# 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. """ Swift tests """ from __future__ import print_function import os import copy import logging import logging.handlers import sys from contextlib import contextmanager, closing from collections import defaultdict try: from collections.abc import Iterable except ImportError: from collections import Iterable # py2 import itertools from numbers import Number from tempfile import NamedTemporaryFile import time import eventlet from eventlet import greenpool, debug as eventlet_debug from eventlet.green import socket from tempfile import mkdtemp, mkstemp, gettempdir from shutil import rmtree import signal import json import random import errno import xattr from io import BytesIO from uuid import uuid4 import six import six.moves.cPickle as pickle from six.moves import range from six.moves.http_client import HTTPException from six.moves import configparser from swift.common import storage_policy, swob, utils, exceptions from swift.common.memcached import MemcacheConnectionError from swift.common.storage_policy import (StoragePolicy, ECStoragePolicy, VALID_EC_TYPES) from swift.common.utils import Timestamp, md5, close_if_possible from test import get_config from test.debug_logger import FakeLogger from swift.common.header_key_dict import HeaderKeyDict from swift.common.ring import Ring, RingData, RingBuilder from swift.obj import server import functools from gzip import GzipFile import mock as mocklib import inspect from unittest import SkipTest EMPTY_ETAG = md5(usedforsecurity=False).hexdigest() # try not to import this module from swift if not os.path.basename(sys.argv[0]).startswith('swift'): # never patch HASH_PATH_SUFFIX AGAIN! utils.HASH_PATH_SUFFIX = b'endcap' EC_TYPE_PREFERENCE = [ 'liberasurecode_rs_vand', 'jerasure_rs_vand', ] for eclib_name in EC_TYPE_PREFERENCE: if eclib_name in VALID_EC_TYPES: break else: raise SystemExit('ERROR: unable to find suitable PyECLib type' ' (none of %r found in %r)' % ( EC_TYPE_PREFERENCE, VALID_EC_TYPES, )) DEFAULT_TEST_EC_TYPE = eclib_name def patch_policies(thing_or_policies=None, legacy_only=False, with_ec_default=False, fake_ring_args=None): if isinstance(thing_or_policies, ( Iterable, storage_policy.StoragePolicyCollection)): return PatchPolicies(thing_or_policies, fake_ring_args=fake_ring_args) if legacy_only: default_policies = [ StoragePolicy(0, name='legacy', is_default=True), ] default_ring_args = [{}] elif with_ec_default: default_policies = [ ECStoragePolicy(0, name='ec', is_default=True, ec_type=DEFAULT_TEST_EC_TYPE, ec_ndata=10, ec_nparity=4, ec_segment_size=4096), StoragePolicy(1, name='unu'), ] default_ring_args = [{'replicas': 14}, {}] else: default_policies = [ StoragePolicy(0, name='nulo', is_default=True), StoragePolicy(1, name='unu'), ] default_ring_args = [{}, {}] fake_ring_args = fake_ring_args or default_ring_args decorator = PatchPolicies(default_policies, fake_ring_args=fake_ring_args) if not thing_or_policies: return decorator else: # it's a thing, we return the wrapped thing instead of the decorator return decorator(thing_or_policies) class PatchPolicies(object): """ Why not mock.patch? In my case, when used as a decorator on the class it seemed to patch setUp at the wrong time (i.e. in setUp the global wasn't patched yet) """ def __init__(self, policies, fake_ring_args=None): if isinstance(policies, storage_policy.StoragePolicyCollection): self.policies = policies else: self.policies = storage_policy.StoragePolicyCollection(policies) self.fake_ring_args = fake_ring_args or [None] * len(self.policies) def _setup_rings(self): """ Our tests tend to use the policies rings like their own personal playground - which can be a problem in the particular case of a patched TestCase class where the FakeRing objects are scoped in the call to the patch_policies wrapper outside of the TestCase instance which can lead to some bled state. To help tests get better isolation without having to think about it, here we're capturing the args required to *build* a new FakeRing instances so we can ensure each test method gets a clean ring setup. The TestCase can always "tweak" these fresh rings in setUp - or if they'd prefer to get the same "reset" behavior with custom FakeRing's they can pass in their own fake_ring_args to patch_policies instead of setting the object_ring on the policy definitions. """ for policy, fake_ring_arg in zip(self.policies, self.fake_ring_args): if fake_ring_arg is not None: policy.object_ring = FakeRing(**fake_ring_arg) def __call__(self, thing): if isinstance(thing, type): return self._patch_class(thing) else: return self._patch_method(thing) def _patch_class(self, cls): """ Creating a new class that inherits from decorated class is the more common way I've seen class decorators done - but it seems to cause infinite recursion when super is called from inside methods in the decorated class. """ orig_setUp = cls.setUp def unpatch_cleanup(cls_self): if cls_self._policies_patched: self.__exit__(None, None, None) cls_self._policies_patched = False def setUp(cls_self): if not getattr(cls_self, '_policies_patched', False): self.