, 200), 200,
missing_container=False)
self.assertEqual(
node_error_count(controller.app, container_ring.devs[0]), 2)
self.assertTrue(
node_last_error(controller.app, container_ring.devs[0])
is not None)
for _junk in range(self.app.error_suppression_limit):
self.assert_status_map(controller.HEAD,
(200, 503, 503, 503), 503)
self.assertEqual(
node_error_count(controller.app, container_ring.devs[0]),
self.app.error_suppression_limit + 1)
self.assert_status_map(controller.HEAD, (200, 200, 200, 200), 503)
self.assertTrue(
node_last_error(controller.app, container_ring.devs[0])
is not None)
self.assert_status_map(controller.PUT, (200, 201, 201, 201), 503,
missing_container=True)
self.assert_status_map(controller.DELETE,
(200, 204, 204, 204), 503)
self.app.error_suppression_interval = -300
self.assert_status_map(controller.HEAD, (200, 200, 200, 200), 200)
self.assert_status_map(controller.DELETE, (200, 204, 204, 204),
404, raise_exc=True)
def test_DELETE(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'account',
'container')
self.assert_status_map(controller.DELETE,
(200, 204, 204, 204), 204)
self.assert_status_map(controller.DELETE,
(200, 204, 204, 503), 204)
self.assert_status_map(controller.DELETE,
(200, 204, 503, 503), 503)
self.assert_status_map(controller.DELETE,
(200, 204, 404, 404), 404)
self.assert_status_map(controller.DELETE,
(200, 404, 404, 404), 404)
self.assert_status_map(controller.DELETE,
(200, 204, 503, 404), 503)
self.app.memcache = FakeMemcacheReturnsNone()
# 200: Account check, 404x3: Container check
self.assert_status_map(controller.DELETE,
(200, 404, 404, 404), 404)
def test_response_get_accept_ranges_header(self):
with save_globals():
set_http_connect(200, 200, body='{}')
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c?format=json')
self.app.update_request(req)
res = controller.GET(req)
self.assertIn('accept-ranges', res.headers)
self.assertEqual(res.headers['accept-ranges'], 'bytes')
def test_response_head_accept_ranges_header(self):
with save_globals():
set_http_connect(200, 200, body='{}')
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c?format=json')
self.app.update_request(req)
res = controller.HEAD(req)
self.assertIn('accept-ranges', res.headers)
self.assertEqual(res.headers['accept-ranges'], 'bytes')
def test_PUT_metadata(self):
self.metadata_helper('PUT')
def test_POST_metadata(self):
self.metadata_helper('POST')
def metadata_helper(self, method):
for test_header, test_value in (
('X-Container-Meta-TestHeader', 'TestValue'),
('X-Container-Meta-TestHeader', ''),
('X-Remove-Container-Meta-TestHeader', 'anything'),
('X-Container-Read', '.r:*'),
('X-Remove-Container-Read', 'anything'),
('X-Container-Write', 'anyone'),
('X-Remove-Container-Write', 'anything')):
test_errors = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a/c':
find_header = test_header
find_value = test_value
if find_header.lower().startswith('x-remove-'):
find_header = \
find_header.lower().replace('-remove', '', 1)
find_value = ''
for k, v in headers.items():
if k.lower() == find_header.lower() and \
v == find_value:
break
else:
test_errors.append('%s: %s not in %s' %
(find_header, find_value, headers))
with save_globals():
controller = \
proxy_server.ContainerController(self.app, 'a', 'c')
set_http_connect(200, 201, 201, 201, give_connect=test_connect)
req = Request.blank(
'/v1/a/c',
environ={'REQUEST_METHOD': method, 'swift_owner': True},
headers={test_header: test_value})
self.app.update_request(req)
getattr(controller, method)(req)
self.assertEqual(test_errors, [])
def test_PUT_bad_metadata(self):
self.bad_metadata_helper('PUT')
def test_POST_bad_metadata(self):
self.bad_metadata_helper('POST')
def bad_metadata_helper(self, method):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'a', 'c')
set_http_connect(200, 201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Container-Meta-' +
('a' * constraints.MAX_META_NAME_LENGTH): 'v'})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank(
'/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Container-Meta-' +
('a' * (constraints.MAX_META_NAME_LENGTH + 1)): 'v'})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Container-Meta-Too-Long':
'a' * constraints.MAX_META_VALUE_LENGTH})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Container-Meta-Too-Long':
'a' * (constraints.MAX_META_VALUE_LENGTH + 1)})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {}
for x in range(constraints.MAX_META_COUNT):
headers['X-Container-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers = {}
for x in range(constraints.MAX_META_COUNT + 1):
headers['X-Container-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {}
header_value = 'a' * constraints.MAX_META_VALUE_LENGTH
size = 0
x = 0
while size < (constraints.MAX_META_OVERALL_SIZE - 4
- constraints.MAX_META_VALUE_LENGTH):
size += 4 + constraints.MAX_META_VALUE_LENGTH
headers['X-Container-Meta-%04d' % x] = header_value
x += 1
if constraints.MAX_META_OVERALL_SIZE - size > 1:
headers['X-Container-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size - 1)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers['X-Container-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
def test_POST_calls_clean_acl(self):
called = [False]
def clean_acl(header, value):
called[0] = True
raise ValueError('fake error')
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'POST'},
headers={'X-Container-Read': '.r:*'})
req.environ['swift.clean_acl'] = clean_acl
self.app.update_request(req)
controller.POST(req)
self.assertTrue(called[0])
called[0] = False
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'POST'},
headers={'X-Container-Write': '.r:*'})
req.environ['swift.clean_acl'] = clean_acl
self.app.update_request(req)
controller.POST(req)
self.assertTrue(called[0])
def test_PUT_calls_clean_acl(self):
called = [False]
def clean_acl(header, value):
called[0] = True
raise ValueError('fake error')
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'PUT'},
headers={'X-Container-Read': '.r:*'})
req.environ['swift.clean_acl'] = clean_acl
self.app.update_request(req)
controller.PUT(req)
self.assertTrue(called[0])
called[0] = False
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'account',
'container')
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'PUT'},
headers={'X-Container-Write': '.r:*'})
req.environ['swift.clean_acl'] = clean_acl
self.app.update_request(req)
controller.PUT(req)
self.assertTrue(called[0])
def test_GET_no_content(self):
with save_globals():
set_http_connect(200, 204, 204, 204)
controller = proxy_server.ContainerController(self.app, 'a', 'c')
req = Request.blank('/v1/a/c')
self.app.update_request(req)
res = controller.GET(req)
self.assertEqual(res.status_int, 204)
ic = res.environ['swift.infocache']
self.assertEqual(ic['container/a/c']['status'], 204)
self.assertEqual(res.content_length, 0)
self.assertNotIn('transfer-encoding', res.headers)
