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

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#!/usr/bin/env python
# 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 collections
import itertools
import math
import random
import time
import unittest
from collections import defaultdict
from contextlib import contextmanager
import json
from hashlib import md5
import mock
from eventlet import Timeout
import six
from six import StringIO
from six.moves import range
if six.PY2:
from email.parser import FeedParser as EmailFeedParser
else:
from email.parser import BytesFeedParser as EmailFeedParser
import swift
from swift.common import utils, swob, exceptions
from swift.common.exceptions import ChunkWriteTimeout
from swift.common.utils import Timestamp, list_from_csv
from swift.proxy import server as proxy_server
from swift.proxy.controllers import obj
from swift.proxy.controllers.base import \
get_container_info as _real_get_container_info
from swift.common.storage_policy import POLICIES, ECDriverError, \
StoragePolicy, ECStoragePolicy
from test.unit import FakeRing, FakeMemcache, fake_http_connect, \
debug_logger, patch_policies, SlowBody, FakeStatus, \
DEFAULT_TEST_EC_TYPE, encode_frag_archive_bodies, make_ec_object_stub, \
fake_ec_node_response, StubResponse, mocked_http_conn
from test.unit.proxy.test_server import node_error_count
def unchunk_body(chunked_body):
body = b''
remaining = chunked_body
while remaining:
hex_length, remaining = remaining.split(b'\r\n', 1)
length = int(hex_length, 16)
body += remaining[:length]
remaining = remaining[length + 2:]
return body
@contextmanager
def set_http_connect(*args, **kwargs):
old_connect = swift.proxy.controllers.base.http_connect
new_connect = fake_http_connect(*args, **kwargs)
try:
swift.proxy.controllers.base.http_connect = new_connect
swift.proxy.controllers.obj.http_connect = new_connect
swift.proxy.controllers.account.http_connect = new_connect
swift.proxy.controllers.container.http_connect = new_connect
yield new_connect
left_over_status = list(new_connect.code_iter)
if left_over_status:
raise AssertionError('left over status %r' % left_over_status)
finally:
swift.proxy.controllers.base.http_connect = old_connect
swift.proxy.controllers.obj.http_connect = old_connect
swift.proxy.controllers.account.http_connect = old_connect
swift.proxy.controllers.container.http_connect = old_connect
class PatchedObjControllerApp(proxy_server.Application):
"""
This patch is just a hook over the proxy server's __call__ to ensure
that calls to get_container_info will return the stubbed value for
container_info if it's a container info call.
"""
container_info = {}
per_container_info = {}
def __call__(self, *args, **kwargs):
def _fake_get_container_info(env, app, swift_source=None):
_vrs, account, container, _junk = utils.split_path(
swob.wsgi_to_str(env['PATH_INFO']), 3, 4)
# Seed the cache with our container info so that the real
# get_container_info finds it.
ic = env.setdefault('swift.infocache', {})
cache_key = "container/%s/%s" % (account, container)
old_value = ic.get(cache_key)
# Copy the container info so we don't hand out a reference to a
# mutable thing that's set up only once at compile time. Nothing
# *should* mutate it, but it's better to be paranoid than wrong.
if container in self.per_container_info:
ic[cache_key] = self.per_container_info[container].copy()
else:
ic[cache_key] = self.container_info.copy()
real_info = _real_get_container_info(env, app, swift_source)
if old_value is None:
del ic[cache_key]
else:
ic[cache_key] = old_value
return real_info
with mock.patch('swift.proxy.server.get_container_info',
new=_fake_get_container_info), \
mock.patch('swift.proxy.controllers.base.get_container_info',
new=_fake_get_container_info):
return super(
PatchedObjControllerApp, self).__call__(*args, **kwargs)
def make_footers_callback(body=None):
# helper method to create a footers callback that will generate some fake
# footer metadata
cont_etag = 'container update etag may differ'
crypto_etag = '20242af0cd21dd7195a10483eb7472c9'
etag_crypto_meta = \
'{"cipher": "AES_CTR_256", "iv": "sD+PSw/DfqYwpsVGSo0GEw=="}'
etag = md5(body).hexdigest() if body is not None else None
footers_to_add = {
'X-Object-Sysmeta-Container-Update-Override-Etag': cont_etag,
'X-Object-Sysmeta-Crypto-Etag': crypto_etag,
'X-Object-Sysmeta-Crypto-Meta-Etag': etag_crypto_meta,
'X-I-Feel-Lucky': 'Not blocked',
'Etag': etag}
def footers_callback(footers):
footers.update(footers_to_add)
return footers_callback
class BaseObjectControllerMixin(object):
container_info = {
'status': 200,
'write_acl': None,
'read_acl': None,
'storage_policy': None,
'sync_key': None,
'versions': None,
}
# this needs to be set on the test case
controller_cls = None
def setUp(self):
# setup fake rings with handoffs
for policy in POLICIES:
policy.object_ring.max_more_nodes = policy.object_ring.replicas
self.logger = debug_logger('proxy-server')
self.logger.thread_locals = ('txn1', '127.0.0.2')
# increase connection timeout to avoid intermittent failures
conf = {'conn_timeout': 1.0}
self.app = PatchedObjControllerApp(
conf, FakeMemcache(), account_ring=FakeRing(),
container_ring=FakeRing(), logger=self.logger)
# you can over-ride the container_info just by setting it on the app
# (see PatchedObjControllerApp for details)
self.app.container_info = dict(self.container_info)
# default policy and ring references
self.policy = POLICIES.default
self.obj_ring = self.policy.object_ring
self._ts_iter = (utils.Timestamp(t) for t in
itertools.count(int(time.time())))
def ts(self):
return next(self._ts_iter)
def replicas(self, policy=None):
policy = policy or POLICIES.default
return policy.object_ring.replicas
def quorum(self, policy=None):
policy = policy or POLICIES.default
return policy.quorum
class CommonObjectControllerMixin(BaseObjectControllerMixin):
# defines tests that are common to all storage policy types
def test_iter_nodes_local_first_noops_when_no_affinity(self):
# this test needs a stable node order - most don't
self.app.sort_nodes = lambda l, *args, **kwargs: l
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy = self.policy
self.app.get_policy_options(policy).write_affinity_is_local_fn = None
object_ring = policy.object_ring
all_nodes = object_ring.get_part_nodes(1)
all_nodes.extend(object_ring.get_more_nodes(1))
local_first_nodes = list(controller.iter_nodes_local_first(
object_ring, 1))
self.maxDiff = None
self.assertEqual(all_nodes, local_first_nodes)
def test_iter_nodes_local_first_moves_locals_first(self):
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
# we'll write to one more than replica count local nodes
policy_conf.write_affinity_node_count_fn = lambda r: r + 1
object_ring = self.policy.object_ring
# make our fake ring have plenty of nodes, and not get limited
# artificially by the proxy max request node count
object_ring.max_more_nodes = 100000
# nothing magic about * 2 + 3, just a way to make it bigger
self.app.request_node_count = lambda r: r * 2 + 3
all_nodes = object_ring.get_part_nodes(1)
all_nodes.extend(object_ring.get_more_nodes(1))
# limit to the number we're going to look at in this request
nodes_requested = self.app.request_node_count(object_ring.replicas)
all_nodes = all_nodes[:nodes_requested]
# make sure we have enough local nodes (sanity)
all_local_nodes = [n for n in all_nodes if
policy_conf.write_affinity_is_local_fn(n)]
self.assertGreaterEqual(len(all_local_nodes), self.replicas() + 1)
# finally, create the local_first_nodes iter and flatten it out
local_first_nodes = list(controller.iter_nodes_local_first(
object_ring, 1))
# the local nodes move up in the ordering
self.assertEqual([1] * (self.replicas() + 1), [
node['region'] for node in local_first_nodes[
:self.replicas() + 1]])
# we don't skip any nodes
self.assertEqual(len(all_nodes), len(local_first_nodes))
self.assertEqual(sorted(all_nodes, key=lambda dev: dev['id']),
sorted(local_first_nodes, key=lambda dev: dev['id']))
def test_iter_nodes_local_first_best_effort(self):
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
object_ring = self.policy.object_ring
all_nodes = object_ring.get_part_nodes(1)
all_nodes.extend(object_ring.get_more_nodes(1))
local_first_nodes = list(controller.iter_nodes_local_first(
object_ring, 1))
# we won't have quite enough local nodes...
self.assertEqual(len(all_nodes), self.replicas() +
POLICIES.default.object_ring.max_more_nodes)
all_local_nodes = [n for n in all_nodes if
policy_conf.write_affinity_is_local_fn(n)]
self.assertEqual(len(all_local_nodes), self.replicas())
# but the local nodes we do have are at the front of the local iter
first_n_local_first_nodes = local_first_nodes[:len(all_local_nodes)]
self.assertEqual(sorted(all_local_nodes, key=lambda dev: dev['id']),
sorted(first_n_local_first_nodes,
key=lambda dev: dev['id']))
# but we *still* don't *skip* any nodes
self.assertEqual(len(all_nodes), len(local_first_nodes))
self.assertEqual(sorted(all_nodes, key=lambda dev: dev['id']),
sorted(local_first_nodes, key=lambda dev: dev['id']))
def test_iter_nodes_local_handoff_first_noops_when_no_affinity(self):
# this test needs a stable node order - most don't
self.app.sort_nodes = lambda l, *args, **kwargs: l
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy = self.policy
self.app.get_policy_options(policy).write_affinity_is_local_fn = None
object_ring = policy.object_ring
all_nodes = object_ring.get_part_nodes(1)
all_nodes.extend(object_ring.get_more_nodes(1))
local_first_nodes = list(controller.iter_nodes_local_first(
object_ring, 1, local_handoffs_first=True))
self.maxDiff = None
self.assertEqual(all_nodes, local_first_nodes)
def test_iter_nodes_handoff_local_first_default(self):
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
object_ring = self.policy.object_ring
primary_nodes = object_ring.get_part_nodes(1)
handoff_nodes_iter = object_ring.get_more_nodes(1)
all_nodes = primary_nodes + list(handoff_nodes_iter)
handoff_nodes_iter = object_ring.get_more_nodes(1)
local_handoffs = [n for n in handoff_nodes_iter if
policy_conf.write_affinity_is_local_fn(n)]
prefered_nodes = list(controller.iter_nodes_local_first(
object_ring, 1, local_handoffs_first=True))
self.assertEqual(len(all_nodes), self.replicas() +
POLICIES.default.object_ring.max_more_nodes)
first_primary_nodes = prefered_nodes[:len(primary_nodes)]
self.assertEqual(sorted(primary_nodes, key=lambda dev: dev['id']),
sorted(first_primary_nodes,
key=lambda dev: dev['id']))
handoff_count = self.replicas() - len(primary_nodes)
first_handoffs = prefered_nodes[len(primary_nodes):][:handoff_count]
self.assertEqual(first_handoffs, local_handoffs[:handoff_count])
def test_iter_nodes_handoff_local_first_non_default(self):
# Obviously this test doesn't work if we're testing 1 replica.
# In that case, we don't have any failovers to check.
if self.replicas() == 1:
return
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
policy_conf.write_affinity_handoff_delete_count = 1
object_ring = self.policy.object_ring
primary_nodes = object_ring.get_part_nodes(1)
handoff_nodes_iter = object_ring.get_more_nodes(1)
all_nodes = primary_nodes + list(handoff_nodes_iter)
handoff_nodes_iter = object_ring.get_more_nodes(1)
local_handoffs = [n for n in handoff_nodes_iter if
policy_conf.write_affinity_is_local_fn(n)]
prefered_nodes = list(controller.iter_nodes_local_first(
object_ring, 1, local_handoffs_first=True))
self.assertEqual(len(all_nodes), self.replicas() +
POLICIES.default.object_ring.max_more_nodes)
first_primary_nodes = prefered_nodes[:len(primary_nodes)]
self.assertEqual(sorted(primary_nodes, key=lambda dev: dev['id']),
sorted(first_primary_nodes,
key=lambda dev: dev['id']))
handoff_count = policy_conf.write_affinity_handoff_delete_count
first_handoffs = prefered_nodes[len(primary_nodes):][:handoff_count]
self.assertEqual(first_handoffs, local_handoffs[:handoff_count])
def test_connect_put_node_timeout(self):
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
req = swift.common.swob.Request.blank('/v1/a/c/o')
self.app.conn_timeout = 0.05
with set_http_connect(slow_connect=True):
nodes = [dict(ip='', port='', device='')]
res = controller._connect_put_node(nodes, '', req, {}, ('', ''))
self.assertIsNone(res)
def test_DELETE_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204] * self.replicas()
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_missing_one(self):
# Obviously this test doesn't work if we're testing 1 replica.
# In that case, we don't have any failovers to check.
if self.replicas() == 1:
return
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [404] + [204] * (self.replicas() - 1)
random.shuffle(codes)
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_not_found(self):
# Obviously this test doesn't work if we're testing 1 replica.
# In that case, we don't have any failovers to check.
if self.replicas() == 1:
return
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [404] * (self.replicas() - 1) + [204]
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_DELETE_mostly_found(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
mostly_204s = [204] * self.quorum()
codes = mostly_204s + [404] * (self.replicas() - len(mostly_204s))
self.assertEqual(len(codes), self.replicas())
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_mostly_not_found(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
mostly_404s = [404] * self.quorum()
codes = mostly_404s + [204] * (self.replicas() - len(mostly_404s))
self.assertEqual(len(codes), self.replicas())
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_DELETE_half_not_found_statuses(self):
self.obj_ring.set_replicas(4)
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
with set_http_connect(404, 204, 404, 204):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_half_not_found_headers_and_body(self):
# Transformed responses have bogus bodies and headers, so make sure we
# send the client headers and body from a real node's response.
self.obj_ring.set_replicas(4)
status_codes = (404, 404, 204, 204)
bodies = (b'not found', b'not found', b'', b'')
headers = [{}, {}, {'Pick-Me': 'yes'}, {'Pick-Me': 'yes'}]
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
with set_http_connect(*status_codes, body_iter=bodies,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
self.assertEqual(resp.headers.get('Pick-Me'), 'yes')
self.assertEqual(resp.body, b'')
def test_DELETE_handoff(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204] * self.replicas()
with set_http_connect(507, *codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_limits_expirer_queue_updates(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204] * self.replicas()
captured_headers = []
def capture_headers(ip, port, device, part, method, path,
headers=None, **kwargs):
captured_headers.append(headers)
with set_http_connect(*codes, give_connect=capture_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204) # sanity check
counts = {True: 0, False: 0, None: 0}
for headers in captured_headers:
v = headers.get('X-Backend-Clean-Expiring-Object-Queue')
norm_v = None if v is None else utils.config_true_value(v)
counts[norm_v] += 1
max_queue_updates = 2
o_replicas = self.replicas()
self.assertEqual(counts, {
True: min(max_queue_updates, o_replicas),
False: max(o_replicas - max_queue_updates, 0),
None: 0,
})
def test_expirer_DELETE_suppresses_expirer_queue_updates(self):
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='DELETE', headers={
'X-Backend-Clean-Expiring-Object-Queue': 'no'})
codes = [204] * self.replicas()
captured_headers = []
def capture_headers(ip, port, device, part, method, path,
headers=None, **kwargs):
captured_headers.append(headers)
with set_http_connect(*codes, give_connect=capture_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204) # sanity check
counts = {True: 0, False: 0, None: 0}
for headers in captured_headers:
v = headers.get('X-Backend-Clean-Expiring-Object-Queue')
norm_v = None if v is None else utils.config_true_value(v)
counts[norm_v] += 1
o_replicas = self.replicas()
self.assertEqual(counts, {
True: 0,
False: o_replicas,
None: 0,
})
