swift/test/functional/test_slo.py
Tim Burke 99947150dd func tests: work with etag-quoter on by default
Also, run the in-process encryption func tests like that.

Change-Id: I984ab8d1304d23b89589973950b10dda4aea0db3
2020-06-01 18:38:23 -05:00

1301 lines
54 KiB
Python

#!/usr/bin/python -u
# Copyright (c) 2010-2016 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import base64
import email.parser
import hashlib
import itertools
import json
from copy import deepcopy
import six
from swift.common.swob import normalize_etag
import test.functional as tf
from test.functional import cluster_info, SkipTest
from test.functional.tests import Utils, Base, Base2, BaseEnv
from test.functional.swift_test_client import Connection, ResponseError
def setUpModule():
tf.setup_package()
def tearDownModule():
tf.teardown_package()
def group_file_contents(file_contents):
# This looks a little funny, but iterating through a byte string on py3
# yields a sequence of ints, not a sequence of single-byte byte strings
# as it did on py2.
byte_iter = (file_contents[i:i + 1] for i in range(len(file_contents)))
return [
(char, sum(1 for _ in grp))
for char, grp in itertools.groupby(byte_iter)]
class TestSloEnv(BaseEnv):
slo_enabled = None # tri-state: None initially, then True/False
@classmethod
def create_segments(cls, container):
seg_info = {}
for letter, size in (('a', 1024 * 1024),
('b', 1024 * 1024),
('c', 1024 * 1024),
('d', 1024 * 1024),
('e', 1)):
seg_name = "seg_%s" % letter
file_item = container.file(seg_name)
file_item.write(letter.encode('ascii') * size)
seg_info[seg_name] = {
'size_bytes': size,
'etag': file_item.md5,
'path': '/%s/%s' % (container.name, seg_name)}
return seg_info
@classmethod
def setUp(cls):
if cls.slo_enabled is None:
cls.slo_enabled = 'slo' in cluster_info
if not cls.slo_enabled:
return
super(TestSloEnv, cls).setUp()
if not tf.skip2:
config2 = deepcopy(tf.config)
config2['account'] = tf.config['account2']
config2['username'] = tf.config['username2']
config2['password'] = tf.config['password2']
cls.conn2 = Connection(config2)
cls.conn2.authenticate()
cls.account2 = cls.conn2.get_account()
cls.account2.delete_containers()
if not tf.skip3:
config3 = tf.config.copy()
config3['username'] = tf.config['username3']
config3['password'] = tf.config['password3']
cls.conn3 = Connection(config3)
cls.conn3.authenticate()
cls.container = cls.account.container(Utils.create_name())
cls.container2 = cls.account.container(Utils.create_name())
for cont in (cls.container, cls.container2):
if not cont.create():
raise ResponseError(cls.conn.response)
cls.seg_info = seg_info = cls.create_segments(cls.container)
file_item = cls.container.file("manifest-abcde")
file_item.write(
json.dumps([seg_info['seg_a'], seg_info['seg_b'],
seg_info['seg_c'], seg_info['seg_d'],
seg_info['seg_e']]).encode('ascii'),
parms={'multipart-manifest': 'put'})
cls.container.file('seg_with_%ff_funky_name').write(b'z' * 10)
# Put the same manifest in the container2
file_item = cls.container2.file("manifest-abcde")
file_item.write(
json.dumps([seg_info['seg_a'], seg_info['seg_b'],
seg_info['seg_c'], seg_info['seg_d'],
seg_info['seg_e']]).encode('ascii'),
parms={'multipart-manifest': 'put'})
file_item = cls.container.file('manifest-cd')
cd_json = json.dumps([
seg_info['seg_c'], seg_info['seg_d']]).encode('ascii')
file_item.write(cd_json, parms={'multipart-manifest': 'put'})
cd_etag = hashlib.md5((
seg_info['seg_c']['etag'] + seg_info['seg_d']['etag']
).encode('ascii')).hexdigest()
file_item = cls.container.file("manifest-bcd-submanifest")
file_item.write(
json.dumps([seg_info['seg_b'],
{'etag': cd_etag,
'size_bytes': (seg_info['seg_c']['size_bytes'] +
seg_info['seg_d']['size_bytes']),
'path': '/%s/%s' % (cls.container.name,
'manifest-cd')}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
bcd_submanifest_etag = hashlib.md5((
seg_info['seg_b']['etag'] + cd_etag).encode('ascii')).hexdigest()
file_item = cls.container.file("manifest-abcde-submanifest")
file_item.write(
json.dumps([
seg_info['seg_a'],
{'etag': bcd_submanifest_etag,
'size_bytes': (seg_info['seg_b']['size_bytes'] +
seg_info['seg_c']['size_bytes'] +
seg_info['seg_d']['size_bytes']),
'path': '/%s/%s' % (cls.container.name,
'manifest-bcd-submanifest')},
seg_info['seg_e']]).encode('ascii'),
parms={'multipart-manifest': 'put'})
abcde_submanifest_etag = hashlib.md5((
seg_info['seg_a']['etag'] + bcd_submanifest_etag +
seg_info['seg_e']['etag']).encode('ascii')).hexdigest()
abcde_submanifest_size = (seg_info['seg_a']['size_bytes'] +
seg_info['seg_b']['size_bytes'] +
