openstack/swift
Code Issues Proposed changes
5a7383313b
swift/test/functional/test_account.py
Samuel Merritt 117b61976f functests: use assertIn and assertNotIn 
We have a bunch of assertions like

    self.assertTrue(resp.status in (200, 204))

Sometimes we get smart about failure messages and have something like

    self.assertTrue(resp.status in (200, 204), resp.status)

so we can see what the status was when it failed.

Since we don't have to support Python 2.6 any more, we can use
assertIn/assertNotIn and get nice failure messages for free.

Change-Id: I2d46c9969d41207a89e01017b4c2bc533c3d744f
2015-07-28 12:23:14 +01:00

887 lines
34 KiB
Python
Executable File
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#!/usr/bin/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 unittest
import json
from uuid import uuid4
from nose import SkipTest
from string import letters
from six.moves import range
from swift.common.middleware.acl import format_acl
from test.functional import check_response, retry, requires_acls, \
load_constraint
import test.functional as tf
class TestAccount(unittest.TestCase):
def setUp(self):
self.max_meta_count = load_constraint('max_meta_count')
self.max_meta_name_length = load_constraint('max_meta_name_length')
self.max_meta_overall_size = load_constraint('max_meta_overall_size')
self.max_meta_value_length = load_constraint('max_meta_value_length')
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
resp = retry(head)
self.existing_metadata = set([
k for k, v in resp.getheaders() if
k.lower().startswith('x-account-meta')])
def tearDown(self):
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
resp = retry(head)
resp.read()
new_metadata = set(
[k for k, v in resp.getheaders() if
k.lower().startswith('x-account-meta')])
def clear_meta(url, token, parsed, conn, remove_metadata_keys):
headers = {'X-Auth-Token': token}
headers.update((k, '') for k in remove_metadata_keys)
conn.request('POST', parsed.path, '', headers)
return check_response(conn)
extra_metadata = list(self.existing_metadata ^ new_metadata)
for i in range(0, len(extra_metadata), 90):
batch = extra_metadata[i:i + 90]
resp = retry(clear_meta, batch)
resp.read()
self.assertEqual(resp.status // 100, 2)
def test_metadata(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, value):
conn.request('POST', parsed.path, '',
{'X-Auth-Token': token, 'X-Account-Meta-Test': value})
return check_response(conn)
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
resp = retry(post, '')
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-test'), None)
resp = retry(get)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-test'), None)
resp = retry(post, 'Value')
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-test'), 'Value')
resp = retry(get)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-test'), 'Value')
def test_invalid_acls(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# needs to be an acceptable header size
num_keys = 8
max_key_size = load_constraint('max_header_size') / num_keys
acl = {'admin': [c * max_key_size for c in letters[:num_keys]]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 400)
# and again a touch smaller
acl = {'admin': [c * max_key_size for c in letters[:num_keys - 1]]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
@requires_acls
def test_invalid_acl_keys(self):
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# needs to be json
resp = retry(post, headers={'X-Account-Access-Control': 'invalid'},
use_account=1)
resp.read()
self.assertEqual(resp.status, 400)
acl_user = tf.swift_test_user[1]
acl = {'admin': [acl_user], 'invalid_key': 'invalid_value'}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 400)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
@requires_acls
def test_invalid_acl_values(self):
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
acl = {'admin': 'invalid_value'}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 400)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
@requires_acls
def test_read_only_acl(self):
if tf.skip3:
raise SkipTest
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# cannot read account
resp = retry(get, use_account=3)
resp.read()
self.assertEquals(resp.status, 403)
# grant read access
acl_user = tf.swift_test_user[2]
acl = {'read-only': [acl_user]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# read-only can read account headers
resp = retry(get, use_account=3)
resp.read()
self.assertIn(resp.status, (200, 204))
# but not acls
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# read-only can not write metadata