# Make sure we're not sending any expirer-queue update headers here.
# Since we're not updating the expirer queue, these headers would be
# superfluous.
for headers in captured_headers:
self.assertNotIn('X-Delete-At-Container', headers)
self.assertNotIn('X-Delete-At-Partition', headers)
self.assertNotIn('X-Delete-At-Host', headers)
self.assertNotIn('X-Delete-At-Device', headers)
def test_DELETE_write_affinity_after_replication(self):
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_handoff_delete_count = self.replicas() // 2
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
handoff_count = policy_conf.write_affinity_handoff_delete_count
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204] * self.replicas() + [404] * handoff_count
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_DELETE_write_affinity_before_replication(self):
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_handoff_delete_count = self.replicas() // 2
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
handoff_count = policy_conf.write_affinity_handoff_delete_count
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = ([204] * (self.replicas() - handoff_count) +
[404] * handoff_count +
[204] * handoff_count)
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_PUT_limits_expirer_queue_deletes(self):
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'application/octet-stream'})
codes = [201] * self.replicas()
captured_headers = []
def capture_headers(ip, port, device, part, method, path,
headers=None, **kwargs):
captured_headers.append(headers)
expect_headers = {
'X-Obj-Metadata-Footer': 'yes',
'X-Obj-Multiphase-Commit': 'yes'
}
with set_http_connect(*codes, give_connect=capture_headers,
expect_headers=expect_headers):
# this req may or may not succeed depending on the Putter type used
# but that's ok because we're only interested in verifying the
# headers that were sent
req.get_response(self.app)
counts = {True: 0, False: 0, None: 0}
for headers in captured_headers:
v = headers.get('X-Backend-Clean-Expiring-Object-Queue')
norm_v = None if v is None else utils.config_true_value(v)
counts[norm_v] += 1
max_queue_updates = 2
o_replicas = self.replicas()
self.assertEqual(counts, {
True: min(max_queue_updates, o_replicas),
False: max(o_replicas - max_queue_updates, 0),
None: 0,
})
def test_POST_limits_expirer_queue_deletes(self):
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='POST', body=b'',
headers={'Content-Type': 'application/octet-stream'})
codes = [201] * self.replicas()
captured_headers = []
def capture_headers(ip, port, device, part, method, path,
headers=None, **kwargs):
captured_headers.append(headers)
with set_http_connect(*codes, give_connect=capture_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201) # sanity check
counts = {True: 0, False: 0, None: 0}
for headers in captured_headers:
v = headers.get('X-Backend-Clean-Expiring-Object-Queue')
norm_v = None if v is None else utils.config_true_value(v)
counts[norm_v] += 1
max_queue_updates = 2
o_replicas = self.replicas()
self.assertEqual(counts, {
True: min(max_queue_updates, o_replicas),
False: max(o_replicas - max_queue_updates, 0),
None: 0,
})
def test_POST_non_int_delete_after(self):
t = str(int(time.time() + 100)) + '.1'
req = swob.Request.blank('/v1/a/c/o', method='POST',
headers={'Content-Type': 'foo/bar',
'X-Delete-After': t})
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'Non-integer X-Delete-After', resp.body)
def test_PUT_non_int_delete_after(self):
t = str(int(time.time() + 100)) + '.1'
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-After': t})
with set_http_connect():
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'Non-integer X-Delete-After', resp.body)
def test_POST_negative_delete_after(self):
req = swob.Request.blank('/v1/a/c/o', method='POST',
headers={'Content-Type': 'foo/bar',
'X-Delete-After': '-60'})
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'X-Delete-After in past', resp.body)
def test_PUT_negative_delete_after(self):
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-After': '-60'})
with set_http_connect():
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'X-Delete-After in past', resp.body)
def test_POST_delete_at_non_integer(self):
t = str(int(time.time() + 100)) + '.1'
req = swob.Request.blank('/v1/a/c/o', method='POST',
headers={'Content-Type': 'foo/bar',
'X-Delete-At': t})
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'Non-integer X-Delete-At', resp.body)
def test_PUT_delete_at_non_integer(self):
t = str(int(time.time() - 100)) + '.1'
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-At': t})
with set_http_connect():
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'Non-integer X-Delete-At', resp.body)
def test_POST_delete_at_in_past(self):
t = str(int(time.time() - 100))
req = swob.Request.blank('/v1/a/c/o', method='POST',
headers={'Content-Type': 'foo/bar',
'X-Delete-At': t})
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'X-Delete-At in past', resp.body)
def test_PUT_delete_at_in_past(self):
t = str(int(time.time() - 100))
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-At': t})
with set_http_connect():
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertEqual(b'X-Delete-At in past', resp.body)
def test_HEAD_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='HEAD')
with set_http_connect(200):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertIn('Accept-Ranges', resp.headers)
def test_HEAD_x_newest(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='HEAD',
headers={'X-Newest': 'true'})
with set_http_connect(*([200] * self.replicas())):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
def test_HEAD_x_newest_different_timestamps(self):
req = swob.Request.blank('/v1/a/c/o', method='HEAD',
headers={'X-Newest': 'true'})
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
timestamps = [next(ts) for i in range(self.replicas())]
newest_timestamp = timestamps[-1]
random.shuffle(timestamps)
backend_response_headers = [{
'X-Backend-Timestamp': t.internal,
'X-Timestamp': t.normal
} for t in timestamps]
with set_http_connect(*([200] * self.replicas()),
headers=backend_response_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['x-timestamp'], newest_timestamp.normal)
def test_HEAD_x_newest_with_two_vector_timestamps(self):
req = swob.Request.blank('/v1/a/c/o', method='HEAD',
headers={'X-Newest': 'true'})
ts = (utils.Timestamp.now(offset=offset)
for offset in itertools.count())
timestamps = [next(ts) for i in range(self.replicas())]
newest_timestamp = timestamps[-1]
random.shuffle(timestamps)
backend_response_headers = [{
'X-Backend-Timestamp': t.internal,
'X-Timestamp': t.normal
} for t in timestamps]
with set_http_connect(*([200] * self.replicas()),
headers=backend_response_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['x-backend-timestamp'],
newest_timestamp.internal)
def test_HEAD_x_newest_with_some_missing(self):
req = swob.Request.blank('/v1/a/c/o', method='HEAD',
headers={'X-Newest': 'true'})
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
request_count = self.app.request_node_count(self.obj_ring.replicas)
backend_response_headers = [{
'x-timestamp': next(ts).normal,
} for i in range(request_count)]
responses = [404] * (request_count - 1)
responses.append(200)
request_log = []
def capture_requests(ip, port, device, part, method, path,
headers=None, **kwargs):
req = {
'ip': ip,
'port': port,
'device': device,
'part': part,
'method': method,
'path': path,
'headers': headers,
}
request_log.append(req)
with set_http_connect(*responses,
headers=backend_response_headers,
give_connect=capture_requests):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
for req in request_log:
self.assertEqual(req['method'], 'HEAD')
self.assertEqual(req['path'], '/a/c/o')
def test_container_sync_delete(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
req = swob.Request.blank(
'/v1/a/c/o', method='DELETE', headers={
'X-Timestamp': next(ts).internal})
codes = [409] * self.obj_ring.replicas
ts_iter = itertools.repeat(next(ts).internal)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 409)
def test_PUT_requires_length(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 411)
def test_container_update_backend_requests(self):
for policy in POLICIES:
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT',
headers={'Content-Length': '0',
'X-Backend-Storage-Policy-Index': int(policy)})
controller = self.controller_cls(self.app, 'a', 'c', 'o')
# This is the number of container updates we're doing, simulating
# 1 to 15 container replicas.
for num_containers in range(1, 16):
containers = [{'ip': '1.0.0.%s' % i,
'port': '60%s' % str(i).zfill(2),
'device': 'sdb'} for i in range(num_containers)]
backend_headers = controller._backend_requests(
req, self.replicas(policy), 1, containers)
# how many of the backend headers have a container update
n_container_updates = len(
[headers for headers in backend_headers
if 'X-Container-Partition' in headers])
# how many object-server PUTs can fail and still let the
# client PUT succeed
n_can_fail = self.replicas(policy) - self.quorum(policy)
n_expected_updates = (
n_can_fail + utils.quorum_size(num_containers))
# you get at least one update per container no matter what
n_expected_updates = max(
n_expected_updates, num_containers)
# you can't have more object requests with updates than you
# have object requests (the container stuff gets doubled up,
# but that's not important for purposes of durability)
n_expected_updates = min(
n_expected_updates, self.replicas(policy))
self.assertEqual(n_expected_updates, n_container_updates)
def test_delete_at_backend_requests(self):
t = str(int(time.time() + 100))
for policy in POLICIES:
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT',
headers={'Content-Length': '0',
'X-Backend-Storage-Policy-Index': int(policy),
'X-Delete-At': t})
controller = self.controller_cls(self.app, 'a', 'c', 'o')
for num_del_at_nodes in range(1, 16):
containers = [
{'ip': '2.0.0.%s' % i, 'port': '70%s' % str(i).zfill(2),
'device': 'sdc'} for i in range(num_del_at_nodes)]
del_at_nodes = [
{'ip': '1.0.0.%s' % i, 'port': '60%s' % str(i).zfill(2),
'device': 'sdb'} for i in range(num_del_at_nodes)]
backend_headers = controller._backend_requests(
req, self.replicas(policy), 1, containers,
delete_at_container='dac', delete_at_partition=2,
delete_at_nodes=del_at_nodes)
devices = []
hosts = []
part = ctr = 0
for given_headers in backend_headers:
self.assertEqual(given_headers.get('X-Delete-At'), t)
if 'X-Delete-At-Partition' in given_headers:
self.assertEqual(
given_headers.get('X-Delete-At-Partition'), '2')
part += 1
if 'X-Delete-At-Container' in given_headers:
self.assertEqual(
given_headers.get('X-Delete-At-Container'), 'dac')
ctr += 1
devices += (
list_from_csv(given_headers.get('X-Delete-At-Device')))
hosts += (
list_from_csv(given_headers.get('X-Delete-At-Host')))
# same as in test_container_update_backend_requests
n_can_fail = self.replicas(policy) - self.quorum(policy)
n_expected_updates = (
n_can_fail + utils.quorum_size(num_del_at_nodes))
n_expected_hosts = max(
n_expected_updates, num_del_at_nodes)
self.assertEqual(len(hosts), n_expected_hosts)
self.assertEqual(len(devices), n_expected_hosts)
# parts don't get doubled up, maximum is count of obj requests
n_expected_parts = min(
n_expected_hosts, self.replicas(policy))
self.assertEqual(part, n_expected_parts)
self.assertEqual(ctr, n_expected_parts)
# check that hosts are correct
self.assertEqual(
set(hosts),
set('%s:%s' % (h['ip'], h['port']) for h in del_at_nodes))
self.assertEqual(set(devices), set(('sdb',)))
def test_smooth_distributed_backend_requests(self):
t = str(int(time.time() + 100))
for policy in POLICIES:
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT',
headers={'Content-Length': '0',
'X-Backend-Storage-Policy-Index': int(policy),
'X-Delete-At': t})
controller = self.controller_cls(self.app, 'a', 'c', 'o')
for num_containers in range(1, 16):
containers = [
{'ip': '2.0.0.%s' % i, 'port': '70%s' % str(i).zfill(2),
'device': 'sdc'} for i in range(num_containers)]
del_at_nodes = [
{'ip': '1.0.0.%s' % i, 'port': '60%s' % str(i).zfill(2),
'device': 'sdb'} for i in range(num_containers)]
backend_headers = controller._backend_requests(
req, self.replicas(policy), 1, containers,
delete_at_container='dac', delete_at_partition=2,
delete_at_nodes=del_at_nodes)
# caculate no of expected updates, see
# test_container_update_backend_requests for explanation
n_expected_updates = min(max(
self.replicas(policy) - self.quorum(policy) +
utils.quorum_size(num_containers), num_containers),
self.replicas(policy))
# the first n_expected_updates servers should have received
# a container update
self.assertTrue(
all([h.get('X-Container-Partition')
for h in backend_headers[:n_expected_updates]]))
# the last n_expected_updates servers should have received
# the x-delete-at* headers
self.assertTrue(
all([h.get('X-Delete-At-Container')
for h in backend_headers[-n_expected_updates:]]))
def _check_write_affinity(
self, conf, policy_conf, policy, affinity_regions, affinity_count):
conf['policy_config'] = policy_conf
app = PatchedObjControllerApp(
conf, FakeMemcache(), account_ring=FakeRing(),
container_ring=FakeRing(), logger=self.logger)
controller = self.controller_cls(app, 'a', 'c', 'o')
object_ring = app.get_object_ring(int(policy))
# make our fake ring have plenty of nodes, and not get limited
# artificially by the proxy max request node count
object_ring.max_more_nodes = 100
all_nodes = object_ring.get_part_nodes(1)
all_nodes.extend(object_ring.get_more_nodes(1))
# make sure we have enough local nodes (sanity)
all_local_nodes = [n for n in all_nodes if
n['region'] in affinity_regions]
self.assertGreaterEqual(len(all_local_nodes), affinity_count)
# finally, create the local_first_nodes iter and flatten it out
local_first_nodes = list(controller.iter_nodes_local_first(
object_ring, 1, policy))
# check that the required number of local nodes were moved up the order
node_regions = [node['region'] for node in local_first_nodes]
self.assertTrue(
all(r in affinity_regions for r in node_regions[:affinity_count]),
'Unexpected region found in local nodes, expected %s but got %s' %
(affinity_regions, node_regions))
return app
def test_write_affinity_not_configured(self):
# default is no write affinity so expect both regions 0 and 1
self._check_write_affinity({}, {}, POLICIES[0], [0, 1],
2 * self.replicas(POLICIES[0]))
self._check_write_affinity({}, {}, POLICIES[1], [0, 1],
2 * self.replicas(POLICIES[1]))
def test_write_affinity_proxy_server_config(self):
# without overrides policies use proxy-server config section options
conf = {'write_affinity_node_count': '1 * replicas',
'write_affinity': 'r0'}
self._check_write_affinity(conf, {}, POLICIES[0], [0],
self.replicas(POLICIES[0]))
self._check_write_affinity(conf, {}, POLICIES[1], [0],
self.replicas(POLICIES[1]))
def test_write_affinity_per_policy_config(self):
# check only per-policy configuration is sufficient
conf = {}
policy_conf = {'0': {'write_affinity_node_count': '1 * replicas',
'write_affinity': 'r1'},
'1': {'write_affinity_node_count': '5',
'write_affinity': 'r0'}}
self._check_write_affinity(conf, policy_conf, POLICIES[0], [1],
self.replicas(POLICIES[0]))
self._check_write_affinity(conf, policy_conf, POLICIES[1], [0], 5)
def test_write_affinity_per_policy_config_overrides_and_inherits(self):
# check per-policy config is preferred over proxy-server section config
conf = {'write_affinity_node_count': '1 * replicas',
'write_affinity': 'r0'}
policy_conf = {'0': {'write_affinity': 'r1'},
'1': {'write_affinity_node_count': '3 * replicas'}}
# policy 0 inherits default node count, override affinity to r1
self._check_write_affinity(conf, policy_conf, POLICIES[0], [1],
self.replicas(POLICIES[0]))
# policy 1 inherits default affinity to r0, overrides node count
self._check_write_affinity(conf, policy_conf, POLICIES[1], [0],
3 * self.replicas(POLICIES[1]))
# end of CommonObjectControllerMixin
@patch_policies()
class TestReplicatedObjController(CommonObjectControllerMixin,
unittest.TestCase):
controller_cls = obj.ReplicatedObjectController
def test_PUT_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
req.headers['content-length'] = '0'
with set_http_connect(201, 201, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_error_with_footers(self):
footers_callback = make_footers_callback(b'')
env = {'swift.callback.update_footers': footers_callback}
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
environ=env)
req.headers['content-length'] = '0'
codes = [503] * self.replicas()
expect_headers = {
'X-Obj-Metadata-Footer': 'yes'
}
with set_http_connect(*codes, expect_headers=expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def _test_PUT_with_no_footers(self, test_body=b'', chunked=False):
# verify that when no footers are required then the PUT uses a regular
# single part body
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=test_body)
if chunked:
req.headers['Transfer-Encoding'] = 'chunked'
etag = md5(test_body).hexdigest()
req.headers['Etag'] = etag
put_requests = defaultdict(
lambda: {'headers': None, 'chunks': [], 'connection': None})
def capture_body(conn, chunk):
put_requests[conn.connection_id]['chunks'].append(chunk)
put_requests[conn.connection_id]['connection'] = conn
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
conn_id = kwargs['connection_id']
put_requests[conn_id]['headers'] = headers
codes = [201] * self.replicas()
expect_headers = {'X-Obj-Metadata-Footer': 'yes'}
resp_headers = {
'Some-Header': 'Four',
'Etag': '"%s"' % etag,
}
with set_http_connect(*codes, expect_headers=expect_headers,
give_send=capture_body,
give_connect=capture_headers,
headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
timestamps = {captured_req['headers']['x-timestamp']
for captured_req in put_requests.values()}
self.assertEqual(1, len(timestamps), timestamps)
self.assertEqual(dict(resp.headers), {
'Content-Type': 'text/html; charset=UTF-8',
'Content-Length': '0',
'Etag': etag,
'Last-Modified': time.strftime(
"%a, %d %b %Y %H:%M:%S GMT",
time.gmtime(math.ceil(float(timestamps.pop())))),
})
for connection_id, info in put_requests.items():
body = b''.join(info['chunks'])
headers = info['headers']
if chunked or not test_body:
body = unchunk_body(body)
self.assertEqual('100-continue', headers['Expect'])
self.assertEqual('chunked', headers['Transfer-Encoding'])
self.assertNotIn('Content-Length', headers)
else:
self.assertNotIn('Transfer-Encoding', headers)
if body or not test_body:
self.assertEqual('100-continue', headers['Expect'])
else:
self.assertNotIn('Expect', headers)
self.assertNotIn('X-Backend-Obj-Multipart-Mime-Boundary', headers)
self.assertNotIn('X-Backend-Obj-Metadata-Footer', headers)
self.assertNotIn('X-Backend-Obj-Multiphase-Commit', headers)
self.assertEqual(etag, headers['Etag'])
self.assertEqual(test_body, body)
self.assertTrue(info['connection'].closed)
def test_PUT_with_chunked_body_and_no_footers(self):
self._test_PUT_with_no_footers(test_body=b'asdf', chunked=True)
def test_PUT_with_body_and_no_footers(self):
self._test_PUT_with_no_footers(test_body=b'asdf', chunked=False)
def test_PUT_with_no_body_and_no_footers(self):
self._test_PUT_with_no_footers(test_body=b'', chunked=False)
def test_txn_id_logging_on_PUT(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
self.app.logger.txn_id = req.environ['swift.trans_id'] = 'test-txn-id'
req.headers['content-length'] = '0'
# we capture stdout since the debug log formatter prints the formatted
# message to stdout
stdout = StringIO()
with set_http_connect((100, Timeout()), 503, 503), \
mock.patch('sys.stdout', stdout):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
for line in stdout.getvalue().splitlines():
self.assertIn('test-txn-id', line)
self.assertIn('Trying to get final status of PUT to',
stdout.getvalue())
def test_PUT_empty_bad_etag(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
req.headers['Content-Length'] = '0'
req.headers['Etag'] = '"catbus"'