seg_info['seg_c']['size_bytes'] +
seg_info['seg_d']['size_bytes'] +
seg_info['seg_e']['size_bytes'])
file_item = cls.container.file("ranged-manifest")
file_item.write(
json.dumps([
{'etag': abcde_submanifest_etag,
'size_bytes': abcde_submanifest_size,
'path': '/%s/%s' % (cls.container.name,
'manifest-abcde-submanifest'),
'range': '-1048578'}, # 'c' + ('d' * 2**20) + 'e'
{'etag': abcde_submanifest_etag,
'size_bytes': abcde_submanifest_size,
'path': '/%s/%s' % (cls.container.name,
'manifest-abcde-submanifest'),
'range': '524288-1572863'}, # 'a' * 2**19 + 'b' * 2**19
{'etag': abcde_submanifest_etag,
'size_bytes': abcde_submanifest_size,
'path': '/%s/%s' % (cls.container.name,
'manifest-abcde-submanifest'),
'range': '3145727-3145728'}]).encode('ascii'), # 'cd'
parms={'multipart-manifest': 'put'})
ranged_manifest_etag = hashlib.md5((
abcde_submanifest_etag + ':3145727-4194304;' +
abcde_submanifest_etag + ':524288-1572863;' +
abcde_submanifest_etag + ':3145727-3145728;'
).encode('ascii')).hexdigest()
ranged_manifest_size = 2 * 1024 * 1024 + 4
file_item = cls.container.file("ranged-submanifest")
file_item.write(
json.dumps([
seg_info['seg_c'],
{'etag': ranged_manifest_etag,
'size_bytes': ranged_manifest_size,
'path': '/%s/%s' % (cls.container.name,
'ranged-manifest')},
{'etag': ranged_manifest_etag,
'size_bytes': ranged_manifest_size,
'path': '/%s/%s' % (cls.container.name,
'ranged-manifest'),
'range': '524289-1572865'},
{'etag': ranged_manifest_etag,
'size_bytes': ranged_manifest_size,
'path': '/%s/%s' % (cls.container.name,
'ranged-manifest'),
'range': '-3'}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
file_item = cls.container.file("manifest-db")
file_item.write(
json.dumps([
{'path': seg_info['seg_d']['path'], 'etag': None,
'size_bytes': None},
{'path': seg_info['seg_b']['path'], 'etag': None,
'size_bytes': None},
]).encode('ascii'), parms={'multipart-manifest': 'put'})
file_item = cls.container.file("ranged-manifest-repeated-segment")
file_item.write(
json.dumps([
{'path': seg_info['seg_a']['path'], 'etag': None,
'size_bytes': None, 'range': '-1048578'},
{'path': seg_info['seg_a']['path'], 'etag': None,
'size_bytes': None},
{'path': seg_info['seg_b']['path'], 'etag': None,
'size_bytes': None, 'range': '-1048578'},
]).encode('ascii'), parms={'multipart-manifest': 'put'})
file_item = cls.container.file("mixed-object-data-manifest")
file_item.write(
json.dumps([
{'data': base64.b64encode(b'APRE' * 8).decode('ascii')},
{'path': seg_info['seg_a']['path']},
{'data': base64.b64encode(b'APOS' * 16).decode('ascii')},
{'path': seg_info['seg_b']['path']},
{'data': base64.b64encode(b'BPOS' * 32).decode('ascii')},
{'data': base64.b64encode(b'CPRE' * 64).decode('ascii')},
{'path': seg_info['seg_c']['path']},
{'data': base64.b64encode(b'CPOS' * 8).decode('ascii')},
]).encode('ascii'), parms={'multipart-manifest': 'put'}
)
file_item = cls.container.file("nested-data-manifest")
file_item.write(
json.dumps([
{'path': '%s/%s' % (cls.container.name,
"mixed-object-data-manifest")}
]).encode('ascii'), parms={'multipart-manifest': 'put'}
)
class TestSlo(Base):
env = TestSloEnv
def setUp(self):
super(TestSlo, self).setUp()
if self.env.slo_enabled is False:
raise SkipTest("SLO not enabled")
elif self.env.slo_enabled is not True:
# just some sanity checking
raise Exception(
"Expected slo_enabled to be True/False, got %r" %
(self.env.slo_enabled,))
manifest_abcde_hash = hashlib.md5()
for letter in (b'a', b'b', b'c', b'd'):
manifest_abcde_hash.update(hashlib.md5(
letter * 1024 * 1024).hexdigest().encode('ascii'))
manifest_abcde_hash.update(hashlib.md5(
b'e').hexdigest().encode('ascii'))
self.manifest_abcde_etag = manifest_abcde_hash.hexdigest()
def test_slo_get_simple_manifest(self):
file_item = self.env.container.file('manifest-abcde')
file_contents = file_item.read()
self.assertEqual(file_item.conn.response.status, 200)
headers = dict(
(h.lower(), v)
for h, v in file_item.conn.response.getheaders())
self.assertIn('etag', headers)
self.assertEqual(headers['etag'], '"%s"' % self.manifest_abcde_etag)
self.assertEqual([
(b'a', 1024 * 1024),
(b'b', 1024 * 1024),
(b'c', 1024 * 1024),
(b'd', 1024 * 1024),
(b'e', 1),
], group_file_contents(file_contents))
def test_slo_container_listing(self):
# the listing object size should equal the sum of the size of the
# segments, not the size of the manifest body
file_item = self.env.container.file(Utils.create_name())
file_item.write(
json.dumps([self.env.seg_info['seg_a']]).encode('ascii'),
parms={'multipart-manifest': 'put'})