__enter__() cls_self._policies_patched = True cls_self.addCleanup(unpatch_cleanup, cls_self) orig_setUp(cls_self) cls.setUp = setUp return cls def _patch_method(self, f): @functools.wraps(f) def mywrapper(*args, **kwargs): with self: return f(*args, **kwargs) return mywrapper def __enter__(self): self._orig_POLICIES = storage_policy._POLICIES storage_policy._POLICIES = self.policies try: self._setup_rings() except: # noqa self.__exit__(None, None, None) raise def __exit__(self, *args): storage_policy._POLICIES = self._orig_POLICIES class FakeRing(Ring): def __init__(self, replicas=3, max_more_nodes=0, part_power=0, base_port=1000, separate_replication=False, next_part_power=None, reload_time=15): self.serialized_path = '/foo/bar/object.ring.gz' self._base_port = base_port self.max_more_nodes = max_more_nodes self._part_shift = 32 - part_power self._init_device_char() self.separate_replication = separate_replication # 9 total nodes (6 more past the initial 3) is the cap, no matter if # this is set higher, or R^2 for R replicas self.reload_time = reload_time self.set_replicas(replicas) self._next_part_power = next_part_power self._reload() def has_changed(self): """ The real implementation uses getmtime on the serialized_path attribute, which doesn't exist on our fake and relies on the implementation of _reload which we override. So ... just NOOPE. """ return False def _reload(self): self._rtime = time.time() @property def device_char(self): return next(self._device_char_iter) def _init_device_char(self): self._device_char_iter = itertools.cycle( ['sd%s' % chr(ord('a') + x) for x in range(26)]) def add_node(self, dev): # round trip through json to ensure unicode like real rings self._devs.append(json.loads(json.dumps(dev))) def set_replicas(self, replicas): self.replicas = replicas self._devs = [] self._init_device_char() for x in range(self.replicas): ip = '10.0.0.%s' % x port = self._base_port + x if self.separate_replication: repl_ip = '10.0.1.%s' % x repl_port = port + 100 else: repl_ip, repl_port = ip, port dev = { 'ip': ip, 'replication_ip': repl_ip, 'port': port, 'replication_port': repl_port, 'device': self.device_char, 'zone': x % 3, 'region': x % 2, 'id': x, 'weight': 1, } self.add_node(dev) @property def replica_count(self): return self.replicas def _get_part_nodes(self, part): return [dict(node, index=i) for i, node in enumerate(list(self._devs))] def get_more_nodes(self, part): index_counter = itertools.count() for x in range(self.replicas, (self.replicas + self.max_more_nodes)): ip = '10.0.0.%s' % x port = self._base_port + x if self.separate_replication: repl_ip = '10.0.1.%s' % x repl_port = port + 100 else: repl_ip, repl_port = ip, port yield {'ip': ip, 'replication_ip': repl_ip, 'port': port, 'replication_port': repl_port, 'device': 'sda', 'zone': x % 3, 'region': x % 2, 'id': x, 'handoff_index': next(index_counter)} def write_fake_ring(path, *devs): """ Pretty much just a two node, two replica, 2 part power ring... """ dev1 = {'id': 0, 'zone': 0, 'device': 'sda1', 'ip': '127.0.0.1', 'port': 6200} dev2 = {'id': 1, 'zone': 0, 'device': 'sdb1', 'ip': '127.0.0.1', 'port': 6200} dev1_updates, dev2_updates = devs or ({}, {}) dev1.update(dev1_updates) dev2.update(dev2_updates) replica2part2dev_id = [[0, 1, 0, 1], [1, 0, 1, 0]] devs = [dev1, dev2] part_shift = 30 with closing(GzipFile(path, 'wb')) as f: pickle.dump(RingData(replica2part2dev_id, devs, part_shift), f) def write_stub_builder(tmpdir, region=1, name=''): """ Pretty much just a three node, three replica, 8 part power builder... :param tmpdir: a place to write the builder, be sure to clean it up! :param region: an integer, fills in region and ip :param name: the name of the builder (i.e. .builder) """ name = name or str(region) replicas = 3 builder = RingBuilder(8, replicas, 1) for i in range(replicas): dev = {'weight': 100, 'region': '%d' % region, 'zone': '1', 'ip': '10.0.0.%d' % region, 'port': '3600', 'device': 'sdb%d' % i} builder.add_dev(dev) builder.rebalance() builder_file = os.path.join(tmpdir, '%s.builder' % name) builder.save(builder_file) return builder, builder_file class FabricatedRing(Ring): """ When a FakeRing just won't do - you can fabricate one to meet your tests needs. """ def __init__(self, replicas=6, devices=8, nodes=4, port=6200, part_power=4): self.devices = devices self.nodes = nodes self.port = port self.replicas = replicas self._part_shift = 32 - part_power self._reload() def has_changed(self): return False def _reload(self, *args, **kwargs): self._rtime = time.time() * 2 if hasattr(self, '_replica2part2dev_id'): return self._devs = [{ 'region': 1, 'zone': 1, 'weight': 1.0, 'id': i, 'device': 'sda%d' % i, 'ip': '10.0.0.%d' % (i % self.nodes), 'replication_ip': '10.0.0.%d' % (i % self.nodes), 'port': self.port, 'replication_port': self.port, } for i in range(self.devices)] self._replica2part2dev_id = [ [None] * 2 ** self.part_power for i in range(self.replicas) ] dev_ids = itertools.cycle(range(self.devices)) for p in range(2 ** self.part_power): for r in range(self.replicas): self._replica2part2dev_id[r][p] = next(dev_ids) self._update_bookkeeping() def track(f): def wrapper(self, *a, **kw): self.calls.append(getattr(mocklib.call, f.