# The 2-tuple here makes getexpect() return 422, not 100. For objects
# that are >0 bytes, you get a 100 Continue and then a 422
# Unprocessable Entity after sending the body. For zero-byte objects,
# though, you get the 422 right away because no Expect header is sent
# with zero-byte PUT. The second status in the tuple should not be
# consumed, it's just there to make the FakeStatus treat the first as
# an expect status, but we'll make it something other than a 422 so
# that if it is consumed then the test should fail.
codes = [FakeStatus((422, 200))
for _junk in range(self.replicas())]
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 422)
def test_PUT_if_none_match(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
req.headers['if-none-match'] = '*'
req.headers['content-length'] = '0'
with set_http_connect(201, 201, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_if_none_match_denied(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
req.headers['if-none-match'] = '*'
req.headers['content-length'] = '0'
with set_http_connect(201, 412, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 412)
def test_PUT_if_none_match_not_star(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT')
req.headers['if-none-match'] = 'somethingelse'
req.headers['content-length'] = '0'
with set_http_connect():
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
def test_PUT_connect_exceptions(self):
object_ring = self.app.get_object_ring(None)
self.app.sort_nodes = lambda n, *args, **kwargs: n # disable shuffle
def test_status_map(statuses, expected):
self.app._error_limiting = {}
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
with set_http_connect(*statuses):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, expected)
base_status = [201] * 3
# test happy path
test_status_map(list(base_status), 201)
for i in range(3):
self.assertEqual(node_error_count(
self.app, object_ring.devs[i]), 0)
# single node errors and test isolation
for i in range(3):
status_list = list(base_status)
status_list[i] = 503
test_status_map(status_list, 201)
for j in range(3):
self.assertEqual(node_error_count(
self.app, object_ring.devs[j]), 1 if j == i else 0)
# connect errors
test_status_map((201, Timeout(), 201, 201), 201)
self.assertEqual(node_error_count(
self.app, object_ring.devs[1]), 1)
test_status_map((Exception('kaboom!'), 201, 201, 201), 201)
self.assertEqual(node_error_count(
self.app, object_ring.devs[0]), 1)
# expect errors
test_status_map((201, 201, (503, None), 201), 201)
self.assertEqual(node_error_count(
self.app, object_ring.devs[2]), 1)
test_status_map(((507, None), 201, 201, 201), 201)
self.assertEqual(
node_error_count(self.app, object_ring.devs[0]),
self.app.error_suppression_limit + 1)
# response errors
test_status_map(((100, Timeout()), 201, 201), 201)
self.assertEqual(
node_error_count(self.app, object_ring.devs[0]), 1)
test_status_map((201, 201, (100, Exception())), 201)
self.assertEqual(
node_error_count(self.app, object_ring.devs[2]), 1)
test_status_map((201, (100, 507), 201), 201)
self.assertEqual(
node_error_count(self.app, object_ring.devs[1]),
self.app.error_suppression_limit + 1)
def test_PUT_connect_exception_with_unicode_path(self):
expected = 201
statuses = (
Exception('Connection refused: Please insert ten dollars'),
201, 201, 201)
req = swob.Request.blank('/v1/AUTH_kilroy/%ED%88%8E/%E9%90%89',
method='PUT',
body=b'life is utf-gr8')
self.app.logger.clear()
with set_http_connect(*statuses):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, expected)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertFalse(log_lines[1:])
self.assertIn('ERROR with Object server', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'), log_lines[0])
self.assertIn('re: Expect: 100-continue', log_lines[0])
def test_PUT_get_expect_errors_with_unicode_path(self):
def do_test(statuses):
req = swob.Request.blank('/v1/AUTH_kilroy/%ED%88%8E/%E9%90%89',
method='PUT',
body=b'life is utf-gr8')
self.app.logger.clear()
with set_http_connect(*statuses):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertFalse(log_lines[1:])
return log_lines
log_lines = do_test((201, (507, None), 201, 201))
self.assertIn('ERROR Insufficient Storage', log_lines[0])
log_lines = do_test((201, (503, None), 201, 201))
self.assertIn('ERROR 503 Expect: 100-continue From Object Server',
log_lines[0])
def test_PUT_send_exception_with_unicode_path(self):
def do_test(exc):
conns = set()
def capture_send(conn, data):
conns.add(conn)
if len(conns) == 2:
raise exc
req = swob.Request.blank('/v1/AUTH_kilroy/%ED%88%8E/%E9%90%89',
method='PUT',
body=b'life is utf-gr8')
self.app.logger.clear()
with set_http_connect(201, 201, 201, give_send=capture_send):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertFalse(log_lines[1:])
self.assertIn('ERROR with Object server', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'),
log_lines[0])
self.assertIn('Trying to write to', log_lines[0])
do_test(Exception('Exception while sending data on connection'))
do_test(ChunkWriteTimeout())
def test_PUT_final_response_errors_with_unicode_path(self):
def do_test(statuses):
req = swob.Request.blank('/v1/AUTH_kilroy/%ED%88%8E/%E9%90%89',
method='PUT',
body=b'life is utf-gr8')
self.app.logger.clear()
with set_http_connect(*statuses):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertFalse(log_lines[1:])
return req, log_lines
req, log_lines = do_test((201, (100, Exception('boom')), 201))
self.assertIn('ERROR with Object server', log_lines[0])
if six.PY3:
self.assertIn(req.path, log_lines[0])
else:
self.assertIn(req.path.decode('utf-8'), log_lines[0])
self.assertIn('Trying to get final status of PUT', log_lines[0])
req, log_lines = do_test((201, (100, Timeout()), 201))
self.assertIn('ERROR with Object server', log_lines[0])
if six.PY3:
self.assertIn(req.path, log_lines[0])
else:
self.assertIn(req.path.decode('utf-8'), log_lines[0])
self.assertIn('Trying to get final status of PUT', log_lines[0])
req, log_lines = do_test((201, (100, 507), 201))
self.assertIn('ERROR Insufficient Storage', log_lines[0])
req, log_lines = do_test((201, (100, 500), 201))
if six.PY3:
# We allow the b'' in logs because we want to see bad characters.
self.assertIn("ERROR 500 b'' From Object Server", log_lines[0])
self.assertIn(req.path, log_lines[0])
else:
self.assertIn('ERROR 500 From Object Server', log_lines[0])
self.assertIn(req.path.decode('utf-8'), log_lines[0])
def test_DELETE_errors(self):
# verify logged errors with and without non-ascii characters in path
def do_test(path, statuses):
req = swob.Request.blank('/v1' + path,
method='DELETE',
body=b'life is utf-gr8')
self.app.logger.clear()
with set_http_connect(*statuses):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertFalse(log_lines[1:])
return req, log_lines
req, log_lines = do_test('/AUTH_kilroy/ascii/ascii',
(201, 500, 201, 201))
self.assertIn('Trying to DELETE', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'), log_lines[0])
self.assertIn(' From Object Server', log_lines[0])
req, log_lines = do_test('/AUTH_kilroy/%ED%88%8E/%E9%90%89',
(201, 500, 201, 201))
self.assertIn('Trying to DELETE', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'), log_lines[0])
self.assertIn(' From Object Server', log_lines[0])
req, log_lines = do_test('/AUTH_kilroy/ascii/ascii',
(201, 507, 201, 201))
self.assertIn('ERROR Insufficient Storage', log_lines[0])
req, log_lines = do_test('/AUTH_kilroy/%ED%88%8E/%E9%90%89',
(201, 507, 201, 201))
self.assertIn('ERROR Insufficient Storage', log_lines[0])
req, log_lines = do_test('/AUTH_kilroy/ascii/ascii',
(201, Exception(), 201, 201))
self.assertIn('Trying to DELETE', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'), log_lines[0])
self.assertIn('ERROR with Object server', log_lines[0])
req, log_lines = do_test('/AUTH_kilroy/%ED%88%8E/%E9%90%89',
(201, Exception(), 201, 201))
self.assertIn('Trying to DELETE', log_lines[0])
if six.PY3:
self.assertIn(req.swift_entity_path, log_lines[0])
else:
self.assertIn(req.swift_entity_path.decode('utf-8'), log_lines[0])
self.assertIn('ERROR with Object server', log_lines[0])
def test_DELETE_with_write_affinity(self):
policy_conf = self.app.get_policy_options(self.policy)
policy_conf.write_affinity_handoff_delete_count = self.replicas() // 2
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204, 204, 404, 204]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
codes = [204, 404, 404, 204]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
policy_conf.write_affinity_handoff_delete_count = 2
codes = [204, 204, 404, 204, 404]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
codes = [204, 404, 404, 204, 204]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
def test_PUT_error_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise IOError('error message')
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
with set_http_connect(201, 201, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 499)
def test_PUT_chunkreadtimeout_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise exceptions.ChunkReadTimeout()
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
with set_http_connect(201, 201, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 408)
def test_PUT_timeout_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise Timeout()
conns = []
def capture_expect(conn):
# stash connections so that we can verify they all get closed
conns.append(conn)
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
with set_http_connect(201, 201, 201, give_expect=capture_expect):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 499)
self.assertEqual(self.replicas(), len(conns))
for conn in conns:
self.assertTrue(conn.closed)
def test_PUT_exception_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise Exception('exception message')
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
with set_http_connect(201, 201, 201):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 500)
def test_GET_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
with set_http_connect(200, headers={'Connection': 'close'}):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertIn('Accept-Ranges', resp.headers)
self.assertNotIn('Connection', resp.headers)
def test_GET_transfer_encoding_chunked(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
with set_http_connect(200, headers={'transfer-encoding': 'chunked'}):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['Transfer-Encoding'], 'chunked')
def _test_removes_swift_bytes(self, method):
req = swift.common.swob.Request.blank('/v1/a/c/o', method=method)
with set_http_connect(
200, headers={'content-type': 'image/jpeg; swift_bytes=99'}):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['Content-Type'], 'image/jpeg')
def test_GET_removes_swift_bytes(self):
self._test_removes_swift_bytes('GET')
def test_HEAD_removes_swift_bytes(self):
self._test_removes_swift_bytes('HEAD')
def test_GET_error(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
self.app.logger.txn_id = req.environ['swift.trans_id'] = 'my-txn-id'
stdout = StringIO()
with set_http_connect(503, 200), \
mock.patch('sys.stdout', stdout):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
for line in stdout.getvalue().splitlines():
self.assertIn('my-txn-id', line)
self.assertIn('From Object Server', stdout.getvalue())
def test_GET_handoff(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
codes = [503] * self.obj_ring.replicas + [200]
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
def test_GET_not_found(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
codes = [404] * (self.obj_ring.replicas +
self.obj_ring.max_more_nodes)
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_GET_primaries_explode(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
codes = [Exception('kaboom!')] * self.obj_ring.replicas + (
[404] * self.obj_ring.max_more_nodes)
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_GET_primaries_timeout(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
codes = [Timeout()] * self.obj_ring.replicas + (
[404] * self.obj_ring.max_more_nodes)
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_GET_primaries_mixed_explode_and_timeout(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
primaries = []
for i in range(self.obj_ring.replicas):
if i % 2:
primaries.append(Timeout())
else:
primaries.append(Exception('kaboom!'))
codes = primaries + [404] * self.obj_ring.max_more_nodes
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_primary_returns_some_nonsense_timestamp(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
# an un-handled ValueError in _make_node_request should just continue
# to the next node rather than hang the request
headers = [{'X-Backend-Timestamp': 'not-a-timestamp'}, {}]
codes = [200, 200]
with set_http_connect(*codes, headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
def test_GET_not_found_when_404_newer(self):
# if proxy receives a 404, it keeps waiting for other connections until
# max number of nodes in hopes of finding an object, but if 404 is
# more recent than a 200, then it should ignore 200 and return 404
req = swift.common.swob.Request.blank('/v1/a/c/o')
codes = [404] * self.obj_ring.replicas + \
[200] * self.obj_ring.max_more_nodes
ts_iter = iter([2] * self.obj_ring.replicas +
[1] * self.obj_ring.max_more_nodes)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_GET_x_newest_not_found_when_404_newer(self):
# if proxy receives a 404, it keeps waiting for other connections until
# max number of nodes in hopes of finding an object, but if 404 is
# more recent than a 200, then it should ignore 200 and return 404
req = swift.common.swob.Request.blank('/v1/a/c/o',
headers={'X-Newest': 'true'})
codes = ([200] +
[404] * self.obj_ring.replicas +
[200] * (self.obj_ring.max_more_nodes - 1))
ts_iter = iter([1] +
[2] * self.obj_ring.replicas +
[1] * (self.obj_ring.max_more_nodes - 1))
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
def test_PUT_delete_at(self):
t = str(int(time.time() + 100))
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-At': t})
put_headers = []
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
if method == 'PUT':
put_headers.append(headers)
codes = [201] * self.obj_ring.replicas
with set_http_connect(*codes, give_connect=capture_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
for given_headers in put_headers:
self.assertEqual(given_headers.get('X-Delete-At'), t)
self.assertIn('X-Delete-At-Host', given_headers)
self.assertIn('X-Delete-At-Device', given_headers)
self.assertIn('X-Delete-At-Partition', given_headers)
self.assertIn('X-Delete-At-Container', given_headers)
def test_PUT_converts_delete_after_to_delete_at(self):
req = swob.Request.blank('/v1/a/c/o', method='PUT', body=b'',
headers={'Content-Type': 'foo/bar',
'X-Delete-After': '60'})
put_headers = []
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
if method == 'PUT':
put_headers.append(headers)
codes = [201] * self.obj_ring.replicas
t = time.time()
with set_http_connect(*codes, give_connect=capture_headers):
with mock.patch('time.time', lambda: t):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
expected_delete_at = str(int(t) + 60)
for given_headers in put_headers:
self.assertEqual(given_headers.get('X-Delete-At'),
expected_delete_at)
self.assertIn('X-Delete-At-Host', given_headers)
self.assertIn('X-Delete-At-Device', given_headers)
self.assertIn('X-Delete-At-Partition', given_headers)
self.assertIn('X-Delete-At-Container', given_headers)
def test_container_sync_put_x_timestamp_not_found(self):
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
self.app.container_info['storage_policy'] = policy_index
put_timestamp = utils.Timestamp.now().normal
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': put_timestamp})
codes = [201] * self.obj_ring.replicas
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_container_sync_put_x_timestamp_match(self):
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
self.app.container_info['storage_policy'] = policy_index
put_timestamp = utils.Timestamp.now().normal
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': put_timestamp})
ts_iter = itertools.repeat(put_timestamp)
codes = [409] * self.obj_ring.replicas
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_container_sync_put_x_timestamp_older(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
self.app.container_info['storage_policy'] = policy_index
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': next(ts).internal})
ts_iter = itertools.repeat(next(ts).internal)
codes = [409] * self.obj_ring.replicas
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_container_sync_put_x_timestamp_newer(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
orig_timestamp = next(ts).internal
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': next(ts).internal})
ts_iter = itertools.repeat(orig_timestamp)
codes = [201] * self.obj_ring.replicas
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_put_x_timestamp_conflict(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': next(ts).internal})
ts_iter = iter([next(ts).internal, None, None])
codes = [409] + [201] * (self.obj_ring.replicas - 1)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_put_x_timestamp_conflict_with_missing_backend_timestamp(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': next(ts).internal})
ts_iter = iter([None, None, None])
codes = [409] * self.obj_ring.replicas
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_put_x_timestamp_conflict_with_other_weird_success_response(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': next(ts).internal})
ts_iter = iter([next(ts).internal, None, None])
codes = [409] + [(201, 'notused')] * (self.obj_ring.replicas - 1)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_put_x_timestamp_conflict_with_if_none_match(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'If-None-Match': '*',
'X-Timestamp': next(ts).internal})
ts_iter = iter([next(ts).internal, None, None])
codes = [409] + [(412, 'notused')] * (self.obj_ring.replicas - 1)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 412)
def test_container_sync_put_x_timestamp_race(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
put_timestamp = next(ts).internal
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': put_timestamp})
# object nodes they respond 409 because another in-flight request
# finished and now the on disk timestamp is equal to the request.
put_ts = [put_timestamp] * self.obj_ring.replicas
codes = [409] * self.obj_ring.replicas
ts_iter = iter(put_ts)
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_container_sync_put_x_timestamp_unsynced_race(self):
ts = (utils.Timestamp(t) for t in itertools.count(int(time.time())))
test_indexes = [None] + [int(p) for p in POLICIES]
for policy_index in test_indexes:
put_timestamp = next(ts).internal
req = swob.Request.blank(
'/v1/a/c/o', method='PUT', headers={
'Content-Length': 0,
'X-Timestamp': put_timestamp})
# only one in-flight request finished
put_ts = [None] * (self.obj_ring.replicas - 1)
put_resp = [201] * (self.obj_ring.replicas - 1)
put_ts += [put_timestamp]
put_resp += [409]
ts_iter = iter(put_ts)
codes = put_resp
with set_http_connect(*codes, timestamps=ts_iter):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 202)
def test_x_timestamp_not_overridden(self):
def do_test(method, base_headers, resp_code):
# no given x-timestamp
req = swob.Request.blank(
'/v1/a/c/o', method=method, headers=base_headers)
codes = [resp_code] * self.replicas()
with mocked_http_conn(*codes) as fake_conn:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, resp_code)
self.assertEqual(self.replicas(), len(fake_conn.requests))
for req in fake_conn.requests:
self.assertIn('X-Timestamp', req['headers'])
# check value can be parsed as valid timestamp
Timestamp(req['headers']['X-Timestamp'])
# given x-timestamp is retained
def do_check(ts):
headers = dict(base_headers)
headers['X-Timestamp'] = ts.internal
req = swob.Request.blank(
'/v1/a/c/o', method=method, headers=headers)
codes = [resp_code] * self.replicas()
with mocked_http_conn(*codes) as fake_conn:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, resp_code)
self.assertEqual(self.replicas(), len(fake_conn.requests))
for req in fake_conn.requests:
self.assertEqual(ts.internal,
req['headers']['X-Timestamp'])
do_check(Timestamp.now())
do_check(Timestamp.now(offset=123))
# given x-timestamp gets sanity checked
headers = dict(base_headers)
headers['X-Timestamp'] = 'bad timestamp'
req = swob.Request.blank(
'/v1/a/c/o', method=method, headers=headers)
with mocked_http_conn() as fake_conn:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 400)
self.assertIn(b'X-Timestamp should be a UNIX timestamp ',
resp.body)
do_test('PUT', {'Content-Length': 0}, 200)
do_test('DELETE', {}, 204)
@patch_policies(
[StoragePolicy(0, '1-replica', True),
StoragePolicy(1, '4-replica', False),
StoragePolicy(2, '8-replica', False),
StoragePolicy(3, '15-replica', False)],
fake_ring_args=[
{'replicas': 1}, {'replicas': 4}, {'replicas': 8}, {'replicas': 15}])
class TestReplicatedObjControllerVariousReplicas(CommonObjectControllerMixin,
unittest.TestCase):
controller_cls = obj.ReplicatedObjectController
def test_DELETE_with_write_affinity(self):
policy_index = 1
self.policy = POLICIES[policy_index]
policy_conf = self.app.get_policy_options(self.policy)
self.app.container_info['storage_policy'] = policy_index
policy_conf.write_affinity_handoff_delete_count = \
self.replicas(self.policy) // 2
policy_conf.write_affinity_is_local_fn = (
lambda node: node['region'] == 1)
req = swift.common.swob.Request.blank('/v1/a/c/o', method='DELETE')
codes = [204, 204, 404, 404, 204, 204]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
policy_conf.write_affinity_handoff_delete_count = 1
codes = [204, 204, 404, 404, 204]
with mocked_http_conn(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 204)
@patch_policies()
class TestReplicatedObjControllerMimePutter(BaseObjectControllerMixin,
unittest.TestCase):
# tests specific to PUTs using a MimePutter
expect_headers = {
'X-Obj-Metadata-Footer': 'yes'
}
def setUp(self):
super(TestReplicatedObjControllerMimePutter, self).setUp()
# force use of a MimePutter
self.app.use_put_v1 = False
def test_PUT_error(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [503] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def _test_PUT_with_footers(self, test_body=b''):
# verify that when footers are required the PUT body is multipart
# and the footers are appended
footers_callback = make_footers_callback(test_body)
env = {'swift.callback.update_footers': footers_callback}
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
environ=env)
req.body = test_body
# send bogus Etag header to differentiate from footer value
req.headers['Etag'] = 'header_etag'
codes = [201] * self.replicas()
put_requests = defaultdict(
lambda: {'headers': None, 'chunks': [], 'connection': None})
def capture_body(conn, chunk):
put_requests[conn.connection_id]['chunks'].append(chunk)
put_requests[conn.connection_id]['connection'] = conn
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
conn_id = kwargs['connection_id']