# The container listing exposes BOTH the MD5 of the manifest content
# and the SLO MD5-of-MD5s by splitting the latter out into a separate
# key. These should remain consistent when the object is updated with
# a POST.
file_item.initialize(parms={'multipart-manifest': 'get'})
manifest_etag = file_item.etag
if tf.cluster_info.get('etag_quoter', {}).get('enable_by_default'):
self.assertTrue(manifest_etag.startswith('"'))
self.assertTrue(manifest_etag.endswith('"'))
# ...but in the listing, it'll be stripped
manifest_etag = manifest_etag[1:-1]
else:
self.assertFalse(manifest_etag.startswith('"'))
self.assertFalse(manifest_etag.endswith('"'))
file_item.initialize()
slo_etag = file_item.etag
self.assertTrue(slo_etag.startswith('"'))
self.assertTrue(slo_etag.endswith('"'))
listing = self.env.container.files(parms={'format': 'json'})
for f_dict in listing:
if f_dict['name'] == file_item.name:
self.assertEqual(1024 * 1024, f_dict['bytes'])
self.assertEqual('application/octet-stream',
f_dict['content_type'])
self.assertEqual(manifest_etag, f_dict['hash'])
self.assertEqual(slo_etag, f_dict['slo_etag'])
break
else:
self.fail('Failed to find manifest file in container listing')
# now POST updated content-type file
file_item.content_type = 'image/jpeg'
file_item.sync_metadata({'X-Object-Meta-Test': 'blah'})
file_item.initialize()
self.assertEqual('image/jpeg', file_item.content_type) # sanity
# verify that the container listing is consistent with the file
listing = self.env.container.files(parms={'format': 'json'})
for f_dict in listing:
if f_dict['name'] == file_item.name:
self.assertEqual(1024 * 1024, f_dict['bytes'])
self.assertEqual(file_item.content_type,
f_dict['content_type'])
self.assertEqual(manifest_etag, f_dict['hash'])
self.assertEqual(slo_etag, f_dict['slo_etag'])
break
else:
self.fail('Failed to find manifest file in container listing')
# now POST with no change to content-type
file_item.sync_metadata({'X-Object-Meta-Test': 'blah'},
cfg={'no_content_type': True})
file_item.initialize()
self.assertEqual('image/jpeg', file_item.content_type) # sanity
# verify that the container listing is consistent with the file
listing = self.env.container.files(parms={'format': 'json'})
for f_dict in listing:
if f_dict['name'] == file_item.name:
self.assertEqual(1024 * 1024, f_dict['bytes'])
self.assertEqual(file_item.content_type,
f_dict['content_type'])
self.assertEqual(manifest_etag, f_dict['hash'])
self.assertEqual(slo_etag, f_dict['slo_etag'])
break
else:
self.fail('Failed to find manifest file in container listing')
def test_slo_get_nested_manifest(self):
file_item = self.env.container.file('manifest-abcde-submanifest')
file_contents = file_item.read()
self.assertEqual(4 * 1024 * 1024 + 1, len(file_contents))
self.assertEqual([
(b'a', 1024 * 1024),
(b'b', 1024 * 1024),
(b'c', 1024 * 1024),
(b'd', 1024 * 1024),
(b'e', 1),
], group_file_contents(file_item.read()))
def test_slo_get_ranged_manifest(self):
file_item = self.env.container.file('ranged-manifest')
self.assertEqual([
(b'c', 1),
(b'd', 1024 * 1024),
(b'e', 1),
(b'a', 512 * 1024),
(b'b', 512 * 1024),
(b'c', 1),
(b'd', 1),
], group_file_contents(file_item.read()))
def test_slo_get_ranged_manifest_repeated_segment(self):
file_item = self.env.container.file('ranged-manifest-repeated-segment')
self.assertEqual(
[(b'a', 2097152), (b'b', 1048576)],
group_file_contents(file_item.read()))
def test_slo_get_ranged_submanifest(self):
file_item = self.env.container.file('ranged-submanifest')
self.assertEqual([
(b'c', 1024 * 1024 + 1),
(b'd', 1024 * 1024),
(b'e', 1),
(b'a', 512 * 1024),
(b'b', 512 * 1024),
(b'c', 1),
(b'd', 512 * 1024 + 1),
(b'e', 1),
(b'a', 512 * 1024),
(b'b', 1),
(b'c', 1),
(b'd', 1),
], group_file_contents(file_item.read()))
def test_slo_ranged_get(self):
file_item = self.env.container.file('manifest-abcde')
file_contents = file_item.read(size=1024 * 1024 + 2,
offset=1024 * 1024 - 1)
self.assertEqual(file_item.conn.response.status, 206)
headers = dict(
(h.lower(), v)
for h, v in file_item.conn.response.getheaders())
self.assertIn('etag', headers)
self.assertEqual(headers['etag'], '"%s"' % self.manifest_abcde_etag)
self.assertEqual([
(b'a', 1),
(b'b', 1048576),
(b'c', 1),
], group_file_contents(file_contents))
def test_slo_ranged_get_half_open_on_right(self):
file_item = self.env.container.file('manifest-abcde')
file_contents = file_item.read(
hdrs={"Range": "bytes=1048571-"})
self.assertEqual([
(b'a', 5),
(b'b', 1048576),
(b'c', 1048576),
(b'd', 1048576),
(b'e', 1)
], group_file_contents(file_contents))
def test_slo_ranged_get_half_open_on_left(self):
file_item = self.env.container.file('manifest-abcde')
file_contents = file_item.read(
hdrs={"Range": "bytes=-123456"})
self.assertEqual([
(b'd', 123455),
(b'e', 1),
], group_file_contents(file_contents))
def test_slo_multi_ranged_get(self):
file_item = self.env.container.file('manifest-abcde')
file_contents = file_item.read(
hdrs={"Range": "bytes=1048571-1048580,2097147-2097156"})
# See testMultiRangeGets for explanation
if six.PY2:
parser = email.parser.FeedParser()
else:
parser = email.parser.BytesFeedParser()
parser.feed((
"Content-Type: %s\r\n\r\n" % file_item.content_type).encode())
parser.feed(file_contents)
root_message = parser.close()
self.assertTrue(root_message.is_multipart()) # sanity check
