def _inner(): if initial_delay: greenthread.sleep(initial_delay) try: while self._running: start = timeutils.utcnow() self.f(*self.args, **self.kw) end = timeutils.utcnow() if not self._running: break delay = interval - timeutils.delta_seconds(start, end) if delay <= 0: LOG.warn(_LW('task run outlasted interval by %s sec') % -delay) greenthread.sleep(delay if delay > 0 else 0) except LoopingCallDone as e: self.stop() done.send(e.retvalue) except Exception: LOG.exception(_LE('in fixed duration looping call')) done.send_exception(*sys.exc_info()) return else: done.send(True)
def _mysql_check_effective_sql_mode(engine): """Logs a message based on the effective SQL mode for MySQL connections.""" realmode = _mysql_get_effective_sql_mode(engine) if realmode is None: LOG.warning(_LW('Unable to detect effective SQL mode')) return LOG.debug('MySQL server mode set to %s', realmode) # 'TRADITIONAL' mode enables several other modes, so # we need a substring match here if not ('TRADITIONAL' in realmode.upper() or 'STRICT_ALL_TABLES' in realmode.upper()): LOG.warning(_LW("MySQL SQL mode is '%s', " "consider enabling TRADITIONAL or STRICT_ALL_TABLES"), realmode)
def _wait_child(self): try: # Don't block if no child processes have exited pid, status = os.waitpid(0, os.WNOHANG) if not pid: return None except OSError as exc: if exc.errno not in (errno.EINTR, errno.ECHILD): raise return None if os.WIFSIGNALED(status): sig = os.WTERMSIG(status) LOG.info(_LI('Child %(pid)d killed by signal %(sig)d'), dict(pid=pid, sig=sig)) else: code = os.WEXITSTATUS(status) LOG.info(_LI('Child %(pid)s exited with status %(code)d'), dict(pid=pid, code=code)) if pid not in self.children: LOG.warning(_LW('pid %d not in child list'), pid) return None wrap = self.children.pop(pid) wrap.children.remove(pid) return wrap
def _ping_listener(engine, dbapi_conn, connection_rec, connection_proxy): """Ensures that MySQL and DB2 connections are alive. Borrowed from: http://groups.google.com/group/sqlalchemy/msg/a4ce563d802c929f """ cursor = dbapi_conn.cursor() try: ping_sql = 'select 1' if engine.name == 'ibm_db_sa': # DB2 requires a table expression ping_sql = 'select 1 from (values (1)) AS t1' cursor.execute(ping_sql) except Exception as ex: if engine.dialect.is_disconnect(ex, dbapi_conn, cursor): msg = _LW('Database server has gone away: %s') % ex LOG.warning(msg) # if the database server has gone away, all connections in the pool # have become invalid and we can safely close all of them here, # rather than waste time on checking of every single connection engine.dispose() # this will be handled by SQLAlchemy and will force it to create # a new connection and retry the original action raise sqla_exc.DisconnectionError(msg) else: raise
def _inner(): if initial_delay: greenthread.sleep(initial_delay) try: while self._running: start = timeutils.utcnow() self.f(*self.args, **self.kw) end = timeutils.utcnow() if not self._running: break delay = interval - timeutils.delta_seconds(start, end) if delay <= 0: LOG.warn( _LW('task run outlasted interval by %s sec') % -delay) greenthread.sleep(delay if delay > 0 else 0) except LoopingCallDone as e: self.stop() done.send(e.retvalue) except Exception: LOG.exception(_LE('in fixed duration looping call')) done.send_exception(*sys.exc_info()) return else: done.send(True)
def run(self, key): if not self._ring_has(key): LOG.warn( _LW("No key defining hosts for topic '%s', " "see ringfile") % (key, ) ) return [] host = next(self.ring0[key]) return [(key + '.' + host, host)]
def run(self, key): # Assume starts with "fanout~", strip it for lookup. nkey = key.split('fanout~')[1:][0] if not self._ring_has(nkey): LOG.warn( _LW("No key defining hosts for topic '%s', " "see ringfile") % (nkey, ) ) return [] return map(lambda x: (key + '.' + x, x), self.ring[nkey])