put_requests[conn_id]['headers'] = headers
resp_headers = {
'Etag': '"resp_etag"',
# NB: ignored!
'Some-Header': 'Four',
}
with set_http_connect(*codes, expect_headers=self.expect_headers,
give_send=capture_body,
give_connect=capture_headers,
headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
timestamps = {captured_req['headers']['x-timestamp']
for captured_req in put_requests.values()}
self.assertEqual(1, len(timestamps), timestamps)
self.assertEqual(dict(resp.headers), {
'Content-Type': 'text/html; charset=UTF-8',
'Content-Length': '0',
'Etag': 'resp_etag',
'Last-Modified': time.strftime(
"%a, %d %b %Y %H:%M:%S GMT",
time.gmtime(math.ceil(float(timestamps.pop())))),
})
for connection_id, info in put_requests.items():
body = unchunk_body(b''.join(info['chunks']))
headers = info['headers']
boundary = headers['X-Backend-Obj-Multipart-Mime-Boundary']
self.assertTrue(boundary is not None,
"didn't get boundary for conn %r" % (
connection_id,))
self.assertEqual('chunked', headers['Transfer-Encoding'])
self.assertEqual('100-continue', headers['Expect'])
self.assertEqual('yes', headers['X-Backend-Obj-Metadata-Footer'])
self.assertNotIn('X-Backend-Obj-Multiphase-Commit', headers)
self.assertEqual('header_etag', headers['Etag'])
# email.parser.FeedParser doesn't know how to take a multipart
# message and boundary together and parse it; it only knows how
# to take a string, parse the headers, and figure out the
# boundary on its own.
parser = EmailFeedParser()
parser.feed(
("Content-Type: multipart/nobodycares; boundary=%s\r\n\r\n" %
boundary).encode('ascii'))
parser.feed(body)
message = parser.close()
self.assertTrue(message.is_multipart()) # sanity check
mime_parts = message.get_payload()
# notice, no commit confirmation
self.assertEqual(len(mime_parts), 2)
obj_part, footer_part = mime_parts
self.assertEqual(obj_part['X-Document'], 'object body')
self.assertEqual(test_body, obj_part.get_payload(decode=True))
# validate footer metadata
self.assertEqual(footer_part['X-Document'], 'object metadata')
footer_metadata = json.loads(footer_part.get_payload())
self.assertTrue(footer_metadata)
expected = {}
footers_callback(expected)
self.assertDictEqual(expected, footer_metadata)
self.assertTrue(info['connection'].closed)
def test_PUT_with_body_and_footers(self):
self._test_PUT_with_footers(test_body=b'asdf')
def test_PUT_with_no_body_and_footers(self):
self._test_PUT_with_footers()
@contextmanager
def capture_http_requests(get_response):
class FakeConn(object):
def __init__(self, req):
self.req = req
self.resp = None
self.path = "/"
def getresponse(self):
self.resp = get_response(self.req)
return self.resp
def putrequest(self, method, path, **kwargs):
pass
def putheader(self, k, v):
pass
def endheaders(self):
pass
class ConnectionLog(object):
def __init__(self):
self.connections = []
def __len__(self):
return len(self.connections)
def __getitem__(self, i):
return self.connections[i]
def __iter__(self):
return iter(self.connections)
def __call__(self, ip, port, method, path, headers, qs, ssl):
req = {
'ip': ip,
'port': port,
'method': method,
'path': path,
'headers': headers,
'qs': qs,
'ssl': ssl,
}
conn = FakeConn(req)
self.connections.append(conn)
return conn
fake_conn = ConnectionLog()
with mock.patch('swift.common.bufferedhttp.http_connect_raw',
new=fake_conn):
yield fake_conn
class ECObjectControllerMixin(CommonObjectControllerMixin):
# Add a few helper methods for EC tests.
def _make_ec_archive_bodies(self, test_body, policy=None):
policy = policy or self.policy
return encode_frag_archive_bodies(policy, test_body)
def _make_ec_object_stub(self, pattern='test', policy=None,
timestamp=None):
policy = policy or self.policy
if isinstance(pattern, six.text_type):
pattern = pattern.encode('utf-8')
test_body = pattern * policy.ec_segment_size
test_body = test_body[:-random.randint(1, 1000)]
return make_ec_object_stub(test_body, policy, timestamp)
def _fake_ec_node_response(self, node_frags):
return fake_ec_node_response(node_frags, self.policy)
def test_GET_with_duplicate_but_sufficient_frag_indexes(self):
obj1 = self._make_ec_object_stub()
# proxy should ignore duplicated frag indexes and continue search for
# a set of unique indexes, finding last one on a handoff
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj1, 'frag': 0}, # duplicate frag
{'obj': obj1, 'frag': 1},
{'obj': obj1, 'frag': 1}, # duplicate frag
{'obj': obj1, 'frag': 2},
{'obj': obj1, 'frag': 2}, # duplicate frag
{'obj': obj1, 'frag': 3},
{'obj': obj1, 'frag': 3}, # duplicate frag
{'obj': obj1, 'frag': 4},
{'obj': obj1, 'frag': 4}, # duplicate frag
{'obj': obj1, 'frag': 10},
{'obj': obj1, 'frag': 11},
{'obj': obj1, 'frag': 12},
{'obj': obj1, 'frag': 13},
] * self.policy.ec_duplication_factor
node_frags.append({'obj': obj1, 'frag': 5}) # first handoff
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
# expect a request to all primaries plus one handoff
self.assertEqual(self.replicas() + 1, len(log))
collected_indexes = defaultdict(list)
for conn in log:
fi = conn.resp.headers.get('X-Object-Sysmeta-Ec-Frag-Index')
if fi is not None:
collected_indexes[fi].append(conn)
self.assertEqual(len(collected_indexes), self.policy.ec_ndata)
def test_GET_with_duplicate_but_insufficient_frag_indexes(self):
obj1 = self._make_ec_object_stub()
# proxy should ignore duplicated frag indexes and continue search for
# a set of unique indexes, but fails to find one
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj1, 'frag': 0}, # duplicate frag
{'obj': obj1, 'frag': 1},
{'obj': obj1, 'frag': 1}, # duplicate frag
{'obj': obj1, 'frag': 2},
{'obj': obj1, 'frag': 2}, # duplicate frag
{'obj': obj1, 'frag': 3},
{'obj': obj1, 'frag': 3}, # duplicate frag
{'obj': obj1, 'frag': 4},
{'obj': obj1, 'frag': 4}, # duplicate frag
{'obj': obj1, 'frag': 10},
{'obj': obj1, 'frag': 11},
{'obj': obj1, 'frag': 12},
{'obj': obj1, 'frag': 13},
]
# ... and the rest are 404s which is limited by request_count
# (2 * replicas in default) rather than max_extra_requests limitation
# because the retries will be in ResumingGetter if the responses
# are 404s
node_frags += [[]] * (self.replicas() * 2 - len(node_frags))
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
# expect a request to all nodes
self.assertEqual(2 * self.replicas(), len(log))
collected_indexes = defaultdict(list)
for conn in log:
fi = conn.resp.headers.get('X-Object-Sysmeta-Ec-Frag-Index')
if fi is not None:
collected_indexes[fi].append(conn)
self.assertEqual(len(collected_indexes), self.policy.ec_ndata - 1)
@patch_policies(with_ec_default=True)
class TestECObjController(ECObjectControllerMixin, unittest.TestCase):
container_info = {
'status': 200,
'read_acl': None,
'write_acl': None,
'sync_key': None,
'versions': None,
'storage_policy': '0',
}
controller_cls = obj.ECObjectController
def _add_frag_index(self, index, headers):
# helper method to add a frag index header to an existing header dict
hdr_name = 'X-Object-Sysmeta-Ec-Frag-Index'
return dict(list(headers.items()) + [(hdr_name, index)])
def test_determine_chunk_destinations(self):
class FakePutter(object):
def __init__(self, index):
self.node_index = index
controller = self.controller_cls(
self.app, 'a', 'c', 'o')
# create a dummy list of putters, check no handoffs
putters = []
expected = {}
for index in range(self.policy.object_ring.replica_count):
p = FakePutter(index)
putters.append(p)
expected[p] = self.policy.get_backend_index(index)
got = controller._determine_chunk_destinations(putters, self.policy)
self.assertEqual(got, expected)
def _test_one_handoff(index):
with mock.patch.object(putters[index], 'node_index', None):
got = controller._determine_chunk_destinations(
putters, self.policy)
self.assertEqual(got, expected)
# Check that we don't mutate the putter
self.assertEqual([p.node_index for p in putters],
[None if i == index else i
for i, _ in enumerate(putters)])
# now lets make a handoff at the end
_test_one_handoff(self.policy.object_ring.replica_count - 1)
# now lets make a handoff at the start
_test_one_handoff(0)
# now lets make a handoff in the middle
_test_one_handoff(2)
# now lets make all of them handoffs
for index in range(self.policy.object_ring.replica_count):
putters[index].node_index = None
got = controller._determine_chunk_destinations(putters, self.policy)
self.assertEqual(sorted(got, key=lambda p: id(p)),
sorted(expected, key=lambda p: id(p)))
def test_GET_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
get_statuses = [200] * self.policy.ec_ndata
get_hdrs = [{'Connection': 'close'}] * self.policy.ec_ndata
with set_http_connect(*get_statuses, headers=get_hdrs):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertIn('Accept-Ranges', resp.headers)
self.assertNotIn('Connection', resp.headers)
def _test_if_match(self, method):
num_responses = self.policy.ec_ndata if method == 'GET' else 1
def _do_test(match_value, backend_status,
etag_is_at='X-Object-Sysmeta-Does-Not-Exist'):
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method=method,
headers={'If-Match': match_value,
'X-Backend-Etag-Is-At': etag_is_at})
get_resp = [backend_status] * num_responses
resp_headers = {'Etag': 'frag_etag',
'X-Object-Sysmeta-Ec-Etag': 'data_etag',
'X-Object-Sysmeta-Alternate-Etag': 'alt_etag'}
with set_http_connect(*get_resp, headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual('data_etag', resp.headers['Etag'])
return resp
# wildcard
resp = _do_test('*', 200)
self.assertEqual(resp.status_int, 200)
# match
resp = _do_test('"data_etag"', 200)
self.assertEqual(resp.status_int, 200)
# no match
resp = _do_test('"frag_etag"', 412)
self.assertEqual(resp.status_int, 412)
# match wildcard against an alternate etag
resp = _do_test('*', 200,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 200)
# match against an alternate etag
resp = _do_test('"alt_etag"', 200,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 200)
# no match against an alternate etag
resp = _do_test('"data_etag"', 412,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 412)
def test_GET_if_match(self):
self._test_if_match('GET')
def test_HEAD_if_match(self):
self._test_if_match('HEAD')
def _test_if_none_match(self, method):
num_responses = self.policy.ec_ndata if method == 'GET' else 1
def _do_test(match_value, backend_status,
etag_is_at='X-Object-Sysmeta-Does-Not-Exist'):
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method=method,
headers={'If-None-Match': match_value,
'X-Backend-Etag-Is-At': etag_is_at})
get_resp = [backend_status] * num_responses
resp_headers = {'Etag': 'frag_etag',
'X-Object-Sysmeta-Ec-Etag': 'data_etag',
'X-Object-Sysmeta-Alternate-Etag': 'alt_etag'}
with set_http_connect(*get_resp, headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual('data_etag', resp.headers['Etag'])
return resp
# wildcard
resp = _do_test('*', 304)
self.assertEqual(resp.status_int, 304)
# match
resp = _do_test('"data_etag"', 304)
self.assertEqual(resp.status_int, 304)
# no match
resp = _do_test('"frag_etag"', 200)
self.assertEqual(resp.status_int, 200)
# match wildcard against an alternate etag
resp = _do_test('*', 304,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 304)
# match against an alternate etag
resp = _do_test('"alt_etag"', 304,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 304)
# no match against an alternate etag
resp = _do_test('"data_etag"', 200,
etag_is_at='X-Object-Sysmeta-Alternate-Etag')
self.assertEqual(resp.status_int, 200)
def test_GET_if_none_match(self):
self._test_if_none_match('GET')
def test_HEAD_if_none_match(self):
self._test_if_none_match('HEAD')
def test_GET_simple_x_newest(self):
req = swift.common.swob.Request.blank('/v1/a/c/o',
headers={'X-Newest': 'true'})
codes = [200] * self.policy.ec_ndata
with set_http_connect(*codes):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
def test_GET_error(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
get_resp = [503] + [200] * self.policy.ec_ndata
with set_http_connect(*get_resp):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
def test_GET_with_body(self):
req = swift.common.swob.Request.blank('/v1/a/c/o')
# turn a real body into fragments
segment_size = self.policy.ec_segment_size
real_body = (b'asdf' * segment_size)[:-10]
# split it up into chunks
chunks = [real_body[x:x + segment_size]
for x in range(0, len(real_body), segment_size)]
fragment_payloads = []
for chunk in chunks:
fragments = self.policy.pyeclib_driver.encode(chunk)
if not fragments:
break
fragment_payloads.append(
fragments * self.policy.ec_duplication_factor)
# sanity
sanity_body = b''
for fragment_payload in fragment_payloads:
sanity_body += self.policy.pyeclib_driver.decode(
fragment_payload)
self.assertEqual(len(real_body), len(sanity_body))
self.assertEqual(real_body, sanity_body)
# list(zip(...)) for py3 compatibility (zip is lazy there)
node_fragments = list(zip(*fragment_payloads))
self.assertEqual(len(node_fragments), self.replicas()) # sanity
headers = {'X-Object-Sysmeta-Ec-Content-Length': str(len(real_body))}
responses = [(200, b''.join(node_fragments[i]), headers)
for i in range(POLICIES.default.ec_ndata)]
status_codes, body_iter, headers = zip(*responses)
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(len(real_body), len(resp.body))
self.assertEqual(real_body, resp.body)
def test_GET_with_frags_swapped_around(self):
segment_size = self.policy.ec_segment_size
test_data = (b'test' * segment_size)[:-657]
etag = md5(test_data).hexdigest()
ec_archive_bodies = self._make_ec_archive_bodies(test_data)
_part, primary_nodes = self.obj_ring.get_nodes('a', 'c', 'o')
node_key = lambda n: (n['ip'], n['port'])
backend_index = self.policy.get_backend_index
ts = self.ts()
response_map = {
node_key(n): StubResponse(
200, ec_archive_bodies[backend_index(i)], {
'X-Object-Sysmeta-Ec-Content-Length': len(test_data),
'X-Object-Sysmeta-Ec-Etag': etag,
'X-Object-Sysmeta-Ec-Frag-Index': backend_index(i),
'X-Timestamp': ts.normal,
'X-Backend-Timestamp': ts.internal
}) for i, n in enumerate(primary_nodes)
}
# swap a parity response into a data node
data_node = random.choice(primary_nodes[:self.policy.ec_ndata])
parity_node = random.choice(
primary_nodes[
self.policy.ec_ndata:self.policy.ec_n_unique_fragments])
(response_map[node_key(data_node)],
response_map[node_key(parity_node)]) = \
(response_map[node_key(parity_node)],
response_map[node_key(data_node)])
def get_response(req):
req_key = (req['ip'], req['port'])
return response_map.pop(req_key)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(len(log), self.policy.ec_ndata)
self.assertEqual(len(response_map),
len(primary_nodes) - self.policy.ec_ndata)
def test_GET_with_no_success(self):
node_frags = [[]] * 28 # no frags on any node
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
self.assertEqual(len(log), 2 * self.replicas())
def test_GET_with_only_handoffs(self):
obj1 = self._make_ec_object_stub()
node_frags = [[]] * self.replicas() # all primaries missing
node_frags = node_frags + [ # handoffs
{'obj': obj1, 'frag': 0},
{'obj': obj1, 'frag': 1},
{'obj': obj1, 'frag': 2},
{'obj': obj1, 'frag': 3},
{'obj': obj1, 'frag': 4},
{'obj': obj1, 'frag': 5},
{'obj': obj1, 'frag': 6},
{'obj': obj1, 'frag': 7},
{'obj': obj1, 'frag': 8},
{'obj': obj1, 'frag': 9},
{'obj': obj1, 'frag': 10}, # parity
{'obj': obj1, 'frag': 11}, # parity
{'obj': obj1, 'frag': 12}, # parity
{'obj': obj1, 'frag': 13}, # parity
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
collected_responses = defaultdict(list)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].append(index)
# GETS would be required to all primaries and then ndata handoffs
self.assertEqual(len(log), self.replicas() + self.policy.ec_ndata)
self.assertEqual(2, len(collected_responses))
# 404s
self.assertEqual(self.replicas(), len(collected_responses[None]))
self.assertEqual(self.policy.ec_ndata,
len(collected_responses[obj1['etag']]))
def test_GET_with_single_missed_overwrite_does_not_need_handoff(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
node_frags = [
{'obj': obj2, 'frag': 0},
{'obj': obj2, 'frag': 1},
{'obj': obj1, 'frag': 2}, # missed over write
{'obj': obj2, 'frag': 3},
{'obj': obj2, 'frag': 4},
{'obj': obj2, 'frag': 5},
{'obj': obj2, 'frag': 6},
{'obj': obj2, 'frag': 7},
{'obj': obj2, 'frag': 8},
{'obj': obj2, 'frag': 9},
{'obj': obj2, 'frag': 10}, # parity
{'obj': obj2, 'frag': 11}, # parity
{'obj': obj2, 'frag': 12}, # parity
{'obj': obj2, 'frag': 13}, # parity
# {'obj': obj2, 'frag': 2}, # handoff (not used in this test)
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# because the primary nodes are shuffled, it's possible the proxy
# didn't even notice the missed overwrite frag - but it might have
self.assertLessEqual(len(log), self.policy.ec_ndata + 1)
self.assertLessEqual(len(collected_responses), 2)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_many_missed_overwrite_will_need_handoff(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
node_frags = [
{'obj': obj2, 'frag': 0},
{'obj': obj2, 'frag': 1},
{'obj': obj1, 'frag': 2}, # missed
{'obj': obj2, 'frag': 3},
{'obj': obj2, 'frag': 4},
{'obj': obj2, 'frag': 5},
{'obj': obj1, 'frag': 6}, # missed
{'obj': obj2, 'frag': 7},
{'obj': obj2, 'frag': 8},
{'obj': obj1, 'frag': 9}, # missed
{'obj': obj1, 'frag': 10}, # missed
{'obj': obj1, 'frag': 11}, # missed
{'obj': obj2, 'frag': 12},
{'obj': obj2, 'frag': 13},
{'obj': obj2, 'frag': 6}, # handoff
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# there's not enough of the obj2 etag on the primaries, we would
# have collected responses for both etags, and would have made
# one more request to the handoff node
self.assertEqual(len(log), self.replicas() + 1)
self.assertEqual(len(collected_responses), 2)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_missing_and_mixed_frags_will_dig_deep_but_succeed(self):
obj1 = self._make_ec_object_stub(pattern='obj1', timestamp=self.ts())
obj2 = self._make_ec_object_stub(pattern='obj2', timestamp=self.ts())
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
[],
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
[],
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
[],
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
[],
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
[],
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
[],
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
[],
{'obj': obj1, 'frag': 7},
{'obj': obj2, 'frag': 7},
[],
{'obj': obj1, 'frag': 8},
{'obj': obj2, 'frag': 8},
[],
{'obj': obj2, 'frag': 9},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# we go exactly as long as we have to, finding two different
# etags and some 404's (i.e. collected_responses[None])
self.assertEqual(len(log), len(node_frags))
self.assertEqual(len(collected_responses), 3)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_missing_and_mixed_frags_will_dig_deep_but_stop(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
[],
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
[],
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
[],
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
[],
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
[],
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
[],
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
[],
{'obj': obj1, 'frag': 7},
{'obj': obj2, 'frag': 7},
[],
{'obj': obj1, 'frag': 8},
{'obj': obj2, 'frag': 8},
[],
# handoffs are iter'd in order so proxy will see 404 from this
# final handoff
[],
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# default node_iter will exhaust at 2 * replicas
self.assertEqual(len(log), 2 * self.replicas())
self.assertEqual(len(collected_responses), 3)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_duplicate_and_hidden_frag_indexes(self):
obj1 = self._make_ec_object_stub()
