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swift/test/unit/proxy/controllers/test_container.py

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# Copyright (c) 2010-2012 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.
import json
import mock
import socket
import unittest
from eventlet import Timeout
import six
from six.moves import urllib
from swift.common.constraints import CONTAINER_LISTING_LIMIT
from swift.common.swob import Request, bytes_to_wsgi, str_to_wsgi, wsgi_quote
from swift.common.utils import ShardRange, Timestamp
from swift.proxy import server as proxy_server
from swift.proxy.controllers.base import headers_to_container_info, \
Controller, get_container_info, get_cache_key
from test import annotate_failure
from test.unit import fake_http_connect, FakeRing, FakeMemcache, \
make_timestamp_iter
from swift.common.storage_policy import StoragePolicy
from swift.common.request_helpers import get_sys_meta_prefix
from test.debug_logger import debug_logger
from test.unit import patch_policies, mocked_http_conn
from test.unit.common.ring.test_ring import TestRingBase
from test.unit.proxy.test_server import node_error_count
@patch_policies([StoragePolicy(0, 'zero', True, object_ring=FakeRing())])
class TestContainerController(TestRingBase):
CONTAINER_REPLICAS = 3
def setUp(self):
TestRingBase.setUp(self)
self.logger = debug_logger()
self.container_ring = FakeRing(replicas=self.CONTAINER_REPLICAS,
max_more_nodes=9)
self.app = proxy_server.Application(None,
logger=self.logger,
account_ring=FakeRing(),
container_ring=self.container_ring)
self.account_info = {
'status': 200,
'container_count': '10',
'total_object_count': '100',
'bytes': '1000',
'meta': {},
'sysmeta': {},
}
class FakeAccountInfoContainerController(
proxy_server.ContainerController):
def account_info(controller, *args, **kwargs):
patch_path = 'swift.proxy.controllers.base.get_account_info'
with mock.patch(patch_path) as mock_get_info:
mock_get_info.return_value = dict(self.account_info)
return super(FakeAccountInfoContainerController,
controller).account_info(
*args, **kwargs)
_orig_get_controller = self.app.get_controller
def wrapped_get_controller(*args, **kwargs):
with mock.patch('swift.proxy.server.ContainerController',
new=FakeAccountInfoContainerController):
return _orig_get_controller(*args, **kwargs)
self.app.get_controller = wrapped_get_controller
self.ts_iter = make_timestamp_iter()
def _make_callback_func(self, context):
def callback(ipaddr, port, device, partition, method, path,
headers=None, query_string=None, ssl=False):
context['method'] = method
context['path'] = path
context['headers'] = headers or {}
return callback
def _assert_responses(self, method, test_cases):
controller = proxy_server.ContainerController(self.app, 'a', 'c')
for responses, expected in test_cases:
with mock.patch(
'swift.proxy.controllers.base.http_connect',
fake_http_connect(*responses)):
cache = FakeMemcache()
cache.set(get_cache_key('a'), {'status': 204})
req = Request.blank('/v1/a/c', environ={'swift.cache': cache})
resp = getattr(controller, method)(req)
self.assertEqual(expected,
resp.status_int,
'Expected %s but got %s. Failed case: %s' %
(expected, resp.status_int, str(responses)))
def test_container_info_got_cached(self):
memcache = FakeMemcache()
controller = proxy_server.ContainerController(self.app, 'a', 'c')
with mocked_http_conn(200, 200) as mock_conn:
req = Request.blank('/v1/a/c', {'swift.cache': memcache})
resp = controller.HEAD(req)
self.assertEqual(2, resp.status_int // 100)
self.assertEqual(['/a', '/a/c'],
# requests are like /sdX/0/..
[r['path'][6:] for r in mock_conn.requests])
# Make sure it's in both swift.infocache and memcache
header_info = headers_to_container_info(resp.headers)
info_cache = resp.environ['swift.infocache']
self.assertIn("container/a/c", resp.environ['swift.infocache'])
self.assertEqual(header_info, info_cache['container/a/c'])
self.assertEqual(header_info, memcache.get('container/a/c'))
# The failure doesn't lead to cache eviction
errors = [500] * self.CONTAINER_REPLICAS * 2
with mocked_http_conn(*errors) as mock_conn:
req = Request.blank('/v1/a/c', {'swift.infocache': info_cache,
'swift.cache': memcache})
resp = controller.HEAD(req)
self.assertEqual(5, resp.status_int // 100)
self.assertEqual(['/a/c'] * self.CONTAINER_REPLICAS * 2,
# requests are like /sdX/0/..
[r['path'][6:] for r in mock_conn.requests])
self.assertIs(info_cache, resp.environ['swift.infocache'])
self.assertIn("container/a/c", resp.environ['swift.infocache'])
# NB: this is the *old* header_info, from the good req
self.assertEqual(header_info, info_cache['container/a/c'])
self.assertEqual(header_info, memcache.get('container/a/c'))
@mock.patch('swift.proxy.controllers.container.clear_info_cache')
@mock.patch.object(Controller, 'make_requests')
def test_container_cache_cleared_after_PUT(
self, mock_make_requests, mock_clear_info_cache):
parent_mock = mock.Mock()
parent_mock.attach_mock(mock_make_requests, 'make_requests')
parent_mock.attach_mock(mock_clear_info_cache, 'clear_info_cache')
controller = proxy_server.ContainerController(self.app, 'a', 'c')
callback = self._make_callback_func({})
req = Request.blank('/v1/a/c')
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200, give_connect=callback)):
controller.PUT(req)
# Ensure cache is cleared after the PUT request
self.assertEqual(parent_mock.mock_calls[0][0], 'make_requests')
self.assertEqual(parent_mock.mock_calls[1][0], 'clear_info_cache')
def test_swift_owner(self):
owner_headers = {
'x-container-read': 'value', 'x-container-write': 'value',
'x-container-sync-key': 'value', 'x-container-sync-to': 'value'}
controller = proxy_server.ContainerController(self.app, 'a', 'c')
req = Request.blank('/v1/a/c')
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200, headers=owner_headers)):
resp = controller.HEAD(req)
self.assertEqual(2, resp.status_int // 100)
for key in owner_headers:
self.assertNotIn(key, resp.headers)
req = Request.blank('/v1/a/c', environ={'swift_owner': True})
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200, headers=owner_headers)):
resp = controller.HEAD(req)
self.assertEqual(2, resp.status_int // 100)
for key in owner_headers:
self.assertIn(key, resp.headers)
def test_reseller_admin(self):
reseller_internal_headers = {
get_sys_meta_prefix('container') + 'sharding': 'True'}
reseller_external_headers = {'x-container-sharding': 'on'}
controller = proxy_server.ContainerController(self.app, 'a', 'c')
# Normal users, even swift owners, can't set it
req = Request.blank('/v1/a/c', method='PUT',
headers=reseller_external_headers,
environ={'swift_owner': True})
with mocked_http_conn(*[201] * self.CONTAINER_REPLICAS) as mock_conn:
resp = req.get_response(self.app)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_internal_headers:
for captured in mock_conn.requests:
self.assertNotIn(key.title(), captured['headers'])
req = Request.blank('/v1/a/c', method='POST',
headers=reseller_external_headers,
environ={'swift_owner': True})
with mocked_http_conn(*[204] * self.CONTAINER_REPLICAS) as mock_conn:
resp = req.get_response(self.app)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_internal_headers:
for captured in mock_conn.requests:
self.assertNotIn(key.title(), captured['headers'])
req = Request.blank('/v1/a/c', environ={'swift_owner': True})
# Heck, they don't even get to know
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200,
headers=reseller_internal_headers)):
resp = controller.HEAD(req)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_external_headers:
self.assertNotIn(key, resp.headers)
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200,
headers=reseller_internal_headers)):
resp = controller.GET(req)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_external_headers:
self.assertNotIn(key, resp.headers)
# But reseller admins can set it
req = Request.blank('/v1/a/c', method='PUT',
headers=reseller_external_headers,
environ={'reseller_request': True})
with mocked_http_conn(*[201] * self.CONTAINER_REPLICAS) as mock_conn:
resp = req.get_response(self.app)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_internal_headers:
for captured in mock_conn.requests:
self.assertIn(key.title(), captured['headers'])
req = Request.blank('/v1/a/c', method='POST',
headers=reseller_external_headers,
environ={'reseller_request': True})
with mocked_http_conn(*[204] * self.CONTAINER_REPLICAS) as mock_conn:
resp = req.get_response(self.app)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_internal_headers:
for captured in mock_conn.requests:
self.assertIn(key.title(), captured['headers'])
# And see that they have
req = Request.blank('/v1/a/c', environ={'reseller_request': True})
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200,
headers=reseller_internal_headers)):
resp = controller.HEAD(req)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_external_headers:
self.assertIn(key, resp.headers)
self.assertEqual(resp.headers[key], 'True')
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200,
headers=reseller_internal_headers)):
resp = controller.GET(req)
self.assertEqual(2, resp.status_int // 100)
for key in reseller_external_headers:
self.assertEqual(resp.headers[key], 'True')
def test_sys_meta_headers_PUT(self):
# check that headers in sys meta namespace make it through
# the container controller
sys_meta_key = '%stest' % get_sys_meta_prefix('container')
sys_meta_key = sys_meta_key.title()
user_meta_key = 'X-Container-Meta-Test'
controller = proxy_server.ContainerController(self.app, 'a', 'c')
context = {}
callback = self._make_callback_func(context)
hdrs_in = {sys_meta_key: 'foo',
user_meta_key: 'bar',
'x-timestamp': '1.0'}
req = Request.blank('/v1/a/c', headers=hdrs_in)
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200, give_connect=callback)):
controller.PUT(req)
self.assertEqual(context['method'], 'PUT')
self.assertIn(sys_meta_key, context['headers'])
self.assertEqual(context['headers'][sys_meta_key], 'foo')
self.assertIn(user_meta_key, context['headers'])
self.assertEqual(context['headers'][user_meta_key], 'bar')
self.assertNotEqual(context['headers']['x-timestamp'], '1.0')
def test_sys_meta_headers_POST(self):
# check that headers in sys meta namespace make it through
# the container controller
sys_meta_key = '%stest' % get_sys_meta_prefix('container')
sys_meta_key = sys_meta_key.title()
user_meta_key = 'X-Container-Meta-Test'
controller = proxy_server.ContainerController(self.app, 'a', 'c')
context = {}
callback = self._make_callback_func(context)
hdrs_in = {sys_meta_key: 'foo',
user_meta_key: 'bar',
'x-timestamp': '1.0'}
req = Request.blank('/v1/a/c', headers=hdrs_in)
with mock.patch('swift.proxy.controllers.base.http_connect',
fake_http_connect(200, 200, give_connect=callback)):
controller.POST(req)
self.assertEqual(context['method'], 'POST')
self.assertIn(sys_meta_key, context['headers'])
self.assertEqual(context['headers'][sys_meta_key], 'foo')
self.assertIn(user_meta_key, context['headers'])
self.assertEqual(context['headers'][user_meta_key], 'bar')
self.assertNotEqual(context['headers']['x-timestamp'], '1.0')
def test_node_errors(self):