headers = {'x-account-meta-test': 'value'}
resp = retry(post, headers=headers, use_account=3)
resp.read()
self.assertEqual(resp.status, 403)
# but they can read it
headers = {'x-account-meta-test': 'value'}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(get, use_account=3)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('X-Account-Meta-Test'), 'value')
@requires_acls
def test_read_write_acl(self):
if tf.skip3:
raise SkipTest
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# cannot read account
resp = retry(get, use_account=3)
resp.read()
self.assertEquals(resp.status, 403)
# grant read-write access
acl_user = tf.swift_test_user[2]
acl = {'read-write': [acl_user]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# read-write can read account headers
resp = retry(get, use_account=3)
resp.read()
self.assertIn(resp.status, (200, 204))
# but not acls
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# read-write can not write account metadata
headers = {'x-account-meta-test': 'value'}
resp = retry(post, headers=headers, use_account=3)
resp.read()
self.assertEqual(resp.status, 403)
@requires_acls
def test_admin_acl(self):
if tf.skip3:
raise SkipTest
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# cannot read account
resp = retry(get, use_account=3)
resp.read()
self.assertEquals(resp.status, 403)
# grant admin access
acl_user = tf.swift_test_user[2]
acl = {'admin': [acl_user]}
acl_json_str = format_acl(version=2, acl_dict=acl)
headers = {'x-account-access-control': acl_json_str}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# admin can read account headers
resp = retry(get, use_account=3)
resp.read()
self.assertIn(resp.status, (200, 204))
# including acls
self.assertEqual(resp.getheader('X-Account-Access-Control'),
acl_json_str)
# admin can write account metadata
value = str(uuid4())
headers = {'x-account-meta-test': value}
resp = retry(post, headers=headers, use_account=3)
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(get, use_account=3)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('X-Account-Meta-Test'), value)
# admin can even revoke their own access
headers = {'x-account-access-control': '{}'}
resp = retry(post, headers=headers, use_account=3)
resp.read()
self.assertEqual(resp.status, 204)
# and again, cannot read account
resp = retry(get, use_account=3)
resp.read()
self.assertEquals(resp.status, 403)
@requires_acls
def test_protected_tempurl(self):
if tf.skip3:
raise SkipTest
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
# add an account metadata, and temp-url-key to account
value = str(uuid4())
headers = {
'x-account-meta-temp-url-key': 'secret',
'x-account-meta-test': value,
}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# grant read-only access to tester3
acl_user = tf.swift_test_user[2]
acl = {'read-only': [acl_user]}
acl_json_str = format_acl(version=2, acl_dict=acl)
headers = {'x-account-access-control': acl_json_str}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# read-only tester3 can read account metadata
resp = retry(get, use_account=3)
resp.read()
self.assertTrue(
resp.status in (200, 204),
'Expected status in (200, 204), got %s' % resp.status)
self.assertEqual(resp.getheader('X-Account-Meta-Test'), value)
# but not temp-url-key
self.assertEqual(resp.getheader('X-Account-Meta-Temp-Url-Key'), None)
# grant read-write access to tester3
acl_user = tf.swift_test_user[2]
acl = {'read-write': [acl_user]}
acl_json_str = format_acl(version=2, acl_dict=acl)
headers = {'x-account-access-control': acl_json_str}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# read-write tester3 can read account metadata
resp = retry(get, use_account=3)
resp.read()
self.assertTrue(
resp.status in (200, 204),
'Expected status in (200, 204), got %s' % resp.status)
self.assertEqual(resp.getheader('X-Account-Meta-Test'), value)
# but not temp-url-key
self.assertEqual(resp.getheader('X-Account-Meta-Temp-Url-Key'), None)
# grant admin access to tester3
acl_user = tf.swift_test_user[2]
acl = {'admin': [acl_user]}
acl_json_str = format_acl(version=2, acl_dict=acl)
headers = {'x-account-access-control': acl_json_str}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# admin tester3 can read account metadata
resp = retry(get, use_account=3)
resp.read()
self.assertTrue(
resp.status in (200, 204),
'Expected status in (200, 204), got %s' % resp.status)
self.assertEqual(resp.getheader('X-Account-Meta-Test'), value)
# including temp-url-key
self.assertEqual(resp.getheader('X-Account-Meta-Temp-Url-Key'),
