""" Swift tests """ import os import copy import logging from sys import exc_info from contextlib import contextmanager from collections import defaultdict from tempfile import NamedTemporaryFile from eventlet.green import socket from tempfile import mkdtemp from shutil import rmtree from test import get_config from swift.common.utils import config_true_value from hashlib import md5 from eventlet import sleep, Timeout import logging.handlers from httplib import HTTPException class FakeRing(object): def __init__(self, replicas=3, max_more_nodes=0): # 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.replicas = replicas self.max_more_nodes = max_more_nodes self.devs = {} def set_replicas(self, replicas): self.replicas = replicas self.devs = {} @property def replica_count(self): return self.replicas def get_part(self, account, container=None, obj=None): return 1 def get_nodes(self, account, container=None, obj=None): devs = [] for x in xrange(self.replicas): devs.append(self.devs.get(x)) if devs[x] is None: self.devs[x] = devs[x] = \ {'ip': '10.0.0.%s' % x, 'port': 1000 + x, 'device': 'sd' + (chr(ord('a') + x)), 'zone': x % 3, 'region': x % 2, 'id': x} return 1, devs def get_part_nodes(self, part): return self.get_nodes('blah')[1] def get_more_nodes(self, part): # replicas^2 is the true cap for x in xrange(self.replicas, min(self.replicas + self.max_more_nodes, self.replicas * self.replicas)): yield {'ip': '10.0.0.%s' % x, 'port': 1000 + x, 'device': 'sda', 'zone': x % 3, 'region': x % 2, 'id': x} class FakeMemcache(object): def __init__(self): self.store = {} def get(self, key): return self.store.get(key) def keys(self): return self.store.keys() def set(self, key, value, time=0): self.store[key] = value return True def incr(self, key, time=0): self.store[key] = self.store.setdefault(key, 0) + 1 return self.store[key] @contextmanager def soft_lock(self, key, timeout=0, retries=5): yield True def delete(self, key): try: del self.store[key] except Exception: pass return True def readuntil2crlfs(fd): rv = '' lc = '' 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 == '\r' and lc != '\n': crlfs = 0 if lc == '\r' and c == '\n': crlfs += 1 lc = c return rv 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) xattr_data = {} def _get_inode(fd): if not isinstance(fd, int): try: fd = fd.fileno() except AttributeError: return os.stat(fd).st_ino return os.fstat(fd).st_ino def _setxattr(fd, k, v): inode = _get_inode(fd) data = xattr_data.get(inode, {}) data[k] = v xattr_data[inode] = data def _getxattr(fd, k): inode = _get_inode(fd) data = xattr_data.get(inode, {}).get(k) if not data: raise IOError return data import xattr xattr.setxattr = _setxattr xattr.getxattr = _getxattr @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) class NullLoggingHandler(logging.Handler): def emit(self, record): pass class FakeLogger(object): # a thread safe logger def __init__(self, *args, **kwargs): self._clear() self.level = logging.NOTSET if 'facility' in kwargs: self.facility = kwargs['facility'] def _clear(self): self.log_dict = defaultdict(list) def _store_in(store_name): def stub_fn(self, *args, **kwargs): self.log_dict[store_name].append((args, kwargs)) return stub_fn error = _store_in('error') info = _store_in('info') warning = _store_in('warning') debug = _store_in('debug') def exception(self, *args, **kwargs): self.log_dict['exception'].append((args, kwargs, str(exc_info()[1]))) print 'FakeLogger Exception: %s' % self.log_dict # mock out the StatsD logging methods: increment = _store_in('increment') decrement = _store_in('decrement') timing = _store_in('timing') timing_since = _store_in('timing_since') update_stats = _store_in('update_stats') set_statsd_prefix = _store_in('set_statsd_prefix') def get_increments(self): return [call[0][0] for call in self.log_dict['increment']] def get_increment_counts(self): counts = {} for metric in self.get_increments(): if metric not in counts: counts[metric] = 0 counts[metric] += 1 return counts def setFormatter(self, obj): self.formatter = obj def close(self): self._clear() def set_name(self, name): # don't touch _handlers self._name = name def acquire(self): pass def release(self): pass def createLock(self): pass def emit(self, record): pass def handle(self, record): pass def flush(self): pass def handleError(self, record): pass 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 config_true_value(get_config('unit_test').get('fake_syslog', 'False')): fake_syslog_handler() class MockTrue(object): """ Instances of MockTrue evaluate like True Any attr accessed on an instance of MockTrue will return a MockTrue instance. Any method called on an instance of MockTrue will return a MockTrue instance. >>> thing = MockTrue() >>> thing True >>> thing == True # True == True True >>> thing == False # True == False False >>> thing != True # True != True False >>> thing != False # True != False True >>> thing.attribute True >>> thing.method() True >>> thing.attribute.method() True >>> thing.method().attribute True """ def __getattribute__(self, *args, **kwargs): return self def __call__(self, *args, **kwargs): return self def __repr__(*args, **kwargs): return repr(True) def __eq__(self, other): return other is True def __ne__(self, other): return other is not True @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) yield True for module, attr, value in returns: setattr(module, attr, value) for module, attr in deletes: delattr(module, attr) def fake_http_connect(*code_iter, **kwargs): class FakeConn(object): def __init__(self, status, etag=None, body='', timestamp='1', expect_status=None, headers=None): self.status = status if expect_status is None: self.expect_status = self.status else: self.expect_status = expect_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.timestamp = timestamp def getresponse(self): if kwargs.get('raise_exc'): raise Exception('test') if kwargs.get('raise_timeout_exc'): raise Timeout() return self def getexpect(self): if self.expect_status == -2: raise HTTPException() if self.expect_status == -3: return FakeConn(507) if self.expect_status == -4: return FakeConn(201) return FakeConn(100) def getheaders(self): etag = self.etag if not etag: if isinstance(self.body, str): etag = '"' + md5(self.body).hexdigest() + '"' else: etag = '"68b329da9893e34099c7d8ad5cb9c940"' headers = {'content-length': len(self.body), 'content-type': 'x-application/test', 'x-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: del headers['x-timestamp'] try: if container_ts_iter.next() is False: headers['x-container-timestamp'] = '1' except StopIteration: pass if 'slow' in kwargs: headers['content-length'] = '4' headers.update(self.headers) return headers.items() def read(self, amt=None): if 'slow' in kwargs: if self.sent < 4: self.sent += 1 sleep(0.1) return ' ' rv = self.body[:amt] self.body = self.body[amt:] return rv def send(self, amt=None): if 'slow' in kwargs: if self.received < 4: self.received += 1 sleep(0.1) def getheader(self, name, default=None): return dict(self.getheaders()).get(name.lower(), 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): headers_iter = iter(kwargs['headers']) else: headers_iter = iter([kwargs.get('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) static_body = kwargs.get('body', None) body_iter = kwargs.get('body_iter', None) if body_iter: body_iter = iter(body_iter) def connect(*args, **ckwargs): 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']('') if 'give_connect' in kwargs: kwargs['give_connect'](*args, **ckwargs) status = code_iter.next() if isinstance(status, tuple): status, expect_status = status else: expect_status = status etag = etag_iter.next() headers = headers_iter.next() timestamp = timestamps_iter.next() if status <= 0: raise HTTPException() if body_iter is None: body = static_body or '' else: body = body_iter.next() return FakeConn(status, etag, body=body, timestamp=timestamp, expect_status=expect_status, headers=headers) return connect