byteranges = root_message.get_payload()
self.assertEqual(len(byteranges), 2)
self.assertEqual(byteranges[0]['Content-Type'],
"application/octet-stream")
self.assertEqual(
byteranges[0]['Content-Range'], "bytes 1048571-1048580/4194305")
self.assertEqual(byteranges[0].get_payload(decode=True), b"aaaaabbbbb")
self.assertEqual(byteranges[1]['Content-Type'],
"application/octet-stream")
self.assertEqual(
byteranges[1]['Content-Range'], "bytes 2097147-2097156/4194305")
self.assertEqual(byteranges[1].get_payload(decode=True), b"bbbbbccccc")
def test_slo_ranged_submanifest(self):
file_item = self.env.container.file('manifest-abcde-submanifest')
file_contents = file_item.read(size=1024 * 1024 + 2,
offset=1024 * 1024 * 2 - 1)
self.assertEqual([
(b'b', 1),
(b'c', 1024 * 1024),
(b'd', 1),
], group_file_contents(file_contents))
def test_slo_etag_is_quote_wrapped_hash_of_etags(self):
# we have this check in test_slo_get_simple_manifest, too,
# but verify that it holds for HEAD requests
file_item = self.env.container.file('manifest-abcde')
self.assertEqual('"%s"' % self.manifest_abcde_etag,
file_item.info()['etag'])
def test_slo_etag_is_quote_wrapped_hash_of_etags_submanifests(self):
def hd(x):
return hashlib.md5(x).hexdigest().encode('ascii')
expected_etag = hd(hd(b'a' * 1024 * 1024) +
hd(hd(b'b' * 1024 * 1024) +
hd(hd(b'c' * 1024 * 1024) +
hd(b'd' * 1024 * 1024))) +
hd(b'e'))
file_item = self.env.container.file('manifest-abcde-submanifest')
self.assertEqual('"%s"' % expected_etag.decode('ascii'),
file_item.info()['etag'])
def test_slo_etag_mismatch(self):
file_item = self.env.container.file("manifest-a-bad-etag")
try:
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024,
'etag': 'not it',
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
except ResponseError as err:
self.assertEqual(400, err.status)
else:
self.fail("Expected ResponseError but didn't get it")
def test_slo_size_mismatch(self):
file_item = self.env.container.file("manifest-a-bad-size")
try:
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024 - 1,
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
except ResponseError as err:
self.assertEqual(400, err.status)
else:
self.fail("Expected ResponseError but didn't get it")
def test_slo_client_etag_mismatch(self):
file_item = self.env.container.file("manifest-a-mismatch-etag")
try:
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024,
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'},
hdrs={'Etag': 'NOTetagofthesegments'})
except ResponseError as err:
self.assertEqual(422, err.status)
def test_slo_client_etag(self):
file_item = self.env.container.file("manifest-a-b-etag")
etag_a = hashlib.md5(b'a' * 1024 * 1024).hexdigest()
etag_b = hashlib.md5(b'b' * 1024 * 1024).hexdigest()
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024,
'etag': etag_a,
'path': '/%s/%s' % (self.env.container.name, 'seg_a')}, {
'size_bytes': 1024 * 1024,
'etag': etag_b,
'path': '/%s/%s' % (self.env.container.name, 'seg_b'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'},
hdrs={'Etag': hashlib.md5((etag_a + etag_b).encode()).hexdigest()})
self.assert_status(201)
def test_slo_unspecified_etag(self):
file_item = self.env.container.file("manifest-a-unspecified-etag")
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024,
'etag': None,
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
def test_slo_unspecified_size(self):
file_item = self.env.container.file("manifest-a-unspecified-size")
file_item.write(
json.dumps([{
'size_bytes': None,
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
def test_slo_funky_segment(self):
file_item = self.env.container.file("manifest-with-funky-segment")
file_item.write(
json.dumps([{
'path': '/%s/%s' % (self.env.container.name,
'seg_with_%ff_funky_name'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
self.assertEqual(b'z' * 10, file_item.read())
def test_slo_missing_etag(self):
file_item = self.env.container.file("manifest-a-missing-etag")
file_item.write(
json.dumps([{
'size_bytes': 1024 * 1024,
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
def test_slo_missing_size(self):
file_item = self.env.container.file("manifest-a-missing-size")
file_item.write(
json.dumps([{
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
def test_slo_path_only(self):
file_item = self.env.container.file("manifest-a-path-only")
file_item.write(
json.dumps([{
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assert_status(201)
def test_slo_typo_etag(self):
file_item = self.env.container.file("manifest-a-typo-etag")
try:
file_item.write(
json.dumps([{
'teag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'size_bytes': 1024 * 1024,
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
except ResponseError as err:
self.assertEqual(400, err.status)
else:
self.fail("Expected ResponseError but didn't get it")
def test_slo_typo_size(self):
file_item = self.env.container.file("manifest-a-typo-size")
try:
file_item.write(
json.dumps([{
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'siz_bytes': 1024 * 1024,
'path': '/%s/%s' % (self.env.container.name, 'seg_a'),
}]).encode('ascii'),
parms={'multipart-manifest': 'put'})
except ResponseError as err:
self.assertEqual(400, err.status)
else:
self.fail("Expected ResponseError but didn't get it")