# proxy should ignore duplicated frag indexes and continue search for
# a set of unique indexes, finding last one on a handoff
node_frags = [
[{'obj': obj1, 'frag': 0}, {'obj': obj1, 'frag': 5}],
{'obj': obj1, 'frag': 0}, # duplicate frag
{'obj': obj1, 'frag': 1},
{'obj': obj1, 'frag': 1}, # duplicate frag
{'obj': obj1, 'frag': 2},
{'obj': obj1, 'frag': 2}, # duplicate frag
{'obj': obj1, 'frag': 3},
{'obj': obj1, 'frag': 3}, # duplicate frag
{'obj': obj1, 'frag': 4},
{'obj': obj1, 'frag': 4}, # duplicate frag
{'obj': obj1, 'frag': 10},
{'obj': obj1, 'frag': 11},
{'obj': obj1, 'frag': 12},
{'obj': obj1, 'frag': 13},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
# Expect a maximum of one request to each primary plus one extra
# request to node 1. Actual value could be less if the extra request
# occurs and quorum is reached before requests to nodes with a
# duplicate frag.
self.assertLessEqual(len(log), self.replicas() + 1)
collected_indexes = defaultdict(list)
for conn in log:
fi = conn.resp.headers.get('X-Object-Sysmeta-Ec-Frag-Index')
if fi is not None:
collected_indexes[fi].append(conn)
self.assertEqual(len(collected_indexes), self.policy.ec_ndata)
def test_GET_with_missing_and_mixed_frags_may_503(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
# we get a 503 when all the handoffs return 200
node_frags = [[]] * self.replicas() # primaries have no frags
node_frags = node_frags + [ # handoffs all have frags
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
# never get a quorum so all nodes are searched
self.assertEqual(len(log), 2 * self.replicas())
collected_indexes = defaultdict(list)
for conn in log:
fi = conn.resp.headers.get('X-Object-Sysmeta-Ec-Frag-Index')
if fi is not None:
collected_indexes[fi].append(conn)
self.assertEqual(len(collected_indexes), 7)
def test_GET_with_mixed_nondurable_frags_and_no_quorum_will_503(self):
# all nodes have a frag but there is no one set that reaches quorum,
# which means there is no backend 404 response, but proxy should still
# return 404 rather than 503
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
obj3 = self._make_ec_object_stub(pattern='obj3')
obj4 = self._make_ec_object_stub(pattern='obj4')
node_frags = [
{'obj': obj1, 'frag': 0, 'durable': False},
{'obj': obj2, 'frag': 0, 'durable': False},
{'obj': obj3, 'frag': 0, 'durable': False},
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj2, 'frag': 1, 'durable': False},
{'obj': obj3, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj2, 'frag': 2, 'durable': False},
{'obj': obj3, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj2, 'frag': 3, 'durable': False},
{'obj': obj3, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj2, 'frag': 4, 'durable': False},
{'obj': obj3, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj2, 'frag': 5, 'durable': False},
{'obj': obj3, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj2, 'frag': 6, 'durable': False},
{'obj': obj3, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj2, 'frag': 7, 'durable': False},
{'obj': obj3, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj2, 'frag': 8, 'durable': False},
{'obj': obj3, 'frag': 8, 'durable': False},
{'obj': obj4, 'frag': 8, 'durable': False},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
collected_etags = set()
collected_status = set()
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
collected_etags.add(etag)
collected_status.add(conn.resp.status)
# default node_iter will exhaust at 2 * replicas
self.assertEqual(len(log), 2 * self.replicas())
self.assertEqual(
{obj1['etag'], obj2['etag'], obj3['etag'], obj4['etag']},
collected_etags)
self.assertEqual({200}, collected_status)
def test_GET_with_mixed_frags_and_no_quorum_will_503(self):
# all nodes have a frag but there is no one set that reaches quorum,
# but since they're all marked durable (so we *should* be able to
# reconstruct), proxy will 503
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
obj3 = self._make_ec_object_stub(pattern='obj3')
obj4 = self._make_ec_object_stub(pattern='obj4')
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
{'obj': obj3, 'frag': 0},
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
{'obj': obj3, 'frag': 1},
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
{'obj': obj3, 'frag': 2},
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
{'obj': obj3, 'frag': 3},
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
{'obj': obj3, 'frag': 4},
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
{'obj': obj3, 'frag': 5},
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
{'obj': obj3, 'frag': 6},
{'obj': obj1, 'frag': 7},
{'obj': obj2, 'frag': 7},
{'obj': obj3, 'frag': 7},
{'obj': obj1, 'frag': 8},
{'obj': obj2, 'frag': 8},
{'obj': obj3, 'frag': 8},
{'obj': obj4, 'frag': 8},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
collected_etags = set()
collected_status = set()
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
collected_etags.add(etag)
collected_status.add(conn.resp.status)
# default node_iter will exhaust at 2 * replicas
self.assertEqual(len(log), 2 * self.replicas())
self.assertEqual(
{obj1['etag'], obj2['etag'], obj3['etag'], obj4['etag']},
collected_etags)
self.assertEqual({200}, collected_status)
def test_GET_with_quorum_durable_files(self):
# verify that only (ec_nparity + 1) nodes need to be durable for a GET
# to be completed with ec_ndata requests.
obj1 = self._make_ec_object_stub()
node_frags = [
{'obj': obj1, 'frag': 0, 'durable': True}, # durable
{'obj': obj1, 'frag': 1, 'durable': True}, # durable
{'obj': obj1, 'frag': 2, 'durable': True}, # durable
{'obj': obj1, 'frag': 3, 'durable': True}, # durable
{'obj': obj1, 'frag': 4, 'durable': True}, # durable
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': False},
{'obj': obj1, 'frag': 10, 'durable': False}, # parity
{'obj': obj1, 'frag': 11, 'durable': False}, # parity
{'obj': obj1, 'frag': 12, 'durable': False}, # parity
{'obj': obj1, 'frag': 13, 'durable': False}, # parity
] # handoffs not used in this scenario
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
self.assertEqual(self.policy.ec_ndata, len(log))
collected_durables = []
for conn in log:
if (conn.resp.headers.get('X-Backend-Durable-Timestamp')
== conn.resp.headers.get('X-Backend-Data-Timestamp')):
collected_durables.append(conn)
# because nodes are shuffled we can't be sure how many durables are
# returned but it must be at least 1 and cannot exceed 5
self.assertLessEqual(len(collected_durables), 5)
self.assertGreaterEqual(len(collected_durables), 1)
def test_GET_with_single_durable_file(self):
# verify that a single durable is sufficient for a GET
# to be completed with ec_ndata requests.
obj1 = self._make_ec_object_stub()
node_frags = [
{'obj': obj1, 'frag': 0, 'durable': True}, # durable
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': False},
{'obj': obj1, 'frag': 10, 'durable': False}, # parity
{'obj': obj1, 'frag': 11, 'durable': False}, # parity
{'obj': obj1, 'frag': 12, 'durable': False}, # parity
{'obj': obj1, 'frag': 13, 'durable': False}, # parity
] # handoffs not used in this scenario
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
collected_durables = []
for conn in log:
if (conn.resp.headers.get('X-Backend-Durable-Timestamp')
== conn.resp.headers.get('X-Backend-Data-Timestamp')):
collected_durables.append(conn)
# because nodes are shuffled we can't be sure how many non-durables
# are returned before the durable, but we do expect a single durable
self.assertEqual(1, len(collected_durables))
def test_GET_with_no_durable_files(self):
# verify that at least one durable is necessary for a successful GET
obj1 = self._make_ec_object_stub()
node_frags = [
{'obj': obj1, 'frag': 0, 'durable': False},
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': False},
{'obj': obj1, 'frag': 10, 'durable': False}, # parity
{'obj': obj1, 'frag': 11, 'durable': False}, # parity
{'obj': obj1, 'frag': 12, 'durable': False}, # parity
{'obj': obj1, 'frag': 13, 'durable': False}, # parity
] + [[]] * self.replicas() # handoffs
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
# all 28 nodes tried with an optimistic get, none are durable and none
# report having a durable timestamp
self.assertEqual(28, len(log))
def test_GET_with_missing_durable_files_and_mixed_etags(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
# non-quorate durables for another object won't stop us finding the
# quorate object
node_frags = [
# ec_ndata - 1 frags of obj2 are available and durable
{'obj': obj2, 'frag': 0, 'durable': True},
{'obj': obj2, 'frag': 1, 'durable': True},
{'obj': obj2, 'frag': 2, 'durable': True},
{'obj': obj2, 'frag': 3, 'durable': True},
{'obj': obj2, 'frag': 4, 'durable': True},
{'obj': obj2, 'frag': 5, 'durable': True},
{'obj': obj2, 'frag': 6, 'durable': True},
{'obj': obj2, 'frag': 7, 'durable': True},
{'obj': obj2, 'frag': 8, 'durable': True},
# ec_ndata frags of obj1 are available and one is durable
{'obj': obj1, 'frag': 0, 'durable': False},
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': True},
]
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
# Quorum of non-durables for a different object won't
# prevent us hunting down the durable object
node_frags = [
# primaries
{'obj': obj2, 'frag': 0, 'durable': False},
{'obj': obj2, 'frag': 1, 'durable': False},
{'obj': obj2, 'frag': 2, 'durable': False},
{'obj': obj2, 'frag': 3, 'durable': False},
{'obj': obj2, 'frag': 4, 'durable': False},
{'obj': obj2, 'frag': 5, 'durable': False},
{'obj': obj2, 'frag': 6, 'durable': False},
{'obj': obj2, 'frag': 7, 'durable': False},
{'obj': obj2, 'frag': 8, 'durable': False},
{'obj': obj2, 'frag': 9, 'durable': False},
{'obj': obj2, 'frag': 10, 'durable': False},
{'obj': obj2, 'frag': 11, 'durable': False},
{'obj': obj2, 'frag': 12, 'durable': False},
{'obj': obj2, 'frag': 13, 'durable': False},
# handoffs
{'obj': obj1, 'frag': 0, 'durable': False},
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': False},
{'obj': obj1, 'frag': 10, 'durable': False}, # parity
{'obj': obj1, 'frag': 11, 'durable': False}, # parity
{'obj': obj1, 'frag': 12, 'durable': False}, # parity
{'obj': obj1, 'frag': 13, 'durable': True}, # parity
]
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj1['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj1['etag'])
def test_GET_with_missing_durables_and_older_durables(self):
# scenario: non-durable frags of newer obj1 obscure all durable frags
# of older obj2, so first 14 requests result in a non-durable set.
# At that point (or before) the proxy knows that a durable set of
# frags for obj2 exists so will fetch them, requiring another 10
# directed requests.
obj2 = self._make_ec_object_stub(pattern='obj2', timestamp=self.ts())
obj1 = self._make_ec_object_stub(pattern='obj1', timestamp=self.ts())
node_frags = [
[{'obj': obj1, 'frag': 0, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj2, 'frag': 1, 'durable': True}],
[{'obj': obj1, 'frag': 2, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj2, 'frag': 3, 'durable': True}],
[{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj2, 'frag': 4, 'durable': True}],
[{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj2, 'frag': 5, 'durable': True}],
[{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj2, 'frag': 6, 'durable': True}],
[{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj2, 'frag': 7, 'durable': True}],
[{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj2, 'frag': 8, 'durable': True}],
[{'obj': obj1, 'frag': 9, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 10, 'durable': False},
{'obj': obj2, 'frag': 10, 'durable': True}],
[{'obj': obj1, 'frag': 11, 'durable': False},
{'obj': obj2, 'frag': 11, 'durable': True}],
[{'obj': obj1, 'frag': 12, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 13, 'durable': False},
{'obj': obj2, 'frag': 13, 'durable': True}],
]
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
# max: proxy will GET all non-durable obj1 frags and then 10 obj frags
self.assertLessEqual(len(log), self.replicas() + self.policy.ec_ndata)
# min: proxy will GET 10 non-durable obj1 frags and then 10 obj frags
self.assertGreaterEqual(len(log), 2 * self.policy.ec_ndata)
# scenario: obj3 has 14 frags but only 2 are durable and these are
# obscured by two non-durable frags of obj1. There is also a single
# non-durable frag of obj2. The proxy will need to do at least 10
# GETs to see all the obj3 frags plus 1 more to GET a durable frag.
# The proxy may also do one more GET if the obj2 frag is found.
# i.e. 10 + 1 durable for obj3, 2 for obj1 and 1 more if obj2 found
obj2 = self._make_ec_object_stub(pattern='obj2', timestamp=self.ts())
obj3 = self._make_ec_object_stub(pattern='obj3', timestamp=self.ts())
obj1 = self._make_ec_object_stub(pattern='obj1', timestamp=self.ts())
node_frags = [
[{'obj': obj1, 'frag': 0, 'durable': False}, # obj1 frag
{'obj': obj3, 'frag': 0, 'durable': True}],
[{'obj': obj1, 'frag': 1, 'durable': False}, # obj1 frag
{'obj': obj3, 'frag': 1, 'durable': True}],
[{'obj': obj2, 'frag': 2, 'durable': False}, # obj2 frag
{'obj': obj3, 'frag': 2, 'durable': False}],
[{'obj': obj3, 'frag': 3, 'durable': False}],
[{'obj': obj3, 'frag': 4, 'durable': False}],
[{'obj': obj3, 'frag': 5, 'durable': False}],
[{'obj': obj3, 'frag': 6, 'durable': False}],
[{'obj': obj3, 'frag': 7, 'durable': False}],
[{'obj': obj3, 'frag': 8, 'durable': False}],
[{'obj': obj3, 'frag': 9, 'durable': False}],
[{'obj': obj3, 'frag': 10, 'durable': False}],
[{'obj': obj3, 'frag': 11, 'durable': False}],
[{'obj': obj3, 'frag': 12, 'durable': False}],
[{'obj': obj3, 'frag': 13, 'durable': False}],
]
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj3['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj3['etag'])
self.assertGreaterEqual(len(log), self.policy.ec_ndata + 1)
self.assertLessEqual(len(log), self.policy.ec_ndata + 4)
def test_GET_with_missing_durables_and_older_non_durables(self):