def test_GET_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'a', 'c')
req = Request.blank('/v1/a/c')
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
res = controller.GET(req)
self.assertEqual(
res.environ['swift.infocache']['container/a/c']['status'],
201)
self.assertTrue(called[0])
def test_HEAD_calls_authorize(self):
called = [False]
def authorize(req):
called[0] = True
return HTTPUnauthorized(request=req)
with save_globals():
set_http_connect(200, 201, 201, 201)
controller = proxy_server.ContainerController(self.app, 'a', 'c')
req = Request.blank('/v1/a/c', {'REQUEST_METHOD': 'HEAD'})
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
controller.HEAD(req)
self.assertTrue(called[0])
def test_unauthorized_requests_when_account_not_found(self):
# verify unauthorized container requests always return response
# from swift.authorize
called = [0, 0]
def authorize(req):
called[0] += 1
return HTTPUnauthorized(request=req)
def account_info(*args):
called[1] += 1
return None, None, None
def _do_test(method):
with save_globals():
swift.proxy.controllers.Controller.account_info = account_info
app = proxy_server.Application(None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', {'REQUEST_METHOD': method})
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
res = app.handle_request(req)
return res
for method in ('PUT', 'POST', 'DELETE'):
# no delay_denial on method, expect one call to authorize
called = [0, 0]
res = _do_test(method)
self.assertEqual(401, res.status_int)
self.assertEqual([1, 0], called)
for method in ('HEAD', 'GET'):
# delay_denial on method, expect two calls to authorize
called = [0, 0]
res = _do_test(method)
self.assertEqual(401, res.status_int)
self.assertEqual([2, 1], called)
def test_authorized_requests_when_account_not_found(self):
# verify authorized container requests always return 404 when
# account not found
called = [0, 0]
def authorize(req):
called[0] += 1
def account_info(*args):
called[1] += 1
return None, None, None
def _do_test(method):
with save_globals():
swift.proxy.controllers.Controller.account_info = account_info
app = proxy_server.Application(None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', {'REQUEST_METHOD': method})
req.environ['swift.authorize'] = authorize
self.app.update_request(req)
res = app.handle_request(req)
return res
for method in ('PUT', 'POST', 'DELETE', 'HEAD', 'GET'):
# expect one call to authorize
called = [0, 0]
res = _do_test(method)
self.assertEqual(404, res.status_int)
self.assertEqual([1, 1], called)
def test_OPTIONS_get_info_drops_origin(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'a', 'c')
count = [0]
def my_get_info(app, env, account, container=None,
ret_not_found=False, swift_source=None):
if count[0] > 11:
return {}
count[0] += 1
if not container:
return {'some': 'stuff'}
return proxy_base.was_get_info(
app, env, account, container, ret_not_found, swift_source)
proxy_base.was_get_info = proxy_base.get_info
with mock.patch.object(proxy_base, 'get_info', my_get_info):
proxy_base.get_info = my_get_info
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
controller.OPTIONS(req)
self.assertLess(count[0], 11)
def test_OPTIONS(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'a', 'c')
def my_empty_container_info(*args):
return {}
controller.container_info = my_empty_container_info
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
def my_empty_origin_container_info(*args):
return {'cors': {'allow_origin': None}}
controller.container_info = my_empty_origin_container_info
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
def my_container_info(*args):
return {
'cors': {
'allow_origin': 'http://foo.bar:8080 https://foo.bar',
'max_age': '999',
}
}
controller.container_info = my_container_info
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://foo.bar',
'Access-Control-Request-Method': 'GET'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
self.assertEqual(
'https://foo.bar',
resp.headers['access-control-allow-origin'])
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb,
resp.headers['access-control-allow-methods'])
self.assertEqual(
len(resp.headers['access-control-allow-methods'].split(', ')),
6)
self.assertEqual('999', resp.headers['access-control-max-age'])
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://foo.bar'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
req = Request.blank('/v1/a/c', {'REQUEST_METHOD': 'OPTIONS'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb, resp.headers['Allow'])
self.assertEqual(len(resp.headers['Allow'].split(', ')), 6)
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.bar',
'Access-Control-Request-Method': 'GET'})
resp = controller.OPTIONS(req)
self.assertEqual(401, resp.status_int)
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.bar',
'Access-Control-Request-Method': 'GET'})
controller.app.cors_allow_origin = ['http://foo.bar', ]
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
def my_container_info_wildcard(*args):
return {
'cors': {
'allow_origin': '*',
'max_age': '999',
}
}
controller.container_info = my_container_info_wildcard
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://bar.baz',
'Access-Control-Request-Method': 'GET'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
self.assertEqual('*', resp.headers['access-control-allow-origin'])
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb,
resp.headers['access-control-allow-methods'])
self.assertEqual(
len(resp.headers['access-control-allow-methods'].split(', ')),
6)
self.assertEqual('999', resp.headers['access-control-max-age'])
req = Request.blank(
'/v1/a/c/o.jpg',
{'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'https://bar.baz',
'Access-Control-Request-Headers':
'x-foo, x-bar, x-auth-token',
'Access-Control-Request-Method': 'GET'}
)
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
self.assertEqual(
sortHeaderNames('x-foo, x-bar, x-auth-token'),
sortHeaderNames(resp.headers['access-control-allow-headers']))
def test_CORS_valid(self):
with save_globals():
controller = proxy_server.ContainerController(self.app, 'a', 'c')
def stubContainerInfo(*args):
return {
'cors': {
'allow_origin': 'http://foo.bar'
}
}
controller.container_info = stubContainerInfo
def containerGET(controller, req):
return Response(headers={
'X-Container-Meta-Color': 'red',
'X-Super-Secret': 'hush',
})
req = Request.blank(
'/v1/a/c',
{'REQUEST_METHOD': 'GET'},
headers={'Origin': 'http://foo.bar'})
resp = cors_validation(containerGET)(controller, req)
self.assertEqual(200, resp.status_int)
self.assertEqual('http://foo.bar',
resp.headers['access-control-allow-origin'])
self.assertEqual('red', resp.headers['x-container-meta-color'])
# X-Super-Secret is in the response, but not "exposed"
self.assertEqual('hush', resp.headers['x-super-secret'])
self.assertIn('access-control-expose-headers', resp.headers)