self.app.sort_nodes = lambda n, *args, **kwargs: n
for method in ('PUT', 'DELETE', 'POST'):
def test_status_map(statuses, expected):
self.app._error_limiting = {}
req = Request.blank('/v1/a/c', method=method)
with mocked_http_conn(*statuses) as fake_conn:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, expected)
for req in fake_conn.requests:
self.assertEqual(req['method'], method)
self.assertTrue(req['path'].endswith('/a/c'))
base_status = [201] * self.CONTAINER_REPLICAS
# test happy path
test_status_map(list(base_status), 201)
for i in range(self.CONTAINER_REPLICAS):
self.assertEqual(node_error_count(
self.app, self.container_ring.devs[i]), 0)
# single node errors and test isolation
for i in range(self.CONTAINER_REPLICAS):
test_status_map(base_status[:i] + [503] + base_status[i:], 201)
for j in range(self.CONTAINER_REPLICAS):
expected = 1 if j == i else 0
self.assertEqual(node_error_count(
self.app, self.container_ring.devs[j]), expected)
# timeout
test_status_map(base_status[:1] + [Timeout()] + base_status[1:],
201)
self.assertEqual(node_error_count(
self.app, self.container_ring.devs[1]), 1)
# exception
test_status_map([Exception('kaboom!')] + base_status, 201)
self.assertEqual(node_error_count(
self.app, self.container_ring.devs[0]), 1)
# insufficient storage
test_status_map(base_status[:2] + [507] + base_status[2:], 201)
self.assertEqual(node_error_count(
self.app, self.container_ring.devs[2]),
self.app.error_suppression_limit + 1)
def test_response_codes_for_GET(self):
nodes = self.app.container_ring.replicas
handoffs = self.app.request_node_count(nodes) - nodes
GET_TEST_CASES = [
([socket.error()] * (nodes + handoffs), 503),
([500] * (nodes + handoffs), 503),
([200], 200),
([404, 200], 200),
([404] * nodes + [200], 200),
([Timeout()] * nodes + [404] * handoffs, 503),
([Timeout()] * (nodes + handoffs), 503),
([Timeout()] * (nodes + handoffs - 1) + [404], 503),
([Timeout()] * (nodes - 1) + [404] * (handoffs + 1), 503),
([Timeout()] * (nodes - 2) + [404] * (handoffs + 2), 404),
([500] * (nodes - 1) + [404] * (handoffs + 1), 503),
([503, 200], 200),
([507, 200], 200),
]
failures = []
for case, expected in GET_TEST_CASES:
try:
with mocked_http_conn(*case):
req = Request.blank('/v1/a/c')
resp = req.get_response(self.app)
try:
self.assertEqual(resp.status_int, expected)
except AssertionError:
msg = '%r => %s (expected %s)' % (
case, resp.status_int, expected)
failures.append(msg)
except AssertionError as e:
# left over status failure
msg = '%r => %s' % (case, e)
failures.append(msg)
if failures:
self.fail('Some requests did not have expected response:\n' +
'\n'.join(failures))
# One more test, simulating all nodes being error-limited
class FakeIter(object):
num_primary_nodes = 3
def __iter__(self):
return iter([])
with mocked_http_conn(), mock.patch.object(self.app, 'iter_nodes',
return_value=FakeIter()):
req = Request.blank('/v1/a/c')
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_handoff_has_deleted_database(self):
nodes = self.app.container_ring.replicas
handoffs = self.app.request_node_count(nodes) - nodes
status = [Timeout()] * nodes + [404] * handoffs
timestamps = tuple([None] * nodes + ['1'] + [None] * (handoffs - 1))
with mocked_http_conn(*status, timestamps=timestamps):
req = Request.blank('/v1/a/c')
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_response_code_for_PUT(self):
PUT_TEST_CASES = [
((201, 201, 201), 201),
((201, 201, 404), 201),
((201, 201, 503), 201),
((201, 404, 404), 404),
((201, 404, 503), 503),
((201, 503, 503), 503),
((404, 404, 404), 404),
((404, 404, 503), 404),
((404, 503, 503), 503),
((503, 503, 503), 503)
]
self._assert_responses('PUT', PUT_TEST_CASES)
def test_response_code_for_DELETE(self):
DELETE_TEST_CASES = [
((204, 204, 204), 204),
((204, 204, 404), 204),
((204, 204, 503), 204),
((204, 404, 404), 404),
((204, 404, 503), 503),
((204, 503, 503), 503),
((404, 404, 404), 404),
((404, 404, 503), 404),
((404, 503, 503), 503),
((503, 503, 503), 503)
]
self._assert_responses('DELETE', DELETE_TEST_CASES)
def test_response_code_for_POST(self):
POST_TEST_CASES = [
((204, 204, 204), 204),
((204, 204, 404), 204),
((204, 204, 503), 204),
((204, 404, 404), 404),
((204, 404, 503), 503),
((204, 503, 503), 503),
((404, 404, 404), 404),
((404, 404, 503), 404),
((404, 503, 503), 503),
((503, 503, 503), 503)
]
self._assert_responses('POST', POST_TEST_CASES)
def _make_shard_objects(self, shard_range):
if six.PY2:
lower = ord(shard_range.lower.decode('utf8')[0]
if shard_range.lower else '@')
upper = ord(shard_range.upper.decode('utf8')[0]
if shard_range.upper else u'\U0001ffff')
else:
lower = ord(shard_range.lower[0] if shard_range.lower else '@')
upper = ord(shard_range.upper[0] if shard_range.upper
else '\U0001ffff')
objects = [{'name': six.unichr(i), 'bytes': i,
'hash': 'hash%s' % six.unichr(i),
'content_type': 'text/plain', 'deleted': 0,
'last_modified': next(self.ts_iter).isoformat}
for i in range(lower + 1, upper + 1)][:1024]
return objects
def _check_GET_shard_listing(self, mock_responses, expected_objects,
expected_requests, query_string='',
reverse=False, expected_status=200):
# mock_responses is a list of tuples (status, json body, headers)
# expected objects is a list of dicts
# expected_requests is a list of tuples (path, hdrs dict, params dict)
# sanity check that expected objects is name ordered with no repeats
def name(obj):
return obj.get('name', obj.get('subdir'))
for (prev, next_) in zip(expected_objects, expected_objects[1:]):
if reverse:
self.assertGreater(name(prev), name(next_))
else:
self.assertLess(name(prev), name(next_))
container_path = '/v1/a/c' + query_string
codes = (resp[0] for resp in mock_responses)
bodies = iter([json.dumps(resp[1]).encode('ascii')
for resp in mock_responses])
exp_headers = [resp[2] for resp in mock_responses]
request = Request.blank(container_path)
with mocked_http_conn(
*codes, body_iter=bodies, headers=exp_headers) as fake_conn:
resp = request.get_response(self.app)
for backend_req in fake_conn.requests:
self.assertEqual(request.headers['X-Trans-Id'],
backend_req['headers']['X-Trans-Id'])
self.assertTrue(backend_req['headers']['User-Agent'].startswith(
'proxy-server'))
self.assertEqual(expected_status, resp.status_int)
if expected_status == 200:
actual_objects = json.loads(resp.body)
self.assertEqual(len(expected_objects), len(actual_objects))
self.assertEqual(expected_objects, actual_objects)
self.assertEqual(len(expected_requests), len(fake_conn.requests))
for i, ((exp_path, exp_headers, exp_params), req) in enumerate(
zip(expected_requests, fake_conn.requests)):
with annotate_failure('Request check at index %d.' % i):
# strip off /sdx/0/ from path
self.assertEqual(exp_path, req['path'][7:])
if six.PY2:
got_params = dict(urllib.parse.parse_qsl(req['qs'], True))
else:
got_params = dict(urllib.parse.parse_qsl(
req['qs'], True, encoding='latin1'))
self.assertEqual(dict(exp_params, format='json'), got_params)
for k, v in exp_headers.items():
self.assertIn(k, req['headers'])
self.assertEqual(v, req['headers'][k], k)
self.assertNotIn('X-Backend-Override-Delete', req['headers'])
return resp
def check_response(self, resp, root_resp_hdrs, expected_objects=None):
info_hdrs = dict(root_resp_hdrs)
if expected_objects is None:
# default is to expect whatever the root container sent
expected_obj_count = root_resp_hdrs['X-Container-Object-Count']
expected_bytes_used = root_resp_hdrs['X-Container-Bytes-Used']
else:
expected_bytes_used = sum([o['bytes'] for o in expected_objects])
expected_obj_count = len(expected_objects)
info_hdrs['X-Container-Bytes-Used'] = expected_bytes_used
info_hdrs['X-Container-Object-Count'] = expected_obj_count
self.assertEqual(expected_bytes_used,
int(resp.headers['X-Container-Bytes-Used']))
self.assertEqual(expected_obj_count,
int(resp.headers['X-Container-Object-Count']))
self.assertEqual('sharded', resp.headers['X-Backend-Sharding-State'])
for k, v in root_resp_hdrs.items():
if k.lower().startswith('x-container-meta'):
self.assertEqual(v, resp.headers[k])
# check that info cache is correct for root container
info = get_container_info(resp.request.environ, self.app)
self.assertEqual(headers_to_container_info(info_hdrs), info)
def test_GET_sharded_container(self):
# Don't worry, ShardRange._encode takes care of unicode/bytes issues
shard_bounds = ('', 'ham', 'pie', u'\N{SNOWMAN}', u'\U0001F334', '')
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in zip(shard_bounds[:-1], shard_bounds[1:])]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i, _ in enumerate(shard_ranges)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
expected_objects = all_objects
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
# pretend root object stats are not yet updated
'X-Container-Object-Count': num_all_objects - 1,
'X-Container-Bytes-Used': size_all_objects - 1,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
# GET all objects
# include some failed responses
mock_responses = [
# status, body, headers
(404, '', {}),
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2]),
(200, sr_objs[3], shard_resp_hdrs[3]),
(200, sr_objs[4], shard_resp_hdrs[4]),
]
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 404
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[0].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='', end_marker='ham\x00', limit=str(limit),
states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[2].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='p', end_marker='\xe2\x98\x83\x00', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='\xd1\xb0', end_marker='\xf0\x9f\x8c\xb4\x00',
states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1]
+ sr_objs[2])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[4].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='\xe2\xa8\x83', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1] + sr_objs[2]
+ sr_objs[3])))), # 200
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
# GET all objects - sharding, final shard range points back to root
root_range = ShardRange('a/c', Timestamp.now(), 'pie', '')
mock_responses = [
# status, body, headers
(200, sr_dicts[:2] + [dict(root_range)], root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2] + sr_objs[3] + sr_objs[4], root_resp_hdrs)
]
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='', end_marker='ham\x00', limit=str(limit),
states='listing')), # 200
(shard_ranges[1].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))), # 200
(root_range.name,
{'X-Backend-Record-Type': 'object',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='p', end_marker='',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
# GET all objects in reverse and *blank* limit
mock_responses = [
# status, body, headers
(200, list(reversed(sr_dicts)), root_shard_resp_hdrs),
(200, list(reversed(sr_objs[4])), shard_resp_hdrs[4]),
(200, list(reversed(sr_objs[3])), shard_resp_hdrs[3]),
(200, list(reversed(sr_objs[2])), shard_resp_hdrs[2]),
(200, list(reversed(sr_objs[1])), shard_resp_hdrs[1]),
(200, list(reversed(sr_objs[0])), shard_resp_hdrs[0]),
]
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', reverse='true', limit='')),