# scenario: non-durable frags of newer obj1 obscure all frags
# of older obj2, so first 28 requests result in a non-durable set.
# There are only 10 frags for obj2 and one is not durable.
obj2 = self._make_ec_object_stub(pattern='obj2', timestamp=self.ts())
obj1 = self._make_ec_object_stub(pattern='obj1', timestamp=self.ts())
node_frags = [
[{'obj': obj1, 'frag': 0, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj2, 'frag': 1, 'durable': False}], # obj2 non-durable
[{'obj': obj1, 'frag': 2, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj2, 'frag': 3, 'durable': True}],
[{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj2, 'frag': 4, 'durable': True}],
[{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj2, 'frag': 5, 'durable': True}],
[{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj2, 'frag': 6, 'durable': True}],
[{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj2, 'frag': 7, 'durable': True}],
[{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj2, 'frag': 8, 'durable': True}],
[{'obj': obj1, 'frag': 9, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 10, 'durable': False},
{'obj': obj2, 'frag': 10, 'durable': True}],
[{'obj': obj1, 'frag': 11, 'durable': False},
{'obj': obj2, 'frag': 11, 'durable': True}],
[{'obj': obj1, 'frag': 12, 'durable': False}], # obj2 missing
[{'obj': obj1, 'frag': 13, 'durable': False},
{'obj': obj2, 'frag': 13, 'durable': True}],
[], # 1 empty primary
]
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
# max: proxy will GET all non-durable obj1 frags and then 10 obj2 frags
self.assertLessEqual(len(log), self.replicas() + self.policy.ec_ndata)
# min: proxy will GET 10 non-durable obj1 frags and then 10 obj2 frags
self.assertGreaterEqual(len(log), 2 * self.policy.ec_ndata)
def test_GET_with_mixed_etags_at_same_timestamp(self):
# this scenario should never occur but if there are somehow
# fragments for different content at the same timestamp then the
# object controller should handle it gracefully
ts = self.ts() # force equal timestamps for two objects
obj1 = self._make_ec_object_stub(timestamp=ts, pattern='obj1')
obj2 = self._make_ec_object_stub(timestamp=ts, pattern='obj2')
self.assertNotEqual(obj1['etag'], obj2['etag']) # sanity
node_frags = [
# 7 frags of obj2 are available and durable
{'obj': obj2, 'frag': 0, 'durable': True},
{'obj': obj2, 'frag': 1, 'durable': True},
{'obj': obj2, 'frag': 2, 'durable': True},
{'obj': obj2, 'frag': 3, 'durable': True},
{'obj': obj2, 'frag': 4, 'durable': True},
{'obj': obj2, 'frag': 5, 'durable': True},
{'obj': obj2, 'frag': 6, 'durable': True},
# 7 frags of obj1 are available and durable
{'obj': obj1, 'frag': 7, 'durable': True},
{'obj': obj1, 'frag': 8, 'durable': True},
{'obj': obj1, 'frag': 9, 'durable': True},
{'obj': obj1, 'frag': 10, 'durable': True},
{'obj': obj1, 'frag': 11, 'durable': True},
{'obj': obj1, 'frag': 12, 'durable': True},
{'obj': obj1, 'frag': 13, 'durable': True},
] + [[]] * self.replicas() # handoffs
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
# read body to provoke any EC decode errors
self.assertTrue(resp.body)
self.assertEqual(resp.status_int, 503)
self.assertEqual(len(log), self.replicas() * 2)
collected_etags = set()
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
collected_etags.add(etag) # will be None from handoffs
self.assertEqual({obj1['etag'], obj2['etag'], None}, collected_etags)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertEqual(log_lines,
['Problem with fragment response: ETag mismatch'] * 7
+ ['Object returning 503 for []'])
# Note the empty list above -- that log line comes out of
# best_response but we've already thrown out the "good" responses :-/
def test_GET_mixed_success_with_range(self):
fragment_size = self.policy.fragment_size
ec_stub = self._make_ec_object_stub()
frag_archives = ec_stub['frags']
frag_archive_size = len(ec_stub['frags'][0])
headers = {
'Content-Type': 'text/plain',
'Content-Length': fragment_size,
'Content-Range': 'bytes 0-%s/%s' % (fragment_size - 1,
frag_archive_size),
'X-Object-Sysmeta-Ec-Content-Length': len(ec_stub['body']),
'X-Object-Sysmeta-Ec-Etag': ec_stub['etag'],
'X-Timestamp': Timestamp(self.ts()).normal,
}
responses = [
StubResponse(206, frag_archives[0][:fragment_size], headers, 0),
StubResponse(206, frag_archives[1][:fragment_size], headers, 1),
StubResponse(206, frag_archives[2][:fragment_size], headers, 2),
StubResponse(206, frag_archives[3][:fragment_size], headers, 3),
StubResponse(206, frag_archives[4][:fragment_size], headers, 4),
# data nodes with old frag
StubResponse(416, frag_index=5),
StubResponse(416, frag_index=6),
StubResponse(206, frag_archives[7][:fragment_size], headers, 7),
StubResponse(206, frag_archives[8][:fragment_size], headers, 8),
StubResponse(206, frag_archives[9][:fragment_size], headers, 9),
# hopefully we ask for two more
StubResponse(206, frag_archives[10][:fragment_size], headers, 10),
StubResponse(206, frag_archives[11][:fragment_size], headers, 11),
]
def get_response(req):
return responses.pop(0) if responses else StubResponse(404)
req = swob.Request.blank('/v1/a/c/o', headers={'Range': 'bytes=0-3'})
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 206)
self.assertEqual(resp.body, b'test')
self.assertEqual(len(log), self.policy.ec_ndata + 2)
# verify that even when last responses to be collected are 416's
# the shortfall of 2xx responses still triggers extra spawned requests
responses = [
StubResponse(206, frag_archives[0][:fragment_size], headers, 0),
StubResponse(206, frag_archives[1][:fragment_size], headers, 1),
StubResponse(206, frag_archives[2][:fragment_size], headers, 2),
StubResponse(206, frag_archives[3][:fragment_size], headers, 3),
StubResponse(206, frag_archives[4][:fragment_size], headers, 4),
StubResponse(206, frag_archives[7][:fragment_size], headers, 7),
StubResponse(206, frag_archives[8][:fragment_size], headers, 8),
StubResponse(206, frag_archives[9][:fragment_size], headers, 9),
StubResponse(206, frag_archives[10][:fragment_size], headers, 10),
# data nodes with old frag
StubResponse(416, frag_index=5),
# hopefully we ask for one more
StubResponse(416, frag_index=6),
# and hopefully we ask for another
StubResponse(206, frag_archives[11][:fragment_size], headers, 11),
]
req = swob.Request.blank('/v1/a/c/o', headers={'Range': 'bytes=0-3'})
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 206)
self.assertEqual(resp.body, b'test')
self.assertEqual(len(log), self.policy.ec_ndata + 2)
def test_GET_with_range_unsatisfiable_mixed_success(self):
responses = [
StubResponse(416, frag_index=0),
StubResponse(416, frag_index=1),
StubResponse(416, frag_index=2),
StubResponse(416, frag_index=3),
StubResponse(416, frag_index=4),
StubResponse(416, frag_index=5),
StubResponse(416, frag_index=6),
# sneak in bogus extra responses
StubResponse(404),
StubResponse(206, frag_index=8),
# and then just "enough" more 416's
StubResponse(416, frag_index=9),
StubResponse(416, frag_index=10),
StubResponse(416, frag_index=11),
]
def get_response(req):
return responses.pop(0) if responses else StubResponse(404)
req = swob.Request.blank('/v1/a/c/o', headers={
'Range': 'bytes=%s-' % 100000000000000})
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 416)
# ec_ndata responses that must agree, plus the bogus extras
self.assertEqual(len(log), self.policy.ec_ndata + 2)
def test_GET_with_missing_and_range_unsatisifiable(self):
responses = [ # not quite ec_ndata frags on primaries
StubResponse(416, frag_index=0),
StubResponse(416, frag_index=1),
StubResponse(416, frag_index=2),
StubResponse(416, frag_index=3),
StubResponse(416, frag_index=4),
StubResponse(416, frag_index=5),
StubResponse(416, frag_index=6),
StubResponse(416, frag_index=7),
StubResponse(416, frag_index=8),
]
def get_response(req):
return responses.pop(0) if responses else StubResponse(404)
req = swob.Request.blank('/v1/a/c/o', headers={
'Range': 'bytes=%s-' % 100000000000000})
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
# TODO: does 416 make sense without a quorum, or should this be a 404?
# a non-range GET of same object would return 404
self.assertEqual(resp.status_int, 416)
self.assertEqual(len(log), 2 * self.replicas())
def test_GET_with_success_and_507_will_503(self):
responses = [ # only 9 good nodes
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
]
def get_response(req):
# bad disk on all other nodes
return responses.pop(0) if responses else StubResponse(507)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
self.assertEqual(len(log), 2 * self.replicas())
def test_GET_with_success_and_404_will_404(self):
responses = [ # only 9 good nodes
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
StubResponse(200),
]
def get_response(req):
# no frags on other nodes
return responses.pop(0) if responses else StubResponse(404)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
self.assertEqual(len(log), 2 * self.replicas())
def test_GET_mixed_ranged_responses_success(self):
segment_size = self.policy.ec_segment_size
frag_size = self.policy.fragment_size
new_data = (b'test' * segment_size)[:-492]
new_etag = md5(new_data).hexdigest()
new_archives = self._make_ec_archive_bodies(new_data)
old_data = (b'junk' * segment_size)[:-492]
old_etag = md5(old_data).hexdigest()
old_archives = self._make_ec_archive_bodies(old_data)
frag_archive_size = len(new_archives[0])
# here we deliberately omit X-Backend-Data-Timestamp to check that
# proxy will tolerate responses from object server that have not been
# upgraded to send that header
old_headers = {
'Content-Type': 'text/plain',
'Content-Length': frag_size,
'Content-Range': 'bytes 0-%s/%s' % (frag_size - 1,
frag_archive_size),
'X-Object-Sysmeta-Ec-Content-Length': len(old_data),
'X-Object-Sysmeta-Ec-Etag': old_etag,
'X-Backend-Timestamp': Timestamp(self.ts()).internal
}
new_headers = {
'Content-Type': 'text/plain',
'Content-Length': frag_size,
'Content-Range': 'bytes 0-%s/%s' % (frag_size - 1,
frag_archive_size),
'X-Object-Sysmeta-Ec-Content-Length': len(new_data),
'X-Object-Sysmeta-Ec-Etag': new_etag,
'X-Backend-Timestamp': Timestamp(self.ts()).internal
}
# 7 primaries with stale frags, 3 handoffs failed to get new frags
responses = [
StubResponse(206, old_archives[0][:frag_size], old_headers, 0),
StubResponse(206, new_archives[1][:frag_size], new_headers, 1),
StubResponse(206, old_archives[2][:frag_size], old_headers, 2),
StubResponse(206, new_archives[3][:frag_size], new_headers, 3),
StubResponse(206, old_archives[4][:frag_size], old_headers, 4),
StubResponse(206, new_archives[5][:frag_size], new_headers, 5),
StubResponse(206, old_archives[6][:frag_size], old_headers, 6),
StubResponse(206, new_archives[7][:frag_size], new_headers, 7),
StubResponse(206, old_archives[8][:frag_size], old_headers, 8),
StubResponse(206, new_archives[9][:frag_size], new_headers, 9),
StubResponse(206, old_archives[10][:frag_size], old_headers, 10),
StubResponse(206, new_archives[11][:frag_size], new_headers, 11),
StubResponse(206, old_archives[12][:frag_size], old_headers, 12),
StubResponse(206, new_archives[13][:frag_size], new_headers, 13),
StubResponse(206, new_archives[0][:frag_size], new_headers, 0),
StubResponse(404),
StubResponse(404),
StubResponse(206, new_archives[6][:frag_size], new_headers, 6),
StubResponse(404),
StubResponse(206, new_archives[10][:frag_size], new_headers, 10),
StubResponse(206, new_archives[12][:frag_size], new_headers, 12),
]
def get_response(req):
return responses.pop(0) if responses else StubResponse(404)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(get_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, new_data[:segment_size])
self.assertEqual(len(log), self.policy.ec_ndata + 10)
def test_GET_mismatched_fragment_archives(self):
segment_size = self.policy.ec_segment_size
test_data1 = (b'test' * segment_size)[:-333]
# N.B. the object data *length* here is different
test_data2 = (b'blah1' * segment_size)[:-333]
etag1 = md5(test_data1).hexdigest()
etag2 = md5(test_data2).hexdigest()
ec_archive_bodies1 = self._make_ec_archive_bodies(test_data1)
ec_archive_bodies2 = self._make_ec_archive_bodies(test_data2)
headers1 = {'X-Object-Sysmeta-Ec-Etag': etag1,
'X-Object-Sysmeta-Ec-Content-Length': '333'}
# here we're going to *lie* and say the etag here matches
headers2 = {'X-Object-Sysmeta-Ec-Etag': etag1,
'X-Object-Sysmeta-Ec-Content-Length': '333'}
responses1 = [(200, body, self._add_frag_index(fi, headers1))
for fi, body in enumerate(ec_archive_bodies1)]
responses2 = [(200, body, self._add_frag_index(fi, headers2))
for fi, body in enumerate(ec_archive_bodies2)]
req = swob.Request.blank('/v1/a/c/o')
# sanity check responses1
responses = responses1[:self.policy.ec_ndata]
status_codes, body_iter, headers = zip(*responses)
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(md5(resp.body).hexdigest(), etag1)
# sanity check responses2
responses = responses2[:self.policy.ec_ndata]
status_codes, body_iter, headers = zip(*responses)
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(md5(resp.body).hexdigest(), etag2)
# now mix the responses a bit
mix_index = random.randint(0, self.policy.ec_ndata - 1)
mixed_responses = responses1[:self.policy.ec_ndata]
mixed_responses[mix_index] = responses2[mix_index]
status_codes, body_iter, headers = zip(*mixed_responses)
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
try:
resp.body
except ECDriverError:
resp._app_iter.close()
else:
self.fail('invalid ec fragment response body did not blow up!')
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_lines))
msg = error_lines[0]
self.assertIn('Error decoding fragments', msg)
self.assertIn('/a/c/o', msg)
log_msg_args, log_msg_kwargs = self.logger.log_dict['error'][0]
self.assertEqual(log_msg_kwargs['exc_info'][0], ECDriverError)
def test_GET_read_timeout(self):
segment_size = self.policy.ec_segment_size
test_data = (b'test' * segment_size)[:-333]
etag = md5(test_data).hexdigest()
ec_archive_bodies = self._make_ec_archive_bodies(test_data)
headers = {'X-Object-Sysmeta-Ec-Etag': etag}
self.app.recoverable_node_timeout = 0.01
responses = [
(200, SlowBody(body, 0.1), self._add_frag_index(i, headers))
for i, body in enumerate(ec_archive_bodies)
] * self.policy.ec_duplication_factor
req = swob.Request.blank('/v1/a/c/o')
status_codes, body_iter, headers = zip(*responses + [
(404, [b''], {}) for i in range(
self.policy.object_ring.max_more_nodes)])
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
# do this inside the fake http context manager, it'll try to
# resume but won't be able to give us all the right bytes
self.assertNotEqual(md5(resp.body).hexdigest(), etag)
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(self.replicas(), len(error_lines))
nparity = self.policy.ec_nparity
for line in error_lines[:nparity]:
self.assertIn('retrying', line)
for line in error_lines[nparity:]:
self.assertIn('ChunkReadTimeout (0.01s)', line)
def test_GET_read_timeout_resume(self):
segment_size = self.policy.ec_segment_size
test_data = (b'test' * segment_size)[:-333]
etag = md5(test_data).hexdigest()
ec_archive_bodies = self._make_ec_archive_bodies(test_data)
headers = {'X-Object-Sysmeta-Ec-Etag': etag}
self.app.recoverable_node_timeout = 0.05
# first one is slow
responses = [(200, SlowBody(ec_archive_bodies[0], 0.1),
self._add_frag_index(0, headers))]
# ... the rest are fine
responses += [(200, body, self._add_frag_index(i, headers))
for i, body in enumerate(ec_archive_bodies[1:], start=1)]
req = swob.Request.blank('/v1/a/c/o')
status_codes, body_iter, headers = zip(
*responses[:self.policy.ec_ndata + 1])
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertTrue(md5(resp.body).hexdigest(), etag)
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_lines))
self.assertIn('retrying', error_lines[0])
def test_fix_response_HEAD(self):
headers = {'X-Object-Sysmeta-Ec-Content-Length': '10',
'X-Object-Sysmeta-Ec-Etag': 'foo'}
# sucsessful HEAD
responses = [(200, b'', headers)]
status_codes, body_iter, headers = zip(*responses)
req = swift.common.swob.Request.blank('/v1/a/c/o', method='HEAD')
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.body, b'')
# 200OK shows original object content length
self.assertEqual(resp.headers['Content-Length'], '10')
self.assertEqual(resp.headers['Etag'], 'foo')
# not found HEAD
responses = [(404, b'', {})] * self.replicas() * 2
status_codes, body_iter, headers = zip(*responses)
req = swift.common.swob.Request.blank('/v1/a/c/o', method='HEAD')
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
# 404 shows actual response body size (i.e. 0 for HEAD)
self.assertEqual(resp.headers['Content-Length'], '0')
def test_GET_with_invalid_ranges(self):
# real body size is segment_size - 10 (just 1 segment)
segment_size = self.policy.ec_segment_size
real_body = (b'a' * segment_size)[:-10]
# range is out of real body but in segment size
self._test_invalid_ranges('GET', real_body,
segment_size, '%s-' % (segment_size - 10))
# range is out of both real body and segment size
self._test_invalid_ranges('GET', real_body,
segment_size, '%s-' % (segment_size + 10))
def _test_invalid_ranges(self, method, real_body, segment_size, req_range):