exposed = set(
h.strip() for h in
resp.headers['access-control-expose-headers'].split(','))
expected_exposed = set([
'cache-control', 'content-language', 'content-type', 'expires',
'last-modified', 'pragma', 'etag', 'x-timestamp', 'x-trans-id',
'x-openstack-request-id', 'x-container-meta-color'])
self.assertEqual(expected_exposed, exposed)
def _gather_x_account_headers(self, controller_call, req, *connect_args,
**kwargs):
seen_headers = []
to_capture = ('X-Account-Partition', 'X-Account-Host',
'X-Account-Device')
def capture_headers(ipaddr, port, device, partition, method,
path, headers=None, query_string=None):
captured = {}
for header in to_capture:
captured[header] = headers.get(header)
seen_headers.append(captured)
with save_globals():
self.app.allow_account_management = True
set_http_connect(*connect_args, give_connect=capture_headers,
**kwargs)
resp = controller_call(req)
self.assertEqual(2, resp.status_int // 100) # sanity check
# don't care about the account HEAD, so throw away the
# first element
return sorted(seen_headers[1:],
key=lambda d: d['X-Account-Host'] or 'Z')
def test_PUT_x_account_headers_with_fewer_account_replicas(self):
self.app.account_ring.set_replicas(2)
req = Request.blank('/v1/a/c', headers={'': ''})
controller = proxy_server.ContainerController(self.app, 'a', 'c')
seen_headers = self._gather_x_account_headers(
controller.PUT, req,
200, 201, 201, 201) # HEAD PUT PUT PUT
self.assertEqual(seen_headers, [
{'X-Account-Host': '10.0.0.0:1000',
'X-Account-Partition': '0',
'X-Account-Device': 'sda'},
{'X-Account-Host': '10.0.0.1:1001',
'X-Account-Partition': '0',
'X-Account-Device': 'sdb'},
{'X-Account-Host': None,
'X-Account-Partition': None,
'X-Account-Device': None}
])
def test_PUT_x_account_headers_with_more_account_replicas(self):
self.app.account_ring.set_replicas(4)
req = Request.blank('/v1/a/c', headers={'': ''})
controller = proxy_server.ContainerController(self.app, 'a', 'c')
seen_headers = self._gather_x_account_headers(
controller.PUT, req,
200, 201, 201, 201) # HEAD PUT PUT PUT
self.assertEqual(seen_headers, [
{'X-Account-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Account-Partition': '0',
'X-Account-Device': 'sda,sdd'},
{'X-Account-Host': '10.0.0.1:1001',
'X-Account-Partition': '0',
'X-Account-Device': 'sdb'},
{'X-Account-Host': '10.0.0.2:1002',
'X-Account-Partition': '0',
'X-Account-Device': 'sdc'}
])
def test_DELETE_x_account_headers_with_fewer_account_replicas(self):
self.app.account_ring.set_replicas(2)
req = Request.blank('/v1/a/c', headers={'': ''})
controller = proxy_server.ContainerController(self.app, 'a', 'c')
seen_headers = self._gather_x_account_headers(
controller.DELETE, req,
200, 204, 204, 204) # HEAD DELETE DELETE DELETE
self.assertEqual(seen_headers, [
{'X-Account-Host': '10.0.0.0:1000',
'X-Account-Partition': '0',
'X-Account-Device': 'sda'},
{'X-Account-Host': '10.0.0.1:1001',
'X-Account-Partition': '0',
'X-Account-Device': 'sdb'},
{'X-Account-Host': None,
'X-Account-Partition': None,
'X-Account-Device': None}
])
def test_DELETE_x_account_headers_with_more_account_replicas(self):
self.app.account_ring.set_replicas(4)
req = Request.blank('/v1/a/c', headers={'': ''})
controller = proxy_server.ContainerController(self.app, 'a', 'c')
seen_headers = self._gather_x_account_headers(
controller.DELETE, req,
200, 204, 204, 204) # HEAD DELETE DELETE DELETE
self.assertEqual(seen_headers, [
{'X-Account-Host': '10.0.0.0:1000,10.0.0.3:1003',
'X-Account-Partition': '0',
'X-Account-Device': 'sda,sdd'},
{'X-Account-Host': '10.0.0.1:1001',
'X-Account-Partition': '0',
'X-Account-Device': 'sdb'},
{'X-Account-Host': '10.0.0.2:1002',
'X-Account-Partition': '0',
'X-Account-Device': 'sdc'}
])
def test_PUT_backed_x_timestamp_header(self):
timestamps = []
def capture_timestamps(*args, **kwargs):
headers = kwargs['headers']
timestamps.append(headers.get('X-Timestamp'))
req = Request.blank('/v1/a/c', method='PUT', headers={'': ''})
with save_globals():
new_connect = set_http_connect(200, # account existence check
201, 201, 201,
give_connect=capture_timestamps)
resp = self.app.handle_request(req)
# sanity
self.assertRaises(StopIteration, new_connect.code_iter.next)
self.assertEqual(2, resp.status_int // 100)
timestamps.pop(0) # account existence check
self.assertEqual(3, len(timestamps))
for timestamp in timestamps:
self.assertEqual(timestamp, timestamps[0])
self.assertTrue(re.match('[0-9]{10}\.[0-9]{5}', timestamp))
def test_DELETE_backed_x_timestamp_header(self):
timestamps = []
def capture_timestamps(*args, **kwargs):
headers = kwargs['headers']
timestamps.append(headers.get('X-Timestamp'))
req = Request.blank('/v1/a/c', method='DELETE', headers={'': ''})
self.app.update_request(req)
with save_globals():
new_connect = set_http_connect(200, # account existence check
201, 201, 201,
give_connect=capture_timestamps)
resp = self.app.handle_request(req)
# sanity
self.assertRaises(StopIteration, new_connect.code_iter.next)
self.assertEqual(2, resp.status_int // 100)
timestamps.pop(0) # account existence check
self.assertEqual(3, len(timestamps))
for timestamp in timestamps:
self.assertEqual(timestamp, timestamps[0])
self.assertTrue(re.match('[0-9]{10}\.[0-9]{5}', timestamp))
def test_node_read_timeout_retry_to_container(self):
with save_globals():
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'GET'})
self.app.node_timeout = 0.1
set_http_connect(200, 200, 200, body='abcdef', slow=[1.0, 1.0])
resp = req.get_response(self.app)
got_exc = False
try:
resp.body
except ChunkReadTimeout:
got_exc = True
self.assertTrue(got_exc)
@patch_policies([StoragePolicy(0, 'zero', True, object_ring=FakeRing())])
class TestAccountController(unittest.TestCase):
def setUp(self):
self.app = proxy_server.Application(None, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
def assert_status_map(self, method, statuses, expected, env_expected=None,
headers=None, **kwargs):
headers = headers or {}
with save_globals():
set_http_connect(*statuses, **kwargs)
req = Request.blank('/v1/a', {}, headers=headers)
self.app.update_request(req)
res = method(req)
self.assertEqual(res.status_int, expected)
infocache = res.environ.get('swift.infocache', {})
if env_expected:
self.assertEqual(infocache['account/a']['status'],
env_expected)
set_http_connect(*statuses)
req = Request.blank('/v1/a/', {})
self.app.update_request(req)
res = method(req)
infocache = res.environ.get('swift.infocache', {})
self.assertEqual(res.status_int, expected)
if env_expected:
self.assertEqual(infocache['account/a']['status'],
env_expected)
def test_OPTIONS(self):
with save_globals():
self.app.allow_account_management = False
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/account', {'REQUEST_METHOD': 'OPTIONS'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
for verb in 'OPTIONS GET POST HEAD'.split():
self.assertIn(verb, resp.headers['Allow'])