def create_engine(sql_connection, sqlite_fk=False, mysql_sql_mode=None, idle_timeout=3600, connection_debug=0, max_pool_size=None, max_overflow=None, pool_timeout=None, sqlite_synchronous=True, connection_trace=False, max_retries=10, retry_interval=10): """Return a new SQLAlchemy engine.""" connection_dict = sqlalchemy.engine.url.make_url(sql_connection) engine_args = { "pool_recycle": idle_timeout, 'convert_unicode': True, } logger = logging.getLogger('sqlalchemy.engine') # Map SQL debug level to Python log level if connection_debug >= 100: logger.setLevel(logging.DEBUG) elif connection_debug >= 50: logger.setLevel(logging.INFO) else: logger.setLevel(logging.WARNING) if "sqlite" in connection_dict.drivername: if sqlite_fk: engine_args["listeners"] = [SqliteForeignKeysListener()] engine_args["poolclass"] = NullPool if sql_connection == "sqlite://": engine_args["poolclass"] = StaticPool engine_args["connect_args"] = {'check_same_thread': False} else: if max_pool_size is not None: engine_args['pool_size'] = max_pool_size if max_overflow is not None: engine_args['max_overflow'] = max_overflow if pool_timeout is not None: engine_args['pool_timeout'] = pool_timeout engine = sqlalchemy.create_engine(sql_connection, **engine_args) sqlalchemy.event.listen(engine, 'checkin', _thread_yield) if engine.name in ['mysql', 'ibm_db_sa']: ping_callback = functools.partial(_ping_listener, engine) sqlalchemy.event.listen(engine, 'checkout', ping_callback) if engine.name == 'mysql': if mysql_sql_mode: _mysql_set_mode_callback(engine, mysql_sql_mode) elif 'sqlite' in connection_dict.drivername: if not sqlite_synchronous: sqlalchemy.event.listen(engine, 'connect', _synchronous_switch_listener) sqlalchemy.event.listen(engine, 'connect', _add_regexp_listener) if connection_trace and engine.dialect.dbapi.__name__ == 'MySQLdb': _patch_mysqldb_with_stacktrace_comments() try: engine.connect() except sqla_exc.OperationalError as e: if not _is_db_connection_error(e.args[0]): raise remaining = max_retries if remaining == -1: remaining = 'infinite' while True: msg = _LW('SQL connection failed. %s attempts left.') LOG.warning(msg % remaining) if remaining != 'infinite': remaining -= 1 time.sleep(retry_interval) try: engine.connect() break except sqla_exc.OperationalError as e: if (remaining != 'infinite' and remaining == 0) or \ not _is_db_connection_error(e.args[0]): raise return engine
def paginate_query(query, model, limit, sort_keys, marker=None, sort_dir=None, sort_dirs=None): """Returns a query with sorting / pagination criteria added. Pagination works by requiring a unique sort_key, specified by sort_keys. (If sort_keys is not unique, then we risk looping through values.) We use the last row in the previous page as the 'marker' for pagination. So we must return values that follow the passed marker in the order. With a single-valued sort_key, this would be easy: sort_key > X. With a compound-values sort_key, (k1, k2, k3) we must do this to repeat the lexicographical ordering: (k1 > X1) or (k1 == X1 && k2 > X2) or (k1 == X1 && k2 == X2 && k3 > X3) We also have to cope with different sort_directions. Typically, the id of the last row is used as the client-facing pagination marker, then the actual marker object must be fetched from the db and passed in to us as marker. :param query: the query object to which we should add paging/sorting :param model: the ORM model class :param limit: maximum number of items to return :param sort_keys: array of attributes by which results should be sorted :param marker: the last item of the previous page; we returns the next results after this value. :param sort_dir: direction in which results should be sorted (asc, desc) :param sort_dirs: per-column array of sort_dirs, corresponding to sort_keys :rtype: sqlalchemy.orm.query.Query :return: The query with sorting/pagination added. """ if 'id' not in sort_keys: # TODO(justinsb): If this ever gives a false-positive, check # the actual primary key, rather than assuming its id LOG.warning(_LW('Id not in sort_keys; is sort_keys unique?')) assert (not (sort_dir and sort_dirs)) # Default the sort direction to ascending if sort_dirs is None and sort_dir is None: sort_dir = 'asc' # Ensure a per-column sort direction if sort_dirs is None: sort_dirs = [sort_dir for _sort_key in sort_keys] assert (len(sort_dirs) == len(sort_keys)) # Add sorting for current_sort_key, current_sort_dir in zip(sort_keys, sort_dirs): try: sort_dir_func = { 'asc': sqlalchemy.asc, 