__name__)(*a, **kw)) return f(self, *a, **kw) return wrapper class FakeMemcache(object): def __init__(self, error_on_set=None, error_on_get=None): self.store = {} self.times = {} self.calls = [] self.error_on_incr = False self.error_on_get = error_on_get or [] self.error_on_set = error_on_set or [] self.init_incr_return_neg = False def clear_calls(self): del self.calls[:] @track def get(self, key, raise_on_error=False): if self.error_on_get and self.error_on_get.pop(0): if raise_on_error: raise MemcacheConnectionError() return self.store.get(key) @property def keys(self): return self.store.keys @track def set(self, key, value, serialize=True, time=0, raise_on_error=False): if self.error_on_set and self.error_on_set.pop(0): if raise_on_error: raise MemcacheConnectionError() if serialize: value = json.loads(json.dumps(value)) else: assert isinstance(value, (str, bytes)) self.store[key] = value self.times[key] = time return True @track def incr(self, key, delta=1, time=0): if self.error_on_incr: raise MemcacheConnectionError('Memcache restarting') if self.init_incr_return_neg: # simulate initial hit, force reset of memcache self.init_incr_return_neg = False return -10000000 self.store[key] = int(self.store.setdefault(key, 0)) + delta if self.store[key] < 0: self.store[key] = 0 return self.store[key] # tracked via incr() def decr(self, key, delta=1, time=0): return self.incr(key, delta=-delta, time=time) @track def delete(self, key): try: del self.store[key] del self.times[key] except Exception: pass return True def delete_all(self): self.store.clear() self.times.clear() # This decorator only makes sense in the context of FakeMemcache; # may as well clean it up now del track class FakeIterable(object): def __init__(self, values): self.next_call_count = 0 self.close_call_count = 0 self.values = iter(values) def __iter__(self): return self def __next__(self): self.next_call_count += 1 return next(self.values) next = __next__ # py2 def close(self): self.close_call_count += 1 def readuntil2crlfs(fd): rv = b'' lc = b'' crlfs = 0 while crlfs < 2: c = fd.read(1) if not c: raise ValueError("didn't get two CRLFs; just got %r" % rv) rv = rv + c if c == b'\r' and lc != b'\n': crlfs = 0 if lc == b'\r' and c == b'\n': crlfs += 1 lc = c return rv def readlength(fd, size, timeout=1.0): buf = b'' with eventlet.Timeout(timeout): while len(buf) < size: chunk = fd.read(min(64, size - len(buf))) buf += chunk if len(buf) >= size: break return buf def connect_tcp(hostport): rv = socket.socket() rv.connect(hostport) return rv @contextmanager def tmpfile(content): with NamedTemporaryFile('w', delete=False) as f: file_name = f.name f.write(str(content)) try: yield file_name finally: os.unlink(file_name) @contextmanager def temptree(files, contents=''): # generate enough contents to fill the files c = len(files) contents = (list(contents) + [''] * c)[:c] tempdir = mkdtemp() for path, content in zip(files, contents): if os.path.isabs(path): path = '.' + path new_path = os.path.join(tempdir, path) subdir = os.path.dirname(new_path) if not os.path.exists(subdir): os.makedirs(subdir) with open(new_path, 'w') as f: f.write(str(content)) try: yield tempdir finally: rmtree(tempdir) def with_tempdir(f): """ Decorator to give a single test a tempdir as argument to test method. """ @functools.wraps(f) def wrapped(*args, **kwargs): tempdir = mkdtemp() args = list(args) args.append(tempdir) try: return f(*args, **kwargs) finally: rmtree(tempdir) return wrapped class NullLoggingHandler(logging.Handler): def emit(self, record): pass class UnmockTimeModule(object): """ Even if a test mocks time.time - you can restore unmolested behavior in a another module who imports time directly by monkey patching it's imported reference to the module with an instance of this class """ _orig_time = time.time def __getattribute__(self, name): if name == 'time': return UnmockTimeModule._orig_time return getattr(time, name) # logging.LogRecord.__init__ calls time.time logging.time = UnmockTimeModule() original_syslog_handler = logging.handlers.SysLogHandler def fake_syslog_handler(): for attr in dir(original_syslog_handler): if attr.startswith('LOG'): setattr(FakeLogger, attr, copy.copy(getattr(logging.handlers.SysLogHandler, attr))) FakeLogger.priority_map = \ copy.deepcopy(logging.handlers.SysLogHandler.priority_map) logging.handlers.SysLogHandler = FakeLogger if utils.config_true_value( get_config('unit_test').get('fake_syslog', 'False')): fake_syslog_handler() @contextmanager def quiet_eventlet_exceptions(): orig_state = greenpool.DEBUG eventlet_debug.hub_exceptions(False) try: yield finally: eventlet_debug.hub_exceptions(orig_state) @contextmanager def mock_check_drive(isdir=False, ismount=False): """ All device/drive/mount checking should be done through the constraints module. If we keep the mocking consistently within that module, we can keep our tests robust to further rework on that interface. Replace the constraint modules underlying os calls with mocks. :param isdir: return value of constraints isdir calls, default False :param ismount: return value of constraints ismount calls, default False :returns: a dict of constraint module mocks """ mock_base = 'swift.common.constraints.' with mocklib.patch(mock_base + 'isdir') as mock_isdir, \ mocklib.patch(mock_base + 'utils.ismount') as mock_ismount: mock_isdir.return_value = isdir mock_ismount.return_value = ismount