self.assertEqual(len(resp.headers['Allow'].split(', ')), 4)
# Test a CORS OPTIONS request (i.e. including Origin and
# Access-Control-Request-Method headers)
self.app.allow_account_management = False
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank(
'/v1/account', {'REQUEST_METHOD': 'OPTIONS'},
headers={'Origin': 'http://foo.com',
'Access-Control-Request-Method': 'GET'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
for verb in 'OPTIONS GET POST HEAD'.split():
self.assertIn(verb, resp.headers['Allow'])
self.assertEqual(len(resp.headers['Allow'].split(', ')), 4)
self.app.allow_account_management = True
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/account', {'REQUEST_METHOD': 'OPTIONS'})
req.content_length = 0
resp = controller.OPTIONS(req)
self.assertEqual(200, resp.status_int)
for verb in 'OPTIONS GET POST PUT DELETE HEAD'.split():
self.assertIn(verb, resp.headers['Allow'])
self.assertEqual(len(resp.headers['Allow'].split(', ')), 6)
def test_GET(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
# GET returns after the first successful call to an Account Server
self.assert_status_map(controller.GET, (200,), 200, 200)
self.assert_status_map(controller.GET, (503, 200), 200, 200)
self.assert_status_map(controller.GET, (503, 503, 200), 200, 200)
self.assert_status_map(controller.GET, (204,), 204, 204)
self.assert_status_map(controller.GET, (503, 204), 204, 204)
self.assert_status_map(controller.GET, (503, 503, 204), 204, 204)
self.assert_status_map(controller.GET, (404, 200), 200, 200)
self.assert_status_map(controller.GET, (404, 404, 200), 200, 200)
self.assert_status_map(controller.GET, (404, 503, 204), 204, 204)
# If Account servers fail, if autocreate = False, return majority
# response
self.assert_status_map(controller.GET, (404, 404, 404), 404, 404)
self.assert_status_map(controller.GET, (404, 404, 503), 404, 404)
self.assert_status_map(controller.GET, (404, 503, 503), 503)
self.app.memcache = FakeMemcacheReturnsNone()
self.assert_status_map(controller.GET, (404, 404, 404), 404, 404)
def test_GET_autocreate(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
self.app.memcache = FakeMemcacheReturnsNone()
self.assertFalse(self.app.account_autocreate)
# Repeat the test for autocreate = False and 404 by all
self.assert_status_map(controller.GET,
(404, 404, 404), 404)
self.assert_status_map(controller.GET,
(404, 503, 404), 404)
# When autocreate is True, if none of the nodes respond 2xx
# And quorum of the nodes responded 404,
# ALL nodes are asked to create the account
# If successful, the GET request is repeated.
controller.app.account_autocreate = True
self.assert_status_map(controller.GET,
(404, 404, 404), 204)
self.assert_status_map(controller.GET,
(404, 503, 404), 204)
# We always return 503 if no majority between 4xx, 3xx or 2xx found
self.assert_status_map(controller.GET,
(500, 500, 400), 503)
def test_HEAD(self):
# Same behaviour as GET
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
self.assert_status_map(controller.HEAD, (200,), 200, 200)
self.assert_status_map(controller.HEAD, (503, 200), 200, 200)
self.assert_status_map(controller.HEAD, (503, 503, 200), 200, 200)
self.assert_status_map(controller.HEAD, (204,), 204, 204)
self.assert_status_map(controller.HEAD, (503, 204), 204, 204)
self.assert_status_map(controller.HEAD, (204, 503, 503), 204, 204)
self.assert_status_map(controller.HEAD, (204,), 204, 204)
self.assert_status_map(controller.HEAD, (404, 404, 404), 404, 404)
self.assert_status_map(controller.HEAD, (404, 404, 200), 200, 200)
self.assert_status_map(controller.HEAD, (404, 200), 200, 200)
self.assert_status_map(controller.HEAD, (404, 404, 503), 404, 404)
self.assert_status_map(controller.HEAD, (404, 503, 503), 503)
self.assert_status_map(controller.HEAD, (404, 503, 204), 204, 204)
def test_HEAD_autocreate(self):
# Same behaviour as GET
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
self.app.memcache = FakeMemcacheReturnsNone()
self.assertFalse(self.app.account_autocreate)
self.assert_status_map(controller.HEAD,
(404, 404, 404), 404)
controller.app.account_autocreate = True
self.assert_status_map(controller.HEAD,
(404, 404, 404), 204)
self.assert_status_map(controller.HEAD,
(500, 404, 404), 204)
# We always return 503 if no majority between 4xx, 3xx or 2xx found
self.assert_status_map(controller.HEAD,
(500, 500, 400), 503)
def test_POST_autocreate(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
self.app.memcache = FakeMemcacheReturnsNone()
# first test with autocreate being False
self.assertFalse(self.app.account_autocreate)
self.assert_status_map(controller.POST,
(404, 404, 404), 404)
# next turn it on and test account being created than updated
controller.app.account_autocreate = True
self.assert_status_map(
controller.POST,
(404, 404, 404, 202, 202, 202, 201, 201, 201), 201)
# account_info PUT account POST account
self.assert_status_map(
controller.POST,
(404, 404, 503, 201, 201, 503, 204, 204, 504), 204)
# what if create fails
self.assert_status_map(
controller.POST,
(404, 404, 404, 403, 403, 403, 400, 400, 400), 400)
def test_POST_autocreate_with_sysmeta(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'a')
self.app.memcache = FakeMemcacheReturnsNone()
# first test with autocreate being False
self.assertFalse(self.app.account_autocreate)
self.assert_status_map(controller.POST,
(404, 404, 404), 404)
# next turn it on and test account being created than updated
controller.app.account_autocreate = True
calls = []
callback = _make_callback_func(calls)
key, value = 'X-Account-Sysmeta-Blah', 'something'
headers = {key: value}
self.assert_status_map(
controller.POST,
(404, 404, 404, 202, 202, 202, 201, 201, 201), 201,
# POST , autocreate PUT, POST again
headers=headers,
give_connect=callback)
self.assertEqual(9, len(calls))
for call in calls:
self.assertIn(key, call['headers'],
'%s call, key %s missing in headers %s' %
(call['method'], key, call['headers']))
self.assertEqual(value, call['headers'][key])
def test_connection_refused(self):
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = 1 # can't connect on this port
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/account', environ={'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
resp = controller.HEAD(req)
self.assertEqual(resp.status_int, 503)
def test_other_socket_error(self):
self.app.account_ring.get_nodes('account')
for dev in self.app.account_ring.devs:
dev['ip'] = '127.0.0.1'
dev['port'] = -1 # invalid port number
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/account', environ={'REQUEST_METHOD': 'HEAD'})
self.app.update_request(req)
resp = controller.HEAD(req)
self.assertEqual(resp.status_int, 503)
def test_response_get_accept_ranges_header(self):
with save_globals():
set_http_connect(200, 200, body='{}')
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/a?format=json')
self.app.update_request(req)