(wsgi_quote(str_to_wsgi(shard_ranges[4].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='', end_marker='\xf0\x9f\x8c\xb4', states='listing',
reverse='true', limit=str(limit))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='\xf0\x9f\x8c\xb5', end_marker='\xe2\x98\x83',
states='listing', reverse='true',
limit=str(limit - len(sr_objs[4])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[2].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='\xe2\x98\x84', end_marker='pie', states='listing',
reverse='true',
limit=str(limit - len(sr_objs[4] + sr_objs[3])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='q', end_marker='ham', states='listing',
reverse='true',
limit=str(limit - len(sr_objs[4] + sr_objs[3]
+ sr_objs[2])))), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[0].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='i', end_marker='', states='listing', reverse='true',
limit=str(limit - len(sr_objs[4] + sr_objs[3] + sr_objs[2]
+ sr_objs[1])))), # 200
]
resp = self._check_GET_shard_listing(
mock_responses, list(reversed(expected_objects)),
expected_requests, query_string='?reverse=true&limit=',
reverse=True)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
# GET with limit param
limit = len(sr_objs[0]) + len(sr_objs[1]) + 1
expected_objects = all_objects[:limit]
mock_responses = [
(404, '', {}),
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2][:1], shard_resp_hdrs[2])
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(limit=str(limit), states='listing')), # 404
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(limit=str(limit), states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[0].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))),
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
(wsgi_quote(str_to_wsgi(shard_ranges[2].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='p', end_marker='\xe2\x98\x83\x00', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))),
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?limit=%s' % limit)
self.check_response(resp, root_resp_hdrs)
# GET with marker
marker = bytes_to_wsgi(sr_objs[3][2]['name'].encode('utf8'))
first_included = (len(sr_objs[0]) + len(sr_objs[1])
+ len(sr_objs[2]) + 2)
limit = CONTAINER_LISTING_LIMIT
expected_objects = all_objects[first_included:]
mock_responses = [
(404, '', {}),
(200, sr_dicts[3:], root_shard_resp_hdrs),
(404, '', {}),
(200, sr_objs[3][2:], shard_resp_hdrs[3]),
(200, sr_objs[4], shard_resp_hdrs[4]),
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(marker=marker, states='listing')), # 404
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(marker=marker, states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker=marker, end_marker='\xf0\x9f\x8c\xb4\x00',
states='listing', limit=str(limit))),
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker=marker, end_marker='\xf0\x9f\x8c\xb4\x00',
states='listing', limit=str(limit))),
(wsgi_quote(str_to_wsgi(shard_ranges[4].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='\xe2\xa8\x83', end_marker='', states='listing',
limit=str(limit - len(sr_objs[3][2:])))),
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?marker=%s' % marker)
self.check_response(resp, root_resp_hdrs)
# GET with end marker
end_marker = bytes_to_wsgi(sr_objs[3][6]['name'].encode('utf8'))
first_excluded = (len(sr_objs[0]) + len(sr_objs[1])
+ len(sr_objs[2]) + 6)
expected_objects = all_objects[:first_excluded]
mock_responses = [
(404, '', {}),
(200, sr_dicts[:4], root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(404, '', {}),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2]),
(404, '', {}),
(200, sr_objs[3][:6], shard_resp_hdrs[3]),
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(end_marker=end_marker, states='listing')), # 404
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(end_marker=end_marker, states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[0].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))),
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 404
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
(wsgi_quote(str_to_wsgi(shard_ranges[2].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='p', end_marker='\xe2\x98\x83\x00', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))),
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 404
dict(marker='\xd1\xb0', end_marker=end_marker, states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1]
+ sr_objs[2])))),
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker='\xd1\xb0', end_marker=end_marker, states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1]
+ sr_objs[2])))),
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?end_marker=%s' % end_marker)
self.check_response(resp, root_resp_hdrs)
# GET with prefix
prefix = 'hat'
# they're all 1-character names; the important thing
# is which shards we query
expected_objects = []
mock_responses = [
(404, '', {}),
(200, sr_dicts, root_shard_resp_hdrs),
(200, [], shard_resp_hdrs[1]),
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(prefix=prefix, states='listing')), # 404
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(prefix=prefix, states='listing')), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[1].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 404
dict(prefix=prefix, marker='', end_marker='pie\x00',
states='listing', limit=str(limit))),
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?prefix=%s' % prefix)
self.check_response(resp, root_resp_hdrs)
# marker and end_marker and limit
limit = 2
expected_objects = all_objects[first_included:first_excluded]
mock_responses = [
(200, sr_dicts[3:4], root_shard_resp_hdrs),
(200, sr_objs[3][2:6], shard_resp_hdrs[1])
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', limit=str(limit),
marker=marker, end_marker=end_marker)), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker=marker, end_marker=end_marker, states='listing',
limit=str(limit))),
]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?marker=%s&end_marker=%s&limit=%s'
% (marker, end_marker, limit))
self.check_response(resp, root_resp_hdrs)
# reverse with marker, end_marker, and limit
expected_objects.reverse()
mock_responses = [
(200, sr_dicts[3:4], root_shard_resp_hdrs),
(200, list(reversed(sr_objs[3][2:6])), shard_resp_hdrs[1])
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(marker=end_marker, reverse='true', end_marker=marker,
limit=str(limit), states='listing',)), # 200
(wsgi_quote(str_to_wsgi(shard_ranges[3].name)),
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'}, # 200
dict(marker=end_marker, end_marker=marker, states='listing',
limit=str(limit), reverse='true')),
]
self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?marker=%s&end_marker=%s&limit=%s&reverse=true'
% (end_marker, marker, limit), reverse=True)
self.check_response(resp, root_resp_hdrs)
def _do_test_GET_sharded_container_with_deleted_shards(self, shard_specs):
# verify that if a shard fails to return its listing component then the
# client response is 503
shard_bounds = (('a', 'b'), ('b', 'c'), ('c', ''))
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i, _ in enumerate(shard_ranges)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
# pretend root object stats are not yet updated
'X-Container-Object-Count': 6,
'X-Container-Bytes-Used': 12,
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
]
for i, spec in enumerate(shard_specs):
if spec == 200:
mock_responses.append((200, sr_objs[i], shard_resp_hdrs[i]))
else:
mock_responses.extend(
[(spec, '', {})] * 2 * self.CONTAINER_REPLICAS)
codes = (resp[0] for resp in mock_responses)
bodies = iter([json.dumps(resp[1]).encode('ascii')
for resp in mock_responses])
exp_headers = [resp[2] for resp in mock_responses]
request = Request.blank('/v1/a/c')
with mocked_http_conn(
*codes, body_iter=bodies, headers=exp_headers) as fake_conn:
resp = request.get_response(self.app)
self.assertEqual(len(mock_responses), len(fake_conn.requests))
return request, resp
def test_GET_sharded_container_with_deleted_shard(self):
req, resp = self._do_test_GET_sharded_container_with_deleted_shards(
[404])
warnings = self.logger.get_lines_for_level('warning')
self.assertEqual(['Failed to get container listing from '
'%s: 404' % req.path_qs],
warnings)
self.assertEqual(resp.status_int, 503)
errors = self.logger.get_lines_for_level('error')
self.assertEqual(
['Aborting listing from shards due to bad response: %s'
% ([404])], errors)
def test_GET_sharded_container_with_mix_ok_and_deleted_shard(self):
req, resp = self._do_test_GET_sharded_container_with_deleted_shards(
[200, 200, 404])
warnings = self.logger.get_lines_for_level('warning')
self.assertEqual(['Failed to get container listing from '
'%s: 404' % req.path_qs], warnings)
self.assertEqual(resp.status_int, 503)
errors = self.logger.get_lines_for_level('error')
self.assertEqual(
['Aborting listing from shards due to bad response: %s'
% ([200, 200, 404],)], errors)
def test_GET_sharded_container_mix_ok_and_unavailable_shards(self):
req, resp = self._do_test_GET_sharded_container_with_deleted_shards(
[200, 200, 503])
warnings = self.logger.get_lines_for_level('warning')
self.assertEqual(['Failed to get container listing from '
'%s: 503' % req.path_qs], warnings[-1:])
self.assertEqual(resp.status_int, 503)
errors = self.logger.get_lines_for_level('error')
self.assertEqual(
['Aborting listing from shards due to bad response: %s'
% ([200, 200, 503],)], errors[-1:])
def test_GET_sharded_container_with_delimiter(self):
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('pie', ''))
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
shard_resp_hdrs = {'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': 2,
'X-Container-Bytes-Used': 4,
'X-Backend-Storage-Policy-Index': 0}
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
# pretend root object stats are not yet updated
'X-Container-Object-Count': 6,
'X-Container-Bytes-Used': 12,
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
sr_0_obj = {'name': 'apple',
'bytes': 1,
'hash': 'hash',
'content_type': 'text/plain',
'deleted': 0,
'last_modified': next(self.ts_iter).isoformat}
sr_2_obj = {'name': 'pumpkin',
'bytes': 1,
'hash': 'hash',
'content_type': 'text/plain',
'deleted': 0,
'last_modified': next(self.ts_iter).isoformat}
subdir = {'subdir': 'ha/'}
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, [sr_0_obj, subdir], shard_resp_hdrs),
(200, [], shard_resp_hdrs),
(200, [sr_2_obj], shard_resp_hdrs)
]
expected_requests = [
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', delimiter='/')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', limit=str(limit),
states='listing', delimiter='/')), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='ha/', end_marker='pie\x00', states='listing',
limit=str(limit - 2), delimiter='/')), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='ha/', end_marker='', states='listing',
limit=str(limit - 2), delimiter='/')) # 200
]
expected_objects = [sr_0_obj, subdir, sr_2_obj]
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?delimiter=/')
self.check_response(resp, root_resp_hdrs)
def test_GET_sharded_container_shard_redirects_to_root(self):