def test_slo_overwrite_segment_with_manifest(self):
file_item = self.env.container.file("seg_b")
with self.assertRaises(ResponseError) as catcher:
file_item.write(
json.dumps([
{'size_bytes': 1024 * 1024,
'etag': hashlib.md5(b'a' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_a')},
{'size_bytes': 1024 * 1024,
'etag': hashlib.md5(b'b' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_b')},
{'size_bytes': 1024 * 1024,
'etag': hashlib.md5(b'c' * 1024 * 1024).hexdigest(),
'path': '/%s/%s' % (self.env.container.name, 'seg_c')},
]).encode('ascii'),
parms={'multipart-manifest': 'put'})
self.assertEqual(400, catcher.exception.status)
def test_slo_copy(self):
file_item = self.env.container.file("manifest-abcde")
file_item.copy(self.env.container.name, "copied-abcde")
copied = self.env.container.file("copied-abcde")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
self.assertEqual(4 * 1024 * 1024 + 1, len(copied_contents))
def test_slo_copy_account(self):
acct = self.env.conn.account_name
# same account copy
file_item = self.env.container.file("manifest-abcde")
file_item.copy_account(acct, self.env.container.name, "copied-abcde")
copied = self.env.container.file("copied-abcde")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
self.assertEqual(4 * 1024 * 1024 + 1, len(copied_contents))
if not tf.skip2:
# copy to different account
acct = self.env.conn2.account_name
dest_cont = self.env.account2.container(Utils.create_name())
self.assertTrue(dest_cont.create(hdrs={
'X-Container-Write': self.env.conn.user_acl
}))
file_item = self.env.container.file("manifest-abcde")
file_item.copy_account(acct, dest_cont, "copied-abcde")
copied = dest_cont.file("copied-abcde")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
self.assertEqual(4 * 1024 * 1024 + 1, len(copied_contents))
def test_slo_copy_the_manifest(self):
source = self.env.container.file("manifest-abcde")
source.initialize(parms={'multipart-manifest': 'get'})
source_contents = source.read(parms={'multipart-manifest': 'get'})
source_json = json.loads(source_contents)
manifest_etag = hashlib.md5(source_contents).hexdigest()
if tf.cluster_info.get('etag_quoter', {}).get('enable_by_default'):
manifest_etag = '"%s"' % manifest_etag
self.assertEqual(manifest_etag, source.etag)
source.initialize()
self.assertEqual('application/octet-stream', source.content_type)
self.assertNotEqual(manifest_etag, source.etag)
slo_etag = source.etag
self.assertTrue(source.copy(self.env.container.name,
"copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'}))
copied = self.env.container.file("copied-abcde-manifest-only")
copied.initialize(parms={'multipart-manifest': 'get'})
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
try:
copied_json = json.loads(copied_contents)
except ValueError:
self.fail("COPY didn't copy the manifest (invalid json on GET)")
self.assertEqual(source_json, copied_json)
self.assertEqual(manifest_etag, copied.etag)
copied.initialize()
self.assertEqual('application/octet-stream', copied.content_type)
self.assertEqual(slo_etag, copied.etag)
# verify the listing metadata
listing = self.env.container.files(parms={'format': 'json'})
names = {}
for f_dict in listing:
if f_dict['name'] in ('manifest-abcde',
'copied-abcde-manifest-only'):
names[f_dict['name']] = f_dict
self.assertIn('manifest-abcde', names)
actual = names['manifest-abcde']
self.assertEqual(4 * 1024 * 1024 + 1, actual['bytes'])
self.assertEqual('application/octet-stream', actual['content_type'])
self.assertEqual(normalize_etag(manifest_etag), actual['hash'])
self.assertEqual(slo_etag, actual['slo_etag'])
self.assertIn('copied-abcde-manifest-only', names)
actual = names['copied-abcde-manifest-only']
self.assertEqual(4 * 1024 * 1024 + 1, actual['bytes'])
self.assertEqual('application/octet-stream', actual['content_type'])
self.assertEqual(normalize_etag(manifest_etag), actual['hash'])
self.assertEqual(slo_etag, actual['slo_etag'])
# Test copy manifest including data segments
source = self.env.container.file("mixed-object-data-manifest")
source_contents = source.read(parms={'multipart-manifest': 'get'})
source_json = json.loads(source_contents)
source.copy(
self.env.container.name,
"copied-mixed-object-data-manifest",
parms={'multipart-manifest': 'get'})
copied = self.env.container.file("copied-mixed-object-data-manifest")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
try:
copied_json = json.loads(copied_contents)
except ValueError:
self.fail("COPY didn't copy the manifest (invalid json on GET)")
self.assertEqual(source_contents, copied_contents)
self.assertEqual(copied_json[0], {
'data': base64.b64encode(b'APRE' * 8).decode('ascii')})
def test_slo_copy_the_manifest_updating_metadata(self):
source = self.env.container.file("manifest-abcde")
source.content_type = 'application/octet-stream'
source.sync_metadata({'test': 'original'})
source.initialize(parms={'multipart-manifest': 'get'})
source_contents = source.read(parms={'multipart-manifest': 'get'})
source_json = json.loads(source_contents)
manifest_etag = hashlib.md5(source_contents).hexdigest()
if tf.cluster_info.get('etag_quoter', {}).get('enable_by_default'):
manifest_etag = '"%s"' % manifest_etag
self.assertEqual(manifest_etag, source.etag)
source.initialize()
self.assertEqual('application/octet-stream', source.content_type)