yield { 'isdir': mock_isdir, 'ismount': mock_ismount, } @contextmanager def mock(update): returns = [] deletes = [] for key, value in update.items(): imports = key.split('.') attr = imports.pop(-1) module = __import__(imports[0], fromlist=imports[1:]) for modname in imports[1:]: module = getattr(module, modname) if hasattr(module, attr): returns.append((module, attr, getattr(module, attr))) else: deletes.append((module, attr)) setattr(module, attr, value) try: yield True finally: for module, attr, value in returns: setattr(module, attr, value) for module, attr in deletes: delattr(module, attr) class FakeStatus(object): """ This will work with our fake_http_connect, if you hand in one of these instead of a status int or status int tuple to the "codes" iter you can add some eventlet sleep to the expect and response stages of the connection. """ def __init__(self, status, expect_sleep=None, response_sleep=None): """ :param status: the response status int, or a tuple of ([expect_status, ...], response_status) :param expect_sleep: float, time to eventlet sleep during expect, can be a iter of floats :param response_sleep: float, time to eventlet sleep during response """ # connect exception if inspect.isclass(status) and issubclass(status, Exception): raise status('FakeStatus Error') if isinstance(status, (Exception, eventlet.Timeout)): raise status if isinstance(status, tuple): self.expect_status = list(status[:-1]) self.status = status[-1] self.explicit_expect_list = True else: self.expect_status, self.status = ([], status) self.explicit_expect_list = False if not self.expect_status: # when a swift backend service returns a status before reading # from the body (mostly an error response) eventlet.wsgi will # respond with that status line immediately instead of 100 # Continue, even if the client sent the Expect 100 header. # BufferedHttp and the proxy both see these error statuses # when they call getexpect, so our FakeConn tries to act like # our backend services and return certain types of responses # as expect statuses just like a real backend server would do. if self.status in (507, 412, 409): self.expect_status = [status] else: self.expect_status = [100, 100] # setup sleep attributes if not isinstance(expect_sleep, (list, tuple)): expect_sleep = [expect_sleep] * len(self.expect_status) self.expect_sleep_list = list(expect_sleep) while len(self.expect_sleep_list) < len(self.expect_status): self.expect_sleep_list.append(None) self.response_sleep = response_sleep def __repr__(self): return '%s(%s, expect_status=%r, response_sleep=%s)' % ( self.__class__.__name__, self.status, self.expect_status, self.response_sleep) def get_response_status(self): if self.response_sleep is not None: eventlet.sleep(self.response_sleep) if self.expect_status and self.explicit_expect_list: raise Exception('Test did not consume all fake ' 'expect status: %r' % (self.expect_status,)) if isinstance(self.status, (Exception, eventlet.Timeout)): raise self.status return self.status def get_expect_status(self): expect_sleep = self.expect_sleep_list.pop(0) if expect_sleep is not None: eventlet.sleep(expect_sleep) expect_status = self.expect_status.pop(0) if isinstance(expect_status, (Exception, eventlet.Timeout)): raise expect_status return expect_status class SlowBody(object): """ This will work with our fake_http_connect, if you hand in these instead of strings it will make reads take longer by the given amount. It should be a little bit easier to extend than the current slow kwarg - which inserts whitespace in the response. Also it should be easy to detect if you have one of these (or a subclass) for the body inside of FakeConn if we wanted to do something smarter than just duck-type the str/buffer api enough to get by. """ def __init__(self, body, slowness): self.body = body self.slowness = slowness def slowdown(self): eventlet.sleep(self.slowness) def __getitem__(self, s): return SlowBody(self.body[s], self.slowness) def __len__(self): return len(self.body) def __radd__(self, other): self.slowdown() return other + self.body def fake_http_connect(*code_iter, **kwargs): class FakeConn(object): SLOW_READS = 4 SLOW_WRITES = 4 def __init__(self, status, etag=None, body=b'', timestamp=-1, headers=None, expect_headers=None, connection_id=None, give_send=None, give_expect=None): if not isinstance(status, FakeStatus): status = FakeStatus(status) self._status = status self.reason = 'Fake' self.host = '1.2.3.4' self.port = '1234' self.sent = 0 self.received = 0 self.etag = etag self.body = body self.headers = headers or {} self.expect_headers = expect_headers or {} if timestamp == -1: # -1 is reserved to mean "magic default" if status.status != 404: self.timestamp = '1' else: self.timestamp = '0' else: # tests may specify int, string, Timestamp or None self.timestamp = timestamp self.connection_id = connection_id self.give_send = give_send self.give_expect = give_expect self.closed = False if 'slow' in kwargs and isinstance(kwargs['slow'], list): try: self._next_sleep = kwargs['slow'].pop(0) except IndexError: self._next_sleep = None # if we're going to be slow, we need a body to send slowly am_slow, _junk = self.get_slow() if am_slow and len(self.body) < self.SLOW_READS: self.body += b" " * (self.SLOW_READS - len(self.body)) # be nice to trixy bits with node_iter's eventlet.sleep() def getresponse(self): exc = kwargs.get('raise_exc') if exc: if isinstance(exc, (Exception, eventlet.Timeout)): raise exc raise Exception('test') if kwargs.get('raise_timeout_exc'): raise eventlet.Timeout() self.status = self._status.get_response_status() return self def getexpect(self): if self.give_expect: self.give_expect(self) expect_status = self._status.get_expect_status() headers = dict(self.expect_headers) if expect_status == 409: headers['X-Backend-Timestamp'] = self.timestamp response = FakeConn(expect_status, timestamp=self.timestamp, headers=headers) response.status = expect_status return response def getheaders(self): etag = self.etag if not etag: if isinstance(self.body, bytes): etag = ('"' + md5( self.body, usedforsecurity=False).hexdigest() + '"') else: etag = '"68b329da9893e34099c7d8ad5cb9c940"' am_slow, _junk = self.get_slow() headers = HeaderKeyDict({ 'content-length': len(self.body), 'content-type': 'x-application/test', 'x-timestamp': self.timestamp, 'x-backend-timestamp': self.timestamp, 'last-modified': self.timestamp, 'x-object-meta-test': 'testing', 'x-delete-at': '9876543210', 'etag': etag, 'x-works': 'yes', }) if self.status // 100 == 2: headers['x-account-container-count'] = \ kwargs.get('count', 12345) if not self.timestamp: # when timestamp is None, HeaderKeyDict raises KeyError headers.pop('x-timestamp', None) try: if next(container_ts_iter) is False: headers['x-container-timestamp'] = '1' except StopIteration: pass headers.update(self.headers) return headers.items() def get_slow(self): if 'slow' in kwargs and isinstance(kwargs['slow'], list): if self._next_sleep is not None: return True, self._next_sleep else: return False, 0.01 if kwargs.get('slow') and isinstance(kwargs['slow'], Number): return True, kwargs['slow'] return bool(kwargs.get('slow')), 0.1 def read(self, amt=None): am_slow, value = self.get_slow() if am_slow: if self.sent < self.SLOW_READS: slowly_read_byte = self.body[self.sent:self.sent + 1] self.sent += 1 eventlet.sleep(value) return slowly_read_byte if amt is None: rv = self.body[self.sent:] else: rv = self.body[self.sent:self.sent + amt] self.sent += len(rv) return rv def send(self, data=None): if self.give_send: self.give_send(self, data) am_slow, value = self.get_slow() if am_slow: if self.received < self.SLOW_WRITES: self.received += 1 eventlet.sleep(value) def getheader(self, name, default=None): return HeaderKeyDict(self.getheaders()).get(name, default) def nuke_from_orbit(self): # wrapped connections from buffered_http have this helper self.close() def close(self): self.closed = True # unless tests provide timestamps we use the "magic default" timestamps_iter = iter(kwargs.get('timestamps') or [-1] * len(code_iter)) etag_iter = iter(kwargs.get('etags') or [None] * len(code_iter)) if isinstance(kwargs.get('headers'), (list, tuple)): headers_iter = iter(kwargs['headers']) else: headers_iter = iter([kwargs.get('headers', {})] * len(code_iter)) if isinstance(kwargs.get('expect_headers'), (list, tuple)): expect_headers_iter = iter(kwargs['expect_headers']) else: expect_headers_iter = iter([kwargs.get('expect_headers', {})] * len(code_iter)) x = kwargs.get('missing_container', [False] * len(code_iter)) if not isinstance(x, (tuple, list)): x = [x] * len(code_iter) container_ts_iter = iter(x) code_iter = iter(code_iter) conn_id_and_code_iter = enumerate(code_iter) static_body = kwargs.get('body', None) body_iter = kwargs.get('body_iter', None) if body_iter: body_iter = iter(body_iter) unexpected_requests = [] def connect(*args, **ckwargs): if kwargs.get('slow_connect', False): eventlet.sleep(0.1) if 'give_content_type' in kwargs: if len(args) >= 7 and 'Content-Type' in args[6]: kwargs['give_content_type'](args[6]['Content-Type']) else: kwargs['give_content_type']('') try: i, status = next(conn_id_and_code_iter) except StopIteration: # the code under test may swallow the StopIteration, so by logging # unexpected requests here we allow the test framework to check for # them after the connect function has been used. unexpected_requests.append((args, ckwargs)) raise if 'give_connect' in kwargs: give_conn_fn = kwargs['give_connect'] if six.PY2: argspec = inspect.getargspec(give_conn_fn) if argspec.keywords or 'connection_id' in argspec.args: ckwargs['connection_id'] = i else: argspec = inspect.getfullargspec(give_conn_fn) if argspec.varkw or 'connection_id' in argspec.args: ckwargs['connection_id'] = i give_conn_fn(*args, **ckwargs) etag = next(etag_iter) headers = next(headers_iter) expect_headers = next(expect_headers_iter) timestamp = next(timestamps_iter) if isinstance(status, int) and status <= 0: raise HTTPException() if body_iter is None: body = static_body or b'' else: body = next(body_iter) conn = FakeConn(status, etag, body=body, timestamp=timestamp, headers=headers, expect_headers=expect_headers, connection_id=i, give_send=kwargs.get('give_send'), give_expect=kwargs.get('give_expect')) if 'capture_connections' in kwargs: kwargs['capture_connections'].append(conn) return conn connect.unexpected_requests = unexpected_requests connect.code_iter = code_iter return connect @contextmanager def mocked_http_conn(*args, **kwargs): requests = [] responses = [] def capture_requests(ip, port, method, path, headers, qs, ssl): if six.PY2 and not isinstance(ip, bytes): ip = ip.encode('ascii') req = { 'ip': ip, 'port': port, 'method': method, 'path': path, 'headers': headers, 'qs': qs, 'ssl': ssl, } requests.append(req) kwargs.setdefault('give_connect', capture_requests) kwargs['capture_connections'] = responses fake_conn = fake_http_connect(*args, **kwargs) fake_conn.requests = requests fake_conn.responses = responses with mocklib.patch('swift.common.bufferedhttp.http_connect_raw', new=fake_conn): yield fake_conn left_over_status = list(fake_conn.code_iter) if left_over_status: raise AssertionError('left over status %r' % left_over_status) if fake_conn.unexpected_requests: raise AssertionError('unexpected requests:\n%s' % '\n '.join( '%r' % (req,) for req in fake_conn.unexpected_requests)) def make_timestamp_iter(offset=0): return iter(Timestamp(t) for t in itertools.count(int(time.time()) + offset)) @contextmanager def mock_timestamp_now(now=None, klass=Timestamp): if now is None: now = klass.now() with mocklib.patch('swift.common.utils.Timestamp.now', classmethod(lambda c: now)): yield now @contextmanager def mock_timestamp_now_with_iter(ts_iter): with mocklib.patch('swift.common.utils.Timestamp.now', side_effect=ts_iter): yield class Timeout(object): def __init__(self, seconds): self.seconds = seconds def __enter__(self): signal.signal(signal.SIGALRM, self._exit) signal.alarm(self.seconds) def __exit__(self, type, value, traceback): signal.alarm(0) def _exit(self, signum, frame): class TimeoutException(Exception): pass raise TimeoutException def requires_o_tmpfile_support_in_tmp(func): @functools.wraps(func) def wrapper(*args, **kwargs): if not utils.o_tmpfile_in_tmpdir_supported(): raise SkipTest('Requires O_TMPFILE support in TMPDIR') return func(*args, **kwargs) return wrapper class StubResponse(object): def __init__(self, status, body=b'', headers=None, frag_index=None, slowdown=None, slowdown_after=0): self.status = status self.body = body self.readable = BytesIO(body) try: self._slowdown = iter(slowdown) except TypeError: self._slowdown = iter([slowdown]) self.slowdown_after = slowdown_after self.headers = HeaderKeyDict(headers) if frag_index is not None: self.headers['X-Object-Sysmeta-Ec-Frag-Index'] = frag_index fake_reason = ('Fake', 'This response is a lie.') self.reason = swob.RESPONSE_REASONS.get(status, fake_reason)[0] self.bytes_read = 0 def slowdown(self): if self.bytes_read < self.slowdown_after: return try: wait = next(self._slowdown) except StopIteration: wait = None if wait is not None: eventlet.sleep(wait) def nuke_from_orbit(self): if hasattr(self, 'swift_conn'): self.swift_conn.close() def getheader(self, header_name, default=None): return self.headers.get(header_name, default) def getheaders(self): if 'Content-Length' not in self.headers: self.headers['Content-Length'] = len(self.body) return self.headers.items() def read(self, amt=0): self.slowdown() res = self.readable.read(amt) self.bytes_read += len(res) return res def readline(self, size=-1): self.slowdown() res = self.readable.readline(size) self.bytes_read += len(res) return res def __repr__(self): info = ['Status: %s' % self.status] if self.headers: info.append('Headers: %r' % dict(self.headers)) if self.body: info.append('Body: %r' % self.body) return '' % ', '.join(info) def encode_frag_archive_bodies(policy, body): """ Given a stub body produce a list of complete frag_archive bodies as strings in frag_index order. :param policy: a StoragePolicy instance, with policy_type EC_POLICY :param body: a string, the body to encode into frag archives :returns: list of strings, the complete frag_archive bodies for the given plaintext """ segment_size = policy.ec_segment_size # split up the body into buffers chunks = [body[x:x + segment_size] for x in range(0, len(body), segment_size)] # encode the buffers into fragment payloads fragment_payloads = [] for chunk in chunks: fragments = policy.pyeclib_driver.encode(chunk) \ * policy.ec_duplication_factor if not fragments: break fragment_payloads.append(fragments) # join up the fragment payloads per node ec_archive_bodies = [b''.join(frags) for frags in zip(*fragment_payloads)] return ec_archive_bodies def make_ec_object_stub(test_body, policy, timestamp): segment_size = policy.ec_segment_size test_body = test_body or ( b'test' * segment_size)[:-random.randint(1, 1000)] timestamp = timestamp or utils.Timestamp.now() etag = md5(test_body, usedforsecurity=False).hexdigest() ec_archive_bodies = encode_frag_archive_bodies(policy, test_body) return { 'body': test_body, 'etag': etag, 'frags': ec_archive_bodies, 'timestamp': timestamp } def fake_ec_node_response(node_frags, policy): """ Given a list of entries for each node in ring order, where the entries are a dict (or list of dicts) which describes the fragment (or fragments) that are on the node; create a function suitable for use with capture_http_requests that will accept a req object and return a response that will suitably fake the behavior of an object server who had the given fragments on disk at the time. :param node_frags: a list. Each item in the list describes the fragments that are on a node; each item is a