'secret')
# admin tester3 can even change temp-url-key
secret = str(uuid4())
headers = {
'x-account-meta-temp-url-key': secret,
}
resp = retry(post, headers=headers, use_account=3)
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(get, use_account=3)
resp.read()
self.assertTrue(
resp.status in (200, 204),
'Expected status in (200, 204), got %s' % resp.status)
self.assertEqual(resp.getheader('X-Account-Meta-Temp-Url-Key'),
secret)
@requires_acls
def test_account_acls(self):
if tf.skip2:
raise SkipTest
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
def put(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('PUT', parsed.path, '', new_headers)
return check_response(conn)
def delete(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('DELETE', parsed.path, '', new_headers)
return check_response(conn)
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
try:
# User1 can POST to their own account (and reset the ACLs)
resp = retry(post, headers={'X-Account-Access-Control': '{}'},
use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User1 can GET their own empty account
resp = retry(get, use_account=1)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User2 can't GET User1's account
resp = retry(get, use_account=2, url_account=1)
resp.read()
self.assertEqual(resp.status, 403)
# User1 is swift_owner of their own account, so they can POST an
# ACL -- let's do this and make User2 (test_user[1]) an admin
acl_user = tf.swift_test_user[1]
acl = {'admin': [acl_user]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# User1 can see the new header
resp = retry(get, use_account=1)
resp.read()
self.assertEqual(resp.status // 100, 2)
data_from_headers = resp.getheader('x-account-access-control')
expected = json.dumps(acl, separators=(',', ':'))
self.assertEqual(data_from_headers, expected)
# Now User2 should be able to GET the account and see the ACL
resp = retry(head, use_account=2, url_account=1)
resp.read()
data_from_headers = resp.getheader('x-account-access-control')
self.assertEqual(data_from_headers, expected)
# Revoke User2's admin access, grant User2 read-write access
acl = {'read-write': [acl_user]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# User2 can still GET the account, but not see the ACL
# (since it's privileged data)
resp = retry(head, use_account=2, url_account=1)
resp.read()
self.assertEqual(resp.status, 204)
self.assertEqual(resp.getheader('x-account-access-control'), None)
# User2 can PUT and DELETE a container
resp = retry(put, use_account=2, url_account=1,
resource='%(storage_url)s/mycontainer', headers={})
resp.read()
self.assertEqual(resp.status, 201)
resp = retry(delete, use_account=2, url_account=1,
resource='%(storage_url)s/mycontainer', headers={})
resp.read()
self.assertEqual(resp.status, 204)
# Revoke User2's read-write access, grant User2 read-only access
acl = {'read-only': [acl_user]}
headers = {'x-account-access-control': format_acl(
version=2, acl_dict=acl)}
resp = retry(post, headers=headers, use_account=1)
resp.read()
self.assertEqual(resp.status, 204)
# User2 can still GET the account, but not see the ACL
# (since it's privileged data)
resp = retry(head, use_account=2, url_account=1)
resp.read()
self.assertEqual(resp.status, 204)
self.assertEqual(resp.getheader('x-account-access-control'), None)
# User2 can't PUT a container
resp = retry(put, use_account=2, url_account=1,
resource='%(storage_url)s/mycontainer', headers={})
resp.read()
self.assertEqual(resp.status, 403)
finally:
# Make sure to clean up even if tests fail -- User2 should not
# have access to User1's account in other functional tests!
resp = retry(post, headers={'X-Account-Access-Control': '{}'},
use_account=1)
resp.read()
@requires_acls
def test_swift_account_acls(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
try:
# User1 can POST to their own account
resp = retry(post, headers={'X-Account-Access-Control': '{}'})
resp.read()
self.assertEqual(resp.status, 204)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User1 can GET their own empty account
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User1 can POST non-empty data
acl_json = '{"admin":["bob"]}'
resp = retry(post, headers={'X-Account-Access-Control': acl_json})
resp.read()
self.assertEqual(resp.status, 204)
# User1 can GET the non-empty data
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertEqual(resp.getheader('X-Account-Access-Control'),
acl_json)
# POST non-JSON ACL should fail
resp = retry(post, headers={'X-Account-Access-Control': 'yuck'})
resp.read()