# check that if the root redirects listing to a shard, but the shard
# returns the root shard (e.g. it was the final shard to shrink into
# the root) objects are requested from the root, rather than a loop.
# single shard spanning entire namespace
shard_sr = ShardRange('.shards_a/c_xyz', Timestamp.now(), '', '')
all_objects = self._make_shard_objects(shard_sr)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
# when shrinking the final shard will return the root shard range into
# which it is shrinking
shard_resp_hdrs = {
'X-Backend-Sharding-State': 'sharding',
'X-Container-Object-Count': 0,
'X-Container-Bytes-Used': 0,
'X-Backend-Storage-Policy-Index': 0,
'X-Backend-Record-Type': 'shard'
}
# root still thinks it has a shard
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
root_sr = ShardRange('a/c', Timestamp.now(), '', '')
mock_responses = [
# status, body, headers
(200, [dict(shard_sr)], root_shard_resp_hdrs), # from root
(200, [dict(root_sr)], shard_resp_hdrs), # from shard
(200, all_objects, root_resp_hdrs), # from root
]
expected_requests = [
# path, headers, params
# first request to root should specify auto record type
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')),
# request to shard should specify auto record type
(wsgi_quote(str_to_wsgi(shard_sr.name)),
{'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='', limit=str(limit),
states='listing')), # 200
# second request to root should specify object record type
('a/c', {'X-Backend-Record-Type': 'object'},
dict(marker='', end_marker='', limit=str(limit))), # 200
]
expected_objects = all_objects
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
self.assertEqual(
[('a', 'c'), ('.shards_a', 'c_xyz')],
resp.request.environ.get('swift.shard_listing_history'))
lines = [line for line in self.app.logger.get_lines_for_level('debug')
if line.startswith('Found 1024 objects in shard')]
self.assertEqual(2, len(lines), lines)
self.assertIn("(state=sharded), total = 1024", lines[0]) # shard->root
self.assertIn("(state=sharding), total = 1024", lines[1]) # shard
def test_GET_sharded_container_shard_redirects_between_shards(self):
# check that if one shard redirects listing to another shard that
# somehow redirects listing back to the first shard, then we will break
# out of the loop (this isn't an expected scenario, but could perhaps
# happen if multiple conflicting shard-shrinking decisions are made)
shard_bounds = ('', 'a', 'b', '')
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in zip(shard_bounds[:-1], shard_bounds[1:])]
self.assertEqual([
'.shards_a/c_a',
'.shards_a/c_b',
'.shards_a/c_',
], [sr.name for sr in shard_ranges])
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Backend-Storage-Policy-Index': 0,
'X-Backend-Record-Storage-Policy-Index': 0,
'X-Backend-Record-Type': 'shard',
}
shard_resp_hdrs = {'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': 2,
'X-Container-Bytes-Used': 4,
'X-Backend-Storage-Policy-Index': 0,
'X-Backend-Record-Storage-Policy-Index': 0,
}
shrinking_resp_hdrs = {
'X-Backend-Sharding-State': 'sharded',
'X-Backend-Record-Type': 'shard',
'X-Backend-Storage-Policy-Index': 0
}
limit = CONTAINER_LISTING_LIMIT
mock_responses = [
# status, body, headers
(200, sr_dicts, root_resp_hdrs), # from root
(200, sr_objs[0], shard_resp_hdrs), # objects from 1st shard
(200, [sr_dicts[2]], shrinking_resp_hdrs), # 2nd points to 3rd
(200, [sr_dicts[1]], shrinking_resp_hdrs), # 3rd points to 2nd
(200, sr_objs[1], shard_resp_hdrs), # objects from 2nd
(200, sr_objs[2], shard_resp_hdrs), # objects from 3rd
]
expected_requests = [
# each list item is tuple (path, headers, params)
# request to root
# context GET(a/c)
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')),
# request to 1st shard as per shard list from root;
# context GET(a/c);
# end_marker dictated by 1st shard range upper bound
('.shards_a/c_a', {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='a\x00', states='listing',
limit=str(limit))), # 200
# request to 2nd shard as per shard list from root;
# context GET(a/c);
# end_marker dictated by 2nd shard range upper bound
('.shards_a/c_b', {'X-Backend-Record-Type': 'auto'},
dict(marker='a', end_marker='b\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
# request to 3rd shard as per shard list from *2nd shard*;
# new context GET(a/c)->GET(.shards_a/c_b);
# end_marker still dictated by 2nd shard range upper bound
('.shards_a/c_', {'X-Backend-Record-Type': 'auto'},
dict(marker='a', end_marker='b\x00', states='listing',
limit=str(
limit - len(sr_objs[0])))),
# request to 2nd shard as per shard list from *3rd shard*; this one
# should specify record type object;
# new context GET(a/c)->GET(.shards_a/c_b)->GET(.shards_a/c_);
# end_marker still dictated by 2nd shard range upper bound
('.shards_a/c_b', {'X-Backend-Record-Type': 'object'},
dict(marker='a', end_marker='b\x00',
limit=str(
limit - len(sr_objs[0])))),
# request to 3rd shard *as per shard list from root*; this one
# should specify record type object;
# context GET(a/c);
# end_marker dictated by 3rd shard range upper bound
('.shards_a/c_', {'X-Backend-Record-Type': 'object'},
dict(marker='b', end_marker='',
limit=str(
limit - len(sr_objs[0]) - len(sr_objs[1])))), # 200
]
resp = self._check_GET_shard_listing(
mock_responses, all_objects, expected_requests)
self.check_response(resp, root_resp_hdrs,
expected_objects=all_objects)
self.assertEqual(
[('a', 'c'), ('.shards_a', 'c_b'), ('.shards_a', 'c_')],
resp.request.environ.get('swift.shard_listing_history'))
def test_GET_sharded_container_overlapping_shards(self):
# verify ordered listing even if unexpected overlapping shard ranges
shard_bounds = (('', 'ham', ShardRange.CLEAVED),
('', 'pie', ShardRange.ACTIVE),
('lemon', '', ShardRange.ACTIVE))
shard_ranges = [
ShardRange('.shards_a/c_' + upper, Timestamp.now(), lower, upper,
state=state)
for lower, upper, state in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(3)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
# pretend root object stats are not yet updated
'X-Container-Object-Count': num_all_objects - 1,
'X-Container-Bytes-Used': size_all_objects - 1,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
# forwards listing
# expect subset of second shard range
objs_1 = [o for o in sr_objs[1] if o['name'] > sr_objs[0][-1]['name']]
# expect subset of third shard range
objs_2 = [o for o in sr_objs[2] if o['name'] > sr_objs[1][-1]['name']]
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, objs_1, shard_resp_hdrs[1]),
(200, objs_2, shard_resp_hdrs[2])
]
# NB marker always advances to last object name
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='p', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0] + objs_1)))) # 200
]
expected_objects = sr_objs[0] + objs_1 + objs_2
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
# reverse listing
# expect subset of third shard range
objs_0 = [o for o in sr_objs[0] if o['name'] < sr_objs[1][0]['name']]
# expect subset of second shard range
objs_1 = [o for o in sr_objs[1] if o['name'] < sr_objs[2][0]['name']]
mock_responses = [
# status, body, headers
(200, list(reversed(sr_dicts)), root_shard_resp_hdrs),
(200, list(reversed(sr_objs[2])), shard_resp_hdrs[2]),
(200, list(reversed(objs_1)), shard_resp_hdrs[1]),
(200, list(reversed(objs_0)), shard_resp_hdrs[0]),
]
# NB marker always advances to last object name
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', reverse='true')), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='lemon', states='listing',
limit=str(limit),
reverse='true')), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='m', end_marker='', reverse='true', states='listing',
limit=str(limit - len(sr_objs[2])))), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='A', end_marker='', reverse='true', states='listing',
limit=str(limit - len(sr_objs[2] + objs_1)))) # 200
]
expected_objects = list(reversed(objs_0 + objs_1 + sr_objs[2]))
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests,
query_string='?reverse=true', reverse=True)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs,
expected_objects=expected_objects)
def test_GET_sharded_container_gap_in_shards(self):
# verify ordered listing even if unexpected gap between shard ranges
shard_bounds = (('', 'ham'), ('onion', 'pie'), ('rhubarb', ''))
shard_ranges = [
ShardRange('.shards_a/c_' + upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(3)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker always advances to last object name
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='p', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, all_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
def test_GET_sharded_container_empty_shard(self):
# verify ordered listing when a shard is empty
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('pie', ''))
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(3)]
empty_shard_resp_hdrs = {
'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': 0,
'X-Container-Bytes-Used': 0,
'X-Container-Meta-Flavour': 'flavour',
'X-Backend-Storage-Policy-Index': 0}
# empty first shard range
all_objects = sr_objs[1] + sr_objs[2]
size_all_objects = sum([obj['bytes'] for obj in all_objects])
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': len(all_objects),
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, [], empty_shard_resp_hdrs),
(200, sr_objs[1], shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker does not advance until an object is in the listing
limit = CONTAINER_LISTING_LIMIT
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='pie\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='p', end_marker='', states='listing',
limit=str(limit - len(sr_objs[1])))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, sr_objs[1] + sr_objs[2], expected_requests)
self.check_response(resp, root_resp_hdrs)
# empty last shard range, reverse
all_objects = sr_objs[0] + sr_objs[1]
size_all_objects = sum([obj['bytes'] for obj in all_objects])
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': len(all_objects),
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, list(reversed(sr_dicts)), root_shard_resp_hdrs),
(200, [], empty_shard_resp_hdrs),
(200, list(reversed(sr_objs[1])), shard_resp_hdrs[1]),
(200, list(reversed(sr_objs[0])), shard_resp_hdrs[0]),
]
limit = CONTAINER_LISTING_LIMIT
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', reverse='true')), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='pie', states='listing',
limit=str(limit), reverse='true')), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham', states='listing',