res = controller.GET(req)
self.assertIn('accept-ranges', res.headers)
self.assertEqual(res.headers['accept-ranges'], 'bytes')
def test_response_head_accept_ranges_header(self):
with save_globals():
set_http_connect(200, 200, body='{}')
controller = proxy_server.AccountController(self.app, 'account')
req = Request.blank('/v1/a?format=json')
self.app.update_request(req)
res = controller.HEAD(req)
res.body
self.assertIn('accept-ranges', res.headers)
self.assertEqual(res.headers['accept-ranges'], 'bytes')
def test_PUT(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'account')
def test_status_map(statuses, expected, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a', {})
req.content_length = 0
self.app.update_request(req)
res = controller.PUT(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((201, 201, 201), 405)
self.app.allow_account_management = True
test_status_map((201, 201, 201), 201)
test_status_map((201, 201, 500), 201)
test_status_map((201, 500, 500), 503)
test_status_map((204, 500, 404), 503)
def test_PUT_max_account_name_length(self):
with save_globals():
self.app.allow_account_management = True
limit = constraints.MAX_ACCOUNT_NAME_LENGTH
controller = proxy_server.AccountController(self.app, '1' * limit)
self.assert_status_map(controller.PUT, (201, 201, 201), 201)
controller = proxy_server.AccountController(
self.app, '2' * (limit + 1))
self.assert_status_map(controller.PUT, (201, 201, 201), 400)
def test_PUT_connect_exceptions(self):
with save_globals():
self.app.allow_account_management = True
controller = proxy_server.AccountController(self.app, 'account')
self.assert_status_map(controller.PUT, (201, 201, -1), 201)
self.assert_status_map(controller.PUT, (201, -1, -1), 503)
self.assert_status_map(controller.PUT, (503, 503, -1), 503)
def test_PUT_status(self):
with save_globals():
self.app.allow_account_management = True
controller = proxy_server.AccountController(self.app, 'account')
self.assert_status_map(controller.PUT, (201, 201, 202), 202)
def test_PUT_metadata(self):
self.metadata_helper('PUT')
def test_POST_metadata(self):
self.metadata_helper('POST')
def metadata_helper(self, method):
for test_header, test_value in (
('X-Account-Meta-TestHeader', 'TestValue'),
('X-Account-Meta-TestHeader', ''),
('X-Remove-Account-Meta-TestHeader', 'anything')):
test_errors = []
def test_connect(ipaddr, port, device, partition, method, path,
headers=None, query_string=None):
if path == '/a':
find_header = test_header
find_value = test_value
if find_header.lower().startswith('x-remove-'):
find_header = \
find_header.lower().replace('-remove', '', 1)
find_value = ''
for k, v in headers.items():
if k.lower() == find_header.lower() and \
v == find_value:
break
else:
test_errors.append('%s: %s not in %s' %
(find_header, find_value, headers))
with save_globals():
self.app.allow_account_management = True
controller = \
proxy_server.AccountController(self.app, 'a')
set_http_connect(201, 201, 201, give_connect=test_connect)
req = Request.blank('/v1/a/c',
environ={'REQUEST_METHOD': method},
headers={test_header: test_value})
self.app.update_request(req)
getattr(controller, method)(req)
self.assertEqual(test_errors, [])
def test_PUT_bad_metadata(self):
self.bad_metadata_helper('PUT')
def test_POST_bad_metadata(self):
self.bad_metadata_helper('POST')
def bad_metadata_helper(self, method):
with save_globals():
self.app.allow_account_management = True
controller = proxy_server.AccountController(self.app, 'a')
set_http_connect(200, 201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Account-Meta-' +
('a' * constraints.MAX_META_NAME_LENGTH): 'v'})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank(
'/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Account-Meta-' +
('a' * (constraints.MAX_META_NAME_LENGTH + 1)): 'v'})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Account-Meta-Too-Long':
'a' * constraints.MAX_META_VALUE_LENGTH})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers={'X-Account-Meta-Too-Long':
'a' * (constraints.MAX_META_VALUE_LENGTH + 1)})
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {}
for x in range(constraints.MAX_META_COUNT):
headers['X-Account-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers = {}
for x in range(constraints.MAX_META_COUNT + 1):
headers['X-Account-Meta-%d' % x] = 'v'
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
set_http_connect(201, 201, 201)
headers = {}
header_value = 'a' * constraints.MAX_META_VALUE_LENGTH
size = 0
x = 0
while size < (constraints.MAX_META_OVERALL_SIZE - 4
- constraints.MAX_META_VALUE_LENGTH):
size += 4 + constraints.MAX_META_VALUE_LENGTH
headers['X-Account-Meta-%04d' % x] = header_value
x += 1
if constraints.MAX_META_OVERALL_SIZE - size > 1:
headers['X-Account-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size - 1)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 201)
set_http_connect(201, 201, 201)
headers['X-Account-Meta-a'] = \
'a' * (constraints.MAX_META_OVERALL_SIZE - size)
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': method},
headers=headers)
self.app.update_request(req)
resp = getattr(controller, method)(req)
self.assertEqual(resp.status_int, 400)
def test_DELETE(self):
with save_globals():
controller = proxy_server.AccountController(self.app, 'account')
def test_status_map(statuses, expected, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a', {'REQUEST_METHOD': 'DELETE'})
req.content_length = 0
self.app.update_request(req)
res = controller.DELETE(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((201, 201, 201), 405)
self.app.allow_account_management = True
test_status_map((201, 201, 201), 201)
test_status_map((201, 201, 500), 201)
test_status_map((201, 500, 500), 503)
test_status_map((204, 500, 404), 503)
def test_DELETE_with_query_string(self):
# Extra safety in case someone typos a query string for an
# account-level DELETE request that was really meant to be caught by
# some middleware.
with save_globals():
controller = proxy_server.AccountController(self.app, 'account')
def test_status_map(statuses, expected, **kwargs):
set_http_connect(*statuses, **kwargs)
self.app.memcache.store = {}
req = Request.blank('/v1/a?whoops',
environ={'REQUEST_METHOD': 'DELETE'})
req.content_length = 0
self.app.update_request(req)
res = controller.DELETE(req)
expected = str(expected)
self.assertEqual(res.status[:len(expected)], expected)
test_status_map((201, 201, 201), 400)
self.app.allow_account_management = True
test_status_map((201, 201, 201), 400)
test_status_map((201, 201, 500), 400)
test_status_map((201, 500, 500), 400)
test_status_map((204, 500, 404), 400)
@patch_policies([StoragePolicy(0, 'zero', True, object_ring=FakeRing())])
class TestAccountControllerFakeGetResponse(unittest.TestCase):
"""
Test all the faked-out GET responses for accounts that don't exist. They
have to match the responses for empty accounts that really exist.