self.assertNotEqual(manifest_etag, source.etag)
slo_etag = source.etag
self.assertEqual(source.metadata['test'], 'original')
self.assertTrue(
source.copy(self.env.container.name, "copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'},
hdrs={'Content-Type': 'image/jpeg',
'X-Object-Meta-Test': 'updated'}))
copied = self.env.container.file("copied-abcde-manifest-only")
copied.initialize(parms={'multipart-manifest': 'get'})
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
try:
copied_json = json.loads(copied_contents)
except ValueError:
self.fail("COPY didn't copy the manifest (invalid json on GET)")
self.assertEqual(source_json, copied_json)
self.assertEqual(manifest_etag, copied.etag)
copied.initialize()
self.assertEqual('image/jpeg', copied.content_type)
self.assertEqual(slo_etag, copied.etag)
self.assertEqual(copied.metadata['test'], 'updated')
# verify the listing metadata
listing = self.env.container.files(parms={'format': 'json'})
names = {}
for f_dict in listing:
if f_dict['name'] in ('manifest-abcde',
'copied-abcde-manifest-only'):
names[f_dict['name']] = f_dict
self.assertIn('manifest-abcde', names)
actual = names['manifest-abcde']
self.assertEqual(4 * 1024 * 1024 + 1, actual['bytes'])
self.assertEqual('application/octet-stream', actual['content_type'])
# the container listing should have the etag of the manifest contents
self.assertEqual(normalize_etag(manifest_etag), actual['hash'])
self.assertEqual(slo_etag, actual['slo_etag'])
self.assertIn('copied-abcde-manifest-only', names)
actual = names['copied-abcde-manifest-only']
self.assertEqual(4 * 1024 * 1024 + 1, actual['bytes'])
self.assertEqual('image/jpeg', actual['content_type'])
self.assertEqual(normalize_etag(manifest_etag), actual['hash'])
self.assertEqual(slo_etag, actual['slo_etag'])
def test_slo_copy_the_manifest_account(self):
if tf.skip2:
raise SkipTest('Account2 not set')
acct = self.env.conn.account_name
# same account
file_item = self.env.container.file("manifest-abcde")
file_item.copy_account(acct,
self.env.container.name,
"copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'})
copied = self.env.container.file("copied-abcde-manifest-only")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
try:
json.loads(copied_contents)
except ValueError:
self.fail("COPY didn't copy the manifest (invalid json on GET)")
# different account
acct = self.env.conn2.account_name
dest_cont = self.env.account2.container(Utils.create_name())
self.assertTrue(dest_cont.create(hdrs={
'X-Container-Write': self.env.conn.user_acl
}))
# manifest copy will fail because there is no read access to segments
# in destination account
self.assertRaises(ResponseError, file_item.copy_account,
acct, dest_cont, "copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'})
self.assertEqual(400, file_item.conn.response.status)
resp_body = file_item.conn.response.read()
self.assertEqual(5, resp_body.count(b'403 Forbidden'),
'Unexpected response body %r' % resp_body)
# create segments container in account2 with read access for account1
segs_container = self.env.account2.container(self.env.container.name)
self.assertTrue(segs_container.create(hdrs={
'X-Container-Read': self.env.conn.user_acl
}))
# manifest copy will still fail because there are no segments in
# destination account
self.assertRaises(ResponseError, file_item.copy_account,
acct, dest_cont, "copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'})
self.assertEqual(400, file_item.conn.response.status)
resp_body = file_item.conn.response.read()
self.assertEqual(5, resp_body.count(b'404 Not Found'),
'Unexpected response body %r' % resp_body)
# create segments in account2 container with same name as in account1,
# manifest copy now succeeds
self.env.create_segments(segs_container)
self.assertTrue(file_item.copy_account(
acct, dest_cont, "copied-abcde-manifest-only",
parms={'multipart-manifest': 'get'}))
copied = dest_cont.file("copied-abcde-manifest-only")
copied_contents = copied.read(parms={'multipart-manifest': 'get'})
try:
json.loads(copied_contents)
except ValueError:
self.fail("COPY didn't copy the manifest (invalid json on GET)")
def test_slo_put_heartbeating(self):
if 'yield_frequency' not in cluster_info['slo']:
# old swift?
raise SkipTest('Swift does not seem to support heartbeating')
def do_put(headers=None, include_error=False):
file_item = self.env.container.file("manifest-heartbeat")
seg_info = self.env.seg_info
manifest_data = [seg_info['seg_a'], seg_info['seg_b'],
seg_info['seg_c'], seg_info['seg_d'],
seg_info['seg_e']]
if include_error:
manifest_data.append({'path': 'non-existent/segment'})
resp = file_item.write(
json.dumps(manifest_data).encode('ascii'),
parms={'multipart-manifest': 'put', 'heartbeat': 'on'},
hdrs=headers, return_resp=True)
self.assertEqual(resp.status, 202)
self.assertTrue(resp.chunked)
body_lines = resp.body.split(b'\n', 2)
self.assertFalse(body_lines[0].strip()) # all whitespace
self.assertEqual(b'\r', body_lines[1])
return body_lines[2]
body_lines = do_put().decode('utf8').split('\n')
self.assertIn('Response Status: 201 Created', body_lines)
self.assertIn('Etag', [line.split(':', 1)[0] for line in body_lines])
self.assertIn('Last Modified', [line.split(':', 1)[0]
for line in body_lines])
body_lines = do_put(