# resp.status will be 400 if tempauth or some other ACL-aware
# auth middleware rejects it, or 200 (but silently swallowed by
# core Swift) if ACL-unaware auth middleware approves it.
# A subsequent GET should show the old, valid data, not the garbage
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertEqual(resp.getheader('X-Account-Access-Control'),
acl_json)
finally:
# Make sure to clean up even if tests fail -- User2 should not
# have access to User1's account in other functional tests!
resp = retry(post, headers={'X-Account-Access-Control': '{}'})
resp.read()
def test_swift_prohibits_garbage_account_acls(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, headers):
new_headers = dict({'X-Auth-Token': token}, **headers)
conn.request('POST', parsed.path, '', new_headers)
return check_response(conn)
def get(url, token, parsed, conn):
conn.request('GET', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
try:
# User1 can POST to their own account
resp = retry(post, headers={'X-Account-Access-Control': '{}'})
resp.read()
self.assertEqual(resp.status, 204)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User1 can GET their own empty account
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertEqual(resp.getheader('X-Account-Access-Control'), None)
# User1 can POST non-empty data
acl_json = '{"admin":["bob"]}'
resp = retry(post, headers={'X-Account-Access-Control': acl_json})
resp.read()
self.assertEqual(resp.status, 204)
# If this request is handled by ACL-aware auth middleware, then the
# ACL will be persisted. If it is handled by ACL-unaware auth
# middleware, then the header will be thrown out. But the request
# should return successfully in any case.
# User1 can GET the non-empty data
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
# ACL will be set if some ACL-aware auth middleware (e.g. tempauth)
# propagates it to sysmeta; if no ACL-aware auth middleware does,
# then X-Account-Access-Control will still be empty.
# POST non-JSON ACL should fail
resp = retry(post, headers={'X-Account-Access-Control': 'yuck'})
resp.read()
# resp.status will be 400 if tempauth or some other ACL-aware
# auth middleware rejects it, or 200 (but silently swallowed by
# core Swift) if ACL-unaware auth middleware approves it.
# A subsequent GET should either show the old, valid data (if
# ACL-aware auth middleware is propagating it) or show nothing
# (if no auth middleware in the pipeline is ACL-aware), but should
# never return the garbage ACL.
resp = retry(get)
resp.read()
self.assertEqual(resp.status // 100, 2)
self.assertNotEqual(resp.getheader('X-Account-Access-Control'),
'yuck')
finally:
# Make sure to clean up even if tests fail -- User2 should not
# have access to User1's account in other functional tests!
resp = retry(post, headers={'X-Account-Access-Control': '{}'})
resp.read()
def test_unicode_metadata(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, name, value):
conn.request('POST', parsed.path, '',
{'X-Auth-Token': token, name: value})
return check_response(conn)
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
uni_key = u'X-Account-Meta-uni\u0E12'
uni_value = u'uni\u0E12'
if (tf.web_front_end == 'integral'):
resp = retry(post, uni_key, '1')
resp.read()
self.assertIn(resp.status, (201, 204))
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader(uni_key.encode('utf-8')), '1')
resp = retry(post, 'X-Account-Meta-uni', uni_value)
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('X-Account-Meta-uni'),
uni_value.encode('utf-8'))
if (tf.web_front_end == 'integral'):
resp = retry(post, uni_key, uni_value)
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader(uni_key.encode('utf-8')),
uni_value.encode('utf-8'))
def test_multi_metadata(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, name, value):
conn.request('POST', parsed.path, '',
{'X-Auth-Token': token, name: value})
return check_response(conn)
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '', {'X-Auth-Token': token})
return check_response(conn)
resp = retry(post, 'X-Account-Meta-One', '1')