limit=str(limit), reverse='true')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker=sr_objs[1][0]['name'], end_marker='',
states='listing', reverse='true',
limit=str(limit - len(sr_objs[1])))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, list(reversed(sr_objs[0] + sr_objs[1])),
expected_requests, query_string='?reverse=true', reverse=True)
self.check_response(resp, root_resp_hdrs)
# empty second shard range
all_objects = sr_objs[0] + sr_objs[2]
size_all_objects = sum([obj['bytes'] for obj in all_objects])
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': len(all_objects),
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, [], empty_shard_resp_hdrs),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker always advances to last object name
limit = CONTAINER_LISTING_LIMIT
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='h', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0])))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, sr_objs[0] + sr_objs[2], expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
# marker in empty second range
mock_responses = [
# status, body, headers
(200, sr_dicts[1:], root_shard_resp_hdrs),
(200, [], empty_shard_resp_hdrs),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker unchanged when getting from third range
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', marker='koolaid')), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='koolaid', end_marker='pie\x00', states='listing',
limit=str(limit))), # 200
(shard_ranges[2].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='koolaid', end_marker='', states='listing',
limit=str(limit))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, sr_objs[2], expected_requests,
query_string='?marker=koolaid')
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
# marker in empty second range, reverse
mock_responses = [
# status, body, headers
(200, list(reversed(sr_dicts[:2])), root_shard_resp_hdrs),
(200, [], empty_shard_resp_hdrs),
(200, list(reversed(sr_objs[0])), shard_resp_hdrs[2])
]
# NB marker unchanged when getting from first range
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing', marker='koolaid', reverse='true')), # 200
(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='koolaid', end_marker='ham', reverse='true',
states='listing', limit=str(limit))), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='koolaid', end_marker='', reverse='true',
states='listing', limit=str(limit))) # 200
]
resp = self._check_GET_shard_listing(
mock_responses, list(reversed(sr_objs[0])), expected_requests,
query_string='?marker=koolaid&reverse=true', reverse=True)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
def _check_GET_sharded_container_shard_error(self, error):
# verify ordered listing when a shard is empty
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('lemon', ''))
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
# empty second shard range
sr_objs[1] = []
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(3)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0])] + \
[(error, [], {})] * 2 * self.CONTAINER_REPLICAS
# NB marker always advances to last object name
expected_requests = [
# path, headers, params
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
(shard_ranges[0].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit)))] \
+ [(shard_ranges[1].name, {'X-Backend-Record-Type': 'auto'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0]))))
] * 2 * self.CONTAINER_REPLICAS
self._check_GET_shard_listing(
mock_responses, all_objects, expected_requests,
expected_status=503)
def test_GET_sharded_container_shard_errors(self):
self._check_GET_sharded_container_shard_error(404)
self._check_GET_sharded_container_shard_error(500)
def test_GET_sharded_container_sharding_shard(self):
# one shard is in process of sharding
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('pie', ''))
shard_ranges = [
ShardRange('.shards_a/c_' + upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(3)]
shard_1_shard_resp_hdrs = dict(shard_resp_hdrs[1])
shard_1_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
# second shard is sharding and has cleaved two out of three sub shards
shard_resp_hdrs[1]['X-Backend-Sharding-State'] = 'sharding'
sub_shard_bounds = (('ham', 'juice'), ('juice', 'lemon'))
sub_shard_ranges = [
ShardRange('a/c_sub_' + upper, Timestamp.now(), lower, upper)
for lower, upper in sub_shard_bounds]
sub_sr_dicts = [dict(sr) for sr in sub_shard_ranges]
sub_sr_objs = [self._make_shard_objects(sr) for sr in sub_shard_ranges]
sub_shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sub_sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sub_sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 0}
for i in range(2)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sub_sr_dicts + [sr_dicts[1]], shard_1_shard_resp_hdrs),
(200, sub_sr_objs[0], sub_shard_resp_hdrs[0]),
(200, sub_sr_objs[1], sub_shard_resp_hdrs[1]),
(200, sr_objs[1][len(sub_sr_objs[0] + sub_sr_objs[1]):],
shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker always advances to last object name
expected_requests = [
# get root shard ranges
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
# get first shard objects
(shard_ranges[0].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
# get second shard sub-shard ranges
(shard_ranges[1].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
# get first sub-shard objects
(sub_shard_ranges[0].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='juice\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
# get second sub-shard objects
(sub_shard_ranges[1].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='j', end_marker='lemon\x00', states='listing',
limit=str(limit - len(sr_objs[0] + sub_sr_objs[0])))),
# get remainder of first shard objects
(shard_ranges[1].name,
{'X-Backend-Record-Type': 'object',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='l', end_marker='pie\x00',
limit=str(limit - len(sr_objs[0] + sub_sr_objs[0] +
sub_sr_objs[1])))), # 200
# get third shard objects
(shard_ranges[2].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='p', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))) # 200
]
expected_objects = (
sr_objs[0] + sub_sr_objs[0] + sub_sr_objs[1] +
sr_objs[1][len(sub_sr_objs[0] + sub_sr_objs[1]):] + sr_objs[2])
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
@patch_policies([
StoragePolicy(0, 'zero', True, object_ring=FakeRing()),
StoragePolicy(1, 'one', False, object_ring=FakeRing())
])
def test_GET_sharded_container_sharding_shard_mixed_policies(self):
# scenario: one shard is in process of sharding, shards have different
# policy than root, expect listing to always request root policy index
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('pie', ''))
shard_ranges = [
ShardRange('.shards_a/c_' + upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
sr_dicts = [dict(sr) for sr in shard_ranges]
sr_objs = [self._make_shard_objects(sr) for sr in shard_ranges]
shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 1,
'X-Backend-Record-Storage-Policy-Index': 0}
for i in range(3)]
shard_1_shard_resp_hdrs = dict(shard_resp_hdrs[1])
shard_1_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
# second shard is sharding and has cleaved two out of three sub shards
shard_resp_hdrs[1]['X-Backend-Sharding-State'] = 'sharding'
sub_shard_bounds = (('ham', 'juice'), ('juice', 'lemon'))
sub_shard_ranges = [
ShardRange('a/c_sub_' + upper, Timestamp.now(), lower, upper)
for lower, upper in sub_shard_bounds]
sub_sr_dicts = [dict(sr) for sr in sub_shard_ranges]
sub_sr_objs = [self._make_shard_objects(sr) for sr in sub_shard_ranges]
sub_shard_resp_hdrs = [
{'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sub_sr_objs[i]),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sub_sr_objs[i]]),
'X-Container-Meta-Flavour': 'flavour%d' % i,
'X-Backend-Storage-Policy-Index': 1,
'X-Backend-Record-Storage-Policy-Index': 0}
for i in range(2)]
all_objects = []
for objects in sr_objs:
all_objects.extend(objects)
size_all_objects = sum([obj['bytes'] for obj in all_objects])
num_all_objects = len(all_objects)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
'X-Backend-Storage-Policy-Index': 0}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, sr_dicts, root_shard_resp_hdrs),
(200, sr_objs[0], shard_resp_hdrs[0]),
(200, sub_sr_dicts + [sr_dicts[1]], shard_1_shard_resp_hdrs),
(200, sub_sr_objs[0], sub_shard_resp_hdrs[0]),
(200, sub_sr_objs[1], sub_shard_resp_hdrs[1]),
(200, sr_objs[1][len(sub_sr_objs[0] + sub_sr_objs[1]):],
shard_resp_hdrs[1]),
(200, sr_objs[2], shard_resp_hdrs[2])
]
# NB marker always advances to last object name
expected_requests = [
# get root shard ranges
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
# get first shard objects
(shard_ranges[0].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='', end_marker='ham\x00', states='listing',
limit=str(limit))), # 200
# get second shard sub-shard ranges
(shard_ranges[1].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='pie\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
# get first sub-shard objects
(sub_shard_ranges[0].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='h', end_marker='juice\x00', states='listing',
limit=str(limit - len(sr_objs[0])))),
# get second sub-shard objects
(sub_shard_ranges[1].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='j', end_marker='lemon\x00', states='listing',
limit=str(limit - len(sr_objs[0] + sub_sr_objs[0])))),
# get remainder of second shard objects
(shard_ranges[1].name,
{'X-Backend-Record-Type': 'object',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='l', end_marker='pie\x00',
limit=str(limit - len(sr_objs[0] + sub_sr_objs[0] +
sub_sr_objs[1])))), # 200
# get third shard objects
(shard_ranges[2].name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '0'},
dict(marker='p', end_marker='', states='listing',
limit=str(limit - len(sr_objs[0] + sr_objs[1])))) # 200
]
expected_objects = (
sr_objs[0] + sub_sr_objs[0] + sub_sr_objs[1] +
sr_objs[1][len(sub_sr_objs[0] + sub_sr_objs[1]):] + sr_objs[2])
resp = self._check_GET_shard_listing(
mock_responses, expected_objects, expected_requests)
# root object count will overridden by actual length of listing
self.check_response(resp, root_resp_hdrs)
@patch_policies([
StoragePolicy(0, 'zero', True, object_ring=FakeRing()),
StoragePolicy(1, 'one', False, object_ring=FakeRing())
])
def test_GET_sharded_container_mixed_policies_error(self):
# scenario: shards have different policy than root, listing requests
# root policy index but shards not upgraded and respond with their own
# policy index
def do_test(shard_policy):