{'Accept': 'text/plain'}).decode('utf8').split('\n')
self.assertIn('Response Status: 201 Created', body_lines)
self.assertIn('Etag', [line.split(':', 1)[0] for line in body_lines])
self.assertIn('Last Modified', [line.split(':', 1)[0]
for line in body_lines])
body = do_put({'Accept': 'application/json'})
try:
resp = json.loads(body)
except ValueError:
self.fail('Expected JSON, got %r' % body)
self.assertIn('Etag', resp)
del resp['Etag']
self.assertIn('Last Modified', resp)
del resp['Last Modified']
self.assertEqual(resp, {
'Response Status': '201 Created',
'Response Body': '',
'Errors': [],
})
body_lines = do_put(include_error=True).decode('utf8').split('\n')
self.assertIn('Response Status: 400 Bad Request', body_lines)
self.assertIn('Response Body: Bad Request', body_lines)
self.assertNotIn('Etag', [line.split(':', 1)[0]
for line in body_lines])
self.assertNotIn('Last Modified', [line.split(':', 1)[0]
for line in body_lines])
self.assertEqual(body_lines[-3:], [
'Errors:',
'non-existent/segment, 404 Not Found',
'',
])
body = do_put({'Accept': 'application/json'}, include_error=True)
try:
resp = json.loads(body)
except ValueError:
self.fail('Expected JSON, got %r' % body)
self.assertNotIn('Etag', resp)
self.assertNotIn('Last Modified', resp)
self.assertEqual(resp, {
'Response Status': '400 Bad Request',
'Response Body': 'Bad Request\nThe server could not comply with '
'the request since it is either malformed or '
'otherwise incorrect.',
'Errors': [
['non-existent/segment', '404 Not Found'],
],
})
body = do_put({'Accept': 'application/json', 'ETag': 'bad etag'})
try:
resp = json.loads(body)
except ValueError:
self.fail('Expected JSON, got %r' % body)
self.assertNotIn('Etag', resp)
self.assertNotIn('Last Modified', resp)
self.assertEqual(resp, {
'Response Status': '422 Unprocessable Entity',
'Response Body': 'Unprocessable Entity\nUnable to process the '
'contained instructions',
'Errors': [],
})
def _make_manifest(self):
file_item = self.env.container.file("manifest-post")
seg_info = self.env.seg_info
file_item.write(
json.dumps([seg_info['seg_a'], seg_info['seg_b'],
seg_info['seg_c'], seg_info['seg_d'],
seg_info['seg_e']]).encode('ascii'),
parms={'multipart-manifest': 'put'})
return file_item
def test_slo_post_the_manifest_metadata_update(self):
file_item = self._make_manifest()
# sanity check, check the object is an SLO manifest
file_item.info()
file_item.header_fields([('slo', 'x-static-large-object')])
# POST a user metadata (i.e. x-object-meta-post)
file_item.sync_metadata({'post': 'update'})
updated = self.env.container.file("manifest-post")
updated.info()
updated.header_fields([('user-meta', 'x-object-meta-post')]) # sanity
updated.header_fields([('slo', 'x-static-large-object')])
updated_contents = updated.read(parms={'multipart-manifest': 'get'})
try:
json.loads(updated_contents)
except ValueError:
self.fail("Unexpected content on GET, expected a json body")
def test_slo_post_the_manifest_metadata_update_with_qs(self):
# multipart-manifest query should be ignored on post
for verb in ('put', 'get', 'delete'):
file_item = self._make_manifest()
# sanity check, check the object is an SLO manifest
file_item.info()
file_item.header_fields([('slo', 'x-static-large-object')])
# POST a user metadata (i.e. x-object-meta-post)
file_item.sync_metadata(metadata={'post': 'update'},
parms={'multipart-manifest': verb})
updated = self.env.container.file("manifest-post")
updated.info()
updated.header_fields(
[('user-meta', 'x-object-meta-post')]) # sanity
updated.header_fields([('slo', 'x-static-large-object')])
updated_contents = updated.read(
parms={'multipart-manifest': 'get'})
try:
json.loads(updated_contents)
except ValueError:
self.fail(
"Unexpected content on GET, expected a json body")
def test_slo_get_the_manifest(self):
manifest = self.env.container.file("manifest-abcde")
got_body = manifest.read(parms={'multipart-manifest': 'get'})
self.assertEqual('application/json; charset=utf-8',
manifest.content_type)
try:
json.loads(got_body)
except ValueError:
self.fail("GET with multipart-manifest=get got invalid json")
def test_slo_get_the_manifest_with_details_from_server(self):
manifest = self.env.container.file("manifest-db")
got_body = manifest.read(parms={'multipart-manifest': 'get'})
self.assertEqual('application/json; charset=utf-8',
manifest.content_type)
try:
value = json.loads(got_body)
except ValueError:
self.fail("GET with multipart-manifest=get got invalid json")
self.assertEqual(len(value), 2)
self.assertEqual(value[0]['bytes'], 1024 * 1024)
self.assertEqual(value[0]['hash'],
hashlib.md5(b'd' * 1024 * 1024).hexdigest())
expected_name = '/%s/seg_d' % self.env.container.name
if six.PY2:
expected_name = expected_name.decode("utf-8")
self.assertEqual(value[0]['name'], expected_name)
self.assertEqual(value[1]['bytes'], 1024 * 1024)
self.assertEqual(value[1]['hash'],
hashlib.md5(b'b' * 1024 * 1024).hexdigest())
expected_name = '/%s/seg_b' % self.env.container.name
if six.PY2:
expected_name = expected_name.decode("utf-8")
self.assertEqual(value[1]['name'], expected_name)
def test_slo_get_raw_the_manifest_with_details_from_server(self):
manifest = self.env.container.file("manifest-db")
got_body = manifest.read(parms={'multipart-manifest': 'get',
'format': 'raw'})
self.assert_etag(hashlib.md5(got_body).hexdigest())