# make a request with range starts from more than real size.
body_etag = md5(real_body).hexdigest()
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method=method,
headers={'Destination': 'c1/o',
'Range': 'bytes=%s' % (req_range)})
fragments = self.policy.pyeclib_driver.encode(real_body)
fragment_payloads = [fragments * self.policy.ec_duplication_factor]
node_fragments = list(zip(*fragment_payloads))
self.assertEqual(len(node_fragments), self.replicas()) # sanity
headers = {'X-Object-Sysmeta-Ec-Content-Length': str(len(real_body)),
'X-Object-Sysmeta-Ec-Etag': body_etag}
start = int(req_range.split('-')[0])
self.assertGreaterEqual(start, 0) # sanity
title, exp = swob.RESPONSE_REASONS[416]
range_not_satisfiable_body = \
'<html><h1>%s</h1><p>%s</p></html>' % (title, exp)
range_not_satisfiable_body = range_not_satisfiable_body.encode('utf-8')
if start >= segment_size:
responses = [(416, range_not_satisfiable_body,
self._add_frag_index(i, headers))
for i in range(POLICIES.default.ec_ndata)]
else:
responses = [(200, b''.join(node_fragments[i]),
self._add_frag_index(i, headers))
for i in range(POLICIES.default.ec_ndata)]
status_codes, body_iter, headers = zip(*responses)
expect_headers = {
'X-Obj-Metadata-Footer': 'yes',
'X-Obj-Multiphase-Commit': 'yes'
}
with set_http_connect(*status_codes, body_iter=body_iter,
headers=headers, expect_headers=expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 416)
self.assertEqual(resp.content_length, len(range_not_satisfiable_body))
self.assertEqual(resp.body, range_not_satisfiable_body)
self.assertEqual(resp.etag, body_etag)
self.assertEqual(resp.headers['Accept-Ranges'], 'bytes')
class TestECFunctions(unittest.TestCase):
def test_chunk_transformer(self):
def do_test(dup_factor, segments):
segment_size = 1024
orig_chunks = []
for i in range(segments):
orig_chunks.append(
chr(i + 97).encode('latin-1') * segment_size)
policy = ECStoragePolicy(0, 'ec8-2', ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=8, ec_nparity=2,
object_ring=FakeRing(
replicas=10 * dup_factor),
ec_segment_size=segment_size,
ec_duplication_factor=dup_factor)
encoded_chunks = [[] for _ in range(policy.ec_n_unique_fragments)]
for orig_chunk in orig_chunks:
# each segment produces a set of frags
frag_set = policy.pyeclib_driver.encode(orig_chunk)
for frag_index, frag_data in enumerate(frag_set):
encoded_chunks[frag_index].append(frag_data)
# chunk_transformer buffers and concatenates multiple frags
expected = [b''.join(frags) for frags in encoded_chunks]
transform = obj.chunk_transformer(policy)
transform.send(None)
backend_chunks = transform.send(b''.join(orig_chunks))
self.assertIsNotNone(backend_chunks) # sanity
self.assertEqual(
len(backend_chunks), policy.ec_n_unique_fragments)
self.assertEqual(expected, backend_chunks)
# flush out last chunk buffer
backend_chunks = transform.send(b'')
self.assertEqual(
len(backend_chunks), policy.ec_n_unique_fragments)
self.assertEqual([b''] * policy.ec_n_unique_fragments,
backend_chunks)
do_test(dup_factor=1, segments=1)
do_test(dup_factor=2, segments=1)
do_test(dup_factor=3, segments=1)
do_test(dup_factor=1, segments=2)
do_test(dup_factor=2, segments=2)
do_test(dup_factor=3, segments=2)
def test_chunk_transformer_non_aligned_last_chunk(self):
last_chunk = b'a' * 128
def do_test(dup):
policy = ECStoragePolicy(0, 'ec8-2', ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=8, ec_nparity=2,
object_ring=FakeRing(replicas=10 * dup),
ec_segment_size=1024,
ec_duplication_factor=dup)
expected = policy.pyeclib_driver.encode(last_chunk)
transform = obj.chunk_transformer(policy)
transform.send(None)
transform.send(last_chunk)
# flush out last chunk buffer
backend_chunks = transform.send(b'')
self.assertEqual(
len(backend_chunks), policy.ec_n_unique_fragments)
self.assertEqual(expected, backend_chunks)
do_test(1)
do_test(2)
def test_client_range_to_segment_range(self):
actual = obj.client_range_to_segment_range(100, 700, 512)
self.assertEqual(actual, (0, 1023))
self.assertEqual([type(x) for x in actual], [int, int])
actual = obj.client_range_to_segment_range(100, 700, 256)
self.assertEqual(actual, (0, 767))
self.assertEqual([type(x) for x in actual], [int, int])
actual = obj.client_range_to_segment_range(300, None, 256)
self.assertEqual(actual, (256, None))
self.assertEqual([type(x) for x in actual], [int, type(None)])
def test_segment_range_to_fragment_range(self):
actual = obj.segment_range_to_fragment_range(0, 1023, 512, 300)
self.assertEqual(actual, (0, 599))
self.assertEqual([type(x) for x in actual], [int, int])
actual = obj.segment_range_to_fragment_range(0, 767, 256, 100)
self.assertEqual(actual, (0, 299))
self.assertEqual([type(x) for x in actual], [int, int])
actual = obj.segment_range_to_fragment_range(256, None, 256, 100)
self.assertEqual(actual, (100, None))
self.assertEqual([type(x) for x in actual], [int, type(None)])
@patch_policies([ECStoragePolicy(0, name='ec', is_default=True,
ec_type=DEFAULT_TEST_EC_TYPE, ec_ndata=10,
ec_nparity=4, ec_segment_size=4096,
ec_duplication_factor=2),
StoragePolicy(1, name='unu')],
fake_ring_args=[{'replicas': 28}, {}])
class TestECDuplicationObjController(
ECObjectControllerMixin, unittest.TestCase):
container_info = {
'status': 200,
'read_acl': None,
'write_acl': None,
'sync_key': None,
'versions': None,
'storage_policy': '0',
}
controller_cls = obj.ECObjectController
def _test_GET_with_duplication_factor(self, node_frags, obj):
# This is basic tests in the healthy backends status
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# the backend requests should be >= num_data_fragments
self.assertGreaterEqual(len(log), self.policy.ec_ndata)
# but <= # of replicas
self.assertLessEqual(len(log), self.replicas())
self.assertEqual(len(collected_responses), 1)
etag, frags = list(collected_responses.items())[0]
# the backend requests will stop at enough ec_ndata responses
self.assertEqual(
len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (len(frags), etag))
# TODO: actually "frags" in node_frags is meaning "node_index" right now
# in following tests. Reconsidering the name and semantics change needed.
# Or, just mapping to be correct as frag_index is enough?.
def test_GET_with_duplication_factor(self):
obj = self._make_ec_object_stub()
node_frags = [
{'obj': obj, 'frag': 0},
{'obj': obj, 'frag': 1},
{'obj': obj, 'frag': 2},
{'obj': obj, 'frag': 3},
{'obj': obj, 'frag': 4},
{'obj': obj, 'frag': 5},
{'obj': obj, 'frag': 6},
{'obj': obj, 'frag': 7},
{'obj': obj, 'frag': 8},
{'obj': obj, 'frag': 9},
{'obj': obj, 'frag': 10},
{'obj': obj, 'frag': 11},
{'obj': obj, 'frag': 12},
{'obj': obj, 'frag': 13},
] * 2 # duplicated!
self._test_GET_with_duplication_factor(node_frags, obj)
def test_GET_with_duplication_factor_almost_duplicate_dispersion(self):
obj = self._make_ec_object_stub()
node_frags = [
# first half of # of replicas are 0, 1, 2, 3, 4, 5, 6
{'obj': obj, 'frag': 0},
{'obj': obj, 'frag': 0},
{'obj': obj, 'frag': 1},
{'obj': obj, 'frag': 1},
{'obj': obj, 'frag': 2},
{'obj': obj, 'frag': 2},
{'obj': obj, 'frag': 3},
{'obj': obj, 'frag': 3},
{'obj': obj, 'frag': 4},
{'obj': obj, 'frag': 4},
{'obj': obj, 'frag': 5},
{'obj': obj, 'frag': 5},
{'obj': obj, 'frag': 6},
{'obj': obj, 'frag': 6},
# second half of # of replicas are 7, 8, 9, 10, 11, 12, 13
{'obj': obj, 'frag': 7},
{'obj': obj, 'frag': 7},
{'obj': obj, 'frag': 8},
{'obj': obj, 'frag': 8},
{'obj': obj, 'frag': 9},
{'obj': obj, 'frag': 9},
{'obj': obj, 'frag': 10},
{'obj': obj, 'frag': 10},
{'obj': obj, 'frag': 11},
{'obj': obj, 'frag': 11},
{'obj': obj, 'frag': 12},
{'obj': obj, 'frag': 12},
{'obj': obj, 'frag': 13},
{'obj': obj, 'frag': 13},
]
# ...but it still works!
self._test_GET_with_duplication_factor(node_frags, obj)
def test_GET_with_missing_and_mixed_frags_will_dig_deep_but_stop(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
# both of obj1 and obj2 has only 9 frags which is not able to decode
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
{'obj': obj1, 'frag': 7},
{'obj': obj2, 'frag': 7},
{'obj': obj1, 'frag': 8},
{'obj': obj2, 'frag': 8},
]
# ... and the rest are 404s which is limited by request_count
# (2 * replicas in default) rather than max_extra_requests limitation
# because the retries will be in ResumingGetter if the responses
# are 404s
node_frags += [[]] * (self.replicas() * 2 - len(node_frags))
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# default node_iter will exhaust to the last of handoffs
self.assertEqual(len(log), self.replicas() * 2)
# we have obj1, obj2, and 404 NotFound in collected_responses
self.assertEqual(len(list(collected_responses.keys())), 3)
self.assertIn(obj1['etag'], collected_responses)
self.assertIn(obj2['etag'], collected_responses)
self.assertIn(None, collected_responses)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_many_missed_overwrite_will_need_handoff(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
# primaries
node_frags = [
{'obj': obj2, 'frag': 0},
{'obj': obj2, 'frag': 1},
{'obj': obj1, 'frag': 2}, # missed
{'obj': obj2, 'frag': 3},
{'obj': obj2, 'frag': 4},
{'obj': obj2, 'frag': 5},
{'obj': obj1, 'frag': 6}, # missed
{'obj': obj2, 'frag': 7},
{'obj': obj2, 'frag': 8},
{'obj': obj1, 'frag': 9}, # missed
{'obj': obj1, 'frag': 10}, # missed
{'obj': obj1, 'frag': 11}, # missed
{'obj': obj2, 'frag': 12},
{'obj': obj2, 'frag': 13},
]
node_frags = node_frags * 2 # 2 duplication
# so the primaries have indexes 0, 1, 3, 4, 5, 7, 8, 12, 13
# (9 indexes) for obj2 and then a handoff has index 6
node_frags += [
{'obj': obj2, 'frag': 6}, # handoff
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# there's not enough of the obj2 etag on the primaries, we would
# have collected responses for both etags, and would have made
# one more request to the handoff node
self.assertEqual(len(log), self.replicas() + 1)
self.assertEqual(len(collected_responses), 2)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_missing_and_mixed_frags_will_dig_deep_but_succeed(self):
obj1 = self._make_ec_object_stub(pattern='obj1',
timestamp=self.ts())
obj2 = self._make_ec_object_stub(pattern='obj2',
timestamp=self.ts())
# 28 nodes are here
node_frags = [
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
[],
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
[],
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
[],
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
[],
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
[],
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
[],
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
[],
{'obj': obj1, 'frag': 7},
{'obj': obj2, 'frag': 7},
[],
{'obj': obj1, 'frag': 8},
{'obj': obj2, 'frag': 8},
[],
[],
]
node_frags += [[]] * 13 # Plus 13 nodes in handoff
# finally 10th fragment for obj2 found
node_frags += [[{'obj': obj2, 'frag': 9}]]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 200)
self.assertEqual(resp.headers['etag'], obj2['etag'])
self.assertEqual(md5(resp.body).hexdigest(), obj2['etag'])
collected_responses = defaultdict(set)
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
index = conn.resp.headers['X-Object-Sysmeta-Ec-Frag-Index']
collected_responses[etag].add(index)
# we go exactly as long as we have to, finding two different
# etags and some 404's (i.e. collected_responses[None])
self.assertEqual(len(log), len(node_frags))
self.assertEqual(len(collected_responses), 3)
# ... regardless we should never need to fetch more than ec_ndata
# frags for any given etag
for etag, frags in collected_responses.items():
self.assertLessEqual(len(frags), self.policy.ec_ndata,
'collected %s frags for etag %s' % (
len(frags), etag))
def test_GET_with_mixed_frags_and_no_quorum_will_503(self):
# all nodes have a frag but there is no one set that reaches quorum,
# which means there is no backend 404 response, but proxy should still
# return 404 rather than 503
stub_objects = [
self._make_ec_object_stub(pattern='obj1'),
self._make_ec_object_stub(pattern='obj2'),
self._make_ec_object_stub(pattern='obj3'),
self._make_ec_object_stub(pattern='obj4'),
self._make_ec_object_stub(pattern='obj5'),
self._make_ec_object_stub(pattern='obj6'),
self._make_ec_object_stub(pattern='obj7'),
]
etags = collections.Counter(stub['etag'] for stub in stub_objects)
self.assertEqual(len(etags), 7, etags) # sanity
# primaries and handoffs for required nodes
# this is 10-4 * 2 case so that 56 requests (2 * replicas) required
# to give up. we prepares 7 different objects above so responses
# will have 8 fragments for each object
required_nodes = self.replicas() * 2
# fill them out to the primary and handoff nodes
node_frags = []
for frag in range(8):
for stub_obj in stub_objects:
if len(node_frags) >= required_nodes:
# we already have enough responses
break
node_frags.append({'obj': stub_obj, 'frag': frag})
# sanity
self.assertEqual(required_nodes, len(node_frags))
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
collected_etags = set()
collected_status = set()
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
collected_etags.add(etag)
collected_status.add(conn.resp.status)
self.assertEqual(required_nodes, len(log))
self.assertEqual(len(collected_etags), 7)
self.assertEqual({200}, collected_status)
def test_GET_with_no_durable_files(self):
# verify that at least one durable is necessary for a successful GET
obj1 = self._make_ec_object_stub()
node_frags = [
{'obj': obj1, 'frag': 0, 'durable': False},
{'obj': obj1, 'frag': 1, 'durable': False},
{'obj': obj1, 'frag': 2, 'durable': False},
{'obj': obj1, 'frag': 3, 'durable': False},
{'obj': obj1, 'frag': 4, 'durable': False},
{'obj': obj1, 'frag': 5, 'durable': False},
{'obj': obj1, 'frag': 6, 'durable': False},
{'obj': obj1, 'frag': 7, 'durable': False},
{'obj': obj1, 'frag': 8, 'durable': False},
{'obj': obj1, 'frag': 9, 'durable': False},
{'obj': obj1, 'frag': 10, 'durable': False}, # parity
{'obj': obj1, 'frag': 11, 'durable': False}, # parity
{'obj': obj1, 'frag': 12, 'durable': False}, # parity
{'obj': obj1, 'frag': 13, 'durable': False}, # parity
]
node_frags = node_frags * 2 # 2 duplications
node_frags += [[]] * self.replicas() # handoffs
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 404)
# all 28 nodes tried with an optimistic get, none are durable and none
# report having a durable timestamp
self.assertEqual(self.replicas() * 2, len(log))
def test_GET_with_missing_and_mixed_frags_may_503(self):
obj1 = self._make_ec_object_stub(pattern='obj1')
obj2 = self._make_ec_object_stub(pattern='obj2')
obj3 = self._make_ec_object_stub(pattern='obj3')
obj4 = self._make_ec_object_stub(pattern='obj4')
# we get a 503 when all the handoffs return 200
node_frags = [[]] * self.replicas() # primaries have no frags
# plus, 4 different objects and 7 indexes will b 28 node responses
# here for handoffs
node_frags = node_frags + [ # handoffs all have frags
{'obj': obj1, 'frag': 0},
{'obj': obj2, 'frag': 0},
{'obj': obj3, 'frag': 0},
{'obj': obj4, 'frag': 0},
{'obj': obj1, 'frag': 1},
{'obj': obj2, 'frag': 1},
{'obj': obj3, 'frag': 1},
{'obj': obj4, 'frag': 1},
{'obj': obj1, 'frag': 2},
{'obj': obj2, 'frag': 2},
{'obj': obj3, 'frag': 2},
{'obj': obj4, 'frag': 2},
{'obj': obj1, 'frag': 3},
{'obj': obj2, 'frag': 3},
{'obj': obj3, 'frag': 3},
{'obj': obj4, 'frag': 3},
{'obj': obj1, 'frag': 4},
{'obj': obj2, 'frag': 4},
{'obj': obj3, 'frag': 4},
{'obj': obj4, 'frag': 4},
{'obj': obj1, 'frag': 5},
{'obj': obj2, 'frag': 5},
{'obj': obj3, 'frag': 5},
{'obj': obj4, 'frag': 5},
{'obj': obj1, 'frag': 6},
{'obj': obj2, 'frag': 6},
{'obj': obj3, 'frag': 6},
{'obj': obj4, 'frag': 6},
]
fake_response = self._fake_ec_node_response(node_frags)
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
# never get a quorum so all nodes are searched
self.assertEqual(len(log), 2 * self.replicas())
collected_indexes = defaultdict(list)
for conn in log:
fi = conn.resp.headers.get('X-Object-Sysmeta-Ec-Frag-Index')
if fi is not None:
collected_indexes[fi].append(conn)
self.assertEqual(len(collected_indexes), 7)
def test_GET_with_mixed_etags_at_same_timestamp(self):
# the difference from parent class is only handoff stub length
ts = self.ts() # force equal timestamps for two objects
obj1 = self._make_ec_object_stub(timestamp=ts, pattern='obj1')
obj2 = self._make_ec_object_stub(timestamp=ts, pattern='obj2')
self.assertNotEqual(obj1['etag'], obj2['etag']) # sanity
node_frags = [
# 7 frags of obj2 are available and durable
{'obj': obj2, 'frag': 0, 'durable': True},
{'obj': obj2, 'frag': 1, 'durable': True},
{'obj': obj2, 'frag': 2, 'durable': True},
{'obj': obj2, 'frag': 3, 'durable': True},
{'obj': obj2, 'frag': 4, 'durable': True},
{'obj': obj2, 'frag': 5, 'durable': True},
{'obj': obj2, 'frag': 6, 'durable': True},
# 7 frags of obj1 are available and durable
{'obj': obj1, 'frag': 7, 'durable': True},
{'obj': obj1, 'frag': 8, 'durable': True},
{'obj': obj1, 'frag': 9, 'durable': True},
{'obj': obj1, 'frag': 10, 'durable': True},
{'obj': obj1, 'frag': 11, 'durable': True},
{'obj': obj1, 'frag': 12, 'durable': True},
{'obj': obj1, 'frag': 13, 'durable': True},
# handoffs
]
node_frags += [[]] * (self.replicas() * 2 - len(node_frags))
fake_response = self._fake_ec_node_response(list(node_frags))
req = swob.Request.blank('/v1/a/c/o')
with capture_http_requests(fake_response) as log:
resp = req.get_response(self.app)
# read body to provoke any EC decode errors
self.assertTrue(resp.body)
self.assertEqual(resp.status_int, 503)
self.assertEqual(len(log), self.replicas() * 2)
collected_etags = set()
for conn in log:
etag = conn.resp.headers['X-Object-Sysmeta-Ec-Etag']
collected_etags.add(etag) # will be None from handoffs
self.assertEqual({obj1['etag'], obj2['etag'], None}, collected_etags)
log_lines = self.app.logger.get_lines_for_level('error')
self.assertEqual(log_lines,
['Problem with fragment response: ETag mismatch'] * 7
+ ['Object returning 503 for []'])
def _test_determine_chunk_destinations_prioritize(
self, missing_two, missing_one):