'desc': sqlalchemy.desc, }[current_sort_dir] except KeyError: raise ValueError( _("Unknown sort direction, " "must be 'desc' or 'asc'")) try: sort_key_attr = getattr(model, current_sort_key) except AttributeError: raise InvalidSortKey() query = query.order_by(sort_dir_func(sort_key_attr)) # Add pagination if marker is not None: marker_values = [] for sort_key in sort_keys: v = getattr(marker, sort_key) marker_values.append(v) # Build up an array of sort criteria as in the docstring criteria_list = [] for i in range(len(sort_keys)): crit_attrs = [] for j in range(i): model_attr = getattr(model, sort_keys[j]) crit_attrs.append((model_attr == marker_values[j])) model_attr = getattr(model, sort_keys[i]) if sort_dirs[i] == 'desc': crit_attrs.append((model_attr < marker_values[i])) else: crit_attrs.append((model_attr > marker_values[i])) criteria = sqlalchemy.sql.and_(*crit_attrs) criteria_list.append(criteria) f = sqlalchemy.sql.or_(*criteria_list) query = query.filter(f) if limit is not None: query = query.limit(limit) return query
def paginate_query(query, model, limit, sort_keys, marker=None, sort_dir=None, sort_dirs=None): """Returns a query with sorting / pagination criteria added. Pagination works by requiring a unique sort_key, specified by sort_keys. (If sort_keys is not unique, then we risk looping through values.) We use the last row in the previous page as the 'marker' for pagination. So we must return values that follow the passed marker in the order. With a single-valued sort_key, this would be easy: sort_key > X. With a compound-values sort_key, (k1, k2, k3) we must do this to repeat the lexicographical ordering: (k1 > X1) or (k1 == X1 && k2 > X2) or (k1 == X1 && k2 == X2 && k3 > X3) We also have to cope with different sort_directions. Typically, the id of the last row is used as the client-facing pagination marker, then the actual marker object must be fetched from the db and passed in to us as marker. :param query: the query object to which we should add paging/sorting :param model: the ORM model class :param limit: maximum number of items to return :param sort_keys: array of attributes by which results should be sorted :param marker: the last item of the previous page; we returns the next results after this value. :param sort_dir: direction in which results should be sorted (asc, desc) :param sort_dirs: per-column array of sort_dirs, corresponding to sort_keys :rtype: sqlalchemy.orm.query.Query :return: The query with sorting/pagination added. """ if 'id' not in sort_keys: # TODO(justinsb): If this ever gives a false-positive, check # the actual primary key, rather than assuming its id LOG.warning(_LW('Id not in sort_keys; is sort_keys unique?')) assert(not (sort_dir and sort_dirs)) # Default the sort direction to ascending if sort_dirs is None and sort_dir is None: sort_dir = 'asc' # Ensure a per-column sort direction if sort_dirs is None: sort_dirs = [sort_dir for _sort_key in sort_keys] assert(len(sort_dirs) == len(sort_keys)) # Add sorting for current_sort_key, current_sort_dir in zip(sort_keys, sort_dirs): try: sort_dir_func = { 'asc': sqlalchemy.asc, 'desc': sqlalchemy.desc, }[current_sort_dir] except KeyError: raise ValueError(_("Unknown sort direction, " "must be 'desc' or 'asc'")) try: sort_key_attr = getattr(model, current_sort_key) except AttributeError: raise InvalidSortKey() query = query.order_by(sort_dir_func(sort_key_attr)) # Add pagination if marker is not None: marker_values = [] for sort_key in sort_keys: v = getattr(marker, sort_key) marker_values.append(v) # Build up an array of sort criteria as in the docstring criteria_list = [] for i in range(len(sort_keys)): crit_attrs = [] for j in range(i): model_attr = getattr(model, sort_keys[j]) crit_attrs.append((model_attr == marker_values[j])) model_attr = getattr(model, sort_keys[i]) if sort_dirs[i] == 'desc': crit_attrs.append((model_attr < marker_values[i])) else: crit_attrs.append((model_attr > marker_values[i])) criteria = sqlalchemy.sql.and_(*crit_attrs) criteria_list.append(criteria) f = sqlalchemy.sql.or_(*criteria_list) query = query.filter(f) if limit is not None: query = query.limit(limit) return query