# raw format should have the actual manifest object content-type
self.assertEqual('application/octet-stream', manifest.content_type)
try:
value = json.loads(got_body)
except ValueError:
msg = "GET with multipart-manifest=get&format=raw got invalid json"
self.fail(msg)
self.assertEqual(
set(value[0].keys()), set(('size_bytes', 'etag', 'path')))
self.assertEqual(len(value), 2)
self.assertEqual(value[0]['size_bytes'], 1024 * 1024)
self.assertEqual(value[0]['etag'],
hashlib.md5(b'd' * 1024 * 1024).hexdigest())
expected_name = '/%s/seg_d' % self.env.container.name
if six.PY2:
expected_name = expected_name.decode("utf-8")
self.assertEqual(value[0]['path'], expected_name)
self.assertEqual(value[1]['size_bytes'], 1024 * 1024)
self.assertEqual(value[1]['etag'],
hashlib.md5(b'b' * 1024 * 1024).hexdigest())
expected_name = '/%s/seg_b' % self.env.container.name
if six.PY2:
expected_name = expected_name.decode("utf-8")
self.assertEqual(value[1]['path'], expected_name)
file_item = self.env.container.file("manifest-from-get-raw")
file_item.write(got_body, parms={'multipart-manifest': 'put'})
file_contents = file_item.read()
self.assertEqual(2 * 1024 * 1024, len(file_contents))
def test_slo_head_the_manifest(self):
manifest = self.env.container.file("manifest-abcde")
got_info = manifest.info(parms={'multipart-manifest': 'get'})
self.assertEqual('application/json; charset=utf-8',
got_info['content_type'])
def test_slo_if_match_get(self):
manifest = self.env.container.file("manifest-abcde")
etag = manifest.info()['etag']
self.assertRaises(ResponseError, manifest.read,
hdrs={'If-Match': 'not-%s' % etag})
self.assert_status(412)
manifest.read(hdrs={'If-Match': etag})
self.assert_status(200)
def test_slo_if_none_match_put(self):
file_item = self.env.container.file("manifest-if-none-match")
manifest = json.dumps([{
'size_bytes': 1024 * 1024,
'etag': None,
'path': '/%s/%s' % (self.env.container.name, 'seg_a')}])
self.assertRaises(ResponseError, file_item.write,
manifest.encode('ascii'),
parms={'multipart-manifest': 'put'},
hdrs={'If-None-Match': '"not-star"'})
self.assert_status(400)
file_item.write(manifest.encode('ascii'),
parms={'multipart-manifest': 'put'},
hdrs={'If-None-Match': '*'})
self.assert_status(201)
self.assertRaises(ResponseError, file_item.write,
manifest.encode('ascii'),
parms={'multipart-manifest': 'put'},
hdrs={'If-None-Match': '*'})
self.assert_status(412)
def test_slo_if_none_match_get(self):
manifest = self.env.container.file("manifest-abcde")
etag = manifest.info()['etag']
self.assertRaises(ResponseError, manifest.read,
hdrs={'If-None-Match': etag})
self.assert_status(304)
manifest.read(hdrs={'If-None-Match': "not-%s" % etag})
self.assert_status(200)
def test_slo_if_match_head(self):
manifest = self.env.container.file("manifest-abcde")
etag = manifest.info()['etag']
self.assertRaises(ResponseError, manifest.info,
hdrs={'If-Match': 'not-%s' % etag})
self.assert_status(412)
manifest.info(hdrs={'If-Match': etag})
self.assert_status(200)
def test_slo_if_none_match_head(self):
manifest = self.env.container.file("manifest-abcde")
etag = manifest.info()['etag']
self.assertRaises(ResponseError, manifest.info,
hdrs={'If-None-Match': etag})
self.assert_status(304)
manifest.info(hdrs={'If-None-Match': "not-%s" % etag})
self.assert_status(200)
def test_slo_referer_on_segment_container(self):
if tf.skip3:
raise SkipTest('Username3 not set')
# First the account2 (test3) should fail
headers = {'X-Auth-Token': self.env.conn3.storage_token,
'Referer': 'http://blah.example.com'}
slo_file = self.env.container2.file('manifest-abcde')
self.assertRaises(ResponseError, slo_file.read,
hdrs=headers)
self.assert_status(403)
# Now set the referer on the slo container only
referer_metadata = {'X-Container-Read': '.r:*.example.com,.rlistings'}
self.env.container2.update_metadata(referer_metadata)
self.assertRaises(ResponseError, slo_file.read,
hdrs=headers)
self.assert_status(409)
# Finally set the referer on the segment container
self.env.container.update_metadata(referer_metadata)
contents = slo_file.read(hdrs=headers)
self.assertEqual(4 * 1024 * 1024 + 1, len(contents))
self.assertEqual(b'a', contents[:1])
self.assertEqual(b'a', contents[1024 * 1024 - 1:1024 * 1024])
self.assertEqual(b'b', contents[1024 * 1024:1024 * 1024 + 1])
self.assertEqual(b'd', contents[-2:-1])
self.assertEqual(b'e', contents[-1:])
def test_slo_data_segments(self):
# len('APRE' * 8) == 32
# len('APOS' * 16) == 64
# len('BPOS' * 32) == 128
# len('CPRE' * 64) == 256
# len(a_pre + seg_a + post_a) == 32 + 1024 ** 2 + 64
# len(seg_b + post_b) == 1024 ** 2 + 128
# len(c_pre + seg_c) == 256 + 1024 ** 2
# len(total) == 3146208
for file_name in ("mixed-object-data-manifest",
"nested-data-manifest"):
file_item = self.env.container.file(file_name)
file_contents = file_item.read(size=3 * 1024 ** 2 + 456,
offset=28)
self.assertEqual([
(b'A', 1),
(b'P', 1),
(b'R', 1),
(b'E', 1),
(b'a', 1024 * 1024),
] + [
(b'A', 1),
(b'P', 1),
(b'O', 1),
(b'S', 1),
] * 16 + [
(b'b', 1024 * 1024),
] + [
(b'B', 1),
(b'P', 1),
(b'O', 1),
(b'S', 1),
] * 32 + [
(b'C', 1),
(b'P', 1),
(b'R', 1),
(b'E', 1),
] * 64 + [
(b'c', 1024 * 1024),
] + [
(b'C', 1),
(b'P', 1),
(b'O', 1),
(b'S', 1),
], group_file_contents(file_contents))
class TestSloUTF8(Base2, TestSlo):
pass