# This scenario is only likely for ec_duplication_factor >= 2. If we
# have multiple failures such that the putters collection is missing
# two primary nodes for frag index 'missing_two' and missing one
# primary node for frag index 'missing_one', then we should prioritize
# finding a handoff for frag index 'missing_two'.
class FakePutter(object):
def __init__(self, index):
self.node_index = index
controller = self.controller_cls(self.app, 'a', 'c', 'o')
# sanity, caller must set missing_two < than ec_num_unique_fragments
self.assertLess(missing_two, self.policy.ec_n_unique_fragments)
# create a dummy list of putters, check no handoffs
putters = []
for index in range(self.policy.object_ring.replica_count):
putters.append(FakePutter(index))
# sanity - all putters have primary nodes
got = controller._determine_chunk_destinations(putters, self.policy)
expected = {}
for i, p in enumerate(putters):
expected[p] = self.policy.get_backend_index(i)
self.assertEqual(got, expected)
# now, for fragment index that is missing two copies, lets make one
# putter be a handoff
handoff_putter = putters[missing_two]
handoff_putter.node_index = None
# and then pop another putter for a copy of same fragment index
putters.pop(missing_two + self.policy.ec_n_unique_fragments)
# also pop one copy of a different fragment to make one missing hole
putters.pop(missing_one)
# then determine chunk destinations: we have 26 putters here;
# missing_two frag index is missing two copies; missing_one frag index
# is missing one copy, therefore the handoff node should be assigned to
# missing_two frag index
got = controller._determine_chunk_destinations(putters, self.policy)
# N.B. len(putters) is now len(expected - 2) due to pop twice
self.assertEqual(len(putters), len(got))
# sanity, no node index - for handoff putter
self.assertIsNone(handoff_putter.node_index)
self.assertEqual(got[handoff_putter], missing_two)
# sanity, other nodes except handoff_putter have node_index
self.assertTrue(all(
[putter.node_index is not None for putter in got if
putter != handoff_putter]))
def test_determine_chunk_destinations_prioritize_more_missing(self):
# drop node_index 0, 14 and 1 should work
self._test_determine_chunk_destinations_prioritize(0, 1)
# drop node_index 1, 15 and 0 should work, too
self._test_determine_chunk_destinations_prioritize(1, 0)
class ECCommonPutterMixin(object):
# EC PUT tests common to both Mime and PUT+POST protocols
expect_headers = {}
def test_PUT_ec_error_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise IOError('error message')
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
codes = [201] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 499)
def test_PUT_ec_chunkreadtimeout_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise exceptions.ChunkReadTimeout()
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
codes = [201] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 408)
def test_PUT_ec_timeout_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise exceptions.Timeout()
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
codes = [201] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 499)
def test_PUT_ec_exception_during_transfer_data(self):
class FakeReader(object):
def read(self, size):
raise Exception('exception message')
req = swob.Request.blank('/v1/a/c/o.jpg', method='PUT',
body=b'test body')
req.environ['wsgi.input'] = FakeReader()
req.headers['content-length'] = '6'
codes = [201] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 500)
# This is how CommonObjectControllerMixin is supposed to be used:
# @patch_policies(with_ec_default=True)
# class TestECObjControllerDoublePutter(BaseObjectControllerMixin,
# ECCommonPutterMixin,
# unittest.TestCase):
# # tests specific to the PUT+POST protocol
#
# def setUp(self):
# super(TestECObjControllerDoublePutter, self).setUp()
# # force use of the DoublePutter class
# self.app.use_put_v1 = True
@patch_policies(with_ec_default=True)
class TestECObjControllerMimePutter(BaseObjectControllerMixin,
ECCommonPutterMixin,
unittest.TestCase):
# tests specific to the older PUT protocol using a MimePutter
expect_headers = {
'X-Obj-Metadata-Footer': 'yes',
'X-Obj-Multiphase-Commit': 'yes'
}
def setUp(self):
super(TestECObjControllerMimePutter, self).setUp()
# force use of the MimePutter class
self.app.use_put_v1 = False
def test_PUT_simple(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_with_body_and_bad_etag(self):
segment_size = self.policy.ec_segment_size
test_body = (b'asdf' * segment_size)[:-10]
codes = [201] * self.replicas()
conns = []
def capture_expect(conn):
# stash the backend connection so we can verify that it is closed
# (no data will be sent)
conns.append(conn)
# send a bad etag in the request headers
headers = {'Etag': 'bad etag'}
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', headers=headers, body=test_body)
with set_http_connect(*codes, expect_headers=self.expect_headers,
give_expect=capture_expect):
resp = req.get_response(self.app)
self.assertEqual(422, resp.status_int)
self.assertEqual(self.replicas(), len(conns))
for conn in conns:
self.assertTrue(conn.closed)
# make the footers callback send the correct etag
footers_callback = make_footers_callback(test_body)
env = {'swift.callback.update_footers': footers_callback}
headers = {'Etag': 'bad etag'}
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', headers=headers, environ=env,
body=test_body)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(201, resp.status_int)
# make the footers callback send a bad Etag footer
footers_callback = make_footers_callback(b'not the test body')
env = {'swift.callback.update_footers': footers_callback}
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', environ=env, body=test_body)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(422, resp.status_int)
def test_txn_id_logging_ECPUT(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
self.app.logger.txn_id = req.environ['swift.trans_id'] = 'test-txn-id'
codes = [(100, Timeout(), 503, 503)] * self.replicas()
stdout = StringIO()
with set_http_connect(*codes, expect_headers=self.expect_headers), \
mock.patch('sys.stdout', stdout):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
for line in stdout.getvalue().splitlines():
self.assertIn('test-txn-id', line)
self.assertIn('Trying to get ', stdout.getvalue())
def test_PUT_with_explicit_commit_status(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [(100, 100, 201)] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_mostly_success(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * self.quorum()
codes += [503] * (self.replicas() - len(codes))
random.shuffle(codes)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_error_commit(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [(100, 503, Exception('not used'))] * self.replicas()
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_PUT_mostly_success_commit(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * self.quorum()
codes += [(100, 503, Exception('not used'))] * (
self.replicas() - len(codes))
random.shuffle(codes)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_mostly_error_commit(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [(100, 503, Exception('not used'))] * self.quorum()
if isinstance(self.policy, ECStoragePolicy):
codes *= self.policy.ec_duplication_factor
codes += [201] * (self.replicas() - len(codes))
random.shuffle(codes)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
def test_PUT_commit_timeout(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * (self.replicas() - 1)
codes.append((100, Timeout(), Exception('not used')))
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_commit_exception(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * (self.replicas() - 1)
codes.append((100, Exception('kaboom!'), Exception('not used')))
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_with_body(self):
segment_size = self.policy.ec_segment_size
test_body = (b'asdf' * segment_size)[:-10]
# make the footers callback not include Etag footer so that we can
# verify that the correct EC-calculated Etag is included in footers
# sent to backend
footers_callback = make_footers_callback()
env = {'swift.callback.update_footers': footers_callback}
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', environ=env)
etag = md5(test_body).hexdigest()
size = len(test_body)
req.body = test_body
codes = [201] * self.replicas()
resp_headers = {
'Some-Other-Header': 'Four',
'Etag': 'ignored',
}
put_requests = defaultdict(lambda: {'boundary': None, 'chunks': []})
def capture_body(conn, chunk):
put_requests[conn.connection_id]['chunks'].append(chunk)
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
conn_id = kwargs['connection_id']
put_requests[conn_id]['boundary'] = headers[
'X-Backend-Obj-Multipart-Mime-Boundary']
put_requests[conn_id]['backend-content-length'] = headers[
'X-Backend-Obj-Content-Length']
put_requests[conn_id]['x-timestamp'] = headers[
'X-Timestamp']
with set_http_connect(*codes, expect_headers=self.expect_headers,
give_send=capture_body,
give_connect=capture_headers,
headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
timestamps = {captured_req['x-timestamp']
for captured_req in put_requests.values()}
self.assertEqual(1, len(timestamps), timestamps)
self.assertEqual(dict(resp.headers), {
'Content-Type': 'text/html; charset=UTF-8',
'Content-Length': '0',
'Last-Modified': time.strftime(
"%a, %d %b %Y %H:%M:%S GMT",
time.gmtime(math.ceil(float(timestamps.pop())))),
'Etag': etag,
})
frag_archives = []
for connection_id, info in put_requests.items():
body = unchunk_body(b''.join(info['chunks']))
self.assertIsNotNone(info['boundary'],
"didn't get boundary for conn %r" % (
connection_id,))
self.assertTrue(size > int(info['backend-content-length']) > 0,
"invalid backend-content-length for conn %r" % (
connection_id,))
# email.parser.FeedParser doesn't know how to take a multipart
# message and boundary together and parse it; it only knows how
# to take a string, parse the headers, and figure out the
# boundary on its own.
parser = EmailFeedParser()
parser.feed(
("Content-Type: multipart/nobodycares; boundary=%s\r\n\r\n" %
info['boundary']).encode('ascii'))
parser.feed(body)
message = parser.close()
self.assertTrue(message.is_multipart()) # sanity check
mime_parts = message.get_payload()
self.assertEqual(len(mime_parts), 3)
obj_part, footer_part, commit_part = mime_parts
# attach the body to frag_archives list
self.assertEqual(obj_part['X-Document'], 'object body')
obj_payload = obj_part.get_payload(decode=True)
frag_archives.append(obj_payload)
# assert length was correct for this connection
self.assertEqual(int(info['backend-content-length']),
len(frag_archives[-1]))
# assert length was the same for all connections
self.assertEqual(int(info['backend-content-length']),
len(frag_archives[0]))
# validate some footer metadata
self.assertEqual(footer_part['X-Document'], 'object metadata')
footer_metadata = json.loads(footer_part.get_payload())
self.assertTrue(footer_metadata)
expected = {}
# update expected with footers from the callback...
footers_callback(expected)
expected.update({
'X-Object-Sysmeta-Ec-Content-Length': str(size),
'X-Backend-Container-Update-Override-Size': str(size),
'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Container-Update-Override-Etag': etag,
'X-Object-Sysmeta-Ec-Segment-Size': str(segment_size),
'Etag': md5(obj_payload).hexdigest()})
for header, value in expected.items():
self.assertEqual(footer_metadata[header], value)
# sanity on commit message
self.assertEqual(commit_part['X-Document'], 'put commit')
self.assertEqual(len(frag_archives), self.replicas())
fragment_size = self.policy.fragment_size
node_payloads = []
for fa in frag_archives:
payload = [fa[x:x + fragment_size]
for x in range(0, len(fa), fragment_size)]
node_payloads.append(payload)
fragment_payloads = zip(*node_payloads)
expected_body = b''
for fragment_payload in fragment_payloads:
self.assertEqual(len(fragment_payload), self.replicas())
if True:
fragment_payload = list(fragment_payload)
expected_body += self.policy.pyeclib_driver.decode(
fragment_payload)
self.assertEqual(len(test_body), len(expected_body))
self.assertEqual(test_body, expected_body)
def test_PUT_with_footers(self):
# verify footers supplied by a footers callback being added to
# trailing metadata
segment_size = self.policy.ec_segment_size
test_body = (b'asdf' * segment_size)[:-10]
etag = md5(test_body).hexdigest()
size = len(test_body)
codes = [201] * self.replicas()
resp_headers = {
'Some-Other-Header': 'Four',
'Etag': 'ignored',
}
def do_test(footers_to_add, expect_added):
put_requests = defaultdict(
lambda: {'boundary': None, 'chunks': []})
def capture_body(conn, chunk):
put_requests[conn.connection_id]['chunks'].append(chunk)
def capture_headers(ip, port, device, part, method, path, headers,
**kwargs):
conn_id = kwargs['connection_id']
put_requests[conn_id]['boundary'] = headers[
'X-Backend-Obj-Multipart-Mime-Boundary']
put_requests[conn_id]['x-timestamp'] = headers[
'X-Timestamp']
def footers_callback(footers):
footers.update(footers_to_add)
env = {'swift.callback.update_footers': footers_callback}
req = swift.common.swob.Request.blank(
'/v1/a/c/o', method='PUT', environ=env, body=test_body)
with set_http_connect(*codes, expect_headers=self.expect_headers,
give_send=capture_body,
give_connect=capture_headers,
headers=resp_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
timestamps = {captured_req['x-timestamp']
for captured_req in put_requests.values()}
self.assertEqual(1, len(timestamps), timestamps)
self.assertEqual(dict(resp.headers), {
'Content-Type': 'text/html; charset=UTF-8',
'Content-Length': '0',
'Last-Modified': time.strftime(
"%a, %d %b %Y %H:%M:%S GMT",
time.gmtime(math.ceil(float(timestamps.pop())))),
'Etag': etag,
})
for connection_id, info in put_requests.items():
body = unchunk_body(b''.join(info['chunks']))
# email.parser.FeedParser doesn't know how to take a multipart
# message and boundary together and parse it; it only knows how
# to take a string, parse the headers, and figure out the
# boundary on its own.
parser = EmailFeedParser()
parser.feed(
("Content-Type: multipart/nobodycares; boundary=%s\r\n\r\n"
% info['boundary']).encode('ascii'))
parser.feed(body)
message = parser.close()
self.assertTrue(message.is_multipart()) # sanity check
mime_parts = message.get_payload()
self.assertEqual(len(mime_parts), 3)
obj_part, footer_part, commit_part = mime_parts
# validate EC footer metadata - should always be present
self.assertEqual(footer_part['X-Document'], 'object metadata')
footer_metadata = json.loads(footer_part.get_payload())
self.assertIsNotNone(
footer_metadata.pop('X-Object-Sysmeta-Ec-Frag-Index'))
expected = {
'X-Object-Sysmeta-Ec-Scheme':
self.policy.ec_scheme_description,
'X-Object-Sysmeta-Ec-Content-Length': str(size),
'X-Object-Sysmeta-Ec-Etag': etag,
'X-Object-Sysmeta-Ec-Segment-Size': str(segment_size),
'Etag': md5(obj_part.get_payload(decode=True)).hexdigest()}
expected.update(expect_added)
for header, value in expected.items():
self.assertIn(header, footer_metadata)
self.assertEqual(value, footer_metadata[header])
footer_metadata.pop(header)
self.assertFalse(footer_metadata)
# sanity check - middleware sets no footer, expect EC overrides
footers_to_add = {}
expect_added = {
'X-Backend-Container-Update-Override-Size': str(size),
'X-Backend-Container-Update-Override-Etag': etag}
do_test(footers_to_add, expect_added)
# middleware cannot overwrite any EC sysmeta
footers_to_add = {
'X-Object-Sysmeta-Ec-Content-Length': str(size + 1),
'X-Object-Sysmeta-Ec-Etag': 'other etag',
'X-Object-Sysmeta-Ec-Segment-Size': str(segment_size + 1),
'X-Object-Sysmeta-Ec-Unused-But-Reserved': 'ignored'}
do_test(footers_to_add, expect_added)
# middleware can add x-object-sysmeta- headers including
# x-object-sysmeta-container-update-override headers
footers_to_add = {
'X-Object-Sysmeta-Foo': 'bar',
'X-Object-Sysmeta-Container-Update-Override-Size':
str(size + 1),
'X-Object-Sysmeta-Container-Update-Override-Etag': 'other etag',
'X-Object-Sysmeta-Container-Update-Override-Ping': 'pong'
}
expect_added.update(footers_to_add)
do_test(footers_to_add, expect_added)
# middleware can also overwrite x-backend-container-update-override
# headers
override_footers = {
'X-Backend-Container-Update-Override-Wham': 'bam',
'X-Backend-Container-Update-Override-Size': str(size + 2),
'X-Backend-Container-Update-Override-Etag': 'another etag'}
footers_to_add.update(override_footers)
expect_added.update(override_footers)
do_test(footers_to_add, expect_added)
def test_PUT_old_obj_server(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
responses = [
# one server will response 100-continue but not include the
# needful expect headers and the connection will be dropped
((100, Exception('not used')), {}),
] + [
# and pleanty of successful responses too
(201, {
'X-Obj-Metadata-Footer': 'yes',
'X-Obj-Multiphase-Commit': 'yes',
}),
] * self.replicas()
random.shuffle(responses)
if responses[-1][0] != 201:
# whoops, stupid random
responses = responses[1:] + [responses[0]]
codes, expect_headers = zip(*responses)
with set_http_connect(*codes, expect_headers=expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_with_slow_commits(self):
# It's important that this timeout be much less than the delay in
# the slow commit responses so that the slow commits are not waited
# for.
self.app.post_quorum_timeout = 0.01
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
# plenty of slow commits
response_sleep = 5.0
codes = [FakeStatus(201, response_sleep=response_sleep)
for i in range(self.replicas())]
# swap out some with regular fast responses
number_of_fast_responses_needed_to_be_quick_enough = \
self.policy.quorum
fast_indexes = random.sample(
range(self.replicas()),
number_of_fast_responses_needed_to_be_quick_enough)
for i in fast_indexes:
codes[i] = 201
with set_http_connect(*codes, expect_headers=self.expect_headers):
start = time.time()
resp = req.get_response(self.app)
response_time = time.time() - start
self.assertEqual(resp.status_int, 201)
self.assertLess(response_time, response_sleep)
def test_PUT_with_just_enough_durable_responses(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * (self.policy.ec_ndata + 1)
codes += [503] * (self.policy.ec_nparity - 1)
self.assertEqual(len(codes), self.policy.ec_n_unique_fragments)
random.shuffle(codes)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 201)
def test_PUT_with_less_durable_responses(self):
req = swift.common.swob.Request.blank('/v1/a/c/o', method='PUT',
body=b'')
codes = [201] * (self.policy.ec_ndata)
codes += [503] * (self.policy.ec_nparity)
self.assertEqual(len(codes), self.policy.ec_n_unique_fragments)
random.shuffle(codes)
with set_http_connect(*codes, expect_headers=self.expect_headers):
resp = req.get_response(self.app)
self.assertEqual(resp.status_int, 503)
class TestNumContainerUpdates(unittest.TestCase):
def test_it(self):
test_cases = [
# (container replicas, object replicas, object quorum, expected)
(3, 17, 13, 6), # EC 12+5
(3, 9, 4, 7), # EC 3+6
(3, 14, 11, 5), # EC 10+4
(5, 14, 11, 6), # EC 10+4, 5 container replicas
(7, 14, 11, 7), # EC 10+4, 7 container replicas
(3, 19, 16, 5), # EC 15+4
(5, 19, 16, 6), # EC 15+4, 5 container replicas
(3, 28, 22, 8), # EC (10+4)x2
(5, 28, 22, 9), # EC (10+4)x2, 5 container replicas
(3, 1, 1, 3), # 1 object replica
(3, 2, 1, 3), # 2 object replicas
(3, 3, 2, 3), # 3 object replicas
(3, 4, 2, 4), # 4 object replicas
(3, 5, 3, 4), # 5 object replicas
(3, 6, 3, 5), # 6 object replicas
(3, 7, 4, 5), # 7 object replicas
]
for c_replica, o_replica, o_quorum, exp in test_cases:
c_quorum = utils.quorum_size(c_replica)
got = obj.num_container_updates(c_replica, c_quorum,
o_replica, o_quorum)
self.assertEqual(
exp, got,
"Failed for c_replica=%d, o_replica=%d, o_quorum=%d" % (
c_replica, o_replica, o_quorum))
if __name__ == '__main__':
unittest.main()
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