dict or list of dicts, each dict describing a single fragment; where the item is a list, repeated calls to get_response will return fragments in the order of the list; each dict has keys: - obj: an object stub, as generated by _make_ec_object_stub, that defines all of the fragments that compose an object at a specific timestamp. - frag: the index of a fragment to be selected from the object stub - durable (optional): True if the selected fragment is durable :param policy: storage policy to return """ node_map = {} # maps node ip and port to node index all_nodes = [] call_count = {} # maps node index to get_response call count for node def _build_node_map(req, policy): part = utils.split_path(req['path'], 5, 5, True)[1] all_nodes.extend(policy.object_ring.get_part_nodes(part)) all_nodes.extend(policy.object_ring.get_more_nodes(part)) for i, node in enumerate(all_nodes): node_map[(node['ip'], node['port'])] = i call_count[i] = 0 # normalize node_frags to a list of fragments for each node even # if there's only one fragment in the dataset provided. for i, frags in enumerate(node_frags): if isinstance(frags, dict): node_frags[i] = [frags] def get_response(req): requested_policy = int( req['headers']['X-Backend-Storage-Policy-Index']) if int(policy) != requested_policy: AssertionError( "Requested polciy doesn't fit the fake response policy") if not node_map: _build_node_map(req, policy) try: node_index = node_map[(req['ip'], req['port'])] except KeyError: raise Exception("Couldn't find node %s:%s in %r" % ( req['ip'], req['port'], all_nodes)) try: frags = node_frags[node_index] except IndexError: raise Exception('Found node %r:%r at index %s - ' 'but only got %s stub response nodes' % ( req['ip'], req['port'], node_index, len(node_frags))) if not frags: return StubResponse(404) # determine response fragment (if any) for this call resp_frag = frags[call_count[node_index]] call_count[node_index] += 1 frag_prefs = req['headers'].get('X-Backend-Fragment-Preferences') if not (frag_prefs or resp_frag.get('durable', True)): return StubResponse(404) # prepare durable timestamp and backend frags header for this node obj_stub = resp_frag['obj'] ts2frags = defaultdict(list) durable_timestamp = None for frag in frags: ts_frag = frag['obj']['timestamp'] if frag.get('durable', True): durable_timestamp = ts_frag.internal ts2frags[ts_frag].append(frag['frag']) try: body = obj_stub['frags'][resp_frag['frag']] except IndexError as err: raise Exception( 'Frag index %s not defined: node index %s, frags %r\n%s' % (resp_frag['frag'], node_index, [f['frag'] for f in frags], err)) headers = { 'X-Object-Sysmeta-Ec-Content-Length': len(obj_stub['body']), 'X-Object-Sysmeta-Ec-Etag': obj_stub['etag'], 'X-Object-Sysmeta-Ec-Frag-Index': policy.get_backend_index(resp_frag['frag']), 'X-Backend-Timestamp': obj_stub['timestamp'].internal, 'X-Timestamp': obj_stub['timestamp'].normal, 'X-Backend-Data-Timestamp': obj_stub['timestamp'].internal, 'X-Backend-Fragments': server._make_backend_fragments_header(ts2frags) } if durable_timestamp: headers['X-Backend-Durable-Timestamp'] = durable_timestamp return StubResponse(200, body, headers) return get_response supports_xattr_cached_val = None def xattr_supported_check(): """ This check simply sets more than 4k of metadata on a tempfile and returns True if it worked and False if not. We want to use *more* than 4k of metadata in this check because some filesystems (eg ext4) only allow one blocksize worth of metadata. The XFS filesystem doesn't have this limit, and so this check returns True when TMPDIR is XFS. This check will return False under ext4 (which supports xattrs <= 4k) and tmpfs (which doesn't support xattrs at all). """ global supports_xattr_cached_val if supports_xattr_cached_val is not None: return supports_xattr_cached_val # assume the worst -- xattrs aren't supported supports_xattr_cached_val = False big_val = b'x' * (4096 + 1) # more than 4k of metadata try: fd, tmppath = mkstemp() xattr.setxattr(fd, 'user.swift.testing_key', big_val) except IOError as e: if errno.errorcode.get(e.errno) in ('ENOSPC', 'ENOTSUP', 'EOPNOTSUPP', 'ERANGE'): # filesystem does not support xattr of this size return False raise else: supports_xattr_cached_val = True return True finally: # clean up the tmpfile os.close(fd) os.unlink(tmppath) def skip_if_no_xattrs(): if not xattr_supported_check(): raise SkipTest('Large xattrs not supported in `%s`. Skipping test' % gettempdir()) def unlink_files(paths): for path in paths: try: os.unlink(path) except OSError as err: if err.errno != errno.ENOENT: raise class FakeHTTPResponse(object): def __init__(self, resp): self.resp = resp @property def status(self): return self.resp.status_int @property def data(self): return self.resp.body def attach_fake_replication_rpc(rpc, replicate_hook=None, errors=None): class FakeReplConnection(object): def __init__(self, node, partition, hash_, logger): self.logger = logger self.node = node self.partition = partition self.path = '/%s/%s/%s' % (node['device'], partition, hash_) self.host = node['replication_ip'] def replicate(self, op, *sync_args): print('REPLICATE: %s, %s, %r' % (self.path, op, sync_args)) resp = None if errors and op in errors and errors[op]: resp = errors[op].pop(0) if not