# only need first shard for this test...
sr = ShardRange('.shards_a/c_pie', Timestamp.now(), '', 'pie')
sr_objs = self._make_shard_objects(sr)
shard_resp_hdrs = {
'X-Backend-Sharding-State': 'unsharded',
'X-Container-Object-Count': len(sr_objs),
'X-Container-Bytes-Used':
sum([obj['bytes'] for obj in sr_objs]),
}
if shard_policy is not None:
shard_resp_hdrs['X-Backend-Storage-Policy-Index'] = \
shard_policy
size_all_objects = sum([obj['bytes'] for obj in sr_objs])
num_all_objects = len(sr_objs)
limit = CONTAINER_LISTING_LIMIT
root_resp_hdrs = {'X-Backend-Sharding-State': 'sharded',
'X-Backend-Timestamp': '99',
'X-Container-Object-Count': num_all_objects,
'X-Container-Bytes-Used': size_all_objects,
'X-Container-Meta-Flavour': 'peach',
# NB root policy 1 differes from shard policy
'X-Backend-Storage-Policy-Index': 1}
root_shard_resp_hdrs = dict(root_resp_hdrs)
root_shard_resp_hdrs['X-Backend-Record-Type'] = 'shard'
mock_responses = [
# status, body, headers
(200, [dict(sr)], root_shard_resp_hdrs),
(200, sr_objs, shard_resp_hdrs),
]
# NB marker always advances to last object name
expected_requests = [
# get root shard ranges
('a/c', {'X-Backend-Record-Type': 'auto'},
dict(states='listing')), # 200
# get first shard objects
(sr.name,
{'X-Backend-Record-Type': 'auto',
'X-Backend-Storage-Policy-Index': '1'},
dict(marker='', end_marker='pie\x00', states='listing',
limit=str(limit))), # 200
# error to client; no request for second shard objects
]
self._check_GET_shard_listing(
mock_responses, [], expected_requests,
expected_status=503)
do_test(0)
do_test(None)
def _build_request(self, headers, params, infocache=None):
# helper to make a GET request with caches set in environ
query_string = '?' + '&'.join('%s=%s' % (k, v)
for k, v in params.items())
container_path = '/v1/a/c' + query_string
request = Request.blank(container_path, headers=headers)
request.environ['swift.cache'] = self.memcache
request.environ['swift.infocache'] = infocache if infocache else {}
return request
def _check_response(self, resp, exp_shards, extra_hdrs):
# helper to check a shard listing response
actual_shards = json.loads(resp.body)
self.assertEqual(exp_shards, actual_shards)
exp_hdrs = dict(self.root_resp_hdrs)
# x-put-timestamp is sent from backend but removed in proxy base
# controller GETorHEAD_base so not expected in response from proxy
exp_hdrs.pop('X-Put-Timestamp')
self.assertIn('X-Timestamp', resp.headers)
actual_timestamp = resp.headers.pop('X-Timestamp')
exp_timestamp = exp_hdrs.pop('X-Timestamp')
self.assertEqual(Timestamp(exp_timestamp),
Timestamp(actual_timestamp))
exp_hdrs.update(extra_hdrs)
exp_hdrs.update(
{'X-Storage-Policy': 'zero', # added in container controller
'Content-Length':
str(len(json.dumps(exp_shards).encode('ascii'))),
}
)
# we expect this header to be removed by proxy
exp_hdrs.pop('X-Backend-Override-Shard-Name-Filter', None)
for ignored in ('x-account-container-count', 'x-object-meta-test',
'x-delete-at', 'etag', 'x-works'):
# FakeConn adds these
resp.headers.pop(ignored, None)
self.assertEqual(exp_hdrs, resp.headers)
def _capture_backend_request(self, req, resp_status, resp_body,
resp_extra_hdrs, num_resp=1):
self.assertGreater(num_resp, 0) # sanity check
resp_hdrs = dict(self.root_resp_hdrs)
resp_hdrs.update(resp_extra_hdrs)
resp_status = [resp_status] * num_resp
with mocked_http_conn(
*resp_status, body_iter=[resp_body] * num_resp,
headers=[resp_hdrs] * num_resp) as fake_conn:
resp = req.get_response(self.app)
self.assertEqual(resp_status[0], resp.status_int)
self.assertEqual(num_resp, len(fake_conn.requests))
return fake_conn.requests[0], resp
def _check_backend_req(self, req, backend_req, extra_params=None,
extra_hdrs=None):
self.assertEqual('a/c', backend_req['path'][7:])
expected_params = {'states': 'listing', 'format': 'json'}
if extra_params:
expected_params.update(extra_params)
if six.PY2:
backend_params = dict(urllib.parse.parse_qsl(
backend_req['qs'], True))
else:
backend_params = dict(urllib.parse.parse_qsl(
backend_req['qs'], True, encoding='latin1'))
self.assertEqual(expected_params, backend_params)
backend_hdrs = backend_req['headers']
self.assertIsNotNone(backend_hdrs.pop('Referer', None))
self.assertIsNotNone(backend_hdrs.pop('X-Timestamp', None))
self.assertTrue(backend_hdrs.pop('User-Agent', '').startswith(
'proxy-server'))
expected_headers = {
'Connection': 'close',
'Host': 'localhost:80',
'X-Trans-Id': req.headers['X-Trans-Id']}
if extra_hdrs:
expected_headers.update(extra_hdrs)
self.assertEqual(expected_headers, backend_hdrs)
for k, v in expected_headers.items():
self.assertIn(k, backend_hdrs)
self.assertEqual(v, backend_hdrs.get(k))
def _setup_shard_range_stubs(self):
self.memcache = FakeMemcache()
shard_bounds = (('', 'ham'), ('ham', 'pie'), ('pie', ''))
shard_ranges = [
ShardRange('.shards_a/c_%s' % upper, Timestamp.now(), lower, upper)
for lower, upper in shard_bounds]
self.sr_dicts = [dict(sr) for sr in shard_ranges]
self._stub_shards_dump = json.dumps(self.sr_dicts).encode('ascii')
self.root_resp_hdrs = {
'Accept-Ranges': 'bytes',
'Content-Type': 'application/json',
'Last-Modified': 'Thu, 01 Jan 1970 00:00:03 GMT',
'X-Backend-Timestamp': '2',
'X-Backend-Put-Timestamp': '3',
'X-Backend-Delete-Timestamp': '0',
'X-Backend-Status-Changed-At': '0',
'X-Timestamp': '2',
'X-Put-Timestamp': '3',
'X-Container-Object-Count': '6',
'X-Container-Bytes-Used': '12',
'X-Backend-Storage-Policy-Index': '0'}
def _do_test_caching(self, record_type, exp_recheck_listing):
# this test gets shard ranges into cache and then reads from cache
sharding_state = 'sharded'
self.memcache.delete_all()
self.memcache.clear_calls()
# container is sharded but proxy does not have that state cached;
# expect a backend request and expect shard ranges to be cached
self.memcache.clear_calls()
req = self._build_request({'X-Backend-Record-Type': record_type},
{'states': 'listing'}, {})
backend_req, resp = self._capture_backend_request(
req, 200, self._stub_shards_dump,
{'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': sharding_state,
'X-Backend-Override-Shard-Name-Filter': 'true'})
self._check_backend_req(
req, backend_req,
extra_hdrs={'X-Backend-Record-Type': record_type,
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
self._check_response(resp, self.sr_dicts, {
'X-Backend-Recheck-Container-Existence': '60',
'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': sharding_state})
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.set('shard-listing/a/c', self.sr_dicts,
time=exp_recheck_listing),
mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual(sharding_state,
self.memcache.calls[2][1][1]['sharding_state'])
self.assertIn('swift.infocache', req.environ)
self.assertIn('shard-listing/a/c', req.environ['swift.infocache'])
self.assertEqual(tuple(self.sr_dicts),
req.environ['swift.infocache']['shard-listing/a/c'])
# container is sharded and proxy does have that state cached and
# also has shard ranges cached; expect a read from cache
self.memcache.clear_calls()
req = self._build_request({'X-Backend-Record-Type': record_type},
{'states': 'listing'}, {})
resp = req.get_response(self.app)
self._check_response(resp, self.sr_dicts, {
'X-Backend-Cached-Results': 'true',
'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': sharding_state})
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.get('shard-listing/a/c')],
self.memcache.calls)
self.assertIn('swift.infocache', req.environ)
self.assertIn('shard-listing/a/c', req.environ['swift.infocache'])
self.assertEqual(tuple(self.sr_dicts),
req.environ['swift.infocache']['shard-listing/a/c'])
# delete the container; check that shard ranges are evicted from cache
self.memcache.clear_calls()
infocache = {}
req = Request.blank('/v1/a/c', method='DELETE')
req.environ['swift.cache'] = self.memcache
req.environ['swift.infocache'] = infocache
self._capture_backend_request(req, 204, b'', {},
num_resp=self.CONTAINER_REPLICAS)
self.assertEqual(
[mock.call.delete('container/a/c'),
mock.call.delete('shard-listing/a/c')],
self.memcache.calls)
def test_get_from_shards_add_root_spi(self):
self._setup_shard_range_stubs()
shard_resp = mock.MagicMock(status_int=204, headers={})
def mock_get_container_listing(self_, req, *args, **kargs):
captured_hdrs.update(req.headers)
return None, shard_resp
# header in response -> header added to request
captured_hdrs = {}
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'GET'})
resp = mock.MagicMock(body=self._stub_shards_dump,
headers=self.root_resp_hdrs,
request=req)
resp.headers['X-Backend-Storage-Policy-Index'] = '0'
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_container_listing',
mock_get_container_listing):
controller_cls, d = self.app.get_controller(req)
controller = controller_cls(self.app, **d)
controller._get_from_shards(req, resp)
self.assertIn('X-Backend-Storage-Policy-Index', captured_hdrs)
self.assertEqual(
captured_hdrs['X-Backend-Storage-Policy-Index'], '0')
captured_hdrs = {}
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'GET'})
resp = mock.MagicMock(body=self._stub_shards_dump,
headers=self.root_resp_hdrs,
request=req)
resp.headers['X-Backend-Storage-Policy-Index'] = '1'
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_container_listing',
mock_get_container_listing):
controller_cls, d = self.app.get_controller(req)
controller = controller_cls(self.app, **d)
controller._get_from_shards(req, resp)
self.assertIn('X-Backend-Storage-Policy-Index', captured_hdrs)
self.assertEqual(
captured_hdrs['X-Backend-Storage-Policy-Index'], '1')
# header not added to request if not root request
captured_hdrs = {}
req = Request.blank('/v1/a/c',
environ={
'REQUEST_METHOD': 'GET',
'swift.shard_listing_history': [('a', 'c')]}
)
resp = mock.MagicMock(body=self._stub_shards_dump,
headers=self.root_resp_hdrs,
request=req)
resp.headers['X-Backend-Storage-Policy-Index'] = '0'
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_container_listing',
mock_get_container_listing):
controller_cls, d = self.app.get_controller(req)
controller = controller_cls(self.app, **d)
controller._get_from_shards(req, resp)
self.assertNotIn('X-Backend-Storage-Policy-Index', captured_hdrs)
# existing X-Backend-Storage-Policy-Index in request is respected
captured_hdrs = {}
req = Request.blank('/v1/a/c', environ={'REQUEST_METHOD': 'GET'})
req.headers['X-Backend-Storage-Policy-Index'] = '0'
resp = mock.MagicMock(body=self._stub_shards_dump,
headers=self.root_resp_hdrs,
request=req)
resp.headers['X-Backend-Storage-Policy-Index'] = '1'
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_container_listing',
mock_get_container_listing):
controller_cls, d = self.app.get_controller(req)
controller = controller_cls(self.app, **d)
controller._get_from_shards(req, resp)
self.assertIn('X-Backend-Storage-Policy-Index', captured_hdrs)
self.assertEqual(
captured_hdrs['X-Backend-Storage-Policy-Index'], '0')
def test_GET_shard_ranges(self):
self._setup_shard_range_stubs()
# expect shard ranges cache time to be default value of 600
self._do_test_caching('shard', 600)
# expect shard ranges cache time to be configured value of 120
self.app.recheck_listing_shard_ranges = 120
self._do_test_caching('shard', 120)
def mock_get_from_shards(self, req, resp):
# for the purposes of these tests we override _get_from_shards so
# that the response contains the shard listing even though the
# record_type is 'auto'; these tests are verifying the content and
# caching of the backend shard range response so we're not
# interested in gathering object from the shards
return resp