"""
def setUp(self):
conf = {'account_autocreate': 'yes'}
self.app = proxy_server.Application(conf, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
self.app.memcache = FakeMemcacheReturnsNone()
def test_GET_autocreate_accept_json(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank(
'/v1/a', headers={'Accept': 'application/json'},
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a'})
resp = req.get_response(self.app)
self.assertEqual(200, resp.status_int)
self.assertEqual('application/json; charset=utf-8',
resp.headers['Content-Type'])
self.assertEqual("[]", resp.body)
def test_GET_autocreate_format_json(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank('/v1/a?format=json',
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a',
'QUERY_STRING': 'format=json'})
resp = req.get_response(self.app)
self.assertEqual(200, resp.status_int)
self.assertEqual('application/json; charset=utf-8',
resp.headers['Content-Type'])
self.assertEqual("[]", resp.body)
def test_GET_autocreate_accept_xml(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank('/v1/a', headers={"Accept": "text/xml"},
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a'})
resp = req.get_response(self.app)
self.assertEqual(200, resp.status_int)
self.assertEqual('text/xml; charset=utf-8',
resp.headers['Content-Type'])
empty_xml_listing = ('<?xml version="1.0" encoding="UTF-8"?>\n'
'<account name="a">\n</account>')
self.assertEqual(empty_xml_listing, resp.body)
def test_GET_autocreate_format_xml(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank('/v1/a?format=xml',
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a',
'QUERY_STRING': 'format=xml'})
resp = req.get_response(self.app)
self.assertEqual(200, resp.status_int)
self.assertEqual('application/xml; charset=utf-8',
resp.headers['Content-Type'])
empty_xml_listing = ('<?xml version="1.0" encoding="UTF-8"?>\n'
'<account name="a">\n</account>')
self.assertEqual(empty_xml_listing, resp.body)
def test_GET_autocreate_accept_unknown(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank('/v1/a', headers={"Accept": "mystery/meat"},
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a'})
resp = req.get_response(self.app)
self.assertEqual(406, resp.status_int)
def test_GET_autocreate_format_invalid_utf8(self):
with save_globals():
set_http_connect(*([404] * 100)) # nonexistent: all backends 404
req = Request.blank('/v1/a?format=\xff\xfe',
environ={'REQUEST_METHOD': 'GET',
'PATH_INFO': '/v1/a',
'QUERY_STRING': 'format=\xff\xfe'})
resp = req.get_response(self.app)
self.assertEqual(400, resp.status_int)
def test_account_acl_header_access(self):
acl = {
'admin': ['AUTH_alice'],
'read-write': ['AUTH_bob'],
'read-only': ['AUTH_carol'],
}
prefix = get_sys_meta_prefix('account')
privileged_headers = {(prefix + 'core-access-control'): format_acl(
version=2, acl_dict=acl)}
app = proxy_server.Application(
None, FakeMemcache(), account_ring=FakeRing(),
container_ring=FakeRing())
with save_globals():
# Mock account server will provide privileged information (ACLs)
set_http_connect(200, 200, 200, headers=privileged_headers)
req = Request.blank('/v1/a', environ={'REQUEST_METHOD': 'GET'})
resp = app.handle_request(req)
# Not a swift_owner -- ACLs should NOT be in response
header = 'X-Account-Access-Control'
self.assertNotIn(header, resp.headers, '%r was in %r' % (
header, resp.headers))
# Same setup -- mock acct server will provide ACLs
set_http_connect(200, 200, 200, headers=privileged_headers)
req = Request.blank('/v1/a', environ={'REQUEST_METHOD': 'GET',
'swift_owner': True})
resp = app.handle_request(req)
# For a swift_owner, the ACLs *should* be in response
self.assertIn(header, resp.headers, '%r not in %r' % (
header, resp.headers))
def test_account_acls_through_delegation(self):
# Define a way to grab the requests sent out from the AccountController
# to the Account Server, and a way to inject responses we'd like the
# Account Server to return.
resps_to_send = []
@contextmanager
def patch_account_controller_method(verb):
old_method = getattr(proxy_server.AccountController, verb)
new_method = lambda self, req, *_, **__: resps_to_send.pop(0)
try:
setattr(proxy_server.AccountController, verb, new_method)
yield
finally:
setattr(proxy_server.AccountController, verb, old_method)
def make_test_request(http_method, swift_owner=True):
env = {
'REQUEST_METHOD': http_method,
'swift_owner': swift_owner,
}
acl = {
'admin': ['foo'],
'read-write': ['bar'],
'read-only': ['bas'],
}
headers = {} if http_method in ('GET', 'HEAD') else {
'x-account-access-control': format_acl(version=2, acl_dict=acl)
}
return Request.blank('/v1/a', environ=env, headers=headers)
# Our AccountController will invoke methods to communicate with the
# Account Server, and they will return responses like these:
def make_canned_response(http_method):
acl = {
'admin': ['foo'],
'read-write': ['bar'],
'read-only': ['bas'],
}
headers = {'x-account-sysmeta-core-access-control': format_acl(
version=2, acl_dict=acl)}
canned_resp = Response(headers=headers)
canned_resp.environ = {
'PATH_INFO': '/acct',
'REQUEST_METHOD': http_method,
}
resps_to_send.append(canned_resp)
app = proxy_server.Application(
None, FakeMemcache(), account_ring=FakeRing(),
container_ring=FakeRing())
app.allow_account_management = True
ext_header = 'x-account-access-control'
with patch_account_controller_method('GETorHEAD_base'):
# GET/HEAD requests should remap sysmeta headers from acct server
for verb in ('GET', 'HEAD'):
make_canned_response(verb)
req = make_test_request(verb)
resp = app.handle_request(req)
h = parse_acl(version=2, data=resp.headers.get(ext_header))
self.assertEqual(h['admin'], ['foo'])
self.assertEqual(h['read-write'], ['bar'])
self.assertEqual(h['read-only'], ['bas'])
# swift_owner = False: GET/HEAD shouldn't return sensitive info
make_canned_response(verb)
req = make_test_request(verb, swift_owner=False)
resp = app.handle_request(req)
h = resp.headers
self.assertIsNone(h.get(ext_header))
# swift_owner unset: GET/HEAD shouldn't return sensitive info
make_canned_response(verb)
req = make_test_request(verb, swift_owner=False)
del req.environ['swift_owner']
resp = app.handle_request(req)
h = resp.headers
self.assertIsNone(h.get(ext_header))
# Verify that PUT/POST requests remap sysmeta headers from acct server
with patch_account_controller_method('make_requests'):
make_canned_response('PUT')
req = make_test_request('PUT')
resp = app.handle_request(req)
h = parse_acl(version=2, data=resp.headers.get(ext_header))
self.assertEqual(h['admin'], ['foo'])
self.assertEqual(h['read-write'], ['bar'])
self.assertEqual(h['read-only'], ['bas'])
make_canned_response('POST')
req = make_test_request('POST')
resp = app.handle_request(req)
h = parse_acl(version=2, data=resp.headers.get(ext_header))
self.assertEqual(h['admin'], ['foo'])
self.assertEqual(h['read-write'], ['bar'])
self.assertEqual(h['read-only'], ['bas'])
class FakeObjectController(object):
def __init__(self):
self.app = self
self.logger = self
self.account_name = 'a'
self.container_name = 'c'
self.object_name = 'o'
self.trans_id = 'tx1'
self.object_ring = FakeRing()
self.node_timeout = 1
self.rate_limit_after_segment = 3
self.rate_limit_segments_per_sec = 2
self.GETorHEAD_base_args = []
def exception(self, *args):
self.exception_args = args
self.exception_info = sys.exc_info()
def GETorHEAD_base(self, *args):
self.GETorHEAD_base_args.append(args)
req = args[0]
path = args[4]
body = data = path[-1] * int(path[-1])
if req.range:
r = req.range.ranges_for_length(len(data))
if r:
(start, stop) = r[0]
body = data[start:stop]
resp = Response(app_iter=iter(body))
return resp
def iter_nodes(self, ring, partition):
for node in ring.get_part_nodes(partition):
yield node
for node in ring.get_more_nodes(partition):
yield node
def sort_nodes(self, nodes):
return nodes
def set_node_timing(self, node, timing):
return
class TestProxyObjectPerformance(unittest.TestCase):
def setUp(self):