resp: replicate_args = self.path.lstrip('/').split('/') args = [op] + copy.deepcopy(list(sync_args)) with mock_check_drive(isdir=not rpc.mount_check, ismount=rpc.mount_check): swob_response = rpc.dispatch(replicate_args, args) resp = FakeHTTPResponse(swob_response) if replicate_hook: replicate_hook(op, *sync_args) return resp return FakeReplConnection def group_by_byte(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 = (contents[i:i + 1] for i in range(len(contents))) return [ (char, sum(1 for _ in grp)) for char, grp in itertools.groupby(byte_iter)] def generate_db_path(tempdir, server_type): return os.path.join( tempdir, '%ss' % server_type, 'part', 'suffix', 'hash', '%s-%s.db' % (server_type, uuid4())) class ConfigAssertMixin(object): """ Use this with a TestCase to get py2/3 compatible assert for DuplicateOption """ def assertDuplicateOption(self, app_config, option_name, option_value): """ PY3 added a DuplicateOptionError, PY2 didn't seem to care """ if six.PY3: self.assertDuplicateOptionError(app_config, option_name) else: self.assertDuplicateOptionOK(app_config, option_name, option_value) def assertDuplicateOptionError(self, app_config, option_name): with self.assertRaises( configparser.DuplicateOptionError) as ctx: app_config() msg = str(ctx.exception) self.assertIn(option_name, msg) self.assertIn('already exists', msg) def assertDuplicateOptionOK(self, app_config, option_name, option_value): app = app_config() if hasattr(app, 'conf'): found_value = app.conf[option_name] else: if hasattr(app, '_pipeline_final_app'): # special case for proxy app! app = app._pipeline_final_app found_value = getattr(app, option_name) self.assertEqual(found_value, option_value) class FakeSource(object): def __init__(self, chunks, headers=None, body=b''): self.chunks = list(chunks) self.headers = headers or {} self.status = 200 self.swift_conn = None self.body = body def read(self, _read_size): if self.chunks: chunk = self.chunks.pop(0) if chunk is None: raise exceptions.ChunkReadTimeout() else: return chunk else: return self.body def getheader(self, header): # content-length for the whole object is generated dynamically # by summing non-None chunks if header.lower() == "content-length": if self.chunks: return str(sum(len(c) for c in self.chunks if c is not None)) return len(self.read(-1)) return self.headers.get(header.lower()) def getheaders(self): return [('content-length', self.getheader('content-length'))] + \ [(k, v) for k, v in self.headers.items()] class CaptureIterator(object): """ Wraps an iterable, forwarding all calls to the wrapped iterable but capturing the calls via a callback. This class may be used to observe garbage collection, so tests should not have to hold a reference to instances of this class because that would prevent them being garbage collected. Calls are therefore captured via a callback rather than being stashed locally. :param wrapped: an iterable to wrap. :param call_capture_callback: a function that will be called to capture calls to this iterator. """ def __init__(self, wrapped, call_capture_callback): self.call_capture_callback = call_capture_callback self.wrapped_iter = wrapped def _capture_call(self): # call home to capture the call self.call_capture_callback(inspect.stack()[1][3]) def __iter__(self): return self def next(self): self._capture_call() return next(self.wrapped_iter) __next__ = next def __del__(self): self._capture_call() def close(self): self._capture_call() close_if_possible(self.wrapped_iter) class CaptureIteratorFactory(object): """ Create instances of ``CaptureIterator`` to wrap a given iterable, and provides a callback function for the ``CaptureIterator`` to capture its calls. :param wrapped: an iterable to wrap. """ def __init__(self, wrapped): self.wrapped = wrapped self.instance_count = 0 self.captured_calls = defaultdict(list) def log_call(self, instance_number, call): self.captured_calls[instance_number].append(call) def __call__(self, *args, **kwargs): # note: do not keep a reference to the CaptureIterator because that # would prevent it being garbage collected self.instance_count += 1 return CaptureIterator( self.wrapped(*args, **kwargs), functools.partial(self.log_call, self.instance_count)) def get_node_error_stats(proxy_app, ring_node): node_key = proxy_app.error_limiter.node_key(ring_node) return proxy_app.error_limiter.stats.get(node_key) or {} def node_error_count(proxy_app, ring_node): # Reach into the proxy's internals to get the error count for a # particular node return get_node_error_stats(proxy_app, ring_node).get('errors', 0) def node_error_counts(proxy_app, ring_nodes): # Reach into the proxy's internals to get the error counts for a # list of nodes return sorted([get_node_error_stats(proxy_app, node).get('errors', 0) for node in ring_nodes], reverse=True) def node_last_error(proxy_app, ring_node): # Reach into the proxy's internals to get the last error for a # particular node return get_node_error_stats(proxy_app, ring_node).get('last_error') def set_node_errors(proxy_app, ring_node, value, last_error): # Set the node's error count to value node_key = proxy_app.error_limiter.node_key(ring_node) stats = {'errors': value, 'last_error': last_error} proxy_app.error_limiter.stats[node_key] = stats