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_from_shards',
mock_get_from_shards):
self.app.recheck_listing_shard_ranges = 600
self._do_test_caching('auto', 600)
def test_GET_shard_ranges_404_response(self):
# pre-warm cache with container info but not shard ranges so that the
# backend request tries to get a cacheable listing, but backend 404's
self._setup_shard_range_stubs()
self.memcache.delete_all()
info = headers_to_container_info(self.root_resp_hdrs)
info['status'] = 200
info['sharding_state'] = 'sharded'
self.memcache.set('container/a/c', info)
self.memcache.clear_calls()
req = self._build_request({'X-Backend-Record-Type': 'shard'},
{'states': 'listing'}, {})
backend_req, resp = self._capture_backend_request(
req, 404, b'', {}, num_resp=2 * self.CONTAINER_REPLICAS)
self._check_backend_req(
req, backend_req,
extra_hdrs={'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
self.assertNotIn('X-Backend-Cached-Results', resp.headers)
# Note: container metadata is updated in cache but shard ranges are not
# deleted from cache
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.get('shard-listing/a/c'),
mock.call.set('container/a/c', mock.ANY, time=6.0)],
self.memcache.calls)
self.assertEqual(404, self.memcache.calls[2][1][1]['status'])
self.assertEqual(b'', resp.body)
self.assertEqual(404, resp.status_int)
def _do_test_GET_shard_ranges_read_from_cache(self, params, record_type):
# pre-warm cache with container metadata and shard ranges and verify
# that shard range listing are read from cache when appropriate
self.memcache.delete_all()
info = headers_to_container_info(self.root_resp_hdrs)
info['status'] = 200
info['sharding_state'] = 'sharded'
self.memcache.set('container/a/c', info)
self.memcache.set('shard-listing/a/c', self.sr_dicts)
self.memcache.clear_calls()
req_hdrs = {'X-Backend-Record-Type': record_type}
req = self._build_request(req_hdrs, params, {})
resp = req.get_response(self.app)
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.get('shard-listing/a/c')],
self.memcache.calls)
return resp
def test_GET_shard_ranges_read_from_cache(self):
self._setup_shard_range_stubs()
exp_hdrs = {'X-Backend-Cached-Results': 'true',
'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'}
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing'}, 'shard')
self._check_response(resp, self.sr_dicts, exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'reverse': 'true'}, 'shard')
exp_shards = list(self.sr_dicts)
exp_shards.reverse()
self._check_response(resp, exp_shards, exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'marker': 'jam'}, 'shard')
self._check_response(resp, self.sr_dicts[1:], exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'marker': 'jam', 'end_marker': 'kale'},
'shard')
self._check_response(resp, self.sr_dicts[1:2], exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'includes': 'egg'}, 'shard')
self._check_response(resp, self.sr_dicts[:1], exp_hdrs)
# override _get_from_shards so that the response contains the shard
# listing that we want to verify even though the record_type is 'auto'
def mock_get_from_shards(self, req, resp):
return resp
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_from_shards',
mock_get_from_shards):
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'reverse': 'true'}, 'auto')
exp_shards = list(self.sr_dicts)
exp_shards.reverse()
self._check_response(resp, exp_shards, exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'marker': 'jam'}, 'auto')
self._check_response(resp, self.sr_dicts[1:], exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'marker': 'jam', 'end_marker': 'kale'},
'auto')
self._check_response(resp, self.sr_dicts[1:2], exp_hdrs)
resp = self._do_test_GET_shard_ranges_read_from_cache(
{'states': 'listing', 'includes': 'egg'}, 'auto')
self._check_response(resp, self.sr_dicts[:1], exp_hdrs)
def _do_test_GET_shard_ranges_write_to_cache(self, params, record_type):
# verify that shard range listing are written to cache when appropriate
self.memcache.delete_all()
self.memcache.clear_calls()
# set request up for cacheable listing
req_hdrs = {'X-Backend-Record-Type': record_type}
req = self._build_request(req_hdrs, params, {})
# response indicates cacheable listing
resp_hdrs = {'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'}
backend_req, resp = self._capture_backend_request(
req, 200, self._stub_shards_dump, resp_hdrs)
self._check_backend_req(
req, backend_req,
extra_params=params,
extra_hdrs={'X-Backend-Record-Type': record_type,
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
expected_hdrs = {'X-Backend-Recheck-Container-Existence': '60'}
expected_hdrs.update(resp_hdrs)
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.set('shard-listing/a/c', self.sr_dicts, time=600),
mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
# shards were cached
self.assertEqual('sharded',
self.memcache.calls[2][1][1]['sharding_state'])
return resp
def test_GET_shard_ranges_write_to_cache(self):
self._setup_shard_range_stubs()
exp_hdrs = {'X-Backend-Recheck-Container-Existence': '60',
'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'}
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing'}, 'shard')
self._check_response(resp, self.sr_dicts, exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'reverse': 'true'}, 'shard')
exp_shards = list(self.sr_dicts)
exp_shards.reverse()
self._check_response(resp, exp_shards, exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'marker': 'jam'}, 'shard')
self._check_response(resp, self.sr_dicts[1:], exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'marker': 'jam', 'end_marker': 'kale'},
'shard')
self._check_response(resp, self.sr_dicts[1:2], exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'includes': 'egg'}, 'shard')
self._check_response(resp, self.sr_dicts[:1], exp_hdrs)
# override _get_from_shards so that the response contains the shard
# listing that we want to verify even though the record_type is 'auto'
def mock_get_from_shards(self, req, resp):
return resp
with mock.patch('swift.proxy.controllers.container.'
'ContainerController._get_from_shards',
mock_get_from_shards):
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'reverse': 'true'}, 'auto')
exp_shards = list(self.sr_dicts)
exp_shards.reverse()
self._check_response(resp, exp_shards, exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'marker': 'jam'}, 'auto')
self._check_response(resp, self.sr_dicts[1:], exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'marker': 'jam', 'end_marker': 'kale'},
'auto')
self._check_response(resp, self.sr_dicts[1:2], exp_hdrs)
resp = self._do_test_GET_shard_ranges_write_to_cache(
{'states': 'listing', 'includes': 'egg'}, 'auto')
self._check_response(resp, self.sr_dicts[:1], exp_hdrs)
def test_GET_shard_ranges_write_to_cache_with_x_newest(self):
# when x-newest is sent, verify that there is no cache lookup to check
# sharding state but then backend requests are made requesting complete
# shard list which can be cached
self._setup_shard_range_stubs()
self.memcache.delete_all()
self.memcache.clear_calls()
req_hdrs = {'X-Backend-Record-Type': 'shard',
'X-Newest': 'true'}
params = {'states': 'listing'}
req = self._build_request(req_hdrs, params, {})
resp_hdrs = {'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'}
backend_req, resp = self._capture_backend_request(
req, 200, self._stub_shards_dump, resp_hdrs,
num_resp=2 * self.CONTAINER_REPLICAS)
self._check_backend_req(
req, backend_req,
extra_hdrs={'X-Backend-Record-Type': 'shard',
'X-Newest': 'true',
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
expected_hdrs = {'X-Backend-Recheck-Container-Existence': '60'}
expected_hdrs.update(resp_hdrs)
self._check_response(resp, self.sr_dicts, expected_hdrs)
self.assertEqual(
[mock.call.set('shard-listing/a/c', self.sr_dicts, time=600),
mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual('sharded',
self.memcache.calls[1][1][1]['sharding_state'])
def _do_test_GET_shard_ranges_no_cache_write(self, resp_hdrs):
# verify that there is a cache lookup to check container info but then
# a backend request is made requesting complete shard list, but do not
# expect shard ranges to be cached; check that marker, end_marker etc
# are passed to backend
self.memcache.clear_calls()
req = self._build_request(
{'X-Backend-Record-Type': 'shard'},
{'states': 'listing', 'marker': 'egg', 'end_marker': 'jam',
'reverse': 'true'}, {})
resp_shards = self.sr_dicts[:2]
resp_shards.reverse()
backend_req, resp = self._capture_backend_request(
req, 200, json.dumps(resp_shards).encode('ascii'),
resp_hdrs)
self._check_backend_req(
req, backend_req,
extra_params={'marker': 'egg', 'end_marker': 'jam',
'reverse': 'true'},
extra_hdrs={'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
expected_shards = self.sr_dicts[:2]
expected_shards.reverse()
expected_hdrs = {'X-Backend-Recheck-Container-Existence': '60'}
expected_hdrs.update(resp_hdrs)
self._check_response(resp, expected_shards, expected_hdrs)
# container metadata is looked up in memcache for sharding state
# container metadata is set in memcache
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual(resp.headers.get('X-Backend-Sharding-State'),
self.memcache.calls[1][1][1]['sharding_state'])
self.memcache.delete_all()
def test_GET_shard_ranges_no_cache_write_with_cached_container_info(self):
# pre-warm cache with container info, but verify that shard range cache
# lookup is only attempted when the cached sharding state and status
# are suitable, and full set of headers can be constructed from cache;
# Note: backend response has state unsharded so no shard ranges cached
self._setup_shard_range_stubs()
def do_test(info):
self._setup_shard_range_stubs()
self.memcache.set('container/a/c', info)
# expect the same outcomes as if there was no cached container info
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'unsharded'})
# setup a default 'good' info
info = headers_to_container_info(self.root_resp_hdrs)
info['status'] = 200
info['sharding_state'] = 'sharded'
do_test(dict(info, status=404))
do_test(dict(info, sharding_state='unsharded'))
do_test(dict(info, sharding_state='sharding'))
do_test(dict(info, sharding_state='collapsed'))
do_test(dict(info, sharding_state='unexpected'))
stale_info = dict(info)
stale_info.pop('created_at')
do_test(stale_info)
stale_info = dict(info)
stale_info.pop('put_timestamp')
do_test(stale_info)
stale_info = dict(info)
stale_info.pop('delete_timestamp')
do_test(stale_info)
stale_info = dict(info)
stale_info.pop('status_changed_at')
do_test(stale_info)
def test_GET_shard_ranges_no_cache_write_for_non_sharded_states(self):
# verify that shard ranges are not written to cache when container
# state returned by backend is not 'sharded'; we don't expect
# 'X-Backend-Override-Shard-Name-Filter': 'true' to be returned unless
# the sharding state is 'sharded' but include it in this test to check
# that the state is checked by proxy controller
self._setup_shard_range_stubs()
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'unsharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharding'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'collapsed'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'unexpected'})
def test_GET_shard_ranges_no_cache_write_for_incomplete_listing(self):
# verify that shard ranges are not written to cache when container
# response does not acknowledge x-backend-override-shard-name-filter
# e.g. container server not upgraded
self._setup_shard_range_stubs()