# This is just a simple test that can be used to verify and debug the
# various data paths between the proxy server and the object
# server. Used as a play ground to debug buffer sizes for sockets.
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
# Client is transmitting in 2 MB chunks
fd = sock.makefile('wb', 2 * 1024 * 1024)
# Small, fast for testing
obj_len = 2 * 64 * 1024
# Use 1 GB or more for measurements
# obj_len = 2 * 512 * 1024 * 1024
self.path = '/v1/a/c/o.large'
fd.write('PUT %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'Content-Length: %s\r\n'
'Content-Type: application/octet-stream\r\n'
'\r\n' % (self.path, str(obj_len)))
fd.write('a' * obj_len)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
self.obj_len = obj_len
def test_GET_debug_large_file(self):
for i in range(10):
start = time.time()
prolis = _test_sockets[0]
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
# Client is reading in 2 MB chunks
fd = sock.makefile('wb', 2 * 1024 * 1024)
fd.write('GET %s HTTP/1.1\r\n'
'Host: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n'
'\r\n' % self.path)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
total = 0
while True:
buf = fd.read(100000)
if not buf:
break
total += len(buf)
self.assertEqual(total, self.obj_len)
end = time.time()
print("Run %02d took %07.03f" % (i, end - start))
@patch_policies([StoragePolicy(0, 'migrated', object_ring=FakeRing()),
StoragePolicy(1, 'ernie', True, object_ring=FakeRing()),
StoragePolicy(2, 'deprecated', is_deprecated=True,
object_ring=FakeRing()),
StoragePolicy(3, 'bert', object_ring=FakeRing())])
class TestSwiftInfo(unittest.TestCase):
def setUp(self):
utils._swift_info = {}
utils._swift_admin_info = {}
def test_registered_defaults(self):
proxy_server.Application({}, FakeMemcache(),
account_ring=FakeRing(),
container_ring=FakeRing())
si = utils.get_swift_info()['swift']
self.assertIn('version', si)
self.assertEqual(si['max_file_size'], constraints.MAX_FILE_SIZE)
self.assertEqual(si['max_meta_name_length'],
constraints.MAX_META_NAME_LENGTH)
self.assertEqual(si['max_meta_value_length'],
constraints.MAX_META_VALUE_LENGTH)
self.assertEqual(si['max_meta_count'], constraints.MAX_META_COUNT)
self.assertEqual(si['max_header_size'], constraints.MAX_HEADER_SIZE)
self.assertEqual(si['max_meta_overall_size'],
constraints.MAX_META_OVERALL_SIZE)
self.assertEqual(si['account_listing_limit'],
constraints.ACCOUNT_LISTING_LIMIT)
self.assertEqual(si['container_listing_limit'],
constraints.CONTAINER_LISTING_LIMIT)
self.assertEqual(si['max_account_name_length'],
constraints.MAX_ACCOUNT_NAME_LENGTH)
self.assertEqual(si['max_container_name_length'],
constraints.MAX_CONTAINER_NAME_LENGTH)
self.assertEqual(si['max_object_name_length'],
constraints.MAX_OBJECT_NAME_LENGTH)
self.assertIn('strict_cors_mode', si)
self.assertFalse(si['allow_account_management'])
self.assertFalse(si['account_autocreate'])
# This setting is by default excluded by disallowed_sections
self.assertEqual(si['valid_api_versions'],
constraints.VALID_API_VERSIONS)
# this next test is deliberately brittle in order to alert if
# other items are added to swift info
self.assertEqual(len(si), 18)
self.assertIn('policies', si)
sorted_pols = sorted(si['policies'], key=operator.itemgetter('name'))
self.assertEqual(len(sorted_pols), 3)
for policy in sorted_pols:
self.assertNotEqual(policy['name'], 'deprecated')
self.assertEqual(sorted_pols[0]['name'], 'bert')
self.assertEqual(sorted_pols[1]['name'], 'ernie')
self.assertEqual(sorted_pols[2]['name'], 'migrated')
class TestSocketObjectVersions(unittest.TestCase):
def setUp(self):
global _test_sockets
self.prolis = prolis = listen(('localhost', 0))
self._orig_prolis = _test_sockets[0]
allowed_headers = ', '.join([
'content-encoding',
'x-object-manifest',
'content-disposition',
'foo'
])
conf = {'devices': _testdir, 'swift_dir': _testdir,
'mount_check': 'false', 'allowed_headers': allowed_headers}
prosrv = versioned_writes.VersionedWritesMiddleware(
copy.ServerSideCopyMiddleware(
proxy_logging.ProxyLoggingMiddleware(
_test_servers[0], conf,
logger=_test_servers[0].logger), conf),
{})
self.coro = spawn(wsgi.server, prolis, prosrv, NullLogger())
# replace global prosrv with one that's filtered with version
# middleware
self.sockets = list(_test_sockets)
self.sockets[0] = prolis
_test_sockets = tuple(self.sockets)
def tearDown(self):
self.coro.kill()
# put the global state back
global _test_sockets
self.sockets[0] = self._orig_prolis
_test_sockets = tuple(self.sockets)
def test_version_manifest(self, oc='versions', vc='vers', o='name'):
versions_to_create = 3
# Create a container for our versioned object testing
(prolis, acc1lis, acc2lis, con1lis, con2lis, obj1lis,
obj2lis, obj3lis) = _test_sockets
pre = quote('%03x' % len(o))
osub = '%s/sub' % o
presub = quote('%03x' % len(osub))
osub = quote(osub)
presub = quote(presub)
oc = quote(oc)
vc = quote(vc)
def put_container():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\nX-Versions-Location: %s\r\n\r\n'
% (oc, vc))
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
headers = put_container()
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
def get_container():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n\r\n\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
body = fd.read()
return headers, body
# check that the header was set
headers, body = get_container()
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('X-Versions-Location: %s' % vc, headers)
def put_version_container():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\n\r\n' % vc)
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
# make the container for the object versions
headers = put_version_container()
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
def put(version):
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 5\r\nContent-Type: text/jibberish%s'
'\r\n\r\n%05d\r\n' % (oc, o, version, version))
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
def get(container=oc, obj=o):
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: t\r\n'
'\r\n' % (container, obj))
fd.flush()
headers = readuntil2crlfs(fd)
body = fd.read()
return headers, body
# Create the versioned file
headers = put(0)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Create the object versions
for version in range(1, versions_to_create):
sleep(.01) # guarantee that the timestamp changes
headers = put(version)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Ensure retrieving the manifest file gets the latest version
headers, body = get()
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('Content-Type: text/jibberish%s' % version, headers)
self.assertNotIn('X-Object-Meta-Foo: barbaz', headers)
self.assertEqual(body, '%05d' % version)
def get_version_container():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\n'
'X-Storage-Token: t\r\n\r\n' % vc)
fd.flush()
headers = readuntil2crlfs(fd)
body = fd.read()
return headers, body
# Ensure we have the right number of versions saved
headers, body = get_version_container()
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
versions = [x for x in body.split('\n') if x]
self.assertEqual(len(versions), versions_to_create - 1)
def delete():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('DELETE /v1/a/%s/%s HTTP/1.1\r\nHost: localhost\r'