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-one'), '1')
resp = retry(post, 'X-Account-Meta-Two', '2')
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(head)
resp.read()
self.assertIn(resp.status, (200, 204))
self.assertEqual(resp.getheader('x-account-meta-one'), '1')
self.assertEqual(resp.getheader('x-account-meta-two'), '2')
def test_bad_metadata(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, extra_headers):
headers = {'X-Auth-Token': token}
headers.update(extra_headers)
conn.request('POST', parsed.path, '', headers)
return check_response(conn)
resp = retry(post,
{'X-Account-Meta-' + (
'k' * self.max_meta_name_length): 'v'})
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(
post,
{'X-Account-Meta-' + ('k' * (
self.max_meta_name_length + 1)): 'v'})
resp.read()
self.assertEqual(resp.status, 400)
resp = retry(post,
{'X-Account-Meta-Too-Long': (
'k' * self.max_meta_value_length)})
resp.read()
self.assertEqual(resp.status, 204)
resp = retry(
post,
{'X-Account-Meta-Too-Long': 'k' * (
self.max_meta_value_length + 1)})
resp.read()
self.assertEqual(resp.status, 400)
def test_bad_metadata2(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, extra_headers):
headers = {'X-Auth-Token': token}
headers.update(extra_headers)
conn.request('POST', parsed.path, '', headers)
return check_response(conn)
# TODO: Find the test that adds these and remove them.
headers = {'x-remove-account-meta-temp-url-key': 'remove',
'x-remove-account-meta-temp-url-key-2': 'remove'}
resp = retry(post, headers)
headers = {}
for x in range(self.max_meta_count):
headers['X-Account-Meta-%d' % x] = 'v'
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 204)
headers = {}
for x in range(self.max_meta_count + 1):
headers['X-Account-Meta-%d' % x] = 'v'
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 400)
def test_bad_metadata3(self):
if tf.skip:
raise SkipTest
def post(url, token, parsed, conn, extra_headers):
headers = {'X-Auth-Token': token}
headers.update(extra_headers)
conn.request('POST', parsed.path, '', headers)
return check_response(conn)
headers = {}
header_value = 'k' * self.max_meta_value_length
size = 0
x = 0
while size < (self.max_meta_overall_size - 4
- self.max_meta_value_length):
size += 4 + self.max_meta_value_length
headers['X-Account-Meta-%04d' % x] = header_value
x += 1
if self.max_meta_overall_size - size > 1:
headers['X-Account-Meta-k'] = \
'v' * (self.max_meta_overall_size - size - 1)
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 204)
# this POST includes metadata size that is over limit
headers['X-Account-Meta-k'] = \
'x' * (self.max_meta_overall_size - size)
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 400)
# this POST would be ok and the aggregate backend metadata
# size is on the border
headers = {'X-Account-Meta-k':
'y' * (self.max_meta_overall_size - size - 1)}
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 204)
# this last POST would be ok by itself but takes the aggregate
# backend metadata size over limit
headers = {'X-Account-Meta-k':
'z' * (self.max_meta_overall_size - size)}
resp = retry(post, headers)
resp.read()
self.assertEqual(resp.status, 400)
class TestAccountInNonDefaultDomain(unittest.TestCase):
def setUp(self):
if tf.skip or tf.skip2 or tf.skip_if_not_v3:
raise SkipTest('AUTH VERSION 3 SPECIFIC TEST')
def test_project_domain_id_header(self):
# make sure account exists (assumes account auto create)
def post(url, token, parsed, conn):
conn.request('POST', parsed.path, '',
{'X-Auth-Token': token})
return check_response(conn)
resp = retry(post, use_account=4)
resp.read()
self.assertEqual(resp.status, 204)
# account in non-default domain should have a project domain id
def head(url, token, parsed, conn):
conn.request('HEAD', parsed.path, '',
{'X-Auth-Token': token})
return check_response(conn)
resp = retry(head, use_account=4)
resp.read()
self.assertEqual(resp.status, 204)
self.assertIn('X-Account-Project-Domain-Id', resp.headers)
if __name__ == '__main__':
unittest.main()
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