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': 'sharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'false',
'X-Backend-Sharding-State': 'sharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'rogue',
'X-Backend-Sharding-State': 'sharded'})
def test_GET_shard_ranges_no_cache_write_for_object_listing(self):
# verify that shard ranges are not written to cache when container
# response does not return shard ranges
self._setup_shard_range_stubs()
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'object',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'other',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Record-Type': 'true',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'})
self._do_test_GET_shard_ranges_no_cache_write(
{'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'})
def _do_test_GET_shard_ranges_bad_response_body(self, resp_body):
# verify that resp body is not cached if shard range parsing fails;
# check the original unparseable response body is returned
self._setup_shard_range_stubs()
self.memcache.clear_calls()
req = self._build_request(
{'X-Backend-Record-Type': 'shard'},
{'states': 'listing'}, {})
resp_hdrs = {'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'true',
'X-Backend-Sharding-State': 'sharded'}
backend_req, resp = self._capture_backend_request(
req, 200, json.dumps(resp_body).encode('ascii'),
resp_hdrs)
self._check_backend_req(
req, backend_req,
extra_hdrs={'X-Backend-Record-Type': 'shard',
'X-Backend-Override-Shard-Name-Filter': 'sharded'})
expected_hdrs = {'X-Backend-Recheck-Container-Existence': '60'}
expected_hdrs.update(resp_hdrs)
self._check_response(resp, resp_body, expected_hdrs)
# container metadata is looked up in memcache for sharding state
# container metadata is set in memcache
self.assertEqual(
[mock.call.get('container/a/c'),
mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual(resp.headers.get('X-Backend-Sharding-State'),
self.memcache.calls[1][1][1]['sharding_state'])
self.memcache.delete_all()
def test_GET_shard_ranges_bad_response_body(self):
self._do_test_GET_shard_ranges_bad_response_body(
{'bad': 'data', 'not': ' a list'})
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_lines), error_lines)
self.assertIn('Problem with listing response', error_lines[0])
self.logger.clear()
self._do_test_GET_shard_ranges_bad_response_body(
[{'not': ' a shard range'}])
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_lines), error_lines)
self.assertIn('Failed to get shard ranges', error_lines[0])
self.logger.clear()
self._do_test_GET_shard_ranges_bad_response_body(
'not json')
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_lines), error_lines)
self.assertIn('Problem with listing response', error_lines[0])
def _do_test_GET_shards_no_cache(self, sharding_state, req_params,
req_hdrs=None):
# verify that a shard GET request does not lookup in cache or attempt
# to cache shard ranges fetched from backend
self.memcache.delete_all()
self.memcache.clear_calls()
req_params.update(dict(marker='egg', end_marker='jam'))
hdrs = {'X-Backend-Record-Type': 'shard'}
if req_hdrs:
hdrs.update(req_hdrs)
req = self._build_request(hdrs, req_params, {})
resp_shards = self.sr_dicts[:2]
backend_req, resp = self._capture_backend_request(
req, 200, json.dumps(resp_shards).encode('ascii'),
{'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': sharding_state})
self._check_backend_req(
req, backend_req, extra_hdrs=hdrs, extra_params=req_params)
expected_shards = self.sr_dicts[:2]
self._check_response(resp, expected_shards, {
'X-Backend-Recheck-Container-Existence': '60',
'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': sharding_state})
# container metadata from backend response is set in memcache
self.assertEqual(
[mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual(sharding_state,
self.memcache.calls[0][1][1]['sharding_state'])
def test_GET_shard_ranges_no_cache_recheck_listing_shard_ranges(self):
# verify that a GET for shards does not lookup or store in cache when
# cache expiry time is set to zero
self._setup_shard_range_stubs()
self.app.recheck_listing_shard_ranges = 0
self._do_test_GET_shards_no_cache('unsharded', {'states': 'listing'})
self._do_test_GET_shards_no_cache('sharding', {'states': 'listing'})
self._do_test_GET_shards_no_cache('sharded', {'states': 'listing'})
self._do_test_GET_shards_no_cache('collapsed', {'states': 'listing'})
self._do_test_GET_shards_no_cache('unexpected', {'states': 'listing'})
def test_GET_shard_ranges_no_cache_when_requesting_updating_shards(self):
# verify that a GET for shards in updating states does not lookup or
# store in cache
self._setup_shard_range_stubs()
self._do_test_GET_shards_no_cache('unsharded', {'states': 'updating'})
self._do_test_GET_shards_no_cache('sharding', {'states': 'updating'})
self._do_test_GET_shards_no_cache('sharded', {'states': 'updating'})
self._do_test_GET_shards_no_cache('collapsed', {'states': 'updating'})
self._do_test_GET_shards_no_cache('unexpected', {'states': 'updating'})
def test_GET_shard_ranges_no_cache_when_include_deleted_shards(self):
# verify that a GET for shards in listing states does not lookup or
# store in cache if x-backend-include-deleted is true
self._setup_shard_range_stubs()
self._do_test_GET_shards_no_cache(
'unsharded', {'states': 'listing'},
{'X-Backend-Include-Deleted': 'true'})
self._do_test_GET_shards_no_cache(
'sharding', {'states': 'listing'},
{'X-Backend-Include-Deleted': 'true'})
self._do_test_GET_shards_no_cache(
'sharded', {'states': 'listing'},
{'X-Backend-Include-Deleted': 'true'})
self._do_test_GET_shards_no_cache(
'collapsed', {'states': 'listing'},
{'X-Backend-Include-Deleted': 'true'})
self._do_test_GET_shards_no_cache(
'unexpected', {'states': 'listing'},
{'X-Backend-Include-Deleted': 'true'})
def test_GET_objects_makes_no_cache_lookup(self):
# verify that an object GET request does not lookup container metadata
# in cache
self._setup_shard_range_stubs()
self.memcache.delete_all()
self.memcache.clear_calls()
req_hdrs = {'X-Backend-Record-Type': 'object'}
# we would not expect states=listing to be used with an object request
# but include it here to verify that it is ignored
req = self._build_request(req_hdrs, {'states': 'listing'}, {})
resp_body = json.dumps(['object listing']).encode('ascii')
backend_req, resp = self._capture_backend_request(
req, 200, resp_body,
{'X-Backend-Record-Type': 'object',
'X-Backend-Sharding-State': 'sharded'})
self._check_backend_req(
req, backend_req,
extra_hdrs=req_hdrs)
self._check_response(resp, ['object listing'], {
'X-Backend-Recheck-Container-Existence': '60',
'X-Backend-Record-Type': 'object',
'X-Backend-Sharding-State': 'sharded'})
# container metadata from backend response is set in memcache
self.assertEqual(
[mock.call.set('container/a/c', mock.ANY, time=60)],
self.memcache.calls)
self.assertEqual('sharded',
self.memcache.calls[0][1][1]['sharding_state'])
def test_GET_shard_ranges_no_memcache_available(self):
self._setup_shard_range_stubs()
self.memcache.clear_calls()
hdrs = {'X-Backend-Record-Type': 'shard'}
params = {'states': 'listing'}
req = self._build_request(hdrs, params, {})
req.environ['swift.cache'] = None
backend_req, resp = self._capture_backend_request(
req, 200, self._stub_shards_dump,
{'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': 'sharded'})
self._check_backend_req(
req, backend_req, extra_params=params, extra_hdrs=hdrs)
expected_shards = self.sr_dicts
self._check_response(resp, expected_shards, {
'X-Backend-Recheck-Container-Existence': '60',
'X-Backend-Record-Type': 'shard',
'X-Backend-Sharding-State': 'sharded'})
self.assertEqual([], self.memcache.calls) # sanity check
def test_cache_clearing(self):
# verify that both metadata and shard ranges are purged form memcache
# on PUT, POST and DELETE
def do_test(method, resp_status, num_resp):
self.assertGreater(num_resp, 0) # sanity check
memcache = FakeMemcache()
cont_key = get_cache_key('a', 'c')
shard_key = get_cache_key('a', 'c', shard='listing')
memcache.set(cont_key, 'container info', 60)
memcache.set(shard_key, 'shard ranges', 600)
req = Request.blank('/v1/a/c', method=method)
req.environ['swift.cache'] = memcache
self.assertIn(cont_key, req.environ['swift.cache'].store)
self.assertIn(shard_key, req.environ['swift.cache'].store)
resp_status = [resp_status] * num_resp
with mocked_http_conn(
*resp_status, body_iter=[b''] * num_resp,
headers=[{}] * num_resp):
resp = req.get_response(self.app)
self.assertEqual(resp_status[0], resp.status_int)
self.assertNotIn(cont_key, req.environ['swift.cache'].store)
self.assertNotIn(shard_key, req.environ['swift.cache'].store)
do_test('DELETE', 204, self.CONTAINER_REPLICAS)
do_test('POST', 204, self.CONTAINER_REPLICAS)
do_test('PUT', 202, self.CONTAINER_REPLICAS)
def test_GET_bad_requests(self):
# verify that the proxy controller enforces checks on request params
req = Request.blank(
'/v1/a/c?limit=%d' % (CONTAINER_LISTING_LIMIT + 1))
self.assertEqual(412, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?delimiter=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?marker=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?end_marker=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?prefix=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?format=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?path=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?includes=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
req = Request.blank('/v1/a/c?states=%ff')
self.assertEqual(400, req.get_response(self.app).status_int)
@patch_policies(
[StoragePolicy(0, 'zero', True, object_ring=FakeRing(replicas=4))])
class TestContainerController4Replicas(TestContainerController):
CONTAINER_REPLICAS = 4
def test_response_code_for_PUT(self):
PUT_TEST_CASES = [
((201, 201, 201, 201), 201),
((201, 201, 201, 404), 201),
((201, 201, 201, 503), 201),
((201, 201, 404, 404), 201),
((201, 201, 404, 503), 201),
((201, 201, 503, 503), 201),
((201, 404, 404, 404), 404),
((201, 404, 404, 503), 404),
((201, 404, 503, 503), 503),
((201, 503, 503, 503), 503),
((404, 404, 404, 404), 404),
((404, 404, 404, 503), 404),
((404, 404, 503, 503), 404),
((404, 503, 503, 503), 503),
((503, 503, 503, 503), 503)
]
self._assert_responses('PUT', PUT_TEST_CASES)
def test_response_code_for_DELETE(self):
DELETE_TEST_CASES = [
((204, 204, 204, 204), 204),
((204, 204, 204, 404), 204),
((204, 204, 204, 503), 204),
((204, 204, 404, 404), 204),
((204, 204, 404, 503), 204),
((204, 204, 503, 503), 204),
((204, 404, 404, 404), 404),
((204, 404, 404, 503), 404),
((204, 404, 503, 503), 503),
((204, 503, 503, 503), 503),
((404, 404, 404, 404), 404),
((404, 404, 404, 503), 404),
((404, 404, 503, 503), 404),
((404, 503, 503, 503), 503),
((503, 503, 503, 503), 503)
]
self._assert_responses('DELETE', DELETE_TEST_CASES)
def test_response_code_for_POST(self):
POST_TEST_CASES = [
((204, 204, 204, 204), 204),
((204, 204, 204, 404), 204),
((204, 204, 204, 503), 204),
((204, 204, 404, 404), 204),
((204, 204, 404, 503), 204),
((204, 204, 503, 503), 204),
((204, 404, 404, 404), 404),
((204, 404, 404, 503), 404),
((204, 404, 503, 503), 503),
((204, 503, 503, 503), 503),
((404, 404, 404, 404), 404),
((404, 404, 404, 503), 404),
((404, 404, 503, 503), 404),
((404, 503, 503, 503), 503),
((503, 503, 503, 503), 503)
]
self._assert_responses('POST', POST_TEST_CASES)
if __name__ == '__main__':
unittest.main()
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