'\nConnection: close\r\nX-Storage-Token: t\r\n\r\n'
% (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
def copy():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('COPY /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: '
't\r\nDestination: %s/copied_name\r\n'
'Content-Length: 0\r\n\r\n' % (oc, o, oc))
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
# copy a version and make sure the version info is stripped
headers = copy()
exp = 'HTTP/1.1 2' # 2xx series response to the COPY
self.assertEqual(headers[:len(exp)], exp)
def get_copy():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s/copied_name HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\n'
'X-Auth-Token: t\r\n\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
body = fd.read()
return headers, body
headers, body = get_copy()
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertEqual(body, '%05d' % version)
def post():
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('POST /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: '
't\r\nContent-Type: foo/bar\r\nContent-Length: 0\r\n'
'X-Object-Meta-Bar: foo\r\n\r\n' % (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
fd.read()
return headers
# post and make sure it's updated
headers = post()
exp = 'HTTP/1.1 2' # 2xx series response to the POST
self.assertEqual(headers[:len(exp)], exp)
headers, body = get()
self.assertIn('Content-Type: foo/bar', headers)
self.assertIn('X-Object-Meta-Bar: foo', headers)
self.assertEqual(body, '%05d' % version)
# check container listing
headers, body = get_container()
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
# Delete the object versions
for segment in range(versions_to_create - 1, 0, -1):
headers = delete()
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
# Ensure retrieving the manifest file gets the latest version
headers, body = get()
exp = 'HTTP/1.1 200'
self.assertEqual(headers[:len(exp)], exp)
self.assertIn('Content-Type: text/jibberish%s' % (segment - 1),
headers)
self.assertEqual(body, '%05d' % (segment - 1))
# Ensure we have the right number of versions saved
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?prefix=%s%s/ HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: t\r\n\r'
'\n' % (vc, pre, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
body = fd.read()
versions = [x for x in body.split('\n') if x]
self.assertEqual(len(versions), segment - 1)
# there is now one version left (in the manifest)
# Ensure we have no saved versions
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?prefix=%s%s/ HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: t\r\n\r\n'
% (vc, pre, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 204 No Content'
self.assertEqual(headers[:len(exp)], exp)
# delete the last version
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('DELETE /v1/a/%s/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n\r\n' % (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
# Ensure it's all gone
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: t\r\n\r\n'
% (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 404'
self.assertEqual(headers[:len(exp)], exp)
# make sure manifest files will be ignored
for _junk in range(1, versions_to_create):
sleep(.01) # guarantee that the timestamp changes
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 0\r\n'
'Content-Type: text/jibberish0\r\n'
'Foo: barbaz\r\nX-Object-Manifest: %s/%s/\r\n\r\n'
% (oc, o, oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?prefix=%s%s/ HTTP/1.1\r\nhost: '
'localhost\r\nconnection: close\r\nx-auth-token: t\r\n\r\n'
% (vc, pre, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 204 No Content'
self.assertEqual(headers[:len(exp)], exp)
# DELETE v1/a/c/obj shouldn't delete v1/a/c/obj/sub versions
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 5\r\nContent-Type: text/jibberish0\r\n'
'Foo: barbaz\r\n\r\n00000\r\n' % (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 5\r\nContent-Type: text/jibberish0\r\n'
'Foo: barbaz\r\n\r\n00001\r\n' % (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 4\r\nContent-Type: text/jibberish0\r\n'
'Foo: barbaz\r\n\r\nsub1\r\n' % (oc, osub))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%s/%s HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 4\r\nContent-Type: text/jibberish0\r\n'
'Foo: barbaz\r\n\r\nsub2\r\n' % (oc, osub))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('DELETE /v1/a/%s/%s HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n\r\n' % (oc, o))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('GET /v1/a/%s?prefix=%s%s/ HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Auth-Token: t\r\n\r\n'
% (vc, presub, osub))
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2' # 2xx series response
self.assertEqual(headers[:len(exp)], exp)
body = fd.read()
versions = [x for x in body.split('\n') if x]
self.assertEqual(len(versions), 1)
# Check for when the versions target container doesn't exist
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%swhoops HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n'
'Content-Length: 0\r\nX-Versions-Location: none\r\n\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Create the versioned file
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%swhoops/foo HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 5\r\n\r\n00000\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 201'
self.assertEqual(headers[:len(exp)], exp)
# Create another version
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('PUT /v1/a/%swhoops/foo HTTP/1.1\r\nHost: '
'localhost\r\nConnection: close\r\nX-Storage-Token: '
't\r\nContent-Length: 5\r\n\r\n00001\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 412'
self.assertEqual(headers[:len(exp)], exp)
# Delete the object
sock = connect_tcp(('localhost', prolis.getsockname()[1]))
fd = sock.makefile()
fd.write('DELETE /v1/a/%swhoops/foo HTTP/1.1\r\nHost: localhost\r\n'
'Connection: close\r\nX-Storage-Token: t\r\n\r\n' % oc)
fd.flush()
headers = readuntil2crlfs(fd)
exp = 'HTTP/1.1 2' # 2xx response
self.assertEqual(headers[:len(exp)], exp)
def test_version_manifest_utf8(self):
oc = '0_oc_non_ascii\xc2\xa3'
vc = '0_vc_non_ascii\xc2\xa3'
o = '0_o_non_ascii\xc2\xa3'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_container(self):
oc = '1_oc_non_ascii\xc2\xa3'
vc = '1_vc_ascii'
o = '1_o_ascii'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_version_container(self):
oc = '2_oc_ascii'
vc = '2_vc_non_ascii\xc2\xa3'
o = '2_o_ascii'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_containers(self):
oc = '3_oc_non_ascii\xc2\xa3'
vc = '3_vc_non_ascii\xc2\xa3'
o = '3_o_ascii'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_object(self):
oc = '4_oc_ascii'
vc = '4_vc_ascii'
o = '4_o_non_ascii\xc2\xa3'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_version_container_utf_object(self):
oc = '5_oc_ascii'
vc = '5_vc_non_ascii\xc2\xa3'
o = '5_o_non_ascii\xc2\xa3'
self.test_version_manifest(oc, vc, o)
def test_version_manifest_utf8_container_utf_object(self):
oc = '6_oc_non_ascii\xc2\xa3'
vc = '6_vc_ascii'
o = '6_o_non_ascii\xc2\xa3'
self.test_version_manifest(oc, vc, o)
if __name__ == '__main__':
setup()
try:
unittest.main()
finally:
teardown()